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Title page
1675 LambdaUnite Multiservice Switch (MSS) | Release 11.1.1
ES64U SNMP Reference Guide
Alcatel-Lucent – Proprietary
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ES64U-SNMP-REFG
365-374-201R11.1.1
CC109740282
ISSUE 1
MARCH 2010
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Legal notice
Legal notice
Alcatel, Lucent, Alcatel-Lucent and the Alcatel-Lucent logo are trademarks of Alcatel-Lucent. All other trademarks are the property of their respective owners.
The information presented is subject to change without notice. Alcatel-Lucent assumes no responsibility for inaccuracies contained herein.
Copyright © 2010 Alcatel-Lucent. All rights reserved.
Contains proprietary/trade secret information which is the property of Alcatel-Lucent and must not be made available to, or copied or used by anyone outside
Alcatel-Lucent without its written authorization.
ot to be used or disclosed except in accordance with applicable agreements.
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Contents
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Contents
...................................................................................................................................................................................................................................
Remove manager from manager list
Upload alarm profile information
Performance monitoring per port
Creating collection of PM (RX & TX)
Deleting collection of PM (RX & TX)
Performance monitoring per queue
Creating collection of PM (RX & TX) per queue
Resetting current counters of PM (RX & TX) per queue
.........................................................................................
Deleting collection of PM (RX & TX) per queue
Upload PM per queue information
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Contents
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1+1 LAG - Link Aggregation management
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List of tables
1-1
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A-1
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List of figures
1-1
1-2
1-3
Media-specific interface MIB tables
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About this document
About this document
Purpose
The ES64U is an extension of the 1675 LambdaUnite MSS capabilities. It provides
Ethernet Layer 2 switching features across the different physical interfaces provided by the way of Ethernet I/O boards. This equipment is also supplying an SMP management interface based on an Alcatel-Lucent proprietary MIB definition.
The complete SMP MIB description is supplied by Alcatel-Lucent via AS.1 files.
This document aims to describe the usage of this MIB from the management system point of view. It is proposed by Alcatel-Lucent to customers in order to help the development of a dedicated management system dealing with the full discovery and provisioning of the
ES64U.
Intended audience
This document is intended to who ever is concerned with the SMP management of the
ES64U.
It is considered as a reference guide for ES64U network management via SMP interface.
Related information
The manuals related to 1675 LambdaUnite MSS are shown in the following table:
Document title
1675 LambdaUnite MSS Product Information and Planning Guide
Presents a detailed overview of the system, describes its applications, gives planning requirements, engineering rules, ordering information, and technical specifications.
1675 LambdaUnite MSS User Provisioning Guide
Provides step-by-step information for use in daily system operations. The manual demonstrates how to perform system provisioning, operations, and administrative tasks by use of WaveStar ® CIT.
Document code
109740183
(365-374-195R11.1.1)
109740217
(365-374-196R11.1.1)
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About this document
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Document title
1675 LambdaUnite MSS Maintenance and Trouble-Clearing Guide
Gives detailed information on each possible alarm message. Furthermore, it provides procedures for routine maintenance, troubleshooting, diagnostics, and component replacement.
1675 LambdaUnite MSS Installation and System Turn-Up Guide
A step-by-step guide to system installation and set up. It also includes information needed for pre-installation site planning and post-installation acceptance testing.
1675 LambdaUnite MSS TL1 Command Guide
Describes the external TL1 interface for 1675 LambdaUnite MSS in terms of TL1 command, responses, and notification definitions.
ES64U Command Line Interface Guide
Document code
109740191
(365-374-197R11.1.1)
109740233
(365-374-198R11.1.1)
109740225
(365-374-199R11.1.1)
ES64U SMP Reference Guide
1675 LambdaUnite MSS Safety Guide
Documentation CD-ROM 1675 LambdaUnite MSS (all manuals on a CD-ROM)
1675 LambdaUnite MSS Software Release Description
1675 LambdaUnite MSS Engineering and Ordering Information
1675 LambdaUnite MSS Interconnect and Circuit Information
109740266
(365-374-200R11.1.1)
109740282
(365-374-201R11.1.1)
109510909
(365-374-159R11.1.1)
109740258
(365-374-181R11.1.1)
This document is delivered with the E software.
Drawing ED8C948-10
Drawing ED8C948-20
These documents and drawings can be ordered at or downloaded from the Alcatel-Lucent
Online Customer Support Site (OLCS) ( https://support.lucent.com
) or through your Local
Customer Support.
Technical support
For technical support, contact your local Alcatel-Lucent customer support team. See the
Alcatel-Lucent Support web site ( http://www.alcatel-lucent.com/support/ ) for contact information.
How to comment
To comment on this document, go to the Online Comment Form ( http://infodoc.
alcatel-lucent.com/comments/enus/ ) or e-mail your comments to the Comments Hotline
) .
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description
Overview
Purpose
This section describes the supported SMP tables, columnar objects, and scalar objects for the ES64U.
Detailed information about the ES64U management interface can be found in the 1675
LambdaUnite MSS User Provisioning Guide .
SNMP MIB – managed entities
The different logical objects managed in the ETS MIBs, and their relationships are depicted in the following figure.
ote: Spanning tree, Bridge, and ETS over Provider Bridge MIBs are not supported in the present release and therefore not covered by this edition of the document.
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ES64U SNMP MIB description Overview
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SDH physical interface 1
0..1
Ethernet ETB Interface (local or remote)
1
Spanning Tree MIB
MST VLAN
Assignment
Color
Profile
ETS MIB
0..1
ETS Traffic Descriptor
1 n
InFlow
OR
1 n
ETS Flow
Classifier n
Cross
Connection
STI / RSTI n
MSTI
1
STP Port
0..1
n n
OR n
Per-VLAN STI
1 n
Bridge
VLAN
ETS over
Provider
Bridge MIB
Bridge to ETS
Mapping
ETS to Bridge
Mapping
1
Bridge Port n
Bridge
VLAN Port
Bridge MIB
Vlan
Stack
0..1
OutFlow
OR n
Vlan Protocol
Profile
Interfa ces/ Ports MIB
1
0..1
1 1
Ethernet ETS Interface (local or remote)
0..1
1
SDH physical interface
Contents
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ES64U SNMP MIB description Overview
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MIB tables for alarm/trap/event management
Remove manager from manager list
Upload alarm profile information
Performance monitoring per port
Creating collection of PM (RX & TX)
Deleting collection of PM (RX & TX)
Resetting current counters of PM (RX & TX)
Performance monitoring per queue
Creating collection of PM (RX & TX) per queue
Resetting current counters of PM (RX & TX) per queue
Deleting collection of PM (RX & TX) per queue
Upload PM per queue information
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ES64U SNMP MIB description Overview
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1+1 LAG - Link Aggregation management
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ES64U SNMP MIB description System
System MIB
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System
System MIB
sysDescr (SNMPv2-MIB)
This object identifies the software version of the E.
Object identifier (OID):
1.3.6.1.2.1.1.1
Full path: iso(1).org(3).dod(6).internet(1).mgmt(2).mib-2(1).system(1).sysDescr(1)
Description
The sysDescr is a 9 bytes string defined in the following way: sysDescr [1] sysDescr [2,3] sysDescr [4,5] sysDescr [6,7]
MIB field name sysDescr
Description is a “V” (upper case) represents the Major version (number) represents the Minor version (number) represents the Maintenance version (number)
Example:
For example, ‘V010100’ represents version 1.1.
sysObjectID (SNMPv2-MIB)
The vendor's authoritative identification of the network management subsystem. This scalar is set to “Alcatel-Lucent”.
Object identifier (OID):
1.3.6.1.2.1.1.2
Full path: iso(1).org(3).dod(6).internet(1).mgmt(2).mib-2(1).system(1).sysObjectID(2)
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System MIB
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sysName (SNMPv2-MIB)
This scalar, which is an administratively assigned name for this managed node, is set to
“sysadm”.
Object identifier (OID):
1.3.6.1.2.1.1.5
Full path: iso(1).org(3).dod(6).internet(1).mgmt(2).mib-2(1).system(1).sysame(5) sysServices (SNMPv2-MIB)
A value that indicates the set of services that this entity may potentially offer. The value is a sum, which initially takes the value zero. Then, for each layer, L, in the range 1 through
7, that this node performs transactions for, 2
(L – 1) is added to the sum.
Object identifier (OID):
1.3.6.1.2.1.1.7
Full path: iso(1).org(3).dod(6).internet(1).mgmt(2).mib-2(1).system(1).sysServices(7)
Example:
ES64U, which is a layer 2 switch, has a value of 2 (2
(2 – 1)
).
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ES64U SNMP MIB description Interfaces
Generic interface MIB
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Interfaces
Generic interface MIB
Generic interface MIB tables
The generic interface MIB tables are:
•
IfStackTable (standard)
•
IfInvStackTable (standard)
•
IfTable (standard)
•
IfXTable (standard extension)
•
OpticsIMIfTable (proprietary)
•
OpticsIMEthConfTable (proprietary)
• nnNMXOpticsExtETSPortMirrorTable (proprietary)
•
OpticsIMEthVLANTypeTable (proprietary)
The relevant managed attributes of the tables involved in the interfaces/ports management are the following:
IfStackTable (IF-MIB)
The ifStackTable contains information on the relationships between the multiple sub-layers of network interfaces.
Object identifier (OID):
1.3.6.1.2.1.31.1.2
Full path: iso(1).org(3).dod(6).internet(1).mgmt(2).mib2(1).ifMIB(31).ifMIBObjects(1).ifStackTable(2)
Description
In particular, the ifStackTable contains information on which sub-layers run on top of' which other sub-layers, where each sub-layer corresponds to a conceptual row in the ifTable . For example, when the sub-layer with ifIndex value x runs over the sub-layer with ifIndex value y, then this table contains: ifStackStatus.x.y
= active
For each ifIndex value, I, which identifies an active interface, there are always at least two instantiated rows in this table associated with I. For one of these rows, I is the value of ifStackHigherLayer ; for the other, I is the value of ifStackLowerLayer . (If I is
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not involved in multiplexing, then these are the only two rows associated with I.) For example, two rows exist even for an interface which has no others stacked on top or below it: ifStackStatus.0.x
= active ifStackStatus.x.0
= active ifInvStackTable (IF-MIB)
The ifInvStackTable contains information on the relationships between the multiple sub-layers of network interfaces.
Object identifier (OID):
1.3.6.1.2.1.77.1.1
Full path: iso(1).org(3).dod(6).internet(1).mgmt(2).mib2(1).ifInvMIB(77).ifInvMIBObjects(1).ifInvStackTable(1)
Description
In particular, the ifInvStackTable contains information on which sub-layers run
'underneath' which other sub-layers, where each sub-layer corresponds to a conceptual row in the ifTable. For example, when the sub-layer with ifIndex value x runs underneath the sub-layer with ifIndex value y, then this table contains: ifInvStackStatus.x.y
= active
For each ifIndex value, z, which identifies an active interface, there are always at least two instantiated rows in this table associated with z. For one of these rows, z is the value of ifStackHigherLayer ; for the other, z is the value of ifStackLowerLayer . (If z is not involved in multiplexing, then these are the only two rows associated with z.)
For example, two rows exist even for an interface which has no others stacked on top or below it: ifInvStackStatus.z.0
= active ifInvStackStatus.0.z
= active
This table contains exactly the same number of rows as the ifStackTable , but the rows appear in a different order.
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ES64U SNMP MIB description Interfaces
Generic interface MIB
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ES64U implementation
For the ES64U, the implementation is as follow:
• ifStackStatus .
ethernetInterface .
gfpInterface
• ifInvStackStatus .
gfpInterface .
ethernetInterface
IfTable (IF-MIB)
A list of interface entries. The number of entries is given by the value of ifumber.
ES64U has interfaces of type gfp(IAAifType 221) and ethernetCsmacd(IAAifType 6).
Object identifier (OID):
1.3.6.1.2.1.2.2
Full path: iso(1).org(3).dod(6).internet(1).mgmt(2).mib-2(1).interfaces(2).ifTable(2)
IfIndex
IfType (RO)
MIB field name
IfSpeed (RO) ifAdminStatus (R/W) ifOperStatus (RO) ifPhysAddress ifMTU
IfTable
Description
Index of the table
Type of interface
Interface bandwidth in kbit/s
Desired state of interface
Actual state of interface ot used
The largest frame size which can be sent/received on the interface.
Value
A unique value greater than 0
Used values are:
6-ethernet
221-gfp
1-up
2-down (initial value)
1-up
2-down (initial value)
The following frame sizes are supported:
1574, 1600 ,1974, 2000, 2026 , 4474,
4500, 4526, 9190, 9216, 9242 ote that the WA ports 31-126 and
159-254 do not support Jumbo frames;
Jumbo frames are frames with more than
2026 bytes.
IfXTable (IF-MIB)
A list of interface entries. The number of entries is given by the value of ifumber. This table contains additional objects for the IfTable .
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Generic interface MIB
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Object identifier (OID):
1.3.6.1.2.1.31.1.1
Full path: iso(1).org(3).dod(6).internet(1).mgmt(2).mib-(1).ifMIB(31).ifMIBObjects(1).ifXTable(1)
MIB field name
IfPromiscuousMode
IfXTable (augments ifTable)
Description
Specifies if interface accepts all packets/frames or not. Set to false (i.e.
non-promiscuous mode, means that
Ethernet frames are terminated), (read only)
1-true (default)
Value
OpticsIMIfTable (TSDIM-SNMPNE-MIB)
This table contains interface configuration not defined in the IfTable .
Object identifier (OID):
1.3.6.1.4.1.637.54.1.1.5.1.19
Full path: iso(1).org(3).dod(6).internet(1).private(4).enterprises(1).alcatel(637).ltt(54).tsdim(1).tsdimBasicMib(1).
tsdimSnmpEMib(5).tsdimSnmpEMibObject(1).opticsIMIfTable(19)
MIB field name
IfIndex opticsIMIfRateLimitedSpeed
TsdimIfUnderlieLayer (RO)
OpticsIMIfTable
Description
Index of the table
This attribute carries out the rate limiting functionality.
This attribute is used for the CAC tests – it is useful only for the Ethernet interface.
The actual bandwidth is the minimum value between the Rate Limit and the
SDH current Speed.
Reference to the underlying path layer.
Value
A unique value greater than 0
In kbit/s
Minimum value: 1Mbit/s
Default value: 0 Gbit/s
1 - SDH/Sonet
OpticsIMEthConfTable (OPTICSIM-ETHNE-MIB)
This media-specific interface table is used to define the proprietary configuration parameters for the Ethernet interfaces.
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Generic interface MIB
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Object identifier (OID):
1.3.6.1.4.1.637.54.1.25.2.1.1
Full path: iso(1).org(3).dod(6).internet(1).private(4).enterprises(1).alcatel(637).ltt(54).tsdim(1).opticsimEthMib(25).
opticsimEthEMib(2).opticsimEthEMibObject(1).opticsIMEthConfTable(1)
MIB field name ifIndex opticsIMEthMauIndex opticsIMEthJackIndex opticsIMEthConfEncaps
OpticsIMEthAvailableBandwidth (RO)
OpticsIMEthConfTable
Description
Index of the table ot Used ot Used ot Used
Value
A unique value greater than 0
Indicates the available bandwidth of a specific port (this value applies to the value which can be decrease from opticsIMIfRateLimitedSpeed )
Indicates the available bandwidth of a specific port.
1.
This parameter represents the available BW which can be assigned for CIR services using this port as their egress port
2.
This parameter is meaningful only when opticsIMEthCirOverbookingFactor is set to a non-zero value.
3.
This parameter is decreased by the
CIR value of the traffic descriptors associated with services using this port as outflow.
In kbit/s
Minimum value: 1Mbit/s
Default value: 0 Gbit/s
4.
Initial Available Bandwidth value is:
• In case of rate limit = 0
•
Initial value = ifSpeed * (60
/
72)*(CirOverbookingFactor/
100)
•
In case of rate limit ≠ 0
• Initial value = ifSpeed * (60
/
84)*(CirOverbookingFactor/
100)
OpticsIMEthConfVLANEtherType
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Generic interface MIB
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MIB field name
OpticsIMEthConfTable
Description
Points to an entry in opticsIMEthVLANTypeTable that represents the EtherType value used to detect VLA tagged frames received from this interface, as well as to insert
VLA tags to the frames to be transmitted.
Value
0 means standard EtherType (0x8100
VLA Tag) IEEE 802. 1Q
0 is the default value.
OpticsIMEthClientType (RW) opticsIMEthCirOverbookingFactor (RW)
Transmission direction of the frames received from this interface
This attribute defines the overbooking
(OB) factor for the CIR bandwidth.
The overbooking factor is defined as a percentile.
1-ets (sent to ETS Layer)
3-linkagg
0 means unlimited
100 means CIR
101 to 10000 means CIR/100 * (the value)
Values 1 to 99 are not allowed.
opticsIMEthEirOverbookingFactor (RW)
This attribute defines the overbooking
(OB) factor for the EIR bandwidth. The overbooking factor is defined as a percentile.
0 means unlimited
100 means PIR-CIR
101 to 10000 means (PIR-CIR)/100 * (the value)
Values 1 to 99 are not allowed.
OpticsIMEthVLANTypeTable
MIB field name opticsIMEthVLANTypeIndex opticsIMEthVLANTypeTable
Description Value
Index of the table A unique value greater than 0 opticsIMEthVLANTypeEtherType(RW)
Define the protocol type (default 0x8100) >0x600 , not including: opticsIMEthVLANTypeUserLabel(RW)
Define the label for this type Unique field opticsIMEthVLANTypeRowStatus(RC)
Used to create, modify or delete a row in the table
CreateAndWait(5),CreateAndGo(4)Active(1), otReady(3),otInService(2), or
Destroy(6)
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ES64U SNMP MIB description Interfaces
Ethernet Layer MIB
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Ethernet Layer MIB
MIB field name ifIndex opticsIMEthMauIndex opticsIMEthJackIndex opticsIMEthConfEncaps
OpticsIMEthAvailable Bandwidth
(RO)
OpticsIMEthConfVLAN EtherType
(RW)
OpticsIMEthClientType (RW) opticsIMEthCir OverbookingFactor
(RW) opticsIMEthEir OverbookingFactor
(RW)
OpticsIMEthConfTable
Description
Index of the table ot Used ot Used ot Used
Indicates the available bandwidth of a specific port (this value applies to the value which can be decrease from opticsIMIfRateLimitedSpeed)
Points to an entry in opticsIMEthVLATypeTable that represents the EtherType value used to detect VLA tagged frames received from this interface, as well as to insert
VLA tags to the frames to be transmitted.
Read only.
Transmission direction of the frames received from this interface
This attribute defines the overbooking
(OB) factor for the CIR bandwidth.
The overbooking factor is defined as a percentile.
This attribute defines the overbooking
(OB) factor for the EIR bandwidth. The overbooking factor is defined as a percentile.
Value
A unique value greater than 0
In kbit/s
Minimum value: 1Mbit/s
Default value: 0 Gbit/s
0 means standard EtherType (0x8100
VLA Tag) IEEE 802. 1Q
0 is the default value.
1-ets (sent to ETS Layer)
3-linkagg
0 means unlimited
100 means CIR
101 to 10000 means CIR/100 * (the value)
0 means unlimited
100 means PIR-CIR
101 to 10000 means (PIR-CIR)/100 * (the value)
MIB field name opticsIMEthVLANTypeIndex opticsIMEthVLANTypeTable
Description Value opticsIMEthVLANTypeEtherType (RW)
Index of the table A unique value greater than 0
Define the protocol type (default 0x8100) >0x600 , not including: opticsIMEthVLANTypeUserLabel (RW)
Define the label for this type Unique field
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Ethernet Layer MIB
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opticsIMEthVLANTypeTable
Description Value MIB field name opticsIMEthVLANTypeRowStatus (RC)
Used to create, modify or delete a row in the table
CreateAndWait(5),CreateAndGo(4)Active(1), otReady(3),otInService(2), or
Destroy(6)
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ES64U SNMP MIB description Interfaces
GFP Transmission Layers MIB
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GFP Transmission Layers MIB
The media-specific interface MIB tables are tables not generic to all interfaces types.
They are:
•
OpticsimGFPConfTable
•
OpticsIMSdhIfTable (proprietary)
The managed attributes are the following.
MIB field name ifIndex opticsIMSdhifType - ot Used opticsIMSdhIfUnderlieLayer
OpticsIMSdhIfTable
– Read Only
Description
Index of the table
Type of interface
(Read only)
Reference to the underlying path layer.
(Read only)
Value
A unique value greater than 0
Possible values are :
22-PropPointToPointSerial (used for packet conc. Proprietary GFP)
118-hdlc
221-gfp
1-sdh
2-pdh (not supported)
3-none (default)
4-mau
5-pconc (packet concatenation)
6-vconc
OpticsIMSdhIfSpeed - ot used
OpticsIMSdhIfVcType
Interface bandwidth in b/s
(Read Only)
Type of the underlying SDH VC.
(Read only) opticsIMSdhIfCurrSpeed Value of actual ifSpeed of the relative server TTP.
(Read only)
1-other
2-vc12
3-vc3
4-vc4
5-vc4-4c
6-vt1-5
7-sts-1
The bandwidth configured by the 1678
SC
MIB field name
IfIndex opticsimGFPConfFcs opticsimGFPConfTable
– Not used
Description
Index of interface in ifTable
Activation/Deactivation of GFP Frame
Check Sequence usage (read-create)
Value
1- true
2- false (default value)
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GFP Transmission Layers MIB
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The following figure shows the relations between the tables.
Figure 1-1 Media-specific interface MIB tables
<<TSDIM-SNMPNE-MIB>> opticsIMSdhIfTable
<<ro>> opticsIMSdhIfSpeed
<<ro>> opticsIMSdhIfUnderlieLayer : sdh,pdh,...
<<ro>> opticsIMSdhIfType : gfp,hdlc...
<<ro>> opticsIMSdhIfVcType : vc3,vc12...
Idx- ifIndex
Idx - ifIndex
Idx- ifIndex
<<OPTICSIM-LAPS-MIB>> opticsimLapsConfTable
<<rw>> opticsimLapsConfFlag = simpleFlag,twoFlags
<<rw>> opticsimLapsConfErroneousFramesHandling = none, fscError,...
<<OPTICSIM-GFP-MIB>> opticsimGFPConfTable
<<rc>> opticsimGFPConfFcs = true, false
<<IF-MIB>> ifTable
<<Idx1>> ifIndex
<<ro>> ifDescr
<<rw>> ifType
<<rw>> ifSpeed
<<rw>> ifAdminStatus = up, down, testing
<<ro>> ...
rc- mplsLdpEntityConfGenericIfIndexOrZero
0, because LDP label range is managed on
Per-Platform basis
Idx - IfIndex
Idx-mplsInterfaceConfIndex
0 if Per-PlatformLabel Space:
- RSVP label range
- static over signaled label range
Idx- ifIndex
Idx- ifIndex
Idx - IfIndex
<<OPTICSIM-HDLC-MIB>> opticsimHDLCExtTable
<<ro>> opticsimHDLCExtDummy = 0
<<OPTICSIM-PPP-MIB>> opticsimPPPConfTable
<<rc>> opticsimPPPConfScrammbling = true, false
<<rc>> opticsimPPPConfMRU
<<rc>> opticsimPPPConfMTU
<<rc>> opticsimPPPConfFcsSize
<<rc>> opticsimPPPConfEncaps = std, alcatelprop
<<PPP-LCP-MIB>> pppLinkStatus
<<ro>> pppLinkStatusBadAddress
<<ro>> pppLinkStatusPhysicalIndex
<<ro>> pppLinkStatusReceiveFcsSize
<<ro>> pppLinkStatusTransmitFcsSize
<<MPLS-LDP-MIB>> mplsLdpEntityConfGenericLabelRangeTable
<<Idx1>> mplsEntityLdpId
<<Idx2>> mplsEntityIndex
<<Idx3>> mplsLdpEntityConfGenericLabelRangeMinimum
<<Idx4>> mplsLdpEntityConfGenericLabelRangeMaximum
<<OPTICSIM-ETHNE-MIB>> opticsIMEthConfTable
<<rw>> opticsIMEthMauIndex
<<rw>> opticsIMEthJackIndex
<<rc>> opticsIMEthConfEncaps
<<ro>> opticsIMEthAvailableBandwidth
<<ro>> opticsIMEthClientType = ETS, ETB
<<ro>> opticsIMEthAdmittedFractionalRate
<<LSR-MPLS-MIB>> mplsInterfaceConfTable
(from MPLS)
<<ro>> mplsInterfaceAvailableBandwidth
<<ro>> mplsInterfaceLabelParticipationType = Per-Platf, Per-Interf
<<ro>> mplsInterfaceTotalBandwidth
<<rw>> mplsInterfaceLabelMaxIn
<<rw>> mplsInterfaceLabelMinIn rw-opticsIMEthConfVLANEtherType or 0
<<OPTICSIM-ETHNE-MIB>> opticsIMEthVLANTypeIndexNext
<<augments>> hjMplsInterfaceConfTable
(from MPLS)
<<rc>> hjMplsInterfaceLabelMaxIn
<<rc>> hjMplsInterfaceLabelMinIn
<<rc>> hjMplsInterfaceLabelRange
<<rc>> hjMplsInterfaceUseInterfaceLabels = Per-Platf, Per-Interf
<<OPTICSIM-MPLS-MIB>> opticsimMplsConfTable
(from MPLS)
<<rw>> opticsimMplsConfMaxManualLabelIn
<<rw>> opticsimMplsConfResponsible = other,snmp,rsvp,ldp...
<<OPTICSIM-DA-MIB>> opticsimDAConfTable
<<rw>> opticsimDAConfTopology = disabled, hub, ring, signedNode
<<rw>> opticsimDAConfProtocolMode = disabled, basicRxSubset, full
<<OPTICSIM-ETHNE-MIB>> opticsIMEthVLANTypeTable
<<Idx>> opticsIMEthVLANTypeIndex
<<rc>> opticsIMEthVLANTypeEtherType = 0x8100...
<<rc>> opticsIMEthVLANTypeUserLabel
<<rc>> opticsIMEthVLANTypeRowStatus
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365-374-201R11.1.1
Issue 1 March 2010
ES64U SNMP MIB description Error logs
Error logs table
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Error logs
Error logs table
The following table contains all SMP errors during provisioning:
• opticsIMErrorLogTable opticsimGFPConfTable – Not used
Description MIB field name opticsIMErrorLogMgrIpAddr
The IP address of the Management
System setting the MIB attributes.
not-accessible opticsIMErrorLogSnmpRequest
The SMP Reqest ID.
not-accessible opticsIMErrorLogErrorTex
The error description.
Read-Only
String.
Value
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ES64U SNMP MIB description ETS Layer MIB
Overview
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ETS Layer MIB
Overview
The management of Ethernet ETS connections involves the following ETS MIB Tables:
• opticsimETSTrafficDescrTable (proprietary)
• opticsimEth2ETSFlowClassifierTable (proprietary)
• opticsimETSInFlowTable (proprietary)
• opticsimETSCrossConnectTable (proprietary)
• opticsimETSOutFlowTable (proprietary)
• opticsimETSVlanStackConfTable (proprietary)
• nnNMXOpticsExtETSInflowMirrorTable (proprietary)
•
NMXOpticsExtETSOutflowMirrorTable (proprietary)
The managed attributes are the following:
OpticsIMETSTrafficDescrTable (ETS MIB)
Description MIB field name
OpticsIMETSTrafficDescrIndex
Value
Index of the table Result of Get method on opticsIMETSTrafficDescrIndexext
OpticsIMETSTrafficDescrType
ETS Class of service 1-bestEffortService
2-regulatedService
3-guaranteedService
4-groupedService
5-backgroundService
6-regulated4Service
7-regulated3Service
8-regulated1Service
9-guaranteed2Service
OpticsIMETSTrafficDescrParam1
Committed Information Rate (Kbps) CIR value (default value in E: '0'b)
OpticsIMETSTrafficDescrParam2
Peak Information Rate (Kbps) PIR value (default value in E: '0'b)
OpticsIMETSTrafficDescrParam3
Committed Burst Size (Bytes) CBS value (default value in E: '0'b)
OpticsIMETSTrafficDescrParam4
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ES64U SNMP MIB description ETS Layer MIB
Overview
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MIB field name
OpticsIMETSTrafficDescrTable (ETS MIB)
Description
Peak Burst Size (Bytes)
Value
PBS value (default value in E: '0'b)
OpticsIMETSTrafficDescrParam5 ot used
OpticsIMETSTrafficDescrUserLabel
Canonical name assigned to the traffic descriptor
Configurable string
OpticsIMETSTrafficDescrRowStatus
Used to create, modify or delete a row in the table
CreateAndWait, Active, otInService, or
Destroy
OpticsIMETSInFlowTable (ETS MIB)
Description MIB field name
OpticsIMETSInFlowIndex
Value
Index of the table Result of Get method on opticsIMETSInflowIndexNext
OpticsIMETSInFlowServiceType
Type of service to be carried over this flow 1-ethernet (default value)
OpticsIMETSInFlowServiceID
Contains the appropriate value, service type dependent.
Value of ifIndex (ifTable)
OpticsIMETSInFlowUserLabel
Canonical name assigned to the flow Configurable string,
OpticsIMETSInFlowTrafficDescr index of pointed traffic descriptor
(opticsIMETSTrafficDescrTable)
Value of opticsIMETSTrafficDescrIndex
OpticsIMETSInFlowType
Specifies the type of Inflow.
0-unicastoAutoLearning (default value)
OpticsIMETSInFlowPolicing Mode
ETS Policing Mode 1 -colorBlind (default value)
2 –disabled (non policed traffic)
OpticsimETSInFlowCross ConnectIdentifier
Identifier of the pointed cross-connection
(opticsIMETSCrossConnectTable)
Value of opticsIMETSCrossConnectIndex.
Read-only field. It is initialized automatically by the E agent after the entry in the cross-connect table has been created
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365-374-201R11.1.1
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1-19
ES64U SNMP MIB description ETS Layer MIB
Overview
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OpticsIMETSInFlowTable (ETS MIB)
Description MIB field name
OpticsimETSInFlowVLANPop
Enable or disabled the VLA Pop configuration. This object is meaningful only if service type is 'Ethernet'.
Read / Write.
ot supported by ISA ES 1/4
OpticsimETSInFlowColorProfile Pointer
Pointer to the related Color Profile
(opticsIMETSColorProfileTable), if any.
This object is meaningful only if service type is 'Ethernet' and if the PolicingMode is 'colorAware' or 'disabled'
Read / Write.
OpticsimETSInFlowLayer2 ProtocolList
Enables to choose if to tunnel toward a
Provider etwork, or filter data and Layer
2 control frames.
Bit=1: Relative frame is tunnelled.
Bit=0: Relative frame is discarded.
Significant only if ServiceType is
'ethernet'.
Read.
OpticsIMETSInFlowRowStatus
Used to create, modify or delete a row in the table
Value
1 – enabled
2 – disabled (default)
Related Color profile index.
0 if no color profile (default)
Default: all bits=1, i.e. tunnelling everything.
CreateAndWait, Active, otInService, or
Destroy
OpticsIMETSOutFlowTable
(ETS MIB)
Description MIB field name
OpticsIMETSOutFlow Index
Value
Index of the table Result of Get method on opticsIMETSOutflowIndexext
OpticsIMETSOutFlow ServerType
Type of service on which this flow will be carried
1-ethernet (default value)
OpticsIMETSOutFlow ServerID
Contains the appropriate value, server type dependent.
Value of ifIndex (ifTable)
OpticsIMETSOutFlow UserLabel
Canonical name assigned to the flow Configurable string,
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ES64U SNMP MIB description ETS Layer MIB
Overview
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OpticsIMETSOutFlowTable (ETS MIB)
Description MIB field name
OpticsimETSOutFlow CrossConnectIdentifier
Identifier of the pointed cross-connection
(opticsIMETSCrossConnectTable)
Value
Value of opticsIMETSCrossConnectIndex.
Read-only field. It is initialized automatically by the E agent after the entry in the cross-connect table has been created
OpticsIMETSOutFlow RowStatus
Used to create, modify or delete a row in the table
OpticsimETSOutFlow VLANStackPointer
Pointer to the related VLA Stack configuration
(opticsIMETSVLAConfTable), if any.
This object is meaningful only if service type is 'Ethernet'. Read / Write.
CreateAndWait, Active, otInService, or
Destroy
Pointer to the Related VLA Stack Conf
0 if no Vlan push has been associated to the outfllow (default) nnNMXOpticsExtETSInflowMirrorTable (augments OpticsIMETSInFlowTable)
Description MIB field name nnNMXOpticsExtETSInflowMirror (RW)
Flag that defines if this inflow traffic should be mirrored or not.
•
Value mirror this inflow
• don't mirror this inflow nnNMXOpticsExtETSInflowMirrorPort (RW)
This field defines the port where to mirror the outflow (if it allowed – nnMXOpticsExtETSOutflowMirror field)
1.
2.
mirror to TAC1 port(default) mirror to TAC2 port
The value is irrelevant while nnMXOpticsExtETSInflowMirror is 2 nnNMXOpticsExtETSOutflowMirrorTable (augments OpticsIMETSOutFlowTable)
Description MIB field name nnNMXOpticsExtETSOutflowMirror (RW)
Flag that defines if this outflow traffic should be mirrored or not.
1.
Value mirror this outflow
2.
don't mirror outflow(default) nnNMXOpticsExtETSOutflowMirrorPort (RW)
This field defines the port where to mirror the outflow (if it allowed – nnMXOpticsExtETSOutflowMirror field)
1.
mirror to TAC1 port(default)
2.
mirror to TAC2 port
The value is irrelevant while nnMXOpticsExtETSOutflowMirror is 2
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1-21
ES64U SNMP MIB description ETS Layer MIB
Overview
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OpticsIMETSVLanStackConfTable
(ETS MIB)
Description MIB field name
OpticsIMETSVlanStackConfIndex
Value
First Index of the table Result of Get method on opticsIMETSVlanStackConfIIndexext
OpticsIMETSVlanStackConfVlanIndex
Second Index of the table: A value to identify the VLA number
OpticsIMETSVlanStackConfVlanID
OpticsIMETSVlanStackConfPriorityMode
Represents the way by which priority bits of VLA tag have to be managed
OpticsIMETSVlanStackConfPriority
Defines the VLA value to be set for
VLA tag to be pushed
The value of the priority bits to be set in the VLA tag to be pushed.
In the colorblind mode, it is the value to be set for all outgoing frames
In the coloraware mode, it is the value to be set only for green frames
Value fixed to 1
1..4094 (default is 0)
1-colorblind
• 0 – pri000 (default)
• 1 – pri001
•
2 – pri010
• 3 – pri011
•
4 – pri100
• 5 – pri101
•
6 – pri110
• 7 – pri111
•
10 – preserved priority from ingress
(The incoming priority bit will be code on the outgoing vlan)
OpticsIMETSVlanStackConfPriorityYellow ot Used • 0 – pri000 (default)
OpticsIMETSVlanStackConfIRow Status
Used to create, modify, or delete a row in the table
CreateAndWait, Active, otInService, or
Destroy
OpticsIMETSCrossConnectTable (ETS MIB)
Description MIB field name
OpticsIMETSCrossConnectIndex
OpticsIMETSCrossConnectInFlow Index
1 st index of the table
Value
Result of Get method on opticsIMETSCrossConnectIndexext
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ES64U SNMP MIB description ETS Layer MIB
Overview
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MIB field name
OpticsIMETSCrossConnectTable (ETS MIB)
Description
2 nd index of the table = index of pointed
InFlow (opticsIMETSInFlowTable)
OpticsIMETSCrossConnectOutFlowIndex
3 rd index of the table = index of pointed
OutFlow (opticsIMETSOutFlowTable)
OpticsIMETSCrossConnectRow Status
Used to create, modify or delete a row in the table
Value opticsIMETSInFlowIndex value of the related inflow opticsIMETSOutFlowIndex value of the related outflow
CreateAndWait, CreateAndGo, otInService, or Destroy opticsIMEth2ETSFlowClassifierTable (ETS MIB)
Description MIB field name
OpticsIMEth2ETSFlowClassifier InFlowIndex
1 st index of the table = index of related
InFlow (opticsIMETSInFlowTable)
OpticsIMEth2ETSFlowClassifier Index
2 nd index of the table
Value
Value of opticsIMETSInFlowIndex
Result of Get method on opticsIMEth2ETSFlowClassifierIndexext
OpticsIMEth2ETSFlowClassifier Vlan
VLA Id of the flow, (or min VLA ID for a VLA range).
The 4096 value is also used for priority-based purposes.
Limitations:
•
Minimum classifiers per inflow: 1.
• Maximum classifiers per inflow: 8.
• Classifiers with the same inflow -
Can't have the same exact parameters
(Vlan, MaxVlan, Pri, MaxPri).
•
Classifiers with the same inflow
ServiceID and different inflows -
Can't have the same Vlan (or to overlap).
OpticsIMEth2ETSFlowClassifier MaxVlan max VLA ID
•
•
•
1..4094
4096 - untagged
4097 – don't care (default)
• 0 - no range managed (default value)
•
1..4094
OpticsIMEth2ETSFlowClassifier Priority
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ES64U SNMP MIB description ETS Layer MIB
Overview
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MIB field name opticsIMEth2ETSFlowClassifierTable (ETS MIB)
Description user priority mapped in the InFlow (or min priority for a priority range)
The 0 value is used for VLA-based purposes
Value
• 0 – pri000
•
1 – pri001
• 2 – pri010
•
3 – pri011
• 4 – pri100
• 5 – pri101
• 6 – pri110
• 7 – pri111
•
8 – untagged
• 9 – don't care (default )
OpticsIMEth2ETSFlowClassifier MaxPriority
Max value of priority • 0 – pri000 no range managed
(default)
• 1.. 7 (pri001 to pri111)
OpticsIMEth2ETSFlowClassifier RowStatus
Used to create, modify or delete a row in the table
CreateAndWait, Active, otInService, or
Destroy opticsIMETSInFlowServiceIDTable
This table is a read-only version of the opticsIMETSInFlowTable .
It is ordered by ServiceID and InFlow.
An entry is created, in this table, automatically by the agent, when an entry is activated by the manager in the opticsIMETSInFlowTable with opticsIMETSInFlowRowStatus equal to 'active'.
An entry is deleted, in this table, automatically by the agent, when an entry is deactivated or deleted by the manager in the opticsIMETSInFlowTable with opticsIMETSInFlowRowStatus equal to 'destroy' or 'notInService'.
opticsIMETSOutFlowServerIDTable
This table is a read-only version of the opticsIMETSOutFlowTable .
It is ordered by ServerID and OutFlow.
An entry is created, in this table, automatically by the agent, when an entry is activated by the manager in the opticsIMETSOutFlowTable with opticsIMETSOutFlowRowStatus equal to 'active'.
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ES64U SNMP MIB description ETS Layer MIB
Overview
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An entry is deleted, in this table, automatically by the agent, when an entry is deactivated or deleted by the manager in the opticsIMETSOutFlowTable with opticsIMETSInFlowRowStatus equal to 'destroy' or 'notInService'.
Example with a point to point Ethernet EVC
The figure below depicts the case of an EVC going from nodes A to C over SDH topology
Figure 1-2 EVC over ETS example
ISA ES64 ISA ES64
CE
Node A Node B
ISA ES64
Node C
CE
EVC
Link over SONET
A
⇒
Z
The table below summarizes the different ETS MIBs objects that must be provisioned in each E, to create a complete Ethernet switch:
Table 1-1 ETS objects creation
ETS TrafficDescr Eth2ETS
FlowClassifier
Y
Y
Y
Y
Y
Y
ETS InFlow ETS CrossConnect
Y (xc1)
Y (xc2)
Y (xc3)
Y
Y
Y
ETS OutFlow ode A ode B ode C
Notes:
1.
Only if needed, because the same ETS Traffic Descriptor can be used by different Ethernet flows.
The following figure shows the relations between the tables:
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ES64U SNMP MIB description ETS Layer MIB
Overview
...................................................................................................................................................................................................................................
Figure 1-3 ETS MIB tables
<<OPTICSIM-ETS-MIB>> opticsimEth2ETSFlowClassifierIndexNext
<<OPTICSIM-ETS-MIB>> opticsimETSTrafficDescrIndexNext
<<OPTICSIM-ETS-MIB>> opticsimEth2ETSFlowClassifierTable
<<Idx2>> opticsimEth2ETSFlowClassifierIndex
<<rc>> opticsimEth2ETSFlowClassifierVlan
<<rc>> opticsimEth2ETSFlowClassifierMaxVlan
<<rc>> opticsimEth2ETSFlowClassifierPriority
<<rc>> opticsimEth2ETSFlowClassifierMaxPriority
<<rc>> opticsimEth2ETSFlowClassifierRowStatus
Idx1-opticsimEth2ETSFlowClassifierInFlowIndex
<<OPTICSIM-ETS-MIB>> opticsimETSTrafficDescrTable
<<Idx1>> opticsimETSTrafficDescrIndex
<<rc>> opticsimETSTrafficDescrType = bes, rs, gs
<<rc>> opticsimETSTrafficDescrParam1 = CIR
<<rc>> opticsimETSTrafficDescrParam2 = PIR
<<rc>> opticsimETSTrafficDescrParam3 = CBS
<<rc>> opticsimETSTrafficDescrParam4 = PBS
<<rc>> opticsimETSTrafficDescrParam5
<<rc>> opticsimETSTrafficDescrUserLabel
<<rc>> opticsimETSTrafficDescrRowStatus
<<OPTICSIM-ETS-MIB>> opticsimETSInFlowIndexNext rc-opticsimETSInFlowTrafficDescr
Read Only version of InFlow Table, ordered by
ServiceType / ServiceID / InFlowIndex
<<OPTICSIM-ETS-MIB>> opticsimETSInFlowTable
<<Idx1>> opticsimETSInFlowIndex
<<rc>> opticsimETSInFlowServiceType = other, ethernet, mpls, providerBridge
<<rc>> opticsimETSInFlowUserLabel
<<rc>> opticsimETSInFlowType
<<rc>> opticsimETSInFlowPolicingMode = colorblind, disabled, coloraware
<<rc>> opticsimETSInFlowRowStatus
<<rc>> opticsimETSInFlowVlanPop = enabled, disabled
<<OPTICSIM-ETS-MIB>> opticsimETSInFlowServiceIDTable
Read Only version of OutFlow Table, ordered by
ServiceType / ServiceID / OutFlowIndex
<<OPTICSIM-ETS-MIB>> opticsimETSOutFlowIndexNext
<<OPTICSIM-ETS-MIB>> opticsimETSOutFlowServerIDTable
Idx2-opticsimETSCrossConnectInFlowIndex rc-opticsimETSInFlowServiceID if ServiceType = ethernet
IF MIB
<<OPTICSIM-ETS-MIB>> opticsimETSOutFlowTable
<<Idx1>> opticsimETSOutFlowIndex
<<rc>> opticsimETSOutFlowServerType = other, ethernet, mpls, providerBridge
<<rc>> opticsimETSOutFlowUserLabel
<<rc>> opticsimETSOutFlowRowStatus rc-opticsimETSOutFlowServerID
Idx3-opticsimETSCrossConnectOutFlowIndex
<<IF-MIB>> ifTable
(from Interfaces) if ServerType = ethernet or Ethernet over MPLS MIB: if Inflow ServiceType = mpls or if Outflow ServerType=mpls see diagram ETS over MPLS MIB or Ethernet over ProviderBridge MIB: if Inflow ServiceType = providerBridge or if Outflow ServerType=providerBridge see diagram ETS over ProviderBridge MIB
<<OPTICSIM-ETS-MIB>> opticsimETSCrossConnectIndexNext ro-opticsimETSInFlowCrossConnectIdentifier can become significant only if policing mode is coloraware or disabled, and service type is ethernet.
rc-opticsIMETSInFlowColorProfilePointer or 0
<<OPTICSIM-ETS-MIB>> opticsIMETSColorProfileIndexNext
<<OPTICSIM-ETS-MIB>> opticsimETSCrossConnectTable
<<Idx1>> opticsimETSCrossConnectIndex
<<rc>> opticsimETSCrossConnectRowStatus
<<OPTICSIM-ETS-MIB>> opticsimETSVLanStackConfIndexNext ro-opticsimETSOutFlowCrossConnectIdentifier can become significant only if server type is ethernet.
rc-opticsimETSOutFlowVLANStackPointer or 0
<<OPTICSIM-ETS-MIB>> opticsIMETSColorProfileTable
<<Idx>> opticsIMETSColorProfileIndex
<<rc>> opticsIMETSColorProfiIePriority0 = gr,y,red
<<rc>> opticsIMETSColorProfiIePriority1 = gr,y,red
<<rc>> ...
<<rc>> opticsIMETSColorProfiIePriority7 = gr,y,red
<<rc>> opticsIMETSColorProfiIeUserLabel
<<rc>> opticsIMETSColorProfileRowStatus
<<OPTICSIM-ETS-MIB>> opticsimETSVlanStackConfTable
<<Idx1>> optcisIMETSVlanStackConfIndex
<<Idx2>> optcisIMETSVlanStackConfVlanIndex = 1..3
<<rc>> optcisIMETSVlanStackConfVlanID = 0..4095
<<rc>> optcisIMETSVlanStackConfPriorityMode = colorblind, coloraware
<<rc>> optcisIMETSVlanStackConfPriority = 0..7
<<rc>> optcisIMETSVlanStackConfPriorityYellow = 0..7
<<rc>> optcisIMETSVlanStackConfRowStatus
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365-374-201R11.1.1
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ES64U SNMP MIB description Alarms and events
Trap mechanism
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Alarms and events
Trap mechanism
To use the trap mechanism you should use the following features:
Manager list
Define to which IP address and UDP port to send the traps:
You need to use 2 tables: (duplicate tables for future usage of filtering)
• opticsIMMgrPollingInfoTable
• tsdimEFDTable
Maximum configured managers is 10.
Alarm profiles
Define profile for specific/group/all sources of alarm to use.
By default there are 4 profiles defined – those defaults can not be edited.
You can define up to 96 new alarm profiles.
Each profile defines the severity for each possible alarm.
For profile definition you need to use 2 tables:
• tsdimAlarmSevProfileTable – general description of the profile
• tsdimAlarmSevTable – detailed information of this profile contents
If the severity can not be found within the relevant profile definition, the trap will use a default (minor).
• tsdimAlarmSevDefault
By default all sources pointed to profile #2 (=primary alarms)
• tsdimIfAsapIndex (within opticsIMIfTable )
Open Alarm Table
Show the open alarms table
• tsdimAPTTable
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ES64U SNMP MIB description Alarms and events
Trap mechanism
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Log
There are 2 log tables, one for alarm and the other for events
• tsdimEventLogTable – general description of each log (default maximum log size
=1000)
• tsdimAlarmLogTable – Log of all transmitted alarms
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ES64U SNMP MIB description Alarms and events
Supported Alarms/Events
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Supported Alarms/Events
For more information you can use the document:
ES64_SMP_MIB_and_traps_guide_Ed1.1.doc
Alarms
OpticsIMAlarmLossOfFrameRaise
This notification reports the Loss Of Frame (LOF) defect raise.
The loss of frame (LOF) alarm appears when the frame sync is not recognizable, and the out of frame (OOF) alarm persists for 3 ms.
Object identifier (OID):
1.3.6.1.4.1.637.54.1.1.5.1.40.3
Full path: iso(1).org(3).dod(6).internet(1).private(4).enterprises(1).alcatel(637).ltt(54).tsdim(1).tsdimBasicMib(1).
tsdimSnmpEMib(5).tsdimSnmpEMibObject(1).opticsIMCommonAlarms(40). opticsIMAlarmLossOfFrameRaise(3) opticsIMAlarmTsfRaise
This notification reports the Trail Signal Fail (TSF) defect raise.
Alarm based on detection in the SDH or OT transport network as defined in G.783 and
G.798. GFP Server Signal Fail events refer to GFP Loss of Frame Delineation events as defined in the GFP state machine or propagation of TSF events to the GFP clients.
Object identifier (OID):
1.3.6.1.4.1.637.54.1.1.5.1.40.35
Full path: iso(1).org(3).dod(6).internet(1).private(4).enterprises(1).alcatel(637).ltt(54).tsdim(1).tsdimBasicMib(1)
.tsdimSnmpEMib(5).tsdimSnmpEMibObject(1).opticsIMCommonAlarms(40). opticsIMAlarmTsfRaise(35)
OpticsimClientSignalFailRaise
This notification reports the Client Signal Fail (CSF) defect raise.
CSF events refer to failure events detected in the client signal on ingress (communicated to far-end by a CSF client management frame) or egress (client-specific mapping defects such as payload errors).
Object identifier (OID):
1.3.6.1.4.1.637.54.1.1.5.1.40.55
Full path:
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ES64U SNMP MIB description Alarms and events
Supported Alarms/Events
...................................................................................................................................................................................................................................
iso(1).org(3).dod(6).internet(1).private(4).enterprises(1).alcatel(637).ltt(54).tsdim(1).tsdimBasicMib(1).
tsdimSnmpEMib(5).tsdimSnmpEMibObject(1).opticsIMCommonAlarms(40). opticsimClientSignalFailRaise(55)
OpticsIMAlarmExstensionHeaderMismatchRaise
This notification reports the Extension Header Mismatch (EXM) defect raise.
Alarm based on detection of EXI field value in ITU-T G.7041. This alarm appears when the received Extension Header Identifier (EXI) is different from the expected EXI.
Object identifier (OID):
1.3.6.1.4.1.637.54.1.1.5.1.40.67
Full path: iso(1).org(3).dod(6).internet(1).private(4).enterprises(1).alcatel(637).ltt(54).tsdim(1).tsdimBasicMib(1).
tsdimSnmpEMib(5).tsdimSnmpEMibObject(1).opticsIMCommonAlarms(40). opticsIMAlarmExstensionHeaderMismatchRaise(67) opticsIMAlarmUserPayloadMismatchRaise
This notification reports the User Payload Mismatch (UPM) defect raise.
Alarm based on detection of UPI field value in ITU-T G.7041.This alarm appears when the received User Payload Identifier (UPI) is different from the expected UPI.
Object identifier (OID):
1.3.6.1.4.1.637.54.1.1.5.1.40.69
Full path: iso(1).org(3).dod(6).internet(1).private(4).enterprises(1).alcatel(637).ltt(54).tsdim(1).tsdimBasicMib(1).
tsdimSnmpEMib(5).tsdimSnmpEMibObject(1).opticsIMCommonAlarms(40). opticsIMAlarmUserPayloadMismatchRaise(69)
Events: tsdimAVCNotification
Indicates a generic Attribute Value Change Event.
Type:
OTIFICATIO-TYPE
Object identifier (OID):
1.3.6.1.4.1.637.54.1.1.3.1.20
Full path: iso(1).org(3).dod(6).internet(1).private(4).enterprises(1).alcatel(637).ltt(54).tsdim(1).tsdimBasicMib(1).
tsdimSupportMib(3).tsdimSupportMibObject(1).tsdimAVCotification(20)
...................................................................................................................................................................................................................................
1-30 Alcatel-Lucent – Proprietary
Use pursuant to applicable agreements
365-374-201R11.1.1
Issue 1 March 2010
ES64U SNMP MIB description Alarms and events
Supported Alarms/Events
...................................................................................................................................................................................................................................
Binding:
1.
tsdimEventObjectClassIdentifier
2.
tsdimEventObjectInstanceIdentifier
3.
tsdimEventotificationId
4.
tsdimEventTime
5.
opticsIMAdditionalText
6.
opticsIMAlarmType
This notification is being sent in the following cases:
•
SDH maximum speed change
•
Current SDH speed change
•
VC type change tsdimStateChangeNotification
Indicates a generic State Change Event.
Object identifier (OID):
1.3.6.1.4.1.637.54.1.1.3.1.21
Full path: iso(1).org(3).dod(6).internet(1).private(4).enterprises(1).alcatel(637).ltt(54).tsdim(1).tsdimBasicMib(1)
.tsdimSupportMib(3).tsdimSupportMibObject(1).tsdimStateChangeotification(21)
Binding:
1.
tsdimEventObjectClassIdentifier
2.
tsdimEventObjectInstanceIdentifier
3.
tsdimEventotificationId
4.
tsdimEventTime
5.
opticsIMAdditionalText
6.
opticsIMAlarmType
This notification is being sent currently when
•
Admin status is changed.
•
Oper status changed
•
Manager polling table change tsdimObjectCreationNotification
Indicates a generic State Change Event.
Object identifier (OID):
1.3.6.1.4.1.637.54.1.1.3.1.18
...................................................................................................................................................................................................................................
365-374-201R11.1.1
Issue 1 March 2010
Alcatel-Lucent – Proprietary
Use pursuant to applicable agreements
1-31
ES64U SNMP MIB description Alarms and events
Supported Alarms/Events
...................................................................................................................................................................................................................................
Full path: iso(1).org(3).dod(6).internet(1).private(4).enterprises(1).alcatel(637).ltt(54).tsdim(1).tsdimBasicMib(1) tsdimSupportMib(3).tsdimSupportMibObject(1).tsdimObjectCreationotification(18)
Binding:
1.
tsdimEventObjectClassIdentifier
2.
tsdimEventObjectInstanceIdentifier
3.
tsdimEventotificationId
4.
tsdimEventTime
5.
opticsIMAdditionalText
6.
opticsIMAlarmType
This notification is being sent currently when
•
Row status = creating new entry for:
– Pm per port (ethAggrCDRxRowStatus/ ethAggrCDTxRowStatus)
– Pm per Queue (ethAggrPerQueueCDRowStatus)
– External manager for traps (opticsIMMgrPollingRowStatus) tsdimObjectDeletionNotification
Indicates a generic State Change Event.
Object identifier (OID):
1.3.6.1.4.1.637.54.1.1.3.1.19
Full path: iso(1).org(3).dod(6).internet(1).private(4).enterprises(1).alcatel(637).ltt(54).tsdim(1).tsdimBasicMib(1).
tsdimSupportMib(3).tsdimSupportMibObject(1).tsdimObjectDeletionotification(19)
Binding:
1.
tsdimEventObjectClassIdentifier
2.
tsdimEventObjectInstanceIdentifier
3.
tsdimEventotificationId
4.
tsdimEventTime
5.
opticsIMAdditionalText
6.
opticsIMAlarmType
This notification is being sent currently when
•
Row status = destroy entry for:
– Pm per port (ethAggrCDRxRowStatus/ ethAggrCDTxRowStatus)
– Pm per Queue (ethAggrPerQueueCDRowStatus)
– External manager for traps (opticsIMMgrPollingRowStatus)
...................................................................................................................................................................................................................................
1-32 Alcatel-Lucent – Proprietary
Use pursuant to applicable agreements
365-374-201R11.1.1
Issue 1 March 2010
ES64U SNMP MIB description Alarms and events
MIB tables for alarm/trap/event management
...................................................................................................................................................................................................................................
MIB tables for alarm/trap/event management
opticsIMMgrPollingInfoTable
This table contains the manager polling information. This polling mechanism is used in order to simulate a connection-oriented association between Manager and Agent.
Object identifier (OID):
1.3.6.1.2.1.1.1
Full path: iso(1).org(3).dod(6).internet(1).private(4).enterprises(1).alcatel(637).ltt(54).tsdim(1).tsdimBasicMib(1).
opticsIMCommRouMib(6).opticsIMCommRouMibObject(1).opticsIMMgrPollingInfoTable(8)
MIB field name opticsIMMgrPollingIndex opticsIMMgrPollingIpAddress (RC) opticsIMMgrPollingInfoTable (manager list MIB)
Description
Running Index of the table
Value
Running index (1-100)
IP address of the manager By default - the IP is taken from the SMP packet source IP address.
opticsIMMgrPollingUdpPort (RC)
UDP port Default 162 as in standard opticsIMMgrPollingTimeOut (RC)
Future Use – not relevant seconds opticsIMMgrPollingRowStatus (RC)
Used to create, modify or delete a row in the table
CreateAndWait, Active, otInService, or
Destroy tsdimEFDTable
This table specifies which traps will be sent to which management system. This EFD object is locked, via administrative state, by Agent when the first manager polling time-out expires and it is deleted when the secondtime-outt expires.
Object identifier (OID):
1.3.6.1.4.1.637.54.1.1.3.1.8
Full path: iso(1).org(3).dod(6).internet(1).private(4).enterprises(1).alcatel(637).ltt(54).tsdim(1).tsdimBasicMib(1).
tsdimSupportMib(3).tsdimSupportMibObject(1).tsdimEFDTable(8)
...................................................................................................................................................................................................................................
365-374-201R11.1.1
Issue 1 March 2010
Alcatel-Lucent – Proprietary
Use pursuant to applicable agreements
1-33
ES64U SNMP MIB description Alarms and events
MIB tables for alarm/trap/event management
...................................................................................................................................................................................................................................
tsdimEFDTable
(manager list MIB)
Description Value MIB field name tsdimEFDIndex
Running Index of the table Ethernet interfaces value as in IfTable tsdimEFDDest (RC)
IP address of the manager tsdimEFDPort (RC)
UDP port Default 162 as in standard tsdimEFDRowStatus (RC)
Used to create, modify or delete a row in the table
CreateAndWait, Active, otInService, or
Destroy tsdimEFDManagerIndex (RC)
Pointer to the equivalent index in opticsIMMgrPollingInfoTable
Index number
TsdimAlarmSevDefault
The default severity value used for new profile index/trap ID pairs that have not yet been modified.
This value is also used whenever an object's alarm severity profile index is set to 0. The default value of this object is indeterminate(5).
Object identifier (OID):
1.3.6.1.4.1.637.54.1.1.3.1.26
Full path: iso(1).org(3).dod(6).internet(1).private(4).enterprises(1).alcatel(637).ltt(54).tsdim(1).tsdimBasicMib(1).
tsdimSupportMib(3).tsdimSupportMibObject(1).tsdimAlarmSevDefault(26)
TsdimAlarmSevProfileIndexNext
This object contains an appropriate value to be used for tsdimAlarmSevProfileIndex when creating entries in the tsdimAlarmSevProfileTable .
The value –1 indicates that no unassigned entries are available.
To obtain the index value for a new entry, the manager issues a management protocol retrieval operation to obtain the current value of this object. After each retrieval, the agent should modify the value to the next unassigned index (or -1).
...................................................................................................................................................................................................................................
1-34 Alcatel-Lucent – Proprietary
Use pursuant to applicable agreements
365-374-201R11.1.1
Issue 1 March 2010
ES64U SNMP MIB description Alarms and events
MIB tables for alarm/trap/event management
...................................................................................................................................................................................................................................
Object identifier (OID):
1.3.6.1.4.1.637.54.1.1.3.1.27
Full path: iso(1).org(3).dod(6).internet(1).private(4).enterprises(1).alcatel(637).ltt(54).tsdim(1).tsdimBasicMib(1).
tsdimSupportMib(3).tsdimSupportMibObject(1).tsdimAlarmSevProfileIndexext(27) tsdimAlarmSevProfileTable
This table specifies which profiles exist. Deleting an entry in this table automatically deletes the corresponding entries in the tsdimAlarmSeverityTable .
Object identifier (OID):
1.3.6.1.4.1.637.54.1.1.3.1.28
Full path: iso(1).org(3).dod(6).internet(1).private(4).enterprises(1).alcatel(637).ltt(54).tsdim(1).tsdimBasicMib(1).
tsdimSupportMib(3).tsdimSupportMibObject(1).tsdimAlarmSevProfileTable(28) tsdimAlarmSevProfileTable (alarm profile MIB)
Description MIB field name tsdimAlarmSevProfileIndex
Index of the table tsdimAlarmSevProfileRowStatus (RC)
Used to create, modify or delete a row in the table tsdimAlarmSevProfileUserLabel (RC)
Define the name of the profile
Value
CreateAndWait, Active, otInService, or
Destroy
Free string tsdimAlarmSevTable
This table associates profile index and trap ID pairs with severities to be used for alarm traps that have occurred. (ote that this table does not apply to cleared alarms.)
Object identifier (OID):
1.3.6.1.4.1.637.54.1.1.3.1.29
Full path: iso(1).org(3).dod(6).internet(1).private(4).enterprises(1).alcatel(637).ltt(54).tsdim(1).tsdimBasicMib(1).
tsdimSupportMib(3).tsdimSupportMibObject(1).tsdimAlarmSevTable(29)
...................................................................................................................................................................................................................................
365-374-201R11.1.1
Issue 1 March 2010
Alcatel-Lucent – Proprietary
Use pursuant to applicable agreements
1-35
ES64U SNMP MIB description Alarms and events
MIB tables for alarm/trap/event management
...................................................................................................................................................................................................................................
tsdimAlarmSevTable (alarm profile MIB)
Description MIB field name tsdimAlarmSevProfileIndex
Value
1 st index of the table Pointer to the tsdimAlarmSevProfileTable index tsdimAlarmSevTrapId (RC)
2 nd index of table Trap id as defined by MIB tsdimAlarmSevRowStatus (RC)
Used to create, modify or delete a row in the table
CreateAndWait, Active, otInService, or
Destroy tsdimAlarmSevSeverity (RC)
Severity for the alarm while it's a service affective alarm
1–critical
2–major
3- minor
6-cleared (not an alarm) tsdimAlarmSevSeverityNotServAff (RC)
Severity for the alarm while it's a not service affective alarm
1–critical
2–major
3- minor
6-cleared ( = not an alarm) tsdimAPTTable
This table defines the TSDIM APT table. Agent uses this table in order to store the active alarms, while managing system can only read them.
Object identifier (OID):
1.3.6.1.4.1.637.54.1.1.3.1.2
Full path: iso(1).org(3).dod(6).internet(1).private(4).enterprises(1).alcatel(637).ltt(54).tsdim(1).tsdimBasicMib(1).
tsdimSupportMib(3).tsdimSupportMibObject(1).tsdimAPTTable(2) tsdimAPTTable (log MIB)
Description MIB field name tsdimAPTAlarmTimeIndex
Value
1 st index – indicate the time the alarm occurred
Time ticks since 1970 tsdimAPTAlarmNotificationId
...................................................................................................................................................................................................................................
1-36 Alcatel-Lucent – Proprietary
Use pursuant to applicable agreements
365-374-201R11.1.1
Issue 1 March 2010
ES64U SNMP MIB description Alarms and events
MIB tables for alarm/trap/event management
...................................................................................................................................................................................................................................
tsdimAPTTable (log MIB)
MIB field name Description
2 nd index - Sequence index
Value tsdimAPTAlarmProbableCause (RO)
The OID alarm description OID of trap as defined by MIB
( opticsIMCommonAlarms ).
tsdimAPTAlarmObjectClassIdentifier (RO)
The number of nodes within Integer tsdimAlarmLogObjectInstanceIdentifier array tsdimAPTAlarmObjectInstanceIdentifier (RO)
The OID which describe the alarm source tsdimAPTAlarmSeverity (RO)
The alarm severity while occurred
OID array
1–critical
2–major
3- minor tsdimLogTable
This table defines the characteristics of the logs, both alarms and events, currently maintained by the agent. It is a common table that describes the behavior of the two logs, in-fact it contains generic attributes not related to the type of records stored inside logs.
Object identifier (OID):
1.3.6.1.4.1.637.54.1.1.3.1.3
Full path: iso(1).org(3).dod(6).internet(1).private(4).enterprises(1).alcatel(637).ltt(54).tsdim(1).tsdimBasicMib(1).
tsdimSupportMib(3).tsdimSupportMibObject(1).tsdimLogTable(3) tsdimLogTable (log MIB)
Description MIB field name tsdimLogIndex tsdimLogObjectClassIdentifier (RO)
Running Index of the table
Value
Running index (1-100)
OID of the relevant pointed table (event or alarm) tsdimEventLogTable OID or tsdimAlarmLogTable OID tsdimLogAdminStatus (RW)
...................................................................................................................................................................................................................................
365-374-201R11.1.1
Issue 1 March 2010
Alcatel-Lucent – Proprietary
Use pursuant to applicable agreements
1-37
ES64U SNMP MIB description Alarms and events
MIB tables for alarm/trap/event management
...................................................................................................................................................................................................................................
MIB field name tsdimLogTable (log MIB)
Description
Admin condition
Value
0 – locked
1 – unlocked (Default)
2- shutting down tsdimLogOperStatus (RO)
Oper status of the log table 0 – disabled
1 – enabled (Default) tsdimLogMaxSize (RO)
Max size of the log table Default 1000 tsdimAlarmLogTable
This table defines the TSDIM Alarm Log table. It is used to store the alarms generated by
SMP E.
Object identifier (OID):
1.3.6.1.4.1.637.54.1.1.3.1.5
Full path: iso(1).org(3).dod(6).internet(1).private(4).enterprises(1).alcatel(637).ltt(54).tsdim(1).tsdimBasicMib(1).
tsdimSupportMib(3).tsdimSupportMibObject(1).tsdimAlarmLogTable(5)
MIB field name tsdimAlarmLogTable (log MIB)
Description Value tsdimAlarmLogTimeIndex
1 st index – indicate the time the alarm occurred
Time ticks since 1970 tsdimAlarmLogNotificationId
2 nd index – Sequence index tsdimAlarmLogProbableCause (RO)
The OID alarm description tsdimAlarmLogObjectClassIdentifier (RO)
Integer
OID of trap as defined by MIB
The number of nodes within Integer tsdimAlarmLogObjectInstanceIdentifier array tsdimAlarmLogObjectInstanceIdentifier (RO)
The OID which describe the alarm source tsdimAlarmLogSeverity (RO)
OID array
...................................................................................................................................................................................................................................
1-38 Alcatel-Lucent – Proprietary
Use pursuant to applicable agreements
365-374-201R11.1.1
Issue 1 March 2010
ES64U SNMP MIB description Alarms and events
MIB tables for alarm/trap/event management
...................................................................................................................................................................................................................................
MIB field name tsdimAlarmLogTable (log MIB)
Description
The alarm severity while occurred
Value
1–critical
2–major
3- minor
6-cleared ( currently not an alarm)
This table contains information about single event notification not alarm. Entries in this table are created automatically by Agent and they are never deleted because the Log behavior is automatically set to Wrap, hence when no more entry will be created (log full) new log entry will cause the deletion of the oldest one.
Object identifier (OID):
1.3.6.1.4.1.637.54.1.1.3.1.4
Full path: iso(1).org(3).dod(6).internet(1).private(4).enterprises(1).alcatel(637).ltt(54).tsdim(1).tsdimBasicMib(1).
tsdimSupportMib(3).tsdimSupportMibObject(1).tsdimEventLogTable(4)
MIB field name tsdimEventLogTable (log MIB)
Description Value tsdimEventLogEventTimeIndex
1 st index – indicate the time the event occurred
Time ticks since 1970 tsdimEventLogNotificationId
2 nd index – Sequence index Integer tsdimEventLogEventType (RO)
Type of event tsdimEventLogObjectClassIdentifier (RO)
The OID which describe the event object which has change
3 – attribute change
4 – state change tsdimEventLogObjectInstanceIdentifier (RO)
The number of nodes within tsdimEventLogObjectClassIdentifier array
Integer
OID array
...................................................................................................................................................................................................................................
365-374-201R11.1.1
Issue 1 March 2010
Alcatel-Lucent – Proprietary
Use pursuant to applicable agreements
1-39
ES64U SNMP MIB description Alarms and events
Enable trap manager
...................................................................................................................................................................................................................................
Enable trap manager
1
...................................................................................................................................................................................................
Set the manager information in opticsIMMgrPollingInfoTable .
2
3
4
...................................................................................................................................................................................................
Set the manager information in tsdimEFDTable (set the index of the previous table in tsdimEFDManagerIndex field).
...................................................................................................................................................................................................
Check the default severity profile pointer for each source ( tsdimIfAsapIndex ).
...................................................................................................................................................................................................
Check the alarm profile definitions, if needed, create a new alarm profile
( tsdimAlarmSevTable ) and change the pointed profile for the required source (step 3 again).
E
N D O F S T E P S
...................................................................................................................................................................................................
...................................................................................................................................................................................................................................
1-40 Alcatel-Lucent – Proprietary
Use pursuant to applicable agreements
365-374-201R11.1.1
Issue 1 March 2010
ES64U SNMP MIB description Alarms and events
Remove manager from manager list
...................................................................................................................................................................................................................................
Remove manager from manager list
1
2
3
...................................................................................................................................................................................................
Get from tsdimEFDTable the index pointed to the relevant row of opticsIMMgrPollingInfoTable ( tsdimEFDManagerIndex ).
...................................................................................................................................................................................................
Delete the row from tsdimEFDTable .
...................................................................................................................................................................................................
Use the Index retrieved before (index = tsdimEFDManagerIndex ) to delete the row from opticsIMMgrPollingInfoTable .
E
N D O F S T E P S
...................................................................................................................................................................................................
...................................................................................................................................................................................................................................
365-374-201R11.1.1
Issue 1 March 2010
Alcatel-Lucent – Proprietary
Use pursuant to applicable agreements
1-41
ES64U SNMP MIB description Alarms and events
Upload manager address
...................................................................................................................................................................................................................................
Upload manager address
opticsIMMgrPollingInfoTable
1 GetTable I ARG OpticsIMCsgVar::CsgVar::OID: tableOid = OPTICSIM-COMMROU-MIB:: opticsIMMgrPollingInfoTable
OUT ARG OpticIMCsgVar::AttrList:
•
– AttrVal.instance[0] = opticsIMMgrPollingIndex (running index)
– According to the column:
–
•
AttrVal.oid = OPTICSIM-COMMROU-MIB:: opticsIMMgrPollingIpAddress
• AttrVal.type = IpAddress
•
AttrVal.val = IP address of manager
– or
•
AttrVal.oid = OPTICSIM-COMMROU-MIB:: opticsIMMgrPollingUdpPort
• AttrVal.type = ITEGER
•
AttrVal.val = UDP port for sending traps
– or
• AttrVal.oid = OPTICSIM-COMMROU-MIB:: opticsIMMgrPollingRowStatus
• AttrVal.type = ITEGER
• AttrVal.val = active / notInService tsdimEFDTable
...................................................................................................................................................................................................................................
1-42 Alcatel-Lucent – Proprietary
Use pursuant to applicable agreements
365-374-201R11.1.1
Issue 1 March 2010
ES64U SNMP MIB description Alarms and events
Upload manager address
...................................................................................................................................................................................................................................
1 GetTable I ARG OpticsIMCsgVar::CsgVar::OID: tableOid = TSDIM-SUPPORT-MIB:: tsdimEFDTable
OUT ARG OpticIMCsgVar::AttrList:
•
– AttrVal.instance[0] = tsdimEFDIndex (running index)
– According to the column:
–
• AttrVal.oid = TSDIM-SUPPORT-MIB:: tsdimEFDDest
•
AttrVal.type = IpAddress
• AttrVal.val = IP address of manager
– or
•
AttrVal.oid = TSDIM-SUPPORT-MIB:: tsdimEFDPort
• AttrVal.type = ITEGER
•
AttrVal.val = UDP port for sending traps
– or
•
AttrVal.oid = TSDIM-SUPPORT-MIB:: tsdimEFDRowStatus
• AttrVal.type = ITEGER
•
AttrVal.val = active / notInService
– or
•
AttrVal.oid = TSDIM-SUPPORT-MIB:: tsdimEFDManagerIndex
• AttrVal.type = ITEGER
• AttrVal.val = the index of the parallel row in opticsIMMgrPollingInfoTable
...................................................................................................................................................................................................................................
365-374-201R11.1.1
Issue 1 March 2010
Alcatel-Lucent – Proprietary
Use pursuant to applicable agreements
1-43
ES64U SNMP MIB description Alarms and events
Upload alarm profile information
...................................................................................................................................................................................................................................
Upload alarm profile information
tsdimIfAsapIndex
1 GetTable I ARG OpticsIMCsgVar::CsgVar::OID: tableOid = TSDIM-SMPE-MIB:: opticsIMIfTable
OUT ARG OpticIMCsgVar::AttrList:
•
– AttrVal.instance[0] = ifIndex (interface id as in ifTable)
– According to the column:
–
• AttrVal.oid = TSDIM-SMPE-MIB:: tsdimIfAsapIndex
•
AttrVal.type = ITEGER
• AttrVal.val = index of the profile defined in tsdimAlarmSevProfileTable tsdimAlarmSevProfileTable
1 GetTable I ARG OpticsIMCsgVar::CsgVar::OID: tableOid = TSDIM-SUPPORT-MIB:: tsdimAlarmSevProfileTable
OUT ARG OpticIMCsgVar::AttrList:
•
– AttrVal.instance[0] = tsdimAlarmSevProfileIndex (running index)
– According to the column:
–
• AttrVal.oid = TSDIM-SUPPORT-MIB:: tsdimAlarmSevProfileRowStatus
•
AttrVal.type = ITEGER
• AttrVal.val = active / notInService
– or
• AttrVal.oid = TSDIM-SUPPORT-MIB:: tsdimAlarmSevProfileUserLabel
•
AttrVal.type = OCTET STRIG
• AttrVal.val = free string which describe the name of the profile tsdimAlarmSevTable
...................................................................................................................................................................................................................................
1-44 Alcatel-Lucent – Proprietary
Use pursuant to applicable agreements
365-374-201R11.1.1
Issue 1 March 2010
ES64U SNMP MIB description Alarms and events
Upload alarm profile information
...................................................................................................................................................................................................................................
1 GetTable I ARG OpticsIMCsgVar::CsgVar::OID: tableOid = TSDIM-SUPPORT-MIB:: tsdimAlarmSevTable
OUT ARG OpticIMCsgVar::AttrList:
•
– AttrVal.instance[0] = tsdimAlarmSevProfileIndex (pointer to the relevant profile index in tsdimAlarmSevProfileTable )
– AttrVal.instance[1] = tsdimAlarmSevTrapId (trap id index as deined in opticsIMCommon-
Alarms)
– According to the column:
–
• AttrVal.oid = TSDIM-SUPPORT-MIB:: tsdimAlarmSevSeverity
•
AttrVal.type = ITEGER
• AttrVal.val = 1- critical , 2 – major , 3 - minor
– or
• AttrVal.oid = TSDIM-SUPPORT-MIB:: tsdimAlarmSevSeverityotServAff
•
AttrVal.type = ITEGER
• AttrVal.val = 1- critical , 2 – major , 3 - minor
...................................................................................................................................................................................................................................
365-374-201R11.1.1
Issue 1 March 2010
Alcatel-Lucent – Proprietary
Use pursuant to applicable agreements
1-45
ES64U SNMP MIB description Alarms and events
Upload open alarm table
...................................................................................................................................................................................................................................
Upload open alarm table
tsdimAPTTable
1 GetTable I ARG OpticsIMCsgVar::CsgVar::OID: tableOid = TSDIM-SUPPORT-MIB:: tsdimAPTTable
OUT ARG OpticIMCsgVar::AttrList:
•
– AttrVal.instance[0] = tsdimAPTAlarmTimeIndex (time which the alarm occur)
– AttrVal.instance[1] = tsdimAPTAlarmotificationId (sequence number of the trap)
– According to the column:
–
•
AttrVal.oid = TSDIM-SUPPORT-MIB:: tsdimAPTAlarmObjectClassIdentifier
• AttrVal.type = ITEGER
•
AttrVal.val = number of nodes
– or
•
AttrVal.oid = TSDIM-SUPPORT-MIB:: tsdimAPTAlarmObjectInstanceIdentifier
• AttrVal.type = OBJECT IDETIFIER
•
AttrVal.val = OID description
– or
• AttrVal.oid = TSDIM-SUPPORT-MIB:: tsdimAPTAlarmProbableCause
•
AttrVal.type = OBJECT IDETIFIER
• AttrVal.val = OID description
– or
• AttrVal.oid = TSDIM-SUPPORT-MIB:: tsdimAPTAlarmSeverity
•
AttrVal.type = OBJECT IDETIFIER
• AttrVal.val = OID description
...................................................................................................................................................................................................................................
1-46 Alcatel-Lucent – Proprietary
Use pursuant to applicable agreements
365-374-201R11.1.1
Issue 1 March 2010
ES64U SNMP MIB description Alarms and events
Upload log tables
...................................................................................................................................................................................................................................
Upload log tables
tsdimLogTable
1 GetTable I ARG OpticsIMCsgVar::CsgVar::OID: tableOid = TSDIM-SUPPORT-MIB:: TsdimLogTable
OUT ARG OpticIMCsgVar::AttrList:
•
– AttrVal.instance[0] = tsdimLogIndex (sequence number of the log)
– According to the column:
–
• AttrVal.oid = TSDIM-SUPPORT-MIB:: tsdimLogObjectClassIdentifier
•
AttrVal.type = OBJECT IDETIFIER
• AttrVal.val = identify the log table
– or
• AttrVal.oid = TSDIM-SUPPORT-MIB:: tsdimLogAdminStatus
•
AttrVal.type = ITEGER
• AttrVal.val = 0 - locked/ 1 – unlocked / 2- shutting down
– or
• AttrVal.oid = TSDIM-SUPPORT-MIB:: tsdimLogOperStatus
• AttrVal.type = OBJECT IDETIFIER
•
AttrVal.val = 0 - disabled , 1-enabled
– or
•
AttrVal.oid = TSDIM-SUPPORT-MIB:: tsdimLogMaxSize
• AttrVal.type = ITEGER
•
AttrVal.val = max size of log table tsdimAlarmLogTable
...................................................................................................................................................................................................................................
365-374-201R11.1.1
Issue 1 March 2010
Alcatel-Lucent – Proprietary
Use pursuant to applicable agreements
1-47
ES64U SNMP MIB description Alarms and events
Upload log tables
...................................................................................................................................................................................................................................
1 GetTable I ARG OpticsIMCsgVar::CsgVar::OID: tableOid = TSDIM-SUPPORT-MIB:: tsdimAlarmLogTable
OUT ARG OpticIMCsgVar::AttrList:
•
– AttrVal.instance[0] = tsdimAlarmLogTimeIndex (time which the alarm occur)
– AttrVal.instance[1] = tsdimAlarmLogotificationId (sequence number of the trap)
– According to the column:
–
•
AttrVal.oid = TSDIM-SUPPORT-MIB:: tsdimAlarmLogProbableCause
• AttrVal.type = ITEGER
• AttrVal.val = number of nodes
– or
• AttrVal.oid = TSDIM-SUPPORT-MIB:: tsdimAlarmLogObjectClassIdentifier
•
AttrVal.type = OBJECT IDETIFIER
• AttrVal.val = OID description
– or
• AttrVal.oid = TSDIM-SUPPORT-MIB:: tsdimAlarmLogObjectClassIdentifier
•
AttrVal.type = OBJECT IDETIFIER
• AttrVal.val = OID description
– or
• AttrVal.oid = TSDIM-SUPPORT-MIB:: tsdimAlarmLogSeverity
• AttrVal.type = OBJECT IDETIFIER
•
AttrVal.val = OID description tsdimEventLogTable
...................................................................................................................................................................................................................................
1-48 Alcatel-Lucent – Proprietary
Use pursuant to applicable agreements
365-374-201R11.1.1
Issue 1 March 2010
ES64U SNMP MIB description Alarms and events
Upload log tables
...................................................................................................................................................................................................................................
1 GetTable I ARG OpticsIMCsgVar::CsgVar::OID: tableOid = TSDIM-SUPPORT-MIB:: tsdimAPTTable
OUT ARG OpticIMCsgVar::AttrList:
•
– AttrVal.instance[0] = tsdimEventLogEventTimeIndex (time which the event occur)
– AttrVal.instance[1] = tsdimEventLogotificationId (sequence number of this event)
– According to the column:
–
•
AttrVal.oid = TSDIM-SUPPORT-MIB:: tsdimEventLogEventType
• AttrVal.type = OBJECT IDETIFIER
• AttrVal.val = OID description
– or
• AttrVal.oid = TSDIM-SUPPORT-MIB:: tsdimEventLogObjectClassIdentifier
•
AttrVal.type = ITEGER
• AttrVal.val = number of nodes
– or
• AttrVal.oid = TSDIM-SUPPORT-MIB:: tsdimEventLogObjectInstanceIdentifier
•
AttrVal.type = OBJECT IDETIFIER
• AttrVal.val = OID description
...................................................................................................................................................................................................................................
365-374-201R11.1.1
Issue 1 March 2010
Alcatel-Lucent – Proprietary
Use pursuant to applicable agreements
1-49
ES64U SNMP MIB description Performance monitoring per port
Overview
...................................................................................................................................................................................................................................
Performance monitoring per port
Overview
Supported counters
The PM supports the following counters for RX:
•
TRCO – Total received Octets
•
TRCF – Total Received Frames
•
TDF – Total Discard Frames
The PM supports the following counters for TX:
•
TTO – Total Received Octets
•
TTF – Total Transmitted Frames
•
TDF – Total Discard Frames
There are 3 types of counters:
•
Current – free running counters, those counters are available for Ethernet interface which are activated (admin up status on IfTable). Those counters can be reset to zero while required. You can delete & create the PM collection operation for those counters. While deleting the PM collection, those counters will not be available in the history table as well and their historic information will be deleted.
•
History – counters for each interval time, there are 2 granularities for those interval,
15 minutes & 24 hours. The 15 minutes granularity collect the previous 96 intervals and the 24 hours granularity collect 2 intervals latest 24 hours and the current one since last midnight. The history RX/TX PM is available for interfaces which are retrievable on the current RX/TX tables.
•
Maintenance – Those counters are free running HW counters which start their collection on system initiation and available regardless the admin status of the interfaces. Those counters can not be controlled.
...................................................................................................................................................................................................................................
1-50 Alcatel-Lucent – Proprietary
Use pursuant to applicable agreements
365-374-201R11.1.1
Issue 1 March 2010
ES64U SNMP MIB description Performance monitoring per port
MIB tables for PM per port
...................................................................................................................................................................................................................................
MIB tables for PM per port
ethAggrCDRxTable
Current RX counters as defined above.
MIB field name ethAggrCDRxTable
(PM MIB)
Description ifIndex
Index of the table ethAggrCDRxTRCF (RO)
TRCF (counter 64 bits) ethAggrCDRxTRCO (RO)
TRCO (counter 64 bits)
Value
Ethernet interfaces value as in IfTable
The number of Ethernet frames received correctly by the Virtual Ethernet Interface.
The number of octets of Ethernet frames received correctly by the Virtual Ethernet
Interface, including Ethernet headers characters.
ethAggrCDRxTDF (RO)
TDF (counter 64 bits) ethAggrCDRxStartTime (RO)
Date & Time since last reset Time ticks since 1970 ethAggrCDRxResetCounter (RW)
Reset the counters True(1)/False(2) ethAggrCDRxRowStatus (RC)
Used to create, modify or delete a row in the table
CreateAndWait, Active, otInService, or
Destroy (default =Active as in IfTable) ethAggrCDTxTable
Current TX counters as defined above.
MIB field name ethAggrCDTxTable (PM MIB)
Description Value ifIndex
Index of the table Ethernet interfaces value as in IfTable ethAggrCDTxTTF (RO)
TTF (counter 64 bits) The number of Ethernet frames transmitted out by the Virtual Ethernet Interface.
ethAggrCDTxTTO (RO)
...................................................................................................................................................................................................................................
365-374-201R11.1.1
Issue 1 March 2010
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Use pursuant to applicable agreements
1-51
ES64U SNMP MIB description Performance monitoring per port
MIB tables for PM per port
...................................................................................................................................................................................................................................
MIB field name ethAggrCDTxTable (PM MIB)
Description
TTO (counter 64 bits)
Value
The number of octets of Ethernet frames transmitted out by the Virtual Ethernet
Interface, including Ethernet headers characters.
ethAggrCDTxTDF (RO)
TDF (counter 64 bits) ethAggrCDTxStartTime (RO)
Date & Time since last reset Timeticks since 1970 ethAggrCDTxResetCounter (RW)
Reset the counters True(1)/False(2) ethAggrCDTxRowStatus (RC)
Used to create, modify or delete a row in the table
CreateAndWait, Active, otInService, or
Destroy (default =Active as in IfTable) ethAggrHDRxTable
History RX counters as defined above.
ethAggrHDRxTable (PM MIB)
Description ifIndex (#1)
MIB field name Value
1 st
Index of the table – interface index Ethernet interfaces value as in IfTable ethAggrHDRxGranularityPeriod (#2)
2 nd
Index of the table - Granularity of the interval
1 – 15 minutes
2 – 24 hours ethAggrHDRxPeriodEndtime (#3)
3 rd
Index of the table – The end of period time while this interval counters were collected
Time ticks since 1970 ethAggrHDRxIndex (#4)
4 th index of the table – The period number relative to the current time
0 -95 while 0 is the current interval since the last globular interval time. And the x period interval is x times intervals previous to the current one.
ethAggrHDRxTRCF (RO)
TRCF (counter 64 bits) ethAggrHDRxTRCO (RO)
TRCO (counter 64 bits)
...................................................................................................................................................................................................................................
1-52 Alcatel-Lucent – Proprietary
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365-374-201R11.1.1
Issue 1 March 2010
ES64U SNMP MIB description Performance monitoring per port
MIB tables for PM per port
...................................................................................................................................................................................................................................
ethAggrHDRxTable (PM MIB)
Description MIB field name ethAggrHDRxTDF (RO) ethAggrHDRxSuspectIntervalFlag (RO)
TDF (counter 64 bits)
Indicating if there might be a problem with this interval collection (for ex. – the operation status was partially down, the clock has changed during this interval etc')
Value
1 = Truth (should be suspected)
2 = False (should not be suspected) ethAggrHDTxTable
History TX counters as defined above.
ethAggrHDTxTable (PM MIB)
Description ifIndex (#1)
MIB field name Value
1 st
Index of the table – interface index Ethernet interfaces value as in IfTable ethAggrHDTxGranularityPeriod (#2)
2 nd
Index of the table - Granularity of the interval
1 – 15 minutes
2 – 24 hours ethAggrHDTxPeriodEndtime (#3)
3 rd
Index of the table – The end of period time while this interval counters were collected
Time ticks since 1970 ethAggrHDTxIndex (#4)
4 th index of the table – The period number relative to the current time
0 -95 while 0 is the current interval since the last globular interval time. And the x period interval is x times intervals previous to the current one.
ethAggrHDTxTTF (RO)
TTF (counter 64 bits) ethAggrHDTxTTO (RO)
TTO (counter 64 bits) ethAggrHDTxTDF (RO) ethAggrHDTxSuspectIntervalFlag (RO)
TDF (counter 64 bits)
...................................................................................................................................................................................................................................
365-374-201R11.1.1
Issue 1 March 2010
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Use pursuant to applicable agreements
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ES64U SNMP MIB description Performance monitoring per port
MIB tables for PM per port
...................................................................................................................................................................................................................................
MIB field name ethAggrHDTxTable (PM MIB)
Description
Indicating if there might be a problem with this interval collection (for ex. – the operation status was partially down, the clock has changed during this interval etc')
Value
1 = Truth (should be suspected)
2 = False (should not be suspected) ethAggrMainRxTable
Maintenance counters as defined above.
MIB field name ethAggrMainRxTable (PM MIB)
Description ifIndex
Index of the table ethAggrMainRxTRCF (RO)
TRCF (counter 64 bits) ethAggrMainRxTRCO (RO)
TRCO (counter 64 bits) ethAggrMainRxTDF (RO)
TDF (counter 64 bits)
Value
Ethernet interfaces value as in IfTable ethAggrMainTxTable
Maintenance counters as defined above.
MIB field name ethAggrMainTxTable (PM MIB)
Description ifIndex
Index of the table ethAggrMainTxTTF (RO)
TTF (counter 64 bits) ethAggrMainTxTTO (RO)
TTO (counter 64 bits) ethAggrMainTxTDF (RO)
TDF (counter 64 bits)
Value
Ethernet interfaces value as in IfTable
...................................................................................................................................................................................................................................
1-54 Alcatel-Lucent – Proprietary
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365-374-201R11.1.1
Issue 1 March 2010
ES64U SNMP MIB description Performance monitoring per port
Creating collection of PM (RX & TX)
...................................................................................................................................................................................................................................
Creating collection of PM (RX & TX)
By default the collection is open for activated (ifTable) interfaces; the PM rowStatus default is active.
9.3
Set
9.3
Set
I ARG OpticIMCsgVar::AttrList
• AttrList[0].instance[0] = interface ifIndex (ethernet type)
•
AttrList[0].oid = opticsIMETSMib:: ethAggrCDRxRowStatus
• AttrList[0].type = ITEGER
• AttrList[0].val = RowStatus_createAndGo
I ARG OpticIMCsgVar::AttrList
•
AttrList[0].instance[0] = interface ifIndex (ethernet type)
• AttrList[0].oid = opticsIMETSMib:: ethAggrCDTxRowStatus
•
AttrList[0].type = ITEGER
• AttrList[0].val = RowStatus_createAndGo
...................................................................................................................................................................................................................................
365-374-201R11.1.1
Issue 1 March 2010
Alcatel-Lucent – Proprietary
Use pursuant to applicable agreements
1-55
ES64U SNMP MIB description Performance monitoring per port
Deleting collection of PM (RX & TX)
...................................................................................................................................................................................................................................
Deleting collection of PM (RX & TX)
This will delete also all history information.
9.3
Set
9.3
Set
I ARG OpticIMCsgVar::AttrList
•
AttrList[0].instance[0] = interface ifIndex (ethernet type)
• AttrList[0].oid = opticsIMETSMib:: ethAggrCDRxRowStatus
•
AttrList[0].type = ITEGER
• AttrList[0].val = RowStatus_destroy
I ARG OpticIMCsgVar::AttrList
• AttrList[0].instance[0] = interface ifIndex (ethernet type)
•
AttrList[0].oid = opticsIMETSMib:: ethAggrCDTxRowStatus
• AttrList[0].type = ITEGER
•
AttrList[0].val = RowStatus_destroy
...................................................................................................................................................................................................................................
1-56 Alcatel-Lucent – Proprietary
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365-374-201R11.1.1
Issue 1 March 2010
ES64U SNMP MIB description Performance monitoring per port
Resetting current counters of PM (RX & TX)
...................................................................................................................................................................................................................................
Resetting current counters of PM (RX & TX)
Resetting the current counters will resume all the PM collection.
Limitation: In the 5.3 version the reset is done via re setting the ethAggrCDRxRowStatus or ethAggrCDTxRowStatus as in
“Creating collection of PM (RX & TX)” (p. 1-55)
9.3
Set
9.3
Set
I ARG OpticIMCsgVar::AttrList
•
AttrList[0].instance[0] = interface ifIndex (ethernet type)
• AttrList[0].oid = opticsIMETSMib:: ethAggrCDRxResetCounter
• AttrList[0].type = ITEGER
•
AttrList[0].val = true (1)
I ARG OpticIMCsgVar::AttrList
• AttrList[0].instance[0] = interface ifIndex (ethernet type)
•
AttrList[0].oid = opticsIMETSMib:: ethAggrCDTxResetCounter
• AttrList[0].type = ITEGER
•
AttrList[0].val = true (1)
...................................................................................................................................................................................................................................
365-374-201R11.1.1
Issue 1 March 2010
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Use pursuant to applicable agreements
1-57
ES64U SNMP MIB description Performance monitoring per port
Upload PM Information
...................................................................................................................................................................................................................................
Upload PM Information
Current Rx Counter Upload
1 GetTable I ARG OpticsIMCsgVar::CsgVar::OID: tableOid = OPTICSIM-ETHPM-MIB:: ethAggrCDRxTable
OUT ARG OpticIMCsgVar::AttrList:
•
– AttrVal.instance[0] = interface ifIndex (Ethernet type index from ifTable)
– According to the column:
•
AttrVal.oid = OPTICSIM-ETHPM-MIB:: ethAggrCDRxTRCF
• AttrVal.type = Counter64 (64 bits)
•
AttrVal.val = umber of received frames
– or
•
AttrVal.oid = OPTICSIM-ETHPM-MIB:: ethAggrCDRxTRCO
• AttrVal.type = Counter64 (64 bits)
•
AttrVal.val = umber of received octets
– or
•
AttrVal.oid = OPTICSIM-ETHPM-MIB:: ethAggrCDRxTDF
• AttrVal.type = Counter64 (64 bits)
• AttrVal.val = umber of discarded frames
– or
• AttrVal.oid = OPTICSIM-ETHPM-MIB:: ethAggrCDRxRowStatus
•
AttrVal.type = ITEGER
• AttrVal.val = active / notInService
– or
• AttrVal.oid = OPTICSIM-ETHPM-MIB:: ethAggrCDRxStartTime
•
AttrVal.type = TimeTicks
• AttrVal.val = date & time by seconds since 1970 that the current counters collection have started
Current Tx Counter Upload
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1-58 Alcatel-Lucent – Proprietary
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365-374-201R11.1.1
Issue 1 March 2010
ES64U SNMP MIB description Performance monitoring per port
Upload PM Information
...................................................................................................................................................................................................................................
1 GetTable I ARG OpticsIMCsgVar::CsgVar::OID: tableOid = OPTICSIM-ETHPM-MIB:: ethAggrCDTxTable
OUT ARG OpticIMCsgVar::AttrList:
•
– AttrVal.instance[0] = interface ifIndex (Ethernet type index from ifTable)
– According to the column:
•
AttrVal.oid = OPTICSIM-ETHPM-MIB:: ethAggrCDTxTTF
• AttrVal.type = Counter64 (64 bits)
•
AttrVal.val = umber of transmitted frames
– or
• AttrVal.oid = OPTICSIM-ETHPM-MIB:: ethAggrCDTxTTO
•
AttrVal.type = Counter64 (64 bits)
• AttrVal.val = umber of transmitted octets
– or
• AttrVal.oid = OPTICSIM-ETHPM-MIB:: ethAggrCDTxTDF
•
AttrVal.type = Counter64 (64 bits)
• AttrVal.val = umber of discarded frames
– or
• AttrVal.oid = OPTICSIM-ETHPM-MIB:: ethAggrCDTxRowStatus
•
AttrVal.type = ITEGER
• AttrVal.val = active / notInService
– or
•
AttrVal.oid = OPTICSIM-ETHPM-MIB:: ethAggrCDTxStartTime
• AttrVal.type = TimeTicks
•
AttrVal.val = date & time by seconds since 1970 that the current counters collection have started
Maintenance Rx Counter Upload
...................................................................................................................................................................................................................................
365-374-201R11.1.1
Issue 1 March 2010
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Use pursuant to applicable agreements
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ES64U SNMP MIB description Performance monitoring per port
Upload PM Information
...................................................................................................................................................................................................................................
1 GetTable I ARG OpticsIMCsgVar::CsgVar::OID: tableOid = OPTICSIM-ETHPM-MIB:: ethAggrMaintRxTable
OUT ARG OpticIMCsgVar::AttrList:
•
– AttrVal.instance[0] = interface ifIndex (Ethernet type index from ifTable)
– According to the column:
•
AttrVal.oid = OPTICSIM-ETHPM-MIB:: ethAggrMainRxTRCF
• AttrVal.type = Counter64 (64 bits)
•
AttrVal.val = umber of transmitted frames
– or
• AttrVal.oid = OPTICSIM-ETHPM-MIB:: ethAggrMainRxTRCO
•
AttrVal.type = Counter64 (64 bits)
• AttrVal.val = umber of transmitted octets
– or
• AttrVal.oid = OPTICSIM-ETHPM-MIB:: ethAggrMainRxTDF
•
AttrVal.type = Counter64 (64 bits)
• AttrVal.val = umber of discarded frames
Maintenance Tx Counter Upload
1 GetTable I ARG OpticsIMCsgVar::CsgVar::OID: tableOid = OPTICSIM-ETHPM-MIB:: ethAggrMaintTxTable
OUT ARG OpticIMCsgVar::AttrList:
•
– AttrVal.instance[0] = interface ifIndex (Ethernet type index from ifTable)
• According to the column:
•
AttrVal.oid = OPTICSIM-ETHPM-MIB:: ethAggrMainTxTTF
• AttrVal.type = Counter64 (64 bits)
•
AttrVal.val = umber of transmitted frames
– or
• AttrVal.oid = OPTICSIM-ETHPM-MIB:: ethAggrMainTxTTO
•
AttrVal.type = Counter64 (64 bits)
• AttrVal.val = umber of transmitted octets
– or
• AttrVal.oid = OPTICSIM-ETHPM-MIB:: ethAggrMainTxTDF
•
AttrVal.type = Counter64 (64 bits)
• AttrVal.val = umber of discarded frames
History Rx Counter Upload
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1-60 Alcatel-Lucent – Proprietary
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365-374-201R11.1.1
Issue 1 March 2010
ES64U SNMP MIB description Performance monitoring per port
Upload PM Information
...................................................................................................................................................................................................................................
1 GetTable I ARG OpticsIMCsgVar::CsgVar::OID: tableOid = OPTICSIM-ETHPM-MIB:: ethAggrHDRxTable
OUT ARG OpticIMCsgVar::AttrList:
•
– AttrVal.instance[0] = interface ifIndex (Ethernet type index from ifTable)
– AttrVal.instance[1] = ethAggrHDRxGranularityPeriod (1=15 minutes 2=24 hours)
– AttrVal.instance[2] = ethAggrHDRxPeriodEndtime (timeticks since 1970 while the end of interval occurred)
– AttrVal.instance[3] = ethAggrHDRxIndex (index which indicate the relative number of history period relative to the current period=0)
– According to the column:
•
AttrVal.oid = OPTICSIM-ETHPM-MIB:: ethAggrHDRxTRCF
• AttrVal.type = Counter64 (64 bits)
•
AttrVal.val = umber of received frames
– or
•
AttrVal.oid = OPTICSIM-ETHPM-MIB:: ethAggrHDRxTRCO
• AttrVal.type = Counter64 (64 bits)
•
AttrVal.val = umber of received octets
– or
•
AttrVal.oid = OPTICSIM-ETHPM-MIB:: ethAggrHDRxTDF
• AttrVal.type = Counter64 (64 bits)
• AttrVal.val = umber of discarded frames
– or
• AttrVal.oid = OPTICSIM-ETHPM-MIB:: ethAggrHDRxSuspectIntervalFlag
•
AttrVal.type = ITEGER
• AttrVal.val = Truth or False if this interval is suspected to be not correctly & fully collected during all interval time
History Tx Counter Upload
...................................................................................................................................................................................................................................
365-374-201R11.1.1
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ES64U SNMP MIB description Performance monitoring per port
Upload PM Information
...................................................................................................................................................................................................................................
1 GetTable I ARG OpticsIMCsgVar::CsgVar::OID: tableOid = OPTICSIM-ETHPM-MIB:: ethAggrHDTxTable
OUT ARG OpticIMCsgVar::AttrList:
•
– AttrVal.instance[0] = interface ifIndex (Ethernet type index from ifTable)
– AttrVal.instance[1] = ethAggrHDTxGranularityPeriod (1=15 minutes 2=24 hours)
– AttrVal.instance[2] = ethAggrHDTxPeriodEndtime (timeticks since 1970 while the end of interval occurred)
– AttrVal.instance[3] = ethAggrHDTxIndex (index which indicate the relative number of history period relative to the current period=0)
– According to the column:
•
AttrVal.oid = OPTICSIM-ETHPM-MIB:: ethAggrHDTxTTF
• AttrVal.type = Counter64 (64 bits)
•
AttrVal.val = umber of transmitted frames
– or
•
AttrVal.oid = OPTICSIM-ETHPM-MIB:: ethAggrHDTxTTO
• AttrVal.type = Counter64 (64 bits)
•
AttrVal.val = umber of transmitted octets
– or
•
AttrVal.oid = OPTICSIM-ETHPM-MIB:: ethAggrHDTxTDF
• AttrVal.type = Counter64 (64 bits)
• AttrVal.val = umber of discarded frames
– or
• AttrVal.oid = OPTICSIM-ETHPM-MIB:: ethAggrHDTxSuspectIntervalFlag
•
AttrVal.type = ITEGER
• AttrVal.val = Truth or False if this interval is suspected to be not correctly & fully collected during all interval time
...................................................................................................................................................................................................................................
1-62 Alcatel-Lucent – Proprietary
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365-374-201R11.1.1
Issue 1 March 2010
ES64U SNMP MIB description Performance monitoring per queue
Overview
...................................................................................................................................................................................................................................
Performance monitoring per queue
Overview
PM per queue presents the Performance Monitoring for each queue.
There are currently 8 queues per port and they are equivalent to the TD type as follow:
1-bestEffortService, 2-regulatedService, 3-guaranteedService, 5-backgroundService
6-regulated4Service, 7-regulated3Service, 8-regulated1Service, 9-guaranteed2Service
The PM per queue supports the following counters:
•
TCF – Total Conforming (green) Frames
•
TnCF – Total non Conforming (yellow) Frames
•
DiscardTCF – Total Discard Conforming (green) Frames
•
DiscardTnCF Total Discard non Conforming (yellow) Frames
•
TCO – Total Conforming (green) Octets
•
TnCO – Total non Conforming (yellow) Octets
•
DiscardTCO – Total Discard Conforming (green) Octets
•
DiscardTnCO – Total Discard non Conforming (yellow) Octets
There are 3 types of counters:
•
Current – free running counters, those counters are available for Ethernet interface which are activated (admin up status on IfTable). Those counters can be reset to zero while required. You can delete & create the PM collection operation for those counters. While deleting the PM collection, those counters will not be available in the history table as well and their historic information will be deleted.
•
History – counters for each interval time, there are 2 granularities for those interval,
15 minutes & 24 hours. The 15 minutes granularity collect the previous 96 intervals and the 24 hours granularity collect 2 intervals latest 24 hours and the current one since last midnight. The history RX/TX PM is available for interfaces which are retrievable on the current RX/TX tables.
•
Maintenance – Those counters are free running HW counters which start their collection on system initiation and available regardless the admin status of the interfaces. Those counters can not be controlled.
...................................................................................................................................................................................................................................
365-374-201R11.1.1
Issue 1 March 2010
Alcatel-Lucent – Proprietary
Use pursuant to applicable agreements
1-63
ES64U SNMP MIB description Performance monitoring per queue
MIB tables for PM per queue
...................................................................................................................................................................................................................................
MIB tables for PM per queue
ethAggrPerQueueCDTable
Current counters as defined above.
MIB field name ethAggrPerQueueCDTable
(PM MIB)
Description ifIndex
1 st
Index of the table ethAggrPerQueueIndex
2 nd
Index – Queue description
Value
Ethernet interfaces value as in IfTable
Equivalent to Trafic Descriptor type:
1.
bestEffortService
2.
regulatedService
3.
guaranteedService
4.
groupedService (not supported)
5.
backgroundService
6.
regulated4Service
7.
regulated3Service
8.
regulated1Service
9.
guaranteed2Service ethAggrPerQueueCDTCF (RO)
Total Conforming Frames-green (counter
64 bits) counter 64 bits ethAggrPerQueueCDTnCF (RO)
Total on Conforming Frames-yellow
(counter 64 bits) counter 64 bits ethAggrPerQueueCDDiscardTCF (RO)
Total Discard Conforming Frames-green
(counter 64 bits) counter 64 bits ethAggrPerQueueCDDiscardTnCF (RO)
Total Discard on Conforming
Frames-yellow (counter 64 bits) counter 64 bits ethAggrPerQueueCDTCO (RO)
Total Conforming Octets-green (counter 64 bits) counter 64 bits ethAggrPerQueueCDTnCO (RO)
Total on Conforming Octets -yellow
(counter 64 bits) counter 64 bits ethAggrPerQueueCDDiscardTCO (RO)
...................................................................................................................................................................................................................................
1-64 Alcatel-Lucent – Proprietary
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Issue 1 March 2010
ES64U SNMP MIB description Performance monitoring per queue
MIB tables for PM per queue
...................................................................................................................................................................................................................................
MIB field name ethAggrPerQueueCDTable (PM MIB)
Description
Total Discard Conforming Octets -green
(counter 64 bits) ethAggrPerQueueCDDiscardTnCO (RO)
Total Discard on Conforming Octets
-yellow (counter 64 bits) ethAggrPerQueueCDStartTime (RO) ethAggrPerQueueCDResetCounter (RW)
Date & Time since last reset
Reset the counters ethAggrPerQueueCDRowStatus (RC)
Used to create, modify or delete a row in the table counter 64 bits counter 64 bits
Time ticks since 1970
True(1)/False(2)
Value
CreateAndWait, Active, otInService, or
Destroy (default =Active as in IfTable) ethAggrPerQueueHDTable
History counters as defined above.
ethAggrPerQueueHDTable
(PM MIB)
Description ifIndex (#1)
MIB field name Value
1 st
Index of the table – interface index Ethernet interfaces value as in IfTable ethAggrPerQueueIndex (#2)
2 nd
Index – Queue description Equivalent to Trafic Descriptor type:
1.
bestEffortService
2.
regulatedService
3.
guaranteedService
4.
groupedService (not supported)
5.
backgroundService
6.
regulated4Service
7.
regulated3Service
8.
regulated1Service
9.
guaranteed2Service ethAggrPerQueueHDGranularityPeriod (#3)
3 nd
Index of the table - Granularity of the interval ethAggrPerQueueHDPeriodEndtime (#4)
1 – 15 minutes
2 – 24 hours
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ES64U SNMP MIB description Performance monitoring per queue
MIB tables for PM per queue
...................................................................................................................................................................................................................................
MIB field name ethAggrPerQueueHDTable (PM MIB)
Description
4 th
Index of the table – The end of period time while this interval counters were collected
Value
Time ticks since 1970 ethAggrPerQueueIndex (#5)
5 th index of the table – The period number relative to the current time
0-2 while 0 is the current interval since the last globular interval time. And the x period interval is x times intervals previous to the current one.
ethAggrPerQueueHDTCF (RO)
Total Conforming Frames-green (counter
64 bits) ethAggrPerQueueHDTnCF (RO)
Total on Conforming Frames-yellow
(counter 64 bits) ethAggrPerQueueHDDiscardTCF (RO)
Total Discard Conforming Frames-green
(counter 64 bits) ethAggrPerQueueHDDiscardTnCF (RO)
Total Discard on Conforming
Frames-yellow (counter 64 bits) ethAggrPerQueueHDTCO (RO)
Total Conforming Octets-green (counter 64 bits) ethAggrPerQueueHDTnCO (RO)
Total on Conforming Octets -yellow
(counter 64 bits) ethAggrPerQueueHDDiscardTCO (RO)
Total Discard Conforming Octets -green
(counter 64 bits) ethAggrPerQueueHDDiscardTnCO (RO)
Total Discard on Conforming Octets
-yellow (counter 64 bits) ethAggrPerQueueHDSuspectIntervalFlag (RO)
Indicating if there might be a problem with this interval collection (for ex. – the operation status was partially down, the clock has changed during this interval etc') counter 64 bits counter 64 bits counter 64 bits counter 64 bits counter 64 bits counter 64 bits counter 64 bits counter 64 bits
1 = Truth (should be suspected)
2 = False (should not be suspected)
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ES64U SNMP MIB description Performance monitoring per queue
MIB tables for PM per queue
...................................................................................................................................................................................................................................
ethAggrPerQueueMaintTable
Maintenance counters as defined above
MIB field name ethAggrMainTable (PM MIB)
Description Value ifIndex
Index of the table Ethernet interfaces value as in IfTable ethAggrPerQueueIndex
2 nd
Index – Quesu description Equivalent to Trafic Descriptor type:
1.
bestEffortService
2.
regulatedService
3.
guaranteedService
4.
groupedService (not supported)
5.
backgroundService
6.
regulated4Service
7.
regulated3Service
8.
regulated1Service
9.
guaranteed2Service ethAggrPerQueueMainTCF (RO) ethAggrPerQueueMainTnCF (RO) ethAggrPerQueueMainDiscardTCF (RO) ethAggrPerQueueMainDiscardTnCF (RO)
Total Discard Conforming Frames - green
(counter 64 bits)
Total Discard on Conforming Frames yellow (counter 64 bits) ethAggrPerQueueMainTCO (RO)
Total on Conforming Frames-yellow
(counter 64 bits)
Total Conforming Octets - green (counter
64 bits) ethAggrPerQueueMainTnCO (RO)
Total Conforming Frames-green (counter
64 bits)
Total on Conforming Octets - yellow
(counter 64 bits) ethAggrPerQueueMainDiscardTCO (RO)
Total Discard Conforming Octets - green
(counter 64 bits) ethAggrPerQueueMainDiscardTnCO (RO) counter 64 bits counter 64 bits counter 64 bits counter 64 bits counter 64 bits counter 64 bits counter 64 bits
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ES64U SNMP MIB description Performance monitoring per queue
MIB tables for PM per queue
...................................................................................................................................................................................................................................
MIB field name ethAggrMainTable (PM MIB)
Description
Total Discard on Conforming Octets yellow (counter 64 bits) counter 64 bits
Value
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ES64U SNMP MIB description Performance monitoring per queue
Creating collection of PM (RX & TX) per queue
...................................................................................................................................................................................................................................
Creating collection of PM (RX & TX) per queue
By default the collection is open for activated (ifTable) interfaces; the PM rowStatus default is active.
9.3
Set I ARG OpticIMCsgVar::AttrList
• AttrList[0].instance[0] = interface ifIndex (ethernet type)
•
AttrList[0].oid = opticsIMETSMib:: ethAggrPerQueueCDRowStatus
• AttrList[0].type = ITEGER
• AttrList[0].val = RowStatus_createAndGo
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ES64U SNMP MIB description Performance monitoring per queue
Resetting current counters of PM (RX & TX) per queue
...................................................................................................................................................................................................................................
Resetting current counters of PM (RX & TX) per queue
Resetting the current counters will resume all the PM collection.
9.3
Set I ARG OpticIMCsgVar::AttrList
•
AttrList[0].instance[0] = interface ifIndex (ethernet type)
• AttrList[0].oid = opticsIMETSMib:: ethAggrPerQueueCDResetCounter
•
AttrList[0].type = ITEGER
• AttrList[0].val = true (1)
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ES64U SNMP MIB description Performance monitoring per queue
Deleting collection of PM (RX & TX) per queue
...................................................................................................................................................................................................................................
Deleting collection of PM (RX & TX) per queue
This will delete also all history information.
9.3
Set I ARG OpticIMCsgVar::AttrList
•
AttrList[0].instance[0] = interface ifIndex (ethernet type)
• AttrList[0].oid = opticsIMETSMib:: ethAggrPerQueueCDRowStatus
•
AttrList[0].type = ITEGER
• AttrList[0].val = RowStatus_destroy
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ES64U SNMP MIB description Performance monitoring per queue
Upload PM per queue information
...................................................................................................................................................................................................................................
Upload PM per queue information
Current counter upload (per queue)
GetTable
I ARG OpticsIMCsgVar::CsgVar::OID: tableOid = OPTICSIM-ETHPM-MIB:: ethAggrPerQueueCDTable
OUT ARG
•
AttrVal.instance[0] = interface ifIndex (Ethernet type index from ifTable)
•
AttrVal.instance[1] = ethAggrPerQueueIndex (Queue index according to TD type)
•
According to the column:
AttrVal.val
umber of conforming (green) frames
AttrVal.oid
OPTICSIM-ETHPM-MIB:: ethAggrPerQueueCDTCF
OPTICSIM-ETHPM-MIB:: ethAggrPerQueueCDTnCF
OPTICSIM-ETHPM-MIB:: ethAggrPerQueueCD-
DiscardTCF
OPTICSIM-ETHPM-MIB:: ethAggrPerQueueCD-
DiscardTnCF
OPTICSIM-ETHPM-MIB:: ethAggrPerQueueCDTCO
OPTICSIM-ETHPM-MIB:: ethAggrPerQueueCDTnCO
OPTICSIM-ETHPM-MIB:: ethAggrPerQueueCD-
DiscardTCO
OPTICSIM-ETHPM-MIB:: ethAggrPerQueueCD-
DiscardTnCO
OPTICSIM-ETHPM-MIB:: ethAggrPerQueueCD-
RowStatus
OPTICSIM-ETHPM-MIB:: ethAggrPerQueueCD-
StartTime
AttrVal.type
Counter64 (64 bits)
Counter64 (64 bits)
Counter64 (64 bits)
Counter64 (64 bits)
Counter64 (64 bits)
Counter64 (64 bits)
Counter64 (64 bits)
Counter64 (64 bits)
ITEGER
TimeTicks umber of non conforming (yellow) frames umber of discarded conforming (green) frames umber of discarded non conforming (yellow) frames umber of conforming (green) octets umber of on conforming (yellow) octets umber of discarded conforming (green) octets umber of discarded non conforming octets active / notInService date & time by seconds since 1970 that the current counters collection have started
Maintenance counter upload (per queue)
GetTable
I ARG OpticsIMCsgVar::CsgVar::OID: tableOid = OPTICSIM-ETHPM-MIB:: ethAggrPerQueueMaintTable
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ES64U SNMP MIB description Performance monitoring per queue
Upload PM per queue information
...................................................................................................................................................................................................................................
OUT ARG OpticIMCsgVar::AttrList:
•
AttrVal.instance[0] = interface ifIndex (Ethernet type index from ifTable)
•
AttrVal.instance[1] = ethAggrPerQueueIndex (Queue index according to TD type)
•
According to the column:
AttrVal.oid
ethAggrPerQueueMaintTCF ethAggrPerQueueMaintTnCF ethAggrPerQueueMaintDiscardTCF ethAggrPerQueueMaintDiscardTnCF ethAggrPerQueueMaintTCO ethAggrPerQueueMaintTnCO ethAggrPerQueueMaintDiscardTCO ethAggrPerQueueMaintDiscardTnCO
AttrVal.type
Counter64 (64 bits)
Counter64 (64 bits)
Counter64 (64 bits)
Counter64 (64 bits)
Counter64 (64 bits)
Counter64 (64 bits)
Counter64 (64 bits)
Counter64 (64 bits)
AttrVal.val
umber of conforming (green) frames umber of non conforming (yellow) frames umber of discarded conforming (green) frames umber of discarded non conforming (yellow) frames umber of conforming (green) octets umber of on conforming (yellow) octets umber of discarded conforming (green) octets umber of discarded non conforming octets
History counter upload (per queue)
GetTable
I ARG OpticsIMCsgVar::CsgVar::OID: tableOid = OPTICSIM-ETHPM-MIB:: ethAggrHDRxTable
•
AttrVal.instance[0] = interface ifIndex (Ethernet type index from ifTable)
•
AttrVal.instance[1] = ethAggrPerQueueIndex (Queue index according to TD type)
•
AttrVal.instance[2] = ethAggrHDRxGranularityPeriod (1=15 minutes 2=24 hours)
•
AttrVal.instance[3] = ethAggrHDRxPeriodEndtime (timeticks since 1970 while the end of interval occurred)
•
AttrVal.instance[4] = ethAggrHDRxIndex (index which indicate the relative number of history period relative to the current period=0)
•
According to the column:
AttrVal.oid
ethAggrPerQueueHDTCF ethAggrPerQueueHDTnCF ethAggrPerQueueHDDiscardTCF ethAggrPerQueueHDDiscardTnCF ethAggrPerQueueHDTCO ethAggrPerQueueHDTnCO
AttrVal.type
Counter64 (64 bits)
Counter64 (64 bits)
Counter64 (64 bits)
Counter64 (64 bits)
Counter64 (64 bits)
Counter64 (64 bits)
AttrVal.val
umber of conforming (green) frames umber of non conforming (yellow) frames umber of discarded conforming (green) frames umber of discarded non conforming (yellow) frames umber of conforming (green) octets umber of on conforming (yellow) octets
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ES64U SNMP MIB description Performance monitoring per queue
Upload PM per queue information
...................................................................................................................................................................................................................................
AttrVal.oid
ethAggrPerQueueHDDiscardTCO ethAggrPerQueueHDDiscardTnCO ethAggrHDRxSuspectIntervalFlag
AttrVal.type
Counter64 (64 bits)
Counter64 (64 bits)
ITEGER
AttrVal.val
umber of discarded conforming (green) octets umber of discarded non conforming octets
Truth or False if this interval is suspected to be not correctly and fully collected during all interval time
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ES64U SNMP MIB description Service mirroring management
Overview
...................................................................................................................................................................................................................................
Service mirroring management
Overview
Purpose
The service mirroring feature enables to monitor traffic that enter the specified cross-connect (ingress mirroring), or leave the specified cross-connect (egress mirroring).
The mirrored traffic could be monitored at specially defined ports (TAC1 or TAC2).
Any port in range 1-30, 129-158 could be defined as following:
• ormal port – ports works as usual port and allows to define services on it
•
TAC1 port – port works as first service mirroring port. Doesn't allow defining services on it.
•
TAC2 port – port works as second service mirroring port. Doesn't allow defining services on it.
When a port is created, it is configured to normal port by default. Modification of mirror interface definition (meaning define a port to be used as mirrored port only) allowed for interfaces with AdminStatus down only. ot allowed to define more that one TAC1 interface, and more than one TAC2 interface.
Each inflow or outflow has service mirroring flag that defines if mirror traffic for the flow. Service mirroring index defines the service mirroring port – TAC1 or TAC2.
Contents
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ES64U SNMP MIB description Service mirroring management
Mirror interface definition
...................................................................................................................................................................................................................................
Mirror interface definition
Set mirror interface consists of executing the following action:
The sequence of actions is the following:
1
...................................................................................................................................................................................................
Set the service mirroring index in the nnNMXOpticsExtETSPortMirrorTable .
The sequence of operations is detailed in the next table:
1 Set I ARG OpticIMCsgVar::AttrVal
•
AttrVal.instance[0] = InterfaceIndex
• AttrVal.oid = nnMXxMplsIf:: nnMXOpticsExtETSMirroringIndex
•
AttrVal.type = ITEGER
• AttrVal.val = OTAC (0) / TAC1 (1) / TAC2 (2). default value – 0.
ote: Before the change of mirror interface(nnMXOpticsExtETSMirroringIndex) make sure the AdminStatus of the interface in IfTable is Down.
E
N D O F S T E P S
...................................................................................................................................................................................................
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ES64U SNMP MIB description Service mirroring management
Inflow mirror port
...................................................................................................................................................................................................................................
Inflow mirror port
Set service mirror port for inflow consists of executing the following action:
The sequence of actions is the following:
1
...................................................................................................................................................................................................
Set the mirror port in the nnNMXOpticsExtETSInflowMirrorTable .
The sequence of operations is detailed in the next table:
1 Set I ARG OpticIMCsgVar::AttrVal
•
AttrVal.instance[0] = InFlowIndex
• AttrVal.oid = nnMXxMplsIf:: nnMXOpticsExtETSInflowMirrorPort
•
AttrVal.type = ITEGER
• AttrVal.val = TAC1 (1) / TAC2 (2). default value – 1 ote: Before the change of service mirroring index make sure the InflowMirror flag of the inflow in nnMXOpticsExtETSInflowMirrorTable is disabled.
E
N D O F S T E P S
...................................................................................................................................................................................................
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ES64U SNMP MIB description Service mirroring management
Inflow mirror flag
...................................................................................................................................................................................................................................
Inflow mirror flag
Set inflow mirror flag for inflow consists of executing the following action:
The sequence of actions is the following:
1
...................................................................................................................................................................................................
Set the inflow mirror flag in the nnNMXOpticsExtETSInflowMirrorTable .
The sequence of operations is detailed in the next table:
1 Set I ARG OpticIMCsgVar::AttrVal
•
AttrVal.instance[0] = InFlowIndex
• AttrVal.oid = nnMXxMplsIf:: nnMXOpticsExtETSInflowMirror
•
AttrVal.type = ITEGER
• AttrVal.val = enabled (1) / disabled (2). default value – 2 ote: Before the change of inflow mirror make sure:
1. The RowStatus of the cross-connection connected to specified inflow in opticsIMETSCrossConnectTable is active.
2. nnMXOpticsExtETSOuflowMirror for outflow connected to the cross-connection is disabled.
E
N D O F S T E P S
...................................................................................................................................................................................................
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ES64U SNMP MIB description Service mirroring management
Outflow mirror port
...................................................................................................................................................................................................................................
Outflow mirror port
Set service mirror port for outflow consists of executing the following action:
The sequence of actions is the following:
1
...................................................................................................................................................................................................
Set the outflow mirror flag in the nnNMXOpticsExtETSOutflowMirrorTable .
The sequence of operations is detailed in the next table:
1 Set I ARG OpticIMCsgVar::AttrVal
•
AttrVal.instance[0] = OutFlowIndex
• AttrVal.oid = nnMXxMplsIf:: nnMXOpticsExtETSOutflowMirrorPort
•
AttrVal.type = ITEGER
• AttrVal.val = TAC1 (1) / TAC2 (2). default value – 1 ote: Before the change of service mirroing index make sure the OutflowMirror flag of the outflow in nnMXOpticsExtETSOutflowMirrorTable is disabled.
E
N D O F S T E P S
...................................................................................................................................................................................................
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ES64U SNMP MIB description Service mirroring management
Outflow mirror flag
...................................................................................................................................................................................................................................
Outflow mirror flag
Set service mirror flag for outflow consists of executing the following action:
The sequence of actions is the following:
1
...................................................................................................................................................................................................
Set the outflow mirror flag in the nnNMXOpticsExtETSOutflowMirrorTable .
The sequence of operations is detailed in the next table:
1 Set OpticIMCsgVar::AttrVal
•
AttrVal.instance[0] = OutFlowIndex
• AttrVal.oid = nnMXxMplsIf:: nnMXOpticsExtETSOutflowMirror
•
AttrVal.type = ITEGER
• AttrVal.val = enabled (1) / disabled (2). default value – 2 ote: Before the change of outflow mirror make sure:
1. The RowStatus of the cross-connection connected to specified inflow in opticsIMETSCrossConnectTable is active.
2. nnMXOpticsExtETSInflowMirror for outflow connected to the cross-connection is disabled.
E
N D O F S T E P S
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ES64U SNMP MIB description Service mirroring management
Service mirroring upload
...................................................................................................................................................................................................................................
Service mirroring upload
Uploading Service Mirroring information consists in retrieving the whole content of the following tables:
1.
nnNMXOpticsExtETSPortMirrorTable : interfaces
2.
nnNMXOpticsExtETSInflowMirrorTable : InFlows
3.
nnNMXOpticsExtETSOutflowMirrorTable : OutFlows
The sequence of actions is the following:
1
...................................................................................................................................................................................................
Interfaces upload
Uploading the interfaces consists in getting the nnNMXOpticsExtETSPortMirrorTable content.
The sequence of operations is detailed in the next table:
1 GetTable I ARG OpticsIMCsgVar::CsgVar::OID: tableOid = nnMXxMplsIf::nnMXOpticsExtETSPortMirrorTable
OUT ARG OpticsIMCsgVar::AttrList:
For each entry found in the table, for each column of the table, the following info are returned in AttrList:
• AttrVal.instance[0] = index of the interface (ifIndex)
•
According to the column:
– AttrVal.oid = nnMXxMplsIf::nnMXOpticsExtETSMirroringIndex
– AttrVal.type = ITEGER
– AttrVal.val = Mirroring Index. OTAC(0) / TAC1(1) / TAC2(2)
2
...................................................................................................................................................................................................
InFlows upload
Uploading the inflows consists in getting the nnNMXOpticsExtETSInflowMirrorTable content.
The sequence of operations is detailed in the next table:
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ES64U SNMP MIB description Service mirroring management
Service mirroring upload
...................................................................................................................................................................................................................................
1 GetTable I ARG OpticsIMCsgVar::CsgVar::OID: tableOid = nnMXxMplsIf::nnMXOpticsExtETSInflowMirrorTable
OUT ARG OpticsIMCsgVar::AttrList:
For each entry found in the table, for each column of the table, the following info are returned in AttrList:
• AttrVal.instance[0] = index of the inflow (opticsIMETSInFlowIndex)
•
According to the column:
– AttrVal.oid = nnMXxMplsIf::nnMXOpticsExtETSInflowMirror
– AttrVal.type = ITEGER
– AttrVal.val = Inflow Mirroring flag. Enabled (1) / Disabled (2)
Or
– AttrVal.oid = nnMXxMplsIf::nnMXOpticsExtETSInflowMirrorPort
– AttrVal.type = ITEGER
– AttrVal.val = Mirror Port. TAC1 (1) / TAC2 (2)
3
...................................................................................................................................................................................................
OutFlows upload
Uploading the outflows consists in getting the nnNMXOpticsExtETSOutflowMirrorTable content.
The sequence of operations is detailed in the next table:
1 GetTable I ARG OpticsIMCsgVar::CsgVar::OID: tableOid = nnMXxMplsIf::nnMXOpticsExtET-
SOutflowMirrorTable
OUT ARG OpticsIMCsgVar::AttrList:
For each entry found in the table, for each column of the table, the following info are returned in AttrList:
• AttrVal.instance[0] = index of the outflow (opticsIMETSOutFlowIndex)
•
According to the column:
– AttrVal.oid = nnMXxMplsIf::nnMXOpticsExtETSOutflowMirror
– AttrVal.type = ITEGER
– AttrVal.val = Outflow Mirroring flag. Enabled (1) / Disbaled (2)
Or
– AttrVal.oid = nnMXxMplsIf::nnMXOpticsExtETSOutflowMirrorPort
– AttrVal.type = ITEGER
– AttrVal.val = Mirror Port. TAC1 (1) / TAC2 (2)
E
N D O F S T E P S
...................................................................................................................................................................................................
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ES64U SNMP MIB description 1+1 LAG - Link Aggregation management
Overview
...................................................................................................................................................................................................................................
1+1 LAG - Link Aggregation management
Overview
LAG interface
An LAG interface is a group of two Link Aggregation ports which is considered as a single interface.
In order to configure an LAG interface, the manager should configure two MIB tables:
• alclnkaggAggPortTable (proprietary) – A table that contains Link Aggregation
Control configuration information about every Aggregation Port associated with this device. A row appears in this table for each ethernet interface.
The table is pre-configured with a row for each Ethernet interface. The configuration consists in modifying the specific interface values.
• alclnkaggAggTable (proprietary) – A table that contains information about every
Aggregator that is associated with this System.
The table is pre-configured with a row for every supported LAG group. The configuration consists in modifying the specific LAG values.
The association of a port to a LAG group is based on the ActorAdminKey. Once the port's key equals an active LAG key, the port is an attached LAG member.
For LAG naming rules refer to
Appendix B, “1+1 LAG naming rules”
LAG naming rules.
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ES64U SNMP MIB description 1+1 LAG - Link Aggregation management
1+1 LAG MIB tables
...................................................................................................................................................................................................................................
1+1 LAG MIB tables
alclnkaggAggPortTable (ETS MIB)
Description MIB field name alclnkaggAggPortIndex
Index of the table alclnkaggAggPortActorSystemPriority
Priority value of the system. Inherited from the alclnkaggAggActorSystemPriority value.
alclnkaggAggPortActorSystemID ode MAC address alclnkaggAggPortActorAdminKey
The current administrative value of the
Key for the Aggregation Port.
Value
Read-Only
In use only when LACP is enabled
Default value: 32784
Read-Only
This is a 16-bit read-write value.
Can only be set if the port ifAdminStatus is Down.
alclnkaggAggPortActorOperKey
Administrative value of Actor aggregation port
Read-Only
16-bit value
In use only when LACP is enabled.
Default value: 0 alclnkaggAggPortPartnerAdminKey
Administrative value of the Key for the partner port.
Read-Only
In use only when LACP is enabled.
Default value: 0 alclnkaggAggPortPartnerOperKey
Operational value of the Key for the partner port
Read-Only
In use only when LACP is enabled.
Default value: 0 alclnkaggAggPortSelectedAggID
The identifier value of the Aggregator that this Aggregation Port has currently selected. Zero indicates that the
Aggregation Port has not selected an
Aggregator. When this field is not zero and lacp is on the port receives and transmit
LACP frames. When this field is not zero and lacp is off it just means that port is setup to Be port of that LAG.
Read-Only
Default value: 0
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ES64U SNMP MIB description 1+1 LAG - Link Aggregation management
1+1 LAG MIB tables
...................................................................................................................................................................................................................................
alclnkaggAggPortTable (ETS MIB)
Description MIB field name alclnkaggAggPortAttachedAggID
Value ifIndex of the LAG to which this port is attached
Zero if not attached, if this field is not zero the port receives and transmit user frames alclnkaggAggPortActorPortPriority
Actor port priority Configurable by user.
Read-Write:
ITEGER (0..65535)
Read-Only when lacp type is off
Default value: 0 alclnkaggAggPortPartnerAdminPortPriority
Administrative value of the partner port priority.
Read-Only
ITEGER (0..65535)
In use only when LACP is enabled.
Default value: 0 alclnkaggAggPortPartnerOperPortPriority
Operational value of the partner port priority
Read-Only
ITEGER (0..255)
In use only when LACP is enabled.
Default value: 0 alclnkaggAggPortActorAdminState
A string of 8 bits, corresponding to the administrative values of Actor_State () as transmitted by the Actor in LACPDUs.
Read-Write when LACP is enabled
•
0: lacpActivity
• 1: lacpTimeout
•
2: aggregation
• 3: synchronization
• 4: collecting
• 5: distributing
• 6: defaulted
•
7: expired
Default value:
Bits 0, 1, 2, 6 are set,
Bits 3, 4, 5, 7 are clear.
Only bit 1 is effective
Read-Only
When LACP is Disabled alclnkaggAggPortActorOperState
A string of 8 bits, corresponding to the operational values of Actor_State
Read-Only
On LACP disable mode, all bits are cleared
...................................................................................................................................................................................................................................
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ES64U SNMP MIB description 1+1 LAG - Link Aggregation management
1+1 LAG MIB tables
...................................................................................................................................................................................................................................
alclnkaggAggPortTable (ETS MIB)
Description Value MIB field name alclnkaggAggPortPartnerAdminState
A string of 8 bits, corresponding to the administrative values of Actor_State() or the partner port
Read-Only
On LACP disable mode, all bits are cleared alclnkaggAggPortPartnerOperState
A string of 8 bits, corresponding to the operational values of Actor_State() of the partner port
Read-Only
On LACP disable mode, all bits are cleared alclnkaggAggPortOperState
Operational status of the port Read-Only: ITEGER
• 1: up
•
2: down
• 3: notAttached
•
4: notAggregable
On LACP disable mode, only up and down are supported alclnkaggAggPortState
Aggregation status of the port Read-Only: ITEGER
•
3: configured
• 4: selected
•
5: reserved
• 6: attached
On LACP disable mode, only values 4 and
6 are supported alclnkaggAggPortLinkState
Operational status of the link Read-Only: ITEGER
• 1: up
•
2: down alclnkaggAggPortPrimary
Port is defined as primary or not Read-Only: ITEGER
• 1: yes
•
2: no
• 3: notSignificant
On LACP disable mode, only value 3 is supported alclnkaggAggPortLacpType
LacpType Read-Only
Port set with LACP protocol or not
...................................................................................................................................................................................................................................
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ES64U SNMP MIB description 1+1 LAG - Link Aggregation management
1+1 LAG MIB tables
...................................................................................................................................................................................................................................
alclnkaggAggPortTable (ETS MIB)
Description Value MIB field name alclnkaggAggPortRowStatus
RowStatus RowStatus (always active)
MIB field name alclnkaggAggIndex alclnkaggAggTable (ETS MIB)
Description
Index of the table
Value alclnkaggAggActorAdminKey
The current administrative value of the
Key for the Aggregation Port. Given by operator.
Read-Write
ITEGER (0..65535) alclnkaggAggName alclnkaggAggMACAddress ame of the aggregator is human readable string manually given by the operator
STRIG (SIZE (0..29))
Aggregation Port MAC address (allocated by EMB).
Read-Only
ITEGER (0..65535)
Default value when no ports are members of the LAG is
00-00-00-00-00-00 alclnkaggAggAdminState alclnkaggAggActorSystemPriority alclnkaggAggActorSystemID status assigned by the administrator. The activation of the aggregator is managed by this nominator
• 1: enable
•
2: disable
A 2-octet indicating the priority value of the system.Configurable by operator.
Change to this value affects all active
LAGs with LACP on.
Read-Write
ITEGER (0..65535)
In use only when LACP is enabled.
Default value: 32784 (0x8010) ode MAC addres Read-Only
In use only when LACP is enabled.
Default value:
00-00-00-00-00-00 alclnkaggAggActorOperKey
...................................................................................................................................................................................................................................
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ES64U SNMP MIB description 1+1 LAG - Link Aggregation management
1+1 LAG MIB tables
...................................................................................................................................................................................................................................
MIB field name alclnkaggAggTable (ETS MIB)
Description
Operational key of Actor aggregator
Value
Read-Only
16-bit value.
In use only when LACP is enabled.
Default value: 0.
alclnkaggAggPartnerSystemID
Partner node MAC address Read-Only
In use only when LACP is enabled.
Default value:
00-00-00-00-00-00 alclnkaggAggPartnerSystemPriority
Partner node priority Read-Write
ITEGER (0..65535)
In use only when LACP is enabled.
Default value: 0.
alclnkaggAggPartnerOperKey
Partner node Operational key Read-Only
In use only when LACP is enabled.
Default value: 0.
alclnkaggAggSize
Maximum number of links that could be attached to this aggregator
Read-Write
ITEGER (0..10)
Default value: 10.
alclnkaggAggNumber
LAG number Unique number given by
EMB when LAG is created
Read-Only
ITEGER (0..18) alclnkaggAggDescr
String Description of the LAG Read-Only
DisplayString SIZE (0..255) alclnkaggAggLacpType
Defines whether Aggregator operates
LACP or ot.
Read-Write
ITEGER
• 1: lacpOff
•
2: lacpOn alclnkaggAggAdminState
...................................................................................................................................................................................................................................
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ES64U SNMP MIB description 1+1 LAG - Link Aggregation management
1+1 LAG MIB tables
...................................................................................................................................................................................................................................
MIB field name alclnkaggAggTable (ETS MIB)
Description
Link aggregation Admin status
Value
Read-Write
ITEGER
• 1: enable
•
2: disable alclnkaggAggOperState
Operational status of the aggregator with proprietary values
Read-Only
ITEGER
• 1: up
•
2: down
• 3: logicPortCreatFailed
•
4: qReservationFailed
On LACP disable mode, only up and down are supported alclnkaggAggNbrSelectedPorts
The number of ports selected at the moment
Read-Only
ITEGER (0..10)
Default value: 0.
alclnkaggAggNbrAttachedPorts
The number of ports attached at the moment
Read-Only
ITEGER (0..10)
Default value: 0.
alclnkaggAggPrimaryPortIndex
The ifIndex of the primary port in the aggregator used to send BPDUs and flooding frames. Zero indicates no primary port is available
Read-Only
Default value is zero (o primary port defined).
In use only when LACP is enabled.
alclnkaggAggPrimaryPortPosition
The number of the primary port in the aggregator
Read-Only
ITEGER (0..9)
In use only when LACP is Enabled.
Default value is 0 - (first port).
alclnkaggAggRowStatus
This object is the RowStatus (locking flag) for creating or deleting aggregator objects
Read-Write
CreateAnGo, Active, or Destroy
...................................................................................................................................................................................................................................
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1-89
ES64U SNMP MIB description 1+1 LAG - Link Aggregation management
1+1 LAG port activate
...................................................................................................................................................................................................................................
1+1 LAG port activate
Configuring a new LAG port consists in setting the Ethernet interface client type and associating the LAG port to a LAG group.
The sequence of actions is the following:
1
2
3
...................................................................................................................................................................................................
Set opticsIMEthClientType in OpticsIMEthConfTable to linkagg (3).
In order to set the field the AdminStatus in ifTable should be Down.
Once the Ethernet interface client type is linkagg , the LAG port data can be set in the alclnkaggAggPortTable .
...................................................................................................................................................................................................
Set of alclnkaggAggPortActorAdminKey in alclnkaggAggPortTable .
...................................................................................................................................................................................................
Activate the port - set ifAdminStatus in IfTable to Up.
The sequence of operations is detailed in the next table.
1 Set
2 Set
3 Set
I ARG OpticIMCsgVar::AttrVal
• AttrVal.instance[0] = interface ifIndex
•
AttrVal.oid = opticsIMEtheMib::opticsIMEthClientType
• AttrVal.type = ITEGER
•
AttrVal.val = linkagg (3)
I ARG OpticIMCsgVar::AttrVal
• AttrVal.instance[0] = interface ifIndex
•
AttrVal.oid = alclnkaggAggPortTable:: alclnkaggAggPortActorAdminKey
• AttrVal.type = ITEGER
• AttrVal.val = The current administrative value of the Key for the Aggregator
I ARG OpticIMCsgVar::AttrVal
•
AttrVal.instance[0] = interface ifIndex
• AttrVal.oid = IfTable:: ifAdminStatus
•
AttrVal.type = ITEGER
• AttrVal.val = 1-up
In order to complete ports association to a LAG group, the group should be configured as well.
E
N D O F S T E P S
...................................................................................................................................................................................................
...................................................................................................................................................................................................................................
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ES64U SNMP MIB description 1+1 LAG - Link Aggregation management
1+1 LAG group activate
...................................................................................................................................................................................................................................
1+1 LAG group activate
Configuring a LAG group consists in setting the group ActorAdminKey , the AggName and enabling the group.
The sequence of actions is the following:
1
2
3
...................................................................................................................................................................................................
Set the alclnkaggAggActorAdminKey in alclnkaggAggTable to the desired KEY.
In order to modify the LAG, the alclnkaggAggAdminState should be DISABLE.
...................................................................................................................................................................................................
Set the alclnkaggAggName in alclnkaggAggTable .
...................................................................................................................................................................................................
Set the alclnkaggAggAdminState in alclnkaggAggTable to EABLE.
Several conditions apply for LAG settings:
• o other activated (enabled) LAG should contain the same ActorAdminKey .
•
Exactly two ports in alclnkaggAggPortTable should contain the same
ActorAdminKey .
•
The two ports members should:
– Be in ifAdminStatus 1-up.
– Have the same following configured parameters (unspecified values should be equal in member ports):
– ifType ( IfTable ) = 6-ethernetCsmacd
– ifMTU ( ifTable )
– opticsIMEthClientType ( OpticsIMEthConfTable ) = 3-linkagg
– opticsIMIfRateLimitedSpeed ( opticsIMIfTable ).
•
Once the LAG state is set to EABLE, the ports alclnkaggAggPortState (a read-only field) is set from configurable(2) to attached(6).
The sequence of operations is detailed in the next table:
1 Set
2 Set
I ARG OpticIMCsgVar::AttrVal
• AttrVal.instance[0] = interface ifIndex
•
AttrVal.oid = alclnkaggAggTable:: alclnkaggAggActorAdminKey
• AttrVal.type = ITEGER
•
AttrVal.val = The current administrative value of the Key for the Aggregator
I ARG OpticIMCsgVar::AttrVal
• AttrVal.instance[0] = interface ifIndex
• AttrVal.oid = alclnkaggAggTable:: alclnkaggAggame
•
AttrVal.type = STRIG
AttrVal.val = ame of the aggregator
...................................................................................................................................................................................................................................
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ES64U SNMP MIB description 1+1 LAG - Link Aggregation management
1+1 LAG group activate
...................................................................................................................................................................................................................................
3 Set I ARG OpticIMCsgVar::AttrVal
•
AttrVal.instance[0] = interface ifIndex
• AttrVal.oid = alclnkaggAggTable:: alclnkaggAggAdminState
•
AttrVal.type = ITEGER
• AttrVal.val = enable(1)
E
N D O F S T E P S
...................................................................................................................................................................................................
...................................................................................................................................................................................................................................
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ES64U SNMP MIB description 1+1 LAG - Link Aggregation management
1+1 LAG group deactivate
...................................................................................................................................................................................................................................
1+1 LAG group deactivate
Deactivating a LAG group consists in setting the group AdminState to DISABLE.
The sequence of actions is the following:
1
...................................................................................................................................................................................................
Set the alclnkaggAggAdminState in alclnkaggAggTable to DISABLE.
In order to disable an LAG, no active ETS inflow or outflow should contain the LAG index.
The sequence of operations is detailed in the next table:
1 Set I ARG OpticIMCsgVar::AttrVal
•
AttrVal.instance[0] = interface ifIndex
• AttrVal.oid = alclnkaggAggTable:: alclnkaggAggAdminState
•
AttrVal.type = ITEGER
• AttrVal.val = disable(2)
E
N D O F S T E P S
...................................................................................................................................................................................................
...................................................................................................................................................................................................................................
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ES64U SNMP MIB description 1+1 LAG - Link Aggregation management
1+1 LAG Upload
...................................................................................................................................................................................................................................
1+1 LAG Upload
Uploading the LAG consists in retrieving the whole content of:
...................................................................................................................................................................................................
1 alclnkaggAggTable : LAG group
...................................................................................................................................................................................................
2 alclnkaggAggPortTable : LAG ports
1
2
GetTable
GetTable
I ARG OpticsIMCsgVar::CsgVar::OID: tableOid = alcatelID1LAGMIB:: alclnkaggAggTable
OUT ARG OpticIMCsgVar::AttrList:
•
– AttrVal.instance[0] = index of the LAG entry
– According to the column:
–
•
AttrVal.oid = alcatelID1LAGMIB:: alclnkaggAggAdminState
• AttrVal.type = ITEGER
•
AttrVal.val = enable(1), diable(2)
– or
• AttrVal.oid = alcatelID1LAGMIB:: alclnkaggAggActorAdminKey
•
AttrVal.type = ITEGER
• AttrVal.val = The current administrative value of the Key for the Aggregator
– or
• AttrVal.oid = alcatelID1LAGMIB:: alclnkaggAggame
•
AttrVal.type = STRIG
• AttrVal.val = ame of the aggregator
I ARG OpticsIMCsgVar::CsgVar::OID: tableOid = alcatelID1LAGMIB:: alclnkaggAggPortTable
OUT ARG OpticIMCsgVar::AttrList:
• AttrVal.instance[0] = index of the ports associated (by their key) to the LAG group.
•
According to the column:
– AttrVal.oid = alcatelID1LAGMIB:: alclnkaggAggPortActorAdminKey
– AttrVal.type = ITEGER
– AttrVal.val = The current administrative value of the Key for the Aggregator
– or
– AttrVal.oid = alcatelID1LAGMIB:: alclnkaggAggPortState
– AttrVal.type = ITEGER
– AttrVal.val = configurable(2), attached(6)
E
N D O F S T E P S
...................................................................................................................................................................................................
...................................................................................................................................................................................................................................
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ES64U SNMP MIB description Support
...................................................................................................................................................................................................................................
Support
Overview
The support allows general management.
The MIB objects for the support are:
Description MIB field name opticsIMNERestartRequest (RW)
Restart the card
Value
1.
restart
2.
idle
3.
coldRestart
4.
warmRestart
5.
dbTruncate
...................................................................................................................................................................................................................................
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ES64U SNMP MIB description Support
Restart and truncate database
...................................................................................................................................................................................................................................
Restart and truncate database
There are 5 types of restart that can be set:
Type
Restart
Idle coldRestart warmRestart dbTruncate
4
5
2
3
Value
1
Description
Reset the card (traffic effected)
Do nothing
Same as restart ot supported
Truncate (clear) the database and do a cold restart
1 Set reset object I ARG OpticsIMCsgVar::AttrList
•
AttrList[0].oid = tsdimSupportMib::opticsIMERestartRequest.0
• AttrList[0].type = ITEGER
•
AttrList[0].val = the restart type (1-5)
...................................................................................................................................................................................................................................
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Appendix A: Port to ifIndex
Mapping
5
6
3
4
1
2
Port gfp ifIndex
9
17
25
33
41
49
7
8
57
65
9 73
10 81
11 89
12 97
13 105
14 113
15 121
16 129
17 137
18 145
19 153
20 161
To calculate the ifIndex by the port number X
• gfp interface = (X * 8) + 1
• ethernet interface = (X * 8) + 268435457 (In hexadecimal: 10000001)
268435465
268435473
268435481
268435489
268435497
268435505
268435513
268435521
268435529
268435537
268435545
268435553
268435561
268435569
268435577
268435585
268435593
268435601
268435609
268435617
Table A-1 Port to ifIndex mapping table ethernet ifIndex ethernet ifIndex
93
94
95
96
97
98
99
89
90
91
92
Port gfp ifIndex
87
88
697
705
713
721
729
737
745
753
761
769
777
785
793
100 801
101 809
102 817
103 825
104 833
105 841
106 849
268436153
268436161
268436169
268436177
268436185
268436193
268436201
268436209
268436217
268436225
268436233
268436241
268436249
268436257
268436265
268436273
268436281
268436289
268436297
268436305
Port gfp ifIndex
173 1385
174 1393
175 1401
176 1409
177 1417
178 1425
179 1433
180 1441
181 1449
182 1457
183 1465
184 1473
185 1481
186 1489
187 1497
188 1505
189 1513
190 1521
191 1529
192 1537 ethernet ifIndex
268436841
268436849
268436857
268436865
268436873
268436881
268436889
268436897
268436905
268436913
268436921
268436929
268436937
268436945
268436953
268436961
268436969
268436977
268436985
268436993
...................................................................................................................................................................................................................................
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A-1
42 337
43 345
44 353
45 361
46 369
47 377
48 385
49 393
50 401
51 409
52 417
34 273
35 281
36 289
37 297
38 305
39 313
40 321
41 329
Port gfp ifIndex
21 169
22 177
23 185
24 193
25 201
26 209
27 217
28 225
29 233
30 241
31 249
32 257
33 265
Port to ifIndex Mapping
...................................................................................................................................................................................................................................
268435729
268435737
268435745
268435753
268435761
268435769
268435777
268435785
268435793
268435801
268435809
268435817
268435825
268435833
268435841
268435849
268435857
268435865
268435873
268435625
268435633
268435641
268435649
268435657
268435665
268435673
268435681
268435689
268435697
268435705
268435713
268435721
Table A-1 Port to ifIndex mapping table (continued) ethernet ifIndex ethernet ifIndex
120 961
121 969
122 977
123 985
124 993
125 1001
126 1009
127 1017
128 1025
129 1033
130 1041
131 1049
132 1057
133 1065
134 1073
135 1081
136 1089
137 1097
138 1105
Port gfp ifIndex
107 857
108 865
109 873
110 881
111 889
112 897
113 905
114 913
115 921
116 929
117 937
118 945
119 953
268436417
268436425
268436433
268436441
268436449
268436457
268436465
268436473
268436481
268436489
268436497
268436505
268436513
268436521
268436529
268436537
268436545
268436553
268436561
268436313
268436321
268436329
268436337
268436345
268436353
268436361
268436369
268436377
268436385
268436393
268436401
268436409
206 1649
207 1657
208 1665
209 1673
210 1681
211 1689
212 1697
213 1705
214 1713
215 1721
216 1729
217 1737
218 1745
219 1753
220 1761
221 1769
222 1777
223 1785
224 1793
Port gfp ifIndex
193 1545
194 1553
195 1561
196 1569
197 1577
198 1585
199 1593
200 1601
201 1609
202 1617
203 1625
204 1633
205 1641 ethernet ifIndex
268437105
268437113
268437121
268437129
268437137
268437145
268437153
268437161
268437169
268437177
268437185
268437193
268437201
268437209
268437217
268437225
268437233
268437241
268437249
268437001
268437009
268437017
268437025
268437033
268437041
268437049
268437057
268437065
268437073
268437081
268437089
268437097
...................................................................................................................................................................................................................................
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365-374-201R11.1.1
Issue 1 March 2010
74 593
75 601
76 609
77 617
78 625
79 633
80 641
81 649
82 657
83 665
84 673
66 529
67 537
68 545
69 553
70 561
71 569
72 577
73 585
Port gfp ifIndex
53 425
54 433
55 441
56 449
57 457
58 465
59 473
60 481
61 489
62 497
63 505
64 513
65 521
Port to ifIndex Mapping
...................................................................................................................................................................................................................................
268435985
268435993
268436001
268436009
268436017
268436025
268436033
268436041
268436049
268436057
268436065
268436073
268436081
268436089
268436097
268436105
268436113
268436121
268436129
268435881
268435889
268435897
268435905
268435913
268435921
268435929
268435937
268435945
268435953
268435961
268435969
268435977
Table A-1 Port to ifIndex mapping table (continued) ethernet ifIndex ethernet ifIndex
152 1217
153 1225
154 1233
155 1241
156 1249
157 1257
158 1265
159 1273
160 1281
161 1289
162 1297
163 1305
164 1313
165 1321
166 1329
167 1337
168 1345
169 1353
170 1361
Port gfp ifIndex
139 1113
140 1121
141 1129
142 1137
143 1145
144 1153
145 1161
146 1169
147 1177
148 1185
149 1193
150 1201
151 1209
268436673
268436681
268436689
268436697
268436705
268436713
268436721
268436729
268436737
268436745
268436753
268436761
268436769
268436777
268436785
268436793
268436801
268436809
268436817
268436569
268436577
268436585
268436593
268436601
268436609
268436617
268436625
268436633
268436641
268436649
268436657
268436665
238 1905
239 1913
240 1921
241 1929
242 1937
243 1945
244 1953
245 1961
246 1969
247 1977
248 1985
249 1993
250 2001
251 2009
252 2017
253 2025
254 2033
255 2041
256 2049
Port gfp ifIndex
225 1801
226 1809
227 1817
228 1825
229 1833
230 1841
231 1849
232 1857
233 1865
234 1873
235 1881
236 1889
237 1897 ethernet ifIndex
268437361
268437369
268437377
268437385
268437393
268437401
268437409
268437417
268437425
268437433
268437441
268437449
268437457
268437465
268437473
268437481
268437489
268437497
268437505
268437257
268437265
268437273
268437281
268437289
268437297
268437305
268437313
268437321
268437329
268437337
268437345
268437353
...................................................................................................................................................................................................................................
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A-3
Port to ifIndex Mapping
...................................................................................................................................................................................................................................
Port gfp ifIndex
85 681
86 689
Table A-1 Port to ifIndex mapping table (continued) ethernet ifIndex ethernet ifIndex
268436137
268436145
Port gfp ifIndex
171 1369
172 1377
268436825
268436833
Port gfp ifIndex ethernet ifIndex
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Appendix B: 1+1 LAG naming rules
I
Naming bits
T
Field identifier
Subfield Range
Data client purposes
Type
0…15
L Layer
Interface Type
Syntax
(4 bits)
1…1023 (10 bits)
Range
0…3
0…3
Syntax
(2 bits)
(2 bits)
1
161
Logical Interface
Identifier
1…262143 (18 bits)
Total: 32 bits
31 30 29 28
Data client purposes
0 1 L L
27 26 25
Interface type
0 0 1
24
0
23 22 21 20 19 18
1 0 0 0 0 1
17…0
Logical Interface Identifier
Hardcoded decimal value
Hardcoded decimal value
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B-1
1+1 LAG naming rules
...................................................................................................................................................................................................................................
The following considerations apply to proposed naming rules for Ethernet Link
Aggregations:
•
Data Client purposes field keeps both the same range and syntax as in referred document for aming Rule for 4G node
– aming rule for Ethernet Link Aggregation is identified from an “hard-coded” value encoded in T subfield (equal to decimal 1), identifying an LAG as a logical interface;
– L bits allow to decode the hierarchical level; L bits are set to 00 when an LAG interface is created and are incremented for stacked interface over LAG interface
•
Channel field has been removed from the LAG naming rule
•
Hierarchical structure (with physical coordinates (rack, subrack, drawer, board)) inside 4G E naming rule with 00 T subfield is replaced from a flat structure consisting of both Interface Type and Logical Interface Identifier field:
– Interface Type field is filled up with “hard-coded” IAA If Type value (161) for
Ethernet Link Aggregation
– Logical Interface Identifier field is filled up with LAG logical identifier: up 256K
Link Aggregation Groups are allowed to be supported “on per E basis.”
Example
•
31 30 29 28 | 27 26 25 24 23 22 21 20 19 18 | 17 16 15 14 13 12 11 10 9 8 7 6 5 4 3 2
1 0
•
00 01 00 00 | 00 00 01 00 01 00 00 00 00 01 | LAG logical identifier
•
Index of LAG x = 1115947008 (0x42840000) + x
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Glossary
...................................................................................................................................................................................................................................
A ASN.1
Abstract Syntax otation One
...................................................................................................................................................................................................................................
B BPDU
Bridge Protocol Data Unit
...................................................................................................................................................................................................................................
C CBS
Committed Burst Size
CIR
Committed Information Rate
CoS
Class of Service
...................................................................................................................................................................................................................................
E ETB
Ethernet Transport Bridging
ETS
Ethernet Transport Service
...................................................................................................................................................................................................................................
F FCS
Frame Check Sequence
...................................................................................................................................................................................................................................
G GE
Gigabit Ethernet
GFP
Generic Frame Procedure
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GL-1
I
Glossary
...................................................................................................................................................................................................................................
...................................................................................................................................................................................................................................
Interface (or Termination)
An interface is an object that has a corresponding entry in the IfTable of the MIB. It can be a physical or a logical interface.
A physical interface can be supported by the following underlie layers:
•
MAU: in this case, the interface is connected to a physical port, and the Ethernet interface of the stack is called a local interface (ot supported for 5.0)
•
SDH: in this case, the interface has a related AP in the SOET Matrix, and the Ethernet interface of the stack is called a remote interface
A logical interface is an interface that is stacked over another (physical or logical) interface
The interface that is supported is of type GFP.
The supported stacking combination is:
Remote Interfaces
(over SONET underlie layer)
Ethernet interface over GFP
GFP
SONET
IP
Internet Protocol
ISA
Integrated Service Adapter
...................................................................................................................................................................................................................................
L LAN
Local Area etwork
LAPS
Link Access Procedure over SDH
...................................................................................................................................................................................................................................
M MAU
Medium Attachment Unit
MIB
Management Information Base
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Glossary
...................................................................................................................................................................................................................................
MRU
Maximum Receive Unit
The largest frame size which can be received on the interface.
MTU
Maximum Transfer Unit, or Maximum Transmission Unit
The largest frame size which can be sent on the interface.
...................................................................................................................................................................................................................................
N NE etwork Equipment
...................................................................................................................................................................................................................................
O OID
Object Identifier
OMSN
Optical Multi Service ode
OND
Optical etworks Division
...................................................................................................................................................................................................................................
P PBS
Peak Burst Size
PIR
Peak Information Rate
...................................................................................................................................................................................................................................
Q QoS
Quality of Service
...................................................................................................................................................................................................................................
S SDH
Synchronous Digital Hierarchy
SNMP
Simple etwork Management Protocol
...................................................................................................................................................................................................................................
V VID
VLA Identifier
...................................................................................................................................................................................................................................
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GL-3
Glossary
...................................................................................................................................................................................................................................
VLAN
Virtual LA
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