Proxim ORiNOCO AP-700 User guide

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Proxim ORiNOCO AP-700 User guide | Manualzz

ORiNOCO AP-700 Access Point

User Guide

AP-700 User Guide

Copyright

© 2005 Proxim Corporation. All rights reserved. Covered by one or more of the following U.S. patents: 5,231,634; 5,875,179; 6,006,090;

5,809,060; 6,075,812; 5,077,753. This user’s guide and the software described in it are copyrighted with all rights reserved. No part of this publication may be reproduced, transmitted, transcribed, stored in a retrieval system, or translated into any language in any form by any means without the written permission of Proxim Corporation.

Trademarks

ORiNOCO is a registered trademark, and Proxim, and the Proxim logo are trademarks of Proxim Corporation.

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HyperTerminal is a registered trademark of HilGraeve, Incorporated.

Microsoft and Windows are a registered trademarks of Microsoft Corporation.

Netscape is a registered trademark of Netscape Communications Corporation.

SolarWinds is a registered trademark of SolarWinds.net.

All other trademarks mentioned herein are the property of their respective owners.

OpenSSL License Note

This product contains software developed by the OpenSSL Project for use in the OpenSSL Toolkit (http://www.openssl.org/) and that is subject to the following copyright and conditions:

Copyright (c) 1998-2002 The OpenSSL Project. All rights reserved.

The names "OpenSSL Toolkit" and "OpenSSL Project" must not be used to refer to, endorse, or promote the products or for any other purpose related to the products without prior written permission. For written permission, please contact [email protected].

This software is provided by the OpenSSL Project “as is” and any expressed or implied warranties, including, but not limited to, the implied warranties of merchantability and fitness for a particular purpose are disclaimed. In no event shall the OpenSSL Project or its contributors be liable for any direct, indirect, incidental, special, exemplary, or consequential damages (including, but not limited to, procurement of substitute goods or services; loss of use, data, or profits; or business interruption) however caused and on any theory of liability, whether in contract, strict liability, or tort (including negligence or otherwise) arising in any way out of the use of this software, even if advised of the possibility of such damage.

ORiNOCO AP-700 User Guide

Software v3.1

P/N 70856 August 2005

2

AP-700 User Guide

Contents

1 Introduction . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 9

Document Conventions . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 9

Introduction to Wireless Networking . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 9

Guidelines for Roaming. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 10

IEEE 802.11 Specifications . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 10

Management and Monitoring Capabilities . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 11

HTTP/HTTPS Interface . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 11

Command Line Interface . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 11

SNMP Management . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 12

SSH (Secure Shell) Management . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 12

2 Installation and Initialization . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 14

AP-700 Hardware Description. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 14

Overview. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 14

Antennas . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 15

Active Ethernet . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 16

LED Indicators . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 16

Prerequisites . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 17

Product Package . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 19

System Requirements . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 19

Hardware Installation. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 20

Required Materials . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 20

Cabling the AP-700 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 20

Installing the Security Cover. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 21

Mounting the AP-700 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 21

Installing External Antennas . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 22

Installing the AP in a Plenum . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 23

Initialization . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 24

Using ScanTool. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 24

Logging In. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 26

Using the Setup Wizard . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 27

Installing the Software . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 29

Related Topics. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 32

3 System Status . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 33

4 Advanced Configuration . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 34

System . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 36

Dynamic DNS Support . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 36

Network . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 38

3

Contents AP-700 User Guide

IP Configuration . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 38

DHCP Server . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 39

DHCP Relay Agent. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 41

Link Integrity . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 42

SNTP (Simple Network Time Protocol) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 43

Interfaces. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 46

Operational Mode . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 46

Wireless (802.11a/b/g Radio) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 49

Ethernet . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 56

Management . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 58

Passwords . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 58

IP Access Table . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 59

Services . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 59

Automatic Configuration (AutoConfig) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 65

Hardware Configuration Reset (CHRD) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 67

Filtering . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 70

Ethernet Protocol . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 70

Static MAC . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 70

Advanced . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 73

TCP/UDP Port . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 73

Alarms . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 75

Groups . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 75

Syslog. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 80

Rogue Scan . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 83

Bridge . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 87

Spanning Tree . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 87

Storm Threshold . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 88

Intra BSS . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 89

Packet Forwarding . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 89

QoS . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 90

Wireless Multimedia Extensions (WME)/Quality of Service (QoS). . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 90

Priority Mapping . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 92

Enhanced Distributed Channel Access (EDCA). . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 93

Radius Profiles . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 96

RADIUS Servers per Authentication Mode and per VLAN . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 96

Configuring Radius Profiles . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 97

MAC Access Control Via RADIUS Authentication . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 100

802.1x Authentication using RADIUS. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 100

RADIUS Accounting . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 100

SSID/VLAN/Security . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 103

VLAN Overview . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 103

4

Contents AP-700 User Guide

Management VLAN . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 105

Security Profile . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 106

MAC Access . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 113

Wireless . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 113

Broadcast SSID and Closed System . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 118

5 Monitoring . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 119

Version . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 120

ICMP . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 121

IP/ARP Table . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 121

Learn Table . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 122

IAPP . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 122

RADIUS. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 123

Interfaces. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 124

Station Statistics . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 127

6 Commands . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 129

Introduction to File Transfer via TFTP or HTTP . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 129

TFTP File Transfer Guidelines . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 130

HTTP File Transfer Guidelines . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 130

Image Error Checking During File Transfer . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 130

Update AP . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 131

Update AP via TFTP. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 131

Update AP via HTTP . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 132

Retrieve File . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 133

Retrieve File via TFTP . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 133

Retrieve File via HTTP . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 134

Reboot. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 136

Reset . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 136

Help Link . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 137

7 Troubleshooting . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 138

Troubleshooting Concepts. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 138

Symptoms and Solutions. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 138

Connectivity Issues. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 138

Basic Software Setup and Configuration Problems . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 139

Client Connection Problems . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 140

VLAN Operation Issues . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 141

Active Ethernet (AE) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 141

Recovery Procedures . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 142

Reset to Factory Default Procedure . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 142

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Contents AP-700 User Guide

Forced Reload Procedure . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 142

Setting IP Address using Serial Port . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 145

Related Applications . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 146

RADIUS Authentication Server. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 146

TFTP Server . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 146

A Command Line Interface (CLI). . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 148

General Notes . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 148

Prerequisite Skills and Knowledge . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 148

Notation Conventions . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 148

Important Terminology . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 148

Navigation and Special Keys . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 149

CLI Error Messages . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 149

Command Line Interface (CLI) Variations . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 150

Bootloader CLI . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 150

CLI Command Types. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 151

Operational CLI Commands . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 151

Parameter Control Commands. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 155

Using Tables and Strings. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 159

Working with Tables . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 159

Using Strings . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 159

Configuring the AP using CLI commands . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 160

Log into the AP using HyperTerminal . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 160

Log into the AP using Telnet. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 160

Set Basic Configuration Parameters using CLI Commands . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 160

Other Network Settings . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 164

CLI Monitoring Parameters . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 173

Parameter Tables . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 174

System Parameters . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 176

Network Parameters. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 177

Interface Parameters . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 180

Management Parameters . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 185

Filtering Parameters . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 190

Alarms Parameters. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 192

Bridge Parameters . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 194

RADIUS Parameters . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 196

Security Parameters . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 197

VLAN/SSID Parameters . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 198

Security Profile Table . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 198

Other Parameters . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 199

Wireless Multimedia Enhancements (WME)/Quality of Service (QoS) parameters . . . . . . . . . . . . . . . . . . . . . . . 199

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Contents AP-700 User Guide

CLI Batch File . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 201

Auto Configuration and the CLI Batch File . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 202

CLI Batch File Format and Syntax . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 202

Reboot Behavior. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 202

B ASCII Character Chart . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 204

C Specifications . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 205

Software Features . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 205

Number of Stations per BSS . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 205

Management Functions . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 205

Advanced Bridging Functions. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 206

Medium Access Control (MAC) Functions . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 206

Security Functions . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 206

Network Functions . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 207

Hardware Specifications . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 208

Physical Specifications . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 208

Electrical Specifications . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 208

Environmental Specifications . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 208

Ethernet Interface . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 208

Serial Port Interface . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 208

Active Ethernet Interface . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 208

Available Channels . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 209

RF Performance . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 210

D Technical Support. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 211

Online Support . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 211

Telephone Support . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 212

E Statement of Warranty . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 213

Warranty Coverage . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 213

Repair or Replacement . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 213

Limitations of Warranty . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 213

Support Procedures . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 213

Other Information . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 214

Search Knowledgebase . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 214

Ask a Question or Open an Issue. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 214

Other Adapter Cards . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 214

F Regulatory Compliance . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 215

Safety Information (USA, Canada, & European Union) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 216

Federal Communications Commission (FCC) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 217

Warnings. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 218

7

AP-700 User Guide

Caution: Exposure to Radio Frequency Radiation . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 218

Modifications . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 218

Industry Canada (IC) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 219

European Union . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 220

Regulatory Compliance Certifications Summary. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 221

8

Introduction

AP-700 User Guide

1

This chapter contains information on the following:

Document Conventions

Introduction to Wireless Networking

Guidelines for Roaming

IEEE 802.11 Specifications

Management and Monitoring Capabilities

Document Conventions

AP refers to an AP-700 Access Point.

802.11 is used to describe features that apply to the 802.11a, 802.11b, and 802.11g wireless standards.

• Blue underlined text indicates a link to a topic or Web address. If you are viewing this documentation on your computer, click the blue text to jump to the linked item.

• Text enclosed within triangle brackets, < >, should be replaced with a user-defined value.

• The following special notations are used:

NOTE: A note contains important information that helps you make better use of the AP or your computer.

CAUTION: A Caution indicates potential damage to hardware or loss of data.

WARNING: A Warning indicates imminent danger to hardware or loss of data.

Introduction to Wireless Networking

An Access Point extends the capability of an existing Ethernet network to devices on a wireless network. Wireless devices can connect to a single Access Point, or they can move between multiple Access Points located within the same vicinity. As wireless clients move from one coverage cell to another, they maintain network connectivity.

In a typical network environment (see Figure 1-1 ), the AP functions as a wireless network access point to data and voice networks. An AP network provides:

• Seamless client roaming for both data and voice (VoIP)

• Easy installation and operation

• Over-the-air encryption of data

• High speed network links

9

Introduction

Guidelines for Roaming

AP-700 User Guide

Figure 1-1 Typical Wireless Network Access Infrastructure

Guidelines for Roaming

• Typical voice network cell coverages vary based on environment. Proxim recommends having a site survey done professionally to ensure optimal performance. For professional site surveyors, Ekahau™ Site Survey software is included in the Xtras folder of the Installation CD.

• An AP can only communicate with client devices that support its wireless standard.

• All Access Points must have the same Network Name to support client roaming.

• All workstations with an 802.11 client adapter installed must use either a Network Name of “any” or the same Network

Name as the Access Points that they will roam between. If an AP has Closed System enabled, a client must have the same Network Name as the Access Point to communicate (see

Broadcast SSID and Closed System ).

• All Access Points and clients must have matching security settings to communicate.

• The Access Points’ cells should overlap to ensure that there are no gaps in coverage and to ensure that the roaming client will always have a connection available. To ensure optimal AP placement, Proxim recommends having a professional site survey done. To facilitate the automation of this placement, site surveyors may use the Ekahau™

Site Survey software included in the Xtras folder of the Installation CD.

• An 802.11a or 802.11b/g AP operates at faster data rates than the 802.11b AP. 802.11a and 802.11g products operate at speeds of up to 54 Mbits/sec; 802.11b products operate at speeds of up to 11 Mbits/sec.

• All Access Points in the same vicinity should use a unique, independent channel. By default, the AP automatically scans for available channels during boot-up but you can also set the channel manually (see

Interfaces

for details).

• Access Points that use the same channel should be installed as far away from each other as possible to reduce potential interference.

IEEE 802.11 Specifications

In 1997, the Institute of Electrical and Electronics Engineers (IEEE) adopted the 802.11 standard for wireless devices operating in the 2.4 GHz frequency band. This standard includes provisions for three radio technologies: direct sequence spread spectrum, frequency hopping spread spectrum, and infrared. Devices that comply with the 802.11 standard operate at a data rate of either 1 or 2 Megabits per second (Mbits/sec).

In 1999, the IEEE modified the 802.11 standard to support direct sequence devices that can operate at speeds of up to

11 Mbits/sec. The IEEE ratified this standard as 802.11b. 802.11b devices are backwards compatible with 2.4 GHz

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Introduction

Management and Monitoring Capabilities

AP-700 User Guide

802.11 direct sequence devices (that operate at 1 or 2 Mbits/sec). Available Frequency Channels vary by regulatory domain and/or country. See

Available Channels for details.

Also in 1999, the IEEE modified the 802.11 standard to support devices operating in the 5 GHz frequency band. This standard is referred to as 802.11a. 802.11a devices are not compatible with 2.4 GHz 802.11 or 802.11b devices. 802.11a radios use a radio technology called Orthogonal Frequency Division Multiplexing (OFDM) to achieve data rates of up to

54 Mbits/sec. Available Frequency Channels vary by regulatory domain and/or country. See Available Channels

for details.

In 2003, the IEEE introduced the 802.11g standard. 802.11g devices operate in the 2.4 GHz frequency band using

OFDM to achieve data rates of up to 54 Mbits/sec. In addition, 802.11g devices are backwards compatible with 802.11b

devices. Available Frequency Channels vary by regulatory domain and/or country. See Available Channels

for details.

Management and Monitoring Capabilities

There are several management and monitoring interfaces available to the network administrator to configure and manage an AP on the network:

HTTP/HTTPS Interface

Command Line Interface

SNMP Management

SSH (Secure Shell) Management

HTTP/HTTPS Interface

The HTTP Interface (Web browser Interface) provides easy access to configuration settings and network statistics from any computer on the network. You can access the HTTP Interface over your LAN (switch, hub, etc.), over the Internet, or with a “crossover” Ethernet cable connected directly to your computer’s Ethernet Port.

HTTPS provides an HTTP connection over a Secure Socket Layer. HTTPS is one of three available secure management options on the AP; the other secure management options are SNMPv3 and SSH. Enabling HTTPS allows the user to access the AP in a secure fashion using Secure Socket Layer (SSL) over port 443. The AP supports SSLv3 with a 128-bit encryption certificate maintained by the AP for secure communications between the AP and the HTTP client. All communications are encrypted using the server and the client-side certificate.

The AP comes pre-installed with all required SSL files: default certificate, private key and SSL Certificate Passphrase installed.

Command Line Interface

The Command Line Interface (CLI) is a text-based configuration utility that supports a set of keyboard commands and parameters to configure and manage an AP.

Users enter Command Statements, composed of CLI Commands and their associated parameters. Statements may be issued from the keyboard for real time control, or from scripts that automate configuration.

For example, when downloading a file, administrators enter the download CLI Command along with IP Address, file name, and file type parameters.

You access the CLI over a HyperTerminal serial connection or via Telnet. During initial configuration, you can use the CLI over a serial port connection to configure an Access Point’s IP address. When accessing the CLI via Telnet, you can communicate with the Access Point from over your LAN (switch, hub, etc.), from over the Internet, or with a “crossover”

Ethernet cable connected directly to your computer’s Ethernet Port. See Command Line Interface (CLI)

for more information on the CLI and for a list of CLI commands and parameters.

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Management and Monitoring Capabilities

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SNMP Management

In addition to the HTTP and the CLI interfaces, you can also manage and configure an AP using the Simple Network

Management Protocol (SNMP). Note that this requires an SNMP manager program, like HP Openview or Castlerock’s

SNMPc. The AP supports several Management Information Base (MIB) files that describe the parameters that can be viewed and/or configured over SNMP:

• MIB-II (RFC 1213)

• Bridge MIB (RFC 1493)

• Ethernet-like MIB (RFC 1643)

• 802.11 MIB

• ORiNOCO Enterprise MIB

Proxim provides these MIB files on the CD-ROM included with each Access Point. You need to compile one or more of the above MIBs into your SNMP program’s database before you can manage an Access Point using SNMP. See the documentation that came with your SNMP manager for instructions on how to compile MIBs.

The Enterprise MIB defines the read and read-write objects that can be viewed or configured using SNMP. These objects correspond to most of the settings and statistics that are available with the other management interfaces. See the

Enterprise MIB for more information; the MIB can be opened with any text editor, such as Microsoft Word, Notepad, or

WordPad.

SNMPv3 Secure Management

SNMPv3 is based on the existing SNMP framework, but addresses security requirements for device and network management.

The security threats addressed by Secure Management are:

Modification of information: An entity could alter an in-transit message generated by an authorized entity in such a way as to effect unauthorized management operations, including the setting of object values. The essence of this threat is that an unauthorized entity could change any management parameter, including those related to configuration, operations, and accounting.

Masquerade: Management operations that are not authorized for some entity may be attempted by that entity by assuming the identity of an authorized entity.

Message stream modification: SNMP is designed to operate over a connectionless transport protocol. There is a threat that SNMP messages could be reordered, delayed, or replayed (duplicated) to effect unauthorized management operations. For example, a message to reboot a device could be copied and replayed later.

Disclosure: An entity could observe exchanges between a manager and an agent and thereby could learn of notifiable events and the values of managed objects. For example, the observation of a set command that changes passwords would enable an attacker to learn the new passwords.

To address the security threats listed above, SNMPv3 provides the following when secure management is enabled:

• Authentication: Provides data integrity and data origin authentication.

• Privacy (a.k.a Encryption): Protects against disclosure of message payload.

• Access Control: Controls and authorizes access to managed objects.

The default SNMPv3 username is administrator, with SHA authentication, and DES privacy protocol.

SSH (Secure Shell) Management

You may securely also manage the AP using SSH (Secure Shell). The AP supports SSH version 2, for secure remote

CLI (Telnet) sessions. SSH provides strong authentication and encryption of session data.

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Management and Monitoring Capabilities

AP-700 User Guide

The SSH server (AP) has host keys - a pair of asymmetric keys - a private key that resides on the AP and a public key that is distributed to clients that need to connect to the AP. As the client has knowledge of the server host keys, the client can verify that it is communicating with the correct SSH server.

NOTE: The remainder of this guide describes how to configure an AP using the HTTP Web interface or the CLI interface.

For information on how to manage devices using SNMP or SSH, see the documentation that came with your

SNMP or SSH program. Also, see the MIB files for information on the parameters available via SNMP and SSH.

13

Installation and Initialization

AP-700 User Guide

2

This chapter contains information on the following:

AP-700 Hardware Description

Overview

Antennas

Active Ethernet

LED Indicators

Prerequisites

Product Package

System Requirements

Hardware Installation

Initialization

Using ScanTool

Logging In

Using the Setup Wizard

Installing the Software

Related Topics

AP-700 Hardware Description

Overview

The AP-700 is a tri-mode AP that supports 802.11b, 802.11g, or 802.11a clients.

The AP-700 contains one embedded 802.11a/b/g radio that supports the following operational modes:

• 802.11a only mode

• 802.11b only mode

• 802.11g only mode

• 802.11b/g mode

• 802.11g-wifi

NOTE: 802.11g-wifi has been defined for Wi-Fi testing purposes. It is not recommended for use in your wireless network environment.

NOTE: In countries in which 802.11a (5 GHz) is not available for use, the AP-700 provides dual-band (802.11b and

802.11g) support only. 802.11a functionality covered in this User Guide is not supported.

The AP-700 can be powered through either Active Ethernet (802.3af Power over Ethernet) or through an external DC power source using the power cord.

The AP-700 includes a a power jack, a 10/100 base-T Ethernet port, and an RS-232 serial data communication port. The

AP includes an optional security cover that can be installed to protect against access to the power and LAN cables and to the reset and reload buttons. See

Figure 2-1

.

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Installation and Initialization

AP-700 Hardware Description

AP-700 User Guide

Figure 2-1 Rear Panel

The AP-700 has been designed to rest horizontally on a flat surface, but can be wall- or ceiling- mounted with the long axis vertical. The unit includes screw slots in the bottom plastic for mounting to a flat wall or ceiling.

Antennas

The AP-700 employs two internal antennas for antenna diversity: one is vertically polarized, and the other is horizontally polarized to provide optimal spatial and polarization diversity. When the AP is hung on the wall of an office or building, the horizontally polarized antenna provides coverage for that particular floor level. The vertically polarized antenna provides spatial diversity for the horizontally polarized antenna in the event of an antenna null. In addition, the vertically polarized antenna provides some coverage above and below the current floor level. When the AP is mounted on the ceiling or sitting on a table, the effect is the same, but the roles of the two antennas switch.

The AP supports both receive and transmit diversity. When receiving, the AP chooses the antenna that recieves the strongest signal. When transmitting, the AP chooses the antenna with the highest success rate, and broadcasts are transmitted on alternating antennas.

Antenna diversity is enabled by default (set to “auto”). When using the internal antennas, Proxim recommends leaving antenna diversity disabled. However, you may disable antenna diversity by manually selecting which antenna to use through the Command Line Interface. See

Configure Antenna Diversity

for information.

External Antennas

The AP-700 also has two antenna connectors for use with external antennas.

Figure 2-2 AP-700 Antenna Connectors

When the AP is mounted on a wall, connector 1 corresponds to the horizontally polarized internal antenna, providing a coverage pattern parallel to the wall; connector 2 corresponds to the vertically polarized internal antenna, providing a coverage pattern parallel to the ceiling/floor. When the AP is mounted to a ceiling, connector 1 corresponds to the

15

Installation and Initialization

AP-700 Hardware Description

AP-700 User Guide vertically polarized internal antenna, and connector 2 corresponds to the horizontally polarized internal antenna. Plugging an external antenna in to the antenna connector disables the corresponding internal antenna.

The AP continues to support antenna diversity with external antennas connected. With one external antenna connected to one of the two antenna connectors, one internal antenna and one external antenna are used for antenna diversity. With two external antennas connected, both external antennas are used for antenna diversity, and both internal antennas are disabled.

With external antennas connected, you may wish to manually select a particular antenna for use. To do so, disable

antenna diversity by manually selecting which antenna to use through the Command Line Interface. See Configure

Antenna Diversity for information.

NOTE: Using two external antennas is not recommended.

For a list of recommended antennas, see http://www.proxim.com/products/wifi/accessories . For installation instructions, see

Installing External Antennas

.

Active Ethernet

The AP-700 is equipped with an 802.3af-compliant Active Ethernet module. Active Ethernet (AE) delivers both data and power to the access point over a single Ethernet cable. If you choose to use Active Ethernet, there is no difference in operation; the only difference is in the power source.

• The Active Ethernet (AE) integrated module receives ~48 VDC over a standard Category 5 Ethernet cable.

• To use Active Ethernet, you must have an AE hub (also known as a power injector) connected to the network.

• The cable length between the AE hub and the Access Point should not exceed 100 meters (approximately 325 feet).

The AE hub is not a repeater and does not amplify the Ethernet data signal.

• If connected to an AE hub and an AC power simultaneously, the Access Point draws power from Active Ethernet.

Also see

Hardware Specifications .

NOTE: The AP’s 802.3af-compliant Active Ethernet module is backwards compatible with all ORiNOCO Active Ethernet hubs that do not support the IEEE 802.3af standard.

LED Indicators

The top panel of the AP-700 has the following LED indicators.

Power Wireless

Interface

Ethernet

Figure 2-3 LED Indicators on the Top Panel

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Prerequisites

AP-700 User Guide

The LED indicators exhibit the following behavior:

Indication Power

Solid Green

Blinking Green

Solid Amber

AP image running.

n/a

The Bootloader is loading the application software.

Blinking Amber The AP is reloading.

Solid Red

Blinking Red

Power On Self Test (POST) running.

Rebooting.

Wireless Interface

(802.11a/b/g radio)

Wireless interface is preparing for use.

Wireless interface is transmitting or receiving wireless packets.

n/a n/a n/a

Ethernet

Ethernet interface is connected at 100 Mbps with no traffic.

Ethernet interface is connected at 100 Mbps with traffic.

Ethernet interface is connected at 10 Mbps with no traffic.

The Ethernet interface is connected at 10 Mbps with traffic.

n/a n/a n/a

Prerequisites

Before installing an AP-700, you need to gather certain network information. The following table identifies the information you need.

Network Name (SSID of the wireless cards)

AP’s IP Address

HTTP Password

CLI Password

SNMP Read Password

SNMP Read-Write Password

SNMPv3 Authentication

Password

SNMPv3 Privacy Password

Security Settings

Authentication Method

Authentication Server Shared

Secret

Authentication Server

Authentication Port

You must assign the Access Point a Network Name before wireless users can communicate with it. The clients also need the same Network Name. This is not the same as the System Name, which applies only to the Access Point. The network administrator typically provides the Network Name.

If you do not have a DHCP server on your network, then you need to assign the

Access Point an IP address that is valid on your network.

Each Access Point requires a read/write password to access the web interface. The default password is “public”.

Each Access Point requires a read/write password to access the CLI interface. The default password is “public”.

Each Access Point requires a password to allow get requests from an SNMP manager. The default password is “public”.

Each Access Point requires a password to allow get and set requests from an SNMP manager. The default password is “public”.

If Secure Management is enabled, each Access Point requires a password for sending authenticated SNMPv3 messages. The default password is “public”. The default

SNMPv3 username is administrator, with SHA authentication, and DES privacy protocol.

If Secure Management is enabled, each Access Point requires a password when sending encrypted SNMPv3 data. The default password is “public”.

You need to determine what security features you will enable on the Access Point.

A primary authentication server may be configured; a backup authentication server is optional. The network administrator typically provides this information.

This is a password shared between the Access Point and the RADIUS authentication server (so both passwords must be the same), and is typically provided by the network administrator.

This is a port number (default is 1812) and is typically provided by the network administrator.

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Installation and Initialization

Prerequisites

Client IP Address Pool

Allocation Scheme

DNS Server IP Address

Gateway IP Address and

Subnet Mask

AP-700 User Guide

The Access Point can automatically provide IP addresses to clients as they sign on.

The network administrator typically provides the IP Pool range.

The network administrator typically provides this IP Address.

The gateway IP address and subnet mask of the network environment where the

Access Point is deployed.

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Installation and Initialization

Product Package

AP-700 User Guide

Product Package

Each AP-700 comes with the following:

• AP-700 unit (with integrated 802.11a/b/g radio and Active Ethernet)

• Power adapter

• One ceiling or wall mounting plate

• Security cover

• One Installation CD-ROM that contains the following:

– Software Installation Wizard

– ScanTool

– MIBs

– User’s Guide in PDF format

– Xtras folder containing the following

• SolarWinds® TFTP software

• Ekahau™ Site Survey software

• Acrobat® Reader software

• One Quick Start Flyer

If any of these items are missing or damaged, please contact your reseller or Technical Support (see Technical Support

for contact information).

System Requirements

To begin using an AP, you must have the following minimum requirements:

• A 10Base-T Ethernet or 100Base-TX Fast Ethernet switch or hub or cross-over Ethernet cable

• At least one of the following IEEE 802.11-compliant devices:

– An 802.11a, 802.11b, or 802.11b/g client device

• A computer that is connected to the same IP network as the AP and has one of the following Web browsers installed:

– Microsoft® Internet Explorer 6 with Service Pack 1 or later and patch Q323308

– Netscape® 7.1 or later

(The computer is required to configure the AP using the HTTP interface.)

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Hardware Installation

Hardware Installation

AP-700 User Guide

NOTE:

Before installing and using this product, see the Regulatory Compliance section.

NOTE:

Avant l’installation et l’utilisation de ce produit, veuillez vous référer à la partie « Regulatory

Compliance

» (conformité aux réglementations).

NOTA:

Prima di installare ed utilizzare questo prodotto, fare riferimento alla sezione relativa alla “

Regulatory

Compliance

” (conformità alle norme).

ANMERKUNG:

Bitte lesen Sie vor der Installation und Verwendung dieses Produkts im Abschnitt „

Regulatory

Compliance

".

NOTA:

Antes de instalar y usar este producto, consulte la sección "

Regulatory Compliance ” (Cumplimiento

de la normativa).

注記 :

製品をインストールしてご使用になる前に、『 AP-700 User Guide (AP-700 ユーザー ガイド )』の

Regulatory Compliance

」セクションを参照し、使用許諾に関する重要な事項を確認してください .

Required Materials

• AP-700 unit

• Mounting bracket with screws

• Power adapter

• Security cover

Quick Start Flyer

Perform the following procedures to install the AP hardware:

Cabling the AP-700

Installing the Security Cover

Mounting the AP-700

Installing External Antennas

Cabling the AP-700

Connect cables to the AP as follows:

1. Provide power to the AP, as follows: a. Plug the power cord into the power jack (the left port) and connect the unit to an AC power outlet (100~240V,

50~60Hz).

b. If using Active Ethernet, connect power to the unit from a DC injector device, such as the ORiNOCO 1-Port Active

Ethernet DC Injector hub.

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Hardware Installation

AP-700 User Guide

2. Attach one end of an Ethernet cable to the AP's LAN port (the center port, labeled “LAN”) and the other end to a network hub or switch.

3. Optionally, connect an RS-232 cable to the RS-232 console port (the right port, labeled “RS-232”).

NOTE: You cannot install the security cover to the AP-700 if an RS-232 cable is connected.

Figure 2-4 Cabling the AP-700

4. Verify LED Status

5. When the AP-700 boots, it performs a series of self-tests.

6. Wait for the power LED to turn green before proceeding.

Installing the Security Cover

You can optionally install a security cover to deter unauthorized access to the AP-700. The security cover is a plastic cover that prevents access to the cabling and to the Reset and Reload buttons.

NOTE: You cannot connect an RS-232 cable to the AP-700 when a security cover is installed.

1. Slide the hinging end of the security cover into the hole on the rear panel of the AP-700 to the left of the connectors.

2. Use two screws to screw the right side of the security cover to the RS-232 screw holes on the rear panel of the

AP-700.

Mounting the AP-700

Proxim recommends that you have a site survey professionally conducted to determine the best location for the AP. For professional site surveyors, Ekahau Site Survey software is included in the Xtras folder on the Installation CD-ROM.

Once you have chosen a final location for your unit, mount the AP-700 to a wall, to a T-bar ceiling, or in a vehicle as follows:

Mounting the AP-700 to a Ceiling

1. Attach the mounting plate to the bottom of the AP-700 by lining up the keyholes and attaching it with two screws.

2. Snap the tabs onto the ceiling T-bar. Rotate the AP-700 until it snaps on to the T-bar.

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Hardware Installation

AP-700 User Guide

Figure 2-5 AP-700 Mounting Plate

Mounting the AP-700 to a Wall

1. Put the mounting plate up to the wall.

2. Screw through the mounting plate.

3. Place the AP up against the mounting plate. Orient the AP with the long access vertical, with the connectors facing to the left.

Installing External Antennas

You can optionally install external antennas on the AP-700. For information on the AP’s antenna functionality, see

Antennas .

Follow the mounting instructions included with your external antenna, and then connect the antenna cable to the AP, as follows:

1. Press down near the center of the compartment covering and slide open the external antenna access compartment.

The compartment closer to the LED panel contains the connectors.

NOTE: AP-700 models 8675-US2 and 8675-AU do not provide external antenna connectors .

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AP-700 User Guide

Figure 2-6 Opening the Antenna Compartment

2. There are two antenna connectors in the AP-700, labeled 1 and 2. Connect the antenna cable to connector 1 (the connector closer to the LED panel in the compartment).

Figure 2-7 AP-700 Antenna Connectors

3. If installing a second external antenna (not recommended), connect the antenna cable to connector 2.

4. Close the external antenna access compartment.

5. If desired, manually select which antenna(s) to use through the Command Line Interface. See

Configure Antenna

Diversity.

Installing the AP in a Plenum

In an office building, plenum is the space between the structural ceiling and the tile ceiling that is provided to help air circulate. Many companies also use the plenum to house communication equipment and cables. These products and cables must comply with certain safety requirements, such as Underwriter Labs (UL) Standard 2043: “Standard for Fire

Test for Heat and Visible Smoke Release for Discrete Products and Their Accessories Installed in Air-Handling Spaces”.

The AP-700 has been certified under UL Standard 2043 and can be installed in the plenum.

When installed in a plenum, the AP must use Active Ethernet.

23

Installation and Initialization

Initialization

AP-700 User Guide

Initialization

The following sections detail how to initialize the AP using ScanTool, log in to the HTTP interface, perform an initial configuration of the AP using the Setup Wizard, and download the required AP software.

Using ScanTool

Logging In

Using the Setup Wizard

Installing the Software

Using ScanTool

ScanTool is a software utility that is included on the installation CD-ROM. It is an initial configuration tool that allows you to find the IP address of an Access Point by referencing the MAC address in a Scan List, or to assign an IP address if one has not been assigned.

The tool automatically detects the Access Points installed on your network, regardless of IP address, and lets you configure each unit’s IP settings. In addition, you can use set initial device parameters that will allow the AP to retrieve a

new software to an AP that does not have a valid software image installed (see Client Connection Problems ).

To access the HTTP interface and configure the AP, the AP must be assigned an IP address that is valid on its Ethernet network. By default, the AP is configured to obtain an IP address automatically from a network Dynamic Host

Configuration Protocol (DHCP) server during boot-up. If your network contains a DHCP server, you can run ScanTool to find out what IP address the AP has been assigned. If your network does not contain a DHCP server, the Access Point’s

IP address defaults to 169.254.128.132. In this case, you can use ScanTool to assign the AP a static IP address that is valid on your network.

ScanTool Instructions

Follow these steps to install ScanTool and initialize the AP:

1. Locate the unit’s Ethernet MAC address and write it down for future reference. The MAC address is printed on the product label. Each unit has a unique MAC address, which is assigned at the factory.

2. Confirm that the AP is connected to the same LAN subnet as the computer that you will use to configure the AP.

3. Power up, reboot, or reset the AP.

The unit requests an IP Address from the network DHCP server.

4. Insert the Installation CD into the CD-ROM drive of the computer that you will use to configure the AP.

The installation program will launch automatically.

5. Follow the on-screen instructions to install the Access Point software and documentation.

NOTE: The ORiNOCO Installation program supports the following operating systems:

• Windows® 98SE

• Windows® 2000

• Windows® NT

• Windows® ME

• Windows® XP

6. After the software has been installed, double-click the ScanTool icon on the Windows desktop to launch the program

(if the program is not already running).

ScanTool scans the subnet and displays all detected Access Points. The ScanTool’s Scan List screen appears, as shown in the following example.

NOTE: If your computer has more than one network adapter installed, you will be prompted to select the adapter that

you want ScanTool to use before the Scan List appears. If prompted, select an adapter and click OK. You can

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AP-700 User Guide

change your adapter setting at any time by clicking the Select Adapter button on the Scan List screen. Note that the ScanTool Network Adapter Selection screen will not appear if your computer only has one network adapter installed.

Figure 2-8 Scan List

7. Locate the MAC address of the AP you want to initialize within the Scan List.

NOTE: If your Access Point does not show up in the Scan List, click the Rescan button to update the display. If the

unit still does not appear in the list, see Troubleshooting

for suggestions. Note that after rebooting an Access

Point, it may take up to five minutes for the unit to appear in the Scan List.

8. Do one of the following:

• If the AP has been assigned an IP address by a DHCP server on the network, write down the IP address and click

Cancel to close ScanTool. Proceed to the

Logging In

section for information on how to access the HTTP interface using this IP address.

• If the AP has not been assigned an IP address (in other words, the unit is using its default IP address,

169.254.128.132), follow these steps to assign it a static IP address that is valid on your network: a. Highlight the entry for the AP you want to configure.

b. Click the Change button.

The Change screen appears.

Figure 2-9 Scan Tool Change Screen c.

Set IP Address Type to Static .

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Installation and Initialization

Initialization

AP-700 User Guide d. Enter a static IP Address for the AP in the field provided. You must assign the unit a unique address that is valid on your IP subnet. Contact your network administrator if you need assistance selecting an IP address for the unit.

e. Enter your network’s Subnet Mask in the field provided.

f.

Enter your network’s Gateway IP Address in the field provided.

g. Enter the SNMP Read/Write password in the Read/Write Password field (for new units, the default SNMP

Read/Write password is “public”).

NOTE: The TFTP Server IP Address and Image File Name fields are only available if ScanTool detects that

the AP does not have a valid software image installed. See Client Connection Problems .

h. Click OK to save your changes.

i.

The Access Point will reboot automatically and any changes you made will take effect.

j.

When prompted, click OK a second time to return to the Scan List screen.

k. Click Cancel to close the ScanTool.

Logging In

Once the AP has a valid IP Address and an Ethernet connection, you may use your web browser to monitor and

configure the AP. (To configure and monitor using the command line interface, see Command Line Interface (CLI) .)

1. Open a Web browser on a network computer.

– The HTTP interface supports the following Web browsers:

• Microsoft® Internet Explorer 6 with Service Pack 1 or later

• Netscape® 7.1 or later

2. If necessary, disable the browser’s Internet proxy settings. For Internet Explorer users, follow these steps:

– Select Tools > Internet Options.

– Click the Connections tab.

– Click LAN Settings.

– If necessary, remove the check mark from the Use a proxy server box.

– Click OK twice to save your changes and return to Internet Explorer.

3. Enter the Access Point’s IP address in the browser’s Address field and press Enter or Go.

This is either the dynamic IP address assigned by a network DHCP server or the static IP address you manually configured. See

Using ScanTool for information on how to determine the unit’s IP address and manually configure a

new IP address, if necessary.

The Enter Network Password screen appears.

Figure 2-10 Enter Network Password

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Installation and Initialization

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AP-700 User Guide

4. Enter the HTTP password in the Password field. Leave the User Name field blank. For new units, the default HTTP password is public.

If you are logging on for the first time the Setup Wizard will launch automatically.

NOTE: To prevent the Setup Wizard from launching upon log in, click on Management > Services and choose

Disable from the Setup Wizard drop down menu.

5. Follow the steps below to configure the AP using the Setup Wizard (see Using the Setup Wizard ), or click Exit to

configure the system manually. Upon clicking Exit, the System Status screen will appear.

Figure 2-11 System Status Screen

The buttons on the left of the screen provide access to the monitoring and configuration options for the AP. See

Advanced Configuration to begin configuring the AP without using the Setup Wizard.

The Command Line Interface (CLI) also provides a method for monitoring and configuring the AP using Telnet or a

serial connection. For more information about monitoring and configuring the AP with the CLI, see Command Line

Interface (CLI)

.

Using the Setup Wizard

The first time you connect to an AP’s HTTP interface, the Setup Wizard launches automatically. The Setup Wizard provides step-by-step instructions for how to configure the Access Point’s basic operating parameters, such as Network

Name, IP parameters, system parameters, and management passwords.

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AP-700 User Guide

Figure 2-12 Setup Wizard

Setup Wizard Instructions

1. Click Setup Wizard to begin. The Setup Wizard supports the following navigation options:

Save & Next Button: Each Setup Wizard screen has a Save & Next button. Click this button to submit any changes you made to the unit’s parameters and continue to the next page. The instructions below describe how to navigate the Setup Wizard using the Save & Next buttons.

Navigation Panel: The Setup Wizard provides a navigation panel on the left-hand side of the screen. Click the link that corresponds to the parameters you want to configure to be taken to that particular configuration screen.

Note that clicking a link in the navigation panel will not submit any changes you made to the unit’s configuration on the current page.

Exit: The navigation panel also includes an Exit option. Click this link to close the Setup Wizard at any time.

CAUTION: If you exit from the Setup Wizard, any changes you submitted (by clicking the Save & Next button) up to that point will be saved to the unit but will not take effect until it is rebooted.

2. Configure the System Configuration settings and click Save & Next. See System

for more information.

3. Configure the Access Point’s Basic IP address settings, if necessary, and click Save & Next. See Basic IP

Parameters

for more information.

4. Assign the AP new passwords to prevent unauthorized access and click Save & Next. Each management interface has its own password:

• SNMP Read Password

• SNMP Read-Write Password

• CLI Password

• HTTP (Web) Password

By default, each of these passwords is set to “public”. See

Passwords for more information.

5. Configure the basic Wireless Interface Configuration settings:

• Select the Operational Mode as follows and click Save & Next:

— 802.11a only mode: The radio uses the 802.11a standard only.

— 802.11b mode only: The radio uses the 802.11b standard only.

— 802.11g mode only: The radio is optimized to communicate with 802.11g devices. This setting will provide the best results if this radio interface will only communicate with 802.11g devices.

— 802.11b/g mode: This is the default mode. Use this mode if you want to support a mix of 802.11b and 802.11g devices.

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— 802.11g-wifi: 802.11g-wifi has been defined for Wi-Fi testing purporses. It is not recommended for use in your wireless network environment.

NOTE: In countries in which 802.11a (5 GHz) is not available for use, the AirSPEED AP541 provides dual-band (802.11b and 802.11g) support only. 802.11a functionality covered in this User Guide is not supported.

In general, you should use either 802.11g only mode (if you want to support 802.11g devices only) or 802.11b/g mode to support a mix of 802.11b and 802.11g devices.

• Configure the following available options and click Save & Next:

Primary Network Name (SSID): Enter a Network Name (between 1 and 32 characters long) for the wireless network. You must configure each wireless client to use this name as well. Note that the AP-700 supports up

to 16 SSIDs and VLANs. Please see the Advanced Configuration

chapter for information on the detailed rules on configuring multiple SSIDs, VLANs, and security profiles.

NOTE: Do not use quotation marks (single or double) in the Network Name; this will cause the AP to misinterpret the name.

Auto Channel Select: By default, the AP scans the area for other Access Points and selects the best available communication channel, either a free channel (if available) or the channel with the least amount of interference. Remove the check mark to disable this option. See

Dynamic Frequency Selection/Radar

Detection (DFS/RD)

for information and Available Channels

for a list of available channels.

Frequency Channel: When Auto Channel Select is enabled, this field is read-only and displays the Access

Point’s current operating channel. When Auto Channel Select is disabled, you can specify the Access Point’s channel. If you decide to manually set the unit’s channel, ensure that nearby devices do not use the same

frequency. Available Channels vary based on regulatory domain. See Dynamic Frequency Selection/Radar

Detection (DFS/RD) for details more information and

Available Channels for a list of available channels.

Transmit Rate: Use the drop-down menu to select a specific transmit rate for the AP-700 radio. The Auto

Fallback feature allows the AP to select the best transmit rate based on the cell size.

— For 802.11a only mode, choose between 6, 9, 12, 18, 24, 36, 48, 54 Mbits/s, and Auto Fallback.

— For 802.11b only mode, choose between 1, 2, 5.5, 11 Mbits/s, and Auto Fallback.

— For 802.11g only mode, choose between 6, 9, 12, 18, 24, 36, 48, 54 Mbits/s, and Auto Fallback.

— For 802.11bg mode, choose between 1, 2, 5.5, 6, 9, 11, 12, 18, 24, 36, 48, 54 Mbits/sec, and Auto

Fallback.

— For 802.11g-wifi mode, choose between 6, 9, 12, 18, 24, 36, 48, 54 Mbits/s, and Auto Fallback.

NOTE: 802.11g-wifi has been defined for Wi-Fi testing purposes. It is not recommended for use in your wireless network environment.

Additional advanced settings are available in the Wireless Interface Configuration screen.See

Interfaces for details.

See Security Profile

for a description of security features, Management VLAN

for a description of VLAN capabilities, and

Configuring Security Profiles for detailed configuration procedures.

6. Review the configuration summary. If you want to make any additional changes, use the navigation panel on the left-hand side of the screen to return to an earlier screen. After making a change, click Save & Next to save the change and proceed to the next screen.

7. When finished, click Reboot on the Summary screen to restart the AP and apply your changes.

Installing the Software

Proxim periodically releases updated software for the AP on its Web site, http://support.proxim.com

(Knowledgebase

Answer ID 1686). Proxim recommends that you check the Web site for the latest updates after you have installed and initialized the unit.

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Download the Software

1. In your web browser, go to http://support.proxim.com.

2. If prompted, create an account to gain access.

NOTE: The Knowledgebase is available to all website visitors. First-time users will be asked to create an account to gain access.

3. Click Search Knowledgebase.

4. In the Search Knowledgebase field, enter 1686.

5. From the Search By drop-down menu, select Answer ID.

6. Click Search.

7. Click on the appropriate link to download the software.

8. Use the instructions in the following sections to install the new software.

Install Software with HTTP Interface

Use the Update AP via HTTP tab to update the AP with the latest software image.

1. Click Commands > Update AP > via HTTP.

Figure 2-13 Update AP via HTTP Command Screen

2. From the File Type drop-down menu, select Image.

3. Use the Browse button to locate or manually type in the name of the file (including the file extension) the file you downloaded from the Proxim Knowledgebase. If typing the file name, you must include the full path and the file extension in the file name text box.

4. To initiate the HTTP Update operation, click the Update AP button.

A warning message is displayed that advises the user that a reboot of the device will be required for changes to take effect.

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Figure 2-14 Warning Message

5. Click OK to continue with the operation or Cancel to abort the operation.

6. If the operation is unsuccessful, you will receive an error message. If this occurs, see the Troubleshooting

chapter or attempt installing the software with a TFTP server, as described in the next section.

7. If the operation is successful, you will receive a confirmation message. For installation changes to take effect, reboot the AP as follows:

• Click Commands > Reboot.

• Enter 0 in the Time to Reboot field.

• Click OK.

Install Software with TFTP Server

A Trivial File Transfer Protocol (TFTP) server allows you to transfer files across a network. You can upload files from the

AP for backup or copying, and you can download the files for configuration and AP Image upgrades. The Solarwinds

TFTP server software is located on the ORiNOCO AP Installation CD-ROM. You can also download the latest TFTP software from Solarwind’s Web site at http://www.solarwinds.net

.

NOTE: If a TFTP server is not available in the network, you can perform similar file transfer operations using the HTTP interface.See

Update AP via HTTP

.

After the TFTP server is installed:

• Check to see that TFTP is configured to point to the directory containing the AP Image.

• Make sure you have the proper TFTP server IP address, the proper AP Image file name, and that the TFTP server is operational.

• Make sure the TFTP server is configured to both Transmit and Receive files, with no automatic shutdown or time-out.

Three types of files can be downloaded to the AP from a TFTP server:

• Image (AP software image or kernel)

• Config (configuration file)

• BspBl (BSP/Bootloader firmware file)

Install Updates from your TFTP Server using the Web Interface

1. Download the latest software from http://support.proxim.com

(Knowledgebase Answer ID 1686). See Download the

Software for instructions).

2. Copy the latest software updates to your TFTP server.

3. In the Web Interface, click the Commands button and select the Download tab.

4. Enter the IP address of your TFTP server in the field provided.

5. Enter the File Name (including the file extension). Enter the full directory path and file name. If the file is located in the default TFTP directory, you need enter only the file name.

6. Select the File Type from the drop-down menu (use Img for software updates).

7. Select Download & Reboot from the File Operation drop-down menu.

8. Click OK. The Access Point will reboot automatically when the download is complete.

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Install Updates from your TFTP Server using the CLI

1. Download the latest software to http://support.proxim.com

(Knowledgebase Answer ID 1686). See

Download the

Software for instructions).

1. Copy the latest software updates to your TFTP server.

2. Open the CLI interface via Telnet or a serial connection.

3. Enter the CLI password when prompted.

4. Enter the command: download <tftpaddr> <filename> img

The download will begin, and the image will be downloaded to the Access Point.

5. When the download is complete, type reboot 0 and press Enter.

NOTE: See Command Line Interface (CLI)

for more information.

Related Topics

The Setup Wizard helps you configure the basic AP settings required to get the unit up and running. The AP supports many other configuration and management options. The remainder of this user guide describes these options in detail.

• See Advanced Configuration

for information on configuration options that are available within the Access Point’s

HTTP interface.

• See Monitoring

for information on the statistics displayed within the Access Point’s HTTP interface.

• See Commands

for information on the commands supported by the Access Point’s HTTP interface.

• See Troubleshooting

for troubleshooting suggestions.

• See Command Line Interface (CLI)

for information on the CLI interface and for a list of CLI commands.

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System Status

AP-700 User Guide

3

The first screen displayed after Logging In is the System Status screen. You can always return to this screen by clicking

the Status button.

Figure 3-1 System Status Screen

The System Status screen provides the following information:

System Status: This area provides system-level information, including the unit’s IP address and contact information.

See System

for information on these settings.

System Alarms: System traps (if any) appear in this area. Each trap identifies a specific severity level: critical, major, minor, and informational. See

Alarms

for a list of possible alarms.

From this screen, you can also access the AP’s monitoring and configuration options by clicking on the buttons on the left of the screen.

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4

This chapter contains information on configuring settings in the following categories:

System : Configure specific system information such as system name and contact information.

Network:

Configure IP, DNS client, DHCP server, DHCP Relay Agent, DHCP Relay Servers, Link Integrity, and SNTP settings.

Interfaces:

Configure the Access Point’s interfaces: Wireless and Ethernet settings. Configure the Channel Blacklist

Table

and a Wireless Distribution System (WDS)

.

Management:

Configure the Access Point’s management Passwords, IP Access Table, and Services such as configuring secure or restricted access to the AP via SNMPv3, HTTPS, or CLI. Configure Secure Management, SSL,

Secure Shell (SSH), and RADIUS Based Access Management. Set up Automatic Configuration for Static IP .

Filtering:

Configure Ethernet Protocol filters, Static MAC Address filters, Advanced filters, and Port filters.

Alarms:

Configure the Alarm (SNMP Trap) Groups, the Alarm Host Table, and the Syslog features.

Bridge:

Configure the Spanning Tree Protocol, Storm Threshold protection, Intra BSS traffic, and Packet Forwarding.

QoS : Configure Wireless Multimedia Enhancements/Quality of Service parameters and QoS policies.

Radius Profiles

: Configure RADIUS features such as RADIUS Access Control and Accounting.

SSID/VLAN/Security:

Configure SSIDs, VLANs, and security profiles. Configure security features such as MAC

Access Control, WPA, WEP Encryption, and 802.1x.

To configure the AP using the HTTP/HTTPS interface, you must first log in to a web browser. See

Logging In for

instructions.

You may also configure the AP using the command line interface. See Command Line Interface (CLI) for more

information.

To configure the AP via HTTP/HTTPS:

1. Click the Configure button located on the left-hand side of the screen.

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Figure 4-1 Configure Main Screen

2. Click the tab that corresponds to the parameter you want to configure. For example, click Network to configure the

Access Point’s TCP/IP settings.

Each Configure tab is described in the remainder of this chapter.

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System

You can configure and view the following parameters within the System Configuration screen:

Name: The name assigned to the AP. See the Dynamic DNS Support

and Access Point System Naming Convention

sections for rules on naming the AP.

Location: The location where the AP is installed.

Contact Name: The name of the person responsible for the AP.

Contact Email: The email address of the person responsible for the AP.

Contact Phone: The telephone number of the person responsible for the AP.

Object ID: This is a read-only field that displays the Access Point’s system object identification number; this information is useful if you are managing the AP using SNMP.

Ethernet MAC Address: This is a read-only field that displays the unique MAC (Media Access Control) address for the Access Point’s Ethernet interface. The MAC address is assigned at the factory.

Descriptor: This is a read-only field that reports the Access Point’s name, serial number, current image software version, and current bootloader software version.

Up Time: This is a read-only field that displays how long the Access Point has been running since its last reboot.

Figure 4-2 System Tab

Dynamic DNS Support

DNS is a distributed database mapping the user readable names and IP addresses (and more) of every registered system on the Internet. Dynamic DNS is a lightweight mechanism which allows for modification of the DNS data of host systems whose IP addresses change dynamically. Dynamic DNS is usually used in conjunction with DHCP for assigning meaningful names to host systems whose IP addresses change dynamically.

Access Points provide DDNS support by adding the host name (option 12) in DHCP Client messages, which is used by the DHCP server to dynamically update the DNS server.

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Access Point System Naming Convention

The Access Point's system name is used as its host name. In order to prevent Access Points with default configurations from registering similar host names in DNS, the default system name of the Access Point is uniquely generated. Access

Points generate unique system names by appending the last 3 bytes of the Access Point's MAC address to the default system name.

The system name must be compliant with the encoding rules for host name as per DNS RFC 1123. The DNS host name encoding rules are:

• Alphanumeric or hyphen characters are allowed.

• The name cannot start or end with a hyphen.

• The name cannot start with a digit.

• The number of characters has to be 63 or less. (Currently the system name length is limited to 32 bytes).

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Network

The Network tab contains the following sub-tabs:

IP Configuration

DHCP Server

DHCP Relay Agent

Link Integrity

SNTP (Simple Network Time Protocol)

AP-700 User Guide

IP Configuration

This tab is used to configure the internet (TCP/IP) settings for the access point.

These settings can be either entered manually (static IP address, subnet mask, and gateway IP address) or obtained automatically (dynamic).The DNS Client functionality can also be configured, so that host names used for configuring the access point can be resolved to their IP addresses.

Figure 4-3 IP Configuration Sub-tab

You can configure and view the following parameters within the IP Configuration sub-tab:

NOTE: You must reboot the Access Point in order for any changes to the Basic IP or DNS Client parameters to take effect.

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Basic IP Parameters

IP Address Assignment Type: Set this parameter to Dynamic to configure the Access Point as a Dynamic Host

Configuration Protocol (DHCP) client; the Access Point will obtain IP settings from a network DHCP server automatically during boot-up. If you do not have a DHCP server or if you want to manually configure the Access

Point’s IP settings, set this parameter to Static.

IP Address: The Access Point’s IP address. When IP Address Assignment Type is set to Dynamic, this field is read-only and reports the unit’s current IP address. The Access Point will default to 169.254.128.132 if it cannot obtain an address from a DHCP server.

Subnet Mask: The Access Point’s subnet mask. When IP Address Assignment Type is set to Dynamic, this field is read-only and reports the unit’s current subnet mask. The subnet mask will default to 255.255.0.0 if the unit cannot obtain one from a DHCP server.

Gateway IP Address: The IP address of the Access Point’s gateway. When IP Address Assignment Type is set to

Dynamic, this field is read-only and reports the IP address of the unit’s gateway. The gateway IP address will default to

169.254.128.133 if the unit cannot obtain an address from a DHCP server.

DNS Client

If you prefer to use host names to identify network servers rather than IP addresses, you can configure the AP to act as a

Domain Name Service (DNS) client. When this feature is enabled, the Access Point contacts the network’s DNS server to translate a host name to the appropriate network IP address. You can use this DNS Client functionality to identify

RADIUS servers by host name.

Enable DNS Client: Place a check mark in the box provided to enable DNS client functionality. Note that this option must be enabled before you can configure the other DNS Client parameters.

DNS Primary Server IP Address: The IP address of the network’s primary DNS server.

DNS Secondary Server IP Address: The IP address of a second DNS server on the network. The Access Point will attempt to contact the secondary server if the primary server is unavailable.

DNS Client Default Domain Name: The default domain name for the Access Point’s network (for example,

“proxim.com”). Contact your network administrator if you need assistance setting this parameter.

Advanced

Default TTL (Time to Live): Time to Live (TTL) is a field in an IP packet that specifies the number of hops, or servers in different locations, that the request can travel before returning a failed attempt message. The Access Point uses the default TTL for generated packets for which the transport layer protocol does not specify a TTL value. This parameter supports a range from 0 to 255. By default, TTL is 64.

DHCP Server

If your network does not have a DHCP Server, you can configure the AP as a DHCP server to assign dynamic IP addresses to Ethernet nodes and wireless clients.

CAUTION: Make sure there are no other DHCP servers on the network and do not enable the DHCP server without checking with your network administrator first, as it could disrupt normal network operation. Also, the AP must be configured with a static IP address before enabling this feature.

When the DHCP Server functionality is enabled, you can create one or more IP address pools from which to assign addresses to network devices.

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Figure 4-4 DHCP Server Configuration Screen

You can configure and view the following parameters within the DHCP Server Configuration screen:

NOTE: You must reboot the Access Point before changes to any of these DHCP server parameters take effect.

Enable DHCP Server: Place a check mark in the box provided to enable DHCP Server functionality.

NOTE: You cannot enable the DHCP Server functionality unless there is at least one IP Pool Table Entry configured.

Subnet Mask: This field is read-only and reports the Access Point’s current subnet mask. DHCP clients that receive dynamic addresses from the AP will be assigned this same subnet mask.

Gateway IP Address: The AP will assign the specified address to its DHCP clients.

Primary DNS IP Address: The AP will assign the specified address to its DHCP clients.

Secondary DNS IP Address: The AP will assign the specified address to its DHCP clients.

Number of IP Pool Table Entries: This is a read-only field that reports the number of entries in the IP Pool Table.

IP Pool Table Entry: This entry specifies a range of IP addresses that the AP can assign to its wireless clients. Click

Add to create a new entry. Click Edit to change an existing entry. Each entry contains the following field:

– Start IP Address

– End IP Address

Default Lease Time (optional): The default time value for clients to retain the assigned IP address. DHCP automatically renews IP Addresses without client notification. This parameter supports a range between 0 and

86400 seconds. The default is 86400 seconds.

Maximum Lease Time (optional): The maximum time value for clients to retain the assigned IP address. DHCP automatically renews IP Addresses without client notification. This parameter supports a range between 0 and

86400 seconds. The default is 86400 seconds.

– Comment (optional)

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Status: IP Pools are enabled upon entry in the table. You can also disable or delete entries by changing this field’s value.

NOTE: You must reboot the Access Point before changes to any of these DHCP server parameters take effect.

DHCP Relay Agent

When enabled, the DHCP relay agent forwards DHCP requests to the set DHCP server.

Click the Configure > Network > DHCP R A to configure DHCP relay agent servers and enable the DHCP relay agent.

NOTE: At least one DHCP server must be enabled before DHCP Relay Agent can be enabled.

The DHCP Relay functionality of the AP supports Option 82 and sends the system name of the AP (as a NAS identifier) as a sub-option of Option 82.

The AP makes a DHCP Request for lease renewal five minutes ahead of the expiration of the Rebinding time as specified in the DHCP Offer from the DHCP server obtained during the last renewal.

Figure 4-5 DHCP Relay Agent

DHCP Server IP Address Table

The AP supports the configuration of a maximum of 10 server settings in the DHCP Relay Agents server table. At least one server must be configured to enable DHCP Relay.

To add entries to the table of DHCP Relay Agents, click Add in the DHCP Server IP Address Table; to edit existing entries, click Edit. The following window is displayed.

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Figure 4-6 DHCP Server IP Address Table - Edit Entries

To add an entry, enter the IP Address of the DHCP Server and a comment (optional), and click OK.

To edit an entry, make changes to the appropriate entry. Enable or disable the entry by choosing Enable or Disable from the Status drop-down menu, and click OK.

Link Integrity

The Link Integrity feature checks the link between the AP and the nodes on the Ethernet backbone. These nodes are listed by IP address in the Link Integrity IP Address Table. The AP periodically pings the nodes listed within the table. If the AP loses network connectivity (that is, the ping attempts fail), the AP disables its wireless interface(s). Note that this feature does not affect WDS links (if WDS links are configured and enabled).

You can configure and view the following parameters within the Link Integrity Configuration screen:

Enable Link Integrity: Place a check mark in the box provided to enable Link Integrity.

Poll Interval (milliseconds): The interval between link integrity checks. Range is 500-15000 ms in increments of

500 ms; default is 500 ms.

Poll Retransmissions: The number of times a poll should be retransmitted before the link is considered down.

Range is 0 to 255; default is 5.

Target IP Address Entry: This entry specifies the IP address of a host on the network that the AP will periodically poll to confirm connectivity. The table can hold up to five entries. By default, all five entries are set to 0.0.0.0. Click Edit to update one or more entries. Each entry contains the following field:

– Target IP Address

– Comment (optional)

Status: Set this field to Enable to specify that the Access Point should poll this device. You can also disable an entry by changing this field’s value to Disable.

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Figure 4-7 Link Integrity Configuration Screen

SNTP (Simple Network Time Protocol)

SNTP allows a network entity to communicate with time servers in the network/internet to retrieve and synchronize time of day information. When this feature is enabled, the AP will attempt to retrieve the time of day information from the configured time servers (primary or secondary), and, if successful, will update the relevant time objects in the AP.

Requests are sent every 10 seconds. If the AP fails to retrieve the information after three attempts, the AP will use the system uptime and update the relevant time objects. If this feature is disabled, the user can manually configure the date and time parameters.

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Figure 4-8 SNTP Configuration Screen

You can configure and view the following parameters within the SNTP screen:

SNTP Status: Select Enable or Disable from the drop-down menu. The selected status will determine which of the parameters on the SNTP screen are configurable.

NOTE: When SNTP is enabled, it will take some time for the AP to retrieve the time of day from the configured time servers and update the relevant date and time parameters.

Addressing Format: If SNTP is enabled, choose whether you will use the host name or the IP address to configure the primary/secondary SNTP servers. If these servers are configured with the host name, the DNS client feature must be enabled and configured properly.

Primary Server Name or IP Address: If SNTP is enabled, enter the host name or IP address of the primary SNTP server.

Secondary Server Name or IP Address: If SNTP is enabled, enter the host name or IP address of the secondary

SNTP server.

• Time Zone: Select the appropriate time zone from the drop down menu.

Daylight Savings Time: Select the number of hours to adjust for daylight savings time.

Time and Date Information: When SNTP is disabled, the following time-relevant objects are manually configurable.

When SNTP is enabled, these objects are grayed out:

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– Year: Enter the current year.

– Month: Enter the month in digits (1-12).

– Day: Enter the day in digits (1-31).

– Hour: Enter the hour in digits (0-23).

– Minutes: Enter the minutes in digits (0-59).

– Seconds: Enter the seconds in digits (0-59).

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Interfaces

From the Interfaces tab, you configure the Access Point’s operational mode settings, power control settings, wireless interface settings and Ethernet settings. You may also configure a Wireless Distribution System for AP-to-AP communications. The Interfaces tab contains the following sub-tabs:

Operational Mode

Wireless (802.11a/b/g Radio)

Ethernet

Operational Mode

From this tab, you can configure and view the operational mode for the Wireless interface.

Figure 4-9 Operational Mode Screen

The Wireless (802.11a/b/g) interface can be configured to operate in the following modes:

802.11a only mode: The radio uses the 802.11a standard only.

802.11b mode only: The radio uses the 802.11b standard only.

802.11g mode only: The radio is optimized to communicate with 802.11g devices. This setting will provide the best results if this radio interface will only communicate with 802.11g devices.

802.11b/g mode: This is the default mode. Use this mode if you want to support a mix of 802.11b and 802.11g devices.

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802.11g-wifi mode: The 802.11g-wifi mode has been defined for Wi-Fi testing purporses. It is not recommended for use in your wireless network environment.

NOTE: In countries in which 802.11a (5 GHz) is not available for use, the AP-700 provides dual-band (802.11b and

802.11g) support only. 802.11a functionality covered in this User Guide is not supported.

In general, you should use either 802.11g only mode (if you want to support 802.11g devices only) or 802.11b/g mode to support a mix of 802.11b and 802.11g devices.

Super Mode and Turbo Mode

Super mode improves throughput between the access point and wireless clients that support this capability. For wireless clients that support this capability the AP will negotiate and treat them accordingly, for other clients that do not support super mode, the AP will treat them as normal wireless clients.

Super mode can be configured only when the wireless operational mode is one of the following:

• 802.11a only mode

• 802.11g only mode

• 802.11b/g mode

NOTE: Super mode and Turbo mode are not available in operational modes 802.11b and 802.11g-wifi.

Dynamic Turbo mode is supported in 802.11a and 802.11g mode. Dynamic turbo mode supports turbo speeds at twice the standard 802.11a/g data rates, and also dynamically switches between turbo mode speeds and normal speeds depending on the wireless client. If turbo mode is enabled, then this is displayed in the web UI and the transmit speeds and channels pull-down menus are updated with the valid values.

When Turbo mode is enabled, only a subset of the wireless channels on both the 2.4 GHz and 5.0 GHz spectrum can be used. If any wireless clients do not support turbo mode, the AP will fall back to normal mode.

Turbo mode can be configured only when Super mode has already been enabled.

Super mode in 802.11a and 802.11g, and Turbo mode in 802.11g are supported in all regulatory domains. Turbo mode in

802.11a is available in all regulatory domains except Japan.

IEEE 802.11d Support for Additional Regulatory Domains

The IEEE 802.11d specification allows conforming equipment to operate in more than one regulatory domain over time.

IEEE 802.11d support allows the AP to broadcast its radio’s regulatory domain information in its beacon and probe responses to clients. This allows clients to passively learn what country they are in and only transmit in the allowable spectrum. When a client enters a regulatory domain, it passively scans to learn at least one valid channel, i.e., a channel upon which it detects IEEE Standard 802.11 frames.

The beacon frame contains information on the country code, the maximum allowable transmit power, and the channels to be used for the regulatory domain.

The same information is transmitted in probe response frames in response to a client’s probe requests. Once the client has acquired the information required to meet the transmit requirements of the regulatory domain, it configures itself for operation in the regulatory domain.

The Wireless NIC determines the regulatory domain the AP is operating in. If the AP has dual Wireless NICs, the NIC in

Slot A determines the regulatory domain. Depending on the regulatory domain, a default country code is chosen that is transmitted in the beacon and probe response frames.

Configuring 802.11d Support

Perform the following procedure to enable 802.11d support and select the country code:

1. Click Configure > Interfaces > Operational Mode.

2. Select Enable 802.11d.

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3. Select the Country Code from the ISO/IEC 3166-1 CountryCode drop-down menu.

4. Click OK.

5. Configure Transmit Power Control and transmit power level if required.

AP-700 User Guide

TX Power Control/Transmit Power Level

Transmit Power Control uses standard 802.11d frames to control transmit power within an infrastructure BSS. This method of power control is considered to be an interim way of controlling the transmit power of 802.11d enabled clients in lieu of implementation of 802.11h.

The Transmit Power Control feature lets the user configure the transmit power level of the wireless interface at one of four levels:

• 100% of the maximum transmit power level defined by the regulatory domain

• 50%

• 25%

• 12.5%

When Transmit Power Control is enabled, the transmit power level of the card in the AP is set to the configured transmit power level. The power level is advertised in Beacon and Probe Response frames as the 802.11d maximum transmit power level.

When an 802.11d-enabled client learns the regulatory domain related information from Beacon and Probe Response frames, it learns the power level advertised in Beacon and Probe response frames as the maximum transmit power of the regulatory domain and configures itself to operate with that power level.

As a result, the transmit power level of the BSS is configured to the power level set in the AP (assuming that the BSS has only 802.11d enabled clients and an 802.11d enabled AP).

Configuring TX Power Control

1. Click Configure > Interfaces > Operational Mode.

2. Select Enable Transmit Power Control.

3. Select the transmit power level for the wireless interface from the Wireless-A: Transmit Power Level drop-down menu.

4. Click OK.

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Advanced Configuration

Interfaces

Wireless (802.11a/b/g Radio)

AP-700 User Guide

Figure 4-10 Wireless Interface

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You can view and configure the following parameters for the Wireless interface:

NOTE: You must reboot the Access Point before any changes to these parameters take effect.

Physical Interface Type: Depending on the Operational Mode, this field reports:

– For 802.11a mode: “802.11a (OFDM 5 GHz).”

NOTE: In countries in which 802.11a (5 GHz) is not available for use, the AP-700 provides dual-band (802.11b and 802.11g) support only. 802.11a functionality covered in this User Guide is not supported.

– For 802.11b mode only: "802.11b (DSSS 2.4 GHz)"

– For 802.11g mode: "802.11g (OFDM/DSSS 2.4 GHz)"

– For 802.11b/g mode: "802.11g (OFDM/DSSS 2.4 GHz)"

– For 802.11g-wifi mode: "802.11g (OFDM/DSSS 2.4 GHz)"

NOTE: 802.11g-wifi has been defined for Wi-Fi testing purposes. It is not recommended for use in your wireless network environment.

OFDM stands for Orthogonal Frequency Division Multiplexing; this is the name for the radio technology used by

802.11a devices. DSSS stands for Direct Sequence Spread Spectrum; this is the name for the radio technology used by 802.11b devices.

MAC Address: This is a read-only field that displays the unique MAC (Media Access Control) address for the Access

Point’s wireless interface. The MAC address is assigned at the factory.

Regulatory Domain: Reports the regulatory domain for which the AP is certified. Not all features or channels are available in all countries.

Network Name (SSID): Enter a Network Name (between 1 and 32 characters long) for the primary wireless network.

You must configure each wireless client using this network to use this name as well. Additional SSIDs and VLANs may be configured under Configure > SSID/VLAN/Security. Up to 16 SSID/VLANs may be configured.

NOTE: Do not use quotation marks (single or double) in the Network Name; this will cause the AP to misinterpret the name.

Auto Channel Select: The AP scans the area for other Access Points and selects a free or relatively unused communication channel. This helps prevent interference problems and increases network performance. By default

this feature is enabled. See Dynamic Frequency Selection/Radar Detection (DFS/RD) for more information and

Available Channels for a list of available channels.

Frequency Channel: When Auto Channel Select is enabled, this field is read-only and displays the Access Point’s current operating Channel. When Auto Channel Select is disabled, you can specify the Access Point’s operating channel. If you decide to manually set the unit’s Channel, ensure that nearby devices do not use the same frequency

(unless you are setting up WDS links). Available channels vary based on regulatory domain. See

Dynamic Frequency

Selection/Radar Detection (DFS/RD)

for more information and Available Channels

for a list of available channels.

Transmit Rate: Use the drop-down menu to select a specific transmit rate for the AP. The values depend on the

Operational mode. Auto Fallback is the default setting; it allows the AP unit to select the best transmit rate based on the cell size.

– For 802.11a only -- Auto Fallback, 6, 9, 12, 18, 24, 36, 48, 54 Mbits/s.

NOTE: In countries in which 802.11a (5 GHz) is not available for use, the AP-700 provides dual-band (802.11b and 802.11g) support only. 802.11a functionality covered in this User Guide is not supported.

– For 802.11b only -- Auto Fallback, 1, 2, 5.5, 11 Mbits/sec.

– For 802.11g only -- Auto Fallback, 6, 9, 12, 18, 24, 36, 48, 54 Mbits/sec

– For 802.11b/g -- Auto Fallback, 1, 2, 5.5, 6, 9, 11, 12, 18, 24, 36, 48, 54 Mbits/sec

– For 802.11g-wifi -- Auto Fallback, 1, 2, 5.5, 6, 9, 11, 12, 18, 24, 36, 48, 54 Mbits/sec

NOTE: 802.11g-wifi has been defined for Wi-Fi testing purposes. It is not recommended for use in your wireless network environment.

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NOTE: Turbo mode is supported in 802.11a and 802.11g mode. If turbo mode is enabled, then this is displayed in the web UI and the transmit speeds and channels pull-down menus are updated with the valid values.

DTIM Period: The Deferred Traffic Indicator Map (DTIM) Period determines when to transmit broadcast and multicast packets to all clients. If any clients are in power save mode, packets are sent at the end of the DTIM period. This parameter supports a range between 1 and 255; it is recommended to leave the DTIM at its default value unless instructed by technical support. Higher values conserve client battery life at the expense of network performance for broadcast or multicast traffic.

RTS/CTS Medium Reservation: This parameter affects message flow control and should not be changed under normal circumstances. Range is 0 to 2347. When set to a value between 0 and 2347, the Access Point uses the

RTS/CTS mechanism for packets that are the specified size or greater. When set to 2347 (the default setting),

RTS/CTS is disabled. See

RTS/CTS Medium Reservation

for more information.

Enable Closed System: When enabled, the AP will not respond to probe requests from client stations requesting

“ANY.” Enabling closed system will require the client station to configure the SSID of the AP manually.

Wireless Service Status: Select Shutdown to shutdown the wireless service on a wireless interface, or resume to resume wireless service. See

Wireless Service Status

for more information.

Load Balancing Max Clients: Load balancing distributes clients among available access points. Enter a number between 1 and 63 to specify the maximum number of clients to allow.

Channel Blacklist Table: The Channel Blacklist table contains all available channels. It can be used to manually blacklist channels, and it also reflects channels that have been automatically blacklisted by the

Dynamic Frequency

Selection/Radar Detection (DFS/RD) function. See

Channel Blacklist Table for configuration information.

Wireless Distribution System: A Wireless Distribution system can be used to establish point-to-point (i.e. wireless backhaul) connections with other access points. See

Wireless Distribution System (WDS) for configuration

information.

Dynamic Frequency Selection/Radar Detection (DFS/RD)

In order to prevent interference with radar systems and other devices that occupy the 5 GHz band, 802.11a APs certified in the ETSI (Europe) regulatory domain (see Affected Countries ) and operating in the middle frequency band select an operating channel through a combination of Auto Channel Select (ACS) and Dynamic Frequency Selection (DFS)/Radar

Detection (RD).

During boot-up, ACS scans the available channels and selects the best channel. Once a channel is selected, the AP performs a channel availability check for 60 seconds to ensure that there is no radar on the channel and then commences normal operation. When the AP enters normal operation, DFS works in the background to detect radar interference on that channel.

If interference is detected, the AP sends a trap, disassociates all clients, blacklists the channel, and reboots. After it reboots, ACS re-scans and selects a better channel that is free of interference.

If ACS is disabled, only channels in the lower frequency band are available for use:

• 36: 5.18 GHz (default)

• 40: 5.200 GHz

• 44: 5.220 GHz

• 48: 5.240 GHz

Affected Countries

The following countries are certified in the ETSI regulatory domain for operation in the 5 GHz band:

– Austria

– Belgium

– Brazil

– Cyprus

– Denmark

– Greece

– Iceland

– Ireland

– Italy

– Latvia

– Norway

– Poland

– Portugal

– Saudi Arabia

– Spain

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– Estonia

– Finland

– France

– Germany

– Lithuania

– Luxembourg

– Malta

– Netherlands

– Sweden

– Switzerland

– UK

RTS/CTS Medium Reservation

The 802.11 standard supports optional RTS/CTS communication based on packet size. Without RTS/CTS, a sending radio listens to see if another radio is already using the medium before transmitting a data packet. If the medium is free, the sending radio transmits its packet. However, there is no guarantee that another radio is not transmitting a packet at the same time, causing a collision. This typically occurs when there are hidden nodes (clients that can communicate with the Access Point but are out of range of each other) in very large cells.

When RTS/CTS occurs, the sending radio first transmits a Request to Send (RTS) packet to confirm that the medium is clear. When the receiving radio successfully receives the RTS packet, it transmits back a Clear to Send (CTS) packet to the sending radio. When the sending radio receives the CTS packet, it sends the data packet to the receiving radio. The

RTS and CTS packets contain a reservation time to notify other radios (including hidden nodes) that the medium is in use for a specified period. This helps to minimize collisions. While RTS/CTS adds overhead to the radio network, it is particularly useful for large packets that take longer to resend after a collision occurs.

RTS/CTS Medium Reservation is an advanced parameter and supports a range between 0 and 2347 bytes. When set to

2347 (the default setting), the RTS/CTS mechanism is disabled. When set to 0, the RTS/CTS mechanism is used for all packets. When set to a value between 0 and 2347, the Access Point uses the RTS/CTS mechanism for packets that are the specified size or greater. You should not need to enable this parameter for most networks unless you suspect that the wireless cell contains hidden nodes.

Wireless Service Status

The user can shut down (or resume) the wireless service on the wireless interface of the AP through the CLI, HTTP, or

SNMP interface. When the wireless service on a wireless interface is shut down, the AP will:

• Stop the AP services to wireless clients connected on that wireless interface by disassociating them

• Disable the associated BSS ports on that interface

• Disable the transmission and reception of frames on that interface

• Indicate the wireless service shutdown status of the wireless interface through LED and traps

• Enable Ethernet interface so that it can receive a wireless service resume command through CLI/HTTP/SNMP interface

NOTE: WSS disables BSS ports.

NOTE: The wireless service cannot be shutdown on an interface where Rogue Scan is enabled.

In shutdown state, AP will not transmit and receive frames from the wireless interface and will stop transmitting periodic beacons. Moreover, none of the frames received from the Ethernet interface will be forwarded to that wireless interface.

Wireless service on a wireless interface of the AP can be resumed through CLI/HTTP/SNMP management interface.

When wireless service on a wireless interface is resumed, the AP will:

• Enable the transmission and reception of frames on that wireless interface

• Enable the associated BSS port on that interface

• Start the AP services to wireless clients

• Indicate the wireless service resume status of the wireless interface through LED and traps

After wireless service resumes, the AP resumes beaconing, transmitting and receiving frames to/from the wireless interface and bridging the frames between the Ethernet and the wireless interface.

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Traps Generated During Wireless Service Shutdown (and Resume)

The following traps are generated during wireless service shutdown and resume, and are also sent to any configured

Syslog server.

When the wireless service is shut down on a wireless interface, the AP generates a trap called

oriTrapWirelessServiceShutdown.

When the wireless service is resumed on a wireless interface, the AP generate a trap called

oriTrapWirelessServiceResumed.

Channel Blacklist Table

The Channel Blacklist table contains all available channels (channels vary based on regulatory domain). It can be used to

manually blacklist channels, and it also reflects channels that have been automatically blacklisted by the Dynamic

Frequency Selection/Radar Detection (DFS/RD)

function. In the ETSI (Europe) regulatory domain, channels are blacklisted automatically when radar is detected; when a channel has been automatically blacklisted, the Radar Detected status is set to True, and the channel will remain remain blacklisted for 30 minutes. Additionally, an administrator can blacklist channels manually to prevent their being used when ACS is enabled. To blacklist a channel manually:

1. Click on Configure > Interfaces > Wireless.

2. Scroll down to the Channel Blacklist heading.

Figure 4-11 Channel Blacklist Table

3. Click Edit in the Channel Blacklist Table

4. Set Blacklist Status to Enable.

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Figure 4-12 Channel Blacklist Table - Edit Screen

Wireless Distribution System (WDS)

A Wireless Distribution System (WDS) creates a link between two 802.11a, 802.11b, or 802.11b/g APs over their radio interfaces. This link relays traffic from one AP that does not have Ethernet connectivity to a second AP that has Ethernet connectivity. WDS allows you to configure up to six (6) ports per radio.

In the WDS example below, AP 1 and AP 2 communicate over a WDS link (represented by the blue line). This link provides Client 2 with access to network resources even though AP 2 is not directly connected to the Ethernet network.

Packets destined for or sent by the client are relayed between the Access Points over the WDS link.

Figure 4-13 WDS Example

Bridging WDS

Each WDS link is mapped to a logical WDS port on the AP. WDS ports behave like Ethernet ports rather than like standard wireless interfaces: on a BSS port, an Access Point learns by association and from frames; on a WDS or

Ethernet port, an Access Point learns from frames only. When setting up a WDS, keep in mind the following:

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• There are separate security settings for clients and WDS links. The same WDS link security mode must be configured

(currently we only support none or WEP) on each Access Point in the WDS and the same WEP key must be configured.

• The WDS link shares the communication bandwidth with the clients. Therefore, while the maximum data rate for the

Access Point's cell is 54 Mbits/second (802.11a, 802.11g only, or 802.b/g modes) or 11 Mbits/second (802.11b only mode), client throughput will decrease when the WDS link is active.

• If there is no partner MAC address configured in the WDS table, the WDS port remains disabled.

• Each WDS port on a single AP should have a unique partner MAC address. Do not enter the same MAC address twice in an AP’s WDS port list.

• Each Access Point that is a member of the WDS must have the same Channel setting to communicate with each other.

• If your network does not support spanning tree, be careful to avoid creating network loops between APs. For example, creating a WDS link between two Access Points connected to the same Ethernet network will create a network loop (if

spanning tree is disabled). For more information, see the Spanning Tree

section.

WDS Setup Procedure

NOTE: You must disable Auto Channel Select to create a WDS. Each Access Point that is a member of the WDS must have the same channel setting to communicate with each other.

To setup a wireless backbone follow the steps below for each AP that you wish to include in the Wireless Distribution

System.

1. Confirm that Auto Channel Select is disabled.

2. Write down the MAC Address of the radio that you wish to include in the Wireless Distribution System.

3. Click on Configure > Interfaces > Wireless.

4. Scroll down to the Wireless Distribution System heading.

Figure 4-14 WDS Configuration

5. Click the Edit button to update the Wireless Distribution System (WDS) Table.

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Figure 4-15 Adding WDS Links

6. Select whether to use encryption in the WDS by checking the Enable WDS Security Mode checkbox.

7. If you enabled WDS Security Mode, enter the Encryption Key 0 used for encryption between the WDS links.

8. Enter the MAC Address that you wrote down in Step 2 in one of the Partner MAC Address field of the Wireless

Distribution Setup window.

9. Set the Status of the device to Enable.

10.Click OK .

11.Reboot the AP.

Ethernet

Select the desired speed and transmission mode from the drop-down menu. Half-duplex means that only one side can transmit at a time and full-duplex allows both sides to transmit. When set to auto-duplex, the AP negotiates with its switch or hub to automatically select the highest throughput option supported by both sides.

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Figure 4-16 Ethernet Sub-tab

For best results, Proxim recommends that you configure the Ethernet setting to match the speed and transmission mode of the device the Access Point is connected to (such as a hub or switch). If in doubt, leave this setting at its default,

auto-speed-auto-duplex. Choose between:

• 10 Mbit/s - half duplex or full duplex

• 100 Mbit/s - half duplex or full duplex

• Auto speed - auto duplex

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Management

Management

The Management tab contains the following sub-tabs:

Passwords

IP Access Table

Services

Automatic Configuration (AutoConfig)

Hardware Configuration Reset (CHRD)

AP-700 User Guide

Passwords

You can configure the following passwords:

SNMP Read Community Password: The password for read access to the AP using SNMP. Enter a password in both the Password field and the Confirm field. This password must be between 6 and 32 characters. The default password is “public”.

SNMP Read/Write Community Password: The password for read and write access to the AP using SNMP. Enter a password in both the Password field and the Confirm field. This password must be between 6 and 32 characters.

The default password is “public”.

SNMPv3 Authentication Password: The password used when sending authenticated SNMPv3 messages. Enter a password in both the Password field and the Confirm field. This password must be between 6 and 32 characters, but a length of at least 8 characters is recommended. The default password is “public”. Secure Management (Services tab) must be enabled to configure SNMPv3.

The default SNMPv3 username is administrator, with SHA authentication and DES privacy protocol.

SNMPv3 Privacy Password: The password used when sending encrypted SNMPv3 data. Enter a password in both the Password field and the Confirm field. This password must be between 6 and 32 characters, but a length of at least 8 characters is recommended. The default password is “public”. Secure Management (Services tab) must be enabled to configure SNMPv3.

Telnet (CLI) Password: The password for the CLI interface (via serial or Telnet). Enter a password in both the

Password field and the Confirm field. This password must be between 6 and 32 characters. The default password is

“public”.

HTTP (Web) Password: The password for the Web browser HTTP interface. Enter a password in both the Password field and the Confirm field. This password must be between 6 and 32 characters. The default password is “public”.

NOTE: For security purposes Proxim recommends changing ALL PASSWORDS from the default “public” immediately, to restrict access to your network devices to authorized personnel. If you lose or forget your password settings, you can always perform the

Reset to Factory Default Procedure .

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IP Access Table

The Management IP Access table limits in-band management access to the IP addresses or range of IP addresses specified in the table. This feature applies to all management services (SNMP, HTTP, and CLI) except for CLI management over the serial port. To configure this table, click Add and set the following parameters:

IP Address: Enter the IP Address for the management station.

IP Mask: Enter a mask that will act as a filter to limit access to a range of IP Addresses based on the IP Address you already entered.

– The IP mask 255.255.255.255 would authorize the single station defined by the IP Address to configure the

Access Point. The AP would ignore commands from any other IP address. In contrast, the IP mask 255.255.255.0 would allow any device that shares the first three octets of the IP address to configure the AP. For example, if you enter an IP address of 10.20.30.1 with a 255.255.255.0 subnet mask, any IP address between 10.20.30.1 and

10.20.30.254 will have access to the AP’s management interfaces.

Comment: Enter an optional comment, such as the station name.

To edit or delete an entry, click Edit. Edit the information, or select Enable, Disable, or Delete from the Status pull-down menu.

Services

You can configure the following management services:

Secure Management

Secure Management allows the use of encrypted and authenticated communication protocols such as SNMPv3, Secure

Socket Link (SSL), and Secure Shell (SSH) to manage the Access Point.

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Secure Management Status: Enables the further configuration of HTTPS Access, SNMPv3, and Secure Shell

(SSH). After enabling Secure Management, you can choose to configure HTTPS (SSL) and Secure Shell access on the Services tab, and to configure SNMPv3 passwords on the Passwords tab.

SNMP Settings

SNMP Interface Bitmask: Configure the interface or interfaces (Ethernet, Wireless, All Interfaces) from which you will manage the AP via SNMP. You can also select Disabled to prevent a user from accessing the AP via SNMP.

HTTP Access

HTTP Interface Bitmap: Configure the interface or interfaces (Ethernet, Wireless, All Interfaces) from which you will manage the AP via the Web interface. For example, to allow Web configuration via the Ethernet network only, set

HTTP Interface Bitmask to Ethernet. You can also select Disabled to prevent a user from accessing the AP from the

Web interface.

HTTP Port: Configure the HTTP port from which you will manage the AP via the Web interface. By default, the HTTP port is 80. You must reboot the Access Point if you change the HTTP Port.

HTTP Wizard Status: The Setup Wizard appears automatically the first time you access the HTTP interface. If you exited out of the Setup Wizard and want to relaunch it, enable this option, click OK, and then close your browser or reboot the AP. The Setup Wizard will appear the next time you access the HTTP interface.

HTTPS Access (Secure Socket Layer)

NOTE: SSL requires Internet Explorer version 6, 128 bit encryption, Service Pack 1, and patch Q323308.

NOTE: You need to reboot the AP after enabling or disabling SSL for the changes to take effect.

HTTPS (Secure Web Status): The user can access the AP in a secure fashion using Secure Socket Layer (SSL) over port 443. The AP comes pre-installed with all required SSL files: default certificate and private key installed. Use the drop-down menu to enable/disable this feature.

SSL Certificate Passphrase: After enabling SSL, the only configurable parameter is the SSL passphrase. The default SSL passphrase is proxim.

The AP supports SSLv3 with a 128-bit encryption certificate maintained by the AP for secure communications between the AP and the HTTP client. All communications are encrypted using the server and the client-side certificate.

If you decide to upload a new certificate and private key (using TFTP or HTTP File Transfer), you need to change the

SSL Certificate Passphrase for the new SSL files.

Accessing the AP through the HTTPS interface

The user should use a SSL intelligent browser to access the AP through the HTTPS interface. After configuring SSL, access the AP using https:// followed by the AP’s management IP address.

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Figure 4-17 Management Services Configuration Screen

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Telnet Configuration Settings

Telnet Interface Bitmask: Select the interface (Ethernet, Wireless, All Interfaces) from which you can manage the

AP via telnet. This parameter can also be used to Disable telnet management.

Telnet Port Number: The default port number for Telnet applications is 23. However, you can use this field if you want to change the Telnet port for security reasons (but your Telnet application also must support the new port number you select). You must reboot the Access Point if you change the Telnet Port.

Telnet Login Idle Timeout (seconds): Enter the number of seconds the system will wait for a login attempt. The AP terminates the session when it times out. The range is 30 to 300 seconds; the default is 60 seconds.

Telnet Session Idle Timeout (seconds): Enter the number of seconds the system will wait during a session while there is no activity. The AP will terminate the session on timeout. The range is 60 to 36000 seconds; the default is 900 seconds.

Secure Shell (SSH) Settings

The AP supports SSH version 2, for secure remote CLI (Telnet) sessions. SSH provides strong authentication and encryption of session data.

The SSH server (AP) has host keys - a pair of asymmetric keys - a private key that resides on the AP and a public key that is distributed to clients that need to connect to the AP. As the client has knowledge of the server host keys, the client can verify that it is communicating with the correct SSH server. The client authentication is performed as follows:

• Using a username/password pair if RADIUS Based Management is enabled; otherwise, using a password to authenticate the user over a secure channel created using SSH.

SSH Session Setup

An SSH session is setup through the following process:

• The SSH server public key is transferred to the client using out-of-band or in-band mechanisms.

• The SSH client verifies the correctness of the server using the server’s public key.

• The user/client authenticates to the server.

• An encrypted data session starts. The maximum number of SSH sessions is limited to two. If there is no activity for a specified amount of time (the Telnet Session Timeout parameter), the AP will timeout the connection.

SSH Clients

The following SSH clients have been verified to interoperate with the AP’s server. The following table lists the clients, version number, and the website of the client.

Clients

OpenSSH

Putty

Zoc

Axessh

Version

V3.4-2

Rel 0.53b

5.00

V2.5

For key generation, OpenSSH client has been verified.

Website http://www.openssh.com

http://www.chiark.greenend.org.uk

http://www.emtec.com

http://www.labf.com

Configuring SSH

Perform the following procedure to set the SSH host key and enable or disable SSH:

1. Click Configure > Management > Services

2. Select the SSH Host Key Status from the drop down menu.

NOTE: SSH Host Key Status can not be changed if SSH status or Secure Management is enabled.

3. To enable/disable SSH, select Enable/Disable from the SSH (Secure Shell) Status drop-down menu.

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NOTE: When Secure Management is enabled on the AP, SSH will be enabled by default and cannot be disabled.

Host keys must either be generated externally and uploaded to the AP (see

Uploading Externally Generated Host Keys

), generated manually, or auto-generated at the time of SSH initialization if SSH is enabled and no host keys are present.

There is no key present in an AP that is in a factory default state.

To manually generate or delete host keys on the AP:

CAUTION: SSH Host key creation may take 3 to 4 minutes during which time the AP may not respond.

• Select Create to generate a new pair of host keys.

• Select Delete to remove the host keys from the AP. If no host keys are present, the AP will not allows connections using SSH. When host keys are created or deleted, the AP updates the fingerprint information displayed on the

Management > Services page.

Uploading Externally Generated Host Keys

Perform the following procedure to upload externally generated host keys to the AP. You must upload both the SSH public key and SSH private key for SSH to work.

1. Verify that the host keys have been externally generated. The OpenSSH client has been verified to interoperate with

AP’s SSH server.

2. Click Commands > Update AP > via HTTP (or via TFTP).

Figure 4-18 Uploading an Externally Generated SSH Public Key and SSH Private Key

3. Select SSH Public Key from the File Type drop-down menu.

4. Click Browse, select the SSH Public Key file on your local machine.

5. Click Open.

6. to initiate the file transfer, click the Update AP button.

7. Select SSH Private Key from the File Type drop-down menu.

8. Click Browse, select the SSH Private Key on your local machine.

9. Click Open.

10.To initiate the file transfer, click the Update AP button.

The fingerprint of the new SSH public key will be displayed in the Management > Services page.

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Serial Configuration Settings

The serial port interface on the AP is enabled at all times. See Setting IP Address using Serial Port for information on how

to access the CLI interface via the serial port. You can configure and view the following parameters:

Serial Baud Rate: Select the serial port speed (bits per second). Choose between 2400, 4800, 9600, 19200, 38400, or 57600; the default Baud Rate is 9600.

Serial Flow Control: Select either None (default) or Xon/Xoff (software controlled) data flow control.

NOTE: To avoid potential problems when communicating with the AP through the serial port, Proxim recommends that you leave the Flow Control setting at None (the default value).

Serial Data Bits: This is a read-only field and displays the number of data bits used in serial communication (8 data bits by default).

Serial Parity: This is a read-only field and displays the number of parity bits used in serial communication (no parity bits by default).

Serial Stop Bits: This is a read-only field that displays the number of stop bits used in serial communication (1 stop bit by default).

NOTE: The serial port bit configuration is commonly referred to as 8N1.

RADIUS Based Management Access

User management of APs can be centralized by using a RADIUS server to store user credentials. The AP cross-checks credentials using RADIUS protocol and the RADIUS server accepts or rejects the user.

HTTP/HTTPS and Telnet/SSH users can be managed with RADIUS. Serial CLI and SNMP cannot be managed by

RADIUS. Two types of users can be supported using centralized RADIUS management:

Super User: The super user has access to all functionality of a management interface. A super user is configured in the RADIUS server by setting the filter ID attribute (returned in the RADIUS Accept packet) for the user to a value of

“super user” (not case sensitive). A user is considered a super user if the value of the filter-id attribute returned in the

RADIUS Accept packet for the user is “super user” (not case sensitive).

Limited User: A limited user has access to only a limited set of functionality on a management interface. All users who are not super users are considered limited users. However, a limited user is configured in the RADIUS server by setting the filter-id attribute (returned in the RADIUS Accept packet) to “limited user” (not case sensitive). Limited users do not have access to the following configuration capabilities:

– Update/retrieve files to and from APs

– Reset the AP to factory defaults

– Reboot the AP

– Change management properties related to RADIUS, management modes, and management passwords.

NOTE: When a user has both “limited user” and “super user” filter-ids configured in the Radius server, the user has limited user privileges.

When RADIUS Based Management is enabled, a local user can be configured to provide Telnet, SSH, and HTTP(S) access to the AP when RADIUS servers fail. The local user has super user capabilities. When secure management is enabled, the local user can only login using secure means (i.e., SSH or SSL). When the local user option is disabled the only access to the AP when RADIUS servers are down will be through serial CLI or SNMP.

The Radius Based Management Access parameters allows you to enable HTTP or Telnet Radius Management Access, to configure a RADIUS Profile for management access control, and to enable or disable local user access, and configure the local user password. You can configure and view the following parameters:

HTTP RADIUS Access Control Status: Enable RADIUS management of HTTP/HTTPS users.

Telnet RADIUS Access Control Status: Enable RADIUS management of Telnet/SSH users.

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RADIUS Profile for Management Access Control: Specifies the RADIUS Profile to be used for RADIUS Based

Management Access.

Local User Status: Enables or disables the local user when RADIUS Based Management is enabled. The default local user ID is root.

Local User Password and Confirm Password: The default local user password is public. “Root” cannot be configured as a valid user for Radius based management access when local user access is enabled.

Automatic Configuration (AutoConfig)

The Automatic Configuration feature which allows an AP to be automatically configured by downloading a specific configuration file from a TFTP server during the boot up process.

Automatic Configuration is disabled by default. The configuration process for Automatic Configuration varies depending on whether the AP is configured for dynamic or static IP.

When an AP is configured for dynamic IP, the Configuration filename and the TFTP server IP address are contained in the DHCP response when the AP gets its IP address dynamically from the DHCP server. When configured for static IP, these parameters are instead configured in the AP interface.

After setting up automatic configuration you must reboot the AP. When the AP reboots it receives the new configuration information and must reboot one additional time. If Syslog is configured, a Syslog message will appear indicating the success or failure of the Automatic Configuration.

Auto Configuration and the CLI Batch File

The Auto Configuration feature allows download of the LTV (Length, Type, Value) format configuration file or the CLI

Batch file. The LTV file contains parameters used by the AP; the CLI Batch file contains CLI executable commands used to set AP parameters. The AP detects whether the uploaded file is LTV format or a CLI Batch file. If the AP detects an

LTV file, it stores the file in the AP’s flash memory. If the AP detects a CLI Batch file (a file with an extension of .cli), the

AP executes the commands contained in the file immediately. The AP will reboot after executing the CLI Batch file. Auto

Configuration will not result in repeated reboots if the CLI Batch file contains rebootable parameters.

For more information, see the CLI Batch File

section.

Set up Automatic Configuration for Static IP

Perform the following procedure to enable and set up Automatic Configuration when you have a static IP address for the

TFTP server.

1. Click Configure > Management > AutoConfig.

The Automatic Configuration Screen appears.

2. Check Enable Auto Configuration.

3. Enter the Configuration Filename.

4. Enter the IP address of the TFTP server in the TFTP Server Address field.

NOTE: The default filename is “config”. The default TFTP IP address is “169.254.128.133” for AP-700.

5. Click OK to save the changes.

6. Reboot the AP. When the AP reboots it receives the new configuration information and must reboot one additional time. If a Syslog server was configured, the following messages can be observed on the Syslog server:

• AutoConfig for Static IP

• TFTP server address and configuration filename

• AutoConfig Successful

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Figure 4-19 Automatic Configuration Screen

Set up Automatic Configuration for Dynamic IP

Perform the following procedure to enable and set up Automatic Configuration when you have a dynamic IP address for the TFTP server via DHCP.

The Configuration filename and the TFTP server IP address are contained in the DHCP response when the AP gets its IP address dynamically from the DHCP server. A Syslog server address is also contained in the DHCP response, allowing the AP to send Auto Configuration success and failure messages to a Syslog server.

NOTE: The configuration filename and TFTP server IP address are configured only when the AP is configured for Static

IP. If the AP is configured for Dynamic IP these parameters are not used and obtained from DHCP.

1. Click Configure > Management > AutoConfig.

The Automatic Configuration Screen appears.

2. Check Enable Auto Configuration.

When the AP is Configured with Dynamic IP, the DHCP server should be configured with the TFTP Server IP address

("Boot Server Host Name", option 66) and Configuration file ("Bootfile name", option 67) as follows (note that this example uses a Windows 2000 server):

3. Select DHCP Server > DHCP Option > Scope.

The DHCP Options: Scope Screen appears.

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Figure 4-20 DHCP Options: Setting the Boot Server Host Name

4. Add the Boot Server Hostname and Boot Filename parameters to the Active Options list.

5. Set the value of the Boot Server Hostname Parameter to the hostname or IP Address of the TFTP server. For example: 11.0.0.7.

Figure 4-21 DHCP Options: Setting the Bootfile Name

6. Set the value of the Bootfile Name parameter to the Configuration filename. For example: AP-Config

7. If using Syslog, set the Log server IP address (option 7, Log Servers).

8. Reboot the AP. When the AP reboots it receives the new configuration information and must reboot one additional time. If a Syslog server was configured, the following messages can be observed on the Syslog server:

• AutoConfig for Dynamic IP

• TFTP server address and configuration filename

• AutoConfig Successful

Hardware Configuration Reset (CHRD)

Hardware Configuration Reset Status is a parameter that defines the hardware configuration reset behavior of the AP

(i.e., what effect pressing the reload button has on an AP operating in normal operating mode).

If a user loses or forgets the AP’s HTTP/Telnet/SNMP password, the reset button on the AP provides a way to reset the

AP to default configuration values to gain access to the AP. However, in AP deployments where physical access to the

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AP is not protected, an unauthorized person could reset the AP to factory defaults and thus gain control of the AP. The user can disable the hardware configuration reset functionality to prevent unauthorized access.

The hardware configuration reset feature operates as follows:

• When hardware configuration reset is enabled, the user can press the hardware reload button for 10 seconds when the AP is in normal operational mode in order to delete the AP configuration.

• When hardware configuration reset is disabled, pressing the reload button when the AP is in normal operational mode does not have any effect on the AP.

• The hardware configuration reset parameter does not have any effect on the functionality of the reload button to delete the AP image during AP boot loaded execution.

• The default hardware configuration reset status is enabled. When disabling hardware configuration reset, the user is recommended to configure a configuration reset password. A configuration reset option appears on the serial port during boot up, before the AP reads its configuration and initializes.

• Whenever the AP is reset to factory default configuration, hardware configuration reset status is enabled and the configuration reset password is set to the default, “public”.

• If secure mode is enabled in the AP, only secure (SSL, SNMPv3, SSH) users can modify the values of the Hardware

Configuration Reset Status and the configuration reset password.

Configuration Reset via Serial Port During Bootup

If hardware configuration reset is disabled, the user gets prompted by a configuration reset option to reset the AP to factory defaults during boot up from the serial interface. By pressing a key sequence (ctrl-R), the user gets prompted to enter a configuration reset password before the configuration is reset.

NOTE: It is important to safely store the configuration reset password. If a user forgets the configuration reset password, the user will be unable to reset the AP to factory default configuration if the AP becomes inaccessible and the hardware configuration reset functionality is disable.

Configuring Hardware Configuration Reset

Perform the following procedure to configure Hardware Configuration Reset and to set the Configuration Reset

Password. See Figure 4-22 .

1. Click Configure > Management > CHRD.

Figure 4-22 Hardware Configuration Reset

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2. Check (enable) or uncheck (disable) the Enable Hardware Configuration Reset checkbox.

3. Change the default Configuration Reset Password in the “Configuration Reset Password” and “Confirm” fields.

4. Click OK.

5. Reboot the AP.

NOTE: It is important to safely store the configuration reset password. If a user forgets the configuration reset password, the user will be unable to reset the AP to factory default configuration if the AP becomes inaccessible and the hardware configuration reset functionality is disable.

Procedure to Reset Configuration via the Serial Interface

1. During boot up, observe the message output on the serial interface.

The AP prompts the user with the message: “Press ctrl-R in 3 seconds to choose configuration reset option.”

2. Enter ctrl-R within 3 seconds after being prompted.

The AP prompts the user with “Press ctrl-Z to continue with normal boot up or enter password to reset configuration.”

If the user enters ctrl-Z, the AP continues to boot with the stored configuration.

3. Enter the configuration reset password. The default configuration reset password is “public”.

When the correct configuration reset password is entered, the AP gets reset to factory defaults and displays the message “AP has been reset to Factory Default Settings.” The AP continues to boot up. If an incorrect configuration reset password is entered, the AP shows an error message and reprompts the user. If the incorrect password is entered three times in a row, the AP proceeds to boot up.

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Filtering

The Access Point’s Packet Filtering features help control the amount of traffic exchanged between the wired and wireless networks. There are four sub-tabs under the Filtering heading:

Ethernet Protocol

Static MAC

Advanced

TCP/UDP Port

Ethernet Protocol

The Ethernet Protocol Filter blocks or forwards packets based on the Ethernet protocols they support.

Follow these steps to configure the Ethernet Protocol Filter:

1. Select the interface or interfaces that will implement the filter from the Ethernet Protocol Filtering drop-down menu.

Ethernet: Packets are examined at the Ethernet interface

Wireless: Packets are examined at the Wireless interface

All Interfaces: Packets are examined at both interfaces

Disabled: The filter is not used

2. Select the Filter Operation Type.

• If set to Passthru, only the enabled Ethernet Protocols listed in the Filter Table will pass through the bridge.

• If set to Block, the bridge will block enabled Ethernet Protocols listed in the Filter Table.

3. Configure the Ethernet Protocol Filter Table. This table is pre-populated with existing Ethernet Protocol Filters, however, you may enter additional filters by specifying the appropriate parameters.

• To add an entry, click Add, and then specify the Protocol Number and a Protocol Name.

Protocol Number: Enter the protocol number. See http://www.iana.org/assignments/ethernet-numbers for a list of protocol numbers.

Protocol Name: Enter related information, typically the protocol name.

• To edit or delete an entry, click Edit and change the information, or select Enable, Disable, or Delete from the

Status drop-down menu.

• An entry’s status must be enabled in order for the protocol to be subject to the filter.

Static MAC

The Static MAC Address filter optimizes the performance of a wireless (and wired) network. When this feature is properly configured, the AP can block traffic between wired devices and wireless devices based on MAC address.

For example, you can set up a Static MAC filter to prevent wireless clients from communicating with a specific server on the Ethernet network. You can also use this filter to block unnecessary multicast packets from being forwarded to the wireless network.

NOTE: The Static MAC Filter is an advanced feature. You may find it easier to control wireless traffic via other filtering options, such as Ethernet Protocol Filtering.

Each static MAC entry contains the following fields:

Wired MAC Address

Wired Mask

Wireless MAC Address

Wireless Mask

Comment: This field is optional.

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Each MAC Address or Mask is comprised of 12 hexadecimal digits (0-9, A-F) that correspond to a 48-bit identifier. (Each hexadecimal digit represents 4 bits (0 or 1).)

Taken together, a MAC Address/Mask pair specifies an address or a range of MAC addresses that the AP will look for when examining packets. The AP uses Boolean logic to perform an “AND” operation between the MAC Address and the

Mask at the bit level. However, for most users, you do not need to think in terms of bits. It should be sufficient to create a filter using only the hexadecimal digits 0 and F in the Mask (where 0 is any value and F is the value specified in the MAC address). A Mask of 00:00:00:00:00:00 corresponds to all MAC addresses, and a Mask of FF:FF:FF:FF:FF:FF applies only to the specified MAC Address.

For example, if the MAC Address is 00:20:A6:12:54:C3 and the Mask is FF:FF:FF:00:00:00, the AP will examine the source and destination addresses of each packet looking for any MAC address starting with 00:20:A6. If the Mask is

FF:FF:FF:FF:FF:FF, the AP will only look for the specific MAC address (in this case, 00:20:A6:12:54:C3).

When creating a filter, you can configure the Wired parameters only, the Wireless parameters only, or both sets of parameters. Which parameters to configure depends upon the traffic that you want block:

• To prevent all traffic from a specific wired MAC address from being forwarded to the wireless network, configure only the Wired MAC Address and Wired Mask (leave the Wireless MAC Address and Wireless Mask set to all zeros).

• To prevent all traffic from a specific wireless MAC address from being forwarded to the wired network, configure only the Wireless MAC address and Wireless Mask (leave the Wired MAC Address and Wired Mask set to all zeros).

• To block traffic between a specific wired MAC address and a specific wireless MAC address, configure all four parameters.

A maximum of 200 entries can be created in the Static MAC filter table. To create an entry, click Add and enter the appropriate MAC addresses and Masks to setup a filter. The entry is enabled automatically when saved. To edit an entry, click Edit. To disable or remove an entry, click Edit and change the Status field from Enable to Disable or Delete.

Figure 4-23 Static MAC Configuration Screen

Static MAC Filter Examples

Consider a network that contains a wired server and three wireless clients. The MAC address for each unit is as follows:

• Wired Server: 00:40:F4:1C:DB:6A

• Wireless Client 1: 00:02:2D:51:94:E4

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• Wireless Client 2: 00:02:2D:51:32:12

• Wireless Client 3: 00:20:A6:12:4E:38

Prevent Two Specific Devices from Communicating

Configure the following settings to prevent the Wired Server and Wireless Client 1 from communicating:

Wired MAC Address: 00:40:F4:1C:DB:6A

Wired Mask: FF:FF:FF:FF:FF:FF

Wireless MAC Address: 00:02:2D:51:94:E4

Wireless Mask: FF:FF:FF:FF:FF:FF

Result: Traffic between the Wired Server and Wireless Client 1 is blocked. Wireless Clients 2 and 3 can still communicate with the Wired Server.

Prevent Multiple Wireless Devices from Communicating with a Single Wired Device

Configure the following settings to prevent Wireless Clients 1 and 2 from communicating with the Wired Server:

Wired MAC Address: 00:40:F4:1C:DB:6A

Wired Mask: FF:FF:FF:FF:FF:FF

Wireless MAC Address: 00:02:2D:51:94:E4

Wireless Mask: FF:FF:FF:00:00:00

Result: When a logical “AND” is performed on the Wireless MAC Address and Wireless Mask, the result corresponds to any MAC address beginning with the 00:20:2D prefix. Since Wireless Client 1 and Wireless Client 2 share the same prefix (00:02:2D), traffic between the Wired Server and Wireless Clients 1 and 2 is blocked. Wireless Client 3 can still communicate with the Wired Server since it has a different prefix (00:20:A6).

Prevent All Wireless Devices from Communicating with a Single Wired Device

Configure the following settings to prevent all three Wireless Clients from communicating with Wired Server 1:

Wired MAC Address: 00:40:F4:1C:DB:6A

Wired Mask: FF:FF:FF:FF:FF:FF

Wireless MAC Address: 00:00:00:00:00:00

Wireless Mask: 00:00:00:00:00:00

Result: The Access Point blocks all traffic between Wired Server 1 and all wireless clients.

Prevent a Wireless Device from Communicating with the Wired Network

Configure the following settings to prevent Wireless Client 3 from communicating with any device on the Ethernet:

Wired MAC Address: 00:00:00:00:00:00

Wired Mask: 00:00:00:00:00:00

Wireless MAC Address: 00:20:A6:12:4E:38

Wireless Mask: FF:FF:FF:FF:FF:FF

Result: The Access Point blocks all traffic between Wireless Client 3 and the Ethernet network.

Prevent Messages Destined for a Specific Multicast Group from Being Forwarded to the Wireless LAN

If there are devices on your Ethernet network that use multicast packets to communicate and these packets are not required by your wireless clients, you can set up a Static MAC filter to preserve wireless bandwidth. For example, if routers on your network use a specific multicast address (such as 01:00:5E:00:32:4B) to exchange information, you can set up a filter to prevent these multicast packets from being forwarded to the wireless network:

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Wired MAC Address: 01:00:5E:00:32:4B

Wired Mask: FF:FF:FF:FF:FF:FF

Wireless MAC Address: 00:00:00:00:00:00

Wireless Mask: 00:00:00:00:00:00

Result: The Access Point does not forward any packets that have a destination address of 01:00:5E:00:32:4B to the wireless network.

Advanced

You can configure the following advanced filtering options:

Enable Proxy ARP: Place a check mark in the box provided to allow the Access Point to respond to Address

Resolution Protocol (ARP) requests for wireless clients. When enabled, the AP answers ARP requests for wireless stations without actually forwarding them to the wireless network. If disabled, the Access Point will bridge ARP requests for wireless clients to the wireless LAN.

Enable IP/ARP Filtering: Place a check mark in the box provided to allow IP/ARP filtering based on the IP/ARP

Filtering Address and IP Mask. Leave the box unchecked to prevent filtering. If enabled, you should also configure the

IP/ARP Filtering Address and IP/ARP IP Mask.

IP/ARP Filtering Address: Enter the Network filtering IP Address.

IP/ARP IP Mask: Enter the Network Mask IP Address.

The following protocols are listed in the Advanced Filter Table:

Deny IPX RIP

Deny IPX SAP

Deny IPX LSP

Deny IP Broadcasts

Deny IP Multicasts

The AP can filter these protocols in the wireless-to-Ethernet direction, the Ethernet-to-wireless direction, or in both directions. Click Edit and use the Status field to Enable or Disable the filter.

TCP/UDP Port

Port-based filtering enables you to control wireless user access to network services by selectively blocking TCP/UDP protocols through the AP. A user specifies a Protocol Name, Port Number, Port Type (TCP, UDP, or TCP/UDP), and filtering interfaces (Wireless only, Ethernet only, all interfaces, or no interfaces) in order to block access to services, such as Telnet and FTP, and traffic, such as NETBIOS and HTTP.

For example, an AP with the following configuration would discard frames received on its Ethernet interface with a UDP destination port number of 137, effectively blocking NETBIOS Name Service packets.

Protocol Type

(TCP/UDP)

UDP

Destination Port

Number

137

Protocol Name

NETBIOS Name

Service

Interface

Ethernet

Status (Enable/Disable)

Enable

Adding TCP/UDP Port Filters

1. Place a check mark in the box labeled Enable TCP/UDP Port Filtering.

2. Click Add under the TCP/UDP Port Filter Table heading.

3. In the TCP/UDP Port Filter Table , enter the Protocol Names to filter.

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4. Set the destination Port Number (a value between 1 and 65535) to filter. See the IANA Web site at http://www.iana.org/assignments/port-numbers for a list of assigned port numbers and their descriptions.

5. Set the Port Type for the protocol: TCP, UDP, or both (TCP/UDP).

6. Set the Interface to filter:

• Only Ethernet

• Only Wireless

• All interfaces

7. Click OK.

Editing TCP/UDP Port Filters

1. Click Edit under the TCP/UDP Port Filter Table heading.

2. Make any changes to the Protocol Name or Port Number for a specific entry, if necessary.

3. In the row that defines the port, set the Status to Enable, Disable, or Delete, as appropriate.

4. Select OK .

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Alarms

The Alarms tab has the following sub-tabs:

Groups

Alarm Host Table

Syslog

Rogue Scan

AP-700 User Guide

Groups

Alarm groups can be enabled or disabled via the Web interface. Place a check mark in the box provided to enable a specific group. Remove the check mark from the box to disable the alarms. Alarm severity levels are as follows:

Critical alarms will often result in severe disruption in network activity or an automatic reboot of the AP.

Major alarms are usually activated due to a breach in the security of the system. Clients cannot be authenticated because an attempt at unauthorized access into the AP has been detected.

Informational alarms provide the network administrator with some general information about the activities the AP is performing.

Configuration Trap Group

Trap Name oriTrapDNSIPNotConfigured oriTrapRADIUSAuthenticationNotConfigured oriTrapRADIUSAccountingNotConfigured oriTrapDuplicateIPAddressEncountered oriTrapVLANIDInvalidConfiguration oriTrapAutoConfigFailure oriTrapBatchExecFailure oriTrapBatchFileExecStart oriTrapBatchFileExecEnd

Description

DNS IP address not configured

RADIUS Authentication not configured

RADIUS Accounting not configured

Another network device with the same IP address exists

Severity Level

Major

Major

Major

Major

Major not configured

A VLAN ID configuration is invalid

Auto configuration failed

The CLI Batch execution fails for the following reasons:

• Illegal Command is parsed in the CLI Batch file

• Execution error is encountered while executing CLI Batch file

• Bigger file size than 100 Kbytes

The CLI Batch execution begins after file is uploaded

The execution of CLI Batch file ends.

Major

Minor

Minor

Minor

Minor

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Security Trap Group

Trap Name oriTrapInvalidEncryptionKey

Description

Invalid encryption key has been detected.

Severity Level

Critical

Major oriTrapUnauthorizedManagerDetected

Authentication failures can range from:

• MAC Access Control table

• RADIUS MAC authentication

• 802.1x authentication specifying the

EAP-Type

• WORP mutual authentication

• SSID authorization failure specifying the

SSID

• VLAN ID authorization failure specifying the

VLAN ID

Unauthorized manager has attempted to view and/or modify parameters oriTrapRADScanComplete oriTrapRADScanResults

RAD scan is successfully completed

Provides information on the RAD Scan results oriTrapRogueScanStationDetected Rogue station detected oriTrapRogueScanCycleComplete Rogue scan successfully completed

Major

Informational

Informational

Informational

Informational

Wireless Interface/Card Trap Group

Trap Name oriTrapWLCFailure oriTrapWLCRadarInterferenceDetected

MIC Attack Detected

MIC Attack Report Detected

Description

General failure wireless interface/card failure.

Radar interference detected on the channel being used by the wireless interface

Supported in Web interface only

Supported in Web interface only

Severity Level

Critical

Major

Major

Major

Operational Trap Group

Trap Name

RADIUS server not responding to authentication requests sent from the RADIUS client in the device

Description oriTrapUnrecoverableSoftwareErrorDetected Unrecoverable software error detected. Causes software watch dog timer to expire, which in turn causes the device to reboot.

oriTrapRADIUSServerNotResponding oriTrapModuleNotInitialized oriTrapDeviceRebooting oriTrapTaskSuspended oriTrapBootPFailed

Module (hardware or software) not initialized

Device rebooting

Task suspended

Response to the BootP request not received; device not dynamically assigned an IP address

Severity Level

Critical

Major

Major

Informational

Critical

Major

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Trap Name oriTrapDHCPFailed oriTrapDNSClientLookupFailure oriTrapWirelessServiceShutdown oriTrapWirelessServiceResumed oriTrapSSHInitializationStatus oriTrapVLANIDUserAssignment

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Description

Response to the DHCP client request not received; device not dynamically assigned an IP address

DNS client attempts to resolve a specified hostname (DNS lookup) and a failure occurs because either the DNS server is unreachable or there is an error for the hostname lookup. Trap specifies the hostname that was being resolved.

Severity Level

Major

Major

Major

Informational Wireless interface has shutdown services for wireless clients

Wireless interface has resumed service and is ready for wireless client connections

SSH initialization status

User is assigned a VLAN ID from the RADIUS server

Informational

Major

Informational

Informational information from the DHCP server. Information includes the DHCP server IP address that replied to the DHCP client request, and the IP address, subnet mask, and gateway IP address returned from the DHCP server.

Flash Memory Trap Group

Trap Name oriTrapFlashMemoryEmpty

Flash Memory Corrupted oriTrapFlashMemoryRestoringLastKnownGoo dConfiguration

Description

No data present in flash memory

Flash memory corrupted

Current/original configuration data file is found to be corrupted, and the device loads the last known good configuration file

Severity Level

Informational

Critical

Informational

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TFTP Trap Group

Trap Name oriTrapTFTPFailedOperation oriTrapTFTPOperationInitiated oriTrapTFTPOperationCompleted

Image Trap Group

Trap Name oriTrapZeroSizeImage oriTrapInvalidImage oriTrapImageTooLarge oriTrapIncompatibleImage oriTrapInvalidImageDigitalSignature

Description

TFTP operation failed

TFTP operation Initiated

TFTP operation completed

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Severity Level

Major

Informational

Informational

Description

Zero size image loaded onto device

Invalid image loaded onto device

Image loaded on the device exceeds the size limitation of flash

Incompatible image loaded onto device

Image with invalid digital signature is loaded onto device

Severity Level

Major

Major

Major

Major

Major

SNTP Trap Group

Trap Name oriTrapSNTPFailure oriTrapSNTPFailure

Description

SNTP time retrieval failure

SNTP sync-up failure

Severity Level

Minor

Minor

In addition, the AP supports these standard traps, which are always enabled:

RFC 1215-Trap coldStart linkUp linkDown

Trap Name Description

AP is on or rebooted

Severity Level

Informational

AP's Ethernet interface link is up (working) Informational

AP's Ethernet interface link is down (not working) Informational

Bridge MIB (RFC 1493) Alarms

New Root topologyChange

Trap Name Description

AP has become the new root in the Spanning

Tree network

Trap is not sent if a newRoot trap is sent for the same transition

Severity Level

Informational

Informational

All these alarm groups correspond to System Alarms that are displayed in the

System Status Screen , including the traps

that are sent by the AP to the SNMP managers specified in the

Alarm Host Table

.

Alarm Host Table

To add an entry and enable the AP to send SNMP trap messages to a Trap Host, click Add, and then specify the IP

Address and Password for the Trap Host.

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NOTE: Up to 10 entries are possible in the Alarm Host table.

IP Address: Enter the Trap Host IP Address.

Password: Enter the password in the Password field and the Confirm field.

Comment: Enter an optional comment, such as the alarm (trap) host station name.

To edit or delete an entry, click Edit. Edit the information, or select Enable, Disable, or Delete from the Status drop-down menu.

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Syslog

The Syslog messaging system enables the AP to transmit event messages to a central server for monitoring and troubleshooting. The access point logs “Session Start (Log-in)” and “Session Stop (Log-out)” events for each wireless client as an alternative to RADIUS accounting.

See RFC 3164 at http://www.rfc-editor.org

for more information on the Syslog standard.

Figure 4-24 Syslog Configuration Screen

Setting Syslog Event Notifications

Syslog Events are logged according to the level of detail specified by the administrator. Logging only urgent system messages will create a far smaller, more easily read log than a log of every event the system encounters. Determine which events to log by selecting a priority defined by the following scale:

Event Priority

LOG_EMERG 0

LOG_ALERT 1

LOG_CRIT 2

LOG_ERR 3

LOG_WARNING 4

LOG_NOTICE 5

LOG_INFO 6

LOG_DEBUG 7

System is unusable

Description

Action must be taken immediately

Error conditions

Warning conditions

Normal but significant condition

Informational

Debug-level messages

Configuring Syslog Event Notifications

You can configure the following Syslog settings from the HTTP interface:

Enable Syslog: Place a check mark in the box provided to enable system logging.

Syslog Port Number: This field is read-only and displays the port number (514) assigned for system logging.

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Syslog Lowest Priority Logged: The AP will send event messages to the Syslog server that correspond to the selected priority number and any priority numbers below it. For example, if set to 6, the AP will transmit event messages labeled priority 0 to 6 to the Syslog server. This parameter supports a range between 0 and 7; 6 is the default.

Syslog Heartbeat Status: When Heartbeat is enabled, the AP periodically sends a message to the Syslog server to indicate that it is active.

Syslog Heartbeat Interval: If Syslog Heartbeat Status is enabled this field provides the interval for the heartbeat in seconds (between 1 and 604800). The default is 900 seconds.

Syslog Host Table: This table specifies the IP addresses of a network servers that the AP will send Syslog messages to. Click Add to create a new entry. Click Edit to change an existing entry. Each entry contains the following field:

IP Address: Enter the IP Address for the management host.

Comment: Enter an optional comment such as the host name.

Status: The entry is enabled automatically when saved (so the Status field is only visible when editing an entry).

You can also disable or delete entries by changing this field’s value.

Syslog Messages

The following messages are supported in the AP:

Syslog Message Name

Auto Configuration using DHCP 6

Priority

Auto Configuration using Static IP 6

TFTP Server IP and configuration filename not present in DHCP response

TFTP Server IP Address used in

AutoConfig feature

TFTP Server filename used in

AutoConfig feature

Auto Configuration TFTP

Download Failure

4

6

6

4

Severity Description

Informational Configuration filename and TFTP server address are obtained from DHCP when dynamic IP is configured on the device.

Informational Configured TFTP server address and configuration filename is used when Static IP is configured on the device.

Minor Configuration filename and/or TFTP server address is not present in the DHCP response when using DHCP.

Informational TFTP server IP address used for AutoConfig.

Informational TFTP filename used for AutoConfig.

Image Compatibility Check,

Invalid Image

AP Heartbeat Status

2

5

Minor

Major

TFTP download of a configuration file for

AutoConfig fails for the following reasons:

Incorrect or non-reachable TFTP server address

Incorrect or unavailable configuration filename

TFTP transfer timeout.

One of the following failures occurs:

Invalid Signature

Zero File Size

Large File

Non VxWork Image

Incompatible Image

Informational AP syslog keep alive message.

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Syslog Message Name

Client Login Authentication

Status

Client De-Authentication Status

RADIUS Accounting Start and

Stop Messages

CLI Configuration File Start

Execution

CLI Configuration File End

Execution

6

Priority

6

6

6

6

Severity Description

Informational Client logs in/authenticates. Message includes:

• Client MAC Address

• Authentication Type = None, ACL, RADIUS

MAC, 802.1X

• Cipher Type = None, WEP, TKIP, AES

• Status = Allow, Deny

• SSID to which client is connecting

Sample Message:

<client mac address> | Status = <value> | SSID =

<value> | Auth Type = <value> | Cipher Type =

<value>

Informational Client de-authenticates. Message includes:

• Client MAC Address

• Cipher Type = None, WEP, TKIP, AES

• Status = De-authentication reason, which can be any of the following:

– Unknown reason

– Stale authentication information

– Authenticated STA leaving BSS

– Inactivity

– Association error

– Class 2 frame received from non-authenticated STA

– Class 3 frame received from non-associated STA

– Associated STA leaving BSS

– STA requesting information, but not yet authenticated

– Enhanced security (RSN) required

– Enhanced security (RSN) used inconsistently

– Invalid Information Element

– MIC Failure

– WPA module de-auth

• SSID to which client was connected

Sample Message:

<client mac address> | Status = <value> | SSID =

<value> | Cipher Type = <value>

Informational Start and Stop accounting messages for wireless clients.

Informational CLI configuration file execution starts.

Informational CLI configuration file execution ends.

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Syslog Message Name

CLI Configuration File Execution

Errors

4

Priority

SSH Initialization Failure 3

SSH Key Generation Successful 6

Wireless Service Shutdown

Wireless Service Resume

First MIC Report Attack

Second MIC Report Attack

SNTP Time Retrieval Failure

SNTP Time Sync-Up Failure

6

6

4

4

MIC Attack from Wireless Station 4

4

4

Severity

Minor

Description

There is an error in execution of the CLI configuration file. The message specifies the filename, line number, and error reason.

Major One of the following failures occurs:

Keys not present

Keys cannot be generated

Internal error (no available resources)

Informational SSH Key generation is successful.

Informational Wireless service is shutdown.

Informational Wireless service resumes.

Minor First MIC report attack is detected.

Minor

Minor

Minor

Second MIC report attack is detected.

A MIC attack is detected from a wireless station.

Minor

SNTP Client in the AP fails to retrieve time information from the configured SNTP servers.

Also included in message: IP Address of SNTP server.

SNTP Client in the AP fails to synchronize the time with the SNTP server it was communicating with.

Also included in message: IP Address of SNTP server.

Rogue Scan

The Rogue Scan feature provides an additional security level for wireless LAN deployments. Rogue Scan uses the selected wireless interface(s) for scanning its coverage area for Access Points and clients.

A centralized Network Manager receives MAC address information from the AP on all wireless clients detected by the AP.

The Network Manager then queries all wired switches to find out the inbound switch/port of these wireless clients. If the switch/port does not have a valid Access Point connected to it as per a pre-configured database, the Network Manager proceeds to block that switch/port and prevent the Rogue AP from connecting to the wired network.

Figure 4-25 Preventing Rogue AP Attacks

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The figure above shows Client 1 connected to a Trusted AP and Client 2 connected to a Rogue AP. The Trusted AP scans the networks, detects Client 2, and notifies the Network Manager. The Network Manager uses SNMP/CLI to query the wired switch to find the inbound switch port of Client 2’s packets. The Network Manager verifies that this switch/router and port does not have a valid Access Point as per the administrator’s database. Thus it labels Client 2’s AP as a Rogue

AP and proceeds to prevent the Rogue AP attack by blocking this switch’s port.

Multi-Band Scanning

Rogue Scan detects Rogue stations in all bands (i.e., 2.4 GHz and 5 GHz for interfaces that support 802.11a/g multi-band operation. During Rogue Scan the AP scans every channel in its configured regulatory domain; the AP scans both the 2.4 GHz and 5 GHz bands for wireless interfaces supporting 802.11a/g multi-band operation.

APs can be detected either by active scanning using 802.11 probe request frames or passively by detecting periodic beacons, or both. Wireless clients are detected by monitoring 802.11 connection establishment messages such as association/authentication messages or data traffic to or from the wireless clients.

There are two scanning modes available per wireless interface: continuous scanning mode and background scanning mode.

Continuous Scanning Mode

The continuous scanning mode is a dedicated scanning mode where the wireless interface performs scanning alone and does not perform the normal AP operation of servicing client traffic.

In continuous scanning mode the AP scans each channel for a channel scan time of one second and then moves to the next channel in the scan channel list. With a channel scan time of one second, the scan cycle time will take less than a minute (one second per channel). Once the entire scan channel list has been scanned the AP restarts scanning from the beginning of the scan channel list.

Background Scanning Mode

In background scanning mode the AP performs background scanning while performing normal AP operations on the wireless interface.

You can configure the scan cycle time between 1-1440 minutes (24 hours). The scan cycle time indicates how frequently a channel is sampled and defines the minimum attack period that can go unnoticed.

In background scanning mode the AP will scan one channel then wait for a time known as channel scan time. The channel scan time affects the amount of data collected during scanning and defines the maximum number of samples

(possible detections) in one scan. This is increased to improve scanning efficiency; the tradeoff is that it decreases throughput. The optimum value for this parameter during background scanning mode is 20ms.The channel scan time is calculated from the scan cycle time parameter and the number of channels in the scan channel list as follows: intra-channel scan time = (scan cycle time - (channel scan time * number of channels in the scan list))/number of channels in the scan list.

Rogue Scan Data Collection

The AP stores information gathered about detected stations during scanning in a Rogue Scan result table. The Rogue

Scan result table can store a maximum of 2000 entries. When the table fills, the oldest entry gets overwritten. The Rogue

Scan result table lists the following information about each detected station:

• Station Type: indicates one of the following types of station:

– Unknown station

– AP station

– Infrastructure Client Station

– IBSS Client Station

• MAC Address of the detected station

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• Channel: the working channel of the detected station

• SNR: the SNR value of the last frame from the station as received by the AP

• BSSID: the BSSID field stores the:

– MAC address of the associated Access Point in the case of a client.

– Zero MAC address or MAC address of the partner Access Point if the AP is a partner of a WDS link

The AP ages out older entries in the Rogue Scan result table if a detected station is inactive for more than the Scan

Result Table Ageing Time.

Rogue Scan

Perform this procedure to enable Rogue Scan and define the Scan Interval. See Figure 4-26 on page 86 .

The Rogue Scan screen also displays the number of new access points and clients detected in the last scan on each wireless interface.

1. Enable the Security Alarm Group. Select the Security Alarm Group link from the Rogue Scan screen. Configure a

Trap Host to receive the list of access points (and clients) detected during the scan.

2. Click Configure > Alarms > Rogue Scan.

3. Enable Rogue Scan on the wireless interface by checking Enable Rogue Scan.

NOTE: Rogue Scan cannot be enabled on a wireless interface when the Wireless Service Status on that interface is shutdown. First, resume service on the wireless interface.

4. Enter the Scan Mode. Select Background Scanning or Continuous Scanning. In Continuous Scanning mode the AP stops normal operation and scans continuously on that interface. In Background Scanning mode, the AP performs background scanning while doing normal AP operation on that interface.

5. If the Scan Mode is Background Scanning, then enter the Scan Interval.

• The Scan Interval specifies the time period in minutes between scans in Background Scanning mode and can be set to any value between 1 and 1440 minutes.

6. Configure the Scan Result Table Ageing Time. The AP ages out older entries in the Rogue Scan result table if a detected station is inactive for more than this time. The valid range is from 60-7200 minutes, the default is 60 minutes.

7. Configure the Scan Results Trap Notification Mode to control the notification behavior when APs or stations are detected in a scan:

• No Notification

• Notify AP

• Notify Client

• Notify All (Notify both AP and Client detection)

8. Configure the Scan Results Trap Report Style to control the way detected stations are reported in the notification:

• Report all detected stations since last scan (default)

• Report all detected stations since start of scan

9. Click OK.

The results of the Rogue Scan can be viewed in the Status page in the HTTP interface.

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Figure 4-26 Rogue Scan Screen

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Bridge

The AP is a bridge between your wired and wireless networking devices. As a bridge, the functions performed by the AP include:

• MAC address learning

• Forward and filtering decision making

• Spanning Tree protocol used for loop avoidance

Once the AP is connected to your network, it learns which devices are connected to it and records their MAC addresses in the Learn Table. The table can hold up to 10,000 entries. To view the Learn Table, click on the Monitor button in the

web interface and select the Learn Table

tab.

The Bridge tab has four sub-tabs:

Spanning Tree

Intra BSS

Packet Forwarding

Spanning Tree

A Spanning Tree is used to avoid redundant communication loops in networks with multiple bridging devices. Bridges do not have any inherent mechanism to avoid loops, because having redundant systems is a necessity in certain networks.

However, redundant systems can cause Broadcast Storms, multiple frame copies, and MAC address table instability problems.

Complex network structures can create multiple loops within a network. The Spanning Tree configuration blocks certain ports on AP devices to control the path of communication within the network, avoiding loops and following a spanning tree structure.

For more information on Spanning Tree protocol, please see Section 8.0 of the IEEE 802.1d standard. The Spanning

Tree configuration options are advanced settings. Proxim recommends that you leave these parameters at their default values unless you are familiar with the Spanning Tree protocol.

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Figure 4-27 Spanning Tree Sub-Tab

Storm Threshold

Storm Threshold is an advanced Bridge setup option that you can use to protect the network against data overload by:

• Specifying a maximum number of frames per second as received from a single network device (identified by its MAC address).

• Specifying an absolute maximum number of messages per interface.

The Storm Threshold parameters allow you to specify a set of thresholds for each interface of the AP, identifying separate values for the number of broadcast messages/second and Multicast messages/second.

When the number of frames for an interface or from a single network device exceeds the maximum value per second, the

AP will ignore all subsequent messages in that second received on that interface or from that network device.

Address Threshold: Enter the maximum allowed number of packets per second.

Ethernet Threshold: Enter the maximum allowed number of packets per second.

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Wireless Threshold: Enter the maximum allowed number of packets per second.

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Intra BSS

The wireless clients (or subscribers) that associate with a certain AP form the Basic Service Set (BSS) of a network infrastructure. By default, wireless subscribers in the same BSS can communicate with each other. However, some administrators (such as wireless public spaces) may wish to block traffic between wireless subscribers that are associated with the same AP to prevent unauthorized communication and to conserve bandwidth. This feature enables you to prevent wireless subscribers within a BSS from exchanging traffic.

Although this feature is generally enabled in public access environments, Enterprise LAN administrators use it to conserve wireless bandwidth by limiting communication between wireless clients. For example, this feature prevents peer-to-peer file sharing or gaming over the wireless network.

To block Intra BSS traffic, set Intra BSS Traffic Operation to Block.

To allow Intra BSS traffic, set Intra BSS Traffic Operation to Passthru.

Packet Forwarding

The Packet Forwarding feature enables you to redirect traffic generated by wireless clients that are all associated to the same AP to a single MAC address. This filters wireless traffic without burdening the AP and provides additional security by limiting potential destinations or by routing the traffic directly to a firewall. You can redirect to a specific port (Ethernet or WDS) or allow the bridge’s learning process (and the forwarding table entry for the selected MAC address) to determine the optimal port.

NOTE: The gateway to which traffic will be redirected should be node on the Ethernet network. It should not be a wireless client.

Configuring Interfaces for Packet Forwarding

Configure your AP to forward packets by specifying port(s) to which packets are redirected and a destination MAC address.

1. Within the Packet Forwarding Configuration screen, check the box labeled Enable Packet Forwarding.

2. Specify a destination Packet Forwarding MAC Address. The AP will redirect all unicast, multicast, and broadcast packets received from wireless clients to the address you specify.

3. Select a Packet Forwarding Interface Port from the drop-down menu. You can redirect traffic to:

– Ethernet

A WDS connection (see Wireless Distribution System (WDS)

for details)

– Any (traffic is redirected to a port based on the bridge learning process)

4. Click OK to save your changes.

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Wireless Multimedia Extensions (WME)/Quality of Service (QoS)

The AP supports Wireless Multimedia Enhancements which defines an intermediate solution for QoS functionality until the IEEE 802.11e specification is formally approved. WME is based on a subset of the 802.11e standard, and defines enhancements to the MAC for wireless LAN applications with Quality of Service requirements, which include transport of voice traffic over IEEE 802.11 wireless LANs.

The enhancement are in the form of changes in protocol frame formats (addition of new fields and information elements), addition of new messages, definition of new protocol actions, channel access mechanisms (differentiated control of access to medium) and network elements (QoS/WME aware APs, STAs), and configuration management.

WME supports Enhanced Distributed Channel Access (EDCA) for prioritized QoS services. The WME/QoS feature can be enabled or disabled. For more information on QoS, see “Technical Bulletin 69504 Revision 2” at

<http://keygen.proxim.com/support/orinoco/tb/tb69504_3wmm.pdf> .

Enabling QoS and Adding QoS policies

Perform the following procedure to enable QoS and add QoS policies:

1. Click Configure > QoS > Policy.

Figure 4-28 QoS Policies

2. To enable QoS, check the Enable Quality of Service checkbox.

3. Configure the QoS Maximum Medium Threshold for all Admission Controls. Admission will be granted if the new requested traffic stream and already admitted time is less than the medium maximum threshold.

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4. To add a QoS Policy, click the Add button in the “QoS Policies Table” box. The Add Entries box appears.

Figure 4-29 Add QoS Policy

5. Enter the Policy Name.

6. Select the Policy Type:

inlayer2: inbound traffic direction, Layer 2 traffic type

inlayer3: inbound traffic direction, Layer 3 traffic type

outlayer2: outbound traffic direction, Layer 2 traffic type

outlayer3: inbound traffic direction, Layer 3 traffic type

spectralink: SpectraLink traffic

7. Enter the Priority Mapping Index.

For layer 2 policies, an index from the 802.1p to 802.1d mapping table should be specified. For layer 3 policies, an index from the 802.1p to IP DSCP mapping table should be specified. No mapping index is required for SpectraLink.

8. Select whether to Enable QoS Marking.

9. Click OK.

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Priority Mapping

Use this page to configure QoS 802.1p to 802.1d priority mappings (for layer 2 policies) and IP DSCP to 802.1d priority mappings (for layer 3 policies). The first entry in each table contains the recommended priority mappings. Custom entries can be added to each table with different priority mappings.

1. Click Configure > QoS > Priority Mapping.

Figure 4-30 Priority Mapping

2. Click Add in the 802.1p and 802.1d priority mapping table.

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Figure 4-31 Add Priority Mapping Entry

3. Select the 802.1p Priority (from 0-7) for 802.1d Priorities 0-7.

4. Click OK.

5. Click Add in the IP Precedence/DSCP ranges and 802.1d Priority table.

6. Select the IP DSCP Range for each 802.1d Priority.

7. Click OK.

NOTE: Changes to Priority Mapping require a reboot of the AP to take effect.

Enhanced Distributed Channel Access (EDCA)

WME uses Enhanced Distributed Channel Access, a prioritized CSMA/CA access mechanism used by WME-enabled clients/AP in a WME enabled BSS to realize different classes of differentiated Channel Access.

A wireless Entity is defined as all wireless clients and APs in the wireless medium contending for the common wireless medium. EDCA uses a separate channel access function for each of the Access Categories (Index) within a wireless entity. Each channel access function in a wireless entity that contends for the wireless medium as if it were a separate client contending for the wireless medium. Different channel access functions in a given Wireless Entity contend among themselves for access to the wireless medium in addition to contending with other clients.

STA EDCA Table and AP EDCA Table

This page is used to configure the client (STA) and AP Enhanced Distributed Channel Access (EDCA) parameters.

The EDCA parameter set provides information needed by the client stations for proper QoS operation during the wireless contention period. These parameters are used by the QoS enabled AP to establish policy, to change policies when accepting new stations or new traffic, or to adapt to changes in the offered load. The EDCA parameters assign priorities to traffic types where higher priority packets gain access to the wireless medium more frequently than lower priority packets.

NOTE: Default recommended values for EDCA parameters have been defined; Proxim recommends not modifying

EDCA parameters unless strictly necessary.

Perform the following procedure to configure the Station and AP EDCA tables.

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1. Click Configure > QoS > EDCA.

AP-700 User Guide

Figure 4-32 EDCA Tables

2. Click Edit and configure the following parameters in each table:

NOTE: Changes to EDCA parameters require a reboot of the AP to take effect.

Index: read-only. Indicates the index of the Access Category (1-4) being defined.

CWMin: minimum Contention Window. Configurable range is 0 to 255.

CWMax: maximum Contention Window. Configurable range is 0 to 65535.

AIFSN: Arbitration IFS per access category. Configurable range is 2 to 15.

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Tx OP Limit: The Transmission Opportunity Limit. The Tx OP is an interval of time during which a particular QoS enhanced client has the right to initiate a frame exchange sequence onto the wireless medium. The Tx OP Limit defines the upper limit placed on the value of Tx OP a wireless entity can obtain for a particular access category.

Configurable range is 0 to 65535.

MSDU Lifetime: specifies the maximum elapsed time between a MSDU transfer request and delivery to the destination, beyond which delivery becomes unnecessary. Configurable range is 0 to 500 seconds.

Admission Control Mandatory: Possible values are True or False. Admission control defines if an Access Point accepts or rejects a requested traffic stream with certain QoS specifications, based on available channel capacity and link conditions. Admission control can be configured for each Access Category (Index).

On the Policy sub-tab, the user can also configure a medium maximum threshold for all Admission Controls.

Admission will be granted if the new requested traffic stream and already admitted time is less than the medium

maximum threshold.

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Radius Profiles

Configuring Radius Profiles on the AP allows the administrator to define a profile for RADIUS Servers used by the system or by a VLAN. The network administrator can define

RADIUS Servers per Authentication Mode and per VLAN

.

The AP communicates with the RADIUS server defined in a profile to provide the following features:

MAC Access Control Via RADIUS Authentication

802.1x Authentication using RADIUS

RADIUS Accounting

Also,

RADIUS Based Management Access

allows centralized user management.

The network administrator can configure default RADIUS authentication servers to be used on a system-wide basis, or in networks with VLANs enabled the administrator can also configure separate authentication servers to be used for MAC authentication, EAP authentication, or Accounting in each VLAN. You can configure the AP to communicate with up to six different RADIUS servers per VLAN/SSID:

• Primary Authentication Server (MAC-based authentication)

• Back-up Authentication Server (MAC-based authentication)

• Primary Authentication Server (EAP/802.1x authentication)

• Back-up Authentication Server (EAP/802.1x authentication)

• Primary Accounting Server

• Back-up Accounting Server

The back-up servers are optional, but when configured, the AP will communicate with the back-up server if the primary server is off-line. After the AP has switched to the backup server, it will periodically check the status of the primary

RADIUS server every five (5) minutes. Once the primary RADIUS server is again online, the AP automatically reverts from the backup RADIUS server back to the primary RADIUS server. All subsequent requests are then sent to the primary RADIUS server.

You can view monitoring statistics for each of the configured RADIUS servers.

RADIUS Servers per Authentication Mode and per VLAN

The user can configure separate RADIUS authentication servers for each authentication mode and for each SSID

(VLAN). For example:

• The user can configure separate RADIUS servers for RADIUS MAC authentication and 802.1x authentication

• The user can configure separate RADIUS servers for each VLAN: VLAN1 could support only WEP clients, whereas

VLAN2 could support 802.1x and WEP clients.

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Figure 4-33 RADIUS Servers per VLAN

This figure shows a network with separate authentication servers for each authentication type and for each VLAN. The clients in VLAN 1 are authenticated using the authentication servers configured for VLAN 1. The type of authentication server used depends on whether the authentication is done for an 802.1x client or a non-802.1x client. The clients in

VLAN 2 are authenticated using a different set of authentication servers configured for authenticating users in VLAN 2.

Authentication servers for each VLAN are configured as part of the configuration options for that VLAN. RADIUS profiles are independent of VLANs. The user can define any profile to be the default and associate all VLANs to that profile. Four profiles are created by default, “MAC Authentication”, “EAP Authentication”, Accounting”, and “Management”.

RADIUS Servers Enforcing VLAN Access Control

A RADIUS server can be used to enforce VLAN access control in two ways:

• Authorize the SSID the client uses to connect to the AP. The SSID determines the VLAN that the client gets assigned to.

• Assigning the user to a VLAN by specifying the VLAN membership information of the user.

Configuring Radius Profiles

A RADIUS server Profile consists of a Primary and a Secondary RADIUS server that get assigned to act as either MAC

Authentication servers, 802.1x/EAP Authentication servers, or Accounting Servers in the VLAN Configuration. See

Configuring Security Profiles

.

The RADIUS Profiles Sub-tab allows you to add new RADIUS profiles or modify or delete existing profiles.

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Figure 4-34 RADIUS Server Profiles

Adding or Modifying a RADIUS Server Profile

Perform the following procedure to add a RADIUS server profile and to configure its parameters.

1. Click Add to create a new profile. To Modify an existing profile, select the profile and click Edit. To delete an existing profile, select the profile and click Delete. You cannot delete a RADIUS server profile if it is applied to an SSID.

2. Configure the following parameters for the RADIUS Server profile (see Figure 4-35 ):

NOTE: This page configures only the Primary RADIUS Server associated with the profile. After configuring these parameters, save them by clicking OK. Then, to configure the Secondary RADIUS Server, edit the profile from the main page.

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Figure 4-35 Add RADIUS Server Profile

Server Profile Name: the profile name. This is the name used to associated a VLAN to the profile. See

Configuring Security Profiles

. The Server Profile Name is also used in the Configure > Management > Services page to specify the RADIUS profile to be used for RADIUS Based Management Access.

MAC Address Format Type: This parameter should correspond to the format in which the clients’ 12-digit MAC addresses are listed within the RADIUS server. Available options are:

— Dash delimited: dash between each pair of digits: xx-yy-zz-aa-bb-cc

— Colon delimited: colon between each pair of digits: xx:yy:zz:aa:bb:cc

— Single dash delimited: dash between the sixth and seventh digits: xxyyzz-aabbcc

— No delimiters: No characters or spaces between pairs of hexadecimal digits: xxyyzzaabbcc

Accounting update interval: Enter the time interval (in minutes) for sending Accounting Update messages to the

RADIUS server. A value of 0 (default) means that the AP will not send Accounting Update messages.

Accounting inactivity timer: Enter the accounting inactivity timer. This parameter supports a value from 1-60 minutes. The default is 5 minutes.

Authorization lifetime: Enter the time, in seconds, each client session may be active before being automatically re-authenticated. This parameter supports a value between 900 and 43200 seconds. The default is 0 (disabled).

Server Addressing Format: select IP Address or Name. If you want to identify RADIUS servers by name, you must configure the AP as a DNS Client. See

DNS Client for details.

Server Name/IP Address: Enter the server’s name or IP address.

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Destination Port: Enter the port number which the AP and the server will use to communicate. By default,

RADIUS servers communicate on port 1812.

Server VLAN ID: Indicates the VLAN that uses this RADIUS server profile. If VLAN is disabled, this field will be grayed out.

Shared Secret and Confirm Shared Secret: Enter the password shared by the RADIUS server and the AP. The same password must also be configured on the RADIUS server. The default password is “public.”

Response Time (seconds): Enter the maximum time, in seconds, that the AP should wait for the RADIUS server to respond to a request. The range is 1-10 seconds; the default is 3 seconds.

Maximum Retransmissions (0-4): Enter the maximum number of times an authentication request may be transmitted. The range is 0 to 4, the default is 3.

Server Status: Select Enable from the drop-down box to enable the RADIUS Server Profile.

3. Click OK.

4. Select the Profile and click Edit to configure the Secondary RADIUS Server, if required.

MAC Access Control Via RADIUS Authentication

If you want to control wireless access to the network and if your network includes a RADIUS Server, you can store the list of MAC addresses on the RADIUS server rather than configure each AP individually. You can define a RADIUS Profile that specifies the IP Address of the server that contains a central list of MAC Address values identifying the authorized stations that may access the wireless network. You must specify information for at least the primary RADIUS server. The back-up RADIUS server is optional.

NOTE: Each VLAN can be configured to use a separate RADIUS server (and backup server) for MAC authentication.

MAC access control can be separately enabled for each VLAN.

NOTE: Contact your RADIUS server manufacturer if you have problems configuring the server or have problems using

RADIUS authentication.

802.1x Authentication using RADIUS

You must configure a primary EAP/802.1x Authentication server to use 802.1x security. A back-up server is optional.

NOTE: Each VLAN can be configured to use a separate RADIUS server (and backup server) for 802.1x authentication.

802.1x authentication (“EAP authentication”) can be separately enabled for each VLAN.

RADIUS Accounting

Using an external RADIUS server, the AP can track and record the length of client sessions on the access point by sending RADIUS accounting messages per RFC2866. When a wireless client is successfully authenticated, RADIUS accounting is initiated by sending an “Accounting Start” request to the RADIUS server. When the wireless client session ends, an “Accounting Stop” request is sent to the RADIUS server.

NOTE: Each VLAN can be configured to use a separate RADIUS accounting server (and backup accounting server).

Session Length

Accounting sessions continue when a client reauthenticates to the same AP. Sessions are terminated when:

• A client disassociates.

• A client does not transmit any data to the AP for a fixed amount of time.

• A client is detected on a different interface.

• Idle-Timeout or Session-Timeout attributes are configured in the Radius server.

If the client roams from one AP to another, one session is terminated and a new session is begun.

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NOTE: This feature requires RADIUS authentication using MAC Access Control or 802.1x. Wireless clients configured in the Access Point’s static MAC Access Control list are not tracked.

Authentication and Accounting Attributes

Additionally, the AP supports a number of Authentication and Accounting Attributes defined in RFC2865, RFC2866,

RFC2869, and RFC3580.

Authentication Attributes

• State: Received in Access-Accept Packet by the AP during Authentication and sent back as-is during

Re-Authentication.

• Class: Received in Access-Accept Packet by the AP during Authentication and back as in Accounting Packets.

• Session-Timeout

– If the RADIUS server does not send a Session-Timeout, the AP will set the subscriber expiration time to 0, which means indefinite access.

– The Termination Action attribute defines how the Session-Timeout attribute will be interpreted. If the Termination

Action is DEFAULT, then the session is terminated on expiration of the Session-Timeout time interval. If

Termination Action is RADIUS-Request, then re-authentication is done on expiration on the session.

– If the RADIUS server sends a Session-Timeout, the value specified by the Session-Timeout attribute will take precedence over the configured Authorization Lifetime value.

• Termination-Action

– Valid values are: Default (0), RADIUS-Request (1). When the value is “default,” the Termination-Action attribute sends an accounting stop message and then reauthenticates. If the value is “RADIUS-Request,” the

Termination-Action attribute reauthenticates without sending an accounting stop.

• Idle Timeout

– The AP internally maintains the Idle-Timeout attribute obtained for each of the users during their authentication process, and uses this time interval in place of accounting inactivity time for timing out clients.

• Calling Station Id

– MAC address of the client getting authenticated.

• Called Station Id

– The AP sends the MAC address of its own wireless interface with which the client getting authenticated is getting associated, appended with the SSID. If VLAN is enabled, the SSID and corresponding VLAN ID get appended.

• Acct-Interim-Interval

– Obtained during the Authentication process and used for determining the time interval for sending Accounting

Update messages.

– This attribute value takes precedence over the value of the Accounting Update Interval.

Accounting Attributes

• Acct-Delay-Time

– Indicates how many seconds the AP has been trying to send a particular packet related to a particular user. This time can be used at the server to determine the approximate time of the event generating this accounting request.

• Acct-Session-Id

– Unique accounting ID that aids in tracking client accounting records. This attribute is sent in Start and Stop

RADIUS accounting messages, and contains the client MAC address appended with the unique session ID.

• Acct-Session-Time

– Acct-Session-Time is calculated the following way (for each transmitted/retransmitted Acct-Stop):

Acct-Session-Time = time of last sent packet - subscriber login time.

• Acct-Input-Octets

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– Number of octets (bytes) received by subscriber.

• Acct-Output-Octets

– Number of octets (bytes) sent by subscriber.

• Acct-Input-Packets

– Number of packets received by subscriber.

• Acct-Output-Packets

– Number of packets sent by subscriber.

• Acct-Terminate Cause

– Indicates how the session was terminated.

• Vendor Specific Attributes

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SSID/VLAN/Security

The AP provides several security features to protect your network from unauthorized access. This section gives an overview of VLANs and then discusses the SSID/VLAN/Security configuration options in the AP:

VLAN Overview

Management VLAN

Security Profile

MAC Access

Wireless

The AP also provides Broadcast SSID/Closed System and Rogue Scan to protect your network from unauthorized

access. See the Broadcast SSID and Closed System

and Rogue Scan sections from more information.

VLAN Overview

Virtual Local Area Networks (VLANs) are logical groupings of network hosts. Defined by software settings, other VLAN members or resources appear (to clients) to be on the same physical segment, no matter where they are attached on the logical LAN or WAN segment. They simplify traffic flow between clients and their frequently-used or restricted resources.

VLANs now extend as far as the reach of the access point signal. Clients can be segmented into wireless sub-networks via SSID and VLAN assignment. A Client can access the network by connecting to an AP configured to support its assigned SSID/VLAN.

AP devices are fully VLAN-ready; however, by default VLAN support is disabled. Before enabling VLAN support, certain network settings should be configured, and network resources such as a VLAN-aware switch, a RADIUS server, and possibly a DHCP server should be available.

Once enabled, VLANs are used to conveniently, efficiently, and easily manage your network in the following ways:

• Manage adds, moves, and changes from a single point of contact

• Define and monitor groups

• Reduce broadcast and multicast traffic to unnecessary destinations

– Improve network performance and reduce latency

• Increase security

– Secure network restricts members to resources on their own VLAN

– Clients roam without compromising security

VLAN tagged data is collected and distributed through an AP's wireless interface(s) based on Network Name (SSID). An

Ethernet port on the access point connects a wireless cell or network to a wired backbone. The access points communicate across a VLAN-capable switch that analyzes VLAN-tagged packet headers and directs traffic to the appropriate ports. On the wired network, a RADIUS server authenticates traffic and a DHCP server manages IP addresses for the VLAN(s). Resources like servers and printers may be present, and a hub may include multiple APs, extending the network over a larger area.

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Figure 4-36 Components of a Typical VLAN

VLAN Workgroups and Traffic Management

Access Points that are not VLAN-capable typically transmit broadcast and multicast traffic to all wireless Network

Interface Cards (NICs). This process wastes wireless bandwidth and degrades throughput performance. In comparison, a VLAN-capable AP is designed to efficiently manage delivery of broadcast, multicast, and unicast traffic to wireless clients.

The AP assigns clients to a VLAN based on a Network Name (SSID). The AP can support up to 16 SSIDs, with a unique

VLAN configurable per SSID.

The AP matches packets transmitted or received to a network name with the associated VLAN. Traffic received by a

VLAN is only sent on the wireless interface associated with that same VLAN. This eliminates unnecessary traffic on the wireless LAN, conserving bandwidth and maximizing throughput.

In addition to enhancing wireless traffic management, the VLAN-capable AP supports easy assignment of wireless users to workgroups. In a typical scenario, each user VLAN represents a workgroup; for example, one VLAN could be used for an EMPLOYEE workgroup and the other for a GUEST workgroup.

In this scenario, the AP would assign every packet it accepted to a VLAN. Each packet would then be identified as

EMPLOYEE or GUEST, depending on which wireless NIC received it. The AP would insert VLAN headers or “tags” with identifiers into the packets transmitted on the wired backbone to a network switch.

Finally, the switch would be configured to route packets from the EMPLOYEE workgroup to the appropriate corporate resources such as printers and servers. Packets from the GUEST workgroup could be restricted to a gateway that allowed access to only the Internet. A member of the GUEST workgroup could send and receive e-mail and access the

Internet, but would be prevented from accessing servers or hosts on the local corporate network.

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Typical User VLAN Configurations

VLANs segment network traffic into workgroups, which enable you to limit broadcast and multicast traffic. Workgroups enable clients from different VLANs to access different resources using the same network infrastructure. Clients using the same physical network are limited to those resources available to their workgroup.

The AP can segment users into a maximum of 16 different workgroups per radio, based on an SSID/VLAN grouping (also referred as a VLAN Workgroup or a Sub-network).

The primary scenarios for using VLAN workgroups are as follows:

1. VLAN disabled: Your network does not use VLANs, and you cannot configure the AP to use multiple SSIDs.

2. VLAN enabled, each VLAN workgroup uses a different VLAN ID Tag.

3. VLAN enabled, a mixture of Tagged and Untagged workgroups exist.

4. VLAN enabled, all VLANs untagged: VLAN is enabled in order to use SSID. (Note that typical use of SSIDs assumes actual use of VLANs.)

NOTE: VLAN must be enabled to configure security per SSID.

Management VLAN

Figure 4-37 Mgmt VLAN

VLAN Tagging Management

Control Access to the AP

Management access to the AP can easily be secured by making management stations or hosts and the AP itself members of a common VLAN. Simply configure a non-zero management VLAN ID and enable VLAN to restrict management of the AP to members of the same VLAN.

CAUTION: If a non-zero management VLAN ID is configured then management access to the AP is restricted to wired or wireless hosts that are members of the same VLAN. Ensure your management platform or host is a member of the same VLAN before attempting to manage the AP.

1. Click Configure > SSID/VLAN/Security > Mgmt VLAN.

2. Set the VLAN Management ID to a value of between 1 and 4094. (A value of -1 disables VLAN Tagging).

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3. Place a check mark in the Enable VLAN Tagging box.

Provide Access to a Wireless Host in the Same Workgroup

The VLAN feature can allow wireless clients to manage the AP. If the VLAN Management ID matches a VLAN User ID, then those wireless clients who are members of that VLAN will have AP management access.

CAUTION: Once a VLAN Management ID is configured and is equivalent to one of the VLAN User IDs on the AP, all members of that User VLAN will have management access to the AP. Be careful to restrict VLAN membership to those with legitimate access to the AP.

1. Click Configure > SSID/VLAN/Security > Mgmt VLAN.

2. Set the VLAN Management ID to use the same VLAN ID as one of the configured SSIDs.

3. Place a check mark in the Enable VLAN Tagging box.

Disable VLAN Tagging

1. Click Configure > SSID/VLAN/Security > Mgmt VLAN.

2. Remove the check mark from the Enable VLAN Tagging box (to disable all VLAN functionality) or set the VLAN

Management ID to -1 (to disable VLAN Tagging only).

NOTE: If you disable VLAN Tagging, you will be unable to configure security per SSID.

Security Profile

The AP supports the following security features:

WEP Encryption : The original encryption technique specified by the IEEE 802.11 standard.

802.1x Authentication : An IEEE standard for client authentication.

Wi-Fi Protected Access (WPA/802.11i [WPA2]) : A new standard that provides improved encryption security over WEP.

NOTE: The AP does not support shared key 802.11 MAC level authentication. Clients with this MAC level feature must disable it.

WEP Encryption

The IEEE 802.11 standards specify an optional encryption feature, known as Wired Equivalent Privacy or WEP, that is designed to provide a wireless LAN with a security level equal to what is found on a wired Ethernet network. WEP encrypts the data portion of each packet exchanged on an 802.11 network using an Encryption Key (also known as a

WEP Key).

When Encryption is enabled, two 802.11 devices must have the same Encryption Keys and both devices must be configured to use Encryption in order to communicate. If one device is configured to use Encryption but a second device is not, then the two devices will not communicate, even if both devices have the same Encryption Keys.

802.1x Authentication

IEEE 802.1x is a standard that provides a means to authenticate and authorize network devices attached to a LAN port.

A port in the context of IEEE 802.1x is a point of attachment to the LAN, either a physical Ethernet connection or a wireless link to an Access Point. 802.1x requires a RADIUS server and uses the Extensible Authentication Protocol

(EAP) as a standards-based authentication framework, and supports automatic key distribution for enhanced security.

The EAP-based authentication framework can easily be upgraded to keep pace with future EAP types.

Popular EAP types include:

• EAP-Message Digest 5 (MD5): Username/Password-based authentication; does not support automatic key distribution

• EAP-Transport Layer Security (TLS): Certificate-based authentication (a certificate is required on the server and each client); supports automatic key distribution

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• EAP-Tunneled Transport Layer Security (TTLS): Certificate-based authentication (a certificate is required on the server; a client’s username/password is tunneled to the server over a secure connection); supports automatic key distribution

• PEAP - Protected EAP with MS-CHAP: Secure username/password-based authentication; supports automatic key distribution

Different servers support different EAP types and each EAP type provides different features. See the documentation that came with your RADIUS server to determine which EAP types it supports.

NOTE: The AP supports the following EAP types when Security Mode is set to 802.1x, WPA, or 802.11i (WPA2):

EAP-TLS, PEAP, EAP-TTLS, EAP-MD5, and EAP-SIM.

Authentication Process

There are three main components in the authentication process. The standard refers to them as:

1. Supplicant (client PC)

2. Authenticator (Access Point)

3. Authentication server (RADIUS server)

When the Security Mode is set to 802.1x Station, WPA Station, or 802.11i Station you need to configure your RADIUS server for authentication purposes.

Prior to successful authentication, an unauthenticated client PC cannot send any data traffic through the AP device to other systems on the LAN. The AP inhibits all data traffic from a particular client PC until the client PC is authenticated.

Regardless of its authentication status, a client PC can always exchange 802.1x messages in the clear with the AP (the client begins encrypting data after it has been authenticated).

Figure 4-38 RADIUS Authentication Illustrated

The AP acts as a pass-through device to facilitate communications between the client PC and the RADIUS server. The

AP (2) and the client (1) exchange 802.1x messages using an EAPOL (EAP Over LAN) protocol (A). Messages sent from the client station are encapsulated by the AP and transmitted to the RADIUS (3) server using EAP extensions (B).

Upon receiving a reply EAP packet from the RADIUS, the message is typically forwarded to the client, after translating it back to the EAPOL format. Negotiations take place between the client and the RADIUS server. After the client has been successfully authenticated, the client receives an Encryption Key from the AP (if the EAP type supports automatic key distribution). The client uses this key to encrypt data after it has been authenticated.

For 802.11a and 802.11b/g clients that communicate with an AP, each client receives its own unique encryption key; this is known as Per User Per Session Encryption Keys.

Wi-Fi Protected Access (WPA/802.11i [WPA2])

Wi-Fi Protected Access (WPA) is a security standard designed by the Wi-Fi Alliance in conjunction with the Institute of

Electrical and Electronics Engineers (IEEE). The AP supports 802.11i (WPA2), based on the IEEE 802.11i security standard.

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WPA is a replacement for Wired Equivalent Privacy (WEP), the encryption technique specified by the original 802.11 standard. WEP has several vulnerabilities that have been widely publicized. WPA addresses these weaknesses and provides a stronger security system to protect wireless networks.

WPA provides the following new security measures not available with WEP:

• Improved packet encryption using the Temporal Key Integrity Protocol (TKIP) and the Michael Message Integrity

Check (MIC).

• Per-user, per-session dynamic encryption keys:

– Each client uses a different key to encrypt and decrypt unicast packets exchanged with the AP

– A client's key is different for every session; it changes each time the client associates with an AP

– The AP uses a single global key to encrypt broadcast packets that are sent to all clients simultaneously

– Encryption keys change periodically based on the Re-keying Interval parameter

– WPA uses 128-bit encryption keys

• Dynamic Key distribution

– The AP generates and maintains the keys for its clients

– The AP securely delivers the appropriate keys to its clients

• Client/server mutual authentication

– 802.1x

– Pre-shared key (for networks that do not have an 802.1x solution implemented)

The AP supports the following WPA security modes:

WPA: The AP uses 802.1x to authenticate clients and TKIP for encryption. You should only use an EAP that supports

mutual authentication and session key generation, such as EAP-TLS, EAP-TTLS, and PEAP. See 802.1x

Authentication for details.

WPA-PSK (Pre-Shared Key): For networks that do not have 802.1x implemented, you can configure the AP to authenticate clients based on a Pre-Shared Key. This is a shared secret that is manually configured on the AP and each of its clients. The Pre-Shared Key must be 256 bits long, which is either 64 hexadecimal digits or 32 alphanumeric characters. The AP also supports a PSK Pass Phrase option to facilitate the creation of the TKIP

Pre-Shared Key (so a user can enter an easy-to-remember phrase rather than a string of characters).

802.11i (also known as WPA2): The AP provides security to clients according to the 802.11i draft standard, using

802.1x authentication, a CCMP cipher based on AES, and re-keying.

802.11i-PSK (also known as WPA2 PSK): The AP uses a CCMP cipher based on AES, and encrypts frames to clients based on a Pre-Shared Key. The Pre-Shared Key must be 256 bits long, which is either 64 hexadecimal digits or 32 alphanumeric characters. The AP also supports a PSK Pass Phrase option to facilitate the creation of the Pre-Shared

Key (so a user can enter an easy-to-remember phrase rather than a string of characters).

NOTE: For more information on WPA, see the Wi-Fi Alliance Web site at http://www.wi-fi.org

.

Authentication Protocol Hierarchy

There is a hierarchy of authentication protocols defined for the AP.

The hierarchy is as follows, from Highest to lowest:

• 802.1x authentication

• MAC Access Control via RADIUS Authentication

• MAC Access Control through individual APs' MAC Access Control Lists

If you have both 802.1x and MAC authentication enabled, the 802.1x results will take effect. This is required in order to propagate the WEP keys to the clients in such cases. Once you disable 802.1x on the AP, you will see the effects of

MAC authentication.

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VLANs and Security Profiles

The AP-700 allows you to segment wireless networks into multiple sub-networks based on Network Name (SSID) and

VLAN membership. A Network Name (SSID) identifies a wireless network. Clients associate with Access Points that share an SSID. During installation, the Setup Wizard prompts you to configure a Primary Network Name for each wireless interface.

After initial setup and once VLAN is enabled, the AP can be configured to support up to 16 SSIDs per wireless interface to segment wireless networks based on VLAN membership.

Each VLAN can associated to a Security Profile and RADIUS Server Profiles. A Security Profile defines the allowed wireless clients, and authentication and encryption types. See the following sections for configuration details.

Configuring Security Profiles

Security policies can be configured and applied on the AP as a whole, or on a per VLAN basis. When VLAN is disabled on the AP, the user can configure a security profile for each interface of the AP. When VLANs are enabled and Security per SSID is enabled, the user can configure a security profile for each VLAN.

The user defines a security policy by specifying one or more values for the following parameters:

• Wireless STA types (WPA station, 802.11i (WPA2) station, 802.1x station, WEP station, WPA-PSK, and 802.11i-PSK) that can associate to the AP.

• Authentication mechanisms (802.1x, RADIUS MAC authentication) that are used to authenticate clients for each type of station.

• Cipher Suites (CCMP, TKIP, WEP, None) used for encapsulating the wireless data for each type of station.

Up to 16 security profiles can be configured.

1. Click Configure > SSID/VLAN/Security > Security Profile.

Figure 4-39 Security Profile Configuration

2. Click Add in the Security Profile Table to create a new entry. To modify an existing profile, select the profile and click

Edit. To delete an existing profile, select the profile and click Delete. You cannot delete a Security Profile used in an

SSID. Also, the first Security Profile cannot be deleted.

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3. Configure one or more types of wireless stations (security modes) that are allowed access to the AP under the security profile. The WEP/PSK parameters are separately configurable for each security mode. To enable a security mode in the profile (Non Secure Station, WEP Station, 802.1x Station, WPA Station, WPA-PSK Station, 802.11i

(WPA2) Station, 802.11i-PSK Station), check the box next to the mode. See Figure 4-40 on page 112 .

If the security mode selected in a profile is WEP, WPA-PSK, or 802.11i-PSK, then you must configure the WEP or

Pre-Shared Keys.

NOTE: If an 802.1x client that has already been authenticated attempts to switch to WEP, or if a WEP client that has already been connected attempts to switch to 802.1x, the AP will not allow the client to switch immediately. If this happens, either reboot the AP or disable the client/roam to a new AP for five minutes, and then attempt to reconnect to the AP. If the client is still unable to connect after waiting five minutes, reboot the AP.

4. Configure the parameters as follows for each enabled security mode. See Figure 4-40 on page 112 .

Non Secure Station:

• Authentication Mode: None. The AP allows access to Stations without authentication.

— Non secure station should be used only with WEP or 802.1x security mode.

• Cipher: None

WEP Station:

• Authentication Mode: None

• Cipher: WEP

• Encryption Key 0, Encryption Key 1, Encryption Key 2, Encryption Key 3

• Encryption Key Length: 64, 128, or 152 Bits.

— For 64-bit encryption, an encryption key is 10 hexadecimal characters (0-9 and A-F) or 5 ASCII characters

(see

ASCII Character Chart

).

— For 128-bit encryption, an encryption key is 26 hexadecimal characters or 13 ASCII characters.

— For 152-bit encryption, an encryption key is 32 hexadecimal characters or 16 ASCII characters.

• Encryption Transmit Key: select Key 0, Key 1, Key 2, or Key 3

802.1x Station:

• Authentication Mode: 802.1x

• Cipher: WEP

• Encryption Key Length: 64 or 128 Bits.

— If 802.1x is enabled simultaneously with WEP, the 802.1x Station’s encryption key length is determined by the WEP encryption key.

WPA Station:

• Authentication Mode: 802.1x

• Cipher: TKIP

WPA-PSK Station:

• Authentication Mode: PSK

• Cipher: TKIP

• PSK Passphrase: an 8-63 character user-defined phrase. It is recommended a passphrase of at least 13 characters, including both letters and numbers, and upper and lower case characters, be used to ensure that the generated key cannot be easily deciphered by network infiltrators.

802.11i Station:

• Authentication Mode: 802.1x

• Cipher: CCMP based on AES

802.11i-PSK Station:

• Authentication Mode: PSK

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• Cipher: CCMP based on AES

• PSK Passphrase: an 8-63 character user-defined phrase. It is recommended a passphrase of at least 13 characters, including both letters and numbers, and upper and lower case characters, to ensure that the generated key cannot be easily deciphered by network infiltrators.

5. When finished configuring all parameters, click OK.

6. If you selected a Security Mode of 802.1x Station, WPA Station, or 802.11i Station, you must configure a RADIUS

802.1x/EAP server. See the

Configuring Radius Profiles section.

Security Profile 1 will be used by default for all wireless interfaces.

7. Reboot the AP.

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Figure 4-40 Security Profile Table - Add Entries

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MAC Access

The MAC Access sub-tab allows you to build a list of stations, identified by their MAC addresses, authorized to access the network through the AP. The list is stored inside each AP within your network. Note that you must reboot the AP for any changes to the MAC Access Control Table to take effect. Up to 1000 entries can be made in the table.

The “MAC ACL Status” parameter (configurable on the SSID/VLAN > Wireless sub-tab) is per VLAN if VLAN

Management is enabled. All other parameters besides “MAC ACL Status” are configured per AP, even if VLAN is enabled.

The following list details the configurable MAC Access parameters.

NOTE: MAC Access Control status is enabled or disabled when configuring each Security Profile.

Operation Type: Choose between Passthru and Block. This determines how the stations identified in the MAC

Access Control Table are filtered.

• If set to Passthru, only the addresses listed in the Control Table will pass through the bridge.

• If set to Block, the bridge will block traffic to or from the addresses listed in the Control Table.

MAC Access Control Table: Click Add to create a new entry. Click Edit to change an existing entry. Each entry contains the following field:

MAC Address: Enter the wireless client’s MAC address.

Comment: Enter an optional comment such as the client’s name.

Status: The entry is enabled automatically when saved (so the Status field is only visible when editing an entry).

You can also disable or delete entries by changing this field’s value.

NOTE: For larger networks that include multiple Access Points, you may prefer to maintain this list on a centralized

location using the MAC Access Control Via RADIUS Authentication

.

Figure 4-41 MAC Access Configuration Screen

Wireless

Each SSID can have its own Security Profile that defines its security mode, authentication mechanism, and encryption, so that customers can have multiple types of clients (non-WEP, WEP, 802.1x, WPA, WPA-PSK, 802.11i, 802.11i-PSK) on

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Security Profile

section for more information. Each SSID can support a unique VLANs. In order for the AP to support multiple SSID/VLANs, VLAN Tagging must be enabled. These parameters are configurable on the Wireless sub-tab.

Configuring an SSID/VLAN with VLAN Tagging Disabled

With VLAN tagging disabled (from the SSID/VLAN/Security > Mgmt VLAN tab), only one SSID can be configured. All parameters set on the Wireless tab will be applied to that SSID.

1. Click SSID/VLAN/Security > Wireless.

The SSID, VLAN, and Security Configuration page is displayed.

Figure 4-42 SSID, VLAN, and Security Configuration (VLAN Tagging Disabled)

2. Enable or disable RADIUS accounting on the VLAN/SSID by selecting Enable or Disable from the Accounting

Status drop-down menu.

3. Enable or disable RADIUS MAC authentication status on the VLAN/SSID by selecting Enable or Disable from the

RADIUS Authentication Status drop-down menu.

4. Enable or disable MAC Access Control List status on the VLAN/SSID by selecting Enable or Disable from the MAC

ACL Status drop-down menu.

5. Enter Rekeying Interval in seconds (between 60 and 65525). The default interval is 900 seconds.

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6. Enter the Security Profile used by the VLAN in the Security Profile field. See the Security Profile

section for more information.

7. Define the RADIUS Server Profile Configuration for the VLAN/SSID:

• RADIUS MAC Authentication Profile

• RADIUS EAP Authentication Profile

• RADIUS Accounting Profile

If 802.1x, WPA, or 802.11i security mode is used, the RADIUS EAP Authentication Profile must have a value.

A RADIUS Server Profile for authentication for each VLAN shall be configured as part of the configuration options for that VLAN. RADIUS profiles are independent of VLANs. The user can define any profile to be the default and associate all VLANs to that profile. Four profiles are created by default, “MAC Authentication”, “EAP

Authentication”, Accounting”, and “Management”

8. If desired, scroll down to the scroll down to the SSID and VLAN Table and click Edit to modify the Network Name,

VLAN ID, or QoS profile of the SSID/VLAN.

NOTE: Because VLAN tagging is disabled, attempting to add a new SSID/VLAN will produce an error message.

The Edit Entries screen will be displayed. See

Figure 4-43

.

Figure 4-43 SSID/VLAN Edit Entries Screen (VLAN Tagging Disabled)

9. Enter a unique Network Name (SSID) between 1 and 32 characters. This parameter is mandatory.

NOTE: Do not use quotation marks (single or double) in the Network Name; this will cause the AP to misinterpret the name.

10.Enter a unique VLAN ID. This parameter is mandatory.

• A VLAN ID is a number from -1 to 4094. A value of -1 means that an entry is “untagged.”

• You can set the VLAN ID to “-1” or “untagged” if you do not want clients that are using a specific SSID to be members of a VLAN workgroup.

• The VLAN ID must match an ID used by your network; contact your network administrator if you need assistance defining the VLAN IDs.

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11.Specify a QoS profile. See the

Enabling QoS and Adding QoS policies

section for more information.

12.If editing an entry, enable or disable the parameters on this page by electing Enable or Disable from the Status drop-down menu. If adding a new entry, this drop-down menu will not appear.

13.Click OK to return to Wireless Security Configuration Screen.

14.Reboot the AP.

Configuring SSID/VLANs with VLAN Tagging Enabled

With VLAN Tagging enabled (from the SSID/VLAN/Security > Mgmt VLAN tab), multiple SSID/VLANs are supported.

Parameters set on the Wireless tab can be enabled per SSID by choosing the Enable Security per SSID option.

1. Click SSID/VLAN/Security > Wireless.

2. Select the Enable Security Per SSID option. The screen will update to the following:

Figure 4-44 SSID/VLAN Configuration (VLAN Tagging Enabled)

NOTE: If you disable (uncheck) the Enable Security per SSID option, you will be able to add multiple SSID/VLANs, but the same configuration parameters (described below) will applied to all of them.

3. Click Add to configure additional SSIDs, VLANs, and their associated security profiles and RADIUS server profiles, or click Edit to modify existing SSIDs.

The Add Entries or Edit Entries screen appears. See Figure 4-45

.

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Figure 4-45 SSID/VLAN Edit Entries Screen (VLAN Tagging Enabled)

4. Enter a unique Network Name (SSID) between 1 and 32 characters. This parameter is mandatory.

NOTE: Do not use quotation marks (single or double) in the Network Name; this will cause the AP to misinterpret the name.

5. Enter a unique VLAN ID. This parameter is mandatory.

• A VLAN ID is a number from -1 to 4094. A value of -1 means that an entry is “untagged.”

• You can set the VLAN ID to “-1” or “untagged” if you do not want clients that are using a specific SSID to be members of a VLAN workgroup. Only one “untagged” VLAN ID is allowed per interface.

• The VLAN ID must match an ID used by your network; contact your network administrator if you need assistance defining the VLAN IDs.

6. Enable or disable the SSID Authorization status from the drop-down menu. SSID Authorization is the RADIUS-based authorization of the SSID for a particular client. The authorized SSIDs are sent as the tunnel attributes.

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7. Enable or disable RADIUS accounting on the VLAN/SSID under the Accounting Status drop-down menu.

8. Enable or disable RADIUS MAC authentication status on the VLAN/SSID under the RADIUS Authentication Status drop-down menu.

9. Enable or disable MAC Access Control List status on the VLAN/SSID under the MAC ACL Status drop-down menu.

10.Enter the Rekeying Interval in seconds. The default interval is 900 seconds.

11.Enter the Security Profile used by the VLAN in the Security Profile field.

NOTE: If you have two or more SSIDs per interface using a Security Profile with a security mode of Non Secure, be aware that security being applied in the VLAN is not being applied in the wireless network.

12.Define the RADIUS Server Profile Configuration for the VLAN/SSID:

• RADIUS MAC Authentication Profile

• RADIUS EAP Authentication Profile

• RADIUS Accounting Profile

If 802.1x, WPA, or 802.11i security mode is used, the RADIUS EAP Authentication Profile must have a value.

A RADIUS Server Profile for authentication for each VLAN shall be configured as part of the configuration options for that VLAN. RADIUS profiles are independent of VLANs. The user can define any profile to be the default and associate all VLANs to that profile. Four profiles are created by default, “MAC Authentication”, “EAP

Authentication”, Accounting”, and “Management”.

13.Specify a QoS Profile. See the

Enabling QoS and Adding QoS policies

section for more information.

14.If editing an entry, enable or disable the parameters on this page using Status drop-down menu. If adding a new entry, this drop-down menu will not appear.

15.Reboot the AP.

Broadcast SSID and Closed System

Broadcast SSID allows the broadcast of a single SSID when the AP is configured for multiple SSIDs. Broadcast SSID may only be enabled for a single SSID. This object can only be configured using the CLI and SNMP using a MIB browser or network management application.

Closed System manages the way probe requests are handled. If enabled, the AP will respond to probe requests with an

SSID only if the client has specified the SSID in the probe request. If the client sends a probe request with a null or “ANY”

SSID, the AP will respond with a null SSID. If disabled, the AP will respond with each configured SSID, whether or not an

SSID has been specified in the probe request. This option is disabled by default.

For more information, on Broadcast SSID and Closed System, see Knoweldgebase Answer ID 1698 at http://support.proxim.com

.

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This chapter discusses the following monitoring options:

Version:

Provides version information for the Access Point’s system components.

ICMP:

Displays statistics for Internet Control Message Protocol packets sent and received by the AP.

IP/ARP Table:

Displays the AP’s IP Address Resolution table.

Learn Table:

Displays the list of nodes that the AP has learned are on the network.

IAPP:

Provides statistics for the Inter-Access Point Protocol messages sent and received by the AP.

RADIUS:

Provides statistics for the configured RADIUS server(s).

Interfaces:

Displays the Access Point’s interface statistics (Wireless and Ethernet).

Station Statistics:

Displays statistics for stations and Wireless Distribution System links.

To monitor the AP using the HTTP/HTTPS interface, you must first log in to a web browser. See Logging In for

instructions.

You may also monitor the AP using the command line interface. See Command Line Interface (CLI)

for more information

To monitor the AP via HTTP/HTTPS:

1. Click the Monitor button located on the left-hand side of the screen. The main Monitor screen will be displayed.

Figure 5-1 Monitor Main Screen

2. Click the tab that corresponds to the statistics you want to review. For example, click Learn Table to see the list of nodes that the AP has discovered on the network.

3. If necessary, click the Refresh button to update the statistics.

Each Monitor tab is described in the remainder of this chapter.

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Version

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Version

From the HTTP interface, click the Monitor button and select the Version tab. The list displayed provides you with information that may be pertinent when calling Technical Support. With this information, your Technical Support representative can verify compatibility issues and make sure the latest software are loaded. This screen displays the following information for each Access Point component:

Serial Number: The component’s serial number, if applicable.

Component Name ID: The AP identifies a system component based on its ID. Each component has a unique identifier.

Variant: Several variants may exist of the same component (for example, a hardware component may have two variants, one with more memory than the other).

Version: Specifies the component’s version or build number. The Software Image version is the most useful information on this screen for the typical end user.

Figure 5-2 Version Monitoring Tab

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ICMP

This tab provides statistical information for both received and transmitted messages directed to the AP. Not all ICMP traffic on the network is counted in the ICMP (Internet Control Message Protocol) statistics.

Figure 5-3 ICMP Monitoring Tab

IP/ARP Table

This tab provides information based on the Address Resolution Protocol (ARP), which relates MAC Address and IP

Addresses.

Figure 5-4 IP/ARP Table Monitoring Tab

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Learn Table

This tab displays information relating to network bridging. It reports the MAC address for each node that the device has learned is on the network and the interface on which the node was detected. There can be up 10,000 entries in the Learn

Table.

Figure 5-5 Learn Table Monitoring Tab

IAPP

This tab displays statistics relating to client handovers and communications between ORiNOCO Access Points.

Figure 5-6 IAPP Monitoring Tab

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RADIUS

This tab provides RADIUS authentication, EAP/802.1x authentication, and accounting information for both the Primary and Backup RADIUS servers for each RADIUS Server Profile.

NOTE: Separate RADIUS servers can be configured for each RADIUS Server Profile.

Select the RADIUS Server Profile to view statistics on from the Select Server Profile drop-down menu.

Figure 5-7 RADIUS Monitoring Tab

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Interfaces

This tab displays statistics for the Ethernet and wireless interfaces.

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Figure 5-8 Interface Monitoring Tab (Ethernet)

Description of Interface Statistics

The following statistics are displayed for the Ethernet interface only, the wireless interface only, or for both the Ethernet and wireless interfaces:

Admin Status (Ethernet/Wireless): The desired state of the interface: Up (ready to pass packets), Down (not ready to pass packets, or Testing (testing and unable to pass packets).

Alignment Error (Ethernet): The number of frames received that are not an integral number of octets in length and do not pass the Frame Check Sequence check.

Carrier Sense Errors (Ethernet): The number of times that the carrier sense condition was lost or never asserted when attempting to transmit a frame. The count increments at most once per transmission attempt.

Deferred Transmission (Ethernet): The number of frames for which the first transmission attempt is delayed because the medium is busy.This number does not include frames involved in collisions.

Description (Ethernet/Wireless): Information about the interface (e.g., the name of the manufacturer, the product name and the version of the hardware interface).

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Duplicate Frame Count (Wireless): The number of duplicate frames received.

Ethernet Chipset (Ethernet): Identifies the chipset used to realize the interface.

Excessive Collisions (Ethernet): The number of frames for which transmission fails due to excessive collisions.

Failed ACK Count (Wireless): The number of of times an acknowledgment (or ACK) is not received when expected.

Failed Count (Wireless): The number of packets not transmitted successfully due to too many transmit attempts.

Failed RTS Count (Wireless): The number of times a Clear to Send (CTS) is not received in response to a Request to

Send (RTS).

FCS Error (Wireless): The number of Frame Check Sequence errors detected in received MAC Protocol Data Units

(MPDUs).

FCS Errors (Ethernet): The number of frames received that are an integral number of octets in length but do not pass the Frame Check Sequence check.

Frames Too Long (Ethernet): The number of frames received that exceed the maximum permitted frame size.

In Discards (Ethernet/Wireless): The number of error-free inbound packets that were chosen to be discarded to prevent their being deliverable to a higher-layer protocol. One possible reason for discarding such a packet could be to free up buffer space.

In Errors (Ethernet/Wireless): The number of inbound packets that contained errors preventing them from being deliverable to a higher-layer protocol.

In Non-unicast Packets (Ethernet/Wireless): The number of non-unicast (i.e., subnetwork-broadcast or subnetwork-multicast) packets delivered to a higher-layer protocol.

In Octets (bytes) (Ethernet/Wireless): The total number of octets received on the interface, including framing characters.

In Unicast Packets (Ethernet/Wireless): The number of subnetwork unicast packets delivered to a higher-layer protocol.

Internal MAC Recieve Errors (Ethernet): The number of frames for which reception fails due to an internal MAC sublayer transmit error. A frame is only counted if it is not counted by the Frames Too Long, Alignment Error, or FCS

Error counters.

Internal MAC Transmit Errors (Ethernet): The number of frames for which transmission fails due to an internal MAC sublayer transmit error. A frame is only counted if it is not counted by Late Collission, Excession Collision, or Carrier

Sense Error counters.

Last Change (Ethernet/Wireless):The value of the sysUpTime object at the time the interface entered its current operational state.

Late Collisions (Ethernet): The number of times that a collision is detected on a particular interface later than 512 bit-times into the transmission of a packet

MAC Address (Wireless): The station's assigned, unique MAC address,

Maximum Packet Size (Ethernet/Wireless): The size (in octets) of the largest datagram which can be sent/received

MIB Specific Definition (Ethernet/Wireless): A reference to MIB definitions specific to the particular media being used to realize the interface. For example, if the interface is an Ethernet interface, then this field refers to a document defining objects specific to ethernet.

Multicast Received Frame Count (Wireless): The number of multicast packets received.

Multicast Transmitted Frame Count (Wireless): The number of multicast packets transmitted.

Multiple Collision Frames (Ethernet): The number of successfully transmitted frames for which transmission is inhibited by more than one collision.

Multiple Retry Count (Wireless): The number of packets successfully transmitted after more than one retransmission.

Operational Status (Ethernet/Wireless): The current state of the interface: Up (ready to pass packets), Down (not ready to pass packets, or Testing (testing and unable to pass packets).

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Out Discards (Ethernet/Wireless): The number of error-free outbound packets chosen to be discarded to prevent their being transmitted. One possible reason for discarding such a packet could be to free up buffer space.

Out Errors (Ethernet/Wireless): The number of outbound packets that could not be transmitted because of errors.

Out Non-unicast Packets (Ethernet/Wireless): The total number of packets that higher-level protocols requested be transmitted to a non-unicast (i.e., a subnetwork-broadcast orsubnetwork-multicast) address, including those that were discarded or not sent.

Out Octets (bytes) (Ethernet/Wireless): The total number of octets transmitted out of the interface, including framing characters.

Out Unicast Packets (Ethernet/Wireless):The total number of packets that higher-level protocols requested be transmitted to a subnetwork-unicast address, including those that were discarded or not sent.

Output Queue Length (Ethernet/Wireless): The length of the output packet queue (in packets).

Physical Address (Ethernet): The interface's address at the protocol layer immediately below the network layer in the protocol stack.

Received Fragment Count (Wireless): The number of successfully received Data or Management MAC Protocol

Data Units (MPDUs).

Retry Count (Wireless): The number of packets successfully transmitted after one or more retransmissions.

Single Collision Frames (Ethernet): The number of successfully transmitted frames for which transmission is inhibited by exactly one collision

Speed (Ethernet/Wireless): An estimate of the interface's current bandwidth in bits per second.

SQE Test Errors (Ethernet):The number of times that the Signal Quality Error (SQE) Test Error message is generated by the physical layer signalling (PLS) sublayer.

Successful RTS Count (Wireless): The number of times a Clear to Send (CTS) is received in response to an

Request to Send (RTS).

Transmitted Fragment Count (Wireless): The number of trasnmitted fragmented packets.

Transmitted Frame Count (Wireless): This number of successfully transmitted packets.

Type (Ethernet/Wireless): The type of interface, distinguished according to the physical/link protocol(s) immediately below the network layer in the protocol stack.

Unknown Protocols (Ethernet/Wireless): The number of packets received that were discarded because of an unknown or unsupported protocol.

WEP Undecryptable Count (Wireless): The number of undecryptable WEP frames received.

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Station Statistics

This tab displays information on wireless clients attached to the AP and on Wireless Distribution System links.

Enable the Monitoring Station Statistics feature (Station Statistics are disabled by default) by checking Enable

Monitoring Station Statistics and click OK.

You do not need to reboot the AP for the changes to take effect. If clients are connected to the device or WDS links are configured for the device, the statistics will now be shown on the screen.

Click on the Refresh button in the browser window to view the latest statistics. If any new clients associate to the AP, you can see the statistics of the new clients after you click the refresh button.

Figure 5-9 Station Statistics Monitoring Tab

Description of Station Statistics

The following stations statistics are displayed:

MAC Address: The MAC address of the wireless client for which the statistics are gathered. For WDS links, this is the partner MAC address of the link.

IP Address: The IP address of the associated wireless station for which the Statistics are gathered. (0.0.0.0 for WDS links)

Interface to which the Station is connected: The interface number on which the client is connected with the AP. For

WDS links this is the interface on which the link is configured.

Station Type: The type of wireless client (STA or WDS).

MAC Protocol: The MAC protocol for this wireless client (or WDS link partner). The possible values are 802.11a,

802.11b, 802.11g

Signal / Noise: The Signal /Noise Level measured at the AP when frames are received from the associated wireless station (or WDS link partner)

Time since Last Packet Received: The time elapsed since the last frame from the associated wireless station (or

WDS link partner) was received.

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Number of Clients: The number of stations and WDS links monitored.

The following stations statistics are available through SNMP:

Octets Received: The number of octets received from the associated wireless station (or WDS link partner) by the

AP.

Unicast Frames Received: The number of Unicast frames received from the associated wireless station (or WDS link partner) by the AP.

Non-Unicast Frames Received: The number of Non-Unicast frames received (i.e. broadcast or multicast) from the associated wireless station (or WDS link partner) by the AP.

Octets Transmitted: The number of octets sent to the associated wireless station (or WDS link partner) from the AP.

Unicast Frames Transmitted: The number of Unicast frames transmitted to the associated wireless station (or WDS link partner) from the AP.

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This chapter contains information on the following Command functions:

Introduction to File Transfer via TFTP or HTTP

: Describes the available file transfer methods.

Update AP via TFTP:

Download files from a TFTP server to the AP.

Update AP via HTTP:

Download files to the AP from HTTP.

Retrieve File:

Upload configuration files from the AP to a TFTP server.

Retrieve File via HTTP:

Upload configuration files from the AP via HTTP.

Reboot:

Reboot the AP in the specified number of seconds.

Reset:

Reset all of the Access Point’s configuration settings to factory defaults.

Help Link:

Configure the location where the AP Help files can be found.

To perform commands using the HTTP/HTTPS interface, you must first log in to a web browser. See

Related Topics

for instructions.

You may also perform commands using the command line interface. See Command Line Interface (CLI)

for more information.

To perform commands via HTTP/HTTPS:

1. Click the Commands button located on the left-hand side of the screen.

Figure 6-1 Commands Main Screen

2. Click the tab that corresponds to the command you want to issue. For example, click Reboot to restart the unit.

Following a brief introduction to TFTP and HTTP file transfer, each Commands tab is described in the remainder of this chapter.

Introduction to File Transfer via TFTP or HTTP

There are two methods of transferring files to or from the AP: TFTP or HTTP (or HTTPS if enabled):

• Downloading files (Configuration, AP Image, Bootloader, Private Key, and Certificate, CLI Batch File) to the AP using one of these two methods is called “Updating the AP.”

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Introduction to File Transfer via TFTP or HTTP

• Uploading files (Configuration, CLI Batch File) from the AP is called “Retrieving Files.”

AP-700 User Guide

TFTP File Transfer Guidelines

A TFTP server must be running and configured to point to the directory containing the file.

If you do not have a TFTP server installed on your system, install the TFTP server from the ORiNOCO CD.

HTTP File Transfer Guidelines

HTTP file transfer can be performed either with or without SSL enabled.

HTTP file transfers with SSL require enabling Secure Management and Secure Socket Layer. HTTP transfers that use

SSL may take additional time.

NOTE: SSL requires Internet Explorer version 6, 128 bit encryption, Service Pack 1, and patch Q323308.

Image Error Checking During File Transfer

The Access Point performs checks to verify that an image downloaded through HTTP or TFTP is valid. The following checks are performed on the downloaded image:

• Zero Image size

• Large image size

• Non VxWorks image

• AP image

• Digital signature verification

If any of the above checks fail on the downloaded image, the Access Point deletes the downloaded image and retains the old image. Otherwise, if all checks pass successfully, the AP deletes the old image and retains the downloaded image.

These checks are to ensure that the AP does not enter an invalid image state. The storage of the two images is only temporary to ensure the proper verification; the two images will not be stored in the AP permanently.

Image error checking functions automatically in the background. No user configuration is required.

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Update AP

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Update AP via TFTP

Use the Update AP via TFTP tab to download Configuration, AP Image, Bootloader files, Certificate and Private Key files, and CLI Batch File to the AP. A TFTP server must be running and configured to point to the directory containing the file.

Figure 6-2 Update AP via TFTP Command Screen

If you do not have a TFTP server installed on your system, install the TFTP server from the ORiNOCO CD. You can either install the TFTP server from the CD Wizard or run OEM-TFTP-Server.exe found in the CD’s Xtras/SolarWinds sub-directory.

The Update AP via TFTP tab shows version information and allows you to enter TFTP information as described below.

Server IP Address: Enter the TFTP server IP Address.

– Double-click the TFTP server icon on your desktop and locate the IP address assigned to the TFTP server.

NOTE: This is the IP address that will be used to point the Access Point to the AP Image file.

File Name: Enter the name of the file to be downloaded (including the file extension).

– Copy the updated AP Image file to the TFTP server’s root folder. The default AP Image is located at

C:/Program Files/ORiNOCO/AP700/.

File Type: Select the proper file type. Choices include:

Config for configuration information, such as System Name, Contact Name, and so on.

Image for the AP Image (executable program).

Upgrade BspBl for the Bootloader software.

SSL Certificate: the digital certificate for authentication in SSL communications.

SSL Private Key: the private key for encryption in SSL communications.

SSH Public Key: the public key in SSH communications. See Secure Shell (SSH) Settings for more information.

SSH Private Key: the private key in SSH communications. See

Secure Shell (SSH) Settings

for more information.

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CLI Batch File: a CLI Batch file that contains CLI commands to configure the AP. This file will be executed by the

AP immediately after being uploaded. See

CLI Batch File

for more information.

File Operation: Select either Update AP or Update AP & Reboot. You should reboot the AP after downloading files.

Update AP via HTTP

Use the Update AP via HTTP tab to download Configuration, AP Image, Bootloader files, and Certificate and Private Key files to the AP.

Once on the Update AP screen, click on the via HTTP tab.

Figure 6-3 Update AP via HTTP Command Screen

The Update AP via HTTP tab shows version information and allows you to enter HTTP information as described below.

1. Select the File Type that needs to be updated from the drop-down box. Choices include:

– Image for the AP Image (executable program).

Config for configuration information, such as System Name, Contact Name, and so on.

SSL Certificate: the digital certificate for authentication in SSL communications.

SSL Private Key: the private key for encryption in SSL communications.

Upgrade BSPBL: the Bootloader software.

CLI Batch File: a CLI Batch file that contains CLI commands to configure the AP. This file will be executed by the

AP immediately after being uploaded. See

CLI Batch File

for more information.

SSH Public Key: the public key in SSH communications. See Secure Shell (SSH) Settings for more information.

SSH Private Key: the private key in SSH communications. See

Secure Shell (SSH) Settings

for more information.

2. Use the Browse button or manually type in the name of the file to be downloaded (including the file extension) in the

File Name field. If typing the file name, you must include the full path and the file extension in the file name text box.

3. To initiate the HTTP Update operation, click the Update AP button.

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A warning message gets displayed that advises the user that a reboot of the device will be required for changes to take effect.

Figure 6-4 Warning Message

4. Click OK to continue with the operation or Cancel to abort the operation.

NOTE: An HTTP file transfer using SSL may take extra time.

If the operation completes successfully the following screen appears.

Figure 6-5 Update AP Successful

If the operation did not complete successfully the following screen appears, and the reason for the failure is displayed.

Figure 6-6 Update AP Unsuccessful

Retrieve File

Retrieve File via TFTP

Use the Retrieve File via TFTP tab to upload files from the AP to the TFTP server. The TFTP server must be running and configured to point to the directory to which you want to copy the uploaded file. We suggest you assign the file a meaningful name, which may include version or location information.

If you don’t have a TFTP server installed on your system, install the TFTP server from the ORiNOCO CD. You can either install the TFTP server from the CD Wizard or run OEM-TFTP-Server.exe found in the CD’s Xtras/SolarWinds sub-directory.

The Retrieve AP via TFTP tab shows version information and allows you to enter TFTP information as described below.

Server IP Address: Enter the TFTP server IP Address.

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– Double-click the TFTP server icon on your desktop and locate the IP address assigned to the TFTP server.

File Name: Enter the name of the file to be uploaded.

File Type: Select the type of file to be uploaded: Config file, CLI Batch File, or CLI Batch (Error) Log.

Use the following procedure to retrieve a file from an AP to a TFTP server:

1. If retrieving a Config file, configure all the required parameters in their respective tabs. Reboot the device.

2. Retrieve and store the file. Click the Retrieve File button to initiate the upload of the file from the AP to the TFTP server.

3. If you retrieved a Configuration file, update the file as necessary.

4. If you retrieved a CLI Batch File or CLI Batch Log, you can examine the file using a standard text editor. For more

information on CLI Batch Files, see CLI Batch File

.

Figure 6-7 Retrieve File via TFTP Command Screen

Retrieve File via HTTP

Use the Retrieve File via HTTP tab to retrieve configuration files, CLI Batch Files, or CLI Batch Logs from the AP. Select the type of file (Config, CLI Batch File, or CLI Batch Log) from the File Type drop-down menu.

For more information on CLI Batch Files and CLI Batch Logs see CLI Batch File .

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Retrieve File

Click on the Retrieve File button to initiate the operation.

AP-700 User Guide

Figure 6-8 Retrieve File via HTTP Command Screen

A confirmation message is displayed, asking if the user wants to proceed with retrieving the file.

Figure 6-9 Retrieve File Confirmation Dialog

Click OK to continue with the operation or Cancel to abort the operation. On clicking OK, the File Download window appears.

Figure 6-10 File Download Dialog Box

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On clicking the Save button the Save As window displays, where the user is prompted to choose the filename and location where the file is to be downloaded. Select an appropriate filename and location and click OK.

Reboot

Use the Reboot tab to save configuration changes (if any) and reset the AP. Enter a value between 0 and 65535 seconds; entering a value of 0 (zero) seconds causes an immediate reboot. Note that Reset, described below, does not save configuration changes.

CAUTION: Rebooting the AP will cause all users who are currently connected to lose their connection to the network until the AP has completed the restart process and resumed operation.

Figure 6-11 Reboot Command Screen

Reset

Use the Reset tab to restore the AP to factory default conditions. Since this will reset the AP’s current IP address, a new

IP address must be assigned. See

Recovery Procedures for more information.

CAUTION: Resetting the AP to its factory default configuration will permanently overwrite all changes that have made to the unit. The AP will reboot automatically after this command has been issued.

Figure 6-12 Reset to Factory Defaults Command Screen

NOTE: The AP may also be reset from the RESET button located on the side of the unit. However, this action will not reset the unit to factory default settings.

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Help Link

Use the Help tab to configure the location of the AP Help files.

During initialization, the AP on-line help files are downloaded to the default location:

C:/Program Files/ORiNOCO/AP700/HTML/index.htm.

To enable the Help button on each page of the Web interface to access the help files, however, copy the entire Help folder to a web server, then specify the new HTTP path in the Help Link box.

NOTE: The configured Help Link must point to an HTTP address in order to enable the Help button on each page of the

Web interface.

NOTE: Use the forward slash character ("/") rather than the backslash character ("\") when configuring the Help Link location.

NOTE: Add the AP’s management IP address into the Internet Explorer list of Trusted Sites.

Figure 6-13 Help Link Configuration Screen

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This chapter provides information on the following:

Troubleshooting Concepts

Symptoms and Solutions

Recovery Procedures

Related Applications

NOTE: This section helps you locate problems related to the AP device setup. For details about RADIUS, TFTP, serial communication programs (such as HyperTerminal), Telnet applications, or web browsers, please see the documentation that came with the respective application for assistance.

Troubleshooting Concepts

The following list identifies important troubleshooting concepts and topics. The most common initialization and installation problems relate to IP addressing. For example, you must have valid IP addresses for both the AP and the management computer to access the unit’s HTTP interface.

IP Address management is fundamental.

Factory default units are set for “Dynamic” (DHCP) IP Address assignment. The default IP address for the AP is

169.254.128.132 if your network does not have a DHCP server. If you connect the AP to a network with an active

DHCP server, then use ScanTool to locate the IP address of your unit. If a DHCP server is not active on your subnet, then use ScanTool to assign a static IP address to the unit.

The Trivial File Transfer Protocol (TFTP) provides a means to download and upload files. These files include the AP Image (executable program) and configuration files.

If the AP password is lost or forgotten, you will need to reset to default values. The Reset to Factory Default

Procedure resets configuration, but does not change the current AP Image.

The AP Supports a Command Line Interface (CLI). If you are having trouble locating your AP on the network,

connect to the unit directly using the serial interface and see Command Line Interface (CLI)

for CLI command syntax and parameter names.

ScanTool does not work over routers. You must be connected to the same subnet/physical LAN segment to use

ScanTool. Note that ScanTool also works over the wireless interface; you can run it on a wireless client connected to the target AP or an AP connected to the same LAN segment/subnet.

If all else fails… Use the Forced Reload Procedure to erase the current AP Image and configuration file and then

download a new image.

Symptoms and Solutions

Connectivity Issues

Connectivity issues include any problem that prevents you from powering up or connecting to the AP.

AP Unit Will Not Boot - No LED Activity

1. Make sure your power source is operating.

2. Make sure all cables are connected to the AP correctly.

3. If you are using Active Ethernet, make sure you are using a Category 5, foiled, twisted pair cable to power the AP.

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Serial Link Does Not Work

1. Make sure you are using a standard, straight-through, 9-pin serial cable.

2. Double-check the physical network connections.

3. Make sure your PC terminal program (such as HyperTerminal) is active and configured to the following values:

– Com Port: (COM1, COM2, etc. depending on your computer);

– Baud rate: 9600; Data bits: 8; Stop bits: 1; Flow Control: None; Parity: None;

– Line Feeds with Carriage Returns

(In HyperTerminal select:

File > Properties > Settings > ASCII Setup > Send Line Ends with Line Feeds)

Ethernet Link Does Not Work

1. Double-check the physical network connections. Use a known-good unit to make sure the network connection is present. Once you have the AP IP address, you can use the “Ping” command over Ethernet to test the IP Address. If the AP responds to the Ping, then the Ethernet Interface is working properly.

2. By default, the Access Point will attempt to automatically detect the Ethernet settings. However, if you are having problems with the Ethernet link, manually configure the Access Point’s Ethernet settings. For example, if your switch

operates at 100 Mbits/sec/Full Duplex, manually configure the Access Point to use these settings (see Ethernet ). If

you cannot access the unit over Ethernet, then use the CLI interface over the serial port to configure the Ethernet port

(see

Command Line Interface (CLI) and

Set Ethernet Speed and Transmission Mode ).

3. Perform network infrastructure troubleshooting (check switches, routers, etc.).

Basic Software Setup and Configuration Problems

Lost AP, Telnet, or SNMP Password

1. Perform the

Reset to Factory Default Procedure in this guide. This procedure resets system and network parameters,

but does not affect the AP Image.

The default AP HTTP password is “public”. The default Telnet password and the default SNMP password are also

“public”.

Client Computer Cannot Connect

1. Client computers should have the same Network Name and security settings as the AP.

2. Network Names should be allocated and maintained by the Network Administrator.

3. See the documentation that came with your client card for additional troubleshooting suggestions.

AP Has Incorrect IP Address

1. Default IP Address Assignment mode is dynamic (DHCP). If you do not have a DHCP server on your network, the default IP Address is 169.254.128.132. If you have more than one unintialized AP connected to the network, they will all have the same default IP address and you will not be able to communicate with them (due to an IP address conflict). In this case, assign each AP a static IP address via the serial cable or turn off all units but one and change the IP address using ScanTool one at a time.

2. The AP only contacts a DHCP server during boot-up. If your network’s DHCP server is not available while the AP is booting, the device will use the default IP address (169.254.128.132). Reboot the AP once your DHCP server is on-line again or use the ScanTool to find the Access Point’s current IP address.

3. To find the unit’s current IP address if using DHCP, open the IP Client Table in the DHCP Server and match the

Access Point’s IP address to its MAC address (found on the product label). Alternatively, use ScanTool to identify an

Access Point’s current IP address.

4. Once you have the current IP address, use the HTTP or CLI Interface to change the unit’s IP settings, if necessary.

5. If you use static IP Address assignments, and cannot access the unit over Ethernet, use the

Initializing the IP Address using CLI procedure. Once the IP Address is set, you can use the Ethernet Interface to complete configuration.

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6. Perform the Reset to Factory Default Procedure

in this guide. This will reset the unit to “DHCP” mode. If there is a

DHCP Server on the network, the DHCP Server will assign an IP Address to the AP.

HTTP Interface or Telnet Interface Does Not Work

1. Make sure you are using a compatible browser:

– Microsoft Internet Explorer 6 with Service Pack 1 or later

– Netscape 7.1 or later

2. Make sure you have the proper IP address. Enter your Access Point’s IP Address in the browser address bar, similar to this example:

http://192.168.1.100

When the Enter Network Password window appears, leave the User Name field empty and enter the HTTP password in the Password field. The default HTTP password is “public”.

3. Use the CLI over the serial port to check the IP Access Table, which can be restricting access to Telnet and HTTP.

HTML Help Files Do Not Appear

1. Verify that the HTML Help files are installed in the default directory:

C:\Program Files\ORiNOCO\AP700\HTML\

If the Help files are not located in this folder, contact your network administrator to find out where the Help files are located on your server.

2. Copy the entire folder to your Web server.

3. Perform the following steps to specify the path for the Help files: a. Click the Commands button in the HTTP interface.

b. Select the Help tab located at the top of the screen.

c. Enter the pathname where the Help files are located in the Help Link box. This must be an HTTP address.

d. Click OK.

Telnet CLI Does Not Work

1. Make sure you have the proper IP Address. Enter your AP IP address in the Telnet connection dialog, from a DOS prompt, type:

C:\> telnet <AP IP Address>

2. Use the CLI over the serial port to check the IP Access Table, which can be restricting access to Telnet and HTTP.

TFTP Server Does Not Work

1. Make sure the TFTP Server has been started.

2. Verify the IP address of the TFTP Server. The server may be local or remote, so long as it has a valid IP address.

3. Configure the TFTP Server to “point” to the folder containing the file to be downloaded (or to the folder in which the file is to be uploaded).

4. Verify that you have entered the proper AP Image file name (including the file extension) and directory path (if needed).

5. If you have a problem uploading a file, verify that the TFTP server is configured to allow uploads (typically the default setting is to allow only downloads).

Client Connection Problems

Client Software Finds No Connection

Make sure you have configured your client software with the proper Network Name and Security settings. Network

Names and WEP Keys are typically allocated and maintained by your network administrator.

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Client PC Card Does Not Work

1. Make sure you are using the latest PC Card driver software.

2. Download and install the latest ORiNOCO client software from http://support.proxim.com

.

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Intermittent Loss of Connection

1. Make sure you are within range of an active AP.

2. You can check the signal strength using the signal strength gauge on your client software.

Client Does Not Receive an IP Address - Cannot Connect to Internet

1. If the AP is configured as a DHCP server, open the Web-browser Interface and select the Configure button and then the Network tab to make sure the proper DHCP settings are being used.

2. If you are not using the DHCP server feature on the AP, then make sure that your local DHCP server is accessible from the Access Point’s subnet.

3. If using Active Ethernet, make sure you are not using a crossover Ethernet cable between the AP and the hub.

VLAN Operation Issues

Verifying Proper Operation of the VLAN Feature

The correct VLAN configuration can be verified by “pinging” both wired and wireless hosts from both sides of the AP device and the network switch. Traffic can be “sniffed” on both the wired (Ethernet) and wireless (WDS) backbones (if configured). Bridge frames generated by wireless clients and viewed on one of the backbones should contain IEEE

802.1Q compliant VLAN headers or tags. The VLAN ID in the headers should correspond to one of the VLAN User IDs configured for the AP.

NOTE: The AP-700 supports 16 VLAN/SSID pairs, each with a configured security profile.

VLAN Workgroups

The correct VLAN assignment can be verified by pinging the AP to ensure connectivity, by pinging the switch to ensure

VLAN properties, and by pinging hosts past the switch to confirm the switch is functional. Ultimately, traffic can be

“sniffed” on the Ethernet or WDS interfaces (if configured) using third-party packages. Most problems can be avoided by ensuring that 802.1Q compliant VLAN tags containing the proper VLAN ID have been inserted in the bridged frames. The

VLAN ID in the header should correspond to the user’s assigned network name.

What if network traffic is being directed to a nonexistent host?

• All sessions are disconnected, traffic is lost, and a Forced Reload is necessary. See Forced Reload Procedure .

• Workaround: you can configure the switch to mimic the nonexistent host.

I have just configured the Management ID and now I can't manage the AP?

• Check to ensure your password is correct. If your password is incorrect or all inbound packets do NOT have the

correct tag, then a Forced Reload is necessary. See Forced Reload Procedure .

CAUTION: The

Forced Reload Procedure

disconnects all users and resets all values to factory defaults.

Active Ethernet (AE)

The AP Does Not Work

1. Verify that you are using a standard UTP Category 5 cable.

2. Try a different port on the same AE hub (remember to move the input port accordingly) – if it works, there is probably a faulty port or bad RJ-45 port connection.

3. If possible, try to connect the AP to a different AE hub.

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4. Try using a different Ethernet cable – if it works, there is probably a faulty connection over the long cable, or a bad

RJ-45 connection.

5. Check power plug and hub.

6. If the Ethernet link goes down, check the cable, cable type, switch, and hub.

There Is No Data Link

1. Verify that the indicator for the port is “on.”

2. Verify that the AE hub is connected to the Ethernet network with a good connection.

3. Verify that the Ethernet cable is Category 5 or better and is less than 100 meters (approximately 325 feet) in length from the Ethernet source to the AP.

4. Try to connect a different device to the same port on the AE hub – if it works and a link is established, there is probably a faulty data link in the AP.

5. Try to re-connect the AP to a different output port (remember to move the input port accordingly) – if it works, there is probably a faulty output or input port in the AE hub or a bad RJ-45 connection.

“Overload” Indications

1. Verify that you are not using a cross-over cable between the AE output port and the AP.

2. Verify that there is no short over any of the twisted pair cables.

3. Move the device into a different output port (remember to move the input port accordingly); if it works, there is probably a faulty port or bad RJ-45 connection.

Recovery Procedures

The most common installation problems relate to IP addressing. For example, without the TFTP server IP Address, you will not be able to download a new AP Image to the AP. IP Address management is fundamental. We suggest you create a chart to document and validate the IP addresses for your system.

If the password is lost or forgotten, you will need to reset the AP to default values. The Reset to Factory Default

Procedure

resets configuration settings, but does not change the current AP Image.

If the AP has a corrupted software image, follow the

Forced Reload Procedure

to erase the current AP Image and download a new image.

Reset to Factory Default Procedure

Use this procedure to reset the network configuration values, including the Access Point’s IP address and subnet mask.

The current AP Image is not deleted. Follow this procedure if you forget the Access Point’s password:

1. Press and hold the RELOAD button for 10 seconds.

NOTE: You need to use a pin or the end of a paperclip to press a button.

The AP reboots, and the factory default network values are restored.

2. If not using DHCP, use the ScanTool or use CLI over a serial connection to set the IP address, subnet mask, and other

IP parameters. See

Command Line Interface (CLI)

for CLI information.

Forced Reload Procedure

Use this procedure to erase the current AP Image and configuration file and download a new AP Image. In some cases, specifically when a missing or corrupted AP Image prevents successful booting, you may need to use ScanTool or the

Bootloader CLI to download a new executable AP Image.

For this procedure, you will first erase the AP Image currently installed on the unit and then use either ScanTool or the

Bootloader CLI (over the serial port) to set the IP address and download a new AP Image. Follow these steps:

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1. While the unit is running, press the RESET button.

NOTE: You need to use a pin or the end of a paperclip to press a button.

The AP reboots and the indicators begin to flash.

CAUTION: By completing Step 2, the firmware in the AP will be erased. You will need an Ethernet connection, a TFTP server, and a serial cable (if using the Bootloader CLI) to reload firmware.

2. Press and hold the RELOAD button for about 20 seconds until the POWER LED turns amber.

The AP deletes the current AP Image.

3. Follow one of the procedures below to load a new AP Image to the Access Point:

Download a New Image Using ScanTool

Download a New Image Using the Bootloader CLI

Download a New Image Using ScanTool

To download the AP Image, you will need an Ethernet connection to the computer on which the TFTP server resides and to a computer that is running ScanTool (this is either two separate computers connected to the same network or a single computer running both programs).

ScanTool detects if an Access Point does not have a valid software image installed. In this case, the TFTP Server and

Image File Name parameters are enabled in the ScanTool’s Change screen so you can download a new image to the unit. (These fields are grayed out if ScanTool does not detect a software image problem.)

Preparing to Download the AP Image

Before starting, you need to know the Access Point’s IP address, subnet mask, the TFTP Server IP Address, and the AP

Image file name. Make sure the TFTP server is running and configured to point to the folder containing the image to be downloaded.

Download Procedure

Follow these steps to use ScanTool to download a software image to an Access Point with a missing image:

1. Download the latest software from http://support.proxim.com

(Knowledgebase Answer ID 1686).

1. Copy the latest software updates to your TFTP server.

2. Launch ScanTool.

3. Highlight the entry for the AP you want to update and click Change.

4. Set IP Address Type to Static.

NOTE: You need to assign static IP information temporarily to the Access Point since its DHCP client functionality is not available when no image is installed on the device.

5. Enter an unused IP address that is valid on your network in the IP Address field. You may need to contact your network administrator to get this address.

6. Enter the network’s Subnet Mask in the field provided.

7. Enter the network’s Gateway IP Address, if necessary. You may need to contact your network administrator to get this address. You should only need to enter the default gateway address (169.254.128.133) if the Access Point and the TFTP server are separated by a router.

8. Enter the IP address of your TFTP server in the field provided.

9. Enter the Image File Name (including the file extension). Enter the full directory path and file name. If the file is located in the default TFTP directory, you need enter only the file name.

10.Click OK.

The Access Point will reboot and the download will begin automatically. You should see downloading activity begin after a few seconds within the TFTP server’s status screen.

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11.Click OK when prompted that the device has been updated successfully to return to the Scan List screen.

12.Click Cancel to close the ScanTool.

13.When the download process is complete, configure the AP as described in

Installation and Initialization

and Advanced

Configuration .

Download a New Image Using the Bootloader CLI

To download the AP Image, you will need an Ethernet connection to the computer on which the TFTP server resides.

This can be any computer on the LAN or connected to the AP with a cross-over Ethernet cable.

You must also connect the AP to a computer with a standard serial cable and use a terminal client, such as

HyperTerminal. From the terminal, enter CLI Commands to set the IP address and download an AP Image.

Preparing to Download the AP Image

Before starting, you need to know the Access Point’s IP address, subnet mask, the TFTP Server IP Address, and the AP

Image file name. Make sure the TFTP server is running and configured to point to the folder containing the image to be downloaded.

Download Procedure

1. Download the latest software from http://support.proxim.com

(Knowledgebase Answer ID 1686).

2. Copy the latest software updates to your TFTP server’s default directory.

3. Use a straight-through serial cable to connect the Access Point’s serial port to your computer’s serial port.

4. Open your terminal emulation program (like HyperTerminal) and set the following connection properties:

• Com Port: <COM1, COM2, etc., depending on your computer>

• Baud rate: 9600

• Data Bits: 8

• Stop bits: 1

• Flow Control: None

• Parity: None

5. Under File > Properties > Settings > ASCII Setup, enable the Send line ends with line feeds option.

HyperTerminal sends a line return at the end of each line of code.

6. Press the RESET button on the AP.

The terminal display shows Power On Self Tests (POST) activity. After approximately 30 seconds, a message indicates: Sending Traps to SNMP manager periodically. After this message appears, press the ENTER key repeatedly until the following prompt appears:

[Device name]>

7. Enter only the following statements:

[Device name]> show (to view configuration parameters and values)

[Device name]> set ipaddrtype static

[Device name]> set ipaddr <Access Point IP Address>

[Device name]> set ipsubmask <IP Mask>

[Device name]> set tftpipaddr <TFTP Server IP Address>

[Device name]> set tftpfilename <AP Image File Name, including file extension>

[Device name]> set ipgw <Gateway IP Address>

[Device name]> show (to confirm your new settings)

[Device name]> reboot

Example:

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[Device name]> show

[Device name]> set ipaddrtype static

[Device name]> set ipaddr 10.0.0.12

[Device name]> set ipsubmask 255.255.255.0

[Device name]> set tftpipaddr 10.0.0.20

[Device name]> set tftpfilename MyImage.bin

[Device name]> set ipgw 10.0.0.30

[Device name]> show

[Device name]> reboot

The AP will reboot and then download the image file. You should see downloading activity begin after a few seconds within the TFTP server’s status screen.

8. When the download process is complete, configure the AP as described in

Installation and Initialization

and Advanced

Configuration .

Setting IP Address using Serial Port

Use the following procedure to set an IP address over the serial port using the CLI. The network administrator typically provides the AP IP address.

Hardware and Software Requirements

• Standard straight-through serial data (RS-232) cable with a one male DB-9 connector and one female DB-9 connector. The AP comes with a female 9-pin serial port.

• ASCII Terminal software, such as HyperTerminal.

Attaching the Serial Port Cable

1. Connect one end of the serial cable to the AP and the other end to a serial port on your computer.

2. Power on the computer and AP, if necessary.

Initializing the IP Address using CLI

After installing the serial port cable, you may use the CLI to communicate with the AP. CLI supports most generic terminal emulation programs, such as HyperTerminal (which is included with the Windows operating systems). In addition, many web sites offer shareware or commercial terminal programs you can download. Once the IP address has been assigned, you can use the HTTP interface or the CLI over Telnet to complete configuration.

Follow these steps to assign the AP an IP address:

1. Open your terminal emulation program (like HyperTerminal) and set the following connection properties:

• Com Port: <COM1, COM2, etc., depending on your computer>

• Baud rate: 9600

• Data Bits: 8

• Stop bits: 1

• Flow Control: None

• Parity: None

2. Under File > Properties > Settings > ASCII Setup, enable the Send line ends with line feeds option.

HyperTerminal sends a line return at the end of each line of code.

3. Press the RESET button on the AP.

The terminal display shows Power On Self Tests (POST) activity, and then displays a CLI prompt, similar to the example below. This process may take up to 90 seconds.

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[Device name]> Please enter password:

4. Enter the CLI password (default is public).

The terminal displays a welcome message and then the CLI Prompt:

[Device name]>

5. Enter show ip. Network parameters appear:

AP-700 User Guide

Figure 7-1 Result of “show ip” CLI Command

6. Change the IP address and other network values using set and reboot CLI commands, similar to the example below

(use your own IP address and subnet mask). Note that IP Address Type is set to Dynamic by default. If you have a

DHCP server on your network, you should not need to manually configure the Access Point’s IP address; the Access

Point will obtain an IP address from the network’s DHCP server during boot-up.

After each entry the CLI reminds you to reboot; however wait to reboot until all commands have been entered.

[Device name]> set ipaddrtype static

[Device name]> set ipaddr <IP Address>

[Device name]> set ipsubmask <IP Subnet Mask>

[Device name]> set ipgw <Default Gateway IP Address>

[Device name]> show ip (to confirm your new settings)

[Device name]> reboot 0

7. After the AP reboots, verify the new IP address by reconnecting to the CLI and enter a show ip command.

Alternatively, you can ping the AP from a network computer to confirm that the new IP address has taken effect.

8. When the proper IP address is set, use the HTTP interface or CLI over Telnet to configure the rest of the unit’s operating parameters.

Related Applications

RADIUS Authentication Server

If you enabled RADIUS Authentication on the AP, make sure that your network’s RADIUS servers are operational.

Otherwise, clients will not be able to log in. There are several reasons the authentication server services might be unavailable, here are two typical things to check:

• Make sure you have the proper RADIUS authentication server information setup configured in the AP. Check the

RADIUS Authentication Server’s Shared Secret and Destination Port number (default is 1812; for RADIUS

Accounting, the default is 1813).

• Make sure the RADIUS authentication server RAS setup matches the AP.

TFTP Server

The “Trivial File Transfer Protocol” (TFTP) server allows you to transfer files across a network. You can upload configuration files from the AP for backup or copying, and you can download configuration files or new software images.

The TFTP software is located on the ORiNOCO AP Installation CD-ROM.

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If a TFTP server is not configured and running, you will not be able to download and upload images and configuration files to/from the AP. Remember that the TFTP server does not have to be local, so long as you have a valid TFTP IP address. Note that you do not need a TFTP server running unless you want to transfer files to or from the AP.

After the TFTP server is installed:

• Check to see that TFTP is configured to point to the directory containing the AP Image.

• Make sure you have the proper TFTP server IP Address, the proper AP Image file name, and that the TFTP server is connected.

• Make sure the TFTP server is configured to both send and receive, with no time-out.

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A

This section discusses the following:

General Notes

Command Line Interface (CLI) Variations

CLI Command Types

Using Tables and Strings

Configuring the AP using CLI commands

Set Basic Configuration Parameters using CLI Commands

Other Network Settings

CLI Monitoring Parameters

Parameter Tables

CLI Batch File

CLI commands can be used to initialize, configure, and manage the Access Point.

• CLI commands may be entered in real time through a keyboard or submitted with CLI scripts.

• A CLI Batch file is a user-editable configuration file that provides a user-friendly way to change the AP configuration through a file upload. The CLI Batch file is an ASCII file that facilitates Auto Configuration because it does not require the user to access one of the AP’s management interfaces to make configuration changes as is required with the proprietary LTV format configuration file.

• The CLI is available through both the Serial Port interface and over the Ethernet interface using Telnet.

NOTE: All CLI commands and parameters are case-sensitive.

General Notes

Prerequisite Skills and Knowledge

To use this document effectively, you should have a working knowledge of Local Area Networking (LAN) concepts, network access infrastructures, and client-server relationships. In addition, you should be familiar with software setup procedures for typical network operating systems and servers.

Notation Conventions

• Computer prompts are shown as constant width type. For example: [Device-Name]>

• Information that you input as shown is displayed in bold constant width type. For example:

[Device name]> set ipaddr 10.0.0.12

• The names of keyboard keys, software buttons, and field names are displayed in bold type. For example: Click the

Configure button.

• Screen names are displayed in bold italics. For example, the System Status screen.

Important Terminology

• Configuration Files - Database files containing the current Access Point configuration. Configuration items include the

IP Address and other network-specific values. Config files may be downloaded to the Access Point or uploaded for backup or troubleshooting.

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• Download vs. Upload - Downloads transfer files to the Access Point. Uploads transfer files from the Access Point. The

TFTP server performs file transfers in both directions.

• Group - A logical collection of network parameter information. For example, the System Group is composed of several related parameters. Groups can also contain Tables. All items for a given Group can be displayed with a show

<Group> CLI Command.

• Image File - The Access Point software executed from RAM. To update an Access Point you typically download a new

Image File. This file is often referred to as the “AP Image”.

• Parameter - A fundamental network value that can be displayed and may be changeable. For example, the Access

Point must have a unique IP Address and the Wireless interface must be assigned an SSID. Change parameters with the CLI set Command, and view them with the CLI show Command.

• Table - Tables hold parameters for several related items. For example, you can add several potential managers to the

SNMP Table. All items for a given Table can be displayed with a show <Table> CLI Command.

• TFTP - Refers to the TFTP Server, used for file transfers.

Navigation and Special Keys

This CLI supports the following navigation and special key functions to move the cursor along the prompt line.

Key Combination

Delete or Backspace

Ctrl-A

Ctrl-E

Ctrl-F

Ctrl-B

Ctrl-D

Ctrl-U

Ctrl-P

Ctrl-N

Tab

?

Operation

Delete previous character

Move cursor to beginning of line

Move cursor to end of line

Move cursor forward one character

Move cursor back one character

Delete the character the cursor is on

Delete all text to left of cursor

Go to the previous line in the history buffer

Go to the next line in the history buffer

Complete the command line

List available commands

CLI Error Messages

The following table describes the error messages associated with improper inputs or expected CLI behavior.

Error Message

Syntax Error

Invalid Command

Invalid Parameter Name

Description

Invalid syntax entered at the command prompt.

A non-existent command has been entered at the command prompt.

An invalid parameter name has been entered at the command prompt.

Invalid Parameter Value

Invalid Table Index

An invalid parameter value has been entered at the command prompt.

An invalid table index has been entered at the command prompt.

Invalid Table Parameter An invalid table parameter has been entered at the command prompt.

Invalid Table Parameter Value An invalid table parameter value has been entered at the command prompt.

Read Only Parameter

Incorrect Password

Download Unsuccessful

Upload Unsuccessful

User is attempting to configure a read-only parameter.

An incorrect password has been entered in the CLI login prompt.

The download operation has failed due to incorrect TFTP server IP Address or file name.

The upload operation has failed due to incorrect TFTP server IP Address or file name.

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Command Line Interface (CLI) Variations

Administrators use the CLI to control Access Point operation and monitor network statistics. The AP supports two types of CLI: the Bootloader CLI and the normal CLI. The Bootloader CLI provides a limited command set, and is used when the current AP Image is bad or missing. The Bootloader CLI allows you to assign an IP Address and download a new image. Once the image is downloaded and running, the Access Point uses the normal CLI. This guide covers the normal

CLI unless otherwise specified.

Bootloader CLI

The Bootloader CLI is a minimal subset of the normal CLI used to perform initial configuration of the AP. This interface is only accessible via the serial interface if the AP does not contain a software image or a download image command over

TFTP has failed.

The Bootloader CLI provides you with the ability to configure the initial setup parameters as well as download a software image to the device.

The following functions are supported by the Bootloader CLI:

• configuration of initial device parameters using the set command

show command to view the device’s configuration parameters

help command to provide additional information on all commands supported by the Bootloader CLI

reboot command to reboot the device

The parameters supported by the Bootloader CLI (for viewing and modifying) are:

• System Name

• IP Address Assignment Type

• IP Address

• IP Mask

• Gateway IP Address

• TFTP Server IP Address

• Image File Name (including the file extension)

The following lists display the results of using the help command in the Bootloader CLI:

Figure A-1 Results of “help” bootloader CLI command

The following lists display the results of using the show command in the Bootloader CLI:

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Figure A-2 Results of “show” bootloader CLI command

CLI Command Types

This guide divides CLI Commands into two categories: Operational and Parameter Controls.

Operational CLI Commands

These commands affect Access Point behavior, such as downloading, rebooting, and so on. After entering commands

(and parameters, if any) press the Enter key to execute the Command Line.

Operational commands include:

?: Typing a question mark lists CLI Commands or parameters, depending on usage (you do not need to type Enter after typing this command)

done, exit, quit: Terminates the CLI session

download: Uses a TFTP server to download “image” files, “config” files, “bootloader upgrade” files, “SSL certificates”,

“SSL private keys”, “SSH public keys”, “SSH private keys”, or “CLI Batch Files” to the Access Point

help: Displays general CLI help information or command help information, such as command usage and syntax

history: Remembers commands to help avoid re-entering complex statements

passwd: Sets the Access Point’s CLI password

reboot: Reboots the Access Point in the specified time

search: Lists the parameters in a specified Table

upload: Uses TFTP server to upload “config” files from Access Point to TFTP default directory or specified path

? (List Commands)

This command can be used in a number of ways to display available commands and parameters.

The following table lists each operation and provides a basic example. Following the table are detailed examples and display results for each operation.

Operation

Display the Command List (Example 1)

Display commands that start with specified letters

(Example 2)

Display parameters for set and show Commands

(Examples 3a and 3b)

Prompt to enter successive parameters for

Commands (Example 4)

Example 1. Display Command list

To display the Command List, enter ?.

Basic Example

[Device-Name]>?

[Device-Name]>s?

[Device-Name]>set ?

[Device-Name]>show ipa?

[Device-Name]>download ?

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[Device-Name]>?

AP-700 User Guide

Figure A-3 Result of “?” CLI command

Example 2. Display specific Commands

To show all commands that start with specified letters, enter one or more letters, then ? with no space between letters and ?.

[Device-Name]>s?

Figure A-4 Result of “s?” CLI command

Example 3. Display parameters for set and show

Example 3a allows you to see every possible parameter for the set (or show) commands. Notice from example 3a that the list is very long. Example 3b shows how to display a subset of the parameters based on initial parameter letters.

Example 3a. Display every parameter that can be changed

[Device-Name]>set ?

.

.

.

.

Figure A-5 Result of “set ?” CLI command

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Example 3b. Display parameters based on letter sequence

This example shows entries for parameters that start with the letter “i”. The more letters you enter, the fewer the results returned. Notice that there is no space between the letters and the question mark.

[Device-Name]> show ipa?

Figure A-6 Result of “show ipa?” CLI command

[Device-Name]> show iparp?

Figure A-7 Result of “show iparp?” CLI command

Example 4. Display Prompts for Successive Parameters

Enter the command, a space, and then ?. Then, when the parameter prompt appears, enter the parameter value. The parameter is changed and a new CLI line is echoed with the new value (in the first part of the following example, the value is the IP Address of the TFTP server).

After entering one parameter, you may add another ? to the new CLI line to see the next parameter prompt, and so on until you have entered all of the required parameters. The following example shows how this is used for the download

Command. The last part of the example shows the completed download Command ready for execution.

[Device-Name]> download ?

<TFTP IP Address>

[Device-Name]> download 192.168.0.101 ?

<File Name>

[Device-Name]> download 192.168.0.101 apimage ?

<file type (config/img/bootloader)>

[Device-Name]> download 192.168.0.101 apimage img <CR> done, exit, quit

Each of the following commands ends a CLI session:

[Device-Name]> done

[Device-Name]> exit

[Device-Name]> quit download

Downloads the specified file from a TFTP server to the Access Point. Executing download in combination with the asterisks character (“*”) will make use of the previously set TFTP parameters. Executing download without parameters will display command help and usage information.

1. Syntax to download a file:

[Device-Name]>download <tftp server address> <path and filename> <file type>

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Example:

[Device-Name]>download 192.168.1.100 APImage2 img

2. Syntax to display help and usage information:

[Device-Name]>download

3. Syntax to execute the download Command using previously set (stored) TFTP Parameters:

[Device-Name]>download *

AP-700 User Guide help

Displays instructions on using control-key sequences for navigating a Command Line and displays command information and examples.

1. Using help as the only argument:

[Device-Name]>help

Figure A-8 Results of “help” CLI command

2. Complete command description and command usage can be provided by:

[Device-Name]>help <command name>

[Device-Name]><command name> help history

Shows content of Command History Buffer. The Command History Buffer stores command statements entered in the current session. To avoid re-entering long command statements, use the keyboard “up arrow” (Ctrl-P) and “down arrow”

(Ctrl-N) keys to recall previous statements from the Command History Buffer. When the desired statement reappears, press the Enter key to execute, or you may edit the statement before executing it.

[Device-Name]> history passwd

Changes the CLI Password.

[Device-Name]> passwd oldpassword newpassword newpassword

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AP-700 User Guide reboot

Reboots Access Point after specified number of seconds. Specify a value of 0 (zero) for immediate reboot.

[Device-Name]> reboot 0

[Device-Name]> reboot 30 search

Lists the parameters supported by the specified table. This list corresponds to the table information displayed in the

HTTP interface. In this example, the CLI returns the list of parameters that make up an entry in the IP Access Table.

[Device-Name]> search mgmtipaccesstbl

Figure A-9 Results of “search mgmtipaccesstbl” CLI command upload

Uploads a text-based configuration file from the AP to the TFTP Server. Executing upload with the asterisk character

(“*”) will make use of the previously set/stored TFTP parameters. Executing upload without parameters will display command help and usage information.

1. Syntax to upload a file:

[Device-Name]>upload <tftp server address> <path and filename> <filetype>

Example:

[Device-Name]>upload 192.168.1.100 APconfig.sys config

2. Syntax to display help and usage information:

[Device-Name]>help upload

3. Syntax to execute the upload command using previously set (stored) TFTP Parameters:

[Device-Name]>upload *

Parameter Control Commands

The following sections cover the two Parameter Control Commands (show and set) and include several tables showing parameter properties. These commands allow you to view (show) all parameters and statistics and to change (set) parameters.

show: To see any Parameter or Statistic value, you can specify a single parameter, a Group, or a Table.

set: Use this CLI Command to change parameter values. You can use a single CLI statement to modify Tables, or you can modify each parameter separately.

“show” CLI Command

Displays the value of the specified parameter, or displays all parameter values of a specified group (parameter table).

Groups contain Parameters and Tables. Tables contain parameters for a series of similar entities.

To see a definition and syntax example, type only show and then press the Enter key. To see a list of available parameters, enter a question mark (?) after show (example: show ?).

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Syntax:

[Device-Name]>show <parameter>

[Device-Name]>show <group>

[Device-Name]>show <table>

AP-700 User Guide

Examples:

[Device-Name]>show ipaddr

[Device-Name]>show network

[Device-Name]>show mgmtipaccesstbl

“set” CLI Command

Sets (modifies) the value of the specified parameter. To see a definition and syntax example, type only set and then press the Enter key. To see a list of available parameters, enter a space, then a question mark (?) after set (example: set?).

Syntax:

[Device-Name]>set <parameter> <value>

[Device-Name]>set <table> <index> <argument 1> <value 1> ... <argument N> <value N>

Example:

[Device-Name]>set sysloc “Main Lobby”

[Device-Name]>set mgmtipaccesstbl 0 ipaddr 10.0.0.10 ipmask 255.255.0.0

Configuring Objects that Require Reboot

Certain objects supported by the Access Point require a device reboot in order for the changes to take effect. In order to inform the end-user of this behavior, the CLI provides informational messages when the user has configured an object that requires a reboot. The following messages are displayed as a result of the configuring such object or objects.

Example 1: Configuring objects that require the device to be rebooted

The following message is displayed every time the user has configured an object that requires the device to be rebooted.

[Device-Name]>set ipaddr 135.114.73.10

The following elements require reboot ipaddr

Example 2: Executing the “exit”, “quit”, or “done” commands when an object that requires reboot has been configured

In addition to the above informational message, the CLI also provides a message as a result of the exit, quit, or done command if changes have been made to objects that require reboot. If you make changes to objects that require reboot and execute the exit command the following message is displayed:

[Device-Name]>exit<CR> OR quit<CR> OR done<CR>

Modifications have been made to parameters that require the device to be rebooted. These changes will only take effect after the next reboot.

“set” and “show” Command Examples

In general, you will use the CLI show Command to view current parameter values and use the CLI set Command to change parameter values. As shown in the following examples, parameters may be set individually or all parameters for a given table can be set with a single statement.

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CLI Command Types

Example 1 - Set the Access Point IP Address Parameter

Syntax:

[Device-Name]>set <parameter name> <parameter value>

AP-700 User Guide

Example:

[Device-Name]> set ipaddr 10.0.0.12

IP Address will be changed when you reboot the Access Point. The CLI reminds you when rebooting is required for a change to take effect. To reboot immediately, enter reboot 0 (zero) at the CLI prompt.

Example 2 - Create a table entry or row

Use 0 (zero) as the index to a table when creating an entry. When creating a table row, only the mandatory table elements are required (comment is usually an optional table element). For optional table elements, the default value is generally applied if you do not specify a value.

Syntax:

[Device-Name]>set <table name> <table index> <element 1> <value 1> …

<element n> <value n>

Example:

[Device-Name]> set mgmtipaccesstbl 0 ipaddr 10.0.0.10 ipmask 255.255.0.0

A new table entry is created for IP address 10.0.0.10 with a 255.255.0.0 subnet mask.

Example 3 - Modify a table entry or row

Use the index to be modified and the table elements you would like to modify. For example, suppose the IP Access Table has one entry and you wanted to modify the IP address:

[Device-Name]>set mgmtipaccesstbl 1 ipaddr 10.0.0.11

You can also modify several elements in the table entry. Enter the index number and specific table elements you would like to modify. (Hint: Use the search Command to see the elements that belong to the table.)

[Device-Name]>set mgmtipaccesstbl 1 ipaddr 10.0.0.12 ipmask 255.255.255.248

cmt “First Row”

Example 4 - Enable, Disable, or Delete a table entry or row

The following example illustrates how to manage the second entry in a table.

Syntax:

[Device-Name]>set <Table> index status <enable, disable, delete>

[Device-Name]>set <Table> index status <1=enable, 2=disable, 3=delete>

Example:

[Device-Name]>set mgmtipaccesstbl 2 status enable

[Device-Name]>set mgmtipaccesstbl 2 status disable

[Device-Name]>set mgmtipaccesstbl 2 status delete

[Device-Name]>set mgmtipaccesstbl 2 status 2

NOTE: You may need to enable a disabled table entry before you can change the entry’s elements.

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Example 5 - Show the Group Parameters

This example illustrates how to view all elements of a group or table.

Syntax:

[Device-Name]> show <group name>

AP-700 User Guide

Example:

[Device-Name]>show network

The CLI displays network group parameters. Note show network and show ip return the same data.

Figure A-10 Results of “show network” and “show ip” CLI Commands

Example 6 - Show Individual and Table Parameters

1. View a single parameter.

Syntax:

[Device-Name]>show <parameter name>

Example:

[Device-Name]> show ipaddr

Displays the Access Point IP address.

Figure A-11 Result of “show ipaddr” CLI Command

2. View all parameters in a table.

Syntax:

[Device-Name]> show <table name>

Example:[Device-Name]> show mgmtipaccesstbl

The CLI displays the IP Access Table and its entries.

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Using Tables and Strings

Using Tables and Strings

AP-700 User Guide

Working with Tables

Each table element (or parameter) must be specified, as in the example below.

[Device-Name]>set mgmtipaccesstbl 0 ipaddr 10.0.0.10 ipmask 255.255.0.0

Below are the rules for creating, modifying, enabling/disabling, and deleting table entries.

• Creation

– The table name is required.

– The table index is required – for table entry/instance creation the index is always zero (0).

– The order in which the table arguments or objects are entered in not important.

– Parameters that are not required can be omitted, in which case they will be assigned the default value.

• Modification

– The table name is required.

– The table index is required – to modify the table, “index” must be the index of the entry to be modified.

– Only the table objects that are to be modified need to be specified. Not all the table objects are required.

– If multiple table objects are to be modified the order in which they are entered is not important.

– If the entire table entry is to be modified, all the table objects have to be specified.

• Enabling/Disabling

– The table name is required.

– The table index is required – for table enabling/disabling the index should be the index of the entry to be enabled/disabled.

– The entry’s new state (either “enable” or “disable”) is required.

• Deletion

– The table name is required.

– The table index is required – for table deletion the index should be the index of the entry to be deleted.

– The word “delete” is required.

Using Strings

Since there are several string objects supported by the AP, a string delimiter is required for the strings to be interpreted correctly by the command line parser. For this CLI implementation, the single quote or double quote character can be used at the beginning and at the end of the string.

For example:

[Device-Name]> set sysname Lobby - Does not need quote marks

[Device-Name]> set sysname “Front Lobby” - Requires quote marks.

The scenarios supported by this CLI are:

“My Desk in the office”

‘My Desk in the office’

“My ‘Desk’ in the office”

‘My “Desk” in the office’

“Daniel’s Desk in the office”

‘Daniel”s Desk in the office’

Double Quotes

Single Quotes

Single Quotes within Double Quotes

Double Quotes within Single Quotes

One Single Quote within Double Quotes

One Double Quote within Single Quotes

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Configuring the AP using CLI commands

AP-700 User Guide

The string delimiter does not have to be used for every string object. The single quote or double quote only has to be used for string objects that contain blank space characters. If the string object being used does not contain blank spaces, then the string delimiters, single or double quotes, mentioned in this section are not required.

Configuring the AP using CLI commands

Log into the AP using HyperTerminal

1. Open your terminal emulation program (like HyperTerminal) and set the following connection properties:

• Com Port: <COM1, COM2, etc., depending on your computer>

• Baud rate: 9600

• Data Bits: 8

• Stop bits: 1

• Flow Control: None

• Parity: None

2. Under File > Properties > Settings > ASCII Setup, enable the Send line ends with line feeds option.

HyperTerminal sends a line return at the end of each line of code.

3. Enter the CLI password (default is public).

NOTE: Proxim recommends changing your default passwords immediately. To perform this operation using CLI commands, see

Change Passwords .

Log into the AP using Telnet

The CLI commands can be used to access, configure, and manage the AP using Telnet. Follow these steps:

1. Confirm that your computer’s IP address is in the same IP subnet as the AP.

NOTE: If you have not previously configured the Access Point’s IP address and do not have a DHCP server on the network, the Access Point will default to an IP address of 169.254.128.132.

2. Go to the DOS command prompt on your computer.

3. Type telnet <IP Address of the unit>.

4. Enter the CLI password (default is public).

NOTE: Proxim recommends changing your default passwords immediately. To perform this operation using CLI commands, see

Change Passwords .

Set Basic Configuration Parameters using CLI Commands

There are a few basic configuration parameters that you may want to setup right away when you receive the AP. For example:

Set System Name, Location and Contact Information

Set Static IP Address for the AP

Download an AP Configuration File from your TFTP Server

Set up Auto Configuration

Set Network Names for the Wireless Interface

Enable 802.11d Support and Set the Country Code

Enable and Configure TX Power Control for the Wireless Interface(s)

Configure SSIDs (Network Names), VLANs, and Profiles

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Set Basic Configuration Parameters using CLI Commands

Download an AP Configuration File from your TFTP Server

Backup your AP Configuration File

AP-700 User Guide

Set System Name, Location and Contact Information

[Device-Name]>set sysname <system name> sysloc <Unit Location>

[Device-Name]>set sysctname <Contact Name (person responsible for system)>

[Device-Name]>set sysctphone <Contact Phone Number> sysctemail <Contact E-mail address>

[Device-Name]>show system

Figure A-12 Result of “show system” CLI Command

Set Static IP Address for the AP

NOTE: The IP Subnet Mask of the AP must match your network’s Subnet Mask.

[Device-Name]>set ipaddrtype static

[Device-Name]>set ipaddr <fixed IP address of unit>

[Device-Name]>set ipsubmask <IP Mask>

[Device-Name]>set ipgw <gateway IP address>

[Device-Name]>show network

Change Passwords

[Device-Name]>passwd <Old Password> <New Password> <Confirm Password> (CLI password)

[Device-Name]>set httppasswd <New Password> (HTTP interface password)

[Device-Name]>set snmprpasswd <New Password> (SNMP read password)

[Device-Name]>set snmprwpasswd <New Password> (SNMP read/write)

[Device-Name]>set snmpv3authpasswd <New Password> (SNMPv3 authentication password)

[Device-Name]>set snmpv3privpasswd <New Password> (SNMPv3 privacy password)

[Device-Name]>reboot 0

CAUTION: Proxim strongly urges you to change the default passwords to restrict access to your network devices to

authorized personnel. If you lose or forget your password settings, you can always perform the Reset to

Factory Default Procedure .

Set Network Names for the Wireless Interface

[Device-Name]>set wif <index 3> netname <Network Name (SSID) for wireless interface>

[Device-Name]>show wif

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Set Basic Configuration Parameters using CLI Commands

AP-700 User Guide

Figure A-13 Results of “show wif” CLI command for an AP

Enable 802.11d Support and Set the Country Code

Perform the following command to enable 802.11d IEEE 802.11d support for additional regulatory domains.

[Device-Name]>set wif 3 dot11dstatus <enable/disable>

Perform the following command to set a country code:

[Device-Name]>set syscountrycode <country code>

Select a country code from the following table. Note that not all countries are available for all products. This table is derived from ISO 3166.

Country

Algeria

Albania

Argentina

Armenia

Australia

Austria

Azerbaijan

Bahrain

Belarus

Belgium

Belize

Bolivia

Brazil

Brunei Darussalam

Bulgaria

Canada

Chile

Code Country

DZ Honduras

AL Hong Kong

AR Hungary

AM Iceland

AU India

AT Indonesia

AZ Ireland 5.8 GHz

BH Israel

BY Italy

BE Jamaica

BZ Japan

BO Japan2

BR Jordan

BN Kazakhstan

CA

CL

Korea Republic

Korea Republic2

JP

J2

JO

KZ

I1

IL

IT

JM

Code

HN

HK

Country

Panama

Papua New Guinea

HU Peru

IS Philippines

IN Poland

ID Portugal

Puerto Rico

Qatar

Romania

Russia

Samoa

KP

KR

K2

Singapore

Slovak Republic

Slovenia

South Africa

South Korea

WS

SA

SG

SK

PR

QA

RO

RU

Code

PA

PG

PE

PH

PL

PT

SI

ZA

KR

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AP-700 User Guide

Country

China

Colombia

Costa Rica

Croatia

Cyprus

Czech Republic

Denmark

Dominican Republic

Ecuador

Egypt

El Salvador

Estonia

Finland

France

Georgia

Germany

Greece

Guam

Guatemala

Code

CN Kuwait

CO Latvia

CR

CZ

DK Macau

DO

EG Malta

SV Mexico

Country

Lebanon

HR Liechtenstein

CY Lithuania

Luxembourg

Macedonia

EC Malaysia

EE Monaco

FI Morocco

FR Netherlands

DE Nicaragua

GR Norway

GU Oman

GT Pakistan

NL

NZ

NI

NO

MT

MX

MC

MA

LU

MO

MK

MY

Code

KW

LV

LB

LI

LT

OM

PK

Spain

Sweden

Switzerland

Syria

Taiwan

Thailand

Turkey

Ukraine

United Arab Emirates

United Kingdom 5.8ghz

Uruguay

Venezuela

Vietnam

Country

GB

G1

US

UW

TH

TR

UA

AE

U1

UY

VE

VN

Code

ES

SE

CH

SY

TW

Enable and Configure TX Power Control for the Wireless Interface(s)

The TX Power Control feature lets the user configure the transmit power level of the card in the AP at one of four levels:

• 100% of the maximum transmit power level of the card

• 50%

• 25%

• 12.5%

Perform the following commands to enable TX Power Control and set the transmit power level:

[Device-Name]>set txpowercontrol enable

[Device-Name]>set wif <interface number> currenttxpowerlevel <value>

Allowed values are: 1 (100%), 2 (50%), 3 (25%), 4 (12.5%)

Configure SSIDs (Network Names), VLANs, and Profiles

Perform the following command to configure SSIDs and VLANS, and to assign Security and RADIUS Profiles.

[Device-Name]>set wifssidtbl <Wireless Interface Index.SSID Index> ssid <Network Name> vlanid <-1 to 1094> ssidauth <enable/disable> acctstatus <enable/disable> secprofile

<Security Profile Nmuber> radmacprofile <MAC Authentication Profile Name> radeapprofile

<EAP Authentication Profile Name> radacctprofile <Accounting Profile Name> radmacauthstatus <enable/disable> aclstatus <enable/disable>

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AP-700 User Guide

Example:

[Device-Name]>set wifssidtbl 3.1 ssid accesspt1 vlanid 22 ssidauth enable acctstatus enable secprofile 1 radmacprofile "MAC Authentication" radeapprofile "EAP Authentication" radacctprofile "Accounting" radmacauthstatus enable aclstatus enable

Download an AP Configuration File from your TFTP Server

Begin by starting your TFTP program. It must be running and configured to transmit and receive.

[Device-Name]>set tftpfilename <file name> tftpfiletype config

tftpipaddr <IP address of your TFTP server>

[Device-Name]>show tftp (to ensure the filename, file type, and the IP address are correct)

[Device-Name]>download *

[Device-Name]>reboot 0

After following the complete process (above) once, you can download a file of the same name (so long as all the other parameters are the same), with the following command:

[Device-Name]>download *

Backup your AP Configuration File

Begin by starting your TFTP program. It must be running and configured to transmit and receive.

[Device-Name]>upload <TFTP Server IP address> <tftpfilename (such as “config.sys”)> config

[Device-Name]>show tftp (to ensure the filename, file type, and the IP address are correct)

After setting the TFTP parameters, you can backup your current file (so long as all the other parameters are the same), with the following command:

[Device-Name]>upload *

Set up Auto Configuration

The Auto Configuration feature which allows an AP to be automatically configured by downloading a specific configuration file from a TFTP server during the boot up process.

Perform the following commands to enable and set up automatic configuration:

NOTE: The configuration filename and TFTP server IP address are configured only when the AP is configured for Static

IP. If the AP is configured for Dynamic IP these parameters are not used and obtained from DHCP.

The default filename is “config”. The default TFTP IP address is “169.254.128.133”.

[Device-Name]>set autoconfigstatus <enable/disable>

[Device-Name]>set autoconfigfilename <filename>

Enter the filename of the configuration file that is used if the AP is configured for

Static IP.

[Device-Name]>set autoconfigTFTPaddr <IP address>

Enter the TFTP server address that is used if the AP is configured for Static IP.

Other Network Settings

There are other configuration settings that you may want to set for the AP. Some of them are listed below.

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Configure the AP as a DHCP Server

Configure the DNS Client

Configure DHCP Relay and Configure DHCP Relay Servers

Maintain Client Connections using Link Integrity

Change your Wireless Interface Settings

Set Ethernet Speed and Transmission Mode

Set Interface Management Services

Configure Wireless Distribution System

Configure MAC Access Control

Set RADIUS Parameters

Set Rogue Scan Parameters

Set Hardware Configuration Reset Parameters

Set VLAN/SSID Parameters

Set Security Profile Parameters

NOTE: See Advanced Configuration

for more information on these settings.

AP-700 User Guide

Configure the AP as a DHCP Server

NOTE: You must have at least one entry in the DHCP Server IP Address Pool Table before you can set the DHCP

Server Status to Enable.

[Device-Name]>set dhcpstatus disable

[Device-Name]>set dhcpippooltbl 0 startipaddr <start ip address> endipaddr <end ip address>

[Device-Name]>set dhcpgw <gateway ip address>

[Device-Name]>set dhcppridnsipaddr <primary dns ip address>

[Device-Name]>set dhcpsecdnsipaddr <secondary dns ip address>

[Device-Name]>set dhcpstatus enable

[Device-Name]>reboot 0

CAUTION: Before enabling this feature, confirm that the IP address pools you have configured are valid addresses on the network and do not overlap the addresses assigned by any other DHCP server on the network. Enabling this feature with incorrect address pools will cause problems on your network.

Configure the DNS Client

[Device-Name]>set dnsstatus enable

[Device-Name]>set dnsprisvripaddr <IP address of primary DNS server>

[Device-Name]>set dnssecsvripaddr <IP address of secondary DNS server>

[Device-Name]>set dnsdomainname <default domain name>

[Device-Name]>show dns

Figure A-14 Results of “show dns” CLI command

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AP-700 User Guide

Configure DHCP Relay

Perform the following command to enable or disable DHCP Relay Agent Status.

NOTE: You must have at least one entry in the DHCP Relay Server Table before you can set the DHCP Relay Status to

Enable.

[Device-Name]>set dhcprelaystatus enable

Configure DHCP Relay Servers

Perform the following command to configure and enable a DHCP Relay Server. The AP allows the configuration of a maximum of 10 server settings in the DHCP Relay Agents server table.

[Device-Name]>set dhcprlyindex 1 dhcprlyipaddr <ip address> dhcprlycmt <comment> dhcprlystatus 1 (1 to enable, 2 to disable, 3 to delete, 4 to create)

Maintain Client Connections using Link Integrity

[Device-Name]>show linkinttbl (this shows the current links)

[Device-Name]>set linkinttbl <1–5 (depending on what table row you wish to address)>

ipaddr <ip address of the host computer you want to check>

[Device-Name]>set linkintpollint <the interval between link integrity checks>

[Device-Name]>set linkintpollretx <number of times to retransmit before considering the link down>

[Device-Name]>set linkintstatus enable

[Device-Name]>show linkinttbl (to confirm new settings)

[Device-Name]>reboot 0

Change your Wireless Interface Settings

See Interfaces

for information on the parameters listed below. The AP-700 uses index 3.

Operational Mode

[Device-Name]>set wif <index> mode <see table>

Mode

1

2

3

4

5

Operational Mode dot11b-only dot11g-only dot11bg dot11a-only dot11g-wifi

Autochannel Select (ACS)

ACS is enabled by default. Reboot after disabling or enabling ACS.

[Device-Name]>set wif <index> autochannel <enable/disable>

[Device-Name]>reboot 0

Enable/Disable Closed System

[Device-Name]>set wif <index> closedsys <enable/disable>

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Shutdown/Resume Wireless Service

[Device-Name]>set wif <index> wssstatus <1 (resume)/2 (shutdown)>

Set Load Balancing Maximum Number of Clients

[Device-Name]>set wif <index> lbmaxclients <1–63>

Set the Multicast Rate (802.11a)

[Device-Name]>set wif 3 multrate <6, 12, 24 (Mbits/sec) >

Set the Multicast Rate (802.11b/g)

[Device-Name]>set wif 4 multrate <1,2,5.5,11 (Mbits/sec) >

Enable/Disable Super Mode (802.11a/g only)

[Device-Name]>set wif 3 supermode <enable/disable>

Enable/Disable Turbo Mode (802.11a/g only)

[Device-Name]>set wif 3 turbo <enable/disable>

NOTE: Super mode must be enabled on the interface before Turbo mode can be enabled.

AP-700 User Guide

Configure Antenna Diversity

[Device-Name]>set wif 3 atdiversity <1, 2, 5(auto)> (see below)

[Device-Name]>reboot

1

2

Value Corresponding Antenna Enabled

802.11a/b/g (connector 1)

802.11a/b/g (connector 2)

5 (auto) Both antennas

NOTE: See Antennas for more information on internal and external antenna ports.

Set the Distance Between APs

[Device-Name]>set wif <index> distaps <1–5> (see below)

[Device-Name]>reboot 0

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Other Network Settings

3

4

1

2

5

Value Distance Between APs

Large

Medium

Small

Mini

Micro

Set Ethernet Speed and Transmission Mode

[Device-Name]>set etherspeed <value> (see below)

[Device-Name]>reboot 0

AP-700 User Guide

Ethernet Speed and

Transmission Mode

10 Mbits/sec - half duplex

10 Mbits/sec - full duplex

10 Mbits/sec - auto duplex

100 Mbits/sec - half duplex

100 Mbits/sec - full duplex

Auto Speed - half duplex

Auto Speed - auto duplex

Set Interface Management Services

Value

10halfduplex

10fullduplex

10autoduplex

100halfduplex

100fullduplex autohalfduplex autoautoduplex (default)

Edit Management IP Access Table

[Device-Name]>set mgmtipaccesstbl <index> ipaddr <IP address> ipmask <subnet mask>

Configure Management Ports

[Device-Name]>set snmpifbitmask <(see below)>

[Device-Name]>set httpifbitmask <(see below)>

[Device-Name]>set telifbitmask <(see below)>

Choose from the following values:

Interface Bitmask Description

0 or 2 = Disable (all interfaces) All management channels disabled

1 or 3 = Ethernet only

4 or 6 = Wireless only

5 or 7 = All interfaces

Ethernet only enabled

Wireless only enabled

All management channels enabled

Set Communication Ports

[Device-Name]>set httpport <HTTP port number (default is 80)>

[Device-Name]>set telport <Telnet port number (default is 23)>

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Configure Secure Socket Layer (HTTPS)

Enabling SSL and configuring a passphrase allows encrypted Secure Socket Layer communications to the AP through the HTTPS interface.

[Device-Name]>set sslstatus <enable/disable>

The user must change the SSL passphrase when uploading a new certificate/private key pair, which will have a corresponding passphrase.

[Device-Name]>set sslpassphrase <SSL certificate passphrase>

[Device-Name]>show http (to view all HTTP configuration information including SSL.)

HTTP Group Parameters

===================== httpifbitmask : 15 httppasswd : ******** httpport : 80 httphelplink : file:///C:/Program Files/ORiNOCO/AP700/HTML/index.htm

httpsetupwiz : disable sslstatus : enable sslpassphrase : ********

Figure A-15 Result of “show HTTP” CLI Command

Set Telnet Session Timeouts

[Device-Name]>set tellogintout <time in seconds between 1 and 300 (default is 30)>

[Device-Name]>set telsessiontout <time in seconds between 1 and 36000 (default is 900)>

Configure Serial Port Interface

NOTE: To avoid unexpected performance issues, leave Flow Control at the default setting (none) unless you are sure what this setting should be.

[Device-Name]>set serbaudrate <2400, 4800, 9600, 19200, 38400, 57600>

[Device-Name]>set serflowctrl <none, xonxoff>

[Device-Name]>show serial

Figure A-16 Result of “show serial” CLI Command

Configure Syslog

[Device-Name]>set syslogpriority <1–7 (default is 6)>

[Device-Name]>set syslogstatus <enable/disable>

[Device-Name]>set sysloghbstatus <enable/disable> (default is disable)

[Device-Name]>set sysloghbinterval <1–604800> (default is 900 seconds)

[Device-Name]>set sysloghosttbl <index> ipaddr <ipaddress> cmt <comment> status

<enable/disable>

169

Command Line Interface (CLI)

Other Network Settings

Configure Intra BSS

[Device-Name]>set intrabssoptype <passthru (default)/block)>

AP-700 User Guide

Configure Wireless Distribution System

Create/Enable WDS

[Device-Name]>set wdstbl <Index> partnermacaddr <MAC Address> status enable

Enable/Disable WDS

[Device-Name]>set wdstbl <Index> status <enable/disable>

NOTE: <Index> is 3.1–3.6. To determine the index, type show wdstbl at the prompt.

Configure MAC Access Control

Setup MAC (Address) Access Control

[Device-Name]>set wifssidtbl <index> aclstatus enable/disable

[Device-Name]>set macacloptype <passthru, block>

[Device-Name]>reboot 0

Add an Entry to the MAC Access Control Table

[Device-Name]>set macacltbl 0 macaddr <MAC Address> status enable

[Device-Name]>show macacltbl

Disable or Delete an Entry in the MAC Access Control Table

[Device-Name]>set macacltbl <index> status <disable/delete>

[Device-Name]>show macacltbl

NOTE: For larger networks that include multiple Access Points, you may prefer to maintain this list on a centralized

location using the RADIUS parameters (see Set RADIUS Parameters

).

Set RADIUS Parameters

Configure RADIUS Authentication servers

Perform the following command to configure a RADIUS Server and assign it to a VLAN. The RADIUS Server Profile index is specified by the index parameter and the subindex parameter specifies whether you are configuring a primary or secondary RADIUS server.

[Device-Name]>set radiustbl <Index> profname <Profile Name> seraddrfmt <1 - IP Address 2

- Name> sernameorip <IP Address or Name> port <value> ssecret <value> responsetm <value> maxretx <value> acctupdtintrvl <value> macaddrfmt <value> authlifetm <value> radaccinactivetmr <value> vlanid <vlan id -1 to 4094> status enable

NOTE: To create a new RADIUS profile, use 0 for <Index>.

Examples of Configuring Primary and Secondary RADIUS Servers and Displaying the RADIUS Configuration

Primary server configuration:

[Device-Name]set radiustbl 1.1 profname "MAC Authentication" seraddrfmt 1 sernameorip

20.0.0.20 port 1812 ssecret public responsetm 3 maxretx 3 acctupdtintrvl 0 macaddrfmt 1 authlifetm 900 radaccinactivetmr 5 vlanid 22 status enable

Secondary server configuration:

170

Command Line Interface (CLI)

Other Network Settings

AP-700 User Guide

[Device-Name]set radiustbl 1.2 profname "MAC Authentication" seraddrfmt 1 sernameorip

20.0.0.30 port 1812 ssecret public responsetm 3 maxretx 3 acctupdtintrvl 0 macaddrfmt 1 authlifetm 900 radaccinactivetmr 5 vlanid 33 status enable

[Device-Name]>show radiustbl

Index : 1

Primary/Backup : Primary

Profile Name : MAC Authentication

Server Status : notReady

Server Addressing Format : ipaddr

IP Address/Host Name : 0.0.0.0

Destination Port : 1812

VLAN Identifier : -1

MAC Address Format : dashdelimited

Response Time : 3

Maximum Retransmission : 3

Authorization Lifetime : 0

Accounting Update Interval : 0

Accounting Inactivity Timer : 5

.

.

Index : 1

Primary/Backup : Backup

Profile Name : MAC Authentication

Server Status : notReady

Server Addressing Format : ipaddr

IP Address/Host Name : 0.0.0.0

Destination Port : 1812

VLAN Identifier : -1

MAC Address Format : dashdelimited

Response Time : 3

Maximum Retransmission : 3

.

Index : 4

Primary/Backup : Backup

Profile Name : Management Access

Server Status : notReady

Server Addressing Format : ipaddr

IP Address/Host Name : 0.0.0.0

Destination Port : 1812

VLAN Identifier : -1

MAC Address Format : dashdelimited

Response Time : 3

Maximum Retransmission : 3

Authorization Lifetime : 0

Accounting Update Interval : 0

Accounting Inactivity Timer : 5

Figure A-17 Result of “showradiustbl” CLI Command

171

Command Line Interface (CLI)

Other Network Settings

AP-700 User Guide

Set Rogue Scan Parameters

Perform the following command to enable or disable Rogue Scan on a wireless interface and configure the scanning parameters.

The cycletime parameter is only configured for background scanning mode.

[Device-Name]>set rscantbl <3, 4> mode <1 for background scanning, 2 for continuous scanning> cycletime <cycletime from 1–1440 minutes> status <enable, disable>

NOTE: Rogue Scan cannot be enabled on a wireless interface when the Wireless Service Status on that interface is shutdown. First, resume service on the wireless interface.

Set Hardware Configuration Reset Parameters

The Hardware Configuration Reset commands allows you to enable or disable the hardware reset functionality and to change the password to be used for configuration reset during boot up.

To disable hardware configuration reset, enter:

[Device-Name]>set hwconfigresetstatus disable

To enable hardware configuration reset, enter:

[Device-Name]>set hwconfigresetstatus enable

To define the Configuration Reset Password to be used for configuration reset during boot up, enter the following command

[Device-Name]>set configresetpasswd <password>

It is important to safely store the

NOTE: It is important to safely store the configuration reset password. If a user forgets the configuration reset password, the user will be unable to reset the AP to factory default configuration if the AP becomes inaccessible and the hardware configuration reset functionality is disable.

Set VLAN/SSID Parameters

Enable VLAN Management

[Device-Name]>set vlanstatus enable

[Device-Name]>set vlanmgmtid <1–4094>

[Device-Name]>show wifssidtbl (to review your settings)

[Device-Name]>reboot 0

Disable VLAN Management

[Device-Name]>set vlanstatus disable or

[Device-Name]>set vlanmgmtid -1

[Device-Name]>reboot 0

Add a Entry to the WIFSSID Table

[Device-Name]>set wifssidtbl <index> ssid <Network Name> vlanid <-1 (untagged) or 1–4094> status enable

172

Command Line Interface (CLI)

CLI Monitoring Parameters

AP-700 User Guide

Set Security Profile Parameters

Configure a Security Profile with Non Secure Security Mode

[Device-Name]>set secprofiletbl <index> secmode nonsecure status enable

Example:

[Device-Name]>set secprofiletbl 2 secmode nonsecure status enable

Configure a Security Profile with WEP Security Mode

[Device-Name]>set secprofiletbl <index> secmode wep encryptkey0 <value> encryptkeylength

<vakue> encryptkeytx <value> status enable

Example:

[Device-Name]>set secprofiletbl 3 secmode wep encryptkey0 12345 encryptkeylength 1 encryptkeytx 0 status enable

Configure a Security Profile with 802.1x Security Mode

[Device-Name]>set secprofiletbl <index> secmode 802.1x rekeyint 900 status enable

Example:

[Device-Name]>set secprofiletbl 4 secmode 802.1x rekeyint 900 status enable

Configure a Security Profile with WPA Security Mode

[Device-Name]>set secprofiletbl <index> secmode wpa rekeyint 900 status enable

Example:

[Device-Name]>set secprofiletbl 5 secmode wpa rekeyint 900 status enable

Configure a Security Profile with WPA-PSK Security Mode

[Device-Name]>set secprofiletbl <index> secmode wpa-psk passphrase <value> status enable

Example:

[Device-Name]>set secprofiletbl 6 secmode wpa-psk passphrase 12345678 status enable

Configure a Security Profile with 802.11i Security Mode

[Device-Name]>set secprofiletbl <index> secmode 802.11i rekeyint <value> status enable

Example:

[Device-Name]>set secprofiletbl 7 secmode 802.11i rekeyint 900 status enable

Configure a Security Profile with 802.11i-PSK Security Mode

[Device-Name]>set secprofiletbl <index> secmode 802.11i-psk passphrase <value> status enable

Example:

[Device-Name]>set secprofiletbl 8 secmode 802.11i-psk passphrase 12345678 status enable

CLI Monitoring Parameters

Using the show command with the following table parameters will display operating statistics for the AP (these are the same statistics that are described in the

Monitoring section).

staticmp: Displays the ICMP statistics.

statarptbl: Displays the IP ARP Table statistics.

statbridgetbl: Displays the Learn Table.

173

Command Line Interface (CLI)

Parameter Tables

statiapp: Displays the IAPP statistics.

statradius: Displays the RADIUS Authentication statistics.

statif: Displays information and statistics about the Ethernet and wireless interfaces.

stat802.11: Displays additional statistics for the wireless interfaces.

statethernet: Displays additional statistics for the Ethernet interface.

statmss: Displays station statistics and Wireless Distribution System links.

AP-700 User Guide

Parameter Tables

Objects contain groups that contain both parameters and parameter tables. Use the following Tables to configure the

Access Point. Columns used on the tables include:

• Name - Parameter, Group, or Table Name

• Type - Data type

• Value - Value range, and default value, if any

• Access = access type, R = Read Only (show), RW = Read-Write (can be “set”), W = Write Only

• CLI Parameter - Parameter name as used in the Access Point

Access Point network objects are associated with Groups. The network objects are listed below and associated parameters are described in the following Parameter Tables:

System Parameters

- Access Point system information

Inventory Management Information - Hardware, firmware, and software version information

Network Parameters

- IP and Network Settings

IP Configuration Parameters

- Configure the Access Point’s IP settings

— DNS Client for RADIUS Name Resolution - Configure the Access Point as a DNS client

DHCP Server Parameters - Enable or disable dynamic host configuration

SNTP Parameters - Configure

Link Integrity Parameters - Monitor link status

Interface Parameters - Configure Wireless and Ethernet settings

Wireless Interface Parameters

Channel Blacklist Parameters

- View and configure blacklisted channels

— Wireless Distribution System (WDS) Parameters - Configure the WDS partnerships

Wireless Interface SSID/VLAN/Profile Parameters - Configure the SSIDs, VLANs, and security modes. Up to 16

SSIDs are supported; different security settings can be applied to each SSID, and a unique VLAN can be configured per SSID.

Ethernet Interface Parameters - Set the speed and duplex of the Ethernet port.

Management Parameters - Control access to the AP’s management interfaces

SNMP Parameters

- Set read and read/write passwords

HTTP Parameters - Set up the graphical web browser interface. If required, enable SSL and configure the SSL

certificate passphrase.

Telnet Parameters - Telnet Port setup

Serial Port Parameters - Serial Port setup

RADIUS Based Management Access Parameters

- Configure RADIUS Based Management Access for HTTP and

Telnet access.

SSH Parameters - Enable SSH and configure the host key.

TFTP Server Parameters - Set up for file transfers; specify IP Address, file name, and file type

174

Command Line Interface (CLI)

Parameter Tables

AP-700 User Guide

IP Access Table Parameters

- Configure range of IP addresses that can access the AP

Auto Configuration Parameters

- Configure the Auto Configuration feature which allows an AP to be automatically configured by downloading a configuration file from a TFTP server during boot up.

Filtering Parameters

Ethernet Protocol Filtering Parameters

- Control network traffic based on protocol type

Static MAC Address Filter Table - Enable and disable specific addresses

Proxy ARP Parameters

- Enable or disable proxy ARP for wireless clients

IP ARP Filtering Parameters

- Control which ARP messages are sent to wireless clients based on IP settings

Broadcast Filtering Table

- Control the type of broadcast packets forwarded to the wireless network

TCP/UDP Port Filtering

- Filter IP packets based on TCP/UDP port

Alarms Parameters

SNMP Table Host Table Parameters

- Enter the list of IP addresses that will receive alarms from the AP

Syslog Parameters - Configure the AP to send Syslog information to network servers

Bridge Parameters

Spanning Tree Parameters - Used to help prevent network loops

Storm Threshold Parameters - Set threshold for number of broadcast packets

Intra BSS Subscriber Blocking - Enable or disable peer to peer traffic on the same AP

Packet Forwarding Parameters - Redirect traffic from wireless clients to a specified MAC address

RADIUS Parameters

Set RADIUS Parameters

- Configure RADIUS Servers and assign them to VLANs.

Security Parameters

- Access Point security settings

MAC Access Control Parameters

- Control wireless access based on MAC address

Rogue Scan Configuration Table - Enable and configure Rogue Scan to detect Rogue APs and clients.

Hardware Configuration Reset - Disable or enable hardware configuration reset and configure a configuration

reset password.

VLAN/SSID Parameters

- Enable the configuration of multiple subnetworks based on VLAN ID and SSID pairs.

Security Profile Table - Configure Security Profiles that define allowed security modes (wireless clients), and

encryption and authentication mechanisms.

Other Parameters

IAPP Parameters - Enable or disable the Inter-Access Point Protocol

Wireless Multimedia Enhancements (WME)/Quality of Service (QoS) parameters - Enable and configure Wireless

Multimedia Enhancement/Quality of Service parameters, QoS policies, mapping priorities, and EDCA parameters.

Apply a configured QoS policy to a particular SSID.

175

Command Line Interface (CLI)

Parameter Tables

System Parameters

Name

System

Name

Location

Contact Name

Contact E-mail

Contact Phone

FLASH Backup Interval

Flash Update

System OID

Descriptor

Up Time

Emergency Restore to defaults

Type

Group

DisplayString

DisplayString

DisplayString

DisplayString

DisplayString

Integer

DisplayString

DisplayString

Integer

AP-700 User Guide

Value

N/A

User Defined

User Defined

User Defined

User Defined

User Defined max 254 characters

0 - 65535 seconds

0

1

N/A

System Name, flash version, S/N, bootloader version dd:hh:mm:ss dd - days hh - hours mm - minutes ss - seconds

Resets all parameters to default factory values

R

R

R

Access

RW

RW

RW

RW

RW

RW

RW

R

RW system

CLI Parameter sysname sysloc sysctname sysctemail sysctphone sysflashbckint sysflashupdate sysoid sysdescr sysuptime sysresettodefaults

Note: You must enter the following command twice to reset to defaults: set sysresettodefaults 1

Inventory Management Information

Name

System Inventory

Management

Component Table

Component Interface

Table

Type

Subgroup

Subgroup

Subgroup

N/A

N/A

N/A

Value

R

R

R

Access CLI Parameter sysinvmgmt sysinvmgmtcmptbl sysinvmgmtcmpiftbl

NOTE: The inventory management commands display advanced information about the AP’s installed components. You may be asked to report this information to a representative if you contact customer support.

176

Command Line Interface (CLI)

Parameter Tables

Network Parameters

IP Configuration Parameters

Name

Network

IP Configuration

Group

Group

Type

IP Address

IP Mask

Default Router IP

Address

Default TTL

IpAddress

IpAddress

IpAddress

N/A

N/A

Value

User Defined

User Defined

User Defined

R

Access

R

RW

RW

RW

AP-700 User Guide

CLI Parameter network ip (Note: The network and

ip parameters display the same information) ipaddr ipmask ipgw

Address Type

Integer

Integer

User Defined (seconds)

0 - 255, 64 (default) static dynamic (default)

RW

RW ipttl ipaddrtype

NOTE: The IP Address Assignment Type (ipaddrtype) must be set to static before the IP Address (ipaddr), IP Mask

(ipmask) or Default Gateway IP Address (ipgw) values can be entered.

DNS Client for RADIUS Name Resolution

Name

DNS Client

DNS Client status

Group

Integer

Type

IpAddress

N/A

Value enable disable (default)

User Defined

R

Access

RW

RW dns

CLI Parameter dnsstatus dnspridnsipaddr Primary DNS Server IP

Address

Secondary DNS Server

IP Address

Default Domain Name

IpAddress

Integer32

User Defined

User Defined (up to 254 characters)

RW

RW dnssecdnsipaddr dnsdomainname

DHCP Server Parameters

Name

DHCP Server

DHCP Server Status

Group

Integer

Type

Gateway IP Address IpAddress

Primary DNS IP Address IpAddress

IpAddress Secondary DNS IP

Address

Number of IP Pool Table

Entries

Integer32

Value

N/A enable (1) (default) disable (2) delete (3)

User Defined

User Defined

User Defined

N/A

R

R

Access

RW

RW

RW

RW dhcp

CLI Parameter dhcpstatus dhcpgw dhcppridnsipaddr dhcpsecdnsipaddr dhcpippooltblent

NOTE: The DHCP Server (dhcpstatus) can only be enabled after a DHCP IP Pool table entry has been created.

177

Command Line Interface (CLI)

Parameter Tables

DHCP Server table for IP pools

Name

DHCP Server IP Address

Pool Table

Table Index

Start IP Address

End IP Address

Width

Default Lease Time

(optional)

Maximum Lease Time

(optional)

Comment (optional)

Status (optional)

Table

Integer

IpAddress

IpAddress

Integer

Integer32

Integer32

DisplayString

Integer

Type

N/A

Value

User Defined

User Defined

User Defined

User Defined

> 0

86400 sec (default)

> 0

86400 sec (default)

User Defined enable (1) disable (2) delete (3)

R

Access

N/A

RW

RW

RW

RW

RW

RW

RW

CLI Parameter dhcpippooltbl index

AP-700 User Guide startipaddr endipaddr width defleasetm maxleasetm cmt status

NOTE: Set either End IP Address or Width (but not both) when creating an IP address pool.

DHCP Relay Group

The DHCP Relay Group allows you to enable or disable DHCP Relay Agent Status.

Name

DHCP Relay Group

Status

Group

Integer

Type

N/A enable disable

Value

R

Access

RW

DHCP Relay Server

Table

Table R

CLI Parameter dhcprelay dhcprelaystatus dhcprelaytbl

DHCP Relay Server Table

The DHCP Relay Server Table contains the commands to set the table entries. The AP supports the configuration of a maximum of 10 server settings in the DHCP Relay Agents server table.

Name

DHCP Relay Server

Table

DHCP Relay Server

Table Entry Index

DHCP Relay Server

Table Entry IP Address

DHCP Relay Server

Table Entry Comment

DHCP Relay Server

Table Entry Status

Table

Integer

Type

Integer32

IpAddress

DisplayString

N/A

1 - 10 enable (1) disable (2) delete (3) create (4)

Value

User Defined

User Defined

R

Access

R

RW

RW

RW

CLI Parameter dhcprelaytbl dhcprlyindex dhcprlyipaddr dhcprlycmt dhcprlystatus

178

Command Line Interface (CLI)

Parameter Tables

SNTP Parameters

Name

SNTP Group

SNTP Status

Primary Server Name or

IP Address

Secondary Server Name or IP Address

Time Zone

Daylight Savings Time

Year

Month

Day

Hour

Minutes

Seconds

Addressing Format

Group

Integer

Type

DisplayString

DisplayString

Integer

Integer

Integer32

Integer32

Integer32

Integer32

Integer32

Integer32

Integer

Value

N/A enable disable

0 - 255 characters

0 - 255 characters

See MIB for requirements

-2

-1

0

+1

+2

N/A

1 - 12

1 - 31

0 - 23

0 - 59

0 - 59 ipaddress name

AP-700 User Guide

R

Access

RW

CLI Parameter sntp sntpstatus

RW

RW

RW

RW

RW

RW

RW

RW

RW

RW

RW sntpprisvr sntpsecsvr sntptimezone sntpdaylightsaving sntpyear sntpmonth sntpday sntphour sntpmins sntpsecs sntpaddrfmt

Link Integrity Parameters

Name

Link Integrity*

Link Integrity Status*

Group

Type

Integer

Link Integrity Poll Interval* Integer

Link Integrity Poll

Retransmissions*

Integer

Link Integrity IP Target Table

Name

Link Integrity IP Target Table Table

Table Index

Target IP Address

Comment (optional)

Integer

Type

IpAddress

DisplayString

Status (optional) Integer

Value

N/A enable disable (default)

500 - 15000 ms

(in increments of 500ms)

500 ms (default)

0 - 255

5 (default)

R

Access

RW

RW

RW

CLI Parameter linkint linkintstatus linkintpollint linkintpollretx

Value

N/A

1 - 5

User Defined

User Defined (up to 254 characters) enable disable (default) delete

Access

R

N/A

RW

RW

RW

CLI Parameter linkinttbl index ipaddr cmt status

179

Command Line Interface (CLI)

Parameter Tables

Interface Parameters

AP-700 User Guide

Wireless Interface Parameters

The wireless interface group parameter is wif. For Single-radio APs, the wireless interface uses table index 3.

Common Parameters to 802.11a/b/g

Wireless Interfaces

Table Index

Name

Network Name

Auto Channel Select (ACS)* Integer

DTIM Period

Type

Group

Integer

N/A

Value

Integer 3

DisplayString 1 - 32 characters

My Wireless Network (default) enable (default) disable

1 - 255

1 = default

RTS/CTS Medium

Reservation

MAC Address

Closed System

Wireless Service Status †

Integer

PhyAddress 12 hex digits

Integer

Integer

0 - 2347

Default is 2347 (off) enable disable (default)

1 = resume

2 = shutdown

Supported Frequency

Channels

Octet String

Load Balancing Max Clients Integer

Distance Between APs ‡ Integer

Antenna Diversity Integer

Depends on Regulatory

Domain

1 - 63

1 (large) (default)

2 (medium)

3 (small),

4 (minicell)

5 (microcell)

1 (Antenna 1),

2 (Antenna 2),

5 (Auto; both antennas)(See

Configure Antenna Diversity )

R

Access

R

RW

RW

RW

RW

R

RW

RW

R

RW

RW

RW wif

CLI Parameter index netname autochannel dtimperiod medres macaddr closedsys wssstatus suppchannels lbmaxclients distaps atdiversity

* For 802.11a APs certified in the ETSI regulatory domain and operating in the middle frequency band, disabling Auto Channel Select will limit the available channels to those in the lower frequency band.

† Wireless Service Status cannot be shut down on an interface where Rogue Scan is enabled.

‡ Distance Between APs allows the AP to perform better in high noise environments by increasing the recieve sensitivity and transmit defer threshold, as follows:

Distance Between

APs

Large

Medium

Small

Mini

Micro

0

9

17

25

33

Receive Sensitivity Threshold

Value dBm

-96

-86

-78

-70

-62

33

33

43

53

59

Transmit Defer Threshold

Value dBm

-62

-62

-52

-42

-36

180

Command Line Interface (CLI)

Parameter Tables

802.11a Only Parameters

Operating Frequency

Channel

Name

Supported Data Rates

Transmit Rate

Physical Layer Type

Super Mode

Turbo Mode*

Integer

Type

Octet String

Integer32

Integer

Integer

Integer

Value

Varies by regulatory domain and country. See

Available Channels

See Transmit Rate, below

0 (Auto Fallback; default)

6 Mbits/sec

9 Mbits/sec

12 Mbits/sec

18 Mbits/sec

24 Mbits/sec

36 Mbits/sec

48 Mbits/sec

54 Mbits/sec ofdm (orthogonal frequency division multiplexing) for 802.11a

enable disable (default) enable disable (default)

Access

RW

R

RW

R

RW

RW

* Super mode must be enabled on the wireless interface before Turbo mode can be enabled.

AP-700 User Guide

CLI Parameter channel suppdatarates txrate phytype supermode turbo

181

Command Line Interface (CLI)

Parameter Tables

802.11b Only Parameters

Channel

Name

Operating Frequency

Channel

Multicast Rate

Integer

Integer

Closed Wireless System Integer

MAC Address

Supported Data Rates

Transmit Rate

Type

PhyAddress

Octet String

Integer32

Physical Layer Type Integer

Regulatory Domain List DisplayString

802.11b/g Only Parameters

Name

Wireless Operational

Mode

Operating Frequency

Supported Data Rates

Integer

Integer

Type

Octet String

AP-700 User Guide

Value

1 - 14; available channels vary by regulatory domain/country; see

Available Channels

1 Mbits/sec (1)

2 Mbits/sec (2) (default)

5.5 Mbits/sec (3)

11 Mbits/sec (4) enable disable (default)

12 hex digits

1 Mbits/sec

2 Mbits/sec

5.5 Mbits/sec

11 Mbits/sec

0 (auto fallback; default)

1 Mbits/sec

2 Mbits/sec

5.5 Mbits/sec

11 Mbits/sec dsss (direct sequence spread spectrum) for

802.11b

U.S./Canada -- FCC

Europe -- ETSI

Japan -- TELEC

R

R

Access

RW

RW

RW

RW

R

R

CLI Parameter channel multrate closedsys macaddr suppdatarates txrate phytype regdomain

Value dot11b-only dot11g-only dot11bg (default)

1 - 14; available channels vary by regulatory domain/country; see

Available Channels

See Transmit Rate , below

Access

RW

RW

R mode

CLI Parameter channel suppdatarates

182

Command Line Interface (CLI)

Parameter Tables

AP-700 User Guide

Name

Transmit Rate

Type

Integer32

Value

For 802.11b-only mode:

0 (auto fallback; default)

1 Mbits/sec

2 Mbits/sec

5.5 Mbits/sec

11 Mbits/sec

Access

RW txrate

CLI Parameter

For 802.11g-only mode:*

0 (auto fallback; default)

6 Mbits/sec

9 Mbits/sec

12 Mbits/sec

18 Mbits/sec

24 Mbits/sec

36 Mbits/sec

48 Mbits/sec

54 Mbits/sec

Physical Layer Type

Super Mode

Turbo Mode †

Integer

Integer

Integer

For 802.11b/g mode:

0 (auto fallback; default)

1 Mbits/sec

2 Mbits/sec

5.5 Mbits/sec

11 Mbits/sec

6 Mbits/sec

9 Mbits/sec

12 Mbits/sec

18 Mbits/sec

24 Mbits/sec

36 Mbits/sec

48 Mbits/sec

54 Mbits/sec

ERP (Extended Rate

Protocol) enable disable (default) enable disable (default)

R

RW

RW phytype supermode turbo

* Also for 802.11g-wifi mode. 802.11g-wifi has been defined for Wi-Fi testing purposes; it is not recommended for use in your wireless network environment.

† Super mode must be enabled on the wireless interface before Turbo mode can be enabled.

183

Command Line Interface (CLI)

Parameter Tables

Channel Blacklist Parameters

Name

Wireless Interface

Channel Blacklist Table

Interface Index

Channel Number

Table

Integer

Integer

Type Value wifchblklisttbl R

Access wdstbl

AP-700 User Guide

CLI Parameter

Radar Detected

Elapsed Time (minutes)

Blacklist Status

TruthValue

Gauge32

ObjStatus

3

Depends on regulatory domain

True

False

0 - 32 enable disable

R

R

R

R

RW ifindex channel radardetected elapsetime status

Wireless Distribution System (WDS) Parameters

Name

WDS Table

Port Index

Status

Partner MAC Address

Table

Integer

Type

Integer

PhysAddress

Value

N/A

3.1 - 3.6 (Wireless) enable, disable

User Defined

R

R

Access

RW

RW

CLI Parameter wdstbl portindex status partnermacaddr

Wireless Interface SSID/VLAN/Profile Parameters

The Wireless Interface SSID table manages the SSIDs, VLANs, Security Profiles, and RADIUS Profiles associated to each SSID.

For configuration examples, see

Configure SSIDs (Network Names), VLANs, and Profiles .

Name

Wireless Interface SSID

Table

Table Index

Table Index

SSID

Broadcast SSID

Closed System

VLAN ID

Rekeying Interval

Table Row Status

SSID Authorization

Status per VLAN

RADIUS Accounting

Status per VLAN

MAC ACL Status per

VLAN

Security Profile

Table

Integer

Integer32

DisplayString

Integer

Integer

VlanId

Integer32

RowStatus

Integer

Integer

Integer

Type

Integer32

N/A

Wireless interface = 3

1 - 16 (SSID index)

2 - 32 characters enable disable

Value enable, disable

-1 - 4094 or untagged

0 (disabled)

300 - 65535 enable disable delete enable disable enable disable enable disable

User defined

R

Access

R

R

RW

R/W

R/W

RW

R/W

RW

RW

RW

RW

RW

CLI Parameter wifssidtbl index ssidindex ssid bcastbeaconssid denybcastprobereq vlanid reykeyint status ssidauth acctstatus aclstatus secprofile

184

Command Line Interface (CLI)

Parameter Tables

RADIUS MAC Profile

RADIUS EAP Profile

RADIUS Accounting

Profile

QoS Policy

DisplayString

DisplayString

DisplayString

Integer32

User defined

User defined

User defined

User defined

Wireless Distribution System (WDS) Security Table Parameters

The WDS Security Table manages WDS related security objects.

Name

WDS Security Table

Table Index

Security Mode

Encryption Key 0

Table

Integer

Integer

Type

WEPKeyType

N/A

3

1 (none)

2 (wep)

N/A

Value

Ethernet Interface Parameters

Name

Ethernet Interface

Speed

Group

Integer

Type

MAC Address PhyAddress

Value

N/A

1 (10halfduplex)

2 (10fullduplex)

3 (10autoduplex)

4 (100halfduplex)

5 (100fullduplex)

6 (autohalfduplex)

7 (autoautoduplex)

(default)

N/A

Management Parameters

Secure Management Parameters

Name

Secure Management Integer

Type Value

1 (enable)

2 (disable)

SNMP Parameters

Name

SNMP

SNMP Management

Interface Bitmask

Read Password

Type Value

Group N/A

Interface Bitmask 0 or 2 = No interfaces

(disable)

1 or 3 = Ethernet

4 or 6 = Wireless

5 or 7 = All interfaces

(default is 7)

DisplayString User Defined public (default)

6 - 32 characters

RW

RW

RW

RW radmacprofile radeapprofile radacctprofile qospolicy

R

Access

R

RW

CLI Parameter wdssectbl index secmode

WO encryptkey0

R

Access

RW

CLI Parameter ethernet etherspeed

R

W

AP-700 User Guide ethermacaddr

Access

RW

CLI Parameter securemgmtstatus

R

Access

RW

CLI Parameter snmp snmpifbitmask snmprpasswd

185

Command Line Interface (CLI)

Parameter Tables

Read/Write Password DisplayString

SNMPv3 Authentication

Password

DisplayString

SNMPv3 Privacy

Password

DisplayString

User Defined public (default)

6 - 32 characters

User Defined public (default)

6 - 32 characters

User Defined public (default)

6 - 32 characters

W

W

W

AP-700 User Guide snmprwpasswd snmpv3authpasswd snmpv3privpasswd

186

Command Line Interface (CLI)

Parameter Tables

AP-700 User Guide

HTTP Parameters

HTTP

Name

HTTP Management

Interface Bitmask

HTTP Password

HTTP Port

Help Link*

SSL Status

SSL Certificate

Passphrase

Type Value

Group N/A

Interface Bitmask 0 or 2 = No interfaces

(disable)

1 or 3 = Ethernet

DisplayString

Integer

DisplayString

Integer

DisplayString

4 or 6 = Wireless

5 or 7 = All interfaces

(default is 7)

User Defined (6 - 32 characters)

User Defined

Default = 80

User Defined enable/disable

User Defined

R

Access

RW

W

RW

RW

RW

W http

CLI Parameter httpifbitmask httppasswd httpport httphelplink sslstatus sslpassphrase

* The help link must be set to an HTTP address. Use the forward slash character ("/") rather than the backslash character ("\") when configuring the Help Link location.

Telnet Parameters

Name

Telnet

Telnet Management

Interface Bitmask

Telnet Port

Telnet Login Inactivity

Time-out

Telnet Session Idle

Time-out

Type Value

Group N/A

Interface Bitmask 0 or 2 = No interfaces

(disable)

1 or 3 = Ethernet

4 or 6 = Wireless

5 or 7 = All interfaces

(default is 7)

Integer

Integer

User Defined

23 (default)

30 - 300 seconds

60 sec (default)

Integer 60 - 36000 seconds

900 sec (default)

R

Access

RW

RW

RW

RW

CLI Parameter telnet telifbitmask telport tellogintout telsessiontout

187

Command Line Interface (CLI)

Parameter Tables

Serial Port Parameters

Serial

Baud Rate

Data Bits

Parity

Stop Bits

Name

Flow Control

Group

Integer

Integer

Integer

Integer

Value

Type

AP-700 User Guide

Value

N/A

2400, 4800,9600

(default), 19200, 38400,

57600

8 none

1 none (default) xonxoff

R

Access

RW serial

CLI Parameter serbaudrate

R serdatabits

R serparity

R

RW serstopbits serflowctrl

RADIUS Based Management Access Parameters

The RADIUS Based Management Access parameters allow you to enable HTTP or Telnet Radius Management Access, enable or disable local user access, and configure the local user password.

The default local user ID is root and the default local user password is public. “Root” cannot be configured as a valid user for RADIUS based management access when local user access is enabled.

Name

Radius Local User Status Integer

Type

DisplayString

Value enable disable

User Defined

Access

RW

RW

CLI Parameter radlocaluserstatus radlocaluserpasswd Radius Local User

Password

HTTP Radius

Management Access

Telnet Radius

Management Access

Integer

Integer enable disable enable disable

RW

RW httpradiusmgmtaccess telradiusmgmtaccess

SSH Parameters

The following commands enable or disable SSH and set the SSH host key.

Name

SSH Status

SSH Public Host Key

Fingerprint

SSH Host Key Status

Integer

Type

DisplayString

Integer

Value enable disable

AP Generated create delete

Access

RW

RW

RW

CLI Parameter sshstatus sshkeyfprint sshkeystatus

The AP SSH feature, open-SSH, confirms to the SSH protocol, and supports SSH version 2. The following SSH clients have been verified to interoperate with the AP’s server. The following table lists the clients, version number, and the website of the client.

Clients

OpenSSH

Putty

Zoc

Axessh

Version

V3.4-2

Rel 0.53b

5.00

V2.5

http://www.openssh.com

http://www.chiark.greenend.org.uk

http://www.emtec.com

http://www.labf.com

Website

For key generation, only the OpenSSH client has been verified.

188

Command Line Interface (CLI)

Parameter Tables

AP-700 User Guide

Auto Configuration Parameters

These parameters relate to the Auto Configuration feature which allows an AP to be automatically configured by downloading a specific configuration file from a TFTP server during the boot up process.

Name

Auto Configuration Group

Auto Configuration Status Integer

Type

Auto Config File Name

Auto Config TFTP Server

IP Address

DisplayString

IpAddress

Value

N/A enable (default) disable

User Defined

User Defined

R

Access

RW

RW

RW

CLI Parameter autoconfig autoconfigstatus autoconfigfilename autoconfigTFTPaddr

TFTP Server Parameters

These parameters relate to upload and download commands.

When a user executes an upload and/or download Command, the specified arguments are stored in TFTP parameters for future use. If nothing is specified in the command line when issuing subsequent upload and/or download commands, the stored arguments are used.

Name Type

TFTP Group

TFTP Server IP Address IpAddress

TFTP File Name

TFTP File Type

DisplayString

Integer

Value

N/A

User Defined

User Defined img config bootloader sslcertificate sslprivatekey sshprivatekey sshpublickey clibatchfile (CLI Batch

File) cbflog (CLI Batch Error

Log)

R

Access

RW

RW

RW

CLI Parameter tftp tftpipaddr tftpfilename tftpfiletype

IP Access Table Parameters

When creating table entries, you may either specify the argument name followed by argument value or simply entering the argument value. When only the argument value is specified, then enter the values in the order depicted by the following table. CLI applies default values to the omitted arguments. Due to the nature of the information, the only argument that can be omitted is the “comment” argument.

Name

IP Access Table

Table Index

IP Address

IP Mask

Comment (optional)

Status (optional)

Type

Table

Integer

IpAddress

IpAddress

DisplayString

Integer

Value

N/A

User Defined

User Defined

User Defined

User Defined enable (default) disable delete

R

Access

N/A

RW

RW

RW

RW

CLI Parameter mgmtipaccesstbl index ipaddr ipmask cmt status

189

Command Line Interface (CLI)

Parameter Tables

Filtering Parameters

Ethernet Protocol Filtering Parameters

Name

Ethernet Filtering

Filtering Interface

Bitmask

Operation Type

Type Value

Group N/A

Interface Bitmask 0 or 2 = No interfaces

(disable)

1 or 3 = Ethernet

4 or 6 = Wireless

5 or 7 = All interfaces

(default is 7) passthru block

R

Access

RW etherflt

CLI Parameter etherfltifbitmask

RW

AP-700 User Guide etherfltoptype

Ethernet Filtering Table

Identify the different filters by using the table index.

Name

Ethernet Filtering Table Table

Table Index

Protocol Number

N/A

Type

Octet String

Protocol Name (optional) DisplayString

Status (optional) Integer

N/A

N/A

N/A

Value enable (1) disable (2) delete (3)

R

R

Access

RW

RW

RW

CLI Parameter etherflttbl index protonumber protoname status

NOTE: The filter Operation Type (passthru or block) applies only to the protocol filters that are enabled in this table.

Static MAC Address Filter Table

Name

Static MAC Address Filter

Table

Table Index

Static MAC Address on

Wired Network

Static MAC Address

Mask on Wired Network

Static MAC Address on

Wireless Network

Static MAC Address

Mask on Wireless

Network

Comment (optional)

Status (optional)

Table

Type

N/A

PhysAddress

PhysAddress

PhysAddress

PhysAddress

DisplayString

Integer

N/A

N/A

Value

User Defined

User Defined

User Defined

User Defined max 255 characters enable (default) disable delete

R

R

Access

RW

RW

RW

RW

RW

RW

CLI Parameter staticmactbl index wiredmacaddr wiredmask wirelessmacaddr wirelessmask cmt status

190

Command Line Interface (CLI)

Parameter Tables

Proxy ARP Parameters

Name

Proxy ARP

Status

Group

Integer

Type Value

N/A enable disable (default)

IP ARP Filtering Parameters

Name

IP ARP Filtering

Status

IP Address

Subnet Mask

Broadcast Filtering Table

Group

Integer

Type

IpAddress

IpAddress

Broadcast Filtering Table Table

Index

Protocol Name

Direction

Status

Name

Integer

Integer

Integer

Type

DisplayString

Value

N/A enable disable (default)

User Defined

User Defined

Value

N/A

1 - 5

N/A ethertowireless wirelesstoether both (default) enable disable (default)

TCP/UDP Port Filtering

The following parameters are used to enable/disable the Port filter feature.

Name

Port Filtering

Port Filter Status

Group

Integer

Type Value

N/A enable (default) disable

R

Access

RW

RW

RW iparp

CLI Parameter iparpfltstatus iparpfltipaddr iparpfltsubmask status

AP-700 User Guide

R

Access

RW

CLI Parameter parp parpstatus

R

Access

N/A

R

RW

CLI Parameter broadcastflttbl index protoname direction

RW

R

Access

RW

CLI Parameter portflt portfltstatus

TCP/UDP Port Filtering Table

The following parameters are used to configure TCP/UDP Port filters.

Name

Port Filtering Table

Table Index

Port Type

Table

N/A

Type

Octet String

N/A

Value

User Defined

(there are also 4 pre-defined indices, see

Port Number below for more information) tcp udp tcp/udp

R

Access

R

RW

CLI Parameter portflttbl index porttype

191

Command Line Interface (CLI)

Parameter Tables

Name

Port Number

Protocol Name

Interface Bitmask

Status (optional)

Type

Octet String

DisplayString

Integer32

Integer

Value

User Defined

(there are also 4 pre-defined protocols:

Index 1: NetBios Name

Service - 137, Index 2:

NetBios Datagram

Service - 138, Index 3:

NetBios Session Service

- 139, Index 4: SNMP

Service - 161)

User Defined

(there are also 4 pre-defined protocols, see Port Number above)

0 or 2 = No interfaces

(disable)

1 or 3 = Ethernet

4 or 6 = Wireless

5 or 7 = All interfaces

(default is 7) enable (default for new entries) disable (default for pre-defined entries) delete

Access

RW

RW

RW

RW

CLI Parameter portnum protoname ifbitmask status

Alarms Parameters

SNMP Table Host Table Parameters

When creating table entries, you may either specifying the argument name followed by argument value. CLI applies default values to the omitted arguments. Due to the nature of the information, the only argument that can be omitted is the “comment” argument.

Name

SNMP Trap Host Table Table

Table Index

IP Address

Password

Integer

Type

IpAddress

DisplayString

Comment (optional)

Status (optional)

DisplayString

Integer

Value

N/A

User Defined

User Defined

User Defined (up to 64 characters)

User Defined (up to 254 characters) enable (default) disable delete

Access

R

N/A

RW

W

RW

RW

CLI Parameter snmptraphosttbl index ipaddr passwd cmt status

Syslog Parameters

The following parameters configure the Syslog settings.

Name Type

Syslog Group N/A

Value

AP-700 User Guide

R

Access syslog

CLI Parameter

192

Command Line Interface (CLI)

Parameter Tables

AP-700 User Guide

Syslog Status

Syslog Port

Syslog Lowest Priority

Logged

Heartbeat Status

Heartbeat Interval

(seconds)

Integer

Octet String

Integer

Integer

Integer enable disable (default)

514

1 - 7

1 = LOG_ALERT

2 = LOG_CRIT

3 = LOG_ERR

4 = LOG_WARNING

5 = LOG_NOTICE

6 = LOG_INFO (default)

7 = LOG_DEBUG enable (1) disable (2) (default)

1 - 604800 seconds;

900 sec. (default)

RW

R

RW

RW

RW syslogstatus syslogport syslogpritolog sysloghbstatus sysloghbinterval

NOTE: When Heartbeat is enabled, the AP periodically sends a message to the Syslog server to indicate that it is active.

The frequency with which the heartbeat message is sent depends upon the setting of the Heartbeat Interval.

Syslog Host Table

The table described below configures the Syslog hosts that will receive message from the AP. You can configure up to ten

Syslog hosts.

Name

Syslog Host Table

Table Index

IP Address

Comment (optional)

Status (optional)

Type

Table

Integer

IpAddress

DisplayString

Integer

Value

N/A

1 - 10

User Defined

User Defined enable disable delete

Access

R

N/A

RW

RW

RW

CLI Parameter sysloghosttbl index ipaddr cmt status

193

Command Line Interface (CLI)

Parameter Tables

Bridge Parameters

Spanning Tree Parameters

Name

Spanning Tree

Spanning Tree Status

Bridge Priority

Maximum Age

Hello Time

Forward Delay

Group

Integer

Type

Integer

Integer

Integer

Integer

AP-700 User Guide

Value

N/A enable (default) disable

0 - 65535

32768 (default)

600 - 4000

(in 0.01 sec intervals; i.e., 6 to 40 seconds)

2000 (default)

100 - 1000 (1/100 second; i.e., 1 to 10 seconds); enter values in increments of 100

200 (default)

400 - 3000

(in 0.01 sec intervals; i.e., 4 to 30 seconds)

1500 (default)

Access

R

RW

CLI Parameter stp stpstatus

RW

RW

RW

RW stppriority stpmaxage stphellotime stpfwddelay

Spanning Tree Priority and Path Cost Table

Name

Spanning Tree Table

Table Index (Port)

Priority

Table

N/A

Integer

Type

Path Cost

State

Integer

Integer

Value

N/A

1 - 15

0 - 255

128 (default)

1 - 65535

100 (default) disable blocking listening learning forwarding broken enable disable

Status Integer

Storm Threshold Parameters

Name

Storm Threshold

Broadcast Threshold

Group

Integer

Type

Multicast Threshold Integer

N/A

Value

0 - 255 packets/sec

(default is 0)

0 - 255 packets/sec

(default is 0)

Access

R

R

RW

RW

R

RW

Access

N/A

RW

RW stpbl index priority

CLI Parameter pathcost state status

CLI Parameter stmthres stmbrdthres stmmultithres

194

Command Line Interface (CLI)

Parameter Tables

Storm Threshold Table

Name

Storm Threshold Table Table

Table Index

Broadcast Threshold

Multicast Threshold

Integer

Integer

Integer

Type Value

N/A

1 = Ethernet

3 = Wireless

0 - 255 packets/sec

(default is 0)

0 - 255 packets/sec

(default is 0)

Access

R

R

RW

RW

AP-700 User Guide

CLI Parameter stmthrestbl index bcast mcast

Intra BSS Subscriber Blocking

The following parameters control the Intra BSS traffic feature, which prevent wireless clients that are associated with the same AP from communicating with each other:

Name

Intra BSS Traffic

Intra BSS Traffic

Operation

Group

Integer

Type Value

N/A passthru (default) block

Access

R

RW

CLI Parameter intrabss intrabssoptype

Packet Forwarding Parameters

The following parameters control the Packet Forwarding feature, which redirects wireless traffic to a specific MAC address:

Name

Packet Forwarding MAC

Address

Group

Type

Packet Forwarding MAC

Address

MacAddress

Packet Forwarding Status Integer

N/A

Value

User Defined

Access

R

RW

RW pktfwd

CLI Parameter pktfwdmacaddr pktfwdstatus

Packet Forwarding

Interface Port

Integer enable disable (default)

0 (any) (default)

1 (Ethernet)

2 (WDS 1)

3 (WDS 2)

4 (WDS 3)

5 (WDS 4)

6 (WDS 5)

7 (WDS 6)

RW pktfwdif

195

Command Line Interface (CLI)

Parameter Tables

RADIUS Parameters

General RADIUS Parameters

Name

RADIUS

Client Invalid Server

Address

Type

Group

Counter32

N/A

N/A

Value

AP-700 User Guide

Access

R

R

CLI Parameter radius radcliinvsvradd

RADIUS Server Configuration Parameters

NOTE: Use a server name only if you have enabled the DNS Client functionality. See DNS Client for RADIUS Name

Resolution .

Name

RADIUS Authentication Table

Table Index (Profile

Index)

Integer

Primary/Secondary Index Integer

Type

N/A

N/A

Value Access

R

R

R

CLI Parameter radiustbl index subindex

Status

Server Address Format

Server IP Address or

Name

Port (optional)

Shared Secret

Response Time (optional) Integer

Maximum

Retransmissions

(optional)

RADIUS MAC Address

Format

Integer

Integer

IpAddress

DisplayString

Integer

DisplayString

Integer

Integer

Integer32

Primary (1)

Secondary (2) enable disable

Ipaddr

Name

User defined (enter an IP address if seraddrfmt is ipaddr or a name if set to name; up to 254 characters if using a name)

User Defined

1812 (default)

User Defined

6 - 32 characters

1 - 10 seconds

3 (default)

0 - 4

3 (default) dashdelimited colondelimited singledashdelimited nodelimiter

1 - 60 minutes

RW

RW

RW

RW

W

RW

RW

RW

RW status seraddrfmt ipaddr port ssecret responsetm maxretx radmacaddrformat radaccinactivetmr RADIUS Accounting

Inactivity Timer

Authorization Lifetime

RADIUS Accounting

Update Interval

VLAN ID

Integer32

Integer32 vlanID

900 - 43200 seconds

10 - 3600 minutes

-1 (untagged)

1 - 4094

W

RW

RW radauthlifetm radacctupdinterval radvlanid

196

Command Line Interface (CLI)

Parameter Tables

Security Parameters

MAC Access Control Parameters

Name

MAC Address Control

Status

Group

Integer

Type

Operation Type Integer

Value

N/A enable disable (default) passthru (default) block

Access

R

RW

RW macacl

AP-700 User Guide

CLI Parameter aclstatus macacloptype

MAC Access Control Table

Name

MAC Address Control

Table

Table Index

MAC Address

Comment (optional)

Status (optional)

Table

N/A

Type

PhysAddress

DisplayString

Integer

N/A

Value

N/A

User Defined

User Defined max 254 characters enable (default) disable delete

Access

R

R

RW

RW

RW

CLI Parameter macacltbl index macaddr cmt status

Rogue Scan Configuration Table

The Rogue Scan Configuration Table allows you to enable or disable Rogue Scan and configure the scanning parameters.

Name

Rogue Scan

Configuration Table

Rogue Scan Mode

Table

Integer

Type

N/A

Value Access

R

RW

CLI Parameter rscantbl mode

Rogue Scan Cycle Time Integer

Rogue Scan

Configuration Table Index

Rogue Scan Status

Integer

Integer

Bkscan (1)

Contscan (2)

1 - 1440

3 or 4 enable disable

RW

RW

RW cycletime index status

Hardware Configuration Reset

The Hardware Configuration Reset commands allows you to enable or disable the feature and to change the password to be used for configuration reset during boot up.

197

Command Line Interface (CLI)

Parameter Tables

AP-700 User Guide

Name

Hardware Configuration

Reset Status

Configuration Reset

Password

Integer

Type

DisplayString

VLAN/SSID Parameters

Name

VLAN

Status

Group

Integer

Type

Management ID VlanId

Value enable (1) disable (2)

User Defined

Value

N/A enable disable (default)

-1 (untagged) or 1 - 4094

Access

R

CLI Parameter hwconfigresetstatus

RW configresetpasswd

R

Access

RW

CLI Parameter vlan vlanstatus

RW vlanmgmtid

Security Profile Table

The Security Profile Table allows you to configure security profiles. A maximum of 16 security profiles are supported per wireless interface.

Each security profile can be enable and configure one or more security modes (None Secure Station, WEP Station,

802.1x Station, WPA Station, WPA-PSK Station). The WEP/PSK parameters are separately configurable for each security mode. See the command examples below for more information.

Name

Security Profile Table

Table Index

Security Mode

Authentication Mode

Cipher

Table

Integer

Integer

Type

Integer

Integer

Encryption Key 0

Encryption Key 1

Encryption Key 2

Encryption Key 3

Integer

Integer

Integer

Integer

Encryption Transmit Key Integer

Encryption Key Length Integer

Rekey Interval

WPA PSK Value

Integer

Integer

WPA PSK Pass Phrase Integer

Value

N/A

1.1 to 32.5

nonsecsta wepsta

802.1xsta

wpasta wpapsksta none

802.1x

psk none wep tkip aes

User defined

User defined

User defined

User defined

0 - 3

64, 128, or 152

8 - 64 characters

Access

R

R

R

R

R

RW

RW

RW

W

W

W

W

W

W

CLI Parameter secprofiletbl index secmode authmode ciphersuite encryptionkey0 encryptionkey1 encryptionkey2 encryptionkey3 encryptkeytx encryptkeylength rekeyint pskkey passphrase

198

Command Line Interface (CLI)

Parameter Tables

Other Parameters

IAPP Parameters

Name

IAPP

IAPP Status

Periodic Announce

Interval (seconds)

Group

Integer

Type

Integer

Value

N/A enable (default) disable

80

120 (default)

160

200

2 seconds

Access

R

RW

RW iapp

AP-700 User Guide

CLI Parameter iappstatus iappannint

Announce Response

Time

Handover Time-out

Integer

Integer 410 ms

512 ms (default)

614 ms

717 ms

819 ms

1 - 4 (default 4)

R

RW iappannresp iapphandtout

Max. Handover

Retransmissions

Send Announce Request on Startup

Integer

Integer enable (default) disable

RW

RW iapphandretx iappannreqstart

NOTE: These parameters configure the Inter Access Point Protocol (IAPP) for roaming. Leave these settings at their default value unless a technical representative asks you to change them.

Wireless Multimedia Enhancements (WME)/Quality of Service (QoS) parameters

The Wireless Multimedia Enhancements commands enable and configure Wireless Multimedia Enhancement/Quality of

Service parameters. The following two commands are part of the Wireless Interface Properties table.

Enabling QoS

Name

QoS Status

Type

Object Status

QoS Maximum Medium

Threshold

Integer

Value enable disable (default)

50 - 90

Access

RW

CLI Parameter qosstatus

RW qosmaximummediumthresh old

Configuring QoS Policies

The QoS group manages the QoS policies:

Name

QoS Group

QoS Policy Table

Table Primary Index

Group

Table

Integer

Table Secondary Index Integer

Type

Policy Name Display String

Value

N/A

N/A

N/A

N/A

0 - 32 characters

Access

N/A

N/A

R

R

RW

CLI Parameter qos qospolicytbl index secindex policyname

199

Command Line Interface (CLI)

Parameter Tables

AP-700 User Guide

Name

Policy Type

Priority Mapping Index

Apply QoS Marking

Table Row Status

Integer

Integer

Type

Object Status

Row Status

Value inlayer2, inlayer3, outlayer2, outlayer3, spectralink*

See Note † .

enable disable enable disable delete

Access

RW

RW

RW

RW type mapindex markstatus status

CLI Parameter

* QoS must be enabled on the wireless interface before spectralink can be enabled.

† A priority mapping needs to be specified for a QoS Policy. The priority mapping depends on the type of policy configured. For Layer 2 policy types (inbound or outbound) a mapping index from the 802.1p to 802.1D table should be specified. For Layer 3 policy types (inbound or outbound) a mapping index from the IP DSCP to 802.1D table should be specified. The mapping index, in both cases, depends on the number of mappings configured by the user. For SpectraLink policy type a mapping is not required.

Specifying the Mapping between 802.1p and 802.1D Priorities

The QoS 802.1p to 802.1D Mapping Table specifies the mapping between 802.1P and 802.1D priorities.

Name

QoS 802.1p to 802.1D

Mapping Table

Table Index (Primary

Index)

802.1D Priority

(Secondary Index)

802.1p Priority

Table Row Status

Table

Integer

Integer

Integer

Type

Row Status

N/A

0 - 7

0 - 7

0 - 7 enable disable delete

Value Access

N/A

R

R

RW

RW

CLI Parameter qos1pto1dtbl index

1dpriority

1ppriority status

Specifying the Mapping between IP Precedence/DSCP Ranges and 802.1D Priorities

The QoS IP DSCP to 802.1D Mapping Table specifies the mapping between IP Precedence/DSCP Ranges and 802.1D priorities.

Name

QoS IP DSCP to 802.1D

Mapping Table

Table Index (Primary

Index)

802.1D Priority

IP DSCP Lower Limit

IP DSCP Upper Limit

Table Row Status

Table

Integer

Type

Integer

Integer

Integer

Row Status

N/A

0 - 7

0 - 7

0 - 62

1 - 63 enable disable delete

Value Access

N/A

R

R

RW

RW

RW

CLI Parameter qosdscpto1dtbl index

1dpriority dscplower dscpupper status

200

Command Line Interface (CLI)

CLI Batch File

AP-700 User Guide

QoS Enhanced Distributed Channel Access (EDCA) Parameters

The following commands configure the client (STA) and AP Enhanced Distributed Channel Access (EDCA) parameters.

The EDCA parameter set provides information needed by the client stations for proper QoS operation during the wireless contention period. These parameters are used by the QoS enabled AP to establish policy, to change policies when accepting new stations or new traffic, or to adapt to changes in the offered load. The EDCA parameters assign priorities to traffic types where higher priority packets gain access to the wireless medium more frequently than lower priority packets.

NOTE: We have defined default recommended values for EDCA parameters; we recommend not modifying EDCA parameters unless strictly necessary.

Name

EDCA Table

Table Index

CWmin

CWmax

AIFSN

Tx OP Limit

MSDU Lifetime

AC Mandatory

QAP EDCA Table

Table Index

CWmin

CWmax

AIFSN

Tx OP Limit

MSDU Lifetime

AC Mandatory

Type

Table

Integer

Integer

Integer

Integer

Integer

Integer

Truth Value

Table

Integer

Integer

Integer

Integer

Integer

Integer

Truth Value

N/A

1 - 4

0 - 255

0 - 65535

2 - 15

0 - 65535

0 - 500 true false

N/A

1 - 4

0 - 255

0 - 65535

2 - 15

0 - 65535

0 - 500 true false

Value Access

N/A

R

RW

RW

RW

RW

RW

RW

N/A

R

RW

RW

RW

RW

RW

RW

CLI Parameter qosedcatbl index cwmin cwmax aifsn txoplimit msdulifetime acmandatory qosqapedcatbl index cwmin cwmax aifsn txoplimit msdulifetime acmandatory

Defining the QoS Policy used for a Wireless Interface SSID

The QoS Policy object configures the QoS policy to be used per wireless interface SSID. This object is part of the

Wireless Interface SSID Table; the CLI command for this table is “wifssidtbl.”

Name

QoS Policy Integer

Type

See Note*

Value Access

RW

CLI Parameter qospolicy

* A QoS Policy number needs to be specified in the SSID table. This depends on the QoS policies configured by the user. Once the user has configured QoS policies, the user should specify the policy to be used for that SSID.

CLI Batch File

A CLI Batch file is a user-editable file that lists a series of CLI set commands, that can be uploaded to the Access Point to change its configuration. The Access Point executes the CLI commands specified in the CLI Batch file after upload and the configuration gets changed accordingly. A CLI Batch file can also be used for Auto Configuration.

The CLI Batch file does not replace the existing LTV format configuration file, which continues to define the configuration of the AP.

The CLI Batch file contains a list of CLI commands that the AP will execute. The AP performs the commands in the file immediately after the file is uploaded to the AP manually or during Auto Configuration. The AP parses the file and

201

Command Line Interface (CLI)

CLI Batch File

AP-700 User Guide executes the CLI commands. Commands that do not require a reboot take effect immediately, while commands that require a reboot (typically commands affecting a wireless interface) will take effect after reboot.

Auto Configuration and the CLI Batch File

The Auto Configuration feature allows download of the LTV format configuration file or the CLI Batch file. The AP detects whether the file uploaded is LTV format or a CLI Batch file. If the AP detects a CLI Batch file (a file with extension .cli), the

AP executes the file immediately.

The AP will reboot after executing the CLI Batch file. Auto Configuration will not result in repeated reboots if the CLI Batch file contains rebootable parameters.

CLI Batch File Format and Syntax

The CLI Batch file must be named with a .cli extension to be recognized by the AP. The maximum file size allowed is 100

Kbytes, and files with larger sizes cannot be uploaded to the AP. The CLI commands supported in the CLI Batch File are a subset of the legal AP CLI commands.

The follow commands are supported:

• Set commands

• Reboot command (the reboot command ignores the argument (time))

Each command must be separated by a new line.

NOTE: The following commands are not supported: Show command, Debug command, Undebug command, Upload command, Download command, Passwd command, Kill command, and the Exit, Quit, and Done commands.

Sample CLI Batch File

The following is a sample CLI Batch File: set sysname system1 set sysloc sunnyvale set sysctname contact1 set sysctphone 1234567890 set sysctemail [email protected]

set ipaddr 11.0.0.66

set ipaddrtype static set ipsubmask 255.255.255.0

set ipgw 11.0.0.1

set wif 4 autochannel disable set wif 4 mode 1 set syslogstatus enable set sysloghbstatus enable set sysloghbinterval 5 set wif 4 netname london reboot

Figure A-18 Sample CLI Batch File

Reboot Behavior

When a CLI Batch file contains a reboot command, the reboot will occur only after the entire CLI Batch file has been executed.

There are two methods of uploading the CLI Batch File:

• Upload

202

Command Line Interface (CLI)

CLI Batch File

AP-700 User Guide

• Upload and reboot (this option is to be used for a CLI Batch file containing the configuration parameters that require a reboot)

CLI Batch File Error Log

If there is any error during the execution of the CLI Batch file, the AP will stop executing the file. The AP generates traps for all errors and each trap contains the following information:

• Start of execution

• Original filename of the uploaded file

• End of execution (along with the status of execution)

• Line number and description of failures that occurred during execution

The AP logs all the errors during execution and stores them in the Flash memory in a CLI Batch File Error Log named

“CBFERR.LOG”. The CLI Batch File Error Log can be downloaded though TFTP, HTTP, or CLI file transfer to a specified host.

203

ASCII Character Chart

AP-700 User Guide

B

You can configure WEP Encryption Keys in either Hexadecimal or ASCII format. Hexadecimal digits are 0-9 and A-F

(not case sensitive). ASCII characters are 0-9, A-F, a-f (case sensitive), and punctuation marks. Each ASCII character corresponds to two hexadecimal digits.

The table below lists the ASCII characters that you can use to configure WEP Encryption Keys. It also lists the

Hexadecimal equivalent for each ASCII character.

2B

2C

2D

2E

27

28

29

2A

Hex

Equival ent

21

22

23

24

25

26

33

34

35

36

2F

30

31

32

37

38

.

-

,

+

)

*

(

'

#

$

%

&

"

!

ASCII

Charact er

5

6

3

4

7

8

1

2

/

0

43

44

45

46

3F

40

41

42

Hex

Equival ent

39

3A

3B

3C

3D

3E

4B

4C

4D

4E

47

48

49

4A

4F

50

E

F

C

D

A

B

?

@

=

>

;

<

:

9

ASCII

Charact er

K

L

M

N

I

J

G

H

O

P

5B

5C

5D

5E

57

58

59

5A

Hex

Equival ent

51

52

53

54

55

56

63

64

65

66

5F

60

61

62

67

68

]

^

\

[

Y

Z

W

X

U

V

S

T

Q

R

ASCII

Charact er f e c d g h a b

`

_

73

74

75

76

6F

70

71

72

Hex

Equival ent

69

6A

6B

6C

6D

6E

7B

7C

7D

7E

77

78

79

7A

}

~

|

{ y z w x u v t s r q o p l k m n j i

ASCII

Charact er

204

Specifications

Software Features

Hardware Specifications

Available Channels

RF Performance

Software Features

The tables below list the software features available on the AP-700.

Number of Stations per BSS

Management Functions

Advanced Bridging Functions

Medium Access Control (MAC) Functions

Security Functions

Network Functions

Number of Stations per BSS

Feature

Without encryption

With WEP encryption

With 802.1x Authentication

With WPA

With 802.11i (WPA2)

Management Functions

Feature

Web User Interface

Telnet / CLI

SNMP Agent

Serial CLI

Secure Management

SSH

RADIUS Based Management Access

Supported by

AP-700 up to 63 up to 63 up to 63 up to 27 up to 63

Supported by

AP-700

3

3

3

3

3

3

3

AP-700 User Guide

C

205

Specifications

Software Features

Advanced Bridging Functions

Feature

IEEE 802.1d Bridging

WDS Relay

Roaming

Protocol Filtering

Multicast/Broadcast Storm Filtering

Proxy ARP

TCP/UDP Port Filtering

Blocking Intra BSS Clients

Packet Forwarding

Supported by

AP-700

3

3

3

3

3

3

3

3

3

AP-700 User Guide

Medium Access Control (MAC) Functions

Feature

Automatic Channel Selection (ACS)

Dynamic Frequency Selection (DFS)*

Closed System Feature

Wireless Service Shutdown

802.11d Support

TX Power Control

Wireless Multimedia Enhancements/Quality of Service

(QoS)

Supported by

AP-700

3

3

3

3

3

3

3

* DFS is required for 802.11a APs certified in the ETSI regulatory domain and operating in the middle frequency band. When ACS is disabled, available channels are limited to those in the lower frequency band. See

Dynamic Frequency Selection/Radar Detection (DFS/RD).

Security Functions

Feature

Security Profiles per VLAN

RADIUS Profiles per VLAN

IEEE 802.11 WEP*

MAC Access Control

RADIUS MAC-based Access Control

IEEE 802.1x Authentication †

Multiple Authentication Server Support per VLAN ‡

Rogue Scanning to Detect Rogue Access Points and Clients

Per User Per Session (PUPS) Encryption §

Wi-Fi Protected Access (WPA)

Hardware Configuration Reset Disable

* Key lengths supported by 802.11a: 64-bit, 128-bit, and 152-bit.

Key lengths supported by 802.11b: 64-bit and 128-bit.

Key lengths supported by 802.11b/g: 64-bit, 128-bit, and 152-bit.

† EAP-MD5, EAP-TLS, EAP-TTLS, and PEAP client supplicant supported.

Supported by

AP-700

3

3

3

3

3

3

3

3

3

3

3

206

Specifications

Software Features

AP-700 User Guide

‡ Support is provided for a primary and backup RADIUS authentication server for both MAC-based authentication and 802.1x authentication per VLAN.

§ Use in conjunction with WPA or 802.1x Authentication.

Network Functions

DHCP Client

DHCP Server

DHCP Relay Agent and IP Lease Renewal

Inter Access Point Protocol (IAPP)

Link Integrity

System Logging (Syslog)

RADIUS Accounting Support*

DNS Client

TCP/IP Protocol Support

Virtual LAN Support

Feature Supported by

AP-700

3

3

3

3

3

3

3

3

3

Up to 16 SSIDs and VLANs , with specific Security and RADIUS profiles.

For more information, see the

Advanced Configuration

chapter.

* Includes Fallback to Primary RADIUS Server, RADIUS Session Timeout, RADIUS Multiple MAC Address Formats, RADIUS DNS Host Name

Support, RADIUS Start/Stop Accounting.

207

Specifications

Hardware Specifications

Hardware Specifications

AP-700 User Guide

Physical Specifications

Dimensions (H x W x L) = 6.5 x 18.5 x 26 cm (2.5 x 7.25 x 10.25 in.)

Weight = 1.75 Kg (3.5 lb.)

Electrical Specifications

Voltage = 100 to 240 VAC (50-60 Hz)

Current = 0.2 amp

Power Consumption = <9 Watts (power supply)

Environmental Specifications

Operating = 0°C to 55°C (32°F to 131°F) @ 5 to 95% relative humidity, non-condensing at 5°C and 55°C

Storage = -20°C to 85°C (-4°F to 185°F) @ 5 to 95% relative humidity, non-condensing at 5°C and 85°C

Ethernet Interface

10/100 Base-TX, RJ-45 female socket

Serial Port Interface

Standard RS-232C interface with DB-9, female connector

Active Ethernet Interface

Category 5, foiled, twisted pair cables must be used to ensure compliance with FCC Part 15, subpart B,

Class B requirements

Standard 802.3af pin assignments

208

Specifications

Available Channels

AP-700 User Guide

Available Channels

Available channels vary based on operational mode and country. To verify which channels are available for your product:

1. Locate the product SKU on the underside of your AP unit or on the unit’s box.

2. Note the alphanumeric code following the number 8675. (e.g., 8675-EU)

3. See the following table.

NOTE: Country restrictions may apply. Please see

Regulatory Compliance .

Mode

802.11b/g

802.11a

Frequency

Band

Channel

Lower

Middle

Upper

ISM Band

64

149

153

157

52

56

58

60

161

165

42

44

46

48

34

36

38

40

9

10

11

12

13

14

7

8

5

6

3

4

1

2

* Default channel.

† Available for use only in 802.11b mode.

3

3

3

3

3

3

3

Product SKU

AU AU2 BR CN EU EU2 HK JP SG SK TW UK US US2

3 3 3 3 3 3 3 3 3 3 3

3

3 *

3

3

3 * 3 * 3 * 3 *

3

3

3

3

3

3

3

3

3

3

3

3

3

3

3 * 3 * 3 * 3 *

3

3 3

3 * 3

3 3

3

3

3

3

3

3

3

3

3

3

3

3

3

3

3

3

3

3

3

3

3

3

3

3

3

3

3

3

3

3

3

3

3

3

3

3

3

3

3

3

3

3

3

3

3

3

3

3

3

3

3

3

3

3

3

3

3

3

3

3

3

3

3 *

3

3

3

3

3

3

3

3

3

3

3

3

3

3

3

3

3

3 3 3 3 * 3 * 3 * 3

3

3 3 3 3 3 3 3

3

3 3 3 3 3 3 3

3

3 3

3 * 3 *

3 3

3 3 3

3

3

3

3

3 * 3

3

3 * 3 *

3 3

3

3

3

3

3

3

3

3

3

3

3

3

3

3

3 3 *

3

3

3

3

3

3

3

3

3

3

3

3

3

*

3

3 * 3 * 3

3 3 3

3

3

3

3

3

3

3

3

3

3

3

3

3

3

3

3

3

3

3

3

3

3

3

3

3

209

Specifications

RF Performance

RF Performance

The following tables show typical AP-700 RF performance values.

802.11a RF Performance

Tx Power (dBm)*

Receiver Sensitivity (dBm)

Antenna Gain (dBi)

54

16

-70

48

17

-73

36

18

-78

802.11a Data Rates (Mbps)

24

18

-82

0 (integrated diversity antennas; 5.15-5.85 GHz)

18

18

-84

* Values are for FCC-certified products. They may differ for products certified in other regulatory domains.

12

18

-85

802.11b/g RF Performance

802.11b/g Data Rates (Mbps)

G-only Rates

Tx Power (dBm)*

Receiver Sensitivity (dBm)

Antenna Gain (dBi)

54

17

-70

48

18

-73

36

18

-79

24

18

-82

18

18

-85

12

18

-88

9 6

18

-90

1 (integrated diversity antenna module; 2.4-2.5 GHz)

18

-91

* Values are for FCC-certified products. They may differ for products certified in other regulatory domains.

11

20

-89

AP-700 User Guide

9

18

-86

B-only Rates

5.5

2

20

-91

20

-92

6

18

-87

1

20

-93

210

Technical Support

AP-700 User Guide

D

If you are having a problem using an AP and cannot resolve it with the information in

Troubleshooting , gather the

following information and contact your local reseller:

• List of ORiNOCO products installed on your network; include the following:

– Product names and quantity

– Part numbers (P/N)

– Serial numbers (S/N)

• List of ORiNOCO software versions installed

Check the HTTP interface’s Version

tab (click on Monitor > Version).

– Include the source of the software version (e.g., pre-loaded on unit, installed from CD, downloaded from Proxim

Web site, etc.)

• Information about your network

– Network operating system (e.g., Microsoft Networking); include version information

– Protocols used by network (e.g., TCP/IP, NetBEUI, IPX/SPX, AppleTalk)

– Ethernet frame type (e.g., 802.3, Ethernet II), if known

– IP addressing scheme (include address range and whether static or DHCP)

– Network speed and duplex (10 or 100 Mbits/sec; full or half duplex)

– Type of Ethernet device that the Access Points are connected to (e.g., Active Ethernet power injector, hub, switch, etc.)

– Type of Security enabled on the wireless network (None, WEP Encryption, 802.1x, Mixed)

• Information about AP configuration:

– Read/write password

• A description of the problem you are experiencing

– What were you doing when the error occurred?

– What error message did you see?

– Can you reproduce the problem?

– For each ORiNOCO product, describe the behavior of the device’s LEDs when the problem occurs

If the local reseller is unable to resolve your issue, contact ORiNOCO Technical Support online or by phone, as described below.

Online Support

Software and Documentation Downloads

The latest software and documentation is available for download at http://support.proxim.com

(Knowledgebase Answer

ID 1686).

Knowledgebase

We store all resolved problems in our solution database. Search by product, category, keywords, or phrases. Also find links to drivers, documents and other downloads. Search the Knowledgebase at:

<http://support.proxim.com/cgi-bin/proxim.cfg/php/enduser/std_alp.php> .

211

Technical Support

Telephone Support

AP-700 User Guide

Submit a Knowledgebase question or open an issue at:

<http://support.proxim.com/cgi-bin/proxim.cfg/php/enduser/ask.php>. Our technical support staff will reply to you by email.

NOTE: The Knowledgebase is available to all website visitors. First-time users will be asked to create an account to gain access.

Telephone Support

Contact technical support by phone 24 hours a day, seven days a week.

Domestic: +1-866-674-6626

International: 408-542-5390

212

Statement of Warranty

AP-700 User Guide

E

Warranty Coverage

Proxim Corporation warrants that its Products are manufactured solely from new parts, conform substantially to specifications, and will be free of defects in material and workmanship for a Warranty Period of 1 year from the date of purchase.

Repair or Replacement

In the event a Product fails to perform in accordance with its specification during the Warranty Period, Proxim offers return-to-factory repair or replacement, with a thirty (30) business-day turnaround from the date of receipt of the defective Product at a Proxim Corporation Repair Center. When Proxim has reasonably determined that a returned

Product is defective and is still under Warranty, Proxim shall, at its option, either: (a) repair the defective Product; (b) replace the defective Product with a refurbished Product that is equivalent to the original; or (c) where repair or replacement cannot be accomplished, refund the price paid for the defective Product. The Warranty Period for repaired or replacement Products shall be ninety (90) days or the remainder of the original Warranty Period, whichever is longer.

This constitutes Buyer’s sole and exclusive remedy and Proxim’s sole and exclusive liability under this Warranty.

Limitations of Warranty

The express warranties set forth in this Agreement will not apply to defects in a Product caused; (i) through no fault of

Proxim during shipment to or from Buyer, (ii) by the use of software other than that provided with or installed in the

Product, (iii) by the use or operation of the Product in an application or environment other than that intended or recommended by Proxim, (iv) by modifications, alterations, or repairs made to the Product by any party other than

Proxim or Proxim’s authorized repair partners, (v) by the Product being subjected to unusual physical or electrical stress, or (vii) by failure of Buyer to comply with any of the return procedures specified in this Statement of Warranty.

Support Procedures

Buyer should return defective LAN Products 1 within the first 30 days to the merchant from which the Products were purchased. Buyer can contact a Proxim Customer Service Center either by telephone or via web. Calls for support for

Products that are near the end of their warranty period should be made not longer than seven (7) days after expiration of warranty. Repair of Products that are out of warranty will be subject to a repair fee. Contact information is shown below.

Additional support information can be found at Proxim’s web site at http://support.proxim.com

.

• LAN Products 1 : Domestic calls: 866-674-6626 (24 hours per day, 7 days per week)

• International calls: 408-542-5390

• WAN Products 2 : Domestic calls: 800-674-6626 (8:00 A.M. – 5:00 P.M, M-F Pacific Time)

• International calls: 408-542-5390

When contacting the Customer Service for support, Buyer should be prepared to provide the Product description and serial number and a description of the problem. The serial number should be on the product.

In the event the Customer Service Center determines that the problem can be corrected with a software update, Buyer might be instructed to download the update from Proxim’s web site or, if that’s not possible, the update will be sent to

Buyer. In the event the Customer Service Center instructs Buyer to return the Product to Proxim for repair or replacement, the Customer Service Center will provide Buyer a Return Material Authorization (“RMA”) number and shipping instructions. Buyer must return the defective Product to Proxim, properly packaged to prevent damage, shipping prepaid, with the RMA number prominently displayed on the outside of the container.

1 LAN products include: ORiNOCO

2 WAN products include: Lynx, Tsunami, Tsunami MP, Tsunami Quickbridge

213

Statement of Warranty

Other Information

AP-700 User Guide

Calls to the Customer Service Center for reasons other than Product failure will not be accepted unless Buyer has purchased a Proxim Service Contract or the call is made within the first thirty (30) days of the Product’s invoice date.

Calls that are outside of the 30-day free support time will be charged a fee of $25.00 (US Dollars) per Support Call.

If Proxim reasonably determines that a returned Product is not defective or is not covered by the terms of this

Warranty, Buyer shall be charged a service charge and return shipping charges.

Other Information

Search Knowledgebase

Proxim stores all resolved problems in a solution database at the following URL: http://support.proxim.com

.

Ask a Question or Open an Issue

Submit a question or open an issue to Proxim technical support staff at the following URL: http://support.proxim.com/cgi-bin/proxim.cfg/php/enduser/ask.php

.

Other Adapter Cards

Proxim does not support internal mini-PCI devices that are built into laptop computers, even if identified as "ORiNOCO" devices. Customers having such devices should contact the laptop vendor's technical support for assistance.

For support for a PCMCIA card carrying a brand name other than Proxim, ORiNOCO, Lucent, Wavelan, or Skyline,

Customer should contact the brand vendor's technical support for assistance.

214

Regulatory Compliance

AP-700 User Guide

F

NOTE: Please read this section before installing and using your product, and save these instructions.

Visit http://support.proxim.com

for the latest regulatory compliance information.

This section contains important regulatory compliance information and details for the following products:

Product

ORiNOCO Access Point AP-700

Please see the following sections for more information:

Safety Information (USA, Canada, & European Union)

Federal Communications Commission (FCC)

Industry Canada (IC)

European Union

Regulatory Compliance Certifications Summary

AP-AG-AT-01

8675-AU

8675-AU2

8675-BR

8675-CN

8675-EU

8675-EU2

8675-HK

8675-JP

8675-SG

8675-SK

8675-TW

8675-UK

8675-US

8675-US2

Model Numbers

215

Regulatory Compliance

Safety Information (USA, Canada, & European Union)

Safety Information (USA, Canada, & European Union)

AP-700 User Guide

This product has been evaluated to, and complies with, the Safety requirements of UL60950:2000, and IEC60950:1999; the Standards for the Safety of Information Technology Equipment. When using this device, basic safety precautions should always be followed to reduce the risk of fire, electric shock and injury to persons, including the following:

• This product is for indoor use only.

• Operate and install this product as described in this manual. This device must be installed and used in strict accordance with the manufacturer's instructions.

• This product is suitable for installation in air handling spaces (plenum).

• Use only the AC/DC power supply adapter provided. For replacement, contact your local supplier or distributor.

• To avoid the risk of electric shock from lightning, do not use this product during an electrical storm.

• Installation of this product must conform to local regulations and codes.

• When using this product with an external antenna, see the installation documentation provided with the antenna system.

• No user serviceable parts; all repairs and service must be handled by a qualified service center.

216

Regulatory Compliance

Federal Communications Commission (FCC)

Federal Communications Commission (FCC)

AP-700 User Guide

217

Regulatory Compliance

Federal Communications Commission (FCC)

AP-700 User Guide

Warnings

This equipment generates, uses, and can radiate radio frequency energy; and, if not installed and used in accordance with the instructions, may cause harmful interference to radio communications. However, there is no guarantee that interference will not occur in a particular installation. If this equipment does cause harmful interference to radio or television reception, which can be determined by turning the equipment off and on, the user is encouraged to try and correct the interference by one or more of the following measures:

• Reorient or relocate the receiving antenna

• Increase the distance between the equipment and the receiver

• Connect the equipment to an AC outlet on a circuit different from that to which the receiver is connected

• Consult the dealer or an experienced radio/TV technician for help

In some situations or environments, the use of wireless devices may be restricted by the proprietor of the building or responsible representatives of the organization. These situations may, for example, include the use of wireless equipment on board airplanes, or in any other environment where the risk of interference to other devices or services is perceived or identified as harmful.

If you are uncertain of the policy that applies on the use of wireless equipment in a specific organization or environment

(e.g. airports), you are encouraged to ask for authorization to use this device prior to turning on the equipment.

Caution: Exposure to Radio Frequency Radiation

To comply with the FCC radio frequency exposure requirements, the following antenna installation and device operating configurations must be satisfied:

• For client devices using an integral antenna, the separation distance between the antenna(s) and any person’s body

(including hands, wrists, feet and ankles) must be at least 2.5 cm (1 inch).

• For Base Stations and configurations using an approved external antenna, the separation distance between the antenna and any person’s body (including hands, wrists, feet and ankles) must be at least 20 cm (8 inch).

• The transmitter shall not be collocated with other transmitters or antennas.

Modifications

The FCC requires the user to be notified that any changes or modifications to this device that are not expressly approved by the manufacturer may void the user’s authority to operate the equipment. The correction of interference caused by unauthorized modification, substitution or attachment will be the responsibility of the user. The manufacturer and its authorized resellers or distributors are not liable for any damage or violation of government regulations that may arise from failing to comply with these guidelines.

218

Regulatory Compliance

Industry Canada (IC)

Industry Canada (IC)

AP-700 User Guide

219

Regulatory Compliance

European Union

AP-700 User Guide

European Union

NOTE: European Union includes the following countries: Austria, Belgium, Cyprus, Czech Republic, Denmark, Estonia,

Finland, France, Germany, Greece, Hungary, Ireland, Italy, Latvia, Lithuania, Luxembourg, Malta, Netherlands,

Poland, Portugal, Slovakia, Slovenia, Spain, Sweden, and the United Kingdom; DoC also applies to Iceland,

Liechtenstein, Norway, and Switzerland.

220

Regulatory Compliance

Regulatory Compliance Certifications Summary

Regulatory Compliance Certifications Summary

Country

Australia & New Zealand

Brazil

Canada

Certification/Reference No.

N11394

ANATEL Cert. No.:

0090-05-1641

IC Cert. No.:

4110A-APAGAT01

AP-700 User Guide

China

European Union*

India

Japan

Mexico

Saudi Arabia

Singapore

South Korea

Taiwan

United Arab Emirates

USA

Safety:

UL File No. E177793

CMII ID:

2004DJ0339

CE1313!

Safety:

CB Lic. No. DK-7318

Pending

Radio Cert. Nos.:

003NY04005 0801

003GZ04002 0801

003WY04002 0801

COFETEL Cert. No.:

RCPPR8605-039

Pending

TAC No.:

PMREQ-T1459-2004

Radio Cert. No:

RLARN-04-0009

DGT Cert. No:

93LP0050

Pending

FCC ID:

IXMAPAGAT01

Safety:

UL File No. E177793

* European Union includes the following countries: Austria, Belgium, Cyprus, Czech Republic, Denmark, Estonia, Finland, France, Germany,

Greece, Hungary, Ireland, Italy, Latvia, Lithuania, Luxembourg, Malta, Netherlands, Poland, Portugal, Slovakia, Slovenia, Spain, Sweden, and the United Kingdom; also applies to Iceland, Liechtenstein, Norway, and Switzerland.

221

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