9.3.40 Version Software Release Notes Cisco WAN Switching System Software
About the 9.3.40 Release
The 9.3.40 software release supports the Cisco WAN switching products: BPX 8600 series and IGX 8400 series. This release does not support the IPX switch.
Throughout this document, unless otherwise stated, all references to the BXM also include the BXM-E, and references to the UXM also include the UXM-E.
Phased Release Strategy
The rollout plan for the 9.3 release is based upon a series of incremental feature releases. This phased feature release strategy is designed to allow the earliest customer availability of key new features, consistent with maintaining high product quality. For the latest status of each 9.3 feature, see the following information.
Definitions
Generally Available (GA)
Feature is ready for wide deployment with no restrictions. Customers deploying GA features are supported by the Technical Assistance Center (TAC).
First Customer Ship (FCS)
Feature is available for controlled introduction to selected customers. To trial an FCS feature, please contact your account representative. Customers selected for controlled introduction receive assistance with the test plan review and special support from the New Product Team (NPT) in addition to the normal Technical Assistance Center (TAC) support.
The minimum release version noted in the table represents the minimum switch software version required for each feature. It is recommended that customers use the most current maintenance releases.
Product
Feature Name
FCS/GAStatus
Minimum Release
BPX
Virtual Trunk Bandwidth Oversubscription
FCS
9.3.40
BPX
Feeder VCI Restriction Removal
FCS
9.3.40
BPX/IGX
Display Connection Counts
FCS
9.3.40
BPX/IGX
VC Merge
FCS
9.3.40
IGX
NTM Subrate Trunk Encryptor Synchronization
FCS
9.3.40
IGX
UXM Trunk and Line Loopback
FCS
9.3.40
BPX/IGX
Single-Ended FCES and Policing
FCS
9.3.40
BPX/IGX
Line and Port Alarm Masking
FCS
9.3.40
BPX/IGX
Trunk VC Shaping
FCS
9.3.40
IGX
URM BC-2FE Back Card
GA
9.3.30
IGX
URM VSI Support
GA
9.3.30
IGX
URM Remote Router Configuration
GA
9.3.30
IGX
CRC-4 Error Detection
GA
9.3.30
BPX/IGX
AIS OAM Recognition
GA
9.3.30
BPX/IGX
800 Part Number Support
GA
9.3.30
BPX
Automatic Routing Management to PNNI Migration
GA
9.3.30
BPX
Network to Endpoint Connectivity Verification
GA
9.3.30
BPX
Deferred Connection Alarm Generation
GA
9.3.30
BPX
Enhanced NNI - End-to-end OAM across BPX-MGX Networks
GA
9.3.30
BPX
Provisioning of end-to-end AR - PNNI PVCs (XPVC) across BPX - MGX Networks
GA
9.3.30
BPX
LMI/ILMI on Virtual Ports
GA
9.3.30
BPX/IGX
TFTP Configuration Save and Restore
GA
9.3.30
BPX
F4 - F5 Mapping
GA
9.3.30
BPX/IGX
Virtual Trunk Clock Source Synchronization
GA
9.3.30
BPX
60K Channel support for VSI
GA
9.3.30
BPX/IGX
Trunk Incremental Cell Delay Variance (CDV)
GA
9.3.30
BPX/IGX
Concurrent Routing
GA
9.3.30
IGX
URM Router Functionality
GA
9.3.20
BPX
Dynamic Partitioning
GA
9.3.10
BPX/IGX
Qbin Statistics
GA
9.3.10
IGX
ILMI 4.0
GA
9.3.10
BPX/IGX
ILMI/ELMI Neighbor Discovery
GA
9.3.10
IGX
ELMI for UFMs
GA
9.3.10
IGX
VSI/MPLS
GA
9.3.10
BPX
Virtual Ports
GA
9.3.05
BPX
Hitless Connection Density Upgrade for BXM
GA
9.3.00
BPX
Support for 3 VSI Partitions
GA
9.3.00
BPX
VSI MIB Support
GA
9.3.00
BPX/IGX
800 Board-Level Revision Number
GA
9.3.00
BPX/IGX
Priority Bumping
GA
9.3.00
BPX/IGX
SCR and PCR Policing at Less Than 50 CPS on BXM/BXM-E and UXM/UXM-E
GA
9.3.00
BPX/IGX
Separate Abort Stack
GA
9.3.00
BPX/IGX
Upgrades Protection
GA
9.3.00
BPX/IGX
Control Traffic Shaping
GA
9.3.00
IGX
2000 VC Bandwidth Parameters
GA
9.3.00
IGX
UXM/UXM-E ATM Forum IMA-Compliant Ports
GA
9.3.00
For information about these features, refer to the corresponding release notes at the following URLs:
Virtual trunking defines multiple trunks within a single physical trunk interface. Virtual trunking allows the user to allocate as much bandwidth as needed instead of the full T3, E3, OC3, or OC12 bandwidths. Virtual trunking bandwidth refers to the service rate.
Prior to Release 9.3.40, the bandwidth of a virtual trunk (VT) is limited by its allocated portion of the total physical bandwidth at the interface. If a VT on a single interface is not utilizing its allocated share of bandwidth, other VTs cannot use this available bandwidth when their traffic exceeds the configured level. Each of the VTs on a physical interface has a fixed bandwidth which leads to inefficient use of the total bandwidth.
In Release 9.3.40 the purpose of oversubscribing is to allow a VT to utilize up to a maximum configured bandwidth on the physical interface. The sum of individual maximum bandwidths of the VTs on a single physical interface can exceedthe actual physical bandwidth available on that interface. If a VT is not utilizing its share of bandwidth, another VT can use the bandwidth.
VT bandwidth oversubscription is applicable to AutoRoute (AR) and PNNI. This feature is available on the BPX switch with the BXM-E card. This feature is not supported on any other BPX card or on the IGX switch.
Functionality
The VTs on a physical interface can be configured with minimum and maximum service rates. The maximum service rate can be oversubscribed. If some connections on one VT burst traffic, they are allowed through on the oversubscribed VT up to the maximum service rate.
By default oversubscription on a VT is disabled, and the minimum and maximum service rates are set to the same value. Whenever the minimum and maximum values are changed by the user to be not equal, oversubscription is implicitly enabled.
By default the minimum and maximum service rates on a VT are set to 3000 cps or to the maximum bandwidth available on the physical interface, whichever is smaller.
VT oversubscription is disabled by making both the minimum and maximum service rates equal.
Configuration Requirements
The trunk on which this feature is to be enabled must be up. The remote end can be a BPX or IGX.
The following restrictions apply to VT oversubscription:
Minimum service rate is less than or equal to the maximum service rate for each VT.
Sum of the minimum service rates of all VTs on a physical interface is less than or equal to the total bandwidth of that physical interface.
Maximum service rate is less than or equal to the total bandwidth of the physical interface for each VT on that physical interface.
The sum of the maximum service rates of all VTs on a physical interface can be greater than the total bandwidth of that physical interface.
AutoRoute Connections
When routing connections over a VT, AutoRoute (AR) searches for the VT which has maximum available bandwidth and routes the connection over that VT. When a connection is routed over an oversubscribed VT, AR uses the minimum service rate to check for available bandwidth.
VSI Partitions
A VSI partition on a VT can be oversubscribed since the VSI partition shares the same virtual interface (VI) as that of the VT on which VSI partition is configured. The VI now has a minimum and a maximum service rate. Thus, connections on a VSI partition can burst up to the maximum VI rate with enough bandwidth on the interface. This maximum VI rate is configured through the cnftrk CLI command.
CLI Additions and Modifications
This section contains the commands that have been modified to support VT bandwidth oversubscription.
cnftrk
The cnftrk command has been modified to allow configuration of minimum and maximum service rates.
The Overall utilization field in the display screen indicates the percent utilization of the trunk. If a trunk is oversubscribed, the percentage utilization might exceed 100% when the bandwidth usage exceeds the minimum configured value.
MIB Addition
This section contains the following addition to the atmTrunks table in the switch MIB to support VT bandwidth oversubscription.
Table 3 atmTrunksTable Addition
MIB Object
Description
Values
atmTrkXmitRateMax
Maximum trunk transmission rate in cells per second.
This object can be SET for virtual trunks. The object is read-only for other types of trunks. The value is the same as the atmTrkXmitRate value.
This object can be SET with all other writable objects in this table except:
atmRteTrkAlmEnable
atmRteTrkBdataBTxQlen
atmRteTrkBdataBTxEfcn
atmRteTrkBdataBTxHiClp
atmRteTrkBdataBTxLoClp
Access: read-write
Default: 3000 cps. (equal to atmTrkRcvRate)
Mismatch Capabilities
The following table shows mismatch conditions.
Table 4 Mismatch
Active Card
Replaced by Card
Result
Without VT oversubscription
With or without VT oversubscription
No mismatch
With VT oversubscription disabled
With or without VT oversubscription
No Mismatch
With VT oversubscription enabled
With VT oversubscription
No mismatch
With VT oversubscription enabled
Without VT oversubscription
Mismatch
VT oversubscription is considered enabled if at least one VT on a active BXM is oversubscribed.
Redundancy
SWSW 9.3.40 uses the following guidelines for Y-cable redundancy (Y-red):
Allow Y-red if only one card supports the feature, and the feature is disabled.
Do not allow Y-red if one card supports the feature, the feature is enabled, and the second card does not support the feature.
Do not enable this feature if Y-red is configured between a card supporting VT bandwidth oversubscription and a card not supporting this feature.
Feeder VCI Restriction Removal
STI cells used by Cisco WAN switches and ATM standard UNI/NNI cells have different header formats. ATM standard cells use a 16-bit VCI address field; whereas, STI cells use a 12-bit VCI field. In STI cells the higher 4 bits of octet 4, which contain the last 4 bits of VCI address in ATM standard cells, contain ForeSight information. Therefore, UNI/NNI cells support 65535 VCI addresses while STI cells can support only 4095 VCI addresses.
Since BNI cards use only STI cells, an ATM network with BNI and non-BNI modules must ensure that VCI address translation occurs whenever a cell moves from an ATM (non-BNI) segment to an STI (BNI) segment and vice-versa. Otherwise, the lower 4 bits of VCI information in the UNI/NNI cell are overwritten with ForeSight information when the cell enters the STI segment. This translation is achieved by shifting the lower twelve VCI bits of an ATM cell left or right when it enters or exits an STI segment.
This feature allows VCI shift to be turned on or off on BXM feeder trunks, enabling them to use the full 65535 VCI UNI/NNI address range. This feature also applies to MPLS which requires a VCI range greater than 4095.
This feature is available on the BPX switch with BXM trunks.
Usage
VCI shift operations perform the following functions:
Shift/no-shift operation is configured using the cnffdr command. The same setting should be chosen at both ends of a connection. When a connection is added, a difference in setting causes a mismatch warning to display.
When the shift option is enabled on a feeder trunk, the VCI value is shifted left by four bits for cells entering the feeder trunk and shifted right by four bits for cells leaving the feeder trunk.
Via nodes get the shift/no-shift configuration from the master and program the trunks accordingly.
If the VCI is less than or equal to 4095 in a VPC, then the connection does not need to be rerouted.
To get the VCI unchanged in a VPC connection, shift must be disabled on all nodes in the path of the connection. The no-shift option must be selected at the master and slave nodes of the connection. Via nodes take on the same shift configuration as the master and must be no-shift if the master node configuration is no-shift.
This feature also works with local connections.
Configuration
By default in Release 9.3.40 BXM feeder trunks have VCI shift disabled. The feeder trunks that exist prior to Release 9.3.40 have the VCI shift enabled by default.
To pass VCI without shift on a connection, the master and slave nodes should be configured as no-shift. The connection should not route over a BNI trunk.
For an existing connection, a change in the shift/no-shift setting is effective after the connection is rerouted. For example, if a node is upgraded from a version of SWSW that does not provide cnffdr support to one that does, any existing connections over BXM feeder trunks shift the VCI for cells passing over the connection.
Use the following guidelines for changing the shift/no-shift setting on a feeder trunk:
All existing connections over this feeder trunk must be manually rerouted for the change to be effective. The shift/no-shift setting should be configured before adding new connections. However, the connection continues to have data continuity if this setting is not configured.
If the feeder at one end is changed to no-shift, then the feeder at other end also should be changed to no-shift.
No configuration is required on via nodes since via nodes follow the configuration of the master node.
For a routing trunk, the cnfport command is used to turn shift on or off. For a feeder trunk, shift has to be configured using the cnffdr command or through SNMP.
When new feeder trunks are added on a node running SWSW software with this feature, the trunks come up with shift turned off.
To ensure that the VCI is not changed on a VPC connection, BNI trunks must not be in the path of the connection since BNI trunks use only 12-bit VCI (STI cells).
Note Since the system does not automatically avoid routing over BNI trunks, configure the VPC connections
in the network with directed preferred routes over BXM-only paths. If these paths are lost, the
connection fails rather than rerouting over a path with a BNI.
CLI Additions and Modifications
This section contains the commands that have been modified to support VCI restriction removal.
cnffdr
The cnffdr command is used to configure shift/no-shift on a BXM feeder trunk. The cnffdr command configures the shift/no-shift setting only under the following conditions:
Trunk must be a BXM trunk.
Trunk must be up.
Trunk must be added as a feeder.
If any of the above conditions are not true, the system displays an error message and prompts for another trunk number.
Syntax:
cnffdr <trunk number> <H|N>
Parameter
Description
<trunk number>
Specifies the slot.port of the feeder trunk.
[H|N]
Enable or disable shift.
H = Shift VCI
N = No-Shift (default)
The following example shows the cnffdr display screen The Feeder trunk field displays the trunk number followed by the type of shelf.
For BNI feeder trunks, the VCI field is copied to an STI cell. The shift/no-shift setting is not applicable. Therefore, for BNI feeders the dspfdrcnf command displays a [-] in the Shift field, shown in the following example.
This section contains the addition to the atmTrk table in the switch MIB to support VCI restriction removal.
Table 5 atmTrkTable Addition
MIB Object
Description
Values
atmTrkHcfShift
Value to indicate whether VCI shift is enabled on the trunk.
For no-shift of VCI the value of the SET operation should be disable(2) and for shift the value should be enable(1). The default value is no-shift for BXM feeder trunks.
The object is applicable only for BXM feeder trunks. For ATM ports on other cards this object is not applicable, and the value -1 is returned.
This object is not applicable for routing trunks.
If a SET operation is tried without giving a value, the default value is set for BXM feeder trunks. The request is ignored for routing trunks.
If a SET operation with a given value is tried on a routing trunk, an error is returned.
Access: read-write
1 = enable
2 = disable
SNMP Error Messages
The following error messages are generated under the specified conditions:
Error code -1 (There is no such variable name in this MIB) is returned when SNMP GET or SET is tried on an invalid trunk or on a trunk that is not up.
Error code -1 is returned when SNMP GET is tried on a trunk which is not a feeder trunk.
Error code -2 (A general failure occurred) is returned when SNMP SET is tried on a trunk which is not a feeder trunk.
Redundancy
This section contains redundancy requirements of this feature.
Controller Card Redundancy
Standby updates are applicable for the shift/no-shift parameter setting. The same configuration is available after executing a switchCC. If a switchCC (automatic) occurs when the configuration is changed but the connections are not rerouted, the configuration is available in the new active controller card. For the configuration to be to be effective, a manual reroute must be done after the switchCC.
Y-redundancy and APS
The shift/no-shift configuration is available on redundant cards.
Display Connection Counts
In SWSW Release 9.3.40 the CLI command, dspconcnts, is modified to include the following connection counts:
Number of connection endpoints terminated on the cards and lines.
Number of connection endpoints terminating on ports. The display includes the endpoint counts of the CBR, VBR, ABR, UBR, and Frame Relay connection types that terminate on each active port. The number of VPC and VCC connection endpoints on each port are also displayed.
Number of connections passing over trunks for the node.
CLI Addition
This section contains the command that has been added to support connection counts.
dspconcnts
The dspconcnts command shows the number of connection and connection endpoints.
Syntax:
dspconcnts [c|p|t|l|h] [h(elp)]
Parameter
Description
c
(Optional) Displays the number of connection endpoints terminating on each card.
p
(Optional) Lists all active ports on the node. For each active port, the number of CBR, VBR, UBR, ABR, and Frame Relay connection endpoints and terminating VPC and VCC connection endpoints are also listed.
t
(Optional) Displays the number of connections passing over each trunk on the node.
l
(Optional) Displays the number of connection endpoints terminating on each line on the node.
h
(Optional) Displays a help screen.
none
Displays the number of connections mastered to or from this node and the number of via connections passing over the node when no option is specified.
Example 8 shows the active ports with the number of connection endpoints.
Slot Type #ConEndPts Slot Type #ConEndPts Slot Type #ConEndPts
3 UXM 291 13 LDM 21 26 CVM 1
4 FRM 32 17 Empty - 27 UXM 0
5 NTM - 18 FRM 37 28 0
6 NTM - 19 CVM 0 29 0
7 CVM 0 20 CVM 0 30 Empty -
8 Empty - 21 Empty - 31 Empty -
9 Empty - 22 UXM 179 32 ALM 0
10 HDM 8 23 Empty -
11 HDM 0 24 Empty -
12 UXM 0 25 FRM 0
Last Command:dspconcnts c
Next Command:
VC Merge
The VC merge feature is already supported on BPX nodes. For more information on this feature, refer to the BPX Installation and Configuration documentation at the following URL:
On the IGX VC merge feature is supported only on UXM-E cards running firmware ACJ or higher.
This feature allows multiple incoming VCs to be merged in to a single outgoing VC. A UXM enhanced card with the VC merge capability can be configured to allow the merging of frame-based connections into a merged VC. The merged VC is controlled by the VSI controller.
The VC merge feature allows scalability of MPLS networks since one VC is allocated to each destination of each link.
The SWSW allows the configuration of VC merge for an enhanced UXM card through the cnfcdparm command. VC merge can be enabled only if the card supports this feature.
The support of VC merge on a card can be verified using the following commands:
dspcd
dspcdparm
The VC merge feature is supported only for frame-based connections. These connections carry AAL5 frames consisting of multiple cells. The cells from a particular frame must be in an uninterrupted sequence when the frame goes out after merging.
After the node is upgraded to Release 9.3.40, VC merge can be enabled on the UXM-E cards by using the cnfcdparm command. The VC merge configuration parameters are saved in BRAM and are sent to the standby processor card.
Availability of Contiguous LCNs
The UXM card requires 550 contiguous logical channels (LCNs) in the AutoRoute (AR) partition to support this feature. The VC merge configuration request is denied if 550 LCNs are not available on the AR partition. The user is prompted to allocate LCNs on the card if the feature needs to be enabled.
The traffic on the VCs might get affected when this feature is enabled where 550 non-contiguous LCNs are available on the card. A trap is sent to indicate that the card needs to be deactivated and reactivated to enable the feature support. Since deactivation of the card disturbs the traffic, the user is prompted with a Y/N to proceed with the request. After the user enters Y to proceed, the SWSW configures the VC merge feature by sending appropriate commands upon card activation. The user is prompted before the interruption of any data traffic.
Redundancy
The VC merge feature is supported on the Y-cabled UXM-E pair.
Graceful mismatch is supported. A mismatch condition is declared if the VC merge feature is in use,and Y-redundancy is attempted using a card that does not support the feature. In such cases, feature mismatch is declared (see Table 6).
Table 6 Mismatch Scenarios
Scenario
Behavior
Logical Card State
Y-red not configured. Replace N (primary) with S (secondary).
OK
S
Y-red not configured. Replace S with N.
If feature is not in use, no mismatch.
If feature is in use, feature mismatch. Feature usage must be removed and card reset to clear mismatch.
N
addyred: N primary, S secondary
No mismatch - addyred is allowed.
N
addyred: S Primary, N secondary
Blocked if feature is in use.
Allowed if feature is not in use. No mismatch.
S/N
CLI Additions and Modifications
This section contains the commands that have been modified to support VC merge.
cnfcdparm
The cnfcdparm command supports the VC merge configuration on UXM supported cards. A card must have at least one active parition to enable VC merge.
Syntax:
cnfcdparm <slot #> <param # (2) > <E/D>
Parameter
Description
slot #
Slot number.
param #2
Parameter(2) that changes the VC Merge State.
E/D
Value to configure the VC merge.
E = enable
D = disable
Example 10 cnfcdparm Command
node TRM Cisco IGX 8420 9.3.4Q May 23 2002
11:41 PST
Card Parameters
1 Channel Statistics Level
......................................... 1
2 VC Merge State
......................................... D
Last Command:cnfcdparm 10 2 E
dspcd
The dspcd command supports the VC merge capability display.
Syntax:
dspcd <slot #>
Example 11 shows the VC merge capability for the UXM card in slot 10.
Example 11 dspcd Command
node TRM Cisco IGX 8420 9.3.4Q May 23 2002
11:27 PST
Detailed Card Display for UXM in slot 10
Status: Standby (Front Card is UXME)
Revision: CA27 Front Card Supports:
Serial Number: 290617 Vtrunks, OAMLpbk & TrfcGen, ILMI
ver 1,
Top Asm Number: 28274601 Neighbor Discovery, SIW, CGW,
CellFwd,
Backplane Installed Hot Standby, Trfc Shaping, IMA,
Backcard Installed ChnStatLvl 1, NumChans = 8000,
Type: E1-IMA NumRCMP = 16382, VSI ver 2, VSI
Ctrlr,
Revision: AA PCR >= 6 cps, F4 AIS
Recognition,
Serial Number:248402 CRC-4 Config, VC Merge, Cnf ILMI
chg/trap
Top Asm Number:28241202
Ports: 8
Interface: BNC
Last Command:dspcd 10
NTM Subrate Trunk Encryptor Synchronization
This feature toggles the DTR lead on an NTM subrate interface backcard for a preconfigured ON and OFF cycle in the case of a disturbance to the trunk. This toggling continues until the trunk alarms clear.
Functions
This feature provides the following functions:
Enables and disables the toggling of the NTMs DTR lead through the cnftrk command.
Configures ON and OFF durations of the NTMs DTR lead through the cnftrk command. The ON and OFF values are in the range of 1 to 128 seconds.
When this feature is enabled, the NTM firmware detects a loss of synchronization by monitoring the following alarms:
Clock loss
Signal loss
Packet loss
Yellow packet received
The firmware then toggles the DTR lead periodically as specified by the ON and OFF times until all the above alarms are cleared. When the alarms are cleared, the firmware restores the state of the DTR lead.
CLI Modifications
This section contains the commands that have been modified to support NTM subrate trunk encryptor synchronization.
cnftrk
DTR toggling is enabled and disabled using the cnftrk command. A DTR toggle on alarm field is displayed for an NTM subrate trunk. Valid values are Y or N.
Fields for configuring ON and OFF duration are DTR secs ON and DTR secs OFF. Valid values for both fields are in the range of 1-128 seconds. Default for DTR secs ON is 29 seconds. Default for DTR secs OFF is 1 second. See the display screen in Example 12.
dsptrk
The dsptrk command is extended to display state of DTR toggling (enabled or disabled) and the ON/OFF durations.
If the feature is enabled on a trunk, the cnftrkict command displays a warning message whenever DTR settings are changed. This warning indicates that the settings will be overridden by cnftrk settings in case of trunk disturbance.
Warning! DTR lead settings will be overridden by cnftrk during Trk alarms
Enter signal source (on, off, or local):
MIB Additions
This section contains the three additions to the fpRteTrk table in the switch MIB for this feature.
Table 7 fpRteTrkTable Additions
MIB Object
Description
Values
fpRteTrkToggleEnable
Value to enable or disable DTR lead toggling.
This object is applicable only to NTM cards with subrate backcards. A SET on any other type of card is ignored.
A GET on any other type of card returns (-1).
Access: read-write
1 = Yes
2 = No (default)
fpRteTrkDtrOn
The ON time in seconds for DTR lead during toggling.
This object is applicable only to NTM cards with subrate backcards.
A SET on any other type of card is ignored. A GET on any other card returns (-1).
Access: read-write
Range: 1-128
Default: 29
fpRteTrkDtrOff
The OFF time in seconds for DTR lead during toggling.
This object is applicable only to NTM cards with subrate backcards.
A SET on any other type of card is ignored. A GET on any other card returns (-1).
Access: read-write
Range: 1-128
Default: 1
SNMP supports enable/disable toggling and configures the ON/OFF toggling parameters.
SNMP OIDs are partitioned into two sets, legal_fprtetrkcnfg_tbl and legal_fptrkparm_tbl. Each table has a separate access function, corresponding to cnftrk and cnftrkparm CLIs. These OIDs are contained in the fpRoutingTrunks table.
UXM Trunk and Line Loopback
This feature provides the loopback commands on a UXM physical interface that is configured for physical, virtual, or feeder trunk(s) in trunk mode and configured for an UNI or NNI ATM port in line mode.
Note This feature already exists on the BPX.
When a physical loopback is added on a UXM physical interface, all the traffic on the physical interface is looped back.
The physical loopback configuration is stored in BRAM and updated to the standby NPM. The configuration is retained after a rebuild, switchcc, or software upgrade. SWSW does not broadcast the physical loopback information on a UXM physical interface to the other BPX/IGX nodes in the network.
Local Loopback (addlnloclp)
When a UXM port interface is put in local loopback state, the traffic that comes into the cell bus from the local cable is looped back on the cell bus and sent back out the cable. This traffic is passed into the network.
The traffic that comes from the remote end through the network is not sent to this interface. This traffic is dropped and is not mixed with the traffic being looped back.
For local loopback on normal trunks the node which has the trunk-end in local loopback state goes into Comm-Fail state while the remote node goes into loopback state. The traffic from the remote node is looped back by the local node.
The symbol "]" always indicates local loopback for both lines and trunks. The loopback behavior on IMA lines/trunks, IMA virtual trunks, and feeder trunks is similar to that of normal lines/trunks. The user can reduce the number of retained links (to ensure that IMA group status is OK using cnfln or cnftrk commands) and safely put a local loopback on one or more of the individual physical IMA links. The test traffic entering the looped IMA links is looped back while the main user traffic remains unaffected (as long as a sufficient number of retained links remain).
Local Remote loopback (addlnlocrmtlp)
For local remote loopback on normal lines, the node that has its line interface in the local remote loopback state loops back the traffic coming from the cell bus. The traffic is looped back and is not passed to the cable. Traffic from the ports on the local node is not sent on to the network. Traffic is dropped at the local node and is not mixed with the traffic being looped back.
For local remote loopback on normal trunks, the node that has its trunk-end in local remote loopback state loops back the traffic coming from the cell bus. The remote node does not receive this traffic.
The traffic being received from the remote node is dropped and is not passed on to the CPE attached to the local node. This traffic is not mixed with the traffic being looped back.
The symbol "[" always indicates local remote loopback for both lines and trunks. The loopback behavior on IMA lines/trunks, IMA virtual trunks, and feeder trunks is similar to that of normal lines/trunks. Local remote loopback on individual IMA links is not supported.
Delete Local/Local Remote loopback (dellnlp)
The dellnlp command deletes either local or local remote loopback on a line or trunk interface.
The displaying (output) screens of the following existing IGX user commands include the loopback indicators on all the trunks or lines on the UXM physical interface:
dsptrks
dsplns
dspphyslns
Table 8 lists the expected behavior upon using the loopback commands on a single (isolated) node and other nodes in a network. The behavior at both the local and remote nodes is shown. All loopback commands are executed on local nodes.
Table 8 Loopback Behavior
Local Node
Remote Node
addlnloclp
addlnlocrmtlp
addlnloclp
addlnlocrmtlp
Trunks (Physical and Virtual)
Single Node
LOS is not cleared
LOS is cleared
Not applicable
Not applicable
Trunks (Physical and Virtual)
Network
dsptrks on local node shows Comm Failure. No LOS alarms are present.
dsptrks on local node shows Looped Back. No alarms are present.
dsptrks shows Looped Back status.
dsptrks shows Comm-Fail.
Lines/Ports
Single Node not connected to CPE
1. Port state remains failed
2. LOS is not cleared.
1. Port State changes to active
2. LOS is cleared
Not applicable
Not applicable
Lines/Ports
Connected to CPE
LOS remains clear
1. Port state remains active
2. LOS remains clear
Not applicable
Not applicable
IMA trunks
Same as physical trunks
Same as physical trunks
Same as physical trunks
Same as physical trunks
IMA ports/lines
Same as ports
Same as ports
Same as ports
Same as ports
Feeder trunks
Network
1. dsptrks shows clear-Ok.
2. Node goes into Major alarm and dspnode shows remote node is unreachable.
3. dsplog shows comm-fail with remote node.
1. dsptrks shows clear-Ok.
2. Node goes into Major alarm and dspnode shows remote node is unreachable.
3. dsplog shows comm-fail with remote node.
1. dsptrks shows clear-Ok.
2. Node goes into Major alarm and dspnode shows remote node is unreachable.
3. dsplog shows comm-fail with remote node.
1. dsptrks shows LOS.
2. Node goes into Major alarm and dspnode shows remote node is unreachable.
3. dsplog shows comm-fail with remote node.
Limitations
The physical loopback commands on IGX can be executed on the UXM physical interface only, not on an individual virtual interface.
Local remote loopback on individual IMA physical links (either lines/trunks) are not supported. Either all or none of the individual IMA physical links might be put into loopback. This loopback behavior is a firmware limitation. However, for local loopbacks either one or more (including all) of the individual IMA physical links can be put into local loopback.
Traffic loopback behavior on feeder trunks is the same as on normal physical trunks. However, the display is different, as shown in Table 8. Feeder trunks do not have an alarm state called Looped Back. For loopbacks on feeder trunks, both local and remote ends are in major alarm and go into communication-failure state. The states are different because feeder trunks use LMI/ILMI protocol for communication failure tests while normal physical trunks use AutoRoute protocol.
SWSW does not support these loopback commands on the SNMP interface.
CLI Additions and Modifications
addlnloclp
The command addlnloclp performs the following operations:
Programs the target UXM to put the physical interface into line local loopback.
Logs a system event to indicate that the physical loopback is applied on the physical interface.
Displays the following summary screens for lines or trunks:
For the UXM physical interface that has been configured as trunk(s), the dsptrks output screen displays the proper loopback indicator on the affected trunk(s).
For lines, the dsplnsoutput screen displays the proper loopback indicator on the affected line.
For IMA lines/trunks the dspphyslns output screen is displayed with the proper loopback indicator on the affected link(s).
Syntax:
addlnloclp <slot.port> or <slot.port[-port, port]> or <slot.port.vport> or <slot.port-port.vport>
Parameter
Description
slot.port
Format for normal UXM physical interface.
slot.port [-port, port]
Format for IMA interfaces.
slot.port.vport
Format for virtual trunks.
slot.port-port.vport
Format for IMA virtual trunks.
addlnlocrmtlp
The command addlnlocrmtlp performs the following operations:
Programs the target UXM to put the physical interface into line local remote loopback.
Logs a system event to indicate that the physical loopback is applied on the physical interface.
Displays the following summary screens for lines or trunks:
For the UXM physical interface that has been configured for trunk(s), the dsptrks output screen displays the proper loopback indicator on the affected trunk(s).
For lines, the dsplnsoutput screen displays the proper loopback indicator on the affected line.
For IMA lines/trunks the dspphyslns output screen displays the proper loopback indicator on the affected link(s).
Syntax:
addlnlocrmtlp <slot.port> or <slot.port[-port, port]> or <slot.port[.vport]> or <slot.port-port.vport>
Parameter
Description
slot.port
Format for normal UXM physical interface.
slot.port [-port, port]
Format for IMA interfaces.
slot.port.vport
Format for virtual trunks.
slot.port-port.vport
Format for IMA virtual trunks.
dellnlp
The command dellnlp performs the following operations:
Programs the target UXM to remove the physical loopback on the UXM physical interface.
Logs a system event to indicate that the physical loopback is removed on the physical interface.
Displays the following summary screens for lines or trunks:
For the UXM physical interface that has been configured for trunk(s), the dsptrks output screen displays the loopback indicator removed on the affected trunk(s).
For lines the dsplnsoutput screen displays the loopback indicator removed on the affected line.
For IMA lines/trunks the dspphyslns output screen displays the loopback indicator on the affected link(s).
Syntax:
dellnlp <slot.port> or <slot.port[-port, port]> or <slot.port.vport> or <slot.port-port.vport>
Parameter
Description
slot.port
Format for normal UXM physical interface.
slot.port [-port, port]
Format for IMA interfaces.
slot.port.vport
Format for virtual trunks.
slot.port-port.vport
Format for IMA virtual trunks.
dsptrks
The dsptrkscommand includes the following modifications:
UXM interface in local loopback state displays ] as the line local loopback indicator.
UXM interface in local remote loopback state displays [ as the line local remote loopback indicator.
If a UXM physical interface is put in loopback state (either local or remote local), the dsptrkscommand displays a loopback indicator associated with each of the logical trunks (physical or virtual) that are configured on that UXM physical interface.
dsplns
The dsplnscommand displays a loopback indicator for the logical line. Thiscommand includes the following modifications:
UXM interface in local loopback state displays ] as the line local loopback indicator.
UXM interface in local remote loopback state displays [ as the line local remote loopback indicator.
dspphyslns
The changes in dspphyslns are identical to those of the dsplns and dsptrks commands except that the loopback indicator is shown against each individual IMA physical line as appropriate.
If Y-redundancy is configured on a UXM card that supports hot-standby the line loopback configuration on its physical interface, if SET, is also programmed to the standby UXM.
Single-Ended FCES and Policing
Single-ended FCES mechanism is used to provide an end-to-end flow control capability to ABR and FST types of connections consisting of multiple segments. This feature allows the BXM-E and UXM-E to provide congestion information to non-Cisco products using a standard interface. ABR flow control is extended to the external segment.
Policing is the process of monitoring ingress traffic of a connection to determine if the traffic can enter and how that traffic is handled once inside the network.
These features allow single-ended FCES and policing on a connection to be configured on an endpoint basis rather than on a connection basis. The congestion control loop is enabled between only those devices that support this feature.
Similarly, policing is independently configured at each endpoint of the connection. This feature allows maximum traffic throughput to avoid cell discards due to traffic clumping on the NNI interfaces.
Functions
Single-ended FCES and policing provide the following functions:
Allows FCES to be enabled or disabled independently on two endpoints of a connection.
Allows policing to be enabled or disabled independently on two endpoints of a connection.
Supports the configuration from CWM, CLI, and SNMP.
Requirements
These features require the BXM-E and UXM-E cards.
FCES
Independent values for FCES provisioning can be configured for the following reasons:
Connections with type ABRSTD, ABRFST, or ATFST (between two ATM endpoints) are added using addconif both endpoints support FCES (VSVD needs to be enabled for ABRSTD connection).
The above connections are configured using the cnfcon CLI command.
ATM classes are configured using cnfcls or cnfatmcls commands.
The dspcon is used to display the above connections,
The parameter for FCES takes one of the following values:
D/D(or D). FCES is disabled at both endpoints.
E/E (or E).FCES is enabled at both endpoints.
E/D. FCES is enabled at the local endpoint only.
D/E. FCES is enabled at the remote endpoint only.
The default value for FCES is disable.
The following example shows the CLI prompt.
FCES [Disable/Disable]:
In the following cases FCES is specified for only one end of a connection:
A connection with type ATFST, ATFXFST, or ATFTFST is added between ATM and FR endpoints. Enabling or disabling FCES is applicable only to the ATM endpoint. FCES is ignored at the FR endpoint.
If one endpoint is acting as a feeder trunk, FCES is not applicable and displays a [-].
For a local connection which uses one channel, only one endpoint for this connection exists.
In these cases, the parameter for FCES is in the following format:
D. FCES is disabled at the ATM endpoint.
E.FCES is enabled at the ATM endpoint.
The CLI prompt in these cases is
FCES [Disable/-]: or FCES [-/Disable]: or
FCES [Disable]: (for onelcn dax connection)
MIB
To integrate with CWM, the switch MIB atmEndptOeBCM object for FCES is read-write.
Policing
When a connection is added using addcon, configured using cnfcon, or displayed usingdspconCLI commands, the parameter for policing takes one of the following value combinations:
[1-5]/[1-5] or [1-5]
If the endpoint is a feeder trunk, the policing is shown as
[1-5/- or -/[1-5]
For UBR connections, CLP tagging is used and corresponds to the following input values:
D/D (or D when inputting). CLP tagging is disabled at both endpoints.
E/E (or E when inputting).CLP tagging is enabled at both endpoints.
E/D. CLP Tagging is enabled at the local endpoint only.
D/E. CLP Tagging is enabled at the remote endpoint only.
If the endpoint is a feeder trunk, the CLP tagging is shown as
D/-, E/-, -/D or -/E
The policing type has a range from 1 to 5. Table 9 shows how these policing types are defined. The value to the left of [/] is the local endpoint policing type and the value to the right of [/] is the remote endpoint policing type. The two endpoints are provisioned independently using these two input values.
.
Table 9 Policing Types
Type
Cells Tested In First Bucket
First Bucket Noncompliance Result
Cells Tested In Second Bucket
Second Bucket Noncompliance Result
Supported Connection Types
Default
1
All
Discard
CLP = 0 or 1
Discard
VBR, ABR
None
2
All
Discard
CLP = 0 only
Discard
VBR, ABR
None
3
All
Discard
CLP = 0 only
Tag with CLP
VBR, ABR
VBR, ABRSTD with VSVD, ABRFST, ATFST, ATFTFST, ATFXFST
4
All
Discard
None
-
CBR, VBR, ABR
CBR, ABRSTD without VSVD
5
None
-
None
-
CBR, VBR, ABR
None
Note Single-ended policing for VBR connections is not supported.
To configure policing based on endpoints rather than connections, use the addcon and cnfcon CLI commands.
The addcon command allows users to configure policing on the two endpoints differently.
The switch MIB definition for remote endpoint policing allows independent SNMP SET operations on the objects of both endpoints.
Compatibility
These features have the following compatibility capabilities:
Provisioning from existing CWM is supported. If the request has only one endpoint value, copy this value to the other end to keep the new feature compatible with the existing CWM. Do not use the default for the other end.
Because the robust message payload definition has not changed, these features function with the CWM 10.5.
MIB
A new MIB object atmEndptOePolicing supports policing type on the other end.
Redundancy
One-to-one redundancy is preserved since the values for FCES and policing endpoint provisioning are stored in BRAM and are sent to the standby card.
Network Interoperability
When connections are added from a node with this feature to another node without this feature, the endpoint-based provisioning can be achieved. On the node the display without this feature, the dspcon command displays only one local endpoint value.
The dcct, dvc, and dvcparms commands display the values on both endpoints.
When an ATM class is configured from a node with this feature to have two different values for FCES or policing, the CWM Connection Manager (CM) updates this ATM class definition on all the nodes in the network including nodes without this feature. If a connection is added from an old revision node using this updated class, the connection uses the two different values to provision the connection.
With an upgraded CWM and mixed revisions on a switch, single-ended FCES is supported if the master node is an upgraded node.
If the switch is upgraded before CWM, the following results occur:
The format of robust message sent from switch is not changed. Only the values of the connection object are changed.
The FCES and policing values cannot be configured differently on CWM, and the display on the CWM is incorrect.
If CWM is upgraded before the switch, the following results occur:
CWM blocks configuring two values differently from the GUI if the switch does not support this feature.
If mixed revisions exist in the network, configuring two values differently is supported if the master node is an upgraded node.
Line and Port Alarm Masking
Alarms on a line or port can be masked so that they are not propagated to the network. This masking allows the known alarms in the network to be hidden from the new alarms.
Line and port alarms can be masked through CLI and SNMP interfaces. Activation and deactivation of the interface alarms are logged in the local event log.
This feature is supported in both IGX and BPX platforms.
Functions
Line and port alarm masking mirrors the existing trunk alarm masking and provides the following functions:
The cnflnalm and cnfportalm commands mask out the line and port alarm on the specified line or port. However, if any connections exist on those lines or ports, the connections on the affected line or port still fail and cause the node to be in MAJOR alarm. The line and port alarms are enabled by default.
The Port Alarms and Line Alarms entries in the dspalms screen are modified to reflect any active and disabled port alarms.
The existing integrated line alarm related command, cnflnalm, is renamed to cnfintalm to reflect the integrated alarm configuration. The display command dsplnalmcnf is renamed to dspintalmcnf.
Line Alarms
The line alarms on a node are caused by physical line failures which result in failure of all of the connections on the line interface.
Line alarm masking is supported on the following cards:
IGX
FRM-E
UFM-C
CVM
UVM
UXM
BPX
BXM
ASI
BNI
Port Alarms
The port alarms in a node can be caused by a failure on the end device (CPE) connected to it. These alarms can be caused by an LMI/ILMI failure to restrict communication between the interface card and the CPE. This failure results in a port communication failure that causes a minor alarm on the node.
Port alarm masking is supported on the following cards:
IGX
FRM-D
FRM-E
UFM-C
UFM-U
CVM
UVM
UXM
URM
BPX
BXM
ASI
BNI
In addition to port communication failures, the serial port interface card, UFMU, can have port configuration, port over speed, and cable mismatch failures. These failures result in minor alarms on port interfaces.
An IGX Frame Relay NNI port can go in to major alarm only when an NNI failure occurs, and the debug flag is enabled.
MIB Additions
This section describes the objects added as a part of the alarm masking feature.
Table 10 MIB Additions
MIB Table
MIB Object
Description
Values
frLport
frLportPortAlmEnable
Value to enable or disable a port alarm.
Access: read-write
1 = enable
2 = disable
atmPort
atmPortAlmEnable
Value to enable or disable a port alarm.
Access: read-write
1 = enable
2 = disable
ds1Line
ds1LineAlmEnable
Value to enable or disable a line alarm.
Access: read-write
1 = enable
2 = disable
ds3Line
ds3LineAlmEnable
Value to enable or disable a line alarm.
Access: read-write
1 = enable
2 = disable
sonetIf
sonetIfLineAlmEnable
Value to enable or disable a line alarm.
Access: read-write
1 = enable
2 = disable
CLI Additions and Modifications
This section contains the commands that have been modified to support line and port alarm masking.
cnfintalm
The cnfintalm command configures the thresholds for the integrated line/trunk alarm parameters. This command is the renamed version of the existing cnflnalm command.
Syntax:
No change
cnflnalm
The cnflnalm command enables or disables a line alarm. Upon successful completion of this command, the dsplns screen is displayed with the configured line number in highlighted display.
Syntax:
cnflnalm <line #> <E/D>
Parameter
Description
line #
Line number.
E/D
Value to configure the line alarm.
E = enable
D = disable
Example 16 cnflnalm Command
node TRM Cisco IGX 8420 9.3.40 May 23 2002
11:44 PST
Line Type Current Line Alarm Status
4 E1/30 Major - Loss of Sig (RED)
10.1m E1/30 Major - Loss of Sig
Last Command:cnflnalm 10.1 d
cnfportalm
The cnfportalm command configures the port alarm.
Syntax:
cnfportalm <port id> <E/D>
Parameter
Description
port id
Port number.
E/D
Value to configure the port alarm.
E = enable
D = disable
Example 17 cnfportalm Command
node TRM Cisco IGX 8420 9.3.40 May 23 2002
11:45 PST
Port States
Port ID State
13.1m FAILED
Last Command:cnfportalm 13.1 d
dspalms
The dspalms command indicates any disabled port alarms.
The dspintalmcnf command configures the thresholds for the integrated line/trunk alarm parameters.
This command is the renamed version of the existing CLI command dsplnalmcnf to avoid the conflict between the line alarm masking and integrated alarm parameter configuration of lines.
Syntax:
No change
Trunk VC Shaping
This feature provides the capability to enable VC shaping on UXM and BXM trunks, virtual trunks, and feeder trunks per Qbin or QoS.
Compatibility
On the BPX, the BXM card must support the trunk VC shaping feature for VC shaping to be enabled on the trunks.
On the IGX, the UXM card must support traffic shaping for VC shaping to be enabled on the trunks.
This feature is compatible only with firmware releases supporting traffic shaping. Additionally, PCR shaping can be disabled per QBin only if the firmware release supports trunk VC shaping. Otherwise, PCR shaping cannot be disabled.
Limitations
The capability to enable and disable VC shaping is available only on AutoRoute Qbins (1-9). VC shaping cannot be enabled on the high priority Qbin (2) since this Qbin services the CC traffic. VC shaping cannot be enabled on other Qbins (Qbin 0, VSI Qbins 10-15).
The maximum rate at which a VC can transmit is limited by its PCR value if PCR shaping is enabled.
Enabling VC Shaping (or disabling from previous enable state) on a trunk applies only to new connections routed over the trunk. VC shaping can be applied to all the connections belonging to a Qbin by performing a reroute.
Functionality
The feature provides the following functions:
Enables PCR-shaping on BXM trunks, virtual trunks, and feeder trunks on a per-QoS basis.
Enables weighted fair queuing (WFQ) on BXM trunks, virtual trunks, and feeder trunks on a per-QoS basis.
Enables VC shaping (WFQ and PCR shaping) on UXM trunks, virtual trunks, and feeder trunks on a per-QoS basis.
The VC shaping capability can be turned on per QoS on the BXM card by configuring the appropriate Qbin to enable the function. When VC shaping is enabled on a Qbin, egress cells are placed on their respective VC queues before they are scheduled into the Qbin. Cells are scheduled from different VC queues into the Qbin using WFQ to ensure fairness among the different VCs.
On the UXM card, VC shaping can be turned on per trunk. The configuration is then applied to relevant Qbins.
Traffic from a VC queue into the Qbin is limited to the PCR. When VC shaping is enabled, both PCR-shaping and WFQ are in effect. However, PCR-shaping can be removed by programming the PCR of the connection to a large value, leaving only WFQ in effect.
The user can enable VC shaping for a particular Class of Service (CoS) on a trunk or virtual trunk using the cnftrkqparm command, cnftrk command on the IGX, or SNMP.
On the BXM, depending on the CoS, the user is provided with the following options:
D = Disabled (default)
E = Both WFQ and PCR-shaping
W = WFQ only
On the IGX the options are
E = Both WFQ and PCR-shaping
D = Disabled
CLI Modifications and Additions
This section contains the CLI modifications to support the trunk VC shaping feature.
cnftrk
The cnftrk command on the IGX was used to enable VC shaping on a per trunk basis before this feature. Since the feature moves the capability to a per-QoS basis, the VC shaping parameter in the cnftrk command is removed.
cnftrkq
The cnftrkq command enables and disables VC shaping for trunks, virtual trunks, and feeders on a per-Qbin basis.
Note The cnftrkq command is a new command applicable only to BXM cards.
VC shaping can be enabled only on the AutoRoute Qbins using this command. Enabling VC shaping on VSI Qbins is not supported. The default values for all the Qbins is disabled.
VC shaping can be enabled on a QBin only if that card supports VC shaping. If a card does not support VC shaping the following error message displays: VC shaping not supported on the card.
The following example shows the cnftrkq command display.
This feature does not have impact on redundancy. No mismatch is declared if one of the cards in a Y-red pair supports this feature and the other does not. However, the feature is activated only if both cards in Y-red support the feature.
MIB Additions
The atmTrunks MIB table currently contains the atmTrkVcShaping object to enable VC shaping per trunk. This object is not used for the BPX and nine new objects are added to enable VC shaping per Qbin. The existing object, atmTrkVcShaping, is still used on the IGX.
Table 11 describes the new objects that are applicable only on BXM cards.
Table 11 atmTrunks Additions
MIB Object
Description
Values
atmTrkNonTSVcShaping
Value to indicate whether the trunk should do VC shaping on the non-time stamped (NonTS) Qbin.
This object is valid only for routing trunks. An error is returned for a SET request on feeder trunks.
If the card does not support trunk VC shaping, the configuration is accepted but not enabled.
This object can only be set with other per Qbin trunk VC shaping objects.
Access: read-write
1 = disabled
2 = wfq-only
atmTrkVoVcShaping
Value to indicate whether the trunk should do VC shaping on the rt-VBR/Voice Qbin.
This object is valid for routing and feeder trunks.
If the card does not support trunk VC shaping, the configuration is accepted but not enabled.
This object can only be set with other per Qbin trunk VC shaping objects.
Access: read-write
1 = disabled
2 = wfq-only
atmTrkBdataAVcShaping
Value to indicate whether the trunk should do VC shaping on the Bursty data A Qbin.
This object is valid only for routing trunks. An error is returned for a SET request on feeder trunks.
If the card does not support trunk VC shaping, the configuration is accepted but not enabled.
This object can only be set with other per Qbin trunk VC shaping objects.
Access: read-write
1 = disabled
2 = wfq-only
3 = wfq-pcr
atmTrkTsVcShaping
Value to indicate whether the trunk should do VC shaping on the time stamped (TS) Qbin.
This object is valid only for routing trunks. An error is returned for a SET request on feeder trunks.
If the card does not support trunk VC shaping, the configuration is accepted but not enabled.
This object can only be set with other per Qbin trunk VC shaping objects.
Access: read-write
1 = disabled
2 = wfq-only
3 = wfq-pcr
atmTrkBdataBVcShaping
Value to indicate whether the trunk should do VC shaping on the Bursty Data B Qbin.
This object is valid only for routing trunks. An error is returned for a SET request on feeder trunks.
If the card does not support trunk VC shaping, the configuration is accepted but not enabled.
This object can only be set with other per Qbin trunk VC shaping objects.
Access: read-write
1 = disabled
2 = wfq-only
3 = wfq-pcr
atmTrkCbrVcShaping
Value to indicate whether the trunk should do VC shaping on the CBR Qbin.
This object is valid for routing and feeder trunks.
If the card does not support trunk VC shaping, the configuration is accepted but not enabled.
This object can only be set with other per Qbin trunk VC shaping objects.
Access: read-write
1 = disabled
2 = wfq-only
atmTrkVbrVcShaping
Value to indicate whether the trunk should do VC shaping on the nrt-VBR Qbin.
This object is valid for routing and feeder trunks.
If the card does not support trunk VC shaping, the configuration is accepted but not enabled.
This object can only be set with other per Qbin trunk VC shaping objects.
Access: read-write
1 = disabled
2 = wfq-only
3 = wfq-pcr
atmTrkAbrVcShaping
Value to indicate whether the trunk should do VC shaping on the ABR/UBR Qbin.
This object is valid for routing and feeder trunks.
If the card does not support trunk VC shaping, the configuration is accepted but not enabled.
This object can only be set with other per Qbin trunk VC shaping objects.
Access: read-write
1 = disabled
2 = wfq-only
3 = wfq-pcr
Special Installation/Upgrade Requirements
This section contains the installation procedures and upgrade requirements.
General Upgrade Procedure
Note Consult a Support Representative before performing any software upgrade.
The earliest release supported for a graceful upgrade is 9.2.23.
Before upgrading the switch software, make sure the cards have the minimum firmware revision per the compatibility matrix.
Procedure for Upgrading BXM cards to the 9.3 Firmware Release
See Appendix A for instructions on upgrading the BXM firmware.
See the Compatibility Matrix for the tested/supported versions of other firmware and software that work with this release.
Procedure for Upgrading UXM cards to the 9.3 Firmware Release
Note For the VSI/MPLS feature, upgrade the UXM firmware to revision ACC or later. The upgrade procedure
has changed.
If the switch software version on the node is Release 9.2.x, the following steps are required to upgrade the UXM firmware to revision ACC or later:
Step 1 Execute a graceful upgrade to Release 9.3.30.
Step 2 Upgrade the UXM boot code to boot 8.
Step 3 Upgrade the run-time UXM firmware to revision ABJ or greater.
Step 4 After the card comes up, upgrade the run-time firmware to revision ACC or later.
Warning If these procedures are not followed, the card might enter a state from which it can NOT be recovered. See Appendix B for more information about loading the new firmware.
If a Switch Software Release 9.3.x has already been loaded onto the node, the following steps are required to upgrade the UXM firmware to revision ACC:
Step 1 Execute a graceful upgrade to Release 9.3.30.
Step 2 Upgrade the run-time UXM firmware to revision ACC.
Procedure for Adding New BCC Cards as a Part of Upgrading to Release 9.3
If new BCC cards are to be installed as part of the upgrade to Release 9.3, then the physical card upgrade procedure described below must be completed as a separate activity from the Switch software upgrade.
If upgrading to BCC-4 cards on BPX 8600 nodes, perform the software upgrade, followed by the BCC-4 physical card upgrade.
If BCC-4 is already installed, then upgrade as normal.
If any other type of BCC cards are being physically upgraded, complete the physical upgrade of the cards first, followed by the software upgrade.
Revision Interoperability Supported
The Revision Interoperability feature allows a mixed/ heterogeneous network of 9.2.x and 9.3.x (where "x" equals any GA version of 9.2 and 9.3) nodes to coexist and interoperate. This capability allows users to upgrade their networks from 9.2 to 9.3 in multiple steps.
Note It is not recommended that users operate in this state for extended periods of time.
Normal network maintenance and operations such as provisioning, trunk reroutes, card insertions and removals, and normal network alarming, are supported in the mixed revision network. Normal alarms can be received while upgrading a node to Release 9.3.
In a mixed-revision network, functions that are implemented in 9.3 but not in 9.2 are disabled. For example, features that are supported in both Releases 9.2 and 9.3 function at their 9.2 level. New features developed in 9.3 are automatically enabled when all nodes are upgraded to the 9.3 revision level.
Specifically, connection provisioning, connection rerouting, alarming, and CWM support for these features are supported but function at their 9.2 capabilities, and not at their 9.3 levels until all nodes are upgraded. The dspblkdfuncs command displays blocked (disabled) features.
For 9.3.30 and above, the following features are blocked in a mixed network. These features require that all nodes of the network are running 9.3.30.
URM Remote Router Configuration
TFTP Configuration Save and Restore
Concurrent Routing
Note The URM card cannot be activated in a network with mixed switch software releases.
Version Compatibility Notes
For a complete list of firmware revisions supported, see the Compatibility Matrix document, which is included in this release package.
This release supports:
NTM firmware version NEK and NFK or later. For 2048 kbps support and trunk encryptor synchronization, use NJA and NKA or later.
Any MGX 8220 Release 4.1 and 5.0
Cisco WAN Manager (Cisco StrataView Plus) version 10.5.10 and later
UXM firmware
For MPLS VC merge and trunk loopback features, ACK or later
For MPLS/VSI feature, UXM model ACB or later
If not using MPLS/VSI feature, UXM model ABH or later
BXM firmware
Model MFN or later
For MPLS VC merge, trunk VC traffic shaping, and VT oversubscription features, MFV or later.
UFM firmware for ELMI-based topology discovery feature
For UFM-C model B, version ZBD, and UFM-U model B, version YBC
For UFM-C model A, version ZAT, and UFM-U model A, version YAL
URM Model A XAA, or later
URM Model B XBA or later
MGX 8850 version 1.1.40
SES version 1.1.60
IOS version 12.2 (8)T4
LSC IOS Version 12.2(8)T4 for VC merge
Note VNS interworking is not supported in Release 9.3.30 and later.
Control Card Requirements
All BPX processor cards must be configured with a minimum of 64 MB of RAM, and NPMs must be configured with a minimum of 32 MB of RAM. NPMs require at least 1 MB of BRAM. To verify the BRAM size on IGX 8400 nodes, use the dspcd command.
Control Card Boot Firmware Requirements
As specified below, the correct version of CC boot firmware must be installed on the cards prior to a software upgrade to Release 9.3.
BCC Type
Firmware
BCC-3-64
H.D.M
BCC-4V
H.H.M
BCC-4V/B
H.H.M
NPM Type
Firmware
NPM-32
R.B.S
NPM-64
R.C.S
NPM-32B
R.E.S
NPM-64B
R.F.S
With the new version of NPM boot code (RxS), upgrading does not require physical card resetting with the following steps:
Step 1 Burn the boot code on the active NPM(1).
Step 2 Execute the switchcc command. Wait until the NPM(1) becomes standby.
NPM(2) is now active.
Step 3 Execute the resetcd command to reset the standby (resetcd 1 h). Wait until the reset card NPM(1) becomes standby.
Step 4 Burn the boot code on the active NPM(2).
Step 5 Execute the switchcc command. Wait until the NPM(2) becomes standby.
NPM(1) is now active.
Step 6 Execute the resetcd command to reset the standby (resetcd 2 h). Wait until the reset card NPM(2) becomes standby.
Control Card Compatibility Requirements
Each redundant pair of BCC cards in a given BPX 8600 node must be of identical type and memory configuration. For example, if the active card is a BCC-3-64, then the standby card must be the same. BCC-3 cards with 64 MB of RAM cannot be mixed with BCC-4 cards.
Each redundant pair of NPM cards in a given IGX 8400 node must be of identical type and memory configuration. For example, if the active card is an NPM-32, then the standby card must be the same. NPM cards with 32 MB of RAM cannot be mixed with NPM cards with 64 MB of RAM. Also, NPM-64 cards cannot be mixed with NPM-64B cards.
These requirements apply to all software upgrade procedures. These requirements do not apply to the physical card upgrade procedure, as described below.
Control Card Physical Card Upgrade Procedure
When performing a control card (CC) upgrade, the following procedure must be used on all BCC and/or NPM processors:
Step 1 Remove the current standby CC front and back cards. (Removal of back card only applies to BCC.)
Step 2 Replace with new CC front and back cards that are identical to the current active CC. (Replacement of back card only applies to BCC.)
Note After Step 2, the node contains a mix of an old type CC and the new type CC. This condition is
permitted only while the standby updates to the new CC are in progress, which takes less than
one hour. The time during which this mixture of CC types exists must be kept to a minimum by
immediately replacing the second old type CC with the matching one of the new type.
Step 3 Wait for the standby updates on the newly installed standby CC to complete.
Step 4 Issue a switchcc command to utilize the newly installed CC.
Step 5 Verify that the network is stable.
Step 6 Remove the current standby CC front and backcard. (Remove back card only applies to BCC.)
Step 7 Replace with new CC front and back cards that are identical to the current active CC. (Replace back card only applies to BCC.)
Step 8 Wait for the standby updates on the newly installed standby CC to complete.
The CC physical upgrade is now complete.
Step 9 With the secondary card in the standby state, cause a switchover using the switchcc command. This command tests that the hardware is working correctly.
To take advantage of the dual SIU when upgrading to the BCC-4, the BPX 8600 node must have a new backplane that has dual traces incorporating with the BCC-4.
The dspbpnv command can be issued to verify if the node has the new backplane or the old backplane. The following table details the bit fields for the BCC backplane NOVRAM format. The display of word 2 describes the backplane type.
16 Bit Word
Byte # (hex)
Contents
0
0,1
Hardware revision
1
2,3
Backplane Type (usually 0x65=101 decimal)
2
4,5
Backplane version (0x0000:old 0x0001:new)
3
6,7
Backplane serial number in ASCII - MSB
4
8,9
Backplane serial number in ASCII - MSB
5
A,B
Backplane serial number in LSB
6
C,D
Board FAB number, in ASCII - MSB
7
E,F
Board FAB number, in ASCII - LSB
8
10,11
Board FAB number, in ASCII - LSB
9
12,13
Board FAB number, in ASCII - LSB
A
14,15
Board FAB number, in ASCII - LSB
B
16,17
Board FAB number, in LSB
C
18,19
Unused
D
1A,1B
Unused
E
1C,1D
Unused
F
1E,1F
Checksum bytes - NOT SUPPORTED
The cnfbpnv command can be used to configure the backplane if backplane is enabled.
Obsoleted Hardware and Firmware
BPX BCC-32 cards are no longer supported in Release 9.3.
The following IGX cards are no longer supported in Release 9.3:
FTM
BTM
ALM/A
ALM/B
UVM model A, B, and C firmware are not supported in SWSW Release 9.3 and later.
Adaptive Voice feature is not supported in IGX SWSW Release 9.3.
Notes and Cautions
The peak intervals are controlled to be only those values for which peaks can be accurately collected The following rules apply to peak intervals:
Cannot be 0.
Must be a multiple of the polling interval.
Must be a factor of the bucket interval.
Can be the same as the bucket interval.
Limitations for Release 9.3.40
None.
Compatibility Matrix
This section contains compatibility information for Release 9.3.40.
Compatibility Notes
For a complete list of firmware revisions supported, see the Compatibility Matrix document, which is included in this release package.
This release runs with Release 4.1.0x or 5.0.0x of the MGX 8220.
MGX 8220 Firmware Compatibility
The following table lists the MGX 8220 firmware.
System 5.0
System 4.1
PCB Description
CW2000 Name
Latest F/W
Min F/W
Latest F/W
Min F/W
ASC F/W
ASC
5.0.18
5.0.17
4.1.11
4.1.00
ASC Boot
ASC
1.0.03
1.0.01
1.0.03
4.0.04
ASC/2 FW
ASC
5.0.18
5.0.17
4.1.11
4.1.00
ASC/2 Boot
ASC
1.0.03
1.0.01
1.0.03
4.0.04
ASC/2F FW
ASC
5.0.18
5.0.17
4.1.11
4.1.05
ASC/2F Boot
ASC
1.0.03
1.0.01
1.0.03
1.0.01
BNM-T3
BNM-T3
n/a
n/a
n/a
n/a
BNM-E3
BNM-E3
n/a
n/a
n/a
n/a
BNM-155
BNM-155
n/a
n/a
n/a
n/a
FRSM-4T1
FRSM-4T1
4.0.22
4.0.19
4.0.23
4.0.13
FRSM-4E1
FRSM-4E1
4.0.22
4.0.19
4.0.23
4.0.13
FRSM-4T1-C
FRSM-4T1-C
4.0.22
4.0.19
4.0.23
4.0.13
FRSM-4E1-C
FRSM-4E1-C
4.0.22
4.0.19
4.0.23
4.0.13
FRSM Boot
FRSM-4T1
4.0.00
4.0.00
4.0.00
4.0.00
FRSM Boot
FRSM-4E1
4.0.00
4.0.00
4.0.00
4.0.00
FRSM Boot
FRSM-4T1-C
4.0.00
4.0.00
4.0.00
4.0.00
FRSM Boot
FRSM-4E1-C
4.0.00
4.0.00
4.0.00
4.0.00
SRM T1E1 (B)
SRM-T1E1
n/a
n/a
n/a
n/a
SRM 3T3
SRM-3T3
n/a
n/a
n/a
n/a
CESM-4T1
CESM-4T1
4.0.17
4.0.15
4.0.17
4.0.11
CESM-4E1
CESM-4E1
4.0.17
4.0.15
4.0.17
4.0.11
CESM Boot
CESM-4T1
4.0.01
4.0.01
4.0.01
4.0.00
CESM Boot
CESM-4E1
4.0.01
4.0.01
4.0.01
4.0.00
CESM-8T1
CESM-8T1
5.0.14
4.1.05
4.1.09
4.1.00
CESM-8E1
CESM-8E1
5.0.14
4.1.05
4.1.09
4.1.00
CESM-8 Boot
CESM-8T1
1.0.01
1.0.01
1.0.01
4.1.00
CESM-8 Boot
CESM-8E1
1.0.01
1.0.01
1.0.01
4.1.00
AUSM-4T1
AUSM-4T1
4.0.21
4.0.19
4.0.21
4.0.13
AUSM-4E1
AUSM-4E1
4.0.21
4.0.19
4.0.21
4.0.13
AUSM Boot
AUSM-4T1
4.0.00
4.0.00
4.0.00
4.0.00
AUSM Boot
AUSM-4E1
4.0.00
4.0.00
4.0.00
4.0.00
FRSM-8T1
FRSM-8T1
5.0.15
5.0.10
4.0.24
4.0.13
FRSM-8E1
FRSM-8E1
5.0.15
5.0.10
4.0.24
4.0.13
FRSM-8T1 Boot
FRSM-8T1
1.0.02
1.0.01
1.0.02
4.0.01
FRSM-8E1 Boot
FRSM-8E1
1.0.02
1.0.01
1.0.02
4.0.01
AUSM-8T1
AUSM-8T1
5.0.14
5.0.10
4.0.24
4.0.14
AUSM-8E1
AUSM-8E1
5.0.14
5.0.10
4.0.24
4.0.14
AUSMB-8T1
AUSMB-8T1
5.0.14
5.0.10
4.0.24
4.0.19
AUSMB-8E1
AUSMB-8E1
5.0.14
5.0.10
4.0.24
4.0.19
AUSM-8T1E1 Boot
AUSM-8T1
1.0.02
1.0.01
1.0.02
4.0.01
AUSM-8T1E1 Boot
AUSM-8E1
1.0.02
1.0.01
1.0.02
4.0.01
AUSM-8T1E1 Boot
AUSMB-8T1
1.0.02
1.0.01
1.0.02
4.0.01
AUSM-8T1E1 Boot
AUSMB-8E1
1.0.02
1.0.01
1.0.02
4.0.01
FRSM-HS1
FRSM-HS1
5.0.14
4.0.16
4.0.20
4.0.11
FRSM-HS1/B
FRSM-HS1/B
5.0.14
4.0.16
4.0.20
4.0.11
FRSM-HS1 Boot
FRSM-HS1
1.0.01
1.0.01
1.0.01
4.0.00
FRSM-HS1 Boot
FRSM-HS1/B
1.0.01
1.0.01
1.0.01
4.0.00
FRSM-HS2
FRSM-HS2
5.0.13
5.0.10
n/s
n/s
FRSM-HS2 Boot
FRSM-HS2
1.0.01
1.0.01
n/s
n/s
IMATM
IMATM-T3T1
n/s
n/s
4.0.22
4.0.13
IMATM
IMATM-E3E1
n/s
n/s
4.0.22
4.0.13
IMATM
IMATMB-T1
5.0.14
5.0.10
4.0.22
4.0.13
IMATM
IMATMB-E1
5.0.14
5.0.10
4.0.22
4.0.13
IMATM Boot
IMATM-T3T1
n/s
n/s
1.0.02
4.0.01
IMATM Boot
IMATM-E3E1
n/s
n/s
1.0.02
4.0.01
IMATM Boot
IMATMB-T1
1.0.02
1.0.01
1.0.02
4.0.01
IMATM Boot
IMATMB-E1
1.0.02
1.0.01
1.0.02
4.0.01
MGX 8850 1.1/1.2 Firmware Compatibility
The following table lists the MGX 8850 Release 1.1/1.2 firmware.
The following table lists the MGX 8230 and MGX 8250 firmware.
PCB Description
CW2000 Name
Latest F/W
Min F/W
PXM1
PXM-1
1.2.10
1.1.40
PXM1-2-T3E3
PXM1-2T3E3
1.2.10
1.1.40
PXM1-4-155
PXM1-4OC3
1.2.10
1.1.40
PXM1-1-622
PXM1-OC12
1.2.10
1.1.40
MGX-SRM-3T3/C
SRM-3T3
n/a
n/a
AX-CESM-8E1
CESM-8E1
10.2.01
10.0.21
AX-CESM-8T1
CESM-8T1
10.2.01
10.0.21
MGX-AUSM-8E1/B
AUSMB-8E1
10.2.01
10.0.21
MGX-AUSM-8T1/B
AUSMB-8T1
10.2.01
10.0.21
MGX-CESM-T3
CESM-T3
10.2.01
10.0.21
MGX-CESM-E3
CESM-E3
10.2.01
10.0.21
AX-FRSM-8E1/E1-C
FRSM-8E1
10.2.01
10.0.21
AX-FRSM-8T1/T1-C
FRSM-8T1
10.2.01
10.0.21
MGX-FRSM-HS2
FRSM-HS2
10.2.01
10.0.22
MGX-FRSM-2CT3
FRSM-2CT3
10.2.01
10.0.22
MGX-FRSM-2T3E3
FRSM-2T3
10.2.01
10.0.22
MGX-FRSM-2T3E3
FRSM-2E3
10.2.01
10.0.22
MGX-FRSM-HS1/B
FRSM-HS1/B
10.2.01
10.0.21
MGX-VISM-8T1
VISM-8T1
2.0.(1)
1.5.05
MGX-VISM-8E1
VISM-8E1
2.0.(1)
1.5.05
MGX-RPM-128M/B
RPM
12.2(4)T
12.2(4)T
MGX-RPM-PR
RPM
12.2(4)T
12.2(4)T
CWM
11.0
10.5.10
BPX 8600 Firmware Compatibility
The following table lists the BPX firmware.
PCB Description
dspcds Name
Card Name in FW Image
Model
Latest F/W
Min F/W
BCC-3-64 boot
BCC-3
BCC
D
HDM
HDM
BCC4 boot
BCC-4
BCC
E
HEM
HEM
BCC4-128 boot
BCC-4
BCC
H
HHM
HHM
ASI 2T3/2E3
ASI-T3
ASI
B
n/s
n/s
ASI 2T3/2E3
ASI-E3
ASI
B
n/s
n/s
ASI 2T3/2E3
ASI-T3
ASI
C
UCF
UCF
ASI 2T3/2E3
ASI-E3
ASI
C
UCF
UCF
ASI-155
ASI-155
ASI-155
B
n/s
n/s
ASI-155-E
ASI155E
ASI-155
D
n/s
n/s
ASI-155-E
ASI155E
ASI-155
E
WEC
WEC
ASI-155
ASI-155
ASI-155
H
WHC
WHC
ASM
ASM
A
GAC
GAC
BXM-BME
BME
BME
K
N/S
N/S
BXM-T3-8/12
BXM-T3
BXM
F
MFV
MFT
BXM-E3-8/12
BXM-E3
BXM
F
MFV
MFT
BXM-155-4/8
BXM-155
BXM
F
MFV
MFT
BXM-622/622-2
BXM-622
BXM
F
MFV
MFT
BXM-T3-8E/12E/12EX
BXM-T3
BXM
F
MFV
MFT
BXM-E3-8E/12E/12EX
BXM-E3
BXM
F
MFV
MFT
BXM-155-4D/8D/4DX/8DX
BXM-155
BXM
F
MFV
MFT
BXM-622-2D/DX/2DX
BXM-622
BXM
F
MFV
MFT
BNI-3T3/3E3
BNI-T3
BNI
C
TCM
TCM
BNI-3T3/3E3
BNI-E3
BNI
C
TCM
TCM
BNI-155
BNI-155
BNI-155
B
VBR
VBR
BNI-155-E
BNI155E
BNI-155
D
VDR
VDR
IGX 8400 Firmware Compatibility
Note For the VSI/MPLS feature, the UXM firmware needs to be upgraded to revision ACC or later. The
upgrade procedure has changed.
If the switch software version on the node is Release 9.2.x, the following steps are required to upgrade the UXM firmware to revision ACC or later:
Step 1 Execute a graceful upgrade to Release 9.3.40.
Step 2 Upgrade the UXM boot code to boot 8.
Step 3 Validate that boot code 8 is running.
Caution Upgrading the run-time firmware to ACC without boot code 8 can damage the UXM card.
Step 4 Upgrade the run-time UXM firmware to revision ABJ or greater.
Step 5 After the card comes up, upgrade the run-time firmware to revision ACC or later.
Warning If these procedures are not followed, the card might enter a state from which it can NOT be recovered. See Appendix B for more information about loading the new firmware.
If a Switch Software Release 9.3.x has been loaded onto the node, the following steps are required to upgrade the UXM firmware to revision ACC:
Step 1 Execute a graceful upgrade to Release 9.3.40.
Step 2 Upgrade the run-time UXM firmware to revision ACC or later.
1 IGX-UVM model E supersedes models A, B, and C firmware. A, B, and C are obsolete and should not be used.
MGX 8220 5.0 Hardware Compatibility
The following table lists the MGX 8220 hardware.
Card Type
Hardware Revisions
Image Type
ASC
AH, AJ, AK, AL, AM, AN, AP, AR
ASC
ASC/B
AN
ASC
ASC2
BA, BB, BC, BD, BE, BF
ASC
ASC2F
BA, BB, BC, BD, BE, BF
ASC
BNM-T3
AJ, BA, BB, BC, BD
ASC
BNM-T3/B
BE, BF
ASC
BNM-E3
AA, AB, AC
ASC
BNM-E3/B
AD, AE
ASC
BNM-155
AA, AB, AC, AD, AE, AF, AH
ASC
SRM-T1E1
AB, AC, BA, BB, BC
ASC
SRM-T1E1/B
BD
ASC
SRM-3T3, SRM-3T3/B, SRM-3T3/C
BA, BB, BC, BD, BE, BF
ASC
FRSM-4T1E1
AJ, BK, BL, BM, BN, BP, BQ, CA, CB, CC, CE
ASC
FRSM-8T1E1
AA, AB, AC
FRSM
FRSM-HS1
AA, AB, AC, AD, AE, AH, AJ
FRSM-8T1E1
FRSM-HS1/B
AA
FRSM-HS1
FRSM-HS2
800-029099-03 AO, 800-02909-04 AO
FRSM-HS2
CESM-RT1E1
AA, BA, BB, BC
CESM
AUSM-4T1E1
AA, AB, AC, BA, BB, BC, BD
AUSM
AUSM-8T1E1
AA, AB, AC, AD, AE, AF
AUSM-8T1E1
AUSM-8T1E1/B
AA
AUSM-8T1E1
IMATM-8T1E1
AA, AB, AC, AD, AE, AF, AG
IMATM8
IMATM-8T1E1/B
AA, AB, AC, AD, AE, AF
IMATM8
CESM-8T1E1
AA, AB, AC
CESM-8T1E1
BPX 8600 Hardware Compatibility
The following table lists the BPX hardware.
Card Type
Part Numbers
Latest H/W
Min. H/W
Controller Cards
BPX-BCC-64M (Non-Orderable)
800-04008-04
A
A
BPX-BCC-BC (Non-Orderable)
73-211380-00
D
A
BPX-BCC-3-64M
73-3720-02
R
J
BCC-3BC
800-02916-01
E
A
BPX-BCC4V
800-03580-06
E
C
BPX-BCC-4V/B
800-06483-02
C
A
ASI-2T3
73-216330-00
F
A
ASI-2E3
73-216330-01
F
A
ASI-155E
73-214250-00
H
F
ASI-155E
73-218100-02
J
A
Alarm Group
BPX-ASM
800-04009-01
C
A
BPX-ASM-BC
73-211910-00
C
A
ASM-LM
800-211910-10
B
A
Broadband Switch Group
BPX-BME
800-02855-04
B
A
BPX-BXM-T3-8
800-02777-07
J
B
BPX-BXM-T3-8E
800-03933-02
A
A
BPX-BXM-E3-8
800-02779-07
J
B
BPX-BXM-E3-8E
800-03928-02
A
A
BPX-BXM-T3-12
800-02776-07
J
B
BPX-BXM-T3-12E
800-03931-02
A
A
BPX-BXM-T3-12EX
800-03934-02
A
A
BPX-BXM-E3-12
800-02778-07
J
B
BPX-BXM-E3-12E
800-03929-02
A
A
BPX-BXM-E3-12EX
800-03930-02
A
A
BPX-T3/E3-BC
73-2759-02
A
A
BPX-BXM-155-8
800-02664-07
J
B (C for APS)
BPX-MMF-155-8-BC
800-03255-01
B
A
BPX-SMF-155-8-BC
800-03257-01
B
A
BPX-SMFLR-155-8-BC
800-02593-01
B
A
BPX-BXM-155-4
800-02666-07
J
B (C for APS)
BPX-BXM-E-155-4D
800-03094-02
A
A
BPX-BXM-E-155-8D
800-03092-02
A
A
BPX-BXM-E-155-4DX
800-03093-02
A
A
BPX-BXM-E-155-8DX
800-03091-02
A
A
BPX-MMF-155-4-BC
800-03256-02
B
A
BPX-SMF-155-4-BC
800-03258-01
B
A
BPX-SMFLR-155-4-BC
800-02594-02
B
A
BPX-BXM-622
800-02646-10
M
D (E for APS)
BPX-BXM-622-2
800-02638-10
M
D (E for APS)
BPX-BXM-E-622-2D
800-03150-02
A
A
BPX-BXM-E-622-DX
800-03151-02
A
A
BPX-BXM-E-622-2DX
800-03149-02
A
A
BPX-622-2-BC
73-2884-01
D
A
BPX-SMF-622-BC
800-03249-01
C
A
BPX-SMF-622-2-BC
800-03251-01
C
A
BPX-SMFLR-622-BC
800-03250-01
C
A
BPX-SMFLR-622-2-BC
800-03252-01
D
A
BPX-XLR-622
800-02738-01
C
A
BPX-XLR-622-2
800-02739-01
C
A
BPX-BME-OC12
73-2469-07
F
A
RDNT-SMF-155-4R
800-03677-01
J
A
RDNT-SMF-155-8R
800-03679-01
K
A
RDNT-LR-155-8R
800-03678-01
J
A
RDNT-LR-622-2R
800-03676-01
F
A
RDNT-SMF-622R
800-03675-01
F
A
RDNT-SMF-622-2R
800-03674-01
J
A
BPX-STM1-EL-4
800-03716-02
A
A
BNI-3-T3/C
800-02858-02
A
A
BNI-3-E3/C
800-02859-02
A
A
BNI-155E
73-218100-01
K
A
BNI-2-155/B
73-4133-01
L
L
BPX-T3/E3
800-03058-02
E
A
BPX-E3-BC
73-213070-01
E
A
BPX-MMF-2-BC
73-214290-00
D
A
BPX-SMF-2-BC
73-216270-00
D
A
BPX-SMFLR-2-BC
73-216270-01
D
A
SMF-LM-OC3
800-216270-10
C
A
SMF-LM-OC3-LR
800-216270-11
C
A
MMF-LM-OC3
800-214290-10
B
A
LM-3T3
800-213070-10
D
A
LM-3E3
800-213070-11
D
A
IGX 8400 Hardware Compatibility
The following table lists the IGX hardware.
Card Type
Part Numbers
Latest H/W
Min. H/W
Comments
Controller Cards
IGX-NPM-32
73-2894-01
W
A
IGX-NPM-64
73-2895-01
W
A
IGX-NPM-32B
73-2554-04
L
A
IGX-NPM-64B
73-2363-02
C
A
IGX-SCM
73-3341-01
Y
A
Revision X or later for nodes with UXM IMA trunks
Alarm Group
IGX-ARM
73-218230-00
B
A
BC-512011
73-212360-00
D
A
Trunk Group
IGX-NTM
73-2296-04
E
A
BC-6271A-TI
73-207380-00
M
A
BC-6171A-E1
73-207370-01
P
A
BC-6083A-SR
73-208540-00
J
A
BC-550150-Y1
73-210820-01
D
A
ACM1
73-2921-03
W
A
BC-571110A-T3
73-2879-01
L
A
BC-571210A-E3
73-2679-01
K
A
BC-571310A-E2
73-215940-00
D
A
BC-571410A-HSSI
73-216370-00
A
A
IGX-UXM
73-2511-03
D
A
IGX-UXM-E
A
A
BC-UAI-4-155-SMF
73-2703-03
D
A
BC-UAI-4-155-MMF
73-2705-03
D
A
BC-UAI-2-155-SMF
73-2699-03
C
A
BC-UAI-2SMFXLR
A
A
BC-UAI-4SMFXLR
A
A
BC-UAI-6-T3
73-2952-02
A
A
BC-UAI-3-T3
73-2954-02
A
A
BC-UAI-6-E3
73-2953-02
A
A
BC-UAI-3-E3
73-2955-02
A
A
BC-UAI-8-E1-BNC
73-2932-02
C
A
BC-UAI-4-E1-BNC
73-3061-01
C
A
BC-UAI-8-T1-DB15
73-2941-02
C
A
BC-UAI-8-E1-DB15
73-2942-02
C
A
BC-UAI-4-T1-DB15
73-3059-01
C
A
BC-UAI-4-E1-DB15
73-3060-01
C
A
BC-UAI-4-STM1E
73-3364-02
A
A
Port Group
IGX-URM
800-06260-06
A
A
BC-2FE2V
800-06257-03
A
A
ACM1A
73-2930-03
W
A
IGX-HDM
73-2853-02
F
A
*Show SDP H/W Rev, DM=SDP+ACM2
ACM2
73-2922-03
T
A
BC-5082A-V35
73-2450-01
K
A
BC-5083A-RS449
73-204850-00
V
A
BC-5084B-RS232
73-2723-01
W
A
IGX-LDM
73-207250-00
K
A
*Show LDP H/W Rev, LDM=LDP+ACM1A
BC-5286A-RS232
73-207180-01
L
A
LDI-4RS232
BC-5287A-RS232
73-207180-00
L
A
LDI-8RS232
IGX-CVM-DSOA
73-3002-02
D
A*
*Show CDP H/W Rev, CVM=CDP+ACM1A
IGX-CVM-T1EC
73-3003-03
E
A*
*Show CDP H/W Rev, CVM=CDP+ACM1A
IGX-CVM-E1EC
73-209660-00
H*
A*
*Show CDP H/W Rev, CVM=CDP+ACM1A
IGX-CVM-TT
BC-6271A-TI
73-207380-00
M
A
BC-6171A-E1
73-207370-01
P
A
BC-550100-J1
73-210820-00
C
A
IGX-FRM
73-2517-03
N
A
IGX-FRM-31
73-2517-03
N
A
IGX-FRM-2
73-2519-01
M*
A*
*Show FRP H/W Rev, FRM-2=FRP+ACM1A
BC-6251B-V35
73-3253-01
M
A
FRI-4V.35-2
BC-6254A-X21
73-211440-00
H
A
FRI-X.21
BC-6355A-X21
73-214120-01
C
A
FRI-2X21
IGX-UFM-4C
73-2531-05
N
A
Needs a minimum of ZAS/ZBC Firmware
IGX-UFM-8C
73-2531-05
N
A
Needs a minimum of ZAS/ZBC Firmware
BC-UFI-8T1-DB15
73-2444-02
D
A
BC-UFI-8E1-DB15
73-2445-02
D
A
BC-UFI-8E1-BNC
73-2449-02
D
A
IGX-UFM-U
73-2349-04
D
A
BC-UFI-12V35
73-2711-01
D
A
BC-UFI-12X21
73-2712-01
D
A
BC-UFI-4HSSI
73-2693-01
C
A
IGX-UVM
73-2361-04
K
A
BC-UVI-2E1EC
73-2420-01
B
A
BC-UVI-2T1EC
73-2373-01
C
A
BC-UVI-2S1EC
73-2374-01
A
A
Known Anomalies for Release 9.3.40
The following table lists the known anomalies for this release.
Bug ID
Description
CSCdk44173
Symptom: Incorrect values are reported to line diag and line stats when line or trunk is in alarm.
Conditions: This problem will occur whenever a line or trunk is in alarm and the line diagnostics state machine is enabled.
Workaround: Disable the line diagnostics state machine if you require your statistics to be accurate when a trunk or line is in alarm.
Further Problem Description: When a line is in alarm, two 0x56 line statistic sample requests are generated. One for line diagnostics and the other for line statistics.
The problem is that whenever we obtain stats from the card the cards counters are reset, so when both polls are going on simultaneously, they are both only getting part of the information, which causes incorrect (small) statistics and incorrect (small) line diag values.
CSCdm19518
Symptom: Both dsprts and cnfpref commands showed incorrect connections on UVM E1 types.
Conditions: UVM connections with channel 31 will display port+1.0 with wrong port and 0 channel such as 3.2.0 where it should be 3.1.31.
Workaround: Use dspcon for routing path information instead of dsprts.
CSCdr08809
Symptom: With a good clock source attached to the External port 1 of a BPX redundant backcard, dspstbyclk indicates a LOS condition. The actual clock source is y cabled to both the active and standby cards.
If you issue a switchcc the LOS condition transfers to the new Standby card and the new Active card locks onto the clock source.
Conditions: Observed in BPX SWSW 9.1.18.
Workaround: No workaround at this time.
CSCdt22924
Symptom: Bad clock source during dn/upcd
Conditions: Dncd/upcd causes the clock failure " Minor bad clock source".
Workaround: clrclkalm will clear the clock failure
CSCdv38347
Symptom: A swerr 9082 is on ASI card during hitless rebuild. The problem appears to be a a hitless rebuild starts in the middle of ASI card testing.
Conditions: Rare race condition: hitless rebuild starts in the middle of ASI card routing diagnostic test.
Workaround: The 9082 could be ignored as this is only for card test. The card test recover itself.
CSCdw02563
Symptom: swerr 9000 occured on node.
Conditions: After runrev
Workaround: None
CSCdw03498
Symptom: Backcards are "empty" in slot 3, 4, and/or 8 on node.
Conditions: resetsys on node.
Workaround: "resetcd h" on the affected cards.
CSCdw30811
Symptom: Port and alarm messages for FTM ports are not formatted correctly, consequently the CWM cannot track or manage these entities.
Because this message is misformated, the CWM does not know where it starts or ends, and consequently other messages from the switch can be discarded.
This could then result in incomplete database tables so the CWM cannot collect statistics, manage the ports or establish new connections.
This could also result in discarded alarm messages on the CWM so it may not set or clear alarm messages appropriately.
Conditions: This problem will only occur when FTM/FTC cards are on the IGX.
Workaround: Remove all configuration related to the FTM/FTC cards and remove them from the switch all together. FTM/FTC cards are not supported in 93 software, the last version of software that supported these cards was 92. After removing FTM/FTC configuration and hardware, resync the CWM workstation by doing one of the following:
1. Do a controller card switch over on the IGX switch. This requires a redundant NPM switch. This will break the link to the CWM, and when the CWM reattaches it will resync with this one node.
2. Do a hitless rebuild on the IGX switch. This will break the link to the CWM, and when the CWM reattaches it will resync with this one node.
3. Do a full rebuild on the IGX switch. This will cause an outage on the node and is customer impacting. This will break the link to the CWM, and when the CWM reattaches it will resync with this one node.
4. On the CWM, stop and then restart the CWM core. This causes the CWM to resync with all nodes in the network.
CSCdw40470
Symptom: When there are multiple users issuing the "tstpingip" command, the results of the successful "tstpingip" are mixed in with the results of the other users' "tstpingip".
Conditions: Multiple users issuing the "tstpingip" command at about the same time and there is a mix of successful and unsuccessful results.
Workaround: Repeat the command after the other users have finished with their "tstpingip".
CSCdw44810
Symptom: Event log indicates "loadrev (new-revision) initiated from node (remote node)" when the remote node really did a runrev.
Conditions: This will occur whenever a node invokes a runrev for another node by doing: 1. runrev (newrev) *, or 2. runrev (newrev) (remote node).
Workaround: None.
CSCdw47805
Symptom: The NTM subrate trunk transmission timestamp queue depth is different at the two ends.
Conditions: 1. With one side of the trunk is up only (the other end down), upgrade from pre-9331 images the node to post-9331 images on both side. Up the other side of the trunk.
Workaround: 1. down the upped trunk after upgrade 2. or use cnftrkparm to change the transmission timestamp queue to be the same size as the other end after upgrade.
CSCdw49947
Symptom: The UAS value is smaller than expected when a line goes into alarm.
Conditions: This problem occurs when the line diagnostics state machine is enabled, and a line or trunk goes into alarm.
Workaround: Turn off the line diagnostics state machine.
Further Problem Description:
When a line is in alarm the line diagnostics state machine activates to try and determine why the line is in alarm. One of the checks the line diagnostics does is to momentarily loop back the line or trunk in order to determine if the fault is on the physical medium or on the cards line or trunk port.
When the port is looped back, the card LOS is momentarily cleared which then causes the UAS value to stop incrementing, therefore the reported UAS value is smaller than it should be.
CSCdw52771
Symptom: Cannot delete feeder trunk from IGX feeder, blocked by error message "Interface Shelf must be deleted first" which is returned while downing the feeder trunk on the IGX.
Conditions: The following steps will lead to the problem:
1. IGX is a feeder to the BPX. There are existing feeder connections on the IGX, but not on the BPX.
2. Issue delshelf on the BPX.
3. Delete all connections on the IGX feeder.
4. Attempt to dntrk to down the feeder trunk and you will get the error message.
Workaround:
1. Always delete the feeder connections on the IGX feeder before issuing delshelf on the BPX routing node.
2. Use addshelf to re-add the IGX as a feeder from the BPX.
3. Use delcon to remove all feeder connections on the IGX.
4. Use delshelf to delete the feeder shelf from the BPX.
5. Use dntrk to down the feeder trunk on the IGX.
CSCdw68758
Symptom: SNMP channel counter statistics are not being updated.
Conditions: This problem occur when SNMP channel counter statistics are collected, but interval stats are not enabled.
Workaround: Enable at least 1 interval statistics on each connection.
Further Problem Description:
The code will not cause a channel statistics poll to be generated unless:
1. There is at least 1 interval statistics.
2. The card supports AIS polling.
3. The command dspchstats is invoked on the connection.
It is believed that we should be polling for summary and SNMP channel statistics irrespective of whether interval statistics are enabled.
However, there was an old issue long ago when the BPX increased to 4k connections where the summary statistics functionality reduced from all connections to only a subset of connections because of memory limitations. This has to be investigated to see if it is relevant to this issue.
CSCdw68880
Symptom: The interval statistics listed below always return a value of zero:
59 Good Pdu's Received by the Sar
60 Good Pdu's Transmitted by the Sar
61 Rx pdu's discarded by the Sar
62 Tx pdu's discarded by the Sar
63 Ivld crc32 pdu
64 Invalid Length pdu rx by the sar
65 Shrt-Lgth Fail detected by the sar
66 Lng-Lgth Fail detected by the sar
Conditions: Always occurs
Workaround: None
CSCdw69403
Symptom: CWM returns success for connection addition even though the connection did not get added on switch
Conditions: This problem occurs when:
1. The ports/feeder-trunks that the connections are terminating on do not have the same shift values -- i.e. one side is configured for shift and the other for no-shift.
2. The connection addition fails because of not enough resources, such as insufficient LCNs.
Workaround: Double check that your connections have been added, rather than assuming that no error or warning means connection addition. This is not as much of a problem on the CLI because you can readily see if the connection was added or not, this will be more of a challenge on the CWM.
CSCdw86892
Symptom: When a switchyred fails the event log may occasionally log an event of: switchyred error:BXM <prislot>/<secslot> ? where instead of displaying the error code, or the textual reason, it instead shows ?.
Conditions: This occurs rarely, when the switchyred command encounters an error that the event log does not know how to map to text. The customer is given an appropriate message at the user interface, but it is not presented in the event log.
Customer Impact: This can make debugging of switchyred issues more difficult, because if the failure happens to be one of these more rare cases the event log will only indicate "?". However, since the CLI shows the failure type at the time of the switchyred, the customer can report the warning given at that time.
Workaround: None
CSCdw89836
Symptom: The 'tstber a' command does not work correctly between ASI and BXM cards when BXM cards have virtual ports before physical ports in the interface order (e.g. 3.2.1 is before 3.3).
Conditions: None
Workaround: On the BXM cards, up physical ports with lower interface orders than the virtual ports (e.g. 3.1 is lower than 3.2.1).
CSCdw93967
Symptom: An event appears in the event log indicating that a switchyred started even though the command switchyred was not invoked. This can be confusing because sometimes you might see to switchyred start such as:
Info switchyred End:Empty 9/0 03/07/02 14:34:45
Info switchyred error:Empty 9 empty slot 03/07/02 14:34:45
Info switchyred Start:Empty 9 03/07/02 14:34:45
Info switchyred Start:Empty 9 03/07/02 14:34:27
Conditions: This only occurs when a job is created that includes the command switchyred. When the job is being created an event is logged, even though the command is not actually starting.
Workaround: The user needs to recognize that we could have some extra switchyred start events, the "real" start event is the one that immediately proceeds the end event.
CSCdw94163
Symptom: Software Error 55 was logged on the BPX network
Conditions: There are no exact known conditions at this stage.
Workaround: None
CSCdx04153
Symptom: If you add a frame relay connection and then turn the foresight "on", the load type (which you can observe on 3rd screen of dcct <connection>) remains BDATA whereas it should be BDATB.(Only observed with DAX connections)
Conditions: Add the conn as fr and enable fst later on the conn. This has to be a DAX connection.
Workaround: Delete and re-add the conn as fst.
CSCdx05212
Symptom: The error message "Trunks which pass sync are not allowed to be clock sources" is returned when trying to define the UXM feeder trunk on an IGX feeder as the clock source.
Conditions: This problem happens on any UXM feeder trunk on an IGX feeder.
Workaround: Execute delshelf from the routing node. Reconfigure the feeder feeder trunk (using cnftrk CLI) to pass sync and addshelf again
CSCdx10412
Symptom: swerr 504 logged
Conditions: The node was being upgraded
Workaround: None
CSCdx11280
Symptom: sw abort 1m3
Conditions: During a graceful upgrd of a node
Workaround: None
CSCdx23232
Symptom: con_verify on BPX for connections resulted in swerror 1417
Conditions: One end of the connection should be on a node running 9.2.36 and the other end on a node running an upgraded firmware.
Workaround: None
CSCdx24719
Symptom: On BXM-DX OC3 cards, the dspchuse command will sometimes shows that there are channels available for a port group when there really are not any available.
Conditions: This problem only occurs for: 1. BXM-DX OC3 cards 2. when the channel stats are set to 0, 1 or 2 (32k connection endpoints on the card.
Workaround: Use the "cards" channel availability as the final word, if the port group says channels are available, but the card count says there are none, then the card count has the final word.
Further Problem Description: For the BXM-DX OC3 cards they have two port groups, where each can support up to 32K connections -- which is also the cards capacity.
Historically, port groups (PGs) could not support the full capacity of the cards connections a 16,000 connection card could support 8,000 on PG1 and 8,000 on PG2.
This is still true for the newer cards that support 64k connections, PG1 can support 32K and PG2 can support 32K. However, only 32K connections are supported on a card.
So now from an AR perspective 32k connections can be supported on a card and can be on PG1, or PG2. This extra complexity has broken the port group channel connection calculations.
CSCdx34855
Symptom: Upon login, or invocation of the [dsptech] command, the display for the VC field is bold and has an asterisk next to it, indicating there is a VC inconsistency -- even when there really is not an inconsistency.
Conditions: This has only been observed when: 1. There are a large number of connections on the node, in our case 14,000 or more, and 2. the user logs in and see the [dsptech] login screen or they manual invoke the [dsptech] CLI command, while 3. connections are still being added
Workaround: Wait until connection additions have stopped, and then invoke the [dsptech] command
CSCdx34887
Symptom: Connections failed to route but the 'dspcon' command displays their status as "OK" and the "Path:" as 'looking for a route'. The 'dspalms' command does not show the correct number of failed connections.
Conditions: The open space calculation incorrectly checks the path as OK to route the connection, but the path is actually NOT OK due to lack of resources such as load and conid.
Workaround: The 'dsprrgrps' command can be used to get the accurate number of connections requesting reroute (failed connections).
CSCdx34916
Symptom: Connections are not routed but 'dspcon' command displays the status as "OK" and "Path" as "looking for a route". The 'dnib' and 'dspload' commands show inconsistent Conid usage.
Conditions: Vpc resource on a trunk is almost used up and only one VPC conid is left. The connection fails on this trunk because the lack of VPC conid.
Workaround: Make VPC conid resource available to route the failed connection by either adding new trunks or free up some VPC conid resource on the trunk
with the problem.
CSCdx48018
Symptom: swerrors 502 and 504 get logged
Conditions: Not known
Workaround: Not known
CSCdx48315
Symptom: The event log, error log and abort logs do not specify the time zone for when the event, error or abort occured.
Conditions: This always occurs.
Workaround: None.
Further Problem Description: This can make debugging of a customer network a little more difficult if time zone changes have been made because support cannot easily or concretely determine when an action occured.
CSCdx48549
Symptom: The command dspportstats takes a feeder trunk interface but displays no data.
Conditions: This only happens when dspportstats is given a feeder trunk interface.
Workaround: Always use dsplmistats for a feeder trunk interface.
CSCdx48623
Symptom: A software error 9084 is logged on an UXM with Y-RED configuration when add local trunk loopback on UXM.
Conditions: This occurs when addlnloclp is executed on a UXM trunk on a y-red card set.
Workaround: Unknown
CSCdx48633
Symptom: A software error 925 is logged on UXM-IMA with YRED configuration.
Conditions: This problem occurs when:
There is an IMA line on a y-red UXM card set.
and
The primary card is reset using resetcd h (it does not matter if the primary is active or standby).
-OR-
The primary card is the standby.
An IMA port is added.
Workaround: Unknown
CSCdx49193
Symptom: On IGX to BPX ATFR or ATFST connection, local and remote values for IBS are reversed on BPX.
Conditions: Adding a two segment FRM (UFM) to FRSM connection using CWM GUI (SNMP). Adding an ATFR or ATFST connection from IGX to BPX, (i.e. IGX is master) using CLI.
Workaround: From the IGX endpoint use the CLI command cnfcon to temporarily change any connection bandwidth parameter (e.g. % util). If the connection was added using the CWM GUI, use the GUI to modify the connection. For single segment connections, add connection such that the BPX is master. For multi segment connections added using the CLI, add the routing connection segment such that the BPX is master.
Further Problem Description: During connection addition, when the slave BPX integrated the connection bandwidth parameters from the master IGX, the local and remote values for IBS were transposed. The transposition was caused by an incorrect assignment of Cmax to IBS.
This defect was the cause of the problem documented in CSCdx49174 as well.
CSCdx51587
Symptom: The upstats command does not show "Total Frames Rx" or "Total Frames Tx" incrementing. A UP trace on the stats message (0x10) does not show stats requests being sent to the UP.
Conditions: Both buses on the BPX were failed. A BCC switch over was performed to clear the bus. A single stats message was sent from the UP with stats values that indicated a bus failure. This kicked off a hunt for the bad slot. The bad slot was not isolated by the hunt, but other isolation techniques identified a BXM that was inducing errors on the bus.
Workaround: The upstats polling feature is kicked off by the bus diagnostics feature. By toggling bus diagnostics off then back on (on1 8 command), the upstats polling will be restarted.
CSCdx55926
Symptom: A software error 5033 logged when the VSI partition is disabled on UXM-YRED.
Conditions: This problem has been observed when the VSI partition is disabled on UXM with YRED configuration, when the secondary UXM card is active.
Workaround: Unknown
CSCdx59734
Symptom: SW Error 524 is logged
Condition Node has SW Error 524
Workaround: n/a
CSCdx65552
Symptom: Remote SIGNl FAIL alarm reported as the current APS alarm state.
Conditions: Happens when APS 1:1 is configured and then trunks are upped. One end is seen to report this alarm.
Workaround: Down the trunk and up it again or switch to the protection line.
CSCdx66732
Symptom: dspchuse shows incorrect channel information when enable vc-merge feature on UXME
Conditions: Enable vc-merge & using dspchuse command to check channel information on UXME
Workaround: Unknown
CSCdx66901
Symptom: Increase PVC LCN not reject by remote trunk even if no enough LCN available on remote side on UXM
Condition: cnfrsrc to increase PVC LCN when there are no enough LCN on remote trunk on IGX
Workaround: Unknown
CSCdx67411
Symptom: 9082 logged with trunk communication failure on UXM
Conditions: Run overnight jobs such as switchcc, switchyred
Workaround: Unknown
CSCdx67460
Symptom Connection density on Y-Red BXMs are not upgraded to 32K when legacy cards are replaced by enhanced cards.
Conditions When 2 legacy BXMs are in Y-Red, replace the secondary with BXME. Switchyred to the BXME and also replace the new standby (legacy BXM) with BXME
Workaround None
CSCin03628
Symptom: Trunks can be added in spite of the Pass Sync values at the two ends being different. Under some specific conditions, this will cause a scenario that one end is configured as a clock source (with Pass Sync = NO) and the other end has a Pass Sync value = YES, indicating that it can be used as a clocking route which is NOT correct.
Conditions: Up two ends of a trunk. Configure end1 of the trunk Pass Sync to Yes Configure end2 of the trunk Pass Sync to NO. Configure end2 as a clock source. Add the trunk. The end1 Pass Sync value changes is STILL YES. So, now we have a situation where the other end of the trunk of a clock source is passing sync while it should not.
Workaround: Delete the clocksource and configure the end as clocksource only after the trunk has been added.
CSCin10654
Symptom: Connection outage is > 250ms upon bxm backcard removal and reinsertion.
Conditions: Physically pull out the back card and reinsert. There is no reprogramming of connection and hence the outage is expected to be < 250ms.
Workaround: None.
Anomalies Fixed in 9.3.40
The following table lists the anomalies that are fixed in this release.
Bug ID
Description
CSCdk69912
UFM programming overrides VC_Q settings in non-standard parameters
CSCdm12850
The system idle time can be under-reported to VNS through SNMP
CSCdm60699
Async updates are sent incorrectly when VCQueue fills up
CSCdm75577
100% traffic discard at ATM end of a ATM-FR conn, added from FR side using CWM
CSCdp04164
DC Voltage Alarm - Need to increase upper alarming limit
CSCdr26161
Resetcd h of UXM during burnfwrev leaves card in burnfw state
CSCdr34820
more than 2 connections appear on single channel of DSP
CSCdr43327
If BME card is present we cannot use 0 option to burn firmware
CSCdr64816
VoiceEndptStatus returns offHook for all channels
CSCdr76559
A-bit on NNI ports doesnt clear when LMI removed and added
CSCds03159
BCC4V logged Abort 1011 after reinserting active CC
CSCds10019
Add more information to chklm and dsplm help screen
CSCds10107
New Commands for testing Voice channels (tonegen, dsptone, clrtone, cnftone)
CSCds29404
Enable cell routing is not part of robust message
CSCds37220
after switchcc, dspapsln may show aps deactivated
CSCds66268
copycons does not generate warning message
CSCdt71711
Bad Node Nib error 419 in Flex Switchcc Test
CSCdt86650
RAS: Corporate login to dsptech as default screen
CSCdt88340
Don't allow the M/F switchapsln switch the APS line backward
CSCdt98231
swerr 9098 logged after reinsert back card for VSI part deletion
CSCdu00161
Connection, Line and QBin interval statistic values displayed are incorrect
CSCdu21187
Temp a-bit failure caused by switchcc, even with feeder alert enabled
CSCdu26594
Remove the logging of 3064 when slave detects reduced number of cons
CSCdu34126
UXM trunk configs give incorrect value for selected cable length
CSCdu34853
vlcon shows wrong pref status after rrtcon reroute at master
CSCdu35011
Cannot configure E1 lines for unframed mode
CSCdu36770
memory wrt: rr_bld_cbrt_path() overwritten next long of rrt_path/rrcb_path
CSCdu38022
CLI allows ECN threshold to be greater than VCQ for incomplete set of parms
CSCdu46642
IMA trunk not allocating correct no. of DS0s
CSCdu47810
Need SWSW option to configure UXM/BXM ILMI for number of PVC changes per trap
CSCdu49568
1M3 abort upon using addport
CSCdu50924
Reroute wait timer (CM parm 9) was applied to derouted conns
CSCdu53235
SWERR 2051 logged without the addition or deletion of statistics
CSCdu55802
dspfwrev screen shows incorrect information
CSCdu58349
snmpwalk shows sysUptime 497 days after initialization
CSCdu59473
Not able to add FR conns & config/change FR class
CSCdu65259
CLI for cnfsct name failures does not give adequate help
CSCdu70637
rrtinf inprog output is not usable for text screen captures
CSCdu73638
SNMP: cannot add/mod connection to FAIL IMA port with no ACTIVE line
CSCdu75132
Add controller IP to the dspctrlrs screen
CSCdu75709
Informix DB not updated when UFMU front and backcard replace FRM or vice versa
CSCdu77043
UXM IMA trunk fails when adding line to trunk
CSCdu79181
Code added in wrong place to enable VPI Address config on UXM trunks
CSCdu84969
rt-vbr value for atmPortQueueIndex on IGX is not consistent with BPX
CSCdu85702
UXM/BXM card mismatch during upgrades causes LOS
CSCdu88501
swerr 925 for UVM inactive line when switchcc
CSCdu88771
sw error 55 seen after ddcuse command is issued on non-BNI card
CSCdv00082
No appropriate value information help for cnfport command
CSCdv01544
rrtinf inprog displays NOTHING and can log 526 when trunk count is 7+
CSCdv02043
RAS: Expand standby mem selftest to detect parity (1000001) errors
CSCdv02727
Not able to add 2nd VSI controller when 3 or more trks exist on a card
CSCdv03293
Incorrect display of local clock format for dspcurclk
Connection requires 11 hops to route fail to report as failure & CPU idle low
CSCdw64831
Heading for VT Ovrsubs feature appears for phy trunks in dsptrkutl CLI
CSCdw66301
swlog error 50 observed
CSCdw68727
Abort 1000003 logged on BPX after executing dsptrkutl following rebuild
CSCdw68912
dcct LCN information overwritten for DAX connections
CSCdw71520
help for ip commands causes last line overflow for nwipcache entry
CSCdw71912
dsptrkutl shows non-existent connections
CSCdw74281
addlnlocrmtlp on IGX/AF side of trunk causes comm-fail should be Clear-OK
CSCdw75500
swerr 5050 generated upon cba_verify after deleting vp-tunneling daxcon
CSCdw75730
cnfasm change to temp threshold doesnt reflect in dsppwr screen
CSCdw79108
BPX node with SWSW 9.1.24 does not sync up with CWM
CSCdw80264
10 hop cons fail to route when resources available
CSCdw84340
dsputl command does not work for UVM/CVM connections
CSCdw86061
rs_get_vpivci() does not correctly check for LMI/ILMI VCI
CSCdw86065
CNFRSRC will not allow VPI over 255 although port NNI
CSCdw88571
Incorrect feeder trunk channel programming for dax-cons
CSCdw92030
Port speeds above 6144 Kbps on UFMU-HSSI are reported incorrectly to CWM
CSCdw94435
dclk output doesnt get updated
CSCdw95202
SNMP support for Trunk VC Shaping and cnftrkq enhancement for feeders
CSCdx06654
line/trk recovered even the active APS line has LOS
CSCdx07451
AutoRoute chans allocated beyond 32768 when VSI Slave chans used on card
CSCdx08325
Unable to add connection from FR end point to ATM feeder end point
CSCdx08838
IGX reports PRI Loss (CLOCK) when deleting line clock source
CSCdx10239
Memory leak in dsptech (swerr 501, 3000000)
CSCdx10874
Enabling LMI on VSI feeder causes unreachable (always) + comm-fail(9340)
CSCdx16103
Trunk channel programming rejected(9082) when connection has PCR > port rate
CSCdx17275
UXM line looped back after sw upgrade
CSCdx17933
Dangling VLCONs and inconsistent trunk loading/conid
CSCdx18387
dsplns/dspports alarm masking reverse video is not ASCII screen capturable
CSCdx19254
swerror 521 on bpx node in upgrades network
CSCdx20304
addfrcons and dspfrchan no longer exist
CSCdx20323
752 logged when FW upgraded
CSCdx27972
RAS: Incorrect Open space calculation when inconsistent conids exist
CSCdx29500
BPX clock does not go to Tracking mode if current clock source is on port 1
CSCdx36217
connection continuously re-routes after active CC fails with swerr 47
CSCdx38407
dspviacons causes session to lockup, IDLE time of 0 and eventually 1m3 abort
CSCdx47173
Incorrect display of IGX FDR NPMs after an upgd
CSCdx57483
Removed ASM card on a BPX cage displayed as Empty Reserved for BCC
CSCdx57872
FRM port alarms are *disabled* by default on upgrade
CSCdx58152
addlnloclp/addlnlocrmtlp does not work when secondary UXM-IMA-YRED active
CSCdx63511
Download Aborted logged and UXM to failed status when burnfwrev to A
CSCin10198
CSCdu85702 fix missing from BPX
Known Anomalies from Previous Releases
The following table lists the known anomalies from releases prior to 9.3.40.
Bug ID
Description
CSCdk44173
Symptom: Incorrect values are reported to line diag and line stats when line or trunk is in alarm.
Conditions: This problem will occur whenever a line or trunk is in alarm and the line diagnostics state machine is enabled.
Workaround: Disable the line diagnostics state machine if you require your statistics to be accurate when a trunk or line is in alarm.
Further Problem Description: When a line is in alarm, two 0x56 line statistic sample requests are generated. One for line diagnostics and the other for line statistics.
The problem is that whenever we obtain stats from the card the cards counters are reset, so when both polls are going on simultaneously, they are both only getting part of the information, which causes incorrect (small) statistics and incorrect (small) line diag values.
A fix for this defect has been applied to 9.1.06, 9.2.41 (unreleased) and 9.3.35.
However, the fix for this defect caused defect CSCdw43792. The fix for CSCdw43792 was to back out this fixes changes.
CSCdw43792 will not be fixed in 9.1 so this defect does not exist in 9.1.06 or any later 91 release.
CSCdw43792 has been applied to 9.2.41 before it was release so this defect currently still exists in all versions of 9.2.
CSCdw43792 has been applied to 9.3.36, so this defect is currently only resolved in 9.3.35
This defect will need to be resolved completely in 92 and 93, without causing any side effects.
CSCdk91790
Symptom: SWSW system idle time is below 30% when more than 10 UVMs are activated.
Conditions: SWSW polls each activated UVM for modem status every 1 second for each port. SWSW also spends time in processing the responses of the modem polling.
When many UVMs are activated, the modem polling handling consumes a lot of system time and resources (buffer queue) which affect system performance.
UVM FW has supported asynchronous event to report modem event. SWSW needs to stop polling modem status if the FW in UVM supports the async event.
Workaround: Use cnfnodeparm 46 to increase polling timer to improve system performance.
CSCdp48861
Symptom: The customer may notice slow UI response, or a difficulty logging into the node using the normal VT session. The dspprfhist shows high RT usage in the TRNS process. The thstats shows high RT usage by state machine 55 (0x33).
Conditions: This is due to statistics updates for voice connections. It may be seen on nodes with a high number of voice cards and voice connections (IGX with CVMs and/or UVMs).
Workaround: The command off1 17 can be performed. This will stop the collection of voice connection statistics (for all connections, not just voice), as well as the operation of the debug command dspchstats.
If statistics must be collected, limit the number of statistics. Frame Relay statistics are collected at 5 minute intervals (configurable up to 15 minutes). Most voice statistics are reported at 1 minute intervals, but the following statistics are reported at 3 second intervals:1. Seconds V.25 Modem On 2. Seconds DSI Enabled 3. Seconds Off-Hook 4. Seconds In Service.
CSCdp98648
Symptom: Equipment MGR can't tell the difference between BXM legacy or enhance.
Conditions: BPX nodes containing legacy BXMs and Enhanced BXMs.
Workaround: Log into the BPX node and do dspcdXX and determine from number of channel support. The enhanced version of the BXM card has 61K channels, and the BXM card has less than 61K channels.
CSCdr43758
Symptom: 1000003 software log entry appeared on IGX 9.1.17 changing LAN IP address.
Conditions: Software log entry appeared when customer changed the CWM station to manage the node. cnflan had been performed. Occurrences of software log entry 945.
Workaround:
1. Disable SNMP on access to the node by changing the community strings to NOACCES.
2. Change LANIP configuration.
3. Change SV+ station config.
4. Reset the standby NPM.
5. Perform a switchcc.
6. Enable SNMP access by changing the strings back.
Further Problem Description: None.
CSCds47671
Symptom: dspcurclk displays incorrect trunk numbers in the clock path.
e.g. z5b 7--30z2a 24-- 9.1z3b
This should be 24.1 (the port is missing)
Conditions: Need the following clock path in dspcurclk for this problem to surface:
Further Details: The display attempts to display the port on the via trunk before it is properly set.
CSCdu13921
Symptom: Connection routing fails with the message "No route available (insufficient trunk bandwidth)" -- as seen with the [dspcon] command, but when checking the trunk bandwidth usage via [dspload], there is enough bandwidth.
Conditions: This problem occurs when we run out of connection identifiers, conids.
The most common occurrence of this is on BXM cards as they have a configurable conid limits and the defaults are rather small, 256.
Workaround: Check the [dspload] command and if the "Con ID Avail" count is 0, then the routing failure is really do to connection Id exhaustion rather than bandwidth.
CSCdu22300
Symptom: Connections do not get routed even if there are enough resources on the trunk.
Conditions: All of the following should hold true --
1. Connections are being considered for routing in a network consisting of BOTH UXM and NTM trunks.
2. If node X, node Y and node Z are the possible via nodes for a connection being considered for routing AND
a. A UXM trunk (say, Trk1) connected between node X and node Y has the maximum available Bandwidth among ALL the trunks connected between node X and node Y.
b. A NTM trunk (say, Trk2) connected between node Y and node Z has the maximum available Bandwidth among ALL the trunks connected between node Y and node Z. ** OR ** node Y is the slave node of the connection being considered for routing and is terminated on a NON-UXM card.
In other words, Gateway LCN is required at node Y's end of the UXM trunk (Trk1).
c. Gateway LCN is not available at node Y's end of the UXM trunk (Trk1).
3. Additionally, "Trunk Cell Routing Restriction" is set to "No" for the connection being considered for routing.
Workaround: Either ONE of the following options can be used:
1. Using the "cnfpref" command configure the connection to use a path which you have verified to carry the connection.
2. Using the "cnftrk" command, increase the Gateway LCNs on the UXM trunk (Trk1) at the node Y's end.
3. Increase the available BW on at least any one of the other trunks between Node X and Node Y such that it becomes more than the available bandwidth of the UXM trunk (Trk1).
4. Increase the available BW on at least any one of the UXM trunks between node Y and node Z such that it becomes more than the available bandwidth of the NTM trunk (Trk2). [Applicable only if node Y is not the slave node]
[Available Bandwidth can be obtained using the "dspload" command. Increasing the "Transmit Rate" and "Receive Rate" of the trunk at both ends of the trunk using the "cnftrk" command will increase the available Bandwidth].
CSCdu64553
Symptom: CLP 1 tagged traffic in a multi-vc environment cannot be differentiated from CLP 0 with the present default drop method on TAGCOS Qbins, EPD.
Conditions: EPD is the configured default. In order to differentiate CLP 1 marked traffic, CLP hysteresis instead should be configured.
Workaround: No workaround.
CSCdu68726
Symptom: Software error 586 is logged when the last trunk from a node is deleted, and there are MANY (see below) non-DAX connections terminating on the node.
Conditions: This only occurs when there are still a lot of non-DAX connections terminating on the node that is being isolated from the network. In the lab environment this has been observed when there where 7200 connections terminating on the node being isolate.
Workaround: Use cnfnodeparm to 37 to allocate more memory for STBY update queue, or better yet, delete all connections before deleting the trunk.
CSCdv36764
Symptom: swerr 1008 is logged when a BXM card is continuously reset every 5 mins.
Conditions: One of the BXM cards is continuously reset every 5 mins due to an issue with the Stats Collection task of the BXM firmware running every 5mins on the card.
Workaround: Unknown.
CSCdv42157
Symptom: SW errs 110 occured.
Conditions: While running the hardware reset job overnight only job 3 (hardware card resets) was running.
Workaround: Unknown.
CSCdv73494
Symptom: swerr 886,2071,2059 fills the log.
Conditions: The log display shows the swerr.
Workaround: Unknown at present.
CSCdv79961
Symptom: Unable to configure stats level on standby card after upgrading swsw on IGX from 92 to 93 with UXM in Yred.
Conditions: 9.3.30
After upgrading from 9.2.34 to 9.3.11 UXM pair in Yred try to cnfcdparm for stat level change you receive this error message "Cannot change stats level for yred card or card in service".
However, if you try the same thing when the card is not in yred, the node allows you to change.
Workaround:
1. Remove the standby card and place in some other empty slot .
2. Configure the stat level in the new, non-yred slot.
3. Replace the card into the y-red standby slot.
4. Wait until the card comes up fully as a standby, and has completed its programming.
5. Switch to the standby card that has the modified stat level.
6. Remove the new standby card and place in some other empty slot.
7. Repeat steps 2-3 on the next card.
CSCdv84853
Symptom: Traffic outage due to switchcc or hitless rebuild is 232.12% greater than 250ms for BPX.
Conditions: Test was run on BPX06 node that is fairly loaded.
Workaround: N/A.
CSCdw00243
Symptom: When a DS3 UNI receives a DS3 AIS, the switch properly generates a DS3 (line) Yellow but not a PLCP Yellow.
Conditions: Performing Compliance testing by injecting errors into the BXM using an HP tester.
Workaround: None.
CSCdw01813
Symptom: In the network, there are 44 real nodes + enumlated nodes. Totally 220 nodes. After power down 43 and up (except one real node), nodes in a 220 nodes network, logged software error 419.
Conditions: A node has been removed by deleting the trunk. Power down and power up all nodes in the network.
Workaround: None.
CSCdw01866
Symptom: After hitless rebuild in a large network, dspload does not show used recv load info for a long time. chklm could not be trust until all load updates sync up.
Conditions: Histless rebuild.
Workaround: None.
CSCdw04847
Symptom: The default value and the range allowed for queue size is wrong.
Conditions: This can be seen while using cnftrkparm to configure the queue sizes.
Workaround: A valid range is approximately half of that allowed in cnftrkparm. Configure the queue sizes to be within the valid range.
CSCdw04934
Symptom: switchyred sometimes took 40 to 70 seconds to complete.
Conditions: 9.3.3d MF02.
Workaround:
Further Problem Description: After loading MF02, switchyred is taking 40 to 70 seconds to complete.
CSCdw07614
Symptom: Date and time changed during upgrade.
Conditions: 9.3.3b and 9.3.3d MF01.
Workaround: None.
Further Problem Description: Date/time changed after runrev command issued on two different nodes. This was noticed doing dsplog, it showed the date and time changed then changed back.
CSCdw11977
Symptom: 1m3 abort logged along with memory corruption errors, ex. 514.
Conditions: Any memory corruption in the system.
Workaround: None.
CSCdw18589
Symptom: In 9.2.34, when the physical interface for a Virtual Trunk is used as a network clock source, the source associates itself with the first Virtual Trunk on the interface. Should that trunk fail, the clock source fails and the system will search for a new source. In this configuration, you are not allowed to set PASS SYNC to YES on the first Virtual Trunk (which is correct), but it is possible to set the Virtual Trunk for PASS SYNC YES. By setting PASS SYNC to yes on any other Virtual Trunk on the interface causes PASS SYNC to be set to YES on all of the Virtual Trunks - even the first one which is associated with the clock source. Having a trunk as a clock source and set to PASS SYNC YES is an unsupported configuration.
In 9.3.30, the situation is slightly different in that a change made to any of the Virtual Trunks does not affect the first Virtual Trunk, which has the clock association. The problem here is that if the first Virtual Trunk fails, the clock source associates itself with the second Virtual Trunk. If PASS SYNC were set to YES on that trunk, problems would result.
Conditions: Enabling PASS SYNC to YES on any Virtual Trunk (other than the first one) causes PASS SYNC to be set to YES on all Virtual Trunks associated with the interface. Even the one tied to the clock source.
Workaround: If the physical interface for a Virtual Trunk is used as a clock source, do not set PASS SYNC to YES on any of the Virtual Trunks associated with the interface.
CSCdw42981
Symptom: The setting for off3 Multi-DB Stby Updates changes from disabled back to enabled after a full rebuild.
Conditions: This only occurs if the user has modified the setting of Multi-DB Stby Updates from its default value of enabled to disabled, and then a full rebuild occurs.
Workaround: After the full rebuild, reset the value back to disabled if that is desired.
CSCdw60790
Symptom: Addcon fails to add abrfst connection with PCR < 50 on OC12 card.
Conditions: Add abrfst connection with PCR < 50. * The port card is bxm OC12.
Workaround: When adding the connection, disable 'Default Ext Parms [Enable]:'. * Add the connection to a rate >= 50. Use cnfcon to change it to a lower value.
CSCdw64896
Symptom: When a node has a lot of unroutable derouted connections in a node that has more than 12K cons, the CPU usage is very high (close to 90%).
When the routing state machine is turned off, the CPU load does not go down for a long time.
Conditions: A node with a lot of unroutable failed connections which have several hops between the master and slave.
Workaround: Down the unroutable connections to bring down CPU load.
CSCdw66534
Symptom: swerrs 9082,1004 were logged on a BPX node.
Conditions: The node was being upgraded from 9.3.3i->9.3.3j.
Workaround: None.
Anomaly Status Changes in Previous Releases
The following table lists the status changes to anomalies in releases prior to 9.3.40.
Bug ID
Description
CSCdp05158
Resolved
CSCdr43327
Resolved
CSCdr43758
Unreproducible
CSCds03159
Resolved
CSCdt71711
Resolved
CSCdt98231
Resolved
CSCdu26594
Resolved
CSCdu47810
Resolved
CSCdu75709
Verified
CSCdv12786
Resolved
CSCdv38469
Resolved
CSCdv44928
Resolved
CSCdv62358
Resolved
CSCdv76903
Resolved
CSCdv81068
Resolved
CSCdv84853
Junked
CSCdv89240
Closed
CSCdw00459
Closed
CSCdw01957
Unreproducible
CSCdw12925
Resolved
CSCdw15064
Verified
CSCdw15697
Duplicated
CSCdw21820
Closed
CSCdw30986
Resolved
CSCdw35336
Duplicated
CSCdw35862
Resolved
CSCdw48570
Resolved
CSCdw50328
Duplicated
CSCdw53935
Resolved
CSCdw58175
Closed
CSCdw63725
Resolved
CSCdw66534
Unreproducible
CSCdw71520
Resolved
CSCdw74242
Resolved
CSCdw75500
Resolved
CSCdw75730
Resolved
Additional Deliverables
SNMP MIB
The SNMP IGX/BPX switch SNMP MIB is being provided with the delivery of Release 9.3 Switch Software. The MIB is in standard ASN.1 format and is located in the ASCII text files agent.m, ilmi.m, ilmi_ctl.m, ilmiaddr.m, switch.m, swtraps.m, and errors.m which are included in the same directory as the Switch Software images. These files may be compiled with most standards-based MIB compilers. There were no mib changes in Releases 9.3.11, 9.3.20, 9.3.24, and 9.3.36.
Switch MIB changes of Release 9.3.35
voiceEndptState
New object
winkUndetermined(6)
Switch MIB changes of Release 9.3.30
The following Switch MIB changes have been introduced since Release 9.3.30. The changes include modified objects and new objects.
atmEndptTable
Modified objects
atmEndptEntry
atmEndptTestType
New objects
atmEndPtOAMTestLpCnt
atmEndptOAMTestAbrtFlg
atmEndptOAMTestSccCnt
atmEndptOAMTestRTDMin
atmEndptOAMTestRTDAvg
atmEndptOAMTestRTDMax
atmEndptOAMTestOamFmt
sonetIfTable
Modified objects
sonetIfFrame
atmTrunks
Modified
atmTrkVcShaping
ShelfRtrSlotInfoTable
New objects
shelfRtrSlotInfoEntry
rtrState
rtrIOSAlmStatus
rtrIOSSwImage
rtrVICType
rtrCnfFilename
rtrCnfFilesize
rtrIOSCnf
rtrSerialPort
Switch MIB changes of Release 9.3.11, 9.3.20 and 9.3.24
No MIB changes are contained in these releases.
Switch MIB changes of Release 9.3.10
The following Switch MIB changes have been introduced since Release 9.3.10. The changes include obsolete objects, modified objects, and new objects:
switchIfTable
Modified objects
switchIfPartiId
switchIfScTmpltId
frLportCnfTable
Modified objects
frLportCnfEntry
New objects
frLportNeighborDiscovery
frLportNeighborIpAddress
frLportNeighborIfIndex
atmPortTable
Modified objects
atmPortEntry
atmPortType
New objects
atmPortNeighborDiscovery
atmPortNeighborIpAddress
atmPortNeighborIfNam
atmPortStatTable
Modified objects
atmPortStatEntry
New objects
atmPortStatTxQ0CellDrps
atmPortStatTxQ1CellDrps
atmPortStatTxQ2CellDrps
atmPortStatTxQ3CellDrps
atmPortStatTxQ7CellDrps
atmPortStatTxQ8CellDrps
atmPortStatTxQ9CellDrps
atmPortStatTxQ10CellDrps
atmPortStatTxQ11CellDrps
atmPortStatTxQ12CellDrps
atmPortStatTxQ13CellDrps
atmPortStatTxQ14CellDrps
atmPortStatTxQ15CellDrps
atmEndptTable
Modified objects
atmEndptQIR
atmEndptOeQIR
atmEndptRateUpICA
atmEndptPCR
atmEndptOePCR
atmEndptSCR
atmEndptOeSCR
atmEndptMCR
atmEndptOeMCR
atmTrunkStatsTable
Modified objects
atmTrkStatsEntry
New objects
atmTrkStatsTxQ10CellDrps
atmTrkStatsTxQ11CellDrps
atmTrkStatsTxQ12CellDrps
atmTrkStatsTxQ13CellDrps
atmTrkStatsTxQ14CellDrps
atmTrkStatsTxQ15CellDrps
rsrcPartiTable
Modified objects
rsrcPartiId
rsrcPartiPvcMaxBw
rsrcPartiVsiVpiStart
rsrcPartiVsiVpiEnd
rsrcPartiVsiMinBw
rsrcPartiVsiIlmiEnable
rsrcPartiVsiLcnReprogPermit
rsrcPartiPvcTable
Modified objects
) rsrcPartiPvcPvcMaxLcns
rsrcPartiPvcPvcMaxBw
rsrcPartiPvcVpiStart1
rsrcPartiPvcVpiEnd1
rsrcPartiPvcVpiStart2
rsrcPartiPvcVpiEnd2
rsrcPartiPvcVpiStart3
rsrcPartiPvcVpiEnd3
rsrcPartiPvcVpiStart4
rsrcPartiPvcVpiEnd4
atmQbinTable
Modified objects
atmQbinMinBw
atmQbinTmpltCnfg
vsiCtrlrTable
Modified objects
VsiCtrlrEntry
vsiCtrlrPartiId
vsiCtrlrSlot
vsiCtrlrPort
New objects
vsiCtrlrAdminStatus
vsiCtrlrVpi
vsiCtrlrVciStart
Switch MIB Changes to Release 9.3.05
The following Switch MIB have been introduced since Release 9.3.05.
atmPortTable
New objects
atmPortIlmiResetFlag
atmPortCACReserve
atmPortLportMaxBW
atmPortLportMinVpi
atmPortLportMaxVpi
atmPortMgmtProtoOnCard
Modified objects
atmPortEntry
atmPortMgmtProto
atmPortIlmiAddrReg
atmPortVcShaping
atmPortQueueTable
New objects
atmPortQueueVcShaping
Modified objects
atmPortQueueEntry
atmPortQueueDepth
atmEndptTable
Modified objects
atmEndptVcQSize
switchShelf configuration branch
New objects
shelfCnfgNodeVcSupport
shelfCnfgNodeVcTotal
atmTrunks table
New objects
atmTrkTermUsedPvc
atmTrkViaUsedPvc
atmTrkMgmtProtoOnCard
Modified objects
atmTrkEntry
rsrcPartiTable
New objects
rsrcPartiVsiLcnReprogPermit
Modified objects
rsrcPartiEntry
Obsolete objects
rsrcPartiPvcMaxLcns
rsrcPartiPvcMaxBw
This object limits the number of LCNs to be reprogrammed in a continuous loop so that other software processes get a fair share of the CPU time.
rsrcPartiMaxLcnBatchNumber
rsrcPartiPvcTable
This table is only available for BXM cards. The AutoRoute resource partition does not exist for a down line.
New objects
rsrcPartiPvcEntry
rsrcPartiPvcPvcMaxLcns
rsrcPartiPvcPvcMaxBw
rsrcPartiPvcVpiStart1
rsrcPartiPvcVpiEnd1
rsrcPartiPvcVpiStart2
rsrcPartiPvcVpiEnd2
rsrcPartiPvcVpiStart3
rsrcPartiPvcVpiEnd3
rsrcPartiPvcVpiStart4
rsrcPartiPvcVpiEnd4
serialPortTable
Modified objects
serialPortLeadState
Switch MIB changes to Release 9.3
The following Switch MIB changes have been introduced since Release 9.2.31. The changes include obsolete objects, modified objects, and new objects:
switchIfTable
This table contains a list of ports and subports and their interfaces.
Modified objects
switchIfService
switchIfPhysPort
switchIfScTmpltId
atmPortTable
This table provides the manager a detailed view of the ATM ports available on the switch.
New objects
These new MIB variables support IMA Ports.
atmPortRetainedLinks
atmPortImaProtocolOption
atmPortImaDiffDelay
atmPortImaClockMode
Modified objects
atmPortEntry
Obsolete objects
atmPortSvcChannels
atmPortSvcLcnLow
atmPortSvcLcnHigh
atmPortSvcVpiLow
atmPortSvcVpiHigh
atmPortSvcVciLow
atmPortSvcVciHigh
atmPortSvcQbinBitMap
atmPortSvcQbinSz
atmPortSvcBw
atmPortSvcInUse
atmPortPvcInUse
atmEndptTable
This table is used to model a PVC endpoint and contains the traffic parameters for the ATM endpoint.
Modified objects
atmEndptPolicing
shelfSlotInfoTable
This table provides switch slot information.
New objects
slotCardTopAssemNumber
Modified objects
shelfSlotInfoEntry
slotCardMinBusUBU
ds3LineTable
This table provides the manager a view of the DS3 interfaces on the switch and supports SET functions.
Modified objects
ds3LineAlmType
ds3LineStatsTable
ds3StatsTable
This table provides a list of DS3 line statistics objects.
New objects
ds3StatsUas
Modified objects
ds3LineStatsEntry
sonetStatsTable
This table provides a list of SONET line statistics objects.
Modified objects
sonetStatsPthBip8s
sonetStatsPthFebeEs
sonetStatsSecBip8Ses
sonetStatsPthUas
sonetStatsPthFarendUas
atmTrunkStatsTable
This table provides a list of ATM trunk statistics objects.
Obsolete objects
atmTrkSvcChannels
atmTrkSvcLcnLow
atmTrkSvcLcnHigh
atmTrkSvcVpiLow
atmTrkSvcVpiHigh
atmTrkSvcVciLow
atmTrkSvcVciHigh
atmTrkSvcQbinBitMap
atmTrkSvcQbinSz
atmTrkSvcBw
atmTrkSvcInUse
vsiCtrlrTable
This new table contains the configuration for VSI controllers. The objects are advertised to all of the VSI slaves on the switch when the configuration is changed.
New objects
vsiCtrlrEntry
vsiCtrlrId
vsiCtrlrPartiId
vsiCtrlrIpAddr
vsiCtrlrType
vsiCtrlrSlot
vsiCtrlrPort
Default Values
This section contains default values for the BPX and IGX nodes.
This section contains information about the BXM firmware MFV.
About the Firmware MFV
BXM firmware version MFV supports all existing interfaces and models of BXM hardware. The tables in this section outline various levels of hardware revisions supported for BXM firmware version MFV.
Front Cards
Model Num
Description
FW model
HW Rev
FW Rev
BXM-155-4
4 port OC3 Line Module (Front Card)
F
B
MFV
BXM-155-8
8 port OC3 Line Module (Front Card)
F
B
MFV
BXM-622
1 port OC12 Line Module (Front Card)
F
D
MFV
BXM-622-2
2 port OC12 Line Module (Front Card)
F
D
MFV
BXM-T3-8
8 port T3 Line Module (Front Card)
F
B
MFV
BXM-T3-12
12 port T3 Line Module (Front Card)
F
B
MFV
BXM-E3-8
8 port E3 Line Module (Front Card)
F
B
MFV
BXM-E3-12
12 port E3 Line Module (Front Card)
F
B
MFV
BXM-155-8DX
8 port OC3 Line Module (Front Card)
F
A0
MFV
BXM-155-8D
8 port OC3 Line Module (Front Card)
F
A0
MFV
BXM-155-4DX
4 port OC3 Line Module (Front Card)
F
A0
MFV
BXM-155-4D
4 port OC3 Line Module (Front Card)
F
A0
MFV
BXM-622-2DX
2 port OC12 Line Module (Front Card)
F
A0
MFV
BXM-622-2D
2 port OC12 Line Module (Front Card)
F
A0
MFV
BXM-622-DX
1 port OC12 Line Module (Front Card)
F
A0
MFV
BXM-T3-12EX
12 port T3 Line Module (Front Card)
F
A0
MFV
BXM-T3-12E
12 port T3 Line Module (Front Card)
F
A0
MFV
BXM-T3-8E
8 port T3 Line Module (Front Card)
F
A0
MFV
BXM-E3-12EX
12 port E3 Line Module (Front Card)
F
A0
MFV
BXM-E3-12E
12 port E3 Line Module (Front Card)
F
A0
MFV
BXM-E3-8E
8 port E3 Line Module (Front Card)
F
A0
MFV
Front Card for APS Compatibility
Model Num
Description
FW model
HW Rev
FW Rev
BXM-155-4
4 port OC3 Line Module (Front Card)
F
C
MFV
BXM-155-8
8 port OC3 Line Module (Front Card)
F
C
MFV
BXM-622
1 port OC12 Line Module (Front Card)
F
E
MFV
BXM-622-2
2 port OC12 Line Module (Front Card)
F
E
MFV
BXM-155-8DX
8 port OC3 Line Module (Front Card)
F
A0
MFV
BXM-155-8D
8 port OC3 Line Module (Front Card)
F
A0
MFV
BXM-155-4DX
4 port OC3 Line Module (Front Card)
F
A0
MFV
BXM-155-4D
4 port OC3 Line Module (Front Card)
F
A0
MFV
BXM-622-2DX
2 port OC12 Line Module (Front Card)
F
A0
MFV
BXM-622-2D
2 port OC12 Line Module (Front Card)
F
A0
MFV
BXM-622-DX
1 port OC12 Line Module (Front Card)
F
A0
MFV
Back Cards
Model Num
Description
HW Rev
FW Rev
MMF-155-4
4 port multi-mode fiber back card
A
na
MMF-155-8
8 port multi-mode fiber back card
A
na
SMF-155-4
4 port single-mode fiber intermediate-reach back card
A
na
SMF-155-8
8 port single-mode fiber intermediate-reach back card
A
na
SMFMR-155-4
4 port single-mode fiber long-reach back card
A
na
SMFMR-155-8
4 port single-mode fiber long-reach back card
A
na
SMF-622
1 port intermediate-reach OC12 back card
A
na
SMF-622-2
2 port intermediate-reach OC12 back card
A
na
SMFMR-622
1 port long-reach OC12 back card
A
na
SMFMR-622-2
2 port long-reach OC12 back card
A
na
XLR-622
1 port extra long-reach OC12 back card
A
na
XLR-622-2
2 port extra long-reach OC12 back card
A
na
BPX-T3/E3-12
12 port T3/E3 back card
A
na
BPX-T3/E3-8
8 port T3/E3 back card
A
na
RDNT-LR-622-2
2 port long-reach OC12 redundant back card
A
na
RDNT-SM-622-2
2 port intermediate reach OC12 redundant back cards
A
na
RDNT-SM-622
1 port intermediate reach OC12 redundant back cards
A
na
RDNT-LR-155-8
8 port long-reach OC3 redundant back cards
A
na
RDNT-SM-155-4
4 port intermediate-reach OC3 redundant back cards
A
na
RDNT-SM-155-8
8 port intermediate-reach OC3 redundant back cards
A
na
New Features supported in BXM Firmware MFV
VC merge support added.
New Features supported in BXM Firmware MFU
Virtual trunk oversubscription.
VC shaping.
New Features Supported in BXM Firmware MFT
Bug fix only. This image includes a fix for the bug CSCdw54957.
New Features Supported in BXM Firmware MFR
Bug fix only.
New Features Supported in BXM Firmware MFP
Configurable number of ILMI traps.
New Features Supported in BXM Firmware MFN
F4-F5 Mapping on ports and F4 AIS detection on virtual trunks.
Dynamic partitioning feature is supported on BXM card by default. Remote shell feature through the BCC CLI provides a mechanism to turn off this feature.
SPVC feeder support.
New Features Supported in BXM Firmware MFF
Use of separate qbin to guarantee bandwidth resources for the control channels of VSI controllers.
New Features Supported in BXM Firmware MFE
Bug fix only.
Note Support for APS 1:1 added for VSI.
New Features Supported in BXM Firmware MFD
Bug fix only.
New Features Supported in BXM Firmware MFC
Support for SES (PNNI controller).
BootCore enhancement to support multi-vendor flash-SIMMs.
A 1 msec granularity for tstdelay measurement.
New Features Supported in BXM Firmware MFB
Multiple VSI (2.2) partition feature. Three partitions are supported.
Hitless connection density upgrade for BXM.
SCR and PCR policing at less than 50 CPS for T3/E3 BXMs.
Control traffic shaping.
New Features Supported in BXM Firmware MFA
Multiple VSI (2.2) partition feature. (two partitions)
Note First release in MF branch of firmware.
New Features Supported in BXM Firmware MEC
There is no new feature in release MEC.
New Features Supported in BXM Firmware MEB
There is no new feature in release MEB.
New Features Supported in BXM Firmware MEA
VSI version 2.2 (single partition).
ITUT Annex B and configurable signal degrade (SD) and signal failure (SF) thresholds for SONET linear APS on BXM-OC3 and BXM-OC12 (1+1, 2 card, 1:1).
The current default thresholds are
BIP count
Condition
10-4
SF detected
10-5
SD detected & SF clear
10-6
SD clear & SF clear
New Features Supported in BXM Firmware MDA
Virtual trunking
BXM multi-level channel statistics
SONET linear APS on BXM-OC3 and BXM-OC12 (1+1, 2 card, 1:1)
Upgrading from MEK and lower firmware to MFV when feeder trunks are utilized with APS while the BPX node does not have APS requires the following procedure:
Step 1 Change the MGX Release 1 feeder to use APS1+1 unidirectional AND disable K1K2 processing (may need to delete and then add back APS). On the BPX temporarily configure to use unidirectional mode.
Step 2 After MGX Release 1 dspapsln shows both lines OK, delete the APS line on the BPX.
Step 3 Proceed to upgrade the BXM cards as if YRED.
Step 4 After both cards are MFV, add back the APS on the BPX.
Step 5 Reconfigure both MGX Release 1 and BPX to use the appropriate APS configurations.
BXM cards with M.C.B/M.D.A firmware or later can be smoothly migrated to the M.F.A or above version of firmware by using Y-cable redundancy.
To upgrade a BXM card pair in Y-red configuration, complete the following steps:
Step 1 Upgrade the standby card with the MFA or above firmware version. Wait for all of the configuration to be downloaded into the card.
Step 2 Do a switchyred to switch to the card with firmware M.F.A or above version.
Step 3 Burn the other card with the desired version MFA or above firmware. Follow the standard firmware upgrade procedure for downloading and burning the firmware into the cards.
Step 4 If BCC SWSW version is 9.1.18 and dspnovram shows 0 or 4 for Number of Channel Stats, go directly to MFC or above versions from MCC.
Channel Statistics Issues
While upgrading from firmware, on OC3, 1 port OC12 BXM cards, if stats level on BXM is greater than 1, use one of the following upgrade procedures listed below.
Upgrade from firmware revision MEA or higher.
Step 1 Upgrade SWSW to 9.2.30 or higher.
Step 2 Upgrade the firmware to MFV.
Upgrade from firmware revision lower than MEA. This procedure avoids card mismatch.
Step 1 Upgrade firmware to MEC.
Step 2 Upgrade the SWSW to 9.2.30 or higher revision.
Step 3 Upgrade the firmware to MFV.
A firmware burn should not be interrupted. A card reset in the middle of burn firmware results in the BXM being maintained in the core state (identified by blinking yellow LED) or failed state (identified by a solid red led). In this case the dspcds screen reports the card as FAILED. This state can be recovered by reburning the firmware into the card.
Features Obsoleted
1. VSI 1.0 is obsoleted by VSI 2.2 in the MDA release onwards.
2. From versions MFJ to MFN channel statistics level 0 is no longer supported for BXM-155-4, BXM-155-8, BXM-622, BXM-622-2, BXM-T3-8, BXM-T3-12, BXM-E3-8, BXM-E3-12 models. In MFN onwards conditional support for stats level 0 is revoked. See the Notes, Cautions & Clarifications section point 13 for more details.
3. In all other models channel statistics level 0 is supported by all firmware versions (BXM-155-8DX, BXM-155-8D, BXM-155-4DX, BXM-155-4D, BXM-622-2DX, BXM-622-2D, BXM-622-DX, BXM-T3-12EX, BXM-T3-12E, BXM-T3-8E, BXM-E3-12EX, BXM-E3-12E, BXM-E3-8E).
Notes, Cautions & Clarifications
1. BXM Model F firmware is intended for use with 9.3 switch software. BXM Model F firmware may be used to upgrade BXMs during the upgrade process from switch software release 9.2 to 9.3. BXM Model F firmware has not been tested for compatibility with release 8.4, 8.5, and 9.1 switch software. It is compatible with IOS version 12.05t2 or greater for MPLS.
2. M.F.E is a not on CCO as it is an SES specific release.
3. Protection Switching based on BER on BXM may not comply to standards. The GR-253 and ITU-T G.783 requires that switching be completed within 60 msec from the time the error starts. BXM is unable to detect BER threshold crossing until the next poll, which occurs every 250 msec. Thus, switching time may be up to 250 msec under certain circumstances.
4. In APS 1+1 default configuration, both backcard LEDs show green when primary card is active and selection is from PROT line. When primary card is active and it is selecting from PROT, PROT backcard should be green, since it is carrying traffic. WORK backcard should also be green since that is the physical path for the primary (and active) card to pass traffic. Backcard LED green means the backcard is directly or indirectly carrying traffic, and pulling the backcard causes traffic disruption (CSCdm53430).
5. In APS 1+1 default configuration and a manual W->P is on and a switchyred is issued, a manual W->P event is logged. By default, on switchyred the new active card comes up in "clear" state. But in this case since there is a manual W->P on, the APS line switches to PROT and the switching is logged (CSCdm53404).
6. In APS 1+1 default configuration if the selected line is PROT and last user request is clear and a switchyred is issued, line switches to WORK. If the last user request is "clear", full automatic APS switching is in effect with the working line being active by default. When there is no last user switch request to switch to any particular line, the working line becomes active. (CSCdm53420)
7. When APS Annex B is added to local end which has the secondary card active, the APS trunk goes into Comm Failure for few seconds and then clears. If the secondary card is active, do a switchyred to make the primary card active. Then, add APS Annex B (CSCdm46359).
8. MFK and above versions support LCN CAC for Class of Services. The controller reserves some LCNs for control VC as default. These reserved LCNs cannot be used by any Class of Service in MFT. If all the LCNs for the partition have been used in a version earlier than MFK after the MFT version is updated in the switch, some connections may not be added. These connections try to use LCNs reserved for control VC which is not allowed. Configure more LCNs for the partition to make sure enough LCNs exist for all the connections.
9. The OC-3 MultiMode Fiber backcards do not support Y-cable redundancy.
10. APS 1:1 is not supported for VSI in versions before MFE. (Bug CSCdp42996) APS 1:1 should not be configured on ports intended to be used by PNNI or MPLS as after switchover traffic flow is stalled on the protection line for releases before MFE. However, in MFE and above, this problem is fixed.
11. Total BW allocated to all VSI partitions on a BXM should not be more that OC12 rate, 1412832 cps. BCC SWSW allows users to configure more than OC12 rate, in which case all the PNNI connection commit requests are NACKed by BXM.
12. In firmware versions prior to MFF signaling bandwidth for an SES controller was not guaranteed. In MFF and above the signaling Qbin feature has been added (with SWSW 9.3.10 and above and SES image 1.0.10 and above) to guarantee signaling bandwidth.
13. In version MFP and above Stats Level 0 is not supported. If a card was configured with Stats Level 0 with VSI enabled in a previous release of firmware, upon upgrading to MFP, a mismatch occurs. Users have to reconfigure their cards to Stats Level 1 or above before upgrading; otherwise, VSI operation is impacted. However, the BXME (enhanced card) supports all statistic levels unconditionally with all valid configurations, models, and releases.
14. Starting with MFP through this release of MFV, changes to the alarm handling have been implemented. Excessive BIP-8 error rates (10-3) which escalate into unavailable seconds (UAS) now report to SWSW as red alarms. Therefore, SWSW fails these connections and initiates trunk rerouting.
Note This feature is not active when APS is configured and enabled. However, an exposure might
occur in configurations where APS is not enabled, on alternate trunk routes that do not exist, or
on UNI ports. Because this feature is not configurable users who do not want this behavior
should not upgrade to MFP through MFV. Instead, they should wait for a subsequent SWSW
BXM FW release in which this feature can be turned on and off (default is off) via CLI.
Known Anomalies
The following table lists the known anomalies for the BXM firmware.
Bug ID
Description
Apply to SES
CSCdr11810
Symptoms: BXM does not report Abit when SPVC fdr is provisioned w/o AR fdr segment.
Conditions: Add SPVC feeder segment. Do not provision an AR feeder. Abit failure should be reported. SWSW 8.5.10
Reproducible.
Workaround: None. This would be an enhancement.
Yes
CSCdx28781
Symptom: When inserting BIP-8 from an ADTECH test set into a OC-3 or OC-12, it is failing all connections and sending an AIS back to the test set. The proper response is only to send a FEBE back to the test set. Disconnected and reconnected to BXM with MEE
Condition: Tested with 9.3.4P and MF14 (BETA TB) and results are the same as MFP.
Workaround: Unknown
No
CSCdx43656
Symptom: SCR of SPVC service type vbr1 and vbr2 is not guaranteed, when there is congestion happened, the vbr received less traffic than abr even they have the same scr and mcr.
Conditions: With abr and vbr1/2 on the same port and congest the port, it does happen all the time, but with high frequency under the same configuration.
Workaround: Unknown.
Yes
CSCdx52484
Symptom: CBR traffic got dropped on ENNI link on BPX side where there is congestion.
Condition: resetcd of BXM can solve the problem.
Workaround: Unknown.
No
CSCdw16017
Symptom: Traffic is only seen on the ingress of the master and slave nodes.
Condition: This problem is triggered by a network condition that causes the VPC to reroute. VPC experiencing this problem have been ABRSTD with VSVD enabled one megabits or larger VPC connections.
Workaround: Uping and downing the connection clears the problem.
1. 1:1 APS with Bi-Dir configured; remote is AXSM/B.
2. Manual switchaps W->PLine from AXSM/B.
3. Forced switchaps P->WLine from BXM.
Workaround:None.
No
CSCdx55794
Symptom: BXM incorrectly sends LMI version to IGX feeder
Conditions: Add IGX feeder to the BPX/SES switch
SWSW versions 9.4.00 and BXM FW MF29
Workaround: Unknown
Yes
CSCdx72292
Symptom: BPX not allowing SES to cross-commit SPVC's
Conditions: SWSW 9.3.40 and BXM FW MF17 with 12000 SPVC's routed between two BPX/SES nodes only half are routed the rest are NACK'ed.
Workaround: There are two ways to work around:
1. When the sum of the policy parameter (% of the partition minimum bandwidth reserved for each service of class) is reaching 100% (PNNI partition only), provide at least 20 cells of common pool using cnfrsrc command.
For example:
the max bandwidth of partition 1 is X
and min bandwidth of partition 1 is Y
the max bandwidth of partition 2 is W
and min bandwidth of partition 2 is Z
Make sure that max(X, W, Y+Z) should be greater than Y+Z+20. Here, the total bandwidth allocated to that interface = max(X,W,Y+Z), the common pool for that interface = max(X, W, Y+Z) - (Y + Z).
2. When the common pool resulted from the cnfrsrc is zero, try to reduce the sum of the policy parameter (% of partition min bandwidth for each class of service) to less than 100% for PNNI partition.
Yes
Bugs Fixed in MFV
Bug ID
Description
CSCdr55738
Symptom: Switchyred on APS 1+1 trunks is taking longer than 250 msec
Condition: Performed switchyred on APS 1+1 with SWSW 9.3.10 and BXM FW MF17
Workaround: Unknown
CSCds20584
Symptom: BW change by cnftrk command does not change ER stamping BW.
Condition: When the AR ABR STD connection is programmed and the bw of trunk is changed by the cnftrk command. The changed BW does not take effect.
Workaround: Manually reset the card.
CSCdu09831
Symptom: APS fails when working backcard (active or standby) is removed from chassis when working front card is active.
Conditions: The working front card has to be the active card when working backcard is removed. This occurs when APS 1+1 ITUT non-revertive bi-directional configuration SWSW 9.2.34BXM fw MFJ.
Workaround: In operational situations always have the protecting front card and protecting backcard as active. Any failures will then switch ok and either backcard can be swapped while protecting front card is active.
CSCdv86732
Symptom: Incorrect values for Path Unavailable Seconds statistics are displayed under dspplyslnstathist. The displayed counts maybe higher than expected. For example, over a 900 second period, 910 Path UAS counts may be displayed.
While Path UAS stats are referred to specifically, other duration statistic counts could be affected as well.
Conditions: The problem occurs under the following conditions:
BXM line or trunk
The line or trunk is in major alarm (e.g. LOS, AIS, YEL)
Statistics are collected on the line or trunk to report the duration of the alarm condition (e.g. UAS).
The automatic trunk/line loopback test is disabled using the cnffunc command.
Workaround: None
CSCdw06552
Symptom: Conns should stop passing traffic when dnpnport on UNI port on SES.
Conditions: There were some SPVC connections including double-ended and single-ended SPVC connections between SES and MGX 8850 (PXM45) node.
Both UNI ports were connected to Adtech tester. Executed dnpnport on UNI port on SES, all the connections went to AIS state on MGX 8850 (PXM45) node. Started passing traffic on all those connections, the AIS state was cleared on all the connections, though AIS was still sent out from SES side, but the other end could not distinguish OAM cells from the data traffic.
When pnport is down, the connection on that interface should be programmed to set Inhibit Rx Data or send AIS out the UNI port, and stop passing traffic into the network, so that the other end can interpret OAM cells.
Workaround: Unknown.
CSCdw21798
Symptoms: Forced switchapsln when secondary section has failed is accepted.
Condition: APS AnnexB between POP2 and BPX (OC12), remove Tx and Rx cables on working section 1.
Workaround: Unknown
CSCdw51601
Symptom: dspportstats on BXM shows Rx as Zero even the port has traffic passes in both directions.
Condition: Not every single port has this problem. However we found multiple cards in the customer network have this issue. All the problem ports are T3 ports.
Workaround: None
CSCdw81944
Symptom: APS switch options 4,5,6 should not be allowed on AnnexB protocol.
Conditions: Upon switchapsln options 4, 5, 6.
Workaround: Unknown
CSCdw83849
Symptom: APS 1+1 configured between AXSM/B and BXM running ITU-AnnexB protocol:
APS Lockout request (on BXM) doesn't keep selector position.
Condition: With old ses image and BXM image ses doesn't allow to add connection and cli will reject.
Workaround: Use BXM MFV and related ses image (1.1.79)
CSCdx52531
Symptom: APS standby CD to active but no response to BCC after reset active BXM
Conditions: Enable VSI partition for MPLS and with APS configuration on BXM on BPX
Workaround: Manually reset BXM
CSCdx69563
Symptom: Continuous 105 and CD errors logged on BXM cause spvc down on SES
Conditions: Configure 100K SPVC on BPX with SES
Workaround: Unknown
CSCdx73291
Symptom: Fatal card error happened on BXM card in slot 9 after doing a full hitless rebuild on node. The card error should be a Non Fatal card error.
Conditions: A full hitless node rebuild was done on a node with many connections. This problem is related to a temporary HDLC queue overflow and should not be a fatal error.
Workaround: Unknown
CSCin03340
Symptom: BXM sends ILMI trap with incorrect number of PVCs
Conditions: The SWSW 9.3.40 feature "configurable number of changes per ILMI trap" needs support from the FW when ILMI is run by the card.
Workaround: Unknown
Bugs Fixed in MFU
Bug ID
Description
CSCdt90381
Symptom: A small outage (approx 10 msec) occurs on VPCs terminating/originating on BXM.
Condition: This will occur only during hitless rebuild.
Workaround: None
CSCdu21825
Symptom: The WINGZ shows the RX Network stat as zero even when data flows through the network.
Conditions: Occurs only on a BPX-SES Network.
Workaround: The data at the CLI shows the correct statistics, For right now the cli data can be used instead of WINGZ.Or Use MFU or later image.
CSCdu71237
Symptom: BXM card did not automatically switch to standby card
Condition: When Non Fatal Error "0xc000002" occurred on BXM trunk card and the traffic worsened.
Workaround: None
CSCdv31049
Symptom: BXM sets K1 Tx to Force Switch instead of Reverse Request even though remote had already been sending a Force Switch. BXM, however, maintains the correct line.
Condition: Remote end already had a Force Switch to Working line in effect, and local BXM receives a user command to do a Force Switch to the Protection line.
Workaround: Clear the BXM Force switch command.
CSCdv89925
Symptom: ACR is only 10 when VC shaping is enabled for UBR con
Condition: Trunk VC Shaping feature on BXM card is configured between two nodes. UBR connections are routed between the nodes.
Workaround: None
CSCdv77996
Symptom: dspapsln reports wrong info w.r.t. aps when one of the yred cards is out.
Conditions: This bug fix is available in firmware release MFR, but swsw bug fix should be there in order to have the complete solution.
swsw bug: CSCdw35862 9.3.30 MJ01
Further Problem Description: When one card of aps pair is removed, then reset dspapsln shows lines as ok. Should show card failed or missing.
CSCdw06552
Symptom: Conns should stop passing traffic when dnpnport on UNI port on SES.
Conditions: There were some SPVC connections including double-ended and single-ended SPVC connections between SES and MGX 8850 (PXM45) node. Both UNI ports were connected to Adtech tester. Executed dnpnport on UNI port on SES, all the connections went to AIS state on MGX Release 2 node. Started passing traffic on all those connections, the AIS state was cleared on all the connections, though AIS was still sent out from SES side, but the other end could not distinguish OAM cells from the data traffic.
When pnport is down, the connection on that interface should be programmed to set Inhibit Rx Data or send AIS out the UNI port, and stop passing traffic into the network, so that the other end can interpret OAM cells.
Workaround: None
Note: This is a partial fix and relies on a SES DDTS CSCdv48496 for resolution.
CSCdw21798
Symptoms: Forced switch when secondary section has failed is accepted.
Condition: APS AnnexB between POP2 and BPX (OC12), remove Tx and Rx cables on working section 1.
Work around: None
CSCdw25074
Symptom: When inserting 1E-03 errors into the whole frame of STM-4 trunk 3.1 (errors inserted in the direction A to B) BPX A becomes unreachable i.e. cannot telnet to BPX A. VT to A from another BPX times out and there's an HPOV event stating that the link is down to A.
The other nodes in the network remain reachable. Venus node log shows that the BCC has a suspected failure (Which indicates corruption of the BCC self test)a few minutes after inserting the errors into the trunk at B.
Removing the errors from the trunk results in BPX Venus becoming reachable. Same problem seen with the other BCC active. This is consistently reproducible. If reroutes on another trunk (e.g. trk 1.1) are taking place when the errors are being inserted into trk 3.1, the connections (which are pref 'd' onto trk 1.1) remain derouted until the errors are removed from trk 3.1.
Conditions: Errors inserted at 10 -3 in one direction from A to B cause A to go unreachable Found in Lab environment running 9.2.38 with MFN firmware on 155 and 622 optical card types.
Workaround: DNTRK to force a reroute
CSCdw53395
Symptoms: Traffic disrupted in the via node. No ais is propagated to other master end if slave end port is down.
Conditions: mostly when MGX 8850 (PXM45) is connected to SES.
Workaround: None
CSCdw54957
Symptom: ENNI change EFCI to 0 when receive EFCI =1 from MGX45
Conditions: 9.3.3i MFR
Workaround:
Further Problem Description: When there is a congestion on MGX egress port, MGX45 sets EFCI=1 for all SPVC's/xpvc's on that port to the downstream.
CSCdw62999
Symptom: BPX sends a wrong value for K1
Condition: APS interop testing between BPX and AXSM/B OC-3.
Workaround: None
CSCdw63238
Symptom: BXM sends RDI trap to SES which does a dnpnport
Conditions: Config is bxm uni with aps 1+1, s/w 9.3.35, f/w MFR, SES s/w 1.1.71.
Workaround: None
CSCdw75999
Symptom: Dspconstats on an SES CLI for an SPVC connection shows that clp0 discards and clp1 discard counts are interchanged.
Conditions: SES 1.0(14), BXM FW MFR
Discards due to the policing action are reported incorrectly in dspconstats cmd. Discards due to congestion are reported correctly.
Workaround: None
Update BXM FW to MFU or later.
CSCdw88723
Symptom: Say BXM1 is a BME card. BXM2 is normal BXM card running fw image MFC-MFT. Multicast root connection runs from BXM2 to BXM1 and fans out to other connections at BXM1 port 2. We will see high number of ingress cell discards on the root connection at BXM2.
Condition: BXM2 running f/w image between MFC to MFT
Workaround: None. Use firmware image MFU or later on BXM2.
Bugs Fixed in MFT
Bug ID
Description
CSCdw54957
Symptom: ENNI change EFCI to 0 when receive EFCI =1 from MGX45.
Conditions: SWSW: 9.3.3i, BXM FW: MFR
When there is a congestion on MGX egress port, MGX45 sets EFCI=1 for all SPVC's/xpvc's on that port to the downstream.
Workaround: None
Bugs Fixed in MFR
Bug ID
Description
CSCdv90721
Symptom: The prevalent symptom is Tx BIP 16 and B-Frame Parity slot errors on BXM-622 or BXM-155 cards. Occasional SIU Phase and Rx BIP 16 errors may also occur on BXM-622 and BXM-155 cards depending on the severity of the problem.
Conditions: Can occur with any version of BXM firmware on BXM-622 or BXM-155 cards. The aggregate cell transfer rate of the BXM card is 1,412,832 cells/second so the problem can occur on BXM-622 or BXM-155 cards even if the load on each line is well below line rate. The problem occurs during oversubscription when multiple high speed cards have traffic destined for a particular card through the switching fabric.
Workaround: To solve the BCC-4 software error 742 problem upgrade switch software to 9.1.22, 9.2.31, 9.3.00 or later.
CSCdw16362
Symptom: The BXM card changed the state from active to empty for a particular slot and failed to communicate with the BCC.
Condition: Switch software was upgraded for the particular BXM and statistics were enabled before the current state. Now the particular slot is in empty state although both front and back cards are present for the slot.
This loop happened because of spvc statistics task. It happens when new spvc_config_stats command comes in the vsi message with more than currently configured stat ids. Due to this the data base will be updated. During this update some flag was not set properly and it leads to a loop.
Workaround: Not known other than the physical removal of the card.
Or Use MFR or later images.
CSCdm50659
Symptom: Trunk alarms are not generated when random bit errors are injected onto a trunk using an Adtech Sx14 test set at a rate of 10E-3. There are trunk statistics generated but no trunk alarm because the statistics that cause alarms on do not meet the threshold for MAJOR or MINOR alarms.
Conditions: This was generated in a lab environment with test equipment that was set to inject bit errors randomly through the entire bandwidth. Some HCS errors were generated as well as Path unavailable and Path Farend unavailable.
Workaround: Lowering the alarm threshold for MAJOR and MINORHCS errors can help to generate a trunk alarm. Use the cnflnalm command and modify the Hcserr alarm thresholds to .01 for MAJOR and .0001 for MINOR.
These thresholds are as low as they can be set currently.
CSCdt82384
Symptom: APS trunk built on bxm-155-4d. sf and sd thresholds set to 5 and UNI-direction non-revertive switching with cnfapsln.
Random logic errors inserted into the working pair of the trunk to observe protection switch at sf threshold.
Good switch at 1 in 103 and 105 but when 1 in 104 inserted trunk goes unstable repeatedly switching from working to protection and vice versa.
Trunk continues to toggle until errors removed.
Conditions: BXM-155 enhanced cards using APS card cage and injecting 10^4 error rate into one of the working lines.
Workaround:
Bugs Fixed in MFP
Bug ID
Description
CSCds47753
Symptoms: Card error will happen in standby "VrmDekConnEndPoint Try to delete".
Condition: When standby syncs up with active, it tries to delete a not existing connection.
Workaround: The card error indicates that there is a invalid try of deleting a non-existing connection. It should not create any problem in existing or new connection.
CSCds75845
Symptom: There is no ER stamping cell generated from BPX in SES environment. Although, CI is set to be off and ER is on by using cnfabrparam, CI cells are still observed where there is congestion.
Condition: When the connection is routed by PNNI (created by using SES controller.)
Workaround: No workaround
CSCdt55356
Symptom: After configured status of all nni links to dwon at SES node svcpop2, then configured all links up. while the 100k spvc connections are derouting and rerouting. at bxm, slot 11, 12, 13 and 14 are reset by itself.
Condition: MGX nodes p2spvc4 and p2spvc3(via node) both have standalone PXM45-B card.
Initially 100K spvc connections have been established between p2spvc4 and SES node svcpop2 end points.
Workaround: It was found that a deadlock in the firmware code (SC_task and device's driver). In order to solve the problem, mutual-exclusion semaphore is selected for QE, SABRE, SIMBA and RCMP instead of binary semaphore.
CSCdu21842
Symptom: ILMI does not report correct status of the ATM PVCs when Protocol by card is enabled.
Conditions: When a BPX is connected to a router through a BXM card and ILMI Protocol is run by the card.
Workaround: None.
CSCdu04976
Symptom: Around 200 SPVCs stuck in Rx ais after resetting BCC.
Conditions: Resetting the BCC during resync with a SES controller causes this problem as the AIS bit-map is cleared.
PXM: 1.1(50.100)A1
BXM: MF15
SWSW: 9.3.3E
Workaround: Unknown
CSCdu29758
Symptom: After power cycle BXM card send the OAM F4 Segment loopback from ADTECH test equipment to BXM received a different VCI value.
Conditions: The first couple of loopback cells received have incorrect VCI values.
BXM=MFJ, BPX 9.2.31
BXMa-BPX==BPX-BXMb<-> ADTECH (OAM F4Loopback)
Workaround: None
CSCdu63175
Symptom: LOF and Bert_SD alarm uncleared on BXM
Conditions: 1+1 aps with bi-dir on BPX and MGX
Workaround: switchcdred/switchyred on BXM
CSCdu89263
Symptom: When running XLMI on a BXM port which is connected to an AXSM enni port, BXM XLMI sending slot 0 and incorrect port number in the node status msg.BXM XLMI is configured with polling disabled.
Condition: Running XLMI and disable the polling.
Workaround: Enable the polling, then disable it.
CSCdv18519
Symptom: In reading MF* BXM MFM fw release notes, it was discovered the Stats collection level 0 is no longer supported in MFM and beyond. Ie, Stats level 0 supports 32k cons stats level 1 16k cons.
Condition: 9.3.3V
MF21
Workaround: See MFM release notes Stat level 0 no longer supported on Legacy BXM cards.
CSCdv21924
Symptom: By running XLMI, when the NodeStatus message didn't get ack back, it would retry every T396 (polling timer), instead of using the correct T393 timer.
Condition: When XLMI is configured and link/line is down. XLMI NodeStatus retry mechanism kicks in. But a wrong timer T396 was used for retrying interval.
Work around: It won't cause any service interrupting or deteriorating and it won't show up under normal operating condition. If a specific NodeStatus retry interval is really needed, one can configure T396 to that value temporarily before the fix is in.
CSCdv21999
Symptom: BXM sends a port failure VSI msg to the controller after switchyred.
Conditions: Under yred configuration, and running LMI on PNNI port on this card. Switchyred so the standby card become active and the port on standby card from failure state to OK.
Workaround: None
CSCdv32466
Symptom: A enni port is still showing as failed after switchyred when it becomes OK.
Conditions: Yred and APS 1+1 are configured. XLMI is runng on the enni port. On the previous active card, the port was in a fail state. When the failure got recovered very quick during the switchyred, BXM missed the OK report to BCC, so BCC still shows this port as fail state.
SW and FW version: 9.3.30 MF25
Workaround: None
CSCdv43448
Symptom: The command dsppnports shows the port in "LostConnectivity" state.
Condition: Disable ilmi on bpx using cnfvsiif
Work Around: Reset the card. This problem happens only in MFN due to the chkin done in Aug 13 2001. Or use Firmware image newer than MFN.
CSCdv52437
Symptom: Comm Failure after Working line experiences "Remote Yellow"
Conditions: APS 1+1 bidirectional mode GR-253 and ITU After remote experiences LOS on Protection line, the local active Working line will have a Remote Yellow alarm. This alarm eventually causes a Communications failure, and traffic will be rerouted.
Workaround: Use unidirectional mode
CSCdv57400
Symptom: Customer removes commands under ATM interface or tears vc down and up again the router will send two traps to the BXM VSI port but only looks like it is re-acting to the first trap hence the remote router will receive AIS and then transmit RDI. The connection will never come out of this state unless the remote end from the SES is bounced.
Conditions: Must be attached to a PNNI VSI port on the BXM.
Workaround:
1. Switch ILMI off on the port.
2. Disable oam-manage on the routers.
CSCdv58157
Symptom: On BXM switchover, the VSI abr VP falls to MCR.
Condition: BXM FW up to MFN (MF30). Standby BXM should collect this VP abr connection during initial data transfer phase. ie. Standby BXM is inserted later than active card or is reset after connection provisioning. Check with 'rsh slot# sabre GetSabreParams sabre# lcn#' and look for 'Path con' field. Switchover to stdby in this case will cause the problem.
Workaround: Reassert/resync all the connections. Use firmware later than MFN.
CSCdv62493
Symptom: BXM does not send Node status counters to BCC
Conditions: XLMI is running on card
Workaround: None. This is an enhancement.
CSCdv66806
Symptom: Dax conn does not get rerouted if added when slave interface is down; and later when slave interface is brought back up.
Condition: This is applicable only for dax conns on SES - not on MGX2.
Workaround: Delete and re-add the dax conn when the slave interface is up - it will get routed.
CSCdv86166
Symptom: A feeder trk shows UNREACHABLE after switchyred, while it was actually uprunning without any communication problem.
Condition: When running FDR-LMI in a yred pair, the FDR trunk was in a fail state. After switchyred, the FDR trunk changed its state to be OK, however, dspnode still shows this fdr trk was in the UNREASHABLE state.
Workaround: No service impact, though the fdr trk shows as unreachable. To get the correct state, reset the card.
Bugs Fixed in MFN
Bug ID
Description
CSCds08461
Symptoms: Incorrect operations (SF_LOW sent) after detecting mode mismatch
Conditions: BXM configured as APS 1+1 Bidirectional mode, and is attached to a node configured as 1+1 Unidirectional.
Workaround: Manual administrative intervention to synchronize both nodes to the appropriate mode.
CSCds53524
Symptom: SWLOG error 109 on BPX
Conditions: SWSW 9.3.10, Cards: BXM 155
While adding connections between BPX nodes found a swlog 109
Workaround: Under Investigation
CSCds78285
Symptom: Connections in failed or BuildingVC state.
Conditions: CAC policy was not downloaded to some of the BXMs.
Workaround: None
CSCds91102
Symptom: BXM card interfaces went into provisioning state
Conditions: BXM card was reset and pxm did a resync
Workaround: None
CSCdt35547
Symptom: Cell drops at a cbr connection when a cbr connection and an abr connection are congested at an enni trunk
Conditions: When congestion exists at an enni trunk in a AR/PNNI hybrid network.
Workaround: No workaround
CSCdt38471
Symptoms: The available BXM TCB buffer went down to zero and the card got stuck.
Conditions: This happened in the 100k SPVC devtest setup. The problem can be reproduced by performing switchyred on two BXM redundancy cards.
Workaround: The reasons to cause TCB buffer leakage were found. Furthermore, the holes in the firmware code have been sealed. The fix will be included in the firmware releases MFM or later.
CSCdt41728
Symptoms: Card error VrmRetLcnResources was observed
Conditions: This bug is reproduced in 100K network when port 1.2 of orses7, which is connected to adtech is seeing temporary LOS. This happened when Adtech is power cycling. Also 1.2 is the end point of 6666 routed SPVCs.
Workaround: No workaround
CSCdt53756
Symptom: SES had huge CDV value compared to MGX 8850 R2.
Conditions: Always occurs
Workaround: None
CSCdt55356
Symptom: After configured status of all nni links to dwon at SES node svcpop2, then configured all links up. while the 100k spvc connections are derouting and rerouting. at bxm, slot 11, 12, 13 and 14 are reset by itself.
Conditions: MGX nodes p2spvc4 and p2spvc3(via node) both have standalone PXM45-B card. Initially 100K spvc connections have been established between p2spvc4 and SES node svcpop2 end points.
Workaround: It was found that a deadlock in the firmware code (SC_task and device's driver). In order to solve the problem, mutual-exclusion semaphore is selected for QE, SABRE, SIMBA and RCMP instead of binary semaphore.
CSCdt68427
Symptom: After dellp is done traffic isn't right when VP connection and cnfln VC shaping enable.
Conditions: A dellp was done on a VP with VC shaping enabled.
Workaround: None
CSCdu08104
Symptom: AR connections don't pass traffic or some links be in comm fail condition.
Conditions: The intermediate devtest release for VC-merge project had a problem. On downloading this image would some time bring down the trunk.
Workarounds: There are no known workarounds.
CSCdu12049
Symptom: BXM Card switches on Nortel exercising to test APS Link. This happens everytime test is completed.
Conditions: BXM card is not reacting to K1 bits correctly.
Workaround: There are no known workarounds.
CSCdu20728
Symptom: One end of the trunk experiences unbalanced Rx/Tx high priority cells in dspqbinstats. Any CBR traffic on the trunk will not be seen in the CBR QBIN stats.
Conditions: Unknown
Workaround: None yet.
CSCdu22039
Symptom: F4 F5 Code mapping modifications
Conditions: None
Workaround: None
CSCdu23725
Symptom: Attempt to configure the booking factor on a UNI port failed. Err msg: "ERROR: Switch Response returned Failure".
Conditions: The conditions for the error is unknown since the CAC feature on the UNI port hasn't been studied before and there were many activities such as addcon, cable failure prior the problem detected.
Workaround: Unknown
CSCdu26023
Symptom: When PNNI&MPLS partitions are configured in a interface with no common pool of bandwidth, only one of the partition will be working fine and the other partition will not come up.
Conditions: When PNNI&MPLS is configured in a interface with no common pool of bandwidth, due to the rounding up of the bandwidth for each service type in PNNI by policy parameters, the total bandwidth of a partition, resulted from adding bandwidths of all service types, will go beyond the max bandwidth of both partitions. Because of this, only the first partition will succeed and the other partition will be rejected by cac.
Workaround: Provide at least 20 cells of common pool using cnfrsrc command.
CSCdu29758
Symptom: After power cycle BXM card send the OAM F4 Segment loopback from ADTECH test equipment to BXM received a different VCI value.
Symptom: Although equipment is NOT connected to PROT Line, Standby Line Alarm Status is OK on dspapsln. This symptom appears when CDERR is logged at timing of addapsln.
Conditions: Standby line is not connected to equipment.
Workaround: None
CSCdu48766
Symptom: VI programming on enhanced cards is improper.
Conditions: Virtual Trunks were Dropping all cells
Workaround: None
CSCdu50129
Symptom: While cwm coldstart then down two links with 32K connections at orses2 nodes. cwm can not sync up with orses2 node any more and stuck in mode 2.
Condition: There are 50K spvc dax connections at node orses2.
Workaround: CWM needs to coldstart again.
CSCdu59151
Symptoms: APS commands switchapsln F/M on PXM fails.
Condition: BXM running devtest image MF20 with APS configured as ITU-T Annex A and the remote node is any box that strictly adheres to G.783 Annex A, specifically regarding not sending "mode" bits.
Workaround: Don't use devtest image MF20 for ITUT Annex A.
CSCdu59240
Symptom: Alarms on 1:1 APS BPX side uncleared after 1:1 aps back to Bi-dir on MGX side
Conditions: 1:1 aps with bi-dir on BPX and 1:1 aps with uni-dir on MGX
Workaround: Unknown.
CSCdu62336
Symptom: Code clean-up
Conditions: None
Workaround: Unknown.
CSCdu67053
Symptom: When BXM OC-3 card was downgraded from M.F.21 to M.E.K continuous card errors were being logged.
Condition: M.E.K. FW was burned on the standby card that was configured for Y-Red and had APS 1+1 lines configured with traffic.
Workaround: Use matching firmware versions on YRED pair.
CSCdu75130
Symptom: Active card in the y-red pair continuously Making the connections.
Resource usage in active and standby card differs.
Conditions:
1. Active card up & running
2. Intracard connections between two interfaces on the same BXM.
3. Booking factor less that 100% on above interfaces.
4. Stdby card is inserted at this time.
Workaround: Resetting both the active and sdtby cards at the same time.
CSCdu82229
Symptom: ILMI polling when "Protocol by Card" is configured to "Yes" is inconsistent and unpredictable.
Conditions: When ILMI is running on card and its peer is running version 3.0/3.1, the polling interval timer was set with wrong value, which was the 1/5 of the configured polling interval. For correct behavior, refer to SCM note of this bug.
Workaround: Use OAM instead of ILMI
CSCdu87060
Symptom: pnport on SES goes into building vc state.
Condition: Change the signalling vpi using cnfpnportsig.
Workaround: Reset the bxm card.
CSCdu88418
Symptom:
1. After SwSw upgrade from 9.2.34 -> 9.3.3W, BXME OC-12 card with APS 1+1 setup logged swsw err. 105 and card errs.
2. This problem have been observed several times before.
Conditions: This event happened after SWSW upgrade.
Workaround: Need DE input.
CSCdv08977
Symptom: Unable add PNNI VSI connections on a y-red BXM pair when upgraded from BXM to BXM-E. Standby card not in SYNC with active card. Policy parameters for the first interface/partition on the active card missing.
Condition: BXM FirmWare MFN and before. Any Sw/Sw supporting hot upgrade on BXM. Upgrade procedure is followed to upgrade a y-red pair of BXM from BXM to BXM-E cards. Note that the policy params for the first interface/partition on the active card are messed up. If this interface has booking factor less than 100% then above defect will surface.
Workaround: Resetting both the BXM cards after upgrade. OR -- Use MFN or later BXM FW before upgrade and on enhanced cards.
1. This problem occurs after burning BXM FW MF21 -> MJ04
2. It occurs after switchyred
3. It occurs after rerouting of connections
Workaround: Need a fix from BXM FW DEs
CSCdv30471
Symptoms: Active and Standby card do not sync up in terms on number of connections. VSI yred pair.
Conditions: FW image prior to MFN. When VSI partition #3 is used by controller.
Workaround: Do not use partition #3.
CSCdv30755
Symptom: Traffic discontinuity on SPVC connections on consecutive switch-yreds on BXMs.
Condition: To begin with BXM with UNI interfaces should have de-routed connections which are later routed properly. This can happen during initial provisioning of the SPVCs or on re-routing the conns after trunks (NNI) go down and up.
Two or more consecutive switchovers on the BXMs hosting UNI interfaces (persistent endpoints of SPVCs).
Workarounds:
1. Reroute/resync all the connections and reset the stdby card once active card has all conns.
2. Do no do BXM switchovers more than once.
3. Reset standby card before doing the first switchover.
Bugs Fixed in MFM
Bug ID
Description
CSCdr16007
Symptom: ILMI trap atmfVccChange returns invalid agent-addr (48.48.48.48), while the correct one shall be (0.0.0.0). "ERROR Invalid agent-addr".
Conditions: The error happens during adding or deleting connections.
Conditions: The error happens during adding or deleting connections.
Workaround: None
CSCds06835
Symptom: Nodes become unreachable if CC traffic traverses to the destination node via a UXM-BXM virtual trunk.
Conditions: CC traffic is passed across virtual trunks.
Workaround: Change the trunk configuration with cnftrk command to restrict CC traffic on virtual trunks.
CSCds74110
Symptom: The second leaky bucket doesn't adhere to the leaky bucket algorithm.
When testing a VBR connection on a BXM-E3 you can burst over the expected value for the connection.
Conditions: A connection can exceed his calculated burst size for a VBR connection.
Workaround: There is no workaround.
CSCds75477
Symptom: When a delay of over 200ms is introduced to a trunk with a Addtech tester, 75% of the time the tstdelay result gives a reading lower than the actual RTD. ie we would expect over 400ms but get 150ms.
Conditions: The tstdelay test reports inaccurate results.
Workaround: None
CSCdt21547
Symptom: There is no command available to clear SPVC statistics on SES controller.
Conditions: SPVC statistics cannot be cleared via SES
Workaround: None
CSCdt36060
Symptom: The tstdelay command intermittently fails.
Conditions: Tstdelay intermittently failed when BPX is configured as a segment endpoint for VCC and VPC established between a MGX abd BPX
Workaround: None
CSCdt43471
Symptom:
1. Card errors of "Non Fatal Error id: 0x12000003"
2. Unknown vpi/vci in dsptrkstats and dspportstats
Conditions: Enhanced BXM cards with 1 port group and supports greater than 32K LCNs.
Workaround: None
CSCdt44670
Symptoms: The available BXM TCB buffer went down to zero and the card got stuck.
Conditions: This happened in the 100k SPVC devtest setup. The problem can be reproduced by performing "switchyred" on two BXM redundancy cards.
Workaround: None
CSCdt45820
Symptom:
1. Card errors of "Non Fatal Error id: 0x12000003"
2. Unknown vpi/vci in dsptrkstats and dspportstats
Conditions: Enhanced BXM cards with 1 port group and supports greater than 32K LCNs.
Workaround: None
CSCdt45966
Symptom: Resync process starts and SPVC connections are re-asserted on BXM switch over.
Condition: Intra-slave (DACS) SPVC connections are conditioned (AIS/Abit generation) due to external factors.
Workaround: None
CSCdt46282
Symptom: On SPVC connection CDVT programmed is not observed when testing.
Conditions: When user tries to set up the CDVT value to less than 10ms due to a bug in the firmware BXM uses the value 250ms.
Workaround: Use values above 10ms.
CSCdt48062
Symptom: Ports remain in "provisioning" state on SES.
Condition: Enabling /disabling the partitions on BXM interfaces (specially on engineering BXM images after MFJ between MF08 to MF12)
Workaround: Do not re-enable the partition after disabling it. BXM need to be reset if re-enabled configuration has to take effect.
CSCdt58185
Symptom: The CESM-E8 dropped cells after 1/2 hrs. (Seeing the clock synchronization problem.
Conditions: When selecting a clock from the trunk or passing the sync along the trunk. BXM-OC3-D or DX (enhanced) card did not behave properly.
Workaround: Use any other type of BXM card except for the BXM-OC3 enhanced.
CSCdt78404
Symptom: 70K SPVCs stuck in Rx side AIS after resetsys/switchcc on PXM overnight.
Conditions: SPVCs stuck in AIS state
Workaround: Reset BXM card.
CSCdt75817
Symptom: Asymmetric ABRSTD connections using VSVD will not ramp up ACR to higher than the lower PCR setting.
Conditions: It happens when an asymmetric ABR connection is added or modified.
Workaround: The problem was identified as incorrect programming SABRE chip and has been fixed in MFM or later FW.
CSCdt80542
Symptom: BXM does guarantee at least mcr value on abr connection on a congested port.
Condition: Traffic was pumped on a congested port having abr conns.
Workaround: Unknown.
CSCdt88482
Symptom: The available TX cell rate is lot smaller than available RX cell rate. The available TX cell rate for signalling is a huge negative number
Condition: 100K spvc connections have been established between MGX and BPX nodes.
Workaround: Reset BXM card
Bugs Fixed in MFL
Bug ID
Description
CSCds15145
Symptom: Max BW could be configured as less than Min.
Conditions: This might happen as the policy parameter might not be checked for the consistency.
Workaround: Do not configure Max below min.
CSCds06835
Symptom: Nodes become unreachable if CC traffic traverses to the destination node via a UXM-BXM virtual trunk.
Conditions: CC traffic is passed across virtual trunks.
Workaround: Change the trunk configuration with cnftrk command to restrict CC traffic on virtual trunks.
CSCds75221
Symptom: When Issuing the command "dspconstats" for abr or ubr connection it does not report the CLP0 and CLP1 correctly.
Conditions: Statistics for abr and ubr not updated.
Workaround: None
CSCdt38554
Symptom: After executing resetsys on the node(svcpop2) pxm1 cards. there
are two ports stuck in building vc.
Conditions: The node(svcpop2) has 100k routed spvc connections.
Workaround: Unknown
CSCdt45966
Symptom: Checksum calculation is not correct in BXM.
Conditions: Connection conditioning via bulk set cmd.
Workaround: Uppnport/dnpnport on UNI and NNI port and do switchyred to kick resync.
CSCdt48062
Symptom: Port gets stuck in building VC state.
Conditions: Connection admission control.
Workaround: Establish connections of various service type and bandwidth requirements.
Bugs Fixed in MFK
Bug ID
Description
CSCdt21322
Symptom: BXM load info returned to controller is wrong when maxbw set to 0.
Conditions: Reproducible
Workaround: None.
CSCdp16050
Symptom: maxvc functionality for CAC not working
Conditions: reproducible
Workaround: None.
CSCdt04632
Symptoms: For a vsi partition, the reporting available number of LCN is greater than the maximum number of LCN configured for that partition.
Conditions: When the port group unused LCN is less than the maximum LCN configured for the partition and the unused LCN for the port group plus the LCN that still left from the reserved (min-curr) is greater than the max of the partition.
Conditions: Continually doing switchcc with large amounts of AR/SPVC connections
Workaround: Reset BXM card
CSCds76142
Symptom: BXM card shows standby-failed status
Condition: Download firmware on standby card
Workaround: Reset BXM card.
CSCds65105
Symptom: When pumping the ATM CBR traffic at the rate over = of port line rate (BXM-622), at the egress 'dspchstats' shown the number of cells 'From Network' twice larger than 'To Port'.
Conditions: DAX conn from BXM-622 port 1-2 on the same node with ADTECH generate traffic.
Workaround: None
CSCdr19696
Symptom: User never gets to know when the line is out of SD/SF condition. both the aps lines always show in OK state in dspapsln.
Conditions: APS Line switches to stby line because of SD/SF condition. dspapsln will still show OK for both the lines. This way, user will never get to know when this line has come out of SD/SF condition.
Workaround: Use rsh command to get all the aps line's status.
Bugs Fixed in MFJ
Bug ID
Description
CSCds61912
Symptom: After downloading new firmware(MF30), card in failed state.
Conditions: Downloading MF30 firmware release.
Workaround: Don't use MF30 which is a development release between MFH and MFJ.
CSCds11506
Symptom: Min guaranteed cell rate shows a cell less than configured.
Conditions: Setting min BW to say 3333334 and policy BW% to 5859
Workaround: Increase the minBW by few cells.
CSCdr19696
Symptom: User never gets to know when the line is out of SD/SF condition. Both the aps lines always show in OK state in dspapsln.
Conditions: APS Line switches to stby line because of SD/SF condition. dspapsln will still show OK for both the lines. This way, user will never get to know when this line has come out of SD/SF condition.
Workaround: Use rsh command to get all the aps line's status.
CSCds32845
Symptom: Connection commits rejected with reason 'no resources even when resources are actually available.
Conditions: Enabling/disabling a virtual trunk.
Workaround: Resetting the BXM after disabling a VT on any interface on the card.
CSCds37237
Symptom: When upgrade BXM firmware image to BXMMFH from images between BXMMFC-BXMMFF, if the network migration flag was enabled in a card before the upgrading, then after burning the new image to the card, the network migration flag becomes disabled mistakenly.
Conditions: The problem only happens to the card whose previous image is BXMMFC-BXMMFF, and the network migration flag was enabled before upgrading, and BXMMFH has to be the new image.
Workaround: Upgrading to image BXMMFH+ (not including BXMMFH), will not have any problem. network migration flag is always enabled, and no user command available any more to disable it.
Only for the situation you need to upgrade image to BXMMFH and your card's previous images is BXMMFC-BXMMFF, you may see the problem. The workaround is, issue either the "rsh <slot> cdcfg netwotk dis" command before the upgrading, or "rsh <slot> cdcfg netwotk ena" after the upgrading, to enable the netwotk migration flag on BXMMFH.
CSCds59710
Symptom: Loss of traffic on a VPC connection added with VPI=0.
Conditions: SWSW: 9.3.10
BXM FW: MFF
The port on which the VPC connection has been added has a VSI ctrlr attached to it and the Ctrlr is usingVPI=0 and VCI=x for its signalling channel.
Workaround: If a VPC connection exists with VPI=0, on the port to which a Ctrlr is to be added, configure the signallingchannel on the controller side to use a VPI other than 0.
CSCds63578
Symptom: SW errors 105 logged on BXM while adding VSI connections. Subsequent card errors saying CB_TASK restarted.
Conditions: This error sometimes happen when a VSI partition is enabled/disabled many times.
Workaround: Reset the BXM.
CSCds65105
Symptom: When pumping the ATM CBR traffic at the rate over = of port line rate (BXM-622), at the egress 'dspchstats' shown the number of cells 'From Network' twice larger than 'To Port'.
Conditions: DAX conn from BXM-622 port 1-2 on the same node with ADTECH generate traffic.
Workaround: None
CSCds67854
Symptom: SPVC cannot be routed over the virtual trunk even when enough bandwidth and lcn are available. Routed connections discard some traffic.
Conditions: Routing connections of different service types over the virtual trunks.
Workaround: None.
CSCds04137
Symptom: Channels remain mismatch after lockout is cleared
Conditions: In ITU-T Annex B protocol for APS, when a condition causes a switch to occur while a lockout request is present, the channel change will not resynchronize even after the lockout is cleared.
Workaround: No
CSCds53645
Symptom: ABR connections (PNNI) not programmed properly for redundant slave.
Conditions: Switchyred
When connection is added, redundant card is not there and inserted at later stage.
When connection is added, no redundant config, addyred at later stage.
Workaround: None
Bugs Fixed in MFH
Bug ID
Description
CSCds14495
Symptom: Dynamic Partitioning and SPVC AIS generation would not work on a card until a rsh command is issued to enable the network migration flag and reset the card.
Conditions: When a card comes up and has never enabled the network migration flag for life time.This network migration flag is used for enabling dynamic partitioning and SPVC AIS, status report generations. By default, the flag is disabled.
Workaround: Use the "rsh <slot> cdcfg netmig en/dis" command to enable/disable the flag, then reset the card once in a lifetime.
Bugs Fixed in MFF
Bug ID
Description
CSCds08448
Symptom: ERS (explicit rate stamping) is working only first virtual trunk and NOT for subsequent VTs (standard ABR)
Conditions: When ERS is enabled on a card basis using "cnfabrparm", the mapping is done on a port-by-port basis. The port_vi is used but for virtual trunks, this mapping does not hold true. Need to change the mapping to the physical port.
Workaround: On any physical port, just set up one virtual trunks. Or a physical trunk. Multiple VTs on the same physical port will cause a problem.
CSCdr79610
Symptom: Change booking factor for a class of service, get rejected.
Conditions: When there are some connections established, and some of the class of service have used bandwidth exceeding their reserved, change booking factor for any class of the service may get rejected.
This is because it fails the check which should only be called when cos_min_bw in the policy parameters is changed. This check should not be called when booking factor is changed.
Workaround: Disable that partition, change the booking factor, then enable the partition again. Or keep the used_bw for all cos under teh cos_min_bw, you will be able to change booking factor freely.
CSCdr76334
Symptom: Connect OC3 port on BXM with 7200 router, connect 2 OC3 ports back to back. enable ILMI on router, and ILMI, protocol on card cnfrsrc VSI part 1 disable NebDiscovery on ports.when running cnfnodeparm 56 0|1 and With VSI disabled, peer info is transmitted to peer. delcntrl, and cnfrsrc deleting VSI partition, fails to disable Peer information as well.
Conditions: ilmi_enable_from_contrl bit was not cleared when delctrlr, or vsi partition deleted, thus vsi code kept issuing get requests and responding to peer information.
In AR/VSI hybrid networks, and for backward compatibility either BXMs w/o NebDisc, or swsw versions. Topo traps are not sent to downrev'd swsw versions, and are controllable by sw software for versions including the feature.
Code was added to properly support disabling of VSI functionality using delctrlr or cnfrsrc @ Bcc in addition to existing dnpnport @ the vsi controller. support for backrev'd cards added, and corrections to logic in Ilmi FSM state machine to properly send TopoTrap to BCC.
Workaround: None
CSCdr79936
Symptom: Stats files not generated/missing on some 15 minutes intervals.
Conditions: When system time is changed at 15 minutes boundaries.
Workaround: Minimize system time and card config changes.
CSCdr83144
Symptom: Card error of:
Description: 'N. Fatal from 0x17: 0x25120075 0x809b5f90 0x367e 0x1
Conditions: switchyred, switchcc or reset PXM when there are spvc connections with stats enabled.
Workaround: None
CSCds11484
Symptom: Available cell rate reported by BXM is incorrect.
Conditions: Sum of the minimum bandwidths of all the interfaces on a BXM reaches OC12.
Workaround: Reduce minimum BW on all interfaces by half.
CSCdr89217
Symptom: Software Error Log of 9098
Conditions: cnfrsrc of partition 3 using MEB firmware
Workaround: None
CSCdr89966
Symptom: Card Error of 0x41030006
Conditions: PXM controller is upgraded/re-booted
Workaround: None
CSCdp89085
Symptoms: The total call count becomes negative on the BXM interface. However, this problem has not been reproducible.
Conditions: If this problem happens, the following card error is displayed:
'vsi_rsrc_pfns.c 483 VrmRetLcnResources 3, 16316'
Workaround: A related bug CSCdr86894 which reported an incorrect number of total call counts, has been found to be the result of an uninitialized variable in vsi_rsrc_conn_pfns.c: VrmRsrcClrRCMP().
The debugging information embedded in this function may be helpful in verifying the negative call count problem if it is reproduced.
Bugs Fixed in MFE
Bug ID
Description
CSCdp05098
Symptom: Cell discards occur for ABRFST/ABRSTD conns when the traffic burst is greater than the MBS
Conditions: This occurs when the traffic burst size is fixed to 140000 cells at 70000 cps. The conn are configured with PCR=72000/72000, MBS=1000/1000 and ICR 7200/7200. This is the expected behavior since the configured MBS < the actual burst size.
Workaround: Increase the MBS and ICR using cnfcon.
CSCdr59731
Symptom: Port 11.1 is connected to 11.2 and ILMI are up and running on both ports. Enable neighbor discovery on 11.1, then 11.2.
The 0x71 responses/traps from BXM fw is not predictable. At least two variations are observed:
1. port 11.2 has it's neighbor's info but port 11.1 doesn't.
2. both port 11.1 and 11.2 only know the IP addresses of their neighbors. The Neighbor's IFName are missing.
Problem was observed in MF17, but code changes in more recent builds had already repaired the problem.
Conditions: When ILMI session restarts, remnants of IfName, IpAddr from previous session left. Clr/reset IfName,IpAddr in MIB, on ILMI session restart In FMSStart, pIlmiProcessFsmStart() calls a new function IlmiClrPeerAndSendTopoTrap(pcb_ptr->session_id)
CSCdr79936
Symptom: Stats files not generated/missing on some 15 minutes intervals.
Conditions: When system time is changed at 15 minutes boundaries.
Workaround: Minimize system time and card config changes.
CSCdm16800
Symptom: Card error 0xc000007 appears in the card error log.
Conditions: This error indicates that an unknown type of cell which is not expected has arrived in the egress QE.
Workaround: Engineering has done in-depth investigation into this case. We are convinced the problem does not affect user traffic or the node in any other way. Therefore, the symptom will not be reported as a card error. The fix has been incorporated into MEE firmware.
CSCdp22930
Symptom: N/A
Conditions: cbus rd/wr operations set up in the PUUMBA chip when performing cbus rcv/xmit.
Workaround: None
CSCdp74680
Symptom: Even if the interface is in LOS, the spvc's do not generate ingress AIS into the network.
Conditions: Connection is added after the interface goes into LOS.
Workaround: None
CSCdr44250
Symptom: Private image did not allow as many OAM cells to flow as public image.
Conditions: This occurred by undoing a hardware fix in a private image.
Workaround: This was never introduced into the Public view and no workaround is required.
CSCdr45986
Symptoms: Standby and active block checksum value do not match and resync happens on switchover.
Conditions: When active card has many spvc connections derouted it happens.
Workaround: None.
CSCdr71473
Symptom: Unreachable BXM, sw errors and cd errors on the BPX.
Conditions: LMI is enabled when controller either slow to respond or un-reachable.
Workaround: Disable LMI.
CSCdp97307
Symptoms: When executed "rsh <slot> vsi cm VsiIs " without parameter. The card will crash.
Conditions: Always.
Workaround: Pull out the card and reinsert.
CSCdr86894
Symptoms: Many ports have VC failure because BXM has no resource to build the CVC.
Conditions: Intermittent
Workaround: Reset BXM card.
CSCdr57712
Symptom: Multi_partition fails to report all virtual trunks.
Conditions: In case of virtual trunks with different partition.
Workaround: Reset the BXM card.
CSCdr77238
Symptom: Switch General Info does not contain bulk set capability bit. With newer images of PXM bulk set will not work with BXM images prior to MFD.
Conditions: PXM Images later than 07/06/2000 contains logic to identify the bulk set capability of the slave. BXM images prior to 07/06/2000 will not have this bit set because it is newly introduced parameter in VSI spec.
Workaround: No workaround. Need to upgrade to MFD.
Bugs Fixed in MFD
Bug ID
Description
CSCdr29278
Symptom: Originally the card used to get frozen not responding to any request from the controller, as the TCB database was corrupted. But it has been protected now. But whenever a null pointer is being inserted into the TCB list a card error is being flagged. It is a harmless card error (not service affecting)
Conditions: The cause is unknown.
Workaround: None.
CSCdp63445
Symptom: ABR and UBR connections loose traffic when VC shaping is turned on.
Conditions: Enabling of VC shaping on port terminating ABR and UBR connections.
Workaround: Leave VC shaping disabled.
CSCdr30454
Symptom: Connections (LCNs) can not satisfied because of insufficient memory
Conditions: When channel stat level is set to 0
Workaround: Use chan stat level (cnfcdparm) 1, 2 or 3
CSCdr14247
Symptom: The correct state of an SPVC is not reflected in connection bulk traps for large number of connections (> 1000). Sometimes Connection states keep toggling between AIS and CLR state when the conns are actually in AIS state
Conditions: AIS cells generated by the RCMP on different connections arrive too close to each other in the same second. This sudden burst of cells overwhelm the Class of service buffers (QBINs) in the Egress direction and get discarded. This causes remote end of the trunk to detect a loss of AIS cells and declare connection a CLR.
Workaround: None
CSCdr40204
Symptom: Service rate for VBR traffic when WFQ is enabled is at SCR (instead of PCR) even when there is no congestion for enhanced cards (1210 QE & Sabre)
Conditions: For enhanced cards, when WFQ is enabled, the local congestion is monitored at the Egress side by the hardware. In order to do this, a few variables that need to be initialized. There were some problems with the initialization routine, causing inaccurate tracking of the congestion level.
Workaround: None. Has been fixed.
CSCdr42885
Symptom: All the ports on a BXM slave go into provisioning state.
Conditions: Controller looses communication with the BXM. This happens when AAL5 driver in the BXM mal-functions and does not free the message buffers of the application processes (ILMI/VSI etc). Eventually BXM runs out of message buffers.
Workaround: Reset the BXM card.
CSCdr49056
Symptom: Invalid Part id in SPVC stats after controller is added.
Condition: This problem happens when SFM receives the vsi message before adding the controller. This is possible to happen when there is a delay between 52 and 61 message. Since 52 add the control vc it will receive the frame and give it SFM task. But SFM won't have any information for that partition and will report the error saying that invalid partition. Since this is possible to happen as per design, the card is removed now.
CSCdr40234
Symptom: Service rate for UBR traffic when WFQ is enabled much lower than PCR even when there is no congestion for enhanced cards (1210 QE & Sabre)
Conditions: For enhanced cards, when WFQ is enabled, the local congestion is monitored at the Egress side by the hardware. In order to do this, a few variables that need to be initialized. There were some problems with the initialization routine, causing inaccurate tracking of the congestion level.
Workaround: None. Has been fixed.
CSCdr49060
Symptom: When doing a cnfcon for ABR connection, service rate drops to MCR rate even when there is no congestion. This is when WFQ is enabled and the inherent VSVD is not used.
Conditions: There are a certain parameters associated with WFQ that are required in order for WFQ to work. However, for ABR connections, when a cnfcon is done, once it is detected that VSVD is not enabled, the structure (Sabre rate RAM) which holds all these parameters is cleared out. This would cause WFQ not to operate properly.
Workaround: No need. Fix is done.
CSCdr43012
Symptom: All the ports on a BXM slave go into provisioning state.
Conditions: Controller looses communication with the BXM as AAL5 driver in BXM gets stuck.
Workaround: Reset the BXM card.
CSCdr52195
Symptom: All the ports on a BXM slave go into provisioning state.
Conditions: Controller looses communication with the BXM as AAL5 driver in BXM gets stuck.
Workaround: Reset the BXM card.
CSCdr36963
Symptom: When PNNI controller goes down then comes up, it couldn't establish its control call to the BXM partition, thus VC failure is displayed in PNNI controller for that partition.
Conditions: This problem only happens under the following conditions:
1. The policy parameters for the partition have been configured as nonzero at some of the class of service,i.e. the reserved minimum bandwidth of some class of service are nonzero.
2. Delete/disable that partition. BXM suppose to release all resources. However, it only released resources at partition level, but leave the reserved resources at cos level unchanged. As result, when this partition is enabled again, the internal CAC calculation at partition level became negative. That caused the first control call setup request fail.
Workaround: Reset the BXM card will clear the VC failure.
CSCdr33867
Symptom: Connect OC3 port on BXM with 7200 router, enable ILMI on router, and ILMI, protocol on card and Neighbor Discover, Object 0x31, Peer's IfName is not null terminated.
Conditions: Some peer.ifName's are null terminated, some aren't a PDU containing valid nonzero length peer.ifName doesn't always include '\0'; and is stored accordingly in the MIB. added a test if peer.ifName is non-zero in length, and isn't null terminated, concatenate the '\0'char and bump peer.ifNameLen++ count Added logic CbIlmiStatsReport, ilmi_proc.c pIlmiFsmGetResponseEventAtS3, pIlmiFsmGetResponseEventAtS9, ilmi_fsm_evt.c to ensure TopoTrap, and ILMIStats report are correctly formatted.
Workaround: None
CSCdp48306
Symptom: On NNI side, when cross connect is established with VPI>1000 (0x3e8) the first nibble is getting chopped off and traffic is flowing on VPI 0xe8 due to bad programming of connection.
Conditions: This happens if on NNI side VPI > 0xff.
Workaround: None.
CSCdr51875
Symptom: Virtual Trunking causing Unreachability
Conditions: At least two virtual trunks share a common port at one node, but their remote endpoints terminate on different nodes.
The virtual trunks are used to carry networking (rt_op) traffic.
The simplest example follows below:
node_A ---- vtrk ---- /---- vtrk ---- node_C
/
/
node_B
(vtrks share common port)
With this topology, "node_A" sees "node_C" as unreachable and vice-versa; however, "node_A" communicates to "node_B", and "node_B" communicates to "node_C".
Workaround: Customers who are already using VT wraparound should continue to do so under 9.2.3x until the fix is available.
BXM virtual trunking (no VT wraparound) can still be implemented using software release 9.2.2x.
If virtual trunks are not yet in use, the VT wraparound solution can be implemented in release 9.2.3x.
CSCdr57805
Symptom: Card errors show up indicating "CB_TASK is ready"
Conditions: CB_TASK gets busy processing VSI messages and this causes root task to incorrectly assume that CB_TASK is not in a sane state. Actually a firmware change incorrectly reduced the polling interval by the root task such that it was polling the states of tasks sooner than it is supposed to.
Workaround: None. Ignore these card errors as these are benign.
CSCdr56931
Symptom: After resetsys on PXM or bouncing the feeder/control port or reset of BXM card, some virtual trunks go into vc failure/building vc state.
Conditions: Resetting PXM or pulling out the cable connecting the BXM feeder port to the controller or resetting the BXM cause the interface set policy parameters to be sent to the BXM. This cause ingress BW to be recomputed. CB_TASK passes VI numbers 0 to 31 to the CAC module which expects the range 0 to 15. This caused the problem by overindexing the CAC structures.
Workaround: None
CSCdr59241
Symptom: Building VC status on UNI ports after repeated enabling/disabling of partition with the control port
Conditions: Controller does not send policy parameters for control port upon enabling of partition. When disabling partition, COS max bandwidth was zeroed out. With no policy parameters from which to obtain the new values, COS max bandwidth is stuck at zero; thus not allowing ant control to be established.
Workaround: Older PXM image does send policy parameters even for the partition with the control port. Control port does not require policy parameters to be sent from controller. Default it to the max bandwidth configured for the partition.
CSCdr51970
Symptom: Change CAC policy parameters will cause the available BW for some cos to be negative.
Conditions: Current implementation does not validate the CAC policy parameter change. It will always take the value. However, in some cases, improper policy parameters change will cause the avail_bw at cos level go negative. In this particular scenario, the current used bandwidth of a cos is equal to its reserved minimum bandwidth.Then the user changed the policy parameter to make this cos min_bw to smaller number. Now current_used_bw for this cos is greater than its reserved, and it has to obtained bw from the common pool to maintain its currently used bw. However, the user changed the policy parameter again, to increase the reserved bw for another cos, which caused the common pool to be zero.Therefore, by normal calculation, the previous cos avail_bw becomes to negative. Decreasing cos_min_bw to be less than it is currently used_bw is an invalid operation and should get rejected, otherwise it will mess up the CAC.
Workaround: Delete some connections to release bandwidth before decreasing cos minimum bandwidth.
CSCdr66273
Symptom: The encoding is in the reverse of the expected value by UNI4.0 spec.
Conditions: STD ABR connections.
Workaround: No workaround.
Bugs Fixed in MFC
Bug ID
Description
CSCdp63445
Symptom:
ABR and UBR connections loose traffic when VC shaping is turned on.
Condition:
Enabling of VC shaping on port terminating ABR and UBR connections
Workaround:
Leave VC shaping disabled.
CSCdr11396
Symptom:
Data transfer has affected while running OAM loopback
Conditions:
All user data is dropped when send in 960 cps of oam.
Workaround:
None
CSCdp11511
Symptom:
BPX treats segment oam loopback different from end-to-end oam loopback cells.
Conditions:
Workaround:
CSCdr13208
Symptom:
BXM CD errors while running OAM cells.
Conditions:
1. One PVC has 2880 cps of data and 960 cps of oam cells.
2. Another PVC has 2880 cps of data and 960 cps of oam cells.
Workaround:
None
CSCdr13196
Symptom:
BPX reports SWERR 105.
Conditions:
SWERR105 logged while running OAM loopback test
Workaround:
None reset the BXM card.
CSCdr13182
Symptom:
tstdelay/tstcon/tstconseg for all PVCs on that card will fail.
Conditions:
When user sending in >= 960 cps of oam loopback cells
Workaround:
CSCdr13151
Symptom:
dspportstats always show Tx port = 0
Conditions:
Sending in >= 960 cps of oam loopback cells.
Workaround:
Bugs Fixed in MFB
Bug ID
Description
CSCdm52254
Symptom: Random BIP-8 errors show up on T3 when running in direct map (HEC) mode. There is no such thing as a BIP-8 error in the direct map mode. But this counter should report 0 in this mode.
Conditions: This is totally random due to the fact that an uninitialized (don't care) counter variable is accumulated in every poll period. This counter is not even read from hardware in the HEC mode.
Workaround: Ignore BIP-8 errors when the T3 trunks are configured in the HEC mode.
CSCdp58969
Symptom: cb_get.c CB_VPC_STATUS_POLL SoItcSend Failed upon VSI Failure
Conditions: When VSI receives and transmits lot of vsi message AAL5 drive will get into deadlock problem if it had missed a DMA interrupt.
Workaround: None. Upgrade to MEF or newer version of firmware
CSCdp57596
Symptom: CB_TASK on BXM goes into deadlock state causing VSI session to be lost
Conditions: This happens when both Ingress and Egress qe semaphore is taken by IDLE_TASK and it never released in an error condition.
Workaround: None. Upgrade to MEF or newer versions of firmware.
CSCdp25220
Symptom: Avail Buffer on BXM = 0 on LVC flapping for xtag interfaces
Conditions: Same as CSCdp58969. During this condition AAL5 driver doesn't release the transmission buffer.
Workaround: None. Upgrade to/MEF or newer versions of firmware
CSCdp59328
Symptom: EPD bit was not set for interslave control vc.
Conditions: When vsi get congestion (same as CSCdp58969).
Workaround: None. Upgrade to/MEF or newer versions of firmware.
CSCdp92916
Symptom: Commands executed on stdby card affect APS line.
Conditions: Series of commands executed in stdby card affects APS line.
Workaround: None.Upgrade to MEF or newer version of firmware.
CSCdp39723
Symptom: Aps not functioning in 9.2.21 w/FW ME18@sprintf for Bidirectional w/Nonrevertive
Conditions: Reversion was happening due to spurious SF/SD events.Fixed by setting the right values for SF/SD thresholds.
Workaround: None.Upgrade to MEF or newer version of firmware
CSCdp20848
Symptom: SF switchover doesnot occur after dncd/upcd execution on Annex B 1+1 APS.
Conditions: When the dncd command is executed, SWSW sends 0x27 CBUS message. The handler for this message was putting the lines in loopback and shutting down the laser. Also it was changing the line state in SoCdDown() to DOWN state. This caused subsequent upcd (0x05/0x04) message to re-initialize the lines disabling the S/UNI interrupts in the process.
Workaround: None.Upgrade to MEF or newer version of firmware.
CSCdp24224
Symptom: WTR does not occur after LOS recovery on protection line
Conditions: The meaning of primary and secondary channels were changed immediately upon switchover instead of waiting for the expiry of WTR. This caused the clearing of the failure to be accounted against the secondary channel and thus there was no WTR. Fixed by introducing a Preparation switch mode where-in the current active channel will remain as the secondary until a WTR occurs or a primary section mismatch pre-empts that state. At the expiry of WTR, the preparation switch mode is complete and the current active channel becomes the primary.
Workaround: None.Upgrade to MEF or newer version of firmware.
CSCdp32646
Symptom: WTR Timer does not work and reversion occurs during SF switchover.
Conditions: Added a preparation switch mode where the current active channel is the secondary channel. At the expiry of WTR, the secondary channel is changed to the become the primary channel.
Workaround: None.Upgrade to MEF or newer version of firmware.
CSCdp35156
Symptom: BPX APS reverts back to the working line before WTR time has expired
Conditions: TR was being pre-empted by a spurious SD condition. Fixed by setting the right thresholds for SF/SD based on BER.
Workaround: None.Upgrade to MEF or newer version of firmware.
CSCdp60696
Symptom: Both lines fail when only one line in alarm.
Conditions: After the standby card comes out of reset, its S/UNI states are not reliable for a period of 1.5 seconds and the S/UNI reports LOS clear on the WORK line. This gets conveyed to the active card and then the Manual switch gets priority and becomes the current local request. This causes a switch back to WORK. When the active card's S/UNI monitors the WORK line, it discovers that the line is in LOS and immediately switches back. The oscillations continue and the line goes into LOCKOUT due to excessive switching. In the Lockout mode only the WORK line is active and thus the defect.
Workaround: None.Upgrade to MEF or newer version of firmware.
CSCdp65320
Symptom: Need a trap when BPX puts APS in lockout
Conditions: Send the traps in the right sequence. First send the Lockout trap and then the failed to switch trap if there is a switch attempt while lockout is in effect.
Workaround: None.Upgrade to MEF or newer version of firmware
CSCdp25130
Symptom: APS Non-revertive bidirectional feature.
Conditions: Resolved
Workaround: None
CSCdp79156
Symptom: TDP signalling cross connect VSI request rejected by BXM
Conditions: If BPX is configured with trunks and virtual trunks the virtual trunks are initialized properly with qbin size.
Workaround: None.Upgrade to MEF or newer version of firmware
CSCdp62213
Symptom: Switching from bi-direction APS to un-directional APS generates mismatch err.
Conditions: The alarms generated while the line was in bi-dir mode was not cleared when it was changed to uni-dir mode. Fixed by clearing all alarms when re-configuring lines.
Workaround: None.Upgrade to MEF or newer version of firmware.
CSCdp89972
Symptom: Node rebuild caused 3 BXM cards failed.
Conditions: Moved the allocation and initialization of the Connection database to the SoCoEnterStandby function instead of in the 0x50 handler (SoCdUp).
Workaround: None.Upgrade to MEF or newer version of firmware.
CSCdp86147
Symptom: The removal of Rx cable of APS trunk leading to loss of Frm and Prot Sw Byt Fail.
Conditions: While removing the Rx cable of APS working line (configured to trunk) working line goes to Loss of Frm and dsptrks shows the trunk in alarm. After connecting cable back the APS Alarm status shows "Prot Sw Byt FAIL".
Workaround: None.Upgrade to MEF or newer version of firmware.
CSCdp84386
Symptom: Connectivity w/BXM lost due to missing DMA completion interrupts
Conditions: Aal5 driver will be in deadlock and never transmits and receives.
Workaround: None.Upgrade to MEF or newer version of firmware.
CSCdp38148
Symptom: Resetcd slot 11 on BPX causes local APS switching.
Conditions: Re-impose the selector and bridge states on both ACTIVE and STANDBY cards after Y-red switchover, re-discover the line states and re-execute and external requests.Also include a STABILITY timer before the line state is processed.
Workaround: None.Upgrade to MEF or newer version of firmware.
CSCdm92931
Symptom: APS line switchover occurs upon card removal when lockout is set.
Conditions:
Workaround: None Upgrade to MEF or newer version of firmware.
CSCdp49749
Symptom: Node unreachable after resetting two nodes in the network.
Conditions:
Workaround: None
CSCdp49640
Symptom: When FCES feature enable on BXM NNI data transfer stops.
Conditions: The ABR parameters like NRM,CRM,FRTT,MCR,ICR were not getting programmed when the FCES is turned on using th cnfcon command.Adding the Connection with the FCES enabled behaved properly.
Workaround: None
CSCdm62817
Symptom: tstconseg command sometimes does not work.
Conditions: Execute tstconseg multiple times with high loop count (10).
Workaround: None
CSCdm84853
Symptom: BW reported via interface load info is erroneous.
Conditions: When Forward & Backward BW for VSI connections is different.
Workaround: None
CSCdp62213
Symptom: Switching from bi-dir to uni-dir mode APS generates APS architecture mismatch error
Conditions: When APS pair is configured from bi-dir mode to uni-dir mode the other side indicates APS architecture mismatch error, and then the other side is also configured from bi-dir mode to uni-dir mode, the APS architecture mismatch error does not clear.
Workaround: Delete APS and then add APS again - it defaults to uni-dir.
CSCdp59729
Symptom: addlnlocrmt causes node unreachable.
Conditions: addlnlocrmtlp causes node unreachable even though there are other parallel trunks.
Workaround: No known workaround.
CSCdp67673
Symptom: dspapsln does not show ARCH_MIS any more.
Conditions: dspapsln does not show ARCH_MIS when caused for the second time on the same trunk.
Workaround: No known workaround
CSCdp46399
Symptom: Need a documentation explains how to setup port groups for FW MEF (me26).
Conditions:
Workaround: No known workaround.
CSCdp49749
Symptom: Node unreachable after resetting two nodes in the network.
Conditions: When combus message 0x52 is sent down to BXM, we were not handling the case when message says activate the lcn, but delete the vpi-vci pair specified in the command.
Workaround: None.Upgrade to MFB.
CSCdp28931
Symptom: No RDI-P generated when loss of Cell Delineation occurs.
Conditions:
Workaround:
CSCdp59727
Symptom: Addlnlocrmt causes node unreachable.
Conditions:
Workaround: Reset the BXM card.
Bugs Fixed in MFA
Bug ID
Description
CSCdm53420
Symptom: switchyred causes APS line to switch when last user request is clear.
Conditions: APS 1+1 configuration. The protection line was active and the "last user switch request" was clear. When a switchyred was performed, APS line switched to working line active
Workaround:
CSCdm93274
Symptom: OC3 back card LED is wrong after reset/pull cards.
Conditions: Multiple APS lines on a card and perform switchyred when Working line is active and Secondary card is active.
Workaround: None.
CSCdm04312
Symptom: The problem is a false failure is declared against the SIMBA Multicast Record RAM.
Conditions: The problem occurs when Self Test is activated against a Y-Redundant pair of BME Cards (BXM-622 cards loaded with the multicast BME firmware) that have more than 1000 connections programmed through them.
Workaround: Disable Self Test via the cnftstparm command.
CSCdm50659
Symptom: Trunk alarms are not generated when random bit errors are injected onto a trunk using an Adtech Sx14 test set at a rate of 10E-3. There are trunk statistics generated but no trunk alarm because the statistics that cause alarms on do not meet the threshold for MAJOR or MINOR alarms.
Conditions: This was generated in a lab environment with test equipment that was set to inject bit errors randomly through the entire bandwidth. Some HCS errors were generated as well as Path unavailable and Path Farend unavailable.
Workaround: Lowering the alarm threshold for MAJOR and MINOR HCS errors can help to generate a trunk alarm. Use the cnflnalm command and modify the Hcserr alarm thresholds to .01 for MAJOR and .0001 for MINOR. These thresholds are as low as they can be set currently.
CSCdk42527
Symptom: Rx Queue becomes full after LOS on the feeder trunk.
Conditions: After LOS condition on the feeder trunk.
Workaround: Reset the feeder trunk.
CSCdm16505
Symptom: AIS not sent on VP ABRFST/ABRSTD connection.
Conditions: LOS on trunk between 2 nodes.
Workaround: None
CSCdm81534
Symptom: ICR of abrfst on BXM-155 falls down to MCR after resetcd.
Conditions: Change the ICR after resetcd before start sending traffic.
Workaround: None
CSCdm61493
Symptom: When BIP8 errors are received on an E3 line or trunk at a rate of 10E-3, the line or trunk will not declare any alarm.
Conditions: When high rates of BIP8 errors are received.
Workaround: None.
CSCdk81384
Symptom: BXM slot errors keeps on incrementing on a BCC3 node, but the reading of 'EAP ARFD' should only be interpreted when using the dual receiver feature on a BCC4 node.
Conditions: BXM slot errors on a BCC3 node.
Workaround: None
CSCdk80483
Symptom: TX cell loss counts in dsptrkerrs increase continuously.
Conditions: When there is trunk configured.
Workaround: None.
CSCdm04312
Symptom: The problem is a false failure is declared against the SIMBA Multicast Record RAM.
Conditions: The problem occurs when Self Test is activated against a Y-Redundant pair of BME Cards (BXM-622 cards loaded with the multicast BME firmware) that have more than 1000 connections programmed through them.
Workaround: Disable Self Test via the cnftstparm command.
CSCdm09295
Symptom: Reconfig of FCES from enable to disable does not work, as a result traffic burst is restricted to MCR.
Conditions: Every time changing an existing connection from FCES enable to disable.
Workaround: Delete the connection and add back a new one with FCES disable.
CSCdm39186
Symptom: Card fatal error occurred when running in standby mode under the heat condition. As a result, the card reset periodically.
Conditions: Card running in standby mode under heat condition
Workaround: None
CSCdm09882
Symptom: Log non fatal message related to the RCMP errors.
Conditions: It is mainly seen in the heat chamber.
Workaround: Please make sure the TEST FREQUENCY and TIMEOUT variables under cnftstparm for BXM are set to 4000/3700 level.
CSCdm31923
Symptom: AIS/YEL alarm doesn't go away even after the alarm is clear from the other end.
Conditions: It happens on the E3 when the LOOP TIME parameter is set to YESin the trunk or line configuration.
Workaround: None
CSCdm92916
Symptom: Operational commands (dncd, resetcd, remove) on standby card impact active APS line. When active line is PROT line and a switchover of cards occur, WORK line becomes active line on the newly active cards.
Conditions: APS 1+1 Annex B and PROT is active line. switchyred or resetcd on the active card causes line to switchover from PROT to WORK.
Workaround: None
CSCdm92931
Symptom: APS line switchover occurs upon card removal/insertion when lockout is set
Conditions: When Lockout is set, removing/inserting the card makes it happen.
CSCdm52585
Symptom: DspVsiPartInfo shows very large Available LCN field.
Conditions: When the sum of min-lcns is greater than the max(max lcns) on a port group.
Workaround: None.
CSCdp18840
Symptom:
The CBR.2 Calls do not pass traffic above 50 Cells/second.
Conditions: VSI controller establishes CBR.2 connection and it does not fill in the PCR field.
Workaround: Fill the PCR value also with the CR value.
CSCdp17741
Symptom: 2-portgroup card reports 1 port group at the channel stats level 2 and 3.
Conditions: When channel stats level 2 or 3 are configured on BXm-622-2 port and BXM-155 reports only one port group.
Workaround: Auto Route connections are not affected by this. But for VSI connections there is no work around.
CSCdp22930
Symptoms: Intlock missing for rd/wr operation
Workaround: Reassert intLock on commbus ISR to prevent SCC access from getting interrupted.
CSCdp33894
Symptom: Standby APS line shows status as Path AIS upon switchyred or on APS switchover on LOS.
Conditions: switchyred on APS, the prot. line report Path AIS.
Workaround: None. Upgrade to ME26/MED or later versions of BXM firmware.
CSCdp36324
Symptom: Last user request affects switching on BPX.
Conditions:
Workaround:
CSCdp31325
Symptom: UBR cells are policed unnecessarily below PCR.
Conditions: Always.
Workaround: None.
CSCdp36155
Symptom: BXM-E OC3/OC12 does not show supporting APS HW 1+1 in dspcd command and otherwise also.
Condition: BXM-E OC3/ OC12 card with HW rev < 'C'.
Workaround: None.
CSCdp32853
Symptom: The BXM enhanced cards keep getting reset and card errors are logged and node may go into degraded mode, when command "addapsln slot1.port1 slot2.port2 1" is issued.
Conditions: BXM enhanced OC3 cards with 4 port and FW rel earlier that M.E.22/M.F.09.
Workaround:
1. Do not addapsln on second port onwards for BXM-E OC3 4 port card.
OR
2. Replace the BXM-E 4 port card with 8 ports card.
CSCdp17741
Symptom: 2-portgroup card reports 1 port group at the channel stats level 2 and 3.
Conditions: When channel stats level 2 or 3 are configured on BXm-622-2 port and BXM-155 reports only one port group.
Workaround: Auto Route connections are not affected by this. But for VSI connections there is no work around.
CSCdp11025
Symptom: Use the "dspapsln" to get the screen to display apsln status.When the working line is taken out the LOS appears on the working line. When the protection line is taken out both the working and protection display LOS. When the protection line is put back in the LOS/Alarms on the protection should clear. They do not.
Conditions: Physically remove and add the rx or both rx and tx lines as follows:
1. Remove the working line.
2. Remove the protection line.
3. Add the protection line back.
Workaround: None
CSCdm73220
Symptom: Trunks or Virtual Trunks does not allow traffic going through.
Conditions: SWSW 9.1 with ME level of firmware. Trunks or VTs configured on BXM/BXM-E.
Workaround: None
Bugs Fixed in MEC
Bug ID
Description
CSCdm66131
Symptom: After addapsln trunk goes to LOS
Conditions: Both ends have secondary card active, add aps 1+1 to one end, then add aps to the other end, the trunk sometimes goes into LOS.
Workaround:
CSCdm64366
Symptom: APS 1+1 manual switch sometimes does not work after a while after several manual switch and auto switch.
Conditions: Secondary card is active and several manual switch and auto switches are performed.
Workaround:
CSCdm62809
Symptom: APS 1+1 bidirectional non-revertive switches back to working line when line condition clears on working.
Condition: APS 1+1 configured in bi-direction non-revertive mode.
Working line is in LOS, current active line is protection, clear LOS on working line.
Workaround:
CSCdm69974
Symptom:
Card errors (0x25170076) occur when only one Virtual Trunk is configured in a physical port.
Workaround:
CSCdm65813
Symptom:
APS switches back o working line incorrectly.
Condition:
Switch sequence W->P, P->W and then W->P, then cause LOS on WORK line and put the cable back, APS switches to Working line.
Workaround:
CSCdm77212
Symptom:
When addshelf command is executed, it comes back with a communication breakdown.
Condition:
Channel level stats is set to 0 so that BXM reports wrong max channels.
Workaround:
CSCdm74316
Symptom:
Re-adding VSI shelf does not work until a resetcd is executed on the LSC control port.
Condition:
Load information on an interface is 4 bytes more that MAX_VSI_MSG.
The message gets dropped on BXM, so VSI controller is in discovery state forever.
Workaround:
CSCdm75722
Symptom:
No control VC after BXM is reset.
Condition:
When resync request comes down from the VSI controller with 19 checksum blocks, the length check done on BXM does not include padding.
Workaround:
CSCdm74968
Symptom:
0B card error causing BXM to reset.
Condition:
Over night jobs running on controller cards.
Workaround:
CSCdp02190
Symptom:
tstdelay timed out when going through BNI trunk.
Condition:
More that 12 VTs on an interface causes wrong port-vi mapping while considering STI_SHIFT/NO_SHIFT from 13 th VT/port onwards.
Workaround:
CSCdm78335
Symptom:
dspvsistatus rarely shows the VSI programming status as Done.
Condition:
Primary and secondary port has two different VPI range.
Workaround:
CSCdm26752
Symptom:
Card errors continuously logged with "SoItcSend failed" message.
Condition:
RAS oam_lpbk is on and switchyred is executed several times in a job.
Workaround:
CSCdm93839
Symptom:
Card resets on receiving oam loopback cells at high rate.
Condition:
oamlpbk is enabled with high oam traffic on large number of connections.
Workaround:
CSCdm52254
Symptom:
BIP-8 code errs occurs on routing trunks
Condition:
T3 card used in HEC mode can randomly have this problem.
Workaround:
CSCdm44183
Symptom:
BXM-155 4DX was not able to recover after resetting the card.
Condition:
Traffic is sent at a rate >= 383 cps on a terminated connection on BXM-E card and then card is reset.
Workaround:
CSCdm90997
Symptom:
BXM-E trunk and port stats are always zero in TX direction.
Condition:
Port terminated on BXM-E card or trunk passing through BXM-E card.
Workaround:
CSCdm80991
Symptom:
Unable to add 3 segment connections using CM GUI.
Condition:
Feeder connected to BXM card of BPX routing node and for, BXM trunk configuration, ILMI/LMI protocol is enabled as CARD based.
Workaround:
CSCdm82688
Symptom:
Traffic Shaping problems with VT with and without rap around solution.
Condition:
Large deviations in CDV values.
Workaround:
CSCdm94372
(see explanation below)
Symptom:
Trunks sometimes drop cbr traffic.
Condition:
If a trunk is configured to full line rate on BXM cards, then traffic is dropped.
Workaround:
CSCdp00063
Symptom:
Node unreachability is experienced on VTs (virtual trunks).
Condition:
Multiple VTs are configured on a trunk interface of the BXM/BXM-E.
Workaround:
Configure only one VT per trunk interface.
Logic to calculate actual cell transmission rate in a BXM card is as follows (CSCdm94372):
if (configured cell rate == full line cell rate) then
transmitted cell rate = full line cell rate
else
transmitted cell rate = from equation below or from table 1
For example:
If a trunk is configured at 100,000 CPS, the actual transmitted cell rate is then 98,013 CPS any traffic sent over 98,013 CPS would be discarded.
Only rates in the table or computed from the equation should be used. Otherwise, cell loss may be experienced.
1464865
56552
28832
19348
14559
11670
9738
8355
733860
54458
28278
19097
14416
11579
9674
8308
489558
52513
27744
18852
14277
11488
9611
8261
367288
50703
27231
18614
14139
11399
9549
8215
293888
49013
26736
18381
14005
11311
9487
8169
244938
47432
26258
18154
13872
11225
9426
8124
209966
45950
25798
17933
13743
11140
9366
8079
183733
44558
25353
17717
13616
11056
9307
8035
163327
43247
24923
17506
13491
10974
9248
7992
147001
42012
24508
17300
13368
10892
9190
7948
133642
40845
24106
17099
13248
10812
9133
7906
122509
39741
23717
16902
13129
10733
9077
7863
113088
38695
23341
16710
13013
10656
9021
7822
105012
37703
22976
16522
12899
10579
8966
7780
98013
36761
22623
16339
12787
10503
8912
7739
91889
35864
22280
16159
12677
10429
8858
7699
86485
35010
21947
15983
12568
10355
8805
7659
81681
34196
21625
15812
12462
10283
8753
7619
77383
33419
21311
15643
12357
10212
8701
7580
73515
32676
21007
15479
12254
10141
8650
7541
70014
31966
20711
15318
12153
10072
8599
7502
66833
31286
20423
15160
12053
10003
8549
7464
63927
30634
20143
15005
11955
9936
8500
7427
61264
30009
19871
14853
11859
9869
8451
7389
58814
29409
19606
14705
11764
9803
8403
7352
Bugs Fixed in MEB
Bug ID
Description
CSCdm50469
Symptom:
Software error 105 and mallet card errors happened continuously.
Condition:
When jobs that cause reroutes of connections (e.g. switchcc, hitless rebuild) are run for a long time, sometimes BXM card freezes with malloc card errors and software error 105.
Workaround:
None
CSCdm50723
Symptom:
After deleting APS, switchyred causes temporary LOS when the other end still has APS.
Condition:
One end has APS 1+1, other end was added with APS 1+1 and line is up between the two ends. Then APS is deleted from one end. The primary card is active on non APS end. On switchyred on the non APS end there is a temporary LOS. If APS was never added to one end, then switchyred does not result in temporary LOS.
Workaround:
Instead of deleting APS first and then doing a switchyred, do a switchyred first and then delete APS. This does not result in temporary LOS.
CSCdm63038
Symptom:
BXM card fails with breakpoint error.
Condition:
When tx cell rate of a trunk is reduced to zero, BXM card fails with break point error (division by zero).
Workaround:
None
Bugs Fixed in MEA
Bug ID
Description
CSCdm09882
Symptom: Log non fatal message related to RCMP errors.
Conditions: It is mainly seen in the heat chamber.
Workaround: None
CSCdm18186
Symptom: AIS status could be randomly be displayed in dspcon
Conditions: When the connection AIS signal is constantly changing, the dspcon/dspchstats OAM status will not be accurate for all the connections on the card.
Workaround: None
CSCdm26380
Symptom: Software error 9098 occured during switchyred BXM
Conditions: This problem occurs on cards with the APS channels halved option set and then doing a cnfrsrc on a port that belongs to the second port group. Note that this fix will cause a card mismatch on active cards with channel halved option turned on.
Workaround: None
CSCdm31923
Symptom: AIS/YEL alarm doesn't go away even after the alarm is clear from the other end.
Conditions: It happens on the E3 when the LOOP TIME parameter is set to YES in the trunk or line configuration.
Workaround: None
CSCdm37519
Symptom: Trunks go to Communication Fail after burning firmware.
Conditions: When MC10 is burnt into BXM-OC12 with trunks.
Workaround: None
CSCdm37709
Symptom: APS line fails to clear channel mismatch after lockout.
Conditions: Bi-direction APS 1+1. Local end has locked out of protection set. Then WORK cable is pulled out on local end to cause LOS. Lockout is then cleared and then the WORK cable is put back. This causes a channel mismatch on the far end and the mismatch never clears.
Workaround: None
CSCdm38647
Symptom: This bug has been fixed in MEA such that the firmware reports the correct number of port groups. The side effect of this fix is that the Switch Software could mismatch the BXM card. If there is a card mismatch then down all the lines/trunks on the card and up them again.
Conditions: When the user loads the MEA firmware on the BXM card running MDA with APS halved channeled enabled, then the card will come up in mismatched state.
Workaround: None
CSCdm46658
Symptom: switchapsln command does not work for APS AnnexB line.
Conditions: Annex B configuration if hitless rebuild is done when active line is PROT, then switchapsln does not work after hitless rebuild.
Workaround: None
Bugs Fixed in MDA
Bug ID
Description
CSCdm38647
Symptom: MDA fw may report incorrect number of port-groups when APS channels are set to halved.
Conditions: When user attempts to add all the channels available on the card on one port-group, it may be allowed even though the BXM may not have enough memory to support it. Also, this may cause a mismatch state when MDB firmware is burnt.
Workaround: Down all the line/trunks on the card and up them again.
CSCdm23713
Symptom: VI numbers are not modified by firmware.
Conditions: When one or more trunks are failed in the network, there may be a combreak in the network.
Workaround: Set all the Virtual trunks to restrict CC traffic.
CSCdm23827
Symptom: APS alarm may clear on switchyred.
Conditions: After a switchyred, an existing a LOS/LOF alarm may get cleared. This will only happen when the line has switched to protection before the card switchover is performed.
Workaround: None
CSCdm23752
Symptom: BXM fw does not allow a networking channel on VTs to configured for egress only.
Conditions: BXM fw allowed configuration of networking channel to be bidirectional only.
Workaround: None
Firmware Filenames and Sizes
Filename
Size
BXMMFV.000
65536
BXMMFV.001
65536
BXMMFV.002
65536
BXMMFV.003
65536
BXMMFV.004
65536
BXMMFV.005
65536
BXMMFV.006
65536
BXMMFV.007
65536
BXMMFV.008
65536
BXMMFV.009
65536
BXMMFV.010
65536
BXMMFV.011
65536
BXMMFV.012
65536
BXMMFV.013
65536
BXMMFV.014
65536
BXMMFV.015
65536
BXMMFV.016
65536
BXMMFV.017
65536
BXMMFV.018
65536
BXMMFV.019
65536
BXMMFV.020
65536
BXMMFV.021
65536
BXMMFV.022
65536
BXMMFV.023
65536
BXMMFV.024
65536
BXMMFV.025
45744
BXMMFV.026
14
BXMMFV.027
2
BXMMFV.IMG
784
BXMMFV.img
784
Appendix B. UXM Model C ACH Firmware Release Notes
This section contains information about UXM Model C firmware.
Introduction
ACH is a firmware maintenance release for UXM card on IGX. Firmware is the same for UXM and UXM-E cards.
New Features
None.
Obsolete Features
None.
Compatibility
1. Software
ACH firmware is compatible with Switch Software Release 9.3.10 or later.
2. Hardware
ACH firmware is compatible with all UXM and UXM-E model hardware.
Bugs Resolved in ACH
The open bugs known at this stage are listed in the Known Anomalies section of this appendix. The firmware release ACH also contains the bug fixes done in the Model B firmware up to revision ABL.
Upgrade Instructions
If the firmware being upgraded is not revision ACB or higher, then the firmware upgrade to revision ACH requires an intermediate upgrade to revision ABJ. However, before upgrading the firmware to revision ABJ, the boot code must be upgraded to boot revision 8.
If the firmware revision ACB has not been burned, follow these steps to upgrade the firmware to revision ACH:
Step 1 Execute a graceful upgrade to Release 9.3.10 or later.
Step 2 Upgrade the UXM boot code to boot revision 8.
Step 3 Upgrade the Administration application firmware to revision ABJ or greater.
Step 4 After the card comes up, upgrade the Administration application firmware to revision ACH.
Warning If these procedures are not followed, the card might enter a state from which it can NOT be recovered. Pay attention to this section before loading the new firmware.
If the firmware revision ACB has been burned onto the card, follow these steps to upgrade the firmware to revision ACH:
Step 1 Execute a graceful upgrade to Release 9.3.10 or later.
Step 2 Upgrade the run-time UXM firmware to revision ACH.
Known Anomalies
Bug ID
Description
CSCdu50731
Symptom: When one of the physical lines within IMA goes down and comes backup remote side of IMA goes out of Sync. The UXM trunks may experience CGW discards due to corrupted Frames passing over unbalanced IMA trunk.
This problem is identified and resolved in ABR Release under UXM Model B firmware.
Workaround: Resetting the UXM card will restore the service.
Bugs Fixed in ACH
Bug ID
Description
CSCdu89369
Symptom: SWERR9000/C311 logged when disable VSI partition on IMA-T1 VT on IGX.
Conditions: When a VSI partition is enabled/disabled on a T1-IMA Virtual trunk SwSw Error9000 is logged.
Workaround: Not a service affecting bug.
CSCdv19468
Symptom: Loopback on Physical Interface not working on E3, T3 and OC3.
Conditions: Loop back on Physical interface is not effective on ports and trunks as the traffic is seen leaked to other end CPE. This bug is found as part of Diagnostic Loopback feature implemented on UXM trunks which is enabled in 9.3.40 SwSw Release.
Workaround: Issue resetcd.
CSCdv38499
Symptom: Traffic is being LEAKED to the remote end when loop back is present.
Conditions: Local loopback on UXM ports will result in traffic leaked to cell bus. Local remote loopback on UXM ports will result in traffic leaked to cell bus from remote end.
This bug is found and resolved as part of the Diagnostic Loopback feature implementation which is enabled in 9.3.40 SwSw Release.
Workaround: Issue resetcd on UXM.
CSCdw14895
Symptom: Adding ds3 trunk from Y-RED side results addtrk failure with message in 'loop back ' detected.
This bug was introduced due to CSCdv38499 which has broken addtrk on Y-Red pair.
Workaround: addtrunk from remote end if no Y-Red exists on remote end.
Alternatively, physically pullout the Standby and perform addtrk.
CSCdt14885
Symptom: UXM card resets, we see swerr 103 and or cderrs 0B 29 00 A9 01 0D 17.
Conditions: UXM card resets with either 103 SwSw error or 0B h/w error or both on an active UXM which has been Up for 320 days. This bug is due to Gateway Timer Counter overflow which is found to occur every 320 days since card is up. This bug exists in all previous versions of firmware under Model-C UXM as well as UXM-E hardware.
Workaround: Reset UXM card in a maintenance window before 320 days of uptime.
Boot Code Requirements
Boot Code revision boot_08 is needed for the ACH release.
Unsupported Configurations or Applications.
1. MPLS Controllers other than 7200 series routers.
2. Port Adapter PA-A3 on the 7200 series router not supported for "multi-vc" configuration.
3. The OC3 MMF backcard is not supported for Y-redundancy configuration.
4. Adding more than one controller to a VSI partition is not supported.
5. Adding controllers on trunks is not supported. The controllers must be attached to line interfaces.
6. Usage of IMA interfaces is not supported for attaching the LSCs (Label Switched Controllers) or LERs (Label Edge Routers). This restriction is because of the non availability of IMA interface support in IOS software release 12.1.(3)T for LSC and LER interfaces. The IMA interfaces can be used for trunks between IGX nodes.
7. ILMI implementation does not support service registration and address registration.
Notes and Cautions
1. Switch Software Release 9.3.10 or later is compatible with the following versions of IOS and 7200 port adapter hardware:
IOS 12.1(3)T and later
PA-A1 (non enhanced) flavors of T3, E3, and OC3 ATM adapters
Note PA-A3 adapters are not supported for multi-VC mode as of 9/2000.
2. Changing the VPI range on a UXM interface partition is not causing the Xtagatm interface configuration on the controller to be updated.
This issue is recently discovered in 12.1(3)T.
When the slave ATM switch reports a VPI range change through an "IFC GET CNFG TRAP" the LSC does the following:
a. If the VPI range is reduced, the XTAG interface is toggled down and back up to force LDP/TDP to be reset. The LDP negotiates label ranges (VPI,VCI ranges) only when the session is established. The information displayed through a "show tag int detailed" command should be correct in this case.
Note The above does not apply to the BPX where the VPI or VCI range cannot be SHRUNK using the
cnfrsrc command unless the interface is in the disabled state.
b. If the VPI range is increased, the information is updated in the VSI master but the information is NOT propagated to the XTAG. The LSC ignores the increased range instead of resetting the LDP session which forces VCs to be torn down. The VPI range from the "show tag int detailed" command can be interpreted as the LOCAL range that LDP/TDP used when setting up the session that is active. Changes at the ATM switch level are not reflected in the LSC unless the change explicitly causes the LDP session to be re-established.
3. Only one Xtag interface corresponding to a partition on a UXM interface that has multiple-partitions comes up. Other Xtag interface based on different partitions on the same UXM interface is not coming up.
Turn on "debug VSI errors."
The following errors display the messages: VPI/VCI in use or VCI in use. Overloading of the 0/32 tag-control PVC has occured.
a. Example 1: Node tagigx4 dspctrlrs for tagigx4, shows two controllers, one each for partition 1 and partition 2.
b. Example 2: dsprsrc for 7.1, shows partitions 1, 2 and 3 on trunk 7.1
Trunk : 7.1
Maximum PVC LCNS: 256 Maximum PVC Bandwidth: 65000
(Statistical Reserve: 5000)
State MinLCN MaxLCN StartVPI EndVPI MinBW MaxBW
Partition 1: E 30 100 50 75 1000 10000
Partition 2: E 10 100 90 150 1000 10000
Partition 3: E 10 100 180 240 1000 5000
c. Xtagatm interface configuration for partitions 1 and 2 on Trunk 7.1
Make sure that only Xtag ATM interface uses the default tag-control-vc of 0/32. All other Xtag ATM interfaces on the same UXM interface should use non-default tag-control-vcs using the "tag-switching atm control-vc" command.
The following example shows xtagatm71 configuration on the LSC connected to 3.3 using default tag-control-vc of 0/32
Current configuration:
!
interface XTagATM71
ip unnumbered Loopback0
no ip mroute-cache
extended-port ATM2/0 vsi 0x00070100
tag-switching ip
end
The following example shows xtagatm71 configuration on an LSC connected to 19.3 using configured tag-control-vc of 90/32
When configuring a Cisco MPLS LSC on T3 interfaces, make sure the payload scrambling option on the UXM T3 line matches the config on the LSC. The default for the LSC is OFF, and the default for the UXM is ON since the lines come UP and CLEAR.
The following examples show T3 UXM configurations:
Controller 1 on node tagigx3 is connected to 12.6. If the IP address in the CtrlrIP column is correct, you know that the LSC is being seen by the IGX and vice-versa. Otherwise a 0.0.0.0 displays.
6. The complete list of the FAQs (Frequently Asked Questions) that assist in troubleshooting VSI/MPLS problems on IGX can be found at the following URL:
The following list contains the firmware file information for the UXM Model C.
Filename(s)
Size (bytes)
ACH.000 to ACH.023
65536
ACH.0024
37230
ACH.img
784
Filename(s)
Size (bytes)
AC08.000
56624
AC08.img
784
Appendix C. URM Model B Firmware XBB Release Notes
This section contains information about the UXM Model B firmware XBB.
Introduction
URM XBB is Model-B firmware release for URM card on IGX. The URM is an IOS-based routing module for the IGX. This release is an upgrade from XBA.
New Features
No new features are introduced by XBB.
Obsolete Features
None.
Compatibility
1. Software
XBB firmware is compatible with Switch Software Release 9.3.30 or later.
2. Hardware
XBB firmware is compatible with URM hardware.
Bugs Resolved in ABT
None. This firmware is equivalent to ACH UXM model firmware for VSI bug fixes.
Upgrade Instructions
None. This firmware uses the same boot revision as XBA firmware.
Boot Code Requirements
Boot Code revision boot_2 is needed for the XBB release.
Unsupported Configurations or Applications
The 0/1023 is a special VC used by URM for IPC between Admin Processor and IOS. When configuring MPLS network, do not commit any cross-connect or control-vc on the port. Otherwise, SWERRS or non-working configurations might occur.
Firmware Filenames and Sizes
This section contain URM-B firmware file information.
XBB Firmware Boot Code
Filename(s)
Size (bytes)
XBB.000 to XBB.019
65536
XBB.020
5701
XBB.img
784
XAA Firmware Boot Code
Filename(s)
Size (bytes)
XA2.000
57328
XA2.img
784
Notes and Cautions
1. The URM back card is hot-swappable; however the IOS processor is held in reset when back card is removed.
2. Card Mismatch might occur since XBA supports both BC-2FE2V and BC-2FE. Card mismatch is declared if BC-2FE2V and BC-2FE are swapped out of an ACTIVE URM card. Back cards of two different types can be swapped only in a STANDBY URM card.
3. If Remote Router Configuration feature is used to burn the IOS configuration in the card, the burned configuration cannot be deleted but can be overwritten only by another configuration.
Appendix D - UXM Model B Firmware ABT Release
Introduction
UXM ABT is Model-B firmware release for UXM card on IGX. Firmware is the same for UXM and UXM-E cards.
New Features
UXM trunk and line loopback.
Obsolete Features
None.
Compatibility
1. Software
ABT is compatible with Switch Software Release 9.3.30 or later.
2. Hardware
ABT is compatible with URM and UXM-E hardware of all models.
Bugs Resolved in ABT
The following table list the resolved anomalies in firmware ABT.
Bug ID
Description
CSCdu66836
Switchyred fails an IMA trk momentarily and then clears failure.
CSCdv73321
UXM fails RCMP SRAM Parity Test.
CSCdv91482
ACR is only 7 and traffic loss when trk vc shaping enabled for UBR.
CSCdw02669
UXM constantly fails when remote IMA configured for ITC.
CSCdw03819
On loc or rmt lpbk on uxm, IMA feeder trk to clear & fail state.
CSCdw04142
Traffic being leaked to remote end while loc lp exists on IMA feeder trks.
CSCdw08662
ACR is MCR when trk vc shaping is enabled for ABR conn.
CSCdw14895
Adding trunk on UXM Y-Red failed with error message Loop Back Detected.
CSCdw32804
Remaining IMA config in 1xT1 trunk. Ima not cleaned up.
CSCdw62198
Ubr does not tag all the cells to clp 1.
CSCdw78656
VT failure update takes long time - upto 6 secs.
CSCdw86157
UXM QE locks up causing 103s, frozen pvcs.
CSCdx02932
Looped PVC (abrstd with VSVD) on UXM IGX.
CSCdx30234
Improper use of timer in Cmi message handler.
CSCdx48613
Y-RED IMA TK cannot back to OK status after del TK remote loop back.
CSCin04753
Selftest failure on UXM card.
Upgrade Instructions
Update boot code to boot 09 before upgrading to ABT.
Caution This upgrade must be completed before upgrading to ABT.
Boot Code Requirements
None for the ABT release.
Boot code revision boot_09 of ABS release is the same for ABT release.
Unsupported Configuration or Applications
None.
Firmware Filenames and Sizes
ABT Firmware Boot Code
Filenames
Size (bytes)
ABT.000-ABT.017
65536
ABT.018
58074
ABT.img
784
Notes and Cautions
None.
Obtaining Documentation
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World Wide Web
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Ordering Documentation
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Obtaining Technical Assistance
Cisco provides Cisco.com as a starting point for all technical assistance. Customers and partners can obtain documentation, troubleshooting tips, and sample configurations from online tools by using the Cisco Technical Assistance Center (TAC) Web Site. Cisco.com registered users have complete access to the technical support resources on the Cisco TAC Web Site.
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The Cisco TAC is available to all customers who need technical assistance with a Cisco product, technology, or solution. Two types of support are available through the Cisco TAC: the Cisco TAC Web Site and the Cisco TAC Escalation Center.
Inquiries to Cisco TAC are categorized according to the urgency of the issue:
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Which Cisco TAC resource you choose is based on the priority of the problem and the conditions of service contracts, when applicable.
Cisco TAC Web Site
The Cisco TAC Web Site allows you to resolve P3 and P4 issues yourself, saving both cost and time. The site provides around-the-clock access to online tools, knowledge bases, and software. To access the Cisco TAC Web Site, go to the following URL:
All customers, partners, and resellers who have a valid Cisco services contract have complete access to the technical support resources on the Cisco TAC Web Site. The Cisco TAC Web Site requires a Cisco.com login ID and password. If you have a valid service contract but do not have a login ID or password, go to the following URL to register:
If you cannot resolve your technical issues by using the Cisco TAC Web Site, and you are a Cisco.com registered user, you can open a case online by using the TAC Case Open tool at the following URL:
If you have Internet access, it is recommended that you open P3 and P4 cases through the Cisco TAC Web Site.
Cisco TAC Escalation Center
The Cisco TAC Escalation Center addresses issues that are classified as priority level 1 or priority level 2; these classifications are assigned when severe network degradation significantly impacts business operations. When you contact the TAC Escalation Center with a P1 or P2 problem, a Cisco TAC engineer will automatically open a case.
To obtain a directory of toll-free Cisco TAC telephone numbers for your country, go to the following URL:
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