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AltitudeTM 3500 Series Access Point Product Reference Guide Software Version 2.6 Extreme Networks, Inc. 3585 Monroe Street Santa Clara, California 95051 (888) 257-3000 (408) 579-2800 http://www.extremenetworks.com Published: February 2012 Part Number: 120759-00 Rev 01 AccessAdapt, Alpine, Altitude, BlackDiamond, Direct Attach, EPICenter, ExtremeWorks Essentials, Ethernet Everywhere, Extreme Enabled, Extreme Ethernet Everywhere, Extreme Networks, Extreme Standby Router Protocol, Extreme Turbodrive, Extreme Velocity, ExtremeWare, ExtremeWorks, ExtremeXOS, Go Purple Extreme Solution, ExtremeXOS ScreenPlay, ReachNXT, Ridgeline, Sentriant, ServiceWatch, Summit, SummitStack, Triumph, Unified Access Architecture, Unified Access RF Manager, UniStack, XNV, the Extreme Networks logo, the Alpine logo, the BlackDiamond logo, the Extreme Turbodrive logo, the Summit logos, and the Powered by ExtremeXOS logo are trademarks or registered trademarks of Extreme Networks, Inc. or its subsidiaries in the United States and/or other countries. sFlow is the property of InMon Corporation. Specifications are subject to change without notice. All other registered trademarks, trademarks, and service marks are property of their respective owners. © 2010-2011 Extreme Networks, Inc. All Rights Reserved. Altitude 3500 Series Access Point Product Reference Guide 2 Table of Contents About This Guide...................................................................................................................................... 11 Introduction.............................................................................................................................................................11 Document Conventions ..........................................................................................................................................11 Notational Conventions ..........................................................................................................................................11 Chapter 1: Introduction............................................................................................................................ 13 New Features .........................................................................................................................................................14 WIPS Support .................................................................................................................................................14 Trusted Host Management..............................................................................................................................14 Apache Certificate Management .....................................................................................................................15 Adaptive AP ....................................................................................................................................................15 Rogue AP Detection Enhancement ................................................................................................................15 RADIUS Time-Based Authentication...............................................................................................................15 QBSS Support.................................................................................................................................................16 Feature Overview ...................................................................................................................................................16 Single or Dual Mode Radio Options ................................................................................................................17 Separate LAN and WAN Ports ........................................................................................................................17 Multiple Mounting Options...............................................................................................................................17 Antenna Support for 2.4 GHz and 5 GHz Radios ...........................................................................................17 Sixteen Configurable WLANs..........................................................................................................................18 Support for 4 BSSIDs per Radio .....................................................................................................................18 Quality of Service (QoS) Support ....................................................................................................................18 Industry Leading Data Security .......................................................................................................................19 Kerberos Authentication...........................................................................................................................19 EAP Authentication ..................................................................................................................................20 WEP Encryption .......................................................................................................................................20 KeyGuard Encryption ...............................................................................................................................21 Wi-Fi Protected Access (WPA) Using TKIP Encryption ...........................................................................21 WPA2-CCMP (802.11i) Encryption ..........................................................................................................21 Firewall Security.......................................................................................................................................21 VPN Tunnels ............................................................................................................................................22 Content Filtering.......................................................................................................................................22 VLAN Support .................................................................................................................................................22 Multiple Management Accessibility Options ....................................................................................................22 Updatable Firmware ........................................................................................................................................23 Programmable SNMP v1/v2/v3 Trap Support .................................................................................................23 Power-over-Ethernet Support .........................................................................................................................23 MU-MU Transmission Disallow .......................................................................................................................23 Voice Prioritization ..........................................................................................................................................24 Support for CAM and PSP MUs ......................................................................................................................24 Statistical Displays ..........................................................................................................................................24 Transmit Power Control ..................................................................................................................................25 Advanced Event Logging Capability ...............................................................................................................25 Configuration File Import/Export Functionality ................................................................................................25 Default Configuration Restoration ...................................................................................................................25 DHCP Support ................................................................................................................................................25 Multi-Function LEDs ........................................................................................................................................26 Mesh Networking ............................................................................................................................................26 Additional LAN Subnet ....................................................................................................................................27 Altitude 3500 Series Access Point Product Reference Guide 3 On-board RADIUS Server Authentication .......................................................................................................27 Hotspot Support ..............................................................................................................................................27 Routing Information Protocol (RIP) .................................................................................................................28 Manual Date and Time Settings ......................................................................................................................28 Dynamic DNS..................................................................................................................................................28 Auto Negotiation..............................................................................................................................................28 Theory of Operations..............................................................................................................................................28 Wireless Coverage ..........................................................................................................................................29 MAC Layer Bridging ........................................................................................................................................30 Media Types....................................................................................................................................................30 Direct-Sequence Spread Spectrum ................................................................................................................30 MU Association Process .................................................................................................................................31 Operating Modes.............................................................................................................................................32 Management Access Options .........................................................................................................................32 Altitude 35xx MAC Address Assignment.........................................................................................................32 Chapter 2: Hardware Installation ............................................................................................................ 35 Precautions ............................................................................................................................................................35 Available Product Configurations ...........................................................................................................................36 Altitude 3510 Configurations ...........................................................................................................................36 Altitude 3550 Configurations ...........................................................................................................................36 Requirements .........................................................................................................................................................37 Access Point Placement.........................................................................................................................................37 Site Surveys ....................................................................................................................................................38 Antenna Options .............................................................................................................................................38 Altitude 3510 Antenna Options ................................................................................................................38 Altitude 3550 Antenna Options ................................................................................................................39 Power Options ........................................................................................................................................................39 Altitude 3510 Power Options...........................................................................................................................39 Altitude 3550 Power Options...........................................................................................................................39 Power Tap Systems ...............................................................................................................................................40 Installing the Power Tap..................................................................................................................................40 Preparing for Site Installation ...................................................................................................................40 Cabling the Power Tap ............................................................................................................................41 Mounting an Altitude 3510......................................................................................................................................41 Desk Mounted Installations .............................................................................................................................42 Wall Mounted Installations ..............................................................................................................................43 Suspended Ceiling T-Bar Installations ............................................................................................................44 Above the Ceiling (Plenum) Installations.........................................................................................................46 Altitude 3510 LED Indicators ..................................................................................................................................48 Mounting an Altitude 3550......................................................................................................................................49 Altitude 3550 Pole Mounted Installations ........................................................................................................50 Altitude 3550 Wall Mounted Installations ........................................................................................................52 Altitude 3550 LED Indicators ..................................................................................................................................54 Setting Up MUs ......................................................................................................................................................54 Chapter 3: Getting Started....................................................................................................................... 55 Installing the Access Point .....................................................................................................................................55 Configuration Options.............................................................................................................................................56 Initially Connecting to the Access Point..................................................................................................................56 Connecting to the Access Point using the WAN Port......................................................................................56 Connecting to the Access Point using the LAN Port .......................................................................................57 Basic Device Configuration ....................................................................................................................................57 Configuring Device Settings ............................................................................................................................59 Configuring WLAN Security Settings .......................................................................................................63 Testing Connectivity ........................................................................................................................................64 Altitude 3500 Series Access Point Product Reference Guide 4 Where to Go from Here? .................................................................................................................................65 Chapter 4: System Configuration ...........................................................................................................67 Configuring System Settings ..................................................................................................................................68 Adaptive AP Setup .................................................................................................................................................70 Configuring Data Access ........................................................................................................................................72 Defining Trusted Hosts....................................................................................................................................76 Managing Certificate Authority (CA) Certificates ....................................................................................................78 Importing a CA Certificate ...............................................................................................................................78 Creating Self Certificates for Accessing the VPN............................................................................................79 Creating a Certificate for Onboard RADIUS Authentication ............................................................................82 Apache Certificate Management .....................................................................................................................84 Configuring SNMP Settings....................................................................................................................................86 Configuring SNMP Access Control .................................................................................................................90 Enabling SNMP Traps.....................................................................................................................................92 Configuring Specific SNMP Traps...................................................................................................................94 Configuring SNMP RF Trap Thresholds..........................................................................................................96 Configuring Network Time Protocol (NTP) .............................................................................................................98 Configuring LLDP Settings ...................................................................................................................................100 Logging Configuration ..........................................................................................................................................102 Importing/Exporting Configurations ......................................................................................................................103 Updating Device Firmware ...................................................................................................................................107 Chapter 5: Network Management..........................................................................................................113 Configuring the LAN Interface ..............................................................................................................................113 Configuring VLAN Support ............................................................................................................................116 Configuring LAN1 and LAN2 Settings ...........................................................................................................119 Configuring Advanced DHCP Server Settings .......................................................................................122 Setting the Type Filter Configuration .....................................................................................................123 Configuring WAN Settings....................................................................................................................................125 Configuring Network Address Translation (NAT) Settings ............................................................................129 Configuring Port Forwarding ..................................................................................................................130 Configuring Dynamic DNS ............................................................................................................................132 Enabling Wireless LANs (WLANs) .......................................................................................................................133 Creating/Editing Individual WLANs ...............................................................................................................135 Configuring WLAN Security Policies ......................................................................................................138 Configuring a WLAN Access Control List (ACL) ....................................................................................139 Setting the WLAN Quality of Service (QoS) Policy ................................................................................142 Configuring WLAN Hotspot Support ......................................................................................................146 Setting the WLAN’s Radio Configuration ......................................................................................................150 Configuring the 802.11a or 802.11b/g Radio .........................................................................................154 Configuring WIPS Server Settings .......................................................................................................................161 Configuring Router Settings .................................................................................................................................163 Setting the RIP Configuration........................................................................................................................165 Configuring IP Filtering .........................................................................................................................................166 Chapter 6: Configuring Access Point Security....................................................................................169 Configuring Security Options................................................................................................................................169 Setting Passwords................................................................................................................................................170 Resetting the Access Point Password ..........................................................................................................171 Enabling Authentication and Encryption Schemes...............................................................................................172 Configuring Kerberos Authentication....................................................................................................................174 Configuring 802.1x EAP Authentication ...............................................................................................................176 Configuring WEP Encryption ................................................................................................................................179 Configuring KeyGuard Encryption ........................................................................................................................181 Altitude 3500 Series Access Point Product Reference Guide 5 Configuring WPA/WPA2 Using TKIP....................................................................................................................183 Configuring WPA2-CCMP (802.11i) .....................................................................................................................185 Configuring Firewall Settings................................................................................................................................188 Configuring LAN to WAN Access ..................................................................................................................189 Available Protocols ................................................................................................................................192 Configuring Advanced Subnet Access ..........................................................................................................192 Configuring VPN Tunnels .....................................................................................................................................194 Configuring Manual Key Settings ..................................................................................................................197 Configuring Auto Key Settings ......................................................................................................................200 Configuring IKE Key Settings ........................................................................................................................202 Viewing VPN Status ......................................................................................................................................205 Configuring Content Filtering Settings..................................................................................................................207 Configuring Rogue AP Detection .........................................................................................................................210 Moving Rogue APs to the Allowed AP List ...................................................................................................213 Displaying Rogue AP Details .................................................................................................................214 Using MUs to Detect Rogue Devices ............................................................................................................216 Configuring User Authentication...........................................................................................................................217 Configuring the Radius Server ......................................................................................................................217 Configuring LDAP Authentication..................................................................................................................220 Configuring a Proxy Radius Server ...............................................................................................................222 Managing the Local User Database ..............................................................................................................224 Mapping Users to Groups ......................................................................................................................225 Defining User Access Permissions by Group................................................................................................226 Editing Group Access Permissions ........................................................................................................228 Chapter 7: Monitoring Statistics ...........................................................................................................231 Viewing WAN Statistics ........................................................................................................................................231 Viewing LAN Statistics .........................................................................................................................................234 Viewing a LAN’s STP Statistics.....................................................................................................................236 Viewing Wireless Statistics...................................................................................................................................239 Viewing WLAN Statistics ...............................................................................................................................240 Viewing Radio Statistics Summary.......................................................................................................................243 Viewing Radio Statistics ................................................................................................................................245 Retry Histogram .....................................................................................................................................247 Viewing MU Statistics Summary...........................................................................................................................248 Viewing MU Details .......................................................................................................................................250 Pinging Individual MUs..................................................................................................................................252 MU Authentication Statistics .........................................................................................................................253 Viewing the Mesh Statistics Summary .................................................................................................................253 Viewing Known Access Point Statistics................................................................................................................254 Chapter 8: CLI Reference.......................................................................................................................259 Connecting to the CLI ..........................................................................................................................................259 Accessing the CLI through the Serial Port ....................................................................................................259 Accessing the CLI via Telnet.........................................................................................................................260 Admin and Common Commands .........................................................................................................................260 Network Commands .............................................................................................................................................268 Network LAN Commands..............................................................................................................................268 Network LAN, Bridge Commands ..........................................................................................................272 Network LAN, WLAN-Mapping Commands ...........................................................................................275 Network LAN, DHCP Commands ..........................................................................................................283 Network Type Filter Commands.............................................................................................................289 Network WAN Commands ............................................................................................................................294 Network WAN NAT Commands .............................................................................................................297 Network WAN, VPN Commands............................................................................................................303 Network WAN Content commands ........................................................................................................312 Altitude 3500 Series Access Point Product Reference Guide 6 Network WAN, Dynamic DNS Commands.............................................................................................316 Network Wireless Commands .......................................................................................................................320 Network WLAN Commands ...................................................................................................................321 Network Security Commands ................................................................................................................334 Network ACL Commands ......................................................................................................................346 Network Radio Configuration Commands..............................................................................................351 Network Quality of Service (QoS) Commands.......................................................................................370 Network Wireless Rate-Limiting Commands..........................................................................................375 Network Rogue-AP Commands .............................................................................................................378 WIPS Commands ..................................................................................................................................388 Network MU Locationing Commands.....................................................................................................391 Network Firewall Commands ........................................................................................................................394 Network Router Commands ..........................................................................................................................399 System Commands ..............................................................................................................................................405 Adaptive AP Setup Commands.....................................................................................................................411 System Access Commands ..........................................................................................................................418 System Certificate Management Commands................................................................................................421 System SNMP Commands............................................................................................................................434 System SNMP Access Commands........................................................................................................434 System SNMP Traps Commands ..........................................................................................................439 System User Database Commands ..............................................................................................................445 Adding and Removing Users from the User Database ..........................................................................446 Adding and Removing Groups from the User Database........................................................................451 System RADIUS Commands ........................................................................................................................458 System Network Time Protocol (NTP) Commands .......................................................................................481 System Log Commands ................................................................................................................................486 System Configuration-Update Commands....................................................................................................492 Firmware Update Commands .......................................................................................................................499 Statistics Commands............................................................................................................................................503 Chapter 9: Configuring Mesh Networking............................................................................................519 Mesh Networking Overview..................................................................................................................................519 The Altitude 35xx Client Bridge Association Process....................................................................................520 Client Bridge Configuration Process Example .......................................................................................521 Spanning Tree Protocol (STP) ......................................................................................................................521 Defining the Mesh Topology .........................................................................................................................521 Mesh Networking and the Altitude 35xx’s Two Subnets ...............................................................................522 Normal Operation ..........................................................................................................................................522 Impact of Importing/Exporting Configurations to a Mesh Network ................................................................522 Configuring Mesh Networking Support.................................................................................................................523 Setting the LAN Configuration for Mesh Networking Support .......................................................................523 Configuring a WLAN for Mesh Networking Support ......................................................................................525 Configuring the Access Point Radio for Mesh Support .................................................................................528 Mesh Network Deployment—Quick Setup ...........................................................................................................534 Scenario 1—Two Base Bridges and One Client Bridge ................................................................................534 Configuring AP#1: ..................................................................................................................................535 Configuring AP#2 ...................................................................................................................................540 Configuring AP#3 ...................................................................................................................................541 Verifying Mesh Network Functionality for Scenario #1...........................................................................544 Scenario 2—Two Hop Mesh Network with a Base Bridge Repeater and a Client Bridge.............................545 Configuring AP#1 ...................................................................................................................................545 Configuring AP#2 ...................................................................................................................................545 Configuring AP#3 ...................................................................................................................................547 Verifying Mesh Network Functionality for Scenario #2...........................................................................548 Mesh Networking Frequently Asked Questions....................................................................................................548 Altitude 3500 Series Access Point Product Reference Guide 7 Chapter 10: Adaptive AP........................................................................................................................551 Adaptive AP Overview..........................................................................................................................................551 Where to Go From Here................................................................................................................................552 Adaptive AP Management ............................................................................................................................552 Types of Adaptive APs ..................................................................................................................................553 Licensing .......................................................................................................................................................553 Controller Discovery ......................................................................................................................................553 Auto Discovery using DHCP ..................................................................................................................553 Manual Adoption Configuration..............................................................................................................554 Securing a Configuration Channel Between Controller and AP ....................................................................554 Adaptive AP WLAN Topology .......................................................................................................................555 Configuration Updates ..................................................................................................................................555 Securing Data Tunnels between the Controller and AAP .............................................................................555 Adaptive AP Controller Failure ......................................................................................................................555 Remote Site Survivability (RSS)....................................................................................................................556 Adaptive Mesh Support .................................................................................................................................556 Supported Adaptive AP Topologies .....................................................................................................................557 Topology Deployment Considerations ..........................................................................................................557 Extended WLANs Only .................................................................................................................................558 Independent WLANs Only.............................................................................................................................558 Extended WLANs with Independent WLANs ................................................................................................558 Extended WLAN with Mesh Networking........................................................................................................558 How the AP Receives Its Adaptive Configuration.................................................................................................559 Adaptive AP Prerequisites ............................................................................................................................559 Configuring the Adaptive AP for Adoption by the Controller .........................................................................559 Configuring the Controller for Adaptive AP Adoption ....................................................................................560 Establishing Basic Adaptive AP Connectivity .......................................................................................................560 Adaptive AP Configuration ............................................................................................................................560 Adopting an Adaptive AP Manually........................................................................................................561 Adopting an Adaptive AP Using a Configuration File.............................................................................562 Adopting an Adaptive AP Using DHCP Options ....................................................................................562 Controller Configuration ................................................................................................................................562 Adaptive AP Deployment Considerations .....................................................................................................565 Sample Controller Configuration File for IPSec and Independent WLAN .....................................................566 Appendix A: Technical Specifications .................................................................................................571 Physical Characteristics .......................................................................................................................................571 Altitude 3510 Physical Characteristics ..........................................................................................................571 Altitude 3550 Physical Characteristics ..........................................................................................................572 Electrical Characteristics ......................................................................................................................................572 Radio Characteristics ...........................................................................................................................................573 Antenna Specifications .........................................................................................................................................573 Altitude 3510 Antenna Specifications............................................................................................................573 Altitude 3550 Antenna Specifications............................................................................................................574 Country Codes .....................................................................................................................................................574 Appendix B: Usage Scenarios ..............................................................................................................577 Configuring Automatic Updates using a DHCP or Linux BootP Server................................................................577 Windows—DHCP Server Configuration ........................................................................................................578 Embedded Options—Using Option 43 ...................................................................................................578 Global Options—Using Extended/Standard Options .............................................................................579 DHCP Priorities ......................................................................................................................................581 Linux—BootP Server Configuration ..............................................................................................................581 BootP Options ........................................................................................................................................581 BootP Priorities ......................................................................................................................................583 Configuring an IPSEC Tunnel and VPN FAQs.....................................................................................................583 Configuring a VPN Tunnel Between Two Access Points ..............................................................................584 Altitude 3500 Series Access Point Product Reference Guide 8 Configuring a Cisco VPN Device...................................................................................................................586 Frequently Asked VPN Questions.................................................................................................................587 Appendix C: Customer Support............................................................................................................593 Registration ..........................................................................................................................................................593 Documentation .....................................................................................................................................................593 Altitude 3500 Series Access Point Product Reference Guide 9 Altitude 3500 Series Access Point Product Reference Guide 10 About This Guide Introduction This guide provides configuration and setup information for the Extreme Networks® Altitude™ 3510 Access Point and Altitude 3550 Access Point. NOTE Check for the latest versions of documentation on the Extreme Networks documentation website at: http://www.extremenetworks.com/go/documentation. For the purposes of this guide, the devices will be called the generic term “access point” when identical configuration activities are applied to both models. When command line interface (CLI) commands are displayed, and apply to both models, a “35xx” convention is used. Document Conventions The following document conventions are used in this document: NOTE Indicate tips or special requirements. CAUTION Indicates conditions that can cause equipment damage or data loss. WARNING! Indicates a condition or procedure that could result in personal injury or equipment damage. Notational Conventions The following notational conventions are used in this document: ● Italics are used to highlight specific items in the general text, and to identify chapters and sections in this and related documents. Altitude 3500 Series Access Point Product Reference Guide 11 ● ● Bullets (•) indicate: ● action items ● lists of alternatives ● lists of required steps that are not necessarily sequential Sequential lists (those describing step-by-step procedures) appear as numbered lists. Altitude 3500 Series Access Point Product Reference Guide 12 1 Introduction CHAPTER This Altitude 35xx Access Point Product Reference Guide contains setup and advanced configuration instructions for both the Altitude 3510 and Altitude 3550 model access points. Both the Altitude 3510 and Altitude 3550 model access points share the same Web UI, CLI and MIB interfaces. There are no differences in how the devices are configured using the instructions within this guide, even though the Web UI displays Altitude 3510 or Altitude 3550 specifically. NOTE Check for the latest versions of documentation on the Extreme Networks documentation website at: http:// www.extremenetworks.com/go/documentation. However, there are several differences between the two models you should be aware of. The Altitude 3550 is constructed to support outdoor installations, while the Altitude 3510 model is constructed primarily for indoor deployments. The Altitude 3510 and Altitude 3550 are available in only a dualradio SKU—except the Israel SKU which has a single radio. An Altitude 3550 cannot use the Altitude 3510’s 48 volt power supply and, therefore, is recommended to use the Altitude 3550 Power Tap designed specifically for outdoor deployments. An Altitude 3550 model access point also must use an RJ-45 to Serial cable to establish a serial connection to a host computer. The access point (AP) provides a bridge between Ethernet wired LANs or WANs and wireless networks. It provides connectivity between Ethernet wired networks and radio-equipped mobile units (MUs). MUs include the full line of terminals, adapters (PC cards, Compact Flash cards and PCI adapters) and other devices. The access point provides a maximum 54Mbps data transfer rate via each radio. It monitors Ethernet traffic and forwards appropriate Ethernet messages to MUs over the network. It also monitors MU radio traffic and forwards MU packets to the Ethernet LAN. If you are new to using an access point for managing your network, refer to “Theory of Operations” on page 28 for an overview on wireless networking fundamentals. Altitude 3500 Series Access Point Product Reference Guide 13 Introduction New Features The following new features have been introduced in the 2.x release: ● WIPS Support on page 14 ● Trusted Host Management on page 14 ● Apache Certificate Management on page 15 ● Adaptive AP on page 15 ● Rogue AP Detection Enhancement on page 15 ● RADIUS Time-Based Authentication on page 15 ● QBSS Support on page 16 WIPS Support An access point radio can function as a Wireless Intrusion Protection System (WIPS) sensor and upload sensor mode operation information to a dedicated WIPS server. Either one or both of the access point radios can be configured as WIPS supported radio. WIPS is not supported on a WLAN basis, rather WIPS is supported on the access point radio(s) available to each WLAN. WIPS protects your wireless network, mobile devices and traffic from attacks and unauthorized access. WIPS provides tools for standards compliance and around-the-clock 802.11a/b/g wireless network security in a distributed environment. WIPS allows administrators to identify and accurately locate attacks, rogue devices and network vulnerabilities in real time and permits both a wired and wireless lockdown of wireless device connections upon acknowledgement of a threat. NOTE WIPS support requires a Motorola AirDefense WIPS Server on the network. WIPS functionality is not provided by the access point alone. The access point works in conjunction with a dedicated WIPS server. For use in configuring the access point for WIPS support, see “Configuring WIPS Server Settings” on page 161. Trusted Host Management Trusted subnet management restricts Altitude 35xx Access Point LAN1, LAN2 and WAN interface access (via SNMP, HTTP, HTTPS, Telnet and SSH) to a set of user defined trusted host or subnets. Only hosts with matching subnet (or IP) addresses are able to access the access point. Enabling the feature denies access from any subnet not defined as trusted. Once a set of trusted hosts is defined and applied, the settings can be imported and exported as a part of the access point’s configuration import/export functionality. For information on defining a set of trusted hosts for exclusive access point access, see “Defining Trusted Hosts” on page 76. Altitude 3500 Series Access Point Product Reference Guide 14 Apache Certificate Management Apache certificate management allows the update and management of security certificates for an Apache HTTP server. This allows users to upload a trusted certificate to their AP. When a client attaches to it with a browser, a warning message pertaining to the certificate no longer displays. Apache certificate management utilizes the access point’s existing Certificate Manager for the creation of certificates and keys. The certificate can then be loaded into the Apache file system using a command. For information on defining the Apache certificate management configuration, see “Apache Certificate Management” on page 84. Adaptive AP An adaptive AP (AAP) is an Altitude 35xx access point that can adopt like an Altitude 4600 access point (L3). The management of an AAP is conducted by a controller, once the access point connects to an Extreme Networks controller and receives its AAP configuration. An AAP provides: ● local 802.11 traffic termination ● local encryption/decryption ● local traffic bridging ● the tunneling of centralized traffic to the wireless controller For a information overview of the adaptive AP feature as well as how to configure it, refer to “Adaptive AP Overview” on page 551. Rogue AP Detection Enhancement The access point now has the option to scan for rogues over all channels on both of the access point’s 11a and 11bg radio bands. The switching of radio bands is based on a timer with no user intervention required. For information on configuring the access point for Rogue AP support, see “Configuring Rogue AP Detection” on page 210. RADIUS Time-Based Authentication An external server maintains a users and groups database used by the access point for access permissions. Various kinds of access policies can be applied to each group. Individual groups can be configured with their own time-based access policy. Each group’s policy has a user defined interval defining the days and hours access is permitted. Authentication requests for users belonging to the group are honored only during these defined hourly intervals. For more information on defining access point access policies by group, see “Defining User Access Permissions by Group” on page 226. Altitude 3500 Series Access Point Product Reference Guide 15 Introduction QBSS Support Each access point radio can be configured to optionally allow the access point to communicate channel usage data to associated devices and define the beacon interval used for channel utilization transmissions. The QBSS load represents the percentage of time the channel is in use by the access point and the access point’s station count. This information is very helpful in assessing the access point’s overall load on a channel, its availability for additional device associations and multi media traffic support. For information on enabling QBSS and defining the channel utilization transmission interval, see “Configuring the 802.11a or 802.11b/g Radio” on page 154. Feature Overview The access point has the following features: ● Single or Dual Mode Radio Options on page 17 ● Separate LAN and WAN Ports on page 17 ● Multiple Mounting Options on page 17 ● Antenna Support for 2.4 GHz and 5 GHz Radios on page 17 ● Sixteen Configurable WLANs on page 18 ● Support for 4 BSSIDs per Radio on page 18 ● Quality of Service (QoS) Support on page 18 ● Industry Leading Data Security on page 19 ● VLAN Support on page 22 ● Multiple Management Accessibility Options on page 22 ● Updatable Firmware on page 23 ● Programmable SNMP v1/v2/v3 Trap Support on page 23 ● Power-over-Ethernet Support on page 23 ● MU-MU Transmission Disallow on page 23 ● Voice Prioritization on page 24 ● Support for CAM and PSP MUs on page 24 ● Statistical Displays on page 24 ● Transmit Power Control on page 25 ● Advanced Event Logging Capability on page 25 ● Configuration File Import/Export Functionality on page 25 ● Default Configuration Restoration on page 25 ● DHCP Support on page 25 ● Multi-Function LEDs on page 26 ● Mesh Networking on page 26 ● Additional LAN Subnet on page 27 ● On-board RADIUS Server Authentication on page 27 ● Hotspot Support on page 27 ● Routing Information Protocol (RIP) on page 28 Altitude 3500 Series Access Point Product Reference Guide 16 ● Manual Date and Time Settings on page 28 ● Dynamic DNS on page 28 ● Auto Negotiation on page 28 Single or Dual Mode Radio Options Two possible configurations are available on the access point. Altitude 3510-US (part number 15720) and Altitude 3510-ROW (part number 15721) are manuafactured as a dual-radio access point, the access point enables you to configure one radio for 802.11a support, and the other for 802.11b/g support. The Altitude 3510-IL access point (part number 15723) supports 802.11b/g only. However, an Altiude 3550 model access point (part number 15722 or 15726) is only available in a dual-radio model. Separate LAN and WAN Ports The access point has one LAN port and one WAN port, each with their own MAC address. The access point must manage all data traffic over the LAN connection carefully as either a DHCP client, BOOTP client, DHCP server or using a static IP address. The access point can only use a Power-over-Ethernet device when connected to the LAN port. For detailed information on configuring the Altitude 35xx LAN port, see “Configuring the LAN Interface” on page 113. A Wide Area Network (WAN) is a widely dispersed telecommunications network. In a corporate environment, the WAN port might connect to a larger corporate network. For a small business, the WAN port might connect to a DSL or cable modem to access the Internet. Regardless, network address information must be configured for the Altitude 35xx’s intended mode of operation. For detailed information on configuring the access point’s WAN port, see “Configuring WAN Settings” on page 125. The LAN and WAN port MAC addresses can be located within the LAN and WAN Stats screens. For detailed information on locating the access point’s MAC addresses, see “Viewing WAN Statistics” on page 231 and “Viewing LAN Statistics” on page 234. For information on access point MAC address assignments, see “Altitude 35xx MAC Address Assignment” on page 32. Multiple Mounting Options The access point rests on a flat surface, attaches to a wall, mounts under a ceiling or above a ceiling (attic). Choose a mounting option based on the physical environment of the coverage area. Do not mount the access point in a location that has not been approved in either an Altitude 3510 or outdoor Altitude 3550 radio coverage site survey. For detailed information on the mounting options available, see “Mounting an Altitude 3510” on page 41 or “Mounting an Altitude 3550” on page 49. Antenna Support for 2.4 GHz and 5 GHz Radios The Altitude 35xx access point supports several 802.11a and 802.11b/g radio antennas. Select the antenna best suited to the radio transmission requirements of your coverage area. Altitude 3500 Series Access Point Product Reference Guide 17 Introduction For an overview of the Radio 1 (2.4 GHz) and Radio 2 (5 GHz) antennas supported on the access point’s connectors, see “Antenna Specifications” on page 573. The Altitude 3550 model access point uses an antenna suite primarily suited for outdoor use. Sixteen Configurable WLANs A Wireless Local Area Network (WLAN) is a data-communications system that flexibly extends the functionalities of a wired LAN. A WLAN does not require lining up devices for line-of-sight transmission, and are thus, desirable for wireless networking. Roaming users can be handed off from one access point to another like a cellular phone system. WLANs can therefore be configured around the needs of specific groups of users, even when they are not in physical proximity. Sixteen WLANs are configurable on each access point. To enable and configure WLANs on an access point radio, see “Enabling Wireless LANs (WLANs)” on page 133. Support for 4 BSSIDs per Radio The access point supports four BSSIDs per radio. Each BSSID has a corresponding MAC address. The first MAC address corresponds to BSSID #1. The MAC addresses for the other three BSSIDs (BSSIDs #2, #3, #4) are derived by adding 1, 2, 3, respectively, to the radio MAC address. If the radio MAC address displayed on the Radio Settings screen is 00:A0:F8:72:20:DC, then the BSSIDs for that radio will have the following MAC addresses: BSSID MAC Address Hexadecimal Addition BSSID #1 00:A0:F8:72:20:DC Same as Radio MAC address BSSID #2 00:A0:F8:72:20:DD Radio MAC address +1 BSSID #3 00:A0:F8:72:20:DE Radio MAC address +2 BSSID #4 00:A0:F8:72:20:DF Radio MAC address +3 For detailed information on strategically mapping BSSIDs to WLANs, see “Configuring the 802.11a or 802.11b/g Radio” on page 154. For information on access point MAC address assignments, see “Altitude 35xx MAC Address Assignment” on page 32. Quality of Service (QoS) Support The Altitude 35xx QoS implementation provides applications running on different wireless devices a variety of priority levels to transmit data to and from the access point. Equal data transmission priority is fine for data traffic from applications such as Web browsers, file transfers or email, but is inadequate for multimedia applications. Voice over Internet Protocol (VoIP), video streaming and interactive gaming are highly sensitive to latency increases and throughput reductions. These forms of higher priority data traffic can significantly benefit from the Altitude 35xx QoS implementation. The WiFi Multimedia QOS Extensions (WMM) implementation used by the access point shortens the time between transmitting higher priority data traffic and is thus desirable for multimedia applications. In addition, U-APSD (WMM Power Save) is also supported. Altitude 3500 Series Access Point Product Reference Guide 18 WMM defines four access categories—voice, video, best effort and background—to prioritize traffic for enhanced multimedia support. For detailed information on configuring QoS support for Altitude 35xx, see “Setting the WLAN Quality of Service (QoS) Policy” on page 142. Industry Leading Data Security The Altitude 35xx access point supports numerous encryption and authentication techniques to protect the data transmitting on the WLAN. The following authentication techniques are supported: ● Kerberos Authentication on page 19 ● EAP Authentication on page 20 The following encryption techniques are supported: ● WEP Encryption on page 20 ● KeyGuard Encryption on page 21 ● Wi-Fi Protected Access (WPA) Using TKIP Encryption on page 21 ● WPA2-CCMP (802.11i) Encryption on page 21 In addition, the access point supports the following additional security features: ● Firewall Security on page 21 ● VPN Tunnels on page 22 ● Content Filtering on page 22 For an overview on the encryption and authentication schemes available, refer to “Configuring Access Point Security” on page 169. Kerberos Authentication Authentication is a means of verifying information transmitted from a secure source. If information is authentic, you know who created it and you know it has not been altered in any way since originated. Authentication entails a network administrator employing a software “supplicant” on their computer or wireless device. Authentication is critical for the security of any wireless LAN device. Traditional authentication methods are not suitable for use in wireless networks where an unauthorized user can monitor network traffic and intercept passwords. The use of strong authentication methods that do not disclose passwords is necessary. The access point uses the Kerberos authentication service protocol (specified in RFC 1510) to authenticate users/clients in a wireless network environment and to securely distribute the encryption keys used for both encrypting and decrypting. A basic understanding of RFC 1510 Kerberos Network Authentication Service (V5) is helpful in understanding how Kerberos functions. By default, WLAN devices operate in an open system network where any wireless device can associate with an AP without authorization. Kerberos requires device authentication before access to the wired network is permitted. For detailed information on Kerberos configurations, see “Configuring Kerberos Authentication” on page 174. Altitude 3500 Series Access Point Product Reference Guide 19 Introduction EAP Authentication The Extensible Authentication Protocol (EAP) feature provides access points and their associated MU’s an additional measure of security for data transmitted over the wireless network. Using EAP, authentication between devices is achieved through the exchange and verification of certificates. EAP is a mutual authentication method whereby both the MU and AP are required to prove their identities. Like Kerberos, the user loses device authentication if the server cannot provide proof of device identification. Using EAP, a user requests connection to a WLAN through the access point. The access point then requests the identity of the user and transmits that identity to an authentication server. The server prompts the AP for proof of identity (supplied to the Altitude 35xx by the user) and then transmits the user data back to the server to complete the authentication process. An MU is not able to access the network if not authenticated. When configured for EAP support, the access point displays the MU as an EAP station. EAP is only supported on mobile devices running Windows XP, Windows 2000 (using Service Pack #4) and Windows Mobile 2003. Refer to the system administrator for information on configuring a RADIUS Server for EAP (802.1x) support. For detailed information on EAP configurations, see “Configuring 802.1x EAP Authentication” on page 176. WEP Encryption All WLAN devices face possible information theft. Theft occurs when an unauthorized user eavesdrops to obtain information illegally. The absence of a physical connection makes wireless links particularly vulnerable to this form of theft. Most forms of WLAN security rely on encryption to various extents. Encryption entails scrambling and coding information, typically with mathematical formulas called algorithms, before the information is transmitted. An algorithm is a set of instructions or formula for scrambling the data. A key is the specific code used by the algorithm to encrypt or decrypt the data. Decryption is the decoding and unscrambling of received encrypted data. The same device, host computer or front-end processor, usually performs both encryption and decryption. The transmit or receive direction determines whether the encryption or decryption function is performed. The device takes plain text, encrypts or scrambles the text typically by mathematically combining the key with the plain text as instructed by the algorithm, then transmits the data over the network. At the receiving end, another device takes the encrypted text and decrypts, or unscrambles, the text revealing the original message. An unauthorized user can know the algorithm, but cannot interpret the encrypted data without the appropriate key. Only the sender and receiver of the transmitted data know the key. Wired Equivalent Privacy (WEP) is an encryption security protocol specified in the IEEE Wireless Fidelity (Wi-Fi) standard, 802.11b and supported by the Altitude 35xx AP. WEP encryption is designed to provide a WLAN with a level of security and privacy comparable to that of a wired LAN. The level of protection provided by WEP encryption is determined by the encryption key length and algorithm. An encryption key is a string of case sensitive characters used to encrypt and decrypt data packets transmitted between a mobile unit (MU) and the access point. An access point and its associated wireless clients must use the same encryption key (typically 1 through 4) to interoperate. For detailed information on WEP, see “Configuring WEP Encryption” on page 179. Altitude 3500 Series Access Point Product Reference Guide 20 KeyGuard Encryption Use KeyGuard to shield the master encryption keys from being discovered through hacking. KeyGuard negotiation takes place between the access point and MU upon association. The access point can use KeyGuard with Motorola MUs. KeyGuard is only supported on Motorola MUs. For detailed information on KeyGuard configurations, see “Configuring KeyGuard Encryption” on page 181. Wi-Fi Protected Access (WPA) Using TKIP Encryption Wi-Fi Protected Access (WPA) is a security standard for systems operating with a Wi-Fi wireless connection. WEP’s lack of user authentication mechanisms is addressed by WPA. Compared to WEP, WPA provides superior data encryption and user authentication. WPA addresses the weaknesses of WEP by including: ● a per-packet key mixing function ● a message integrity check ● an extended initialization vector with sequencing rules ● a re-keying mechanism WPA uses an encryption method called Temporal Key Integrity Protocol (TKIP). WPA employs 802.1X and Extensible Authentication Protocol (EAP). For detailed information on WPA using TKIP configurations, see “Configuring WPA/WPA2 Using TKIP” on page 183. WPA2-CCMP (802.11i) Encryption WPA2 is a newer 802.11i standard that provides even stronger wireless security than Wi-Fi Protected Access (WPA) and WEP. Counter-mode/CBC-MAC Protocol (CCMP) is the security standard used by the Advanced Encryption Standard (AES). AES serves the same function TKIP does for WPA-TKIP. CCMP computes a Message Integrity Check (MIC) using the proven Cipher Block Message Authentication Code (CBC-MAC) technique. Changing just one bit in a message produces a totally different result. WPA2-CCMP is based on the concept of a Robust Security Network (RSN), which defines a hierarchy of keys with a limited lifetime (similar to TKIP). Like TKIP, the keys the administrator provides are used to derive other keys. Messages are encrypted using a 128-bit secret key and a 128-bit block of data. The end result is an encryption scheme as secure as any the Altitude 35xx provides. For detailed information on WPA2-CCMP, see “Configuring WPA2-CCMP (802.11i)” on page 185. Firewall Security A firewall keeps personal data in and hackers out. The Altitude 35xx’s firewall prevents suspicious Internet traffic from proliferating the access point managed network. The Altitude 35xx access point performs Network Address Translation (NAT) on packets passing to and from the WAN port. This combination provides enhanced security by monitoring communication with the wired network. For detailed information on configuring the access point’s firewall, see “Configuring Firewall Settings” on page 188. Altitude 3500 Series Access Point Product Reference Guide 21 Introduction VPN Tunnels Virtual Private Networks (VPNs) are IP-based networks using encryption and tunneling providing users remote access to a secure LAN. In essence, the trust relationship is extended from one LAN across the public network to another LAN, without sacrificing security. A VPN behaves like a private network; however, because the data travels through the public network, it needs several layers of security. The access point can function as a robust VPN gateway. For detailed information on configuring VPN security support, see “Configuring VPN Tunnels” on page 194. Content Filtering Content filtering allows system administrators to block specific commands and URL extensions from going out through the Altitude 35xx WAN port. Therefore, content filtering affords system administrators selective control on the content proliferating the network and is a powerful screening tool. Content filtering allows the blocking of up to 10 files or URL extensions and allows blocking of specific outbound HTTP, SMTP, and FTP requests. For detailed information on configuring content filtering support, see “Configuring Content Filtering Settings” on page 207. VLAN Support A Virtual Local Area Network (VLAN) can electronically separate data on the same AP from a single broadcast domain into separate broadcast domains. By using a VLAN, you can group by logical function instead of physical location. There are 16 VLANs supported on the access point. An administrator can map up to 16 WLANs to 16 VLANs and enable or disable dynamic VLAN assignment. In addition to these 16 VLANs, the access point supports dynamic, user-based, VLANs when using EAP authentication. VLANs enable organizations to share network resources in various network segments within large areas (airports, shopping malls, etc.). A VLAN is a group of clients with a common set of requirements independent of their physical location. VLANs have the same attributes as physical LANs, but they enable administrators to group clients even when they are not members of the same network segment. For detailed information on configuring VLAN support, see “Configuring VLAN Support” on page 116. Multiple Management Accessibility Options The access point can be accessed and configured using one of the following methods: ● Java-Based Web UI ● Human readable config file (imported via FTP or TFTP) ● MIB (Management Information Base) ● Command Line Interface (CLI) accessed via RS-232 or Telnet. Use the Altitude 3510’s DB-9 serial port for direct access to the command-line interface from a PC. The Altitude 3550’s CLI can also be accessed through RS-232 on the console port. Altitude 3500 Series Access Point Product Reference Guide 22 Updatable Firmware Extreme Networks periodically releases updated versions of device firmware to the Extreme Networks Web site. If the firmware version displayed on the System Settings page (see “Configuring System Settings” on page 68) is older than the version on the Web site, Extreme Networks recommends updating the access point to the latest firmware version for full feature functionality. For detailed information on updating the Altitude 35xx firmware using FTP or TFTP, see “Updating Device Firmware” on page 107. Programmable SNMP v1/v2/v3 Trap Support Simple Network Management Protocol (SNMP) facilitates the exchange of management information between network devices. SNMP uses Management Information Bases (MIBs) to manage the device configuration and monitor Internet devices in remote locations. MIB information accessed via SNMP is defined by a set of managed objects called Object Identifiers (OIDs). An object identifier (OID) is used to uniquely identify each object variable of a MIB. SNMP allows a network administrator to configure the access point, manage network performance, find and solve network problems, and plan for network growth. The access point supports SNMP management functions for gathering information from its network components. The access point’s download site contains the following 2 MIB files: ● EXTR-CC-adp35xx-MIB-2.0 (standard/common MIB file) ● EXTR-adp35xx-MIB (Altitude 35xx specific MIB file) The access point’s SNMP agent functions as a command responder and is a multilingual agent responding to SNMPv1, v2c and v3 managers (command generators). The factory default configuration maintains SNMPv1/2c support of community names, thus providing backward compatibility. For detailed information on configuring SNMP traps, see “Configuring SNMP Settings” on page 86. Power-over-Ethernet Support When users purchase an Extreme Networks WLAN solution, they often need to place access points in obscure locations. In the past, a dedicated power source was required for each access point in addition to the Ethernet infrastructure. This often required an electrical contractor to install power drops at each access point location. The Altitude 3550 Power Tap is also a single-port, 802.3af compliant Power over Ethernet hub combining low-voltage DC with Ethernet data in a single cable connecting to the access point. However, the Power Tap is designed and ruggedized for use with an Altitude 3550’s outdoor deployment. For detailed information on using the Power Tap, see “Power Tap Systems” on page 40. MU-MU Transmission Disallow The access point’s MU-MU Disallow feature prohibits MUs from communicating with each other even if on the same WLAN, assuming one WLAN is configured to disallow MU-MU communication. Therefore, if an MU’s WLAN is configured for MU-MU disallow, it will not be able to communicate with any other MUs connected to this access point. Altitude 3500 Series Access Point Product Reference Guide 23 Introduction For detailed information on configuring an Altitude 35xx WLAN to disallow MU to MU communications, see “Creating/Editing Individual WLANs” on page 135. Voice Prioritization Each Altitude 35xx access point WLAN has the capability of having its QoS policy configured to prioritize the network traffic requirements for associated MUs. A WLAN QoS page is available for each enabled WLAN on both the 802.11a and 802.11b/g radio. Use the QoS page to enable voice prioritization for devices to receive the transmission priority they may not normally receive over other data traffic. Voice prioritization allows the access point to assign priority to voice traffic over data traffic, and (if necessary) assign legacy voice supported devices (non WMM supported voice devices) additional priority. For detailed information on configuring voice prioritization over other voice enabled devices, see “Setting the WLAN Quality of Service (QoS) Policy” on page 142. Support for CAM and PSP MUs The access point supports both CAM and PSP powered MUs. CAM (Continuously Aware Mode) MUs leave their radios on continuously to hear every beacon and message transmitted. These systems operate without any adjustments by the access point. A beacon is a uniframe system packet broadcast by the AP to keep the network synchronized. A beacon includes the ESSID, MAC address, Broadcast destination addresses, a time stamp, a DTIM (Delivery Traffic Indication Message) and the TIM (Traffic Indication Map). PSP (Power Save Polling) MUs power off their radios for short periods. When a MU in PSP mode associates with an access point, it notifies the access point of its activity status. The access point responds by buffering packets received for the MU. PSP mode is used to extend an MU’s battery life by enabling the MU to “sleep” during periods of inactivity. Statistical Displays The access point can display robust transmit and receive statistics for the WAN and LAN ports. WLAN stats can be displayed collectively and individually for enabled WLANs. Transmit and receive statistics are available for the access point’s 802.11a and 802.11b/g radios. An advanced radio statistics page is also available to display retry histograms for specific data packet retry information. Associated MU stats can be displayed collectively and individually for specific MUs. An echo (ping) test is also available to ping specific MUs to assess association strength. Finally, the access point can detect and display the properties of other APs detected within the access point’s radio coverage area. The type of AP detected can be displayed as well as the properties of individual APs. For detailed information on available access point statistical displays and the values they represent, see “Monitoring Statistics” on page 231. Altitude 3500 Series Access Point Product Reference Guide 24 Transmit Power Control The access point has a configurable power level for each radio. This enables the network administrator to define the antenna’s transmission power level in respect to the access point’s placement or network requirements as defined in the site survey. For detailed information on setting the radio transmit power level, see “Configuring the 802.11a or 802.11b/g Radio” on page 154. Advanced Event Logging Capability The access point provides the capability for periodically logging system events. Logging events is useful in assessing the throughput and performance of the access point or troubleshooting problems on the access point managed Local Area Network (LAN). For detailed information on access point events, see “Logging Configuration” on page 102. Configuration File Import/Export Functionality Configuration settings for an access point can be downloaded from the current configuration of another access point. This affords the administrator the opportunity to save the current configuration before making significant changes or restoring the default configuration. For detailed information on importing or exporting configuration files, see “Importing/Exporting Configurations” on page 103. Default Configuration Restoration The access point has the ability to restore its default configuration or a partial default configuration (with the exception of current WAN and SNMP settings). Restoring the default configuration is a good way to create new WLANs if the MUs the access point supports have been moved to different radio coverage areas. For detailed information on restoring a default or partial default configuration, see “Configuring System Settings” on page 68. DHCP Support The access point can use Dynamic Host Configuration Protocol (DHCP) to obtain a leased IP address and configuration information from a remote server. DHCP is based on the BOOTP protocol and can coexist or interoperate with BOOTP. Configure the access point to send out a DHCP request searching for a DHCP/BOOTP server to acquire HTML, firmware or network configuration files when the access point boots. Because BOOTP and DHCP interoperate, whichever responds first becomes the server that allocates information. The access point can be set to only accept replies from DHCP or BOOTP servers or both (this is the default setting). Disabling DHCP disables BOOTP and DHCP and requires network settings to be set manually. If running both DHCP and BOOTP, do not select BOOTP Only. BOOTP should only be used when the server is running BOOTP exclusively. Altitude 3500 Series Access Point Product Reference Guide 25 Introduction The DHCP client automatically sends a DHCP request at an interval specified by the DHCP server to renew the IP address lease as long as the access point is running (this parameter is programmed at the DHCP server). For example: Windows 2000 servers typically are set for 3 days. Multi-Function LEDs An Altitude 3510 model access point has seven LED indicators. Four LEDs exist on the top of the Altitude 3510 and are visible from wall, ceiling and table-top orientations. Three of these four LEDs are single color activity LEDs, and one is a multi-function red and white status LED. Two LEDs exist on the rear of the access point and are viewable using a single (customer installed) extended light pipe, adjusted as required to suit above the ceiling installations. An Altitude 3550 model access point houses four LEDs on the bottom/back side of the unit. For detailed information on the Altitude 3510 access point LEDs and their functionality, see “Altitude 3510 LED Indicators” on page 48 or “Altitude 3550 LED Indicators” on page 54. Mesh Networking Utilize the new mesh networking functionality to allow the access point to function as a bridge to connect two Ethernet networks or as a repeater to extend your network’s coverage area without additional cabling. Mesh networking is configurable in two modes. It can be set in a wireless client bridge mode and/or a wireless base bridge mode (which accepts connections from client bridges). These two modes are not mutually exclusive. In client bridge mode, the access point scans to find other access points using the selected WLAN’s ESSID. The access point must go through the association and authentication process to establish a wireless connection. The mesh networking association process is identical to the access point’s MU association process. Once the association/authentication process is complete, the wireless client adds the connection as a port on its bridge module. This causes the access point (in client bridge mode) to begin forwarding configuration packets to the base bridge. An access point in base bridge mode allows the access point radio to accept client bridge connections. The two bridges communicate using the Spanning Tree Protocol (STP). The spanning tree determines the path to the root and detects if the current connection is part of a network loop with another connection. Once the spanning tree converges, both access points begin learning which destinations reside on which side of the network. This allows them to forward traffic intelligently. After the access point (in client bridge mode) establishes at least one wireless connection, it will begin beaconing and accepting wireless connections (if configured to support mobile users). If the access point is configured as both a client bridge and a base bridge, it begins accepting client bridge connections. In this way, the mesh network builds itself over time and distance. Once the access point (in client bridge mode) establishes at least one wireless connection, it establishes other wireless connections in the background as they become available. In this way, the access point can establish simultaneous redundant links. An access point (in client bridge mode) can establish up to 3 simultaneous wireless connections with other Altitude 3510s or Altitude 3550s. A client bridge always initiates the connections and the base bridge is always the acceptor of the mesh network data proliferating the network. Since each access point can establish up to 3 simultaneous wireless connections, some of these connections may be redundant. In that case, the STP algorithm determines which links are the redundant links and disables the links from forwarding. Altitude 3500 Series Access Point Product Reference Guide 26 For an overview on mesh networking as well as details on configuring the access point’s mesh networking functionality, see “Configuring Mesh Networking” on page 519. Additional LAN Subnet In a typical retail or small office environment (wherein a wireless network is available along with a production WLAN) it is frequently necessary to segment a LAN into two subnets. Consequently, a second LAN is necessary to “segregate” wireless traffic. The access point has a second LAN subnet enabling administrators to segment the access point’s LAN connection into two separate networks. The main access point LAN screen allows the user to select either LAN1 or LAN2 as the active LAN over the access point’s Ethernet port. Both LANs can still be active at any given time, but only one can transmit over the access point’s physical LAN connection. Each LAN has a separate configuration screen (called LAN 1 and LAN 2 by default) accessible under the main LAN screen. The user can rename each LAN as necessary. Additionally, each LAN can have its own Ethernet Type Filter configuration, and subnet access (HTTP, SSH, SNMP and telnet) configuration. For detailed information on configuring the access point for additional LAN subnet support, see “Configuring the LAN Interface” on page 113. On-board RADIUS Server Authentication The access point has the ability to work as a RADIUS Server to provide user database information and user authentication. Several new screens have been added to the access point’s menu tree to configure RADIUS server authentication and configure the local user database and access policies. A new RADIUS Server screen allows an administrator to define the data source, authentication type and associate digital certificates with the authentication scheme. The LDAP screen allows the administrator to configure an external LDAP Server for use with the access point. A new Access Policy screen enables the administrator to set WLAN access based on user groups defined within the User Database screen. Each user is authorized based on the access policies applicable to that user. Access policies allow an administrator to control access to a user groups based on the WLAN configurations. For detailed information on configuring the access point for AAA RADIUS Server support, see “Configuring User Authentication” on page 217. Hotspot Support The access point allows hotspot operators to provide user authentication and accounting without a special client application. The access point uses a traditional Internet browser as a secure authentication device. Rather than rely on built-in 802.11 security features to control access point association privileges, you can configure a WLAN with no WEP (an open network). The access point issues an IP address to the user using a DHCP server, authenticates the user and grants the user to access the Internet. If a tourist visits a public hotspot and wants to browse a Web page, they boot their laptop and associate with a local Wi-Fi network by entering a valid SSID. They start a browser, and the hotspot’s access controller forces the un-authenticated user to a Welcome page (from the hotspot operator) that allows the user to login with a username and password. In order to send a redirected page (a login page), a TCP termination exists locally on the access point. Once the login page displays, the user enters their credentials. The access point connects to the RADIUS server and determines the identity of the connected wireless user. Thus, allowing the user to access the Internet once successfully authenticated. Altitude 3500 Series Access Point Product Reference Guide 27 Introduction For detailed information on configuring the access point for Hotspot support, see “Configuring WLAN Hotspot Support” on page 146. Routing Information Protocol (RIP) RIP is an interior gateway protocol that specifies how routers exchange routing-table information. The parent Router screen also allows the administrator to select the type of RIP and the type of RIP authentication used. For detailed information on configuring RIP functionality as part of the access point’s Router functionality, see “Setting the RIP Configuration” on page 165. Manual Date and Time Settings As an alternative to defining a NTP server to provide access point system time, the access point can now have its date and time set manually. A new Manual Date/Time Setting screen can be used to set the time using a Year-Month-Day HH:MM:SS format. For detailed information on manually setting the access point’s system time, see “Configuring Network Time Protocol (NTP)” on page 98. Dynamic DNS The access point supports the Dynamic DNS service. Dynamic DNS (or DynDNS) is a feature offered by www.dyndns.com which allows the mapping of domain names to dynamically assigned IP addresses. When the dynamically assigned IP address of a client changes, the new IP address is sent to the DynDNS service and traffic for the specified domain(s) is routed to the new IP address. For information on configuring the Dynamic DNS feature, see “Configuring Dynamic DNS” on page 132. Auto Negotiation Auto negotiation enables the access point to automatically exchange information (over either its LAN or WAN port) about data transmission speed and duplex capabilities. Auto negotiation is helpful when using the access point in an environment where different devices are connected and disconnected on a regular basis. For information on configuring the auto negotiation feature, see “Configuring the LAN Interface” on page 113 or “Configuring WAN Settings” on page 125 Theory of Operations To understand Altitude 35xx access point management and performance alternatives, users need familiarity with its functionality and configuration options. The access point includes features for different interface connections and network management. The access point uses electromagnetic waves to transmit and receive electric signals without wires. Users communicate with the network by establishing radio links between mobile units (MUs) and access points. The access point uses DSSS (direct sequence spread spectrum) to transmit digital data from one device to another. A radio signal begins with a carrier signal that provides the base or center frequency. The Altitude 3500 Series Access Point Product Reference Guide 28 digital data signal is encoded onto the carriers using a DSSS chipping algorithm. The radio signal propagates into the air as electromagnetic waves. A receiving antenna (on the MU) in the path of the waves absorbs the waves as electrical signals. The receiving MU interprets (demodulates) the signal by reapplying the direct sequence chipping code. This demodulation results in the original digital data. The access point uses its environment (the air and certain objects) as the transmission medium.The Altitude 35xx access point can either transmit in the 2.4 to 2.5-GHz frequency range (802.11b/g radio) or the 5 GHz frequency range (802.11a radio), the actual range is country-dependent. Extreme Networks devices, like other Ethernet devices, have unique, hardware encoded Media Access Control (MAC) or IEEE addresses. MAC addresses determine the device sending or receiving data. A MAC address is a 48-bit number written as six hexadecimal bytes separated by colons. For example: 00:A0:F8:24:9A:C8 Also see the following sections: ● Wireless Coverage on page 29 ● MAC Layer Bridging on page 30 ● Content Filtering on page 22 ● DHCP Support on page 25 ● Media Types on page 30 ● Direct-Sequence Spread Spectrum on page 30 ● MU Association Process on page 31 ● Operating Modes on page 32 ● Management Access Options on page 32 ● Altitude 35xx MAC Address Assignment on page 32 Wireless Coverage An access point establishes an average communication range with MUs called a Basic Service Set (BSS) or cell. When in a particular cell, the MU associates and communicates with the access point supporting the radio coverage area of that cell. Adding access points to a single LAN establishes more cells to extend the range of the network. Configuring the same ESSID (Extended Service Set Identifier) on all access point makes them part of the same Wireless LAN. Access points with the same ESSID define a coverage area. A valid ESSID is an alphanumeric, casesensitive identifier up to 32 characters. An MU searches for an access point with a matching ESSID and synchronizes (associates) to establish communications. This device association allows MUs within the coverage area to move about or roam. As the MU roams from cell to cell, it associates with a different access point. The roam occurs when the MU analyzes the reception quality at a location and determines a different access point provides better signal strength and lower MU load distribution. If the MU does not find an access point with a workable signal, it can perform a scan to find any AP. As MUs switch APs, the AP updates its association statistics. The user can configure the ESSID to correspond to up to 16 WLANs on each 802.11a or 802.11b/g radio. A Wireless Local Area Network (WLAN) is a data-communications system that flexibly extends the functionalities of a wired LAN. A WLAN does not require lining up devices for line-of-sight transmission, and are thus, desirable. Within the WLAN, roaming users can be handed off from one access point to another like a cellular phone system. WLANs can therefore be configured around the needs of specific groups of users, even when they are not in physical proximity. Altitude 3500 Series Access Point Product Reference Guide 29 Introduction MAC Layer Bridging The access point provides MAC layer bridging between its interfaces. The access point monitors traffic from its interfaces and, based on frame address, forwards the frames to the proper destination. The access point tracks source and destination addresses to provide intelligent bridging as MUs roam or network topologies change. The access point also handles broadcast and multicast messages and responds to MU association requests. The access point listens to all packets on its LAN and WAN interfaces and builds an address database using MAC addresses. An address in the database includes the interface media that the device uses to associate with the access point. The access point uses the database to forward packets from one interface to another. The bridge forwards packets addressed to unknown systems to the Default Interface (Ethernet). The access point internal stack interface handles all messages directed to the access point. Each Altitude 35xx stores information on destinations and their interfaces to facilitate forwarding. When a user sends an ARP (Address Resolution Protocol) request packet, the access point forwards it over all enabled interfaces except over the interface the ARP request packet was received. On receiving the ARP response packet, the access point database keeps a record of the destination address along with the receiving interface. With this information, the access point forwards any directed packet to the correct destination. Transmitted ARP request packets echo back to other MUs. The access point removes from its database the destination or interface information that is not used for a specified time. The AP refreshes its database when it transmits or receives data from these destinations and interfaces. Media Types The access point radio interface conforms to IEEE 802.11a/b/g specifications. The interface operates at a maximum 54Mbps (802.11a radio) using direct-sequence radio technology. The access point supports multiple-cell operations with fast roaming between cells. Within a direct-sequence system, each cell can operate independently. Adding cells to the network provides an increased coverage area and total system capacity. The RS-232 serial port provides a Command Line Interface (CLI) connection. The serial link supports a direct serial connection (assuming a DB9 connector is used). The access point is a Data Terminal Equipment (DTE) device with male pin connectors for the RS-232 port. Connecting the access point to a PC requires a null modem serial cable. Direct-Sequence Spread Spectrum Spread spectrum (broadband) uses a narrowband signal to spread the transmission over a segment of the radio frequency band or spectrum. Direct-sequence is a spread spectrum technique where the transmitted signal is spread over a particular frequency range. The access point uses Direct-Sequence Spread Spectrum (DSSS) for radio communication. Direct-sequence systems communicate by continuously transmitting a redundant pattern of bits called a chipping sequence. Each bit of transmitted data is mapped into chips by the access point and rearranged into a pseudorandom spreading code to form the chipping sequence. The chipping sequence is combined with a transmitted data stream to produce the output signal. MUs receiving a direct-sequence transmission use the spreading code to map the chips within the chipping sequence back into bits to recreate the original data transmitted by the access point. Altitude 3500 Series Access Point Product Reference Guide 30 Intercepting and decoding a direct-sequence transmission requires a predefined algorithm to associate the spreading code used by the transmitting access point to the receiving MU. This algorithm is established by IEEE 802.11 specifications. The bit redundancy within the chipping sequence enables the receiving MU to recreate the original data pattern, even if bits in the chipping sequence are corrupted by interference. The ratio of chips per bit is called the spreading ratio. A high spreading ratio increases the resistance of the signal to interference. A low spreading ratio increases the bandwidth available to the user. The access point uses different modulation schemes to encode more bits per chip at higher data rates. The access point is capable of a maximum 54Mbps data transmission rate (802.11a radio), but the coverage area is less than that of an access point operating at lower data rates since coverage area decreases as bandwidth increases. MU Association Process An access point recognizes MUs as they begin the association process. An access point keeps a list of the MUs it services. MUs associate with an access point based on the following conditions: ● Signal strength between the access point and MU ● Number of MUs currently associated with the access point ● MUs encryption and authentication capabilities ● MUs supported data rate MUs perform pre-emptive roaming by intermittently scanning for access points and associating with the best available access point. Before roaming and associating, MUs perform full or partial scans to collect Altitude 35xx statistics and determine the direct-sequence channel used by the access point. Scanning is a periodic process where the MU sends out probe messages on all channels defined by the country code. The statistics enable an MU to reassociate by synchronizing its channel to the access point. The MU continues communicating with that access point until it needs to switch cells or roam. MUs perform partial scans at programmed intervals, when missing expected beacons or after excessive transmission retries. In a partial scan, the MU scans Altitude 35xxs classified as proximate on the access point table. For each channel, the MU tests for Clear Channel Assessment (CCA). The MU broadcasts a probe with the ESSID and broadcast BSS_ID when the channel is transmission-free. It sends an ACK to a directed probe response from the Altitude 35xx and updates the table. An MU can roam within a coverage area by switching access points. Roaming occurs when: ● Unassociated MU attempts to associate or reassociate with an available access point ● Supported rate changes or the MU finds a better transmit rate with another access point ● RSSI (received signal strength indicator) of a potential access point exceeds the current access point ● Ratio of good-transmitted packets to attempted-transmitted packets falls below a threshold. An MU selects the best available access point and adjusts itself to the access point direct-sequence channel to begin association. Once associated, the access point begins forwarding frames addressed to the target MU. Each frame contains fields for the current direct-sequence channel. The MU uses these fields to resynchronize to the access point. The scanning and association process continues for active MUs. This process allows the MUs to find new access points and discard out-of-range or deactivated access points. By testing the airwaves, the MUs can choose the best network connection available. Altitude 3500 Series Access Point Product Reference Guide 31 Introduction Operating Modes The access point can operate in a couple of configurations. ● Access Point—As an Access Point, the access point functions as a layer 2 bridge. The wired uplink can operate as a trunk and support multiple VLANs. Up to 16 WLANs can be defined. Each WLAN can be configured to be broadcast by one or both Altitude 35xx radios. An Altitude 3510 or Altitude 3550 can operate in both an Access Point mode and wireless gateway/router mode simultaneously. The network architecture and access point configuration define how the access point and wireless gateway/router mode are negotiated. ● Wireless Gateway/Router—If operating as a Wireless Gateway/Router, the access point functions as a router between two layer 2 networks: the WAN uplink (the ethernet port) and the wireless side. The following options are available providing a solution for single-cell deployment: ● PPPoE—The WAN interface can terminate a PPPoE connection, thus enabling the access point to operate in conjunction with a DSL or Cable modem to provide WAN connectivity. ● NAT—(Network Address Translation) on the Wireless interface. Using NAT, the router is able to manage a private IP scheme. NAT allows translation of private addresses to the WAN IP address. ● DHCP—On the wireless and LAN side, the access point can assign private IP addresses. ● Firewall—A firewall protects against a number of known attacks. Management Access Options Managing the access point includes viewing network statistics and setting configuration options. Statistics track the network activity of associated MUs and data transfers on the AP interfaces. The access point requires one of the following connection methods to perform a custom installation and manage the network: ● Secure Java-Based WEB UI—(use Sun Microsystems’ JRE 1.5 or higher available from Sun’s Web site and be sure to disable Microsoft’s Java Virtual Machine if installed) ● Command Line Interface (CLI) via Serial, Telnet and SSH ● Config file—Human-readable; Importable/Exportable via FTP and TFTP ● MIB (Management Information Base) accessing the access point SNMP function using a MIB Browser. The access point’s download site contains the following 2 MIB files: ● EXTR-CC-adp35xx-MIB-2.0 (standard/common MIB file) ● EXTR-adp35xx-MIB (Altitude 35xx specific MIB file) Make configuration changes to access points individually. Optionally, use the access point import/export configuration function to download settings to other access points. For detailed information, see “Importing/Exporting Configurations” on page 103. Altitude 35xx MAC Address Assignment For both an Altitude 3510 and Altitude 3550 model access point, MAC address assignments are as follows: ● WAN—The access point MAC address can be found on the bottom side of the access point chassis. ● LAN1—WAN MAC address + 1. Altitude 3500 Series Access Point Product Reference Guide 32 ● LAN2—A virtual LAN not mapped to the LAN Ethernet port. This address is the lowest of the two radio MAC addresses. ● Radio1 (802.11bg)—Random address located on the Web UI, CLI and SNMP interfaces. ● Radio2 (802.11a)—Random address located on the Web UI, CLI and SNMP interfaces. The access point’s BSS (virtual AP) MAC addresses are calculated as follows: ● BSS1—The same as the corresponding base radio’s MAC address. ● BSS2—Base radio MAC address +1 ● BSS3—Base radio MAC address +2 ● BSS4—Base radio MAC address +3 Altitude 3500 Series Access Point Product Reference Guide 33 Introduction Altitude 3500 Series Access Point Product Reference Guide 34 2 Hardware Installation CHAPTER An access point installation includes mounting the access point, connecting the access point to the network (LAN or WAN port connection), connecting antennas and applying power. Installation procedures vary for different environments. See the following sections for more details: ● Precautions on page 35 ● Requirements on page 37 ● Access Point Placement on page 37 ● Power Options on page 39 ● Power Tap Systems on page 40 ● Mounting an Altitude 3510 on page 41 ● Altitude 3510 LED Indicators on page 48 ● Mounting an Altitude 3550 on page 49 ● Altitude 3550 LED Indicators on page 54 ● Setting Up MUs on page 54 CAUTION Extreme Networks recommends conducting a radio site survey prior to installing an access point. A site survey is an excellent method of documenting areas of radio interference and providing a tool for device placement. Precautions Before installing an Altitude 3510 or Altitude 3550 model access point verify the following: ● Do not install an Altitude 3510 or Altitude 3550 in wet or dusty areas without additional protection. Contact an Extreme Networks representative for more information. For the models Altitude 3510 and Altitude 3550 check the following: ● Verify the environment has a continuous temperature range between -20 °C to 50 °C for Altitude 3510. ● Verify the environment has a continuous temperature range between -30 °C to 55 °C for Altitude 3550. Altitude 3500 Series Access Point Product Reference Guide 35 Hardware Installation Available Product Configurations Altitude 3510 Configurations An Altitude 3510 is available in the following models: Part Number Model 15720 Altitude 3510-US 11a + 11b/g dual-radio Indoor Access Point for U.S. Regulatory Domain 15721 Altitude 3510-ROW 11a + 11b/g dual-radio Indoor Access Point for Rest of The World Regulatory Domain 15723 Altitude 3510-IL 11b/g single radio Indoor Access Point for Israel Regulatory Domain Contact the Support Center to report missing or improperly functioning items. NOTE A standard 48 Volt Power Adapter (Part No. 15728) is recommended with Altitude 3510 product SKUs if standard POE power is unavailable. For an overview on the optional antennas for the Altitude 3510, see “Antenna Options” on page 38. CAUTION Using an antenna other than the Dual-Band Antenna (Part No. 15756) could render the Altitude 3510’s Rogue AP Detector Mode feature inoperable. Contact your sales associate for specific information. Altitude 3550 Configurations An Altitude 3550 is only available in a dual-radio configuration. NOTE Extreme Networks recommends using the Altitude 3550 Power Tap (Part No. 15729), designed specifically for outdoor deployments. CAUTION If installing the Altitude 3550 in an outdoor area prone to high winds and rain, Extreme Networks recommends using the Altitude 3550 Heavy Weather Kit (Part No. 15732). This kit shields an Altitude 3550 from wind and rain damage resulting from driving rain. Altitude 3500 Series Access Point Product Reference Guide 36 NOTE To mount the Altitude 3550 access point to a pole (1.5–18 inches in diameter) an Altitude 3550 Mounting Kit (Part No.15733) can be separately ordered. This kit contains the brackets and accessories required to mount the Altitude 3550 to a pole or wall. Requirements The minimum installation requirements for a single-cell, peer-to-peer network (regardless of access point model) are: ● An Altitude 3510 or Altitude 3550 model access point ● Standard POE power or 48 Volt Power Supply (Part No. 15728) for Altitude 3510, or Power Tap (Part No. 15729) for Altitude 3550 ● A power outlet if POE is unavailable for Altitude 3510 ● Antennas NOTE An Altitude 3510 or Altitude 3550 model access point optimally uses 4 antenna for the dual-radio model. The Altitude 3550 uses an antenna suite designed primarily for outdoor usage. For more information, see “Antenna Specifications” on page 573. Access Point Placement For optimal performance, install the access point (regardless of model) away from transformers, heavyduty motors, fluorescent lights, microwave ovens, refrigerators and other industrial equipment. Signal loss can occur when metal, concrete, walls or floors block transmission. Install the access point in open areas or add access points as needed to improve coverage. Antenna coverage is analogous to lighting. Users might find an area lit from far away to be not bright enough. An area lit sharply might minimize coverage and create dark areas. Uniform antenna placement in an area (like even placement of a light bulb) provides even, efficient coverage. Place the access point using the following guidelines: ● Install the access point at an ideal height of 10 feet from the ground. ● Orient the access point antennas vertically for best reception. ● Point the access point antenna(s) downward if attaching to the ceiling. To maximize the access point’s radio coverage area, Extreme Networks recommends conducting a site survey to define and document radio interference obstacles before installing the access point. Altitude 3500 Series Access Point Product Reference Guide 37 Hardware Installation Site Surveys A site survey analyzes the installation environment and provides users with recommendations for equipment and placement. The optimum placement of 802.11a access points differs from 802.11b/g access points, because the locations and number of access points required are different to support the radio coverage area. Antenna Options This section includes the available antenna options. It contains sections: ● Altitude 3510 Antenna Options on page 38 ● Altitude 3550 Antenna Options on page 39 Altitude 3510 Antenna Options Both Radio 1 and Radio 2 require one antenna and can optimally use two antennas per radio (4 antennas total for dual-radio models). Two antennas per radio provides diversity that can improve performance and signal reception. Extreme Networks supports two antenna suites for the Altitude 3510. One antenna suite supporting the 2.4 GHz band and another antenna suite supporting the 5 GHz band. Select an antenna model best suited to the intended operational environment of your Altitude 3510. NOTE On a dual-radio model, Radio 1 refers to the Altitude 3510’s 2.4 GHz radio and Radio 2 refers to the Altitude 3510 5 GHz radio. However, there could be some cases where a dual-radio Altitude 3510 is performing a Rogue AP detector function. In this scenario, the Altitude 3510 is receiving in either 2.4 GHz or 5 GHz over the Radio 1 or Radio 2 antennas depending on which radio is selected for the scan. Antenna connectors for Radio 1 are located in a different location from the Radio 2 antenna connectors. On single radio versions, the R-SMA connectors can support both bands and should be connected to a R-SMA dual-band antenna or an appropriate single band antenna. If necessary a R-SMA to R-BNC adapter can be purchased separately. The antenna port of either the Radio 1 (2.4 GHz) or the Radio 2 (5 GHz) is labeled with " ● " for the "Primary" antenna port or " ● ● " for the "Secondary" antenna port. Antenna port connection is configurable. Altitude 3500 Series Access Point Product Reference Guide 38 For detailed specifications on the 2.4 GHz and 5 GHz antennas, see the Altitude 35xx/46xx AP Antenna Selection Guide, Rev.xx. Altitude 3550 Antenna Options Both Radio 1 (2.4 GHz) and Radio 2 (5 GHz) require one antenna and can optimally use two antennas per radio (4 antennas total). Antenna connectors for Radio 1 are located in a different location from the Radio 2 antenna connectors. Two antennas per radio provides diversity that can improve performance and signal reception. Extreme Networks supports two antenna suites for the Altitude 3550. One antenna suite supporting the 2.4 GHz band and another antenna suite supporting the 5 GHz band. Select an antenna model best suited to the intended operational environment of your Altitude 3550. Similar to Altitude 3510, the Altitude 3550 antenna connectors (N-male) for Radio 1 are located in a different location from the Radio 2 antenna connectors. The antenna port of either the Radio 1 (2.4 GHz) or the Radio 2 (5 GHz) is labeled with " ● " for the "Primary" antenna port or " ● ● " for the "Secondary" antenna port. Antenna port connection is configurable. For detailed specifications on the 2.4 GHz and 5 GHz antennas, see the Altitude 35xx/46xx AP Antenna Selection Guide, Rev.xx. Power Options Altitude 3510 Power Options The power options for the Altitude 3510 include: ● 48-Volt Power Supply (Part No. 15728) ● Any 802.3af compliant Power over Ethernet (POE) supplies Altitude 3550 Power Options The power options for the Altitude 3550 include: ● Power Tap (Part No. 15729) Altitude 3500 Series Access Point Product Reference Guide 39 Hardware Installation CAUTION An Altitude 3550 model access point cannot use the Altitude 3510 recommended 48-Volt Power Supply (Part No. 15728). Extreme Networks recommends the Power Tap (Part No. 15729) for use an Altitude 3550 and its intended outdoor deployment. Power Tap Systems An Altitude 3510 or Altitude 3550 access point can receive power via an Ethernet cable connected to the access point’s LAN port (using 802.3af). When users purchase a WLAN solution, they often need to place access points in obscure locations. In the past, a dedicated power source was required for each access point in addition to the Ethernet infrastructure. This often required an electrical contractor to install power drops at each access point location. The Power Tap solution merges power and Ethernet into one cable, reducing the burden of installation and allow optimal access point placement in respect to the intended radio coverage area. The Power Tap is an integrated AC-DC converter requiring 110-220 VAC power to combine low-voltage DC with Ethernet data in a single cable connecting to the access point. The access point can only use a Power Tap when connecting the unit to the access point’s LAN port. The Altitude 3550 Power Tap is ordered separately and is intended for Altitude 3550 outdoor deployments. NOTE For the Altitude 3550, Extreme Networks recommends using the Altitude 3550 Power Tap (Part No. 15729) designed especially for outdoor deployments. CAUTION The Altitude 3510 supports a 802.3af compliant power source (including non-Extreme Networks power sources). However, using the wrong solution could severely damage the access point and void the product warranty. A separate Power Tap is required for each access point comprising the network. Installing the Power Tap Refer to the following sections for information on planning, installing, and validating the installation: ● Preparing for Site Installation on page 40 ● Cabling the Power Tap on page 41 Preparing for Site Installation The Power Tap can be installed free standing, on an even horizontal surface. The following guidelines should be adhered to before cabling the Power Tap to an Ethernet source and an access point: ● Do not block or cover airflow to the Power Tap. Altitude 3500 Series Access Point Product Reference Guide 40 ● Keep the unit away from excessive heat, humidity, vibration and dust. ● The Power Tap is not a repeater, and does not amplify the Ethernet data signal. For optimal performance, ensure the unit is placed as close as possible to the network data port. Cabling the Power Tap To install a Power Tap to an Ethernet data source and access point: CAUTION For Power Tap installations, an electrician is required to open the Power Tap unit, feed the power cable through the Line AC connector, secure the power cable to the unit’s three screw termination block and tighten the unit’s Line AC clamp (by hand) to ensure the power cable cannot be pulled from the Power Tap enclosure. Only a certified electrician should conduct the installation. CAUTION Ensure AC power is supplied to the Power Tap (for Altitude 3550 installations) using an AC cable with an appropriate ground connection approved for the country of operation. 1 Connect an RJ-45 Ethernet cable between the network data supply (host) and the Power Tap’s DATA IN connector. 2 Connect an RJ-45 Ethernet cable between the Power Tap’s DATA/PWR OUT connector and the access point’s LAN port. CAUTION Cabling the Power Tap to the access point’s WAN port renders the access point non-operational. Only use a Power Tap with the access point’s LAN port. Ensure the cable length from the Ethernet source (host) to the Power Tap and access point does not exceed 100 meters (333 ft). The Power Tap does not have an On/Off switch. It receives power as soon as AC power is applied. 3 For Power Tap installations, have a certified electrician open the Power Tap enclosure, feed the power cable through the unit’s LINE AC connector, secure the power cable to the unit’s three screw termination block and tighten the unit’s LINE AC clamp (by hand) to ensure the power cable cannot be pulled from the unit and is protected from the elements. 4 For Power Tap installations, attach a ground cable between the EARTH GROUND connector (on the back of the unit) to a suitable earth ground connection as defined by your local electrical code. 5 Verify all cable connections are complete before supplying power to the access point. Mounting an Altitude 3510 The Altitude 3510 can rest on a flat surface, attach to a wall, mount under a suspended T-Bar or above a ceiling (plenum or attic). Choose one of the following mounting options based on the physical environment of the coverage area. Do not mount the Altitude 3510 in a location that has not been approved in a site survey. Altitude 3500 Series Access Point Product Reference Guide 41 Hardware Installation Refer to the following, depending on how you intend to mount the Altitude 3510: ● Desk Mounted Installations on page 42 ● Wall Mounted Installations on page 43 ● Suspended Ceiling T-Bar Installations on page 44 ● Above the Ceiling (Plenum) Installations on page 46 Desk Mounted Installations The desk mount option uses rubber feet allowing the unit to sit on most flat surfaces. The four (4) round rubber feet can be found in the Altitude 3510 (main) box in a separate plastic bag. To install the Altitude 3510 in a desk mount orientation: 1 Turn the Altitude 3510 upside down. 2 Attach the radio antennas to their correct connectors. The antenna protection plate cannot be used in a desk mount configuration, as the plate only allows antennas to be positioned in a downward orientation. CAUTION Both the Dual and Single Radio model Altitude 3510’s use RSMA type antenna connectors. On the Dual Radio Altitude 3510, a single dot on the antenna connector indicates the primary antenna for both Radio 1 (2.4 GHz) and Radio 2 (5 GHz). Two dots designate the secondary antenna for both Radio 1 and Radio 2. On Single Radio models, a single dot on the antenna connector indicates the primary antenna for Radio 1, and two dots designate the secondary antenna for Radio 1. 3 Remove the backings from the four (4) rubber feet and attach them to the four rubber feet recess areas on the Altitude 3510. 4 Cable the Altitude 3510 using an approved line cord and power supply. CAUTION Do not supply power to the Altitude 3510 until the cabling of the unit is complete. For standard 48-Volt power adapter (Part No. 15728) and line cord installations: a Connect RJ-45 Ethernet cable between the network data supply (host) and the Altitude 3510 LAN port. b Verify the power adapter is correctly rated according the country of operation. Altitude 3500 Series Access Point Product Reference Guide 42 c Connect the power supply line cord to the power adapter. d Attach the power adapter cable into the power connector on the Altitude 3510. e Plug the power adapter into an outlet. 5 Verify the behavior of the Altitude 3510 LEDs. For more information, see “Altitude 3510 LED Indicators” on page 48. 6 Return the Altitude 3510 to an upright position and place it in the location you wish it to operate. Ensure the Altitude 3510 is sitting evenly on all four rubber feet. The Altitude 3510 is ready to configure. For information on an Altitude 3510 default configuration, see “Getting Started” on page 55. For specific details on Altitude 3510 system configurations, see “System Configuration” on page 67. Wall Mounted Installations Wall mounting requires hanging the Altitude 3510 along its width (or length) using the pair of slots on the bottom of the unit and using the Altitude 3510 itself as a mounting template for the screws. The Altitude 3510 can be mounted onto any plaster or wood wall surface. The mounting hardware and tools (customer provided) required to install the Altitude 3510 on a wall consists of: ● Two Phillips pan head self-tapping screws (ANSI Standard) #6-18 X 0.875in. Type A or AB SelfTapping screw, or (ANSI Standard Metric) M3.5 X 0.6 X 20mm Type D Self-Tapping screw ● Two wall anchors ● Security cable (optional) To mount the Altitude 3510 on a wall: 1 Orient the Altitude 3510 on the wall by its width or length. 2 Using the arrows on one edge of the case as guides, move the edge to the midline of the mounting area and mark points on the midline for the screws. 3 At each point, drill a hole in the wall, insert an anchor, screw into the anchor the wall mounting screw and stop when there is 1mm between the screw head and the wall. If pre-drilling a hole, the recommended hole size is 2.8mm (0.11in.) if the screws are going directly into the wall and 6mm (0.23in.) if wall anchors are being used. 4 If required, install and attach a security cable to the Altitude 3510 lock port. 5 Place the large corner of each of the mount slots over the screw heads. 6 Slide the Altitude 3510 down along the mounting surface to hang the mount slots on the screw heads. 7 Attach the radio antennas to their correct connectors. CAUTION Both the Dual and Single Radio model Altitude 3510s use RSMA type antenna connectors. On the Dual Radio Altitude 3510, a single dot on the antenna connector indicates the primary antenna for both Radio 1 (2.4 GHz) and Radio 2 (5 GHz). Two dots designate the secondary antenna for both Radio 1 and Radio 2. On Single Radio models, a single dot on the antenna connector indicates the primary antenna for Radio 1, and two dots designate the secondary antenna for Radio 1. 8 Cable the Altitude 3510 using an approved line cord and power supply. Altitude 3500 Series Access Point Product Reference Guide 43 Hardware Installation NOTE The access point must be mounted with the RJ45 cable connector oriented upwards to ensure proper operation. CAUTION Do not supply power to the Altitude 3510 until the cabling of the unit is complete. For standard 48-Volt Power Adapter (Part No. 15728) and line cord installations: a Connect RJ-45 Ethernet cable between the network data supply (host) and the Altitude 3510 LAN port. b Verify the power adapter is correctly rated according the country of operation. c Connect the power supply line cord to the power adapter. d Attach the power adapter cable into the power connector on the Altitude 3510. e Plug the power adapter into an outlet. NOTE If the Altitude 3510 is utilizing remote management antennas, a wire cover can be used to provide a clean finished look to the installation. Contact Extreme Networks for more information. 9 Verify the behavior of the Altitude 3510 LEDs. For more information, see “Altitude 3510 LED Indicators” on page 48. The Altitude 3510 is ready to configure. For information on an Altitude 3510 default configuration, see “Getting Started” on page 55. For specific details on Altitude 3510 system configurations, see “System Configuration” on page 67. Suspended Ceiling T-Bar Installations A suspended ceiling mount requires holding the Altitude 3510 up against the T-bar of a suspended ceiling grid and twisting the Altitude 3510 chassis onto the T-bar. The mounting hardware and tools (customer provided) required to install the Altitude 3510 on a ceiling T-bar consists of: ● Safety wire (recommended) ● Security cable (optional) To install the Altitude 3510 on a ceiling T-bar: 1 If required, loop a safety wire—with a diameter of at least 1.01 mm (.04 in.), but no more than 0.158 mm (.0625 in.)—through the tie post (above the Altitude 3510’s console connector) and secure the loop. 2 If required, install and attach a security cable to the Altitude 3510 lock port. 3 Attach the radio antennas to their correct connectors. Altitude 3500 Series Access Point Product Reference Guide 44 CAUTION Both the Dual and Single Radio model Altitude 3510s use RSMA type antenna connectors. On a Dual Radio Altitude 3510, a single dot on the antenna connector indicates the primary antenna for both Radio 1 (2.4 GHz) and Radio 2 (5 GHz). Two dots designate the secondary antenna for both Radio 1 and Radio 2. On Single Radio models, a single dot on the antenna connector indicates the primary antenna for Radio 1, and two dots designate the secondary antenna for Radio 1 4 Cable the Altitude 3510 using an approved line cord and power supply. CAUTION Do not supply power to the Altitude 3510 until the cabling of the unit is complete. For standard 48-Volt Power Adapter (Part No. 15728) and line cord installations: a Connect RJ-45 Ethernet cable between the network data supply (host) and the Altitude 3510 LAN port. b Verify the power adapter is correctly rated according the country of operation. c Connect the power supply line cord to the power adapter. d Attach the power adapter cable into the power connector on the Altitude 3510. e Plug the power adapter into an outlet. 5 Verify the behavior of the Altitude 3510 LEDs. For more information, see “Altitude 3510 LED Indicators” on page 48. 6 Align the bottom of the ceiling T-bar with the back of the Altitude 3510. 7 Orient the Altitude 3510 chassis by its length and the length of the ceiling T-bar. 8 Rotate the Altitude 3510 chassis 45 degrees clockwise, or about 10 o’clock. 9 Push the back of the Altitude 3510 chassis on to the bottom of the ceiling T-bar. CAUTION Ensure the safety wire and cabling used in the T-Bar Altitude 3510 installation is securely fastened to the building structure in order to provide a safe operating environment. 10 Rotate the Altitude 3510 chassis 45 degrees counter-clockwise. The clips click as they fasten to the Tbar. Altitude 3500 Series Access Point Product Reference Guide 45 Hardware Installation 11 The Altitude 3510 is ready to configure. For information on an Altitude 3510 default configuration, see “Getting Started” on page 55. For specific details on Altitude 3510 system configurations, see “System Configuration” on page 67. NOTE If the Altitude 3510 is utilizing remote management antennas, a wire cover can be used to provide a clean finished look to the installation. Contact Extreme Networks for more information. Above the Ceiling (Plenum) Installations An Altitude 3510 above the ceiling installation requires placing the Altitude 3510 above a suspended ceiling and installing the provided light pipe under the ceiling tile for viewing the rear panel status LEDs of the unit. An above the ceiling Altitude 3510 installation enables installations compliant with drop ceilings, suspended ceilings and industry standard tiles from .625 to .75 inches thick. NOTE The Altitude 3510 is Plenum rated to UL2043 and NEC1999 to support above the ceiling installations. CAUTION Extreme Networks does not recommend mounting the Altitude 3510 directly to any suspended ceiling tile with a thickness less than 12.7mm (0.5in.) or a suspended ceiling tile with an unsupported span greater than 660mm (26in.). Extreme Networks strongly recommends fitting the Altitude 3510 with a safety wire suitable for supporting the weight of the device. The safety wire should be a standard ceiling suspension cable or equivalent steel wire between 1.59mm (.062in.) and 2.5mm (.10in.) in diameter. The mounting hardware required to install the Altitude 3510 above a ceiling consists of: ● Light pipe ● Badge for light pipe Altitude 3500 Series Access Point Product Reference Guide 46 ● Decal for badge ● Safety wire (strongly recommended) ● Security cable (optional) To install the Altitude 3510 above a ceiling: 1 If possible, remove the adjacent ceiling tile from its frame and place it aside. 2 Install a safety wire, between 1.5mm (.06in.) and 2.5mm (.10in.) in diameter, in the ceiling space. 3 If required, install and attach a security cable to the Altitude 3510’s lock port. 4 Mark a point on the finished side of the tile where the light pipe is to be located. 5 Create a light pipe path hole in the target position on the ceiling tile. 6 Use a drill to make a hole in the tile the approximate size of the Altitude 3510 LED light pipe. CAUTION Extreme Networks recommends care be taken not to damage the finished surface of the ceiling tile when creating the light pipe hole and installing the light pipe. 7 Remove the light pipe’s rubber stopper before installing the light pipe. 8 Connect the light pipe to the bottom of the Altitude 3510. Align the tabs and rotate approximately 90 degrees. Do not over tighten. Light Pipe Ceiling Tile Decal Badge 9 Snap the clips of the light pipe into the bottom of the Altitude 3510. 10 Fit the light pipe into hole in the tile from its unfinished side. 11 Place the decal on the back of the badge and slide the badge onto the light pipe from the finished side of the tile. 12 Attach the radio antennas to their correct connectors. CAUTION Both the Dual and Single Radio model Altitude 3510s use RSMA type antenna connectors. On the Dual Radio Altitude 3510, a single dot on the antenna connector indicates the primary antenna for both Radio 1 (2.4 GHz) and Radio 2 (5 GHz). Two dots designate the secondary antenna for both Radio 1 and Radio 2. On Single Altitude 3500 Series Access Point Product Reference Guide 47 Hardware Installation Radio models, a single dot on the antenna connector indicates the primary antenna for Radio 1, and two dots designate the secondary antenna for Radio 1. 13 Attach safety wire (if used) to the Altitude 3510 safety wire tie point or security cable (if used) to the Altitude 3510’s lock port. 14 Align the ceiling tile into its former ceiling space. 15 Cable the Altitude 3510 using an approved line cord and power supply. CAUTION Do not supply power to the Altitude 3510 until the cabling of the unit is complete. For standard 48-Volt Power Adapter (Part No. 15728) and line cord installations: a Connect an RJ-45 Ethernet cable between the network data supply (host) and the Altitude 3510 LAN port. b Verify the power adapter is correctly rated according the country of operation. c Connect the power supply line cord to the power adapter. d Attach the power adapter cable into the power connector on the Altitude 3510. e Plug the power adapter into an outlet. 16 Verify the behavior of the Altitude 3510 LED lightpipe. For more information, see “Altitude 3510 LED Indicators” on page 48. 17 Place the ceiling tile back in its frame and verify it is secure. The Altitude 3510 is ready to configure. For information on an Altitude 3510 default configuration, see “Getting Started” on page 55. For specific details on Altitude 3510 system configurations, see “System Configuration” on page 67. Altitude 3510 LED Indicators The Altitude 3510 utilizes seven LED indicators. Five LEDs display within four LED slots on the front of the Altitude 3510 (on top of the Altitude 3510 housing) and two LEDs (for above the ceiling installations) are located on the back of the device (the side containing the LAN, WAN and antenna connectors). Altitude 3500 Series Access Point Product Reference Guide 48 0OWERAND%RROR#ONDITIONS3PLIT,%$ $ATA/VER%THERNET A2ADIO!CTIVITY BG2ADIO!CTIVITY The five LEDs on the top housing of the Altitude 3510 are clearly visible in table-top, wall and below ceiling installations. The five Altitude 3510 top housing LEDs have the following display and functionality: Power Status Solid white indicates the Altitude 3510 is adequately powered. Error Conditions Solid red indicates the Altitude 3510 is experiencing a problem condition requiring immediate attention. Ethernet Activity Flashing white indicates data transfers and Ethernet activity. 802.11a Radio Activity Flickering amber indicates beacons and data transfers over the Altitude 3510 802.11a radio. 802.11b/g Radio Activity Flickering green indicates beacons and data transfers over the Altitude 3510 802.11b/g radio. The LEDs on the rear of the Altitude 3510 are viewed using a single (customer installed) extended lightpipe, adjusted as required to suit above the ceiling installations. The LEDs displayed using the lightpipe have the following color display and functionality: Boot and Power Status Solid white indicates the Altitude 3510 is adequately powered. Error Conditions Solid red indicates the Altitude 3510 is experiencing a problem condition requiring immediate attention. Power and Error Conditions Blinking red indicates the Altitude 3510 Rogue AP Detection feature has located a rogue device Mounting an Altitude 3550 The Altitude 3550 can be connected to a pole or attach to a wall. Choose one of the following mounting options based on the physical environment of the coverage area. Do not mount the Altitude 3550 in a location that has not been approved in a site survey. Altitude 3500 Series Access Point Product Reference Guide 49 Hardware Installation Refer to the following, depending on how you intend to mount the Altitude 3550: ● Altitude 3550 Pole Mounted Installations on page 50 ● Altitude 3550 Wall Mounted Installations on page 52 Altitude 3550 Pole Mounted Installations Complete the following steps to mount the Altitude 3550 to a (1.5 to 18 inch diameter) steel pole or tube (using the mounting bracket): 1 Fit the edges of the V-shaped clamp parts into the slots on the flat side of the rectangular plate. 2 Place the V-shaped bracket clamp parts around the pole and tighten the nuts just enough to hold the bracket to the pole. (The bracket may need to be rotated around the pole during the antenna alignment process). Fit the edges of the V-shaped part into the slots Tighten the securing bolts 3 Attach the square mounting plate to the bridge with the supplied screws. Attach the square plate to the bridge 4 Attach the Altitude 3550 and mounting plate to the bracket already fixed to the pole. 5 Secure the Altitude 3550 to the pole bracket using the provided nuts. NOTE The Altitude 3550 tilt angle may need to be adjusted during the antenna alignment process. Verify the antenna polarization angle when installing, ensure the antennas are oriented correctly in respect to the Altitude 3550's coverage area. Altitude 3500 Series Access Point Product Reference Guide 50 6 Attach the radio antenna to their correct connectors. 7 Cable the Altitude 3550 using the Altitude 3550 Power Tap (Part No. 15729). NOTE The access point must be mounted with the RJ45 cable connectors oriented upwards to ensure proper operation. CAUTION Do not supply power to the Altitude 3550 Power Tap until the cabling of the access point is complete. CAUTION For Power Tap installations, an electrician is required to open the Power Tap unit, feed the power cable through the Line AC connector, secure the power cable to the unit’s three screw termination block and tighten the unit’s Line AC clamp (by hand) to ensure the power cable cannot be pulled from the Power Tap enclosure. Only a certified electrician should conduct the installation. a Connect an RJ-45 Ethernet cable between the network data supply (host) and the Power Tap’s DATA IN connector. b Connect an RJ-45 Ethernet cable between the Power Tap’s DATA/PWR OUT connector and the Altitude 3550 LAN port. c For Power Tap installations, have a certified electrician open the Power Tap enclosure, feed the power cable through the unit’s LINE AC connector, secure the power cable to the unit’s three screw termination block and tighten the unit’s LINE AC clamp (by hand) to ensure the power cable cannot be pulled from the unit. d For Power Tap installations, attach a ground cable between the EARTH GROUND connector (on the back of the unit) to a suitable earth ground connection as defined by your local electrical code. e Ensure the cable length from the Ethernet source (host) to the Power Tap and Altitude 3550 does not exceed 100 meters (333 ft). The Power Tap does not have an On/Off power switch. It receives power as soon as AC power is applied. For more information on using the see, “Power Tap Systems” on page 40. 8 Use the supplied cable connector to cover the Altitude 3550’s Console, LAN/PoE and WAN connectors. 9 Once power has been applied, Verify the behavior of the Altitude 3550 LEDs. For more information, see “Altitude 3550 LED Indicators” on page 54. The Altitude 3550 is ready to configure. For information on an Altitude 3550 default configuration, see “Getting Started” on page 55. For specific details on Altitude 3550 system configurations, see “System Configuration” on page 67. CAUTION If installing the Altitude 3550 in an outdoor area prone to high winds and rain, Extreme Networks recommends using the Altitude 3550 Heavy Weather Kit (Part No. 15732). This kit shields an Altitude 3550 from high winds and water damage as a result of driving rain. Altitude 3500 Series Access Point Product Reference Guide 51 Hardware Installation Altitude 3550 Wall Mounted Installations Complete the following steps to mount the Altitude 3550 to a wall using the supplied wall-mounting bracket: 1 Attach the bracket to a wall with flat side flush against the wall (see the illustration below). Position the bracket in the intended location and mark the positions of the four mounting screw holes. 2 Drill four holes in the wall that match the screws and wall plugs. 3 Secure the bracket to the wall. 4 Attach the square mounting plate to the bridge with the supplied screws. Attach the bridge to the plate on the pole. 029 5 Use the included nuts to tightly secure the wireless bridge to the bracket. Fit the edges of the Vshaped clamp into the slots on the flat side of the rectangular plate. 6 Attach the radio antenna to their correct connectors. 7 Cable the Altitude 3550 using the Altitude 3550 Power Tap (Part No. 15729). NOTE Once ready for the final positioning of the access point, ensure the RJ45 cable connectors are oriented upwards to ensure proper operation. Altitude 3500 Series Access Point Product Reference Guide 52 CAUTION Do not supply power to the Altitude 3550 Power Tap until the cabling of the access point is complete. CAUTION For Power Tap installations, an electrician is required to open the Power Tap unit, feed the power cable through the Line AC connector, secure the power cable to the unit’s three screw termination block and tighten the unit’s Line AC clamp (by hand) to ensure the power cable cannot be pulled from the Power Tap enclosure. Only a certified electrician should conduct the installation. a Connect an RJ-45 Ethernet cable between the network data supply (host) and the Power Tap’s DATA IN connector. b Connect an RJ-45 Ethernet cable between the Power Tap’s DATA/PWR OUT connector and the Altitude 3550 LAN port. c For Power Tap installations, have a certified electrician open the Power Tap enclosure, feed the power cable through the unit’s LINE AC connector, secure the power cable to the unit’s three screw termination block and tighten the unit’s LINE AC clamp (by hand) to ensure the power cable cannot be pulled from the unit. d For Power Tap installations, attach a ground cable between the EARTH GROUND connector (on the back of the unit) to a suitable earth ground connection as defined by your local electrical code. e Ensure the cable length from the Ethernet source (host) to the Power Tap and Altitude 3550 does not exceed 100 meters (333 ft). The Power Tap does not have an On/Off power switch. It receives power as soon as AC power is applied. For more information on using the see, “Power Tap Systems” on page 40. 8 Use the supplied cable connector to cover the Altitude 3550’s Console, LAN/PoE and WAN connectors. 9 Once power has been applied, verify the behavior of the Altitude 3550 LEDs. For more information, see “Altitude 3550 LED Indicators” on page 54. The Altitude 3550 is ready to configure. For information on an Altitude 3550 default configuration, see “Getting Started” on page 55. For specific details on Altitude 3550 system configurations, see “System Configuration” on page 67. CAUTION If installing the Altitude 3550 in an outdoor area prone to high winds and rain, Extreme Networks recommends using the Altitude 3550 Heavy Weather Kit (Part No.15732). This kit shields an Altitude 3550 from high winds and water damage as a result of driving rain. Altitude 3500 Series Access Point Product Reference Guide 53 Hardware Installation Altitude 3550 LED Indicators The Altitude 3550 utilizes four LED indicators. Five LEDs display within four LED slots on the back of the access point. The five LEDs have the following display and functionality: Power and error conditions (split LED) Data over Ethernet 802.11a radio activity 802.11b/g radio activity sym_025 Power Status Solid white indicates the access point is adequately powered. Error Conditions Solid red indicates the access point is experiencing a problem condition requiring immediate attention. Ethernet Activity Flashing white indicates data transfers and Ethernet activity. 802.11a Radio Activity Flickering amber indicates beacons and data transfers over the access point 802.11a radio. 802.11b/g Radio Activity Flickering green indicates beacons and data transfers over the access point 802.11b/g radio. Setting Up MUs For a discussion of how to initially test the access point to ensure it can interoperate with the MUs intended for its operational environment, see “Basic Device Configuration” on page 57 and specifically “Testing Connectivity” on page 64. Use the default values for the ESSID and other configuration parameters until the network connection is verified. MUs attach to the network and interact with the AP transparently. Altitude 3500 Series Access Point Product Reference Guide 54 3 Getting Started CHAPTER The access point should be installed in an area tested for radio coverage using one of the site survey tools available to the field service technician. Once an installation site has been identified, the installer should carefully follow the hardware precautions, requirements, mounting guidelines and power options outlined in “Hardware Installation” on page 35. See the following sections for more details: ● Installing the Access Point on page 55 ● Configuration Options on page 56 ● Basic Device Configuration on page 57 Installing the Access Point Make the required cable and power connections before mounting the access point in its final operating position. Test the access point with an associated MU before mounting and securing the access point. Carefully follow the mounting instructions in one of the following sections to ensure the access point is installed correctly: For installing an Altitude 3510 model access point: ● For instructions on installing the Altitude 3510 on a table top, see “Desk Mounted Installations” on page 42. ● For instructions on mounting an Altitude 3510 to a wall, see “Wall Mounted Installations” on page 43. ● For instructions on mounting an Altitude 3510 to a ceiling T-bar, see “Suspended Ceiling T-Bar Installations” on page 44. ● For instructions on installing the Altitude 3510 in an above the ceiling attic space, see “Above the Ceiling (Plenum) Installations” on page 46. For installing an Altitude 3550 model access point: ● For instructions on installing the Altitude 3550 to a pole, see “Altitude 3550 Pole Mounted Installations” on page 50. ● For instructions on installing the Altitude 3550 to a wall, see “Altitude 3550 Wall Mounted Installations” on page 52. Altitude 3500 Series Access Point Product Reference Guide 55 Getting Started For information on the 802.11a and 802.11b/g radio antenna suite available to the Altitude 3550, see “Antenna Options” on page 38. To verify Altitude 3510 LED behavior once installed, see “Altitude 3510 LED Indicators” on page 48. To verify the behavior of the Altitude 3550 LEDs once installed, see “Altitude 3550 LED Indicators” on page 54. Configuration Options Once installed and powered, an Altitude 3510 or Altitude 3550 can be configured using one of several connection techniques. Managing the access point includes viewing network statistics and setting configuration options. The access point requires one of the following connection methods to manage the network: ● Secure Java-Based WEB UI—(use Sun Microsystems’ JRE 1.5 or higher available from Sun’s Web site. Disable Microsoft’s Java Virtual Machine if installed). For information on using the Web UI to set access point default configuration, see “Basic Device Configuration” on page 57 or chapters 4 through 7 of this guide. ● Command Line Interface (CLI) via Serial, Telnet and SSH. The access point CLI is accessed through the RS232 port, via Telnet or SSH. The CLI follows the same configuration conventions as the device user interface with a few documented exceptions. ● Config file—Readable text file; Importable/Exportable via FTP, TFTP and HTTP. Configuration settings for an access point can be downloaded from the current configuration of another access point meeting the import/export requirements. For information on importing or exporting configuration files, see “Importing/Exporting Configurations” on page 103. ● MIB (Management Information Base) accessing the access point SNMP functions using a MIB Browser. Initially Connecting to the Access Point NOTE The procedures described below assume this is the first time you are connecting to either an Altitude 3510 or Altitude 3550 model access point. Connecting to the Access Point using the WAN Port To initially connect to the access point using the access point’s WAN port: 1 Connect AC power to the access point, as Power-Over-Ether support is not available on the access point’s WAN port. 2 Start a browser and enter the access point’s static IP WAN address (10.1.1.1). The default login is “admin.” The default password is “admin123.” 3 Refer to “Basic Device Configuration” on page 57 for instructions on the initial (basic) configuration of the access point. Altitude 3500 Series Access Point Product Reference Guide 56 Connecting to the Access Point using the LAN Port To initially connect to the access point using the access point’s LAN port: 1 The LAN port default is set to DHCP. Connect the access point’s LAN port to a DHCP server. The access point will receive its IP address automatically. 2 To view the IP address, connect one end of a null modem serial cable to the access point and the other end to the serial port of a computer running HyperTerminal or similar emulation program. NOTE If using an Altitude 3510 model access point, a null modem cable is required. If using an Altitude 3550 model access point, an RJ-45 to Serial cable is required to make the connection. 3 Configure the following settings: ● Baud Rate—19200 ● Data Bits—8 ● Stop Bits—1 ● No Parity ● No Flow Control 4 Press <ESC> or <Enter> to access the access point CLI. 5 Enter the default username of “admin” and the default password of “admin123.” As this is the first time you are logging into the access point, you are prompted to enter a new password and set the county code. Refer to “Country Codes” on page 574 for a list of each available countries two digit country code. 6 At the CLI prompt (admin>), type “summary.” The access point’s LAN IP address will display. 7 Using a Web browser, use the access point’s IP address to access the access point. 8 Refer to “Basic Device Configuration” on page 57 for instructions on the initial (basic) configuration of the access point. Basic Device Configuration For the basic setup described in this section, the Java-based Web UI will be used to configure the access point. Use the access point’s LAN interface for establishing a link with the access point. Configure the access point as a DHCP client. For optimal screen resolution, set your screen resolution to 1024 x 768 pixels or greater. 1 Log in using admin as the default Username and admin123 as the default Password. Use your new password if it has been updated from default. There is no difference in the login method between the Altitude 3510 and Altitude 3550 model access points. However, each model displays a login screen unique in appearance (with a different model name). Additionally, each model access point displays a banner on top of each menu screen unique to the Altitude 3510 or Altitude 3550 model supported. Altitude 3500 Series Access Point Product Reference Guide 57 Getting Started NOTE For optimum compatibility, use Sun Microsystems’ JRE 1.5 or higher (available from Sun’s website), and be sure to disable Microsoft’s Java Virtual Machine if installed. 2 If the default login is successful, the Change Admin Password window displays. Change the password. Enter the current password and a new admin password in fields provided. Click Apply. Once the admin password has been updated, a warning message displays stating the access point must be set to a country. The export function will always export the encrypted Admin User password. The import function will import the Admin Password only if the access point is set to factory default. If the access point is not configured to factory default settings, the Admin User password WILL NOT get imported. Altitude 3500 Series Access Point Product Reference Guide 58 NOTE Though the access point can have its basic settings defined using a number of different screens, Extreme Networks recommends using the access point Quick Setup screen to set the correct country of operation and define its minimum required configuration from one convenient location. Configuring Device Settings Configure a set of minimum required device settings within the Quick Setup screen. The values defined within the Quick Setup screen are also configurable in numerous other locations within the menu tree. When you change the settings in the Quick Setup screen, the values also change within the screen where these parameters also exist. Additionally, if the values are updated in these other screens, the values initially set within the Quick Setup screen will be updated. To define a basic access point configuration: 1 Select System Configuration > Quick Setup from the menu tree, if the Quick Setup screen is not already displayed. 2 Enter a System Name for the access point. The System Name is useful if multiple devices are being administered. 3 Select the Country for the access point’s country of operation from the drop-down menu The access point prompts the user for the correct country code on the first login. A warning message also displays stating that an incorrect country settings may result in illegal radio operation. Selecting Altitude 3500 Series Access Point Product Reference Guide 59 Getting Started the correct country is central to legally operating the access point. Each country has its own regulatory restrictions concerning electromagnetic emissions and the maximum RF signal strength that can be transmitted. To ensure compliance with national and local laws, be sure to set the country accurately. CLI and MIB users cannot configure their access point until a two character country code (for example, United Kingdom - gb) is set. Refer to “Country Codes” on page 574 for the two-character country codes. NOTE The System Name and Country are also configurable within the System Settings screen. Refer to “Configuring System Settings” on page 68 (if necessary) to set a system location and admin email address for the access point or to view other default settings. NOTE Certain SKUs of access points are country-specific, such as US and Israel. The AP comes with the country code set for these countries and cannot be changed by the user. 4 Optionally enter the IP address of the server used to provide system time to the access point within the Time Server field. NOTE DNS names are not supported as a valid IP address. The user is required to enter a numerical IP address. Once the IP address is entered, the access point’s Network Time Protocol (NTP) functionality is engaged automatically. Refer to the access point Product Reference Guide for information on defining alternate time servers and setting a synchronization interval for the access point to adjust its displayed time. Refer to “Configuring Network Time Protocol (NTP)” on page 98 (if necessary) for information on setting alternate time servers and setting a synchronization interval for the access point to adjust its displayed time. 5 Click the WAN tab to set a minimum set of parameters for using the WAN interface. a Select the Enable WAN Interface checkbox to enable a connection between the access point and a larger network or outside world through the WAN port. Disable this option to effectively isolate the access point’s WAN connection. No connections to a larger network or the Internet will be possible. MUs cannot communicate beyond the configured subnets. b Select the This Interface is a DHCP Client checkbox to enable DHCP for the access point’s WAN connection. This is useful, if the larger corporate network or Internet Service Provider (ISP) uses DHCP. DHCP is a protocol that includes mechanisms for IP address allocation and delivery of host-specific configuration parameters from a DHCP server to a host. Some of these parameters are IP address, network mask, and gateway. NOTE Extreme Networks recommends that the WAN and LAN ports should not both be configured as DHCP clients. c Specify an IP address for the access point’s WAN connection. An IP address uses a series of four numbers expressed in dot notation, for example, 190.188.12.1 (no DNS names supported). Altitude 3500 Series Access Point Product Reference Guide 60 d Specify a Subnet Mask for the access point’s WAN connection. This number is available from the ISP for a DSL or cable-modem connection, or from an administrator if the access point connects to a larger network. A subnet mask uses a series of four numbers expressed in dot notation. For example, 255.255.255.0 is a valid subnet mask. e Define a Default Gateway address for the access point’s WAN connection. The ISP or a network administrator provides this address. f Specify the address of a Primary DNS Server. The ISP or a network administrator provides this address. 6 Optionally, use the Enable PPP over Ethernet checkbox to enable Point-to-Point over Ethernet (PPPoE) for a high-speed connection that supports this protocol. Most DSL providers are currently using or deploying this protocol. PPPoE is a data-link protocol for dialup connections. PPPoE will allow the access point to use a broadband modem (DSL, cable modem, etc.) for access to high-speed data networks. a Select the Keep Alive checkbox to enable occasional communications over the WAN port even when client communications to the WAN are idle. Some ISPs terminate inactive connections, while others do not. In either case, enabling Keep-Alive maintains the WAN connection, even when there is no traffic. If the ISP drops the connection after the idle time, the access point automatically reestablishes the connection to the ISP. b Specify the Username entered when connecting to the ISP. When the Internet session begins, the ISP authenticates the username. c Specify the Password entered when connecting to the ISP. When the Internet session starts, the ISP authenticates the password. For additional access point WAN port configuration options, see “Configuring WAN Settings” on page 125. 7 Click the LAN tab to set a minimum set of parameters to use the access point LAN interface. a Select the Enable LAN Interface checkbox to forward data traffic over the access point’s LAN connection. The LAN connection is enabled by default. b Use the This Interface drop-down menu to specify how network address information is defined over the access point’s LAN connection. Select DHCP Client if the larger corporate network uses DHCP. DHCP is a protocol that includes mechanisms for IP address allocation and delivery of host-specific configuration parameters from a DHCP server to a host. Some of these parameters are IP address, network mask, and gateway. Select DHCP Server to use the access point as a DHCP server over the LAN connection. Select the Bootp client option to enable a diskless system to discover its own IP address. NOTE Extreme Networks recommends that the WAN and LAN ports should not both be configured as DHCP clients. c If using the static or DHCP Server option, enter the network-assigned IP Address of the access point. NOTE DNS names are not supported as a valid IP address for the access point. The user is required to enter a numerical IP address. Altitude 3500 Series Access Point Product Reference Guide 61 Getting Started d The Subnet Mask defines the size of the subnet. The first two sets of numbers specify the network domain, the next set specifies the subset of hosts within a larger network. These values help divide a network into subnetworks and simplify routing and data transmission. e If using the static or DHCP Server option, enter a Default Gateway to define the numerical IP address of a router the access point uses on the Ethernet as its default gateway. f If using the static or DHCP Server option, enter the Primary DNS Server numerical IP address. g If using the DHCP Server option, use the Address Assignment Range parameter to specify a range of IP address reserved for mapping clients to IP addresses. If a manually (static) mapped IP address is within the IP address range specified, that IP address could still be assigned to another client. To avoid this, ensure all statically mapped IP addresses are outside of the IP address range assigned to the DHCP server. For additional access point LAN port configuration options, see “Configuring the LAN Interface” on page 113. 8 Enable the radio(s) using the Enable checkbox(es) within the Radio Configuration field. Only one RF band option at a time is permissible in a single-radio model. If using a dual-radio model, the user can enable both RF bands. For additional radio configuration options, see “Configuring the 802.11a or 802.11b/g Radio” on page 154. 9 Select the WLAN #1 tab (WLANs 1–4 are available within the Quick Setup screen) to define its ESSID and security scheme for basic operation. NOTE A maximum of 16 WLANs are configurable within the Wireless Configuration screen. The limitation of 16 WLANs exists regardless of whether the access point is a single or dual-radio model. a Enter the Extended Services Set Identification (ESSID) and name associated with the WLAN. For additional information on creating and editing up to 16 WLANs per access point, see “Creating/ Editing Individual WLANs” on page 135. b Use the Available On checkboxes to define whether the target WLAN is operating over the 802.11a or 802.11b/g radio. Ensure the radio selected has been enabled (see step 8). c Even an access point configured with minimal values must protect its data against theft and corruption. A security policy should be configured for WLAN1 as part of the basic configuration outlined in this guide. A security policy can be configured for the WLAN from within the Quick Setup screen. Policies can be defined over time and saved to be used as needed as security requirements change. Extreme Networks recommends you familiarize yourself with the security options available on the access point before defining a security policy. Refer to “Configuring WLAN Security Settings” on page 63. 10 Click Apply to save any changes to the access point Quick Setup screen. Navigating away from the screen without clicking Apply results in all changes to the screens being lost. 11 Click Undo Changes (if necessary) to undo any changes made. Undo Changes reverts the settings displayed on the access point Quick Setup screen to the last saved configuration. Altitude 3500 Series Access Point Product Reference Guide 62 Configuring WLAN Security Settings To configure a basic security policy for a WLAN: 1 From the access point Quick Setup screen, click the Create button to the right of the Security Policy item. The New Security Policy screen displays with the Manually Pre-shared key/No authentication and No Encryption options selected. Naming and saving such a policy (as is) would provide no security and might only make sense in a guest network wherein no sensitive data is either transmitted or received. Consequently, at a minimum, a basic security scheme (in this case WEP 128) is recommended in a network environment wherein sensitive data is transmitted. NOTE For information on configuring the other encryption and authentication options available to the access point, see “Configuring Security Options” on page 169. 2 Ensure the Name of the security policy entered suits the intended configuration or function of the policy. Multiple WLANs can share the same security policy, so be careful not to name security policies after specific WLANs or risk defining a WLAN to single policy. Extreme Networks recommends naming the policy after the attributes of the authentication or encryption type selected. 3 Select the WEP 128 (104 bit key) checkbox. The WEP 128 Settings field displays within the New Security Policy screen. Altitude 3500 Series Access Point Product Reference Guide 63 Getting Started 4 Configure the WEP 128 Settings field as required to define the Pass Key used to generate the WEP keys. Pass Key Specify a 4 to 32 character pass key and click the Generate button. The access point will convert an ASCII string to a hexadecimal number as the WEP key. The same WEP key should be entered to all WLAN client devices associating to the access point. Keys #1-4 Use the Key #1-4 fields to specify key numbers. The key can be either a hexidecimal or ASCII depending on which option is selected from the drop-down menu. For WEP 64 (40-bit key), the keys are 10 hexadecimal characters in length or 5 ASCII characters. For WEP 128 (104-bit key), the keys are 26 hexadecimal characters in length or 13 ASCII characters. Select one of these keys for activation by clicking its radio button. The access point and its target client(s) must use the same key to interoperate. 5 Click the Apply button to save the security policy and return to the access point Quick Setup screen. At this point, you can test the access point for MU interoperability. Testing Connectivity Verify the access point’s link with an MU by sending Wireless Network Management Protocol (WNMP) ping packets to the associated MU. Use the Echo Test screen to specify a target MU and configure the parameters of the test. The WNMP ping test only works with Motorola MUs. Only use a Motorola MU to test access point connectivity using WNMP. NOTE Before testing for connectivity, the target MU needs to be set to the same ESSID as the access point. Since WEP 128 has been configured for the access point, the MU also needs to be configured for WEP 128 and use the same WEP keys. Ensure the MU is associated with the access point before testing for connectivity. To ping a specific MU to assess its connection with an access point: 1 Select Status and Statistics > MU Stats from the menu tree. 2 Select the Echo Test button from within the MU Stats Summary screen. 3 Define the following parameters for the test. Station Address The station address is the IP address of the target MU. Refer to the MU Stats Summary screen for associated MU IP address information. Number of pings Defines the number of packets to be transmitted to the MU. The default is 100. Packet Length Specifies the length of each packet transmitted to the MU during the test. The default length is 100 bytes. 4 Click the Ping button to begin transmitting packets to the specified MU address. Refer to the Number of Responses value to assess the number of responses from the MU versus the number of ping packets transmitted by the access point. Use the ratio of packets sent versus the number of packets received to determine the link quality between the MU and the access point. 5 Click the OK button to exit the Echo Test screen and return to the MU Stats Summary screen. Altitude 3500 Series Access Point Product Reference Guide 64 Where to Go from Here? Once basic connectivity has been verified, the access point can be fully configured to meet the needs of the network and the users it supports. Refer to the following: ● For detailed information on access point device access, SNMP settings, network time, importing/ exporting device configurations and device firmware updates, see “System Configuration” on page 67. ● For detailed information on configuring access point LAN interface (subnet) and WAN interface see, “Network Management” on page 113. ● For detailed information on configuring specific encryption and authentication security schemes for individual access point WLANs, see “Configuring Access Point Security” on page 169. ● To view detailed statistics on the access point and its associated MUs, see “Monitoring Statistics” on page 231. Altitude 3500 Series Access Point Product Reference Guide 65 Getting Started Altitude 3500 Series Access Point Product Reference Guide 66 4 System Configuration CHAPTER The access point contains a built-in browser interface for system configuration and remote management using a standard Web browser such as Microsoft Internet Explorer, Netscape Navigator or Mozilla Firefox (version 0.8 or higher is recommended). The browser interface also allows for system monitoring of the access point. Web management of the access point requires either Microsoft Internet Explorer 5.0 or later or Netscape Navigator 6.0 or later or Firefox 3.0 or later. NOTE For optimum compatibility, use Sun Microsystems’ JRE 1.5 or higher (available from Sun’s Web site), and be sure to disable Microsoft’s Java Virtual Machine if installed. To connect to the access point, an IP address is required. If connected to the access point using the WAN port, the default static IP address is 10.1.1.1. The default username is "admin" and password is “admin123.” If connected to the access point using the LAN port, the default setting is DHCP client. The user is required to know the IP address to connect to the access point using a Web browser. System configuration topics include: ● Configuring System Settings on page 68 ● Adaptive AP Setup on page 70 ● Configuring Data Access on page 72 ● Managing Certificate Authority (CA) Certificates on page 78 ● Configuring SNMP Settings on page 86 ● Configuring Network Time Protocol (NTP) on page 98 ● Configuring LLDP Settings on page 100 ● Logging Configuration on page 102 ● Importing/Exporting Configurations on page 103 ● Updating Device Firmware on page 107 Altitude 3500 Series Access Point Product Reference Guide 67 System Configuration Configuring System Settings Use the System Settings screen to specify the name and location of the access point, assign an email address for the network administrator, restore the AP’s default configuration or restart the AP. To configure System Settings for the access point: 1 Select System Configuration > System Settings from the access point menu tree. 2 Configure the access point System Settings field to assign a system name and location, set the country of operation and view device version information. System Name Specify a device name for the access point. Extreme Networks recommends selecting a name serving as a reminder of the user base the access point supports (engineering, retail, etc.). System Location Enter the location of the access point. The System Location parameter acts as a reminder of where the AP can be found. Use the System Name field as a specific identifier of device location. Use the System Name and System Location fields together to optionally define the AP name by the radio coverage it supports and specific physical location. For example, “second floor engineering” Admin Email Address Specify the AP administrator's email address. Altitude 3500 Series Access Point Product Reference Guide 68 Country The access point prompts the user for the correct country code after the first login. A warning message also displays stating that an incorrect country setting will lead to an illegal use of the access point. Use the pull-down menu to select the country of operation. Selecting the correct country is extremely important. Each country has its own regulatory restrictions concerning electromagnetic emissions (channel range) and the maximum RF signal strength transmitted. To ensure compliance with national and local laws, be sure to set the Country field correctly. AP35xx Version The displayed number is the current version of the device firmware. Use this information to determine if the access point is running the most recent firmware available from Extreme Networks. Use the Firmware Update screen to keep the AP’s firmware up to date. System Uptime Displays the current uptime of the access point defined in the System Name field. System Uptime is the cumulative time since the access point was last rebooted or lost power. Serial Number Displays the access point serial number. The access point serial number is hard coded at the factory and cannot be modified. The LAN and WAN port MAC addresses can be located within the LAN and WAN Stats screens. AP Mode Displays the access point's mode of operation as Independent mode. 3 Refer to the Factory Defaults field to restore either a full or partial default configuration. CAUTION Restoring the access point’s configuration back to default settings changes the administrative password back to “admin123”. If restoring the configuration back to default settings, be sure you change the administrative password accordingly. Restore Default Configuration Select the Restore Default Configuration button to reset the AP’s configuration to factory default settings. If selected, a message displays warning the user the current configuration will be lost if the default configuration is restored. Before using this feature, Extreme Networks recommends using the Config Import/Export screen to export the current configuration for safekeeping, see “Importing/Exporting Configurations” on page 103. Restore Partial Default Configuration Select the Restore Partial Default Configuration button to restore a default configuration with the exception of the current LAN, WAN, SNMP settings and IP address used to launch the browser. If selected, a message displays warning the user all current configuration settings will be lost with the exception of WAN and SNMP settings. Before using this feature, Extreme Networks recommends using the Config Import/Export screen to export the current configuration for safekeeping, see “Importing/Exporting Configurations” on page 103. Altitude 3500 Series Access Point Product Reference Guide 69 System Configuration 4 Use the Restart access point field to restart the AP (if necessary). Restart AP35xx Click the Restart AP35xx button to reboot the AP. Restarting the AP35xx resets all data collection values to zero. Extreme Networks does not recommend restarting the AP during significant system uptime or data collection activities. CAUTION After a reboot, static route entries disappear from the AP Route Table if a LAN Interface is set to DHCP Client. The entries can be retrieved (once the reboot is done) by performing an Apply operation from the WEB UI or a save operation from the CLI. 5 Click Apply to save any changes to the System Settings screen. Navigating away from the screen without clicking the Apply button results in all changes to the screen being lost. NOTE The Apply button is not needed for restoring the AP35xx default configuration or restarting the AP35xx. 6 Click Undo Changes (if necessary) to undo any changes made. Undo Changes reverts the settings displayed on the System Settings screen to the last saved configuration. 7 Click Logout to securely exit the AP35xx Access Point applet. A prompt displays confirming the logout before the applet is closed. Adaptive AP Setup An access point needs settings defined to discover (and adopt) an available controller and establish a connection and data tunnel. It’s through this controller adoption that the access point receives its adaptive AP (AAP) configuration. A new screen has been added to define the mechanisms used to adopt a controller and route AAP configuration information NOTE For an AAP overview and a theoretical discussion of how an access point discovers a controller to create a secure data tunnel for adaptive AP operation, see “Adaptive AP” on page 551. NOTE The Adaptive AP Setup screen does not display the AAP’s adoption status or adopted controller. This information is available using the access point’s CLI. Altitude 3500 Series Access Point Product Reference Guide 70 To configure the access point’s controller discovery method and connection medium: 1 Select System Configuration > Adaptive AP Setup from the menu tree. 2 Define the following to prioritize a controller connection scheme and AP interface used to adopt to the controller. Control Port Define the port used by the controller FQDN to transmit and receive with the AAP. The default control port is 24576. Controller FQDN Add a complete controller fully qualified domain name (FQDN) to add a controller to the 12 available controller IP addresses available for connection. The access point resolves the name to one or more IP addresses if a DNS IP address is present. This method is used when the access point fails to obtain an IP address using DHCP. PSK Before the access point sends a packet requesting its mode and configuration, the controller and the access point require a secure link using a pre-shared key. Auto Discovery Enable When the Auto Discovery Enable checkbox is selected, the access point begins the controller discovery (adoption) process using DHCP first, then a user provided domain name, lastly using static IP addresses. This setting is disabled by default. When disabled, the AP functions as a standalone access point without trying to adopt a controller. Consequently, the access point will not be able to obtain an AAP configuration. Altitude 3500 Series Access Point Product Reference Guide 71 System Configuration Controller Interface Use the Controller Interface drop-down menu to specify the interface used by the controller for connectivity with the access point. Options include LAN1, LAN2 and WAN. The default setting is LAN1. Enable APController Tunnel This setting is required to enable an IPSec VPN from the AAP to the wireless controller. Keep-alive Period The Keepalive interval defines a period (in seconds) the AAP uses to terminate its connection to the controller if no data is received. Current Controller Displays the IP address of the connected controller. This is the controller from which the access point receives its adaptive configuration. AP Adoption State Displays whether the access point has been adopted by the controller (whose IP address is listed in the Current Controller parameter). The access point cannot receive its adaptive configuration without association. 3 Refer to the 12 available Controller IP Addresses to review the addresses the access point uses to adopt with a controller. The access point contacts each controller on the list (from top to bottom) until a viable controller adoption is made. The access point first populates the list with the IP addresses received from its DHCP resource. If DHCP is not able to obtain IP addresses, the access point attempts to resolve the controller's Domain Name if provided within the Controller FQDN parameter. However, if the access point receives one or more IP addresses from the DHCP server, it will not solicit an IP address from a user provided domain name. Lastly, provide static (manually provided) IP addresses to the list as long as there is room. The access point will defer to these addresses if DHCP and a provided domain address fail to secure a controller adoption. 4 Click Apply to save any changes to the Adaptive AP Setup screen. Navigating away from the screen without clicking the Apply button results in all changes to the screen being lost. 5 Click Undo Changes (if necessary) to undo any changes made. Undo Changes reverts the settings displayed on the Adaptive AP Setup screen to the last saved configuration. 6 Click Logout to securely exit the AP35xx Access Point applet. A prompt displays confirming the logout before the applet is closed. Configuring Data Access Use the AP35xx Access screen to allow/deny management access to the access point from different subnets (LAN1, LAN2 or WAN) using different protocols such as HTTP, HTTPS, Telnet, SSH or SNMP. The access options are either enabled or disabled. It is not meant to function as an ACL in routers or other firewalls, where you can specify and customize specific IPs to access specific interfaces. Use the AP35xx Access screen checkboxes to enable or disable LAN1, LAN2 and/or WAN access using the protocols and ports listed. If access is disabled, this effectively locks out the administrator from configuring the AP35xx using that interface. To avoid jeopardizing the network data managed by the AP35xx, Extreme Networks recommends enabling only those interfaces used in the routine (daily) management of the network, and disabling all other interfaces until they are required. The AP35xx Access screen also has a facility allowing customers to create a login message with customer generated text. When enabled (using either the access point Web UI or CLI), the login message displays when the user is logging into the access point. If the login message is disabled, the default login screen displays with no message. Altitude 3500 Series Access Point Product Reference Guide 72 AP access can be restricted to specific IP addresses. Trusted Host subnet management restricts LAN1, LAN2 and WAN interface access (via SNMP, HTTP, HTTPS, Telnet and/or SSH) to a set of (up to 8) user defined trusted hosts or subnets. Only hosts with matching IP addresses can access the access point. Enabling the feature denies access from any subnet (IP address) not defined as trusted. Once a set of trusted hosts is defined and applied, the settings can be imported and exported as a part of the access point’s configuration import/export functionality. For information on defining trusted hosts for exclusive AP access, see “Defining Trusted Hosts” on page 76. To configure access for the AP35xx: 1 Select System Configuration > AP35xx Access from the menu tree. The Trusted Hosts field appears at the top of the screen, but the remainder of the screen can be viewed by using the scroll bar on the right-hand side of the screen. 2 Select the Trusted Hosts checkbox to display a field where up to 8 IP addresses can be defined for exclusive access to the AP. For more information, see “Defining Trusted Hosts” on page 76. 3 Use the AP35xx Access field checkboxes to enable/disable the following on the access point’s LAN1, LAN2 or WAN interfaces: Applet HTTP (port 80) Select the LAN1, LAN2 and/or WAN checkboxes to enable access to the AP35xx configuration applet using a Web browser. Applet HTTPS (port 443) Select the LAN1, LAN2 and/or WAN checkboxes to enable access to the AP35xx configuration applet using a Secure Sockets Layer (SSL) for encrypted HTTP sessions. Altitude 3500 Series Access Point Product Reference Guide 73 System Configuration CLI TELNET (port 23) Select the LAN1, LAN2 and/or WAN checkboxes to enable access to the AP35xx CLI via the TELNET terminal emulation TCP/IP protocol. CLI SSH (port 22) Select the LAN1, LAN2 and/or WAN checkboxes to enable access to the AP35xx CLI using the SSH (Secure Shell) protocol. SNMP (port 161) Select the LAN1, LAN2 and/or WAN checkboxes to enable access to the AP35xx configuration settings from an SNMP-capable client. 4 Refer to the Applet Timeout field to set an HTTPS timeout interval. HTTP/S Timeout Disables access to the access point if no data activity is detected over Applet HTTPS (port 443) after the user defined interval. Default is 0 Mins. 5 Use the Admin Authentication buttons to specify the authentication server connection method. Local The AP35xx verifies the authentication connection. Radius Designates that a RADIUS server is used in the authentication credential verification. If using this option, the connected PC is required to have its RADIUS credentials verified with an external RADIUS server. Additionally, the RADIUS Server’s Active Directory should have a valid user configured and have a PAP based Remote Access Policy configured for RADIUS Admin Authentication to work. 6 Configure the Secure Shell field to set timeout values to reduce network inactivity. Authentication Timeout Defines the maximum time (between 30–120 seconds) allowed for SSH authentication to occur before executing a timeout. The minimum permissible value is 30 seconds. SSH Keepalive Interval The SSH Keepalive Interval defines a period (in seconds) after which if no data has been received from a client, SSH sends a message through the encrypted channel to request a response from the client. The default is 0, and no messages will be sent to the client until a non-zero value is set. Defining a Keepalive interval is important, otherwise programs running on a server may never notice if the other end of a connection is rebooted. 7 Use the RADIUS Server if a RADIUS server has been selected as the authentication server. Enter the required network address information. Radius Server IP Specify the numerical (non DNS name) IP address of the Remote Authentication Dial-In User Service (RADIUS) server. RADIUS is a client/server protocol and software enabling remote-access servers to communicate with a server used to authenticate users and authorize access to the requested system or service. Port Specify the port on which the server is listening. The RADIUS server typically listens on ports 1812 (default port). Altitude 3500 Series Access Point Product Reference Guide 74 Shared Secret Define a shared secret for authentication on the server. The shared secret is required to be the same as the shared secret defined on the RADIUS server. Use shared secrets to verify RADIUS messages (with the exception of the Access-Request message) sent by a RADIUS-enabled device configured with the same shared secret. Apply the qualifications of a well-chosen password to the generation of a shared secret. Generate a random, casesensitive string using letters and numbers. The default is admin123. 8 Update the Administrator Access field to change the administrative password used to access the configuration settings. Change Admin Password Click the Change Admin Password button to display a screen for updating the AP administrator password. Enter and confirm a new administrator password as required. 9 Refer to the Login Message field to optionally define a message displayed to the customer as they login into the access point. Message Settings Click the Message Settings button to display a screen used to create a text message. Once displayed, select the Enable Login Message checkbox to allow your customized message to be displayed when the user is logging into the access point. If the checkbox is not selected (as is the case by default), the user will encounter the login screen with no additional message. When the login message function is enabled, the user can enter a (511 character maximum) message describing any usage caveat required (such as the authorization disclaimer displayed on the following page). Thus, the login message can serve an important function by discouraging unauthorized users from illegally managing the access point. As your message is entered, the character usage counter is updated to allow you to visualize how close you are coming to the maximum allowed number of characters. Click the Clear button at any time to remove the contents of the message and begin a new one. Once you have finished creating your message, click the OK button to return to the AP35xx access screen. Altitude 3500 Series Access Point Product Reference Guide 75 System Configuration 10 Click Apply to save any changes to the AP35xx Access screen. Navigating away from the screen without clicking the Apply button results in all changes to the screen being lost. 11 Click Undo Changes (if necessary) to undo any changes made. Undo Changes reverts the settings displayed on the AP35xx Access screen to the last saved configuration. 12 Click Logout to securely exit the AP35xx Access Point applet. A prompt displays confirming the logout before the applet is closed. Defining Trusted Hosts Altitude 35xx access can be restricted to up 8 specific IP addresses. Trusted Host management restricts LAN1, LAN2 and WAN access (via SNMP, HTTP, HTTPS, Telnet and SSH). Only hosts with IP addresses matching those defined within the Trusted Host Access field are able to access the access point. Enabling the feature denies access from any subnet (IP address) not defined as trusted. Altitude 3500 Series Access Point Product Reference Guide 76 To restrict AP access to a set of user defined IP addresses: 1 Select System Configuration > AP35xx Access from the menu tree. 2 Select the Trusted Hosts checkbox. The Trusted Host Access field displays. The remaining portion of the Access screen (not related to Trusted Host support) can be accessed using the scroll bar on the right-hand side of the AP35xx Access screen. 3 Click the Add button and define an IP address in the subsequent pop-up screen. Individually define up to 8 addresses using the Add function. Each address defined will be granted permission to access point resources. 4 Select an existing IP address and click the Edit button to modify the address if no longer relevant. 5 If you are near the capacity of 8 allowed IP addresses or an address becomes obsolete, consider selecting an existing address and click the Delete button to remove an address. 6 Click Apply to save any changes to the Access screen’s Trusted Host configuration. Navigating away from the screen without clicking Apply results in all changes to the screen being lost. 7 Click Undo Changes (if necessary) to undo any changes made. Undo Changes reverts the Trusted Host settings within the Access screen to the last saved configuration. 8 Click Logout to securely exit the AP35xx Access Point applet. A prompt displays confirming the logout before the applet is closed. Altitude 3500 Series Access Point Product Reference Guide 77 System Configuration Managing Certificate Authority (CA) Certificates Certificate management includes the following sections: ● Importing a CA Certificate on page 78 ● Creating Self Certificates for Accessing the VPN on page 79 ● Apache Certificate Management on page 84 Importing a CA Certificate A certificate authority (CA) is a network authority that issues and manages security credentials and public keys for message encryption. The CA signs all digital certificates that it issues with its own private key. The corresponding public key is contained within the certificate and is called a CA certificate. A browser must contain this CA certificate in its Trusted Root Library so it can trust certificates “signed” by the CA's private key. Depending on the public key infrastructure, the digital certificate includes the owner's public key, the certificate expiration date, the owner's name and other public key owner information. The AP35xx can import and maintain a set of CA certificates to use as an authentication option for Virtual Private Network (VPN) access. To use the certificate for a VPN tunnel, define a tunnel and select the IKE settings to use either RSA or DES certificates. For additional information on configuring VPN tunnels, see “Configuring VPN Tunnels” on page 194. CAUTION Loaded and signed CA certificates will be lost when changing the access point’s firmware version using either the GUI or CLI. After a certificate has been successfully loaded, export it to a secure location to ensure its availability after a firmware update. If restoring the access point’s factory default firmware, you must export the certificate file BEFORE restoring the access point’s factory default configuration. Import the file back after the updated firmware is installed. Refer to your network administrator to obtain a CA certificate to import into the AP35xx. NOTE Verify the AP35xx device time is synchronized with an NTP server before importing a certificate to avoid issues with conflicting date/time stamps. For more information, see “Configuring Network Time Protocol (NTP)” on page 98. Altitude 3500 Series Access Point Product Reference Guide 78 To import a CA certificate: 1 Select System Configuration > Certificate Mgmt > CA Certificates from the menu tree. 2 Copy the content of the CA Certificate message (using a text editor such as notepad) and click on Paste from Clipboard. The content of the certificate displays in the Import a root CA Certificate field. 3 Click the Import root CA Certificate button to import it into the CA Certificate list. 4 Once in the list, select the certificate ID within the View Imported root CA Certificates field to view the certificate issuer name, subject, and certificate expiration data. 5 To delete a certificate, select the Id from the drop-down menu and click the Del button. Creating Self Certificates for Accessing the VPN The AP35xx requires two kinds of certificates for accessing the VPN, CA certificates and self certificates. Self certificates are certificate requests you create, send to a Certificate Authority (CA) to be signed, then import the signed certificate into the management system. CAUTION Self certificates can only be generated using the access point GUI and CLI interfaces. No functionality exists for creating a self-certificate using the access point’s SNMP configuration option. Altitude 3500 Series Access Point Product Reference Guide 79 System Configuration To create a self certificate: 1 Select System Configuration > Certificate Mgmt > Self Certificates from the AP35xx menu tree. 2 Click on the Add button to create the certificate request. The Certificate Request screen displays. 3 Complete the Certificate Request screen with the pertinent information. Only 4 values are required, the others are optional. The required values are: Key ID Enter a logical name for the certificate to help distinguish between certificates. The name can be up to 7 characters in length. Subject The required Subject value contains important information about the certificate. Contact the CA signing the certificate to determine the content of the Subject parameter. Signature Algorithm Use the drop-down menu to select the signature algorithm used for the certificate. Options include: MD5-RSA—Message Digest 5 algorithm in combination with RSA encryption. SHA1-RSA—Secure Hash Algorithm 1 in combination with RSA encryption. Key Length Defines the length of the key. Possible values are 512, 1024, and 2048. 4 When the form is completed, click the Generate button. The Certificate Request screen disappears and the ID of the generated certificate request displays in the drop-down list of certificates within the Self Certificates screen. Altitude 3500 Series Access Point Product Reference Guide 80 5 Click the Generate Request button. The generated certificate request displays in Self Certificates screen text box. 6 Click the Copy to Clipboard button. The content of certificate request is copied to the clipboard. Create an email to your CA, paste the content of the request into the body of the message and send it to the CA. The CA signs the certificate and will send it back. Once received, copy the content from the email into the clipboard. 7 Click the Paste from clipboard button. The content of the email displays in the window. Click the Load Certificate button to import the certificate and make it available for use as a VPN authentication option. The certificate ID displays in the Signed list. NOTE If the AP35xx is restarted after a certificate request has been generated but before the signed certificate is imported, the import will not execute properly. Do not restart the AP35xx during this process. 8 To use the certificate for a VPN tunnel, first define a tunnel and select the IKE settings to use either RSA or DES certificates. For additional information on configuring VPN tunnels, see “Configuring VPN Tunnels” on page 194. Altitude 3500 Series Access Point Product Reference Guide 81 System Configuration Creating a Certificate for Onboard RADIUS Authentication The AP35xx can use its on-board RADIUS Server to generate certificates to authenticate MUs for use with the access point. In addition, a Windows 2000 or 2003 Server is used to sign the certificate before downloading it back to the access point’s on-board RADIUS server and loading the certificate for use with the access point. Both CA and Self Certificate are required for Onboard RADIUS Authentication. For information on CA Certificates, see “Importing a CA Certificate” on page 78. Ensure the certificate is in a Base 64 Encoded format or risk loading an invalid certificate. CAUTION If using the RADIUS time-based authentication feature to authenticate access point user permissions, ensure the access point’s time is synchronized with the CA server used to generate certificate requests. CAUTION Self certificates can only be generated using the access point GUI and CLI interfaces. No functionality exists for creating a self-certificate using the access point’s SNMP configuration option. To create a self certificate for on-board RADIUS authentication: 1 Select System Configuration > Certificate Mgmt > Self Certificates from the AP35xx menu tree. 2 Click on the Add button to create the certificate request. The Certificate Request screen displays. 3 Complete the request form with the pertinent information. Key ID (required) Enter a logical name for the certificate to help distinguish between certificates. The name can be up to 7 characters in length. Subject (required) The required Subject value contains important information about the certificate. Contact the CA signing the certificate to determine the content of the Subject parameter. Department Optionally enter a value for your organizations’s department name if needing to differentiate the certificate from similar certificates used in other departments within your organization. Organization Optionally enter the name of your organization for supporting information for the certificate request. City Optionally enter the name of the City where the access point (using the certificate) resides. State Optionally enter the name of the State where the access point (using the certificate) resides. Postal Code Optionally enter the name of the Postal (Zip) Code where the access point (using the certificate) resides. Country Code Optionally enter the access point’s Country Code. Email Enter an organizational email address (avoid using a personal address if possible) to associate the request with the proper requesting organization. Altitude 3500 Series Access Point Product Reference Guide 82 Domain Name Ensure the Domain name is the name of the CA Server. This value must be set correctly to ensure the certificate is properly generated. IP Address Enter the IP address of this access point (as you are using the access point’s onbard RADIUS server). Signature Algorithm Use the drop-down menu to select the signature algorithm used for the certificate. Options include: MD5-RSA—Message Digest 5 algorithm in combination with RSA encryption. SHA1-RSA—Secure Hash Algorithm 1 in combination with RSA encryption. Key Length Defines the length of the key. Possible values are 512, 1024, and 2048. Extreme Networks recommends setting this value to 1024 to ensure optimum functionality. 4 Complete as many of the optional values within the Certificate Request screen as possible. 5 When the form is completed, click the Generate button from within the Certificate Request screen. The Certificate Request screen disappears and the ID of the generated certificate request displays in the drop-down list of certificates within the Self Certificates screen. NOTE A Warning screen may display at this phase stating key information could be lost if you proceed with the certificate request. Click the OK button to continue, as the certificate has not been signed yet. 6 Click the Generate Request button from within the Self Certificates screen. The certificate content displays within the Self Certificate screen. 7 Click the Copy to clipboard button. Save the certificate content to a secure location. 8 Connect to the Windows 2000 or 2003 server used to sign the certificate. 9 Select the Request a certificate option. Click Next to continue. 10 Select the Advanced request checkbox from within the Choose Request Type screen and click Next to continue. 11 From within the Advanced Certificate Requests screen, select the Submit a certificate request using a base 64 encoded PKCS #10 file or a renewal request using a base64 encoded PKCS file option. Click Next to continue. 12 Paste the content of certificate in the Saved Request field (within the Submit a Saved Request screen). NOTE An administrator must make sure the Web Server option is available as a selectable option for those without administrative privileges. If you do not have administrative privileges, ensure the Web Server option has been selected from the Certificate Template drop-down menu. Click Submit. 13 Select the Base 64 encoded checkbox option from within the Certificate Issued screen and select the Download CA Certificate link. A File Download screen displays prompting the user to select the download location for the certificate. 14 Click the Save button and save the certificate to a secure location. Altitude 3500 Series Access Point Product Reference Guide 83 System Configuration 15 Load the certificates on the access point. CAUTION Ensure the CA Certificate is loaded before the Self Certificate, or risk an invalid certificate load. 16 Open the certificate file and copy its contents into the CA Certificates screen by clicking the Paste from Clipboard button. The certificate is now ready to be loaded into the access point’s flash memory. 17 Click the Import root CA Certificate button from within the CA Certificates screen. 18 Verify the contents of the certificate file display correctly within the CA Certificates screen. 19 Open the certificate file and copy its contents into the Self Certificates screen by clicking the Paste from Clipboard button. 20 Click the Load Certificate button. 21 Verify the contents of the certificate file display correctly within the Self Certificates screen. The certificate for the onboard RADIUS authentication of MUs has now been generated and loaded into the access point’s flash memory. Apache Certificate Management Apache certificate management allows the update and management of security certificates for an Apache HTTP server. This allows users to upload a trusted certificate to their AP. When a client attaches to it with a browser, a warning message pertaining to the certificate no longer displays. Apache certificate management utilizes the access point’s existing Certificate Manager for the creation of certificates and keys. The certificate can then be loaded into the Apache file system. To import or export an Apache certificate: 1 Select System Configuration > Certificate Mgmt > Apache Certificates from the AP35xx menu tree. The Apache Certificate Import/Export screen displays. Altitude 3500 Series Access Point Product Reference Guide 84 2 Configure the FTP and TFTP Import/Export field to import/export security certificates for an Apache HTTP server. Certificate Name (no extension) Specify the name of the certificate file to be written to the FTP or TFTP server. Do not enter the file’s extension. FTP/TFTP Server IP Address Enter the numerical (non DNS name) IP address of the destination FTP or TFTP server where the security certificate is imported or exported. Filepath (optional) Defines the optional path name used to import/export the target security certificate. FTP Select the FTP radio button if using an FTP server to import or export the security certificate. TFTP Select the TFTP radio button if using an FTP server to import or export the security certificate. Username Specify a username to be used when logging in to the FTP server. A username is not required for TFTP server logins. Password Define a password allowing access to the FTP server for the import or export operation. Import Certificate and Key Click the Import Certificate and Key button to import the security certificate from the server with the assigned filename and login information. Export Certificate and Key Click the Export Certificate and Key button to export the security certificate from the server with the assigned filename and login information. Altitude 3500 Series Access Point Product Reference Guide 85 System Configuration 3 Refer to the Status field to review the progress of an import or export operation. When an import operation is in progress, an “importing certificate and key” message displays. Once completed, an indication of the import or export operation’s success or failure displays. 4 Click Apply to save any changes to the Apache certificate import/export configuration. Navigating away from the screen without clicking Apply results in all changes to the screen being lost. 5 Click Undo Changes (if necessary) to undo any changes made. Undo Changes reverts the settings within the screen to the last saved configuration. 6 Click Logout to securely exit the Access Point applet. A prompt displays confirming the logout before the applet is closed. Configuring SNMP Settings Simple Network Management Protocol (SNMP) facilitates the exchange of management information between network devices. SNMP uses Management Information Bases (MIBs) to manage the device configuration and monitor Internet devices in potentially remote locations. MIB information accessed via SNMP is defined by a set of managed objects called object identifiers (OIDs). An object identifier (OID) is used to uniquely identify each object variable of a MIB. The access point Web download package contains the following 2 MIB files: ● EXTR-CC-adp35xx-MIB-2.0 (standard/common MIB file) ● EXTR-adp35xx-MIB (Altitude 35xx specific MIB file) NOTE The EXTR-adp35xx-MIB contains the majority of the information contained within the EXTR-CC-adp35xxMIB-2.0 file. The remaining portion of the EXTR-adp35xx-MIB contains supplemental information unique to the access point feature set. If using the EXTR-CC-adp35xx-MIB-2.0 and/or EXTR-adp35xx-MIB to configure the Altitude 3510, use the table below to locate the MIB where the feature can be configured. Feature MIB Feature MIB LAN Configuration EXTR-adp35xx-MIB Subnet Configuration EXTR-CC-adp35xx-MIB-2.0 VLAN Configuration EXTR-adp35xx-MIB DHCP Server Configuration EXTR-CC-adp35xx-MIB-2.0 802.1x Port Authentication EXTR-adp35xx-MIB Advanced DHCP Server configuration EXTR-CC-adp35xx-MIB-2.0 Ethernet Type Filter Configuration EXTR-adp35xx-MIB WAN IP Configuration EXTR-CC-adp35xx-MIB-2.0 Wireless Configuration EXTR-adp35xx-MIB PPP Over Ethernet EXTR-CC-adp35xx-MIB-2.0 Security Configuration EXTR-adp35xx-MIB NAT Address Mapping EXTR-CC-adp35xx-MIB-2.0 MU ACL Configuration EXTR-adp35xx-MIB VPN Tunnel Configuration EXTR-CC-adp35xx-MIB-2.0 QOS Configuration EXTR-adp35xx-MIB VPN Tunnel status EXTR-CC-adp35xx-MIB-2.0 Radio Configuration EXTR-adp35xx-MIB Content Filtering EXTR-CC-adp35xx-MIB-2.0 Rate Limiting EXTR-adp35xx-MIB Rogue AP Detection EXTR-CC-adp35xx-MIB-2.0 Altitude 3500 Series Access Point Product Reference Guide 86 Feature MIB Feature MIB SNMP Trap Selection EXTR-adp35xx-MIB Firewall Configuration EXTR-CC-adp35xx-MIB-2.0 SNMP RF Trap Thresholds EXTR-adp35xx-MIB LAN to WAN Access EXTR-CC-adp35xx-MIB-2.0 Config Import/Export EXTR-adp35xx-MIB Advanced LAN Access EXTR-CC-adp35xx-MIB-2.0 MU Authentication Stats EXTR-adp35xx-MIB Router Configuration EXTR-CC-adp35xx-MIB-2.0 WNMP Ping Configuration EXTR-adp35xx-MIB System Settings EXTR-CC-adp35xx-MIB-2.0 Known AP Stats EXTR-adp35xx-MIB AP 3510 Access EXTR-CC-adp35xx-MIB-2.0 Flash LEDs EXTR-adp35xx-MIB Certificate Mgt EXTR-CC-adp35xx-MIB-2.0 Automatic Update EXTR-adp35xx-MIB SNMP Access Configuration EXTR-CC-adp35xx-MIB-2.0 SNMP Trap Configuration EXTR-CC-adp35xx-MIB-2.0 NTP Server Configuration EXTR-CC-adp35xx-MIB-2.0 Logging Configuration EXTR-CC-adp35xx-MIB-2.0 Firmware Update EXTR-CC-adp35xx-MIB-2.0 Wireless Stats EXTR-CC-adp35xx-MIB-2.0 Radio Stats EXTR-CC-adp35xx-MIB-2.0 MU Stats EXTR-CC-adp35xx-MIB-2.0 Automatic Update EXTR-CC-adp35xx-MIB-2.0 SNMP allows a network administrator to manage network performance, find and solve network problems, and plan for network growth. The AP35xx supports SNMP management functions for gathering information from its network components, communicating that information to specified users and configuring the access point. All the fields available within the access point are also configurable within the MIB. The AP35xx SNMP agent functions as a command responder and is a multilingual agent responding to SNMPv1, v2c and v3 managers (command generators). The factory default configuration maintains SNMPv1/2c support of the community names, hence providing backward compatibility. SNMP v1/v2c community definitions and SNMP v3 user definitions work independently, and both use the Access Control List (ACL) of the SNMP Access Control sub-screen. Use the SNMP Access screen to define SNMP v1/v2c community definitions and SNMP v3 user definitions. SNMP version 1 (v1) provides a strong network management system, but its security is relatively weak. The improvements in SNMP version 2c (v2c) do not include the attempted security enhancements of other version-2 protocols. Instead, SNMP v2c defaults to SNMP-standard community strings for read-only and read/write access. SNMP version 3 (v3) further enhances protocol features, providing much improved security. SNMP v3 encrypts transmissions and provides authentication for users generating requests. Altitude 3500 Series Access Point Product Reference Guide 87 System Configuration To configure SNMP v1/v2c community definitions and SNMP v3 user definitions for the AP35xx: 1 Select System Configuration > SNMP Access from the AP35xx menu tree. SNMP v1/v2c community definitions allow read-only or read/write access to AP35xx management information. The SNMP community includes users whose IP addresses are specified on the SNMP Access Control screen. A read-only community string allows a remote device to retrieve information, while a read/write community string allows a remote device to modify settings. Extreme Networks recommends considering adding a community definition using a site-appropriate name and access level. Set up a read/write definition (at a minimum) to facilitate full access by the AP35xx administrator. 2 Configure the SNMP v1/v2 Configuration field (if SNMP v1/v2 is used) to add or delete community definitions, name the community, specify the OID and define community access. Add Click Add to create a new SNMP v1/v2c community definition. Delete Select Delete to remove a SNMP v1/v2c community definition. Community Use the Community field to specify a site-appropriate name for the community. The name is required to match the name used within the remote network management software. OID Use the OID (Object Identifier) pull-down list to specify a setting of All or a enter a Custom OID. Select All to assign the user access to all OIDs in the MIB. The OID field uses numbers expressed in dot notation. Altitude 3500 Series Access Point Product Reference Guide 88 Access Use the Access pull-down list to specify read-only (R) access or read/write (RW) access for the community. Read-only access allows a remote device to retrieve access point information, while read/write access allows a remote device to modify access point settings. 3 Configure the SNMP v3 User Definitions field (if SNMP v3 is used) to add and configure SNMP v3 user definitions. SNMP v3 user definitions allow read-only or read/write access to management information as appropriate. Add Click Add to create a new entry for an SNMP v3 user. Delete Select Delete to remove an entry for an SNMP v3 user. Username Specify a username by typing an alphanumeric string of up to 31 characters. Security Level Use the Security Level area to specify a security level of noAuth (no authorization), AuthNoPriv (authorization without privacy), or AuthPriv (authorization with privacy). The NoAuth setting specifies no login authorization or encryption for the user. The AuthNoPriv setting requires login authorization, but no encryption. The AuthPriv setting requires login authorization and uses the Data Encryption Standard (DES) protocol. OID Use the OID (Object Identifier) area to specify a setting of All or enter a Custom OID. Select All to assign the user access to all OIDs in the MIB. The OID field uses numbers expressed in dot notation. Passwords Select Passwords to display the Password Settings screen for specifying authentication and password settings for an SNMP v3 user. The maximum password length is 11 characters. Use the Authentication Algorithm drop-down menu to specify MD5 or SHA1 as the authentication algorithm. Use the Privacy Algorithm drop-down menu to define an algorithm of DES or AES-128bit. When entering the same username on the SNMP Traps and SNMP Access screens, the password entered on the SNMP Traps page overwrites the password entered on the SNMP Access page. To avoid this problem, enter the same password on both pages. Access Use the Access pull-down list to specify read-only (R) access or read/write (RW) access for a user. Read-only access permits a user to retrieve AP35xx information, while read/write access allows a user to modify AP35xxsettings. Altitude 3500 Series Access Point Product Reference Guide 89 System Configuration 4 Specify the users who can read and optionally modify the SNMP-capable client. SNMP Access Control Click the SNMP Access Control button to display the SNMP Access Control screen for specifying which users can read SNMP-generated information and potentially modify related settings from an SNMP-capable client. The SNMP Access Control screen's Access Control List (ACL) uses Internet Protocol (IP) addresses to restrict access to the AP’s SNMP interface. The ACL applies to both SNMP v3 user definitions and SNMP v1/v2c community definitions. For detailed instructions of configuring SNMP user access and modification privileges, see “Configuring SNMP Access Control” on page 90. 5 If configuring SNMP v3 user definitions, set the SNMP v3 engine ID. AP35xx SNMP v3 Engine ID The AP35xx SNMP v3 Engine ID field lists the unique SNMP v3 Engine ID for the AP35xx. This ID is used in SNMP v3 as the source for a trap, response or report. It is also used as the destination ID when sending get, getnext, getbulk, set or inform commands. 6 Click Apply to save any changes to the SNMP Access screen. Navigating away from the screen without clicking the Apply button results in all changes to the screen being lost. 7 Click Undo Changes (if necessary) to undo any changes made. Undo Changes reverts the settings displayed on the SNMP Access screen to the last saved configuration. 8 Click Logout to securely exit the AP35xx Access Point applet. A prompt displays confirming the logout before the applet is closed. For additional SNMP configuration information, see: ● Configuring SNMP Access Control on page 90 ● Enabling SNMP Traps on page 92 ● Configuring Specific SNMP Traps on page 94 ● Configuring SNMP RF Trap Thresholds on page 96 Configuring SNMP Access Control Use the SNMP Access Control screen (as launched from the SNMP Access screen) to specify which users can read SNMP generated information and, if capable, modify related settings from an SNMP-capable client. Use the SNMP Access Control screen's Access Control List (ACL) to limit, by Internet Protocol (IP) address, who can access the AP35xx SNMP interface. NOTE The ACL applies to both SNMP v3 user definitions and SNMP v1/v2c community definitions on the AP35xx SNMP Access screen. Altitude 3500 Series Access Point Product Reference Guide 90 To configure SNMP user access control for the AP35xx: 1 Select System Configuration > SNMP Access from the AP35xx menu tree. Click on the SNMP Access Control button from within the SNMP Access screen. 2 Configure the SNMP Access Control screen to add the IP addresses of those users receiving SNMP access. Access Control List Enter Start IP and End IP addresses (numerical addresses only, no DNS names supported) to specify a range of user that can access the AP35xx SNMP interface. An SNMPcapable client can be set up whereby only the administrator (for example) can use a read/write community definition. Use just the Starting IP Address column to specify a single SNMP user. Use both the Starting IP Address and Ending IP Address columns to specify a range of addresses for SNMP users. To add a single IP address to the ACL, enter the same IP address in the Start IP and End IP fields. Leave the ACL blank to allow access to the SNMP interface from the IP addresses of all authorized users. Add Click Add to create a new ACL entry. Edit Click Edit to revise an existing ACL entry. Delete Click Delete to remove a selected ACL entry for one or more SNMP users. OK Click Ok to return to the SNMP Access screen. Click Apply within the SNMP Access screen to save any changes made on the SNMP Access Control screen. Cancel Click Cancel to undo any changes made on the SNMP Access Control screen. This reverts all settings for this screen to the last saved configuration. Altitude 3500 Series Access Point Product Reference Guide 91 System Configuration Enabling SNMP Traps SNMP provides the ability to send traps to notify the administrator that trap conditions are met. Traps are network packets containing data relating to network devices, or SNMP agents, that send the traps. SNMP management applications can receive and interpret these packets, and optionally can perform responsive actions. SNMP trap generation is programmable on a trap-by-trap basis. Use the SNMP Traps Configuration screen to enable traps and to configure appropriate settings for reporting this information. Trap configuration depends on the network machine that receives the generated traps. SNMP v1/v2c and v3 trap configurations function independently. In a mixed SNMP environment, generated traps can be sent using configurations for both SNMP v1/v2c and v3. To configure SNMP traps on the AP35xx: 1 Select System Configuration > SNMP Access > SNMP Trap Configuration from the AP35xx menu tree. 2 Configure the SNMP v1/v2c Trap Configuration field (if SNMP v1/v2c Traps are used) to modify the following: Add Click Add to create a new SNMP v1/v2c Trap Configuration entry. Delete Click Delete to remove a selected SNMP v1/v2c Trap Configuration entry. Destination IP Specify a numerical (non DNS name) destination IP address for receiving the traps sent by the AP35xx SNMP agent. Altitude 3500 Series Access Point Product Reference Guide 92 Port Specify a destination User Datagram Protocol (UDP) port for receiving traps. The default is 162. Community Enter a community name specific to the SNMP-capable client that receives the traps. SNMP Version Use the SNMP Version drop-down menu to specify v1 or v2. Some SNMP clients support only SNMP v1 traps, while others support SNMP v2 traps and possibly both, verify the correct traps are in use with clients that support them. 3 Configure the SNMP v3 Trap Configuration field (if SNMP v3 Traps are used) to modify the following: Add Click Add to create a new SNMP v3 Trap Configuration entry. Delete Select Delete to remove an entry for an SNMP v3 user. Destination IP Specify a numerical (non DNS name) destination IP address for receiving the traps sent by the AP35xx SNMP agent. Port Specify a destination User Datagram Protocol (UDP) port for receiving traps. Username Enter a username specific to the SNMP-capable client receiving the traps. Security Level Use the Security Level drop-down menu to specify a security level of noAuth (no authorization), AuthNoPriv (authorization without privacy), or AuthPriv (authorization with privacy). The “NoAuth” setting specifies no login authorization or encryption for the user. The “AuthNoPriv” setting requires login authorization, but no encryption. The “AuthPriv” setting requires login authorization and uses the Data Encryption Standard (DES). Passwords Select Passwords to display the Password Settings screen for specifying authentication and password settings for an SNMP v3 user. The maximum password length is 11 characters. Use the Authentication Algorithm drop-down menu to specify MD5 or SHA1 as the authentication algorithm. Use the Privacy Algorithm drop-down menu to define an algorithm of DES or AES-128bit. If entering the same username on the SNMP Traps and SNMP Access screens, the password entered on the SNMP Traps page overwrites the password entered on the SNMP Access page. To avoid this problem, enter the same password on both pages. 4 Click Apply to save any changes to the SNMP Trap Configuration screen. Navigating away from the screen without clicking the Apply button results in all changes being lost. 5 Click Undo Changes (if necessary) to undo any changes made. Undo Changes reverts the settings displayed on SNMP Trap Configuration screen to the last saved configuration. 6 Click Logout to securely exit the AP35xx Access Point applet. A prompt displays confirming the logout before the applet is closed. Altitude 3500 Series Access Point Product Reference Guide 93 System Configuration Configuring Specific SNMP Traps Use the SNMP Traps screen to enable specific traps on the AP35xx. Extreme Networks recommends defining traps to capture unauthorized devices operating within the AP35xx coverage area. Trap configuration depends on the network machine that receives the generated traps. SNMP v1/v2c and v3 trap configurations function independently. In a mixed SNMP environment, traps can be sent using configurations for both SNMP v1/v2c and v3. To configure specific SNMP traps on the AP35xx: 1 Select System Configuration > SNMP Access > SNMP Traps from the menu tree. 2 Configure the MU Traps field to generate traps for MU associations, MU association denials and MU authentication denials. When a trap is enabled, a trap is sent every 10 seconds until the condition no longer exists. MU associated Generates a trap when an MU becomes associated with one of the AP35xx’s WLANs. MU unassociated Generates a trap when an MU becomes unassociated with (or gets dropped from) one of the AP35xx’s WLANs. MU denied association Generates a trap when an MU is denied association to a AP35xx WLAN. Can be caused when the maximum number of MUs for a WLAN is exceeded or when an MU violates the AP35xx’s Access Control List (ACL). MU denied authentication Generates a trap when an MU is denied authentication on one of the AP’s WLANs. Can be caused by the MU being set for the wrong authentication type for the WLAN or by an incorrect key or password. Altitude 3500 Series Access Point Product Reference Guide 94 3 Configure the SNMP Traps field to generate traps when SNMP capable MUs are denied authentication privileges or are subject of an ACL violation. When a trap is enabled, a trap is sent every 5 seconds until the condition no longer exists. SNMP authentication failures Generates a trap when an SNMP-capable client is denied access to the AP35xx’s SNMP management functions or data. This can result from an incorrect login, or missing/ incorrect user credentials. SNMP ACL violation Generates a trap when an SNMP client cannot access SNMP management functions or data due to an Access Control List (ACL) violation. This can result from a missing/ incorrect IP address entered within the SNMP Access Control screen. 4 Configure the Network Traps field to generate traps when the AP35xx’s link status changes or when the AP’s firewall detects a DOS attack. Physical port status Generates a trap whenever the status changes on the change AP35xx. The physical port status changes when a link is lost between the AP35xx and a connected device. DynDNS Update Generates a trap whenever domain name information is updated as a result of the IP address associated with that domain being modified. Denial of service (DOS) attempts Generates a trap whenever a Denial of Service (DOS) attack is detected by the AP35xx firewall. A new trap is sent at the specified interval until the attack has stopped. Send trap every Defines the interval in seconds the AP35xx uses to generate a trap until the Denial of Service attack is stopped. Default is 10 seconds. 5 Configure the System Traps field to generate traps when the AP35xx re-initializes during transmission, saves its configuration file. When a trap is enabled, a trap is sent every 5 seconds until the condition no longer exists. System Cold Start Generates a trap when the AP35xx re-initializes while transmitting, possibly altering the SNMP agent's configuration or protocol entity implementation. Configuration Changes Generates a trap whenever changes to the AP35xx’s configuration file are saved. Rogue AP Detection Generates a trap if a Rogue AP is detected by the AP35xx. AP Radar Detection Generates a trap if an AP is detected using a form of radar detection. WPA Counter Measure Generates a trap if an attack is detected against the WPA Key Exchange Mechanism. MU Hotspot Status Generates a trap when a change to the status of MU hotspot member is detected. VLAN Generates a trap when a change to a VLAN state is detected. LAN Monitor Generates a trap when a change to the LAN monitoring state is detected. Health Check Trap Generates a trap when access to a configured resource such as a RADIUS server or a web portal is lost. Altitude 3500 Series Access Point Product Reference Guide 95 System Configuration 6 Refer to the Set All Traps field to use a single location to either enable or disable each trap listed within the SNMP Traps screen. Enable All Select this button to enable each trap defined within the SNMP Traps screen. Once the changes are applied, each event listed will generate a trap upon its occurrence. Disable All Select this button to disable each trap defined within the SNMP Traps screen. Once the changes are applied, none of the events listed will generate a trap upon their occurrence. 7 Click Apply to save any changes to the SNMP Traps screen. Navigating away from the screen without clicking the Apply button results in all changes to the screen being lost. 8 Click Undo Changes (if necessary) to undo any changes made. Undo Changes reverts the settings displayed on SNMP Traps screen to the last saved configuration. 9 Click Logout to securely exit the AP35xx Access Point applet. A prompt displays confirming the logout before the applet is closed. Configuring SNMP RF Trap Thresholds Use the SNMP RF Trap Threshold screen as a means to track RF activity and the AP35xx’s radio and associated MU performance. SNMP RF Traps are sent when RF traffic exceeds defined limits set in the RF Trap Thresholds field of the SNMP RF Traps screen. Thresholds are displayed for the AP35xx, WLAN, selected radio and the associated MU. Altitude 3500 Series Access Point Product Reference Guide 96 To configure specific SNMP RF Traps on the AP35xx: 1 Select System Configuration > SNMP Access > SNMP RF Trap Thresholds from the menu tree. 2 Configure the RF Trap Thresholds field to define device threshold values for SNMP traps. NOTE Average Bit Speed, % of Non-Unicast, Average Signal, Average Retries, % Dropped and % Undecryptable are not access point statistics. Pkts/s Enter a maximum threshold for the total throughput in Pps (Packets per second). Throughput Set a maximum threshold for the total throughput in Mbps (Megabits per second). Average Bit Speed Enter a minimum threshold for the average bit speed in Mbps (Megabits per second). Average Signal Enter a minimum threshold for the average signal strength in dBm for each device. Average Retries Set a maximum threshold for the average number of retries for each device. % Dropped Enter a maximum threshold for the total percentage of packets dropped for each device. Dropped packets can be caused by poor RF signal or interference on the channel. Altitude 3500 Series Access Point Product Reference Guide 97 System Configuration % Undecryptable Define a maximum threshold for the total percentage of packets undecryptable for each device. Undecryptable packets can be the result of corrupt packets, bad CRC checks or incomplete packets. Associated MUs Set a maximum threshold for the total number of MUs associated with each device. 3 Configure the Minimum Packets field to define a minimum packet throughput value for trap generation. Minimum number of packets required for a trap to fire Enter the minimum number of packets that must pass through the device before an SNMP rate trap is sent. Extreme Networks recommends using the default setting of 1000 as a minimum setting for the field. 4 Click Apply to save any changes to the SNMP RF Traps screen. Navigating away from the screen without clicking the Apply button results in all changes to the screen being lost. 5 Click Undo Changes (if necessary) to undo any changes made. Undo Changes reverts the settings displayed on SNMP RF Traps screen to the last saved configuration. 6 Click Logout to securely exit the AP35xx Access Point applet. A prompt displays confirming the logout before the applet is closed. Configuring Network Time Protocol (NTP) Network Time Protocol (NTP) manages time and/or network clock synchronization in the AP35xxmanaged network environment. NTP is a client/server implementation. The AP35xx (an NTP client) periodically synchronizes its clock with a master clock (an NTP server). For example, the AP35xx resets its clock to 07:04:59 upon reading a time of 07:04:59 from its designated NTP server. Time synchronization is recommended for the access point’s network operations. For sites using Kerberos authentication, time synchronization is required. Use the Date and Time Settings screen to enable NTP and specify the IP addresses and ports of available NTP servers. NOTE The current time is not set accurately when initially connecting to the AP35xx. Until a server is defined to provide the AP35xx the correct time, or the correct time is manually set, the AP35xx displays 1970-01-01 00:00:00 as the default time. CAUTION If using the RADIUS time-based authentication feature to authenticate access point user permissions, ensure UTC has been selected from the Date and Time Settings screen’s Time Zone field. If UTC is not selected, time based authentication will not work properly. For information on configuring RADIUS time-based authentication, see “Defining User Access Permissions by Group” on page 226. Altitude 3500 Series Access Point Product Reference Guide 98 To manage clock synchronization on the AP35xx: 1 Select System Configuration > Date/Time from the AP35xx menu tree. 2 From within the Current Time field, click the Refresh button to update the time since the screen was displayed by the user. The Current Time field displays the current time based on the AP35xx system clock. If NTP is disabled or if there are no servers available, the system time displays the AP35xx uptime starting at 1970-01-01 00:00:00, with the time and date advancing. 3 Select the Set Date/Time button to display the Manual Date/Time Setting screen. This screen enables the user to manually enter the access point’s system time using a Year-Month-Day HH:MM:SS format. This option is disabled when the Enable NTP checkbox has been selected, and therefore should be viewed as a second means to define the access point system time. 4 If using the Manual Date/Time Setting screen to define the access point’s system time, refer to the Time Zone field to select the time used to use as complimentary information to the information entered within the Manual Date/Time Setting screen. CAUTION If using the RADIUS time-based authentication feature to authenticate access point user permissions, ensure UTC has been selected from the Time Zone field. If UTC is not selected, time based authentication will not work properly. For information on configuring RADIUS time-based authentication, see “Defining User Access Permissions by Group” on page 226. Altitude 3500 Series Access Point Product Reference Guide 99 System Configuration 5 If using an NTP server to supply system time to the access point, configure the NTP Server Configuration field to define the server network address information required to acquire the AP35xx network time. Enable NTP on AP35xx Select the Enable NTP on AP35xx checkbox to allow a connection between the AP35xx and one or more specified NTP servers. A preferred, first alternate and second alternate NTP server cannot be defined unless this checkbox is selected. Disable this option (uncheck the checkbox) if Kerberos is not in use and time synchronization is not necessary. Preferred Time Server Specify the numerical (non DNS name) IP address and port of the primary NTP server. The default port is 123. First Alternate Time Optionally, specify the numerical (non DNS name) IP Server address and port of an alternative NTP server to use for time synchronization if the primary NTP server goes down. Second Alternate Time Server Optionally, specify the numerical (non DNS name) and port of yet another NTP server for the greatest assurance of uninterrupted time synchronization. Synchronization Interval Define an interval in minutes the AP35xx uses to synchronize its system time with the NTP server. A synchronization interval value from 15 minutes to 65535 minutes can be specified. For implementations using Kerberos, a synchronization interval of 15 minutes (default interval) or sooner is recommended. 6 Click Apply to save any changes to the Date and time Settings screen. Navigating away from the screen without clicking the Apply button results in all changes to the screen being lost. 7 Click Undo Changes (if necessary) to undo any changes made. Undo Changes reverts the settings displayed on Date and Time Settings screen to the last saved configuration. 8 Click Logout to securely exit the AP35xx Access Point applet. A prompt displays confirming the logout before the applet is closed. Configuring LLDP Settings Link Layer Discovery Protocol (LLDP) is a Layer 2 protocol (IEEE standard 802.1AB) used to determine the capabilities of devices such as repeaters, bridges, access points, routers and wireless clients. LLDP enables devices to advertise their capabilities and media-specific configurations. LLDP provides a method of discovering and representing the physical network connections of a given network management domain. The LLDP neighbor discovery protocol allows you to discover and maintain accurate network topologies in a multi-vendor environment. The information is in a Type Length Value (TLV) format for each data item. TLV information is transmitted in a LLDP protocol data unit (LLDPDU), enclosed in an Ethernet frame and sent to a destination MAC address. Certain TLVs are mandatory, and always sent once LLDP is enabled, while other TLVs are optionally configured. LLDP defines a set of common advertisement messages, a protocol for transmitting the advertisements and a method for storing information in received advertisements. A switch can receive and record the TLVs, but not transmit them. The information distributed using LLDP is stored by its recipients in a standard MIB, making it possible for the information to be accessed by a NMS using a management protocol such as SNMP. Altitude 3500 Series Access Point Product Reference Guide 100 LLDP transmits periodic advertisements containing device information and media-specific configuration information to neighbors attached to the same network. LLDP agents cannot solicit information from other agents by using LLDP. To configure LLDP support: 1 Select System Configuration > LLDP from the menu tree. 2 Select the Enable LLDP radio button to enable or disable the transmission of LLDP advertisements. LLDP is enabled by default. 3 Set a Refresh Interval (in seconds 5-32768) to define the LLDP refresh-interval/transmit interval. The Refresh Interval is the interval LLDP frames are transmitted on behalf of the LLDP agent. The default is 30 seconds. 4 Set a Hold time Multiplier (2-10) to define the hold time multiplier. This parameter is a multiplier on the Refresh Interval that determines the actual TTL value used in an LLDPDU. The default setting is 4. 5 Click Apply to save any changes to the LLDP screen. Navigating away from the screen without clicking the Apply button results in all changes to the screen being lost. 6 Click Undo Changes (if necessary) to undo any changes made. Undo Changes reverts the settings displayed on LLDP screen to the last saved configuration. Altitude 3500 Series Access Point Product Reference Guide 101 System Configuration Logging Configuration The AP35xx provides the capability for periodically logging system events that prove useful in assessing the throughput and performance of the AP35xx or troubleshooting problems on the AP35xx managed Local Area Network (LAN). Use the Logging Configuration screen to set the desired logging level (standard syslog levels) and view or save the current AP35xx system log. To configure event logging for the AP35xx: 1 Select System Configuration > Logging Configuration from the AP35xx menu tree. 2 Configure the Log Options field to save event logs, set the log level and optionally port the AP35xx’s log to an external server. View Log Click View to save a log of events retained on the AP35xx. The system displays a prompt requesting the administrator password before saving the log. After the password has been entered, click Get File to display a dialogue with buttons to Open or Save the log.txt file. Click Save and specify a location to save the log file. Use the WordPad application to view the saved log.txt file on a Microsoft Windows based computer. Do not view the log file using Notepad, as the Notepad application does not properly display the formatting of the AP35xx log file. Log entries are not saved in the AP35xx. While the AP is in operation, log data temporarily resides in memory. AP memory is completely cleared each time the AP reboots. Altitude 3500 Series Access Point Product Reference Guide 102 Logging Level Use the Logging Level drop-down menu to select the desired log level for tracking system events. Eight logging levels, (0 to 7) are available. Log Level 6: Info is the AP35xx default log level. These are the standard UNIX/ LINUX syslog levels.The levels are as follows: 0 - Emergency 1 - Alert 2 - Critical 3 - Errors 4 - Warning 5 - Notice 6 - Info 7 - Debug Enable logging to an external syslog server The AP35xx can log events to an external syslog (system log) server. Select the Enable logging to an external syslog server checkbox to enable the server to listen for incoming syslog messages and decode the messages into a log for viewing. Syslog server IP address If the Enable logging to an external syslog server checkbox is selected, the numerical (non DNS name) IP address of an external syslog server is required in order to route the syslog events to that destination. 3 Click Apply to save any changes to the Logging Configuration screen. Navigating away from the screen without clicking the Apply button results in all changes to the screen being lost. 4 Click Undo Changes (if necessary) to undo any changes made. Undo Changes reverts the settings displayed on the Logging Configuration screen to the last saved configuration. 5 Click Logout to securely exit the AP35xx Access Point applet. A prompt displays confirming the logout before the applet is closed. Importing/Exporting Configurations All of the configuration settings for an AP35xx can be obtained from another AP35xx in the form of a text file. Additionally, all of the AP35xx’s settings can be downloaded to another AP35xx. Use the filebased configuration feature to speed up the setup process significantly at sites using multiple AP35xxs. Another benefit is the opportunity to save the current AP configuration before making significant changes or restoring the default configuration. All options on the access point are deleted and updated by the imported file. Therefore, the imported configuration is not a merge with the configuration of the target access point. The exported file can be edited with any document editor if necessary. NOTE Use the System Settings screen as necessary to restore an AP35xx’s default configuration. For more information on restoring configurations, see “Configuring System Settings” on page 68. The export function will always export the encrypted Admin User password. The import function will import the Admin Password only if the access point is set to factory default. If the access point is not configured to factory default settings, the Admin User password WILL NOT get imported. Altitude 3500 Series Access Point Product Reference Guide 103 System Configuration NOTE When modifying the text file manually and spaces are used for wireless, security, MU policy names etc., ensure you use “\20” between the spaces. For example, “Second\20Floor\20Lab”. When imported, the name would display as “Second Floor Lab”. CAUTION A single-radio model access point cannot import/export its configuration to a dual-radio model access point. In turn, a dual-radio model access point cannot import/export its configuration to a single-radio access point. Use the Config Import/Export screen to configure an import or export operation for AP35xx configuration settings. To create an importable/exportable AP35xx configuration file: 1 Select System Configuration > Config Import/Export from the AP35xx menu tree. 2 Configure the FTP and TFTP Import/Export field to import/export configuration settings. Filename Specify the name of the configuration file to be written to the FTP or TFTP server. Altitude 3500 Series Access Point Product Reference Guide 104 FTP/TFTP Server IP Address Enter the numerical (non DNS name) IP address of the destination FTP or TFTP server where the configuration file is imported or exported. Filepath (optional) Defines the optional path name used to import/export the target configuration file. FTP Select the FTP radio button if using an FTP server to import or export the configuration. TFTP Select the TFTP radio button if using an FTP server to import or export the configuration. Username Specify a username to be used when logging in to the FTP server. A username is not required for TFTP server logins. Password Define a password allowing access to the FTP server for the import or export operation. Import Configuration Click the Import Configuration button to import the configuration file from the server with the assigned filename and login information. The system displays a confirmation window indicating the administrator must log out of the AP35xx after the operation completes for the changes to take effect. Click Yes to continue the operation. Click No to cancel the configuration file import. Export Configuration Click the Export Configuration button to export the configuration file from the server with the assigned filename and login information. If the IP mode is set to DHCP Client, IP address information is not exported (true for both LAN1, LAN2 and the WAN port). For LAN1 and LAN2, IP address information is only exported when the IP mode is set to either static or DHCP Server. For the WAN port, IP address information is only exported when the This interface is a DHCP Client checkbox is not selected. The system displays a confirmation window prompting the administrator to log out of the AP35xx after the operation completes for the changes to take effect. Click Yes to continue the operation. Click No to cancel the configuration file export. 3 Configure the HTTP Import/Export field to import/export AP35xx configuration settings using HTTP. CAUTION For HTTP downloads (exports) to be successful, pop-up messages must be disabled. Upload and Apply Click the Upload and Apply A Configuration File button to A Configuration File upload a configuration file to this access point using HTTP. Download Configuration File Click the Download Configuration File button to download this access point’s configuration file using HTTP. Altitude 3500 Series Access Point Product Reference Guide 105 System Configuration 4 Refer to the Status field to assess the completion of the import/export operation. Status After executing an operation (by clicking any of the buttons in the window), check the Status field for a progress indicator and messages about the success or errors in executing the Import/Export operation. Possible status messages include: ambiguous input before marker: line <number > unknown input before marker: line <number> ignored input after marker: line <number> additional input required after marker: line <number> invalid input length: line <number> error reading input: line <number> import file from incompatible hardware type: line <number> [0] Import operation done [1] Export operation done [2] Import operation failed [3] Export operation failed [4] File transfer in progress [5] File transfer failed [6] File transfer done Auto cfg update: Error in applying config Auto cfg update: Error in getting config file Auto cfg update: Aborting due to fw update failure The <number> value appearing at the end of some messages relates to the line of the configuration file where an error or ambiguous input was detected. CAUTION If errors occur when importing the configuration file, a parsing message displays defining the line number where the error occurred. The configuration is still imported, except for the error. Consequently, it is possible to import an invalid configuration. The user is required to fix the problem and repeat the import operation until an error-free import takes place. NOTE Extreme Networks recommends importing configuration files using the CLI. If errors occur during the import process, they display all at once and are easier to troubleshoot. The access point GUI displays errors one at a time, and troubleshooting can be a more time-consuming process. NOTE When importing the configuration, a xxxxxbytes loaded status message indicates the file was downloaded successfully. An Incompatible Hardware Type Error message indicates the configuration was not applied due to a hardware compatibility issue between the importing and exporting devices. Altitude 3500 Series Access Point Product Reference Guide 106 5 Click Apply to save the filename and Server IP information. The Apply button does not execute the import or export operation, only saves the settings entered. 6 Click Undo Changes (if necessary) to undo any changes made. Undo Changes reverts the settings displayed on Config Import/Export screen to the last saved configuration. 7 Click Logout to securely exit the AP35xx access point applet. A prompt displays confirming the logout before the applet is closed. Updating Device Firmware Extreme Networks periodically releases updated versions of the AP35xx device firmware to the Extreme Networks Web site. If the AP35xx firmware version displayed on the System Settings page (see “Configuring System Settings” on page 68) is older than the version on the Web site, Extreme Networks recommends updating the AP35xx to the latest firmware version for full feature functionality. The access point’s automatic update feature updates the access point’s firmware and configuration file automatically when the access point is reset or when the access point initiates a DHCP request. The firmware is automatically updated each time firmware versions are found to be different between what is running on the access point and the firmware file located on the server. The configuration file is automatically updated when the configuration file name on the server is different than the name of the file previously loaded on the access point or when the file version (on the server) is different than the version currently in use on the access point. Additionally, the configuration version can be manually changed in the text file to cause the configuration to be applied when required. The parameter name within the configuration file is “cfg-version-1.1-01.” The access point only checks the two characters after the third hyphen (01) when making a comparison. Change the last two characters to update the access point’s configuration. The two characters can be alpha-numeric. When downloading to a lower firmware version, all configuration settings are lost and the access point returns to factory default settings of the lower version. CAUTION If downgrading firmware to a lower version, the access point automatically reverts to default settings of the lower version, regardless of whether you are downloading the firmware manually or using the automatic download feature. The automatic feature allows the user to download the configuration file at the same time, but since the firmware reverts to the default settings of the lower version, the configuration file is ignored. For detailed update scenarios involving both a Windows DHCP and a Linux BootP server configuration, see “Configuring Automatic Updates using a DHCP or Linux BootP Server” on page 577. CAUTION Loaded and signed CA certificates will be lost when changing the access point’s firmware version using either the GUI or CLI. After a certificate has been successfully loaded, export it to a secure location to ensure its availability after a firmware update. If restoring the access point’s factory default firmware, you must export the certificate file BEFORE restoring the access point’s factory default configuration. Import the file back after the updated firmware is installed. Altitude 3500 Series Access Point Product Reference Guide 107 System Configuration If a firmware update is required, use the Firmware Update screen to specify a filename and define a file location for updating the firmware. NOTE The firmware file must be available from an FTP or TFTP site to perform the update. CAUTION Make sure a copy of the AP35xx’s configuration is exported before updating the firmware. To conduct a firmware update on the AP35xx: 1 Export the AP35xx current configuration settings before updating the firmware to have the most recent settings available after the firmware is updated. Refer to “Importing/Exporting Configurations” on page 103 for instructions on exporting the AP35xx’s current configuration to have it available after the firmware is updated. 2 Select System Configuration > Firmware Update from the AP35xx menu tree. 3 Configure the DHCP Options checkboxes to enable/disable automatic firmware and/or configuration file updates. DHCP options are used for out-of-the-box rapid deployment for Extreme Networks wireless products. The following are the two options available on the access point: Altitude 3500 Series Access Point Product Reference Guide 108 ● Enable Automatic Firmware Update ● Enable Automatic Configuration Update Both DHCP options are enabled by default. These options can be used to update newer firmware and configuration files on the access point. For more information on how to configure a DHCP or BootP Server for the automatic upgrade process, see “Usage Scenarios” on page 577. The update is conducted over the LAN or WAN port depending on which server responds first to the access point’s request for an automatic update. Enable Automatic Firmware Update Enable this checkbox to allow an automatic firmware update when firmware versions are found to be different between what is running on the access point and the firmware that resides on the server. A firmware update will only occur if the access point is reset or when the access point does a DHCP request. This feature is used in conjunction with DHCP/BootP options configured on a DHCP or BootP server. If this checkbox is not enabled, the firmware update is required to be conducted manually. Enable Automatic Configuration Update Select this checkbox to allow an automatic configuration update when the configuration filenames are found to be different between the filename loaded on the access point and the configuration filename that resides on the server or when the configuration file versions are found to be different between the configuration file version loaded on the access point and the configuration file that resides on server. A configuration update will only occur if the access point is reset or when the access point does a DHCP request. This feature is used in conjunction with DHCP/BootP options configured on a DHCP or BootP server. If this checkbox is not enabled, the configuration update is required to be done manually. CAUTION If using a Linux server configured to support the BootP “bf” option, an automatic firmware update is not be triggered unless both the Enable Automatic Firmware Update and Enable Automatic Configuration Update options are selected. If the Configuration Update option is disabled, the access point will not download the configuration file. Without the configuration file, the access point cannot parse for the firmware file name required to trigger the firmware update. If updating the access point manually, configure the Update Firmware fields as required to set a filename and target firmware file upload location for firmware updates. 4 Specify the name of the target firmware file within the Filename field. 5 If the target firmware file resides within a directory, specify a complete path for the file within the Filepath(optional) field. 6 Enter an IP address for the FTP or TFTP server used for the update. Only numerical IP address names are supported, no DNS can be used. 7 Select FTP or TFTP to define whether the firmware file resides on a FTP or TFTP server. Altitude 3500 Series Access Point Product Reference Guide 109 System Configuration 8 Set the following FTP or TFTP parameters: ● Username—Specify a username for the FTP server login. ● Password—Specify a password for FTP server login. Default is admin123. A blank password is not supported. NOTE Click Apply to save the settings before performing the firmware update. The user is not able to navigate the AP35xx user interface while the firmware update is in process. 9 Click the Perform Update button to initiate the update. Upon confirming the firmware update, the AP reboots and completes the update. NOTE The access point must complete the reboot process to successfully update the device firmware, regardless of whether the reboot is conducted using the GUI or CLI interfaces. 10 After the AP reboots, return to the Firmware Update screen. Check the Status field to verify whether the firmware update was successful. If an error occurs, one of the following error messages will display: FAIL: auto fw update check FAIL: network activity time out FAIL: firmware check FAIL: exceed memory limit FAIL: authentication FAIL: connection time out FAIL: control channel error FAIL: data channel error FAIL: channel closed unexpected FAIL: establish data channel FAIL: accept data channel FAIL: user interrupted FAIL: no valid interface found FAIL: conflict ip address FAIL: command exchange time out FAIL: invalid subnet number 11 Confirm the AP35xx configuration is the same as it was before the firmware update. If they are not, restore the settings. Refer to “Importing/Exporting Configurations” on page 103 for instructions on exporting the configuration back to the AP35xx. 12 Click Apply to save the filename and filepath information entered into the Firmware Update screen. The Apply button does not execute the firmware, only saves the update settings entered. 13 Click Undo Changes (if necessary) to undo any changes made. Undo Changes reverts the settings displayed on Firmware Update screen to the last saved configuration. Altitude 3500 Series Access Point Product Reference Guide 110 14 Click Logout to securely exit the AP35xx Access Point applet. A prompt displays confirming the logout before the applet is closed. Altitude 3500 Series Access Point Product Reference Guide 111 System Configuration Altitude 3500 Series Access Point Product Reference Guide 112 5 Network Management CHAPTER Refer to the following for network management configuration activities supported by the access point user interface: ● Configuring the LAN Interface on page 113 ● Configuring WAN Settings on page 125 ● Enabling Wireless LANs (WLANs) on page 133 ● Configuring WIPS Server Settings on page 161 ● Configuring Router Settings on page 163 ● Configuring IP Filtering on page 166 Configuring the LAN Interface The Altitude 35xx has one physical LAN port supporting two unique LAN interfaces. The Altitude 35xx LAN port has its own MAC address. The LAN port MAC address is always the value of the Altitude 35xx WAN port MAC address plus 1. The LAN and WAN port MAC addresses can be located within the LAN and WAN Stats screens. For information on locating the access point’s MAC addresses, see “Viewing WAN Statistics” on page 231 and “Viewing LAN Statistics” on page 234. Use the LAN Configuration screen to enable one (or both) of the access point’s LAN interfaces, assign them names, define which LAN is currently active on the access point Ethernet port and assign a timeout value to disable the LAN connection if no data traffic is detected within a defined interval. Altitude 3500 Series Access Point Product Reference Guide 113 Network Management To configure the Altitude 35xx LAN interface: 1 Select Network Configuration > LAN from the Altitude 35xx menu tree. CAUTION If deploying the access point as an AAP with a remote layer 3 configuration and the AAP is set for Controller auto discovery (primary/standby), the access point will unadopt from its switch after a few moments. To remedy this problem, ensure LAN1 has 802.1q trunking enabled and the correct management VLAN defined. 2 Configure the LAN Settings field to enable the Altitude 35xx LAN1 and/or LAN2 interface, assign a timeout value, enable 802.1q trunking, configure WLAN mapping and enable 802.1x port authentication. Enable Select the LAN1 and/or LAN2 checkbox to allow the forwarding of data traffic over the specified LAN connection. The LAN1 connection is enabled by default, but both LAN interfaces can be enabled simultaneously. The LAN2 setting is disabled by default. LAN Name Use the LAN Name field to modify the existing LAN name. LAN1 and LAN2 are the default names assigned to the LANs until modified by the user. Altitude 3500 Series Access Point Product Reference Guide 114 Ethernet Port The Ethernet Port radio buttons allow you to select one of the two available LANs as the LAN actively transmitting over the access point’s LAN port. Both LANs can be active at any given time, but only one can transmit over the access point’s physical LAN connection, thus the selected LAN has priority. Enable 802.1q Trunking Select the Enable 802.1q Trunking checkbox to enable the LAN to conduct VLAN tagging. If selected, click the WLAN Mapping button to configure mappings between WLANs and LANs. If enabled, the access point requires connection to a trunked port. VLAN Name Click the VLAN Name button to launch the VLAN Name screen to create VLANs and assign them VLAN IDs. For more information, see “Configuring VLAN Support” on page 116. WLAN Mapping Click the WLAN Mapping button to launch the VLAN Configuration screen to map existing WLANs to one of the two LANs and define the WLAN’s VLAN membership (up to 16 mappings are possible per access point). For more information, see “Configuring VLAN Support” on page 116. 3 Refer to the LAN Ethernet Timeout field to define how LAN Ethernet inactivity is processed by the access point. Use the Ethernet Port Timeout drop-down menu to define how the access point interprets inactivity for the LAN assigned to the Ethernet port. When Enabled is selected, the access point uses the value defined in the Sec. box (default is 30 seconds). Selecting Disabled allows the LAN to use the Ethernet port for an indefinite timeout period. Select the Hardware Detect option to use the physical LAN port to detect activity. If the LAN port does not detect a physical connection, the radio is unavailable to the access point. 4 Refer to the 802.1x Port Authentication field if using port authentication over the access point’s LAN port. The access point only supports 802.1x authentication over its LAN port. The access point behaves as an 802.1x supplicant to authenticate to a server on the network. If using 802.1x authentication, enter the authentication server user name and password. The default password is “extreme.” For information on enabling and configuring authentication schemes on the access point, see “Enabling Authentication and Encryption Schemes” on page 172. 5 Use the Port Settings field to define how the access point manages throughput over the LAN port. Auto Negotiation Select the Auto Negotiation checkbox to enable the access point to automatically exchange information (over its LAN port) about data transmission speed and duplex capabilities. Auto negotiation is helpful when using the access point in an environment where different devices are connected and disconnected on a regular basis. Selecting Auto Negotiate disables the Mbps and duplex checkbox options. 100 Mbps Select this option to establish a 100 Mbps data transfer rate for the selected half duplex or full duplex transmission over the access point’s LAN port. This option is not available if Auto Negotiation is selected. 10 Mbps Select this option to establish a 10 Mbps data transfer rate for the selected half duplex or full duplex transmission over the access point’s LAN port. This option is not available if Auto Negotiation is selected. Altitude 3500 Series Access Point Product Reference Guide 115 Network Management half duplex Select this option to transmit data to and from the access point, but not at the same time. Using a half duplex transmission, the access point can send data over its LAN port then immediately receive data from the same direction in which the data was transmitted. Like a full-duplex transmission, a half-duplex transmission can carry data in both directions, just not at the same time. full duplex Select this option to transmit data to and from the access point at the same time. Using full duplex, the access point can send data over its LAN port while receiving data as well. 6 Click Apply to save any changes to the LAN Configuration screen. Navigating away from the screen without clicking the Apply button results in all changes to the screen being lost if the prompts are ignored. 7 Click Undo Changes (if necessary) to undo any changes made. Undo Changes reverts the settings displayed on the LAN configuration screen to the last saved configuration. 8 Click Logout to securely exit the Altitude 35xx Access Point applet. A prompt displays confirming the logout before the applet is closed. Configuring VLAN Support A Virtual Local Area Network (VLAN) is a means to electronically separate data on the same Altitude 35xx from a single broadcast domain into separate broadcast domains. The Altitude 35xx can group devices on one or more WLANs so that they can communicate as if they were attached to the same wire, when in fact they are located on a different LAN segment. Because VLANs are based on logical instead of physical connections, they are extremely flexible. By using a VLAN, you can group by logical function instead of physical location. A maximum of 16 VLANs can be supported on the access point (regardless of the access point being single or dual-radio model). An administrator can map 16 WLANs to 16 VLANs and enable or disable dynamic VLAN assignment. VLANs enable organizations to share network resources in various network segments within large areas (airports, shopping malls, etc.). A VLAN is a group of clients with a common set of requirements independent of their physical location. VLANs have the same attributes as physical LANs, but they enable system administrators to group MUs even when they are not members of the same network segment. NOTE A WLAN supporting a mesh network does not need to be assigned to a particular VLAN, as all the traffic proliferating the mesh network is already trunked. However, if MUs are to be connected to the Mesh WLAN, the WLAN will need to be tied to a VLAN. The Altitude 35xx assignment of VLANs can be implemented using Static or Dynamic assignments (often referred to as memberships) for individual WLANs. Both methods have their advantages and disadvantages. Static VLAN membership is perhaps the most widely used method because of the relatively small administration overhead and security it provides. With Static VLANs, you manually assign individual WLANs to individual VLANs. Although static VLANs are the most common form of VLAN assignments, dynamic VLAN assignment is possible per WLAN. Configuring dynamic VLANs entail the Altitude 35xx sending a DHCP request for device information (such as an IP address). Additional information (such as device MAC address information) is sent to the Altitude 35xx. The Altitude 35xx sends this MAC address to a host housing a Altitude 3500 Series Access Point Product Reference Guide 116 copy of the Dynamic VLAN database. This database houses the records of MAC addresses and VLAN assignments. The VLAN database looks up the MAC to determine what VLAN is assigned to it. If it is not in the database, it simply uses a default VLAN assignment. The VLAN assignment is sent to the Altitude 35xx. The Altitude 35xx then maps the target WLAN for the assigned VLAN and traffic passes normally, allowing for the completion of the DHCP request and further traffic. To create new VLANs or edit the properties of an existing VLAN: 1 Select Network Configuration > LAN from the Altitude 35xx menu tree. 2 Ensure the Enable 802.1q Trunking button is selected from within the LAN Setting field. Trunk links are required to pass VLAN information between destinations. A trunk port is by default a member of all the VLANs existing on the Altitude 35xx and carry traffic for all those VLANs. Trunking is a function that must be enabled on both sides of a link. 3 Select the VLAN Name button. The VLAN name screen displays. The first time the screen is launched a default VLAN name of 1 and a default VLAN ID of 1 display. The VLAN name is auto-generated once the user assigns a VLAN ID. However, the user has the option of re-assigning a name to the VLAN using New VLAN and Edit VLAN screens. To create a new VLAN, click the Add button, to edit the properties of an existing VLAN, click the Edit button. Altitude 3500 Series Access Point Product Reference Guide 117 Network Management 4 Assign a unique VLAN ID (from 1 to 4095) to each VLAN added or modified. The VLAN ID associates a frame with a specific VLAN and provides the information the Altitude 35xx needs to process the frame across the network. Therefore, it may be practical to assign a name to a VLAN representative or the area or type of network traffic it represents. A business may have offices in different locations and want to extend an internal LAN between the locations. An Altitude 35xx managed infrastructure could provide this connectivity, but it requires VLAN numbering be managed carefully to avoid conflicts between two VLANs with the same ID. 5 Define a 32 ASCII character maximum VLAN Name. Enter a unique name that identifies members of the VLAN. Extreme Networks recommends selecting the name carefully, as the VLAN name should signify a group of clients with a common set of requirements independent of their physical location. 6 Click Apply to save the changes to the new or modified VLAN. 7 From the LAN Configuration screen, click the WLAN Mapping button. The Mapping Configuration screen displays. Altitude 3500 Series Access Point Product Reference Guide 118 8 Enter a Management VLAN Tag for LAN1 and LAN2. The Management VLAN uses a default tag value of 1. The Management VLAN is used to distinguish VLAN traffic flows for the LAN. The trunk port marks the frames with special tags as they pass between the Altitude 35xx and its destination, these tags help distinguish data traffic. Authentication servers (such as RADIUS and Kerberos) must be on the same Management VLAN. Additionally, DHCP and BOOTP servers must be on the same Management VLAN as well. 9 Define a Native VLAN Tag for LAN1 and LAN2. A trunk port configured with 802.1Q tagging can receive both tagged and untagged traffic. By default, the access point forwards untagged traffic with the native VLAN configured for the port. The Native VLAN is VLAN 1 by default. Extreme Networks suggests leaving the Native VLAN set to 1 as other layer 2 devices also have their Native VLAN set to 1. 10 Use the LAN drop-down menu to map one of the two LANs to the WLAN listed to the left. With this assignment, the WLAN uses this assigned LAN interface. 11 Select the Dynamic checkboxes (under the Mode column) to configure the VLAN mapping as a dynamic VLAN. Using Dynamic VLAN assignments, a VMPS (VLAN Management Policy Server) dynamically assigns VLAN ports. The Altitude 35xx uses a separate server as a VMPS server. When a frame arrives on the Altitude 35xx, it queries the VMPS for the VLAN assignment based on the source MAC address of the arriving frame. If statically mapping VLANs, leave the Dynamic checkbox specific to the target WLAN and its intended VLAN unselected. The administrator is then required to configure VLAN memberships manually. The Dynamic checkbox is enabled only when a WLAN is having EAP configured. Otherwise, the checkbox is disabled. 12 Use the VLAN drop-down menu to select the name of the target VLAN to map to the WLAN listed on the left-hand side of the screen. Extreme Networks recommends mapping VLANs strategically in order to keep VLANs tied to the discipline they most closely match. For example, If WLAN1 is comprised of MUs supporting the sales area, then WLAN1 should be mapped to sales if a sales VLAN has been already been created. 13 Click Apply to return to the VLAN Name screen. Click OK to return to the LAN screen. Once at the LAN screen, click Apply to re-apply your changes. Configuring LAN1 and LAN2 Settings Both LAN1 and LAN2 have separate sub-screens to configure the DHCP settings used by the LAN1 and LAN2 interfaces. Within each LAN screen is a button to access a sub-screen to configure advanced DHCP settings for that LAN. For more information, see “Configuring Advanced DHCP Server Settings” on page 122. Additionally, LAN1 and LAN2 each have separate Type Filter submenu items used to prevent specific (an potentially unnecessary) frames from being processed, for more information, see “Setting the Type Filter Configuration” on page 123. Altitude 3500 Series Access Point Product Reference Guide 119 Network Management To configure unique settings for either LAN1 or LAN2: 1 Select Network Configuration > LAN > LAN1 (or LAN2) from the Altitude 35xx menu tree. 2 Configure the DHCP Configuration field to define the DHCP settings used for the LAN. NOTE Extreme Networks recommends the WAN and LAN ports should not both be configured as DHCP clients. This interface is a DHCP Client Select this button to enable DHCP to set network address information via this LAN1 or LAN2 connection. This is recommended if the Altitude 35xx resides within a large corporate network or the Internet Service Provider (ISP) uses DHCP. This setting is enabled for LAN1 by default. DHCP is a protocol that includes mechanisms for IP address allocation and delivery of host-specific configuration parameters from a DHCP server to a host. If DHCP Client is selected, the first DHCP or BOOTP server to respond sets the IP address and network address values since DHCP and BOOTP are interoperable. Altitude 3500 Series Access Point Product Reference Guide 120 This interface is a BOOTP Client Select this button to enable BOOTP to set Altitude 35xx network address information via this LAN1 or LAN2 connection. When selected, only BOOTP responses are accepted by the Altitude 35xx. If both DHCP and BOOTP services are required, do not select BOOTP Client. This interface uses static IP Address Select the This interface uses static IP Address button, and manually enter static network address information in the areas provided. This interface is a DHCP Server The Altitude 35xx can be configured to function as a DHCP server over the LAN1 or LAN2 connection. Select the This interface is a DHCP Server button and manually enter static network address information in the areas provided. Address Assignment Range Use the address assignment parameter to specify a range of numerical (non DNS name) IP addresses reserved for mapping client MAC addresses to IP addresses. If a manually (static) mapped IP address is within the IP address range specified, that IP address could still be assigned to another client. To avoid this, ensure all statically mapped IP addresses are outside of the IP address range assigned to the DHCP server. Advanced DHCP Server Click the Advanced DHCP Server button to display a screen used for generating a list of static MAC to IP address mappings for reserved clients. A separate screen exists for each of the LANs. For more information, see “Configuring Advanced DHCP Server Settings” on page 122. IP Address The network-assigned numerical (non DNS name) IP address of the Altitude 35xx. Network Mask The first two sets of numbers specify the network domain, the next set specifies the subset of hosts within a larger network. These values help divide a network into subnetworks and simplify routing and data transmission. The subnet mask defines the size of the subnet. Default Gateway The Default Gateway parameter defines the numerical (non DNS name) IP address of a router the Altitude 35xx uses on the Ethernet as its default gateway. Domain Name Enter the name assigned to the primary DNS server. Primary DNS Server Enter the Primary DNS numerical (non DNS name) IP address. Secondary DNS Server Extreme Networks recommends entering the numerical IP address of an additional DNS server (if available), used if the primary DNS server goes down. A maximum of two DNS servers can be used. WINS Server Enter the numerical (non DNS name) IP address of the WINS server. WINS is a Microsoft NetBIOS name server. Using a WINS server eliminates the broadcasts needed to resolve computer names to IP addresses by providing a cache or database of translations. Altitude 3500 Series Access Point Product Reference Guide 121 Network Management Mesh STP Configuration Click the Mesh STP Configuration button to define bridge settings for this specific LAN. Each of the access point’s two LANs can have a separate mesh configuration. As the Spanning Tree Protocol (STP) mentions, each mesh network maintains hello, forward delay and max age timers. These settings can be used as is using the current default settings, or be modified. However, if these settings are modified, they need to be configured for the LAN connecting to the mesh network WLAN. 3 Click Apply to save any changes to the LAN1 or LAN2 screen. Navigating away from the screen without clicking the Apply button results in all changes to the screen being lost if the prompts are ignored. 4 Click Undo Changes (if necessary) to undo any changes made. Undo Changes reverts the settings displayed on the LAN1 or LAN2 screen to the last saved configuration. 5 Click Logout to securely exit the Access Point applet. A prompt displays confirming the logout before the applet is closed. Configuring Advanced DHCP Server Settings Use the Advanced DHCP Server screen to specify (reserve) static (or fixed) IP addresses for specific devices. Every wireless, 802.11x-standard device has a unique Media Access Control (MAC) address. This address is the device's hard-coded hardware number (shown on the bottom or back). An example of a MAC address is 00:A0:F8:45:9B:07. The DHCP server can grant an IP address for as long as it remains in active use. The lease time is the number of seconds an IP address is reserved for re-connection after its last use. Using very short leases, DHCP can dynamically reconfigure networks in which there are more computers than available IP addresses. This is useful, for example, in education and customer environments where MU users change frequently. Use longer leases if there are fewer users. To generate a list of client MAC address to IP address mappings for the Altitude 35xx: 1 Select Network Configuration > LAN > LAN1 (or LAN2) from the Altitude 35xx menu tree. 2 Click the Advanced DHCP Server button from within the LAN1 or LAN2 screen. Altitude 3500 Series Access Point Product Reference Guide 122 3 Specify a lease period in seconds for available IP addresses using the DHCP Lease Time (Seconds) parameter. An IP address is reserved for re-connection for the length of time you specify. The default interval is 86400 seconds. 4 Click the Add button to create a new table entry within the Reserved Clients field. If a statically mapped IP address is within the IP address range in use by the DHCP server, that IP address may still be assigned to another client. To avoid this, ensure all statically mapped IP addresses are outside of the IP address range assigned to the DHCP server. If multiple entries exist within the Reserved Clients field, use the scroll bar to the right of the window to navigate. 5 Click the Del (delete) button to remove a selected table entry. 6 Click OK to return to the LAN1 or LAN2 page, where the updated settings within the Advanced DHCP Server screen can be saved by clicking the Apply button. 7 Click Cancel to undo any changes made. Undo Changes reverts the settings displayed to the last saved configuration. Setting the Type Filter Configuration Each Altitude 35xx LAN (either LAN1 or LAN2) can keep a list of frame types that it forwards or discards. The Type Filtering feature prevents specific and potentially unnecessary frames from being processed by the Altitude 35xx in order to improve throughput. These include certain broadcast frames from devices that consume bandwidth, but are unnecessary to Altitude 35xx operations. Use the Ethernet Type Filter Configuration screen to build a list of filter types and configure them as either allowed or denied for use with the particular LAN. Altitude 3500 Series Access Point Product Reference Guide 123 Network Management To configure type filtering on the Altitude 35xx: 1 Select Network Configuration > LAN > LAN1 (or LAN2) > Type Filter from the Altitude 35xx menu tree. The Ethernet Type Filter Configuration screen displays for the LAN. No Ethernet types are displayed (by default) when the screen is first launched. 2 Use the all ethernet types, except drop-down menu to designate whether the Ethernet Types defined for the LAN are allowed or denied for use by the Altitude 35xx. 3 To add an Ethernet type, click the Add button. The Add Ethernet Type screen displays. Use this screen to add one type filter option at a time, for a list of up to 16 entries. Packet types supported for the type filtering function include 16-bit DIX Ethernet types as well as Extreme Networks proprietary types. Select an Ethernet type from the drop down menu, or enter the Ethernet type’s hexadecimal value. See your System Administrator if unsure of the implication of adding or omitting a type from the list for either LAN1 or LAN2. Altitude 3500 Series Access Point Product Reference Guide 124 4 To optionally delete a type filtering selection from the list, highlight the packet type and click the Delete button. 5 Click Apply to save any changes to the LAN1 or LAN2 Ethernet Type Filter Configuration screen. Navigating away from the screen without clicking Apply results in all changes to the screens being lost. 6 Click Undo Changes to securely exit the LAN1 or LAN2 Ethernet Type Filter Configuration screen without saving your changes. 7 Click Logout to securely exit the Access Point applet. A prompt displays confirming the logout before the applet is closed. Configuring WAN Settings A Wide Area Network (WAN) is a widely dispersed telecommunications network. The Altitude 35xx includes one WAN port. The Altitude 35xx WAN port has its own MAC address. In a corporate environment, the WAN port might connect to a larger corporate network. For a small business, the WAN port might connect to a DSL or cable modem to access the Internet. Use the WAN screen to set the WAN IP configuration and Point-to-Point Protocol over Ethernet (PPPoE) parameters. To configure WAN settings for the Altitude 35xx: 1 Select Network Configuration > WAN from the Altitude 35xx menu tree. Altitude 3500 Series Access Point Product Reference Guide 125 Network Management 2 Refer to the WAN IP Configuration field to enable the WAN interface, and set network address information for the WAN connection. NOTE Extreme Networks recommends that the WAN and LAN ports should not both be configured as DHCP clients. Enable WAN Interface Select the Enable WAN Interface checkbox to enable a connection between the Altitude 35xx and a larger network or outside world through the WAN port. Disable this option to effectively isolate the Altitude 35xx’s WAN. No connections to a larger network or the Internet are possible. MUs cannot communicate beyond the LAN. By default, the WAN port is static with an IP address of 10.1.1.1. This interface is a DHCP Client This checkbox enables DHCP for the Altitude 35xx WAN connection. This is useful, if the larger corporate network or Internet Service Provider (ISP) uses DHCP. DHCP is a protocol that includes mechanisms for IP address allocation and delivery of host-specific configuration parameters from a DHCP server to a host. Some of these parameters are IP address, network mask, and gateway. If DHCP client mode is enabled, the other WAN IP configuration parameters are grayed out. IP Address Specify a numerical (non DNS name) IP address for the Altitude 35xx’s WAN connection. This address defines the AP's presence on a larger network or on the Internet. Obtain a static (dedicated) IP address from the ISP or network administrator. An IP address uses a series of four numbers expressed in dot notation, for example, 190.188.12.1. Subnet Mask Specify a subnet mask for the Altitude 35xx’s WAN connection. This number is available from the ISP for a DSL or cable-modem connection, or from an administrator if the Altitude 35xx connects to a larger network. A subnet mask uses a series of four numbers expressed in dot notation (similar to an IP address). For example, 255.255.255.0 is a valid subnet mask. Default Gateway Specify the gateway address for the Altitude 35xx’s WAN connection. The ISP or a network administrator provides this address. Primary DNS Server Specify the address of a primary Domain Name System (DNS) server. The ISP or a network administrator provides this address. A DNS server translates a domain name (for example, www.extremenetworks.com) into an IP address that networks can use. Secondary DNS Server Specify the address of a secondary DNS server if one is used. A secondary address is recommended if the primary DNS server goes down. Altitude 3500 Series Access Point Product Reference Guide 126 More IP Addresses Click the More IP Addresses button to specify additional static IP addresses for the Altitude 35xx. Additional IP addresses are required when users within the WAN need dedicated IP addresses, or when servers need to be accessed (addressed) by the outside world. The More IP Addresses screen allows the administrator to enter up to seven additional WAN IP addresses for the Altitude 35xx WAN. Only numeric, non-DNS names can be used. If PPP over Ethernet is enabled from within the WAN screen, the VPN WAN IP Configuration portion of the More IP Addresses screen is enabled. Enter the IP address and subnet mask used to provide the PPPoE connection over the access point’s WAN port. Ensure the IP address is a numerical (non DNS) name. Refresh Click the Refresh button to update the network address information displayed within the WAN IP Configuration field. 3 Use the Port Settings field to define how the access point manages throughput over the WAN port. Auto Negotiation Select the Auto Negotiation checkbox to enable the access point to automatically exchange information (over its WAN port) about data transmission speed and duplex capabilities. Auto negotiation is helpful when using the access point in an environment where different devices are connected and disconnected on a regular basis. Selecting Auto Negotiate disables the Mbps and duplex checkbox options. 100 Mbps Select this option to establish a 100 Mbps data transfer rate for the selected half duplex or full duplex transmission over the access point’s WAN port. This option is not available if Auto Negotiation is selected. 10 Mbps Select this option to establish a 10 Mbps data transfer rate for the selected half duplex or full duplex transmission over the access point’s WAN port. This option is not available if Auto Negotiation is selected. half duplex Select this option to transmit data to and from the access point, but not at the same time. Using a half duplex transmission, the access point can send data over its WAN port then immediately receive data from the same direction in which the data was transmitted. Like a full-duplex transmission, a half-duplex transmission can carry data in both directions, just not at the same time. full duplex Select this option to transmit data to and from the access point at the same time. Using full duplex, the access point can send data over its WAN port while receiving data as well. Altitude 3500 Series Access Point Product Reference Guide 127 Network Management 4 Configure the PPP over Ethernet field to enable high speed dial-up connections to the Altitude 35xx WAN port. Enable Use the checkbox to enable Point-to-Point over Ethernet (PPPoE) for a high-speed connection that supports this protocol. Most DSL providers are currently using or deploying this protocol. PPPoE is a data-link protocol for dialup connections. PPPoE allows a host PC to use a broadband modem (DSL) for access to high-speed data networks. Username Specify a username entered when connecting to the ISP. When the Internet session begins, the ISP authenticates the username. Password Specify a password entered when connecting to the ISP. When the Internet session starts, the ISP authenticates the password. PPPoE State Displays the current connection state of the PPPoE client. When a PPPoE connection is established, the status displays Connected. When no PPPoE connection is active, the status displays Disconnected. Keep-Alive Select the Keep-Alive checkbox to maintain the WAN connection indefinitely (no timeout interval). Some ISPs terminate inactive connections. Enabling Keep-Alive keeps the Altitude 35xx’s WAN connection active, even when there is no traffic. If the ISP drops the connection after an idle period, the Altitude 35xx automatically re-establishes the connection to the ISP. Enabling Keep-Alive mode disables (grays out) the Idle Time field. Idle Time (seconds) Specify an idle time in seconds to limit how long the Altitude 35xx’s WAN connection remains active after outbound and inbound traffic is not detected. The Idle Time field is grayed out if Keep-Alive is enabled. Authentication Type Use the Authentication Type menu to specify the authentication protocol(s) for the WAN connection. Choices include None, PAP or CHAP, PAP, or CHAP. Password Authentication Protocol (PAP) and Challenge Handshake Authentication Protocol (CHAP) are competing identify-verification methods. PAP sends a username and password over a network to a server that compares the username and password to a table of authorized users. If the username and password are matched in the table, server access is authorized. WatchGuard products do not support the PAP protocol because the username and password are sent as clear text that a hacker can read. CHAP uses secret information and mathematical algorithms to send a derived numeric value for login. The login server knows the secret information and performs the same mathematical operations to derive a numeric value. If the results match, server access is authorized. After login, one of the numbers in the mathematical operation is changed to secure the connection. This prevents any intruder from trying to copy a valid authentication session and replaying it later to log in. 5 Click Apply to save any changes to the WAN screen. Navigating away from the screen without clicking the Apply button results in all changes to the screen being lost. Altitude 3500 Series Access Point Product Reference Guide 128 6 Click Undo Changes (if necessary) to undo any changes made. Undo Changes reverts the settings displayed on the WAN screen to the last saved configuration. 7 Click Logout to securely exit the Access Point applet. A prompt displays confirming the logout before the applet is closed. Configuring Network Address Translation (NAT) Settings Network Address Translation (NAT) converts an IP address in one network to a different IP address or set of IP addresses in another network. The Altitude 35xx router maps its local (inside) network addresses to WAN (outside) IP addresses, and translates the WAN IP addresses on incoming packets to local IP addresses. NAT is useful because it allows the authentication of incoming and outgoing requests, and minimizes the number of WAN IP addresses needed when a range of local IP addresses is mapped to each WAN IP address. NAT can be applied in one of two ways: ● One-to-one mapping with a private side IP address The private side IP address can belong to any of the private side subnets. ● One-to-many mapping with a configurable range of private side IP addresses Ranges can be specified from each of the private side subnets. To configure IP address mappings for the Altitude 35xx: 1 Select Network Configuration > WAN > NAT from the Altitude 35xx menu tree. 2 Configure the Address Mappings field to generate a WAN IP address, define the NAT type and set outbound/inbound NAT mappings. Altitude 3500 Series Access Point Product Reference Guide 129 Network Management WAN IP Address The WAN IP addresses on the NAT screen are dynamically generated from address settings applied on the WAN screen. NAT Type Specify the NAT Type as 1 to 1 to map a WAN IP address to a single host (local) IP address. 1 to 1 mapping is useful when users need dedicated addresses, and for publicfacing servers connected to the Altitude 35xx. Set the NAT Type as 1 to Many to map a WAN IP address to multiple local IP addresses. This displays the mappings button in the adjacent Outbound Mappings field. This button displays a screen for mapping the LAN IP addresses that are associated with each subnet. Define the NAT Type as none when routable IP addresses are used on the internal network. Outbound Mappings When 1 to 1 NAT is selected, a single IP address can be entered in the Outbound Mappings area. This address provides a 1 to 1 mapping of the WAN IP address to the specified IP address. When 1 to Many is selected as the NAT Type, the Outbound Mappings area displays a mappings button. Click the button to select the LAN1 or LAN2 IP address used to set the outbound IP address or select none to exclude the IP address. If none is selected as the NAT Type, The Outbound Mappings area is blank. Inbound Mappings When 1 to 1 or 1 to Many is selected, the Inbound Mappings option displays a Port Forwarding button. Port Forwarding Click the Port Forwarding button to display a screen of port forwarding parameters for inbound traffic from the associated WAN IP address. For information on configuring port forwarding, see “Configuring Port Forwarding” on page 130. 3 Click Apply to save any changes to the NAT screen. Navigating away from the screen without clicking the Apply button results in all changes to the screens being lost. 4 Click Undo Changes (if necessary) to undo any changes made. Undo Changes reverts the settings displayed on the NAT screen to the last saved configuration. 5 Click Logout to securely exit the Access Point applet. A prompt displays confirming the logout before the applet is closed. Configuring Port Forwarding Use the Port Forwarding screen to configure port forwarding parameters for inbound traffic from the associated WAN IP address. To configure port forwarding for the Altitude 35xx: 1 Select Network Configuration > WAN > NAT from the Altitude 35xx menu tree. 2 Select 1 to 1 or 1 to Many from the NAT Type drop-down menu. 3 Click on the Port Forwarding button within the Inbound Mappings area. Altitude 3500 Series Access Point Product Reference Guide 130 4 Configure the Port Forwarding screen to modify the following: Add Click Add to create a local map that includes the name, transport protocol, start port, end port, IP address and Translation Port for incoming packets. Delete Click Delete to remove a selected local map entry. Name Enter a name for the service being forwarded. The name can be any alphanumeric string and is used for identification of the service. Transport Use the Transport pull-down menu to specify the transport protocol used in this service. The choices are ALL, TCP, UDP, ICMP, AH, ESP, and GRE. Start Port and End Port Enter the port or ports used by the port forwarding service. To specify a single port, enter the port number in the Start Port area. To specify a range of ports, use both the Start Port and End Port options to enter the port numbers. For example, enter 110 in the Start Port field and 115 in the End Port field. IP Address Enter the numerical (non DNS name) IP address to which the specified service is forwarded. This address must be within the specified NAT range for the associated WAN IP address. Translation Port Specify the port number used to translate data for the service being forwarded. Forward all Use the Forward all unspecified ports to checkbox to unspecified ports to enable port forwarding for incoming packets with unspecified ports. In the adjacent area, enter a target forwarding IP address for incoming packets. This number must be within the specified NAT range for the associated WAN IP address. 5 Click OK to return to the NAT screen. Within the NAT screen, click Apply to save any changes made on the Port Forwarding screen. 6 Click Cancel to undo any changes made on Port Forwarding screen. This reverts all settings for the Port Forwarding screen to the last saved configuration. Altitude 3500 Series Access Point Product Reference Guide 131 Network Management Configuring Dynamic DNS The access point supports the Dynamic DNS service. Dynamic DNS (or DynDNS) is a feature offered by www.dyndns.com which allows the mapping of domain names to dynamically assigned IP addresses via the WAN port. When the dynamically assigned IP address of a client changes, the new IP address is sent to the DynDNS service and traffic for the specified domain(s) is routed to the new IP address. NOTE DynDNS supports only the primary WAN IP address. To configure dynamic DNS for the Altitude 35xx: 1 Select Network Configuration > WAN > DynDNS from the Altitude 35xx menu tree. 2 Select the Enable checkbox to allow domain name information to be updated when the IP address associated with that domain changes. A username, password and hostname must be specified for domain name information to be updated. NOTE The username, password and hostname are required to be registered at http://www.dyndns.com. 3 Enter the DynDNS Username for the account you wish to use for the access point. 4 Enter the DynDNS Password for the account you wish to use for the access point. 5 Provide the Hostname for the DynDNS account you wish to use for the access point. Altitude 3500 Series Access Point Product Reference Guide 132 6 Click the Update DynDNS button to update the access point’s current WAN IP address with the DynDNS service. NOTE DynDNS supports devices directly connected to the Internet. Having VPN enabled, and the DynDNS Server on the other side of the VPN is not supported. 7 Once the DynDNS configuration has been updated, click the Show Update Response button to open a sub-screen displaying the hostname, IP address and any messages received during an update from the DynDNS Server. 8 Click Apply to save any changes to the Dynamic DNS screen. Navigating away from the screen without clicking the Apply button results in all changes to the screens being lost. 9 Click Undo Changes (if necessary) to undo any changes made. Undo Changes reverts the settings displayed on the screen to the last saved configuration. Enabling Wireless LANs (WLANs) A Wireless Local Area Network (WLAN) is a data-communications system that flexibly extends the functionalities of a wired LAN. A WLAN does not require lining up devices for line-of-sight transmission, and are thus, desirable. Within the WLAN, roaming users can be handed off from one Altitude 35xx to another like a cellular phone system. WLANs can therefore be configured around the needs of specific groups of users, even when they are not in physical proximity. Use the Altitude 35xx’s Wireless Configuration screen to create new WLANs, edit the properties of existing WLANs or delete a WLAN to create space for a new WLAN. Sixteen WLANs are available on the access point (regardless of single or dual-radio model). Altitude 3500 Series Access Point Product Reference Guide 133 Network Management To configure WLANs on the Altitude 35xx: 1 Select Network Configuration > Wireless from the Altitude 35xx menu tree. If a WLAN is defined, that WLAN displays within the Wireless Configuration screen. When the Altitude 35xx is first booted, WLAN1 exists as a default WLAN available immediately for connection. 2 Refer to the information within the Wireless Configuration screen to view the name, ESSID, Altitude 35xx radio designation, VLAN ID and security policy of existing WLANs. WLAN Name The Name field displays the name of each WLAN that has been defined. The WLAN names can be modified within individual WLAN configuration screens. See “Creating/ Editing Individual WLANs” on page 135 to change the name of a WLAN. ESSID Displays the Extended Services Set Identification (ESSID) associated with each WLAN. The ESSID can be modified within individual WLAN configuration screens. See “Creating/Editing Individual WLANs” on page 135 to change the ESSID of a specific WLAN. Radio The Radio field displays the name of the Altitude 35xx radio the WLAN is mapped to (either the 802.11a radio or the 802.11b/g radio). To change the radio designation for a specific WLAN, see “Creating/Editing Individual WLANs” on page 135. Altitude 3500 Series Access Point Product Reference Guide 134 VLAN The VLAN field displays the specific VLAN the target WLAN is mapped to. For information on VLAN configuration for the WLAN, see “Configuring VLAN Support” on page 116. Security Policy The Security Policy field displays the security profile configured for the target WLAN. QoS Policy The QoS Policy field displays the quality of service currently defined for the WLAN. This policy outlines which data types receive priority for the user base comprising the WLAN. For information on QoS configuration for the WLAN, see “Setting the WLAN Quality of Service (QoS) Policy” on page 142. 3 Click the Create button (if necessary) to launch the New WLAN screen. Use the New WLAN screen to define the properties of a new WLAN that would display and be selectable within the Wireless Configuration screen. For additional information, see “Creating/Editing Individual WLANs” on page 135. 4 Click the Edit button (if necessary) to launch the Edit WLAN screen. Use the Edit WLAN screen to revise the properties of an existing WLAN that would continue display and be selectable within the Wireless Configuration screen. For additional information, see “Creating/Editing Individual WLANs” on page 135. 5 Consider using the Delete button to remove an existing WLAN if it has become outdated and is no longer required or if you are coming close the maximum 16 WLANs available per Altitude 35xx. 6 Click Logout to securely exit the Access Point applet. A prompt displays confirming the logout before the applet is closed. Creating/Editing Individual WLANs If the WLANs displayed within the Wireless Configuration screen do not satisfy your network requirements, you can either create a new WLAN or edit the properties of an existing WLAN. NOTE Before editing the properties of an existing WLAN, ensure it is not being used by an Altitude 35xx radio, or is a WLAN that is needed in its current configuration. Once updated, the previous configuration is not available unless saved. CAUTION When using the access point’s hotspot functionality, ensure MUs are re-authenticated when changes are made to the characteristics of a hotspot enabled WLAN, as MUs within the WLAN will be dropped from device association. Use the New WLAN and Edit WLAN screens as required to create/modify a WLAN. To create a new WLAN or edit the properties of an existing WLAN: 1 Select Network Configuration > Wireless from the Altitude 35xx menu tree. The Wireless Configuration screen displays. 2 Click the Create button to configure a new WLAN, or highlight a WLAN and click the Edit button to modify an existing WLAN. Either the New WLAN or Edit WLAN screen displays. Altitude 3500 Series Access Point Product Reference Guide 135 Network Management 3 Set the parameters in the Configuration field as required for the WLAN. ESSID Enter the Extended Services Set Identification (ESSID) associated with the WLAN. The WLAN name is autogenerated using the ESSID until changed by the user. The maximum number of characters that can be used for the ESSID is 32. Name Define or revise the name for the WLAN. The name should be logical representation of WLAN coverage area (engineering, marketing etc.). The maximum number of characters that can be used for the name is 31. Available On Use the Available On checkboxes to define whether the WLAN you are creating or editing is available to clients on either the 802.11a or 802.11b/g radio (or both radios). The Available On checkbox should only be selected for a mesh WLAN if this target access point is to be configured as a base bridge or repeater (base and client bridge) on the radio. If the radio for the WLAN is to be defined as a client bridge only, the Available On checkbox should not be selected. Altitude 3500 Series Access Point Product Reference Guide 136 Maximum MUs Use the Max MUs field to define the number of MUs permitted to interoperate within the new or revised WLAN. The maximum (and default) is 127. However, each access point can only support a maximum 127 MUs spanned across its 16 available WLANs. If you intend to define numerous WLANs, ensure each is using a portion of the 127 available MUs and the sum of the supported MUs across all WLANs does not exceed 127. Enable Client Bridge Backhaul Select the Enable Client Bridge Backhaul checkbox to make the WLAN available in the WLAN drop-down menu within the Radio Configuration screen. This checkbox can be ignored for WLANs not supporting mesh networking, to purposely exclude them from the list of WLANs available in the Radio Configuration page selected specifically for mesh networking support. Only WLANs defined for mesh networking support should have this checkbox selected. Enable Hotspot Select the Enable Hotspot checkbox to allow this WLAN (whether it be a new or existing WLAN) to be configured for hotspot support. Clicking the Configure Hotspot button launches a screen wherein the parameters of the hotspot can be defined. CAUTION A WLAN cannot be enabled for both mesh and hotspot support at the same time. Only one of these two options can be enabled at one time, as the GUI and CLI will prevent both from being enabled. NOTE If 802.11a is selected as the radio used for the WLAN, the WLAN cannot use a Kerberos supported security policy. 4 Configure the Security field as required to set the data protection requirements for the WLAN. NOTE A WLAN configured to support Mesh should not have a Kerberos or 802.1x EAP security policy defined for it, as these two authentication schemes are not supported within a Mesh network. Security Policy Use the scroll down Security Policies menu to select the security scheme best suited for the new or revised WLAN. Click the Create button to jump to the New Security Policy screen where a new policy can be created to suit the needs of the WLAN. MU Access Control Select an ACL policy suiting the WLAN‘s MU interoperability requirements from the drop-down menu. If the existing ACL policies do not satisfy the requirements of the WLAN, a new ACL policy can be created by pressing the Create button. For more information, see “Configuring a WLAN Access Control List (ACL)” on page 139. Kerberos User Name Displays the read-only Kerboros User Name used to associate the wireless client. This value is the ESSID of the access point. Altitude 3500 Series Access Point Product Reference Guide 137 Network Management Kerberos Password Enter a Kerberos password if Kerberos has been selected as the security scheme from within the Security Policies field. The field is grayed out if Kerberos has not been selected for the WLAN. 5 Configure the Advanced field as required to set MU interoperability permissions, secure beacon transmissions, broadcast ESSID acceptance and Quality of Service (QoS) policies. Disallow MU to MU The MU-MU Disallow feature prohibits MUs from Communication communicating with each other even if they are on different WLANs, assuming one of the WLAN’s is configured to disallow MU-MU communication. Therefore, if an MU’s WLAN is configured for MU-MU disallow, it will not be able to communicate with any other MUs connected to this access point. Use Secure Beacon Select the Use Secure Beacon checkbox to not transmit the access point’s ESSID. If a hacker tries to find an ESSID via an MU, the ESSID does not display since the ESSID is not in the beacon. Extreme Networks recommends keeping the option enabled to reduce the likelihood of hacking into the WLAN. Accept Broadcast ESSID Select the Accept Broadcast ESSID checkbox to associate an MU that has a blank ESSID (regardless of which ESSID the access point is currently using). Sites with heightened security requirements may want to leave the checkbox unselected and configure each MU with an ESSID. The default is unselected, thus not allowing the acceptance of broadcast ESSIDs. Quality of Service Policy If QoS policies are undefined (none), select the Create button to launch the New QoS Policy screen. Use this screen to create a QoS policy, wherein data traffic for the new or revised WLAN can be prioritized to best suit the MU transmissions within that WLAN. For more information, see “Setting the WLAN Quality of Service (QoS) Policy” on page 142. CAUTION When using the access point’s hotspot functionality, ensure MUs are re-authenticated when changes are made to the characteristics of a hotspot enabled WLAN, as MUs within the WLAN will be dropped from device association. 6 Click Apply to save any changes to the WLAN screen. Navigating away from the screen without clicking Apply results in all changes to the screens being lost. 7 Click Cancel to securely exit the New WLAN or Edit WLAN screen and return to the Wireless Configuration screen. Configuring WLAN Security Policies As WLANs are being defined for an Altitude 35xx, a security policy can be created or an existing policy edited (using the Create or Edit buttons within the Security Configuration screen) to best serve the security requirements of the WLAN. Once new policies are defined, they are available within the New WLAN or Edit WLAN screens and can be mapped to any WLAN. A single security policy can be used by more than one WLAN if its logical to do so. For example, there may be two or more WLANs within close proximity of each other requiring the same data protection scheme. Altitude 3500 Series Access Point Product Reference Guide 138 To create a new security policy or modify an existing policy: 1 Select Network Configuration > Wireless > Security from the Altitude 35xx menu tree. The Security Configuration screen appears with existing policies and their attributes displayed. NOTE When the Altitude 35xx is first launched, a single security policy (default) is available and mapped to WLAN 1. It is anticipated numerous additional security policies will be created as the list of WLANs grows. Configuring a WLAN security scheme with a discussion of all the authentication and encryption options available is beyond the scope of this chapter. See “Configuring Access Point Security” on page 169 for more details on configuring Altitude 35xx security. For detailed information on the authentication and encryption options available to the Altitude 35xx and how to configure them, see to “Configuring Security Options” on page 169 and locate the section that describes your intended security scheme. 2 Click Logout to exit the Security Configuration screen. Configuring a WLAN Access Control List (ACL) An Access Control List (ACL) affords a system administrator the ability to grant or restrict MU access by specifying a MU MAC address or range of MAC addresses to either include or exclude from Altitude 35xx connectivity. Use the Mobile Unit Access Control List Configuration screen to create new ACL policies (using the New MU ACL Policy sub-screen) or edit existing policies (using the Edit MU ACL Policy subAltitude 3500 Series Access Point Product Reference Guide 139 Network Management screen). Once new policies are defined, they are available for use within the New WLAN or Edit WLAN screens to assign to specific WLANs based on MU interoperability requirements. Extreme Networks recommends using the New MU ACL Policy or Edit MU ACL Policy screens strategically to name and configure ACL policies meeting the requirements of the particular WLANs they may map to. However, be careful not to name policies after specific WLANs, as individual ACL policies can be used by more than one WLAN. For detailed information on assigning ACL policies to specific WLANs, see “Creating/Editing Individual WLANs” on page 135. To create or edit ACL policies for WLANs: 1 Select Network Configuration > Wireless > MU ACL from the Altitude 35xx menu tree. The Mobile Unit Access Control List Configuration screen displays with existing ACL policies and their current WLAN (if mapped to a WLAN). NOTE When the Altitude 35xx is first launched, a single ACL policy (default) is available and mapped to WLAN 1. It is anticipated numerous additional ACL policies will be created as the list of WLANs grows. 2 Click the Create button to configure a new ACL policy, or select a policy and click the Edit button to modify an existing ACL policy. The access point supports a maximum of 16 MU ACL policies. Altitude 3500 Series Access Point Product Reference Guide 140 Either the New MU ACL Policy or Edit MU ACL Policy screens display. 3 Assign a name to the new or edited ACL policy that represents an inclusion or exclusion policy specific to a particular type of MU traffic you may want to use with a single or group of WLANs. More than one WLAN can use the same ACL policy. 4 Configure the parameters within the Mobile Unit Access Control List field to allow or deny MU access to the Altitude 35xx. The MU adoption list identifies MUs by their MAC address. The MAC address is the MU's unique Media Access Control number printed on the device (for example, 00:09:5B:45:9B:07) by the manufacturer. A maximum of 200 MU MAC addresses can be added to the New/Edit MU ACL Policy screen. Access for the listed Mobile Units Use the drop-down list to select Allow or Deny. This rule applies to the MUs listed in the table. For example, if the adoption rule is to Allow, access is granted for all MUs except those listed in the table. Add Click the Add button to create a new entry using only the Start MAC column to specify a MAC address, or uses both the Start MAC and End MAC columns to specify a range of MAC addresses. Delete Click the Delete button to remove a selected list entry. 5 Click Apply to save any changes to the New MU ACL Policy or Edit MU ACL Policy screen and return to the Mobile Unit Access Control List Configuration screen. Navigating away from the screen without clicking Apply results in changes to the screens being lost. 6 Click Cancel to securely exit the New MU ACL Policy or Edit MU ACL Policy screen and return to the Mobile Unit Access Control List Configuration screen. 7 Click Logout within the Mobile Unit Access Control List Configuration screen to securely exit the Access Point applet. A prompt displays confirming the logout before the applet is closed. Altitude 3500 Series Access Point Product Reference Guide 141 Network Management Setting the WLAN Quality of Service (QoS) Policy The Altitude 35xx can keep a list of QoS policies that can be used from the New WLAN or Edit WLAN screens to map to individual WLANs. Use the Quality of Service Configuration screen to configure WMM policies that can improve the user experience for audio, video and voice applications by shortening the time between packet transmissions for higher priority (multimedia) traffic. Use the Quality of Service Configuration screen to define the QoS policies for advanced network traffic management and multimedia applications support. If the existing QoS policies are insufficient, a new policy can be created or an existing policy can be modified using the New QoS Policy or Edit QoS Policy screens. Once new policies are defined, they are available for use within the New WLAN or Edit WLAN screens to assign to specific WLANs based on MU interoperability requirements. Extreme Networks recommends using the New QoS Policy and Edit QoS Policy screens strategically to name and configure QoS policies meeting the requirements of the particular WLANs they may map to. However, be careful not to name policies after specific WLANs, as individual QoS policies can be used by more than one WLAN. For detailed information on assigning QoS policies to specific WLANs, see “Creating/Editing Individual WLANs” on page 135. To configure QoS policies: 1 Select Network Configuration > Wireless > QoS from the Altitude 35xx menu tree. The Quality of Service Configuration screen displays with existing QoS policies and their current WLAN (if mapped to a WLAN). NOTE When the Altitude 35xx is first launched, a single QoS policy (default) is available and mapped to WLAN 1. It is anticipated additional QoS policies will be created as the list of WLANs grows. Altitude 3500 Series Access Point Product Reference Guide 142 2 Click the Create button to configure a new QoS policy, or select a policy and click the Edit button to modify an existing QoS policy. The access point supports a maximum of 16 QoS policies. Altitude 3500 Series Access Point Product Reference Guide 143 Network Management 3 Assign a name to the new or edited QoS policy that makes sense to the Altitude 35xx traffic receiving priority. More than one WLAN can use the same QoS policy. 4 Select the Support Voice prioritization checkbox to allow legacy voice prioritization. Certain products may not receive priority over other voice or data traffic. Consequently, ensure the Support Voice Prioritization checkbox is selected if using products that do not support Wi-Fi Multimedia (WMM) to provide preferred queuing for these VOIP products. If the Support Voice Prioritization checkbox is selected, the access point will detect non-WMM capable (legacy) phones that connect to the access point and provide priority queueing for their traffic over normal data. NOTE Wi-fi functionality requires both the access point and its associated clients are WMM-capable and have WMM enabled. WMM enabled devices can take advantage of their QoS functionality only if using applications that support WMM, and can assign an appropriate priority level to the traffic streams they generate. 5 Use the two Multicast Address fields to specify one or two MAC addresses to be used for multicast applications. Some VoIP devices make use of multicast addresses. Using this mechanism ensures that the multicast packets for these devices are not delayed by the packet queue. 6 Use the drop-down menu to select the radio traffic best representing the network requirements of this WLAN. Options include: manual Select the manual option if intending to manually set the Access Categories for the radio traffic within this WLAN. Only advanced users should manually configure the Access Categories, as setting them inappropriately could negatively impact the access point’s performance. 11ag - wifi Use this setting for high-end multimedia devices that use the high rate 802.11a or 802.11g radio. 11b - wifi Use this setting for high-end devices multimedia devices that use the 802.11b radio. 11ag - default Use this setting for typical “data-centric” MU traffic over the high rate 802.11a or 802.11g radio. 11b - default Use this setting for typical “data-centric” MU traffic over the 802.11b radio. 11ag voice Use this setting for “Voice-Over-IP” traffic over the high rate 802.11a or 802.11g radio. 11b voice Use this setting for “Voice-Over-IP” traffic over the 802.11b radio. CAUTION Extreme Networks recommends using the drop-down menu to define the intended radio traffic within the WLAN. Once an option is selected, you do not need to adjust the values for the Access Categories, unless qualified to do so. Changing the Access Category default values could negatively impact the performance of the access point. Altitude 3500 Series Access Point Product Reference Guide 144 7 Select the Enable Wi-Fi Multimedia (WMM) QoS Extensions checkbox to configure the Altitude 35xx’s QoS Access Categories. The Access Categories are not configurable unless the checkbox is selected. Access Categories include: Background Background traffic is typically of a low priority (file transfers, print jobs ect.). Background traffic typically does not have strict latency (arrival) and throughput requirements. Best Effort Best Effort traffic includes traffic from legacy devices or applications lacking QoS capabilities. Best Effort traffic is negatively impacted by data transfers with long delays as well as multimedia traffic. Video Video traffic includes music streaming and application traffic requiring priority over all other types of network traffic. Voice Voice traffic includes VoIP traffic and typically receives priority over Background and Best Effort traffic. 8 Configure the CW min and CW max (contention windows), AIFSN (Arbitrary Inter-Frame Space Number) and TXOPs Time (opportunity to transmit) for each Access Category. Their values are explained as follows. CW Min The contention window minimum value is the least amount of time the MU waits before transmitting when there is no other data traffic on the network. The longer the interval, the lesser likelihood of collision. This value should be set to a smaller increment for higher priority traffic. Reduce the value when traffic on the WLAN is anticipated as being smaller. CW Max The contention window maximum value is the maximum amount of time the MU waits before transmitting when there is no other data traffic on the network. The longer the interval, the lesser likelihood of collision, but the greater propensity for longer transmit periods. AIFSN The AIFSN is the minimum interframe space between data packets transmitted for the selected Access Category. This value should be set to a smaller increment for higher priority traffic to reduce packet delay time. TXOPs Time 32usec The TXOPs Time is the interval the transmitting MU is assigned for transmitting. The default for Background traffic is 0. The same TXOPs values should be used for either the 802.11a or 802.11b/g radio, there is no difference. TXOPs Time ms TXOP times range from 0.2 ms (background priority) to 3 ms (video priority) in a 802.11a network, and from 1.2 ms to 6 ms in an 802.11b/g network. The TXOP bursting capability greatly enhances the efficiency for high data rate traffic such as streaming video 9 Click Apply to save any changes to the New QoS Policy or Edit QoS Policy screen to return to the Quality of Service Configuration screen. Navigating away from the screen without clicking Apply results in all changes to the screens being lost. 10 Click Cancel to securely exit the New QoS Policy or Edit QoS Policy screen and return to the Quality of Service Configuration screen. 11 Click Logout within the Quality of Service Configuration screen to securely exit the Access Point applet. A prompt displays confirming the logout before the applet is closed. Altitude 3500 Series Access Point Product Reference Guide 145 Network Management U-APSD (WMM Power Save) Support. The access point now supports Unscheduled Automatic Power Save Delivery (U-APSD), often referred to as WMM Power Save. U-APSD provides a periodic frame exchange between a voice capable MU and the access point during a VoIP call, while legacy power management is still utilized for typical data frame exchanges. The access point and its associated MU activate the new U-APSD power save approach when a VoIP traffic stream is detected. The MU then buffers frames from the voice traffic stream and sends a VoIP frame with an implicit "poll" request to its associated access point. The access point responds to the poll request with buffered VoIP stream frame(s). When a voice-enabled MU wakes up at a designated VoIP frame interval, it sends a VoIP frame with an implicit “poll” request to its associated access point. The access point responds to the poll request with buffered VoIP stream frame(s). NOTE The access point ships with the U-APSD feature disabled by default. It is automatically enabled when WMM is enabled for a WLAN. Thus, U-APSD is only functional when WMM is enabled. If WMM is disabled, then U-APSD is disabled as well. Configuring WLAN Hotspot Support The access point enables hotspot operators to provide user authentication and accounting without a special client application. The access point uses a traditional Internet browser as a secure authentication device. Rather than rely on built-in 802.11security features to control access point association privileges, configure a WLAN with no WEP (an open network). The access point issues an IP address to the user using a DHCP server, authenticates the user and grants the user to access the Internet. When a user visits a public hotspot and wants to browse to a Web page, they boot up their laptop and associate with the local Wi-Fi network by entering the correct SSID. They then start a browser. The hotspot access controller forces this un-authenticated user to a Welcome page from the hotspot Operator that allows the user to login with a username and password. The access point hotspot functionality requires the following: ● HTTP Redirection—Redirects unauthenticated users to a specific page specified by the Hotspot provider. ● User authentication—Authenticates users using a RADIUS server. ● Walled garden support—Enables a list of IP address (not domain names) accessed without authentication. ● Billing system integration—Sends accounting records to a RADIUS accounting server. CAUTION When using the access point’s hotspot functionality, ensure MUs are re-authenticated when changes are made to the characteristics of a hotspot enabled WLAN, as MUs within the WLAN will be dropped from access point device association. To configure hotspot functionality for an access point WLAN: 1 Ensure the Enable Hotspot checkbox is selected from within the target WLAN screen, and ensure the WLAN is properly configured. Any of the sixteen WLANs on the access point can be configured as a hotspot. For hotspot enabled WLANs, DHCP, DNS,HTTP and HTTP-S traffic is allowed (before you login to the hotspot), while Altitude 3500 Series Access Point Product Reference Guide 146 TCP/IP packets are redirected to the port on the subnet to which the WLAN is mapped. For WLANs not hotspot-enabled, all packets are allowed. 2 Click the Configure Hotspot button within the WLAN screen to display the Hotspot Configuration screen for that target WLAN. 3 Refer to the HTTP Redirection field to specify how the Login, Welcome, and Fail pages are maintained for this specific WLAN. The pages can be hosted locally or remotely. Use Default Files Select the Use Default Files checkbox if the login, welcome and fail pages reside on the access point. Use External URL Select the Use External URL checkbox to define a set of external URLs for hotspot users to access the login, welcome and fail pages. To create a redirected page, you need to have a TCP termination locally. On receiving the user credentials from the login page, the access point connects to a RADIUS server, determines the identity of the connected wireless user and allows the user to access the Internet based on successful authentication. 4 Use the External URL field to specify the location of the login page, welcome page and fail page used for hotspot access. Defining these settings is required when the Use External URL checkbox has been selected within the HTTP Redirection field. Altitude 3500 Series Access Point Product Reference Guide 147 Network Management NOTE If an external URL is used, the external Web pages are required to forward user credentials to the access point, which in turn forwards them to the authentication Server (either onboard or external server) in order to grant users Web access. Login Page URL Define the complete URL for the location of the Login page. The Login screen will prompt the hotspot user for a username and password to access the Welcome page. Welcome Page URL Define the complete URL for the location of the Welcome page. The Welcome page asserts the hotspot user has logged in successfully and can access the Internet. Fail Page URL Define the complete URL for the location of the Fail page. The Fail screen asserts the hotspot authentication attempt failed, you are not allowed to access the Internet and you need to provide correct login information to access the Internet. 5 Select the Enable Hotspot User Timeout checkbox to define a timeout interval forcing users (when exceeded) to re-establish their login credentials to continue using the access point supported hotspot. Leaving the checkbox unselected is not recommended unless you plan to provide unlimited hotspot support to users. If this option is selected, enter an interval (between 15 and 180 minutes). When the provided interval is exceeded, the user is logged out of their hotspot session and forced to login to the hotspot again to access to the hotspot supported WLAN. The default timeout interval is 15 minutes. NOTE The Enable Hotspot User Timeout option is only available if using the access point’s internal RADIUS Server for user authentication. 6 Click the White List Entries button (within the WhiteList Configuration field) to create a set of allowed destination IP addresses. These allowed destination IP addresses are called a White List. Ten configurable IP addresses are allowed for each WLAN. For more information, see “Defining the Hotspot White List” on page 149. NOTE If using an external Web Server over the WAN port, and the hotspot’s HTTP pages (login or welcome) redirect to the access point’s WAN IP address for CGI scripts, the IP address of the external Web server and the access point’s WAN IP address should be entered in the White List. 7 Refer to the RADIUS Accounting field to enable RADIUS accounting and specify the timeout and retry value for the RADIUS server. Enable Accounting Select the Enable Accounting checkbox to enable a RADIUS Accounting Server used for RADIUS authentication for a target hotspot user. Altitude 3500 Series Access Point Product Reference Guide 148 Server Address Specify an IP address for the external RADIUS Accounting server used to provide RADIUS accounting for the hotspot. If using this option, an internal RADIUS server cannot be used. The IP address of the internal RADIUS server is fixed at 127.0.0.1 and cannot be used for the external RADIUS server. Radius Port Specify the port on which the RADIUS accounting server is listening. Shared Secret Specify a shared secret for accounting authentication for the hotspot. The shared secret is required to match the shared secret on the external RADIUS accounting server. Timeout Set the timeout value in seconds (1-255) used to timeout users accessing the RADIUS Accounting server if they have not successfully accessed the Accounting Server. Retries Define the number of retries (1-10) the user is allowed to access the RADIUS Accounting Server if the first attempt fails. The default is 1. 8 Refer to the Radius Configuration field to define a primary and secondary RADIUS server port and shared secret password. Select mode Use the Select mode drop-down menu to define whether an Internal or External server is to be used for the primary server. Pri Server IP Define the IP address of the primary RADIUS server. This is the address of your first choice for RADIUS server. Pri Port Enter the TCP/IP port number for the server acting as the primary RADIUS server. The default port is 1812. Pri Secret Enter the shared secret password used with the primary RADIUS Server. Sec Server IP Define the IP address of the secondary RADIUS server. This is the address of your second choice for RADIUS server. Sec Port Enter the TCP/IP port number for the server acting as the secondary RADIUS server. The default port is 1812. Sec Secret Enter the shared secret password used with the secondary RADIUS Server. 9 Click OK to save any changes to the Hotspot Configuration screen. Navigating away from the screen without clicking Apply results in all changes to the screens being lost. 10 Click Cancel (if necessary) to undo any changes made. Cancel reverts the settings displayed on the Hotspot Configuration screen to the last saved configuration. Defining the Hotspot White List. To host a Login, Welcome or Fail page on the external Web server, the IP address of that Web server should be in access point’s White List. NOTE If using an external Web Server over the WAN port, and the hotspot’s HTTP pages (login or welcome) redirect to the access point’s WAN IP address for CGI scripts, the IP address of the external Web server and the access point’s WAN IP address should be entered in the White List. Altitude 3500 Series Access Point Product Reference Guide 149 Network Management When a client requests a URL from a Web server, the login handler returns an HTTP redirection status code (for example, 301 Moved Permanently), which indicates to the browser it should look for the page at another URL. This other URL can be a local or remote login page (based on the hotspot configuration). The login page URL is specified in the location’s HTTP header. To host a Login page on the external Web server, the IP address of the Web server should be in the White list (list of IP addresses allowed to access the server) configuration. Ensure the Login page is designed so the submit action always posts the login data on the access point. To define the White List for a target WLAN: 1 Click the White List Entries button from within the WLAN’s Hotspot Config screen. 2 Click the Add button to define an IP address for an allowed destination IP address. 3 Select a White List entry and click the Del button to remove the address from the White List. 4 Click OK to return to the Hotspot Config screen where the configuration can be saved by clicking the Apply button. Now user enters his/her credentials on Login page and submits the page. Login Handler will execute a CGI script, which will use this data as input. 5 Click Cancel to return to the Hotspot Config screen without saving any of the White List entries defined within the White List Entries screen. Setting the WLAN’s Radio Configuration Each Altitude 35xx WLAN can have a separate 802.11a or 802.11b/g radio configured and mapped to that WLAN. The first step is to enable the radio. If the Altitude 35xx is a dual-radio model, the Radio Configuration screen enables you to configure one radio for 802.11a use and the other for 802.11b/g (no other alternatives exist for the dual-radio model). Using a dual-radio access point, individual 802.11a and 802.11b/g radios can be enabled or disabled using the Radio Configuration screen checkboxes. Altitude 3500 Series Access Point Product Reference Guide 150 NOTE This section describes mesh networking (setting the radio’s base and client bridge configuration) at a high level. For a detailed overview on the theory of mesh networking, see “Mesh Networking Overview” on page 519. For detailed information on the implications of setting the mesh network configuration, see “Configuring Mesh Networking Support” on page 523. To review mesh network deployment scenarios, see “Mesh Network Deployment—Quick Setup” on page 534. The Radio Configuration screen displays with two tabs. One tab each for the access point’s radios. Verify both tabs are selected and configured separately to enable the radio(s), and set their mesh networking definitions. To set the Altitude 35xx radio configuration (this example is for a dual-radio access point): 1 Select Network Configuration > Wireless > Radio Configuration from the Altitude 35xx menu tree. 2 Enable the radio(s) using the Enable checkbox(es). Review the Radio Function to determine if this radio is currently functioning as a WLAN radio (typical access point functionality) or has been dedicated as a WIPS sensor. Refer to RF Band of Operation parameter to ensure you are enabling the correct 802.11a or 802.11b/g radio. After the settings are applied within this Radio Configuration screen, the Radio Status and MUs connected values update. If this is an existing radio within a mesh network, these values update in real-time. Altitude 3500 Series Access Point Product Reference Guide 151 Network Management CAUTION If a radio is disabled, be careful not to accidentally configure a new WLAN, expecting the radio to be operating when you have forgotten it was disabled. 3 Select the Base Bridge checkbox to allow the access point radio to accept client bridge connections from other access points in client bridge mode. The base bridge is the acceptor of mesh network data from those client bridges within the mesh network and never the initiator. 4 If the Base Bridge checkbox has been selected, use the Max# Client Bridges parameter to define the client bridge load on a particular base bridge. The maximum number of client bridge connections per radio is 12, with 24 representing the maximum for dual-radio models. CAUTION An access point in Base Bridge mode logs out whenever a Client Bridge associates to the Base Bridge over the LAN connection. This problem is not experienced over the access point’s WAN connection. If this situation is experienced, log-in to the access point again. Once the settings within the Radio Configuration screen are applied (for an initial deployment), the current number of client bridge connections for this specific radio displays within the CBs Connected field. If this is an existing radio within a mesh network, this value updates in real-time. CAUTION A problem could arise if a Base Bridge’s Indoor channel is not available on an Outdoor Client Bridge's list of available channels. As long as an Outdoor Client Bridge has the Indoor Base Bridge channel in its available list of channels, it can associate to the Base Bridge. 5 Select the Client Bridge checkbox to enable the access point radio to initiate client bridge connections with other mesh network supported access points using the same WLAN. If the Client Bridge checkbox has been selected, use the Mesh Network Name drop-down menu to select the WLAN (ESS) the client bridge uses to establish a wireless link. The default setting is (WLAN1). Extreme Networks recommends creating (and naming) a WLAN specifically for mesh networking support to differentiate the Mesh supported WLAN from non-Mesh supported WLANs. CAUTION An access point in client bridge mode cannot use a WLAN configured with a Kerberos or EAP 802.1x based security scheme, as these authentication types secure user credentials not the mesh network itself. NOTE Ensure you have verified the radio configuration for both Radio 1 and Radio 2 before saving the existing settings and exiting the Radio Configuration screen. Once the settings within the Radio Configuration screen are applied (for an initial deployment), the current number of base bridges visible to the radio displays within the BBs Visible field, and the Altitude 3500 Series Access Point Product Reference Guide 152 number of base bridges currently connected to the radio displays within the BBs Connected field. If this is an existing radio within a mesh network, these values update in real-time. 6 Click the Advanced button to define a prioritized list of access points to define Mesh Connection links. For a detailed overview on mesh networking and how to configure the radio for mesh networking support, see “Configuring Mesh Networking Support” on page 523. 7 If using a dual-radio model access point, refer to the Mesh Timeout drop-down menu to define whether one of the radio’s beacons on an existing WLAN or if a client bridge radio uses an uplink connection. The Mesh Timeout value is not available on a single-radio access point, since the radio would have to stop beaconing and go into scan mode to determine if a base bridge uplink is lost. The following drop-down menu options are available: Disabled When disabled, both radios are up at boot time and beaconing. If one radio (radio 1) does not have a mesh connection, the other radio (radio 2) is not affected. Radio 2 continues to beacon and associate MUs, but MU's can only communicate amongst themselves using the access point. Disabled is the default value. Uplink Detect When Uplink Detect is selected, the access point only boots up the radio configured as a client bridge. The access point boots up the second radio as soon as the first mesh connection is established. However, if the client bridge radio loses its uplink connection, the second radio shuts down immediately. Uplink detect is the recommended setting within a multi-hop mesh network. Enabled If the mesh connection is down on one radio (radio 1), the other radio (radio 2) is brought down and stops beaconing after the timeout period (45–65535 seconds). This allows the client bridge (radio 1) to roam without dropping the MU's associated to radio 2. The disadvantage is that radio 2 may beacon for the timeout period and have to drop associated MU's because radio 1 could not establish its uplink. The default timeout period is 45 seconds. NOTE The Mesh Time Out variable overrides the Ethernet Port Time Out (EPTO) setting on the LAN page when the access point is in bridge mode. As long as the mesh is down, the access point acts in accordance to the Mesh Time Out setting regardless of the state of the Ethernet. However, if the Ethernet goes down and the mesh link is still up, the EPTO takes effect. For a detailed overview on mesh networking and how to configure the radio for mesh networking support, see “Configuring Mesh Networking Support” on page 523. 8 Click the Client Bridge Signal Monitor to enable the device to monitor the signal strength of the base bridge it is connected to. If the signal strength falls below a configurable threshold, the link to the existing base bridge is dropped and a connection to the base bridge with the stronger signal is established. Enter a value in the Client Bridge Signal Threshold field. This configures the signal strength of the base bridge below which the device keeps monitoring the connection to the base bridge. The default value is 65 dbm. Enter a value in the Client Bridge Signal Delta field. This is the change in signal strength of the monitored base bridge that causes the device to drop this connection and seek to establish connection to a base bridge with a stronger signal. Altitude 3500 Series Access Point Product Reference Guide 153 Network Management 9 Click Apply to save any changes to the Radio Configuration screen. Navigating away from the screen without clicking Apply results in all changes to the screens being lost. CAUTION When defining a Mesh configuration and changes are saved, the mesh network temporarily goes down. The Mesh network is unavailable because the access point radio is reconfigured when applying changes. This can be problematic for users making changes within a deployed mesh network. If updating the mesh network using a LAN connection, the access point applet loses connection and the connection must be re-instated. If updating the mesh network using a WAN connection, the access point applet does not lose connection, but the mesh network is unavailable until the changes have been applied. 10 Click Undo Changes (if necessary) to undo any changes made. Undo Changes reverts the settings displayed on the Radio Configuration screen to the last saved configuration. 11 Click Logout to securely exit the Access Point applet. A prompt displays confirming the logout before the applet is closed. Once the target radio has been enabled from the Radio Configuration screen, configure the radio’s properties by selecting it from the Altitude 35xx menu tree. For more information, see “Configuring the 802.11a or 802.11b/g Radio” on page 154. Configuring the 802.11a or 802.11b/g Radio Configure an 802.11a or 802.11b/g radio by selecting the radio’s name (as defined using the 802.11a or 802.11b/g radio configuration screen described below) as a sub-menu item under the Radio Configuration menu item. Use the radio configuration screen to set the radio’s placement properties, define the radio’s threshold and QoS settings, set the radio’s channel and antenna settings and define beacon and DTIM intervals. Altitude 3500 Series Access Point Product Reference Guide 154 To configure the Altitude 35xx’s 802.11a or 802.11b/g radio: 1 Select Network Configuration > Wireless > Radio Configuration > Radio1 (default name) from the Altitude 35xx menu tree. 2 Configure the Properties field to assign a name and placement designation for the radio. Placement Use the Placement drop-down menu to specify whether the radio is located outdoors or indoors. Default placement depends on the country of operation selected for the Altitude 35xx. MAC Address The Altitude 35xx, like other Ethernet devices, has a unique, hardware encoded Media Access Control (MAC) or IEEE address. MAC addresses determine the device sending or receiving data. A MAC address is a 48-bit number written as six hexadecimal bytes separated by colons. For example: 00:A0:F8:24:9A:C8. For additional information on access point MAC address assignments, see “Altitude 35xx MAC Address Assignment” on page 32. Radio Type The Radio Type parameter simply displays the radio type as 802.11a or 802.11b/g. This field is read only and always displays the radio type selected from the Altitude 35xx menu tree under the Radio Configuration item. Altitude 3500 Series Access Point Product Reference Guide 155 Network Management ERP Protection Extended Rate PHY (ERP) allows 802.11g MUs to interoperate with 802.11b only MUs. ERP Protection is managed automatically by the access point and informs users when 802.11b MUs are present within the access point’s coverage area. The presence of 802.11b MUs within the 802.11g coverage area negatively impacts network performance, so this feature should looked to as an indicator of why network performance has been degraded. 3 Configure the Radio Settings field to assign a channel, antenna diversity setting, radio transmit power level and data rate. Channel Setting The following channel setting options exist: User Selection—If selected, use the drop-down menu to specify the legal channel for the intended country of operation. The drop-down menu is not available if this option is not selected. Automatic Selection—When the access point is booted, the access point scans non-overlapping channels listening for beacons from other access points. For 802.11b, it scans channels 1, 6, and 11. For 802.11a, all channels are non-overlapping. After the channels are scanned, it will select the channel with the fewest access points. In the case of multiple access points on the same channel, it will select the channel with the lowest average power level. Select the Exclude Channels button to display a screen used to prohibit 802.11a or 802.11b/g channels from operating with this radio. When channel exceptions are defined, the access point skips the channels specified. When the Automatic Selection feature is enabled, up to 3 separate channels can be excluded. Imported and exported configurations retain their defined exception list configurations. The channels selected for exclusion display beneath the Uniform Spreading button. This option is disabled by default. It’s important to note that excluded channels do not apply to sensor scans or rogue detection configurations. Additionally, country of operation blocks are not impacted by the channels selected for exclusion. A reboot is required when enabling or disabling this feature. The Uniform Spreading option is available (and is the default setting for the 802.11a radio). To comply with Dynamic Frequency Selection (DFS) requirements in the European Union, the 802.11a radio uses a randomly selected channel each time the access point is powered on. Antenna Diversity Specifies the antenna selection for the 802.11a radio. Options include Primary Only, Secondary Only and Full Diversity. The default setting is Primary. However, Diversity can improve performance and signal reception in areas where interference is significant and is recommended when two antennas are supported. Power Level Defines the transmit power of the 802.11a or 802.11b/g antenna(s). The values are expressed in dBm and mW. Altitude 3500 Series Access Point Product Reference Guide 156 802.11 b/g mode Specify b only, g only or b and g to define whether the 802.11b/g radio transmits in the 2.4 GHz band exclusively for 802.11b (legacy) clients or transmits in the 2.4 Ghz band for 802.11g clients. Selecting b and g enables the Altitude 35xx to transmit to both b and g clients if legacy clients (802.11b) partially comprise the network. Select accordingly based on the MU requirements of the network. This parameter does not apply to Altitude 35xx 802.11a radios. Set Rates Click the Set Rates button to display a window for selecting minimum and maximum data transmit rates for the radio. At least one Basic Rate must be selected as a minimum transmit rate value. Supported Rates define the data rate the radio defaults to if a higher selected data rate cannot be maintained. Click OK to implement the selected rates and return to the 802.11a or 802.11b/g radio configuration screen. Clicking Cancel reverts the Set Rates screen to the last saved configuration. Extreme Networks recommends using the default rates unless qualified to understand the performance risks of changing them. The appearance of the Set Rates screen varies depending on the 802.11a or 802.11b/g used, as the dates rates available to the two radios are different. 4 Refer to the Beacon Settings field to set the radio beacon and DTIM intervals. Altitude 3500 Series Access Point Product Reference Guide 157 Network Management Beacon Interval The beacon interval controls the performance of power save stations. A small interval may make power save stations more responsive, but it will also cause them to consume more battery power. A large interval makes power save stations less responsive, but could increase power savings. The default is 100. Avoid changing this parameter as it can adversely affect performance. DTIM Interval The DTIM interval defines how often broadcast frames are delivered for each of the four access point BSSIDs. If a system has an abundance of broadcast traffic and it needs to be delivered quickly, Extreme Networks recommends decreasing the DTIM interval for that specific BSSID. However, decreasing the DTIM interval decreases the battery life on power save stations. The default is 10 for each BSSID. Extreme Networks recommends using the default value unless qualified to understand the performance risks of changing it. 5 Refer to the QBSS Load Element Setting field to optionally allow the access point to communicate channel usage data to associated devices and define the beacon interval used for channel utilization transmissions. The QBSS load represents the percentage of time the channel is in use by the access point and its station count. This information is very helpful in assessing the access point’s overall load on the channel, its availability for additional device associations and multi media traffic support. Select the Enable QBSS load element checkbox (its selected by default) to enable the access point to communicate channel usage to MUs. Access points with high channel usage may not be able to process real-time traffic effectively. Therefore, VOIP phones can use the QBSS value to determine whether a different access point association can provide better wireless support, since the QBSS network load is reduced as additional access points are added. If QBSS is enabled, define a QBSS Beacon Interval to define the beacon time (in seconds) the access point uses to broadcast channel utilization information. This information should be periodically accessed, as the access point’s network load will fluctuate throughout the day. 6 Configure the Performance field to set the preamble, thresholds values and QoS values for the radio. Support Short Preamble The preamble is approximately 8 bytes of packet header generated by the Altitude 35xx and attached to the packet prior to transmission from the 802.11b radio. The preamble length for 802.11b transmissions is data rate dependant. The short preamble is 50% shorter than the long preamble. Leave the checkbox unselected if in a mixed MU/AP environment, as MUs and the Altitude 35xx are required to have the same RF Preamble settings for interoperability. The default is Disabled. The preamble length for 802.11a and 802.11g transmissions is the same, with no long or short preamble lengths. RTS Threshold RTS allows the Altitude 35xx to use RTS (Request To Send) on frames longer than the specified length. The default is 2341bytes. Altitude 3500 Series Access Point Product Reference Guide 158 Set RF QoS Click the Set RF QoS button to display the Set RF QOS screen to set QoS parameters for the radio. Do not confuse with the QoS configuration screen used for a WLAN. The Set RF QoS screen initially appears with default values displayed. Select manual from the Select Parameter set drop-down menu to edit the CW min and CW max (contention window), AIFSN (Arbitrary Inter-Frame Space Number) and TXOPs Time for each Access Category. These are the QoS policies for the 802.11a or 802.11b/g radio, not the QoS policies configured for the WLAN (as created or edited from the Quality of Service Configuration screen). Extreme Networks recommends only advanced users manually set these values. If the type of data-traffic is known, use the drop-down menu to select a 11g-wifi, 11bwifi, 11g-default, 11b-default, 11g-voice or 11b-voice option. Wifi represents multimedia traffic, default is typical data traffic and voice is for “Voice-Over-IP” supported wireless devices. Click OK to implement the selected QoS values and return to the 802.11a or 802.11b/g radio configuration screen. Clicking Cancel reverts the screen to the last saved configuration. 7 Select the Advanced Settings tab to strategically map BSSIDs to WLANs in order to define them as primary WLANs. Altitude 3500 Series Access Point Product Reference Guide 159 Network Management Defining Primary WLANs allows an administrator to dedicate BSSIDs (4 BSSIDs are available for mapping) to WLANs. From that initial BSSID assignment, Primary WLANs can be defined from within the WLANs assigned to BSSID groups 1 through 4. Each BSSID beacons only on the primary WLAN. The user should assign each WLAN to its own BSSID. In cases where more than four WLANs are required, WLANs should be grouped according to their security policies so all of the WLANs on a BSSID have the same security policy. It is generally a bad idea to have WLANs with different security policies on the same BSSID, as this will result in warning or error messages. NOTE If using a single-radio access point, there are 4 BSSIDs available. If using a dual-radio access point, 4 BSSIDs for the 802.11b/g radio and 4 BSSIDs for the 802.11a radio are available. WLAN Lists the WLAN names available to the 802.11a or 802.11b/g radio that can be assigned to a BSSID. BSSID Assign a BSSID value of 1 through 4 to a WLAN in order to map the WLAN to a specific BSSID. BC/MC Cipher A read only field displaying the downgraded BC/MC (Broadcast/Multicast) cipher for a WLAN based on the BSSID and VLAN ID to which it has been mapped. Altitude 3500 Series Access Point Product Reference Guide 160 Status Displays the following color coded status: Red—Error (Invalid Configuration) Yellow—Warning (Broadcast Downgrade) Green—Good (Configuration is OK) Message Displays the verbal status of the WLAN and BSSID assignments. If the Status column displays green, the Message will typically be Configuration is OK. If yellow, a description of invalid configuration displays. 8 Use the Primary WLAN drop-down menu to select a WLAN from those WLANs sharing the same BSSID. The selected WLAN is the primary WLAN for the specified BSSID. 9 Click Apply to save any changes to the Radio Settings and Advanced Settings screens. Navigating away from the screen without clicking Apply results in changes to the screens being lost. 10 Click Undo Changes (if necessary) to undo any changes made to the screen and its sub-screens. Undo Changes reverts the settings to the last saved configuration. 11 Click Logout to securely exit the Access Point applet. A prompt displays confirming the logout before the applet is closed. Configuring WIPS Server Settings An access point radio can function as a Wireless Intrusion Protection System (WIPS) sensor and upload sensor mode operation information to its parent WIPS Server. Either or both of the access point’s radios can be set as a WIPS sensor. When an access point radio is functioning as a WIPS sensor, it is able to scan in sensor mode across all available channels. NOTE WIPS support requires a Motorola AirDefense WIPS Server on the network. WIPS functionality is not provided by the access point alone. The access point works in conjunction with a dedicated WIPS server. Additionally, use the WIPS screen to define a primary and alternate WIPS server to submit event information for use within the WIPS console for device management and potential threat notification. Altitude 3500 Series Access Point Product Reference Guide 161 Network Management To define the attributes of the WIPS Server: 1 Select Network Configuration > Wireless > WIPS from the Altitude 35xx menu tree. The Wireless Intrusion Prevention System screen displays. NOTE At least one radio is required to be set to WIPS (within the Wireless Intrusion Prevention System screen) to support WIPS on the access point. If using the access point’s CLI interface to define WIPS support, go to the network > wireless > radio context and issue a set rf-function <radio idx> wips command. Altitude 3500 Series Access Point Product Reference Guide 162 2 Within the WIPS Status field, define whether the access point’s 802.11a or 802.11b/g radio is servicing its coverage area as a typical access point or as a WIPS sensor. Selecting the disabled radio button defines the radio as a typical access point. Selecting the enabled radio button defines the radio as a WIPS sensor. The default behavior of the radios are as typical access points. 3 Define a primary and alternate WIPS server IP Address within the WIPS Server 1 and WIPS Server 2 fields. This is the address of the WIPS console server. 4 Click Apply to save any changes to the WIPS screen. Navigating away from the screen without clicking Apply results in all changes to the screens being lost. 5 Click Undo Changes (if necessary) to undo any changes made. Undo Changes reverts the settings displayed on the WIPS screen to the last saved configuration. 6 Click Logout to securely exit the access point applet. A prompt displays confirming the logout before the applet is closed. Configuring Router Settings The Altitude 35xx router uses routing tables and protocols to forward data packets from one network to another. The Altitude 35xx router manages traffic within the network, and directs traffic from the WAN to destinations on the Altitude 35xx managed LAN. Use the Router screen to view the router's connected routes. Altitude 3500 Series Access Point Product Reference Guide 163 Network Management To access the Router screen: 1 Select Network Configuration > Router from the Altitude 35xx menu tree. 2 Refer to the Altitude 35xx Router Table field to view existing routes. The Altitude 35xx Router Table field displays a list of connected routes between an enabled subnet and the router. These routes can be changed by modifying the IP address and subnet masks of the enabled subnets. The information in the Altitude 35xx Router Table is dynamically generated from settings applied on the WAN screen. The destination for each subnet is its IP address. The subnet mask (or network mask) and gateway settings are those belonging to each subnet. Displayed interfaces are those associated with destination IP addresses. To change any of the network address information within the WAN screen, see “Configuring WAN Settings” on page 125. 3 From the Use Default Gateway drop-down menu, select the WAN or either of the two LANs (if enabled) to server as the default gateway to forward data packets from one network to another. 4 To set or view the RIP configuration, click the RIP Configuration button. Routing Information Protocol (RIP) is an interior gateway protocol that specifies how routers exchange routing-table information. The Router screen also allows the administrator to select the type of RIP and the type of RIP authentication used by the controller. For more information on configuring RIP, see “Setting the RIP Configuration” on page 165. 5 Use the User Defined Routes field to add or delete static routes. The User Defined Routes field allows the administrator to view, add or delete internal static (dedicated) routes. Altitude 3500 Series Access Point Product Reference Guide 164 a Click the Add button to create a new table entry. b Highlight an entry and click the Del (delete) button to remove an entry. c Specify the destination IP address, subnet mask, and gateway information for the internal static route. d Select an enabled subnet from the Interface(s) column’s drop-down menu to complete the table entry. Information in the Metric column is a user-defined value (from 1 to 65535) used by router protocols to determine the best hop routes. 6 Click Apply to save the changes. 7 Click Logout to securely exit the access point applet. A prompt displays confirming the logout before the applet is closed. Setting the RIP Configuration To set the RIP configuration: 1 From within the RIP Configuration field, select the RIP Type from the drop-down menu. The following options are available: No RIP The No RIP option prevents the access point’s router from exchanging routing information with other routers. Routing information may not be appropriate to share, for example, if the access point manages a private LAN. RIP v1 RIP version 1 is a mature, stable, and widely supported protocol. It is well suited for use in stub networks and in small autonomous systems that do not have enough redundant paths to warrant the overhead of a more sophisticated protocol. RIP v2 (v1 compat) RIP version 2 (compatible with version 1) is an extension of RIP v1’s capabilities, but it is still compatible with RIP version 1. RIP version 2 increases the amount of packet information to provide a simple authentication mechanism to secure table updates. RIP v2 RIP version 2 enables the use of a simple authentication mechanism to secure table updates. More importantly, RIP version 2 supports subnet masks, a critical feature not available in RIP version 1. This selection is not compatible with RIP version 1 support. 2 Select a routing direction from the RIP Direction drop-down menu. Both (for both directions), Rx only (receive only), and TX only (transmit only) are available options. Altitude 3500 Series Access Point Product Reference Guide 165 Network Management 3 If RIP v2 or RIP v2 (v1 compat) is the selected RIP type, the RIP v2 Authentication field becomes active. Select the type of authentication to use from the Authentication Type drop-down menu. Available options include: None This option disables the RIP authentication. Simple This option enable RIP version 2’s simple authentication mechanism. This setting activates the Password (Simple Authentication) field. MD5 This option enables the MD5 algorithm for data verification. MD5 takes as input a message of arbitrary length and produces a 128-bit fingerprint. The MD5 setting activates the RIP v2 Authentication settings for keys (below). 4 If the Simple authentication method is selected, specify a password of up to 15 alphanumeric characters in the Password (Simple Authentication) area. 5 If the MD5 authentication method is selected, fill in the Key #1 field (Key #2 is optional). Enter any numeric value between 0 and 256 into the MD5 ID area. Enter a string consisting of up to 16 alphanumeric characters in the MD5 Auth Key area. 6 Click the OK button to return to the Router screen. From there, click Apply to save the changes. Configuring IP Filtering Use the access point’s IP filtering functionality to determine which IP packets are processed normally by the access point and which are discarded. If discarded, a packet is deleted and ignored (as if never received). The allow/deny mechanism used by IP filtering makes it similar to an access control list (ACL). IP filtering supports the creation of up to 18 filter rules enforced at layer 3. Once defined (using the access point’s SNMP or CLI), filtering rules can be enforced on the access point’s LAN1 or LAN2 Altitude 3500 Series Access Point Product Reference Guide 166 interfaces and within any of the 16 access point WLANs. An additional default action is also available denying traffic when filter rules fail. Lastly, imported and exported configurations retain their defined IP filtering configurations. IP filtering is a network layer facility. The IP filtering mechanism does not know anything about the application using the network connections, only the connections themselves. For example, you can deny user access to an internal network on the default telnet port, but if you rely on IP filtering alone, you cannot stop people from using the telnet program with a port you allow to pass through your firewall. Altitude 3500 Series Access Point Product Reference Guide 167 Network Management Altitude 3500 Series Access Point Product Reference Guide 168 6 Configuring Access Point Security CHAPTER Security measures for the Altitude 35xx and its WLANs are critical. Use the available Altitude 35xx security options to protect the Altitude 35xx LAN from wireless vulnerabilities, and safeguard the transmission of RF packets between the Altitude 35xx and its associated MUs. WLAN security can be configured on an ESS by ESS basis on the Altitude 35xx. Sixteen separate ESSIDs (WLANs) can be supported on an Altitude 35xx, and must be managed (if necessary) between the 802.11a and 802.11b/g radio. The user has the capability of configuring separate security policies for each WLAN. Each security policy can be configured based on the authentication (Kerberos, 802.1x EAP) or encryption (WEP, KeyGuard, WPA/TKIP or WPA2/CCMP) scheme best suited to the coverage area that security policy supports. The Altitude 35xx can also create VPN tunnels to securely route traffic through a IPSEC tunnel and block transmissions with devices interpreted as Rogue APs. NOTE Security for the Altitude 35xx can be configured in various locations throughout the Altitude 35xx menu structure. This chapter outlines the security options available to the Altitude 35xx, and the menu locations and steps required to configure specific security measures. Configuring Security Options To configure the data protection options available on the Altitude 35xx, refer to the following: ● To set an administrative password for secure Altitude 35xx logins, see “Setting Passwords” on page 170. ● To display security policy screens used to configure the authentication and encryption schemes available to the Altitude 35xx, see “Enabling Authentication and Encryption Schemes” on page 172. These security policies can be used on more than one WLAN. ● To create a security policy supporting 802.1x EAP, see “Configuring 802.1x EAP Authentication” on page 176. ● To define a security policy supporting Kerberos, see, “Configuring Kerberos Authentication” on page 174. ● To create a security policy supporting WEP, see “Configuring WEP Encryption” on page 179. Altitude 3500 Series Access Point Product Reference Guide 169 Configuring Access Point Security ● To configure a security policy supporting KeyGuard, see, “Configuring KeyGuard Encryption” on page 181. ● To define a security policy supporting WPA-TKIP, see “Configuring WPA/WPA2 Using TKIP” on page 183. ● To create a security policy supporting WPA2-CCMP, see “Configuring WPA2-CCMP (802.11i)” on page 185. ● To configure the Altitude 35xx to block specific kinds of HTTP, SMTP and FTP data traffic, see “Configuring Firewall Settings” on page 188. ● To create VPN tunnels allowing traffic to route securely through a IPSEC tunnel to a private network, see “Configuring VPN Tunnels” on page 194. ● To configure the Altitude 35xx to block transmissions with devices detected as Rogue APs (hostile devices), see “Configuring Rogue AP Detection” on page 210. Setting Passwords Before setting the Altitude 35xx security parameters, verify an administrative password for the Altitude 35xx has been created to restrict access to the device before advanced device security is configured. To password protect and restrict Altitude 35xx device access: 1 Connect a wired computer to the Altitude 35xx LAN port using a standard CAT-5 cable. 2 Set up the computer for TCP/IP DHCP network addressing and make sure the DNS settings are not hardcoded. 3 Start Internet Explorer (with Sun Micro Systems’ Java Runtime Environment (JRE) 1.5 or higher installed) and type in the default IP address in the address field. To connect to the access point, the IP address is required. If connected to the access point using the WAN port, the default static IP address is 10.1.1.1. The default username is "admin" and password is “admin123.” If connected to the access point using the LAN port, the default setting is DHCP client. The user is required to know the IP address to connect to the access point using a Web browser. The Altitude 35xx Login screen displays. NOTE For optimum compatibility use Sun Microsystems’ JRE 1.5 or higher (available from Sun’s Web site), and be sure to disable Microsoft’s Java Virtual Machine if it is installed. NOTE DNS names are not supported as a valid IP address for the Altitude 35xx. The user is required to enter a numerical IP address. 4 Log in using the “admin” as the default Username and “admin123” as the default Password. If the default login is successful, the Change Admin Password window displays. Change the default login and password to significantly decrease the likelihood of hacking. Altitude 3500 Series Access Point Product Reference Guide 170 CAUTION Restoring the access point’s configuration back to default settings changes the administrative password back to “admin123.” If restoring the configuration back to default settings, be sure you change the administrative password accordingly. 5 Enter the previous password and the new admin password in the two fields provided. Click the Apply button. Once the admin password has been created/updated, the System Settings screen displays. If the Altitude 35xx has not had its System Settings (device name, location etc.) configured, see “Configuring System Settings” on page 68. Once the password has been set, refer back to “Configuring Security Options” on page 169 to determine which Altitude 35xx security feature to configure next. Resetting the Access Point Password The access point has a means of restoring its password to its default value. Doing so also reverts the access point’s security, radio and power management configuration to their default settings. Only an installation professional should reset the access point’s password and promptly define a new restrictive password. To contact Extreme Networks Support in the event of a password reset requirement, go to www.extremenetworks.com/go/TACUserGuide CAUTION Only a qualified installation professional should set or restore the access point’s radio and power management configuration in the event of a password reset. Altitude 3500 Series Access Point Product Reference Guide 171 Configuring Access Point Security Enabling Authentication and Encryption Schemes To complement the built-in firewall filters on the WAN side of the Altitude 35xx, the WLAN side of the Altitude 35xx supports authentication and encryption schemes. Authentication is a challenge-response procedure for validating user credentials such as username, password, and sometimes secret-key information. The Altitude 35xx provides two schemes for authenticating users: 802.1x EAP and Kerberos. Encryption applies a specific algorithm to alter its appearance and prevent unauthorized reading. Decryption applies the algorithm in reverse to restore the data to its original form. Sender and receiver must employ the same encryption/decryption method to interoperate. Wired Equivalent Privacy (WEP) is available in two encryption modes: 40 bit (also called WEP 64) and 104 bit (also called WEP 128). The 104-bit encryption mode provides a longer algorithm (better security) that takes longer to decode (hack) than the 40-bit encryption mode. Each WLAN (16 WLANs available in total to an Altitude 35xx regardless of the model) can have a separate security policy. However, more than one WLAN can use the same security policy. Therefore, to avoid confusion, do not name security policies the same name as WLANs. Once security policies have been created, they are selectable within the Security field of each WLAN screen. If the existing default security policy does not satisfy the data protection requirements of a specific WLAN, a new security policy (using the authentication and encryption schemes discussed above) can be created. To enable an existing WLAN security policy or create a new policy: 1 Select Network Configuration > Wireless > Security from the Altitude 35xx menu tree. The Security Configuration screen displays. Altitude 3500 Series Access Point Product Reference Guide 172 2 If a new security policy is required, click the Create button. The New Security Policy screen displays with the Manually Pre-shared key/No authentication and No Encryption options selected. Naming and saving such a policy (as is) would provide no security and might only make sense in a guest network wherein no sensitive data is either transmitted or received. However, selecting any other authentication or encryption checkbox displays a configuration field for the selected security scheme within the New Security Policy screen. NOTE An existing security policy can be edited from the Security Configuration screen by selecting an existing policy and clicking the Edit button. Use the Edit Security Policy screen to edit the policy. For more information on editing an existing security policy, refer to security configuration sections described in steps 4 and 5. 3 Use the Name field to define a logical security policy name. Remember, multiple WLANs can share the same security policy, so be careful not to name security policies after specific WLANs or risk defining a WLAN to single policy. Extreme Networks recommends naming the policy after the attributes of the authentication or encryption type selected (for example, WPA2 Allow TKIP). 4 Enable and configure an Authentication option if necessary for the target security policy. Manually PreShared Key / No Authentication Select this button to disable authentication. This is the default value for the Authentication field. Kerberos Select the Kerberos button to display the Kerberos Configuration field within the New Security Policy screen. For specific information on configuring Kerberos, see “Configuring Kerberos Authentication” on page 174. 802.1x EAP Select the 802.1x EAP button to display the 802.1x EAP Settings field within the New Security Policy screen. For specific information on configuring EAP, see “Configuring 802.1x EAP Authentication” on page 176. 5 Enable and configure an Encryption option if necessary for the target security policy. No Encryption If No Encryption is selected, encryption is disabled for the security policy. If security is not an issue, this setting avoids the overhead an encryption protocol causes on the Altitude 35xx. No Encryption is the default value for the Encryption field. WEP 64 (40-bit key) Select the WEP 64 (40 bit key) button to display the WEP 64 Settings field within the New Security Policy screen. For specific information on configuring WEP 64, see “Configuring WEP Encryption” on page 179. WEP 128 (104-bit key) Select the WEP 128 (104 bit key) button to display the WEP 128 Settings field within the New Security Policy screen. For specific information on configuring WEP 128, see “Configuring WEP Encryption” on page 179. KeyGuard Select the KeyGuard button to display the KeyGuard Settings field within the New Security Policy screen. For specific information on configuring KeyGuard, see “Configuring KeyGuard Encryption” on page 181. Altitude 3500 Series Access Point Product Reference Guide 173 Configuring Access Point Security WPA/WPA2 TKIP Select the WPA/WPA2 TKIP button to display the WPA/ TKIP Settings field within the New Security Policy screen. For specific information on configuring WPA/WPA2 TKIP, see “Configuring WPA/WPA2 Using TKIP” on page 183. WPA2/CCMP (802.11i) Select the WPA2/CCMP (802.11) button to display the WPA2/CCMP Settings field within the New Security Policy screen. For detailed information on configuring WPA2/ CCMP, see “Configuring WPA2-CCMP (802.11i)” on page 185. 6 Click Apply to keep changes made within the New Security Policy screen (if any). Configure encryption or authentication supported security policies by referring to the following: Altitude 35xx authentication: ● To create a security policy supporting Kerberos, see, “Configuring Kerberos Authentication” on page 174. ● To define a security policy supporting 802.1x EAP, see “Configuring 802.1x EAP Authentication” on page 176. Altitude 35xx encryption: ● To create a security policy supporting WEP, see “Configuring WEP Encryption” on page 179. ● To define a security policy supporting KeyGuard, see, “Configuring KeyGuard Encryption” on page 181. ● To configure a security policy supporting WPA/TKIP, see “Configuring WPA/WPA2 Using TKIP” on page 183. ● To create a security policy supporting WPA2/CCMP, see “Configuring WPA2-CCMP (802.11i)” on page 185. 7 Click Cancel to return to the target WLAN screen without keeping any of the changes made within the New Security Policy screen. Configuring Kerberos Authentication Kerberos (designed and developed by MIT) provides strong authentication for client/server applications using secret-key cryptography. Using Kerberos, a client must prove its identity to a server (and vice versa) across an insecure network connection. Once a client and server use Kerberos to prove their identity, they can encrypt all communications to assure privacy and data integrity. Kerberos can only be used on the access point with Motorola 802.11b clients. CAUTION Kerberos makes no provisions for host security. Kerberos assumes that it is running on a trusted host with an untrusted network. If host security is compromised, Kerberos is compromised as well Kerberos uses the Network Time Protocol (NTP) for synchronizing the clocks of its Key Distribution Center (KDC) server(s). Use the NTP Servers screen to specify the IP addresses and ports of available NTP Altitude 3500 Series Access Point Product Reference Guide 174 servers. Kerberos requires the Enable NTP on checkbox be selected for authentication to function properly. See “Configuring Network Time Protocol (NTP)” on page 98 to configure the NTP server. To configure Kerberos on the Altitude 35xx: 1 Select Network Configuration > Wireless > Security from the Altitude 35xx menu tree. If security policies supporting Kerberos exist, they appear within the Security Configuration screen. These existing policies can be used as is, or their properties edited by clicking the Edit button. To configure a new security policy supporting Kerberos, continue to step 2. 2 Click the Create button to configure a new policy supporting Kerberos. The New Security Policy screen displays with no authentication or encryption options selected. 3 Select the Kerberos radio button. The Kerberos Configuration field displays within the New Security Policy screen. 4 Ensure the Name of the security policy entered suits the intended configuration or function of the policy. 5 Set the Kerberos Configuration field as required to define the parameters of the Kerberos authentication server and Altitude 35xx. Realm Name Specify a realm name that is case-sensitive, for example, extremenetworks.com. The realm name is the name domain/realm name of the KDC Server. A realm name functions similarly to a DNS domain name. In theory, the realm name is arbitrary. However, in practice a Kerberos realm is named by uppercasing the DNS domain name that is associated with hosts in the realm. Altitude 3500 Series Access Point Product Reference Guide 175 Configuring Access Point Security Primary KDC Specify a numerical (non-DNS) IP address and port for the primary Key Distribution Center (KDC). The KDC implements an Authentication Service and a Ticket Granting Service, whereby an authorized user is granted a ticket encrypted with the user's password. The KDC has a copy of every user password. Backup KDC Optionally, specify a numerical (non-DNS) IP address and port for a backup KDC. Backup KDCs are referred to as slave servers. The slave server periodically synchronizes its database with the primary (or master) KDC. Remote KDC Optionally, specify a numerical (non-DNS) IP address and port for a remote KDC. Kerberos implementations can use an administration server allowing remote manipulation of the Kerberos database. This administration server usually runs on the KDC. Port Specify the ports on which the Primary, Backup and Remote KDCs reside. The default port number for Kerberos Key Distribution Centers is Port 88. 6 Click the Apply button to return to the WLAN screen to save any changes made within the Kerberos Configuration field of the New Security Policy screen. 7 Click the Cancel button to undo any changes made within the Kerberos Configuration field and return to the WLAN screen. This reverts all settings for the Kerberos Configuration field to the last saved configuration. Configuring 802.1x EAP Authentication The IEEE 802.1x standard ties the 802.1x EAP authentication protocol to both wired and wireless LAN applications. The EAP process begins when an unauthenticated supplicant (client device) tries to connect with an authenticator (in this case, the authentication server). The Altitude 35xx passes EAP packets from the client to an authentication server on the wired side of the Altitude 35xx. All other packet types are blocked until the authentication server (typically, a RADIUS server) verifies the MU’s identity. To configure 802.1x EAP authentication on the Altitude 35xx: 1 Select Network Configuration > Wireless > Security from the Altitude 35xx menu tree. If security policies supporting 802.1x EAP exist, they appear within the Security Configuration screen. These existing policies can be used as is, or their properties edited by clicking the Edit button. To configure a new security policy supporting 802.1x EAP, continue to step 2. 2 Click the Create button to configure a new policy supporting 802.1x EAP. The New Security Policy screen displays with no authentication or encryption options selected. 3 Select the 802.1x EAP radio button. The 802.1x EAP Settings field displays within the New Security Policy screen. 4 Ensure the Name of the security policy entered suits the intended configuration or function of the policy. 5 If using the access point’s Internal RADIUS server, leave the Radius Server drop-down menu in the default setting of Internal. If an external RADIUS server is used, select External from the drop-down menu. Altitude 3500 Series Access Point Product Reference Guide 176 6 Configure the Server Settings field as required to define address information for the authentication server. The appearance of the Server Settings field varies depending on whether Internal or External has been selected from the Radius Server drop-down menu. Radius Server Address If using an External RADIUS Server, specify the numerical (non-DNS) IP address of a primary Remote Dial-In User Service (RADIUS) server. Optionally, specify the IP address of a secondary server. The secondary server acts as a failover server if the primary server cannot be contacted. An ISP or a network administrator provides these addresses. RADIUS is a client/server protocol and software enabling remote-access clients to communicate with a server used to authenticate users and authorize access to the requested system or service. This setting is not available if Internal has been selected from the RADIUS Server dropdown menu. Radius Port If using an External RADIUS Server, specify the port on which the primary RADIUS server is listening. Optionally, specify the port of a secondary (failover) server. Older RADIUS servers listen on ports 1645 and 1646. Newer servers listen on ports 1812 and 1813. Port 1645 or 1812 is used for authentication. Port 1646 or 1813 is used for accounting. The ISP or a network administrator needs to confirm the appropriate primary and secondary port numbers for authentication. This setting is not available if Internal has been selected from the RADIUS Server dropdown menu. Altitude 3500 Series Access Point Product Reference Guide 177 Configuring Access Point Security Radius Shared Secret Specify a shared secret for authentication on the Internal or Primary RADIUS server (External RADIUS Server only). The shared secret is required to match the shared secret on the RADIUS server. Optionally, specify a shared secret for a secondary (failover) server. Use shared secrets to verify RADIUS messages (with the exception of the Access-Request message) sent by a RADIUS enabled device configured with the same shared secret. Apply the qualifications of a well-chosen password to the generation of a shared secret. Generate a random, casesensitive string using letters and numbers. Verify the shared secret is at least 22 characters to protect the RADIUS server from brute-force attacks. An example of a strong and secure shared secret is: 8d#>9fq4bV)H7%a3zE13sW. 7 Select the Accounting tab as required to define a timeout period and retry interval Syslog for MUs interoperating with the Altitude 35xx and EAP authentication server. The items within this tab could be enabled or disabled depending on whether Internal or External has been selected from the RADIUS Server drop-down menu. External Radius Server Address Specify the IP address of the external RADIUS server used to provide RADIUS accounting. External Radius Port Specify the port on which the RADIUS server is listening. The default port is 1813. External Radius Shared Secret Specify a shared secret for authentication. The shared secret is required to match the shared secret on the RADIUS server. MU Timeout Specify the time (in seconds) for the access point’s retransmission of EAP-Request packets. The default is 10 seconds. If this time is exceeded, the authentication session is terminated. Retries Specify the number of retries for the MU to retransmit a missed frame to the RADIUS server before it times out of the authentication session. The default is 2 retries. Enable Syslog Select the Enable Syslog checkbox to enable RADIUS accounting syslog messages relating to EAP events to be written to the specified syslog server. Syslog Server IP Address Enter the IP address of the destination syslog server to be used to log EAP events. 8 Select the Reauthentication tab as required to define authentication connection policies, intervals and maximum retries. The items within this tab are identical regardless of whether Internal or External is selected from the Radius Server drop-down menu. Enable Reauthentication Select the Enable Reauthentication checkbox to configure a wireless connection policy so MUs are forced to reauthenticate periodically. Periodic repetition of the EAP process provides ongoing security for current authorized connections. Period (30-9999) secs Set the EAP reauthentication period to a shorter interval for tighter security on the WLAN's connections. Set the EAP reauthentication period to a longer time interval (at most, 9999 seconds) to relax security on wireless connections. The default interval of 3600 seconds is recommended. Altitude 3500 Series Access Point Product Reference Guide 178 Max. Retries (1-99) Define the maximum number of MU retries to retries reauthenticate after failing to complete the EAP process. Failure to reauthenticate in the specified number of retries results in a terminated connection. The default is 2 retries. NOTE The default values described are the recommended values. Do not change these values unless consulted otherwise by an administrator. 9 Select the Advanced Settings tab as required to specify a MU quiet period, timeout interval, transmit period, and retry period for MUs and the authentication server. The items within this tab are identical regardless of whether Internal or External is selected from the Radius Server drop-down menu. MU Quiet Period (1-65535) secs Specify an idle time (in seconds) between MU authentication attempts, as required by the authentication server. The default is 10 seconds. MU Timeout (1-255) secs Define the time (in seconds) for the access point’s retransmission of EAP-Request packets. The default is 10 seconds. MU Tx Period (1-65635) secs Specify the time period (in seconds) for the access point's retransmission of the EAP Identity Request frame. The default is 5 seconds. MU Max Retries (1-10) retries Specify the maximum number of times the access point retransmits an EAP-Request frame to the client before it times out the authentication session. The default is 2 retries. Server Timeout (1-255) secs Specify the time (in seconds) for the access point's retransmission of EAP-Request packets to the server. The default is 5 seconds. If this time is exceeded, the authetnication session is terminated. Server Max Retries Specify the maximum number of times for the access point (1-255 retries) to retransmit an EAP-Request frame to the server before it times out the authentication session. The default is 2 retries. 10 Click the Apply button to save any changes made within the 802.1x EAP Settings field (including all 5 selectable tabs) of the New Security Policy screen. 11 Click the Cancel button to undo any changes made within the 802.1x EAP Settings field and return to the WLAN screen. This reverts all settings for the 802.1x EAP Settings field to the last saved configuration. Configuring WEP Encryption Wired Equivalent Privacy (WEP) is a security protocol specified in the IEEE Wireless Fidelity (Wi-Fi) standard. WEP is designed to provide a WLAN with a level of security and privacy comparable to that of a wired LAN. WEP may be all that a small-business user needs for the simple encryption of wireless data. However, networks that require more security are at risk from a WEP flaw. The existing 802.11 standard alone offers administrators no effective method to update keys. Altitude 3500 Series Access Point Product Reference Guide 179 Configuring Access Point Security To configure WEP on the Altitude 35xx: 1 Select Network Configuration > Wireless > Security from the Altitude 35xx menu tree. If security policies supporting WEP exist, they appear within the Security Configuration screen. These existing policies can be used as is, or their properties edited by clicking the Edit button. To configure a new security policy supporting WEP, continue to step 2. 2 Click the Create button to configure a new policy supporting WEP. The New Security Policy screen displays with no authentication or encryption options selected. 3 Select either the WEP 64 (40 bit key) or WEP 128 (104 bit key) radio button. The WEP 64 Settings or WEP 128 Settings field displays within the New Security Policy screen. 4 Ensure the Name of the security policy entered suits the intended configuration or function of the policy. 5 Configure the WEP 64 Settings or WEP 128 Settings field as required to define the Pass Key used to generate the WEP keys. These keys must be the same between the access point and its MU to encrypt packets between the two devices. Pass Key Specify a 4 to 32 character pass key and click the Generate button. The pass key can be any alphanumeric string. The Altitude 35xx, other proprietary routers and Motorola MUs use the algorithm to convert an ASCII string to the same hexadecimal number. MUs without Motorola adapters need to use WEP keys manually configured as hexadecimal numbers. Altitude 3500 Series Access Point Product Reference Guide 180 Keys #1-4 Use the Key #1-4 areas to specify key numbers. The key can be either a hexadecimal or ASCII depending on which option is selected from the drop-down menu. For WEP 64 (40-bit key), the keys are 10 hexadecimal characters in length or 5 ASCII characters. For WEP 128 (104-bit key), the keys are 26 hexadecimal characters in length or 13 ASCII characters. Select one of these keys for activation by clicking its radio button. Default (hexadecimal) keys for WEP 64 include: Key 1 1011121314 Key 2 2021222324 Key 3 3031323334 Key 4 4041424344 Default (hexadecimal) keys for WEP 128 include: Key 1 101112131415161718191A1B1C Key 2 202122232425262728292A2B2C Key 3 303132333435363738393A3B3C Key 4 404142434445464748494A4B4C 6 Click the Apply button to save any changes made within the WEP 64 Setting or WEP 128 Setting field of the New Security Policy screen. 7 Click the Cancel button to undo any changes made within the WEP 64 Setting or WEP 128 Setting field and return to the WLAN screen. This reverts all settings to the last saved configuration. Configuring KeyGuard Encryption KeyGuard is an enhancement to WEP encryption, and was developed before the finalization of WPATKIP. This encryption implementation is based on the IEEE Wireless Fidelity (Wi-Fi) standard, 802.11i. WPA2-CCMP (not KeyGuard) offers the highest level of security among the encryption methods available with the Altitude 35xx. 1 Select Network Configuration > Wireless > Security from the Altitude 35xx menu tree. If security policies supporting KeyGuard exist, they appear within the Security Configuration screen. These existing policies can be used as is, or their properties edited by clicking the Edit button. To configure a new security policy supporting KeyGuard, continue to step 2. 2 Click the Create button to configure a new policy supporting KeyGuard. The New Security Policy screen displays with no authentication or encryption options selected. 3 Select the KeyGuard radio button. The KeyGuard Settings field displays within the New Security Policy screen. 4 Ensure the Name of the security policy entered suits the intended configuration or function of the policy. Altitude 3500 Series Access Point Product Reference Guide 181 Configuring Access Point Security 5 Configure the KeyGuard Settings field as required to define the Pass Key used to generate the WEP keys used with the KeyGuard algorithm. These keys must be the same between the access point and its MU to encrypt packets between the two devices. Pass Key Specify a 4 to 32 character pass key and click the Generate button. The pass key can be any alphanumeric string. The Altitude 35xx, other proprietary routers, and Motorola MUs use the algorithm to convert an ASCII string to the same hexadecimal number. MUs without Motorola adapters need to use WEP keys manually configured as hexadecimal numbers. Keys #1-4 Use the Key #1-4 areas to specify key numbers. The key can be either a hexadecimal or ASCII depending on which option is selected from the drop-down menu. The keys are 26 hexadecimal characters in length or 13 ASCII characters. Select one of these keys for activation by clicking its radio button. Default (hexadecimal) keys for KeyGuard include: Key 1 101112131415161718191A1B1C Key 2 202122232425262728292A2B2C Key 3 303132333435363738393A3B3C Key 4 404142434445464748494A4B4C 6 Select the Allow WEP128 Clients checkbox (from within the KeyGuard Mixed Mode field) to enable WEP128 clients to associate with an access point’s KeyGuard supported WLAN. The WEP128 clients must use the same keys as the KeyGuard clients to interoperate within the access point’s KeyGuard supported WLAN. 7 Click the Apply button to save any changes made within the KeyGuard Setting field of the New Security Policy screen. Altitude 3500 Series Access Point Product Reference Guide 182 8 Click the Cancel button to undo any changes made within the KeyGuard Setting field and return to the WLAN screen. This reverts all settings to the last saved configuration. Configuring WPA/WPA2 Using TKIP Wi-Fi Protected Access (WPA) is a robust encryption scheme specified in the IEEE Wireless Fidelity (WiFi) standard, 802.11i. WPA provides more sophisticated data encryption than WEP. WPA is designed for corporate networks and small-business environments where more wireless traffic allows quicker discovery of encryption keys by an unauthorized person. The encryption method is Temporal Key Integrity Protocol (TKIP). TKIP addresses WEP’s weaknesses with a re-keying mechanism, a per-packet mixing function, a message integrity check, and an extended initialization vector. Wi-Fi Protected Access 2 (WPA2) is an enhanced version of WPA. WPA2 uses the Advanced Encryption Standard (AES) instead of TKIP. AES supports 128-bit, 192-bit and 256-bit keys. WPA/WPA2 also provide strong user authentication based on 802.1x EAP. To configure WPA/WPA2 encryption on the Altitude 35xx: 1 Select Network Configuration > Wireless > Security from the Altitude 35xx menu tree. If security policies supporting WPA-TKIP exist, they appear within the Security Configuration screen. These existing policies can be used as is, or their properties edited by clicking the Edit button. To configure a new security policy supporting WPA-TKIP, continue to step 2. 2 Click the Create button to configure a new policy supporting WPA-TKIP. The New Security Policy screen displays with no authentication or encryption options selected. 3 Select the WPA/WPA2 TKIP radio button. The WPA/TKIP Settings field displays within the New Security Policy screen. 4 Ensure the Name of the security policy entered suits the intended configuration or function of the policy. Altitude 3500 Series Access Point Product Reference Guide 183 Configuring Access Point Security 5 Configure the Key Rotation Settings area as needed to broadcast encryption key changes to MUs and define the broadcast interval. Broadcast Key Rotation Select the Broadcast Key Rotation checkbox to enable or disable broadcast key rotation. When enabled, the key indices used for encrypting/decrypting broadcast traffic will be alternatively rotated on every interval specified in the Broadcast Key Rotation Interval. Enabling broadcast key rotation enhances the broadcast traffic security on the WLAN. This value is disabled by default. Update broadcast keys every (30604800 seconds) Specify a time period in seconds to rotate the key index used for the broadcast key. Set the interval to a shorter duration like 3600 seconds for tighter broadcast traffic security on the wireless LAN. Set the interval to a longer duration like 86400 seconds for less broadcast traffic security requirements. Default value is 86400 secs. Enter a value in the range of 30 to 604800 seconds. 6 Configure the Key Settings area as needed to set an ASCII Passphrase and key values. ASCII Passphrase To use an ASCII passphrase (and not a hexadecimal value), select the checkbox and enter an alphanumeric string of 8 to 63 characters. The alphanumeric string allows character spaces. The Altitude 35xx converts the string to a numeric value. This passphrase saves the administrator from entering the 256-bit key each time keys are generated. 256-bit Key To use a hexadecimal value (and not an ASCII passphrase), select the checkbox and enter 16 hexadecimal characters into each of the four fields displayed. Altitude 3500 Series Access Point Product Reference Guide 184 Default (hexadecimal) 256-bit keys for WPA/TKIP include: ● 1011121314151617 ● 18191A1B1C1D1E1F ● 2021222324252627 ● 28292A2B2C2D2E2F 7 Enable WPA2-TKIP Support as needed to allow WPA2 and TKIP client interoperation. Allow WPA2-TKIP clients WPA2-TKIP support enables WPA2 and TKIP clients to operate together on the network. 8 Configure the Fast Roaming (802.1x only) field as required to enable additional Altitude 35xx roaming and key caching options. This feature is applicable only when using 802.1x EAP authentication with WPA2-TKIP. Pre-Authentication Selecting this option enables an associated MU to carry out an 802.1x authentication with another Altitude 35xx before it roams to it. The Altitude 35xx caches the keying information of the client until it roams to the other Altitude 35xx. This enables the roaming client to start sending and receiving data sooner by not having to do 802.1x authentication after it roams. This feature is only supported when 802.1x EAP authentication and WPA2-TKIP is enabled. NOTE PMK key caching is enabled internally by default for WPA2-TKIP when 802.1x EAP authentication is enabled. 9 Click the Apply button to save any changes made within this New Security Policy screen. 10 Click the Cancel button to undo any changes made within the WPA/TKIP Settings field and return to the WLAN screen. This reverts all settings to the last saved configuration. Configuring WPA2-CCMP (802.11i) WPA2 is a newer 802.11i standard that provides even stronger wireless security than Wi-Fi Protected Access (WPA) and WEP. CCMP is the security standard used by the Advanced Encryption Standard (AES). AES serves the same function TKIP does for WPA-TKIP. CCMP computes a Message Integrity Check (MIC) using the proven Cipher Block Chaining (CBC) technique. Changing just one bit in a message produces a totally different result. WPA2/CCMP is based on the concept of a Robust Security Network (RSN), which defines a hierarchy of keys with a limited lifetime (similar to TKIP). Like TKIP, the keys the administrator provides are used to derive other keys. Messages are encrypted using a 128-bit secret key and a 128-bit block of data. The end result is an encryption scheme as secure as any the Altitude 35xx provides. Altitude 3500 Series Access Point Product Reference Guide 185 Configuring Access Point Security To configure WPA2-CCMP on the Altitude 35xx: 1 Select Network Configuration > Wireless > Security from the Altitude 35xx menu tree. If security policies supporting WPA2-CCMP exist, they appear within the Security Configuration screen. These existing policies can be used as is, or their properties edited by clicking the Edit button. To configure a new security policy supporting WPA2-CCMP, continue to step 2. 2 Click the Create button to configure a new policy supporting WPA2-CCMP. The New Security Policy screen displays with no authentication or encryption options selected. 3 Select the WPA2/CCMP (802.11i) checkbox. The WPA2/CCMP Settings field displays within the New Security Policy screen. 4 Ensure the Name of the security policy entered suits the intended configuration or function of the policy. 5 Configure the Key Rotation Settings field as required to set Broadcast Key Rotation and the update interval. Broadcast Key Rotation Select the Broadcast Key Rotation checkbox to enable or disable broadcast key rotation. When enabled, the key indices used for encrypting/decrypting broadcast traffic will be alternatively rotated on every interval specified in the Broadcast Key Rotation Interval. Enabling broadcast key rotation enhances the broadcast traffic security on the WLAN. This value is disabled by default. Update broadcast keys every (30604800 seconds) Specify a time period in seconds to rotate the key index used for the broadcast key. Set the interval to a shorter duration like 3600 seconds for tighter broadcast traffic security on the wireless LAN. Set the interval to a longer duration like 86400 seconds for less broadcast traffic security requirements. Default value is 86400 secs. Enter a value in the range of 30 to 604800 seconds. Altitude 3500 Series Access Point Product Reference Guide 186 6 Configure the Key Settings area as needed to set an ASCII Passphrase and 128-bit key. ASCII Passphrase To use an ASCII passphrase (and not a hexadecimal value), select the checkbox enter an alphanumeric string of 8 to 63 characters. The string allows character spaces. The Altitude 35xx converts the string to a numeric value. This passphrase saves the administrator from entering the 256-bit key each time keys are generated. 256-bit Key To use a hexadecimal value (and not an ASCII passphrase), select the checkbox and enter 16 hexadecimal characters into each of the four fields displayed. Default (hexadecimal) 256-bit keys for WP2A/CCMP include: ● 1011121314151617 ● 18191A1B1C1D1E1F ● 2021222324252627 ● 28292A2B2C2D2E2F 7 Configure the WPA2-CCMP Mixed Mode field as needed to allow WPA and WPA2 TKIP client interoperation. Allow WPA/WPA2-TKIP clients WPA2-CCMP Mixed Mode enables WPA2-CCMP, WPATKIP and WPA2-TKIP clients to operate together on the network. Enabling this option allows backwards compatibility for clients that support WPA-TKIP and WPA2TKIP but do not support WPA2-CCMP. Extreme Networks recommends enabling this feature if WPA-TKIP or WPA2-TKIP supported MUs operate within a WLAN populated by WPA2-CCMP enabled clients. 8 Configure the Fast Roaming (802.1x only) field as required to enable additional Altitude 35xx roaming and key caching options. This feature is applicable only when using 802.1x EAP authentication with WPA2/CCMP. Pre-Authentication Selecting this option enables an associated MU to carry out an 802.1x authentication with another Altitude 35xx before it roams to it. The Altitude 35xx caches the keying information of the client until it roams to the other Altitude 35xx. This enables the roaming client to start sending and receiving data sooner by not having to do 802.1x authentication after it roams. This feature is only supported when 802.1x EAP authentication is enabled. NOTE PMK key caching is enabled internally by default when 802.1x EAP authentication is enabled. 9 Click the Apply button to save any changes made within this New Security Policy screen. 10 Click the Cancel button to undo any changes made within the WPA2/CCMP Settings field and return to the WLAN screen. This reverts all settings to the last saved configuration. Altitude 3500 Series Access Point Product Reference Guide 187 Configuring Access Point Security Configuring Firewall Settings The Altitude 35xx's firewall is a set of related programs located in the gateway on the WAN side of the Altitude 35xx. The firewall uses a collection of filters to screen information packets for known types of system attacks. Some of the Altitude 35xx's filters are continuously enabled, others are configurable. Use the Altitude 35xx’s Firewall screen to enable or disable the configurable firewall filters. Enable each filter for maximum security. Disable a filter if the corresponding attack does not seem a threat in order to reduce processor overhead. Use the WLAN Security screens (WEP, Kerberos etc.) as required for setting user authentication and data encryption parameters. To configure the Altitude 35xx firewall settings: 1 Select Network Configuration > Firewall from the Altitude 35xx menu tree. 2 Refer to the Global Firewall Disable field to enable or disable the Altitude 35xx firewall. Disable Firewall Select the Disable Firewall checkbox to disable all firewall functions on the Altitude 35xx. This includes firewall filters, NAT, VP, content filtering, and subnet access. Disabling the Altitude 35xx firewall makes the Altitude 35xx vulnerable to data attacks and is not recommended during normal operation if using the WAN port. 3 Refer to the Timeout Configuration field to define a timeout interval to terminate IP address translations. Altitude 3500 Series Access Point Product Reference Guide 188 NAT Timeout Network Address Translation (NAT) converts an IP address in one network to a different IP address or set of IP addresses in a different network. Set a NAT Timeout interval (in minutes) the Altitude 35xx uses to terminate the IP address translation process if no translation activity is detected after the specified interval. 4 Refer to the Configurable Firewall Filters field to set the following firewall filters: SYN Flood Attack A SYN flood attack requests a connection and then fails to Check promptly acknowledge a destination host's response, leaving the destination host vulnerable to a flood of connection requests. Source Routing Check A source routing attack specifies an exact route for a packet's travel through a network, while exploiting the use of an intermediate host to gain access to a private host. Winnuke Attack Check A “Win-nuking” attack uses the IP address of a destination host to send junk packets to its receiving port. FTP Bounce Attack Check An FTP bounce attack uses the PORT command in FTP mode to gain access to arbitrary ports on machines other than the originating client. IP Unaligned An IP unaligned timestamp attack uses a frame with the IP Timestamp Check timestamp option, where the timestamp is not aligned on a 32-bit boundary. Sequence Number Prediction Check A sequence number prediction attack establishes a threeway TCP connection with a forged source address. The attacker guesses the sequence number of the destination host response. Mime Flood Attack Check A MIME flood attack uses an improperly formatted MIME header in “sendmail” to cause a buffer overflow on the destination host. Max Header Length (>=256) Use the Max Header Length field to set the maximum allowable header length (at least 256 bytes). Max Headers (>=12) Use the Max Headers field to set the maximum number of headers allowed (at least 12 headers). 5 Click Apply to save any changes to the Firewall screen. Navigating away from the screen without clicking the Apply button results in all changes to the screens being lost. 6 Click Undo Changes (if necessary) to undo any changes made. Undo Changes reverts the settings displayed on the Firewall screen to the last saved configuration. 7 Click Logout to securely exit the Access Point applet. A prompt displays confirming the logout before the applet is closed. Configuring LAN to WAN Access The Altitude 35xx LAN can be configured to communicate with the WAN side of the Altitude 35xx. Use the Subnet Access screen to control access from the LAN1 (or LAN2) interfaces to the WAN interface. This access level will function as an ACL in a router to allow/deny certain IP addresses or subnets to access certain interfaces (or subnets belonging to those interfaces) by creating access policies. It also functions as a filter to allow/deny access for certain protocols such as HTTP, Telnet, FTP etc. Altitude 3500 Series Access Point Product Reference Guide 189 Configuring Access Point Security To configure Altitude 35xx subnet access: 1 Select Network Configuration > Firewall > Subnet Access from the Altitude 35xx menu tree. 2 Refer to the Overview field to view rectangles representing subnet associations. The three possible colors indicate the current access level, as defined, for each subnet association. Green Full Access No protocol exceptions (rules) are specified. All traffic may pass between these two areas. Yellow Limited Access One or more protocol rules are specified. Specific protocols are either enabled or disabled between these two areas. Click the table cell of interest and look at the exceptions area in the lower half of the screen to determine the protocols that are either allowed or denied. Red No Access All protocols are denied, without exception. No traffic will pass between these two areas. 3 Configure the Rules field as required to allow or deny access to selected (enabled) protocols. Allow or Deny all protocols, except Use the drop-down menu to select either Allow or Deny. The selected setting applies to all protocols except those with enabled checkboxes and any traffic that is added to the table. For example, if the adoption rule is to Deny access to all protocols except those listed, access is allowed only to those selected protocols. Altitude 3500 Series Access Point Product Reference Guide 190 Pre configured Rules The following protocols are preconfigured with the Altitude 35xx. To enable a protocol, check the box next to the protocol name. • HTTP—Hypertext Transfer Protocol is the protocol for transferring files on the Web. HTTP is an application protocol running on top of the TCP/IP suite of protocols, the foundation protocols for the Internet. The HTTP protocol uses TCP port 80. • TELNET—TELNET is the terminal emulation protocol of TCP/IP. TELNET uses TCP to achieve a virtual connection between server and client, then negotiates options on both sides of the connection. TELNET uses TCP port 23. • FTP—File Transfer Protocol (FTP) is an application protocol using the Internet's TCP/IP protocols. FTP provides an efficient way to exchange files between computers on the Internet. FTP uses TCP port 21. • SMTP—Simple Mail Transfer Protocol is a TCP/IP protocol for sending and receiving email. Due to its limited ability to queue messages at the receiving end, SMTP is often used with POP3 or IMAP. SMTP sends the email, and POP3 or IMAP receives the email. SMTP uses TCP port 25. • POP—Post Office Protocol is a TCP/IP protocol intended to permit a workstation to dynamically access a maildrop on a server host. A workstation uses POP3 to retrieve email that the server is holding for it. • DNS—Domain Name Service protocol searches for resources using a database distributed among different name servers. Add Click Add to create a new table entry. Del (Delete) Click Del (Delete) to remove a selected list entry. Name Specify a name for a newly configured protocol. Transport Select a protocol from the drop-down menu. For a detailed description of the protocols available, see “Available Protocols” on page 192. Start Port Enter the starting port number for a range of ports. If the protocol uses a single port, enter that port in this field. End Port Enter the ending port number for a port range. If the protocol uses a single port, leave the field blank. A new entry might use Web Traffic for its name, TCP for its protocol, and 80 for its port number. 4 Click Apply to save any changes to the Subnet Access screen. Navigating away from the screen without clicking the Apply button results in all changes to the screens being lost. 5 Click Undo Changes (if necessary) to undo any changes made. Undo Changes reverts the settings displayed on the Subnet Access screen to the last saved configuration. 6 Click Logout to securely exit the Access Point applet. A prompt displays confirming the logout before the applet is closed. Altitude 3500 Series Access Point Product Reference Guide 191 Configuring Access Point Security Available Protocols Protocols that are not pre-configured can be specified using the drop down list within the Transport column within the Subnet Access and Advanced Subnet Access screens. They include: ● ALL—Enables all of the protocol options displayed in the drop-down menu (as described below). ● TCP—Transmission Control Protocol is a set of rules for sending data as message units over the Internet. TCP manages individual data packets. Messages are divided into packets for efficient routing through the Internet. ● UDP—User Datagram Protocol is used for broadcasting data over the Internet. Like TCP, UDP runs on top of Internet Protocol (IP) networks. Unlike TCP/IP, UDP/IP provides few error recovery services. UDP offers a way to directly connect, and then send and receive datagrams over an IP network. ● ICMP—Internet Control Message Protocol is tightly integrated with IP. ICMP messages are used for out-of-band messages related to network operation. ICMP packet delivery is unreliable. Hosts cannot count on receiving ICMP packets for a network problem. ● AH—Authentication Header is one of the two key components of IP Security Protocol (IPsec). The other key component is Encapsulating Security Protocol (ESP). AH provides authentication, proving the packet sender really is the sender, and the data really is the data sent. AH can be used in transport mode, providing security between two end points. Also, AH can be used in tunnel mode, providing security like that of a Virtual Private Network (VPN). ● ESP—Encapsulating Security Protocol is one of two key components of IP Security Protocol (IPsec). The other key component is Authentication Header (AH). ESP encrypts the packets and provides authentication services. ESP can be used in transport mode, providing security between two end points. ESP can also be used in tunnel mode, providing security like that of a Virtual Private Network (VPN). ● GRE—General Routing Encapsulation supports VPNs across the Internet. GRE is a mechanism for encapsulating network layer protocols over any other network layer protocol. Such encapsulation allows routing of IP packets between private IP networks across an Internet using globally assigned IP addresses. Configuring Advanced Subnet Access Use the Advanced Subnet Access screen to configure complex access rules and filtering based on source port, destination port, and transport protocol. To enable advanced subnet access, the subnet access rules must be overridden. However, the Advanced Subnet Access screen allows you to import existing subnet access rules into the advanced subnet access rules. Altitude 3500 Series Access Point Product Reference Guide 192 To configure Altitude 35xx Advanced Subnet Access: 1 Select Network Configuration > Firewall > Advanced Subnet Access from the Altitude 35xx menu tree. 2 Configure the Settings field as needed to override the settings in the Subnet Access screen and import firewall rules into the Advanced Subnet Access screen. Override Subnet Access settings Select this checkbox to enable advanced subnet access rules and disable existing subnet access rules, port forwarding, and 1 to many mappings from the system. Only enable advanced subnet access rules if your configuration requires rules that cannot be configured within the Subnet Access screen. Import rules from Subnet Access Select this checkbox to import existing access rules (NAT, packet forwarding, VPN rules etc.) into the Firewall Rules field. This rule import overrides any existing rules configured in the Advanced Subnet Access screen. A warning box displays stating the operation cannot be undone. 3 Configure the Firewall Rules field as required add, insert or delete firewall rules into the list of advanced rules. Inbound or Outbound Select Inbound or Outbound from the drop-down menu to specify if a firewall rule is intended for inbound traffic to an interface or outbound traffic from that interface. Add Click the Add button to insert a new rule at the bottom of the table. Click on a row to display a new window with configuration options for that field. Altitude 3500 Series Access Point Product Reference Guide 193 Configuring Access Point Security Insert Click the Insert button to insert a new rule directly above a selected rule in the table. Clicking on a field in the row displays a new window with configuration options. Del (Delete) Click Del to remove the selected rule from the table. The index numbers for all the rows below the deleted row decrease by 1. Move Up Clicking the Move Up button moves the selected rule up by one row in the table. The index numbers for the affected rows adjust to reflect the new order. Move Down Clicking the Move Down button moves the selected rule down by one row in the table. The index numbers for the affected rows adjust to reflect the new order. Index The index number determines the order firewall rules are executed. Rules are executed from the lowest number to the highest number. Source IP The Source IP range defines the origin address or address range for the firewall rule. To configure the Source IP range, click on the field. A new window displays for entering the IP address and range. Destination IP The Destination IP range determines the target address or address range for the firewall rule. To configure the Destination IP range, click on the field. A new window displays for entering the IP address and range. Transport Select a protocol from the drop-down list. For a detailed description of the protocols available, see “Available Protocols” on page 192. Src. Ports (Source Ports) The source port range determines which ports the firewall rule applies to on the source IP address. Click on the field to configure the source port range. A new window displays to enter the starting and ending port ranges. For rules where only a single port is necessary, enter the same port in the start and end port fields. Dst. Ports (Destination Ports) The destination port range determines which ports the firewall rule applies to on the destination IP address. Click on the field to configure the destination port range. A new window displays to enter the starting and ending ports in the range. For rules where only a single port is necessary, enter the same port in the start and end port fields. 4 Click Apply to save any changes to the Advanced Subnet Access screen. Navigating away from the screen without clicking Apply results in all changes to the screens being lost. 5 Click Undo Changes (if necessary) to undo any changes made. Undo Changes reverts the settings displayed on the Advanced Subnet Access screen to the last saved configuration. 6 Click Logout to securely exit the Access Point applet. A prompt displays confirming the logout before the applet is closed. Configuring VPN Tunnels The Altitude 35xx allows up to 25 VPN tunnels to either a VPN endpoint or to another Altitude 35xx. VPN tunnels allow all traffic on a local subnet to route securely through a IPSEC tunnel to a private network. A VPN port is a virtual port which handles tunneled traffic. Altitude 3500 Series Access Point Product Reference Guide 194 When connecting to another site using a VPN, the traffic is encrypted so if anyone intercepts the traffic, they cannot see what it is unless they can break the encryption. The traffic is encrypted from your computer through the network to the VPN. At that point the traffic is decrypted. Use the VPN screen to add and remove VPN tunnels. To configure an existing VPN tunnel, select it from the list in the VPN Tunnels field. The selected tunnel’s configuration displays in a VPN Tunnel Config field. To configure a VPN tunnel on the Altitude 35xx: 1 Select Network Configuration > WAN > VPN from the Altitude 35xx menu tree. 2 Use the VPN Tunnels field to add or delete a tunnel to the list of available tunnels, list tunnel network address information and display key exchange information for each tunnel. Add Click Add to add a VPN tunnel to the list. To configure a specific tunnel, select it from the list and use the parameters within the VPN Tunnel Config field to set its properties. Del Click Del to delete a highlighted VPN tunnel. There is no confirmation before deleting the tunnel. Tunnel Name The Tunnel Name column lists the name of each VPN tunnel on the Altitude 35xx. Remote Subnet The Remote Subnet column lists the remote subnet for each tunnel. The remote subnet is the subnet the remote network uses for connection. Altitude 3500 Series Access Point Product Reference Guide 195 Configuring Access Point Security Remote Gateway The Remote Gateway column lists a remote gateway IP address for each tunnel. The numeric remote gateway is the gateway IP address on the remote network the VPN tunnel connects to. Ensure the address is the same as the WAN port address of the target gateway AP or controller. Key Exchange Type The Key Exchange Type column lists the key exchange type for passing keys between both ends of a VPN tunnel. If Manual Key Exchange is selected, this column displays Manual. If Auto (IKE) Key Exchange is selected, the field displays Automatic. NOTE When creating a tunnel, the remote subnet and remote subnet mask must be that of the target device’s LAN settings. The remote gateway must be that of the target device’s WAN IP address. If access point #1 has the following values: ● WAN IP address: 20.1.1.2 ● LAN IP address: 10.1.1.1 ● Subnet Mask: 255.0.0.0 Then, the VPN values for access point #2 should be: ● Remote subnet: 10.1.1.0 or 10.0.0.0 ● Remote subnet mask: 255.0.0.0 ● Remote gateway: 20.1.1.2 3 If a VPN tunnel has been added to the list of available Altitude 35xx tunnels, use the VPN Tunnel Config field to optionally modify the tunnel’s properties. Tunnel Name Enter a name to define the VPN tunnel. The tunnel name is used to uniquely identify each tunnel. Select a name best suited to that tunnel’s function so it can be selected again in the future if required in a similar application. Interface name Use the drop-down menu to specify the LAN1, LAN2 or WAN connection used for routing VPN traffic. Remember, only one LAN connection can be active on the access point Ethernet port at a time. The LAN connection specified from the LAN screen to receive priority for Ethernet port connectivity may be the better subnet to select for VPN traffic. Local WAN IP Enter the WAN’s numerical (non-DNS) IP address in order for the tunnel to pass traffic to a remote network. Remote Subnet Specify the numerical (non-DNS) IP address for the Remote Subnet. Remote Subnet Mask Enter the subnet mask for the tunnel’s remote network for the tunnel. The remote subnet mask is the subnet setting for the remote network the tunnel connects to. Remote Gateway Enter a numerical (non-DNS) remote gateway IP address for the tunnel. The remote gateway IP address is the gateway address on the remote network the VPN tunnel connects to. Default Gateway Displays the WAN interface's default gateway IP address. Altitude 3500 Series Access Point Product Reference Guide 196 Manual Key Exchange Selecting Manual Key Exchange requires you to manually enter keys for AH and/or ESP encryption and authentication. Click the Manual Key Settings button to configure the settings. Manual Key Settings Select Manual Key Exchange and click the Manual Key Settings button to open a screen where AH authentication and ESP encryption/authentication can be configured and keys entered. For more information, see “Configuring Manual Key Settings” on page 197. Auto (IKE) Key Exchange Select the Auto (IKE) Key Exchange checkbox to configure AH and/or ESP without having to manually enter keys. The keys automatically generate and rotate for the authentication and encryption type selected. Auto Key Settings Select the Auto (IKE) Key Exchange checkbox, and click the Auto Key Settings button to open a screen where AH authentication and ESP encryption/authentication can be configured. For more information, see “Configuring Auto Key Settings” on page 200. IKE Settings After selecting Auto (IKE) Key Exchange, click the IKE Settings button to open a screen where IKE specific settings can be configured. For more information, see “Configuring IKE Key Settings” on page 202. 4 Click Apply to save any changes to the VPN screen as well as changes made to the Auto Key Settings, IKE Settings and Manual Key Settings screens. Navigating away from the screen without clicking the Apply button results in all changes to the screens being lost. 5 Click Undo Changes (if necessary) to undo any changes made. Undo Changes reverts the settings displayed on the VPN, Auto Key Settings, IKE Settings and Manual Key Settings screens to the last saved configuration. 6 Click Logout to securely exit the Access Point applet. A prompt displays confirming the logout before the applet is closed. Configuring Manual Key Settings A transform set is a combination of security protocols and algorithms applied to IPSec protected traffic. During security association (SA) negotiation, both gateways agree to use a particular transform set to protect data flow. A transform set specifies one or two IPSec security protocols (either AH, ESP, or both) and specifies the algorithms to use for the selected security protocol. If you specify an ESP protocol in a transform set, specify just an ESP encryption transform or both an ESP encryption transform and an ESP authentication transform. When the particular transform set is used during negotiations for IPSec SAs, the entire transform set (the combination of protocols, algorithms, and other settings) must match a transform set at the remote end of the gateway. Use the Manual Key Settings screen to specify the transform sets used for VPN access. To configure manual key settings for the Altitude 35xx: 1 Select Network Configuration > WAN > VPN from the Altitude 35xx menu tree. 2 Refer to the VPN Tunnel Config field, select the Manual Key Exchange radio button and click the Manual Key Settings button. Altitude 3500 Series Access Point Product Reference Guide 197 Configuring Access Point Security 3 Configure the Manual Key Settings screen to modify the following: NOTE When entering Inbound or Outbound encryption or authentication keys, an error message could display stating the keys provided are “weak”. Some WEP attack tools invoke a dictionary to hack WEP keys based on commonly used words. To avoid entering a weak key, try to not to produce a WEP key using commonly used terms and attempt to mix alphabetic and numerical key attributes when possible. AH Authentication Inbound AH Authentication Key AH provides data authentication and anti-replay services for the VPN tunnel. Select the required authentication method from the drop-down menu: • None—Disables AH authentication. The rest of the fields are not active. • MD5—Enables the Message Digest 5 algorithm requiring 128-bit (32-character hexadecimal) keys. • SHA1—Enables Secure Hash Algorithm 1, requiring 160-bit (40-character hexadecimal) keys. Configure a key for computing the integrity check on inbound traffic with the selected authentication algorithm. The key must be 32/40 (for MD5/SHA1) hexadecimal (0-9, A-F) characters in length. The key value must match the corresponding outbound key on the remote security gateway. Altitude 3500 Series Access Point Product Reference Guide 198 Outbound AH Authentication Key Configure a key for computing the integrity check on outbound traffic with the selected authentication algorithm. The key must be 32/40 (for MD5/SHA1) hexadecimal (0-9, A-F) characters in length. The key value must match the corresponding inbound key on the remote security gateway. Inbound SPI (Hex) Enter an up to six-character hexadecimal value to identify the inbound security association created by the AH algorithm. The value must match the corresponding outbound SPI value configured on the remote security gateway. Outbound SPI (Hex) Provide an up to six-character hexadecimal value to identify the outbound security association created by the AH algorithm. The value must match the corresponding inbound SPI value configured on the remote security gateway. ESP Type ESP provides packet encryption, optional data authentication and anti-replay services for the VPN tunnel. Use the drop-down menu to select the ESP type. Options include: ESP Encryption Algorithm • None—Disables ESP. The rest of the fields are not be active. • ESP—Enables ESP for the tunnel. • ESP with Authentication—Enables ESP with authentication. Select the encryption and authentication algorithms for the VPN tunnel using the drop-down menu. • DES—Uses the DES encryption algorithm requiring 64bit (16-character hexadecimal) keys. • 3DES—Uses the 3DES encryption algorithm requiring 192-bit (48-character hexadecimal) keys. • AES 128-bit:—Uses the Advanced Encryption Standard algorithm with 128-bit (32-character hexadecimal) keys. • AES 192-bit:—Uses the Advanced Encryption Standard algorithm with 192-bit (48-character hexadecimal) keys. • AES 256-bit:—Uses the Advanced Encryption Standard algorithm with 256-bit (64-character hexadecimal) keys. Inbound ESP Encryption Key Enter a key for inbound traffic. The length of the key is determined by the selected encryption algorithm. The key must match the outbound key at the remote gateway. Outbound ESP Encryption Key Define a key for outbound traffic. The length of the key is determined by the selected encryption algorithm. The key must match the inbound key at the remote gateway. ESP Authentication Select the authentication algorithm to use with ESP. This Algorithm option is available only when ESP with Authentication was selected for the ESP type. Options include: • MD5—Enables the Message Digest 5 algorithm, which requires 128-bit (32-character hexadecimal) keys. • SHA1—Enables Secure Hash Algorithm 1, which requires 160-bit (40-character hexadecimal) keys. Altitude 3500 Series Access Point Product Reference Guide 199 Configuring Access Point Security Inbound ESP Authentication Key Define a key for computing the integrity check on the inbound traffic with the selected authentication algorithm. The key must be 32/40 (for MD5/SHA1) hexadecimal (0-9, A-F) characters in length. The key must match the corresponding outbound key on the remote security gateway. Outbound ESP Authentication Key Enter a key for computing the integrity check on outbound traffic with the selected authentication algorithm. The key must be 32/40 (for MD5/SHA1) hexadecimal (0-9, A-F) characters in length. The key must match the corresponding inbound key on the remote security gateway. Inbound SPI (Hex) Define an (up to) six-character (maximum) hexadecimal value to identify the inbound security association created by the encryption algorithm. The value must match the corresponding outbound SPI value configured on the remote security gateway. Outbound SPI (Hex) Enter an (up to) six-character (maximum) hexadecimal value to identify the outbound security association created by the encryption algorithm. The value must match the corresponding inbound SPI value configured on the remote security gateway. The Inbound and Outbound SPI settings are required to be interpolated to function correctly. For example: ● AP1 Inbound SPI = 800 ● AP1 Outbound SPI = 801 ● AP2 Inbound SPI = 801 ● AP2 Outbound SPI = 800 4 Click Ok to return to the VPN screen. Click Apply to retain the settings made on the Manual Key Settings screen. 5 Click Cancel to return to the VPN screen without retaining the changes made to the Manual Key Settings screen. Configuring Auto Key Settings The Altitude 35xx’s Network Management System can automatically set encryption and authentication keys for VPN access. Use the Auto Key Settings screen to specify the type of encryption and authentication, without specifying the keys. To manually specify keys, cancel out of the Auto Key Settings screen, select the Manual Key Exchange radio button, and set the keys within the Manual Key Setting screen. To configure auto key settings for the Altitude 35xx: 1 Select Network Configuration > WAN > VPN from the Altitude 35xx menu tree. 2 Refer to the VPN Tunnel Config field, select the Auto (IKE) Key Exchange radio button and click the Auto Key Settings button. Altitude 3500 Series Access Point Product Reference Guide 200 3 Configure the Auto Key Settings screen to modify the following: Use Perfect Forward Secrecy Forward secrecy is a key-establishment protocol guaranteeing the discovery of a session key or long-term private key does not compromise the keys of other sessions. Select Yes to enable Perfect Forward Secrecy. Select No to disable Perfect Forward Secrecy. Security Association Life Time The Security Association Life Time is the configurable interval used to timeout association requests that exceed the defined interval. The available range is from 300 to 65535 seconds. The default is 300 seconds. AH Authentication AH provides data authentication and anti-replay services for the VPN tunnel. Select the desired authentication method from the drop-down menu. ESP Type • None—Disables AH authentication. No keys are required to be manually provided. • MD5—Enables the Message Digest 5 algorithm. No keys are required to be manually provided. • SHA1—Enables Secure Hash Algorithm 1. No keys are required to be manually provided. ESP provides packet encryption, optional data authentication and anti-replay services for the VPN tunnel. Use the drop-down menu to select the ESP type. • None—Disables ESP. The rest of the fields are not active. • ESP—Enables ESP for this tunnel. • ESP with Authentication—Enables ESP with authentication. Altitude 3500 Series Access Point Product Reference Guide 201 Configuring Access Point Security ESP Encryption Algorithm Use this menu to select the encryption and authentication algorithms for this VPN tunnel. • DES—Selects the DES algorithm.No keys are required to be manually provided. • 3DES—Selects the 3DES algorithm. No keys are required to be manually provided. • AES 128-bit—Selects the Advanced Encryption Standard algorithm with 128-bit. No keys are required to be manually provided. • AES 192-bit—Selects the Advanced Encryption Standard algorithm with 192-bit. No keys are required to be manually provided. • AES 256-bit—Selects the Advanced Encryption Standard algorithm with 256-bit. No keys are required to be manually provided. ESP Authentication Use this menu to select the authentication algorithm to be Algorithm used with ESP. This menu is only active when ESP with Authentication was selected for the ESP type. • MD5—Enables the Message Digest 5 algorithm requiring 128-bit. No keys are required to be manually provided. • SHA1—Enables Secure Hash Algorithm. No keys are required to be manually provided. 4 Click Ok to return to the VPN screen. Click Apply to retain the settings made on the Auto Key Settings screen. 5 Click Cancel to return to the VPN screen without retaining the changes made to this screen. Configuring IKE Key Settings The Internet Key Exchange (IKE) is an IPsec standard protocol used to ensure security for VPN negotiation and remote host or network access. IKE provides an automatic means of negotiation and authentication for communication between two or more parties. In essence, IKE manages IPSec keys automatically for the parties. To configure IKE key settings for the Altitude 35xx: 1 Select Network Configuration > WAN > VPN from the Altitude 35xx menu tree. 2 Refer to the VPN Tunnel Config field, select the Auto (IKE) Key Exchange radio button and click the IKE Settings button. Altitude 3500 Series Access Point Product Reference Guide 202 3 Configure the IKE Key Settings screen to modify the following: Operation Mode Local ID Type Local ID Data The Phase I protocols of IKE are based on the ISAKMP identity-protection and aggressive exchanges. IKE main mode refers to the identity-protection exchange, and IKE aggressive mode refers to the aggressive exchange. • Main—Standard IKE mode for communication and key exchange. • Aggressive—Aggressive mode is faster, but less secure than Main mode. Identities are not encrypted unless public key encryption is used. The authentication method cannot be negotiated if the initiator chooses public key encryption Select the type of ID to be used for the Altitude 35xx end of the SA. • IP—Select IP if the local ID type is the IP address specified as part of the tunnel. • FQDN—Use FQDN if the local ID is a fully qualified domain name (such as www.extremenetworks.com). • UFQDN—Select UFQDN if the local ID is a user fullyqualified email (such as [email protected]). Specify the FQDN or UFQDN based on the Local ID type assigned. Altitude 3500 Series Access Point Product Reference Guide 203 Configuring Access Point Security Remote ID Type Select the type of ID to be used for the Altitude 35xx end of the tunnel from the Remote ID Type drop-down menu. • IP—Select the IP option if the remote ID type is the IP address specified as part of the tunnel. • FQDN—Select FQDN if the remote ID type is a fully qualified domain name (such as www.extremenetworks.com). The setting for this field does not have to be fully qualified, however it must match the setting for the Certificate Authority. • UFQDN—Select this item if the remote ID type is a user unqualified email address (such as [email protected]). The setting for this field does not have to be unqualified, it just must match the setting of the field of the Certificate Authority. Remote ID Data If FQDN or UFQDN is selected, specify the data (either the qualified domain name or the user name) in the Remote ID Data field. IKE Authentication Mode Select the appropriate IKE authentication mode: IKE Authentication Algorithm • Pre-Shared Key (PSK)—Specify an authenticating algorithm and passcode used during authentication. • RSA Certificates—Select this option to use RSA certificates for authentication purposes. See the CA Certificates and Self certificates screens to create and import certificates into the system. IKE provides data authentication and anti-replay services for the VPN tunnel. Select an authentication methods from the drop-down menu. • MD5—Enables the Message Digest 5 algorithm. No keys are required to be manually provided. • SHA1—Enables Secure Hash Algorithm. No keys are required to be manually provided. IKE Authentication Passphrase If you selected Pre-Shared Key as the authentication mode, you must provide a passphrase. IKE Encryption Algorithm Select the encryption and authentication algorithms for the VPN tunnel from the drop-down menu. Key Lifetime • DES—Uses the DES encryption algorithm. No keys are required to be manually provided. • 3DES—Enables the 3DES encryption algorithm. No keys are required to be manually provided. • AES 128-bit—Uses the Advanced Encryption Standard algorithm with 128-bit. No keys are required to be manually provided. • AES 192-bit—Enables the Advanced Encryption Standard algorithm with 192-bit. No keys are required to be manually provided. • AES 256-bit—Uses the Advanced Encryption Standard algorithm with 256-bit. No keys are required to be manually provided. The number of seconds the key is valid. At the end of the lifetime, the key is renegotiated. The Altitude 35xx forces renegotiation every 3600 seconds. There is no way to change the renegotiation value. If the IKE Lifetime is greater than 3600, the keys still get renegotiated every 3600 seconds. Altitude 3500 Series Access Point Product Reference Guide 204 Diffie Hellman Group Select a Diffie-Hellman Group to use. The Diffie-Hellman key agreement protocol allows two users to exchange a secret key over an insecure medium without any prior secrets. Two algorithms exist, 768-bit and 1024-bit. Select one of the following options: • Group 1—768 bit—Somewhat faster than the 1024-bit algorithm, but secure enough in most situations. • Group 2—1024 bit—Somewhat slower than the 768-bit algorithm, but much more secure and a better choice for extremely sensitive situations. 4 Click Ok to return to the VPN screen. Click Apply to retain the settings made on the IKE Settings screen. 5 Click Cancel to return to the VPN screen without retaining the changes made to the IKE Settings screen. Viewing VPN Status Use the VPN Status screen to display the status of the tunnels configured on the Altitude 35xx as well as their lifetime, transmit and receive statistics. The VPN Status screen is read-only with no configurable parameters. To configure a VPN tunnel, use the VPN configuration screen in the WAN section of the Altitude 35xx menu tree. Altitude 3500 Series Access Point Product Reference Guide 205 Configuring Access Point Security To view VPN status: 1 Select Network Configuration > WAN > VPN > VPN Status from the Altitude 35xx menu tree. 2 Reference the Security Associations field to view the following: Tunnel Name The Tunnel Name column lists the names of all the tunnels configured on the Altitude 35xx. For information on configuring a tunnel, see “Configuring VPN Tunnels” on page 194. Status The Status column lists the status of each configured tunnel. When the tunnel is not in use, the status reads NOT_ACTIVE. When the tunnel is connected, the status reads ACTIVE. Outb SPI The Outb SPI column displays the outbound Security Parameter Index (SPI) for each tunnel. The SPI is used locally by the Altitude 35xx to identify a security association. There are unique outbound and inbound SPIs. Inb SPI The Inb SPI column displays the inbound SPI Security Parameter Index (SPI) for each of the tunnels. The SPI is used locally by the Altitude 35xx to identify a security association. There are unique outbound and inbound SPIs. Life Time Use the Life Time column to view the lifetime associated with a particular Security Association (SA). Each SA has a finite lifetime defined. When the lifetime expires, the SA can no longer be used to protect data traffic. The maximum SA lifetime is 65535 seconds. Altitude 3500 Series Access Point Product Reference Guide 206 Tx Bytes The Tx Bytes column lists the amount of data (in bytes) transmitted through each configured tunnel. Rx Bytes The Rx Bytes column lists the amount of data (in bytes) received through each configured tunnel. 3 Click the Reset VPNs button to reset active VPNs. Selecting Reset VPNs forces renegotiation of all the Security Associations and keys. Users could notice a slight pause in network performance. 4 Reference the IKE Summary field to view the following: Tunnel Name Displays the name of each of the tunnels configured to use IKE for automatic key exchange. IKE State Lists the state for each of the tunnels configured to use IKE for automatic key exchange. When the tunnel is not active, the IKE State field displays NOT_CONNECTED. When the tunnel is active, the IKE State field displays CONNECTED. Destination IP Displays the destination IP address for each tunnel configured to use IKE for automatic key exchange. Remaining Life Lists the remaining life of the current IKE key for each tunnel. When the remaining life on the IKE key reaches 0, IKE initiates a negotiation for a new key. IKE keys associated with a renegotiated tunnel. 5 Click Logout to securely exit the access point applet. A prompt displays confirming the logout before the applet is closed. Configuring Content Filtering Settings Content filtering allows system administrators to block specific commands and URL extensions from going out through the access point’s WAN port. Therefore, content filtering affords system administrators selective control on the content proliferating the network and is a powerful data and network screening tool. Content filtering allows the blocking of up to 10 files or URL extensions and allows blocking of specific outbound HTTP, SMTP, and FTP requests. Altitude 3500 Series Access Point Product Reference Guide 207 Configuring Access Point Security To configure content filtering for the Altitude 35xx: 1 Select Network Configuration > WAN > Content Filtering from the Altitude 35xx menu tree. 2 Configure the HTTP field to configure block Web proxies and URL extensions. Block Outbound HTTP HyperText Transport Protocol (HTTP) is the protocol used to transfer information to and from Web sites. HTTP Blocking allows for blocking of specific HTTP commands going outbound on the Altitude 35xx WAN port. HTTP blocks commands on port 80 only. The Block Outbound HTTP option allows blocking of the following (user selectable) outgoing HTTP requests: Block Outbound URL Extensions • Web Proxy—Blocks the use of Web proxies by clients • ActiveX—Blocks all outgoing ActiveX requests by clients. Selecting ActiveX only blocks traffic (scripting language) with an .ocx extension. Enter a URL extension or file name per line in the format of filename.ext. An asterisk (*) can be used as a wildcard in place of the filename to block all files with a specific extension. Altitude 3500 Series Access Point Product Reference Guide 208 3 Configure the SMTP field to disable or restrict specific kinds of network mail traffic. Block Outbound SMTP Commands Simple Mail Transport Protocol (SMTP) is the Internet standard for host-to-host mail transport. SMTP generally operates over TCP on port 25. SMTP filtering allows the blocking of any or all outgoing SMTP commands. Check the box next to the command to disable that command when using SMTP across the Altitude 35xx’s WAN port. • HELO—(Hello) Identifies the SMTP sender to the SMTP receiver. • MAIL—Initiates a mail transaction where data is delivered to one or more mailboxes on the local server. • RCPT—(Recipient) Identifies a recipient of mail data. • DATA—Tells the SMTP receiver to treat the following information as mail data from the sender. • QUIT—Tells the receiver to respond with an OK reply and terminate communication with the sender. • SEND—Initiates a mail transaction where mail is sent to one or more remote terminals. • SAML—(Send and Mail) Initiates a transaction where mail data is sent to one or more local mailboxes and remote terminals. • RESET—Cancels mail transaction and informs the recipient to discard data sent during transaction. • VRFY—Asks receiver to confirm the specified argument identifies a user. If argument does identify a user, the full name and qualified mailbox is returned. • EXPN—(Expand) Asks receiver to confirm a specified argument identifies a mailing list. If the argument identifies a list, the membership list of the mailing list is returned. Altitude 3500 Series Access Point Product Reference Guide 209 Configuring Access Point Security 4 Configure the FTP field to block or restrict various FTP traffic on the network. Block Outbound FTP Actions File Transfer Protocol (FTP) is the Internet standard for host-to-host mail transport. FTP generally operates over TCP port 20 and 21. FTP filtering allows the blocking of any or all outgoing FTP functions. Check the box next to the command to disable the command when using FTP across the Altitude 35xx’s WAN port. • Storing Files—Blocks the request to transfer files sent from the client across the AP’s WAN port to the FTP server. • Retrieving Files—Blocks the request to retrieve files sent from the FTP server across the AP’s WAN port to the client. • Directory List—Blocks requests to retrieve a directory listing sent from the client across the AP’s WAN port to the FTP server. • Create Directory—Blocks requests to create directories sent from the client across the AP’s WAN port to the FTP server. • Change Directory—Blocks requests to change directories sent from the client across the AP's WAN port to the FTP server. • Passive Operation—Blocks passive mode FTP requests sent from the client across the AP's WAN port to the FTP server. 5 Click Apply to save any changes to the Content Filtering screen. Navigating away from the screen without clicking the Apply button results in all changes to the screens being lost. 6 Click Undo Changes (if necessary) to undo any changes made. Undo Changes reverts the settings displayed on the Content Filtering screen to the last saved configuration. 7 Click Logout to securely exit the Access Point applet. A prompt displays confirming the logout before the applet is closed. Configuring Rogue AP Detection It is possible that not all of the devices identified by the Altitude 35xx are operating legitimately within the Altitude 35xx’s radio coverage area. A rogue AP is a device located nearby an authorized Extreme Networks Altitude 35xx but recognized as having properties rendering its operation illegal and threatening to the Altitude 35xx and the LAN. Rogue AP detection can be configured independently for both Altitude 35xx 802.11a and 802.11b/g radios (if using a dual radio sku Altitude 35xx). A rogue detection interval is the user-defined interval the Altitude 35xx waits to search for rogue APs. Additionally, the access point does not detect rogue APs on illegal channels (channels not allowed by the regulatory requirements of the country the access point is operating in). The rogue detection interval is used in conjunction with Motorola MUs that identify themselves as rogue detection capable to the access point. The detection interval defines how often the access point requests these MUs to scan for a rogue AP. A shorter interval can affect the performance of the MU, but it will also decrease the time it takes for the access point to scan for a rogue AP. A longer interval will have less of an impact to the MU’s, but it will increase the amount of time used to detect rogue APs. Altitude 3500 Series Access Point Product Reference Guide 210 Therefore, the interval should be set according to the perceived risk of rogue devices and the criticality of MU performance. CAUTION Using an antenna other than the approved Dual-Band Antenna could render the Altitude 35xx’s Rogue AP Detector Mode feature inoperable. Contact your Extreme Networks sales associate for specific information. To configure Rogue AP detection for the Altitude 35xx: 1 Select Network Configuration > Wireless > Rogue AP Detection from the Altitude 35xx menu tree. 2 Configure the Detection Method field to set the detection method (MU or Altitude 35xx) and define the 802.11a or 802.11b/g radio to conduct the rogue AP search. Altitude 3500 Series Access Point Product Reference Guide 211 Configuring Access Point Security RF Scan by MU Select the RF Scan by MU checkbox to enable MUs to scan for potential rogue APs within the network. Define an interval in the Scan Interval field for associated MUs to beacon in an attempt to locate a rogue AP. Set the interval to a value sooner than the default if a large volume of device network traffic is anticipated within the coverage area of the target Altitude 35xx. The Scan Interval field is not available unless the RF Scan by MU checkbox is selected. Motorola clients must be associated and have rogue AP detection enabled. RF On-Channel Detection Select the RF On-Channel Detection checkbox to enable the access point to detect rogue APs on its current (legal) channel setting. RF Scan by Detector Radio If the access point is a dual-radio model, select the RF Scan by Detector Radio checkbox to enable the selected 11a or 11b/g radio to scan for rogue APs. For example, if 11b/g is selected, the existing 11a radio would act as the “detector radio,” scanning on all 11b/g channels while the existing 11b/g radio continues to service MUs. The assumption is, when planning to do an all channel scan on one band, the MUs would also be on that band. The radio on the other band is used as the “detector radio.” RF A/BG Scan Select this checkbox to scan for rouges over all channels on both of the access point’s 11a and 11bg radio bands. The switching of radio bands is based on a timer with no user intervention required. This option provides a good opportunity to detect rogues, as rogues often roam from one association to a stronger one regardless of the current operating channel. 3 Use the Allowed AP List field to restrict Extreme Networks APs from Rogue AP detection and create a list of device MAC addresses and ESSIDs approved for interoperability with the Altitude 35xx. Authorize Any AP Having Extreme Networks Defined MAC Address Select this checkbox to enable all access points with an Extreme Networks MAC address to interoperate with the Altitude 35xx conducting a scan for rogue devices. Add Click Add to display a single set of editable MAC address and ESS address values. Del (Delete) Click the Delete button to remove the highlighted line from the Rule Management field. The MAC and ESS address information previously defined is no longer applicable unless the previous configuration is restored. Delete All Click the Delete All button to remove all entries from the Rule Management field. All MAC and ESS address information previously defined is no longer applicable unless the previous configuration is restored. Any MAC Select the Any MAC checkbox to prevent a device’s MAC address (whether it is a known device MAC address or not) from being considered a rogue device. MAC Address Click Add, and enter the device MAC address to be excluded from classification as a rogue device. Any ESSID Select the Any ESSID checkbox to prevent a device’s ESSID (whether it is a known device ESSID or not) from being considered a rogue device ESSID Click Add, and enter the name of a device ESSID to be excluded from classification as a rogue device. Altitude 3500 Series Access Point Product Reference Guide 212 4 Click Apply to save any changes to the Rogue AP Detection screen. Navigating away from the screen without clicking Apply results in all changes to the screens being lost. 5 Click Undo Changes (if necessary) to undo any changes made. Undo Changes reverts the settings displayed on the Rogue AP Detection screen to the last saved configuration. 6 Click Logout to securely exit the Access Point applet. A prompt displays confirming the logout before the applet is closed. Moving Rogue APs to the Allowed AP List The Active APs screen enables the user to view the list of detected rogue APs and, if necessary, select and move an AP into a list of allowed devices. This is helpful when the settings defined within the Rogue AP Detection screen inadvertently detect and define a device as a rogue AP. To move detected rogue APs into a list of allowed APs: 1 Select Network Configuration > Wireless > Rogue AP Detection > Active APs from the Altitude 35xx menu tree. The Active APs screen displays with detected rogue devices displayed within the Rogue APs table. 2 Enter a value (in minutes) in the Allowed APs Age Out Time field to indicate the number of elapsed minutes before an AP will be removed from the approved list and reevaluated. A zero (0) for this value (default value) indicates an AP can remain on the approved AP list permanently. Altitude 3500 Series Access Point Product Reference Guide 213 Configuring Access Point Security 3 Enter a value (in minutes) in the Rogue APs Age Out Time field to indicate the number of elapsed minutes before an AP will be removed from the rogue AP list and reevaluated. A zero (0) for this value (default value) indicates an AP can remain on the rogue AP list permanently. 4 Highlight an AP from within the Rogue APs table and click the Add to Allowed APs List button to move the device into the list of Allowed APs. 5 Click the Add All to Allowed APs List button to move each of the APs displayed within the Rogue APs table to the list of allowed APs. 6 Highlight a rogue AP and click the Details button to display a screen with device and detection information specific to that rogue device. This information is helpful in determining if a rogue AP should be moved to the Allowed APs table. For more information on the displaying information on detected rogue APs, see “Displaying Rogue AP Details” on page 214. 7 To remove the Rogue AP entries displayed within the e Rogue APs field, click the Clear Rogue AP List button. Extreme Networks only recommends clearing the list of Rogue APs when the devices displaying within the list do not represent a threat to the access point managed network. 8 Click Apply to save any changes to the Active APs screen. Navigating away from the screen without clicking Apply results in all changes to the screen being lost. 9 Click Undo Changes (if necessary) to undo any changes made. Undo Changes reverts the settings displayed on the Active APs screen to the last saved configuration. 10 Click Logout to securely exit the Access Point applet. A prompt displays confirming the logout before the applet is closed. Displaying Rogue AP Details Before moving a rogue AP into the list of allowed APs within the Active APs screen, the device address and rogue detection information for that AP should be evaluated. To evaluate the properties of a rogue AP: 1 Select Network Configuration > Wireless > Rogue AP Detection > Active APs from the Altitude 35xx menu tree. 2 Highlight a target rogue AP from within Rogue APs table and click the Details button. Altitude 3500 Series Access Point Product Reference Guide 214 The Detail screen displays for the rogue AP. 3 Refer to the Rogue AP Detail field for the following information: BSSID/MAC Displays the MAC address of the rogue AP. This information could be useful if the MAC address is determined to be an Extreme Networks MAC address and the device is interpreted as non-hostile and the device should be defined as an allowed AP. ESSID Displays the ESSID of the rogue AP. This information could be useful if the ESSID is determined to be nonhostile and the device should be defined as an allowed AP. RSSI Shows the Relative Signal Strength (RSSI) of the rogue AP. Use this information to assess how close the rogue AP is. The higher the RSSI, the closer the rogue AP. If multiple access points have detected the same rogue AP, RSSI can be useful in triangulating the location of the rogue AP. 4 Refer to the Rogue Detector Detail field for the following information: Finder’s MAC The MAC address of the access point detecting the rogue AP. Detection Method Displays the RF Scan by MU, RF On-Channel Detection or RF Scan by Detector Radio method selected from the Rogue AP screen to detect rogue devices. For information on detection methods, see “Configuring Rogue AP Detection” on page 210. First Heard (days:hrs:min) Defines the time in (days:hrs:min) that the rogue AP was initially heard by the detecting AP. Last Heard (days:hrs:min) Defines the time in (days:hrs:min) that the rogue AP was last heard by the detecting AP. Channel Displays the channel the rogue AP is using. 5 Click OK to securely exit the Detail screen and return to the Active APs screen. Altitude 3500 Series Access Point Product Reference Guide 215 Configuring Access Point Security 6 Click Cancel (if necessary) to undo any changes made and return to the Active APs screen. Using MUs to Detect Rogue Devices Certain Motorola MUs can be used for rogue AP detection. The access point can use an associated MU that has its rogue AP detection feature enabled to scan for rogue APs. Once detected, the rogue AP(s) can be moved to the list of allowed devices (if appropriate) within the Active APs screen. When adding an MU’s detection capabilities with the access point’s own rogue AP detection functionality, the rogue detection area can be significantly extended. To use associated rogue AP enabled MUs to scan for rogue APs: 1 Select Network Configuration > Wireless > Rogue AP Detection > MU Scan from the Altitude 35xx menu tree. The On Demand MU Scan screen displays with associated MUs with rogue AP detection enabled. 2 Highlight an MU from within the Rogue AP enabled MUs field and click the scan button. The target MU begins scanning for rogue devices using the detection parameters defined within the Rogue AP Detection screen. To modify the detection parameters, see “Configuring Rogue AP Detection” on page 210. Those devices detected as rogue APs display within the Scan Result table. Use the displayed AP MAC, ESSID and RSSI values to determine the device listed in the table is truly a rogue device or one inadvertently detected as a rogue AP. Altitude 3500 Series Access Point Product Reference Guide 216 3 If necessary, highlight an individual MU from within the Scan Result field and click the Add to Allowed AP List button to move the AP into the Allowed APs table within the Active APs screen. 4 Additionally, if necessary, click the Add All to Allowed APs List button to move every device within the Scan Result table into the Allowed APs table within the Active APs screen. Only use this option if you are sure all of the devices detected and displayed within the Scan Results table are non-hostile APs. 5 Highlight a different MU from the Rogue AP enabled MUs field as needed to scan for additional rogue APs. 6 Click Logout to return to the Rogue AP Detection screen. Configuring User Authentication The access point can work with external RADIUS and LDAP Servers (AAA Servers) to provide user database information and user authentication. Configuring the Radius Server The Radius Server screen enables an administrator to define data sources and specify authentication information for the RADIUS Server. Altitude 3500 Series Access Point Product Reference Guide 217 Configuring Access Point Security To configure the RADIUS Server: 1 Select System Configuration > User Authentication > Radius Server from the menu tree. 2 From within the Data Source Configuration field, use the Data Source drop-down menu to select the data source for the RADIUS server. Local An internal user database serves as the data source. Use the User Database screen to enter the user data. For more information, see “Managing the Local User Database” on page 224. LDAP If LDAP is selected, the controller will use the data in an LDAP server. Configure the LDAP server settings on the LDAP screen under RADIUS Server on the menu tree. For more information, see “Configuring LDAP Authentication” on page 220. NOTE When using LDAP, only PEAP-GTC and TTLS/PAP are supported. 3 Use the TTLS/PEAP Configuration field to specify the RADIUS Server default EAP type, EAP authentication type and a Server or CA certificate (if used). Altitude 3500 Series Access Point Product Reference Guide 218 EAP Type Use the EAP Type checkboxes to enable the default EAP type(s) for the RADIUS server. Options include: • PEAP—Select the PEAP checkbox to enable both PEAP types (GTC and MSCHAP-V2) available to the access point. PEAP uses a TLS layer on top of EAP as a carrier for other EAP modules. PEAP is an ideal choice for networks using legacy EAP authentication methods. • TTLS—Select the TTLS checkbox to enable all three TTLS types (MD5, PAP and MSCHAP-V2) available to the access point.TTLS is similar to EAP-TLS, but the client authentication portion of the protocol is not performed until after a secure transport tunnel is established. This allows EAP-TTLS to protect legacy authentication methods used by some RADIUS servers. • TLS—The TLS checkbox is selected but disabled by default and resides in the background as it does not contain user configurable parameters. Default Specify a PEAP and/or TTLS Authentication Type for EAP Authentication Type to use from the drop-down menu to the right of each checkbox item. PEAP options include: • GTC—EAP Generic Token Card (GTC) is a challenge handshake authentication protocol using a hardware token card to provide the response string. • MSCHAP-V2—Microsoft CHAP (MSCHAP-V2) is an encrypted authentication method based on Microsoft's challenge/response authentication protocol. • TTLS options include: • PAP—Password Authentication Protocol sends a username and password over a network to a server that compares the username and password to a table of authorized users. If the username and password are matched in the table, server access is authorized. WatchGuard products do not support the PAP protocol because the username and password are sent as clear text that a hacker can read. • MD5—This option enables the MD5 algorithm for data verification. MD5 takes as input a message of arbitrary length and produces a 128- bit fingerprint. The MD5 algorithm is intended for digital signature applications, in which a large file must be compressed in a secure manner before being encrypted with a private (secret) key under a public-key cryptographic system. • MSCHAP-V2—Microsoft CHAP (MSCHAP-V2) is an encrypted authentication method based on Microsoft's challenge/response authentication protocol. Server Certificate If you have a server certificate from a CA and wish to use it on the RADIUS server, select it from the drop-down menu. Only certificates imported to the access point are available in the menu. CA Certificate You can also choose an imported CA Certificate to use on the RADIUS server. If using a server certificate signed by a CA, import that CA's root certificate using the CA certificates screen. After a valid CA certificate has been imported, it is available from the CA Certificate drop-down menu. Altitude 3500 Series Access Point Product Reference Guide 219 Configuring Access Point Security WARNING! If you have imported a Server or CA certificate, the certificate will not be saved when updating the access point’s firmware. Export your certificates before upgrading the access point’s firmware. From the access point CLI, use the admin(system.cmgr)> expcert command to export the certificate to a secure location. 4 Use the Radius Client Authentication table to configure multiple shared secrets based on the subnet or host attempting to authenticate with the RADIUS server. Use the Add button to add entries to the list. Modify the following information as needed within the table. Subnet/Host Defines the IP address of the subnet or host that will be authenticating with the RADIUS server. If a WLAN has been created to support mesh networking, then enter the IP address of mesh client bridge in order for the MU to authenticate with a base bridge. Netmask Defines the netmask (subnet mask) of the subnet or host authenticating with the RADIUS server. Shared Secret Click the Passwords button and set a shared secret used for each host or subnet authenticating against the RADIUS server. The shared secret can be up to 7 characters in length. 5 Click Apply to save any changes to the RADIUS Server screen. Navigating away from the screen without clicking Apply results in all changes to the screen being lost. 6 Click Undo Changes (if necessary) to undo any changes made. Undo Changes reverts the settings displayed on the RADIUS Server screen to the last saved configuration. 7 Click Logout to securely exit the Access Point applet. A prompt displays confirming the logout before the applet is closed. Configuring LDAP Authentication When the RADIUS Data Source is set to use an external LDAP server (see “Configuring the Radius Server” on page 217), the LDAP screen is used to configure the properties of the external LDAP server. To configure the LDAP server: 1 Select System Configuration > User Authentication > Radius Server > LDAP from the menu tree. NOTE For the onboard RADIUS server to work with Windows Active Directory or open LDAP as the database, the user has to be present in a group within the organizational unit. The same group must be present within the onboard RADIUS server’s database. The group configured within the onboard RADIUS server is used for group policy configuration to support a new Time Based Rule restriction feature. NOTE The LDAP screen displays with unfamiliar alphanumeric characters (if new to LDAP configuration). Extreme Networks recommends only qualified administrators change the default values within the LDAP screen. Altitude 3500 Series Access Point Product Reference Guide 220 2 Enter the appropriate information within the LDAP Configuration field to allow the access point to interoperate with the LDAP server. Consult with your LDAP server administrator for details on how to define the values in this screen. LDAP Server IP Enter the IP address of the external LDAP server acting as the data source for the RADIUS server. The LDAP server must be accessible from the WAN port or from the access point’s active subnet. Port Enter the TCP/IP port number for the LDAP server acting as a data source for the RADIUS. The default port is 389. Login Attribute Specify the login attribute used by the LDAP server for authentication. In most cases, the default value should work. Windows Active Directory users must use “sAMAccountName” as their login attribute to successfully login to the LDAP server. Password Attribute Enter the password used by the LDAP server for authentication. Bind Distinguished Name Specify the distinguished name used to bind with the LDAP server. Password Enter a valid password for the LDAP server. Base Distinguished Name Enter a name that establishes the base object for the search. The base object is the point in the LDAP tree at which to start searching. Group Attribute Define the group attribute used by the LDAP server. Group Filter Specify the group filters used by the LDAP server. Group Member Attribute Enter the Group Member Attribute sent to the LDAP server when authenticating users. Altitude 3500 Series Access Point Product Reference Guide 221 Configuring Access Point Security CAUTION Windows Active Directory users must set their Login Attribute to “sAMAccountName” in order to successfully login to the LDAP server. 3 Click Apply to save any changes to the LDAP screen. Navigating away from the screen without clicking Apply results in all changes to the screen being lost. 4 Click Undo Changes (if necessary) to undo any changes made. Undo Changes reverts the settings displayed on the LDAP screen to the last saved configuration. 5 Click Logout to securely exit the Access Point applet. A prompt displays confirming the logout before the applet is closed. Configuring a Proxy Radius Server The access point has the capability to proxy authentication requests to a remote RADIUS server based on the suffix of the user ID (such as myisp.com or company.com). The access point supports up to 10 proxy servers. CAUTION If using a proxy server for RADIUS authentication, the Data Source field within the RADIUS server screen must be set to Local. If set to LDAP, the proxy server will not be successful when performing the authentication. To verify the existing settings, see “Configuring the Radius Server” on page 217. CAUTION When configuring the credentials of an MU, ensure its login (or user) name is a Fully Qualified Domain Name (FQDN), or it cannot be authenticated by the access point’s proxy server. For example; [email protected]. Altitude 3500 Series Access Point Product Reference Guide 222 To configure the proxy RADIUS server for the Altitude 35xx: 1 Select System Configuration > User Authentication > Radius Server > Proxy from the menu tree. 2 Refer to the Proxy Configuration field to define the proxy server’s retry count and timeout values. Retry Count Enter a value between 3 and 6 to indicate the number of times the access point attempts to reach a proxy server before giving up. Timeout Enter a value between 5 and 10 to indicate the number of elapsed seconds causing the access point to time out on a request to a proxy server. 3 Use the Add button to add a new proxy server. Define the following information for each entry: Suffix Enter the domain suffix (such as myisp.com or mycompany.com) of the users sent to the specified proxy server. Radius Server IP Specify the IP address of the RADIUS server acting as a proxy server. Port Enter the TCP/IP port number for the RADIUS server acting as a proxy server. The default port is 1812. Shared Secret Set a shared secret used for each suffix used for authentication with the RADIUS proxy server. 4 To remove a row, select the row and click the Del (Delete) button. Altitude 3500 Series Access Point Product Reference Guide 223 Configuring Access Point Security 5 Click Apply to save any changes to the Proxy screen. Navigating away from the screen without clicking Apply results in all changes to the screen being lost. 6 Click Undo Changes (if necessary) to undo any changes made. Undo Changes reverts the settings displayed on the Proxy screen to the last saved configuration. 7 Click Logout to securely exit the Access Point applet. A prompt displays confirming the logout before the applet is closed. Managing the Local User Database Use the User Database screen to create groups for use with the RADIUS server. The database of groups is employed if Local is selected as the Data Source from the RADIUS Server screen. For information on selecting Local as the Data Source, see “Configuring the Radius Server” on page 217. To add groups to the User database: NOTE Each group can be configured to have its own access policy using the Access Policy screen. For more information, see “Defining User Access Permissions by Group” on page 226. 1 Select System Configuration > User Authentication > User Database from the menu tree. Altitude 3500 Series Access Point Product Reference Guide 224 Refer to the Groups field for a list of all groups in the local RADIUS database. The groups are listed in the order added. Although groups can be added and deleted, there is no capability to edit a group name. 2 Click the Add button and enter the name of the group in the new blank field in the Groups table. 3 To remove a group, select the group from the table and click the Del (Delete) key. The Users table displays the entire list of users. Up to 100 users can be entered here. The users are listed in the order added. Users can be added and deleted, but there is no capability to edit the name of a group. 4 To add a new user, click the Add button at the bottom of the Users area. 5 In the new line, type a User ID (username). 6 Click the Password cell. A small window displays. Enter a password for the user and click OK to return to the Users screen. 7 Click the List of Groups cell. A new screen displays enabling you to associate groups with the user. For more information on mapping groups with a user, see “Mapping Users to Groups” on page 225. 8 Click Apply to save any changes to the Users screen. Navigating away from the screen without clicking Apply results in all changes to the screen being lost. 9 Click Undo Changes (if necessary) to undo any changes made. Undo Changes reverts the settings displayed on the Users screen to the last saved configuration. 10 Click Logout to securely exit the Access Point applet. A prompt displays confirming the logout before the applet is closed. Mapping Users to Groups Once users have been created within the Users screen, their access privileges need to be configured for inclusion to one, some or all of the groups also created within the Users screen. To map users to groups for group authentication privileges: 1 If you are not already in the Users screen, select System Configuration > User Authentication > User Database from the menu tree. Existing users and groups display within their respective fields. If user or group requires creation or modification, make your changes before you begin to map them. 2 Refer to the Users field and select the List of Groups column for the particular user you wish to map to one or more groups. The Users Group Setting screen displays with the groups available for user inclusion displayed within the Available column. Altitude 3500 Series Access Point Product Reference Guide 225 Configuring Access Point Security 3 To add the user to a group, select the group in the Available list (on the right) and click the <-Add button. Assigned users will display within the Assigned table. Map one or more groups as needed for group authentication access for this particular user. 4 To remove the user from a group, select the group in the Assigned list (on the left) and click the Delete-> button. 5 Click the OK button to save your user and group mapping assignments and return to the Users screen. Defining User Access Permissions by Group An external AAA server maintains the users and groups database used by the access point for access permissions. Various kinds of access policies can be applied to each group. With this latest 2.0 version access point firmware, individual groups can be associated with their own time-based access policy. Each group’s policy has a user defined interval defining the days and hours access is permitted. Authentication requests for users belonging to the group are honored only during these defined hourly intervals. Refer to the Access Policy screen to define WLAN access for the user group(s) defined within the Users screen. Each group created within the Users screen displays in the Access Policy screen within the groups column. Similarly, existing WLANs can be individually mapped to user groups by clicking the WLANs button to the right of each group name. For more information on creating groups and users, see “Managing the Local User Database” on page 224. For information on creating a new WLAN or editing the properties of an existing WLAN, see “Creating/Editing Individual WLANs” on page 135. Altitude 3500 Series Access Point Product Reference Guide 226 CAUTION If using the RADIUS time-based authentication feature to authenticate access point user permissions, ensure UTC has been selected from the Date and Time Settings screen’s Time Zone field. If UTC is not selected, time based authentication will not work properly. For information on setting the time zone for the access point, see “Configuring Network Time Protocol (NTP)” on page 98. 1 Select User Authentication > Radius Server > Access Policy from the menu tree. The Access Policy screen displays the following fields: Groups The Groups field displays the names of those existing groups that can have access intervals applied to them. Click the Edit button to display a screen designed to create access intervals for specific days and hours. A mechanism also exists for mapping specific WLANs to these intervals. For more information, see “Editing Group Access Permissions” on page 228. For information on creating a new group, see “Managing the Local User Database” on page 224. Time of Access The Time of Access field displays the days of the week and the hours defined for group access to access point resources. This data is defined for the group by selecting the Edit button from within the groups field. Altitude 3500 Series Access Point Product Reference Guide 227 Configuring Access Point Security Associated WLANs The Associated WLANs field displays the WLANs assigned the user group access permissions listed within the filters and grid fields. Add additional WLANs to a group by selecting the Edit button within the groups field. Timeline Displays a bar graph of the selected group’s access privileges. Access times are displayed in a grid format with the days of the week and hours users access is available displayed in green. Revise the selected group’s privileges as needed. 2 Review the existing access intervals assigned to each group by selecting the group from amongst those displayed. To modify a group’s permissions, see “Editing Group Access Permissions” on page 228. 3 Click Logout to securely exit the access point applet. A prompt displays confirming the logout before the applet is closed. Editing Group Access Permissions The Access Policy screen provides a mechanism for modifying an existing group’s access permissions. A group’s permissions can be set for any day of the week and include any hour of the day. Ten unique access intervals can be defined for each existing group. To update a group’s access permissions: 1 Select User Authentication > Radius Server > Access Policy from the menu tree. 2 Select an existing group from within the groups field. 3 Select the Edit button. The Edit Access Policy screen displays. Altitude 3500 Series Access Point Product Reference Guide 228 4 Define up to 10 access policies for the selected group within the Time Based Access Policy field. Use the drop-down menus on the left-hand side of the screen to define the day of the week for which each policy applies. If continual access is required, select the All Days option. If continual access is required during Monday through Friday, but not Saturday or Sunday, select the Weekdays option. Use the Start Time and End Time values to define the access interval (in HHMM format) for each access policy. Each policy for a given group should have unique intervals. Policies can be created for different intervals on the same day of the week. NOTE Groups have a strict start and end time (as defined using the Edit Access Policy screen). Only during this period of time can authentication requests from users be honored (with no overlaps). Any authentication request outside of this defined interval is denied regardless of whether a user’s credentials match or not. 5 Refer to the WLANs field to select existing WLANs to apply to the selected group’s set of access permissions. The group’s existing WLANs are already selected within the Edit screen. Select those additional WLANs requiring the access permissions specified in options 1-10 within the Time Based Access Policy field. 6 Click Apply to save any changes to the Edit Access Policy screen. Navigating away from the screen without clicking Apply results in all changes to the screen being lost. 7 Click Cancel if necessary) to undo any changes made. Undo Changes reverts the settings displayed on the Edit Access Policy screen to the last saved configuration. Altitude 3500 Series Access Point Product Reference Guide 229 Configuring Access Point Security Altitude 3500 Series Access Point Product Reference Guide 230 7 Monitoring Statistics CHAPTER The Altitude 35xx has functionality to display robust transmit and receive statistics for its WAN and LAN port. Wireless Local Area Network (WLAN) stats can also be displayed collectively for each enabled WLAN as well as individually for up to 16 specific WLANs. Transmit and receive statistics can also be displayed for the Altitude 35xx’s 802.11a and 802.11b/g radios. An advanced radio statistics page is also available to display retry histograms for specific data packet retry information. Associated MU stats can be displayed collectively for associated MUs and individually for specific MUs. An echo (ping) test is also available to ping specific MUs to assess the strength of the AP association. Finally, the Altitude 35xx can detect and display the properties of other APs detected within the Altitude 35xx radio coverage area. The type of AP detected can be displayed as well as the properties of individual APs. See the following sections for more details on viewing statistics for the Altitude 35xx: ● Viewing WAN Statistics on page 231 ● Viewing LAN Statistics on page 234 ● Viewing Wireless Statistics on page 239 ● Viewing Radio Statistics Summary on page 243 ● Viewing MU Statistics Summary on page 248 ● Viewing the Mesh Statistics Summary on page 253 ● Viewing Known Access Point Statistics on page 254 Viewing WAN Statistics Use the Altitude 35xx WAN Stats screen to view real-time statistics for monitoring the Altitude 35xx activity through its Wide Area Network (WAN) port. The Information field of the WAN Stats screen displays basic WAN information, generated from settings on the WAN screen. The Received and Transmitted fields display statistics for the cumulative packets, bytes, and errors received and transmitted through the WAN interface since it was last enabled or the AP was last rebooted. The Altitude 35xx WAN Stats screen is view-only with no configurable data fields. Altitude 3500 Series Access Point Product Reference Guide 231 Monitoring Statistics To view Altitude 35xx WAN Statistics: 1 Select Status and Statistics > WAN Stats from the Altitude 35xx menu tree. 2 Refer to the Information field to reference the following Altitude 35xx WAN data: Status The Status field displays Enabled if the WAN interface is enabled on the WAN screen. If the WAN interface is disabled on the WAN screen, the WAN Stats screen displays no connection information and statistics. To enable the WAN connection. HW Address The Media Access Control (MAC) address of the Altitude 35xx WAN port. The WAN port MAC address is hard coded at the factory and cannot be changed. For more information on how access point MAC addresses are assigned. IP Addresses The displayed Internet Protocol (IP) addresses for the Altitude 35xx WAN port. Mask The Mask field displays the subnet mask number for the Altitude 35xx’s WAN connection. This value is set on the WAN screen. Link The Link parameter displays Up if the WAN connection is active between the Altitude 35xx and network, and Down if the WAN connection is interrupted or lost. Use this information to assess the current connection status of the WAN port. Altitude 3500 Series Access Point Product Reference Guide 232 Speed The WAN connection speed is displayed in Megabits per second (Mbps), for example, 54Mbps. If the throughput speed is not achieved, examine the number of transmit and receive errors, or consider increasing the supported data rate. To change the data rate of the 802.11a or 802.11b/g radio. 3 Refer to the Received field to reference data received over the Altitude 35xx WAN port. RX Packets RX packets are data packets received over the WAN port. The displayed number is a cumulative total since the WAN interface was last enabled or the Altitude 35xx was last restarted. RX Bytes RX bytes are bytes of information received over the WAN port. The displayed number is a cumulative total since the WAN interface was last enabled or the access point was last restarted. RX Errors RX errors include dropped data packets, buffer overruns, and frame errors on inbound traffic. The number of RX errors is a total of RX Dropped, RX Overruns and RX Carrier errors. Use this information to determine performance quality of the current WAN connection. RX Dropped The RX Dropped field displays the number of data packets that fail to reach the WAN interface. If this number appears excessive, consider a new connection to the device. RX Overruns RX overruns are buffer overruns on the WAN connection. RX overruns occur when packets are received faster than the WAN port can handle them. If RX overruns are excessive, consider reducing the data rate, RX Frame The RX Frame field displays the number of TCP/IP data frame errors received. 4 Refer to the Transmitted field to reference data received over the Altitude 35xx WAN port. TX Packets TX packets are data packets sent over the WAN connection. The displayed number is a cumulative total since the WAN was last enabled or the Altitude 35xx was last restarted. To begin a new data collection. TX Bytes TX bytes are bytes of information sent over the WAN connection. The displayed number is a cumulative total since the WAN interface was last enabled or the Altitude 35xx was last restarted. TX Errors TX errors include dropped data packets, buffer overruns, and carrier errors on outbound traffic. The displayed number of TX errors is the total of TX Dropped, TX Overruns and TX Carrier errors. Use this information to assess access point location and transmit speed. TX Dropped The TX Dropped field displays the number of data packets that fail to get sent from the WAN interface. TX Overruns TX overruns are buffer overruns on the WAN connection. TX overruns occur when packets are sent faster than the WAN interface can handle. If TX overruns are excessive, consider reducing the data rate, TX Carrier The TX Carrier field displays the number of TCP/IP data carrier errors. Altitude 3500 Series Access Point Product Reference Guide 233 Monitoring Statistics 5 Click the Clear WAN Stats button to reset each of the data collection counters to zero in order to begin new data collections. The RX/TX Packets and RX/TX Bytes totals remain at their present values and are not cleared. Do not clear the WAN stats if currently in an important data gathering activity or risk losing all data calculations to that point. 6 Click Logout to securely exit the access point applet. A prompt displays confirming the logout before the applet is closed. Viewing LAN Statistics Use the LAN Stats screen to monitor the activity of the Altitude 35xx’s LAN1 or LAN2 connection. The Information field of the LAN Stats screen displays network traffic information as monitored over the Altitude 35xx LAN1 or LAN2 port. The Received and Transmitted fields of the screen display statistics for the cumulative packets, bytes, and errors received and transmitted over the LAN1 or LAN2 port since it was last enabled or the Altitude 35xx was last restarted. The LAN Stats screen is view-only with no user configurable data fields. To view Altitude 35xx LAN connection stats: 1 Select Status and Statistics > LAN Stats > LAN1 Stats (or LAN2 Stats) from the Altitude 35xx menu tree. Altitude 3500 Series Access Point Product Reference Guide 234 2 Refer to the Information field to view the following Altitude 35xx device address information: Status Displays whether this particular LAN has been enabled as viable subnet from within the LAN Configuration screen. IP Address The Internet Protocol (IP) addresses for the Altitude 35xx LAN port. Network Mask The first two sets of numbers specify the network domain, the next set specifies the subset of hosts within a larger network. These values help divide a network into subnetworks and simplify routing and data transmission. Ethernet Address The Media Access Control (MAC) address of the Altitude 35xx. The MAC address is hard coded at the factory and cannot be changed. For more information on how access point MAC addresses are assigned, Link The Link parameter displays Up if the LAN connection is active between the Altitude 35xx and network, and Down if the LAN connection is interrupted or lost. Use this information to assess the current connection status of LAN 1 or LAN2. Speed The LAN 1 or LAN 2 connection speed is displayed in Megabits per second (Mbps), for example, 54Mbps. If the throughput speed is not achieved, examine the number of transmit and receive errors, or consider increasing the supported data rate. Duplex Displays whether the current LAN connection is full or half duplex. WLANs Mapped The WLANs Mapped table lists the WLANs mapped to this LAN (either LAN1 or LAN2) as their LAN interface. 3 Refer to the Received field to view data received over the Altitude 35xx LAN port. RX Packets RX packets are data packets received over the Altitude 35xx LAN port. The number is a cumulative total since the LAN connection was last enabled or the Altitude 35xx was last restarted. RX Bytes RX bytes are bytes of information received over the LAN port. The value is a cumulative total since the LAN connection was last enabled or the Altitude 35xx was last restarted. RX Errors RX errors include dropped data packets, buffer overruns, and frame errors on inbound traffic. The number of RX errors is a total of RX Dropped, RX Overruns and RX Carrier errors. Use this information to determine performance quality of the current LAN connection. RX Dropped The RX Dropped field displays the number of data packets failing to reach the LAN port. If this number appears excessive, consider a new connection to the device. RX Overruns RX overruns are buffer overruns on the Altitude 35xx LAN port. RX overruns occur when packets are received faster than the LAN connection can handle them. If RX overruns are excessive, consider reducing the data rate, RX Frame The RX Frame field displays the number of TCP/IP data frame errors received. Altitude 3500 Series Access Point Product Reference Guide 235 Monitoring Statistics 4 Refer to the Transmitted field to view statistics transmitted over the Altitude 35xx LAN port. TX Packets TX packets are data packets sent over the Altitude 35xx LAN port. The displayed number is a cumulative total since the LAN connection was last enabled or the Altitude 35xx was last restarted. TX Bytes TX bytes are bytes of information sent over the LAN port. The displayed number is a cumulative total since the LAN Connection was last enabled or the Altitude 35xx was last restarted. TX Errors TX errors include dropped data packets, buffer overruns, and carrier errors on outbound traffic. The displayed number of TX errors is a total of TX Dropped, TX Overruns and TX Carrier errors. Use this information to re-assess location and transmit speed. TX Dropped The TX Dropped field displays the number of data packets that fail to get sent from the Altitude 35xx LAN port. TX Overruns TX overruns are buffer overruns on the LAN port. TX overruns occur when packets are sent faster than the LAN connection can handle. If TX overruns are excessive, consider reducing the data rate. TX Carrier The TX Carrier field displays the number of TCP/IP data carrier errors. 5 Click the Clear LAN Stats button to reset each of the data collection counters to zero in order to begin new data collections. The RX/TX Packets and RX/TX Bytes totals remain at their present values and are not cleared. 6 Click the Logout button to securely exit the Access Point applet. There will be a prompt confirming logout before the applet is closed. Viewing a LAN’s STP Statistics Each access point LAN has the ability to track its own unique STP statistics. Refer to the LAN STP Stats page when assessing mesh networking functionality for each of the two access point LANs. Access points in bridge mode exchange configuration messages at regular intervals (typically 1 to 4 seconds). If a bridge fails, neighboring bridges detect a lack of configuration messaging and initiate a spanning-tree recalculation (when spanning tree is enabled). Altitude 3500 Series Access Point Product Reference Guide 236 To view access point LAN STP statistics: 1 Select Status and Statistics > LAN Stats > LAN1 Stats (or LAN2 Stats) > STP Stats from the Altitude 35xx menu tree. 2 Refer to the Spanning Tree Info field to for details on spanning tree state, and root access point designation. Spanning Tree State Displays whether the spanning tree state is currently enabled or disabled. The spanning tree state must be enabled for a unique spanning-tree calculation to occur when the bridge is powered up or when a topology change is detected. Designated Root Displays the access point MAC address of the bridge defined as the root bridge in the Bridge STP Configuration screen. For information on defining an access point as a root bridge, see “Setting the LAN Configuration for Mesh Networking Support” on page 523. Bridge ID The Bridge ID identifies the priority and ID of the bridge sending the message Root Port Number Identifies the root bridge by listing its 2-byte priority followed by its 6-byte ID. Root Path Cost Bridge message traffic contains information identifying the root bridge and the sending bridge. The root path cost represents the distance (cost) from the sending bridge to the root bridge. Altitude 3500 Series Access Point Product Reference Guide 237 Monitoring Statistics Bridge Max Msg. Age The Max Msg Age measures the age of received protocol information recorded for a port, and to ensure the information is discarded when it exceeds the value set for the Maximum Message age timer. For information on setting the Maximum Message Age. For information on setting the Bridge Max Msg. Age, see “Setting the LAN Configuration for Mesh Networking Support” on page 523. Bridge Hello Time The Bridge Hello Time is the time between each bridge protocol data unit sent. This time is equal to 2 seconds (sec) by default, but can tuned between 1 and 10 sec. For information on setting the Bridge Hello Time, see “Setting the LAN Configuration for Mesh Networking Support” on page 523. The 802.1d specification recommends the Hello Time be set to a value less than half of the Max Message age value. Bridge Forward Delay The Bridge Forward Delay value is the time spent in a listening and learning state. This time is equal to 15 sec by default, but you can tune the time to be between 4 and 30 sec. For information on setting the Bridge Forward Delay, see “Setting the LAN Configuration for Mesh Networking Support” on page 523. 3 Refer to the Port Interface Table to assess the state of the traffic over the ports listed within the table for the root and bridge and designated bridges. Port ID Identifies the port from which the configuration message was sent. State Displays whether a bridge is forwarding traffic to other members of the mesh network (over this port) or blocking traffic. Each viable member of the mesh network must forward traffic to extent the coverage area of the mesh network. Path Cost The root path cost is the distance (cost) from the sending bridge to the root bridge. Designated Root Displays the MAC address of the access point defined with the lowest priority within the Mesh STP Configuration screen. Designated Bridge There is only one root bridge within each mesh network. All other bridges are designated bridges that look to the root bridge for several mesh network timeout values. For information on root and bridge designations, see “Setting the LAN Configuration for Mesh Networking Support” on page 523. Designated Port Each designated bridge must use a unique port. The value listed represents the port used by each bridge listed within the table to route traffic to other members of the mesh network. Designated Cost Displays the unique distance between each access point MAC address listed in the Designated Bridge column and the access point MAC address listed in the Designated Root column. 4 Click the Logout button to securely exit the Access Point applet. There will be a prompt confirming logout before the applet is closed. Altitude 3500 Series Access Point Product Reference Guide 238 Viewing Wireless Statistics Use the WLAN Statistics Summary screen to view overview statistics for active (enabled) WLANs on the Altitude 35xx. The WLAN Summary field displays basic information such as number of Mobile Units (MUs) and total throughput for each of the active WLANs. The Total RF Traffic section displays basic throughput information for all RF activity on the Altitude 35xx. The WLAN Statistics Summary screen is view-only with no user configurable data fields. If a WLAN is not displayed within the Wireless Statistics Summary screen, see “Enabling Wireless LANs (WLANs)” on page 133 to enable the WLAN. For information on configuring the properties of individual WLANs, see “Creating/Editing Individual WLANs” on page 135. To view Altitude 35xx WLAN Statistics: 1 Select Status and Statistics > Wireless Stats from the Altitude 35xx menu tree. 2 Refer to the WLAN Summary field to reference high-level data for each enabled WLAN. Name Displays the names of all the enabled WLANs on the Altitude 35xx. MUs Displays the total number of MUs currently associated with each enabled WLAN. Use this information to assess if the MUs are properly grouped by function within each enabled WLAN. T-put Displays the total throughput in Megabits per second (Mbps) for each active WLAN. Altitude 3500 Series Access Point Product Reference Guide 239 Monitoring Statistics ABS Displays the Average Bit Speed (ABS) in Megabits per second (Mbps) for each active WLAN displayed. % NU Displays a percentage of the total packets for each active WLAN that are non-unicast. Non-unicast packets include broadcast and multicast packets. Retries Displays the average number of retries per packet. An excessive number could indicate possible network or hardware problems. Clear All WLAN Stats Click this button to reset each of the data collection counters to zero in order to begin new data collections. Do not clear the WLAN stats if currently in an important data gathering activity or risk losing all data calculations to that point. 3 Refer to the Total AP RF Traffic field to view throughput information for the Altitude 35xx and WLAN. Total pkts per second Displays the average number of RF packets sent per second across all active WLANs on the Altitude 35xx. The number in black represents packets for the last 30 seconds and the number in blue represents total pkts per second for the last hour. Total bits per second Displays the average bits sent per second across all active WLANs on the access point. The number in black displays this statistic for the last 30 seconds and the number in blue displays this statistic for the last hour. Total associated MUs Displays the current number of MUs associated with the active WLANs on the Altitude 35xx. If the number is excessive, reduce the maximum number of MUs that can associate with the Altitude 35xx. Clear all RF Stats Click the Clear all RF Stats button to reset statistic counters for each WLAN, and the Total AP RF totals to 0. Do not clear RF stats if currently in an important data gathering activity or risk losing all data calculations to that point. 4 Click the Clear RF Stats button to reset each of the data collection counters to zero in order to begin new data collections. 5 Click the Logout button to securely exit the access point applet. A prompt displays confirming the logout before the applet is closed. Viewing WLAN Statistics Use the WLAN Stats screen to view detailed statistics for individual WLANs.The WLAN Stats screen is separated into four fields; Information, Traffic, RF Status, and Errors. The Information field displays basic information such as number of associated Mobile Units, ESSID and security information. The Traffic field displays statistics on RF traffic and throughput. The RF Status field displays information on RF signal averages from the associated MUs. The Error field displays RF traffic errors based on retries, dropped packets, and undecryptable packets. The WLAN Stats screen is view-only with no user configurable data fields. Altitude 3500 Series Access Point Product Reference Guide 240 To view statistics for an individual WLAN: 1 Select Status and Statistics > Wireless Stats > WLANx Stats (x = target WLAN) from the Altitude 35xx menu tree. 2 Refer to the Information field to view specific WLAN address, MU and security scheme information for the WLAN selected from the Altitude 35xx menu tree. ESSID Displays the Extended Service Set ID (ESSID) for the target WLAN. Radio/s Displays the name of the 802.11a or 802.11b/g radio the target WLAN is using for Altitude 35xx transmissions. Authentication Type Displays the authentication type (802.1x EAP or Kerberos) defined for the WLAN. If the authentication type does not match the desired scheme for the WLAN or needs to be enabled. Encryption Type Displays the encryption method defined for the WLAN. If the encryption type does not match the desired scheme for the WLAN or needs to be enabled. Num. Associated MUs Displays the total number of MUs currently associated with the WLAN. If this number seems excessive, consider segregating MUs to other WLANs if appropriate. 3 Refer to the Traffic field to view performance and throughput information for the WLAN selected from the Altitude 35xx menu tree. Altitude 3500 Series Access Point Product Reference Guide 241 Monitoring Statistics Pkts per second The Total column displays the average total packets per second crossing the selected WLAN. The Rx column displays the average total packets per second received on the selected WLAN. The Tx column displays the average total packets per second sent on the selected WLAN. The number in black represents this statistic for the last 30 seconds and the number in blue represents this statistic for the last hour. Throughput The Total column displays average throughput in Mbps for a given time period on the selected WLAN. The Rx column displays average throughput in Mbps for packets received on the selected WLAN. The Tx column displays average throughput for packets sent on the selected WLAN. The number in black represents statistics for the last 30 seconds and the number in blue represents statistics for the last hour. Use this information to assess whether the current Altitude 35xx data rate is sufficient to support required network traffic. Avg. Bit Speed The Total column displays the average bit speed in Mbps for a given time period on the selected WLAN.This includes all packets that are sent and received. The number in black represents statistics for the last 30 seconds and the number in blue represents statistics for the last hour. If the bit speed is significantly slower than the selected data rate, refer to the RF Statistics and Errors fields to troubleshoot. % Non-unicast pkts Displays the percentage of the total packets that are nonunicast. Non-unicast packets include broadcast and multicast packets.The number in black represents packets for the last 30 seconds and the number in blue represents packets for the last hour. 4 Refer to the RF Status field to view the following MU signal, noise and performance information for the WLAN selected from the Altitude 35xx menu tree. Avg MU Signal Displays the average RF signal strength in dBm for all MUs associated with the selected WLAN. The number in black represents this statistic for the last 30 seconds and the number in blue represents this statistic for the last hour. If the signal is low, consider mapping the MU to a different WLAN if a better functional grouping of MUs can be determined. Avg MU Noise Displays the average RF noise for all MUs associated with the selected WLAN. The number in black represents MU noise for the last 30 seconds and the number in blue represents MU noise for the last hour. If MU noise is excessive, consider moving the MU closer to the Altitude 35xx, or in area with less conflicting network traffic. Avg MU SNR Displays the average Signal to Noise Ratio (SNR) for all MUs associated with the selected WLAN. The Signal to Noise Ratio is an indication of overall RF performance on your wireless networks. 5 Refer to the Errors field to view MU association error statistics for the WLAN selected from the Altitude 35xx menu tree. Avg Num of Retries Displays the average number of retries for all MUs associated with the selected WLAN. The number in black represents average retries for the last 30 seconds and the number in blue represents average retries for the last hour. Altitude 3500 Series Access Point Product Reference Guide 242 Dropped Packets Displays the percentage of packets which the AP gave up on for all MUs associated with the selected WLAN. The number in black represents this statistic for the last 30 seconds and the number in blue represents this statistic for the last hour. % of Undecryptable Displays the percentage of undecryptable packets for all Pkts MUs associated with the selected WLAN. The number in black represents undecryptable pkts for the last 30 seconds and the number in blue represents undecryptable pkts for the last hour. NOTE The Apply and Undo Changes buttons are not available on the WLAN Statistics screen as this screen is view only with no configurable data fields. 6 Click the Clear WLAN Stats button to reset each of the data collection counters to zero in order to begin new data collections. Do not clear the WLAN stats if currently in an important data gathering activity or risk losing all data calculations to that point. 7 Click the Logout button to securely exit the access point applet. A prompt displays confirming the logout before the applet is closed. Viewing Radio Statistics Summary Select the Radio Stats Summary screen to view high-level information (radio name, type, number of associated MUs, etc.) for the radio(s) enabled on an Altitude 35xx. Individual radio statistics can be displayed as well by selecting a specific radio from within the Altitude 35xx menu tree. Altitude 3500 Series Access Point Product Reference Guide 243 Monitoring Statistics To view high-level Altitude 35xx radio statistics: 1 Select Status and Statistics > Radio Stats from the Altitude 35xx menu tree. 2 Refer to the Radio Summary field to reference Altitude 35xx radio information. Type Displays the type of radio (either 802.11a or 802.11b/g) currently deployed by the Altitude 35xx. MUs Displays the total number of MUs currently associated with each Altitude 35xx radio. T-put Displays the total throughput in Megabits per second (Mbps) for each Altitude 35xx radio listed. ABS Displays the Average Bit Speed (ABS) in Megabits per second (Mbps) for each Altitude 35xx radio. RF Util Displays the approximate RF Utilization for each Altitude 35xx radio % NU Displays the percentage of the total packets that are nonunicast. Non-unicast packets include broadcast and multicast packets. Retries Displays the average number of retries per packet on each radio. A high number could indicate network or hardware problems. 3 Click the Clear All Radio Stats button to reset each of the data collection counters to zero in order to begin new data collections. Altitude 3500 Series Access Point Product Reference Guide 244 Do not clear the radio stats if currently in an important data gathering activity or risk losing all data calculations to that point. For information on viewing radio statistics particular to the Altitude 35xx radio type displayed within the AP Stats Summary screen, see “Viewing Radio Statistics” on page 245. 4 Click the Logout button to securely exit the Access Point applet. Viewing Radio Statistics Refer to the Radio Stats screen to view detailed information for the Altitude 35xx radio (either 802.11a or 802.11b/g) displayed within the Radio Summary screen. There are four fields within the screen. The Information field displays device address and location information, as well as channel and power information. The Traffic field displays statistics for cumulative packets, bytes, and errors received and transmitted. The Traffic field does not add retry information to the stats displayed. Refer to the RF Status field for an average MU signal, noise and signal to noise ratio information. Finally, the Errors field displays retry information as well as data transmissions the Altitude 35xx radio either dropped or could not decrypt. The information within the 802.11a Radio Statistics screen is view-only with no configurable data fields. To view detailed radio statistics: 1 Select Status and Statistics > Radio Stats > Radio1(802.11b/g) Stats from the Altitude 35xx menu tree. Altitude 3500 Series Access Point Product Reference Guide 245 Monitoring Statistics 2 Refer to the Information field to view the Altitude 35xx 802.11a or 802.11b/g radio’s MAC address, placement and transmission information. HW Address The Media Access Control (MAC) address of the Altitude 35xx housing the 802.11a radio. The MAC address is set at the factory and can be found on the bottom of the access point. Radio Type Displays the radio type (either 802.11a or 802.11b/g). Power The power level in milliwatts (mW) for RF signal strength. Active WLANs Lists the Altitude 35xx WLANs adopted by the 802.11a or 802.11b/g radio. Placement Lists whether the Altitude 35xx radio is indoors or outdoors. Current Channel Indicates the channel for communications between the Altitude 35xx radio and its associated MUs. Num Associated MUs Lists the number of mobile units (MUs) currently associated with the Altitude 35xx 802.11a or 802.11b/g radio. 3 Refer to the Traffic field to view performance and throughput information for the target Altitude 35xx 802.11a or 802.11b/g radio. Pkts per second The Total column displays the average total packets per second crossing the radio. The Rx column displays the average total packets per second received. The Tx column displays the average total packets per second transmitted. The number in black represents this statistic for the last 30 seconds and the number in blue represents this statistic for the last hour. Throughput The Total column displays average throughput on the radio. The Rx column displays average throughput in Mbps for packets received. The Tx column displays average throughput for packets transmitted. The number in black represents statistics for the last 30 seconds and the number in blue represents statistics for the last hour. Use this information to assess whether the current throughput is sufficient to support required network traffic. Avg. Bit Speed The Total column displays the average bit speed in Mbps for the radio This includes all packets transmitted and received. The number in black represents statistics for the last 30 seconds and the number in blue represents statistics for the last hour. Approximate RF Utilization The approximate RF utilization of the Altitude 35xx radio. This value is calculated as throughput divided by average bit speed. The number in black represents this statistic for the last 30 seconds and the number in blue represents this statistic for the last hour. % Non-unicast pkts Displays the percentage of total radio packets that are non-unicast. Non-unicast packets include broadcast and multicast packets.The number in black represents packets for the last 30 seconds and the number in blue represents packets for the last hour. 4 Refer to the RF Status field to view the following MU signal, noise and performance information for the target Altitude 35xx 802.11a or 802.11b/g radio. Altitude 3500 Series Access Point Product Reference Guide 246 Avg MU Signal Displays the average RF signal strength in dBm for all MUs associated with the radio. The number in black represents the average signal for the last 30 seconds and the number in blue represents the average signal for the last hour. If the signal is low, consider mapping the MU to a different WLAN, if a better functional grouping of MUs can be determined. Avg MU Noise Displays the average RF noise for all MUs associated with the Altitude 35xx radio. The number in black represents MU noise for the last 30 seconds and the number in blue represents MU noise for the last hour. If MU noise is excessive, consider moving the MU closer to the Altitude 35xx, or in area with less conflicting network traffic. Avg MU SNR Displays the average Signal to Noise Ratio (SNR) for all MUs associated with the Altitude 35xx radio. The Signal to Noise Ratio is an indication of overall RF performance on your wireless network. 5 Refer to the Errors field to reference retry information as well as data transmissions the target Altitude 35xx 802.11a or 802.11 b/g radio either gave up on could not decrypt. Avg Num. of Retries Displays the average number of retries for all MUs associated with the Altitude 35xx 802.11a or 802.11b/g radio. The number in black represents retries for the last 30 seconds and the number in blue represents retries for the last hour. Dropped Packets Displays the percentage of packets the AP gave up on for all MUs associated with the Altitude 35xx 802.11a or 802.11b/g radio. The number in black represents this statistic for the last 30 seconds and the number in blue represents this statistic for the last hour. % of Undecryptable Displays the percentage of undecryptable packets for all Pkts MUs associated with the 802.11a or 802.11b/g radio. The number in black represents packets for the last 30 seconds and the number in blue represents packets for the last hour. 6 Click the Clear Radio Stats button to reset each of the data collection counters to zero in order to begin new data collections. 7 Click the Logout button to securely exit the Access Point applet. Retry Histogram Refer to the Retry Histogram screen for an overview of the retries transmitted by an access point radio and whether those retries contained any data packets. Use this information in combination with the error fields within a Radio Stats screen to assess overall radio performance. To display a Retry Histogram screen for an access point radio: 1 Select Status and Statistics > Radio Stats > Radio1(802.11b/g) Stats > Retry Histogram from the Altitude 35xx menu tree. A Radio Histogram screen is available for each access point radio (regardless of single or dual-radio model). Altitude 3500 Series Access Point Product Reference Guide 247 Monitoring Statistics The table’s first column shows 0 under Retries. The value under the Packets column directly to the right shows the number of packets transmitted by this access point radio that required 0 retries (delivered on the first attempt). As you go down the table you can see the number of packets requiring 1 retry, 2 retries etc. Use this information to assess whether an abundance of retries warrants reconfiguring the access point radio to achieve better performance. 2 Click Apply to save any changes to the Radio Histogram screen. Navigating away from the screen without clicking Apply results in changes to the screens being lost. 3 Click Undo Changes (if necessary) to undo any changes made to the screen. Undo Changes reverts the settings to the last saved configuration. 4 Click Logout to securely exit the Access Point applet. A prompt displays confirming the logout before the applet is closed. Viewing MU Statistics Summary Use the MU Stats Summary screen to display overview statistics for mobile units (MUs) associated with the Altitude 35xx. The MU List field displays basic information such as IP Address and total throughput for each associated MU. The MU Stats screen is view-only with no user configurable data fields. However, individual MUs can be selected from within the MU Stats Summary screen to either ping to assess interoperability or display authentication statistics. Altitude 3500 Series Access Point Product Reference Guide 248 To view Altitude 35xx overview statistics for all of the MUs associated to the Altitude 35xx: 1 Select Status and Statistics > MU Stats from the Altitude 35xx menu tree. 2 Refer to the MU List field to reference associated MU address, throughput and retry information. IP Address Displays the IP address of each of the associated MU. MAC Address Displays the MAC address of each of the associated MU. WLAN Displays the WLAN name each MU is interoperating with. Radio Displays the name of the 802.11a or 802.11b/g radio each MU is associated with. T-put Displays the total throughput in Megabits per second (Mbps) for each associated MU. ABS Displays the Average Bit Speed (ABS) in Megabits per second (Mbps) for each associated MU. Retries Displays the average number of retries per packet. A high number retries could indicate possible network or hardware problems. Hotspot Displays whether this radio is currently supporting a hotspot. 3 Click the Refresh button to update the data collections displayed without resetting the data collections to zero. 4 Click the Echo Test button to display a screen for verifying the link with an associated MU. Altitude 3500 Series Access Point Product Reference Guide 249 Monitoring Statistics For detailed information on conducting a ping test for an MUs, see “Pinging Individual MUs” on page 252. NOTE An echo test initiated from the Altitude 35xx MU Stats Summary screen uses WNMP pings. Therefore, target clients that are not Motorola MUs are unable to respond to the echo test. 5 Click the MU Authentication Statistics button to display a screen with detailed authentication statistics for the an MU. For information on individual MU authentication statistics, see “MU Authentication Statistics” on page 253. 6 Click the MU Details button to display a screen with detailed statistics for a selected MU. For detailed information on individual MU authentication statistics, see “Viewing MU Details” on page 250. 7 Click the Clear All MU Stats button to reset each of the data collection counters to zero in order to begin new data collections. 8 Click the Logout button to securely exit the Access Point applet. A prompt displays confirming the logout before the applet is closed. Viewing MU Details Use the MU Details screen to display throughput, signal strength and transmit error information for a specific MU associated with the Altitude 35xx. The MU Details screen is separated into four fields; MU Properties, MU Traffic, MU Signal, and MU Errors. The MU Properties field displays basic information such as hardware address, IP address, and associated WLAN and AP. Reference the MU Traffic field for MU RF traffic and throughput data. Use the RF Status field to reference information on RF signal averages from the target MU. The Error field displays RF traffic errors based on retries, dropped packets and undecryptable packets. The MU Details screen is view-only with no user configurable data fields. To view details specific to an individual MU: 1 Select Status and Statistics > MU Stats from the Altitude 35xx menu tree. 2 Highlight a specific MU. 3 Select the MU Details button. 4 Refer to the MU Properties field to view MU address information. IP Address Displays the IP address of the MU. WLAN Association Displays the name of the WLAN the MU is associated with. Use this information to assess whether the MU is properly grouped within that specific WLAN. PSP State Displays the current PSP state of the MU. The PSP Mode field has two potential settings. PSP indicates the MU is operating in Power Save Protocol mode. In PSP, the MU runs enough power to check for beacons and is otherwise inactive. CAM indicates the MU is continuously aware of all radio traffic. Extreme Networks recommends CAM for those MUs transmitting with the AP frequently and for periods of time of two hours. Altitude 3500 Series Access Point Product Reference Guide 250 HW Address Displays the Media Access Control (MAC) address for the MU. Radio Association Displays the name of the AP MU is currently associated with. If the name of the Altitude 35xx requires modification, see “Configuring System Settings” on page 68. QoS Client Type Displays the data type transmitted by the mobile unit. Possible types include Legacy, Voice, WMM Baseline and Power Save. Encryption Displays the encryption scheme deployed by the associated MU. 5 Refer to the Traffic field to view individual MU RF throughput information. Packets per second The Total column displays average total packets per second crossing the MU. The Rx column displays the average total packets per second received on the MU. The Tx column displays the average total packets per second sent on the MU. The number in black represents Pkts per second for the last 30 seconds and the number in blue represents Pkts per second for the last hour. Throughput The Total column displays the average total packets per second crossing the selected MU. The Rx column displays the average total packets per second received on the MU. The Tx column displays the average total packets per second sent on the MU. The number in black represents throughput for the last 30 seconds, the number in blue represents throughput for the last hour. Avg. Bit Speed The Total column displays the average bit speed in Mbps for a given time period on the MU. This includes all packets sent and received. The number in black represents average bit speed for the last 30 seconds and the number in blue represents average bit speed for the last hour. Consider increasing the data rate of the AP if the current bit speed does not meet network requirements. The associated MU must also be set to the higher rate to interoperate with the Altitude 35xx at that data rate. % of Non-unicast pkts Displays the percentage of the total packets for the selected mobile unit that are non-unicast. Non-unicast packets include broadcast and multicast packets. The number in black represents packets for the last 30 seconds and the number in blue represents packets for the last hour. 6 Refer to the RF Status field to view MU signal and signal disturbance information. Avg MU Signal Displays RF signal strength in dBm for the target MU. The number in black represents signal information for the last 30 seconds and the number in blue represents signal information for the last hour. Avg MU Noise Displays RF noise for the target MU. The number in black represents noise for the last 30 seconds, the number in blue represents noise for the last hour. Avg MU SNR Displays the Signal to Noise Ratio (SNR) for the target MU. The Signal to Noise Ratio is an indication of overall RF performance on your wireless network. Altitude 3500 Series Access Point Product Reference Guide 251 Monitoring Statistics 7 Refer to the Errors field to view MU retry information and statistics on packets not transmitted. Avg Num of Retries Displays the average number of retries for the MU. The number in black represents average retries for the last 30 seconds and the number in blue represents average retries for the last hour. Dropped Packets Displays the percentage of packets the AP gave up as not received on for the selected MU. The number in black represents the percentage of packets for the last 30 seconds and the number in blue represents the percentage of packets for the last hour. % of Undecryptable Displays the percentage of undecryptable packets for the Pkts MU. The number in black represents the percentage of undecryptable packets for the last 30 seconds and the number in blue represents the percentage of undecryptable packets for the last hour. 8 Click OK to exit the screen. Pinging Individual MUs The Altitude 35xx can verify its link with a Motorola MU by sending WNMP ping packets to the associated MU. Use the Echo Test screen to specify a target MU and configure the parameters of the ping test. NOTE An echo test initiated from the Altitude 35xx MU Stats Summary screen uses WNMP pings. Therefore, target clients that are not Motorola MUs are unable to respond to the echo test. To ping a specific MU to assess its connection with an Altitude 35xx: 1 Select Status and Statistics > MU Stats from the Altitude 35xx menu tree. 2 Select the Echo Test button from within the MU Stats Summary screen 3 Specify the following ping test parameters. Station Address The IP address of the target MU. Refer to the MU Stats Summary screen for associated MU IP address information. Number of ping Specify the number of ping packets to transmit to the target MU. The default is 100. Packet Length Specify the length of each data packet transmitted to the target MU during the ping test. The default is 100 bytes. Packet Data Defines the data to be transmitted as part of the test. 4 Click the Ping button to begin transmitting ping packets to the station address specified. Refer to the Number of Responses parameter to assess the number of responses from the target MU versus the number of pings transmitted by the Altitude 35xx. Use the ratio of packets sent versus packets received to assess the link quality between MU and the Altitude 35xx 5 Click the Ok button to exit the Echo Test screen and return to the MU Stats Summary screen. Altitude 3500 Series Access Point Product Reference Guide 252 MU Authentication Statistics The Altitude 35xx can access and display authentication statistics for individual MUs. To view Altitude 35xx authentication statistics for a specific MU: 1 Select Status and Statistics > MU Stats from the Altitude 35xx menu tree. 2 Highlight a target MU from within the MU List field. 3 Click the MU Authentication Statistics button Use the displayed statistics to determine if the target MU would be better served with a different Altitude 35xx WLAN or Altitude 35xx radio. 4 Click Ok to return to the MU Stats Summary screen. Viewing the Mesh Statistics Summary The Altitude 35xx has the capability of detecting and displaying the properties of other access points in mesh network (either base bridges or client bridges) mode. This information is used to create a list of known wireless bridges. To view detected mesh network statistics: 1 Select Status and Statistics > Mesh Stats from the Altitude 35xx menu tree. Altitude 3500 Series Access Point Product Reference Guide 253 Monitoring Statistics The Mesh Statistics Summary screen displays the following information: Conn Type Displays whether the bridge has been defined as a base bridge or a client bridge. For information on defining configuring the access point as either a base or client bridge. MAC Address The unique 48-bit, hard-coded Media Access Control address, known as the devices station identifier. This value is hard coded at the factory by the manufacturer and cannot be changed. WLAN Displays the WLAN name each wireless bridge is interoperating with. Radio Displays the name of the 802.11a or 802.11b/g radio each bridge is associated with. T-put Displays the total throughput in Megabits per second (Mbps) for each associated bridge. ABS Displays the Average Bit Speed (ABS) in Megabits per second (Mbps) for each associated bridge. Retries Displays the average number of retries per packet. A high number retries could indicate possible network or hardware problems. 2 Click the Refresh button to update the display of the Mesh Statistics Summary screen to the latest values. 3 Click the Details button to display address and radio information for those access points in a client bridge configuration with this detecting access point. 4 Click the Logout button to securely exit the Access Point applet. A prompt displays confirming the logout before the applet is closed. Viewing Known Access Point Statistics The Altitude 35xx has the capability of detecting and displaying the properties of other Extreme Networks access points located within its coverage area. Detected Altitude 35xx’s transmit a WNMP message indicating their channel, IP address, firmware version, etc. This information is used to create a known AP list. The list has field indicating the properties of the access point discovered. NOTE The Known AP Statistics screen only displays statistics for access points located on the same subnet. Altitude 3500 Series Access Point Product Reference Guide 254 To view detected access point statistics: 1 Select Status and Statistics > Known AP Stats from the Altitude 35xx menu tree. The Known AP Statistics screen displays the following information: IP Address The network-assigned Internet Protocol address of the located AP. MAC Address The unique 48-bit, hard-coded Media Access Control address, known as the devices station identifier. This value is hard coded at the factory by the manufacturer and cannot be changed. MUs The number MUs associated with the located Altitude 35xx. Unit Name Displays the name assigned to the Altitude 35xx using the System Settings screen. 2 Click the Clear Known AP Stats button to reset each of the data collection counters to zero in order to begin new data collections. 3 Click the Details button to display access point address and radio information. Altitude 3500 Series Access Point Product Reference Guide 255 Monitoring Statistics The Known AP Details screen displays the target AP’s MAC address, IP address, radio channel, number of associated MUs, packet throughput per second, radio type(s), model, firmware version, ESS and client bridges currently connected to the AP radio. Use this information to determine whether this AP provides better MU association support than the locating access point or warrants consideration as a member of a different mesh network. 4 Click the Ping button to display a screen for verifying the link with a highlighted access point. NOTE A ping test initiated from the Altitude 35xx Known AP Statistics screen uses WNMP pings. Therefore, target devices that are not Extreme Networks access points are unable to respond to the ping test. 5 Click the Send Cfg to APs button to send the your access point’s configuration to other access point’s. The recipient access point must be the same single or dual-radio model as the access point sending the configuration. The sending and recipient access points must also be running the same major firmware version. CAUTION When using the Send Cfg to APs function to migrate an access point’s configuration to other access points, it is important to keep in mind mesh network configuration parameters do not get completely sent to other access points. The Send Cfg to APs function will not send the “auto-select” and “preferred list” settings. Additionally, LAN1 and LAN2 IP mode settings will only be sent if the sender’s AP mode is DHCP or BOOTP. The WAN’s IP mode will only be sent if the sender’s IP mode is DHCP. Altitude 3500 Series Access Point Product Reference Guide 256 6 Click the Start Flash button to flash the LEDs of other Altitude 35xxs detected and displayed within the Known AP Statistics screen. Use the Start Flash button to determine the location of the devices displayed within the Known AP Statistics screen. When an Altitude 35xx is highlighted and the Start Flash button is selected, the LEDs on the selected Altitude 35xx flash. When the Stop Flash button is selected, the LEDs on the selected Altitude 35xx go back to normal operation. 7 Click the Logout button to securely exit the Access Point applet. A prompt displays confirming the logout before the applet is closed. Altitude 3500 Series Access Point Product Reference Guide 257 Monitoring Statistics Altitude 3500 Series Access Point Product Reference Guide 258 8 CLI Reference CHAPTER The AP35xx Command Line Interface (CLI) is accessed through the serial port or a Telnet session. The AP35xx CLI follows the same conventions as the Web-based user interface. The CLI does, however, provide an “escape sequence” to provide diagnostics for problem identification and resolution. The CLI treats the following as invalid characters: -> space < > | " & , \ ? In order to avoid problems when using the CLI, these characters should be avoided. Connecting to the CLI Accessing the CLI through the Serial Port To connect to the AP35xx CLI through the serial port: 1 Connect one end of a null modem serial cable to the AP35xx’s serial connector. NOTE If using an Altitude 3510 model access point, a null modem cable is required. If using an Altitude 3550 model access point, an RJ-45 to Serial cable is required to make the connection. 2 Attach the other end of the null modem serial cable to the serial port of a PC running HyperTerminal or a similar emulation program. 3 Set the HyperTerminal program to use 19200 baud, 8 data bits, 1 stop bit, no parity, no flow control, and auto-detect for terminal emulation. 4 Press <ESC> or <Enter> to enter into the CLI. 5 Enter the default username of admin and the default password of admin123. If this is your first time logging into the access point, you are unable to access any of the access point’s commands until the country code is set. A new password will also need to be created. Altitude 3500 Series Access Point Product Reference Guide 259 CLI Reference Accessing the CLI via Telnet To connect to the AP35xx CLI through a Telnet connection: 1 If this is your first time connecting to your access point, keep in mind the access point uses a static IP WAN address (10.1.1.1). Additionally, the access point’s LAN port is set as a DHCP client. 2 Enter the default username of admin and the default password of admin123. If this is your first time logging into the access point, you are unable to access any of the access point’s commands until the country code is set. A new password will also need to be created. Admin and Common Commands AP35xx>admin> Displays admin configuration options. The items available under this command are shown below. help Displays general user interface help. passwd Changes the admin password. summary Shows a system summary. network Goes to the network submenu system Goes to the system submenu. stats Goes to the stats submenu. .. Goes to the parent menu. / Goes to the root menu. save Saves the configuration to system flash. quit Quits the CLI. Altitude 3500 Series Access Point Product Reference Guide 260 AP35xx>admin>help Displays general CLI user interface help. Syntax help Displays command line help using combinations of function keys for navigation. Example admin>help ? * Restriction of “?”: : : : : : : : display command help - Eg. ?, show ?, s? “?” after a function argument is treated as an argument Eg. admin<network.lan> set lan enable? (Here “?” is an invalid extra argument, because it is after the argument “enable”) <ctrl-q> <ctrl-p> : go backwards in command history : go forwards in command history * Note : : : : 1) commands can be incomplete - Eg. sh = sho = show 2) “//” introduces a comment and gets no resposne from CLI. admin> Altitude 3500 Series Access Point Product Reference Guide 261 CLI Reference AP35xx>admin>passwd Changes the password for the admin login. Syntax passwd Changes the admin password for AP35xx access. This requires typing the old admin password and entering a new password and confirming it. Passwords can be up to 11 characters. The access point CLI treats the following as invalid characters: -> space < > | " & , \ ? In order to avoid problems when using the access point CLI, these characters should be avoided. Example admin>passwd Old Admin Password:****** New Admin Password (0 - 11 characters):****** Verify Admin Password (0 - 11 characters):****** Password successfully updated For information on configuring passwords using the applet (GUI), see “Setting Passwords” on page 170. Altitude 3500 Series Access Point Product Reference Guide 262 AP35xx>admin>summary Displays the AP35xx’s system summary. Syntax summary Displays a summary of high-level characteristics and settings for the WAN, LAN and WLAN. Example admin>summary ADP-35xx firmware version country code ap-mode serial number Hw Model hw version : : : : : : us independent 09459-80043 AP3510-US 01 WLAN 1: WLAN name ESS ID Radio VLAN Security Policy QoS Policy Rate Limiting : : : : : : : Lobby 101 11a,11b/g <none> Default Default disabled LAN1 LAN1 LAN1 LAN1 LAN1 Name: LAN1 Mode: enable IP: 10.255.108.253 Mask: 255.255.255.0 DHCP Mode: client LAN2 LAN2 LAN2 LAN2 LAN2 Name: LAN2 Mode: disable IP: 192.168.1.1 Mask: 255.255.255.0 DHCP Mode: client WAN Interface IP Address Network Mask Default Gateway DHCP Client -----------------------------------------------------------------------------enable 10.1.1.1 255.0.0.0 0.0.0.0 disable ----------------------------------------------------------------------------- For information on displaying a system summary using the applet (GUI), see “Basic Device Configuration” on page 57. Altitude 3500 Series Access Point Product Reference Guide 263 CLI Reference AP35xx>admin>.. Displays the parent menu of the current menu. This command appears in all of the submenus under admin. In each case, it has the same function, to move up one level in the directory structure. Example admin(network.lan)>.. admin(network)> Altitude 3500 Series Access Point Product Reference Guide 264 AP35xx>admin> / Displays the root menu, that is, the top-level CLI menu. This command appears in all of the submenus under admin. In each case, it has the same function, to move up to the top level in the directory structure. Example admin(network.lan)>/ admin> Altitude 3500 Series Access Point Product Reference Guide 265 CLI Reference AP35xx>admin>save Saves the configuration to system flash. The save command appears in all of the submenus under admin. In each case, it has the same function, to save the current configuration. Syntax save Saves configuration settings. The save command works at all levels of the CLI. The save command must be issued before leaving the CLI for updated settings to be retained. Example admin>save admin> Altitude 3500 Series Access Point Product Reference Guide 266 AP35xx>admin>quit Exits the command line interface session and terminates the session. The quit command appears in all of the submenus under admin. In each case, it has the same function, to exit out of the CLI. Once the quit command is executed, the login prompt displays again. Example admin>quit Altitude 3500 Series Access Point Product Reference Guide 267 CLI Reference Network Commands AP35xx>admin(network)> Displays the network submenu. The items available under this command are shown below. lan Goes to the LAN submenu. wan Goes to the WAN submenu. wireless Goes to the Wireless Configuration submenu. firewall Goes to the firewall submenu. router Goes to the router submenu. ipfilter Goes to the IP Filtering submenu. .. Goes to the parent menu. / Goes to the root menu. save Saves the current configuration to the system flash. quit Quits the CLI and exits the current session. Network LAN Commands AP35xx>admin(network.lan)> Displays the LAN submenu. The items available under this command are shown below. show Shows current AP35xx LAN parameters. set Sets LAN parameters. bridge Goes to the mesh configuration submenu. wlan-mapping Goes to the WLAN/Lan/Vlan Mapping submenu. dhcp Goes to the LAN DHCP submenu. type-filter Goes to the Ethernet Type Filter submenu. ipfpolicy Goes to the LAN IP Filtering Policy submenu. .. Goes to the parent menu. / Goes to the root menu. save Saves the configuration to system flash. quit Quits the CLI. For an overview of the LAN configuration options using the applet (GUI), see “Configuring the LAN Interface” on page 113. Altitude 3500 Series Access Point Product Reference Guide 268 AP35xx>admin(network.lan)> show Displays the AP35xx LAN settings. Syntax show Shows the settings for the AP35xx LAN1 and LAN2 interfaces. Example admin(network.lan)>show LAN On Ethernet Port LAN Ethernet Timeout : LAN1 : disable 802.1x Port Authentication: Username Password : admin : ******** Auto-negotiation Speed Duplex : enable : 100M : full ** LAN1 Information** LAN Name LAN Interface 802.1q Trunking Native VLAN Tag Mode : : : : LAN1 enable disable tagged LAN IP mode IP Address Network Mask Default Gateway Domain Name Primary DNS Server Secondary DNS Server WINS Server : : : : : : : : DHCP client 10.255.108.253 255.255.255.0 10.255.108.1 ADP35xxExtreme.com 10.255.181.87 10.0.4.72 192.168.0.254 ** LAN2 Information** LAN Name LAN Interface 802.1q Trunking Native VLAN Tag Mode : : : : LAN2 disable disable tagged LAN IP mode IP Address Network Mask Default Gateway Domain Name Primary DNS Server Secondary DNS Server : : : : : : : DHCP server 192.168.1.1 255.255.255.0 192.168.1.1 ADP35xxExtreme.com 192.168.1.1 192.168.1.1 admin(network.lan)> For information on displaying LAN information using the applet (GUI), see “Configuring the LAN Interface” on page 113. Altitude 3500 Series Access Point Product Reference Guide 269 CLI Reference AP35xx>admin(network.lan)> set Sets the LAN parameters for the LAN port. Syntax set lan <mode> Enables or disables the AP35xx LAN interface. name <idx-name > Defines the LAN name by index. ethernet-port-lan <idx> Defines which LAN (LAN1 or LAN2) is active on the Ethernet port. timeout <seconds> Sets the interval (in seconds) the AP35xx uses to terminate its LAN interface if no activity is detected for the specified interval. trunking <mode> Enables or disables 802.11q Trunking over the AP35xx LAN port. auto-negotiation <mode> Enables or disables auto-negotiation for the access point LAN port. speed <mbps> Defines the access point LAN port speed as either 10 Mbps or 100 Mbps. duplex <mode> Defines the access point LAN port duplex as either half or full. username <name> Specifies the user name for 802.1x port authentication over the LAN interface. passwd <password> The 0-32 character password for the username for the 802.1x port. ip-mode <ip> Defines the AP35xx LAN port IP mode. ipadr <ip> Sets the IP address used by the LAN port. mask <ip> Defines the IP address used for AP35xx LAN port network mask. dgw <ip> Sets the Gateway IP address used by the LAN port. domain <name> Specifies the domain name used by the AP35xx LAN port. dns <ip> Defines the IP address of the primary and secondary DNS servers used by the LAN port. wins <ip> Defines the IP address of the WINS server used by the LAN port. Example admin(network.lan)> admin(network.lan)>set admin(network.lan)>set admin(network.lan)>set admin(network.lan)>set admin(network.lan)>set admin(network.lan)>set admin(network.lan)>set admin(network.lan)>set admin(network.lan)>set admin(network.lan)>set admin(network.lan)>set admin(network.lan)>set admin(network.lan)>set admin(network.lan)>set lan 1 enable name 1 engineering ethernet-port-lan 1 timeout 45 trunking 1 disable auto-negotiation disable speed 100M duplex full dns 1 192.168.0.1 dns 2 192.168.0.2 wins 1 192.168.0.254 trunking disable username phil passwd ea0258c1 Altitude 3500 Series Access Point Product Reference Guide 270 Related Commands: show Shows the current settings for the AP35xx LAN port. For information on configuring the LAN using the applet (GUI), see “Configuring the LAN Interface” on page 113. Altitude 3500 Series Access Point Product Reference Guide 271 CLI Reference Network LAN, Bridge Commands AP35xx>admin(network.lan.bridge)> Displays the AP35xx Bridge submenu. show Displays the mesh configuration parameters for the AP35xx’s LANs. set Sets the mesh configuration parameters for the AP35xx’s LANs. .. Moves to the parent menu. / Goes to the root menu. save Saves the configuration to system flash. quit Quits the CLI and exits the session. For an overview of the access point’s mesh networking options using the applet (GUI), see “Configuring Mesh Networking” on page 519. Altitude 3500 Series Access Point Product Reference Guide 272 AP35xx>admin(network.lan.bridge)> show Displays the mesh bridge configuration parameters for the AP35xx’s LANs. Syntax show Displays the mesh bridge configuration parameters for the AP35xx’s LANs. Example admin(network.lan.bridge)>show ** LAN1 Bridge Configuration ** Bridge Priority Hello Time (seconds) Message Age Time (seconds) Forward Delay Time (seconds) : : : : Entry Ageout Time (seconds) : 300 ** LAN2 Bridge Configuration ** Bridge Priority Hello Time (seconds) Message Age Time (seconds) Forward Delay Time (seconds) : : : : Entry Ageout Time (seconds) : 300 65500 2 20 15 65500 2 20 15 For an overview of the access point’s mesh networking options using the applet (GUI), see “Configuring Mesh Networking” on page 519. Altitude 3500 Series Access Point Product Reference Guide 273 CLI Reference AP35xx>admin(network.lan.bridge)> set Sets the mesh configuration parameters for the AP35xx’s LANs. Syntax set priority <LAN-idx> <seconds> Sets bridge priority time in seconds (0-65535) for specified LAN. hello <LAN-idx> <seconds> Sets bridge hello time in seconds (0-10) for specified LAN. msgage <LAN-idx> <seconds> Sets bridge message age time in seconds (6-40) for specified LAN. fwddelay <LAN-idx> <seconds> Sets bridge forward delay time in seconds (4-30) for specified LAN. ageout <LAN-idx> <seconds> Sets bridge forward table entry time in seconds (4-3600) for specified LAN. Example admin(network.lan.bridge)>set admin(network.lan.bridge)>set admin(network.lan.bridge)>set admin(network.lan.bridge)>set admin(network.lan.bridge)>set priority 2 32768 hello 2 2 msgage 2 20 fwddelay 2 15 ageout 2 300 admin(network.lan.bridge)>show ** LAN1 Mesh Configuration ** Bridge Priority :32768 Hello Time (seconds) :2 Message Age Time (seconds) :20 Forward Delay Time (seconds) :15 Entry Ageout Time (seconds) :300 ** LAN2 Mesh Configuration ** Bridge Priority :32768 Hello Time (seconds) :2 Message Age Time (seconds) :20 Forward Delay Time (seconds) :15 Entry Ageout Time (seconds) :300 For an overview of the access point’s mesh networking options using the applet (GUI), see “Configuring Mesh Networking” on page 519. Altitude 3500 Series Access Point Product Reference Guide 274 Network LAN, WLAN-Mapping Commands AP35xx>admin(network.lan.wlan-mapping)> Displays the WLAN/Lan/Vlan Mapping submenu. Syntax show Displays the VLAN list currently defined for the AP35xx. set Sets the AP35xx VLAN configuration. create Creates a new AP35xx VLAN. edit Edits the properties of an existing AP35xx VLAN. delete Deletes a VLAN. lan-map Maps AP35xx existing WLANs to an enabled LAN. vlan-map Maps AP35xx existing WLANs to VLANs. .. Moves to the parent menu. / Goes to the root menu. save Saves the configuration to system flash. quit Quits the CLI and exits the session. For an overview of the access point’s VLAN configuration options using the applet (GUI), see “Configuring VLAN Support” on page 116. Altitude 3500 Series Access Point Product Reference Guide 275 CLI Reference AP35xx>admin(network.lan.wlan-mapping)> show Displays the VLAN list currently defined for the AP35xx. These parameters are defined with the set command. Syntax show name Displays the existing list of VLAN names. vlan-cfg Shows WLAN-VLAN mapping and VLAN configuration. lan-wlan Displays a WLAN-LAN mapping summary. wlan Displays the WLAN summary list. Example admin(network.lan.wlan-mapping)>show name ----------------------------------------------------------------------------Index VLAN ID VLAN Name ----------------------------------------------------------------------------1 2 3 4 1 2 3 4 VLAN_1 VLAN_2 VLAN_3 VLAN_4 admin(network.lan.wlan-mapping)>show vlan-cfg Management VLAN Tag Native VLAN Tag WLAN mapped to VLAN VLAN Mode :1 :2 :WLAN1 :VLAN 2 :static admin(network.lan.wlan-mapping)>show lan-wlan WLANs on LAN1: :WLAN1 :WLAN2 :WLAN3 WLANs on LAN2: admin(network.lan.wlan-mapping)>show wlan WLAN1: WLAN Name ESSID Radio VLAN Security Policy QoS Policy :WLAN1 :101 : : :Default :Default For information on displaying the VLAN screens using the applet (GUI), see “Configuring VLAN Support” on page 116. Altitude 3500 Series Access Point Product Reference Guide 276 AP35xx>admin(network.lan.wlan-mapping)> set Sets VLAN parameters for the AP35xx. Syntax set mgmt- tag <id> Defines the Management VLAN tag (1-4095). native-tag <id> Sets the Native VLAN tag (1-4095). mode <wlan-idx> Sets WLAN VLAN mode (WLAN 1-16) to either dynamic or static. Example admin(network.lan.wlan-mapping)>set mgmt-tag 1 admin(network.lan.wlan-mapping)>set native-tag 2 admin(network.lan.wlan-mapping)>set mode 1 static admin(network.lan.wlan-mapping)>show vlan-cfg Management VLAN Tag Native VLAN Tag WLAN mapped to VLAN VLAN Mode :1 :2 :WLAN1 :VLAN 2 :static For information on configuring VLANs using the applet (GUI), see “Configuring VLAN Support” on page 116. Altitude 3500 Series Access Point Product Reference Guide 277 CLI Reference AP35xx>admin(network.lan.wlan-mapping)> create Creates a VLAN for the AP35xx. Syntax create VLAN-id VLAN-id Define VLAN-id (1 - 4095). <VLANname> Define VLAN-id (1 - 4095) and specify VLAN-name (1 - 31) characters in length. Example admin(network.lan.wlan-mapping)> admin(network.lan.wlan-mapping)>create 5 vlan-5 For information on creating VLANs using the applet (GUI), see “Configuring VLAN Support” on page 116. Altitude 3500 Series Access Point Product Reference Guide 278 AP35xx>admin(network.lan.wlan-mapping)> edit Modifies a VLAN’s name and ID. Syntax edit name <vlan-idx> <name> Modifies an existing VLAN name (1-31 characters in length) id <vlan-idx> <vlan-id> Modifies an existing VLAN ID (1-4095) characters in length). Example admin(network.lan.wlan-mapping)>show name ------------------------------------------------------------------------------Index VLAN ID VLAN Name ------------------------------------------------------------------------------1 1 Vlan_001 2 2 Vlan_002 3 3 Vlan_003 admin(network.lan.wlan-mapping)>edit name 1 VlanConfRoom admin(network.lan.wlan-mapping)>show name ------------------------------------------------------------------------------Index VLAN ID VLAN Name ------------------------------------------------------------------------------1 1 VlanConfRoom 2 2 Vlan_002 3 3 Vlan_003 For information on editing VLANs using the applet (GUI), see “Configuring VLAN Support” on page 116. Altitude 3500 Series Access Point Product Reference Guide 279 CLI Reference AP35xx>admin(network.lan.wlan-mapping)> delete Deletes a specific VLAN or all VLANs. Syntax delete < VLAN id> Deletes a specific VLAN ID (1-16). all Deletes all defined VLANs. Example admin(network.lan.wlan-mapping)>show name ------------------------------------------------------------------------------Index VLAN ID VLAN Name ------------------------------------------------------------------------------1 1 VlanConfRoom 2 2 Vlan_002 3 3 Vlan_003 admin(network.lan.wlan-mapping)>delete 2 admin(network.lan.wlan-mapping)>show name ------------------------------------------------------------------------------Index VLAN ID VLAN Name ------------------------------------------------------------------------------1 1 VlanConfRoom 3 3 Vlan_003 For information on deleting VLANs using the applet (GUI), see “Configuring VLAN Support” on page 116. Altitude 3500 Series Access Point Product Reference Guide 280 AP35xx>admin(network.lan.wlan-mapping)> lan-map Maps an AP35xx VLAN to a WLAN. Syntax lan-map <wlan name Maps an existing WLAN to an enabled LAN. All names and IDs are case-sensitive. <lan name> Defines enabled LAN name. All names and IDs are case-sensitive. Example admin(network.lan.wlan-mapping)>lan-map wlan1 lan1 For information on mapping VLANs using the applet (GUI), see “Configuring VLAN Support” on page 116. Altitude 3500 Series Access Point Product Reference Guide 281 CLI Reference AP35xx>admin(network.lan.wlan-mapping)> vlan-map Maps an AP35xx VLAN to a WLAN. Syntax vlan-map <wlan name> <vlan name> Maps an existing WLAN to an enabled LAN. All names and IDs are case-sensitive. Defines the existing VLAN name. All names and IDs are case-sensitive. Example admin(network.lan.wlan-mapping)>vlan-map wlan1 vlan1 For information on mapping VLANs using the applet (GUI), see “Configuring VLAN Support” on page 116. Altitude 3500 Series Access Point Product Reference Guide 282 Network LAN, DHCP Commands AP35xx>admin(network.lan.dhcp)> Displays the AP35xx DHCP submenu. The items available are displayed below. show Displays DHCP parameters. set Sets DHCP parameters. add Adds static DHCP address assignments. delete Deletes static DHCP address assignments. list Lists static DHCP address assignments. .. Goes to the parent menu. / Goes to the root menu. save Saves the configuration to system flash. quit Quits the CLI and exits the session. Altitude 3500 Series Access Point Product Reference Guide 283 CLI Reference AP35xx>admin(network.lan.dhcp)> show Shows DHCP parameter settings. Syntax show Displays DHCP parameter settings for the AP35xx. These parameters are defined with the set command. Example admin(network.lan.dhcp)>show **LAN1 DHCP Information** DHCP Address Assignment Range: Starting IP Address : 192.168.0.100 Ending IP Address : 192.168.0.254 Lease Time : 86400 **LAN2 DHCP Information** DHCP Address Assignment Range: Starting IP Address : 192.168.0.100 Ending IP Address : 192.168.0.254 Lease Time : 86400 For information on configuring DHCP using the applet (GUI), see “Configuring the LAN Interface” on page 113. Altitude 3500 Series Access Point Product Reference Guide 284 AP35xx>admin(network.lan.dhcp)> set Sets DHCP parameters for the LAN port. Syntax set range <LAN-idx> <ip1> lease <LAN-idx> <lease> <ip2> Sets the DHCP assignment range from IP address <ip1> to IP address <ip2> for the specified LAN. Sets the DHCP lease time <lease> in seconds (1-999999) for the specified LAN. Example admin(network.lan.dhcp)>set range 1 192.168.0.100 192.168.0.254 admin(network.lan.dhcp)>set lease 1 86400 admin(network.lan.dhcp)>show **LAN1 DHCP Information** DHCP Address Assignment Range: Starting IP Address : 192.168.0.100 Ending IP Address : 192.168.0.254 Lease Time : 86400 For information on configuring DHCP using the applet (GUI), see “Configuring the LAN Interface” on page 113. Altitude 3500 Series Access Point Product Reference Guide 285 CLI Reference AP35xx>admin(network.lan.dhcp)> add Adds static DHCP address assignments. Syntax add <LAN-idx> <mac> <ip> Adds a reserved static IP address to a MAC address for the specified LAN. Example admin(network.lan.dhcp)>add 1 00A0F8112233 192.160.24.6 admin(network.lan.dhcp)>add 1 00A0F1112234 192.169.24.7 admin(network.lan.dhcp)>list 1 ----------------------------------------------------------------------------Index MAC Address IP Address ----------------------------------------------------------------------------1 2 00A0F8112233 00A0F8112234 192.160.24.6 192.169.24.7 For information on adding client MAC and IP address information using the applet (GUI), see “Configuring Advanced DHCP Server Settings” on page 122. Altitude 3500 Series Access Point Product Reference Guide 286 AP35xx>admin(network.lan.dhcp)> delete Deletes static DHCP address assignments. Syntax delete <LAN-idx> <idx> <entry> <LAN-idx> all Deletes the static DHCP address entry for the specified LAN (1-LAN1, 2-LAN2) and DHCP entry index (1-30). Deletes all static DHCP addresses. Example admin(network.lan.dhcp)>list 1 ----------------------------------------------------------------------------Index MAC Address IP Address ----------------------------------------------------------------------------1 2 3 4 5 00A0F8112233 00A0F8102030 00A0F8112234 00A0F8112235 00A0F8112236 10.1.2.4 10.10.1.2 10.1.2.3 192.160.24.6 192.169.24.7 admin(network.lan.dhcp)>delete 1 ----------------------------------------------------------------------------index mac address ip address ----------------------------------------------------------------------------1 2 3 4 00A0F8102030 00A0F8112234 00A0F8112235 00A0F8112236 10.10.1.2 10.1.2.3 192.160.24.6 192.169.24.7 admin(network.lan.dhcp)>delete 1 all ----------------------------------------------------------------------------index mac address ip address ----------------------------------------------------------------------------- For information on deleting client MAC and IP address information using the applet (GUI), see “Configuring Advanced DHCP Server Settings” on page 122. Altitude 3500 Series Access Point Product Reference Guide 287 CLI Reference AP35xx>admin(network.lan.dhcp)> list Lists static DHCP address assignments. Syntax list <LAN-idx> <cr> Lists the static DHCP address assignments for the specified LAN (1-LAN1, 2 LAN2). Example admin(network.lan.dhcp)>list 1 ----------------------------------------------------------------------------Index MAC Address IP Address ----------------------------------------------------------------------------1 2 3 4 5 00A0F8112233 00A0F8102030 00A0F8112234 00A0F8112235 00A0F8112236 10.1.2.4 10.10.1.2 10.1.2.3 192.160.24.6 192.169.24.7 admin(network.lan.dhcp)> For information on listing client MAC and IP address information using the applet (GUI), see “Configuring Advanced DHCP Server Settings” on page 122. Altitude 3500 Series Access Point Product Reference Guide 288 Network Type Filter Commands AP35xx>admin(network.lan.type-filter)> Displays the AP35xx Type Filter submenu. The items available under this command include: show Displays the current Ethernet Type exception list. set Defines Ethernet Type Filter parameters. add Adds an Ethernet Type Filter entry. delete Removes an Ethernet Type Filter entry. .. Goes to the parent menu. / Goes to the root menu. save Saves the configuration to system flash. quit Quits the CLI. Altitude 3500 Series Access Point Product Reference Guide 289 CLI Reference AP35xx>admin(network.lan.type-filter)> show Displays the AP35xx’s current Ethernet Type Filter configuration. Syntax show <LAN-idx> Displays the existing Type-Filter configuration for the specified LAN. Example admin(network.lan.type-filter)>show 1 Ethernet Type Filter mode : allow ----------------------------------------------------------------------------index ethernet type ----------------------------------------------------------------------------1 8137 For information on displaying the type filter configuration using the applet, see “Setting the Type Filter Configuration” on page 123. Altitude 3500 Series Access Point Product Reference Guide 290 AP35xx>admin(network.lan.type-filter)> set Defines the AP35xx Ethernet Type Filter configuration. Syntax set mode <LAN-idx> <filter mode> allow/deny Allows or denies the AP35xx from processing a specified Ethernet data type for the specified LAN. Example admin(network.lan.type-filter)>set mode 1 allow For information on configuring the type filter settings using the applet (GUI), see “Setting the Type Filter Configuration” on page 123. Altitude 3500 Series Access Point Product Reference Guide 291 CLI Reference AP35xx>admin(network.lan.type-filter)> add Adds an Ethernet Type Filter entry. Syntax add <LAN-idx> <type> Adds entered Ethernet Type to list of data types either allowed or denied AP35xx processing permissions for the specified LAN (either LAN1 or LAN2). Example admin(network.lan.type-filter)> admin(network.wireless.type-filter)>add 1 8137 admin(network.wireless.type-filter)>add 2 0806 admin(network.wireless.type-filter)>show 1 Ethernet Type Filter mode : allow ----------------------------------------------------------------------------index ethernet type ----------------------------------------------------------------------------1 8137 2 0806 3 0800 4 8782 For information on configuring the type filter settings using the applet (GUI), see “Setting the Type Filter Configuration” on page 123. Altitude 3500 Series Access Point Product Reference Guide 292 AP35xx>admin(network.lan.type-filter)> delete Removes an Ethernet Type Filter entry individually or the entire Type Filter list. Syntax delete <LAN-idx> <entry-idx> Deletes the specified Ethernet Type entry index (1 through 16). <LAN-idx> all Deletes all Ethernet entries currently in list. Example admin(network.lan.type-filter)>delete 1 1 admin(network.lan.type-filter)>show 1 Ethernet Type Filter mode : allow ----------------------------------------------------------------------------index ethernet type ----------------------------------------------------------------------------1 0806 2 0800 3 8782 admin(network.lan.type-filter)>delete 2 all admin(network.lan.type-filter)>show 2 Ethernet Type Filter mode : allow ----------------------------------------------------------------------------index ethernet type ----------------------------------------------------------------------------- For information on configuring the type filter settings using the applet (GUI), see “Setting the Type Filter Configuration” on page 123. Altitude 3500 Series Access Point Product Reference Guide 293 CLI Reference Network WAN Commands AP35xx>admin(network.wan)> Displays the WAN submenu. The items available under this command are shown below. show Displays the AP35xx WAN configuration and the AP35xx’s current PPPoE configuration. set Defines the AP35xx’s WAN and PPPoE configuration. nat Displays the NAT submenu, wherein Network Address Translations (NAT) can be defined. vpn Goes to the VPN submenu, where the AP35xx VPN tunnel configuration can be set. content Goes to the outbound content filtering menu. dyndns Displays the Dynamic DNS submenu, wherein dyndns settings can be defined. .. Goes to the parent menu. / Goes to the root menu. save Saves the current configuration to the AP35xx system flash. quit Quits the CLI and exits the current session. For an overview of the WAN configuration options using the applet (GUI), see “Configuring WAN Settings” on page 125. Altitude 3500 Series Access Point Product Reference Guide 294 AP35xx>admin(network.wan)> show Displays the AP35xx WAN port parameters. Syntax show Shows the general IP parameters for the WAN port along with settings for the WAN interface. Example admin(network.wan)>show Status WAN DHCP Client Mode IP Address Network Mask Default Gateway Primary DNS Server Secondary DNS Server : : : : : : : Auto-negotiation Speed Duplex : disable : 100M : full WAN WAN WAN WAN WAN WAN WAN : : : : : : : disable disable disable disable disable disable disable : : : : : : enable JohnDoe ******* enable 600 chap IP IP IP IP IP IP IP PPPoE PPPoE PPPoE PPPoE PPPoE PPPoE PPPoE 2 3 4 5 6 7 8 Mode User Name Password keepalive mode Idle Time Authentication Type State enable enable 157.235.112.32 0.0.0.0 0.0.0.0 0.0.0.0 0.0.0.0 admin(network.wan)> For an overview of the WAN configuration options available using the applet (GUI), see “Configuring WAN Settings” on page 125. Altitude 3500 Series Access Point Product Reference Guide 295 CLI Reference AP35xx>admin(network.wan)> set Defines the configuration of the AP35xx WAN port. Syntax set wan enable/disable Enables or disables the AP35xx WAN port. dhcp enable/disable Enables or disables WAN DHCP Client mode. ipadr <idx> mask <a.b.c.d> Sets the subnet mask for the AP35xx WAN interface. dgw <a.b.c.d> Sets the default gateway IP address to <a.b.c.d>. dns <idx> autonegotiation enable/disable Enables or disables auto-negotiation for the access point WAN port. speed <mbps> Defines the access point WAN port speed as either 10 Mbps or 100 Mbps. duplex <mode> Defines the access point WAN port duplex as either half or full. pppoe mode enable/disable Enables or disables PPPoE. user <name> Sets PPPoE user name. passwd <password> Defines the PPPoE password. ka enable/disable Enables or disables PPPoE keepalive. idle <time> Sets PPPoE idle time. type <auth-type> Sets PPPoE authentication type. <a.b.c.d> <a.b.c.d> Sets up to 8 (using <indx> from 1 to 8) IP addresses <a.b.c.d> for the AP35xx WAN interface. Sets the IP address of one or two DNS servers, where <indx> indicates either the primary (1) or secondary (2) server, and <a.b.c.d> is the IP address of the server. Example admin(network.wan)> admin(network.wan)>set admin(network.wan)>set admin(network.wan)>set admin(network.wan)>set admin(network.wan)>set admin(network.wan)>set admin(network.wan)>set admin(network.wan)>set admin(network.wan)>set admin(network.wan)>set admin(network.wan)>set admin(network.wan)>set admin(network.wan)>set admin(network.wan)>set dhcp disable ipadr 157.169.22.5 dgw 157.169.22.1 dns 1 157.169.22.2 auto-negotiation disable speed 10M duplex half mask 255.255.255.000 pppoe mode enable pppoe type chap pppoe user jk pppoe passwd @#$goodpassword%$# pppoe ka enable pppoe idle 600 For an overview of the WAN configuration options available using the applet (GUI), see “Configuring WAN Settings” on page 125. Altitude 3500 Series Access Point Product Reference Guide 296 Network WAN NAT Commands AP35xx>admin(network.wan.nat)> Displays the NAT submenu. The items available under this command are shown below. show Displays the AP35xx’s current NAT parameters for the specified index. set Defines the AP35xx NAT settings. add Adds NAT entries. delete Deletes NAT entries. list Lists NAT entries. .. Goes to the parent menu. / Goes to the root menu. save Saves the configuration to system flash. quit Quits the CLI. For an overview of the NAT configuration options available using the applet (GUI), see “Configuring Network Address Translation (NAT) Settings” on page 129. Altitude 3500 Series Access Point Product Reference Guide 297 CLI Reference AP35xx>admin(network.wan.nat)> show Displays AP35xx NAT parameters. Syntax show <idx> <cr> Displays AP35xx NAT parameters for the specified NAT index. Example admin(network.wan.nat)>show 2 WAN IP Mode WAN IP Address NAT Type Inbound Mappings : : : : enable 157.235.91.2 1-to-many Port Forwarding unspecified port forwarding mode unspecified port fwd. ip address one to many nat mapping : enable : 111.223.222.1 ------------------------------------------------------------------------------LAN No. WAN IP ------------------------------------------------------------------------------1 157.235.91.2 2 157.235.91.2 admin(network.wan.nat)> For an overview of the NAT options available using the applet (GUI), see “Configuring Network Address Translation (NAT) Settings” on page 129. Altitude 3500 Series Access Point Product Reference Guide 298 AP35xx>admin(network.wan.nat)> set Sets NAT inbound and outbound parameters. Syntax set type <index> <type> Sets the type of NAT translation for WAN address index <idx> (1-8) to <type> (none, 1-to-1, or 1-tomany). ip <index> <ip> Sets NAT IP mapping associated with WAN address <idx> to the specified IP address <ip>. inb <index> <ip> <mode> Sets inbound IP address for specified index <index> <ip address> Sets inbound mode for specified index <index> <enable/disable> outb <index> <ip> <from> <to> Sets outbound IP address for specified index <index> <ip address> Sets outbound NAT destination <LAN1 or LAN2> <WAN ip 1-8 or None>. Example admin(network.wan.nat)>set type 2 1-to-many admin(network.wan.nat)>set ip 2 10.1.1.1 (this command is used when NAT is 1-to-1) admin(network.wan.nat)>show 2 WAN IP Mode WAN IP Address NAT Type Inbound Mappings : : : : enable 157.235.91.2 1-to-many Port Forwarding unspecified port forwarding mode unspecified port fwd. ip address one to many nat mapping : enable : 111.223.222.1 ------------------------------------------------------------------------------LAN No. WAN IP ------------------------------------------------------------------------------1 157.235.91.2 2 10.1.1.1 For an overview of the NAT options available using the applet (GUI), see “Configuring Network Address Translation (NAT) Settings” on page 129. Altitude 3500 Series Access Point Product Reference Guide 299 CLI Reference AP35xx>admin(network.wan.nat)> add Adds NAT entries. Syntax add <idx> <name> <tran> <port1> <port2> <ip> <dst_port> Sets an inbound network address translation (NAT) for WAN address <idx>, where <name> is the name of the entry (1 to 7 characters), <tran> is the transport protocol (one of tcp, udp, icmp, ah, esp, gre, or all), <port1> is the starting port number in a port range, <port2> is the ending port number in a port range, <ip> is the internal IP address, and <dst_port> is the (optional) internal translation port. Example admin(network.wan.nat)>add 1 indoors udp 20 29 10.10.2.2 admin(network.wan.nat)>list 1 ----------------------------------------------------------------------------index name prot start port end port internal ip translation port ----------------------------------------------------------------------------1 indoor udp 20 29 10.10.2.2 0 Related Commands: delete Deletes one of the inbound NAT entries from the list. list Displays the list of inbound NAT entries. For an overview of the NAT options available using the applet (GUI), see “Configuring Network Address Translation (NAT) Settings” on page 129. Altitude 3500 Series Access Point Product Reference Guide 300 AP35xx>admin(network.wan.nat)> delete Deletes NAT entries. Syntax delete <idx> <entry> Deletes a specified NAT index entry <entry> associated with the WAN. <idx> all Deletes all NAT entries associated with the WAN. Example admin(network.wan.nat)>list 1 ----------------------------------------------------------------------------index name prot start port end port internal ip translation port ----------------------------------------------------------------------------1 special tcp 20 21 192.168.42.16 21 admin(network.wan.nat)>delete 1 1 ^ admin(network.wan.nat)>list 1 ----------------------------------------------------------------------------index name prot start port end port internal ip translation port ----------------------------------------------------------------------------- Related Commands: add Adds entries to the list of inbound NAT entries. list Displays the list of inbound NAT entries. For an overview of the NAT options available using the applet (GUI), see “Configuring Network Address Translation (NAT) Settings” on page 129. Altitude 3500 Series Access Point Product Reference Guide 301 CLI Reference AP35xx>admin(network.wan.nat)> list Lists AP35xx NAT entries for the specified index. Syntax list <idx> Lists the inbound NAT entries associated with the WAN index (1-8). Example admin(network.wan.nat)>list 1 ----------------------------------------------------------------------------index name transport start port end port internal ip translation port ----------------------------------------------------------------------------1 special tcp 20 21 192.168.42.16 21 Related Commands: 1 delete Deletes inbound NAT entries from the list. add Adds entries to the list of inbound NAT entries. For an overview of the NAT options available using the applet (GUI), see “Configuring Network Address Translation (NAT) Settings” on page 129. Altitude 3500 Series Access Point Product Reference Guide 302 Network WAN, VPN Commands AP35xx>admin(network.wan.vpn)> Displays the VPN submenu. The items available under this command include: add Adds VPN tunnel entries. set Sets key exchange parameters. delete Deletes VPN tunnel entries. list Lists VPN tunnel entries reset Resets all VPN tunnels. stats Lists security association status for the VPN tunnels. ikestate Displays an Internet Key Exchange (IKE) summary. .. Goes to the parent menu. / Goes to the root menu. save Saves the configuration to system flash. quit Quits the CLI. For an overview of the VPN options available using the applet (GUI), see “Configuring VPN Tunnels” on page 194. Altitude 3500 Series Access Point Product Reference Guide 303 CLI Reference AP35xx>admin(network.wan.vpn)> add Adds a VPN tunnel entry. Syntax add <name> <subnet-idx> <local WAN IP> <remote subnet> <remote subnet mask> <remote gateway> Creates a tunnel <name> (1 to 13 characters) to gain access through local WAN IP <local WAN IP> from the remote subnet with IP address <remote subnet> and subnet mask <remote subnet mask> using the remote gateway <remote gateway>. Example admin(network.wan.vpn)>add 2 SJSharkey 209.235.44.31 206.107.22.46 255.255.255.224 206.107.22.1 If tunnel type is Manual, proper SPI values and Keys must be configured after adding the tunnel admin(network.wan.vpn)> For information on configuring VPN using the applet (GUI), see “Configuring VPN Tunnels” on page 194. Altitude 3500 Series Access Point Product Reference Guide 304 AP35xx>admin(network.wan.vpn)> set Sets VPN entry parameters. Syntax set type <name> <tunnel type> Sets the tunnel type <name> to Auto or Manual for the specified tunnel name. authalgo <name> <authalgo> Sets the authentication algorithm for <name> to (None, MD5, or SHA1). authkey <name> <dir> <authkey> Sets the AH authentication key (if type is Manual) for tunnel <name> with the direction set to IN or OUT, and the manual authentication key set to <authkey>. (The key size is 32 hex characters for MD5, and 40 hex characters for SHA1). esp-type <name> <esptype> Sets the Encapsulating Security Payload (ESP) type. Options include None, ESP, or ESP-AUTH. esp-encalgo <name> <escalgo> Sets the ESP encryption algorithm. Options include DES, 3DES, AES128, AES192, or AES256). esp-enckey <name> <dir> <enckey> Sets the Manual Encryption Key in ASCII for tunnel <name> and direction IN or OUT to the key <enc-key>. The size of the key depends on the encryption algorithm. - 16 hex characters for DES - 48 hex characters for 3DES - 32 hex characters for AES128 - 48 hex characters for AES192 - 64 hex characters for AES256 esp-authalgo <name> <authalgo> Sets the ESP authentication algorithm. Options include MD5 or SHA1. esp-authkey <name> <dir> <authkey> Sets ESP Authentication key <name> either for IN or OUT direction to <authkey>, an ASCII string of hex characters. If authalgo is set to MD5, then provide 32 hex characters. If authalgo is set to SHA1, provide 40 hex characters. spi <name> <algo> <dir> usepfs <name> <mode> <value> Sets 6 character IN(bound) or OUT(bound) for AUTH (Manual Authentication) or ESP for <name> to <spi> (a hex value more than 0xFF) <value>. Enables or disables Perfect Forward Secrecy for <name>. Altitude 3500 Series Access Point Product Reference Guide 305 CLI Reference salife <name> <lifetime> Defines the name of the tunnel <name> the Security Association Life Time <30065535> applies to in seconds. ike opmode <name> <opmode> Sets the Operation Mode of IKE for <name> to Main or Aggr(essive). myidtype <name> <idtype> Sets the Local ID type for IKE authentication for <name> (1 to 13 characters) to <idtype> (IP, FQDN, or UFQDN). remidtype <name> <idtype> Sets the Remote ID type for IKE authentication for <name> (1 to 13 characters) to <idtype> (IP, FQDN, or UFQDN). myiddata <name> <idtype> Sets the Local ID data for IKE authentication for <name> to <idtype>. This value is not required when the ID type is set to IP. remiddata <name> <idtype> Sets the Local ID data for IKE authentication for <name> to <idtype>. This value is not required when the ID type is set to IP. authtype <name> <authtype> Sets the IKE Authentication type for <name> to <authtype> (PSK or RSA). authalgo <name> <authalgo> Sets the IKE Authentication Algorithm for <name> to MD5 or SHA1. phrase <name> <phrase> Sets the IKE Authentication passphrase for <name> to <phrase>. encalgo <name> <encalgo> Sets the IKE Encryption Algorithm for <name> to <encalgo> (one of DES, 3DES, AES128, AES192, or AES256). lifetime <name> <lifetime> Sets the IKE Key life time in seconds for <name> to <lifetime>. group <name> <group> Sets the IKE Diffie-Hellman Group for <name> to either G768 or G1024. For information on configuring VPN using the applet (GUI), see “Configuring VPN Tunnels” on page 194. Altitude 3500 Series Access Point Product Reference Guide 306 AP35xx>admin(network.wan.vpn)> delete Deletes VPN tunnel entries. Syntax delete all Deletes all VPN entries. <name> Deletes VPN entries by supplied name. Example admin(network.wan.vpn)>list -------------------------------------------------------------------------Tunnel Name Type Remote IP/Mask Remote Gateway Local WAN IP -------------------------------------------------------------------------Eng2EngAnnex Manual 192.168.32.2/24 192.168.33.1 192.168.24.198 SJSharkey Manual 206.107.22.45/27 206.107.22.2 209.235.12.55 admin(network.wan.vpn)>delete Eng2EngAnnex admin(network.wan.vpn)>list -------------------------------------------------------------------------Tunnel Name Type Remote IP/Mask Remote Gateway Local WAN IP -------------------------------------------------------------------------SJSharkey Manual 206.107.22.45/27 206.107.22.2 209.235.12.55 admin(network.wan.vpn)> For information on configuring VPN using the applet (GUI), see “Configuring VPN Tunnels” on page 194. Altitude 3500 Series Access Point Product Reference Guide 307 CLI Reference AP35xx>admin(network.wan.vpn)> list Lists VPN tunnel entries. Syntax list <cr> Lists all tunnel entries. <name> Lists detailed information about tunnel named <name>. Note that the <name> must match case with the name of the VPN tunnel entry Example admin(network.wan.vpn)>list -------------------------------------------------------------------------Tunnel Name Type Remote IP/Mask Remote Gateway Local WAN IP -------------------------------------------------------------------------Eng2EngAnnex Manual 192.168.32.2/24 192.168.33.1 192.168.24.198 SJSharkey Manual 206.107.22.45/27 206.107.22.2 209.235.12.55 admin(network.wan.vpn)>list SJSharkey -------------------------------------------------------------------------Detail listing of VPN entry: -------------------------------------------------------------------------Name : SJSharkey Local Subnet : 1 Tunnel Type : Manual Remote IP : 206.107.22.45 Remote IP Mask : 255.255.255.224 Remote Security Gateway : 206.107.22.2 Local Security Gateway : 209.239.160.55 AH Algorithm : None Encryption Type : ESP Encryption Algorithm : DES ESP Inbound SPI : 0x00000100 ESP Outbound SPI : 0x00000100 For information on displaying VPN information using the applet (GUI), see “Viewing VPN Status” on page 205. Altitude 3500 Series Access Point Product Reference Guide 308 AP35xx>admin(network.wan.vpn)> reset Resets all of the AP35xx’s VPN tunnels. Syntax reset Resets all VPN tunnel states. Example admin(network.wan.vpn)>reset VPN tunnels reset. admin(network.wan.vpn)> For information on configuring VPN using the applet (GUI), see “Configuring VPN Tunnels” on page 194. Altitude 3500 Series Access Point Product Reference Guide 309 CLI Reference AP35xx>admin(network.wan.vpn)> stats Lists statistics for all active tunnels. Syntax stats Display statistics for all VPN tunnels. Example admin(network.wan.vpn)>stats ----------------------------------------------------------------------------Tunnel Name Status SPI(OUT/IN) Life Time Bytes(Tx/Rx) ----------------------------------------------------------------------------Eng2EngAnnex Not Active SJSharkey Not Active For information on displaying VPN information using the applet (GUI), see “Viewing VPN Status” on page 205. Altitude 3500 Series Access Point Product Reference Guide 310 AP35xx>admin(network.wan.vpn)> ikestate Displays statistics for all active tunnels using Internet Key Exchange (IKE). Syntax ikestate Displays status about Internet Key Exchange (IKE) for all tunnels. In particular, the table indicates whether IKE is connected for any of the tunnels, it provides the destination IP address, and the remaining lifetime of the IKE key. Example admin(network.wan.vpn)>ikestate ---------------------------------------------------------------------Tunnel Name IKE State Dest IP Remaining Life ---------------------------------------------------------------------Eng2EngAnnex Not Connected -----SJSharkey Not Connected -----admin(network.wan.vpn)> For information on configuring IKE using the applet (GUI), see “Configuring IKE Key Settings” on page 202. Altitude 3500 Series Access Point Product Reference Guide 311 CLI Reference Network WAN Content commands AP35xx>admin(network.wan.content)> Displays the Outbound Content Filtering menu. The items available under this command include: addcmd Adds control commands to block outbound traffic. delcmd Deletes control commands to block outbound traffic. list Lists application control commands. .. Goes to the parent menu. / Goes to the root menu. save Saves the configuration to system flash. quit Quits the CLI. Altitude 3500 Series Access Point Product Reference Guide 312 AP35xx>admin(network.wan.content)> addcmd Adds control commands to block outbound traffic. Syntax addcmd web Adds WEB commands to block outbound traffic. proxy Adds a Web proxy command. activex Adds activex files. file Adds Web URL extensions (10 files maximum) smtp Adds SMTP commands to block outbound traffic. helo helo command mail mail command rcpt rcpt command data data command quit quit command send send command saml saml command reset reset command vrfy vrfy command expn expn command ftp Adds FTP commands to block outbound traffic. put store command get retrieve command ls directory list command mkdir create directory command cd change directory command pasv passive mode command Example admin(network.wan.content)>addcmd web proxy admin(network.wan.content)>addcmd smtp data admin(network.wan.content)>addcmd ftp put Altitude 3500 Series Access Point Product Reference Guide 313 CLI Reference AP35xx>admin(network.wan.content)> delcmd Deletes control commands to block outbound traffic. Syntax delcmd web Deletes WEB commands to block outbound traffic. proxy Deletes a Web proxy command. activex Deletes activex files. file Deletes Web URL extensions (10 files maximum) smtp Deletes SMTP commands to block outbound traffic. helo helo command mail mail command rcpt rcpt command data data command quit quit command send send command saml saml command reset reset command vrfy vrfy command expn expn command ftp Deletes FTP commands to block outbound traffic. put store command get retrieve command ls directory list command mkdir create directory command cd change directory command pasv passive mode command Example admin(network.wan.content)>delcmd web proxy admin(network.wan.content)>delcmd smtp data admin(network.wan.content)>delcmd ftp put Altitude 3500 Series Access Point Product Reference Guide 314 AP35xx>admin(network.wan.content)> list Lists application control commands. Syntax list web Lists WEB application control record. smtp Lists SMTP application control record. ftp Lists FTP application control record. Example admin(network.wan.content)>list web HTTP Files/Commands Web Proxy ActiveX filename : deny : allow : admin(network.wan.content)>list smtp SMTP Commands HELO MAIL RCPT DATA QUIT SEND SAML RESET VRFY EXPN : : : : : : : : : : deny allow allow deny allow allow allow allow allow allow admin(network.wan.content)>list ftp FTP Commands Storing Files Retreiving Files Directory Files Create Directory Change Directory Passive Operation : : : : : : deny allow allow allow allow allow Altitude 3500 Series Access Point Product Reference Guide 315 CLI Reference Network WAN, Dynamic DNS Commands AP35xx>admin(network.wan.dyndns)> Displays the Dynamic DNS submenu. The items available under this command include: set Sets Dynamic DNS parameters. update Sets key exchange parameters. show Shows the Dynamic DNS configuration. .. Goes to the parent menu. / Goes to the root menu. save Saves the configuration to system flash. quit Quits the CLI. For an overview of the Dynamic DNS options available using the applet (GUI), see “Configuring Dynamic DNS” on page 132. Altitude 3500 Series Access Point Product Reference Guide 316 AP35xx>admin(network.wan.dyndns)> set Sets the access point’s Dynamic DNS configuration. Syntax set mode enable/disable Enables or disables the Dynamic DNS service for the access point. username <name> Enter a 1–32 character username for the account used for the access point. password <password> Enter a 1–32 character password for the account used for the access point. hostname <host> Enter a 1–32 character hostname for the account used for the access point. Example admin(network.wan.dyndns)>set admin(network.wan.dyndns)>set admin(network.wan.dyndns)>set admin(network.wan.dyndns)>set mode enable username percival password mudskipper host greengiant For an overview of the Dynamic DNS options available using the applet (GUI), see “Configuring Dynamic DNS” on page 132. Altitude 3500 Series Access Point Product Reference Guide 317 CLI Reference AP35xx>admin(network.wan.dyndns)> update Updates the access point’s current WAN IP address with the DynDNS service. Syntax update Updates the access point’s current WAN IP address with the DynDNS service (when DynDNS is enabled), Example admin(network.wan.dyndns)>update IP Address Hostname : 157.235.91.231 : greengiant For an overview of the Dynamic DNS options available using the applet (GUI), see “Configuring Dynamic DNS” on page 132. Altitude 3500 Series Access Point Product Reference Guide 318 AP35xx>admin(network.wan.dyndns)> show Shows the current Dynamic DNS configuration. Syntax show Shows the access point’s current Dynamic DNS configuration. Example admin(network.wan.dyndns)>show DynDNS Configuration Mode Username Password Hostname : : : : enable percival ******** greengiant DynDNS Update Response IP Address Hostname Status : 157.235.91.231 : greengiant : OK For an overview of the Dynamic DNS options available using the applet (GUI), see “Configuring Dynamic DNS” on page 132. Altitude 3500 Series Access Point Product Reference Guide 319 CLI Reference Network Wireless Commands AP35xx>admin(network.wireless) Displays the AP35xx wireless submenu. The items available under this command include: set Sets the wireless parameters. show Shows the wireless parameters. wlan Goes to the WLAN submenu. security Goes to the Security Policy submenu. acl Goes to the MU Access Control Policy submenu. radio Goes to the Radio configuration submenu. qos Goes to the Quality of Service submenu. rate-limiting Goes to the Rate Limiting submenu. rogue-ap Goes to the Rogue AP Detection submenu. wips Goes to the WLAN Intrusion Prevention submenu. mu-locationing Goes to the MU Locationing submenu. multicast Goes to the Multicast submenu. .. Goes to the parent menu. / Goes to the root menu. save Saves the configuration to system flash. quit Quits the CLI. Altitude 3500 Series Access Point Product Reference Guide 320 Network WLAN Commands AP35xx>admin(network.wireless.wlan)> Displays the AP35xx wireless LAN (WLAN) submenu. The items available under this command include: show Displays the AP35xx’s current WLAN configuration. create Defines the parameters of a new WLAN. edit Modifies the properties of an existing WLAN. delete Deletes an existing WLAN. hotspot Displays the WLAN hotspot menu. ipfpolicy Goes to the WLAN IP Filter Policy menu. .. Goes to the parent menu. / Goes to the root menu. save Saves the configuration to system flash. quit Quits the CLI. For an overview of the Wireless configuration options available to the using the applet (GUI), see “Enabling Wireless LANs (WLANs)” on page 133. Altitude 3500 Series Access Point Product Reference Guide 321 CLI Reference AP35xx>admin(network.wireless.wlan)> show Displays the AP35xx’s current WLAN configuration. Syntax show summary wlan Displays the current configuration for existing WLANs. <number> Displays the configuration for the requested WLAN (WLAN 1 through 16). Example admin(network.wireless.wlan)>show summary WLAN 1: WLAN name ESS ID Radio VLAN Security Policy QoS Policy Rate Limiting : : : : : : : Lobby 101 11a,11b/g <none> Default Default disabled admin(network.wireless.wlan)>show wlan 1 ESS Identifier WLAN Name 802.11a Radio 802.11b/g Radio Client Bridge Mesh Backhaul Hotspot Maximum MUs Security Policy MU Access Control Kerberos User Name Kerberos Password Disallow MU to MU Communication Use Secure Beacon Accept Broadcast ESSID QoS Policy per-mu rate limiting per-mu rate limit (wired-to-wl) per-mu rate limit (wl-to-wired) : : : : : : : : : : : : : : : : : : 101 Lobby available available not available not available 127 Default Default ******** disable disable enable Default disable 65536000 kb 65536000 kb For information on displaying WLAN information using the applet (GUI), see “Enabling Wireless LANs (WLANs)” on page 133. Altitude 3500 Series Access Point Product Reference Guide 322 AP35xx>admin(network.wireless.wlan)> create Defines the parameters of a new WLAN. Syntax create ess wlan-name 11a 11bg mesh hotspot max-client security acl passwd no-mu-mu sbeacon bcast qos rate-limiting limit-w2wl limit-wl2w : : : : : : : : : : : : : : : : : : : set ESS ID set WLAN name enable/disable 802.11a radio enable/disable 802.11b/g radio enable/disable Client Bridge Mesh Backhaul enable/disable Hotspot Mode set maximum number of Clients set Security Policy name set MU Access Control Policy name set WLAN Kerberos password enable/disable Disallow MU-MU Communication enable/disable Use Secure Beacon enable/disable WLAN Accept Broadcast ESSID set Quality of Service Policy name enable/disable Per-MU Rate Limiting set per-MU rate limit (wired-to-wireless) set per-MU rate limit (wireless-to-wired) Example admin(network.wireless.wlan.create)>show wlan ESS Identifier WLAN Name 802.11a Radio 802.11b/g Radio Client Bridge Mesh Backhaul Hotspot Maximum MUs Security Policy MU Access Control Kerberos User Name Kerberos Password Disallow MU to MU Communication Use Secure Beacon Accept Broadcast ESSID QoS Policy per-mu rate limiting per-mu rate limit (wired-to-wl) per-mu rate limit (wl-to-wired) : : : : : : : : : : : : : : : : : : not available not available not available not available 127 Default Default ******** disable disable enable Default disable 1000 kb 1000 kb admin(network.wireless.wlan.create)>show security ---------------------------------------------------------------------Secu Policy Name Authen Encryption Associated WLANs ---------------------------------------------------------------------1 Default Manual no encrypt Front Lobby 2 WEP Demo Manual WEP 64 2nd Floor 3 Open Manual no encrypt 1st Floor Altitude 3500 Series Access Point Product Reference Guide 323 CLI Reference WPA Countermeasure enable admin(network.wireless.wlan.create)>show acl ---------------------------------------------------------------------ACL Policy Name Associated WLANs ---------------------------------------------------------------------1 Default Front Lobby 2 Admin 3rd Floor 3 Demo Room 5th Floor admin(network.wireless.wlan.create)>show qos ---------------------------------------------------------------------QOS Policy Name Associated WLANs ---------------------------------------------------------------------1 Default Front Lobby 2 Voice Audio Dept 3 Video Video Dept The CLI treats the following as invalid characters, thus they should not be used in the creation of an ESSID (or other): -> space < > | " & , \ ? For information on creating a WLAN using the applet (GUI), see “Creating/Editing Individual WLANs” on page 135. Altitude 3500 Series Access Point Product Reference Guide 324 AP35xx>admin(network.wireless.wlan)> edit Edits the properties of an existing WLAN policy. Syntax edit <idx> Edits the sequence number (index) in the WLAN summary. For information on editing a WLAN using the applet (GUI), see “Creating/Editing Individual WLANs” on page 135. Altitude 3500 Series Access Point Product Reference Guide 325 CLI Reference AP35xx>admin(network.wireless.wlan)> delete Deletes an existing WLAN. Syntax delete <wlanname> Deletes a target WLAN by name supplied. all Deletes all WLAN configurations. For information on deleting a WLAN using the applet (GUI), see “Creating/Editing Individual WLANs” on page 135. Altitude 3500 Series Access Point Product Reference Guide 326 AP35xx>admin(network.wireless.wlan.hotspot)> Displays the Hotspot submenu. The items available under this command include: show Show hotspot parameters. redirection Goes to the hotspot redirection menu. radius Goes to the hotspot RADIUS menu. white-list Goes to the hotspot white-list menu. save Saves the configuration to system flash. quit Quits the CLI. .. Goes to the parent menu. / Goes to the root menu. For information on configuring the Hotspot options available to the using the applet (GUI), see “Configuring WLAN Hotspot Support” on page 146. Altitude 3500 Series Access Point Product Reference Guide 327 CLI Reference AP35xx>admin(network.wireless.wlan.hotspot)> show Displays the current AP35xx Rogue AP detection configuration. Syntax show hotspot <idx> Shows hotspot parameters per wlan index (1-16). Example admin(network.wireless.wlan.hotspot)>show hotspot 1 WLAN1 Hotspot Mode Hotspot Page Location External Login URL External Welcome URL External Fail URL : enable : default : www.sjsharkey.com : : Primary Server Ip adr Primary Server Port Primary Server Secret Secondary Server Ip adr Secondary Server Port Secondary Server Secret Accounting Mode Accounting Server Ip adr Accounting Server Port Accounting Server Secret Accoutning Timeout Accoutning Retry-count Session Timeout Mode Session Timeout :157.235.21.21 :1812 :****** :157.235.32.12 :1812 :****** :disable :0.0.0.0 :1813 :******** :10 :3 :enable :15 Whitelist Rules? ----------------------------------------------------------------------------Idx IP Address ----------------------------------------------------------------------------1 157.235.121.12 For information on configuring the Hotspot options available to the access point using the applet (GUI), see “Configuring WLAN Hotspot Support” on page 146. Altitude 3500 Series Access Point Product Reference Guide 328 AP35xx>admin(network.wireless.wlan.hotspot)> redirection Goes to the hotspot redirection menu. redirection set <page-loc> Sets the hotspot http-re-direction by index (1-16) for the specified URL. <exturl> Shows hotspot http-redirection details for specified index (1-16) for specified page (login, welcome, fail) and target URL. show Shows hotspot http-redirection details. save Saves the updated hotspot configuration to flash memory. quit Quits the CLI session. .. Goes to the parent menu. / Goes to the root menu. Example admin(network.wireless.wlan.hotspot)>set page-loc 1 www.sjsharkey.com admin(network.wireless.wlan.hotspot)>set exturl 1 fail www.sjsharkey.com For information on configuring the Hotspot options available to the access point using the applet (GUI), see “Configuring WLAN Hotspot Support” on page 146. Altitude 3500 Series Access Point Product Reference Guide 329 CLI Reference AP35xx>admin(network.wireless.wlan.hotspot)> radius Goes to the hotspot RADIUS menu. Syntax set Sets the RADIUS hotspot configuration. show Shows RADIUS hotspot server details. save Saves the configuration to system flash. quit Quits the CLI. .. Goes to the parent menu. / Goes to the root menu. For information on configuring the Hotspot options available to the access point using the applet (GUI), see “Configuring WLAN Hotspot Support” on page 146. Altitude 3500 Series Access Point Product Reference Guide 330 AP35xx>admin(network.wireless.wlan.hotspot.radius)> set Sets the RADIUS hotspot configuration. Syntax set server <idx> <srvr_type> <ipadr> Sets the RADIUS hotspot server IP address per wlan index (1-16) port <idx> <srvr_type> <port> Sets the RADIUS hotspot server port per wlan index (1-16) secret <idx> <srvr_type> <secret> Sets the RADIUS hotspot server shared secret password. acct-mode <idx> <mode> Sets the RADIUS hotspot server accounting mode (enable/disable) acct-server <idx> <ipadr> Sets the RADIUS hotspot accounting server IP address per wlan index (1-16). acct-port <idx> <port> Sets the RADIUS hotspot accounting server port per wlan index (1-16). acct-secret <idx> <secret> Sets the RADIUS hotspot server shared secret password per wlan index (1-16). acct-timeout <idx> <timeout> Sets the RADIUS hotspot server accounting timeout period in seconds (1-25). acct-retry <idx> <retry_count> Sets the RADIUS hotspot server accounting retry interval (1-10). sess-mode <idx> <mode> Enables or disables the use of a hotspot timeout interval for the specified wlan index (1-16) sess-timeout <idx> <timeout> Sets the RADIUS hotspot server timeout interval for the specified index (1-16) between 15–180 minutes. Example admin(network.wireless.wlan.hotspot.radius)>set admin(network.wireless.wlan.hotspot.radius)>set admin(network.wireless.wlan.hotspot.radius)>set admin(network.wireless.wlan.hotspot.radius)>set admin(network.wireless.wlan.hotspot.radius)>set admin(network.wireless.wlan.hotspot.radius)>set admin(network.wireless.wlan.hotspot.radius)>set admin(network.wireless.wlan.hotspot.radius)>set admin(network.wireless.wlan.hotspot.radius)>set admin(network.wireless.wlan.hotspot.radius)>set admin(network.wireless.wlan.hotspot.radius)>set server 1 primary 157.235.121.1 port 1 primary 1812 secret 1 primary sjsharkey acct-mode 1 enable acct-server 1 157.235.14.14 acct-port 1 1812 acct-secret londonfog acct-timeout 1 25 acct-retry 1 10 sess-mode 1 enable sess-timeout 1 15 For information on configuring the Hotspot options available to the access point using the applet (GUI), see “Configuring WLAN Hotspot Support” on page 146. Altitude 3500 Series Access Point Product Reference Guide 331 CLI Reference AP35xx>admin(network.wireless.wlan.hotspot.radius)> show Shows RADIUS hotspot server details. Syntax show radius <idx> Displays RADIUS hotspot server details per index (1-16) Example admin(network.wireless.wlan.hotspot.radius)>show radius 1 WLAN 1 Hotspot Mode : enable Primary Server Ip adr : 157.235.12.12 Primary Server Port : 1812 Primary Server Secret : ****** Secondary Server Ip adr : 0.0.0.0 Secondary Server Port : 1812 Accounting Mode : enable Accounting Server Ip adr : 157.235.15.16 Accounting Server Port : 1813 Accounting Server Secret : ****** Accounting Timeout : 10 Accounting Retry-count : 3 Session Timeout Mode : enable admin(network.wireless.wlan.hotspot.radius)> For information on configuring the Hotspot options available to the access point using the applet (GUI), see “Configuring WLAN Hotspot Support” on page 146. Altitude 3500 Series Access Point Product Reference Guide 332 AP35xx>admin(network.wireless.wlan.hotspot)> white-list Goes to the hotspot white-list menu. Syntax white-list add <rule> Adds hotspot whitelist rules by index (1-16) for specified IP address. clear Clears hotspot whitelist rules for specified index (1-16). show Shows hotspot whitelist rules for specified index (1-16). save Saves the updated hotspot configuration to flash memory. quit Quits the CLI session. .. Goes to the parent menu. / Goes to the root menu. Example admin(network.wireless.wlan.hotspot.whitelist)>add rule 1 157.235.21.21 admin(network.wireless.wlan.hotspot.whitelist)>show white-rule 1 WLAN 1 Hotspot Mode disable WhiteList Rules -------------------------------------------------------------------------------Idx IP Address -------------------------------------------------------------------------------1 157.235.21.21 For information on configuring the Hotspot options available to the access point using the applet (GUI), see “Configuring WLAN Hotspot Support” on page 146. Altitude 3500 Series Access Point Product Reference Guide 333 CLI Reference Network Security Commands AP35xx>admin(network.wireless.security)> Displays the AP35xx wireless security submenu. The items available under this command include: show Displays the AP35xx’s current security configuration. set Sets security parameters. create Defines the parameters of a security policy. edit Edits the properties of an existing security policy. delete Removes a specific security policy. .. Goes to the parent menu. / Goes to the root menu. save Saves the configuration to system flash. quit Quits the CLI. For information on the security configuration options available to the access point using the applet (GUI), see “Configuring Security Options” on page 169. Altitude 3500 Series Access Point Product Reference Guide 334 AP35xx>admin(network.wireless.security)> show Displays the AP35xx’s current security configuration. Syntax show summary policy Displays list of existing security policies (1-16). <id> Displays the specified security policy <id>. Example admin(network.wireless.security)>show summary ---------------------------------------------------------------------Secu Policy Name Authen Encryption Associated WLANs ---------------------------------------------------------------------1 Default Manual no encrypt Lobby 2 WEP Demo Manual WEP 64 2nd Floor 3 Open Manual no encrypt 1st Floor WPA Countermeasure enable admin(network.wireless.security)>show policy 1 Policy Name Authentication : Default : Manual Pre-shared key/No Authentication Encryption type : no encryption Related Commands: create Defines security parameters for the specified WLAN. For information displaying existing WLAN security settings using the applet (GUI), see “Enabling Authentication and Encryption Schemes” on page 172. Altitude 3500 Series Access Point Product Reference Guide 335 CLI Reference AP35xx>admin(network.wireless.security)> create Defines the parameter of AP35xx security policies. Syntax create Defines the parameters of a security policy. show set Displays new or existing security policy parameters. secname <name> Sets the name of the security policy. auth <authtype> Sets the authentication type for WLAN <idx> to <type> (none, eap, or kerberos). Note: Kerberos parameters are only in affect if “kerberos” is specified for the authentication method (set auth <type>). kerb realm <name> server <sidx> <ip> Sets the Kerberos realm. Sets the Kerberos server <sidx> (1-primary, 2-backup, or 3remote) to KDC IP address. port <sidx> <port> Sets the Kerberos port to <port> (KDC port) for server <ksidx> (1primary, 2-backup, or 3-remote). Note: EAP parameters are only in affect if “eap” is specified for the authentication method (set auth <type>). eap server <sidx> <ip> Sets the RADIUS server (1primary or as 2-secondary) IP address <ip>. port <sidx> <port> Sets the RADIUS server <sidx> (1-primary or 2-secondary) <port> (1-65535). secret <sidx> <secret> Sets the EAP shared secret <secret> (1-63 characters) for server <sidx> (1-primary or 2secondary). The default password is “admin123” reauth accounting mode <mode> Enables or disables EAP reauthentication. period <time> Sets the reauthentication period <period> in seconds (30-9999). retry <number> Sets the maximum number of reauthentication retries <retry> (1-99). mode <mode> Enable or disable RADIUS accounting. server <ip> Set external RADIUS server IP address. Altitude 3500 Series Access Point Product Reference Guide 336 adv port <port> Set external RADIUS server port number. secret <secret> Set external RADIUS server shared secret password. timeout <period> Defines MU timeout period in seconds (1-255). retry <number> Sets the maximum number of MU retries to <retry> (1-10). syslog <mode> Enable or disable syslog messages. ip <ip> Defines syslog server IP address. mu-quiet <time> Set the EAP MU/supplicant quiet period to <time> seconds (165535). mu-timeout <timeout> Sets the EAP MU/supplicant timeout in seconds (1-255). mu-tx <time> Sets the EAP MU/supplicant TX period <time> in seconds (165535). mu-retry <count> Sets the EAP maximum number of MU retries to <count> (1-10). svr-timeout <time> Sets the server timeout <time> in seconds (1-255). svr-retry <count> Sets the maximum number of server retries to <count> (1-255). Note: The WEP authentication mechanism saves up to four different keys (one for each WLAN). It is not requirement to set all keys, but you must associate a WLAN with the same keys. enc <idx> <type> Sets the encryption type to <type> (one of none, wep40, wep104, keyguard, tkip, or ccmp) for WLAN <idx>. <passkey> The passkey used as a text abbreviation for the entire key length (4-32). index <key index> Selects the WEP/KeyGuard key (from one of the four potential values of <key index> (1-4). hex-key <kidx> <key string> Sets the WEP/KeyGuard key for key index <kidx> (1-4) for WLAN <kidx> to <key string>. ascii-key <kidx> <key string> Sets the WEP/KeyGuard key for key index <kidx> (1-4) for WLAN <kidx> to <key string>. mixed-mode <mode> weppasskey keyguard Enables or disables interoperation with WEP128 clients. Altitude 3500 Series Access Point Product Reference Guide 337 CLI Reference Note: TKIP parameters are only affected if “tkip” is selected as the encryption type. tkip ccmp rotate-mode <mode> Enables or disabled the broadcast key. interval <time> Sets the broadcast key rotation interval to <time> in seconds (300-604800). allow-wpa2tkip <mode> Enables or disables the interoperation with wpa2-tkip clients. preauth <mode> Enables or disables preauthentication (fast roaming). type <key type> Sets the TKIP key type. key <256 bit key> Sets the TKIP key to <256 bit key>. phrase <ascii phrase> Sets the TKIP ASCII pass phrase to <ascii phrase> (8-63 characters). rotate-mode <mode> Enables or disabled the broadcast key. interval <time> Sets the broadcast key rotation interval to <time> in seconds (300-604800). type <key type> Sets the CCMP key type. phrase <ascii phrase> Sets the CCMP ASCII pass phrase to <ascii phrase> (8-63 characters). key <256 bit key> Sets the CCMP key to <256 bit key>. mixed-mode <mode> Enables or disables mixed mode (allowing WPA-TKIP clients). preauth <mode> Enables or disables preauthentication (fast roaming). add-policy Adds the policy and exits. .. Disregards the policy creation and exits the CLI session. For information on configuring the encryption and authentication options available to the access point using the applet (GUI), see “Configuring Security Options” on page 169. Altitude 3500 Series Access Point Product Reference Guide 338 AP35xx>admin(network.wireless.security)> edit Edits the properties of a specific security policy. edit <idx> Edits a profile specified by its ID. A new context opens for the profile being edited. AP35xx>admin(network.wireless.security.edit)> For more information on this context see “Network Security Policy Edit Commands” on page 340. Altitude 3500 Series Access Point Product Reference Guide 339 CLI Reference Network Security Policy Edit Commands. AP35xx>admin(network.wireless.security.edit)> Displays the AP35xx wireless security policy edit submenu. The items available under this menu include: show Displays the security policy parameters for the selected security policy. set Sets security parameters for the selected policy. change Changes the policy and exits this submenu. .. Goes to the parent menu. Altitude 3500 Series Access Point Product Reference Guide 340 AP35xx>admin(network.wireless.security.edit)>show Displays the security policy details for the selected policy. Syntax show Displays the new or modified security policy parameters. Example admin(network.wireless.security.edit)>show Policy Name Authentication type : Default : Manual Pre-shared key / No authentication Encryption type ccmp broadcast key rotate mode ccmp key type ccmp phrase ccmp mixed mode (allow WPA) tkip broadcast key rotate mode tkip key type tkip key allow wpa2 tkip : : : : : : : : : WPA/TKIP disable phrase ************* disable disable key ************* enable Altitude 3500 Series Access Point Product Reference Guide 341 CLI Reference AP35xx>admin(network.wireless.security.edit)>set Configures the different parameters for the selected security policy. Syntax set sec-name <name-str> Sets the name of the selected security profile to <name-str>. auth <auth-type> Sets the authentication type for the selected security profile to <auth-type> (none, eap, kerberos). kerb realm <name-str> Sets the Kerberos realm name to <namestr>. server <s-idx> <ip> Sets the Kerberos server type to <s-idx> (1 - primary, 2 - backup, 3 - remote). Also sets the IP address of the server to <ip>. port <s-idx> <p-num> Sets the Kerberos server port to <p-num> (1-65535) for the server type <s-idx> (1 primary, 2 - backup, 3 - remote). server <s-idx> <ip> Sets the RADIUS Server type to <s-idx> (1 - primary, 2 - secondary) and sets its IP address to <ip>. port <s-idx> <p-num> Sets the RADIUS Server port number for server type <s-idx> (1 - primary, 2 secondary) to port number <p-num> (1-65535). secret <s-idx> <c> Sets the shared secret for the RADIUS Server type <s-idx> (1 - primary, 2 - secondary) to a character string <c> (1-127 characters). mode <mode> Enables or disables EAP reauthentication. period <time> Sets the EAP reauthentication period to <time> (30-9999 seconds) retry <num> Sets the EAP reauthentication retry count to <num> (1-99) mode <mode> Enables or disables RADIUS Accounting. server <ip-addr> Sets the IP of the external RADIUS Accounting Server. port <p> Sets the port for the external RADIUS Accounting Server. secret <c> Sets the common shared secret for RADIUS Accounting. timeout <time> Sets the MU timeout period to <time> (1255 seconds). retry <num> Sets the MU retry count to <num> (1-10). syslog <mode> Enables or disables syslog mode. ip <ip-addr> Sets the IP address of the syslog server. eap reauth accounting Altitude 3500 Series Access Point Product Reference Guide 342 adv enc mu-quite <time> mu-timeout <timeout> Sets MU/supplicant Timeout period to <timeout> (1-255 seconds). mu-tx <time> Sets MU/supplicant Tx period to <time> (165535 seconds). mu-retry <count> Sets max MU retries to <count> (1-10). svr-timeout <timeout> Sets server timeout to <timeout> (1-255 seconds). svr-retry <count> <enc-type> Sets MU/supplicant Quite period to <time> (1-65535 seconds). Sets server max retries to <count> (1-255). Sets the encryption type to <enc-type> (none, wep40, wep104, keyguard, tkip, ccmp) wep-keyguard NOTE: For Manual pre-shared key or no authentication only. passkey <pass-key> Sets the WEP/Keyguard-MCM passkey to <passkey> (4-32 chars). index <key-idx> Sets the WEP/Keyguard-MCM key index to <key-idx> (1-4). hex-key <k-idx> <key-str> Sets the Hexadecimal key <key-str> for the key index <key-idx> (1-4). <key-str> can be 10 hex digits for WEP40 and 26 digits for WEP104/Keyguard. ascii-key <k-idx> <key-str> Sets the ASCII key <key-str> for the key index <key-idx> (1-4). <key-str> can be 5 chars for WEP40 and 13 chars for WEP104/Keyguard. mixed-mode <mode> Enables or disables Allow WEP128 clients. rotate-mode <mode> Enables or disables Broadcast Key Rotation. interval <time> Sets Broadcast Key Rotation interval to <time> (30-604800 seconds). tkip allow-wpa2-tkip <mode> Enables or disables WPA2/TKIP. preauth <mode> Enables or disables preauthentication. type <key-type> Sets TKIP key type to <key-type> (phrase, key) key <256-bit-key> Sets the 256-bit TKIP key to <256-bit-key> (64 hex digits). phrase <asciiphrase> Sets the ASCII TKIP key to <ascii-phrase> (8-63 chars). rotate-mode <mode> Enables or disables Broadcast Key Rotation. interval <time> Sets Broadcast Key Rotation interval to <time> (30-604800 seconds). type <key-type> Sets CCMP key type to <key-type> (phrase, key) phrase <asciiphrase> Sets the ASCII CCMP key to <asciiphrase> (8-63 chars). ccmp Altitude 3500 Series Access Point Product Reference Guide 343 CLI Reference key <256-bit-key> Sets the 256-bit CCMP key to <256-bitkey> (64 hex digits). mixed-mode <mode> Enables or disables mixed-mode operation. preauth <mode> Enables or disables preauthentication. Example admin(network.wireless.security)>edit 1 admin(network.wireless.security.edit)>show Policy Name : Default Authentication type : Manual Pre-shared key / No authentication Encryption type ccmp broadcast key rotate mode ccmp key type ccmp phrase ccmp mixed mode (allow WPA) tkip broadcast key rotate mode tkip key type tkip key allow wpa2 tkip : : : : : : : : : WPA/TKIP disable phrase ************* disable disable key ************* enable admin(network.wireless.security.edit)>set auth none admin(network.wireless.security.edit)>set enc tkip admin(network.wireless.security.edit)>set tkip rotate-mode enable admin(network.wireless.security.edit)>set tkip interval 46 admin(network.wireless.security.edit)>show Policy Name Authentication type : Default : Manual Pre-shared key / No authentication Encryption type : WPA/TKIP ccmp broadcast key rotate mode : disable ccmp key type : key ccmp key : 101112131415161718191A1B1C1D1E1F202122232425262728292A2B2C2D2E2F ccmp mixed mode (allow WPA) : disable tkip broadcast key rotate mode : enable update broadcast keys every : 46 (30-604800) seconds tkip key type : key tkip key : 101112131415161718191A1B1C1D1E1F202122232425262728292A2B2C2D2E2F allow wpa2 tkip : enable For information on configuring the encryption and authentication options available to the access point using the applet (GUI), see “Configuring Security Options” on page 169. Altitude 3500 Series Access Point Product Reference Guide 344 AP35xx>admin(network.wireless.security.edit)>change Saves the policy changes and exits to the security submenu. Syntax change Saves the policy changes and exists to the security submenu. Example admin(network.wireless.security.edit)>set auth none admin(network.wireless.security.edit)>set enc tkip admin(network.wireless.security.edit)>set tkip rotate-mode enable admin(network.wireless.security.edit)>set tkip interval 46 admin(network.wireless.security.edit)>show Policy Name Authentication type : Default : Manual Pre-shared key / No authentication Encryption type : WPA/TKIP ccmp broadcast key rotate mode : disable ccmp key type : key ccmp key : 101112131415161718191A1B1C1D1E1F202122232425262728292A2B2C2D2E2F ccmp mixed mode (allow WPA) : disable tkip broadcast key rotate mode : enable update broadcast keys every : 46 (30-604800) seconds tkip key type : key tkip key : 101112131415161718191A1B1C1D1E1F202122232425262728292A2B2C2D2E2F allow wpa2 tkip : enable admin(network.wireless.security.edit)>change Altitude 3500 Series Access Point Product Reference Guide 345 CLI Reference AP35xx>admin(network.wireless.security)> delete Deletes a specific security policy. Syntax delete <sec-name> Removes the specified security policy from the list of supported policies. <all> Removes all security policies except the default policy. For information on configuring the encryption and authentication options available to the access point using the applet (GUI), see “Configuring Security Options” on page 169. Network ACL Commands AP35xx>admin(network.wireless.acl)> Displays the AP35xx Mobile Unit Access Control List (ACL) submenu. The items available under this command include: show Displays the AP35xx’s current ACL configuration. create Creates an MU ACL policy. edit Edits the properties of an existing MU ACL policy. delete Removes an MU ACL policy. .. Goes to the parent menu. / Goes to the root menu. save Saves the configuration to system flash. quit Quits the CLI. Altitude 3500 Series Access Point Product Reference Guide 346 AP35xx>admin(network.wireless.acl)> show Displays the AP35xx’s current ACL configuration. Syntax show summary policy Displays the list of existing MU ACL policies. <index> Displays the requested MU ACL index policy. Example admin(network.wireless.acl)>show summary ---------------------------------------------------------------------ACL Policy Name Associated WLANs ---------------------------------------------------------------------1 Default Front Lobby, WLAN1 2 Admin Administration 3 Demo Room Customers admin(network.wireless.acl)>show policy 1 Policy Name Policy Mode : Default : allow ----------------------------------------------------------------------------index start mac end mac ----------------------------------------------------------------------------1 00A0F8348787 00A0F8348798 For information on configuring the ACL options available to the access point using the applet (GUI), see “Configuring a WLAN Access Control List (ACL)” on page 139. Altitude 3500 Series Access Point Product Reference Guide 347 CLI Reference AP35xx>admin(network.wireless.acl)> create Creates an MU ACL policy. Syntax create show set <aclname> Displays the parameters of a new ACL policy. acl-name <index> Sets the MU ACL policy name. mode <aclmode> Sets the ACL mode for the defined index (1-16). Allowed MUs can access the AP35xx managed LAN. Options are deny and allow. add-addr <mac1> or <mac1> <mac2> delete <index> Adds specified MAC address to list of ACL MAC addresses. <all> Removes either a specified ACL index or all ACL entries. add-policy Completes the policy creation and exits the CLI. .. Cancels the creation of the ACL and exits the CLI. Example admin(network.wireless.acl.create)>show Policy Name Policy Mode : Front Lobby : allow ----------------------------------------------------------------------------index start mac end mac ----------------------------------------------------------------------------1 00A0F8334455 00A0F8334455 2 00A0F8400000 00A0F8402001 admin(network.wireless.acl.create)>set acl-name engineering admin(network.wireless.acl.create)>set mode deny admin(network.wireless.acl.create)>add-addr 00A0F843AABB admin(network.wireless.acl.create)>add-policy For information on configuring the ACL options available to the access point using the applet (GUI), see “Configuring a WLAN Access Control List (ACL)” on page 139. Altitude 3500 Series Access Point Product Reference Guide 348 AP35xx>admin(network.wireless.acl.edit)> Edits the properties of an existing MU ACL policy. Syntax show Displays MU ACL policy and its parameters. set Modifies the properties of an existing MU ACL policy. add-addr Adds an MU ACL table entry. delete Deletes an MU ACL table entry, including starting and ending MAC address ranges. change Completes the changes made and exits the session. .. Cancels the changes made and exits the session. For information on configuring the ACL options available to the access point using the applet (GUI), see “Configuring a WLAN Access Control List (ACL)” on page 139. Altitude 3500 Series Access Point Product Reference Guide 349 CLI Reference AP35xx>admin(network.wireless.acl)> delete Removes an MU ACL policy. Syntax delete <acl name> Deletes a particular MU ACL policy. all Deletes all MU ACL policies (except for the default policy). For information on configuring the ACL options available to the access point using the applet (GUI), see “Configuring a WLAN Access Control List (ACL)” on page 139 Altitude 3500 Series Access Point Product Reference Guide 350 Network Radio Configuration Commands AP35xx>admin(network.wireless.radio)> Displays the AP35xx Radio submenu. The items available under this command include: show Summarizes AP35xx radio parameters at a high-level. set Defines the access point radio configuration. radio1 Displays the 802.11b/g radio submenu. radio2 Displays the 802.11a radio submenu. .. Goes to the parent menu. / Goes to the root menu. save Saves the configuration to system flash. quit Quits the CLI. Altitude 3500 Series Access Point Product Reference Guide 351 CLI Reference AP35xx>admin(network.wireless.radio)> show Displays the AP35xx’s current radio configuration. Syntax show Displays the AP35xx’s current radio configuration. Example admin(network.wireless.radio)>show Radio Configuration Radio 1 Name Radio Mode RF Band of Operation RF Function : : : : Radio 1 enable 802.11b/g (2.4 GHz) WLAN Wireless Mesh Configuration: Base Bridge Mode Max Wireless AP Clients Client Bridge Mode Clitn Bridge WLAN Mesh Connection Timeout : : : : : enable 6 disable WLAN1 enable Radio 2 Name Radio Mode RF Band of Operation RF Function : : : : Radio 2 enable 802.11a (5 GHz) WLAN Wireless Mesh Configuration: Base Bridge Mode Max Wireless AP Clients Client Bridge Mode Client Bridge WLAN Mesh Connection Timeout : : : : : enable 5 disable WLAN1 enable Dot11 Auth Algorithm : open-system-only For information on configuring the Radio Configuration options available to the access point using the applet (GUI), see “Setting the WLAN’s Radio Configuration” on page 150. Altitude 3500 Series Access Point Product Reference Guide 352 AP35xx>admin(network.wireless.radio)> set Enables an AP35xx Radio and defines the RF band of operation. Syntax set 11a <mode> Enables or disables the AP35xx’s 802.11a radio. 11bg <mode> Enables or disables the AP35xx’s 802.11b/g radio. rf-function <radio-id> <rf-func> Sets the radio function as either a WIPS sensor or a WLAN radio. mesh-base <mode> Enables or disables base bridge mode. mesh-max Sets the maximum number of wireless bridge clients. mesh-client <mode> Enables or Disables client bridge mode. mesh-timeout <period> Sets the client bridge link timeout for the radio index. mesh-wlan <name> Defines the client bridge WLAN name. mesh-associations <radio-id> <assocs> Sets the client bridge associations for the radio. mesh-monitor <radio-id> <mode> Enables or disables mesh connection monitoring on a per radio basis. mesh-signalthreshold <radio-id> <threshold> Sets the threshold value in dbm in the range 30-100. Base bridge signal below this threshold value is considered weak. This value is set on a per radio basis. mesh-signal-delta <radio-id> <delta> Sets a value in dbm. This is the difference in base bridge signal strength before a mesh link switch is attempted. This value is in the range 0-100 and is set per radio. dot11-auth <auth-algorithm> Defines dot11 level authentication algorithm to either opensystem-only or shared-key-allowed. Example admin(network.wireless.radio)>set 11a disable admin(network.wireless.radio)>set 11bg enable admin(network.wireless.radio)>set rf-function 1 wlan admin(network.wireless.radio)>set mesh-base enable admin(network.wireless.radio)>set mesh-max 11 admin(network.wireless.radio)>set mesh-client disable admin(network.wireless.radio)>set mesh-timeout 1 45 admin(network.wireless.radio)>set mesh-wlan wlan1 admin(network.wireless.radio)>set dot11-auth shared-key-allowed admin(network.wireless.radio)>show Radio Configuration Radio 1 Name Radio Mode RF Band of Operation : Radio 1 : enable : 802.11b/g (2.4 GHz) Wireless AP Configuration: Base Bridge Mode Max Wireless AP Clients Client Bridge Mode Clitn Bridge WLAN Mesh Connection Timeout : : : : : enable 11 disable WLAN1 45 sec. Altitude 3500 Series Access Point Product Reference Guide 353 CLI Reference Dot11 Auth Algorithm : shared-key-allowed For information on configuring the Radio Configuration options available to the access point using the applet (GUI), see “Setting the WLAN’s Radio Configuration” on page 150. Altitude 3500 Series Access Point Product Reference Guide 354 AP35xx>admin(network.wireless.radio.radio1)> Displays a specific 802.11b/g radio submenu. The items available under this command include: show Displays 802.11b/g radio settings. set Defines specific 802.11b/g radio parameters. delete Deletes the channels defined within the ACS exception list. advanced Displays the Advanced radio settings submenu. mesh Goes to the Wireless AP Connections submenu. .. Goes to the parent menu. / Goes to the root menu. save Saves the configuration to system flash. quit Quits the CLI. For information on configuring Radio 1 Configuration options available to the access point using the applet (GUI), see “Setting the WLAN’s Radio Configuration” on page 150. Altitude 3500 Series Access Point Product Reference Guide 355 CLI Reference AP35xx>admin(network.wireless.radio.radio1)> show Displays specific 802.11b/g radio settings. Syntax show radio Displays specific 802.11b/g radio settings. qos Displays specific 802.11b/g radio WMM QoS settings. Example admin(network.wireless.radio.radio1)>show radio Radio Setting Information Placement MAC Address Radio Type ERP Protection : : : : indoor 000496422B70 802.11b/g Off Channel Setting Channel ACS Exception Channel List Antenna Diversity Power Level : : : : : user selection 1 802.11b/g mode Basic Rates Supported Rates : B and G : 1 2 5.5 11 : 1 2 5.5 6 9 11 12 18 24 36 48 54 Beacon Interval DTIM Interval per BSSID 1 2 3 4 : 100 K-usec short preamble RTS Threshold Extended Range : disable : 2346 bytes : 0 miles : : : : full 20 dBm (100 mW) 10 10 10 10 beacon beacon beacon beacon intvls intvls intvls intvls QBSS Channel Util Beacon Interval : 10 beacon intvls QBSS Load Element Mode : enable Current BCMC-Tx-Speed for : range optimization admin(network.wireless.radio.radio1)>show qos Radio QOS Parameter Set 11g-default ----------------------------------------------------------------------------Access Category CWMin CWMax AIFSN TXOPs (32 usec) TXOPs ms ----------------------------------------------------------------------------Background 15 1023 7 0 0.000 Best Effort 15 63 3 31 0.992 Video 7 15 1 94 3.008 Altitude 3500 Series Access Point Product Reference Guide 356 Voice 3 7 1 47 1.504 CAUTION If you do NOT include the index number (for example, "set dtim 50"), the DTIMs for all four BSSIDs will be changed to 50. To change individual DTIMs for BSSIDs, specify the BSS Index number (for example, "set dtim 2 50”). This will change the DTIM for BSSID 2 to 50. For information on configuring the Radio 1 Configuration options available to the access point using the applet (GUI), see “Configuring a WLAN Access Control List (ACL)” on page 139. Altitude 3500 Series Access Point Product Reference Guide 357 CLI Reference AP35xx>admin(network.wireless.radio.802-11bg)> set Defines specific 802.11b/g radio parameters. Syntax set placement ch-mode channel acs-exception-list antenna power bg-mode rates beacon dtim preamble rts range qos qbss-beacon qbss-mode bcmc-tx-speed : : : : : : : : : : : : : : : : : : : : : : set Radio location set Channel Selection set Channel (for User Selection only) set ACS Exception list (for Auto Selection only) set Antenna Diversity set Power Level set default data rates of the 11b/g mode selected set Radio Data Rates set Beacon Interval set DTIM Period Interval enable/disable Support Short Preamble set RTS Threshold set extended range set RF QoS set QBSS Channel Util Beacon Interval enable/disable QBSS Load Element set mode - range/throughput Example admin(network.wireless.radio.802-11bg)>set admin(network.wireless.radio.802-11bg)>set admin(network.wireless.radio.802-11bg)>set admin(network.wireless.radio.802-11bg)>set admin(network.wireless.radio.802-11bg)>set admin(network.wireless.radio.802-11bg)>set admin(network.wireless.radio.802-11bg)>set admin(network.wireless.radio.802-11bg)>set admin(network.wireless.radio.802-11bg)>set admin(network.wireless.radio.802-11bg)>set admin(network.wireless.radio.802-11bg)>set admin(network.wireless.radio.802-11bg)>set admin(network.wireless.radio.802-11bg)>set admin(network.wireless.radio.802-11bg)>set admin(network.wireless.radio.802-11bg)>set admin(network.wireless.radio.802-11bg)>set admin(network.wireless.radio.802-11bg)>set admin(network.wireless.radio.802-11bg)>set placement indoor ch-mode user channel 1 acs-exception-list 10 antenna full power 4 bg-mode enable rates beacon 100 dtim 1 40 preamble disable rts 2341 qos cwmin 125 qos cwmax 255 qos aifsn 7 qos txops 0 qbss-beacon 110 qbss-mode enable For information on configuring the Radio 1 Configuration options available to the access point using the applet (GUI), see “Configuring the 802.11a or 802.11b/g Radio” on page 154. Altitude 3500 Series Access Point Product Reference Guide 358 CAUTION If you do NOT include the index number (for example, "set dtim 50"), the DTIMs for all four BSSIDs will be changed to 50. To change individual DTIMs for BSSIDs, specify the BSS Index number (for example, "set dtim 2 50”). This will change the DTIM for BSSID 2 to 50. Altitude 3500 Series Access Point Product Reference Guide 359 CLI Reference AP35xx>admin(network.wireless.radio.802-11bg.advanced)> Displays the advanced submenu for the 802.11b/g radio. The items available under this command include: show Displays advanced radio settings for the 802.11b/g radio. set Defines advanced parameters for the 802.11b/g radio. .. Goes to the parent menu. / Goes to the root menu. save Saves the configuration to system flash. quit Quits the CLI. Altitude 3500 Series Access Point Product Reference Guide 360 AP35xx>admin(network.wireless.radio.802-11bg.advanced)> show Displays the BSSID to WLAN mapping for the 802.11b/g radio. Syntax show advanced Displays advanced settings for the 802.11b/g radio. wlan Displays WLAN summary list for the 802.11b/g radio. Example admin(network.wireless.radio.802-11bg.advanced)>show advanced ----------------------------------------------------------------------------WLAN BSS ID BC/MC Cipher Status Message ----------------------------------------------------------------------------Lobby HR Office 1 2 3 Open Open Open good good good configuration is ok configuration is ok configuration is ok ----------------------------------------------------------------------------BSSID Primary WLAN ----------------------------------------------------------------------------1 2 3 Lobby HR Office admin(network.wireless.radio.802-11bg.advanced)>show wlan WLAN 1: WLAN name ESS ID Radio VLAN Security Policy QoS Policy : : : : : : WLAN1 101 11a,11b/g <none> Default Default For information on configuring Radio 1 Configuration options available to the access point using the applet (GUI), see “Configuring the 802.11a or 802.11b/g Radio” on page 154. Altitude 3500 Series Access Point Product Reference Guide 361 CLI Reference AP35xx>admin(network.wireless.radio.802-11bg.advanced)> set Defines advanced parameters for the target 802.11b/g radio. Syntax set wlan <wlan-name> <bssid> Defines advanced WLAN to BSSID mapping for the target radio. bss <bss-id> <wlan name> Sets the BSSID to primary WLAN definition. Example admin(network.wireless.radio.802-11bg.advanced)>set wlan demoroom 1 admin(network.wireless.radio.802-11bg.advanced)>set bss 1 demoroom For information on configuring Radio 1 Configuration options available to the access point using the applet (GUI), see “Configuring the 802.11a or 802.11b/g Radio” on page 154. Altitude 3500 Series Access Point Product Reference Guide 362 AP35xx>admin(network.wireless.radio.radio2)> Displays a specific 802.11a radio submenu. The items available under this command include: Syntax show Displays 802.11a radio settings set Defines specific 802.11a radio parameters. delete Deletes the ACS exception channels. advanced Displays the Advanced radio settings submenu. mesh Goes to the Wireless AP Connections submenu. .. Goes to the parent menu. / Goes to the root menu. save Saves the configuration to system flash. quit Quits the CLI. Altitude 3500 Series Access Point Product Reference Guide 363 CLI Reference AP35xx>admin(network.wireless.radio.802-11a)> show Displays specific 802.11a radio settings. Syntax show radio Displays specific 802.11a radio settings. qos Displays specific 802.11a radio WMM QoS settings. Example admin(network.wireless.radio.802-11a)>show radio Radio Setting Information Placement MAC Address Radio Type : indoor : 000496422C70 : 802.11a Channel Setting Channel ACS Exception Channel List Antenna Diversity Power Level : : : : : Basic Rates Supported Rates : 6 12 24 : 6 9 12 18 24 36 48 54 Beacon Interval DTIM Interval per BSSID 1 2 3 4 : 100 K-usec RTS Threshold Extended Range : 2346 bytes : 0 miles : : : : user selection 157 full 20 dBm (100 mW) 10 10 10 10 beacon beacon beacon beacon intvls intvls intvls intvls QBSS Channel Util Beacon Interval : 10 beacon intvls QBSS Load Element Mode : enable Current BCMC-Tx-Speed for : range optimization admin(network.wireless.radio.802-11a)>show qos Radio QOS Parameter Set: 11a default ----------------------------------------------------------------------------Access Category CWMin CWMax AIFSN TXOPs (32 sec) TXOPs ms ----------------------------------------------------------------------------Background 15 1023 7 0 0.000 Best Effort 15 63 3 31 0.992 Video 7 15 1 94 3.008 Voice 3 7 1 47 1.504 Altitude 3500 Series Access Point Product Reference Guide 364 For information on configuring Radio 2 Configuration options available to the access point using the applet (GUI), see “Configuring the 802.11a or 802.11b/g Radio” on page 154. Altitude 3500 Series Access Point Product Reference Guide 365 CLI Reference AP35xx>admin(network.wireless.radio.802-11a)> set Defines specific 802.11a radio parameters. Syntax set placement ch-mode channel acs-exception-list antenna power rates beacon dtim rts range qos qbss-beacon qbss-mode bcmc-tx-speed : : : : : : : : : : : : : : : : : : : set Radio location set set set set set set Channel Selection Channel (for User Selection only) ACS Exception list (for Auto Selection only) Antenna Diversity Power Level Radio Data Rates set Beacon Interval set DTIM Period Interval set RTS Threshold set extended range set RF QoS set QBSS Channel Util Beacon Interval enable/disable QBSS Load Element set mode - range/throughput Example admin(network.wireless.radio.802-11a)> admin(network.wireless.radio.802-11a)>set admin(network.wireless.radio.802-11a)>set admin(network.wireless.radio.802-11a)>set admin(network.wireless.radio.802-11a)>set admin(network.wireless.radio.802-11a)>set admin(network.wireless.radio.802-11a)>set admin(network.wireless.radio.802-11a)>set admin(network.wireless.radio.802-11a)>set admin(network.wireless.radio.802-11a)>set admin(network.wireless.radio.802-11a)>set admin(network.wireless.radio.802-11a)>set admin(network.wireless.radio.802-11a)>set admin(network.wireless.radio.802-11a)>set admin(network.wireless.radio.802-11a)>set admin(network.wireless.radio.802-11a)>set admin(network.wireless.radio.802-11a)>set placement indoor ch-mode user channel 1 acs-exception-list 44 153 161 antenna full power 4 rates beacon 100 dtim 1 10 rts 2341 qos cwmin 125 qos cwmax 255 qos aifsn 7 qos txops 0 qbss-beacon 110 qbss-mode enable For information on configuring the Radio 2 Configuration options available to the access point using the applet (GUI), see “Configuring the 802.11a or 802.11b/g Radio” on page 154. Altitude 3500 Series Access Point Product Reference Guide 366 AP35xx>admin(network.wireless.radio.802-11a.advanced)> Displays the advanced submenu for the 802-11a radio. The items available under this command include: Syntax show Displays advanced radio settings for the 802-11a radio. set Defines advanced parameters for the 802-11a radio. .. Goes to the parent menu. / Goes to the root menu. save Saves the configuration to system flash. quit Quits the CLI. Altitude 3500 Series Access Point Product Reference Guide 367 CLI Reference AP35xx>admin(network.wireless.radio.802-11a.advanced)> show Displays the BSSID to WLAN mapping for the 802.11a radio. Syntax show advanced Displays advanced settings for the 802.11a radio. wlan Displays WLAN summary list for 802.11a radio. Example admin(network.wireless.radio.802-11a.advanced)>show advanced ----------------------------------------------------------------------------WLAN BSS ID BC/MC Cipher Status Message ----------------------------------------------------------------------------Lobby HR Office 1 2 3 Open Open Open good good good configuration is ok configuration is ok configuration is ok ----------------------------------------------------------------------------BSSID Primary WLAN ----------------------------------------------------------------------------1 2 3 Lobby HR Office admin(network.wireless.radio.802-11bg.advanced)>show wlan WLAN 1: WLAN name ESS ID Radio VLAN Security Policy QoS Policy : : : : : : WLAN1 101 11a, 11b/g <none> Default Default For information on configuring the Radio 2 Configuration options available to the access point using the applet (GUI), see “Configuring the 802.11a or 802.11b/g Radio” on page 154. Altitude 3500 Series Access Point Product Reference Guide 368 AP35xx>admin(network.wireless.radio.802-11a.advanced)> set Defines advanced parameters for the target 802.11a radio. Syntax set wlan <wlan-name> <bssid> Defines advanced WLAN to BSSID mapping for the target radio. bss <bss-id> <wlan name> Sets the BSSID to primary WLAN definition. Example admin(network.wireless.radio.802-11a.advanced)>set wlan demoroom 1 admin(network.wireless.radio.802-11a.advanced)>set bss 1 demoroom For information on configuring Radio 2 Configuration options available to the access point using the applet (GUI), see “Configuring the 802.11a or 802.11b/g Radio” on page 154. Altitude 3500 Series Access Point Product Reference Guide 369 CLI Reference Network Quality of Service (QoS) Commands AP35xx>admin(network.wireless.qos)> Displays the AP35xx Quality of Service (QoS) submenu. The items available under this command include: show Displays AP35xx QoS policy information. create Defines the parameters of the QoS policy. edit Edits the settings of an existing QoS policy. delete Removes an existing QoS policy. .. Goes to the parent menu. / Goes to the root menu. save Saves the configuration to system flash. quit Quits the CLI. Altitude 3500 Series Access Point Product Reference Guide 370 AP35xx>admin(network.wireless.qos)> show Displays the AP35xx’s current QoS policy by summary or individual policy. Syntax show summary policy Displays all existing QoS policies that have been defined. <index> Displays the configuration for the requested QoS policy. Example admin(network.wireless.qos)>show summary ---------------------------------------------------------------------QOS Policy Name Associated WLANs ---------------------------------------------------------------------1 Default WLAN1, mudskipper 2 IP Phones Audio Dept 3 Video Vidio Dept admin(network.wireless.qos)>show policy 1 Policy Name Support Legacy Voice Mode Multicast (Mask) Address 1 Multicast (Mask) Address 2 WMM QOS Mode IP Phones disable 01005E000000 09000E000000 disable For information on configuring the WLAN QoS options available to the access point using the applet (GUI), see “Setting the WLAN Quality of Service (QoS) Policy” on page 142. Altitude 3500 Series Access Point Product Reference Guide 371 CLI Reference AP35xx>admin(network.wireless.qos.create)> Defines an AP35xx QoS policy. Syntax show Displays QoS policy parameters. set qos-name <index> Sets the QoS name for the specified index entry. vop <index> Enables or disables support (by index) for legacy VOIP devices. mcast <mac> Defines primary and secondary Multicast MAC address. wmm-qos <index> Enables or disables the QoS policy index specified. param-set <set-name> Defines the data type used with the qos policy and mesh network. When set to a value other then manual, editing the access category values is not necessary. Options include; 11gdefault, 11b-default, 11g-wifi, 11b-wifi, 11g-voice, 11b-voice or manual for advanced users). cwmin <access category> <index> Defines Minimum Contention Window (CW-Min) for specified access category and index. cwmax <access category> <index> Defines Maximum Contention Window (CW-Max) for specified access category and index. aifsn <access category> <index> Sets Arbitrary Inter-Frame Space Number (AIFSN) for specified access category and index. txops <access category> <index> Configures Opportunity to Transmit Time (TXOPs Time) for specified access category and index. <index> Defines CWMIN, CWMAX, AIFSN and TXOPs default values. default add-policy Completes the policy edit and exits the session. .. Cancels the changes and exits. For information on configuring the WLAN QoS options available to the access point using the applet (GUI), see “Setting the WLAN Quality of Service (QoS) Policy” on page 142. Altitude 3500 Series Access Point Product Reference Guide 372 AP35xx>admin(network.wireless.qos.edit)> Edits the properties of an existing QoS policy. Syntax show set Displays QoS policy parameters. qos-name <index> Sets the QoS name for the specified index entry. vop <index> Enables or disables support (by index) for legacy VOIP devices. mcast <mac> Defines primary and secondary Multicast MAC address. wmm-qos <index> Enables or disables the QoS policy index specified. param-set <set-name> Defines the data type used with the qos policy and mesh network. When set to a value other then manual, editing the access category values is not necessary. Options include; 11g-default, 11b-default, 11g-wifi, 11b-wifi, 11gvoice, 11b-voice or manual for advanced users). cwmin <access category> <index> Defines Minimum Contention Window (CW-Min) for specified access category and index. cwmax <access category> <index> Defines Maximum Contention Window (CW-Max) for specified access category and index. aifsn <access category> <index> Sets Arbitrary Inter-Frame Space Number (AIFSN) for specified access category and index. txops <access category> <index> Configures Opportunity to Transmit Time (TXOPs Time) for specified access category and index. <index> Defines CWMIN, CWMAX, AIFSN and TXOPs default values. default change Completes the policy edit and exits the session. .. Cancels the changes and exits. For information on configuring the WLAN QoS options available to the access point using the applet (GUI), see “Setting the WLAN Quality of Service (QoS) Policy” on page 142. Altitude 3500 Series Access Point Product Reference Guide 373 CLI Reference AP35xx>admin(network.wireless.qos)> delete Removes a QoS policy. Syntax delete <qos-name> <all> Deletes the specified QoS policy index, or all of the policies (except default policy). For information on configuring the WLAN QoS options available to the access point using the applet (GUI), see “Setting the WLAN Quality of Service (QoS) Policy” on page 142. Altitude 3500 Series Access Point Product Reference Guide 374 Network Wireless Rate-Limiting Commands AP35xx>admin(network.wireless.rate-limiting)> Displays the AP35xx Rate Limiting submenu. The items available under this command include: show Shows the Rate Limiting state and WLAN values. set Sets the Rate Limiting state. .. Goes to the parent menu. / Goes to the root menu. save Saves the configuration to system flash. quit Quits the CLI. Altitude 3500 Series Access Point Product Reference Guide 375 CLI Reference AP35xx>admin(network.wireless.rate-limiting)> show Displays the AP35xx’s current Rate Limiting configuration. Syntax show <summary> <wlan> Displays the current Rate Limiting configuration summary or for defined WLANs as well as how they are weighted. Example admin(network.wireless.rate-limiting)> show summary Per-MU Rate Limiting disable Altitude 3500 Series Access Point Product Reference Guide 376 AP35xx>admin(network.wireless.rate-limiting)> set Defines the AP35xx Rate Limiting configuration. Syntax set rate-limit Enable/disable Rate Limiting Altitude 3500 Series Access Point Product Reference Guide 377 CLI Reference Network Rogue-AP Commands AP35xx>admin(network.wireless.rogue-ap)> Displays the Rogue AP submenu. The items available under this command include: show Displays the current AP35xx Rogue AP detection configuration. set Defines the Rogue AP detection method. mu-scan Goes to the Rogue AP mu-uscan submenu. allowed-list Goes to the Rogue AP Allowed List submenu. active-list Goes the Rogue AP Active List submenu. rogue-list Goes the Rogue AP List submenu. .. Goes to the parent menu. / Goes to the root menu. save Saves the configuration to system flash. quit Quits the CLI. Altitude 3500 Series Access Point Product Reference Guide 378 AP35xx>admin(network.wireless.rogue-ap)> show Displays the current AP35xx Rogue AP detection configuration. Syntax show Displays the current AP35xx Rogue AP detection configuration. Example admin(network.wireless.rogue-ap)>show MU Scan MU Scan Interval On-Channel Detector Radio Scan Auto Authorize Extreme APs Approved APs age out Rogue APs age out : : : : disable 60 minutes disable enable : disable : 0 minutes : 0 minutes For information on configuring the Rogue AP options available to the access point using the applet (GUI), see “Configuring Rogue AP Detection” on page 210. Altitude 3500 Series Access Point Product Reference Guide 379 CLI Reference AP35xx>admin(network.wireless.rogue-ap)> set Defines the AP35xx ACL rogue AP method. Syntax set mu-scan <mode> Enables or disables to permit MUs to scan for rogue APs. interval <minutes> Define an interval for associated MUs to beacon in attempting to locate rogue APs. Value not available unless mu-scan is enabled. on-channel <mode> Enables or disables on-channel detection. detector-scan <mode> Enables or disables AP detector scan (dual-radio model only). ABG-scan <mode> Enables or disables A/BG Detector Scan Mode. extreme-ap <mode> Enables or disables the Authorize Any AP with an Extreme Networks MAC address option. applst-ageout <minutes> Sets the approved AP age out time. roglst-ageout <minutes> Sets the rogue AP age out time. Example admin(network.wireless.rogue-ap)> admin(network.wireless.rogue-ap)>set admin(network.wireless.rogue-ap)>set admin(network.wireless.rogue-ap)>set admin(network.wireless.rogue-ap)>set admin(network.wireless.rogue-ap)>set admin(network.wireless.rogue-ap)>set admin(network.wireless.rogue-ap)>set admin(network.wireless.rogue-ap)>set mu-scan enable interval 10 on-channel disable detector-scan disable ABG-scan disable extreme-ap enable applst-ageout 10 roglst-ageout 10 admin(network.wireless.rogue-ap)>show MU Scan MU Scan Interval On Channel Detector Radio Scan : : : : Auto Authorize Extreme Networks APs Approved AP age out Rogue AP age out enable 10 minutes disable disable : enable : 10 minutes : 10 minutes For information on configuring the Rogue AP options available to the access point using the applet (GUI), see “Configuring Rogue AP Detection” on page 210. Altitude 3500 Series Access Point Product Reference Guide 380 AP35xx>admin(network.wireless.rogue-ap.mu-scan)> Displays the Rogue-AP mu-scan submenu. add Add all or just one scan result to Allowed AP list. show Displays all APs located by the MU scan. start Initiates scan immediately by the MU. .. Goes to the parent menu. / Goes to the root menu. save Saves the configuration to system flash. quit Quits the CLI. Altitude 3500 Series Access Point Product Reference Guide 381 CLI Reference AP35xx>admin(network.wireless.rogue-ap.mu-scan)> start Initiates an MU scan for a user provided MAC address. Syntax start <mu-mac> Initiates MU scan from user provided MAC address. For information on configuring the Rogue AP options available to the access point using the applet (GUI), see “Configuring Rogue AP Detection” on page 210. Altitude 3500 Series Access Point Product Reference Guide 382 AP35xx>admin(network.wireless.rogue-ap.mu-scan)> show Displays the results of an MU scan. Syntax show Displays all APs located by the MU scan. For information on configuring the Rogue AP options available to the access point using the applet (GUI), see “Configuring Rogue AP Detection” on page 210. Altitude 3500 Series Access Point Product Reference Guide 383 CLI Reference AP35xx>admin(network.wireless.rogue-ap.allowed-list)> Displays the Rogue-AP allowed-list submenu. show Displays the rogue AP allowed list add Adds an AP MAC address and ESSID to the allowed list. delete Deletes an entry or all entries from the allowed list. .. Goes to the parent menu. / Goes to the root menu. save Saves the configuration to system flash. quit Quits the CLI. Altitude 3500 Series Access Point Product Reference Guide 384 AP35xx>admin(network.wireless.rogue-ap.allowed-list)> show Displays the Rogue AP allowed List. Syntax show Displays the rogue-AP allowed list. Example admin(network.wireless.rogue-ap.allowed-list)>show Allowed AP List ----------------------------------------------------------------------------index ap mac essid ----------------------------------------------------------------------------1 2 3 00:A0:F8:71:59:20 00:A0:F8:33:44:55 00:A0:F8:40:20:01 * 101 Marketing For information on configuring the Rogue AP options available to the access point using the applet (GUI), see “Configuring Rogue AP Detection” on page 210. Altitude 3500 Series Access Point Product Reference Guide 385 CLI Reference AP35xx>admin(network.wireless.rogue-ap.allowed-list)> add Adds an AP MAC address and ESSID to existing allowed list. Syntax add <mac-addr> <ess-id> Adds an AP MAC address and ESSID to existing allowed list. “fffffffffffffffff” means any MAC Use a “*” for any ESSID. Example admin(network.wireless.rogue-ap.allowed-list)>add 00A0F83161BB 103 admin(network.wireless.rogue-ap.allowed-list)>show ----------------------------------------------------------------------------index ap essid ----------------------------------------------------------------------------1 2 3 4 00:A0:F8:71:59:20 00:A0:F8:33:44:55 00:A0:F8:40:20:01 00:A0:F8:31:61:BB * fffffffffff Marketing 103 For information on configuring the Rogue AP options available to the access point using the applet (GUI), see “Configuring Rogue AP Detection” on page 210. Altitude 3500 Series Access Point Product Reference Guide 386 AP35xx>admin(network.wireless.rogue-ap.allowed-list)> delete Deletes an AP MAC address and ESSID to existing allowed list. Syntax delete <idx> <all> Deletes a specified AP MAC address and ESSID index (1-50) from the allowed list. The options also exists to remove all indexes. For information on configuring the Rogue AP options available to the access point using the applet (GUI), see “Configuring Rogue AP Detection” on page 210. Altitude 3500 Series Access Point Product Reference Guide 387 CLI Reference WIPS Commands AP35xx>admin(network.wireless.wips> Displays the wips Locationing submenu. The items available under this command include: show Displays the current WLAN Intrusion Prevention configuration. set Sets WLAN Intrusion Prevention parameters. .. Goes to the parent menu. / Goes to the root menu. save Saves the configuration to system flash. quit Quits the CLI. Altitude 3500 Series Access Point Product Reference Guide 388 AP35xx>admin(network.wireless.wips> show Shows the WLAN Intrusion Prevention configuration. Syntax show Displays the WLAN Intrusion Prevention configuration. Example admin(network.wireless.wips)>show WIPS Server #1 IP Address : 192.168.0.21 WIPS Server #2 IP Address : 10.10.1.1 admin(network.wireless.wips)> Altitude 3500 Series Access Point Product Reference Guide 389 CLI Reference AP35xx>admin(network.wireless.wips> set Sets the WLAN Intrusion Prevention configuration. Syntax set <idx 1 and 2> <ip> Defines the WLAN Intrusion Prevention Server IP Address for (server IPs 1 and 2) Example admin(network.wireless.wips)>set server 1 192.168.0.21 admin(network.wireless.wips> Altitude 3500 Series Access Point Product Reference Guide 390 Network MU Locationing Commands AP35xx>admin(network.wireless.mu-locationing)> Displays the MU Locationing submenu. The items available under this command include: show Displays the current MU Locationing configuration. set Defines MU Locationing parameters. .. Goes to the parent menu. / Goes to the root menu. save Saves the configuration to system flash. quit Quits the CLI. Altitude 3500 Series Access Point Product Reference Guide 391 CLI Reference AP35xx>admin(network.wireless.mu-locationing> show Displays the MU probe table configuration Syntax show Displays the MU probe table configuration. Example admin(network.wireless.mu-locationing)>show MU Probe Table Mode MU Probe Table Size : disable : 200 admin(network.wireless.mu-locationing)> Altitude 3500 Series Access Point Product Reference Guide 392 AP35xx>admin(network.wireless.mu-locationing> set Defines the MU probe table configuration used for locating MUs. Syntax set Defines the MU probe table configuration. mode Enables/disables a mu probe scan for the purposes of MU locationing. size Defines the number of MUs in the table (the maximum allowed is 200). Example admin(network.wireless.mu-locationing)>set admin(network.wireless.mu-locationing)>set mode enable admin(network.wireless.mu-locationing)>set size 200 admin(network.wireless.mu-locationing)> Altitude 3500 Series Access Point Product Reference Guide 393 CLI Reference Network Firewall Commands AP35xx>admin(network.firewall)> Displays the AP35xx firewall submenu. The items available under this command include: show Displays the AP35xx’s current firewall configuration. set Defines the AP35xx’s firewall parameters. access Enables/disables firewall permissions through the LAN and WAN ports. advanced Displays interoperaility rules between the LAN and WAN ports. .. Goes to the parent menu. / Goes to the root menu. save Saves the configuration to system flash. quit Quits the CLI. Altitude 3500 Series Access Point Product Reference Guide 394 AP35xx>admin(network.firewall)> show Displays the AP35xx firewall parameters. Syntax show Shows all AP35xx’s firewall settings. Example admin(network.firewall)>show Firewall Status NAT Timeout : disable : 10 minutes Configurable Firewall Filters: ftp bounce attack filter syn flood attack filter unaligned ip timestamp filter source routing attack filter winnuke attack filter seq num prediction attack filter mime flood attack filter max mime header length max mime headers : : : : : : : : : enable enable enable enable enable enable enable 8192 bytes 16 headers For information on configuring the Firewall options available to the access point using the applet (GUI), see “Configuring Firewall Settings” on page 188. Altitude 3500 Series Access Point Product Reference Guide 395 CLI Reference AP35xx>admin(network.firewall)> set Defines the AP35xx firewall parameters. Syntax set mode <mode> Enables or disables the firewall. nat-timeout <interval> Defines the NAT timeout value. syn <mode> Enables or disables SYN flood attack check. src <mode> Enables or disables source routing check. win <mode> Enables or disables Winnuke attack check. ftp <mode> Enables or disables FTP bounce attack check. ip <mode> Enables or disables IP unaligned timestamp check. seq <mode> Enables or disables sequence number prediction check. mime filter Enables or disables MIME flood attack check. len <length> Sets the max header length in bytes as specified by <length> (with value in range 256 - 34463). hdr <count> Sets the max number of headers as specified in <count> (with value in range 12 - 34463). Example admin(network.firewall)>set mode enable admin(network.firewall)>set ftp enable admin(network.firewall)>set ip enable admin(network.firewall)>set seq enable admin(network.firewall)>set src enable admin(network.firewall)>set syn enable admin(network.firewall)>set win enable admin(network.firewall)>show Firewall Status Override LAN to WAN Access : enable : disable Configurable Firewall Filters ftp bounce attack filter syn flood attack filter unaligned ip timestamp filter source routing attack filter winnuke attack filter seq num prediction attack filter mime flood attack filter max mime header length max mime headers : : : : : : : : : enable enable enable enable enable enable enable 8192 16 Altitude 3500 Series Access Point Product Reference Guide 396 AP35xx>admin(network.firewall)> access Enables or disables firewall permissions through LAN to WAN ports. Syntax show Displays LAN to WAN access rules. set Sets LAN to WAN access rules. add Adds LAN to WAN exception rules. delete Deletes LAN to WAN access exception rules. list Displays LAN to WAN access exception rules. .. Goes to parent menu / Goes to root menu. save Saves configuration to system flash. quit Quits and exits the CLI session. Example admin(network.firewall.lan-wan-access)>list ----------------------------------------------------------------------------index from to name prot start port end port ----------------------------------------------------------------------------1 2 3 4 5 lan lan lan lan lan wan wan wan wan wan HTTP abc 123456 654321 abc tcp udp ah tcp ah 80 0 1440 2048 100 80 0 2048 2048 1000 For information on configuring the Firewall options available to the access point using the applet (GUI), see “Configuring Firewall Settings” on page 188. Altitude 3500 Series Access Point Product Reference Guide 397 CLI Reference AP35xx>admin(network.firewall)> advanced Displays whether an AP35xx firewall rule is intended for inbound traffic to an interface or outbound traffic from that interface. Syntax show Shows advanced subnet access parameters. set Sets advanced subnet access parameters. import Imports rules from subnet access. inbound Goes to the Inbound Firewall Rules submenu. outbound Goes to the Outbound Firewall Rules submenu. .. Goes to the parent menu. / Goes to the root menu. save Saves the configuration to flash memory. quit Quits and exits the CLI session. Example admin(network.firewall.adv-lan-access)>inbound admin(network.firewall.adv-lan-access.inb)>list ----------------------------------------------------------------------------Idx SCR IP-Netmask Dst IP-Netmask TP SPorts DPorts Rev NAT Action ----------------------------------------------------------------------------1 1.2.3.4 2.2.2.2 all 1: 1: 0.0.0.0 deny 255.0.0.0 255.0.0.0 65535 65535 nat port 33 2 33.3.0.0 10.10.1.1 tcp 1: 1: 11.11.1.0 allow 255.255.255.0 255.255.255.0 65535 65535 nat port 0 For information on configuring the Firewall options available to the access point using the applet (GUI), see “Configuring Firewall Settings” on page 188. Altitude 3500 Series Access Point Product Reference Guide 398 Network Router Commands AP35xx>admin(network.router)> Displays the router submenu. The items available under this command are: show Displays the existing AP35xx router configuration. set Sets the RIP parameters. add Adds user-defined routes. delete Deletes user-defined routes. list Lists user-defined routes. .. Goes to the parent menu. / Goes to the root menu. save Saves the configuration to system flash. quit Quits the CLI. Altitude 3500 Series Access Point Product Reference Guide 399 CLI Reference AP35xx>admin(network.router)> show Shows the access point route table. Syntax show Shows the access point route table. Example admin(network.router)>show routes ---------------------------------------------------------------------------index destination netmask gateway interface metric ---------------------------------------------------------------------------1 192.168.2.0 255.255.255.0 0.0.0.0 lan1 0 2 192.168.1.0 255.255.255.0 0.0.0.0 lan2 0 3 192.168.0.0 255.255.255.0 0.0.0.0 lan1 0 4 192.168.24.0 255.255.255.0 0.0.0.0 wan 0 5 157.235.19.5 255.255.255.0 192.168.24.1 wan 1 Default gateway Interface : lan1 For information on configuring the Router options available to the access point using the applet (GUI), see “Configuring Router Settings” on page 163. Altitude 3500 Series Access Point Product Reference Guide 400 AP35xx>admin(network.router)> set Shows the access point route table. Syntax set auth Sets the RIP authentication type. dir Sets RIP direction. id Sets MD5 authentication ID. key Sets MD5 authentication key. passwd Sets the password for simple authentication. type Defines the RIP type. dgw-iface Sets the default gateway interface. For information on configuring the Router options available to the access point using the applet (GUI), see “Configuring Router Settings” on page 163. Altitude 3500 Series Access Point Product Reference Guide 401 CLI Reference AP35xx>admin(network.router)> add Adds user-defined routes. Syntax add <dest> <netmask> <gw> <iface> <metric> Adds a route with destination IP address <dest>, IP netmask <netmask>, destination gateway IP address <gw>, interface LAN1, LAN2 or WAN <iface>, and metric set to <metric> (1-65536). Example admin(network.router)>add 192.168.3.0 255.255.255.0 192.168.2.1 LAN1 1 admin(network.router)>list ---------------------------------------------------------------------------index destination netmask gateway interface metric ---------------------------------------------------------------------------1 192.168.3.0 255.255.255.0 192.168.2.1 lan1 1 For information on configuring the Router options available to the access point using the applet (GUI), see “Configuring Router Settings” on page 163. Altitude 3500 Series Access Point Product Reference Guide 402 AP35xx>admin(network.router)> delete Deletes user-defined routes. Syntax delete <idx> Deletes the user-defined route <idx> (1-20) from list. all Deletes all user-defined routes. Example admin(network.router)>list ---------------------------------------------------------------------------index destination netmask gateway interface metric ---------------------------------------------------------------------------1 192.168.2.0 255.255.255.0 192.168.0.1 lan1 1 2 192.168.1.0 255.255.255.0 0.0.0.0 lan2 0 3 192.168.0.0 255.255.255.0 0.0.0.0 lan2 0 admin(network.router)>delete 2 admin(network.router)>list -----------------------------------------------------------------index destination netmask gateway interface metric -----------------------------------------------------------------1 192.168.2.0 255.255.255.0 0.0.0.0 lan1 2 192.168.0.0 255.255.255.0 0.0.0.0 lan1 0 0 admin(network.router)> For information on configuring the Router options available to the access point using the applet (GUI), see “Configuring Router Settings” on page 163. Altitude 3500 Series Access Point Product Reference Guide 403 CLI Reference AP35xx>admin(network.router)> list Lists user-defined routes. Syntax list Displays a list of user-defined routes. Example admin(network.router)>list ---------------------------------------------------------------------------index destination netmask gateway interface metric ---------------------------------------------------------------------------1 192.168.2.0 255.255.255.0 192.168.0.1 lan1 1 2 192.168.1.0 255.255.255.0 0.0.0.0 lan2 0 3 192.168.0.0 255.255.255.0 0.0.0.0 lan1 0 For information on configuring the Router options available to the access point using the applet (GUI), see “Configuring Router Settings” on page 163. Altitude 3500 Series Access Point Product Reference Guide 404 System Commands AP35xx>admin(system)> Displays the System submenu. The items available under this command are shown below. restart show set lastpw exec arp aap-setup lldp access cmgr snmp userdb radius ntp logs config fw-update .. / save quit : : : : : : : : : : : : : : : : : : : : : : : restart the system show ADP-35xx system information set ADP-35xx system parameters display last expired debug password execute a Linux command display arp table go go go go go go go go go go go go go to to to to to to to to to to to to to Adaptive AP Settings sub menu LLDP sub menu ADP-35xx Access sub menu Certificate Manager sub menu SNMP sub menu userdb sub menu radius sub menu Network Time Protocol (NTP) sub menu Logs sub menu Config File Update sub menu Firmware Update sub menu parent menu root menu save cfg to system flash quit cli Altitude 3500 Series Access Point Product Reference Guide 405 CLI Reference AP35xx>admin(system)>restart Restarts the AP35xx access point. Syntax restart Restarts the AP35xx. Example admin(system)>restart ********************************WARNING*********************************** ** Unsaved configuration changes will be lost when the access point is reset. ** Please be sure to save changes before resetting. ************************************************************************** Are you sure you want to restart the AP35xx?? (yes/no): AP35xx Boot Firmware Version 2.2.0.0-XXX Copyright(c) Extreme Networks 2007. All rights reserved. Press escape key to run boot firmware ........ Power On Self Test testing testing testing testing ram nor flash nand flash ethernet : : : : pass pass pass pass For information on restarting the access point using the applet (GUI), see “Configuring System Settings” on page 68. Altitude 3500 Series Access Point Product Reference Guide 406 AP35xx>admin(system)>show Displays high-level system information helpful to differentiate this access point. Syntax show Displays AP35xx system information. Example admin(system)>show system name system location admin email address system uptime led state DNS Relay Mode : : : : : : ADP-35xx SSLv2 support from HTTP server weak cipher support in SSL SSHv1 support : enable : enable : enable ADP-35xx firmware version country code ap-mode serial number Hw Model hw version : : : : : : 0 days 0 hours 56 minutes 27 seconds enable enable us independent 09459-80043 AP3510-US 01 admin(system)> For information on displaying System Settings using the applet (GUI), see “Configuring System Settings” on page 68. Altitude 3500 Series Access Point Product Reference Guide 407 CLI Reference AP35xx>admin(system)>set Sets AP35xx system parameters: name loc email cc led dns-relay-mode sslv2 weak-ssl-cipher sshv1 : : : : : : : : : set set set set set set set set set ADP-35xx system name ADP-35xx system location ADP-35xx admin email address ADP-35xx country code ADP-35xx LED state DNS relay mode SSLv2 mode for apache (enable/disable) weak cipher support (enable/disable) SSHv1 mode (enable/disable) For information on configuring System Settings using the applet (GUI), see “Configuring System Settings” on page 68. Altitude 3500 Series Access Point Product Reference Guide 408 AP35xx>admin(system)>lastpw Displays last expired debug password. Example admin(system)>lastpw AP35xx MAC Address is 00:15:70:02:7A:66 Last debug password was Extreme Networks Current debug password used 0 times, valid 4 more time(s) admin(system)> Altitude 3500 Series Access Point Product Reference Guide 409 CLI Reference AP35xx>admin(system)>arp Displays the access point’s arp table. Example admin(system)>arp Address HWtype HWaddress Flags Mask Iface 157.235.92.210 157.235.92.179 157.235.92.248 157.235.92.180 157.235.92.3 157.235.92.181 157.235.92.80 157.235.92.95 157.235.92.161 157.235.92.126 ether ether ether ether ether ether ether ether ether ether 00:11:25:14:61:A8 00:14:22:F3:D7:39 00:11:25:B2:09:60 00:0D:60:D0:06:90 00:D0:2B:A0:D4:FC 00:15:C5:0C:19:27 00:11:25:B2:0D:06 00:14:22:F9:12:AD 00:06:5B:97:BD:6D 00:11:25:B2:29:64 C C C C C C C C C C ixp1 ixp1 ixp1 ixp1 ixp1 ixp1 ixp1 ixp1 ixp1 ixp1 admin(system)> Altitude 3500 Series Access Point Product Reference Guide 410 Adaptive AP Setup Commands AP35xx>admin(system)>aap-setup Displays the Adaptive AP submenu. show Displays Adaptive AP information. set Defines the Adaptive AP configuration. delete Deletes static controller address assignments. .. Goes to the parent menu. / Goes to the root menu. save Saves the current configuration to the AP35xx system flash. quit Quits the CLI and exits the current session. For information on configuring adaptive AP using the applet (GUI), see “Adaptive AP Setup” on page 70. For an overview of adaptive AP functionality and its implications, see “Adaptive AP” on page 551. Altitude 3500 Series Access Point Product Reference Guide 411 CLI Reference AP35xx>admin(system.aap-setup)>show Displays the access point’s Adaptive AP configuration. Syntax show Displays the access point’s Adaptive AP configuration. Example admin(system.aap-setup)>show Auto Discovery Mode Controller Interface Controller Name Static IP Port Static IP Addresses: IP Address 1 IP Address 2 IP Address 3 IP Address 4 IP Address 5 IP Address 6 IP Address 7 IP Address 8 IP Address 9 IP Address 10 IP Address 11 IP Address 12 : disable : lan1 : : 24576 : : : : : : : : : : : : 0.0.0.0 0.0.0.0 0.0.0.0 0.0.0.0 0.0.0.0 0.0.0.0 0.0.0.0 0.0.0.0 0.0.0.0 0.0.0.0 0.0.0.0 0.0.0.0 Tunnel to Controller AC keepalive Load Balancing Inactivity Timeout : : : : disable 5 enable 42 Current Controller AP Adoption State : 10.255.108.37 : AAP adopted, Both Portals Configured admin(system.aap-setup)> NOTE The access point CLI is only the only AP interface that displays the adaptive AP’s adoption status and AP run state. This information does not appear within the Adaptive AP Setup screen. For information on configuring adaptive AP using the applet (GUI), see “Adaptive AP Setup” on page 70. For an overview of adaptive AP functionality and its implications, see “Adaptive AP” on page 551. Altitude 3500 Series Access Point Product Reference Guide 412 AP35xx>admin(system.aap-setup)>set Sets AP35xx’s Adaptive AP configuration. set auto-discovery interface ipadr name port passphrase tunnel-to-cntrlr ac-keepalive load-balancing : : : : : : : : : set controller auto-discovery mode set tunnel interface set controller ip addresses set controller domain name set control port set controller passphrase enable/disable AP-Controller Tunnel set the AC KeepAlive period enable/disable AAP Load Balancing For information on configuring adaptive AP using the applet (GUI), see “Adaptive AP Setup” on page 70. For an overview of adaptive AP functionality and its implications, see “Adaptive AP” on page 551. Altitude 3500 Series Access Point Product Reference Guide 413 CLI Reference AP35xx>admin(system.aap-setup)>delete Deletes static controller address assignments. Syntax delete <idx> Deletes static controller address assignments by selected index. <all> Deletes all assignments. Example admin(system.aap-setup)>delete 1 admin(system.aap-setup)> For information on configuring adaptive AP using the applet (GUI), see “Adaptive AP Setup” on page 70. For an overview of adaptive AP functionality and its implications, see “Adaptive AP” on page 551. Altitude 3500 Series Access Point Product Reference Guide 414 AP-3500 series>admin(system)>lldp Displays the LLDP sub menu. Syntax show Displays LLDP information. set Sets LLDP parameters. .. Goes to the parent menu. / Goes to the root menu. save Saves the current configuration to the access point system flash. quit Quits the CLI and exits the current session. For information on configuring LLDP using the applet (GUI), see “Configuring LLDP Settings” on page 4-100. Altitude 3500 Series Access Point Product Reference Guide 415 CLI Reference AP-3500 series>admin (system.lldp)show Displays LLDP information. Syntax show Displays Adaptive AP information. ExampleExample: admin(system.lldp)>show LLDP Status : disable LLDP Referesh Interval: 30 LLDP Holdtime Multiplier : 4 For information on configuring LLDP using the applet (GUI), see “Configuring LLDP Settings” on page 4-100. Altitude 3500 Series Access Point Product Reference Guide 416 AP-3500 series>admin (system.lldp)set Sets the LLDP configuration. Syntax show Displays LLDP information. set Sets LLDP parameters. .. Goes to the parent menu. / Goes to the root menu. save Saves the current configuration to the access point system flash. quit Quits the CLI and exits the current session. Altitude 3500 Series Access Point Product Reference Guide 417 CLI Reference System Access Commands AP35xx>admin(system)>access Displays the access point access submenu. show Displays AP35xx system access capabilities. set Goes to the AP35xx system access submenu. .. Goes to the parent menu. / Goes to the root menu. save Saves the current configuration to the AP35xx system flash. quit Quits the CLI and exits the current session. Altitude 3500 Series Access Point Product Reference Guide 418 AP35xx>admin(system.access)>set Defines the permissions to access the AP35xx applet, CLI, SNMP as well as defining their timeout values. Syntax set applet app-timeout Defines the applet HTTP/HTTPS access parameters. <minutes> cli Sets the applet timeout. Default is 300 Mins. Defines CLI Telnet access parameters. Enables/disables access from lan and wan. ssh Sets the CLI SSH access parameters. trusted-host <mode>, <range> <clear> Enables/Disables global management access (snmp, http, https, telnet and ssh) for up to 8 addresses (hosts). auth-timout <seconds> Disables the radio interface if no data activity is detected after the interval defined. Default is 120 seconds. inactive-timeout <minutes> Inactivity interval resulting in the AP terminating its connection. Default is 120 minutes. snmp Sets SNMP access parameters. admin-auth Designates a RADIUS server is used in the authentication verification. server <ip> Specifies the IP address the Remote Dial-In User Service (RADIUS) server. port <port#> Specifies the port on which the RADIUS server is listening. Default is 1812. secret <pw> Defines the shared secret password for RADIUS server authentication. mode <mode> Enables/disables the access point message mode. msg Defines the access point login message text. For information on configuring access point access settings using the applet (GUI), see “Configuring Data Access” on page 72. Altitude 3500 Series Access Point Product Reference Guide 419 CLI Reference AP35xx>admin(system.access)>show Displays the current AP35xx access permissions and timeout values. Syntax show Shows all of the current system access settings for the AP35xx. Example admin(system.access)>set trusted-host mode enable admin(system.access)>set trusted-host range 1 10.1.1.1 10.1.1.10 Warning: Only trusted hosts can access the AP through snmp, http, https, telnet, ssh admin(system.access)>show trusted host access mode : enable Following trusted host(s) have access to the system via snmp, ssh, http, https and telnet trusted trusted trusted trusted trusted trusted trusted trusted host(s) host(s) host(s) host(s) host(s) host(s) host(s) host(s) 1 2 3 4 5 6 7 8 http/s timeout ssh server authetnication timeout ssh server inactivity timeout admin authetnication mode Login Message Mode Login Message : : : : : : : : 10.1.1.1-10.1.1.10 0.0.0.0-0.0.0.0 0.0.0.0-0.0.0.0 0.0.0.0-0.0.0.0 0.0.0.0-0.0.0.0 0.0.0.0-0.0.0.0 0.0.0.0-0.0.0.0 0.0.0.0-0.0.0.0 : : : : : : 0 120 120 local disable Related Commands: set Defines the AP35xx system access capabilities and timeout values. For information on configuring access point access settings using the applet (GUI), see “Configuring Data Access” on page 72. Altitude 3500 Series Access Point Product Reference Guide 420 System Certificate Management Commands AP35xx>admin(system)>cmgr Displays the Certificate Manager submenu. The items available under this command include: genreq delself loadself listself loadca delca listca showreq delprivkey listprivkey show set expcert impcert .. / save quit : : : : : : : : : : : : : : : : : : : : : : : : generate Certificate Request delete Signed Certificate load Signed Certificate signed by CA list the Signed Certificate loaded load root CA certificate delete the root CA certificate list the root CA certificate loaded displays certificate request in PEM format. deletes the private key. list names of private keys. show certificate import/export parameters set certificate import/export parameters exports the certificate file. imports the certificate file. go to parent menu go to root menu save cfg to system flash quit cli Altitude 3500 Series Access Point Product Reference Guide 421 CLI Reference AP35xx>admin(system.cmgr)> genreq Generates a certificate request. Syntax genreq <IDname <Subject> > [-ou <OrgUnit>] [-on <OrgName>] [-cn <City>] [-st <State>] ... ... [-cc <CCode>] [-e <Email>] [-d <Domain>] [-i <IP>] [-sa <SAlgo>] [-p <PostCode>] Generates a self-certificate request for a Certification Authority (CA), where: <IDname> <Subject> -ou <Department> -on <OrgName> -cn <City> -st <State> -p <PostCode> -cc <CCode> -e <Email> -d <Domain> -i <IP> -sa <SAlgo> -k <KSize> The private key ID Name (up to 7 chars) Subject Name (up to 49 chars) Organization Unit (up to 49 chars) Organization Name (up to 49 chars) City Name of Organization (up to 49 chars) State Name (up to 49 chars) Postal code (9 digits) Country code (2 chars) E-mail Address (up to 49 chars) Domain Name (up to 49 chars) IP Address (a.b.c.d) Signature Algorithm (one of MD5-RSA or SHA1-RSA Key size in bits (one of 512, 1024, or 2048) NOTE The parameters in [square brackets] are optional. Check with the CA to determine what fields are necessary. For example, most CAs require an email address and an IP address, but not the address of the organization. Example admin(system.cmgr)>genreq MyCert2 MySubject -ou MyDept -on MyCompany Please wait. It may take some time... Generating the certificate request Retreiving the certificate request The certificate request is -----BEGIN CERTIFICATE REQUEST----MIHzMIGeAgEAMDkxEjAQBgNVBAoTCU15Q29tcGFueTEPMA0GA1UECxMGTXlEZXB0 MRIwEAYDVQQDEwlNeVN1YmplY3QwXDANBgkqhkiG9w0BAQEFAANLADBIAkEAtKcX plKFCFAJymTFX71yuxY1fdS7UEhKjBsH7pdqnJnsASK6ZQGAqerjpKScWV1mzYn4 1q2+mgGnCvaZUlIo7wIDAQABoAAwDQYJKoZIhvcNAQEEBQADQQCClQ5LHdbG/C1f Bj8AszttSo/bA4dcX3vHvhhJcmuuWO9LHS2imPA3xhX/d6+Q1SMbs+tG4RP0lRSr iWDyuvwx -----END CERTIFICATE REQUEST----- For information on configuring certificate management settings using the applet (GUI), see “Managing Certificate Authority (CA) Certificates” on page 78. Altitude 3500 Series Access Point Product Reference Guide 422 AP35xx>admin(system.cmgr)> delself Deletes a self certificate. Syntax delself <IDname> Deletes the self certificate named <IDname>. Example admin(system.cmgr)>delself MyCert2 For information on configuring self certificate settings using the applet (GUI), see “Creating Self Certificates for Accessing the VPN” on page 79. Altitude 3500 Series Access Point Product Reference Guide 423 CLI Reference AP35xx>admin(system.cmgr)> loadself Loads a self certificate signed by the Certificate Authority. Syntax loadself <IDname> [https] Load the self certificate signed by the CA with name <IDname> (7 characters). HTTPS is needed for an apacahe certificate and keys. For information on configuring self certificate settings using the applet (GUI), see “Creating Self Certificates for Accessing the VPN” on page 79. Altitude 3500 Series Access Point Product Reference Guide 424 AP35xx>admin(system.cmgr)> listself Lists the loaded self certificates. Syntax listself Lists all self certificates that are loaded. For information on configuring self certificate settings using the applet (GUI), see “Creating Self Certificates for Accessing the VPN” on page 79. Altitude 3500 Series Access Point Product Reference Guide 425 CLI Reference AP35xx>admin(system.cmgr)> loadca Loads a trusted certificate from the Certificate Authority. Syntax loadca Loads the trusted certificate (in PEM format) that is pasted into the command line. For information on configuring certificate settings using the applet (GUI), see “Importing a CA Certificate” on page 78. Altitude 3500 Series Access Point Product Reference Guide 426 AP35xx>admin(system.cmgr)> delca Deletes a trusted certificate. Syntax delca <IDname> Deletes the trusted certificate. For information on configuring certificate settings using the applet (GUI), see “Importing a CA Certificate” on page 78. Altitude 3500 Series Access Point Product Reference Guide 427 CLI Reference AP35xx>admin(system.cmgr)> listca Lists the loaded trusted certificate. Syntax listca Lists the loaded trusted certificates. For information on configuring certificate settings using the applet (GUI), see “Importing a CA Certificate” on page 78. Altitude 3500 Series Access Point Product Reference Guide 428 AP35xx>admin(system.cmgr)> showreq Displays a certificate request in PEM format. Syntax showreq <IDname> Displays a certificate request named <IDname> generated from the genreq command (7 characters maximum). For information on configuring certificate settings using the applet (GUI), see “Importing a CA Certificate” on page 78. Altitude 3500 Series Access Point Product Reference Guide 429 CLI Reference AP35xx>admin(system.cmgr)> delprivkey Deletes a private key. Syntax delprivkey <IDname> Deletes private key named <IDname>. For information on configuring certificate settings using the applet (GUI), see “Creating Self Certificates for Accessing the VPN” on page 79. Altitude 3500 Series Access Point Product Reference Guide 430 AP35xx>admin(system.cmgr)> listprivkey Lists the names of private keys. Syntax listprivkey Lists all private keys and their associated certificates. For information on configuring certificate settings using the applet (GUI), see “Importing a CA Certificate” on page 78. Altitude 3500 Series Access Point Product Reference Guide 431 CLI Reference AP35xx>admin(system.cmgr)> expcert Exports the certificate file to a user defined location. Syntax expcert Exports the access point’s CA or Self certificate file. To export certificate information from an Altitude 3510 or Altitude 3550 model access point: admin(system.cmgr)>expcert ? <type> <file name> [https] <cr> : : : : : : type: ftp/tftp file name: Certificate file name https: If set to export apache certificate and key Server options for this file are the same as that for the configuration file admin(system.cmgr)>expcert tftp AP35xxcerts.txt To configure Altitude 3510 or Altitude 3550 certificate management settings while conducting a firmware update or restoring a factory default configuration: admin(system.cmgr)> ? genreq delself loadself listself loadca delca listca showreq delprivkey listprivkey show set expcert impcert .. / save quit : : : : : : : : : : : : : : : : : : : : : : : : generate Certificate Request delete Signed Certificate load Signed Certificate signed by CA list the Signed Certificate loaded load root CA certificate delete the root CA certificate list the root CA certificate loaded displays certificate request in PEM format. deletes the private key. list names of private keys. show certificate import/export parameters set certificate import/export parameters exports the certificate file. imports the certificate file. go to parent menu go to root menu save cfg to system flash quit cli For information on configuring certificate settings using the applet (GUI), see “Importing a CA Certificate” on page 78. Altitude 3500 Series Access Point Product Reference Guide 432 AP35xx>admin(system.cmgr)> impcert Imports the target certificate file. Syntax impcert Imports the target certificate file. To import certificate information from an Altitude 3510 or Altitude 3550 model access point: admin(system.cmgr)>impcert ? <type> <file name> [https] <cr> : : : : : : type: ftp/tftp file name: Certificate file name https: If set to import apache certificate and key Server options for this file are the same as that for the configuration file admin(system.cmgr)>impcert tftp AP35xxcerts.txt To configure Altitude 3510 or Altitude 3550 certificate management settings while conducting a firmware update or restoring a factory default configuration: admin(system.cmgr)> ? genreq delself loadself listself loadca delca listca showreq delprivkey listprivkey show set expcert impcert .. / save quit : : : : : : : : : : : : : : : : : : : : : : : : generate Certificate Request delete Signed Certificate load Signed Certificate signed by CA list the Signed Certificate loaded load root CA certificate delete the root CA certificate list the root CA certificate loaded displays certificate request in PEM format. deletes the private key. list names of private keys. show certificate import/export parameters set certificate import/export parameters exports the certificate file. imports the certificate file. go to parent menu go to root menu save cfg to system flash quit cli For information on configuring certificate settings using the applet (GUI), see “Importing a CA Certificate” on page 78. Altitude 3500 Series Access Point Product Reference Guide 433 CLI Reference System SNMP Commands AP35xx>admin(system)> snmp Displays the SNMP submenu. The items available under this command are shown below. access Goes to the SNMP access submenu. traps Goes to the SNMP traps submenu. .. Goes to the parent menu. / Goes to the root menu. save Saves the configuration to system flash. quit Quits the CLI. System SNMP Access Commands AP35xx>admin(system.snmp.access) Displays the SNMP Access menu. The items available under this command are shown below. show Shows SNMP v3 engine ID. add Adds SNMP access entries. delete Deletes SNMP access entries. list Lists SNMP access entries. .. Goes to the parent menu. / Goes to the root menu. save Saves the configuration to system flash. quit Quits the CLI. Altitude 3500 Series Access Point Product Reference Guide 434 AP35xx>admin(system.snmp.access)> show Shows the SNMP v3 engine ID. Syntax show eid Shows the SNMP v3 Engine ID. Example admin(system.snmp.access)>show eid AP35xx snmp v3 engine id : 000001846B8B4567F871AC68 admin(system.snmp.access)> For information on configuring SNMP access settings using the applet (GUI), see “Configuring SNMP Access Control” on page 90. Altitude 3500 Series Access Point Product Reference Guide 435 CLI Reference AP35xx>admin(system.snmp.access)> add Adds SNMP access entries for specific v1v2 and v3 user definitions. Syntax add acl v1v2c <ip1> <ip2> Adds an entry to the SNMP access control list with <ip1> as the starting IP address and <ip2> and as the ending IP address. <comm> <access> <oid> : comm - community string 1 to 31 characters : access - read/write access - (ro,rw) : oid - string 1 to 127 chars - E.g. 1.3.6.1 v3 <user> <access> <oid> <sec> <auth> <pass1> <priv> <pass2> : user - username 1 to 31 characters : access - read/write access - (ro,rw) : oid - string 1 to 127 chars - E.g. 1.3.6.1 : sec - security - (none,auth,auth/priv) : auth - algorithm - (md5,sha1) : (required only if sec is - auth,auth/priv) : pass1 - auth password - 8 to 31 chars : (required only if sec is 'auth,auth/priv') : priv - algorithm - (des, aes) : (required only if sec is 'auth/priv') : pass2 - privacy password - 8 to 31 chars : (required only if sec is 'auth/priv') The following parameters must be specified if <sec> is not none: Authentication type <auth> set to md5 or sha1 Authentication password <pass1> (8 to 31 chars) The following parameters must be specified if <sec> is set to auth/priv: Privacy algorithm set to des or aes Privacy password <pass2> (8 to 31 chars) For information on configuring SNMP access settings using the applet (GUI), see “Configuring SNMP Access Control” on page 90. Altitude 3500 Series Access Point Product Reference Guide 436 AP35xx>admin(system.snmp.access)> delete Deletes SNMP access entries for specific v1v2 and v3 user definitions. Syntax delete acl v1v2c v3 <idx> Deletes entry <idx> (1-10) from the access control list. all Deletes all entries from the access control list. <idx> Deletes entry <idx> (1-10) from the v1/v2 configuration list. all Deletes all entries from the v1/v2 configuration list. <idx> Deletes entry <idx> (1-10) from the v3 user definition list. all Deletes all entries from the v3 user definition list. Example admin(system.snmp.access)>list acl ----------------------------------------------------------------------------index start ip end ip ----------------------------------------------------------------------------1 209.236.24.1 209.236.24.46 admin(system.snmp.access)>delete acl all admin(system.snmp.access)>list acl ----------------------------------------------------------------------------index start ip end ip ----------------------------------------------------------------------------- For information on configuring SNMP access settings using the applet (GUI), see “Configuring SNMP Access Control” on page 90. Altitude 3500 Series Access Point Product Reference Guide 437 CLI Reference AP35xx>admin(system.snmp.access)> list Lists SNMP access entries. Syntax list acl Lists SNMP access control list entries. v1v2c v3 Lists SNMP v1/v2c configuration. <idx> Lists SNMP v3 user definition with index <idx>. all Lists all SNMP v3 user definitions. Example admin(system.snmp.access)>list acl ---------------------------------------------------------------index start ip end ip ---------------------------------------------------------------1 209.236.24.1 209.236.24.46 admin(system.snmp.access)>list v1v2c ---------------------------------------------------------------index community access oid ---------------------------------------------------------------1 public read only 1.3.6.1 2 private read/write 1.3.6.1 admin(system.snmp.access)>list v3 2 index username access permission object identifier security level auth algorithm auth password privacy algorithm privacy password : : : : : : : : : 2 judy read/write 1.3.6.1 auth/priv md5 ******** des ******* For information on configuring SNMP access settings using the applet (GUI), see “Configuring SNMP Access Control” on page 90. Altitude 3500 Series Access Point Product Reference Guide 438 System SNMP Traps Commands AP35xx>admin(system.snmp.traps) Displays the SNMP traps submenu. The items available under this command are shown below. show Shows SNMP trap parameters. set Sets SNMP trap parameters. add Adds SNMP trap entries. delete Deletes SNMP trap entries. list Lists SNMP trap entries. .. Goes to the parent menu. / Goes to the root menu. save Saves the configuration to system flash. quit Quits the CLI. Altitude 3500 Series Access Point Product Reference Guide 439 CLI Reference AP35xx>admin(system.snmp.traps)> show Shows SNMP trap parameters. Syntax show trap Shows SNMP trap parameter settings. rate-trap Shows SNMP rate-trap parameter settings. Example admin(system.snmp.traps)>show trap SNMP MU mu mu mu mu Traps associated unassociated denied association denied authentication SNMP Traps snmp authentication failure snmp acl violation : : : : enable disable disable disable : disable : disable SNMP Network Traps physical port status change : enable denial of service : enable denial of service trap rate limit : 10 seconds SNMP System Traps system cold start system config changed rogue ap detection ap radar detection wpa counter measure mu hotspot status vlan lan monitor DynDNS Update : : : : : : : : : disable disable disable disable disable disable disable disable enable For information on configuring SNMP traps using the applet (GUI), see “Enabling SNMP Traps” on page 92. Altitude 3500 Series Access Point Product Reference Guide 440 AP35xx>admin(system.snmp.traps)> set Sets SNMP trap parameters. Syntax set mu-assoc enable/disable Enables/disables the MU associated trap. mu-unassoc enable/disable Enables/disables the MU unassociated trap. mu-deny-assoc enable/disable Enables/disables the MU association denied trap. mu-deny-auth enable/disable Enables/disables the MU authentication denied trap. snmp-auth enable/disable Enables/disables the authentication failure trap. snmp-acl enable/disable Enables/disables the SNMP ACL violation trap. port enable/disable Enables/disables the physical port status trap. dos-attack enable/disable Enables/disables the denial of service trap. dyndns-update enable/disable Enables/disables dyndns update trap. interval <rate> Sets denial of service trap interval. cold enable/disable Enables/disables the system cold start trap. cfg enable/disable Enables/disables a configuration changes trap. rogue-ap enable/disable Enables/disables a trap when a rogue-ap is detected. ap-radar enable/disable Enables/disables the AP Radar Detection trap. wpa-counter enable/disable Enables/disables the WPA counter measure trap. hotspot-mu-status enable/disable Enables/disables the hotspot mu status trap. vlan enable/disable Enables/disables VLAN traps. lan-monitor enable/disable Enables/disables LAN monitor traps. rate <rate> min-pkt <pkt> <scope > <value> Sets the particular <rate> to monitor to <value> given the indicated <scope>. See table below for information on the possible values for <rate>, <scope>, and <value>. Sets the minimum number of packets required for rate traps to fire (1-65535). health-check-event enable/disable Enables/disables the health check event trap. all Enables/disables all traps enable/disable For information on configuring SNMP traps using the applet (GUI), see “Configuring Specific SNMP Traps” on page 94. Altitude 3500 Series Access Point Product Reference Guide 441 CLI Reference AP35xx>admin(system.snmp.traps)> add Adds SNMP trap entries. Syntax add v1v2 <ip> <port> <comm> <ver> Adds an entry to the SNMP v1/v2 access list with the destination IP address set to <ip>, the destination UDP port set to <port>, the community string set to <comm> (1 to 31 characters), and the SNMP version set to <ver>. v3 <ip> <port> <user> <sec> <auth> <pass1> <priv> <pass2> Adds an entry to the SNMP v3 access list with the destination IP address set to <ip>, the destination UDP port set to <port>, the username set to <user> (1 to 31 characters), and the authentication type set to one of none, auth, or auth/priv. The following parameters must be specified if <sec> is not none: Authentication type <auth> set to md5 or sha1 Authentication password <pass1> (8 to 31 chars) The following parameters must be specified if <sec> is set to auth/priv: Privacy algorithm set to des or aes Privacy password <pass2> (8 to 31 chars) Example admin(system.snmp.traps)>add v1v2 203.223.24.2 333 mycomm v1 admin(system.snmp.traps)>list v1v2c ---------------------------------------------------------------------index dest ip dest port community version ---------------------------------------------------------------------1 203.223.24.2 333 mycomm v1 admin(system.snmp.traps)>add v3 201.232.24.33 555 BigBoss none md5 admin(system.snmp.traps)>list v3 all index destination ip destination port username security level auth algorithm auth password privacy algorithm privacy password : : : : : : : : : 1 201.232.24.33 555 BigBoss none md5 ******** des ******** For information on configuring SNMP traps using the applet (GUI), see “Configuring SNMP RF Trap Thresholds” on page 96. Altitude 3500 Series Access Point Product Reference Guide 442 AP35xx>admin(system.snmp.traps)> delete Deletes SNMP trap entries. Syntax delete v1v2c v3 <idx> Deletes entry <idx> from the v1v2c access control list. all Deletes all entries from the v1v2c access control list. <idx> Deletes entry <idx> from the v3 access control list. all Deletes all entries from the v3 access control list. Example admin(system.snmp.traps)>delete v1v2 all For information on configuring SNMP traps using the applet (GUI), see “Configuring SNMP Settings” on page 86. Altitude 3500 Series Access Point Product Reference Guide 443 CLI Reference AP35xx>admin(system.snmp.traps)> list Lists SNMP trap entries. Syntax list v1v2c v3 Lists SNMP v1/v2c access entries. <idx> Lists SNMP v3 access entry <idx>. all Lists all SNMP v3 access entries. Example admin(system.snmp.traps)>add v1v2 203.223.24.2 162 mycomm v1 admin(system.snmp.traps)>list v1v2c ---------------------------------------------------------------------index dest ip dest port community version ---------------------------------------------------------------------1 203.223.24.2 162 mycomm v1 admin(system.snmp.traps)>add v3 201.232.24.33 555 BigBoss none md5 admin(system.snmp.traps)>list v3 all index destination ip destination port username security level auth algorithm auth password privacy algorithm privacy password : : : : : : : : : 1 201.232.24.33 555 BigBoss none md5 ******** des ******** For information on configuring SNMP traps using the applet (GUI), see “Configuring SNMP RF Trap Thresholds” on page 96. Altitude 3500 Series Access Point Product Reference Guide 444 System User Database Commands AP35xx>admin(system)> userdb Goes to the user database submenu. user Goes to the user submenu. group Goes to the group submenu. save Saves the configuration to system flash. .. Goes to the parent menu. / Goes to the root menu. For information on configuring User Database permissions using the applet (GUI), see “Defining User Access Permissions by Group” on page 226. Altitude 3500 Series Access Point Product Reference Guide 445 CLI Reference Adding and Removing Users from the User Database AP35xx>admin(system.userdb)> user Adds and removes users from the user database and defines user passwords. add Adds a new user. delete Deletes an existing user ID. clearall Removes all existing user IDs from the system. set Sets a password for a user. show Displays the current user database configuration. save Saves the configuration to system flash. .. Goes to the parent menu. / Goes to the root menu. For information on configuring User Database permissions using the applet (GUI), see “Defining User Access Permissions by Group” on page 226. Altitude 3500 Series Access Point Product Reference Guide 446 AP35xx>admin(system.userdb.user)> add Adds a new user to the user database. Syntax add <name> Adds a new user and password to the user database. <password> Example admin(system.userdb.user>add george password admin(system.userdb.user> For information on configuring User Database permissions using the applet (GUI), see “Defining User Access Permissions by Group” on page 226. Altitude 3500 Series Access Point Product Reference Guide 447 CLI Reference AP35xx>admin(system.userdb.user)> delete Removes a new user to the user database. Syntax delete Removes a user ID string from the user database. Example admin(system.userdb.user>delete george admin(system.userdb.user> For information on configuring User Database permissions using the applet (GUI), see “Defining User Access Permissions by Group” on page 226. Altitude 3500 Series Access Point Product Reference Guide 448 AP35xx>admin(system.userdb.user)>clearall Removes all existing user IDs from the system. Syntax clearall Removes all existing user IDs from the system. Example admin(system.userdb.user>clearall admin(system.userdb.user> For information on configuring User Database permissions using the applet (GUI), see “Defining User Access Permissions by Group” on page 226. Altitude 3500 Series Access Point Product Reference Guide 449 CLI Reference AP35xx>admin(system.userdb.user)>set Sets a password for a user. Syntax set <userid> <passwd> Sets a password for a specific user. Example admin(system.userdb.user>set george password admin(system.userdb.user> For information on configuring User Database permissions using the applet (GUI), see “Defining User Access Permissions by Group” on page 226. Altitude 3500 Series Access Point Product Reference Guide 450 Adding and Removing Groups from the User Database AP35xx>admin(system.userdb)> group Adds and removes groups from the user database. create Creates a group name. delete Deletes a group name. clearall Removes all existing group names from the system. add Adds a user to an existing group. remove Removes a user from an existing group. show Displays existing groups. save Saves the configuration to system flash. .. Goes to the parent menu. / Moves back to root menu. For information on configuring User Database permissions using the applet (GUI), see “Defining User Access Permissions by Group” on page 226. Altitude 3500 Series Access Point Product Reference Guide 451 CLI Reference AP35xx>admin(system.userdb.group> create Creates a group name. Once defined, users can be added to the group. Syntax create Creates a group name. Once defined, users can be added to the group. Example admin(system.userdb.group>create 2 admin(system.userdb.group> For information on configuring User Database permissions using the applet (GUI), see “Defining User Access Permissions by Group” on page 226. Altitude 3500 Series Access Point Product Reference Guide 452 AP35xx>admin(system.userdb.group> delete Deletes an existing group. Syntax delete Deletes an existing group. Example admin(system.userdb.group>delete 2 admin(system.userdb.group> For information on configuring User Database permissions using the applet (GUI), see “Defining User Access Permissions by Group” on page 226. Altitude 3500 Series Access Point Product Reference Guide 453 CLI Reference AP35xx>admin(system.userdb.group> clearall Removes all existing group names from the system. Syntax clearall Removes all existing group names from the system. Example admin(system.userdb.group>clearall admin(system.userdb.group> For information on configuring User Database permissions using the applet (GUI), see “Defining User Access Permissions by Group” on page 226. Altitude 3500 Series Access Point Product Reference Guide 454 AP35xx>admin(system.userdb.group> add Adds a user to an existing group. Syntax add <userid> <group> Adds a user <userid> to an existing group <group>. Example admin(system.userdb.group>add lucy group x admin(system.userdb.group> For information on configuring User Database permissions using the applet (GUI), see “Defining User Access Permissions by Group” on page 226. Altitude 3500 Series Access Point Product Reference Guide 455 CLI Reference AP35xx>admin(system.userdb.group> remove Removes a user from an existing group. Syntax remove <userid> <group> Removes a user <userid> from an existing group<group> . Example admin(system.userdb.group>remove lucy group x admin(system.userdb.group> For information on configuring User Database permissions using the applet (GUI), see “Defining User Access Permissions by Group” on page 226 Altitude 3500 Series Access Point Product Reference Guide 456 AP35xx>admin(system.userdb.group> show Displays existing groups. Syntax show Displays existing groups and users. users Displays configured user IDs for a group. groups Displays configured groups. Example admin(system.userdb.group>show groups List of Group Names : engineering : marketing : demo room admin(system.userdb.group> For information on configuring User Database permissions using the applet (GUI), see “Defining User Access Permissions by Group” on page 226. Altitude 3500 Series Access Point Product Reference Guide 457 CLI Reference System RADIUS Commands AP35xx>admin(system)> radius Goes to the RADIUS system submenu. eap Goes to the EAP submenu. policy Goes to the access policy submenu. ldap Goes to the LDAP submenu. proxy Goes to the proxy submenu. client Goes to the client submenu. set Sets RADIUS parameters. show Displays RADIUS parameters. save Saves the configuration to system flash. quit Quits the CLI. .. Goes to the parent menu. / Goes to the root menu. For information on configuring RADIUS using the applet (GUI), see “Configuring User Authentication” on page 217. Altitude 3500 Series Access Point Product Reference Guide 458 AP35xx>admin(system.radius)> set/show Sets or displays the RADIUS user database. Syntax set Sets the RADIUS user database. show all Displays the RADIUS user database. Example admin(system.radius)>set database local admin(system.radius)>show all Database : local admin(system.radius)> For information on configuring RADIUS using the applet (GUI), see “Configuring User Authentication” on page 217. Altitude 3500 Series Access Point Product Reference Guide 459 CLI Reference AP35xx>admin(system.radius)> eap Goes to the EAP submenu. Syntax peap Goes to the Peap submenu. ttls Goes to the TTLS submenu. import Imports the requested EAP certificates. set Defines EAP parameters. show Displays the EAP configuration. save Saves the configuration to system flash. quit Quits the CLI. .. Goes to the parent menu. / Goes to the root menu. For information on configuring EAP RADIUS using the applet (GUI), see “Configuring User Authentication” on page 217. Altitude 3500 Series Access Point Product Reference Guide 460 AP35xx>admin(system.radius.eap)> peap Goes to the Peap submenu. Syntax set Defines Peap parameters. show Displays the Peap configuration. save Saves the configuration to system flash. quit Quits the CLI. .. Goes to the parent menu. / Goes to the root menu. For information on configuring PEAP RADIUS using the applet (GUI), see “Configuring User Authentication” on page 217. Altitude 3500 Series Access Point Product Reference Guide 461 CLI Reference AP35xx>admin(system.radius.eap.peap> set/show Defines and displays Peap parameters Syntax set Sets the Peap authentication <type>. show Displays the Peap authentication type. Example admin(system.radius.eap.peap)>set auth gtc admin(system.radius.eap.peap)>show PEAP Auth Type : gtc For information on configuring EAP PEAP RADIUS values using the applet (GUI), see “Configuring User Authentication” on page 217. Altitude 3500 Series Access Point Product Reference Guide 462 AP35xx>admin(system.radius.eap)> ttls Goes to the TTLS submenu. Syntax set Defines TTLS parameters. show Displays the TTLS configuration. save Saves the configuration to system flash. quit Quits the CLI. .. Goes to the parent menu. / Goes to the root menu. For information on configuring EAP TTLS RADIUS values using the applet (GUI), see “Configuring User Authentication” on page 217. Altitude 3500 Series Access Point Product Reference Guide 463 CLI Reference AP35xx>admin(system.radius.eap.ttls> set/show Defines and displays TTLS parameters Syntax set Sets the TTLS authentication <type>. show Displays the TTLS authentication type. Example admin(system.radius.eap.ttls)>set auth pap admin(system.radius.eap.ttls)>show TTLS Auth Type : pap For information on configuring EAP TTLS RADIUS values using the applet (GUI), see “Configuring User Authentication” on page 217. Altitude 3500 Series Access Point Product Reference Guide 464 AP35xx>admin(system.radius)> policy Goes to the access policy submenu. Syntax set Sets a group’s WLAN access policy. access-time Goes to the time based login submenu. show Displays the group’s access policy. save Saves the configuration to system flash. quit Quits the CLI. .. Goes to the parent menu. / Goes to the root menu. For information on configuring RADIUS access policies using the applet (GUI), see “Configuring User Authentication” on page 217. Altitude 3500 Series Access Point Product Reference Guide 465 CLI Reference AP35xx>admin(system.radius.policy> set Defines the group’s WLAN access policy. Syntax set <group> <wlan(s)> Defines the group’s <group name> WLAN access policy (WLAN name delimited by a space). Example admin(system.radius.policy)>set engineering 16 admin(system.radius.policy)> For information on configuring RADIUS WLAN policy values using the applet (GUI), see “Configuring User Authentication” on page 217. Altitude 3500 Series Access Point Product Reference Guide 466 AP35xx>admin(system.radius.policy> access-time Goes to the time-based login submenu. Syntax set <group> <access-time> Defines a target group’s access time permissions. Access time is in DayDDDD-DDDD format. show Displays the group’s access time rule. save Saves the configuration to system flash. quit Quits the CLI. .. Goes to the parent menu. / Goes to the root menu. Example admin(system.radius.policy.access-time)>show List of Access Policies 1 2 10 12 : : : : Tue0830-2200, We2000-2300, Th1100-1930 Any0000-2359 Any0000-2359 Any0000-2359 Context Command Description system>radius>policy>access-time set start-time <group> <value> group = Valid group name. value = 4 digit value representing HHMM (0000-2359 allowed). system>radius>policy>access-time set end-time <group> <value> group = Valid group name. value = 4 digit value representing HHMM (0000-2359 allowed). The end time should be greater than the start time. system>radius>policy>access-time set access-days <group> <day-selector-keyword> group = Valid group name. day-selector-keyword = The allowed values are: Mo, Tu, We, Th, Fr, Sa, Su, Weekdays, Weekends, all. For information on configuring RADIUS WLAN policy values using the applet (GUI), see “Configuring User Authentication” on page 217. Altitude 3500 Series Access Point Product Reference Guide 467 CLI Reference AP35xx>admin(system.radius.policy> show Displays a group’s access policy. Syntax show Displays a group’s access policy. Example admin(system.radius.policy)>show List of Access Policies engineering marketing demo room test demo : : : : 16 10 3 No Wlans admin(system.radius.policy)> For information on configuring RADIUS WLAN policy values using the applet (GUI), see “Configuring User Authentication” on page 217 Altitude 3500 Series Access Point Product Reference Guide 468 AP35xx>admin(system.radius)> ldap Goes to the LDAP submenu. set Defines the LDAP parameters. show Displays existing LDAP parameters (command must be supplied as “show all.” save Saves the configuration to system flash. quit Quits the CLI. .. Goes to the parent menu. / Goes to the root menu. For information on configuring a RADIUS LDAP server using the applet (GUI), see “Configuring LDAP Authentication” on page 220. Altitude 3500 Series Access Point Product Reference Guide 469 CLI Reference AP35xx>admin(system.radius.ldap)> set Defines the LDAP parameters. Syntax set Defines the LDAP parameters. ipadr Sets LDAP IP address. port Sets LDAP server port. binddn Sets LDAP bind distinguished name. basedn Sets LDAP base distinguished name. passwd Sets LDAP server password. login Sets LDAP login attribute. pass_attr Sets LDAP password attribute. groupname Sets LDAP group name attribute. filter Sets LDAP group membership filter. membership Sets LDAP group membership attribute. Example admin(system.radius.ldap)>set admin(system.radius.ldap)>set admin(system.radius.ldap)>set admin(system.radius.ldap)>set admin(system.radius.ldap)>set admin(system.radius.ldap)>set admin(system.radius.ldap)>set admin(system.radius.ldap)>set admin(system.radius.ldap)>set admin(system.radius.ldap)>set ipadr 157.235.121.12 port 203.21.37.18 binddn 123 basedn 203.21.37.19 passwd mudskipper login muddy pass_attr 123 groupname 0.0.0.0 filter 123 membership radiusGroupName admin(system.radius.ldap)> For information on configuring a RADIUS LDAP server using the applet (GUI), see “Configuring LDAP Authentication” on page 220. Altitude 3500 Series Access Point Product Reference Guide 470 AP35xx>admin(system.radius.ldap)> show all Displays existing LDAP parameters. Syntax show all Displays existing LDAP parameters. Example admin(system.radius.ldap)>show all LDAP Server IP : 0.0.0.0 LDAP Server Port : 389 LDAP Bind DN : cn=manager, o=trion LDAP Base DN : 0=trion LDAP Login Attribute : (uid=%{Stripped-User-Name:-%{User-Name}}) LDAP Password attribute : userPassword LDAP Group Name Attribue : cn LDAP Group Membership Filter : (|(&(objectClass=GroupOfNames)(member=%{LdapobjectClass=GroupOfUniqueNames)(uniquemember=%{Ldap-UserDn}))) LDAP Group Membership Attribute : radiusGroupName admin(system.radius.ldap)> For information on configuring a RADIUS LDAP server using the applet (GUI), see “Configuring LDAP Authentication” on page 220. Altitude 3500 Series Access Point Product Reference Guide 471 CLI Reference AP35xx>admin(system.radius)> proxy Goes to the RADIUS proxy server submenu. add Adds a proxy realm. delete Deletes a proxy realm. clearall Removes all proxy server records. set Sets proxy server parameters. show Displays current RADIUS proxy server parameters. save Saves the configuration to system flash. quit Quits the CLI. .. Goes to the parent menu. / Goes to the root menu. For information on configuring RADIUS proxy server values using the applet (GUI), see “Configuring a Proxy Radius Server” on page 222. Altitude 3500 Series Access Point Product Reference Guide 472 AP35xx>admin(system.radius.proxy)> add Adds a proxy. Syntax add Adds a proxy realm. name <name> Realm name. ip1 <ip1> Authentication server IP address. port <port> Authentication server port. sec <sec> Shared secret password. Example admin(system.radius.proxy)>add lancelot 157.235.241.22 1812 muddy admin(system.radius.proxy)> For information on configuring RADIUS proxy server values using the applet (GUI), see “Configuring a Proxy Radius Server” on page 222. Altitude 3500 Series Access Point Product Reference Guide 473 CLI Reference AP35xx>admin(system.radius.proxy)> delete Deletes a proxy. Syntax delete <realm> Deletes a specified realm name. Example admin(system.radius.proxy)>delete lancelot admin(system.radius.proxy)> For information on configuring RADIUS proxy server values using the applet (GUI), see “Configuring a Proxy Radius Server” on page 222. Altitude 3500 Series Access Point Product Reference Guide 474 AP35xx>admin(system.radius.proxy)> clearall Removes all proxy server records from the system. Syntax clearall Removes all proxy server records from the system. Example admin(system.radius.proxy)>clearall admin(system.radius.proxy)> For information on configuring RADIUS proxy server values using the applet (GUI), see “Configuring a Proxy Radius Server” on page 222. Altitude 3500 Series Access Point Product Reference Guide 475 CLI Reference AP35xx>admin(system.radius.proxy)> set Sets Radius proxy server parameters. Syntax set Sets Radius proxy server parameters. delay Defines retry delay time (in seconds) for the proxy server. count Defines retry count value for the proxy server. Example admin(system.radius.proxy)>set delay 10 admin(system.radius.proxy)>set count 5 admin(system.radius.proxy)> For information on configuring RADIUS proxy server values using the applet (GUI), see “Configuring a Proxy Radius Server” on page 222. Altitude 3500 Series Access Point Product Reference Guide 476 AP35xx>admin(system.radius)> client Goes to the RADIUS client submenu. add Adds a RADIUS client to list of available clients. delete Deletes a RADIUS client from list of available clients. show Displays a list of configured clients. save Saves the configuration to system flash. quit Quits the CLI. .. Goes to the parent menu. / Goes to the root menu. For information on configuring RADIUS client values using the applet (GUI), see “Configuring the Radius Server” on page 217. Altitude 3500 Series Access Point Product Reference Guide 477 CLI Reference AP35xx>admin(system.radius.client> add Adds a RADIUS client to those available to the RADIUS server. Syntax add Adds a proxy. ip <ip> Client’s IP address. mask <ip1> Network mask address of the client. secret <sec> Shared secret password. Example admin(system.radius.client)>add 157.235.132.11 255.255.255.225 muddy admin(system.radius.client)> For information on configuring RADIUS client values using the applet (GUI), see “Configuring the Radius Server” on page 217. Altitude 3500 Series Access Point Product Reference Guide 478 AP35xx>admin(system.radius.client> delete Removes a specified RADIUS client from those available to the RADIUS server. Syntax delete <ipadr> Removes a specified RADIUS client (by IP address) from those available to the RADIUS server Example admin(system.radius.client)>delete 157.235.132.11 admin(system.radius.client)> For information on configuring RADIUS client values using the applet (GUI), see “Configuring the Radius Server” on page 217. Altitude 3500 Series Access Point Product Reference Guide 479 CLI Reference AP35xx>admin(system.radius.client> show Displays a list of configured RADIUS clients. Syntax show Removes a specified RADIUS client from those available to the RADIUS server. Example admin(system.radius.client)>show ---------------------------------------------------------------------------Idx Subnet/Host Netmask SharedSecret ---------------------------------------------------------------------------1 157.235.132.11 255.255.255.225 ***** admin(system.radius.client)> For information on configuring RADIUS client values using the applet (GUI), see “Configuring the Radius Server” on page 217. Altitude 3500 Series Access Point Product Reference Guide 480 System Network Time Protocol (NTP) Commands AP35xx>admin(system)> ntp Displays the NTP menu. The correct network time is required for numerous functions to be configured accurately on the AP35xx. Syntax show Shows NTP parameters settings. date-zone Show date, time and time zone. zone-list Displays list of time zones. set Sets NTP parameters. .. Goes to the parent menu. / Goes to the root menu. save Saves the configuration to system flash. quit Quits the CLI. For information on configuring NTP using the applet (GUI), see “Configuring Network Time Protocol (NTP)” on page 98. Altitude 3500 Series Access Point Product Reference Guide 481 CLI Reference AP35xx>admin(system.ntp)> show Displays the NTP server configuration. Syntax show Shows all NTP server settings. Example admin(system.ntp)>show current time (UTC) : 2006-07-31 14:35:20 Time Zone: ntp mode preferred Time server ip preferred Time server port first alternate server ip first alternate server port second alternate server ip second alternate server port synchronization interval : : : : : : : : enable 203.21.37.18 123 203.21.37.19 123 0.0.0.0 123 15 minutes For information on configuring NTP using the applet (GUI), see “Configuring Network Time Protocol (NTP)” on page 98. Altitude 3500 Series Access Point Product Reference Guide 482 AP35xx>admin(system.ntp)> date-zone Show date, time and time zone. Syntax date-zone Show date, time and time zone. Example admin(system.ntp)>date-zone Date/Time : Sat 1970-Jan-03 20:06:22 +0000 UTC Time Zone : UTC For information on configuring NTP using the applet (GUI), see “Configuring Network Time Protocol (NTP)” on page 98. Altitude 3500 Series Access Point Product Reference Guide 483 CLI Reference AP35xx>admin(system.ntp)> zone-list Displays an extensive list of time zones for countries around the world. Syntax zone-list Displays list of time zone indexes for every known zone. Example admin(system.ntp)> zone-list For information on configuring NTP using the applet (GUI), see “Configuring Network Time Protocol (NTP)” on page 98. Altitude 3500 Series Access Point Product Reference Guide 484 AP35xx>admin(system.ntp)> set Sets NTP parameters for AP35xx clock synchronization. Syntax set mode <ntp-mode> Enables or disables NTP. server <idx> <ip> Sets the NTP sever IP address. port <idx> <port> Defines the port number. intrvl <period> Defines the clock synchronization interval used between the AP35xx and the NTP server in minutes (15 - 65535). time <time> Sets the current system time. [yyyy] - year, [mm] - month, [dd] - day of the month, [hh] - hour of the day, [mm] - minute, [ss] second, [zone -idx] Index of the zone. zone <zone> Defines the time zone (by index) for the target country. Example admin(system.ntp)>set admin(system.ntp)>set admin(system.ntp)>set admin(system.ntp)>set admin(system.ntp)>set mode enable server 1 203.21.37.18 port 1 123 intrvl 15 zone 1 For information on configuring NTP using the applet (GUI), see “Configuring Network Time Protocol (NTP)” on page 98. Altitude 3500 Series Access Point Product Reference Guide 485 CLI Reference System Log Commands AP35xx>admin(system)> logs Displays the AP35xx log submenu. Logging options include: show Shows logging options. set Sets log options and parameters. view Views system log. delete Deletes the system log. send Sends log to the designated FTP Server. .. Goes to the parent menu. / Goes to the root menu. save Saves configuration to system flash. quit Quits the CLI. Altitude 3500 Series Access Point Product Reference Guide 486 AP35xx>admin(system.logs)> show Displays the current AP35xx logging settings. Syntax show Displays the current access point logging configuration. Example admin(system.logs)>show log level syslog server logging syslog server ip address : L6 Info : enable : 192.168.0.102 For information on configuring logging settings using the applet (GUI), see “Logging Configuration” on page 102. Altitude 3500 Series Access Point Product Reference Guide 487 CLI Reference AP35xx>admin(system.logs)> set Sets log options and parameters. Syntax set level <level> Sets the level of the events that will be logged. All events with a level at or above <level> (L0-L7) will be saved to the system log. L0:Emergency L1:Alert L2:Critical L3:Errors L4:Warning L5:Notice L6:Info (default setting) L7:Debug mode <op-mode> Enables or disables syslog server logging. ipadr <ip> Sets the external syslog server IP address to <ip> (a.b.c.d). admin(system.logs)>set mode enable admin(system.logs)>set level L4 admin(system.logs)>set ipadr 157.235.112.11 For information on configuring logging settings using the applet (GUI), see “Logging Configuration” on page 102. Altitude 3500 Series Access Point Product Reference Guide 488 >admin(system.logs)> view Displays the AP35xx system log file. Syntax view Displays the entire AP35xx system log file. Example admin(system.logs)>view Jan 7 16:14:00 (none) syslogd 1.4.1: restart (remote reception). Jan 7 16:14:10 (none) klogd: :ps log:fc: queue maintenance Jan 7 16:14:41 (none) klogd: :ps log:fc: queue maintenance Jan 7 16:15:43 (none) last message repeated 2 times Jan 7 16:16:01 (none) CC: 4:16pm up 6 days, 16:16, load average: 0.00, 0.01, 0.00 Jan 7 16:16:01 (none) CC: Mem: 62384 32520 29864 0 0 Jan 7 16:16:01 (none) CC: 0000077e 0012e95b 0000d843 00000000 00000003 0000121 e 00000000 00000000 0037ebf7 000034dc 00000000 00000000 00000000 Jan 7 16:16:13 (none) klogd: :ps log:fc: queue maintenance Jan 7 16:16:44 (none) klogd: :ps log:fc: queue maintenance Jan 7 16:17:15 (none) klogd: :ps log:fc: queue maintenance Jan 7 16:17:15 (none) klogd: :ps log:fc: queue maintenance For information on configuring logging settings using the applet (GUI), see “Logging Configuration” on page 102. Altitude 3500 Series Access Point Product Reference Guide 489 CLI Reference AP35xx>admin(system.logs)> delete Deletes the log files. Syntax delete Deletes the AP35xx system log file. Example admin(system.logs)>delete For information on configuring logging settings using the applet (GUI), see “Logging Configuration” on page 102. Altitude 3500 Series Access Point Product Reference Guide 490 AP35xx>admin(system.logs)> send Sends log and core file to an FTP Server. Syntax send Sends the system log file via FTP to a location specified with the set command. Refer to the command set under the (system.fwupdate) command for information on setting up an FTP server and login information. Example admin(system.logs)>send File transfer File transfer : [ In progress ] : [ Done ] admin(system.logs)> For information on configuring logging settings using the applet (GUI), see “Logging Configuration” on page 102. Altitude 3500 Series Access Point Product Reference Guide 491 CLI Reference System Configuration-Update Commands AP35xx>admin(system.config)> Displays the AP35xx configuration update submenu. default Restores the default AP35xx configuration. partial Restores a partial default AP35xx configuration. show Shows import/export parameters. set Sets import/export AP35xx configuration parameters. export Exports AP35xx configuration to a designated system. import Imports configuration to the access point. .. Goes to the parent menu. / Goes to the root menu. save Saves the configuration to AP35xx system flash. quit Quits the CLI. Altitude 3500 Series Access Point Product Reference Guide 492 AP35xx>admin(system.config)> default Restores the full AP35xx factory default configuration. Syntax default Restores the AP35xx to the original (factory) configuration. Example admin(system.config)>default Are you sure you want to default the configuration? <yes/no>: For information on importing/exporting access point configurations using the applet (GUI), see “Importing/Exporting Configurations” on page 103. Altitude 3500 Series Access Point Product Reference Guide 493 CLI Reference AP35xx>admin(system.config)> partial Restores a partial factory default configuration. The AP35xx’s LAN, WAN and SNMP settings are unaffected by the partial restore. Syntax default Restores a partial access point configuration. Example admin(system.config)>partial Are you sure you want to partially default AP35xx? <yes/no>: For information on importing/exporting access point configurations using the applet (GUI), see “Importing/Exporting Configurations” on page 103. Altitude 3500 Series Access Point Product Reference Guide 494 AP35xx>admin(system.config)> show Displays import/export parameters for the AP35xx configuration file. Syntax show Shows all import/export parameters. Example admin(system.config)>show cfg filename cfg filepath ftp/tftp server ip address ftp user name ftp password : : : : : cfg.txt 192.168.0.101 myadmin ******** For information on importing/exporting access point configurations using the applet (GUI), see “Importing/Exporting Configurations” on page 103. Altitude 3500 Series Access Point Product Reference Guide 495 CLI Reference AP35xx>admin(system.config)> set Sets the import/export parameters. Syntax set file <filename> Sets the configuration file name (1 to 39 characters in length). path <path> Defines the path used for the configuration file upload. server <ipaddress> Sets the FTP/TFTP server IP address. user <username> Sets the FTP user name (1 to 39 characters in length). passwd <pswd> Sets the FTP password (1 to 39 characters in length). Example admin(system.config)>set server 192.168.22.12 admin(system.config)>set user myadmin admin(system.config>set passwd georges admin(system.config)>show cfg filename cfg filepath ftp/tftp server ip address ftp user name ftp password : : : : : cfg.txt 192.168.22.12 myadmin ******* For information on importing/exporting access point configurations using the applet (GUI), see “Importing/Exporting Configurations” on page 103. Altitude 3500 Series Access Point Product Reference Guide 496 AP35xx>admin(system.config)> export Exports the configuration from the system. Syntax export ftp Exports the AP35xx configuration to the FTP server. Use the set command to set the server, user, password, and file name before using this command. tftp Exports the AP35xx configuration to the TFTP server. Use the set command to set the IP address for the TFTP server before using the command. terminal Exports the AP35xx configuration to a terminal. Example Export FTP admin(system.config)>set admin(system.config)>set admin(system.config)>set admin(system.config)>set server 192.168.22.12 user myadmin file config.txt passwd admin(system.config)>export ftp Export operation Building configuration file File transfer File transfer Export Operation : : : : : [ [ [ [ [ Started ] Done ] In progress ] Done ] Done ] Export TFTP admin(system.config)>set server 192.168.0.101 admin(system.config)>set file config.txt admin(system.config)>export tftp Export operation Building configuration file File transfer File transfer Export Operation : : : : : [ [ [ [ [ Started ] Done ] In progress ] Done ] Done ] CAUTION Make sure a copy of the AP35xx’s current configuration is exported (to a secure location) before exporting the access point’s configuration, as you will want a valid version available in case errors are encountered with the configuration export. For information on importing/exporting access point configurations using the applet (GUI), see “Importing/Exporting Configurations” on page 103. Altitude 3500 Series Access Point Product Reference Guide 497 CLI Reference AP35xx>admin(system.config)> import Imports the AP35xx configuration to the access point. Errors could display as a result of invalid configuration parameters. Correct the specified lines and import the file again until the import operation is error free. Syntax import ftp Imports the AP35xx configuration file from the FTP server. Use the set command to set the server, user, password, and file. tftp Imports the AP35xx configuration from the TFTP server. Use the set command to set the server and file. Example Import FTP Example admin(system.config>set server 192.168.22.12 admin(system.config>set user myadmin admin(system.config)>set file config.txt admin(system.config)>set passwd mysecret admin(system.config)>import ftp Import operation : [ Started ] File transfer : [ In progress ] File transfer : [ Done ] Import operation : [ Done ] Import TFTP Example admin(system.config)>set server 192.168.0.101 admin(system.config)>set file config.txt admin(system.config)>import tftp Import operation : [ Started ] File transfer : [ In progress ] File transfer : [ Done ] Import operation : [ Done ] CAUTION A single-radio model access point cannot import/export its configuration to a dual-radio model access point. In turn, a dual-radio model access point cannot import/export its configuration to a single-radio access point. For information on importing/exporting access point configurations using the applet (GUI), see “Importing/Exporting Configurations” on page 103. Altitude 3500 Series Access Point Product Reference Guide 498 Firmware Update Commands AP35xx>admin(system)>fw-update Displays the firmware update submenu. The items available under this command are shown below. NOTE The access point must complete the reboot process to successfully update the device firmware, regardless of whether the reboot is conducted using the GUI or CLI interfaces. show Displays the current AP35xx firmware update settings. set Defines the AP35xx firmware update parameters. update Executes the firmware update. .. Goes to the parent menu. / Goes to the root menu. save Saves the current configuration to the AP35xx system flash. quit Quits the CLI and exits the current session. Altitude 3500 Series Access Point Product Reference Guide 499 CLI Reference AP35xx>admin(system.fw-update)>show Displays the current AP35xx firmware update settings. Syntax show Shows the current system firmware update settings for the AP35xx. Example admin(system.fw-update)>show automatic firmware upgrade automatic config upgrade : enable : enable firmware filename firmware path ftp/tftp server ip address ftp user name ftp password : : : : : APFW.bin /tftpboot/ 168.197.2.2 jsmith ******* For information on updating access point device firmware using the applet (GUI), see “Updating Device Firmware” on page 107. Altitude 3500 Series Access Point Product Reference Guide 500 AP35xx>admin(system.fw-update)>set Defines AP35xx firmware update settings and user permissions. Syntax set fw-auto <mode> When enabled, updates device firmware each time the firmware versions are found to be different between the AP35xx and the specified firmware on the remote system. cfg-auto <mode> When enabled, updates device configuration file each time the config file versions are found to be different between the AP35xx and the specified LAN or WAN interface. file <name> Defines the firmware file name (1 to 39 characters). path <path> Specifies a path for the file (1 to 39 characters). server <ip> The IP address for the FTP/TFTP server used for the firmware and/or config file update. user <name> Specifies a username for FTP server login (1 to 39 characters). passwd <password> Specifies a password for FTP server login (1 to 39 characters). admin(system.fw-update)>set admin(system.fw-update)>set admin(system.fw-update)>set admin(system.fw-update)>set admin(system.fw-update)>set admin(system.fw-update)>set admin(system.fw-update)>set fw-auto enable cfg-auto enable file 2.0.0.0-29D path c:/fw server 157.235.111.22 user mudskipper passwd muddy For information on updating access point device firmware using the applet (GUI), see “Updating Device Firmware” on page 107. Altitude 3500 Series Access Point Product Reference Guide 501 CLI Reference AP35xx>admin(system.fw-update)>update Executes the AP35xx firmware update over the WAN or LAN port using either ftp or tftp. Syntax update <mode> Defines the ftp or tftp mode used to conduct the firmware update. Specifies whether the update is executed over the AP35xx’s WAN, LAN1 or LAN2 interface <iface>. NOTE The access point must complete the reboot process to successfully update the device firmware, regardless of whether the reboot is conducted using the GUI or CLI interfaces. admin(system.fw-update)>update ftp For information on updating access point device firmware using the applet (GUI), see “Updating Device Firmware” on page 107. Altitude 3500 Series Access Point Product Reference Guide 502 Statistics Commands AP35xx>admin(stats) Displays the AP35xx statistics submenu. The items available under this command are: show Displays AP35xx WLAN, MU, LAN and WAN statistics. send-cfg-ap Sends a config file to another access point within the known AP table. send-cfg-all Sends a config file to all access points within the known AP table. clear Clears all statistic counters to zero. flash-all-leds Starts and stops the flashing of all AP35xx LEDs. echo Defines the parameters for pinging a designated station. ping Initiates a ping test. .. Moves to the parent menu. / Goes to the root menu. save Saves the current configuration to system flash. quit Quits the CLI. Altitude 3500 Series Access Point Product Reference Guide 503 CLI Reference AP35xx>admin(stats)> show Displays AP35xx system information. Syntax show wan lan stp wlan s-wlan radio s-radio retry-hgram mu s-mu auth-mu mesh s-mesh known-ap : : : : : : : : : : : : : : show show show show show show show show show show show show show show WAN Status and Statistics LAN Status and Statistics LAN Spanning Tree Status WLAN Status and Statistics Summary single WLAN status and statistics Radio Statistics Summary single Radio Statistics a Radio's Retry Histogram Statistics Mobile Unit Statistics Summary single Mobile Unit Statistics single MU Authentication Statistics Wireless Mesh Statistics Summary single Wireless Bridge Statistics Known APs Summary/Details For information on displaying WAN port statistics using the applet (GUI), see “Viewing WAN Statistics” on page 231. For information on displaying LAN port statistics using the applet (GUI), see “Viewing LAN Statistics” on page 234. For information on displaying Wireless statistics using the applet (GUI), see “Viewing Wireless Statistics” on page 239. For information on displaying Radio statistics using the applet (GUI), see “Viewing Radio Statistics Summary” on page 243. For information on displaying MU statistics using the applet (GUI), see “Viewing MU Statistics Summary” on page 248. For information on displaying Mesh statistics using the applet (GUI), see “Viewing the Mesh Statistics Summary” on page 253. For information on displaying Known AP statistics using the applet (GUI), see “Viewing Known Access Point Statistics” on page 254. Altitude 3500 Series Access Point Product Reference Guide 504 AP35xx>admin(stats)> send-cfg-ap Copies the AP35xx’s configuration to another AP35xx within the known AP table. Syntax send-cfg-ap <idx> Copies the AP35xx’s configuration to the AP35xxs within the known AP table. Mesh configuration attributes do not get copied using this command and must be configured manually. Example admin(stats)>send-cfg-ap 2 admin(stats)> NOTE The send-cfg-ap command copies all existing configuration parameters except Mesh settings, LAN IP data, WAN IP data and DHCP Server parameter information. For information on copying the access point config to another access point using the applet (GUI), see “Viewing Known Access Point Statistics” on page 254. Altitude 3500 Series Access Point Product Reference Guide 505 CLI Reference AP35xx>admin(stats)> send-cfg-all Copies the AP35xx’s configuration to all of the AP35xxs within the known AP table. Syntax send-cfg-all Copies the AP35xx’s configuration to all of the AP35xxs within the known AP table. Example admin(stats)>send-cfg-all admin(stats)> NOTE The send-cfg-all command copies all existing configuration parameters except Mesh settings, LAN IP data, WAN IP data and DHCP Server parameter information. For information on copying the access point config to another access point using the applet (GUI), see “Viewing Known Access Point Statistics” on page 254. Altitude 3500 Series Access Point Product Reference Guide 506 AP35xx>admin(stats)> clear Clears the specified statistics counters to zero to begin new data calculations. Syntax clear wan Clears WAN statistics counters. lan Clears LAN statistics counters for specified LAN index (either clear lan 1 or clear lan 2). all-rf Clears all RF data. all-wlan Clears all WLAN summary information. wlan Clears individual WLAN statistic counters. all-radio Clears AP35xx radio summary information. radio1 Clears statistics counters specific to radio1. radio2 Clears statistics counters specific to radio2. all-mu Clears all MU statistic counters. mu Clears MU statistics counters. known-ap Clears Known AP statistic counters. Altitude 3500 Series Access Point Product Reference Guide 507 CLI Reference AP35xx>admin(stats)> flash-all-leds Starts and stops the illumination of a specified access point’s LEDs. Syntax flash-all-leds <idx> Defines the Known AP index number of the target AP to flash. <action> Starts or stops the flash activity. Example admin(stats)> admin(stats)>flash-all-leds 1 start Password ******** admin(stats)>flash-all-leds 1 stop admin(stats)> For information on flashing access point LEDs using the applet (GUI), see “Viewing Known Access Point Statistics” on page 254. Altitude 3500 Series Access Point Product Reference Guide 508 AP35xx>admin(stats)> echo Defines the echo test values used to conduct a ping test to an associated MU. Syntax show Shows the Mobile Unit Statistics Summary. list Defines echo test parameters and result. set Determines echo test packet data. start Begins echoing the defined station. .. Goes to parent menu. / Goes to root menu. quit Quits CLI session. For information on MU Echo and Ping tests using the applet (GUI), see “Pinging Individual MUs” on page 252. Altitude 3500 Series Access Point Product Reference Guide 509 CLI Reference AP35xx>admin.stats.echo)> show Shows Mobile Unit Statistics Summary. Syntax show Shows Mobile Unit Statistics Summary. Example admin(stats.echo)>show ---------------------------------------------------------------------------Idx IP Address MAC Address WLAN Radio T-put ABS Retries ---------------------------------------------------------------------------1 192.168.2.0 00:A0F8:72:57:83 demo 11a For information on MU Echo and Ping tests using the applet (GUI), see “Pinging Individual MUs” on page 252. Altitude 3500 Series Access Point Product Reference Guide 510 AP35xx>admin.stats.echo)> list Lists echo test parameters and results. Syntax list Lists echo test parameters and results. Example admin(stats.echo)>list Station Address Number of Pings Packet Length Packet Data (in HEX) : : : : 00A0F8213434 10 10 55 admin(stats.echo)> For information on MU Echo and Ping tests using the applet (GUI), see “Pinging Individual MUs” on page 252. Altitude 3500 Series Access Point Product Reference Guide 511 CLI Reference AP35xx>admin.stats.echo)>set Defines the parameters of the echo test. Syntax set station <mac> Defines MU target MAC address. request <num> Sets number of echo packets to transmit (1-539). length <num> Determines echo packet length in bytes (1-539). data <hex> Defines the particular packet data. For information on MU Echo and Ping tests using the applet (GUI), see “Pinging Individual MUs” on page 252. Altitude 3500 Series Access Point Product Reference Guide 512 AP35xx>admin.stats.echo)> start Initiates the echo test. Syntax start Initiates the echo test. Example admin(stats.echo)>start admin(stats.echo)>list Station Address Number of Pings Packet Length Packet Data (in HEX) : : : : 00A0F843AABB 10 100 1 Number of MU Responses : 2 For information on MU Echo and Ping tests using the applet (GUI), see “Pinging Individual MUs” on page 252. Altitude 3500 Series Access Point Product Reference Guide 513 CLI Reference AP35xx>admin(stats)> ping Defines the ping test values used to conduct a ping test to an AP with the same ESSID. Syntax ping show Shows Known AP Summary details. list Defines ping test packet length. set Determines ping test packet data. start Begins pinging the defined station. .. Goes to parent menu. / Goes to root menu. quit Quits CLI session. For information on Known AP tests using the applet (GUI), see “Pinging Individual MUs” on page 252. Altitude 3500 Series Access Point Product Reference Guide 514 AP35xx>admin.stats.ping)> show Shows Known AP Summary Details. Syntax show Shows Known AP Summary Details. Example admin(stats.ping)>show ---------------------------------------------------------------------------Idx IP Address MAC Address MUs KBIOS Unit Name ---------------------------------------------------------------------------1 192.168.2.0 00:A0F8:72:57:83 3 0 access point Altitude 3500 Series Access Point Product Reference Guide 515 CLI Reference AP35xx>admin.stats.ping)> list Lists ping test parameters and results. Syntax list Lists ping test parameters and results. Example admin(stats.ping)>list Station Address Number of Pings Packet Length Packet Data (in HEX) : : : : 00A0F8213434 10 10 55 admin(stats.ping)> For information on Known AP tests using the applet (GUI), see “Pinging Individual MUs” on page 252. Altitude 3500 Series Access Point Product Reference Guide 516 AP35xx>admin.stats.ping)> set Defines the parameters of the ping test. Syntax set station Defines the AP target MAC address. request Sets number of ping packets to transmit (1-539). length Determines ping packet length in bytes (1-539). data Defines the particular packet data. Example admin(stats.ping)>set admin(stats.ping)>set admin(stats.ping)>set admin(stats.ping)>set station 00A0F843AABB request 10 length 100 data 1 admin(stats.ping)> For information on Known AP tests using the applet (GUI), see “Pinging Individual MUs” on page 252. Altitude 3500 Series Access Point Product Reference Guide 517 CLI Reference AP35xx>admin.stats.echo)> start Initiates the ping test. Syntax start Initiates the ping test. Example admin(stats.ping)>start admin(stats.ping)>list Station Address Number of Pings Packet Length Packet Data (in HEX) : : : : 00A0F843AABB 10 100 1 Number of AP Responses : 2 For information on Known AP tests using the applet (GUI), see “Pinging Individual MUs” on page 252. Altitude 3500 Series Access Point Product Reference Guide 518 9 Configuring Mesh Networking CHAPTER Mesh Networking Overview An Altitude 35xx can be configured in two modes to support the new mesh networking functionality. The access point can be set to a client bridge mode and/or a base bridge mode (which accepts connections from client bridges). Base bridge and client bridge mode can be used at the same time by an individual access point to optimally bridge traffic to other members of the mesh network and service associated MUs. An access point in client bridge mode scans to locate other access points using the WLAP client's ESSID. Then it is required to go through the association and authentication process to establish wireless connections with the located devices. This association process is identical to the access point’s current MU association process. Once the association and authentication process is complete, the wireless client adds the connection as a port on its bridge module. This causes the client bridge to begin forwarding packets to the base bridge node. The base bridge realizes it is talking to a wireless client bridge. It then adds that connection as a port on its own bridge module. The two bridges at that point are communicating using the Spanning Tree Protocol (STP). Access points configured as both a base and a client bridge function as repeaters to transmit data with associated MUs in their coverage area (client bridge mode) as well as forward traffic to other access points in the mesh network (base bridge mode). The number of access points and their intended function within the mesh network dictate whether they should be configured as base bridges, client bridges or both (repeaters). The spanning tree determines the path to the root and detects if the current connection is part of a network loop with another connection in the system. Each bridge can be configurable so the administrator can control the spanning tree to define the root bridge and what the forwarding paths are. Once the spanning tree converges, both access points begin learning which destinations reside on which side of the network. This allows them to forward traffic intelligently. After the client bridge establishes at least one wireless connection (if configured to support mobile users), it begins beaconing and accepting wireless connections. If configured as both a client bridge and a base bridge, it begins accepting client bridge connections. Therefore, the mesh network could connect simultaneously to different networks in a manner whereby a network loop is not created and then the connection is not blocked. Once the client bridge establishes at least one wireless connection, it begins establishing other wireless connections as it finds them available. Thus, the client bridge is able to establish simultaneous redundant links. Altitude 3500 Series Access Point Product Reference Guide 519 Configuring Mesh Networking A mesh network must use one of the two access point LANs. If intending to use the access point for mesh networking support, Extreme Networks recommends configuring at least one WLAN (of the 16 WLANs available) specifically for mesh networking support. The client bridge creates up to three connections if it can find base bridges for connection. If the connections are redundant (on the same network), then one connection will be forwarding and the others blocked. However, if each of the connections links to a different wired network, then none are redundant and all are forwarding. Thus, the bridge automatically detects and disables redundant connections, but leaves non-redundant connections forwarding. This gives the user the freedom to configure their topology in a variety of ways without limitations. This is important when configuring multiple access points for base bridge support in areas like a shipping yard where a large radio coverage area is required. For more information on configuring the access point in respect to specific usage scenarios, see “Mesh Network Deployment—Quick Setup” on page 534. NOTE Since each access point can establish up to 3 simultaneous wireless connections, some of these connections could be redundant. If this is the case, the STP algorithm defines which links are the redundant links and disables those links from forwarding. If an access point is configured as a base bridge (but not as a client bridge) it operates normally at boot time. The base bridge supports connections made by other client bridges. The dual-radio model access point affords users better optimization of the mesh networking feature by enabling the access point to transmit to other mesh network members using one independent radio and transmit with associated MUs using the second independent radio. A single-radio access point has its channel utilization and throughput degraded in a mesh network, as the AP’s single radio must process both mesh network traffic with other access points and MU traffic with its associated devices. CAUTION Only Extreme Networks Altitude 3510 or Altitude 3550 model access points can be used as base bridges, client bridges or repeaters within an access point supported mesh network. If utilizing a mesh network, Extreme Networks recommends considering a dual-radio model to optimize channel utilization and throughput. The Altitude 35xx Client Bridge Association Process An access point in client bridge mode performs an active scan to quickly create a table of the access points nearby. The table contains the access points matching the ESS of the client bridge AP’s WLAN. The table is used to determine the best access point to connect to (based on signal strength, load and the user's configured preferred connection list). The association and authentication process is identical to the MU association process. The client access point sends 802.11 authentication and association frames to the base access point. The base access point responds as if the client is an actual mobile unit. Depending on the security policy, the two access points engage in the normal handshake mechanism to establish keys. After device association, the two access points are connected and the system can establish the bridge and run the spanning tree algorithm. In the meantime, the access point in client bridge mode continues to scan in the background attempts to establish an association with other access points using the same ESS on the same channel. Altitude 3500 Series Access Point Product Reference Guide 520 CAUTION An access point is Base Bridge mode logs out whenever a Client Bridge associates to the Base Bridge over the LAN connection. This problem is not experienced over the access point’s WAN connection. If this situation is experienced, log-in to the access point again. The access point in client bridge mode attempts to establish up to 3 simultaneous wireless connections. The second and third connections are established in the background while the system is running. The first connection needs to be established before the system starts bridging traffic. The dual-radio model access point affords users better optimization of the mesh networking feature by allowing the access point to transmit to other access points (in base or client bridge mode) using one independent radio and transmit with its associated MUs using the second independent radio. A singleradio access point has its channel utilization and throughput degraded in a mesh network, as the access point’s single radio must process both mesh network traffic with other access points and MU traffic with its associated devices. Client Bridge Configuration Process Example In this example, two access points are described with the following configurations: ● AP #1 base bridge ● AP #2 repeater (both a base and client bridge) In the case of a mesh enabled radio, the client bridge configuration always takes precedence over the base bridge configuration. Therefore, when a radio is configured as a repeater (AP #2), the base bridge configuration takes effect only after the client bridge connection to AP #1 is established. Thus, AP #2 keeps scanning to find the base bridge, form the uplink and start beaconing as a base bridge for downstream client bridge connection. This is by design, as there is no reason to use a partially broken connection with no uplink to a base bridge. Spanning Tree Protocol (STP) The access point performs mesh networking using STP as defined in the 802.1d standard. Once device association is complete, the client and base bridge exchange Configuration Bridge Protocol Data Units (BPDUs) to determine the path to the root. STP also determines whether a given port is a redundant connection or not. Defining the Mesh Topology When a user wants to control how the spanning tree determines client bridge connections, they need to control the mesh configuration. The user must be able to define one node as the root. Assigning a base bridge the lowest bridge priority defines it as the root. NOTE Extreme Networks recommends using the Mesh STP Configuration screen to define a base bridge as a root. Only advanced users should use the Advanced Client Bridge Settings screen’s Preferred List to define the mesh topology, as omitting a bridge from the preferred list could break connections within the mesh network. Altitude 3500 Series Access Point Product Reference Guide 521 Configuring Mesh Networking The access point can manipulate the path cost assigned to a bridge connection based on that connection’s RSSI. This results in the spanning tree selecting the optimal path for forwarding data when redundant paths exist. However, this can be overridden using the preferred list. When using the preferred list, the user enters a priority for each bridge, resulting in the selection of the forwarding link. Limit the wireless client’s connections to reduce the number of hops required to get to the wired network. Use each radio’s “preferred” base bridge list to define which access points the client bridge connects to. For more information, see “Configuring Mesh Networking Support” on page 523. Mesh Networking and the Altitude 35xx’s Two Subnets The access point now has a second subnet on the LAN side of the system. This means wireless clients communicating through the same radio can reside on different subnets. The addition of this feature adds another layer of complexity to the access point’s mesh networking functionality. With a second LAN introduced, the LAN’s Ethernet port (and any of the 16 WLANs) could be assigned to one of two different subnets. From a layer 2 perspective, the system has two different bridge functionalities, each with its own STP. The WLAN assignment controls the subnet (LAN1 or 2) upon which a given connection resides. If WLAN2 is assigned to LAN1, and WLAN2 is used to establish a client bridge connection, then the mesh network connection resides on LAN1. Therefore, (depending upon the WLAN-to-LAN mapping), the access point could have multiple mesh connections on either LAN1 or LAN2. Normal Operation Once the mesh network is defined, all normal access point operations are still allowed. MUs are still allowed to associate with the access point as usual. The user can create WLANs, security polices and VLANs as with any other access point. DHCP services function normally and all layer 3 communications are allowed. WNMP is used to send information about each mesh network so information can be displayed to the user from any access point on the system. WNMP messages are AP-AP info messages used to send system status. Impact of Importing/Exporting Configurations to a Mesh Network When using the access point’s Configuration Import/Export screen to migrate an access point’s configuration to other access points, mesh network configuration parameters will get sent or saved to other access points. However, if using the Known AP Statistics screen’s Send Cfg to APs functionality, “auto-select” and preferred list” settings do not get imported. CAUTION When using the Import/Export screen to import a mesh supported configuration, do not import a base bridge configuration into an existing client bridge, as this could cause the mesh configuration to break. Altitude 3500 Series Access Point Product Reference Guide 522 Configuring Mesh Networking Support Configuring the access point for Mesh Bridging support entails: ● Setting the LAN Configuration for Mesh Networking Support on page 523 ● Configuring a WLAN for Mesh Networking Support on page 525 ● Configuring the Access Point Radio for Mesh Support on page 528. Setting the LAN Configuration for Mesh Networking Support At least one of the two access point LANs needs to be enabled and have a mesh configuration defined to correctly function as a base or client bridge within a mesh network. This section describes the configuration activities required to define a mesh network’s LAN configuration. As the Spanning Tree Protocol (STP) mentions, each mesh network maintains hello, forward delay and max age timers. The base bridge defined as the root imposes these settings within the mesh network. The user does not necessarily have to change these settings, as the default settings will work. However, Extreme Networks encourages the user to define an access point as a base bridge and root (using the base bridge priority settings within the Bridge STP Configuration screen). Members of the mesh network can be configured as client bridges or additional base bridges with a higher priority value. NOTE For an overview on mesh networking and some of the implications on using the feature with the access point, see “Mesh Networking” on page 26. To define a LAN’s Mesh STP Configuration: 1 Select Network Configuration > LAN from the Altitude 35xx menu tree. 2 Enable the LAN used to support the mesh network. 3 Verify the enabled LAN is named appropriately in respect to its intended function in supporting the mesh network. 4 Select Network Configuration > LAN > LAN1 or LAN2 from the Altitude 35xx menu tree. 5 Click the Mesh STP Configuration button on the bottom off the screen. Altitude 3500 Series Access Point Product Reference Guide 523 Configuring Mesh Networking 6 Define the properties for the following parameters within the mesh network: Priority Set the Priority as low as possible to force other devices within the mesh network to defer to this client bridge as the bridge defining the mesh configuration (commonly referred to as the root). Extreme Networks recommends assigning a Base Bridge AP with the lowest bridge priority so it becomes the root in the STP. If a root already exists, set the Bridge Priorities of new APs accordingly so the root of the STP doesn't get altered. Each access point starts with a default bridge priority of 32768. Maximum Message The Maximum Message age timer is used with the age Message Age timer. The Message Age timer is used to measure the age of the received protocol information recorded for a port, and to ensure the information is discarded when it exceeds the value set for the Maximum Message age timer. Hello Time The Hello Time is the time between each bridge protocol data unit sent. This time is equal to 2 seconds (sec) by default, but you can tune the time to be between 1 and 10 sec. If you drop the hello time from 2 sec to 1 sec, you double the number of bridge protocol data units sent/ received by each bridge. The 802.1d specification recommends the Hello Time be set to a value less than half of the Max Message age value. Forward Delay The Forward Delay is the time spent in the listening and learning state. This time is equal to 15 sec by default, but you can tune the time to be between 4 and 30 sec. The 802.1d specification recommends the Forward Delay be set to a value greater than half the Max Message age timeout value. Forwarding Table Ageout The Forwarding Table Parameter value defines the length of time an entry will remain in the a bridge’s forwarding table before being deleted due to lack of activity. If the entry replenishes a destination generating continuous traffic, this timeout value will never be invoked. However, if the destination becomes idle, the timeout value represents the length of time that must be exceeded before an entry is deleted from the forwarding table. 7 Click OK to return to either the LAN1 or LAN2 screen where updates to the Mesh STP Configuration can be saved by clicking the Apply button. Altitude 3500 Series Access Point Product Reference Guide 524 8 Click Cancel to discard the changes made to the Mesh STP Configuration and return to the LAN1 or LAN2 screen. Once the Mesh STP Configuration is defined, the access point’s radio can be configured for base and/or client bridge support. Configuring a WLAN for Mesh Networking Support Each access point comprising a particular mesh network is required to be a member of the same WLAN. Therefore, each base bridge, client bridge or repeater within the mesh network must use the same WLAN in order to share the same ESSID, radio designation, security policy, MU ACL and Quality of Service policy. If intending to use the access point for mesh networking support, Extreme Networks recommends configuring at least one WLAN (of the 16 WLANs available) specifically for mesh networking support. To define the attributes of the WLAN shared by the members of the mesh network: 1 Select Network Configuration > Wireless from the Altitude 35xx menu tree. The Wireless Configuration screen displays with those existing WLANs displayed within the table. 2 Select the Create button to configure a new WLAN specifically to support mesh networking. An existing WLAN can be modified (or used as is) for mesh networking support by selecting it from the list of available WLANs and clicking the Edit button. Altitude 3500 Series Access Point Product Reference Guide 525 Configuring Mesh Networking 3 Assign an ESSID and Name to the WLAN that each access point will share when using this WLAN within their mesh network. Extreme Networks recommends assigning a unique name to a WLAN supporting a mesh network to differentiate it from WLANs defined for non mesh support. The name assigned to the WLAN is what is selected from the Radio Configuration screen for use within the mesh network. NOTE It is possible to have different ESSID and WLAN assignments within a single mesh network (one set between the Base Bridge and repeater and another between the repeater and Client Bridge). However, for ease of management and to not waste network bandwidth, Extreme Networks recommends using the same ESSID across the entire mesh network. 4 Use the Available On checkboxes to specify the access point radio(s) used with the target WLAN within the mesh network. The Available On checkboxes are for making this WLAN available for base bridges or repeaters to connect to. The Available On checkbox should only be selected for a mesh WLAN if this target access point is to be configured as a base bridge or repeater on the radio. If the WLAN is to be Altitude 3500 Series Access Point Product Reference Guide 526 defined for client bridge support only, the Available On checkbox should not be selected. Instead, it only needs to have the Enable Client Bridge Backhaul option selected. 5 Use the Maximum MUs field to define the number of MUs allowed to associate with this WLAN. This number should be defined based on the number of client bridge and repeaters within this mesh network. This value can be increased as the mesh network grows and devices are added. Only advanced users should define the number of devices allowed to associate with the WLAN, as setting the value too low could restrict devices from joining an expanding mesh network, and setting it too high could prohibit other WLANs from granting access to the all the devices needed. 6 Select the Enable Client Bridge Backhaul checkbox to make this WLAN available in the Mesh Network Name drop-down menu within the Radio Configuration screen. Only WLANs defined for mesh networking support should have this checkbox selected, in order to keep the list of WLANs available (within the Radio Configuration screen) restricted to just WLANs configured specifically with mesh attributes. 7 Refer to the Security Policy drop-down menu to select the security policy used within this WLAN and mesh network. A security policy for a mesh network should be configured carefully since the data protection requirements within a mesh network differ somewhat compared to a typical wireless LAN. No Encryption is a bad idea in a mesh network, since mesh networks are typically not guest networks, wherein public assess is more important than data protection. Extreme Networks also discourages user-based authentication schemes such as Kerberos and 802.1x EAP, as these authentication schemes are not supported within a mesh network. If none of the existing policies are suitable, select the Create button to the right of the Security Policy drop-down menu and configure a policy suitable for the mesh network. For information on configuring a security using the authentication and encryption techniques available to the access point, see “Enabling Authentication and Encryption Schemes” on page 172. 8 ACL policies should be configured to allow or deny a range of MAC addresses from interoperating with the WLAN used with the mesh network. ACLs should be defined based on the client bridge and repeater (an access point defined as both a base and client bridge) association requirements within the mesh network. For information on defining an ACL for use with the WLAN assigned to the mesh network, see “Configuring a WLAN Access Control List (ACL)” on page 139. NOTE The Kerberos User Name and Kerberos Password fields can be ignored, as Kerberos is not supported as a viable authentication scheme within a mesh network. 9 Select the Disallow MU to MU Communication checkbox to restrict MUs from interacting with each other both within this WLAN, as well as other WLANs. Selecting this option could be a good idea, if restricting device “chatter” improves mesh network performance. If base bridges and client bridges are added at any given time to extent the coverage are of a mesh network, the data going back and forth amongst just those radios could be compromised by network interference. Adding mesh device traffic could jeopardize network throughput. If however, MU to MU communication is central to the organization (for example, scanners sharing data entry information) then this checkbox should remain unselected. 10 Select the Use Secure Beacon checkbox to not transmit the ESSID amongst the access points and devices within the mesh network. If a hacker tries to find an ESSID via an MU, the access point’s ESSID does not display since the ESSID is not in the beacon. Extreme Networks recommends keeping the option enabled to reduce the likelihood of hacking into the WLAN. Altitude 3500 Series Access Point Product Reference Guide 527 Configuring Mesh Networking 11 Select the Accept Broadcast ESSID checkbox to associate an MU that has a blank ESSID (regardless of which ESSID the access point is currently using). Traffic within a mesh network probably consists of known devices, so you may want to leave the checkbox unselected and configure each MU with an ESSID. The default is selected. However, for WLANs used within a mesh network, Extreme Networks recommends unselecting this option as it would prevent the AP from answering to blank ESSID probes from other mobile units. 12 If there are certain requirements for the types of data proliferating the mesh network, select an existing policy or configure a new QoS policy best suiting the requirements of the mesh network. To define a new QoS policy, select the Create button to the right of the Quality Of Service Policy dropdown menu. For detailed information on configuring a QoS policy, see “Setting the WLAN Quality of Service (QoS) Policy” on page 142. 13 Click Apply to save the changes made to the mesh network configured WLAN. An access point radio is now ready to be configured for use with this newly created mesh WLAN. Configuring the Access Point Radio for Mesh Support An access point radio intended for use within a mesh network requires configuration attributes unique from a radio intended for non-mesh support.This section describes how to configure an access point radio for mesh network support. To configure the access point radio for mesh networking support: NOTE The dual-radio model access point affords users better optimization of the mesh network feature by allowing the access point to transmit to other access points (in base or client bridge mode) using one independent radio and transmit with its associated devices using the second independent radio. A single-radio access point has its channel utilization and throughput degraded in a mesh network, as the AP’s single radio must process both mesh network traffic with other access points and MU traffic with its associated devices. Altitude 3500 Series Access Point Product Reference Guide 528 1 Select Network Configuration > Wireless > Radio Configuration from the Altitude 35xx menu tree. 2 Enable the radio(s) using the Enable checkbox(es) for both Radio 1 and Radio 2. Refer to RF Band of Operation parameter to ensure you are enabling the correct 802.11a or 802.11b/g radio. After the settings are applied within this Radio Configuration screen, the Radio Status and MUs connected values update. If this is an existing radio within a mesh network, these values update in real-time. CAUTION If a radio is disabled, be careful not to accidentally configure a new WLAN, expecting the radio to be operating when you have forgotten it was disabled. 3 Select the Base Bridge checkbox to allow the access point radio to accept client bridge connections from other access points in client bridge mode. The base bridge is the acceptor of mesh network data from those client bridges within the mesh network and never the initiator. CAUTION A problem could arise if a Base Bridge’s Indoor channel is not available on an Outdoor Client Bridge's list of available channels. As long as an Outdoor Client Bridge has the Indoor Base Bridge channel in its available list of channels, it can associate to the Base Bridge. Altitude 3500 Series Access Point Product Reference Guide 529 Configuring Mesh Networking 4 If the Base Bridge checkbox has been selected, use the Max# Client Bridges parameter to define the client bridge load on a particular base bridge. The maximum number of client bridge connections per access point radio is 12, with 24 representing the maximum for dual-radio models. CAUTION An access point in Base Bridge mode logs out whenever a Client Bridge associates to the Base Bridge over the LAN connection. This problem is not experienced over the access point’s WAN connection. If this situation is experienced, log-in to the access point again. Once the settings within the Radio Configuration screen are applied (for an initial deployment), the current number of client bridge connections for this specific radio displays within the CBs Connected field. If this is an existing radio within a mesh network, this value updates in real-time. 5 Select the Client Bridge checkbox to enable the access point radio to initiate client bridge connections with other mesh network supported access points radios on the same WLAN. If the Client Bridge checkbox has been selected, use the Mesh Network Name drop-down menu to select the WLAN (ESS) the client bridge uses to establish a wireless link. The default setting, is (WLAN1). Extreme Networks recommends creating (and naming) a WLAN specifically for mesh networking support to differentiate the Mesh supported WLAN from non-Mesh supported WLANs. For more information, see “Configuring a WLAN for Mesh Networking Support” on page 525 Once the settings within the Radio Configuration screen are applied (for an initial deployment), the current number of base bridges visible to the radio displays within the BBs Visible field, and the number of base bridges currently connected to the radio displays within the BBs Connected field. If this is an existing radio within a mesh network, these values update in real-time. NOTE Ensure you have verified the radio configuration for both Radio 1 and Radio 2 before saving the existing settings and exiting the Radio Configuration screen.v 6 Click the Advanced button to define a prioritized list of access points to define mesh connection links. Altitude 3500 Series Access Point Product Reference Guide 530 7 Select the Automatic Link Selection checkbox to allow the access point to select the links used by the client bridge to populate the mesh network. Selecting this checkbox prohibits the user from selecting the order base bridges are added to the mesh network when one of the three associated base bridges becomes unavailable. Altitude 3500 Series Access Point Product Reference Guide 531 Configuring Mesh Networking NOTE Auto link selection is based on the RSSI and load. The client bridge will select the best available link when the Automatic Link Selection checkbox is selected. Extreme Networks recommends you do not disable this option, as (when enabled) the access point will select the best base bridge for connection. 8 Refer to the Available Base Bridge List to view devices located by the access point using the WLAN selected from the Radio Configuration screen. Refer the following for information on located base bridges: MAC The MAC field displays the factory set hard-coded MAC address that serves as a device identifier. RSSI The Relative Signal Strength Indicator (RSSI) displays the located device’s signal strength with the associated access point in client bridge mode. Use this information as criteria on whether to move a particular device from the available list to the preferred list. CHANN The CHANN displays the name of the channel that both the access point and base bridge use. A client bridge can only connect to access points (Base Bridges) on the same channel. If the user selects multiple base bridges on different channels, the access point will only be able to connect to those bridges on the same channel and the others will not be able to join this particular mesh network. 9 Click Refresh at any time to update the list of available Base Bridge devices available to the access point. 10 Use the >> button to move a selected base bridge MAC address from Available Base Bridge List 11 Refer to the Preferred Base Bridge List for a prioritized list of base bridges the mesh network’s client bridge uses to extend the mesh network’s coverage area and potentially provide redundant links. If a device does not appear on the Available Base Bridge List, there is no way it can be moved to Preferred Base Bridge List as the device has not yet been “seen.” However, if you know the MAC Address corresponding to that Base Bridge, you can add that to the Preferred List using the add button. 12 Highlight a MAC address from the Preferred Base Bridge List and click the Up button to assign that device’s MAC address a higher priority and a greater likelihood of joining the mesh network if an association with another device is lost. If a MAC address is not desirable as others but still worthy of being on the preferred list, select it, and click the Down button to decrease its likelihood of being selected as a member of the mesh network. 13 If a device MAC address is on the Preferred Base Bridge List and constitutes a threat as a potential member of the mesh network (poor RSSI etc.), select it and click the Remove button to exclude it from the preferred list. If all of the members of the Preferred Base Bridge List constitute a risk as a member of the mesh network, click the Remove All button. This is not recommended unless the preferred list can be repopulated with more desirable device MAC addresses from the Available Base Bridge List. 14 Click Ok to return to the Radio Configuration screen. Within the Radio Configuration screen, click Apply to save any changes made within the Advanced Client Bridge Settings screen. 15 Click Cancel to undo any changes made within the Advanced Client Bridge Settings screen. This reverts all settings for the screen to the last saved configuration. Altitude 3500 Series Access Point Product Reference Guide 532 16 If using a dual-radio model access point, refer to the Mesh Timeout drop-down menu (from within the Radio Configuration screen) to define whether one of the access point’s radio’s beacons on an existing WLAN or if a client bridge radio uses an uplink connection. The Mesh Timeout value is not available on a single-radio access point, since the radio would have to stop beaconing and go into scan mode to determine if a base bridge uplink is lost. The following drop-down menu options are available: Disabled When disabled, both radios are up at boot time and beaconing. If one radio (radio 1) does not have a mesh connection, the other radio (radio 2) is not affected. Radio 2 continues to beacon and associate MUs, but MU's can only communicate amongst themselves using the access point. Disabled is the default value. Upload Detect When Uplink Detect is selected, the access point only boots up the radio configured as a client bridge. The access point boots up the second radio as soon as the first mesh connection is established. However, if the client bridge radio loses its uplink connection, the second radio shuts down immediately. Enabled If the mesh connection is down on one radio (radio 1), the other radio (radio 2) is brought down and stops beaconing after the timeout period (45 seconds). This allows the client bridge (radio 1) to roam without dropping the MU's associated to radio 2. The disadvantage is that radio 2 may beacon for the 45 second timeout period and have to drop associated MU's because radio 1 could not establish its uplink. NOTE The Mesh Time Out variable overrides the Ethernet Port Time Out (EPTO) setting on the LAN page when the access point is in bridge mode. As long as the mesh is down, the access point acts in accordance to the Mesh Time Out setting regardless of the state of the Ethernet. However, if the Ethernet goes down and the mesh link is still up, the EPTO takes effect. 17 Click Apply to save any changes to the Radio Configuration screen. Navigating away from the screen without clicking Apply results in all changes to the screens being lost. CAUTION When defining a Mesh configuration and changes are saved, the mesh network temporarily goes down. The mesh network is unavailable because the access point radio goes down when applying the changes. This can be problematic for users making changes within a deployed mesh network. If updating the mesh network using a LAN connection, the access point applet loses connection and the connection must be re-instated. If updating the mesh network using a WAN connection, the applet does not lose connection, but the mesh network is unavailable until the changes have been applied. 18 Click Undo Changes (if necessary) to undo any changes made. Undo Changes reverts the settings displayed on the Radio Configuration screen to the last saved configuration. 19 Click Logout to securely exit the access point applet. A prompt displays confirming the logout before the applet is closed. Once the target radio has been enabled from the Radio Configuration screen, configure the radio’s properties by selecting it from the Altitude 35xx menu tree. Altitude 3500 Series Access Point Product Reference Guide 533 Configuring Mesh Networking For additional information on configuring the access point’s radio, see “Configuring the 802.11a or 802.11b/g Radio” on page 154. For two fictional deployment scenarios, see “Mesh Network Deployment—Quick Setup” on page 534. Mesh Network Deployment—Quick Setup This section provides instructions on how to quickly setup and demonstrate mesh functionality using three access points. Two deployment scenarios will be addressed: ● Scenario 1—Two base bridges (redundant) and one client bridge ● Scenario 2—A two hop mesh network with a base bridge, repeater (combined base bridge and client bridge mode) and a client bridge. Scenario 1—Two Base Bridges and One Client Bridge In scenario 1, the following three access point configurations will be deployed within the mesh network: ● AP#1—An active base bridge ● AP#2—A redundant base bridge ● AP#3—A client bridge connecting to both AP#1 and AP#2 simultaneously. AP#1 and AP#2 will be configured somewhat the same. However there are some important (yet subtle) differences. Therefore, the configuration of each access point will be described separately. Altitude 3500 Series Access Point Product Reference Guide 534 Configuring AP#1: 1 Provide a known IP address for the LAN1 interface. NOTE Enable the LAN1 Interface of AP#1 as a DHCP Server if you intend to associate MUs and require them to obtain an IP address via DHCP. Altitude 3500 Series Access Point Product Reference Guide 535 Configuring Mesh Networking 2 Assign a Mesh STP Priority of 40000 to LAN1 Interface. Altitude 3500 Series Access Point Product Reference Guide 536 3 Define a mesh supported WLAN. Altitude 3500 Series Access Point Product Reference Guide 537 Configuring Mesh Networking 4 Enable base bridge functionality on the 802.11a radio (Radio 2). Altitude 3500 Series Access Point Product Reference Guide 538 5 Define a channel of operation for the 802.11a radio. Altitude 3500 Series Access Point Product Reference Guide 539 Configuring Mesh Networking 6 If needed, create another WLAN mapped to the 802.11bg radio if 802.11bg support is required for MUs on that 802.11 band. Configuring AP#2 AP#2 can be configured the same as AP#1 with the following exceptions: ● Assign an IP Address to the LAN1 Interface different than that of AP#1. ● Assign a higher Mesh STP Priority 50000 to the AP#2 LAN1 Interface. NOTE In a typical deployment, each base bridge can be configured for a Mesh STP Priority of 50000. In this example, different values are used to force AP#1 to be the forwarding link since it's a small mesh network (of only three APs) with AP within close proximity of one another. NOTE Ensure AP#1 and AP#2 use the same channel for each 802.11a radio, or the APs will not be able to “hear” each other over different channels. Altitude 3500 Series Access Point Product Reference Guide 540 Configuring AP#3 To define the configuration for AP#3 (a client bridge connecting to both AP#1 and AP#2 simultaneously): 1 Provide a known IP address for the LAN1 interface. Altitude 3500 Series Access Point Product Reference Guide 541 Configuring Mesh Networking 2 Assign the maximum value (65535) for the Mesh STP Priority. 3 Create a mesh supported WLAN with the Enable Client Bridge Backhaul option selected. NOTE This WLAN should not be mapped to any radio. Therefore, leave both of the “Available On” radio options unselected. Altitude 3500 Series Access Point Product Reference Guide 542 4 Select the Client Bridge checkbox to enable client bridge functionality on the 802.11a radio. Use the Mesh Network Name drop-down menu to select the name of the WLAN created in step 3. NOTE You don't need to configure channel settings on the client bridge (AP#3). It automatically finds the base bridges (AP#1 and AP#2) and uses the channel assigned to them. Altitude 3500 Series Access Point Product Reference Guide 543 Configuring Mesh Networking 5 If needed, create another WLAN mapped to the 802.11bg radio if 802.11bg support is required for MUs on that 802.11 band. Verifying Mesh Network Functionality for Scenario #1 You now have a three AP mesh network ready to demonstrate. Associate a single MU on each AP WLAN configured for 802.11bg radio support. Once completed, pass traffic among the three APs comprising the mesh network. Altitude 3500 Series Access Point Product Reference Guide 544 Scenario 2—Two Hop Mesh Network with a Base Bridge Repeater and a Client Bridge By default, the mesh algorithm runs an automatic link selection algorithm to determine the best possible active and redundant links. If member APs are not far apart (in physical distance), the algorithm intelligently chooses a single hop link to forward data. To force APs to use multiple hops for demonstrations, use manual links. In scenario 2, the following three AP configurations comprise the mesh network: ● AP#1 is a base bridge ● AP#2 is a repeater (client bridge/base bridge combination) ● AP#3 is a client bridge Configuring AP#1 The setup of AP#1 within this usage scenario is exactly the same as the AP#1 configuration within “Scenario 1—Two Base Bridges and One Client Bridge” for step by step instructions for configuring AP#1, see “Configuring AP#1:” on page 535. Once completed, return to “Configuring AP#2” on page 545 within this section. Configuring AP#2 AP#2 requires the following modifications from AP#2 in the previous scenario to function in base bridge/client bridge repeater mode. Altitude 3500 Series Access Point Product Reference Guide 545 Configuring Mesh Networking 1 Enable client bridge backhaul on the mesh supported WLAN. Altitude 3500 Series Access Point Product Reference Guide 546 2 Enable client and base bridge functionality on the 802.11a radio. Configuring AP#3 To define AP #3’s configuration: 1 The only change needed on AP#3 (with respect to the configuration used in scenario #1) is to disable the Auto Link Selection option. Click the Advanced button within the Mesh Client Bridge Settings field. Altitude 3500 Series Access Point Product Reference Guide 547 Configuring Mesh Networking 2 Add the 802.11a Radio MAC Address. In scenario #2, the mesh WLAN is mapped to BSS1 on the 802.11a radio of each AP. The Radio MAC Address (the BSSID#1 MAC Address) is used for the AP#2 Preferred Base Bridge List. Ensure both the AP#1 and AP#2 Radio MAC Addresses are in the Available Base Bridge List. Add the AP#2 MAC Address into the Preferred Base Bridge List. 3 Determine the Radio MAC Address and BSSID MAC Addresses. Verifying Mesh Network Functionality for Scenario #2 You now have a three AP demo multi-hop mesh network ready to demonstrate. Associate an MU on the WLANs configured on the 802.11bg radio for each AP and pass traffic among the members of the mesh network. Mesh Networking Frequently Asked Questions The following scenarios represent issues that could be encountered and resolved when defining an Altitude 3510 or Altitude 3550 mesh configuration: Mesh Deployment Issue 1—Client Bridge can only connect to one of two Base Bridges. You have two access points configured as base bridges (AP1, AP2) and one access point defined as a client bridge (AP3). However, the client bridge is able to connect to only one of the base bridges. Resolution. Check the mesh backhaul radio channel configuration on both base bridges (AP1, AP2). They need to use the same channel so the client bridge can connect to both simultaneously. Mesh Deployment Issue 2—Faulty Client Bridge Connectivity. You have configured three access points in mesh mode; one base bridge (AP1), one client bridge/base bridge (AP2) and one client bridge Altitude 3500 Series Access Point Product Reference Guide 548 (AP3). However, the client bridge (AP3) is connecting to both AP1 and AP2 and using its link to base bridge (AP1) to forward traffic. Resolution. This is valid behavior, you see this when your mesh APs are close enough (in proximity) so the client bridge can see both the base bridges (AP1, AP2), in which case it forms two links, one each to AP1 and AP2. Since the link to AP1 is the shortest path in terms of number of hops, AP3 uses that link to forward traffic. Mesh Deployment Issue 3—Cannot select a WLAN name for a Client Bridge. You created a WLAN for mesh backhaul on an AP needed as a client bridge, but you don't get to select the WLAN name in the Mesh Network Name drop down menu. Why? Resolution. Check the WLAN configuration to ensure you have enabled the Enable Client Bridge Backhaul option. Mesh Deployment Issue 4—Do I need to map a WLAN to a radio when configuring mesh backhaul on a Client Bridge? When creating a mesh backhaul WLAN on a client bridge only AP, do you need to map the WLAN on a radio? Resolution. No, a client bridge only AP behaves just like an MU! It scans for base bridges and forms connections to them. It doesn't need to beacon on that WLAN. Therefore, while creating a mesh backhaul WLAN on a client bridge only AP, just enable the Enable Client Bridge Backhaul option. Mesh Deployment Issue 5—Do I need to use secure beacons on a mesh backhaul supported WLAN? Can I use secure beacons on the mesh backhaul supported WLAN? Resolution. Yes, you can enable a secure beacon on a mesh backhaul supported WLAN. In fact, it is an Extreme Networks recommended practice. Mesh Deployment Issue 6—Is my mesh topology complete? How can I determine if all my mesh APs are connected and the mesh topology is complete? Resolution. Each mesh AP has a Known AP Table (available in the applet, CLI and SNMP). All APs (whether they are supporting mesh or not) periodically exchange ID messages notifying their presence to one another. Review the Known AP Table on any mesh supported AP to determine if you have all required APs connected to the mesh topology. Mesh Deployment Issue 7—Can MUs roam within a mesh topology? Can MUs connected to a mesh AP roam seemlessly among other MUs and wired access points? Resolution. Yes, MUs on a mesh APs can roam seemlessly throughout the mesh network as well as with non-mesh access points on the wired network. Mesh Deployment Issue 8—Can I mesh between an Altitude 3510 and an Altitude 3550? Can you mesh between an Altitude 3510 and an Altitude 3550? Resolution. Yes, both the Altitude 3510 and Altitude 3550 model access points are identical from a software deployment standpoint, so it is a supported configuration for Altitude 3510s and Altitude 3550s to exist in a single topology. Mesh Deployment Issue 9—Can I mesh between and an access point and an Altitude 4600? Can you mesh between a Altitude 3510, Altitude 3550 and an Altitude 4600? Altitude 3500 Series Access Point Product Reference Guide 549 Configuring Mesh Networking Resolution. No, an Altitude 4600 does not support mesh networking, so you won't be able to mesh between two Altitude 4600s or between an Altitude 4600 and an Altitude 3510 or Altitude 3550. Mesh Deployment Issue 10—Can I update firmware/configuration files across a mesh backhaul? Can I update device firmware over the mesh backhaul on a client bridge or repeater AP with no wired connectivity? Resolution. Yes, both the Altitude 3510 and Altitude 3550 support wireless firmware updates. Mesh Deployment Issue 11—Can I perform firmware/configuration file updates with DHCP options? Can I use the AP’s Automatic Firmware/Configuration update functionalities with DHCP Options on the AP for mesh nodes as well? Resolution. Yes, mesh nodes also support Automatic Firmware/Configuration updates using DHCP Options. Make sure you create DHCP reservations for each mesh node and add an appropriate configuration file to each one of them. If you don’t, the base bridge configuration file could get applied on a client bridge or repeater and you will loose connectivity to that AP. Mesh Deployment Issue 12—Why do I lose connectivity when updating configurations? When I make a configuration change and apply the changes on a client bridge or repeater, I momentarily loose connectivity to that AP, why? Resolution. That is expected behavior, when you make a configuration change on a mesh supported AP, it brings the radio driver down and then back up again. Consequently, the AP needs to re-establish its mesh connection after saving the configuration. Mesh Deployment Issue 13—Will an existing client bridge see a new base bridge or repeater? If I add a new base bridge or repeater to an existing mesh topology, will my current client bridges see it and connect to it? Resolution. Yes, all client bridges perform periodic background scanning—both passively (by sniffing the air for beacons) and actively (by sending Probe Requests). Therefore, a client bridge automatically detects the presence of a new base bridge or repeater added to the mesh network topology and forms a seam less connection without affecting current operation. Mesh Deployment Issue 14—Can a mesh supported AP react to changing RF conditions? If RF conditions change, will a mesh supported AP automatically detect and re-route traffic on its backup link or look for new links if all current links are exhausted? Resolution. Yes, all mesh nodes have built in dynamic link switching and auto-recovery mechanisms that ensure they adapt to changing RF conditions. Altitude 3500 Series Access Point Product Reference Guide 550 10 Adaptive AP CHAPTER Adaptive AP Overview An adaptive AP (AAP) is an Altitude 35xx access point that can adopt like an Altitude 4600 series access point (L3). The management of an AAP is conducted by the controller, once the access point connects to an Extreme Networks controller and receives its AAP configuration. An AAP provides: ● local 802.11 traffic termination ● local encryption/decryption ● local traffic bridging ● the tunneling of centralized traffic to the wireless controller An AAP’s controller connection can be secured using IP/UDP or IPSec depending on whether a secure WAN link from a remote site to the central site already exists. The controller can be discovered using one of the following mechanisms: ● DHCP ● Controller fully qualified domain name (FQDN) ● Static IP addresses The benefits of an AAP deployment include: ● Centralized Configuration Management & Compliance—Wireless configurations across distributed sites can be centrally managed by the wireless controller or cluster. ● WAN Survivability—Local WLAN services at a remote sites are unaffected in the case of a WAN outage. ● Securely extend corporate WLANs to stores for corporate visitors—Small home or office deployments can utilize the feature set of a corporate WLAN from their remote location. ● Maintain local WLANs for in store applications—WLANs created and supported locally can be concurrently supported with your existing infrastructure. Altitude 3500 Series Access Point Product Reference Guide 551 Adaptive AP Where to Go From Here Refer to the following for a further understanding of AAP operation: ● Adaptive AP Management on page 552 ● Types of Adaptive APs on page 553 ● Licensing on page 553 ● Controller Discovery on page 553 ● Securing a Configuration Channel Between Controller and AP on page 554 ● Adaptive AP WLAN Topology on page 555 ● Chapter 10 ● Securing Data Tunnels between the Controller and AAP on page 555 ● Adaptive AP Controller Failure on page 555 ● Remote Site Survivability (RSS) on page 556 ● For a dependant AAP, independent WLANs continue to beacon for three days in the absence of a controller. on page 556 For an understanding of how AAP support should be configured for the access point and its connected controller, see “How the AP Receives Its Adaptive Configuration” on page 559. For an overview of how to configure both the access point and controller for basic AAP connectivity and operation, see “Establishing Basic Adaptive AP Connectivity” on page 560. To configure the access point’s controller discovery method and connection medium, see “Adaptive AP Setup” on page 70. Adaptive AP Management An AAP can be adopted, configured and managed like a thin access port from the wireless controller. NOTE An AAP can support a firmware download from the wireless controller. Once an access point connects to a controller and receives its AAP configuration, its WLAN and radio configuration is similar to a thin access port. An AAP's radio mesh configuration can also be configured from the controller. However, non-wireless features (DHCP, NAT, Firewall etc.) cannot be configured from the controller and must be defined using the access point's resident interfaces before its conversion to an AAP. Altitude 3500 Series Access Point Product Reference Guide 552 Types of Adaptive APs The types of adaptive access points include the following: ● AP3510 - US ● AP3510 - ROW ● AP3510 - IL (Israel) ● AP3550 - US ● AP3550 - ROW Licensing An AAP uses the same licensing scheme as a thin access port. This implies an existing license purchased with a controller can be used for an AAP deployment. Regardless of how many AAPs are deployed, you must ensure the license used by the controller supports the number of radio ports you intend to adopt. Controller Discovery For an Altitude 35xx to function as an AAP (regardless of mode), it needs to connect to a controller to receive its configuration. There are two methods of controller discovery: ● Auto Discovery using DHCP on page 553 ● Manual Adoption Configuration on page 554 Auto Discovery using DHCP Extended Global Options 189, 190, 191, 192 can be used or Embedded Option 43—Vendor Specific options can be embedded in Option 43 using the vendor class identifier 1916. Code Data Type List of Controller IP addresses (separate by comma, semi-colon, or space delimited) 188 String Controller FQDN 190 String AP35xx Encryption IPSec Passphrase (Hashed) ** 191 String AP35xx controller discovery mode 192 String 1 = auto discovery enable 2 = auto discover enabled (using IPSec) ** The Altitude 35xx uses an encryption key to hash passphrases and security keys. To obtain the encryption passphrase, configure an Altitude 35xx with the passphrase and export the configuration file. Altitude 3500 Series Access Point Product Reference Guide 553 Adaptive AP tunnel-to-controller enable Manual Adoption Configuration A manual controller adoption of an AAP can be conducted using: ● Static FQDN—A controller fully qualified domain name can be specified to perform a DNS lookup and controller discovery. ● Static IP addresses—Up to 12 controller IP addresses can be manually specified in an ordered list the AP can choose from. When providing a list, the AAP tries to adopt based on the order in which they are listed (from 1-12). NOTE An AAP can use its LAN or WAN Ethernet interface to adopt. The LAN is PoE and DHCP enabled by default. The WAN has no PoE support and has a default static AP address of 10.1.1.1/8. Securing a Configuration Channel Between Controller and AP Once an access point obtains a list of available controllers, it begins connecting to each. The controller can be either on the LAN or WAN side of the access point to provide flexibility in the deployment of the network. If the controller is on the access point’s LAN, ensure the LAN subnet is on a secure channel. The AP will connect to the controller and request a configuration. Altitude 3500 Series Access Point Product Reference Guide 554 Adaptive AP WLAN Topology An AAP can be deployed in the following WLAN topologies: ● Extended WLANs—Extended WLANs are the centralized WLANs created on the controller. ● Independent WLANs—Independent WLANs are local to an AAP and can be configured from the controller. You must specify a WLAN as independent to stop traffic from being forwarded to the controller. Independent WLANs behave like WLANs on a standalone access point. ● Both—Extended and independent WLANs are configured from the controller and operate simultaneously. NOTE For a review of some important considerations impacting the use of extended and independent WLANs within an AAP deployment, see “Adaptive AP Deployment Considerations” on page 565. Configuration Updates An AAP receives its configuration from the controller initially as part of its adoption sequence. Subsequent configuration changes on the controller are reflected on an AAP when applicable. An AAP applies the configuration changes it receives from the controller after 30 seconds from the last received controller configuration message. When the configuration is applied on the AAP, the radios shutdown and re-initialize (this process takes less than 2 seconds) forcing associated MUs to be deauthenticated. MUs are quickly able to associate. Securing Data Tunnels between the Controller and AAP If a secure link (site-to-site VPN) from a remote site to the central location already exists, the AAP does not require IPSec be configured for adoption. For sites with no secure link to the central location, an AAP can be configured to use an IPSec tunnel (with AES 256 encryption) for adoption. The tunnel configuration is automatic on the AAP side and requires no manual VPN policy be configured. On the controller side, configuration updates are required to adopt the AAP using an IPSec tunnel. To review a sample AAP configuration, see “Sample Controller Configuration File for IPSec and Independent WLAN” on page 566. Adaptive AP Controller Failure In the event of a controller failure, an AAP's independent WLAN continues to operate without disruption. The AAP attempts to connect to other controllers (if available) in background. Extended WLANs are disabled once controller adoption is lost. When a new controller is discovered and a connection is secured, an extended WLAN can be enabled. If a new controller is located, the AAP synchronizes its configuration with the located controller once adopted. If Remote Site Survivability (RSS) is disabled, the independent WLAN is also disabled in the event of a controller failure. Altitude 3500 Series Access Point Product Reference Guide 555 Adaptive AP Remote Site Survivability (RSS) RSS can be used to turn off RF activity on an AAP if it loses adoption (connection) to the controller. RSS State Independent WLANs Extended WLANs RSS Enabled WLAN continues beaconing WLAN continues beaconing but AP does allow clients to associate on that WLAN RSS Disabled WLAN stops beaconing WLAN stops beaconing NOTE For a dependant AAP, independent WLANs continue to beacon for three days in the absence of a controller. Adaptive Mesh Support An AAP can extend an Altitude 35xx Access Point's existing mesh functionality to a controller managed network. All mesh APs are configured and managed through the wireless controller. APs without a wired connection form a mesh backhaul to a repeater or a wired mesh node and then get adopted to the controller. Mesh nodes with existing wired access get adopted to the controller like a wired AAP. Mesh AAPs apply configuration changes 300 seconds after the last received controller configuration message. When the configuration is applied on the Mesh AAP, the radios shutdown and re-initialize (this process takes less than 2 seconds), forcing associated MUs to be deauthenticated and the Mesh link will go down. MUs are able to quickly associate, but the Mesh link will need to be re-established before MUs can pass traffic. This typically takes about 90 to 180 seconds depending on the size of the mesh topology. NOTE When mesh is used with AAPs, the “ap-timeout” value needs to be set to a higher value (for example, 180 seconds) so Mesh AAPs remain adopted to the controller during the period when the configuration is applied and mesh links are re-established. Altitude 3500 Series Access Point Product Reference Guide 556 For an overview of mesh networking and how to configure an Altitude 3510 or Altitude 3550 to support mesh, see “Configuring Mesh Networking” on page 519. Supported Adaptive AP Topologies For this version 2.0 release of the access point firmware, the following AAP topologies are supported: ● Extended WLANs Only on page 558 ● Independent WLANs Only on page 558 ● Extended WLANs with Independent WLANs on page 558 ● Extended WLAN with Mesh Networking on page 558 Topology Deployment Considerations When reviewing the AAP topologies describes in the section, be cognizant of the following considerations to optimize the effectiveness of the deployment: ● An AAP firmware upgrade will not be performed at the time of adoption from the wireless controller. Instead, the firmware is upgraded using the Altitude 35xx Access Point’s firmware update procedure (manually or using the DHCP Auto Update feature). ● An AAP can use its LAN1 interface or WAN interface for adoption. The default gateway interface is set to LAN1. If the WAN Interface is used, explicitly configure WAN as the default gateway interface. ● Extreme Networks recommends using the LAN1 interface for adoption in multi-cell deployments. ● If you have multiple independent WLANs mapped to different VLANs, the AAP's LAN1 interface requires trunking be enabled with the correct management and native VLAN IDs configured. Additionally, the AAP needs to be connected to a 802.1q trunk port on the wired controller. ● Be aware IPSec Mode supports NAT Traversal (NAT-T). Altitude 3500 Series Access Point Product Reference Guide 557 Adaptive AP Extended WLANs Only An extended WLAN configuration forces all MU traffic through the controller. No wireless traffic is locally bridged by the AAP. Each extended WLAN is mapped to the access point's virtual LAN2 subnet. By default, the access point's LAN2 is not enabled and the default configuration is set to static with IP addresses defined as all zeros. If the extended VLAN option is configured on the controller, the following configuration updates are made automatically: ● The AAP’s LAN2 subnet becomes enabled. ● All extended VLANs are mapped to LAN2. NOTE MUs on the same WLAN associated to the AAP can communicate locally at the AP Level without going through the controller. If this scenario is undesirable, the access point's MU-to-MU disallow option should be enabled. To enable the access point’s MU-to-MU disallow option, see “Creating/Editing Individual WLANs” on page 135. Independent WLANs Only An independent WLAN configuration forces all MU traffic be bridged locally by the AAP. No wireless traffic is tunneled back to the controller. Each extended WLAN is mapped to the access point's LAN1 interface. The only traffic between the controller and the AAP are control messages (for example, heartbeats, statistics and configuration updates). Extended WLANs with Independent WLANs An AAP can have both extended WLANs and independent WLANs operating in conjunction. When used together, MU traffic from extended WLANs go back to the controller and traffic from independent WLANs is bridged locally by the AP. All local WLANs are mapped to LAN1, and all extended WLANs are mapped to LAN2. Extended WLAN with Mesh Networking Mesh networking is an extension of the existing wired network. There is no special configuration required, with the exceptions of setting the mesh and using it within one of the two extended VLAN configurations and defining an access point radio as a preferred base bridge. NOTE The mesh backhaul WLAN must be an independent WLAN mapped to LAN1. The controller enforces the WLAN be defined as an independent WLAN by automatically setting the WLAN to independent when backhaul is selected. The AP ensures the backhaul WLAN be put on LAN1. Altitude 3500 Series Access Point Product Reference Guide 558 How the AP Receives Its Adaptive Configuration An AAP does not require a separate “local” or “running” configuration. Once enabled as an AAP, the AP obtains its configuration from the controller. If the AP’s WAN link fails, it continues to operate using the last valid configuration until its link is re-established and a new configuration is pushed down from the controller. There is no separate file-based configuration stored on the controller. Only WLAN, VLAN extension and radio configuration items are defined for the AAP by its connected controller. None of the other access point configuration items (RADIUS, DHCP, NAT, Firewall etc.) are configurable from the connected controller. After the AP downloads a configuration file from the controller, it obtains the version number of the image it should be running. The controller does not have the capacity to hold the access point’s firmware image and configuration. The access point image must be downloaded using a means outside the controller. If there is still an image version mismatch between what the controller expects and what the AAP is running, the controller will deny adoption. Adaptive AP Prerequisites Converting an Altitude 3510 or Altitude 3550 model access point into an AAP requires: ● A version 2.0 or higher firmware running on the access point. ● An Extreme Networks controller. ● The appropriate controller licenses providing AAP functionality on the controller. ● The correct password to authenticate and connect the adaptive to the controller. Configuring the Adaptive AP for Adoption by the Controller An AAP needs to find and connect to the controller. To ensure this connection: 1 Configure the controller’s IP address on the AAP. a Provide the controller IP address using DHCP option 189 on a DHCP server. The IP address is a comma delimited string of IP addresses. For example "157.235.94.91, 10.10.10.19". There can be a maximum of 12 IP addresses. b Configure the controller’s FQDN on the AAP. The AAP can use this to resolve the IP address of the controller. 2 Use the controller’s secret password on the AAP for the controller to authenticate it. For additional information on defining the connection medium used by the access point to receive an AAP configuration, see “Adaptive AP Setup” on page 70. To avoid a lengthy broken connection with the controller, Extreme Networks recommends generating an SNMP trap when the AAP loses adoption with the controller. NOTE For additional information (in greater detail) on the AP configuration activities described above, see “Adaptive AP Configuration” on page 560. Altitude 3500 Series Access Point Product Reference Guide 559 Adaptive AP Configuring the Controller for Adaptive AP Adoption The tasks described below are configured on an Extreme Networks controller. For information on configuring the controller for AAP support, see http://www.extremenetworks.com/go/documentation. To adopt an AAP on a controller: 1 Ensure enough licenses are available on the controller to adopt the required number of AAPs. 2 As soon as the AAP displays in the adopted list: Adjust each AAP’s radio configuration as required. This includes WLAN-radio mappings and radio parameters. WLAN-VLAN mappings and WLAN parameters are global and cannot be defined on a per radio basis. WLANs can be assigned to a radio. Optionally, configure WLANs as independent and assign to AAPs as needed. 3 Configure each VPN tunnel with the VLANs to be extended to it. If you do not attach the target VLAN, no data will be forwarded to the AAP, only control traffic required to adopt and configure the AP. NOTE For additional information (in greater detail) on the controller configuration activities described above, see “Adopting an Adaptive AP Using a Configuration File” on page 562. Establishing Basic Adaptive AP Connectivity This section defines the activities required to configure basic AAP connectivity with a Summit WM3400, Summit WM3600 or Summit WM3700 controller. In establishing a basic AAP connection, both the access point and controller require modifications to their respective default configurations. For more information, see: ● Adaptive AP Configuration on page 560 ● Controller Configuration on page 562 NOTE Refer to “Adaptive AP Deployment Considerations” on page 565 for usage and deployment caveats that should be considered before defining the AAP configuration. Refer to “Sample Controller Configuration File for IPSec and Independent WLAN” on page 566 if planning to deploy an AAP configuration using IPSec VPN and an extended WLAN. Adaptive AP Configuration An AAP can be manually adopted by the controller, adopted using a configuration file (consisting of the adaptive parameters) pushed to the access point or adopted using DHCP options. Each of these adoption techniques is described in the sections that follow. Altitude 3500 Series Access Point Product Reference Guide 560 Adopting an Adaptive AP Manually To manually enable the access point’s controller discovery method and connection medium required for adoption: 1 Select System Configuration > Adaptive AP Setup from the access point’s menu tree. CAUTION If deploying the access point as an AAP with a remote layer 3 configuration and the AAP is set for controller auto discovery (primary/standby), the access point will un-adopt from its controller after a few moments. To remedy this problem, ensure LAN1 has 802.1q trunking enabled and the correct management VLAN defined. 2 Select the Auto Discovery Enable checkbox. Enabling auto discovery will allow the AAP to be detected by a controller once its connectivity medium has been configured (by completing steps 3-6) 3 Enter up to 12 Controller IP Addresses constituting the target controllers available for AAP connection. The AAP will begin establishing a connection with the first addresses in the list. If unsuccessful, the AP will continue down the list (in order) until a connection is established. 4 If a numerical IP address is unknown, but you know a controller’s fully qualified domain name (FQDN), enter the name as the Controller FQDN value. 5 Select the Enable AP-Controller Tunnel option to allow AAP configuration data to reach a controller using a secure VPN tunnel. Altitude 3500 Series Access Point Product Reference Guide 561 Adaptive AP 6 If using IPSec as the tunnel resource, enter the IPSec Passkey to ensure IPSec connectivity. 7 Click Apply to save the changes to the AAP setup. NOTE The manual AAP adoption described above can also be conducted using the access point’s CLI interface using the admin(system.aapsetup)> command. Adopting an Adaptive AP Using a Configuration File To adopt an AAP using a configuration file: 1 Refer to “Adopting an Adaptive AP Manually” and define the AAP controller connection parameters. 2 Export the AAP’s configuration to a secure location. Either import the configuration manually to other APs or the same AP later (if you elect to default its configuration). Use DHCP option 186 and 187 to force a download of the configuration file during startup (when it receives a DHCP offer). For instruction on how to use the access point’s configuration import/export functionality, see “Importing/Exporting Configurations” on page 103. For information on updating the access point’s firmware, see “Updating Device Firmware” on page 107. Adopting an Adaptive AP Using DHCP Options An AAP can be adopted to a wireless controller by providing the following options in the DHCP Offer: Option Data Type Value 189 String <Controller IP Address or Range of IP addresses separated by [, ; <space>]> 190 String <Fully qualified Domain Name for the Wireless Controller> 191 String <Hashed IPSec Passkey - configure on 1 AP and export to get hashed key> 192 String <Value of "1" denotes Non-IPSec Mode and "2" denotes IPSec Mode> NOTE Options 189 and 192 are mandatory to trigger adoption using DHCP options. Unlike an Altitude 4600, option 189 alone won’t work. These options can be embedded in Vendor Specific Option 43 and sent in the DHCP Offer. Controller Configuration A Summit WM3400, Summit WM3600 and Summit WM3700 controller require an explicit adaptive configuration to adopt an access point (if IPSec is not used for adoption). The same licenses currently used for Altitude 4600 adoption can be used for an AAP. Disable the controller’s Adopt unconfigured radios automatically option and manually add AAPs requiring adoption, or leave as default. In default mode, any AAP adoption request is honored until the current controller license limit is reached. Altitude 3500 Series Access Point Product Reference Guide 562 To disable automatic adoption on the controller: 1 Select Network > Access Point Radios from the controller main menu tree. 2 Select the Configuration tab (should be displayed be default) and click the Global Settings button. 3 Ensure the Adopt unconfigured radios automatically option is NOT selected. When disabled, there is no automatic adoption of non-configured radios on the network. Additionally, default radio settings will NOT be applied to access points when automatically adopted. NOTE For IPSec deployments, refer to “Sample Controller Configuration File for IPSec and Independent WLAN” on page 566 and take note of the CLI commands in red and associated comments in green. Any WLAN configured on the controller becomes an extended WLAN by default for an AAP. 4 Select Network > Wireless LANs from the controller main menu tree. 5 Select the target WLAN you would like to use for AAP support from those displayed and click the Edit button. 6 Select the Independent Mode (AAP Only) checkbox. Selecting the checkbox designates the WLAN as independent and prevents traffic from being forwarded to the controller. Independent WLANs behave like WLANs as used on a standalone access point. Leave this option unselected (as is by default) to keep this WLAN an extended WLAN (a typical centralized WLAN created on the controller). Altitude 3500 Series Access Point Product Reference Guide 563 Adaptive AP NOTE Additionally, a WLAN can be defined as independent using the "wlan <index> independent" command from the config-wireless context. Once an AAP is adopted by the controller, it displays within the controller Access Point Radios screen (under the Network parent menu item) as an Altitude 3510 or Altitude 3550 within the AP Type column. Altitude 3500 Series Access Point Product Reference Guide 564 Adaptive AP Deployment Considerations Before deploying your controller/AAP configuration, refer to the following usage caveats to optimize its effectiveness: ● If deploying the access point as an AAP with a remote layer 3 configuration and the AAP is set for controller auto discovery (primary/standby), the access point will un-adopt from its controller after a few moments. To remedy this problem, ensure LAN1 has 802.1q trunking enabled and the correct management VLAN defined. ● Extended WLANs are mapped to the AP’s LAN2 interface and all independent WLANs are mapped to the AP’s LAN1 Interface. ● If deploying multiple independent WLANs mapped to different VLANs, ensure the AP’s LAN1 interface is connected to a trunk port on the L2/L3 controller and appropriate management and native VLANs are configured. ● The WLAN used for mesh backhaul must always be an independent WLAN. ● The controller configures an AAP. If manually changing wireless settings on the AP, they are not updated on the controller. It's a one way configuration, from the controller to the AP. ● An AAP always requires a router between the AP and the controller. ● An AAP can be used behind a NAT. ● An AAP uses UDP port 24576 for control frames and UDP port 24577 for data frames. ● Multiple VLANs per WLAN, L3 mobility, dynamic VLAN assignment, NAC, self healing, rogue AP, MU locationing, hotspot on extended WLAN are some of the important wireless features not supported in an AAP supported deployment. Altitude 3500 Series Access Point Product Reference Guide 565 Adaptive AP Sample Controller Configuration File for IPSec and Independent WLAN The following constitutes a sample Summit WM3700 controller configuration file supporting an AAP IPSec with Independent WLAN configuration. Please note new AAP specific CLI commands in red and relevant comments in blue. The sample output is as follows: ! ! configuration of WM3700 WM3700-1 ! version 1.0 ! ! aaa authentication login default none service prompt crash-info ! hostname WM3700-1 ! username admin password 1 8e67bb26b358e2ed20fe552ed6fb832f397a507d username admin privilege superuser username operator password 1 fe96dd39756ac41b74283a9292652d366d73931f ! ! To configure the ACL to be used in the CRYPTO MAP ! ip access-list extended AAP-ACL permit ip host 10.10.10.250 any rule-precedence 20 ! spanning-tree mst cisco-interoperability enable spanning-tree mst config name My Name ! country-code us logging buffered 4 logging console 7 logging host 157.235.92.97 logging syslog 7 snmp-server sysname WM3700-1 snmp-server manager v2 snmp-server manager v3 snmp-server user snmptrap v3 encrypted auth md5 0x7be2cb56f6060226f15974c936e2739b snmp-server user snmpmanager v3 encrypted auth md5 0x7be2cb56f6060226f15974c936e2739b snmp-server user snmpoperator v3 encrypted auth md5 0x49c451c7c6893ffcede0491bbd0a12c4 ! To configure the passkey for a Remote VPN Peer - 255.255.255.255 denotes all AAPs. 12345678 is the default passkey. If you change on the AAP, change here as well. ! crypto isakmp key 0 12345678 address 255.255.255.255 ! ip http server ip http secure-trustpoint default-trustpoint ip http secure-server ip ssh no service pm sys-restart timezone America/Los_Angeles Altitude 3500 Series Access Point Product Reference Guide 566 license AP xyxyxyxyxyxyxyxyxyxyxyxyxyxyxyxyxyxyxyxyxyxyxyxyxyxyxyxyxyxyxyxyxyxyxyxyxyxyxyxyxyxyxx yxyxyx ! wireless no adopt-unconf-radio enable manual-wlan-mapping enable wlan 1 enable wlan 1 ssid qs5-ccmp wlan 1 vlan 200 wlan 1 encryption-type ccmp wlan 1 dot11i phrase 0 admin123 wlan 2 enable wlan 2 ssid qs5-tkip wlan 2 vlan 210 wlan 2 encryption-type tkip wlan 2 dot11i phrase 0 admin123 wlan 3 enable wlan 3 ssid qs5-wep128 wlan 3 vlan 220 wlan 3 encryption-type wep128 wlan 4 enable wlan 4 ssid qs5-open wlan 4 vlan 230 wlan 5 enable wlan 5 ssid Mesh wlan 5 vlan 111 wlan 5 encryption-type ccmp wlan 5 dot11i phrase 0 admin123 ! To configure a WLAN as an independent WLAN ! wlan 5 independent wlan 5 client-bridge-backhaul enable wlan 6 enable wlan 6 ssid test-mesh wlan 6 vlan 250 radio add 1 00-15-70-00-79-30 11bg aap3550 radio 1 bss 1 3 radio 1 bss 2 4 radio 1 bss 3 2 radio 1 channel-power indoor 11 8 radio 1 rss enable radio add 2 00-15-70-00-79-30 11a aap3550 radio 2 bss 1 5 radio 2 bss 2 1 radio 2 bss 3 2 radio 2 channel-power indoor 48 8 radio 2 rss enable radio 2 base-bridge max-clients 12 radio 2 base-bridge enable radio add 3 00-15-70-00-79-12 11bg aap3550 radio 3 bss 1 3 radio 3 bss 2 4 radio 3 bss 3 2 radio 3 channel-power indoor 6 8 Altitude 3500 Series Access Point Product Reference Guide 567 Adaptive AP radio 3 rss enable radio add 4 00-15-70-00-79-12 11a aap3550 radio 4 bss 1 5 radio 4 bss 2 6 radio 4 channel-power indoor 48 4 radio 4 rss enable radio 4 client-bridge bridge-select-mode auto radio 4 client-bridge ssid Mesh radio 4 client-bridge mesh-timeout 0 radio 4 client-bridge enable radio default-11a rss enable radio default-11bg rss enable radio default-11b rss enable no ap-ip default-ap controller-ip ! radius-server local ! To create an IPSEC Transform Set ! crypto ipsec transform-set AAP-TFSET esp-aes-256 esp-sha-hmac mode tunnel ! To create a Crypto Map, add a remote peer, set the mode, add a ACL rule to match and transform and set to the Crypto Map ! crypto map AAP-CRYPTOMAP 10 ipsec-isakmp set peer 255.255.255.255 set mode aggressive match address AAP-ACL set transform-set AAP-TFSET ! interface ge1 controllerport mode trunk controllerport trunk native vlan 1 controllerport trunk allowed vlan none controllerport trunk allowed vlan add 1-9,100,110,120,130,140,150,160,170, controllerport trunk allowed vlan add 180,190,200,210,220,230,240,250, static-channel-group 1 ! interface ge2 controllerport access vlan 1 ! interface ge3 controllerport mode trunk controllerport trunk native vlan 1 controllerport trunk allowed vlan none controllerport trunk allowed vlan add 1-9,100,110,120,130,140,150,160,170, controllerport trunk allowed vlan add 180,190,200,210,220,230,240,250, static-channel-group 1 ! interface ge4 controllerport access vlan 1 ! interface me1 ip address dhcp ! interface sa1 Altitude 3500 Series Access Point Product Reference Guide 568 controllerport mode trunk controllerport trunk native vlan 1 controllerport trunk allowed vlan none controllerport trunk allowed vlan add 1-9,100,110,120,130,140,150,160,170, controllerport trunk allowed vlan add 180,190,200,210,220,230,240,250, ! ! ! interface vlan1 ip address dhcp ! To attach a Crypto Map to a VLAN Interface ! crypto map AAP-CRYPTOMAP ! sole ! ip route 157.235.0.0/16 157.235.92.2 ip route 172.0.0.0/8 157.235.92.2 ! ntp server 10.10.10.100 prefer version 3 line con 0 line vty 0 24 ! end Altitude 3500 Series Access Point Product Reference Guide 569 Adaptive AP Altitude 3500 Series Access Point Product Reference Guide 570 A Technical Specifications APPENDIX This appendix provides technical specifications in the following areas: ● Physical Characteristics on page 571 ● Electrical Characteristics on page 572 ● Radio Characteristics on page 573 ● Antenna Specifications on page 573 ● Country Codes on page 574 Physical Characteristics For more information, see: ● Altitude 3510 Physical Characteristics on page 571 ● Altitude 3550 Physical Characteristics on page 572 Altitude 3510 Physical Characteristics The Altitude 3510 has the following physical characteristics: Dimensions 5.32 inches long x 9.45 inches wide x 1.77 inches thick. 135 mm long x 240 mm wide x 45 mm thick. Housing Metal, Plenum Housing (UL2043) Weight 1.95 lbs/0.88 Kg (single-radio model) 2.05 lbs/0.93 Kg (dual-radio model) Operating Temperature -20 to 50° Celsius Storage Temperature -40 to 70° Celsius Altitude 8,000 feet/2438 m @ 28° Celsius (operating) 15,000 feet/4572 m @ 12° Celsius (storage) Vibration Vibration to withstand .02g²/Hz, random, sine, 20-2k Hz Humidity 5 to 95% (operating) 5 to 85% (storage) Electrostatic Discharge 15kV (air) @ 50% rh 8kV (contact) @ 50% rh Altitude 3500 Series Access Point Product Reference Guide 571 Drop Bench drop 36 inches to concrete (excluding side with connectors) Altitude 3550 Physical Characteristics The Altitude 3550 has the following physical characteristics: Dimensions 12 inches long x 8.25 inches wide x 3.5 inches thick. Housing Aluminum Weight 4 lbs. Operating Temperature -30 to 55° Celsius Storage Temperature -40 to 85° Celsius Altitude 8,000 feet/2438 m @ 28° Celsius (operating) 15,000 feet/4572 m @ 12° Celsius (storage) Vibration Vibration to withstand .02g²/Hz, random, sine, 20-2k Hz Humidity 5 to 95% (operating) 5 to 95% (storage) Electrostatic Discharge 15kV (air) @ 50% rh 8kV (contact) @ 50% rh Drop Bench drop 36 inches to concrete Wind Blown Rain 40 MPH @ 0.1inch/minute, 15 minutes Rain/Drip/Spill IPX5 Spray @ 4L/minute, 10 minutes Dust IP6X 20mb vacuum max, 2 hours, stirred dust, .88g/m^3 concentration @ 35%RH Electrical Characteristics Both the Altitude 3510 and the Altitude 3550 access points have the following electrical characteristics: CAUTION An Altitude 3550 model access point cannot use the Altitude 3510 recommended Extreme Networks 48Volt Power Supply (Part No. 15728). However, Extreme Networks does recommend the Power Tap for use with the Altitude 3550. Operating Voltage 48Vdc (Nom) Operating Current 200mA (Peak) @ 48Vdc 170mA (Nom) @ 48Vdc Altitude 3500 Series Access Point Product Reference Guide 572 Radio Characteristics The Altitude 3510 and Altitude 3550 access points have the following radio characteristics: Operating Channels 802.11a radio—Channels 34-161 (5170-5825 MHz) 802.11b/g radio—Channels 1-13 (2412-2472 MHz) 802.11b/g radio—Channel 14 (2484 MHz Japan only) Actual operating frequencies depend on regulatory rules and certification agencies. Receiver Sensitivity 802.11a Radio 6 Mbps -88 9 Mbps -87 12 Mbps -85 18 Mbps -81 24 Mbps -79 36 Mbps -75 48 Mbps -70 54 Mbps -68 802.11b/g Radio 11 Mbps -84 5.5 Mbps -88 2 Mbps -90 1 Mbps -94 * all values in dBm Radio Data Rates 802.11a radio 6, 9, 12, 18, 24, 36, 48, and 54 Mbit/Sec 802.11g radio 6, 9, 12, 18, 24, 36, 48, and 54 Mbit/Sec 802.11b radio 1, 2, 5.5, 11 Mbps Wireless Medium Direct Sequence Spread Spectrum (DSSS) Orthogonal Frequency Division Multiplexing (OFDM) Antenna Specifications The antenna suite differs between the Altitude 3510 and Altitude 3550 model access points. Ensure your have selected the correct model antenna before deploying the access point. For more information, see: ● Altitude 3510 Antenna Specifications on page 573 ● Country Codes on page 574 Altitude 3510 Antenna Specifications CAUTION Using an antenna other than the Dual-Band Antenna (Part No.15756) could render the Altitude 3510’s Rogue AP Detector Mode feature inoperable. Contact your Extreme Networks sales associate for specific information. For more information about the antennas approved for the AP3510, refer to the Altitude 35xx/46xx AP Antenna Selection Guide, Rev.xx. Altitude 3500 Series Access Point Product Reference Guide 573 Altitude 3550 Antenna Specifications For more information about the antennas approved for the AP3550, refer to the Altitude 35xx/46xx AP Antenna Selection Guide, Rev.xx. Country Codes The following list of countries and their country codes is useful when using the access point configuration file, CLI or the MIB to configure the access point: Country Code Argentina AR Australia AU Austria AT Bahamas BS Bahrain BH Barbados BB Belarus BY Belgium BE Bermuda BM Bolivia BO Botswana BW Botznia-Herzegovina BA Brazil BR Bulgaria BG Canada CA Cayman Islands KY Chile CL China CN Christmas Islands CX Colombia CO Costa Rica CR Croatia HR Cypress CY Czech Rep. CZ Denmark DK Dominican Republic DO Ecuador EC Egypt EG El Salvador SV Estonia EE Falkland Islands FK Finland FI Altitude 3500 Series Access Point Product Reference Guide 574 Country Code France FR French Guiana GF Germany DE Greece GR Guadelupe GP Guam GU Guatemala GT Guinea GN Haiti HT Honduras HN Hong Kong HK Hungary HU Iceland IS India IN Indonesia ID Ireland IE Israel IL Italy IT Jamaica JM Japan JP Jordan JO Kazakhstan KZ Kuwait KW Latvia LV Lebanon LB Liechtenstein LI Lithuania LT Luxembourg LU Macau MO Macedonia MK Malaysia MY Malta MT Mariana Island MP Martinique MQ Mexico MX Moldavia MD Montenegro ME Morocco MA Namibia NA Netherlands NL Netherlands Antilles AN New Zealand NZ Altitude 3500 Series Access Point Product Reference Guide 575 Country Code Nicaragua NI Norfolk Island NF Norway NO Oman OM Pakistan PK Panama PA Paraguay PY Peru PE Philippines PH Poland PL Portugal PT Puerto Rico PR Qatar QA Romania RO Russian Federation RU Saudi Arabia SA Serbia RS Singapore SG Slovak Republic SK Slovenia SI South Africa ZA South Korea KR Spain ES Sri Lanka LK Sweden SE Switzerland CH Taiwan TW Thailand TH Trinidad and Tobago TT Tunisia TN Turkey TR UAE AE Ukraine UA United Kingdom GB Uruguay UY USA US Venezuela VE Vietnam VN Virgin Islands (British) VG Virgin Islands (US) VI Altitude 3500 Series Access Point Product Reference Guide 576 B Usage Scenarios APPENDIX This appendix provides practical usage scenarios for many of the access point’s key features. This information should be referenced as a supplement to the information contained within this Product Reference Guide. The following scenarios are described: ● Configuring Automatic Updates using a DHCP or Linux BootP Server on page 577 ● Configuring an IPSEC Tunnel and VPN FAQs on page 583 Configuring Automatic Updates using a DHCP or Linux BootP Server This section provides specific details for configuring either a DHCP or Linux BootP Server to send firmware or configuration file updates to an access point. The AutoUpdate feature updates the access point firmware and/or configuration automatically when the access point is reset or does a DHCP request. The update process is conducted over the LAN or WAN port depending on which server responds first to the access point’s request for an automatic update. The firmware is automatically updated each time firmware versions are found to be different between what is running on the access point and the firmware file that resides on the server. The configuration file is automatically applied when the configuration filename is found to be different between what resides on the access point and the filename residing on the server or when the configuration version is found to be different between what resides on the access point and the configuration version residing on the server. The configuration version can be modified in the text file to cause the configuration to be applied when required. The parameter name in the file is “cfg-version-1.1-01”. The access point only checks the two characters after the third hyphen (01) when making a comparison. Change the last two characters to update the configuration. The two characters can be alpha-numeric. Altitude 3500 Series Access Point Product Reference Guide 577 Windows—DHCP Server Configuration See the following sections for information on these DHCP server configurations in the Windows environment: ● Embedded Options—Using Option 43 on page 578 ● Global Options—Using Extended/Standard Options on page 579 Embedded Options—Using Option 43 This section provides instructions for automatic update of firmware and configuration file via DHCP using extended options or standard options configured globally. The setup example described in this section includes: ● 1 Altitude 3510 or Altitude 3550 model access point ● 1 Microsoft Windows DHCP Server ● 1 TFTP Server Note the following caveats regarding this procedure before beginning: ● Ensure the LAN Interface is configured as a DHCP Client ● If the existing and update firmware files are the same, the firmware will not get updated. To configure the DHCP Server for automatic updates: 1 Set the Windows DHCP Server and access point on the same Ethernet segment. 2 Configure the Windows based DHCP Server as follows: a Highlight the Server Domain Name (for example, apfw.extremenetworks.com). From the Action menu, select Define Vendor Classes. b Create a new vendor class. For example, AP35xx Options. c Enter the vendor class Identifier ExtremeAP.35xx-V1-1-1. Enter the value in ASCII format, the server converts it to hex automatically. d From the Action menu, select Set Predefined Options. e Add the following 3 new options under AP35xx Options class: Access point TFTP Server IP Address (Note: Use any one option) f Code Data type 181 186 IP address String Access point Firmware File Name 187 String Access point Config File Name (Note: Use any one option) String String 129 188 Highlight Scope Options from the tree and select Configure Options. g Go to the Advanced tab. From under the Vendor Class AP35xx Options, check all three options mentioned in the table above and enter a value for each option. 3 Copy the firmware and configuration files to the appropriate directory on the TFTP Server. 4 Restart the access point. 5 While the access point boots, verify the access point: Altitude 3500 Series Access Point Product Reference Guide 578 ● Obtains and applies the expected IP Address from the DHCP Server ● Downloads both the firmware and configuration files from the TFTP Server and updates both as needed. Verify the file versions within the System Settings screen. NOTE If the firmware files are the same, the firmware will not get updated. If the configuration file name matches the last used configuration file on the access point or if the configuration file versions are the same, the access point configuration will not get updated. Global Options—Using Extended/Standard Options The following are instructions for automatic firmware and configuration file updates via DHCP using extended options or standard options configured globally. The setup example described in this section includes: ● 1 Altitude 3510 or Altitude 3550 model access point ● 1 Microsoft Windows DHCP Server ● 1 TFTP Server. To configure Global options using extended/standard options: 1 Set the Windows DHCP Server and access point on the same Ethernet segment. 2 Configure the Windows based DHCP Server as follows: a Highlight the Server Domain Name (for example, apfw.extremenetworks.com). From the Action menu, select Set Predefined Options. b Add the following 3 new options under DHCP Standard Options class: Extended Options Code Data type Access point TFTP Server IP Address (Note: Use any one option) 181 186 IP address String Access point Firmware File Name 187 String Access point Config File Name (Note: Use any one option) 129 188 String String Standard Options Code Data type Access point TFTP Server IP Address 66 String Access point Firmware File Name 67 String NOTE If using Standard Options and the configuration of the access point needs to be changed, use option 129 or 188 as specified in the Extended Options table. Standard options 66 and 67 are already present in the DHCP Standard Options Class by default. c Highlight Scope Options and select Configure Options. Altitude 3500 Series Access Point Product Reference Guide 579 d Under the General tab, check all 3 options mentioned within the Extended Options table and enter a value for each option. 3 Copy both the firmware and configuration files to the appropriate directory on the TFTP Server. By default, auto update is enabled on the access point (since the LAN Port is a DHCP Client, out-of-the-box auto update support is on the LAN Port). 4 Restart the access point. 5 While the access point boots up, verify the access point: ● Obtains and applies the expected IP Address from the DHCP Server ● Downloads the firmware and configuration files from the TFTP Server and updates both as required. Verify the file versions within the System Settings screen. NOTE If the firmware files are the same, the firmware will not get updated. If the configuration file name matches the last used configuration file on the access point or if the configuration file versions are the same, the access point configuration will not get updated. NOTE The update process is conducted over the LAN or WAN port depending on which Server responds first to the access point’s request for an automatic update. Altitude 3500 Series Access Point Product Reference Guide 580 DHCP Priorities The following flowchart indicates the priorities used by the access point when the DHCP server is configured for multiple options. ------------------------------------------------------------------------------------------- If the DHCP Server is configured for options 186 and 66 (to assign TFTP Server IP addresses) the access point uses the IP address configured for option 186. Similarly, if the DHCP Server is configured for options 187 and 67 (for the firmware file) the access point uses the file name configured for option 187. If the DHCP Server is configured for embedded and global options, the embedded options take precedence. Linux—BootP Server Configuration See the following sections for information on these BootP server configurations in the Linux environment: ● BootP Options on page 581 ● BootP Priorities on page 583 BootP Options This section contains instructions for the automatic update of the access point firmware and configuration file using a BootP Server. The setup example described in this section includes: ● 1 Altitude 3510 or Altitude 3550 model access point ● 1 Linux/Unix BOOTP Server ● 1 TFTP Server Altitude 3500 Series Access Point Product Reference Guide 581 To configure BootP options using a Linux/Unix BootP Server: 1 Set the Linux/Unix BootP Server and access point on the same Ethernet segment. 2 Configure the bootptab file (/etc/bootptab) on the Linux/Unix BootP Server in any one of the formats that follows: Using options 186, 187 and 188: AP35xx:ha=00a0f88aa6d8\ :sm=255.255.255.0\ :ip=157.235.93.128\ :gw=157.235.93.2\ :T186="157.235.93.250"\ :T187="apfw.bin"\ :T188="cfg.txt": <LAN MAC Address> <Subnet Mask> <IP Address> <gateway> <TFTP Server IP> <Firmware file> <Configuration file> Using options 66, 67 and 129: AP35xx:ha=00a0f88aa6d8\ :sm=255.255.255.0\ :ip=157.235.93.128\ :gw=157.235.93.2\ :T66="157.235.93.250"\ :T67="apfw.bin"\ :T129="cfg.txt": <LAN MAC Address> <Subnet Mask> <IP Address> <gateway> <TFTP Server IP> <Firmware file> <Configuration file> Using options sa, bf and 136: AP35xx:ha=00a0f88aa6d8\ :sm=255.255.255.0\ :ip=157.235.93.128\ :gw=157.235.93.2\ :sa=157.235.93.250\ :bf=/tftpboot/cfg.txt\ :T136="/tftpboot/": <LAN MAC Address> <Subnet Mask> <IP Address> <gateway> <TFTP Server IP> <Configuration file> <TFTP root directory> NOTE The bf option prefixes a forward slash (/) to the configuration file name. The forward slash may not be supported on Windows based TFTP Servers. 3 Copy the firmware and configuration files to the appropriate directory on the TFTP Server. By default, auto update is enabled on the access point (since the LAN Port is a DHCP Client, out-of-the-box auto update support is on the LAN Port). 4 Restart the access point. 5 While the access point boots, verify the access point: ● Sends a true BootP request. ● Obtains and applies the expected IP Address from the BootP Server. ● Downloads both the firmware and configuration files from the TFTP Server and updates them as required. Verify the file versions within the System Settings screen. Whenever a configuration file is specified, the access point will tftp the config file, parse it and use the firmware file name in the config file. If T136 is provided by the server, the access point strips off the TFTP root directory from the fully qualified configuration file name to obtain a relative file name. For example, if using bf=/opt/tftpdir/ftp/dist/ap.cfg and T136=”/opt/tftpdir”, the config file name is ftp/dist/ap.cfg. T136 is only used for this purpose. It is NOT used to append to the config file name Altitude 3500 Series Access Point Product Reference Guide 582 or the firmware file name. If T136 is not specified, the access point uses the entire bf field as the config file name. NOTE The update process is conducted over the LAN or WAN port depending on which Server responds first to the access point’s request for an automatic update. NOTE If the firmware files are the same, the firmware will not get updated. If the configuration file name matches the last used configuration file on the access point or if the configuration file versions are the same, the access point configuration will not get updated. The LAN Port needs to be configured as a BootP client. There's no BootP support on the WAN Port. The WAN supports only DHCP. BootP Priorities The following flowchart displays the priorities used by the access point when the BootP server is configured for multiple options: If the BootP Server is configured for options 186 and 66 (to assign TFTP server IP addresses) the access point uses the IP address configured for option 186. Similarly, if the BootP Server is configured for options 188 and 129 (for the configuration file) the AP uses the file name configured for option 188. Configuring an IPSEC Tunnel and VPN FAQs The access point has the capability to create a tunnel between an access point and a VPN endpoint. The access point can also create a tunnel from one access point to another access point. The following instruction assumes the reader is familiar with basic IPSEC and VPN terminology and technology: ● Configuring a VPN Tunnel Between Two Access Points on page 584 ● Configuring a Cisco VPN Device on page 586 ● Frequently Asked VPN Questions on page 587 Altitude 3500 Series Access Point Product Reference Guide 583 Configuring a VPN Tunnel Between Two Access Points The access point can connect to a non-AP device supporting IPSec, such as a Cisco VPN device—labeled as “Device #2”. For this usage scenario, the following components are required: ● 2 access points (either an Altitude 3510 or Altitude 3550 model) ● 1 PC on each side of the access point’s LAN. To configure a VPN tunnel between two access points: 1 Ensure the WAN ports are connected via the internet. 2 On access point #1, select WAN > VPN from the main menu tree. 3 Click Add to add the tunnel to the list. 4 Enter a tunnel name (tunnel names do not need to match). 5 Enter the WAN port IP address of AP #1 for the Local WAN IP. 6 Within the Remote Subnet and Remote Subnet Mask fields, enter the LAN IP subnet and mask of AP #2 /Device #2. 7 Enter the WAN port IP address of AP #2/ Device #2 for a Remote Gateway. 8 Click Apply to save the changes. Altitude 3500 Series Access Point Product Reference Guide 584 NOTE For this example, Auto IKE Key Exchange is used. Any key exchange can be used, depending on the security needed, as long as both devices on each end of the tunnel are configured exactly the same. 9 Select the Auto (IKE) Key Exchange radio button. 10 Select the Auto Key Settings button. 11 For the ESP Type, select ESP with Authentication and use AES 128-bit as the ESP encryption algorithm and MD5 as the authentication algorithm. Click OK. 12 Select the IKE Settings button. Altitude 3500 Series Access Point Product Reference Guide 585 13 Select Pre Shared Key (PSK) from the IKE Authentication Mode drop-down menu. 14 Enter a Passphrase. Passphrases must match on both VPN devices. NOTE Ensure the IKE authentication Passphrase is the same as the Pre-shared key on the Cisco PIX device. 15 Select AES 128-bit as the IKE Encryption Algorithm. 16 Select Group 2 as the Diffie -Hellman Group. Click OK. This will take you back to the VPN screen. 17 Click Apply to make the changes 18 Check the VPN Status screen. Notice the status displays “NOT_ACTIVE”. This screen automatically refreshes to get the current status of the VPN tunnel. Once the tunnel is active, the IKE_STATE changes from NOT_CONNECTED to SA_MATURE. 19 On access point #2/ Device #2, repeat the same procedure. However, replace access point #2 information with access point #1 information. 20 Once both tunnels are established, ping each side of the tunnel to ensure connectivity. Configuring a Cisco VPN Device This section includes general instructions for configuring a Cisco PIX Firewall 506 series device. Altitude 3500 Series Access Point Product Reference Guide 586 For the usage scenario described in this section, you will require the following: ● 1 Cisco VPN device ● 1 PC connected to the LAN side of the access point and the Cisco PIX. NOTE The Cisco PIX device configuration should match the access point VPN configuration in terms of Local WAN IP (PIX WAN), Remote WAN Gateway (access point WAN IP), Remote Subnet (access point LAN Subnet), and the Remote Subnet Mask. The Auto Key Settings and the IKE Settings on the Cisco PIX should match the access point Key and IKE settings. Below is how the access point VPN Status screen should look if the entire configuration is setup correctly once the VPN tunnel is active. The status field should display “ACTIVE”. Frequently Asked VPN Questions The following are common questions that arise when configuring a VPN tunnel. ● Question 1: Does the access point IPSec tunnel support multiple subnets on the other end of a VPN concentrator? Yes. The access point can access multiple subnets on the other end of the VPN Concentrator from the access point's Local LAN Subnet by: ● Creating multiple VPN Tunnels. The AP supports a maximum of 25 tunnels. ● When using the Remote Subnet IP Address with an appropriate subnet mask, the AP can access multiple subnets on the remote end. For example: If creating a tunnel using 192.168.0.0/16 for the Remote Subnet IP address, the following subnets could be accessed: 192.168.1.x 192.168.2.x 192.168.3.x, etc Altitude 3500 Series Access Point Product Reference Guide 587 ● Question 2: Even if a wildcard entry of “0.0.0.0” is entered in the Remote Subnet field in the VPN configuration page, can the AP access multiple subnets on the other end of a VPN concentrator for the AP’s LAN/WAN side? No. Using a “0.0.0.0” wildcard is an unsupported configuration. In order to access multiple subnets, the steps in Question #1 must be followed. ● Question 3: Can the AP be accessed via its LAN interface of AP#1 from the local subnet of AP#2 and vice versa? Yes. ● Question 4: Will the default “Manual Key Exchange” settings work without making any changes? No. Changes need to be made. Enter Inbound and Outbound ESP Encryption keys on both APs. Each one should be of 16 Hex characters (depending on the encryption or authentication scheme used). The VPN tunnel can be established only when these corresponding keys match. Ensure the Inbound/Outbound SPI and ESP Authentication Keys have been properly specified. ● Question 5: Can an IPSec tunnel over a PPPoE connection be established—such as a PPPoE enabled DSL link? Yes. The access point supports tunneling when using a PPPoE username and password. ● Question 6: Can I setup an access point so clients can access both the WAN normally and only use the VPN when talking to specific networks? Yes. Only packets that match the VPN Tunnel Settings will be sent through the VPN tunnel. All other packets will be handled by whatever firewall rules are set. ● Question 7: How do I specify which certificates to use for an IKE policy from the access point certificate manager? When generating a certificate to use with IKE, use one of the following fields: IP address, Domain Name, or Email address. Also, make sure you are using NTP when attempting to use the certificate manager. Certificates are time sensitive. Altitude 3500 Series Access Point Product Reference Guide 588 Configure the following on the IKE Settings page: Local ID type refers to the way that IKE selects a local certificate to use. ● IP—tries to match the local WAN IP to the IP addresses specified in a local certificate. ● FQDN—tries to match the user entered local ID data string to the domain name field of the certificate. ● UFQDN—tries to match the user entered local ID data string to the email address field of the certificate. Remote ID type refers to the way you identify an incoming certificate as being associated with the remote side. ● IP—tries to match the remote gateway IP to the IP addresses specified in the received certificate. ● FQDN—tries to match the user entered remote ID data string to the domain name field of the received certificate. ● UFQDN—tries to match the user entered remote ID data string to the email address field of the received certificate. ● Question 8: I am using a direct cable connection between my two VPN gateways for testing and cannot get a tunnel established, yet it works when I set them up across another network or router. Why? The packet processing architecture of the access point VPN solution requires the WAN default gateway to work properly. When connecting two gateways directly, you don't need a default gateway when the two addresses are on the same subnet. As a workaround, point the access point's WAN default gateway to be the other VPN gateway and vice-versa. ● Question 9: I have setup my tunnel and the status still says 'Not Connected'. What should I do now? Altitude 3500 Series Access Point Product Reference Guide 589 VPN tunnels are negotiated on an “as-needed” basis. If you have not sent any traffic between the two subnets, the tunnel will not get established. Once a packet is sent between the two subnets, the VPN tunnel setup occurs. ● Question 10: I still can't get my tunnel to work after attempting to initiate traffic between the two subnets. What now? Try the following troubleshooting tips: ● ● Verify you can ping each of the remote Gateway IP addresses from clients on either side. Failed pings can indicate general network connection problems. ● Pinging the internal gateway address of the remote subnet should run the ping through the tunnel as well. Allowing you to test, even if there are no clients on the remote end. ● Try re-setting the shared secret password on the access point. Question 11: My tunnel works fine when I use the LAN-WAN Access page to configure my firewall. Now that I use Advanced LAN Access, my VPN stops working. What am I doing wrong? VPN requires certain packets to be passed through the firewall. Subnet Access automatically inserts these rules for you when you do VPN. Advanced Subnet Access requires these rules to be in effect for each tunnel. ● ● ● An 'allow' inbound rule: Scr <Remote Subnet IP range> Dst <Local Subnet IP range> Transport ANY Scr port 1:65535 Dst port 1:65535 Rev NAT None An 'allow' outbound rule: Scr <Local Subnet IP range> Dst <Remote Subnet IP range> Transport ANY Scr port 1:65535 Dst port 1:65535 NAT None For IKE, an 'allow' inbound rule: Scr <Remote Subnet IP range> Dst <WAN IP address> Transport UDP Scr port 1:65535 Dst port 500 Rev NAT None These three rules should be configured above all other rules (default or user defined). When Advanced LAN Access is used, certain inbound/outbound rules need to be configured to control incoming/outgoing packet flow for IPSec to work properly (with Advanced LAN Access). These rules should be configured first before other rules are configured. Altitude 3500 Series Access Point Product Reference Guide 590 ● Question 12: Do I need to add any special routes on the access point to get my VPN tunnel to work? No. However, clients could need extra routing information. Clients on the local LAN side should either use the access point as their gateway or have a route entry tell them to use the access point as the gateway to reach the remote subnet. Altitude 3500 Series Access Point Product Reference Guide 591 Altitude 3500 Series Access Point Product Reference Guide 592 C Customer Support APPENDIX NOTE Services can be purchased from Extreme Networks or through one of its channel partners. If you are an end-user who has purchased service through an Extreme Networks channel partner, please contact your partner first for support. Extreme Networks Technical Assistance Centers (TAC) provide 24x7x365 worldwide coverage. These centers are the focal point of contact for post-sales technical and network-related questions or issues. TAC will create a Service Request (SR) number and manage all aspects of the SR until it is resolved. For a complete guide to customer support, see the Technical Assistance Center User Guide at: www.extremenetworks.com/go/TACUserGuide The Extreme Networks eSupport website provides the latest information on Extreme Networks products, including the latest Release Notes, troubleshooting, downloadable updates or patches as appropriate, and other useful information and resources. Directions for contacting the Extreme Networks Technical Assistance Centers are also available from the eSupport website at: https://esupport.extremenetworks.com Registration If you have not already registered this product with Extreme Networks, you can register on the Extreme Networks website at: http://www.extremenetworks.com/go/productregistration Documentation Check for the latest versions of documentation on the Extreme Networks documentation website at: http://www.extremenetworks.com/go/documentation Altitude 3500 Series Access Point Product Reference Guide 593 Altitude 3500 Series Access Point Product Reference Guide 594
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