debug management event through debug mpls ldp bindings

debug management event mib

To monitor the activities of the Event MIB in real time on your routing device, use the debug management event mib command in privileged EXEC mode. To disable debugging output, use the no form of this command.

debug management event mib

no debug management event mib

Syntax Description

This command has no arguments or keywords.

Command Default

Debugging output is disabled.

Command Modes

Privileged EXEC (#)

Command History

Release

Modification

12.1(3)T

This command was introduced.

12.2(33)SRA

This command was integrated into Cisco IOS Release 12.2(33)SRA.

Cisco IOS XE Release 2.1

This command was integrated into Cisco IOS XE Release 2.1.

Usage Guidelines

The debug management event mib command prints messages to the screen whenever the Event MIB evaluates a specified trigger. These messages are given in real-time, and are intended to be used by technical support engineers for troubleshooting purposes. Definitions for the OID (object identifier) fields can be found in the EVENT-MIB.my file, available for download from the Cisco MIB website on http://www.cisco.com/public/sw-center/netmgmt/cmtk/mibs.shtml.

Examples

The following is sample output from the debug management event mib command: 


Router# debug management event mib
Event Process Bool: Owner aseem, Trigger 01 
 Event Bool process: invoke event
 Event Bool process: no wildcarding
Event: OID ifEntry.10.3
Event getValue abs: 69847284
 Event Bool process: Trigger Fired !
 mteSetNotifyObjects: 
 Event execOnFiring: sending notification
Event: OID ifEntry.10.1
Event add_objects: Owner , Trigger 
Event add_objects: Owner aseem, Trigger sethi
Event Found Owner: aseem
Event Found Name: sethi
Event: OID ifEntry.10.1
 Event: sending trap with 7 OIDs
Event: OID mteHotTrigger.0
Event: OID mteHotTargetName.0
Event: OID mteHotContextName.0
Event: OID ifEntry.10.3
Event: OID mteHotValue.0
Event: OID ifEntry.10.1
Event: OID ifEntry.10.1
Event mteDoSets: setting oid
 Event mteDoSets: non-wildcarded oid
Event: OID ciscoSyslogMIB.1.2.1.0
Event Thresh Process: Owner aseem, Trigger 01 
 Event Thresh process: invoke rising event
 Event Thresh process: invoke falling event
 Event Thresh process: no wildcarding
Event: OID ifEntry.10.3
Event getValue abs: 69847284
Event Existence Process: Owner aseem, Trigger 01 
 Event Exist process: invoke event
 Event Exist process: no wildcarding
Event: OID ifEntry.10.3
Event getValue abs: 69847284
 Event Check ExistTrigger for Absent
 Event Check ExistTrigger for Changed
Router# no debug management event mib

Related Commands

Command

Description

show management event

Displays the SNMP Event values that have been configured on your routing device through the use of the Event MIB.

debug management expression

To monitor the activities of the Expression MIB in real time on your routing device, use the debug management expression command in privileged EXEC mode. To disable debugging output, use the no form of this command.

debug management expression {evaluator | mib | parser}

debug management expression {evaluator | mib | parser}

Syntax Description

evaluator

Specifies the Expression MIB evaluator.

mib

Specifies the Expression MIB SNMP operations.

parser

Specifies the Expression MIB parsing.

Command Default

By default, debugging is disabled.

Command Modes

Privileged EXEC (#)

Command History

Release

Modification

12.2(1)

This command was introduced in a release earlier than Cisco IOS Release 12.2(1).

12.2SX

This command is supported in the Cisco IOS Release 12.2SX train. Support in a specific 12.2SX release of this train depends on your feature set, platform, and platform hardware.

12.2SR

This command is supported in the Cisco IOS Release 12.2SR train. Support in a specific 12.2SR release of this train depends on your feature set, platform, and platform hardware.

12.2SB

This command is supported in the Cisco IOS Release 12.2SB train. Support in a specific 12.2SB Release of this train depends on your feature set, platform, and platform hardware.

Examples

The following example shows how to enable debugging options for Expression MIB: 


Router# debug management expression mib
Expression MIB SNMP operations debugging is on

Related Commands

Command

Description

show management expression

Displays the SNMP Expression values that have been configured on your routing device through the use of the Expression MIB.

debug mdns

To enable the debugging of multicast Domain Name System (mDNS) service discovery information, use the debug mdns command in privileged EXEC mode. To disable the debugging output, use the no form of this command.

debug mdns { all | error | event | packet | verbose}

no debug mdns

Syntax Description

all

Enables logging of the information about the mDNS service discovery processes.

error

Enables logging of the information about the errors encountered by the mDNS responder.

event

Enables logging of the information about the various events such as free, memory-allocated, packet, request, and timer.

packet

Enables logging of the information about the hex dump (byte by byte printing of packet traffic information) moving in and out of the mDNS responder.

verbose

Enables logging of detailed mDNS service discovery information.

Command Default

Debugging of mDNS service discovery is disabled.

Command Modes


Privileged EXEC (#)

Command History

Release

Modification

15.3(2)S

This command was introduced.

Examples

The following example shows how to enable debugging output for mDNS events:


Device> enable
Device# debug mdns event
Device# mDNS event debugs debugging is on
Device# sh log
Syslog logging: enabled (0 messages dropped, 14 messages rate-limited, 0 flushes, 0 overruns, xml disabled, filtering disabled)

No Active Message Discriminator.



No Inactive Message Discriminator.


    Console logging: disabled
    Monitor logging: level debugging, 0 messages logged, xml disabled,
                     filtering disabled
    Buffer logging:  level debugging, 4762561 messages logged, xml disabled,
                    filtering disabled
    Exception Logging: size (4096 bytes)
    Count and timestamp logging messages: disabled
    Persistent logging: disabled

No active filter modules.

    Trap logging: level informational, 176 message lines logged
        Logging Source-Interface:       VRF Name:
Log Buffer (4096 bytes):
er cache hit!
*Mar 15 03:01:38.234: SISF[CLA]: Interested feature:
*Mar 15 03:01:38.234: SISF[CLA]:                Snooping
*Mar 15 03:01:38.234: SISF[SWI]: Gi0/0/1 vlan 0 Feature_0  Snooping priority 128
*Mar 15 03:01:38.234: SISF[PRS]: Gi0/0/1 vlan 0 Parse msg ND_ROUTER_ADVERT. len 48
*Mar 15 03:01:38.234: SISF[PRS]: Gi0/0/1 vlan 0 Found 3 options
*Mar 15 03:01:38.234: SISF[PRS]: Gi0/0/1 vlan 0            option 1 : ND_OPT_SOURCE_LINKADDR
*Mar 15 03:01:38.234: SISF[PRS]: Gi0/0/1 vlan 0            option 3 : ND_OPT_PREFIX_INFORMATION
*Mar 15 03:01:38.234: SISF[PRS]: Gi0/0/1 vlan 0            option 5 : ND_OPT_MTU
*Mar 15 03:01:38.234: SISF[PRS]:
*Mar 15 03:01:38.234: SISF[GLN]: Gi0/0/1 vlan 0 IPv6 snooping Gleaner setting sec level to 2
*Mar 15 03:01:38.234: SISF[PRS]: Gi0/0/1 vlan 0 Sec level is Guard
*Mar 15 03:01:38.234: SISF[PRS]: Gi0/0/1 vlan 0 Advertise from access: default action is update entry
*Mar 15 03:01:38.234: SISF[PRS]: Gi0/0/1 vlan 0 Unallowed RA/Redir: default action is delete entry
*Mar 15 03:01:38.234: SISF[GLN]: Gi0/0/1 vlan 0 Unauthorized packet
*Mar 15 03:01:38.234: SISF[SWI]: Gi0/0/1 vlan 0 Feature Snooping rc 1
*Mar 15 03:01:38.235: SISF[SWI]: Gi0/0/1 vlan 0 Feature drop
*Mar 15 03:01:38.235: SISF[MEM]: Unlocking, count is now 0
*Mar 15 03:01:38.235: SISF[MEM]:  3BB56338 semaphore system unlocked
*Mar 15 03:01:38.485: SISF[SWI]: SISF IPv6 enqueue FE80::217:95FF:FE73:9600
*Mar 15 03:01:40.716: SISF[SWI]: SISF IPv6 enqueue FE80::219:2FFF:FE53:83CE
*Mar 15 03:01:40.866: SISF[SWI]: SISF IPv6 enqueue FE80::213:80FF:FE3E:8B25
*Mar 15 03:01:41.466: SISF[SWI]: SISF IPv6 enqueue FE80::213:80FF:FE3E:8B24
*Mar 15 03:01:41.644: SISF[SWI]: SISF IPv6 enqueue FE80::221:D8FF:FECD:5F40
*Mar 15 03:01:45.376: SISF[SWI]: SISF IPv6 enqueue FE80::219:2FFF:FE53:83CE
*Mar 15 03:01:49.732: SISF[SWI]: SISF IPv6 enqueue FE80::219:2FFF:FE53:83CE
*Mar 15 03:01:50.463: SISF[SWI]: Match ACL for incoming packet on Gi0/0/1
*Mar 15 03:01:50.463: SISF[SWI]: SISF IPv6 highjack L3-IF Gi0/0/1
*Mar 15 03:01:50.463: SISF[MEM]: Owner is this process
*Mar 15 03:01:50.463: SISF[MEM]: semaphore 3BB56338 (re)locked
*Mar 15 03:01:50.463: SISF[MEM]: Locking, count is now 1
*Mar 15 03:01:50.463: SISF[CLA]: Building interested feature list
*Mar 15 03:01:50.463: SISF[CLA]: Interest on target Gi0/0/1
*Mar 15 03:01:50.463: SISF[CLA]: Classifier cache hit!
*Mar 15 03:01:50.463: SISF[CLA]: Interested feature:
*Mar 15 03:01:50.463: SISF[CLA]:                Snooping
*Mar 15 03:01:50.463: SISF[SWI]: Gi0/0/1 vlan 0 Feature_0  Snooping priority 128
*Mar 15 03:01:50.463: SISF[PRS]: Gi0/0/1 vlan 0 Parse msg ND_ROUTER_ADVERT. len 48
*Mar 15 03:01:50.463: SISF[PRS]: Gi0/0/1 vlan 0 Found 3 options
*Mar 15 03:01:50.463: SISF[PRS]: Gi0/0/1 vlan 0            option 1 : ND_OPT_SOURCE_LINKADDR
*Mar 15 03:01:50.463: SISF[PRS]: Gi0/0/1 vlan 0            option 3 : ND_OPT_PREFIX_INFORMATION
*Mar 15 03:01:50.463: SISF[PRS]: Gi0/0/1 vlan 0            option 5 : ND_OPT_MTU
*Mar 15 03:01:50.464: SISF[PRS]:
*Mar 15 03:01:50.464: SISF[GLN]: Gi0/0/1 vlan 0 IPv6 snooping Gleaner setting sec level to 2
*Mar 15 03:01:50.464: SISF[PRS]: Gi0/0/1 vlan 0 Sec level is Guard
*Mar 15 03:01:50.464: SISF[PRS]: Gi0/0/1 vlan 0 Advertise from access: default action is update entry
*Mar 15 03:01:50.464: SISF[PRS]: Gi0/0/1 vlan 0 Unallowed RA/Redir: default action is delete entry
*Mar 15 03:01:50.464: SISF[GLN]: Gi0/0/1 vlan 0 Unauthorized packet
*Mar 15 03:01:50.464: SISF[SWI]: Gi0/0/1 vlan 0 Feature Snooping rc 1
*Mar 15 03:01:50.464: SISF[SWI]: Gi0/0/1 vlan 0 Feature drop
*Mar 15 03:01:50.464: SISF[MEM]: Unlocking, count is now 0
*Mar 15 03:01:50.464: SISF[MEM]:  3BB56338 semaphore system unlocked
*Mar 15 03:01:54.548: SISF[SWI]: SISF IPv6 enqueue FE80::219:2FFF:FE53:83CE
*Mar 15 03:01:57.543: SISF[SWI]: SISF IPv6 enqueue FE80::B614:89FF:FE03:2600
*Mar 15 03:01:59.428: SISF[SWI]: SISF IPv6 enqueue FE80::219:2FFF:FE53:83CE
*Mar 15 03:02:03.896: SISF[SWI]: SISF IPv6 enqueue FE80::219:2FFF:FE53:83CE
*Mar 15 03:02:08.500: SISF[SWI]: SISF IPv6 enqueue FE80::219:2FFF:FE53:83CE
*Mar 15 03:02:10.266: SISF[SWI]: SISF IPv6 enqueue FE80::213:80FF:FE3E:8B25
ASR1006-1#

Device# end

Related Commands

Command

Description

show mdns cache

Displays information about the resource records in the mDNS cache during the mDNS service discovery process.

show mdns requests

Displays information about the browse requests, pending service requests, and pending host resolve requests during the mDNS service discovery process.

show mdns statistics

Displays information about the number of packets sent, received, and dropped in the device during the mDNS service discovery process.

debug mdss

To display the run-time errors and sequence of events for the multicast distributed switching services (MDSS), use the debug mdss command in privileged EXEC mode. To disable debugging output, use the no form of this command.

debug mdss commanddebug mdss {all | error | event}

no debug mdss {all | error | event}

Syntax Description

all

Displays both errors and sequence of events for MDSS.

error

Displays the run-time errors for MDSS.

event

Displays the run-time sequence of events for MDSS.

Command Default

Debugging is not enabled.

Command Modes

Privileged EXEC

Command History

Release

Modification

12.0(5)T

This command was introduced.

12.2(33)SRA

This command was integrated into Cisco IOS Release 12.2(33)SRA.

Examples

The following example shows output using the debug mdss command with the all keyword: 


Router# debug mdss all
mdss all debugging is on
Router# clear ip mroute *
Router#
01:31:03: MDSS: got MDFS_CLEARALL
01:31:03: MDSS: --> mdss_flush_all_sc
01:31:03: MDSS: enqueue a FE_GLOBAL_DELETE
01:31:03: MDSS: got MDFS_MROUTE_ADD for (0.0.0.0, 224.0.1.40)
01:31:03: MDSS: --> mdss_free_scmdb_cache
01:31:03: MDSS: got MDFS_MROUTE_ADD for (0.0.0.0, 239.255.158.197)
01:31:03: MDSS: got MDFS_MROUTE_ADD for (192.1.21.6, 239.255.158.197)
01:31:03: MDSS: got a MDFS_MIDB_ADD for (192.1.21.6, 239.255.158.197,
Vlan21) +Vlan22
01:31:03: MDSS: -- mdss_add_oif
01:31:03: MDSS: enqueue a FE_OIF_ADD (192.1.21.6, 239.255.158.197,
Vlan21) +Vlan22
01:31:03: MDSS: mdb (192.1.21.6, 239.255.158.197) fast_flags |
MCACHE_MTU
01:31:03: MDSS: got a MDFS_MIDB_ADD for (192.1.21.6, 239.255.158.197,
Vlan21) +Vlan23
01:31:03: MDSS: -- mdss_add_oif
01:31:03: MDSS: enqueue a FE_OIF_ADD (192.1.21.6, 239.255.158.197,
Vlan21) +Vlan23
01:31:03: MDSS: mdb (192.1.21.6, 239.255.158.197) fast_flags |
MCACHE_MTU
01:31:03: MDSS: got a MDFS_MIDB_ADD for (192.1.21.6, 239.255.158.197,
Vlan21) +Vlan24
01:31:03: MDSS: -- mdss_add_oif
01:31:03: MDSS: enqueue a FE_OIF_ADD (192.1.21.6, 239.255.158.197,
Vlan21) +Vlan24
01:31:03: MDSS: mdb (192.1.21.6, 239.255.158.197) fast_flags |
MCACHE_MTU
01:31:03: MDSS: got a MDFS_MIDB_ADD for (192.1.21.6, 239.255.158.197,
Vlan21) +Vlan25
01:31:03: MDSS: -- mdss_add_oif
01:31:03: MDSS: enqueue a FE_OIF_ADD (192.1.21.6, 239.255.158.197,
Vlan21) +Vlan25
01:31:03: MDSS: mdb (192.1.21.6, 239.255.158.197) fast_flags |
MCACHE_MTU
01:31:03: MDSS: got a MDFS_MIDB_ADD for (192.1.21.6, 239.255.158.197,
Vlan21) +Vlan26
01:31:03: MDSS: -- mdss_add_oif
01:31:03: MDSS: enqueue a FE_OIF_ADD (192.1.21.6, 239.255.158.197,
Vlan21) +Vlan26
01:31:03: MDSS: mdb (192.1.21.6, 239.255.158.197) fast_flags |
MCACHE_MTU
01:31:03: MDSS: got a MDFS_MIDB_ADD for (192.1.21.6, 239.255.158.197,u
Vlan21) +Vlan27

Related Commands

Command

Description

debug mls rp ip multicast

Displays information about MLSP.

debug media resource provisioning all

To display debugging messages related to all media resource provisioning, use the debug media resource provisioning all command in privileged EXEC mode. To disable debugging output, use the no form of this command.

debug media resource provisioning all

no debug media resource provisioning all

Syntax Description

This command has no arguments or keywords.

Command Modes

Privileged EXEC

Command History

Release

Modification

12.3(8)T

This command was introduced.

Examples

The following is sample output from the debug media resource provisioning all command: 


Router# debug media resource provisioning all
 
.
.
.
Media resource provisioning all debugging is on.
Disabling profile will disconnect active CONFERENCING calls, 
do you want to continue ? [yes/no]
*Jul  8 18:46:36: rpm_if_profile_exist ::profile id 10, service  TRANSCODING 
*Jul  8 18:46:36: rpm_get_rscid_profile_info Profile with profile id :10, service :TRANSCODING does not exist
*Jul  8 18:46:36: rpm_if_profile_exist ::profile id 10, service  CONFERENCING 
*Jul  8 18:46:36: rpm_if_profile_exist ::profile id 10, service  TRANSCODING 
*Jul  8 18:46:36: rpm_get_rscid_profile_info Profile with profile id :10, service :TRANSCODING does not exist
*Jul  8 18:46:36: rpm_if_profile_exist ::profile id 10, service  CONFERENCING 
 Must be yes or no
Router(config-dspfarm-profile)#
Router(config-dspfarm-profile)#
Router(config-dspfarm-profile)#
Router(config-dspfarm-profile)# no shutdown
 
Router(config-dspfarm-profile)#
*Jul  8 18:46:42: rpm_user_enable_profile ::profile id 10, service CONFERENCING 
*Jul  8 18:46:44:%DSPRM-5-UPDOWN:DSP 10 in slot 1, changed state to up
*Jul  8 18:46:44: rpm_rscprv_update ::provider_id 1 rsc_id 2 rsc_grp_state 4num_channel_delta 0
*Jul  8 18:46:44: rpm_rscprv_update resource update from resource provider 1 is successful
Router(config-dspfarm-profile)#
Router(config-dspfarm-profile)# exit
 
Router(config)# exit

Related Commands

Command

Description

debug media resource provisioning errors

Displays debugging messages related to media resource provisioning errors.

debug media resource provisioning events

Displays debugging messages related to media resource provisioning events.

debug media resource provisioning errors

To display debugging messages related to media resource provisioning errors, use the debug media resource provisioning errors command in privileged EXEC mode. To disable debugging output, use the no form of this command.

debug media resource provisioning errors

no debug media resource provisioning errors

Syntax Description

This command has no arguments or keywords.

Command Modes

Privileged EXEC (#)

Command History

Release

Modification

12.3(8)T

This command was introduced.

12.2SX

This command is supported in the Cisco IOS Release 12.2SX train. Support in a specific 12.2SX release of this train depends on your feature set, platform, and platform hardware.

Examples

The following is sample output from the debug media resource provisioning errors command: 


Router# debug media resource provisioning errors
 
Media resource provisioning errors debugging is on
Router# no debug media resource provisioning errors
 
Media resource provisioning errors debugging is off

Related Commands

Command

Description

debug media resource provisioning all

Displays debugging messages related to all media resource provisioning.

debug media resource provisioning events

Displays debugging messages related to media resource provisioning events.

debug media resource provisioning events

To display debugging messages related to media resource provisioning events, use the debug media resource provisioning events command in privileged EXEC mode. To disable debugging output, use the no form of this command.

debug media resource provisioning events

no debug media resource provisioning events

Syntax Description

This command has no arguments or keywords.

Command Modes

Privileged EXEC (#)

Command History

Release

Modification

12.3(8)T

This command was introduced.

12.2SX

This command is supported in the Cisco IOS Release 12.2SX train. Support in a specific 12.2SX release of this train depends on your feature set, platform, and platform hardware.

Examples

The following is sample output from the debug media resource provisioning events command: 


Router# debug media resource provisioning events
 
Media resource provisioning events debugging is on
Router# no debug media resource provisioning events
 
Media resource provisioning events debugging is off
Router#

Related Commands

Command

Description

debug media resource provisioning all

Displays debugging messages related to all media resource provisioning.

debug media resource provisioning errors

Displays debugging messages related to media resource provisioning errors.

debug mediacard

To display Digital Signal Processor Resource Manager (DSPRM) debugging information, use the debug mediacard command in privileged EXEC mode. To disable debugging output, use the no form of this command.

debug mediacard {all | errors | events | message}

no debug mediacard {all | errors | events | message}

Syntax Description

all

Debugs DSPRM errors, events, and messages.

errors

Debugs DSPRM errors.

events

Debugs DSPRM events.

message

Debugs DSPRM messages.

Command Default

No default behavior or values

Command Modes

Privileged EXEC

Command History

Release

Modification

12.3(8)XY

This command was introduced on the Communication Media Module.

12.3(14)T

This command was integrated into Cisco IOS Release 12.3(14)T.

12.4(3)

This command was integrated into Cisco IOS Release 12.4(3).

Usage Guidelines

Use the debug mediacard errors command to debug active calls. You should use the debug mediacard all command during minimum traffic periods only; using the debug mediacard all command during active calls can significantly impact system performance.

Examples

The following is sample output from the debug mediacard command: 


Router# debug mediacard messages
Media Card service messages debugging is on
*Mar  1 07:45:06.362: >  CREATE_CONFERENCE (0x1) , pktLen 56, confId 1, instId 1
7483, seqNo 27983, Payload (24 bytes): confType 3, agcMode 1, spkrUpdateReportMo
de 1, maxActSpkr 3
*Mar  1 07:45:06.362: >  CREATE_CHANNEL (0x64) , pktLen 100, confId 1, instId 26
625, seqNo 27984, Payload (68 bytes): rxCodecType 1, suppressRx 1, rxCNG 2, rxPL
C 2, rxVAD 2, rxToneDet 1, rxSpkrPriority 1, rxInactiveTimeOut 7200, rxPacketSiz
e 20, rxRTPPayloadType 0
*Mar  1 07:45:06.362:    txCodecType 2, suppressTx 1, txVAD 1, AGC 1, txSSRC 167
860472, txPacketSize 20, txRTPPayloadType 0
*Mar  1 07:45:06.362:  < CREATE_CONFERENCE_ACK (0x4001) , pktLen 116, confId 1,
instId 0, seqNo 27983, Payload (84 bytes): status 0 (Normal Completion), param1
3, param2 0
*Mar  1 07:45:06.362:  < CREATE_CHANNEL_ACK (0x4064) , pktLen 116, confId 1, ins
tId 26625, seqNo 27984, Payload (84 bytes): status 0 (Normal Completion), param1
 0, param2 0
*Mar  1 07:45:06.362: >  CREATE_CONFERENCE (0x1) , pktLen 56, confId 2, instId
All possible debugging has been turned off
MTP#26625, seqNo 27985, Payload (24 bytes): confType 3, agcMode 1, spkrUpdateRep
ortMode 1, maxActSpkr 3
*Mar  1 07:45:06.362: >  CREATE_CHANNEL (0x64) , pktLen 100, confId 2, instId 26
626, seqNo 27986, Payload (68 bytes): rxCodecType 2, suppressRx 1, rxCNG 2, rxPL
C 2, rxVAD 2, rxToneDet 1, rxSpkrPriority 1, rxInactiveTimeOut 7200, rxPacketSiz
e 20, rxRTPPayloadType 0
*Mar  1 07:45:06.366:    txCodecType 1, suppressTx 1, txVAD 1, AGC 1, txSSRC 167
858296, txPacketSize 20, txRTPPayloadType 0
*Mar  1 07:45:06.366:  < CREATE_CONFERENCE_ACK (0x4001) , pktLen 116, confId 2,
instId 0, seqNo 27985, Payload (84 bytes): status 0 (Normal Completion), param1
3, param2 0 
Router# debug mediacard events
Media Card service events debugging is on
*Mar  1 07:47:53.926: ms_ac_open_rtp_sockets: loc_ipaddr = 10.1.80.24 loc_mac<00
03.feac.c842> rem_ip<0.0.0.0> rem_port<0>
*Mar  1 07:47:53.926: ms_ac_get_unique_udp_port: rtcp_socket = 6255F490
*Mar  1 07:47:53.926: ms_ac_get_unique_udp_port: SLOT3 Port<3450> is assigned!
*Mar  1 07:47:53.926: ms_ac_open_local_rtp: rtpinfo 64382A3C, local_port =23930
*Mar  1 07:47:53.926: ms_ac_rtp_enq: Sent msg 101 to DSPFARM
*Mar  1 07:47:53.926: ms_ac_open_remote_rtp: rtpinfo 64382A3C, loc_ipaddr = 10.1
.80.24 loc_udp_prt <23930> ,loc_mac<0003.feac.c842>
*Mar  1 07:47:53.926: ms_ac_open_remote_rtp: remote_ipaddr = 10.1.2.15 remote_ud
p_prt <17932>
*Mar  1 07:47:53.926: ms_ac_nexthop_macaddr idb<630BDFCC> nexthop<10.1.80.1>
*Mar  1 07:47:53.926: ms_ac_nexthop_macaddr ptr<6301F5AC> through<GigabitEtherne
t1/0> nexthop<10.1.80.1>
*Mar  1 07:47:53.926: ms_ac_after_found_mac <10.1.2.15>'s mac <00d0.002a.7400> f
ound
*Mar  1 07:47:53.926: ms_ac_check_xcode_rem_ip: rtpinfo <64382A3C> other_rtpinfo
<0>
*Mar  1 07:47:53.926: ms_ac_rtp_enq: Sent msg 103 to DSPFARM
*Mar  1 07:47:53.942: ms_ac_open_rtp_sockets: loc_ipaddr = 10.1.80.24 loc_mac<00
03.feac.c842> rem_ip<0.0.0.0> rem_port<0>
*Mar  1 07:47:53.942: ms_ac_get_unique_udp_port: rtcp_socket = 6256C9B4
*Mar  1 07:47:53.942: ms_ac_get_unique_udp_port: SLOT3 Port<1778> is assigned!
*Mar  1 07:47:53.942: ms_ac_open_local_rtp: rtpinfo 6438353C, local_port =22258
*Mar  1 07:47:53.942: ms_ac_rtp_enq: Sent msg 101 to DSPFARM
*Mar  1 07:47:53.942: ac_validate_xcode_params: codeDec<2> codeEnc<1> decDur<20>
 encDur<20>
*Mar  1 07:47:53.942: ac_open_xcode_channel: codeDec<1> codeEnc<2> decDur<20> en
cDur<20> VADen<0> prf_id<4>
*Mar  1 07:47:53.942: reserve_xcode_resource: reserve xcode resource:codecDec<1>
 codecEnc<2>
*Mar  1 07:47:53.942: al

Related Commands

Command

Description

show mediacard

Displays information about the media card.

debug memory

To enable debugging on memory, use the debug memory command in privileged EXEC mode. To disable memory debugging, use the no form of this command.

debug memory [rmi]

no debug memory

Syntax Description

rmi

(Optional) Displays debug information related to memory Remote Method Invocation (RMI).

Command Default

Memory debugging is disabled.

Command Modes

Privileged EXEC (#)

Command History

Release

Modification

12.4(2)T

This command was introduced.

Usage Guidelines

The debug memory command is used when debugging memory manager operations such as allocating and reallocating memory.

Examples

The following example shows how to enable memory debugging: 


Router# debug memory
Memory debugging is on

The following example shows how to enable memory RMI debugging: 


Router# debug memory rmi
Memory RMI debugging is on

Related Commands

Command

Description

show debug

Displays the types of debugging that are enabled.

debug metadata

To enable debugging for metadata flow information, use the debug metadata command in privileged EXEC mode. To disable debugging for metadata flow information, use the no form of this command.

debug metadata {encode-decode {details | errors | events} | flow {all | core | table} | nbar}

no debug metadata {encode-decode {details | errors | events} | flow {all | core | table} | nbar}

Syntax Description

encode-decode

Debugs information related to the metadata encoding and decoding mechanism.

details

Debugs details that occurred during the encode-decode process.

errors

Debugs errors that occurred during the encode-decode process.

events

Debugs events that occurred during the encode-decode process.

flow

Debugs details related to metadata flow.

all

Debugs all metadata flow information.

core

Debugs core metadata events information.

table

Debugs metadata flow table information.

nbar

Debugs Network-Based Application Recognition (NBAR) as a source for metadata.

Command Default

Debugging for metadata flow information is disabled.

Command Modes

Privileged EXEC (#)

Command History

Release

Modification

15.2(1)T

This command was introduced.

15.2(4)M

This command was modified. The nbar keyword was added.

Examples

The following is sample output from the debug metadata encode-decode details command. The debug output shows the process for creating the IP information export (IPFIX) template and decoding the metadata information. The last two lines indicate the length, Variable Length Information ID (VLIE), and metadata application name. 


Device# debug metadata encode-decode details

*Jul 14 03:24:50.395: MED-IPFIX: Hdr: Ver 10 msg len 66
*Jul 14 03:24:50.395: MED-IPFIX: Hdr: Export time = Thu
Jul 14 08:54:50 2011
*Jul 14 03:24:50.395: MED-IPFIX: Hdr: Seq num = 4 
*Jul 14 03:24:50.395: MED-IPFIX: Hdr: Obs dom ID = 0 
*Jul 14 03:24:50.395: MED-IPFIX: Creating IP FIX Template, 79CD778 
*Jul 14 03:24:50.395: MED-IPFIX: Decoded and saved ID 256 Templates Address 79CD778
*Jul 14 03:24:50.395: MED-IPFIX: Decoding 2 Template fields
*Jul 14 03:24:50.395: MED-IPFIX: len=4 936750775487430656
*Jul 14 03:24:50.395: MED-IPFIX: VLIE len 17 [telepresence-data]

The following is sample output from the debug metadata flow all command. The first few lines in the output display the addition of an event. Then, the output shows details of ingress and egress interfaces. Next, the display shows various application names and the associated application IDs. Then, Classification types and the matching applications follow.

The last line, "DB Addition Succeded" indicates that an appropriate match was detected and the control plane classification completed successfully. 


Device# debug metadata flow all

*Jul 14 08:07:23.155: FMD SIG: Process RSVP Event RSVP_FMD_EVENT_PAYLOAD_RECEIVED(1)
*Jul 14 08:07:23.155: FMD : fmd_post_events: posting event 0
*Jul 14 08:07:23.167: FMD Process Event - FMD_RSVP_TRANSPORT_ADD 
*Jul 14 08:07:23.167: (fmd_add_event_process): For Source IP/Port : 67372036/1000 
*Jul 14 08:07:23.167: FMD DB Lookup: Hash 391 
*Jul 14 08:07:23.167: FMD Event for Ingress Interface Ethernet0/0 , Egress Interface Ethernet0/1 
*Jul 14 08:07:23.167: FMD Classification Src Type 96, Len 17, Value telepresence-data
*Jul 14 08:07:23.167: FMD Classification Dest Type 95, Len 4, Value
*Jul 14 08:07:23.167: App name telepresence-data id 218104286 in Metadata local app table *Jul 14 08:07:23.167: FMD Classification Src Type 96, Len 11, Value webex-audio
*Jul 14 08:07:23.167: FMD Classification Dest Type 95, Len 4, Value
*Jul 14 08:07:23.167: App name webex-audio id 12 in Metadata local app table
*Jul 14 08:07:23.167: FMD Classification Src Type 96, Len 11, Value webex-audio
*Jul 14 08:07:23.167: FMD Classification Dest Type 96, Len 17, Value telepresence-data *Jul 14 08:07:23.167: FMD Classification Src Type 96, Len 11, Value webex-audio 
*Jul 14 08:07:23.167: FMD Classification Dest Type 0, Len 0, Value 
*Jul 14 08:07:23.167: FMD Classification: Match Passed for type 95 value Router-201
*Jul 14 08:07:23.167: FMD Classification: Found 1 filters matching 
*Jul 14 08:07:23.167: FMD Event: Input policy Matched, Add flow to CFT 
*Jul 14 08:07:23.167: FMD Event: PPCP Binding Succeeded 
*Jul 14 08:07:23.167: FMD fmd_add_update_ingress_cft_fo : fid 4 
*Jul 14 08:07:23.167: FMD Event: Local Flow ID 0
*Jul 14 08:07:23.167: (fmd_add_event_process): Update with Template Address 79CD778, Md Addr 947F810
*Jul 14 08:07:23.167: fmd_add_ipv4_flow_node_to_hash: Hash 391
*Jul 14 08:07:23.167: FMD Event: DB Addition Succeeded

The following is sample output from the debug metadata nbar command. The fields are self-explanatory. 


Device# debug metadata nbar

*May 21 10:22:02.655: FMD NBAR: Successfully activated NBAR for proto id: 64
*May 21 10:22:02.656: FMD NBAR: fmd filter "application telepresence-media"
*May 21 10:22:02.656: FMD NBAR: Match application command found
*May 21 10:22:02.656: FMD NBAR: Successfully activated NBAR for proto id: 113
*May 21 10:22:02.656: FMD NBAR: class_id 0 name class-default
*May 21 10:22:02.656: FMD NBAR: Non Metadata filter type 26. Skipping

Related Commands

Command

Description

metadata application-params

Creates new metadata application parameters.

show metadata application table

Displays a list of metadata applications defined on a device.

show metadata flow

Displays the metadata flow information.

debug mgcp

To enable debug traces for Media Gateway Control Protocol (MGCP) errors, events, media, packets, parser, and Call Admission Control (CAC), use the debug mgcp command in privileged EXEC mode. To disable debugging output, use the no form of this command.

debug mgcp [all | errors [endpoint endpoint-name] | events [endpoint endpoint-name] | media [endpoint endpoint-name] | nas | packets [endpoint endpoint-name | input-hex] | parser | src | voipcac]

no debug mgcp [all | errors | events | media | nas | packets | parser | src | voipcac]

Syntax Description

all

(Optional) Debugs MGCP errors, events, media, packets, parser and builder, and CAC.

errors

(Optional) Debugs MGCP errors.

endpoint endpoint-name

(Optional) Debugs MGCP errors, events, media, or packets per endpoint.

events

(Optional) Debugs MGCP events.

media

(Optional) Debugs MGCP tone and signal events.

nas

(Optional) Debugs MGCP network access server (NAS) (data) events.

packets

(Optional) Debugs MGCP packets.

input-hex

(Optional) Debugs MGCP input packets in hexadecimal values.

parser

(Optional) Debugs MGCP parser and builder.

src

(Optional) Debugs MGCP System Resource Check (SRC) CAC information.

voipcac

(Optional) Turns on debugging messages for the Voice over IP (VoIP) CAC process at the MGCP application layer.

Command Default

No default behavior or values

Command Modes

Privileged EXEC

Command History

Release

Modification

12.1(1)T

This command was introduced.

12.1(3)T

Additional information was displayed for the gateways.

12.1(5)XM, 12.2(2)T

The output was modified to display parameters for the MGCP channel-associated signaling (CAS) PBX and ATM adaptation layer 2 (AAL2) permanent virtual circuit (PVC) features.

12.2(2)XA

The media keyword was added. The endpoint endpoint-name keyword and argument were added as options for the errors , events , media, and packets keywords. The input-hex keyword option was added for the packets keyword.

12.2(2)XB

The nas keyword and the src and voipcac keywords were added. (Refer to MGCP VoIP Call Admission Control in Cisco IOS Release 12.2(2)XB.)

12.2(8)T

This command was integrated into Cisco IOS Release 12.2(8)T.

Note 

The nas keyword was not integrated into Cisco IOS Release 12.2(8)T.

12.2(11)T

The command was implemented on the Cisco AS5350, Cisco AS5400, and Cisco AS5850.

12.2(13)T

Support for this command was implemented in Cisco 7200 series images.

Usage Guidelines

There is always a performance penalty when using debug commands.

Examples

The following is sample output from the debug mgcp errors , debug mgcp events , debug mgcp media , debug mgcp nas , debug mgcp packets , debug mgcp parser , and debug mgcp src commands and keywords. The debug mgcp all command and keyword would show a compilation of all this output, including the debug mgcp voipcac command and keyword output. Note that using the debug mgcp all command and keyword may severely impact network performance.

The following is sample output from the debug mgcp errors command and keyword: 


Router# debug mgcp errors
Unknown network interface type

The following is sample output from the debug mgcp events command and keyword: 


Router# debug mgcp events
Media Gateway Control Protocol events debugging is on
Router#
1w1d: MGC stat - 172.19.184.65, total=44, succ=7, failed=21
1w1d: MGCP msg 1
1w1d: remove_old_under_specified_ack:
1w1d: MGC stat - 172.19.184.65, total=44, succ=8, failed=21
1w1d: updating lport with 2427setup_ipsocket: laddr=172.29.248.193, lport=2427,
faddr=172.19.184.65, fport=2427
1w1d: enqueue_ack: ackqhead=0, ackqtail=0, ackp=1DC1D38, msg=21A037C

The following is sample output from the debug mgcp media command and keyword: 


Router# debug mgcp media
Media Gateway Control Protocol media events debugging is on
Router#
DYNAMIC payload type 
DYNAMIC payload type 
*Jan  1 03:02:13.159:mgcp_verify_supp_reqdet_ev
*Jan  1 03:02:13.159:mgcp_verify_supp_signal_ev
*Jan  1 03:02:13.159:process_request_ev- callp 635368FC, voice_if 6353C1F8
*Jan  1 03:02:13.159:process_detect_ev- callp 635368FC, voice_if 6353C1F8
*Jan  1 03:02:13.159:process_signal_ev- callp 635368FC, voice_ifp 6353C1F8
*Jan  1 03:02:13.159:mgcp_process_quarantine_mode- callp 635368FC, voice_if 6353C1F8
*Jan  1 03:02:13.159:mgcp_process_quarantine_mode- new q mode:process=0, loop=0
*Jan  1 03:02:13.179:process_deferred_request_events
*Jan  1 03:02:13.479:mgcp_verify_supp_reqdet_ev
*Jan  1 03:02:13.479:mgcp_verify_supp_signal_ev
*Jan  1 03:02:13.479:process_request_ev- callp 6353BCCC, voice_if 638C3094
*Jan  1 03:02:13.479:process_detect_ev- callp 6353BCCC, voice_if 638C3094
*Jan  1 03:02:13.479:process_signal_ev- callp 6353BCCC, voice_ifp 638C3094
*Jan  1 03:02:13.479:mgcp_process_quarantine_mode- callp 6353BCCC, voice_if 638C3094
*Jan  1 03:02:13.479:mgcp_process_quarantine_mode- new q mode:process=0, loop=0
*Jan  1 03:02:13.499:process_deferred_request_events
*Jan  1 03:02:13.827:mgcp_verify_supp_reqdet_ev
*Jan  1 03:02:13.827:mgcp_verify_supp_signal_ev
*Jan  1 03:02:13.827:process_request_ev- callp 635368FC, voice_if 6353C1F8
*Jan  1 03:02:13.827:process_detect_ev- callp 635368FC, voice_if 6353C1F8
*Jan  1 03:02:13.827:process_signal_ev- callp 635368FC, voice_ifp 6353C1F8
*Jan  1 03:02:13.827:mgcp_process_quarantine_mode- callp 635368FC, voice_if 6353C1F8
*Jan  1 03:02:13.827:mgcp_process_quarantine_mode- new q mode:process=0, loop=0
*Jan  1 03:02:13.831:process_deferred_request_events
*Jan  1 03:02:23.163:mgcp_cr_and_init_evt_node:$$$ the node pointer 63520B14
*Jan  1 03:02:23.163:mgcp_insert_node_to_preprocess_q:$$$enq to preprocess, qhead=63520B14, qtail=63520B14, count 1, evtptr=63520B14
*Jan  1 03:02:23.479:mgcp_cr_and_init_evt_node:$$$ the node pointer 63520BA8
*Jan  1 03:02:23.479:mgcp_insert_node_to_preprocess_q:$$$enq to preprocess, qhead=63520BA8, qtail=63520BA8, count 1, evtptr=63520BA8

The following is sample output for the debug mgcp nas command and keyword, with the debug mgcp packets command and keyword enabled as well: 


Router# debug mgcp nas
Media Gateway Control Protocol nas pkg events debugging is on
Router# debug mgcp packets
Media Gateway Control Protocol packets debugging is on
Router#
01:49:14:MGCP Packet received -
CRCX 58 S7/DS1-0/23 MGCP 1.0
X:57
 M:nas/data
 C:3
 
 L:b:64, nas/bt:modem, nas/cdn:3000, nas/cgn:1000
 
mgcp_parse_conn_mode :string past nas = data
mgcp_chq_nas_pkg:Full string:nas/bt:modem
mgcp_chq_nas_pkg:string past slash:bt
mgcp_chq_nas_pkg:string past colon:modem
mgcp_chq_nas_pkg:Full string:nas/cdn:3000
mgcp_chq_nas_pkg:string past slash:cdn
mgcp_chq_nas_pkg:string past colon:3000
mgcp_chq_nas_pkg:Full string:nas/cgn:1000
c5400#
mgcp_chq_nas_pkg:string past slash:cgn
mgcp_chq_nas_pkg:string past colon:1000
CHECK DATA CALL for S7/DS1-0/23
 mgcpapp_xcsp_get_chan_cb -Found - Channel state  Idle 
 CRCX Recv
mgcpapp_endpt_is_data:endpt S7/DS1-0/23, slot 7, port 0 chan 23
 mgcpapp_data_call_hnd:mgcpapp_xcsp_get_chan_cb -Found - Channel state  Idle 
bw=64, bearer=E1,cdn=3000,cgn=1000

The following is sample output from the debug mgcp packets command and keyword: 


Router# debug mgcp packets
Media Gateway Control Protocol packets debugging is on
Router#
1w1d: MGCP Packet received -
DLCX 408631346 * MGCP 0.1
1w1d: send_mgcp_msg, MGCP Packet sent --->
1w1d: 250 408631346 
<---

The following is sample output from the debug mgcp parser command and keyword: 


Router# debug mgcp
 
parser
Media Gateway Control Protocol parser debugging is on
Router#
1w1d: -- mgcp_parse_packet() - call mgcp_parse_header
- mgcp_parse_header()- Request Verb FOUND DLCX 
- mgcp_parse_packet() - out mgcp_parse_header
- SUCCESS: mgcp_parse_packet()- MGCP Header parsing was OK
- mgcp_val_mandatory_parms() 
- SUCCESS: mgcp_parse_packet()- END of Parsing
1w1d: -- mgcp_build_packet()- 
1w1d: - mgcp_estimate_msg_buf_length() - 87 bytes needed for header
- mgcp_estimate_msg_buf_length() - 87 bytes needed after checking parameter lines
- mgcp_estimate_msg_buf_length() - 87 bytes needed after checking SDP lines
- SUCCESS: MGCP message building OK
- SUCCESS: END of building

The following is sample output from the debug mgcp src command and keyword: 


Router# debug mgcp src
Media Gateway Control Protocol System Resource Check CAC debugging is on
Router#
00:14:08: setup_indication: Set incoming_call flag=TRUE in voice_if
00:14:08: send_mgcp_msg, MGCP Packet sent --->
00:14:08: NTFY 11 aaln/S1/1@Router MGCP 0.1
N: emu@[1.4.173.1]:51665
X: 35
O: hd
<---
00:14:08: MGCP Packet received -
200 11 hello
00:14:08: MGCP Packet received -
RQNT 42 aaln/S1/1 MGCP 0.1
N: emu@[1.4.173.1]:51665
X: 41
R: D/[0-9*#T](d), hu
S: dl
D: (911|xxxx)
00:14:08: send_mgcp_msg, MGCP Packet sent --->
00:14:08: 200 42 OK
<---
00:14:12: send_mgcp_msg, MGCP Packet sent --->
00:14:12: NTFY 12 aaln/S1/1@Router MGCP 0.1
N: emu@[1.4.173.1]:51665
X: 41
O: D/2222
<---
00:14:12: MGCP Packet received -
200 12 phone-number ok
00:14:12: MGCP Packet received -
CRCX 44 aaln/S1/1 MGCP 0.1
N: emu@[1.4.173.1]:51665
C: 3
X: 43
R: hu(n)
M: recvonly
L: a:G.711u,p:5,e:off,s:off
00:14:12: mgcp_setup_conn_check_system_resource: System resource check successful
00:14:12: mgcp_voice_crcx: System resource is available
00:14:12: mgcp_set_call_counter_control: Incoming call with 1 network leg, flag=FALSE
00:14:12: send_mgcp_msg, MGCP Packet sent --->
00:14:12: 200 44 
I: 4
v=0
o=- 4 0 IN IP4 1.4.120.1
s=Cisco SDP 0
c=IN IP4 1.4.120.1
t=0 0
m=audio 16404 RTP/AVP 0
<---
00:14:13: MGCP Packet received -
MDCX 48 aaln/S1/1 MGCP 0.1
N: emu@[1.4.173.1]:51665
C: 3
I: 4
X: 47
M: recvonly
R: hu
L: a:G.711u,p:5,e:off,s:off
v=0
o=- 4 0 IN IP4 1.4.120.3
s=Cisco SDP 0
c=IN IP4 1.4.120.3
t=0 0
m=audio 16384 RTP/AVP 0
00:14:13: mgcp_modify_conn_check_system_resource: System resource check successful
00:14:13: mgcp_modify_connection: System resource is available
00:14:13: send_mgcp_msg, MGCP Packet sent --->
00:14:13: 200 48 OK
<---
00:14:20: MGCP Packet received -
MDCX 52 aaln/S1/1 MGCP 0.1
N: emu@[1.4.173.1]:51665
C: 3
I: 4
X: 51
M: sendrecv
R: hu
L: a:G.711u,p:5,e:off,s:off
00:14:20: mgcp_modify_conn_check_system_resource: System resource check successful
00:14:20: mgcp_modify_connection: System resource is available
00:14:20: send_mgcp_msg, MGCP Packet sent --->
00:14:20: 200 52 OK
<---
00:14:34: MGCP Packet received -
DLCX 56 aaln/S1/1 MGCP 0.1
X: 55
N: emu@[1.4.173.1]:51665
C: 3
I: 4
R: hu
00:14:34: send_mgcp_msg, MGCP Packet sent --->
00:14:34: 250 56 
P: PS=1382, OS=110180, PR=1378, OR=109936, PL=63484, JI=520, LA=2
<---
00:14:36: mgcp_reset_call_direction: Reseting incoming_call flag=FALSE in voice_if
00:14:36: send_mgcp_msg, MGCP Packet sent --->
00:14:36: NTFY 13 aaln/S1/1@tlkrgw1 MGCP 0.1
N: emu@[1.4.173.1]:51665
X: 55
O: hu
<---

debug mgcp all

To enable all debug traces for Media Gateway Control Protocol (MGCP), use the debug mgcp all command in privileged EXEC mode. To disable debugging output, use the no form of this command.

debug mgcp all [tracelevel {critical | moderate | verbose}]

no debug mgcp all

Syntax Description

tracelevel

(Optional) Sets the priority level for this debug trace.

  • critical --Displays only high priority debug information.

  • moderate --Displays medium and high priority debug information.

  • verbose --Displays all debug information. This is the default level.

Command Default

MGCP debugging is disabled.

Command Modes

Privileged EXEC

Command History

Release

Modification

12.1(1)T

This command was introduced.

12.1(3)T

Additional information was displayed for the gateways.

12.1(5)XM, 12.2(2)T

The output was modified to display parameters for the MGCP channel-associated signaling (CAS) PBX and ATM adaptation layer 2 (AAL2) permanent virtual circuit (PVC) features.

12.2(11)T

The command was implemented on the Cisco AS5350, Cisco AS5400, and Cisco AS5850.

12.2(13)T

Support for this command was implemented in Cisco 7200 series images.

12.4(4)T

The tracelevel keyword was added.

Usage Guidelines

This command enables the following MGCP debug commands:

  • debug mgcp endptdb

  • debug mgcp errors

  • debug mgcp events

  • debug mgcp gcfm

  • debug mgcp inout

  • debug mgcp media

  • debug mgcp nas

  • debug mgcp packets

  • debug mgcp parser

  • debug mgcp src

  • debug mgcp state

  • debug mgcp voipcac


Caution

Using the debug mgcp all command may severely impact network performance.

Examples

The following is sample output from the debug mgcp all command: 


Router# debug mgcp all
This may severely impact network performance. Continue[confirm]
Media Gateway Control Protocol all debugging is on, trace-level Verbose
Router# 
*Sep 10 17:20:24.408: //-1/xxxxxxxxxxxx/MGCP/mgcp_count_active_mgc_msg_stat(240):[lvl=1]MGC stat - 192.168.1.200, total=8, succ=5, failed=1
*Sep 10 17:20:24.408: MGCP Packet received from 192.168.1.200:7979--->
CRCX 6 aaln/S2/SU1/1 MGCP 1.0
M: recvonly
C: 1
<---
*Sep 10 17:20:24.408: //-1/xxxxxxxxxxxx/MGCP/mgcpapp_process_mgcp_msg(3318):[lvl=0] : <NEW MGCP MSG From CA>
*Sep 10 17:20:24.408: //-1/xxxxxxxxxxxx/MGCP/mgcp_parse_packet(316):[lvl=0]call mgcp_parse_header
*Sep 10 17:20:24.408: //-1/xxxxxxxxxxxx/MGCP/mgcp_parse_packet(320):[lvl=0]out mgcp_parse_header
*Sep 10 17:20:24.408: //-1/xxxxxxxxxxxx/MGCP/mgcp_parse_packet(360):[lvl=1]SUCCESS: - MGCP Header parsing was OK
*Sep 10 17:20:24.408: //-1/xxxxxxxxxxxx/MGCP/mgcp_string_parse(186):[lvl=0]return code=1.
*Sep 10 17:20:24.408: //-1/xxxxxxxxxxxx/MGCP/mgcp_parse_parameter_lines(725):[lvl=1]return parse function in mgcp_parm_rules_array[6].
*Sep 10 17:20:24.408: //-1/xxxxxxxxxxxx/MGCP/mgcp_parse_conn_mode(4762):[lvl=0](in_ptr: recvonly)
*Sep 10 17:20:24.408: //-1/xxxxxxxxxxxx/MGCP/mgcp_parse_conn_mode(4780):[lvl=0]tmp_ptr:(recvonly)
*Sep 10 17:20:24.408: //-1/xxxxxxxxxxxx/MGCP/mgcp_parse_conn_mode(4816):[lvl=0]tmp_ptr:(recvonly)
*Sep 10 17:20:24.408: //-1/xxxxxxxxxxxx/MGCP/mgcp_parse_conn_mode(4822):[lvl=0]match recvonly recvonly
*Sep 10 17:20:24.408: //-1/xxxxxxxxxxxx/MGCP/mgcp_parse_conn_mode(4830):[lvl=0]case MODE_RECVONLY
*Sep 10 17:20:24.408: //-1/xxxxxxxxxxxx/MGCP/mgcp_parse_conn_mode(4894):[lvl=0]SUCCESS: Connection Mode parsing is OK
*Sep 10 17:20:24.408: //-1/xxxxxxxxxxxx/MGCP/mgcp_string_parse(186):[lvl=0]return code=1.
*Sep 10 17:20:24.408: //-1/xxxxxxxxxxxx/MGCP/mgcp_parse_parameter_lines(725):[lvl=1]return parse function in mgcp_parm_rules_array[1].
*Sep 10 17:20:24.408: //-1/xxxxxxxxxxxx/MGCP/mgcp_parse_call_id(840):[lvl=0]in_ptr: 1
*Sep 10 17:20:24.408: //-1/xxxxxxxxxxxx/MGCP/mgcp_parse_call_id(883):[lvl=1]SUCCESS: Call ID string(1) parsing is OK
*Sep 10 17:20:24.408: //-1/xxxxxxxxxxxx/MGCP/mgcp_val_mandatory_parms(12428):[lvl=0]Entered
*Sep 10 17:20:24.408: //-1/xxxxxxxxxxxx/MGCP/mgcp_val_comp_mp_parms(14923):[lvl=0]Entered
*Sep 10 17:20:24.408: //-1/xxxxxxxxxxxx/MGCP/mgcp_val_comp_mp_parms(14928):[lvl=1] - lcon_opt_ptr could not be obtained
*Sep 10 17:20:24.412: //-1/xxxxxxxxxxxx/MGCP/mgcp_parse_packet(378):[lvl=2]SUCCESS: END of Parsing
*Sep 10 17:20:24.412: //-1/xxxxxxxxxxxx/MGCP/xgcp_endpt_name_parse_a(1339):[lvl=0]aaln/S2/SU1/1
*Sep 10 17:20:24.412: //-1/xxxxxxxxxxxx/MGCP/xgcp_endpt_name_parse_aaln_slot(1632):[lvl=0]2/SU1/1
*Sep 10 17:20:24.412: //-1/xxxxxxxxxxxx/MGCP/xgcp_endpt_name_parse_digit(1600):[lvl=0]2/SU1/1
*Sep 10 17:20:24.412: //-1/xxxxxxxxxxxx/MGCP/xgcp_endpt_name_parse_aaln_slot(1641):[lvl=0] : ifn 0x665449A8, slot:2
*Sep 10 17:20:24.412: //-1/xxxxxxxxxxxx/MGCP/xgcp_endpt_name_parse_aaln_su(1773):[lvl=0]1/1
*Sep 10 17:20:24.412: //-1/xxxxxxxxxxxx/MGCP/xgcp_endpt_name_parse_digit(1600):[lvl=0]1/1
*Sep 10 17:20:24.412: //-1/xxxxxxxxxxxx/MGCP/xgcp_endpt_name_parse_aaln_port(1807):[lvl=0]1
*Sep 10 17:20:24.412: //-1/xxxxxxxxxxxx/MGCP/xgcp_endpt_name_parse_digit(1600):[lvl=0]1
*Sep 10 17:20:24.412: //-1/xxxxxxxxxxxx/MGCP/mgcp_endpt_get_endpt_offset(2590):[lvl=0]endpt NULL
*Sep 10 17:20:24.412: //-1/xxxxxxxxxxxx/MGCP/xgcp_endpt_get_by_ifn(1326):[lvl=0]Entered
*Sep 10 17:20:24.412: //-1/xxxxxxxxxxxx/MGCP/xgcp_endpt_get_tree_link_by_ifn(1145):[lvl=0]Entered
*Sep 10 17:20:24.412: //-1/xxxxxxxxxxxx/MGCP/xgcp_endpt_compute_key(196):[lvl=0]type 2 slot 0002 subunit 0001
*Sep 10 17:20:24.412: //-1/xxxxxxxxxxxx/MGCP/xgcp_endpt_get_tree_link_by_ifn(1157):[lvl=0]computed key 0x2081FF01

Related Commands

Command

Description

debug mgcp endpoint

Enables debug traces for a specific MGCP endpoint.

debug mgcp tracelevel-default

Sets the trace level globally for all MGCP debug traces.

mgcp

Starts the MGCP daemon.

mgcp debug-header

Enables the display of MGCP module-dependent information in the debug header.

show debugging

Displays the types of debugging that are enabled.

show mgcp

Displays MGCP configuration information.

voice call debug

Specifies the format of the debug header.

debug mgcp endpoint

To enable debug traces for a specific Media Gateway Control Protocol (MGCP) endpoint, use the debug mgcp endpoint command in privileged EXEC mode. To disable debugging output for the endpoint, use the no form of this command.

debug mgcp endpoint endpoint-name {all [tracelevel {critical | moderate | verbose}] | errors | events [tracelevel {critical | moderate | verbose}] | media [tracelevel {critical | moderate | verbose}] | packets}

no debug mgcp endpoint endpoint-name {all | errors | events | media | packets}

Syntax Description

endpoint-name

Name of the MGCP endpoint for which to enable debugging. Must be a fully specified and supported endpoint.

all

Displays MGCP errors, events, media, and packets for the specified endpoint.

errors

Displays MGCP errors for the specified endpoint.

events

Displays MGCP events for the specified endpoint.

media

Displays MGCP tone and signal events for the specified endpoint.

packets

Displays MGCP packets for the specified endpoint.

tracelevel

(Optional) Sets the priority level for the all , events , or media debug trace.

  • critical --Displays only high-priority debug information.

  • moderate --Displays medium and high-priority debug information.

  • verbose --Displays all debug information. This is the default level.

Note 

This keyword is not available for errors or packets debugging.

Command Default

Debugging for specific endpoints is not enabled.

Command Modes

Privileged EXEC

Command History

Release

Modification

12.4(4)T

This command was introduced.

Usage Guidelines

This command enables debugging for a specific MGCP endpoint. You can enable the same type of debugging globally for all endpoints by using the debug mgcp all , debug mgcp errors , debug mgcp events , debug mgcp media , or debug mgcp packets commands.

Trace levels allow you to control the amount of debug information that is displayed in the output from MGCP debug commands. Reducing the amount of output displayed on the console port makes it easier to locate the correct debug information and limits the impact to network performance.

This command sets the trace level for the specific endpoint. You can set the trace level globally for all MGCP debug commands and endpoints by using the debug mgcp tracelevel-default command. Setting the endpoint-specific trace level takes precedence over the global trace-level.


Note

Trace levels are not supported for errors or packets debugging because all of the output from those commands is set to high priority.

Examples

The following is sample output from the debug mgcp endpoint command: 


Router# debug mgcp endpoint aaln/S2/SU1/1 events tracelevel critical
Media Gateway Control Protocol events debugging for endpoint aaln/S2/SU1/1 is on, trace-level Critical
Router# 
*Sep 10 17:46:13.100: //-1/xxxxxxxxxxxx/MGCP|aaln/S2/SU1/1|-1|-1/mgcp_idle_crcx(4875):[lvl=2]callp(0x63E313E0), current state CALL_IDLE, event EV_CREATE_CONN
*Sep 10 17:46:13.100: //7/9D04EB218005/MGCP|aaln/S2/SU1/1|-1|-1/<VOICE>/mgcp_invoke_app_sm(570):[lvl=2]MGCP:FSM done- callp(63E313E0), new state CALL_CONNECTING, event EV_CREATE_CONN 
*Sep 10 17:46:13.104: //8/9D04EB218005/MGCP|aaln/S2/SU1/1|-1|-1/<VOIP>/mgcp_call_pre_conference(223):[lvl=2]callp(0x63E311D0), current state CALL_CONNECTING, event EV_CALL_CONNECT
*Sep 10 17:46:13.104: //8/9D04EB218005/MGCP|aaln/S2/SU1/1|-1|-1/<VOIP>/mgcp_call_connect(7331):[lvl=2]callp(0x63E311D0), current state CALL_CONNECTING, event EV_CALL_CONNECT
*Sep 10 17:46:13.104: //8/9D04EB218005/MGCP|aaln/S2/SU1/1|-1|-1/<VOIP>/mgcp_invoke_app_sm(570):[lvl=2]MGCP:FSM done- callp(63E311D0), new state CALL_CONFERENCING, event EV_CALL_CONNECT 
*Sep 10 17:46:13.104: //7/9D04EB218005/MGCP|aaln/S2/SU1/1|-1|-1/<VOICE>/mgcp_call_proceeding(6306):[lvl=2]callp(0x63E313E0), current state CALL_CONNECTING, event EV_CALL_PROCEED
*Sep 10 17:46:13.104: //7/9D04EB218005/MGCP|aaln/S2/SU1/1|-1|-1/<VOICE>/mgcp_call_connect(7331):[lvl=2]callp(0x63E313E0), current state CALL_CONNECTING, event EV_CALL_PROCEED
*Sep 10 17:46:13.104: //7/9D04EB218005/MGCP|aaln/S2/SU1/1|-1|-1/<VOICE>/mgcp_invoke_app_sm(570):[lvl=2]MGCP:FSM done- callp(63E313E0), new state CALL_CONFERENCING, event EV_CALL_PROCEED 
*Sep 10 17:46:13.108: //7/9D04EB218005/MGCP|aaln/S2/SU1/1|-1|-1/<VOICE>/mgcp_ignore_ccapi_ev(4316):[lvl=2]callp(0x63E313E0), current state CALL_CONFERENCING, event EV_CONF_RDY
*Sep 10 17:46:13.108: //7/9D04EB218005/MGCP|aaln/S2/SU1/1|-1|-1/<VOICE>/mgcp_invoke_app_sm(570):[lvl=2]MGCP:FSM done- callp(63E313E0), new state CALL_CONFERENCING, event EV_CONF_RDY 
*Sep 10 17:46:13.108: //7/9D04EB218005/MGCP|aaln/S2/SU1/1|-1|-1/<VOICE>/mgcp_call_modified(7710):[lvl=2]callp(0x63E313E0), current state CALL_CONFERENCING, event EV_MODIFY_DONE
*Sep 10 17:46:13.108: //7/9D04EB218005/MGCP|aaln/S2/SU1/1|-1|-1/<VOICE>/mgcp_invoke_app_sm(570):[lvl=2]MGCP:FSM done- callp(63E313E0), new state CALL_CONFERENCING, event EV_MODIFY_DONE 
*Sep 10 17:46:13.108: //7/9D04EB218005/MGCP|aaln/S2/SU1/1|-1|-1/<VOICE>/mgcp_voice_mode_done(7994):[lvl=2]callp(0x63E313E0), current state CALL_CONFERENCING, event EV_VOICE_MODE_DONE, minor ev(d): 138, minor ev  
*Sep 10 17:46:13.112: //7/9D04EB218005/MGCP|aaln/S2/SU1/1|-1|-1/<VOICE>/mgcp_invoke_app_sm(570):[lvl=2]MGCP:FSM done- callp(63E313E0), new state CALL_ACTIVE, event EV_VOICE_MODE_DONE 
*Sep 10 17:46:23.104: //7/9D04EB218005/MGCP|aaln/S2/SU1/1|-1|-1/<VOICE>/mgcp_invoke_app_sm(570):[lvl=2]MGCP:FSM done- callp(63E313E0), new state CALL_ACTIVE, event EV_MEDIA_EVT

Related Commands

Command

Description

debug mgcp all

Enables all debug traces for MGCP.

debug mgcp errors

Enables debug traces for MGCP errors.

debug mgcp events

Enables debug traces for MGCP events.

debug mgcp media

Enables debug traces for MGCP tone and signal events.

debug mgcp packets

Enables debug traces for MGCP packets.

debug mgcp tracelevel-default

Sets the trace level globally for all MGCP debug traces.

mgcp

Starts the MGCP daemon.

mgcp debug-header

Enables the display of MGCP module-dependent information in the debug header.

show debugging

Displays the types of debugging that are enabled.

show mgcp

Displays MGCP configuration information.

voice call debug

Specifies the format of the debug header.

debug mgcp endptdb

To enable debug traces for all Media Gateway Control Protocol (MGCP) endpoints, use the debug mgcp endptdb command in privileged EXEC mode. To disable debugging output, use the no form of this command.

debug mgcp endptdb [tracelevel {critical | moderate | verbose}]

no debug mgcp endptdb

Syntax Description

tracelevel

(Optional) Sets the priority level for this debug trace.

  • critical --Displays only high priority debug information.

  • moderate --Displays medium and high priority debug information.

  • verbose --Displays all debug information. This is the default level.

Command Default

MGCP debugging for endpoints is disabled.

Command Modes

Privileged EXEC

Command History

Release

Modification

12.2(2)XA

This command was introduced.

12.2(11)T

This command was integrated into Cisco IOS Release 12.2(11)T.

12.4(4)T

The tracelevel keyword was added.

Usage Guidelines

This command enables debugging globally for all MGCP endpoints. You can limit debugging to a specific endpoint by using the debug mgcp endpoint command.

Trace levels allow you to control the amount of debug information that is displayed in the output from MGCP debug commands. Reducing the amount of output displayed on the console port makes it easier to locate the correct debug information and limits the impact to network performance.

Examples

The following is sample output from the debug mgcp endptdb command used with the debug mgcp packets command: 


Router# debug mgcp packets
Media Gateway Control Protocol packets debugging for all endpoints is on
Router# debug mgcp endptdb
Media Gateway Control Protocol endpoint database debugging for all endpoints is on, trace-level Verbose
Router# 
*Sep 10 11:39:16.467: MGCP Packet received from 192.168.1.200:7979--->
CRCX 27 aaln/S2/SU1/1 MGCP 1.0
M: recvonly
C: 1
<---
*Sep 10 11:39:16.467: //-1/xxxxxxxxxxxx/MGCP/xgcp_endpt_name_parse_a(1339):[lvl=0]aaln/S2/SU1/1
*Sep 10 11:39:16.467: //-1/xxxxxxxxxxxx/MGCP/xgcp_endpt_name_parse_aaln_slot(1632):[lvl=0]2/SU1/1
*Sep 10 11:39:16.467: //-1/xxxxxxxxxxxx/MGCP/xgcp_endpt_name_parse_digit(1600):[lvl=0]2/SU1/1
*Sep 10 11:39:16.467: //-1/xxxxxxxxxxxx/MGCP/xgcp_endpt_name_parse_aaln_slot(1641):[lvl=0] : ifn 0x665449A8, slot:2
*Sep 10 11:39:16.467: //-1/xxxxxxxxxxxx/MGCP/xgcp_endpt_name_parse_aaln_su(1773):[lvl=0]1/1
*Sep 10 11:39:16.467: //-1/xxxxxxxxxxxx/MGCP/xgcp_endpt_name_parse_digit(1600):[lvl=0]1/1
*Sep 10 11:39:16.467: //-1/xxxxxxxxxxxx/MGCP/xgcp_endpt_name_parse_aaln_port(1807):[lvl=0]1
*Sep 10 11:39:16.467: //-1/xxxxxxxxxxxx/MGCP/xgcp_endpt_name_parse_digit(1600):[lvl=0]1
*Sep 10 11:39:16.467: //-1/xxxxxxxxxxxx/MGCP/xgcp_endpt_get_by_ifn(1326):[lvl=0]Entered
*Sep 10 11:39:16.467: //-1/xxxxxxxxxxxx/MGCP/xgcp_endpt_get_tree_link_by_ifn(1145):[lvl=0]Entered
*Sep 10 11:39:16.467: //-1/xxxxxxxxxxxx/MGCP/xgcp_endpt_compute_key(196):[lvl=0]type 2 slot 0002 subunit 0001
*Sep 10 11:39:16.467: //-1/xxxxxxxxxxxx/MGCP/xgcp_endpt_get_tree_link_by_ifn(1157):[lvl=0]computed key 0x2081FF01
*Sep 10 11:39:16.467: //-1/xxxxxxxxxxxx/MGCP/xgcp_endpt_get_state(3758):[lvl=0]endpt aaln/S2/SU1/1
*Sep 10 11:39:16.467: //-1/xxxxxxxxxxxx/MGCP/xgcp_endpt_default_get_state(3779):[lvl=0]endpt aaln/S2/SU1/1
*Sep 10 11:39:16.479: MGCP Packet sent to 192.168.1.200:7979--->
200 27 OK
I: D
v=0
c=IN IP4 192.168.1.79
m=audio 16870 RTP/AVP 0 8 99 101 102 2 15 103 4 104 105 106 107 18 100
a=rtpmap:99 G.729a/8000
a=rtpmap:101 G.726-16/8000
a=rtpmap:102 G.726-24/8000
a=rtpmap:103 G.723.1-H/8000
a=rtpmap:104 G.723.1-L/8000
a=rtpmap:105 G.729b/8000
a=rtpmap:106 G.723.1a-H/8000
a=rtpmap:107 G.723.1a-L/8000
a=rtpmap:100 X-NSE/8000
a=fmtp:100 200-202
a=X-sqn:0
a=X-cap: 1 audio RTP/AVP 100
a=X-cpar: a=rtpmap:100 X-NSE/8000
a=X-cpar: a=fmtp:100 200-202
a=X-cap: 2 image udptl t38
<---

Related Commands

Command

Description

debug mgcp all

Enables all debug traces for MGCP.

debug mgcp endpoint

Enables debug traces for a specific MGCP endpoint.

debug mgcp tracelevel-default

Sets the trace level globally for all MGCP debug traces.

mgcp

Starts the MGCP daemon.

mgcp debug-header

Enables the display of MGCP module-dependent information in the debug header.

show mgcp

Displays MGCP configuration information.

voice call debug

Specifies the format of the debug header.

debug mgcp errors

To enable debug traces for Media Gateway Control Protocol (MGCP) errors, use the debug mgcp errors command in privileged EXEC mode. To disable debugging output, use the no form of this command.

debug mgcp errors

no debug mgcp errors

Syntax Description

This command has no arguments or keywords.

Command Default

MGCP error debugging is disabled.

Command Modes

Privileged EXEC

Command History

Release

Modification

12.1(1)T

This command was introduced.

12.1(3)T

Additional information was displayed for the gateways.

12.1(5)XM, 12.2(2)T

The output was modified to display parameters for the MGCP channel-associated signaling (CAS) PBX and ATM adaptation layer 2 (AAL2) permanent virtual circuit (PVC) features.

12.2(2)XA

The endpoint endpoint-name keyword and argument were added.

12.2(11)T

The command was implemented on the Cisco AS5350, Cisco AS5400, and Cisco AS5850.

12.2(13)T

Support for this command was implemented in Cisco 7200 series images.

12.4(4)T

The endpoint endpoint-name keyword and argument were removed and replaced by the debug mgcp endpoint command.

Usage Guidelines

This command enables error debugging globally for all MGCP endpoints. You can limit debugging to a specific endpoint by using the debug mgcp endpoint command.

Examples

The following is sample output from the debug mgcp errors command: 


Router# debug mgcp errors
*Oct 16 12:09:05.538: MGC stat - 10.208.237.83, total=1029, succ=998, failed=0- mgcp_parse_header()- Request Verb FOUND AUEP 
- mgcp_parse_request_header()- MGCP_V10, start check for profile
- mgcp_parse_header: mgcp_parse_request_header returns status: 0
*Oct 16 12:09:05.538: MGCP Packet received from 10.208.237.83-
AUEP 9634549 S0/DS1-0/1@AS5300 MGCP 1.0
F: I
*Oct 16 12:09:05.542: -- mgcp_parse_packet() - call mgcp_parse_header
- mgcp_parse_header()- Request Verb FOUND AUEP 
- mgcp_parse_request_header()- MGCP_V10, start check for profile
- mgcp_parse_header: mgcp_parse_request_header returns status: 0
- mgcp_parse_packet() - out mgcp_parse_header
- SUCCESS: mgcp_parse_packet()-MGCP Header parsing was OK
- mgcp_parse_parameter_lines(), code_str:: I, code_len:2, str:F: I
- mgcp_parse_parameter_lines(str:F: I) -num_toks: 28
- mgcp_parse_parameter_lines() check NULL str(I), in_ptr(F: I)
- mgcp_parse_parameter_lines() return Parse function in mgcp_parm_rules_array[14]
- mgcp_parse_req_info(I) is called 
- mgcp_parse_req_info() - tmp_ptr:(I)
- SUCCESS: Request Info parameter line (F:) parsing OK
- mgcp_val_mandatory_parms()

Related Commands

Command

Description

debug mgcp all

Enables all debug traces for MGCP.

debug mgcp endpoint

Enables debug traces for a specific MGCP endpoint.

mgcp

Starts the MGCP daemon.

mgcp debug-header

Enables the display of MGCP module-dependent information in the debug header.

show mgcp

Displays MGCP configuration information.

voice call debug

Specifies the format of the debug header.

debug mgcp events

To enable debug traces for Media Gateway Control Protocol (MGCP) events, use the debug mgcp events command in privileged EXEC mode. To disable debugging output, use the no form of this command.

debug mgcp events [tracelevel {critical | moderate | verbose}]

no debug mgcp events

Syntax Description

tracelevel

(Optional) Sets the priority level for this debug trace.

  • critical --Displays only high priority debug information.

  • moderate --Displays medium and high priority debug information.

  • verbose --Displays all debug information. This is the default level.

Command Default

MGCP events debugging is disabled.

Command Modes

Privileged EXEC

Command History

Release

Modification

12.1(1)T

This command was introduced.

12.1(3)T

Additional information was displayed for the gateways.

12.1(5)XM, 12.2(2)T

The output was modified to display parameters for the MGCP channel-associated signaling (CAS) PBX and ATM adaptation layer 2 (AAL2) permanent virtual circuit (PVC) features.

12.2(2)XA

The endpoint endpoint-name keyword and argument were added.

12.2(11)T

The command was implemented on the Cisco AS5350, Cisco AS5400, and Cisco AS5850.

12.2(13)T

Support for this command was implemented in Cisco 7200 series images.

12.4(4)T

The endpoint endpoint-name keyword and argument were removed and replaced by the debug mgcp endpoint command. The tracelevel keyword was added.

Usage Guidelines

This command enables events debugging globally for all MGCP endpoints. You can limit debugging to a specific endpoint by using the debug mgcp endpoint command.

Trace levels allow you to control the amount of debug information that is displayed in the output from MGCP debug commands. Reducing the amount of output displayed on the console port makes it easier to locate the correct debug information and limits the impact to network performance.

Examples

The following is sample output from the debug mgcp events command: 


Router# debug mgcp events
Media Gateway Control Protocol events debugging for all endpoints is on, trace-level Verbose
Router# 
*Sep 10 09:22:41.276: //-1/xxxxxxxxxxxx/MGCP/mgcpapp_stw_call_back(316):[lvl=0]timer type 1
*Sep 10 09:22:41.276: //-1/xxxxxxxxxxxx/MGCP/mgcpapp_process_timers(1431):[lvl=0]timer of type 1 expired.
*Sep 10 09:22:41.276: //-1/xxxxxxxxxxxx/MGCP|aaln/S2/SU1/1|-1|-1/mgcp_remove_old_ack(712):[lvl=1]Removing ack: (trans ID 15) : 250 15 OK
P: PS=0, OS=0, PR=0, OR=0, PL=0, JI=0, LA=0
*Sep 10 09:22:42.300: //-1/xxxxxxxxxxxx/MGCP/mgcp_count_active_mgc_msg_stat(240):[lvl=1]MGC stat - 192.168.1.200, total=18, succ=14, failed=2
*Sep 10 09:22:42.300: //-1/xxxxxxxxxxxx/MGCP/mgcpapp_process_mgcp_msg(3318):[lvl=0] : <NEW MGCP MSG From CA>
*Sep 10 09:22:42.300: //-1/xxxxxxxxxxxx/MGCP/mgcp_endpt_get_endpt_offset(2590):[lvl=0]endpt NULL
*Sep 10 09:22:42.300: //-1/xxxxxxxxxxxx/MGCP|aaln/S2/SU1/1|-1|-1/mgcpapp_setup_per_call_data(2487):[lvl=1]mgcpapp_setup_per_call_data: callp: 63E313E0, vdbptr: 65822AF8, state: CALL_IDLE 
*Sep 10 09:22:42.300: //-1/xxxxxxxxxxxx/MGCP/mgcp_endpt_get_notified_entity(439):[lvl=0]Entered
*Sep 10 09:22:42.300: //-1/xxxxxxxxxxxx/MGCP/mgcp_endpt_get_notified_entity(458):[lvl=1]ne callagenthost:7979, ne addr 192.168.1.200:7979
*Sep 10 09:22:42.300: //-1/xxxxxxxxxxxx/MGCP/xlate_mgcp_ev(921):[lvl=1]hdr_type 1
*Sep 10 09:22:42.300: //-1/xxxxxxxxxxxx/MGCP|aaln/S2/SU1/1|-1|-1/mgcpapp_process_mgcp_event(2615):[lvl=1]Processing Incoming Message [CRCX 16]
*Sep 10 09:22:42.300: //-1/xxxxxxxxxxxx/MGCP|aaln/S2/SU1/1|-1|-1/mgcpapp_invoke_mgcp_sm(2559):[lvl=1]Msg In-Progress(Active) [INVVERB 0], await_ev=0, queued=0x00000000
*Sep 10 09:22:42.300: //-1/xxxxxxxxxxxx/MGCP|aaln/S2/SU1/1|-1|-1/mgcp_process_deferred_queue(3362):[lvl=0]Entered
*Sep 10 09:22:42.300: //-1/xxxxxxxxxxxx/MGCP/mgcp_store_endpt_and_ntfy_entity_name(4464):[lvl=0]Entered
*Sep 10 09:22:42.300: //-1/xxxxxxxxxxxx/MGCP|aaln/S2/SU1/1|-1|-1/mgcp_invoke_app_sm(535):[lvl=0]MGCP:calling FSM- callp(63E313E0)
*Sep 10 09:22:42.300: //-1/xxxxxxxxxxxx/MGCP|aaln/S2/SU1/1|-1|-1/mgcp_idle_crcx(4875):[lvl=2]callp(0x63E313E0), current state CALL_IDLE, event EV_CREATE_CONN
*Sep 10 09:22:42.300: //-1/xxxxxxxxxxxx/MGCP/mgcp_init_modem_relay_params(103):[lvl=0]modem-relay-enabled=0, mr-gw-xid=0
*Sep 10 09:22:42.300: //-1/xxxxxxxxxxxx/MGCP|aaln/S2/SU1/1|-1|-1/mgcp_compute_debugsy_hdr(274):[lvl=0]Building Debugsy header
*Sep 10 09:22:42.300: //-1/C537F3F38008/MGCP|aaln/S2/SU1/1|-1|-1/<VOICE>/mgcp_compute_debugsy_hdr(383):[lvl=0]GUID[C537F3F38008] assigned to call_id[-1], endpt[aaln/S2/SU1/1], mgcp_call_id[n/a], conn_id[0]
*Sep 10 09:22:42.300: //-1/C537F3F38008/MGCP|aaln/S2/SU1/1|-1|-1/<VOICE>/mgcp_idle_crcx(4961):[lvl=0]calls mgcp_allocate_if()
*Sep 10 09:22:42.300: //-1/C537F3F38008/MGCP|aaln/S2/SU1/1|-1|-1/<VOICE>/mgcp_idle_crcx(5006):[lvl=1]get capability
*Sep 10 09:22:42.300: //-1/C537F3F38008/MGCP|aaln/S2/SU1/1|-1|-1/<VOICE>/mgcp_compute_debugsy_hdr(274):[lvl=0]Building Debugsy header
*Sep 10 09:22:42.304: //-1/C537F3F38008/MGCP|aaln/S2/SU1/1|-1|-1/<VOICE>/mgcp_compute_debugsy_hdr(383):[lvl=0]GUID[C537F3F38008] assigned to call_id[-1], endpt[aaln/S2/SU1/1], mgcp_call_id[1], conn_id[0]
*Sep 10 09:22:42.304: //-1/C537F3F38008/MGCP|aaln/S2/SU1/1|-1|-1/<VOICE>/mgcp_idle_crcx(5093):[lvl=0]Default aal2 vc = 1 1-pvc,2-svc
*Sep 10 09:22:42.304: //-1/xxxxxxxxxxxx/MGCP/mgcp_init_vox_if_record(6781):[lvl=0]reusing records. conn_type: 2, vox if_type: 1
*Sep 10 09:22:42.304: //-1/xxxxxxxxxxxx/MGCP/mgcp_compute_debugsy_hdr(274):[lvl=0]Building Debugsy header

Related Commands

Command

Description

debug mgcp all

Enables all debug traces for MGCP.

debug mgcp endpoint

Enables debug traces for a specific MGCP endpoint.

debug mgcp tracelevel-default

Sets the trace level globally for all MGCP debug traces.

mgcp

Starts the MGCP daemon.

mgcp debug-header

Enables the display of MGCP module-dependent information in the debug header.

show mgcp

Displays MGCP configuration information.

voice call debug

Specifies the format of the debug header.

debug mgcp gcfm

To enable generic call filter module (GCFM) debug traces for Media Gateway Control Protocol (MGCP), use the debug mgcp gcfm command in privileged EXEC mode. To disable debugging output, use the no form of this command.

debug mgcp gcfm [tracelevel {critical | moderate | verbose}]

no debug mgcp gcfm

Syntax Description

tracelevel

(Optional) Sets the priority level for this debug trace.

  • critical --Displays only high priority debug information.

  • moderate --Displays medium and high priority debug information.

  • verbose --Displays all debug information. This is the default level.

Command Default

MGCP GCFM debugging is disabled.

Command Modes

Privileged EXEC

Command History

Release

Modification

12.4(4)T

This command was introduced.

Usage Guidelines

This command enables GCFM debugging globally for all MGCP endpoints.

Trace levels allow you to control the amount of debug information that is displayed in the output from MGCP debug commands. Reducing the amount of output displayed on the console port makes it easier to locate the correct debug information and limits the impact to network performance.

Examples

The following is sample output from the debug mgcp gcfm command: 


Router# debug mgcp gcfm
Media Gateway Control Protocol gcfm debugging for all endpoints is on, trace-level Verbose
Router# 
*Sep 10 09:24:52.692: //-1/12F030978009/MGCP|aaln/S2/SU1/1|-1|-1/<VOICE>/mgcp_gcfm_percall_register(315):[lvl=2]GCFM Inactive
*Sep 10 09:24:52.692: //-1/12F030978009/MGCP|aaln/S2/SU1/1|-1|-1/<VOIP>/mgcp_gcfm_percall_register(315):[lvl=2]GCFM Inactive
Router#

Related Commands

Command

Description

debug call filter inout

Displays the debug trace inside the GCFM.

debug mgcp endpoint

Enables debug traces for a specific MGCP endpoint.

debug mgcp tracelevel-default

Sets the trace level globally for all MGCP debug traces.

mgcp

Starts the MGCP daemon.

mgcp debug-header

Enables the display of MGCP module-dependent information in the debug header.

show mgcp

Displays MGCP configuration information.

voice call debug

Specifies the format of the debug header.

debug mgcp inout

To enable debug traces for all Media Gateway Control Protocol (MGCP) entry and exit endpoints, use the debug mgcp inout command in privileged EXEC mode. To disable debugging output, use the no form of this command.

debug mgcp inout [tracelevel {critical | moderate | verbose}]

no debug mgcp inout

Syntax Description

tracelevel

(Optional) Sets the priority level for this debug trace.

  • critical --Displays only high priority debug information.

  • moderate --Displays medium and high priority debug information.

  • verbose --Displays all debug information. This is the default level.

Command Default

Debugging of MGCP entry and exit endpoints is disabled.

Command Modes

Privileged EXEC

Command History

Release

Modification

12.4(4)T

This command was introduced.

Usage Guidelines

Trace levels allow you to control the amount of debug information that is displayed in the output from MGCP debug commands. Reducing the amount of output displayed on the console port makes it easier to locate the correct debug information and limits the impact to network performance.

Examples

The following is sample output from the debug mgcp inout command: 


Router# debug mgcp inout
Media Gateway Control Protocol inout debugging for all endpoints is on, trace-level Verbose
Router# 
*Sep 10 09:26:37.780: //-1/xxxxxxxxxxxx/MGCP/mgcp_count_active_mgc_msg_stat(240):[lvl=1]MGC stat - 192.168.1.200, total=22, succ=18, failed=2
*Sep 10 09:26:37.780: //-1/xxxxxxxxxxxx/MGCP/mgcp_parse_packet(316):[lvl=0]call mgcp_parse_header
*Sep 10 09:26:37.780: //-1/xxxxxxxxxxxx/MGCP/mgcp_string_parse(186):[lvl=0]return code=1.
*Sep 10 09:26:37.780: //-1/xxxxxxxxxxxx/MGCP/mgcp_parse_conn_mode(4762):[lvl=0](in_ptr: recvonly)
*Sep 10 09:26:37.780: //-1/xxxxxxxxxxxx/MGCP/mgcp_parse_conn_mode(4894):[lvl=0]SUCCESS: Connection Mode parsing is OK
*Sep 10 09:26:37.780: //-1/xxxxxxxxxxxx/MGCP/mgcp_string_parse(186):[lvl=0]return code=1.
*Sep 10 09:26:37.784: //-1/xxxxxxxxxxxx/MGCP/mgcp_parse_call_id(840):[lvl=0]in_ptr: 1
*Sep 10 09:26:37.784: //-1/xxxxxxxxxxxx/MGCP/mgcp_parse_call_id(883):[lvl=1]SUCCESS: Call ID string(1) parsing is OK
*Sep 10 09:26:37.784: //-1/xxxxxxxxxxxx/MGCP/mgcp_val_mandatory_parms(12428):[lvl=0]Entered
*Sep 10 09:26:37.784: //-1/xxxxxxxxxxxx/MGCP/xgcp_endpt_name_parse_a(1339):[lvl=0]aaln/S2/SU1/1
*Sep 10 09:26:37.784: //-1/xxxxxxxxxxxx/MGCP/xgcp_endpt_name_parse_aaln_slot(1632):[lvl=0]2/SU1/1
*Sep 10 09:26:37.784: //-1/xxxxxxxxxxxx/MGCP/xgcp_endpt_name_parse_digit(1600):[lvl=0]2/SU1/1
*Sep 10 09:26:37.784: //-1/xxxxxxxxxxxx/MGCP/xgcp_endpt_name_parse_aaln_su(1773):[lvl=0]1/1
*Sep 10 09:26:37.784: //-1/xxxxxxxxxxxx/MGCP/xgcp_endpt_name_parse_digit(1600):[lvl=0]1/1
*Sep 10 09:26:37.784: //-1/xxxxxxxxxxxx/MGCP/xgcp_endpt_name_parse_aaln_port(1807):[lvl=0]1
*Sep 10 09:26:37.784: //-1/xxxxxxxxxxxx/MGCP/xgcp_endpt_name_parse_digit(1600):[lvl=0]1
*Sep 10 09:26:37.784: //-1/xxxxxxxxxxxx/MGCP/mgcp_endpt_get_endpt_offset(2590):[lvl=0]endpt NULL
*Sep 10 09:26:37.784: //-1/xxxxxxxxxxxx/MGCP/xgcp_endpt_get_by_ifn(1326):[lvl=0]Entered
*Sep 10 09:26:37.784: //-1/xxxxxxxxxxxx/MGCP/xgcp_endpt_get_tree_link_by_ifn(1145):[lvl=0]Entered
*Sep 10 09:26:37.784: //-1/xxxxxxxxxxxx/MGCP/xgcp_endpt_compute_key(196):[lvl=0]type 2 slot 0002 subunit 0001
*Sep 10 09:26:37.784: //-1/xxxxxxxxxxxx/MGCP/xgcp_endpt_get_state(3758):[lvl=0]endpt aaln/S2/SU1/1
*Sep 10 09:26:37.784: //-1/xxxxxxxxxxxx/MGCP/xgcp_endpt_default_get_state(3779):[lvl=0]endpt aaln/S2/SU1/1
*Sep 10 09:26:37.784: //-1/xxxxxxxxxxxx/MGCP/mgcp_endpt_get_notified_entity(439):[lvl=0]Entered
*Sep 10 09:26:37.784: //-1/xxxxxxxxxxxx/MGCP/mgcp_endpt_get_notified_entity(458):[lvl=1]ne callagenthost:7979, ne addr 192.168.1.200:7979
*Sep 10 09:26:37.784: //-1/xxxxxxxxxxxx/MGCP/xlate_mgcp_ev(921):[lvl=1]hdr_type 1
*Sep 10 09:26:37.784: //-1/xxxxxxxxxxxx/MGCP|aaln/S2/SU1/1|-1|-1/mgcpapp_invoke_mgcp_sm(2559):[lvl=1]Msg In-Progress(Active) [INVVERB 0], await_ev=0, queued=0x00000000
*Sep 10 09:26:37.784: //-1/xxxxxxxxxxxx/MGCP|aaln/S2/SU1/1|-1|-1/mgcp_process_deferred_queue(3362):[lvl=0]Entered
*Sep 10 09:26:37.784: //-1/xxxxxxxxxxxx/MGCP/mgcp_store_endpt_and_ntfy_entity_name(4464):[lvl=0]Entered
*Sep 10 09:26:37.784: //-1/xxxxxxxxxxxx/MGCP|aaln/S2/SU1/1|-1|-1/mgcp_idle_crcx(4875):[lvl=2]callp(0x63E313E0), current state CALL_IDLE, event EV_CREATE_CONN
*Sep 10 09:26:37.784: //-1/xxxxxxxxxxxx/MGCP/mgcp_init_modem_relay_params(103):[lvl=0]modem-relay-enabled=0, mr-gw-xid=0
*Sep 10 09:26:37.784: //-1/xxxxxxxxxxxx/MGCP|aaln/S2/SU1/1|-1|-1/mgcp_compute_debugsy_hdr(274):[lvl=0]Building Debugsy header
*Sep 10 09:26:37.784: //-1/5193F3E0800A/MGCP|aaln/S2/SU1/1|-1|-1/<VOICE>/mgcp_compute_debugsy_hdr(383):[lvl=0]GUID[5193F3E0800A] assigned to call_id[-1], endpt[aaln/S2/SU1/1], mgcp_call_id[n/a], conn_id[0]
*Sep 10 09:26:37.784: //-1/5193F3E0800A/MGCP|aaln/S2/SU1/1|-1|-1/<VOICE>/mgcp_verify_supp_reqdet_ev(10645):[lvl=0]Entered
*Sep 10 09:26:37.784: //-1/5193F3E0800A/MGCP|aaln/S2/SU1/1|-1|-1/<VOICE>/mgcp_verify_supp_signal_ev(10685):[lvl=0]Entered
*Sep 10 09:26:37.784: //-1/5193F3E0800A/MGCP|aaln/S2/SU1/1|-1|-1/<VOICE>/mgcp_compute_debugsy_hdr(274):[lvl=0]Building Debugsy header

Related Commands

Command

Description

debug mgcp all

Enables all debug traces for MGCP.

debug mgcp tracelevel-default

Sets the trace level globally for all MGCP debug traces.

mgcp

Starts the MGCP daemon.

mgcp debug-header

Enables the display of MGCP module-dependent information in the debug header.

show mgcp

Displays MGCP configuration information.

voice call debug

Specifies the format of the debug header.

debug mgcp media

To enable debug traces for Media Gateway Control Protocol (MGCP) tone and signal events, use the debug mgcp media command in privileged EXEC mode. To disable debugging output, use the no form of this command.

debug mgcp media [tracelevel {critical | moderate | verbose}]

no debug mgcp media

Syntax Description

tracelevel

(Optional) Sets the priority level for this debug trace.

  • critical --Displays only high priority debug information.

  • moderate --Displays medium and high priority debug information.

  • verbose --Displays all debug information. This is the default level.

Command Default

MGCP media debugging is disabled.

Command Modes

Privileged EXEC

Command History

Release

Modification

12.2(2)XA

This command was introduced.

12.2(11)T

The command was implemented on the Cisco AS5350, Cisco AS5400, and Cisco AS5850.

12.2(13)T

Support for this command was implemented in Cisco 7200 series images.

12.4(4)T

The endpoint endpoint-name keyword and argument were removed and replaced by the debug mgcp endpoint command. The tracelevel keyword was added.

Usage Guidelines

This command enables media debugging globally for all MGCP endpoints. You can limit debugging to a specific endpoint by using the debug mgcp endpoint command.

Trace levels allow you to control the amount of debug information that is displayed in the output from MGCP debug commands. Reducing the amount of output displayed on the console port makes it easier to locate the correct debug information and limits the impact to network performance.

Examples

The following is sample output from the debug mgcp media command: 


Router# debug mgcp media
 
Media Gateway Control Protocol media events debugging for all endpoints is on, trace-level Verbose
Router# 
*Sep 10 09:27:48.928: //-1/7BFBA9F9800B/MGCP|aaln/S2/SU1/1|-1|-1/<VOICE>/mgcp_verify_supp_reqdet_ev(10645):[lvl=0]Entered
*Sep 10 09:27:48.928: //-1/7BFBA9F9800B/MGCP|aaln/S2/SU1/1|-1|-1/<VOICE>/mgcp_verify_supp_signal_ev(10685):[lvl=0]Entered
*Sep 10 09:27:48.928: //-1/7BFBA9F9800B/MGCP|aaln/S2/SU1/1|-1|-1/<VOICE>/process_request_ev(5800):[lvl=1]callp 63E313E0, voice_if 6663CA38
*Sep 10 09:27:48.928: //-1/7BFBA9F9800B/MGCP|aaln/S2/SU1/1|-1|-1/<VOICE>/process_detect_ev(6007):[lvl=0]callp 63E313E0, voice_if 6663CA38
*Sep 10 09:27:48.928: //-1/7BFBA9F9800B/MGCP|aaln/S2/SU1/1|-1|-1/<VOICE>/process_signal_ev(5500):[lvl=0]callp 63E313E0, voice_ifp 6663CA38
*Sep 10 09:27:48.928: //-1/7BFBA9F9800B/MGCP|aaln/S2/SU1/1|-1|-1/<VOICE>/mgcp_process_quarantine_mode(6096):[lvl=0]callp 63E313E0, voice_if 6663CA38
*Sep 10 09:27:48.928: //-1/7BFBA9F9800B/MGCP|aaln/S2/SU1/1|-1|-1/<VOICE>/mgcp_process_quarantine_mode(6149):[lvl=0]Q mode not found, Reset default values
*Sep 10 09:27:48.928: //-1/7BFBA9F9800B/MGCP|aaln/S2/SU1/1|-1|-1/<VOICE>/mgcp_process_quarantine_mode(6168):[lvl=1]Q mode: process=0, loop=0
*Sep 10 09:27:48.936: //19/7BFBA9F9800B/MGCP|aaln/S2/SU1/1|-1|-1/<VOICE>/mgcp_process_pending_t38_port_switch(1649):[lvl=1]conn_recp->conn_id: 0x0
*Sep 10 09:27:48.940: //19/7BFBA9F9800B/MGCP|aaln/S2/SU1/1|-1|-1/<VOICE>/process_deferred_request_events(5724):[lvl=0]Entered

Related Commands

Command

Description

debug mgcp all

Enables all debug traces for MGCP.

debug mgcp endpoint

Enables debug traces for a specific MGCP endpoint.

debug mgcp tracelevel-default

Sets the trace level globally for all MGCP debug traces.

mgcp

Starts the MGCP daemon.

mgcp debug-header

Enables the display of MGCP module-dependent information in the debug header.

show mgcp

Displays MGCP configuration information.

voice call debug

Specifies the format of the debug header.

debug mgcp nas

To enable network access server (NAS) (data) events for Media Gateway Control Protocol (MGCP), use the debug mgcp nas command in privileged EXEC mode. To disable debugging output, use the no form of this command.

debug mgcp nas [tracelevel {critical | moderate | verbose}]

no debug mgcp nas

Syntax Description

tracelevel

(Optional) Sets the priority level for this debug trace.

  • critical --Displays only high priority debug information.

  • moderate --Displays medium and high priority debug information.

  • verbose --Displays all debug information. This is the default level.

Command Default

MGCP NAS event debugging is disabled.

Command Modes

Privileged EXEC

Command History

Release

Modification

12.2(2)XB

This command was introduced.

12.2(11)T

The command was implemented on the Cisco AS5350, Cisco AS5400, and Cisco AS5850.

12.2(13)T

Support for this command was implemented in Cisco 7200 series images.

12.4(4)T

The tracelevel keyword was added.

Usage Guidelines

Trace levels allow you to control the amount of debug information that is displayed in the output from MGCP debug commands. Reducing the amount of output displayed on the console port makes it easier to locate the correct debug information and limits the impact to network performance.

Examples

The following is sample output for the debug mgcp nas command with the debug mgcp packets command also enabled: 


Router# debug mgcp nas
Media Gateway Control Protocol nas pkg events debugging for all endpoints is on, trace-level Verbose
Router# debug mgcp packets
Media Gateway Control Protocol packets debugging for all endpoints is on
Router# 
*Sep 10 11:51:41.863: MGCP Packet received from 192.168.1.200:7979--->
CRCX 34 aaln/S2/SU1/1 MGCP 1.0
X:57
M: nas/data
C:3
L:b:64, nas/bt:modem, nas/cdn:3000, nas/cgn:1000
C: 1
<---
*Sep 10 11:51:41.863: //-1/xxxxxxxxxxxx/MGCP/mgcp_chq_nas_pkg(779):[lvl=0]Full string: nas/bt:modem
*Sep 10 11:51:41.863: //-1/xxxxxxxxxxxx/MGCP/mgcp_chq_nas_pkg(791):[lvl=1]string past slash: bt
*Sep 10 11:51:41.863: //-1/xxxxxxxxxxxx/MGCP/mgcp_chq_nas_pkg(792):[lvl=1]string past colon: modem
*Sep 10 11:51:41.863: //-1/xxxxxxxxxxxx/MGCP/mgcp_chq_nas_pkg(779):[lvl=0]Full string: nas/cdn:3000
*Sep 10 11:51:41.863: //-1/xxxxxxxxxxxx/MGCP/mgcp_chq_nas_pkg(791):[lvl=1]string past slash: cdn
*Sep 10 11:51:41.863: //-1/xxxxxxxxxxxx/MGCP/mgcp_chq_nas_pkg(792):[lvl=1]string past colon: 3000
*Sep 10 11:51:41.863: //-1/xxxxxxxxxxxx/MGCP/mgcp_chq_nas_pkg(779):[lvl=0]Full string: nas/cgn:1000
*Sep 10 11:51:41.863: //-1/xxxxxxxxxxxx/MGCP/mgcp_chq_nas_pkg(791):[lvl=1]string past slash: cgn
*Sep 10 11:51:41.863: //-1/xxxxxxxxxxxx/MGCP/mgcp_chq_nas_pkg(792):[lvl=1]string past colon: 1000

Related Commands

Command

Description

debug mgcp all

Enables all debug traces for MGCP.

debug mgcp tracelevel-default

Sets the trace level globally for all MGCP debug traces.

mgcp

Starts the MGCP daemon.

mgcp debug-header

Enables the display of MGCP module-dependent information in the debug header.

show mgcp

Displays MGCP configuration information.

voice call debug

Specifies the format of the debug header.

debug mgcp packets

To enable debug traces for Media Gateway Control Protocol (MGCP) packets, use the debug mgcp packets command in privileged EXEC mode. To disable debugging output, use the no form of this command.

debug mgcp packets [input-hex]

no debug mgcp packets [input-hex]

Syntax Description

input-hex

(Optional) Displays MGCP incoming packets in hexadecimal format.

Command Default

MGCP packets debugging is disabled.

Command Modes

Privileged EXEC

Command History

Release

Modification

12.1(1)T

This command was introduced.

12.1(3)T

Additional information was displayed for the gateways.

12.1(5)XM, 12.2(2)T

The output was modified to display parameters for the MGCP channel-associated signaling (CAS) PBX and ATM adaptation layer 2 (AAL2) permanent virtual circuit (PVC) features.

12.2(2)XA

The endpoint endpoint-name keyword and argument and the input-hex keyword were added.

12.2(11)T

The command was implemented on the Cisco AS5350, Cisco AS5400, and Cisco AS5850.

12.2(13)T

Support for this command was implemented in Cisco 7200 series images.

12.4(4)T

The endpoint endpoint-name keyword and argument were removed and replaced by the debug mgcp endpoint command.

Usage Guidelines

This command enables packet debugging globally for all MGCP endpoints. You can limit debugging to a specific endpoint by using the debug mgcp endpoint command.

Trace levels allow you to control the amount of debug information that is displayed in the output from MGCP debug commands. Reducing the amount of output displayed on the console port makes it easier to locate the correct debug information and limits the impact to network performance.

Examples

The following is sample output from the debug mgcp packets command: 


Router# debug mgcp packets
Media Gateway Control Protocol packets debugging for all endpoints is on
Router# 
*Sep 10 11:57:26.795: MGCP Packet received from 192.168.1.200:7979--->
CRCX 38 aaln/S2/SU1/1 MGCP 1.0
M: recvonly
C: 1
<---
*Sep 10 11:57:26.795: //-1/xxxxxxxxxxxx/MGCP|aaln/S2/SU1/1|-1|-1/mgcpapp_invoke_mgcp_sm(2569):[lvl=0]CHECK DATA CALL for aaln/S2/SU1/1
*Sep 10 11:57:26.807: MGCP Packet sent to 192.168.1.200:7979--->
200 38 OK
I: 10
v=0
c=IN IP4 192.168.1.79
m=audio 18876 RTP/AVP 0 8 99 101 102 2 15 103 4 104 105 106 107 18 100
a=rtpmap:99 G.729a/8000
a=rtpmap:101 G.726-16/8000
a=rtpmap:102 G.726-24/8000
a=rtpmap:103 G.723.1-H/8000
a=rtpmap:104 G.723.1-L/8000
a=rtpmap:105 G.729b/8000
a=rtpmap:106 G.723.1a-H/8000
a=rtpmap:107 G.723.1a-L/8000
a=rtpmap:100 X-NSE/8000
a=fmtp:100 200-202
a=X-sqn:0
a=X-cap: 1 audio RTP/AVP 100
a=X-cpar: a=rtpmap:100 X-NSE/8000
a=X-cpar: a=fmtp:100 200-202
a=X-cap: 2 image udptl t38
<---

Related Commands

Command

Description

debug mgcp all

Enables all debug traces for MGCP.

debug mgcp endpoint

Enables debug traces for a specific MGCP endpoint.

debug mgcp tracelevel-default

Sets the trace level globally for all MGCP debug traces.

mgcp

Starts the MGCP daemon.

mgcp debug-header

Enables the display of MGCP module-dependent information in the debug header.

show mgcp

Displays MGCP configuration information.

voice call debug

Specifies the format of the debug header.

debug mgcp parser

To enable debug traces for the Media Gateway Control Protocol (MGCP) parser and builder, use the debug mgcp parser command in privileged EXEC mode. To disable debugging output, use the no form of this command.

debug mgcp parser [tracelevel {critical | moderate | verbose}]

no debug mgcp parser

Syntax Description

tracelevel

(Optional) Sets the priority level for this debug trace.

  • critical --Displays only high priority debug information.

  • moderate --Displays medium and high priority debug information.

  • verbose --Displays all debug information. This is the default level.

Command Default

MGCP parser and builder debugging is disabled.

Command Modes

Privileged EXEC

Command History

Release

Modification

12.1(1)T

This command was introduced.

12.1(3)T

Additional information was displayed for the gateways.

12.1(5)XM, 12.2(2)T

The output was modified to display parameters for the MGCP channel-associated signaling (CAS) PBX and ATM adaptation layer 2 (AAL2) permanent virtual circuit (PVC) features.

12.2(11)T

The command was implemented on the Cisco AS5350, Cisco AS5400, and Cisco AS5850.

12.2(13)T

Support for this command was implemented in Cisco 7200 series images.

12.4(4)T

The tracelevel keyword was added.

Usage Guidelines

Trace levels allow you to control the amount of debug information that is displayed in the output from MGCP debug commands. Reducing the amount of output displayed on the console port makes it easier to locate the correct debug information and limits the impact to network performance.

Examples

The following is sample output from the debug mgcp parser command: 


Router# debug mgcp parser
 
Media Gateway Control Protocol parser debugging for all endpoints is on, trace-level Verbose
Router# 
*Sep 10 11:58:51.283: //-1/xxxxxxxxxxxx/MGCP/mgcp_parse_packet(316):[lvl=0]call mgcp_parse_header
*Sep 10 11:58:51.283: //-1/xxxxxxxxxxxx/MGCP/mgcp_parse_packet(320):[lvl=0]out mgcp_parse_header
*Sep 10 11:58:51.283: //-1/xxxxxxxxxxxx/MGCP/mgcp_parse_packet(360):[lvl=1]SUCCESS: - MGCP Header parsing was OK
*Sep 10 11:58:51.283: //-1/xxxxxxxxxxxx/MGCP/mgcp_string_parse(186):[lvl=0]return code=1.
*Sep 10 11:58:51.283: //-1/xxxxxxxxxxxx/MGCP/mgcp_parse_parameter_lines(725):[lvl=1]return parse function in mgcp_parm_rules_array[6].
*Sep 10 11:58:51.283: //-1/xxxxxxxxxxxx/MGCP/mgcp_parse_conn_mode(4762):[lvl=0](in_ptr: recvonly)
*Sep 10 11:58:51.283: //-1/xxxxxxxxxxxx/MGCP/mgcp_parse_conn_mode(4780):[lvl=0]tmp_ptr:(recvonly)
*Sep 10 11:58:51.283: //-1/xxxxxxxxxxxx/MGCP/mgcp_parse_conn_mode(4816):[lvl=0]tmp_ptr:(recvonly)
*Sep 10 11:58:51.283: //-1/xxxxxxxxxxxx/MGCP/mgcp_parse_conn_mode(4822):[lvl=0]match recvonly recvonly
*Sep 10 11:58:51.283: //-1/xxxxxxxxxxxx/MGCP/mgcp_parse_conn_mode(4830):[lvl=0]case MODE_RECVONLY
*Sep 10 11:58:51.283: //-1/xxxxxxxxxxxx/MGCP/mgcp_parse_conn_mode(4894):[lvl=0]SUCCESS: Connection Mode parsing is OK
*Sep 10 11:58:51.283: //-1/xxxxxxxxxxxx/MGCP/mgcp_string_parse(186):[lvl=0]return code=1.
*Sep 10 11:58:51.283: //-1/xxxxxxxxxxxx/MGCP/mgcp_parse_parameter_lines(725):[lvl=1]return parse function in mgcp_parm_rules_array[1].
*Sep 10 11:58:51.283: //-1/xxxxxxxxxxxx/MGCP/mgcp_parse_call_id(840):[lvl=0]in_ptr: 1
*Sep 10 11:58:51.283: //-1/xxxxxxxxxxxx/MGCP/mgcp_parse_call_id(883):[lvl=1]SUCCESS: Call ID string(1) parsing is OK
*Sep 10 11:58:51.283: //-1/xxxxxxxxxxxx/MGCP/mgcp_val_mandatory_parms(12428):[lvl=0]Entered
*Sep 10 11:58:51.283: //-1/xxxxxxxxxxxx/MGCP/mgcp_val_comp_mp_parms(14923):[lvl=0]Entered
*Sep 10 11:58:51.283: //-1/xxxxxxxxxxxx/MGCP/mgcp_val_comp_mp_parms(14928):[lvl=1] - lcon_opt_ptr could not be obtained
*Sep 10 11:58:51.283: //-1/xxxxxxxxxxxx/MGCP/mgcp_parse_packet(378):[lvl=2]SUCCESS: END of Parsing
*Sep 10 11:58:51.283: //-1/95915C328011/MGCP|aaln/S2/SU1/1|-1|-1/<VOICE>/mgcp_validate_version_with_call_agent_serv_type(8322):[lvl=1]req_msg_version: 5, config_version: 5
*Sep 10 11:58:51.283: //-1/xxxxxxxxxxxx/MGCP/mgcp_validate_net_type(6601):[lvl=1] lcnw_valid=0, lc_con_valid=0
*Sep 10 11:58:51.287: //-1/xxxxxxxxxxxx/MGCP/mgcp_validate_net_type(6710):[lvl=1]Network type/conection type valid = 1. connection type = 1 [1->RTP, 2->AAL1_SDT, 4->AAL2]
*Sep 10 11:58:51.287: //-1/xxxxxxxxxxxx/MGCP/mgcp_get_qos(2665):[lvl=1]MGCP msg qos value=0
*Sep 10 11:58:51.287: //-1/xxxxxxxxxxxx/MGCP/mgcp_init_dyn_payload_types(2899):[lvl=1]used payload type map = 2F400003
*Sep 10 11:58:51.287: //-1/xxxxxxxxxxxx/MGCP/get_voip_peer_info(7155):[lvl=1]No SDP connection info
*Sep 10 11:58:51.287: //-1/95915C328011/MGCP|aaln/S2/SU1/1|-1|-1/<VOIP>/mgcp_select_codec_only(897):[lvl=1]num supprt codec=14
*Sep 10 11:58:51.287: //-1/95915C328011/MGCP|aaln/S2/SU1/1|-1|-1/<VOIP>/mgcp_select_codec_only(1061):[lvl=0]glob codec=1 (syn=1)
*Sep 10 11:58:51.287: //-1/95915C328011/MGCP|aaln/S2/SU1/1|-1|-1/<VOIP>/mgcp_select_codec_only(1063):[lvl=0]supp list=
*Sep 10 11:58:51.287: //-1/95915C328011/MGCP|aaln/S2/SU1/1|-1|-1/<VOIP>/mgcp_select_codec_only(1067):[lvl=0] 1
*Sep 10 11:58:51.287: //-1/95915C328011/MGCP|aaln/S2/SU1/1|-1|-1/<VOIP>/mgcp_select_codec_only(1067):[lvl=0],2
*Sep 10 11:58:51.287: //-1/95915C328011/MGCP|aaln/S2/SU1/1|-1|-1/<VOIP>/mgcp_select_codec_only(1067):[lvl=0],7

Related Commands

Command

Description

debug mgcp all

Enables all debug traces for MGCP.

debug mgcp tracelevel-default

Sets the trace level globally for all MGCP debug traces.

mgcp

Starts the MGCP daemon.

mgcp debug-header

Enables the display of MGCP module-dependent information in the debug header.

show mgcp

Displays MGCP configuration information.

voice call debug

Specifies the format of the debug header.

debug mgcp src

To enable debug traces for the System Resource Check (SRC) Call Admission Control (CAC) process for Media Gateway Control Protocol (MGCP), use the debug mgcp src command in privileged EXEC mode. To disable debugging output, use the no form of this command.

debug mgcp src [tracelevel {critical | moderate | verbose}]

no debug mgcp src

Syntax Description

tracelevel

(Optional) Sets the priority level for this debug trace.

  • critical --Displays only high priority debug information.

  • moderate --Displays medium and high priority debug information.

  • verbose --Displays all debug information. This is the default level.

Command Default

MGCP SRC debugging is disabled.

Command Modes

Privileged EXEC

Command History

Release

Modification

12.2(2)XB

This command was introduced.

12.2(8)T

This command was integrated into Cisco IOS Release 12.2(8)T.

12.2(11)T

The command was implemented on the Cisco AS5350, Cisco AS5400, and Cisco AS5850.

12.2(13)T

Support for this command was implemented in Cisco 7200 series images.

12.4(4)T

The tracelevel keyword was added.

Usage Guidelines

Trace levels allow you to control the amount of debug information that is displayed in the output from MGCP debug commands. Reducing the amount of output displayed on the console port makes it easier to locate the correct debug information and limits the impact to network performance.

Examples

The following is sample output from the debug mgcp src command: 


Router# debug mgcp src
Media Gateway Control Protocol System Resource Check CAC debugging for all endpoints is on, trace-level Verbose
Router# 
*Sep 10 12:01:14.403: //-1/EADF209C8013/MGCP|aaln/S2/SU1/1|-1|-1/<VOIP>/mgcp_set_call_counter_control(8163):[lvl=1]Outgoing call with 1 network leg, flag=TRUE
*Sep 10 12:03:01.051: //35/EADF209C8013/MGCP|aaln/S2/SU1/1|-1|-1/<VOICE>/mgcp_reset_call_direction(8184):[lvl=1]Reseting incoming_call flag=FALSE in voice_if

Related Commands

Command

Description

debug mgcp all

Enables all debug traces for MGCP.

debug mgcp tracelevel-default

Sets the trace level globally for all MGCP debug traces.

mgcp

Starts the MGCP daemon.

mgcp debug-header

Enables the display of MGCP module-dependent information in the debug header.

show mgcp

Displays MGCP configuration information.

voice call debug

Specifies the format of the debug header.

debug mgcp state

To enable state traces for Media Gateway Control Protocol (MGCP), use the debug mgcp state command in privileged EXEC mode. To disable debugging output, use the no form of this command.

debug mgcp state [tracelevel {critical | moderate | verbose}]

no debug mgcp state

Syntax Description

tracelevel

(Optional) Sets the priority level for this debug trace.

  • critical --Displays only high priority debug information.

  • moderate --Displays medium and high priority debug information.

  • verbose --Displays all debug information. This is the default level.

Command Default

MGCP state debugging is disabled.

Command Modes

Privileged EXEC

Command History

Release

Modification

12.2(2)XB

This command was introduced.

12.2(8)T

This command was integrated into Cisco IOS Release 12.2(8)T.

12.4(4)T

The tracelevel keyword was added.

Usage Guidelines

Trace levels allow you to control the amount of debug information that is displayed in the output from MGCP debug commands. Reducing the amount of output displayed on the console port makes it easier to locate the correct debug information and limits the impact to network performance.

Examples

The following is sample output from the debug mgcp state command: 


Router# debug mgcp state
Media Gateway Control Protocol state transition debugging for all endpoints is on, trace-level Verbose
Router# 
*Sep 10 12:08:02.755: //39/DE454D0E8015/MGCP|aaln/S2/SU1/1|-1|-1/<VOICE>/mgcp_set_call_state(7562):[lvl=2]callp(0x63E313E0) old state=CALL_IDLE new state=CALL_CONNECTING
*Sep 10 12:08:02.755: //40/DE454D0E8015/MGCP|aaln/S2/SU1/1|-1|-1/<VOIP>/mgcp_set_call_state(7562):[lvl=2]callp(0x63E311D0) old state=CALL_IDLE new state=CALL_CONNECTING
*Sep 10 12:08:02.755: //39/DE454D0E8015/MGCP|aaln/S2/SU1/1|-1|-1/<VOICE>/mgcp_set_call_state(7562):[lvl=2]callp(0x63E313E0) old state=CALL_CONNECTING new state=CALL_CONNECTING
*Sep 10 12:08:02.759: //40/DE454D0E8015/MGCP|aaln/S2/SU1/1|-1|-1/<VOIP>/mgcp_set_call_state(7562):[lvl=2]callp(0x63E311D0) old state=CALL_CONNECTING new state=CALL_CONFERENCING
*Sep 10 12:08:02.759: //39/DE454D0E8015/MGCP|aaln/S2/SU1/1|-1|-1/<VOICE>/mgcp_set_call_state(7562):[lvl=2]callp(0x63E313E0) old state=CALL_CONNECTING new state=CALL_CONFERENCING
*Sep 10 12:08:02.759: //40/DE454D0E8015/MGCP|aaln/S2/SU1/1|-1|-1/<VOIP>/mgcp_set_call_state(7562):[lvl=2]callp(0x63E311D0) old state=CALL_CONFERENCING new state=CALL_CONFERENCING
*Sep 10 12:08:02.763: //39/DE454D0E8015/MGCP|aaln/S2/SU1/1|-1|-1/<VOICE>/mgcp_set_call_state(7562):[lvl=2]callp(0x63E313E0) old state=CALL_CONFERENCING new state=CALL_ACTIVE
*Sep 10 12:08:02.763: //40/DE454D0E8015/MGCP|aaln/S2/SU1/1|-1|-1/<VOIP>/mgcp_set_call_state(7562):[lvl=2]callp(0x63E311D0) old state=CALL_CONFERENCING new state=CALL_ACTIVE

Related Commands

Command

Description

debug mgcp all

Enables all debug traces for MGCP.

debug mgcp tracelevel-default

Sets the trace level globally for all MGCP debug traces.

mgcp

Starts the MGCP daemon.

mgcp debug-header

Enables the display of MGCP module-dependent information in the debug header.

show mgcp

Displays MGCP configuration information.

voice call debug

Specifies the format of the debug header.

debug mgcp tracelevel-default

To set the trace level globally for all Media Gateway Control Protocol (MGCP) debug traces, use the debug mgcp tracelevel-default command in privileged EXEC mode. To reset the trace level to the default value, use the no form of this command.

debug mgcp tracelevel-default {critical | moderate | verbose}

no debug mgcp tracelevel-default {critical | moderate | verbose}

Syntax Description

critical

Only high priority debug information is displayed.

moderate

Medium and high priority debug information is displayed.

verbose

All debug information is displayed. This is the default value.

Command Default

The default trace level for all MGCP debug commands is verbose.

Command Modes

Privileged EXEC

Command History

Release

Modification

12.4(4)T

This command was introduced.

Usage Guidelines

Trace levels allow you to control the amount of debug information that is displayed in the output from MGCP debug commands. Reducing the amount of output displayed on the console port makes it easier to locate the correct debug information and limits the impact to network performance.

This command sets the trace level globally for all MGCP debug commands and endpoints. You can set the trace level independently for a specific endpoint by using the debug mgcp endpoint command. The endpoint-specific trace level takes precedence over the global trace-level set with this command.


Note

This command applies only to MGCP debug commands that are issued after the default trace level is set. For example, if you enable several debug commands and then change the default trace level, the new trace level does not apply to any previously enabled MGCP debug commands.

Examples

The following example sets the default trace level to critical for all MGCP debug traces: 


Router# debug mgcp tracelevel-default critical 
Router# debug mgcp events
 
Media Gateway Control Protocol events debugging for all endpoints is on, trace-level Critical
Router# debug mgcp state
 
Media Gateway Control Protocol state transition debugging for all endpoints is on, trace-level Critical

Notice that if the default trace level is then changed, as in the following example, the new trace level applies only to any MGCP debug commands that are issued after the default trace level is changed. 


Router# debug mgcp tracelevel-default verbose
 
Router# debug mgcp voipcac
 
Media Gateway Control Protocol VoIPCAC debugging for all endpoints is on, trace-level Verbose
Router# show debug
MGCP:
  Media Gateway Control Protocol events debugging is on, trace level Critical
  Media Gateway Control Protocol VoIPCAC debugging is on, trace level Verbose
  Media Gateway Control Protocol state transition debugging is on, trace level Critical

Related Commands

Command

Description

debug mgcp all

Enables all debug traces for MGCP.

debug mgcp endpoint

Enables debug traces for a specific MGCP endpoint.

mgcp debug-header

Enables the display of MGCP module-dependent information in the debug header.

show mgcp

Displays MGCP configuration information.

voice call debug

Specifies the format of the debug header.

debug mgcp voipcac

To enable debug traces for the Voice over IP (VoIP) Call Admission Control (CAC) process at the Media Gateway Control Protocol (MGCP) application layer, use the debug mgcp voipcac command in privileged EXEC mode. To disable debugging output, use the no form of this command.

debug mgcp voipcac [tracelevel {critical | moderate | verbose}]

no debug mgcp voipcac

Syntax Description

tracelevel

(Optional) Sets the priority level for this debug trace.

  • critical --Displays only high priority debug information.

  • moderate --Displays medium and high priority debug information.

  • verbose --Displays all debug information. This is the default level.

Command Default

MGCP VoIP CAC debugging is disabled.

Command Modes

Privileged EXEC

Command History

Release

Modification

12.2(2)XB

This command was introduced.

12.2(8)T

This command was integrated into Cisco IOS Release 12.2(8)T.

12.2(11)T

The command was implemented on the Cisco AS5350, Cisco AS5400, and Cisco AS5850.

12.2(13)T

Support for this command was implemented in Cisco 7200 series images.

12.4(4)T

The tracelevel keyword was added.

Usage Guidelines

Trace levels allow you to control the amount of debug information that is displayed in the output from MGCP debug commands. Reducing the amount of output displayed on the console port makes it easier to locate the correct debug information and limits the impact to network performance.

Examples

The following is sample output from the debug mgcp voipcac command: 


Router# debug mgcp voipcac
Media Gateway Control Protocol VoIPCAC debugging for all endpoints is on, trace-level Verbose
Router# 
*Sep 10 12:04:47.747: //-1/6A09713E8014/MGCP|aaln/S2/SU1/1|-1|-1/<VOICE>/mgcp_idle_crcx(5251):[lvl=0]Check for HP and QOS combination
*Sep 10 12:04:47.751: //-1/6A09713E8014/MGCP|aaln/S2/SU1/1|-1|-1/<VOICE>/mgcp_idle_crcx(5451):[lvl=0]CAC success
*Sep 10 12:04:47.751: //-1/6A09713E8014/MGCP|aaln/S2/SU1/1|-1|-1/<VOIP>/set_up_voip_call_leg(3918):[lvl=0]get voice interface
*Sep 10 12:04:47.751: //-1/6A09713E8014/MGCP|aaln/S2/SU1/1|-1|-1/<VOIP>/set_up_voip_call_leg(4441):[lvl=0]Initialize VoIP CAC record stored in
                     VoIP interface struct
*Sep 10 12:04:47.751: //38/6A09713E8014/MGCP|aaln/S2/SU1/1|-1|-1/<VOIP>/mgcp_connect_peer_vox_call_leg(1546):[lvl=0]set_up_voip_call_leg returns OK
*Sep 10 12:04:47.759: //37/6A09713E8014/MGCP|aaln/S2/SU1/1|-1|-1/<VOICE>/process_signal_request_list(5608):[lvl=0]Entered

Related Commands

Command

Description

debug mgcp all

Enables all debug traces for MGCP.

debug mgcp tracelevel-default

Sets the trace level globally for all MGCP debug traces.

mgcp

Starts the MGCP daemon.

mgcp debug-header

Enables the display of MGCP module-dependent information in the debug header.

show mgcp

Displays MGCP configuration information.

voice call debug

Specifies the format of the debug header.

debug mlrib common

To enable logging of common Multilayer Routing Information Base (MLRIB) debug messages, use the debug mlrib common command in privileged EXEC mode. To disable the debugging, use the no form of this command.

debug mlrib common {event {all | client_api | db | ha | misc | notify | registration | show | srw | utils} | error}

no debug mlrib common {event {all | client_api | db | ha | misc | notify | registration | show | srw | utils} | error}

Syntax Description

event

Enables logging of event debug messages.

all

Enables logging of all common debug events.

client_api

Enables client API-related debugging.

db

Enables MLRIB database debugging.

ha

Enables MLRIB high availability (HA) debugging.

misc

Enables miscellaneous events debugging.

notify

Enables MLRIB notify debugging.

registration

Enables MLRIB registration-related debugging.

show

Enables debugging of MLRIB show commands.

srw

Enables MLRIB Single Reader Writer (SRW) debugging.

utils

Enables MLRIB utilities debugging.

error

Enables error debugging.

Command Modes

Privileged EXEC (#)

Command History

Release

Modification

Cisco IOS XE Release 3.5S

This command was introduced.

Examples

The following example shows how to enable debugging of common MLRIB events: 

Router# debug mlrib common event all

MLRIB COMMON event all debugging is on
*Oct 28 07:26:54.614: MLRIB_COMMON_REGISTRATION: client state set: ISISL2 OTV Overlay2 moving to REGISTERED state
*Oct 28 07:26:54.614: MLRIB_COMMON_REGISTRATION: client state set: ISISL2 OTV Overlay2 moving to REGISTERED state

Related Commands

Command

Description

show OTV

Displays information about OTV.

debug mlrib layer2

To enable logging of Layer 2-specific Multilayer Routing Information Base (MLRIB) debug messages, use the debug mlrib layer2 command in privileged EXEC mode. To disable the debugging, use the no form of this command.

debug mlrib layer2 {event {add | all | delete | flush | notify | redistribute | registration} | error}

no debug mlrib layer2 {event {add | all | delete | flush | notify | redistribute | registration} | error}

Syntax Description

event

Enables logging of Layer 2 event debug messages.

add

Enables logging of Layer 2 add MLRIB debug events.

all

Enables logging of all Layer 2 MLRIB debug events.

delete

Enables logging of Layer 2 delete MLRIB debug events.

flush

Enables logging of Layer 2 flush MLRIB debug events.

notify

Enables logging of Layer 2 notify MLRIB debug events.

redistribute

Enables logging of Layer 2 redistribution MLRIB debug events.

registration

Enables logging of Layer 2 registration MLRIB debug events.

error

Enables logging of Layer 2 error debug messages.

Command Modes

Privileged EXEC (#)

Command History

Release

Modification

Cisco IOS XE Release 3.5S

This command was introduced.

Examples

The following example shows how to enable debugging of Layer 2 MLRIB events: 

Router# debug mlrib layer2 event all

MLRIB L2 event all debugging is on
*Oct 28 07:25:23.257: MLRIB_L2_FLUSH: u flush req msg: flush notifications sent for pp=0x8, topo=10
*Oct 28 07:25:23.257: MLRIB_L2_FLUSH: u flush req msg: complete for pp=0x8, topo=12, client ISISL2 OTV Overlay1
*Oct 28 07:25:23.257: MLRIB_L2_FLUSH: u flush req msg: flush notifications sent for pp=0x8, topo=12
*Oct 28 07:25:23.257: MLRIB_L2_REDISTRIBUTE: hndl ucast redist refresh msg: Rcvd msg length 20, redist id = 0x0 walk id 1102745848client = ISISL2 OTV Overlay1
*Oct 28 07:25:23.257: MLRIB_L2_REDISTRIBUTE: hndl ucast redist refresh msg: found filter for redist id = 0x0
*Oct 28 07:25:23.257: MLRIB_L2_REDISTRIBUTE: redist walk setup: for vpn 0x1 and client ISISL2 OTV Overlay1

Related Commands

Command

Description

show OTV

Displays information about OTV.

debug mls rp

To display various Internetwork Packet Exchange (IPX) Multilayer Switching (MLS) debugging elements, use the debug mls rp command in privileged EXEC mode. To disable debugging output, use the no form of this command.

debug mls rp {error | events | ipx | locator | packets | all}

no debug mls rp {error | events | ipx | locator | packets | all}

Syntax Description

error

Displays MLS error messages.

events

Displays a run-time sequence of events for the Multilayer Switching Protocol (MLSP).

ipx

Displays IPX-related events for MLS, including route purging and changes to access lists and flow masks.

locator

Identifies which switch is switching a particular flow of MLS explorer packets.

packets

Displays packet contents (in verbose and hexadecimal formats) for MLSP messages.

all

Displays all MLS debugging events.

Command Default

Debugging is not enabled.

Command Modes

Privileged EXEC

Command History

Release

Modification

12.0(5)T

This command was introduced.

12.2(33)SRA

This command was integrated into Cisco IOS Release 12.2(33)SRA.

Examples

The following shows sample output from the debug mls rp ipx command: 


Router# debug mls rp ipx
IPX MLS debugging is on
Router# conf t
Enter configuration commands, one per line.  End with CNTL/Z.
Router(config)# int vlan 22
Router(config-if)# no ipx access-group out
05:44:37:FCP:flowmask changed to destination

Related Commands

Command

Description

debug dss ipx event

Displays debugging messages for route change events that affect IPX MLS.

debug mls rp ip multicast

To display information about Multilayer Switching Protocol (MLSP), use the debug mls rp ip multicast command in privileged EXEC mode. To disable debugging output, use the no form of this command.

debug mls rp ip multicast {all | error | events | packets}

no debub mls rp ip multicast {all | error | events | packets}

Syntax Description

all

Displays all multicast MLSP debugging information, including errors, events, and packets.

error

Displays error messages related to multicast MLSP.

events

Displays the run-time sequence of events for multicast MLSP.

packets

Displays the contents of MLSP packets.

Command Default

Debugging is not enabled.

Command Modes

Privileged EXEC

Command History

Release

Modification

12.0(5)T

This command was introduced.

12.2(33)SRA

This command was integrated into Cisco IOS Release 12.2(33)SRA.

Usage Guidelines

Only one of the keywords is required.

Examples

The following example shows output from the debug mls rp ip multicast command using the error keyword: 


Router# debug mls rp ip multicast error
mlsm error debugging is on
chtang-7200#
06:06:45: MLSMERR: scb is INACTIVE, free INSTALL_FE
06:06:46: MLSM: --> mlsm_proc_sc_ins_req(10.0.0.1, 224.2.2.3, 10)

The following example shows output from the debug mls rp ip multicast command using the event keyword: 


Router# debug mls rp ip multicast event
mlsm events debugging is on
Router#                              
3d23h: MSCP: incoming shortcut flow statistic  from Fa2/0.11
3d23h: MLSM: Flow_stat: (192.1.10.6, 239.255.158.197), byte :537792
packet:8403
3d23h: MLSM: byte delta:7680 packet delta:120, time delta: 10
3d23h: MSCP: incoming shortcut flow statistic  from Fa2/0.11
3d23h: MLSM: Flow_stat: (192.1.10.6, 239.255.158.197), byte :545472
packet:8523
3d23h: MLSM: byte delta:7680 packet delta:120, time delta: 10
3d23h: MSCP: Router transmits keepalive_msg on Fa2/0.11
3d23h: MSCP: incoming shortcut keepalive ACK  from Fa2/0.11
3d23h: MLSM: Include-list: (192.1.2.1  ->  0.0.0.0)
3d23h: MSCP: incoming shortcut flow statistic  from Fa2/0.11
3d23h: MLSM: Flow_stat: (192.1.10.6, 239.255.158.197), byte :553152
packet:8643

The following example shows output from the debug mls rp ip multicast command using the packet keyword: 


Router# debug mls rp ip multicast packet
mlsm packets debugging is on
Router#
Router#
Router#
Router#
**23h: MSCP(I): 01 00 0c cc cc cc 00 e0 1e 7c fe 5f 00 30 aa aa
...LLL.`.|~_.0
..23h: MSCP(I): 03 00 00 0c 01 07 01 05 00 28 01 02 0a c7 00 10
.........(...G
 ..23h: MSCP(I): a6 0b b4 ff 00 00 c0 01 0a 06 ef ff 9e c5 00 00
&.4...@...o..E
3d23h: MSCP(I): 00 00 00 09 42 c0 00 00 00 00 00 00 25 0b
....B@......%.
3d23h:
**23h: MSCP(O): 01 00 0c 00 00 00 aa 00 04 00 01 04 00 00 aa aa
......*.......
LL23h: MSCP(O): 03 00 00 0c 00 16 00 00 00 00 01 00 0c cc cc cc
.............L
..23h: MSCP(O): aa 00 04 00 01 04 00 24 aa aa 03 00 00 0c 01 07
*......$**....
..23h: MSCP(O): 01 06 00 1c c0 01 02 01 aa 00 04 00 01 04 00 00
....@...*.....
3d23h: MSCP(O): 00 0b 00 00 00 00 00 00 01 01 0a 62 ...........b
3d23h:
**23h: MSCP(I): 01 00 0c cc cc cc 00 e0 1e 7c fe 5f 00 24 aa aa
...LLL.`.|~_.$
..23h: MSCP(I): 03 00 00 0c 01 07 01 86 00 1c 01 02 0a c7 00 10
.............G
..23h: MSCP(I): a6 0b b4 ff 00 00 00 0b 00 00 c0 01 02 01 00 00
..4.......@...
3d23h: MSCP(I): 00 00
3d23h:

Related Commands

Command

Description

debug mdss

Displays information about MDSS.

debug mmoip aaa


Note

Effective with release 12.3(8)T, the debug mmoip aaa command is replaced by the debug fax mmoip aaa command. See the debug fax mmoip aaa command for more information.

To display output that relates to authentication, authorization, and accounting (AAA) services with store-and-forward fax, use the debug mmoip aaa command in privileged EXEC mode. To disable debugging output, use the no form of this command.

debug mmoip aaa

no debug mmoip aaa

Syntax Description

This command has no arguments or keywords.

Command Default

No default behavior or values

Command Modes

Privileged EXEC

Command History

Release

Modification

12.0(4)T

This command was introduced.

12.2(4)T

This command was implemented on the Cisco 1750 access router.

12.3(8)T

This command was replaced by the debug fax mmoip aaa command.

Examples

The following output shows how the debug mmoip aaa command provides information about AAA for the on-ramp or off-ramp gateways: 


Router# debug mmoip aaa
5d10h:fax_aaa_begin_authentication:User-Name = mmoip-b.cisco.com 
5d10h:fax_aaa_begin_authentication:fax_account_id_origin = GATEWAY_ID
5d10h:fax_aaa_end_authentication_callback:Authentication successful

The following output shows how the debug mmoip aaa command provides information about AAA for the off-ramp gateway: 


Router# debug mmoip aaa
5d10h:fax_aaa_start_accounting:User-Name = mmoip-b.cisco.com 
5d10h:fax_aaa_start_accounting:Calling-Station-Id = gmercuri@mail-server.cisco.com 
5d10h:fax_aaa_start_accounting:Called-Station-Id = fax=571-0839@mmoip-b.cisco.com 
5d10h:fax_aaa_start_accounting:fax_account_id_origin = GATEWAY_ID
mmoip-b#ax_aaa_start_accounting:fax_msg_id = <37117AF3.3D98300E@mail-server.cisco.com> 
5d10h:fax_aaa_start_accounting:fax_pages = 2
5d10h:fax_aaa_start_accounting:fax_coverpage_flag = TRUE
5d10h:fax_aaa_start_accounting:fax_connect_speed = 14400bps
5d10h:fax_aaa_start_accounting:fax_recipient_count = 1
5d10h:fax_aaa_start_accounting:fax_auth_status = USER SUCCESS
5d10h:fax_aaa_start_accounting:gateway_id = mmoip-b.cisco.com
5d10h:fax_aaa_start_accounting:call_type = Fax Send
5d10h:fax_aaa_start_accounting:port_used =  slot:0 vfc port:0
5d10h:fax_aaa_do_offramp_accounting tty(6), Stopping accounting
5d10h:fax_aaa_stop_accounting:ftdb->cact->generic.callActiveTransmitBytes = 18038
5d10h:fax_aaa_stop_accounting:ftdb->cact->generic.callActiveTransmitPackets = 14

The following output shows how the debug mmoip aaa command provides information about AAA for the on-ramp gateway: 


Router# debug mmoip aaa
5d10h:fax_aaa_start_accounting:User-Name = mmoip-b.cisco.com 
5d10h:fax_aaa_start_accounting:Calling-Station-Id = FAX=408@mail-from-hostname.com 
5d10h:fax_aaa_start_accounting:Called-Station-Id = FAX=5710839@mail-server.cisco.com 
5d10h:fax_aaa_start_accounting:fax_account_id_origin = GATEWAY_ID
5d10h:fax_aaa_start_accounting:fax_msg_id = 00391997233216263@mmoip-b.cisco.com
5d10h:fax_aaa_start_accounting:fax_pages = 2
5d10h:fax_aaa_start_accounting:fax_connect_speed = 14400bps
5d10h:fax_aaa_start_accounting:fax_auth_status = USER SUCCESS
5d10h:fax_aaa_start_accounting:email_server_address = 1.14.116.1
5d10h:fax_aaa_start_accounting:email_server_ack_flag = TRUE
5d10h:fax_aaa_start_accounting:gateway_id = mmoip-b.cisco.com
5d10h:fax_aaa_start_accounting:call_type = Fax Receive
5d10h:fax_aaa_start_accounting:port_used = Cisco Powered Fax System slot:1 port:4
5d10h:fax_aaa_do_onramp_accounting tty(5), Stopping accounting
5d10h:fax_aaa_stop_accounting:endb->cact->generic.callActiveTransmitBytes = 26687
5d10h:fax_aaa_stop_accounting:ftdb->cact->generic.callActiveReceiveBytes = 18558
5d10h:fax_aaa_stop_accounting:ftdb->cact->generic.callActiveReceivePackets = 14

debug mmoip send email

To test connectivity between the T.37 on-ramp gateway and the e-mail server by sending a test e-mail to a specified e-mail address, use the debug mmoip send email command in privileged EXEC mode.

debug mmoip send email string

Syntax Description

string

E-mail address of the sender; for example, mailuser@mail-server.com. There is no default.

Command Default

This command is not enabled.

Command Modes

Privileged EXEC

Command History

Release

Modification

12.0(4)T

This command was introduced.

12.2(4)T

This command was introduced on the Cisco 1750 access router.

12.2(8)T

This command was implemented on the Cisco 1751 access routers, Cisco 3725 access routers, and Cisco 3745 access routers.

12.2(13)T

This feature was implemented on the Cisco 7200 series routers.

Examples

The debug mmoip send email command is used to test connectivity between the on-ramp gateway and the e-mail server. Basically, this debug command sends an e-mail message to the recipient specified in the e-mail address string. There is no specific output associated with the debug mmoip send email command; to see how the on-ramp gateway and e-mail server interact when processing the test e-mail message, enable the debug fmail client command.

The following example tests connectivity between the on-ramp gateway and the e-mail server by sending a test e-mail message to mailuser@mail-server.com: 


        
          Router#  
        debug fmail client
        
          Router#  
        debug mmoip send email mailuser@mail-server.com
01:22:59:faxmail_client_send_test:Sending the test message to
ilya@mail-server.com from testing@mmoip-a.cisco.com...
01:22:59:faxmail_client_send_test:Opening client engine.
01:22:59:faxmail_client_send_test:Sending 59 bytes ...
01:22:59:faxmail_client_send_test:Done sending test email.

Related Commands

Command

Description

debug fmail client

Displays e-mail parameters (such as Mail from and Envelope to and Envelope from) and the progress of the SMTP client.

debug mmoip send fax

To send a T.37 off-ramp test fax, use the debug mmoip send fax command in privileged EXEC mode.

debug mmoip send fax string

Syntax Description

string

E.164 telephone number to be used for sending the test fax. There is no default.

Command Default

This command is not enabled.

Command Modes

Privileged EXEC

Command History

Release

Modification

12.0(4)T

This command was introduced.

12.2(4)T

This command was implemented on the Cisco 1750 access router.

12.2(8)T

This command was implemented on the Cisco 1751 access routers, Cisco 3725 access routers, and Cisco 3745 access routers.

12.2(13)T

This feature was introduced on the Cisco 7200 series routers.

Examples

The debug mmoip send fax command is used to test connectivity between the off-ramp gateway and a recipient fax device. Basically, this debug command sends a test fax transmission to the recipient specified in the telephone number string. There is no specific output associated with the debug mmoip send fax command.

The following example sends a test fax message to the telephone number 5550839: 


Router# debug mmoip send fax 5550839

The following output shows that the off-ramp gateway is placing a fax call: 


01:28:18:ftsp_offramp_match_digits:phone number to translate:5550839
01:28:18: destPat(5......), matched(1), prefix() peer_tag(1)
01:28:18:ftsp_offramp_match_digits:target:710839
01:28:18:fap_offcm:tty(4), Got dial message00:00:00.000:AT&F\Q0S7=255

Class 2 modem tracing begins, including modem initialization. 


00:00:00.008:AA
00:00:00.068:TT
00:00:00.128:&F\Q0S7=255
00:00:00.128:
OK
 
00:00:00.128:E0V1
00:00:00.140:ATE0
OK
 
00:00:00.140:AT+FCLASS=2
00:00:00.148:
OK
 
00:00:00.148:+FDCC=..;+FBOR=
00:00:00.168:AT+FLID
00:00:00.180:
OK
 
00:00:00.180:ATDTW710839
The following output shows that the fax transmission is complete; in this particular example, there was a transmission error, and the modem timed out.
01:28:25:ftsp_setup_for_oc:tty4, callid=0xA
01:28:25:ftsp_setup_for_oc ctl=0, cas grp=-1, snmp_ix=30
01:28:25:ftsp_off_ramp_active_call_init tty4 callid=0xA, snmp_ix=30
01:29:18:fap_offpmt:tty(4), TxPhaseA:modem timeout
01:29:18:%FTSP-6-FAX_DISCONNECT:Transmission er

debug mmoip transfer

To send output of the Tag Image File Format (TIFF) writer to a TFTP server, use the debug mmoip transfer command in privileged EXEC mode.

debug mmoip transfer prefix-filename tftp-server-name

Syntax Description

prefix-filename

Name of the TIFF file. The format for the TIFF filename is “telephone-number.TIFF.”

tftp-server-name

TFTP server to which the output from the TIFF writer is sent.

Command Default

Sending output of the TIFF writer to a TFTP server is disabled.

Command Modes

Privileged EXEC

Command History

Release

Modification

12.0(4)T

This command was introduced.

12.2(4)T

This command was implemented on the Cisco 1750 access router.

Examples

The debug mmoip transfer command sends the content of the fax data received to the TFTP server named by the tftp-server-name variable into the file identified by the prefix-filename variable. Each page of the fax transmission is a separate file, designated by the letter “p”, followed by the page number.

For example, the following command transfers the received fax content to a TFTP server named “keyer”. The first page of the transmission goes to the file named “/tftpboot/test/testp1.tiff”, the second page goes to the file named “/tftpboot/test/testp2.tiff” and so on. 


Router# debug mmoip transfer /tftpboot/test/test keyer

The named files must exist on the TFTP server and be writable in order for the debug operation to be successful.

debug modem

To observe modem line activity on an access server, use the debug modem command in privileged EXEC mode. To disable debugging output, use the no form of this command.

debug modem

no debug modem

Syntax Description

This command has no arguments or keywords.

Command Modes

Privileged EXEC

Examples

The following is sample output from the debug modem command. The output shows when the modem line changes state. 


Router# debug modem
15:25:51: TTY4: DSR came up
15:25:51: tty4: Modem: IDLE->READY
15:25:51: TTY4: Autoselect started
15:27:51: TTY4: Autoselect failed
15:27:51: TTY4: Line reset
15:27:51: TTY4: Modem: READY->HANGUP
15:27:52: TTY4: dropping DTR, hanging up
15:27:52: tty4: Modem: HANGUP->IDLE
15:27:57: TTY4: restoring DTR
15:27:58: TTY4: DSR came up

debug modem csm

To debug the Call Switching Module (CSM), used to connect calls on the modem, use the debug modem csm command in privileged EXEC mode. To disable debugging output, use the no form of this command.

debug modem csm [slot/ port | group group-number]

no debug modem csm [slot/ port | group group-number]

Syntax Description

slot/port

(Optional) The slot and modem port number.

group group-number

(Optional) The modem group.

Command Modes

Privileged EXEC

Usage Guidelines

Use the debug modem csm command to troubleshoot call switching problems. With this command, you can trace the complete sequence of switching incoming and outgoing calls.

Examples

The following is sample output from the debug modem csm command. In this example, a call enters the modem (incoming) on slot 1, port 0: 


Router(config)# service timestamps debug uptime
Router(config)# end
Router# debug modem csm
00:04:09: ccpri_ratetoteup bear rate is 10
00:04:09: CSM_MODEM_ALLOCATE: slot 1 and port 0 is allocated.
00:04:09: MODEM_REPORT(0001): DEV_INCALL at slot 1 and port 0
00:04:09: CSM_PROC_IDLE: CSM_EVENT_ISDN_CALL at slot 1, port 0
00:04:11: CSM_RING_INDICATION_PROC: RI is on
00:04:13: CSM_RING_INDICATION_PROC: RI is off
00:04:15: CSM_PROC_IC1_RING: CSM_EVENT_MODEM_OFFHOOK at slot 1, port 0
00:04:15: MODEM_REPORT(0001): DEV_CONNECTED at slot 1 and port 0
00:04:15: CSM_PROC_IC2_WAIT_FOR_CARRIER: CSM_EVENT_ISDN_CONNECTED at slot 1, port 0

The following is sample output from the debug modem csm command when call is dialed from the modem into the network (outgoing) from slot 1, port 2: 


Router# debug modem csm
atdt16665202
00:11:21: CSM_PROC_IDLE: CSM_EVENT_MODEM_OFFHOOK at slot 1, port 2
00:11:21: T1_MAIL_FROM_NEAT: DC_READY_RSP: mid = 1, slot = 0, unit = 0
00:11:21: CSM_PROC_OC1_REQUEST_DIGIT: CSM_EVENT_DIGIT_COLLECT_READY at slot 1, port 2
00:11:24: T1_MAIL_FROM_NEAT: DC_FIRST_DIGIT_RSP: mid = 1, slot = 0, unit = 0
00:11:24: CSM_PROC_OC2_COLLECT_1ST_DIGIT: CSM_EVENT_GET_1ST_DIGIT at slot 1, port 2
00:11:27: T1_MAIL_FROM_NEAT: DC_ALL_DIGIT_RSP: mid = 1, slot = 0, unit = 0
00:11:27: CSM_PROC_OC3_COLLECT_ALL_DIGIT: CSM_EVENT_GET_ALL_DIGITS (16665202) at slot 1, port 2
00:11:27: ccpri_ratetoteup bear rate is 10
00:11:27: MODEM_REPORT(A000): DEV_CALL_PROC at slot 1 and port 2
00:11:27: CSM_PROC_OC4_DIALING: CSM_EVENT_ISDN_BCHAN_ASSIGNED at slot 1, port 2
00:11:31: MODEM_REPORT(A000): DEV_CONNECTED at slot 1 and port 2
00:11:31: CSM_PROC_OC5_WAIT_FOR_CARRIER: CSM_EVENT_ISDN_CONNECTED at slot 1, port 2
CONNECT 19200/REL - MNP

The following is sample output from the debug modem csm command for an incoming call: 


Router# debug modem csm
Router#1.19.36.7 2001
Trying 1.19.36.7, 2001 ... Open
atdt111222333444555666
*Apr  7 12:39:42.475: Mica Modem(1/0): Rcvd Dial String(111222333444555666)
*Apr  7 12:39:42.475: CSM_PROC_IDLE: CSM_EVENT_MODEM_OFFHOOK at slot 1, port 0
*Apr  7 12:39:42.479: CSM_RX_CAS_EVENT_FROM_NEAT:(A001):  EVENT_CHANNEL_LOCK at slot 1 and port 0
*Apr  7 12:39:42.479: CSM_PROC_OC4_DIALING: CSM_EVENT_DSX0_BCHAN_ASSIGNED at slot 1, port 0
*Apr  7 12:39:42.479: Mica Modem(1/0): Configure(0x1) 
*Apr  7 12:39:42.479: Mica Modem(1/0): Configure(0x5) 
*Apr  7 12:39:42.479: Mica Modem(1/0): Call Setup
*Apr  7 12:39:42.479: neat msg at slot 0: (1/0): Tx LOOP_CLOSURE (ABCD=1101)
*Apr  7 12:39:42.491: neat msg at slot 0: (0/0): Rx LOOP_CLOSURE (ABCD=1101)
*Apr  7 12:39:42.531: VDEV_ALLOCATE: slot 1 and port 3 is allocated.
*Apr  7 12:39:42.531: CSM_RX_CAS_EVENT_FROM_NEAT:(0004):  EVENT_CALL_DIAL_IN at slot 1 and port 3
*Apr  7 12:39:42.531: CSM_PROC_IDLE: CSM_EVENT_DSX0_CALL at slot 1, port 3
*Apr  7 12:39:42.531: Mica Modem(1/3): Configure(0x0) 
*Apr  7 12:39:42.531: Mica Modem(1/3): Configure(0x5) 
*Apr  7 12:39:42.531: Mica Modem(1/3): Call Setup
*Apr  7 12:39:42.595: Mica Modem(1/0): State Transition to Call Setup
*Apr  7 12:39:42.655: Mica Modem(1/3): State Transition to Call Setup
*Apr  7 12:39:42.655: Mica Modem(1/3): Went offhook
*Apr  7 12:39:42.655: CSM_PROC_IC1_RING: CSM_EVENT_MODEM_OFFHOOK at slot 1, port 3
*Apr  7 12:39:42.671: neat msg at slot 0: (0/0): Tx LOOP_CLOSURE (ABCD=1101)
*Apr  7 12:39:42.691: neat msg at slot 0: (1/0): Rx LOOP_CLOSURE (ABCD=1101)
*Apr  7 12:39:42.731: CSM_RX_CAS_EVENT_FROM_NEAT:(A001):  EVENT_START_TX_TONE at slot 1 and port 0
*Apr  7 12:39:42.731: CSM_PROC_OC4_DIALING: CSM_EVENT_DSX0_START_TX_TONE at slot 1, port 0
*Apr  7 12:39:42.731: Mica Modem(1/0): Generate digits:called_party_num= len=1
*Apr  7 12:39:42.835: Mica Modem(1/3): Rcvd Digit detected(#)
*Apr  7 12:39:42.835: CSM_PROC_IC2_COLLECT_ADDR_INFO: CSM_EVENT_KP_DIGIT_COLLECTED (DNIS=, ANI=) at slot 1, port 3
*Apr  7 12:39:42.855: neat msg at slot 0: (0/0): Tx LOOP_OPEN (ABCD=0101)
*Apr  7 12:39:42.871: neat msg at slot 0: (1/0): Rx LOOP_OPEN (ABCD=0101)
*Apr  7 12:39:42.899: Mica Modem(1/0): Rcvd Digits Generated
*Apr  7 12:39:42.911: CSM_RX_CAS_EVENT_FROM_NEAT:(A001):  EVENT_END_TX_TONE at slot 1 and port 0
*Apr  7 12:39:42.911: CSM_PROC_OC4_DIALING: CSM_EVENT_DSX0_END_TX_TONE at slot 1, port 0
*Apr  7 12:39:42.911: Mica Modem(1/0): Generate digits:called_party_num=A len=1
*Apr  7 12:39:43.019: Mica Modem(1/0): Rcvd Digits Generated
*Apr  7 12:39:43.019: CSM_PROC_OC4_DIALING: CSM_EVENT_TONE_GENERATED at slot 1, port 0
*Apr  7 12:39:43.019: Mica Modem(1/3): Rcvd Digit detected(A)
*Apr  7 12:39:43.335: CSM_RX_CAS_EVENT_FROM_NEAT:(A001):  EVENT_START_TX_TONE at slot 1 and port 0
*Apr  7 12:39:43.335: CSM_PROC_OC4_DIALING: CSM_EVENT_DSX0_START_TX_TONE at slot 1, port 0
*Apr  7 12:39:43.335: Mica Modem(1/0): Generate digits:called_party_num=111222333444555666 len=19
*Apr  7 12:39:43.439: Mica Modem(1/3): Rcvd Digit detected(1)
*Apr  7 12:39:43.559: Mica Modem(1/3): Rcvd Digit detected(1)
*Apr  7 12:39:43.619: Mica Modem(1/3): Rcvd Digit detected(1)
*Apr  7 12:39:43.743: Mica Modem(1/3): Rcvd Digit detected(2)
*Apr  7 12:39:43.859: Mica Modem(1/3): Rcvd Digit detected(2)
*Apr  7 12:39:43.919: Mica Modem(1/3): Rcvd Digit detected(2)
*Apr  7 12:39:44.043: Mica Modem(1/3): Rcvd Digit detected(3)
*Apr  7 12:39:44.163: Mica Modem(1/3): Rcvd Digit detected(3)
*Apr  7 12:39:44.223: Mica Modem(1/3): Rcvd Digit detected(3)
*Apr  7 12:39:44.339: Mica Modem(1/3): Rcvd Digit detected(4)
*Apr  7 12:39:44.459: Mica Modem(1/3): Rcvd Digit detected(4)
*Apr  7 12:39:44.523: Mica Modem(1/3): Rcvd Digit detected(4)
*Apr  7 12:39:44.639: Mica Modem(1/3): Rcvd Digit detected(5)
*Apr  7 12:39:44.763: Mica Modem(1/3): Rcvd Digit detected(5)
*Apr  7 12:39:44.883: Mica Modem(1/3): Rcvd Digit detected(5)
*Apr  7 12:39:44.943: Mica Modem(1/3): Rcvd Digit detected(6)
*Apr  7 12:39:45.063: Mica Modem(1/3): Rcvd Digit detected(6)
*Apr  7 12:39:45.183: Mica Modem(1/3): Rcvd Digit detected(6)
*Apr  7 12:39:45.243: Mica Modem(1/3): Rcvd Digit detected(B)
*Apr  7 12:39:45.243: CSM_PROC_IC2_COLLECT_ADDR_INFO: CSM_EVENT_DNIS_COLLECTED (DNIS=111222333444555666, ANI=) at slot 1, port 3
*Apr  7 12:39:45.363: Mica Modem(1/0): Rcvd Digits Generated
*Apr  7 12:39:45.891: neat msg at slot 0: (0/0): Tx LOOP_CLOSURE (ABCD=1101)
*Apr  7 12:39:45.907: neat msg at slot 0: (1/0): Rx LOOP_CLOSURE (ABCD=1101)
*Apr  7 12:39:46.115: neat msg at slot 0: (0/0): Tx LOOP_OPEN (ABCD=0101)
*Apr  7 12:39:46.131: neat msg at slot 0: (1/0): Rx LOOP_OPEN (ABCD=0101)
*Apr  7 12:39:46.175: CSM_RX_CAS_EVENT_FROM_NEAT:(A001):  EVENT_START_TX_TONE at slot 1 and port 0
*Apr  7 12:39:46.175: CSM_PROC_OC4_DIALING: CSM_EVENT_DSX0_START_TX_TONE at slot 1, port 0
*Apr  7 12:39:46.175: Mica Modem(1/0): Generate digits:called_party_num= len=3
*Apr  7 12:39:46.267: Mica Modem(1/3): Rcvd Digit detected(#)
*Apr  7 12:39:46.387: Mica Modem(1/3): Rcvd Digit detected(A)
*Apr  7 12:39:46.447: Mica Modem(1/3): Rcvd Digit detected(B)
*Apr  7 12:39:46.447: CSM_PROC_IC2_COLLECT_ADDR_INFO: CSM_EVENT_ADDR_INFO_COLLECTED (DNIS=111222333444555666, ANI=) at slot 1, port 3
*Apr  7 12:39:46.507: Mica Modem(1/0): Rcvd Digits Generated
*Apr  7 12:39:46.507: CSM_PROC_OC4_DIALING: CSM_EVENT_ADDR_INFO_COLLECTED at slot 1, port 0
*Apr  7 12:39:47.127: CSM_RX_CAS_EVENT_FROM_NEAT:(0004):  EVENT_CHANNEL_CONNECTED at slot 1 and port 3
*Apr  7 12:39:47.127: CSM_PROC_IC4_WAIT_FOR_CARRIER: CSM_EVENT_DSX0_CONNECTED at slot 1, port 3
*Apr  7 12:39:47.127: Mica Modem(1/3): Link Initiate
*Apr  7 12:39:47.131: neat msg at slot 0: (0/0): Tx LOOP_CLOSURE (ABCD=1101)
*Apr  7 12:39:47.147: neat msg at slot 0: (1/0): Rx LOOP_CLOSURE (ABCD=1101)
*Apr  7 12:39:47.191: CSM_RX_CAS_EVENT_FROM_NEAT:(A001):  EVENT_CHANNEL_CONNECTED at slot 1 and port 0
*Apr  7 12:39:47.191: CSM_PROC_OC5_WAIT_FOR_CARRIER: CSM_EVENT_DSX0_CONNECTED at slot 1, port 0
*Apr  7 12:39:47.191: Mica Modem(1/0): Link Initiate
*Apr  7 12:39:47.227: Mica Modem(1/3): State Transition to Connect
*Apr  7 12:39:47.287: Mica Modem(1/0): State Transition to Connect
*Apr  7 12:39:49.103: Mica Modem(1/0): State Transition to Link
*Apr  7 12:39:52.103: Mica Modem(1/3): State Transition to Link
*Apr  7 12:40:00.927: Mica Modem(1/3): State Transition to Trainup
*Apr  7 12:40:00.991: Mica Modem(1/0): State Transition to Trainup
*Apr  7 12:40:02.615: Mica Modem(1/0): State Transition to EC Negotiating
*Apr  7 12:40:02.615: Mica Modem(1/3): State Transition to EC Negotiating
CONNECT 31200 /V.42/V.42bis
Router>
*Apr  7 12:40:05.983: Mica Modem(1/0): State Transition to Steady State
*Apr  7 12:40:05.983: Mica Modem(1/3): State Transition to Steady State+++
OK
ath
*Apr  7 12:40:09.167: Mica Modem(1/0): State Transition to Steady State Escape
*Apr  7 12:40:10.795: Mica Modem(1/0): State Transition to Terminating
*Apr  7 12:40:10.795: Mica Modem(1/3): State Transition to Terminating
*Apr  7 12:40:11.755: Mica Modem(1/3): State Transition to Idle
*Apr  7 12:40:11.755: Mica Modem(1/3): Went onhook
*Apr  7 12:40:11.755: CSM_PROC_IC5_OC6_CONNECTED: CSM_EVENT_MODEM_ONHOOK at slot 1, port 3
*Apr  7 12:40:11.755: VDEV_DEALLOCATE: slot 1 and port 3 is deallocated
*Apr  7 12:40:11.759: neat msg at slot 0: (0/0): Tx LOOP_OPEN (ABCD=0101)
*Apr 7 12:40:11.767: neat msg at slot 0: (1/0): Rx LOOP_OPEN (ABCD=0101)
*Apr  7 12:40:12.087: neat msg at slot 0: (1/0): Tx LOOP_OPEN (ABCD=0101)
*Apr  7 12:40:12.091: neat msg at slot 0: (0/0): Rx LOOP_OPEN (ABCD=0101)
*Apr  7 12:40:12.111: CSM_RX_CAS_EVENT_FROM_NEAT:(A001):  EVENT_CALL_IDLE at slot 1 and port 0
*Apr  7 12:40:12.111: CSM_PROC_IC5_OC6_CONNECTED: CSM_EVENT_DSX0_DISCONNECTED at slot 1, port 0
*Apr  7 12:40:12.111: Mica Modem(1/0): Link Terminate(0x6)
*Apr  7 12:40:12.779: Mica Modem(1/3): State Transition to Terminating
*Apr  7 12:40:12.839: Mica Modem(1/3): State Transition to Idle
*Apr  7 12:40:13.495: Mica Modem(1/0): State Transition to Idle
*Apr  7 12:40:13.495: Mica Modem(1/0): Went onhook
*Apr  7 12:40:13.495: CSM_PROC_IC6_OC8_DISCONNECTING: CSM_EVENT_MODEM_ONHOOK at slot 1, port 0
*Apr  7 12:40:13.495: VDEV_DEALLOCATE: slot 1 and port 0 is deallocated
Router#disc
Closing connection to 1.19.36.7 [confirm]
Router#
*Apr  7 12:40:18.783: Mica Modem(1/0): State Transition to Terminating
*Apr  7 12:40:18.843: Mica Modem(1/0): State Transition to Idle
Router#

The MICA technologies modem goes through the following internal link states when the call comes in:

  • Call Setup

  • Off Hook

  • Connect

  • Link

  • Trainup

  • EC Negotiation

  • Steady State

The following section describes the CSM activity for an incoming call.

When a voice call comes in, CSM is informed of the incoming call. This allocates the modem and sends the Call Setup message to the MICA modem. The Call_Proc message is sent through D channel. The modem sends an offhook message to CSM by sending the state change to Call Setup. The D channel then sends a CONNECT message. When the CONNECT_ACK message is received, the Link initiate message is sent to the MICA modem and it negotiates the connection with the remote modem. In the following debug examples, a modem on slot 1, port 13 is allocated. It goes through its internal states before it is in Steady State and answers the call. 


Router# debug modem csm
Modem Management Call Switching Module debugging is on
*May 13 15:01:00.609: MODEM_REPORT:dchan_idb=0x60D437F8, call_id=0xE, ces=0x1
   bchan=0x12, event=0x1, cause=0x0
*May 13 15:01:00.609: VDEV_ALLOCATE: slot 1 and port 13 is allocated.
*May 13 15:01:00.609: MODEM_REPORT(000E): DEV_INCALL at slot 1 and port 13
*May 13 15:01:00.609: CSM_PROC_IDLE: CSM_EVENT_ISDN_CALL at slot 1, port 13
*May 13 15:01:00.609: Mica Modem(1/13): Configure(0x0) 
*May 13 15:01:00.609: Mica Modem(1/13): Configure(0x0) 
*May 13 15:01:00.609: Mica Modem(1/13): Configure(0x6) 
*May 13 15:01:00.609: Mica Modem(1/13): Call Setup
*May 13 15:01:00.661: Mica Modem(1/13): State Transition to Call Setup
*May 13 15:01:00.661: Mica Modem(1/13): Went offhook
*May 13 15:01:00.661: CSM_PROC_IC1_RING: CSM_EVENT_MODEM_OFFHOOK at slot 1, port 13
*May 13 15:01:00.661: MODEM_REPORT:dchan_idb=0x60D437F8, call_id=0xE, ces=0x1
   bchan=0x12, event=0x4, cause=0x0
*May 13 15:01:00.661: MODEM_REPORT(000E): DEV_CONNECTED at slot 1 and port 13
*May 13 15:01:00.665: CSM_PROC_IC3_WAIT_FOR_CARRIER:
CSM_EVENT_ISDN_CONNECTED at slot 1, port 13
*May 13 15:01:00.665: Mica Modem(1/13): Link Initiate
*May 13 15:01:00.693: Mica Modem(1/13): State Transition to Connect
*May 13 15:01:01.109: Mica Modem(1/13): State Transition to Link
*May 13 15:01:09.433: Mica Modem(1/13): State Transition to Trainup
*May 13 15:01:11.541: Mica Modem(1/13): State Transition to EC Negotiating
*May 13 15:01:12.501: Mica Modem(1/13): State Transition to Steady State

The following section describes the status of CSM when a call is connected.

The show modem csm x/y command is similar to AS5200 access server. For an active incoming analog call, the modem_status and csm_status should be VDEV_STATUS_ACTIVE_CALL and CSM_IC4_CONNECTED, respectively. 


Router# show modem csm 1/13
MODEM_INFO: slot 1, port 13, unit 0, modem_mask=0x0000, modem_port_offset=0
tty_hwidb=0x60D0BCE0, modem_tty=0x60B6FE7C, oobp_info=0x00000000,
modem_pool=0x60ADC998
modem_status(0x0002):VDEV_STATUS_ACTIVE_CALL.
csm_state(0x0204)=CSM_IC4_CONNECTED, csm_event_proc=0x600C6968, current
call thru PRI line
invalid_event_count=0, wdt_timeout_count=0
wdt_timestamp_started is not activated
wait_for_dialing:False, wait_for_bchan:False
pri_chnl=TDM_PRI_STREAM(s0, u0, c18), modem_chnl=TDM_MODEM_STREAM(s1, c13)
dchan_idb_start_index=0, dchan_idb_index=0, call_id=0x000E, bchan_num=18
csm_event=CSM_EVENT_ISDN_CONNECTED, cause=0x0000
ring_indicator=0, oh_state=0, oh_int_enable=0, modem_reset_reg=0
ring_no_answer=0, ic_failure=0, ic_complete=1
dial_failure=0, oc_failure=0, oc_complete=0
oc_busy=0, oc_no_dial_tone=0, oc_dial_timeout=0
remote_link_disc=0, stat_busyout=0, stat_modem_reset=0
oobp_failure=0
call_duration_started=1d02h, call_duration_ended=00:00:00,
total_call_duration=00:00:00
The calling party phone number = 4085552400
The called party phone number  = 4085551400
total_free_rbs_timeslot = 0, total_busy_rbs_timeslot = 0,
total_dynamic_busy_rbs_timeslot = 0, total_static_busy_rbs_timeslot = 0,
min_free_modem_threshold = 6

The following section describes the CSM activity for an outgoing call.

For MICA modems, the dial tone is not required to initiate an outbound call. Unlike in the AS5200, the digit collection step is not required. The dialed digit string is sent to the CSM in the outgoing request to the CSM. CSM signals the D channel to generate an outbound voice call, and the B channel assigned is connected to the modem and the CSM.

The modem is ordered to connect to the remote side with a CONNECT message, and by sending a link initiate message, the modem starts to train. 


Router# debug modem csm
Modem Management Call Switching Module debugging is on
Router# debug isdn q931
ISDN Q931 packets debugging is on
*May 15 12:48:42.377: Mica Modem(1/0): Rcvd Dial String(5552400)
*May 15 12:48:42.377: CSM_PROC_IDLE: CSM_EVENT_MODEM_OFFHOOK at slot 1, port 0
*May 15 12:48:42.377: CSM_PROC_OC3_COLLECT_ALL_DIGIT:
CSM_EVENT_GET_ALL_DIGITS at slot 1, port 0
*May 15 12:48:42.377: CSM_PROC_OC3_COLLECT_ALL_DIGIT: called party num:
(5552400) at slot 1, port 0
*May 15 12:48:42.381:  process_pri_call making a voice_call.
*May 15 12:48:42.381: ISDN Se0:23: TX ->  SETUP pd = 8  callref = 0x0011
*May 15 12:48:42.381:         Bearer Capability i = 0x8090A2
*May 15 12:48:42.381:         Channel ID i = 0xE1808397
*May 15 12:48:42.381:         Called Party Number i = 0xA1, '5552400'
*May 15 12:48:42.429: ISDN Se0:23: RX <-  CALL_PROC pd = 8  callref = 0x8011
*May 15 12:48:42.429:         Channel ID i = 0xA98397
*May 15 12:48:42.429: MODEM_REPORT:dchan_idb=0x60D437F8, call_id=0xA011, ces=0x1
   bchan=0x16, event=0x3, cause=0x0
*May 15 12:48:42.429: MODEM_REPORT(A011): DEV_CALL_PROC at slot 1 and port 0
*May 15 12:48:42.429: CSM_PROC_OC4_DIALING: CSM_EVENT_ISDN_BCHAN_ASSIGNED
at slot 1, port 0
*May 15 12:48:42.429: Mica Modem(1/0): Configure(0x1)
*May 15 12:48:42.429: Mica Modem(1/0): Configure(0x0)
*May 15 12:48:42.429: Mica Modem(1/0): Configure(0x6)
*May 15 12:48:42.429: Mica Modem(1/0): Call Setup
*May 15 12:48:42.489: Mica Modem(1/0): State Transition to Call Setup
*May 15 12:48:42.589: ISDN Se0:23: RX <-  ALERTING pd = 8  callref = 0x8011
*May 15 12:48:43.337: ISDN Se0:23: RX <-  CONNECT pd = 8  callref = 0x8011
*May 15 12:48:43.341: MODEM_REPORT:dchan_idb=0x60D437F8, call_id=0xA011, ces=0x1
   bchan=0x16, event=0x4, cause=0x0
*May 15 12:48:43.341: MODEM_REPORT(A011): DEV_CONNECTED at slot 1 and port 0
*May 15 12:48:43.341: CSM_PROC_OC5_WAIT_FOR_CARRIER:
CSM_EVENT_ISDN_CONNECTED at slot 1, port 0
*May 15 12:48:43.341: Mica Modem(1/0): Link Initiate
*May 15 12:48:43.341: ISDN Se0:23: TX ->  CONNECT_ACK pd = 8  callref = 0x0011
*May 15 12:48:43.385: Mica Modem(1/0): State Transition to Connect
*May 15 12:48:43.849: Mica Modem(1/0): State Transition to Link
*May 15 12:48:52.665: Mica Modem(1/0): State Transition to Trainup
*May 15 12:48:54.661: Mica Modem(1/0): State Transition to EC Negotiating
*May 15 12:48:54.917: Mica Modem(1/0): State Transition to Steady State

Related Commands

Command

Description

debug modem oob

Creates modem startup messages between the network management software and the modem on the specified OOB port.

debug modem trace

Performs a call trace on the specified modem, which allows you to determine why calls are terminated.

debug modem dsip

To display output for modem control messages that are received or sent to the router, use the debugmodemdsip command in privileged EXEC mode. To disable debugging output, use the no form of this command.

debug modem dsip {tty-range | group | shelf/ slot/ port}

no debug modem dsip {tty-range | group | shelf/ slot/ port}

Syntax Description

tty-range

Modem tty number or range. You can specify a single TTY line number or a range from 0 through the number of modems you have in your Cisco AS5800 access server. Be sure to include a dash (- ) between the range values you specify.

group

Modem group information.

shelf/slot/port

Location of the modem by shelf/slot/port numbers for internal modems.

Command Modes

Privileged EXEC

Command History

Release

Modification

11.3(2)AA

This command was introduced.

12.2(33)SRA

This command was integrated into Cisco IOS Release 12.2(33)SRA.

Usage Guidelines

Thedebugmodemdsip command displays each Distributed System Interconnect Protocol (DSIP) message that relates to a modem and is sent from or received at the router shelf. This command can be applied to a single modem or a group of modems.

Examples

The following examples show a display of the available debugmodem command options and debugmodemdsip command options: 


Router# debug modem ?
  dsip         Modem DSIP activity
  maintenance  Modem maintenance activity
  oob          Modem out of band activity
  trace        Call Trace Upload
  traffic      Modem data traffic
  <cr>
 
Router# debug modem dsip ?
  <0-935>  First Modem TTY Number
  group    Modem group information
  x/y/z    Shelf/Slot/Port for Internal Modems
  <cr>

The following example indicates that a Real Time Server (RTS) status message was received from the router shelf, and an ACK message was sent back: 


Router# debug modem dsip
00:11:02: RSMODEM_SEND-1/2/06: MODEM_RING_INDICATION_MSG cci1 si0 ms0 mm65535,0 dc0
00:11:02: RSMODEM_sRCV-1/2/06:l12,MODEM_CALL_ACK_MSG:
00:11:02: RSMODEM_SEND-1/2/06: MODEM_CALL_ACCEPT_MSG
00:11:11: RSMODEM_sRCV-2:l0,MODEM_POLL_MSG: 0 16 0 7 0 146 0 36 21
00:11:18: RSMODEM_sRCV-1/2/06:l12,MODEM_SET_DCD_STATE_MSG: 1
00:11:19: RSMODEM_SEND-1/2/06: MODEM_RTS_STATUS_MSG 1
00:11:19: RSMODEM_dRCV-2:l1258607996,MODEM_RTS_STATUS_MSG: 0 6 0 23 0 0 0 0 0
00:11:23: RSMODEM_sRCV-2:l0,MODEM_POLL_MSG: 0 16 0 7 0 146 0 150 21
00:12:31: RSMODEM_sRCV-1/2/06:l12,MODEM_SET_DCD_STATE_MSG: 0
00:12:31: RSMODEM_SEND-1/2/06: MODEM_CALL_HANGUP_MSG
00:12:31: RSMODEM_sRCV-1/2/06:l12,MODEM_ONHOOK_MSG:
00:12:32: RSMODEM_SEND-1/2/06: MODEM_RTS_STATUS_MSG 1
00:12:32: RSMODEM_SEND-1/2/06: MODEM_SET_DTR_STATE_MSG 0
00:12:32: RSMODEM_dRCV-2:l1258659676,MODEM_RTS_STATUS_MSG: 0 6 0 16 0 0 0 0 0
00:12:32: RSMODEM_SEND-1/2/06: MODEM_RTS_STATUS_MSG 1
00:12:32: RSMODEM_dRCV-2:l1258600700,MODEM_RTS_STATUS_MSG: 0 6 0 13 0 0 0 0 0
00:12:33: RSMODEM_SEND-1/2/06: MODEM_SET_DTR_STATE_MSG 0
00:12:33: RSMODEM_SEND-1/2/06: MODEM_RTS_STATUS_MSG 1
00:12:33: RSMODEM_dRCV-2:l1258662108,MODEM_RTS_STATUS_MSG: 0 6 0 16 0 0 0 0 0
00:12:35: RSMODEM_sRCV-2:l0,MODEM_POLL_MSG: 0 16 0 7 0 146 1 34 22
00:12:38: RSMODEM_SEND-1/2/06: MODEM_SET_DTR_STATE_MSG 1
00:12:47: RSMODEM_sRCV-2:l0,MODEM_POLL_MSG: 0 16 0 7 0 146 0 12 22

The following table describes the significant fields shown in the display.

Table 1. debug modem dsip Field Descriptions

Field

Description

RSMODEM_SEND-1/2/06

Router shelf modem shelf sends a MODEM_RING_INDICATION_MSG message.

RSMODEM_sRCV-1/2/06

Router shelf modem received a MODEM_CALL_ACK_MSG message.

MODEM_CALL_ACCEPT_MSG

Router shelf accepts the call.

MODEM_CALL_HANGUP_MSG

Router shelf sends a hangup message.

MODEM_RTS_STATUS_MSG

Request to send message status.

Related Commands

Command

Description

debug dsip

Displays output for DSIP used between the router shelf and the dial shelf.

debug modem traffic

Displays output for framed, unframed, and asynchronous data transmission received from the modem cards.

debug modem oob

To debug the out-of-band port used to poll modem events on the modem, use the debug modem oob command in privileged EXEC mode. To disable debugging output, use the no form of this command.

debug modem oob [slot/ modem-port | group group-number]

no debug modem oob [slot/ modem-port | group group-number]

Syntax Description

slot/modem-port

(Optional) The slot and modem port number.

group group-number

(Optional) The modem group.

Command Modes

Privileged EXEC

Usage Guidelines

The message types and sequence numbers that appear in the debugging output are initiated by the Modem Out-of-Band Protocol and used by service personnel for debugging purposes.


Caution

Entering the debug modem oob command without specifying a slot and modem number debugs all out-of-band ports, which generates a substantial amount of information.

Examples

The following is sample output from the debug modem oob command. This example debugs the out-of-band port on modem 2/0, which creates modem startup messages between the network management software and the modem. 


Router# debug modem oob 2/0
MODEM(2/0): One message sent --Message type:3, Sequence number:0
MODEM(2/0): Modem DC session data reply
MODEM(2/0): One message sent --Message type:83, Sequence number:1
MODEM(2/0): DC session event = 
MODEM(2/0): One message sent --Message type:82, Sequence number:2
MODEM(2/0): No status changes since last polled
MODEM(2/0): One message sent --Message type:3, Sequence number:3
MODEM(2/0): Modem DC session data reply
MODEM(2/0): One message sent --Message type:83, Sequence number:4

debug modem relay errors

To view modem relay network errors, use the debug modem relay errors command in privileged EXEC mode. To disable debugging output, use the no form of this command.

debug modem relay [call-identifier call-setup-time call-index] errors

no debug modem relay [call-identifier call-setup-time call-index] errors

Syntax Description

call-identifier

(Optional) Identifies a particular call.

call-setup-time

(Optional) Value of the system UpTime when the call associated with this entry was started. Valid values are 0 through 4294967295.

call-index

(Optional) Dial peer identification number used to distinguish between calls with the same setup time. Valid values are 0 through 10.

Command Default

This command is disabled.

Command Modes

Privileged EXEC

Command History

Release

Modification

12.2(11)T

This command was introduced for the Cisco 2600, Cisco 3620, Cisco 3640, Cisco 3660, and Cisco 7200 series routers and the Cisco AS5300 universal access server.

Usage Guidelines

In a stable modem relay network, the debug modem relay errors command produces little output.

Examples

The following is sample output from the debug modem relay errors command. The output shows the sequence number of the packet, time stamp, direction, layer, and payload bytes, followed by each byte of the payload in hexadecimal. 


Jan 11 05:35:09.119:ModemRelay pkt[0:D:11]. sqn 28 tm 11944 OUT ERR, pb=12, payload: 00 06 00 00 00 00 00 07 00 00 01 DE
*Jan 11 05:35:09.119:ModemRelay pkt[0:D:11]. sqn 29 tm 11944 OUT ERR, pb=12, payload: 00 06 00 00 00 00 00 04 00 00 00 BE
*Jan 11 05:35:09.119:ModemRelay pkt[0:D:11]. sqn 30 tm 11944 OUT ERR, pb=12, payload: 00 06 00 00 00 00 00 05 FF FF FF FD

Related Commands

Command

Description

debug hpi all

Displays gateway DSP modem relay termination codes.

debug modem relay events

Displays events that may cause failure of the modem relay network.

debug modem relay events

To view the events that may cause failure of the modem relay network, use the debug modem relay events command in privileged EXEC mode. To disable debugging output, use the no form of this command.

debug modem relay [call-identifier call-setup-time call-index] events

no debug modem relay [call-identifier call-setup-time call-index] events

Syntax Description

call-identifier

(Optional) Identifies a particular call.

call-setup-time

(Optional) Value of the system UpTime when the call associated with this entry was started. Valid values are 0 through 4294967295.

call-index

(Optional) Dial peer identification number used to distinguish between calls with the same setup time. Valid values are 0 through 10.

Command Default

This command is disabled.

Command Modes

Privileged EXEC

Command History

Release

Modification

12.2(11)T

This command was introduced for the Cisco 2600, Cisco 3620, Cisco 3640, Cisco 3660, and Cisco 7200 series routers and the Cisco AS5300 universal access server.

Usage Guidelines

In a stable modem relay network, the debug modem relay events command produces little output.

Examples

The following is sample output from the debug modem relay events command. The output shows the sequence number of the packet, time stamp, direction, layer, and payload bytes, followed by each byte of the payload in hexadecimal. 


Router# debug modem relay events
Jan 11 05:35:09.119:ModemRelay pkt[0:D:11]. sqn 28 tm 11944 OUT EVNT, pb=12, payload: 00 06 00 00 00 00 00 07 00 00 01 DE
*Jan 11 05:35:09.119:ModemRelay pkt[0:D:11]. sqn 29 tm 11944 OUT EVNT, pb=12, payload: 00 06 00 00 00 00 00 04 00 00 00 BE
*Jan 11 05:35:09.119:ModemRelay pkt[0:D:11]. sqn 30 tm 11944 OUT EVNT, pb=12, payload: 00 06 00 00 00 00 00 05 FF FF FF FD

Related Commands

Command

Description

debug hpi all

Displays gateway DSP modem relay termination codes.

debug modem relay errors

Displays modem relay network errors.

debug modem relay packetizer

To view events occurring in the modem relay packetizer module, use the debug modem relay packetizer command in privileged EXEC mode. To disable debugging output, use the no form of this command.

debug modem relay [call-identifier call-setup-time call-index] packetizer

no debug modem relay [call-identifier call-setup-time call-index] packetizer

Syntax Description

call-identifier

(Optional) Identifies a particular call.

call-setup-time

(Optional) Value of the system UpTime when the call associated with this entry was started. Valid values are 0 through 4294967295.

call-index

(Optional) Dial peer identification number used to distinguish between calls with the same setup time. Valid values are 0 through 10.

Command Default

This command is disabled.

Command Modes

Privileged EXEC

Command History

Release

Modification

12.2(11)T

This command was introduced for the Cisco 2600, Cisco 3620, Cisco 3640, Cisco 3660, and Cisco 7200 series routers, and the Cisco AS5300 universal access server.

Usage Guidelines

Disable console logging and use buffered logging before using the debug modem relay packetizer command. Using the debug modem relay packetizer command generates a large volume of debugs, which can affect router performance.

Examples

The following is sample output from the debug modem relay packetizer command. The output shows the sequence number of the packet, time stamp, direction, layer, and payload bytes, followed by each byte of the payload in hexadecimal. 


Router# debug modem relay packetizer
 
Jan 11 05:33:33.715:ModemRelay pkt[0:D:11]. sqn 8 tm 47610 IN PKTZR, pb=7, payload: 82 38 00 18 03 01 87
*Jan 11 05:33:33.727:ModemRelay pkt[0:D:11]. sqn 9 tm 47616 OUT PKTZR, pb=7, payload: 82 20 00 18 03 01 47
*Jan 11 05:33:35.719:ModemRelay pkt[0:D:11]. sqn 10 tm 49614 IN PKTZR, pb=7, payload: 82 39 00 18 03 01 87

Related Commands

Command

Description

debug hpi all

Displays gateway DSP modem relay termination codes.

debug modem relay errors

Displays modem relay network errors.

debug modem relay physical

To view modem relay physical layer packets, use the debug modem relay physical command in privileged EXEC mode. To disable debugging output, use the no form of this command.

debug modem relay [call-identifier call-setup-time call-index] physical

no debug modem relay [call-identifier call-setup-time call-index] physical

Syntax Description

call-identifier

(Optional) Identifies a particular call.

call-setup-time

(Optional) Value of the system UpTime when the call associated with this entry was started. Valid values are 0 through 4294967295.

call-index

(Optional) Dial peer identification number used to distinguish between calls with the same setup time. Valid values are 0 through 10.

Command Default

This command is disabled.

Command Modes

Privileged EXEC

Command History

Release

Modification

12.2(11)T

This command was introduced for the Cisco 2600, Cisco 3620, Cisco 3640, Cisco 3660, and Cisco 7200 series routers, and the Cisco AS5300 universal access server.

Usage Guidelines

Disable console logging and use buffered logging before using the debug modem relay physical command. Using the debug modem relay physical command generates a large volume of debugs, which can affect router performance.

Examples

The following is sample output from the debug modem relay physical command. The output shows the sequence number of the packet, time stamp, direction, layer, and payload bytes, followed by each byte of the payload in hexadecimal. 


Jan 11 05:35:09.119:ModemRelay pkt[0:D:11]. sqn 28 tm 11944 OUT PHYS, pb=12, payload: 00 06 00 00 00 00 00 07 00 00 01 DE
*Jan 11 05:35:09.119:ModemRelay pkt[0:D:11]. sqn 29 tm 11944 OUT PHYS, pb=12, payload: 00 06 00 00 00 00 00 04 00 00 00 BE
*Jan 11 05:35:09.119:ModemRelay pkt[0:D:11]. sqn 30 tm 11944 OUT PHYS, pb=12, payload: 00 06 00 00 00 00 00 05 FF FF FF FD

Related Commands

Command

Description

debug hpi all

Displays gateway DSP modem relay termination codes.

debug modem relay errors

Displays modem relay network errors.

debug modem relay sprt

To view modem relay Simple Packet Relay Transport (SPRT) protocol packets, use the debug modem relay sprt command in privileged EXEC mode. To disable debugging output, use the no form of this command.

debug modem relay [call-identifier call-setup-time call-index] sprt

no debug modem relay [call-identifier call-setup-time call-index] sprt

Syntax Description

call-identifier

(Optional) Identifies a particular call.

call-setup-time

(Optional) Value of the system UpTime when the call associated with this entry was started. Valid values are 0 through 4294967295.

call-index

(Optional) Dial peer identification number used to distinguish between calls with the same setup time. Valid values are 0 through 10.

Command Default

This command is disabled.

Command Modes

Privileged EXEC

Command History

Release

Modification

12.2(11)T

This command was introduced for the Cisco 2600, Cisco 3620, Cisco 3640, Cisco 3660, and Cisco 7200 series routers, and the Cisco AS5300 universal access server.

12.2SX

This command is supported in the Cisco IOS Release 12.2SX train. Support in a specific 12.2SX release of this train depends on your feature set, platform, and platform hardware.

Usage Guidelines

Disable console logging and use buffered logging before using the debug modem relay sprt command. Using the debug modem relay sprt command generates a large volume of debugs, which can affect router performance.

Examples

The following is sample output from the debug modem relay sprt command. The output shows the sequence number of the packet, time stamp, direction, layer, and payload bytes, followed by each byte of the payload in hexadecimal. 


Jan 11 05:37:16.151:ModemRelay pkt[0:D:11]. sqn 34 tm 7910 OUT SPRT, pb=4, payload: 02 00 03 71
*Jan 11 05:37:16.295:ModemRelay pkt[0:D:11]. sqn 35 tm 8048 IN SPRT, pb=13, payload: 02 00 01 F1 F7 7E FD F5 90 F3 3E 90 55
*Jan 11 05:37:16.303:ModemRelay pkt[0:D:11]. sqn 36 tm 8060 IN SPRT, pb=6, payload: 02 00 01 41 04 00

Related Commands

Command

Description

debug hpi all

Displays gateway DSP modem relay termination codes.

debug modem relay errors

Displays modem relay network errors.

debug modem relay udp

To view events occurring in the User Datagram Protocol (UDP) stack, use the debug modem relay udp command in privileged EXEC mode. To disable debugging output, use the no form of this command.

debug modem relay [call-identifier call-setup-time call-index] udp

no debug modem relay [call-identifier call-setup-time call-index] udp

Syntax Description

call-identifier

(Optional) Identifies a particular call.

call-setup-time

(Optional) Value of the system UpTime when the call associated with this entry was started. Valid values are 0 through 4294967295.

call-index

(Optional) Dial peer identification number used to distinguish between calls with the same setup time. Valid values are 0 through 10.

Command Default

This command is disabled.

Command Modes

Privileged EXEC

Command History

Release

Modification

12.2(11)T

This command was introduced for the Cisco 2600, Cisco 3620, Cisco 3640, Cisco 3660, and Cisco 7200 series routers, and the Cisco AS5300 universal access server.

12.2SX

This command is supported in the Cisco IOS Release 12.2SX train. Support in a specific 12.2SX release of this train depends on your feature set, platform, and platform hardware.

Usage Guidelines

Disable console logging and use buffered logging before using the debug modem relay udp command. Using the debug modem relay udp command generates a large volume of debugs, which can affect router performance.

Examples

The following is sample output from the debug modem relay udp command. The output shows three UDP packets related to modem relay. In the sample output, OUT or IN represent packet direction, and UDP indicates the specific layer that reported the packet. 


Jan 1 03:39:29.407:ModemRelay pkt[0:D (4)]. sqn 61 tm 3060 OUT UDP, pb=6, payload: 80 00 00 00 00 00
*Jan 1 03:39:29.471:ModemRelay pkt[0:D (4)]. sqn 62 tm 3120 IN UDP, pb=6, payload: 40 00 00 00 00 00
*Jan 1 03:39:29.471:ModemRelay pkt[0:D (4)]. sqn 63 tm 3120 IN UDP, pb=6, payload: 80 00 00 00 00 00

Related Commands

Command

Description

debug hpi all

Displays gateway DSP modem relay termination codes.

debug modem relay errors

Displays modem relay network errors.

debug modem relay v14

To observe events occurring in the V.14 layer, use the debug modem relay v14 command in privileged EXEC mode. To disable debugging output, use the no form of this command.

debug modem relay [call-identifier call-setup-time call-index] v14

no debug modem relay [call-identifier call-setup-time call-index] v14

Syntax Description

call-identifier

(Optional) Identifies a particular call.

call-setup-time

(Optional) Value of the system UpTime when the call associated with this entry was started. Valid values are 0 through 4294967295.

call-index

(Optional) Dial peer identification number used to distinguish between calls with the same setup time. Valid values are 0 through 10.

Command Default

No debugging output is displayed.

Command Modes

Privileged EXEC

Command History

Release

Modification

12.4(2)T

This command was introduced .

Usage Guidelines

Use the debug modem relay v14 command to debug V.14 layer modem relay calls. Using this command generates a large volume of debugs, which can affect router performance; disable console logging and use buffered logging before using the debug modem relay v14 command. In most instances you will use this command only at the request of Cisco Technical Assistance Center (TAC).

Examples

The following is sample output from the debug modem relay v14 command. The output shows the sequence number of the packet time stamp, direction, layer, and payload bytes, followed by each byte of the payload in hexadecimal. 


Router# debug modem relay v14
*Aug 10 22:51:37.496: ModemRelay pkt[1/1:1]. sqn 15649 tm 48766 OUT V14, pb=18, payload:  08 BC 4C 51 CE 1A 69 ED D6 65 62 8C 7F D3 9A 82 5A 7A
*Aug 10 22:51:38.216: ModemRelay pkt[1/1:1]. sqn 15650 tm 48778 IN V14, pb=22, payload:  9A 9C 7F 57 2D D7 4C 98 E8 EC FC 73 69 F2 FF A3 E8 B0 A4 58 BB AE
*Aug 10 22:51:38.216: ModemRelay pkt[1/1:1]. sqn 15651 tm 48790 OUT V14, pb=18, payload:  64 F9 73 D3 AB 11 61 ED 1E 5D 51 8D B1 9F CA 49 BF F4
*Aug 10 22:51:38.216: ModemRelay pkt[1/1:1]. sqn 15652 tm 48796 IN V14, pb=21, payload:  C1 77 90 12 F8 37 E8 7A 64 8D 0E 61 58 7E E4 E8 87 E0 B4 83 C7 A4 60 7A 64 8B 09 B9 80 2E E5 2E 94 65 79 C2 A8 E9 6F D9 6C 3B

Related Commands

Command

Description

debug hpi all

Displays gateway DSP modem relay termination codes.

debug modem relay errors

Displays modem relay network errors.

debug modem relay v42

To view events occurring in the V.42 layer, use the debug modem relay v42 command in privileged EXEC mode. To disable debugging output, use the no form of this command.

debug modem relay [call-identifier call-setup-time call-index] v42

no debug modem relay [call-identifier call-setup-time call-index] v42

Syntax Description

call-identifier

(Optional) Identifies a particular call.

call-setup-time

(Optional) Value of the system UpTime when the call associated with this entry was started. Valid values are 0 through 4294967295.

call-index

(Optional) Dial peer identification number used to distinguish between calls with the same setup time. Valid values are 0 through 10.

Command Default

This command is disabled.

Command Modes

Privileged EXEC

Command History

Release

Modification

12.2(11)T

This command was introduced for the Cisco 2600, Cisco 3620, Cisco 3640, Cisco 3660, and Cisco 7200 series routers, and the Cisco AS5300 universal access server.

12.2SX

This command is supported in the Cisco IOS Release 12.2SX train. Support in a specific 12.2SX release of this train depends on your feature set, platform, and platform hardware.

Usage Guidelines

Disable console logging and use buffered logging before using the debug modem relay v42 command. Using the debug modem relay v42 command generates a large volume of debugs, which can affect router performance.

Examples

The following is sample output from the debug modem relay v42 command. The output shows the sequence number of the packet, timestamp, direction, layer, and payload-bytes, followed by each byte of the payload in hexadecimal. 


Jan 11 05:42:08.715:ModemRelay pkt[0:D:13]. sqn 3 tm 10104 OUT V42, pb=43, payload: 03 AF 82 80 00 13 03 03 8A 89 00 05 02 03 E0 06 02 03 E0 07 01 08 08 01 08 F0 00 0F 00 03 56 34 32 01 01 03 02 02 04 00 03 01 20
*Jan 11 05:42:08.847:ModemRelay pkt[0:D:13]. sqn 4 tm 10236 IN V42, pb=2, payload: 03 7F

Related Commands

Command

Description

debug hpi all

Displays gateway DSP modem relay termination codes.

debug modem relay errors

Displays modem relay network errors.

debug modem trace

To debug a call trace on the modem to determine why calls are terminated, use the debug modem trace command in privileged EXEC mode. To disable debugging output, use the no form of this command.

debug modem trace [normal | abnormal | all] [slot/ modem-port | group group-number]

no debug modem trace [normal | abnormal | all] [slot/ modem-port | group group-number]

Syntax Description

normal

(Optional) Uploads the call trace to the syslog server on normal call termination (for example, a local user hangup or a remote user hangup).

abnormal

(Optional) Uploads the call trace to the syslog server on abnormal call termination (for example, any call termination other than normal termination, such as a lost carrier or a watchdog timeout).

all

(Optional) Uploads the call trace on all call terminations including normal and abnormal call termination.

slot/modem-port

(Optional) The slot and modem port number.

group group-number

(Optional) The modem group.

Command Modes

Privileged EXEC

Usage Guidelines

The debug modem trace command applies only to manageable modems. For additional information, use the show modem command.

Examples

The following is sample output from the debug modem trace abnormal command: 


Router# debug modem trace abnormal 1/14
Modem 1/14 Abnormal End of Connection Trace. Caller 123-4567
    Start-up Response: AS5200 Modem, Firmware 1.0
    Control Reply: 0x7C01
    DC session response: brasil firmware 1.0
    RS232 event:
    DSR=On, DCD=On, RI=Off, TST=Off
    changes: RTS=No change, DTR=No change, CTS=No change
    changes: DSR=No change, DCD=No change, RI=No change, TST=No change
    Modem State event: Connected
    Connection event: Speed = 19200, Modulation = VFC
    Direction = Originate, Protocol = reliable/LAPM, Compression = V42bis
    DTR event: DTR On
    Modem Activity event: Data Active
    Modem Analog signal event: TX = -10, RX = -24, Signal to noise = -32
    End connection event: Duration = 10:34-11:43,
    Number of xmit char =    67, Number of rcvd char = 88, Reason: Watchdog Time-out.

Related Commands

Command

Description

debug modem csm

Debugs the CSM used to connect calls on the modem.

debug modem oob

Creates modem startup messages between the network management software and the modem on the specified OOB port.

debug modem traffic

To display output for framed, unframed, and asynchronous data sent received from the modem cards, use the debug modem traffic command in privileged EXEC mode. To disable debugging output, use the no form of this command.

debug modem traffic

no debug modem traffic

Syntax Description

This command has no arguments or keywords.

Command Modes

Privileged EXEC

Command History

Release

Modification

11.3(2)AA

This command was introduced.

12.2(33)SRA

This command was integrated into Cisco IOS Release 12.2(33)SRA.

Usage Guidelines

The debug modem traffic command displays output for framed, unframed, and asynchronous data sent or received by the modem cards.

Examples

The following example displays information about unframed or framed data sent to or received from the modem cards: 


Router# debug modem traffic
MODEM-RAW-TX:modem = 6/5/00, length = 1, data = 0x61, 0xFF, 0x7D, 0x23
MODEM-RAW-RX:modem = 6/5/00, length = 1, data = 0x61, 0x0, 0x0, 0x0

The information indicates unframed asynchronous data transmission and reception involving the modem on shelf 6, slot 5, port 00.

The following example displays framed asynchronous data transmission and reception involving the modem on shelf 6, slot 5, port 00: 


Router# debug modem traffic
MODEM-FRAMED-TX:modem = 6/5/00, length = 8, data = 0xFF, 0x3, 0x82
MODEM-FRAMED-RX:modem = 6/5/00, length = 14, data = 0xFF, 0x3, 0x80

Related Commands

Command

Description

debug modem dsip

Displays output for modem control messages that are received or sent to the router.

debug mpls adjacency

To display changes to label switching entries in the adjacency database, use the debugmplsadjacency command in privileged EXEC mode. To disable debugging output, use the no form of this command.

debug mpls adjacency

no debug mpls adjacency

Usage Guidelines

This command has no keywords or arguments.

Command Default

No default behavior or values.

Command Modes

Privileged EXEC

Command History

Release

Modification

11.1CT

This command was introduced.

12.1(3)T

This command was modified to reflect new MPLS IETF terminology and CLI command syntax.

12.2(33)SRA

This command was integrated into Cisco IOS Release 12.2(33)SRA.

Usage Guidelines

Use the debugmplsadjacency command to monitor when entries are updated in or added to the adjacency database.

Examples

The following is sample output from the debugmplsadjacency command: 


Router# debug mpls adjacency
TAG ADJ: add 10.10.0.1, Ethernet0/0/0
TAG ADJ: update 10.10.0.1, Ethernet0/0/0

The following table describes the significant fields shown in the sample display.

Table 2. debug mpls adjacency Field Description

Field

Description

add

Adding an entry to the database.

update

Updating the MAC address for an existing entry.

10.10.0.1

Address of neighbor TSR.

Ethernet0/0/0

Connecting interface.

debug mpls atm-cos


Note

Effective with Cisco IOS Release 12.4(20)T, the debug mpls atm-cos command is not available in Cisco IOS software.

To display ATM label virtual circuit (VC) bind or request activity that is based on the configuration of a Quality of Service (QoS) map, use the debug mpls atm-cos command in privileged EXEC mode. To disable this feature, use the no form of this command.

debug mpls atm-cos [bind | request]

no debug mpls atm-cos [bind | request]

Syntax Description

bind

(Optional) Specifies debug information about bind responses for a VC path.

request

(Optional) Specifies debug information about bind requests for a VC path.

Command Default

No default behavior or values.

Command Modes

Privileged EXEC (#)

Command History

Release

Modification

12.0(5)T

This command was introduced.

12.0(10)ST

This command was modified to reflect MPLS IETF syntax and terminology.

12.2(2)T

This command was incorporated into Cisco IOS Release 12.2(2)T.

12.2(33)SRA

This command was integrated into Cisco IOS Release 12.2(33)SRA.

12.4(20)T

This command was removed.

Examples

The following command sequence demonstrates how to obtain sample output from the debug mpls atm-cos command.

First, display the Multiprotocol Label Switching (MPLS) forwarding table to see which prefixes are associated with a single label VC (LVC), as shown below: 


Router# show mpls forwarding
Local  Outgoing    Prefix            Bytes tag  Outgoing   Next Hop    
tag    tag or VC   or Tunnel Id      switched   interface              
26     28          10.17.17.17/32    0          PO6/0      point2point  
27     Pop tag     10.11.11.11/32    1560       PO6/0      point2point  
28     27          10.16.16.16/32    0          PO6/0      point2point  
29     30          10.92.0.0/8       0          PO6/0      point2point  
30     Pop tag     10.95.0.0/8       2600       PO6/0      point2point 
31     2/34        10.10.10.10/32    0          AT2/0.1    point2point  
32     Pop tag     10.14.14.14/32    0          Fa5/0      10.91.0.1     
33     Pop tag     10.90.0.0/8       0          Fa5/0      10.91.0.1     
34     Pop tag     10.96.0.0/8       0          Fa5/0      10.91.0.1     
       2/36        10.96.0.0/8       0          AT2/0.1    point2point  
35     35          10.93.0.0/8       0          PO6/0      point2point  
36     36          10.12.12.12/32    0          PO6/0      point2point  
37     37          10.15.15.15/32    0          PO6/0      point2point  
38     37          10.18.18.18/32    0          Fa5/0      10.91.0.1     
39     39          10.97.0.0/8       540        PO6/0      point2point  
40     40          10.98.0.0/8       0          PO6/0      point2point

Second, enable debugging of request and bind events, as shown in the command sequence below: 


Router# debug mpls atm-cos ?
  bind     Bind response for VC path
  request  Requests for VC binds path
Router# debug mpls atm-cos request
ATM TAGCOS VC requests debugging is on
Router# debug mpls atm-cos bind
ATM TAGCOS Bind response debugging is on

Third, configure an MPLS ATM subinterface for multi-VC mode. The corresponding request and bind events are displayed, as shown below: 


Router# configure terminal
Enter configuration commands, one per line.  End with CNTL/Z.
Router(config)# interface a2/0.1
Router(config-subif)# mpls atm multi-vc
Router(config-subif)# end
Router#
19:59:14:%SYS-5-CONFIG_I:Configured from console by console
Router#
19:59:24:TAGCOS-REQ:vc request 10.10.10.10/32, available
19:59:24:TAGCOS-REQ:vc request 10.10.10.10/32, standard
19:59:24:TAGCOS-REQ:vc request 10.10.10.10/32, premium
19:59:24:TAGCOS-REQ:vc request 10.10.10.10/32, control
19:59:24:TAGCOS-REQ:vc request 10.96.0.0/8, available
19:59:24:TAGCOS-REQ:vc request 10.96.0.0/8, standard
19:59:24:TAGCOS-REQ:vc request 10.96.0.0/8, premium
19:59:24:TAGCOS-REQ:vc request 10.96.0.0/8, control
TAGCOS-REQ/TCATM:10.11.11.11/32,len=4352,band=1099528405504,class=0x700
TAGCOS-REQ/TCATM:10.12.12.12/32,len=4352,band=2199040033280,class=0x700
TAGCOS-REQ/TCATM:10.13.13.13/32,len=4352,band=3298551661056,class=0x700
TAGCOS-REQ/TCATM:10.14.14.14/32,len=4352,band=4398063288832,class=0x700
TAGCOS-REQ/TCATM:10.15.15.15/32,len=4352,band=5497574916608,class=0x700
TAGCOS-REQ/TCATM:10.16.16.16/32,len=4352,band=6597086544384,class=0x700
TAGCOS-REQ/TCATM:10.17.17.17/32,len=4352,band=7696598172160,class=0x700
TAGCOS-REQ/TCATM:10.18.18.18/32,len=4352,band=8796109799936,class=0x700
TAGCOS-REQ/TCATM:10.90.0.0/8,len=768,band=3940649674539009,class=0x2
TAGCOS-REQ/TCATM:10.91.0.0/8,len=768,band=3940649674604545,class=0x2
TAGCOS-REQ/TCATM:10.92.0.0/8,len=768,band=3940649674670081,class=0x2
TAGCOS-REQ/TCATM:10.93.0.0/8,len=768,band=3940649674735617,class=0x2
TAGCOS-REQ/TCATM:10.94.0.0/8,len=768,band=3940649674801153,class=0x2
TAGCOS-REQ/TCATM:10.95.0.0/8,len=768,band=3940649674866689,class=0x2
TAGCOS-REQ/TCATM:10.97.0.0/8,len=768,band=3940649674932225,class=0x2
TAGCOS-REQ/TCATM:10.98.0.0/8,len=768,band=3940649674997761,class=0x2
TAGCOS-BIND:binding_ok 10.10.10.10/32,VCD=41 - control 41,41,41,41
TAGCOS-BIND:binding_ok 10.10.10.10/32, Inform TFIB pidx=0, in_tag=31, idx=0x80000000
TAGCOS-BIND:binding_ok 10.96.0.0/8,VCD=42 - control 42,42,42,42
TAGCOS-BIND:binding_ok 10.96.0.0/8, Inform TFIB pidx=1, in_tag=34, idx=0x80000001
TAGCOS-BIND:binding_ok 10.10.10.10/32,VCD=43 - premium 43,43,43,41
TAGCOS-BIND:binding_ok 10.96.0.0/8,VCD=44 - premium 44,44,44,42
TAGCOS-BIND:binding_ok 10.10.10.10/32,VCD=45 - standard 45,45,43,41
TAGCOS-BIND:binding_ok 10.96.0.0/8,VCD=46 - standard 46,46,44,42
TAGCOS-BIND:binding_ok 10.10.10.10/32,VCD=47 - available 47,45,43,41
TAGCOS-BIND:binding_ok 10.96.0.0/8,VCD=48 - available 48,46,44,42

debug mpls atm-ldp api


Note

Effective with Cisco IOS Release 12.4(20)T, the debugmplsatm-ldpapi command is not available in Cisco IOS software.

To display information about the virtual channel identifier (VCI) allocation of label virtual circuits (LVCs), label-free requests, and cross-connect requests, use the debugmplsatm-ldpapi command in privileged EXEC mode. To disable this feature, use the no form of this command.

debug mpls atm-ldp api

no debug mpls atm-ldp api

Syntax Description

This command has no arguments or keywords.

Command Default

No default behavior or values.

Command Modes

Privileged EXEC (#)

Command History

Release

Modification

11.1CT

This command was introduced.

12.0(10)ST

This command was modified to reflect MPLS IETF command syntax and terminology.

12.0(14)ST

This command was integrated into Cisco IOS Release 12.0(14)ST.

12.1(2)T

This command was modified.

12.1(8a)E

This command was integrated into Cisco IOS Release 12.1(8a)E.

12.2(2)T

This command was integrated into Cisco IOS Release 12.2(2)T.

12.2(4)T

This command was integrated into Cisco IOS Release 12.2(4)T.

12.2(8)T

This command was integrated into Cisco IOS Release 12.2(8)T.

12.0(21)ST

This command was integrated into Cisco IOS Release 12.0(21)ST.

12.0(22)S

This command was integrated into Cisco IOS Release 12.0(22)S.

12.0(23)S

This command was integrated into Cisco IOS Release 12.0(23)S.

12.2(13)T

This command was integrated into Cisco IOS Release 12.2(13)T.

12.2(14)S

This command was integrated into Cisco IOS Release 12.2(14)S.

12.2(33)SRA

This command was integrated into Cisco IOS Release 12.2(33)SRA.

12.4(20)T

This command was removed.

Usage Guidelines

Use the debugmplsatm-ldpapi command in conjunction with thedebug mplsatm-ldproutes and debug mplsatm-ldpstates command to display more complete information about an LVC.

Examples

The following shows sample output from the debugmplsatm-ldpapi command: 


Router# debug mpls atm-ldp api
Tailend Router Free label Req 167.50.0.0 on ATM0/0.2 VPI/VCI 1/674
 TAGATM_API: received label free request
             interface: ATM0/0.2  dir: in  vpi: 1  vci: 674
 TAGATM_API: completed label free
             interface: ATM0/0.2  vpi: 1  vci: 674
             result: TAGATM_OK

The following table describes the significant fields shown in the display.

Table 3. debug mpls atm-ldp api Field Descriptions

Field

Description

TAGATM_API

Subsystem that displays the message.

interface

Interface used by the driver to allocate or free VPI/VCI resources.

dir

Direction of the VC:

  • In--Input or receive VC

  • Out--Output VC

vpi

Virtual path identifier.

vci

Virtual channel identifier.

result

The return error code from the driver API.

Related Commands

Command

Description

debug mpls atm-ldp states

Displays information about LVC state transitions as they occur.

debug mpls atm-ldp failure

To display failure information about the LC-ATM, use the debug mpls atm-ldp failure command in privileged EXEC mode. To disable this feature, use the no form of the command.

debug mpls atm-ldp failure

no debug mpls atm-ldp failure

Syntax Description

This command has no arguments or keywords.

Command Default

No default behavior or values.

Command Modes

Privileged EXEC

Command History

Release

Modification

12.2(8)T

This command was introduced.

12.0(21)ST

This command was integrated into Cisco IOS 12.0(21)ST.

12.0(22)S

This command was integrated into Cisco IOS Release 12.0(22)S.

12.0(23)S

This command was integrated into Cisco IOS Release 12.0(23)S.

12.2(13)T

This command was integrated into Cisco IOS Release 12.2(13)T.

12.2(14)S

This command was integrated into Cisco IOS Release 12.2(14)S.

12.2(33)SRA

This command was integrated into Cisco IOS Release 12.2(33)SRA.

12.2SX

This command is supported in the Cisco IOS Release 12.2SX train. Support in a specific 12.2SX release of this train depends on your feature set, platform, and platform hardware.

Usage Guidelines

Use the debug mpls atm-ldp failure command to display failure information about the LC-ATM. This command is useful for determining failure cases. This command displays only failure information, unlike the debug mpls atm-ldp api command, which displays all API events.

Examples

This section shows sample output from the debug mpls atm-ldp failure command.

The following failure message displays during a race condition where the LC-ATM attempts to allocate label virtual circuits (LVCs) on an interface where MPLS has been disabled: 


Router# debug mpls atm-ldp failure
TAGATM_API_FAILURE: allocate_tag_req on ATM1/0/0 tagsw not enabled

The following failure message displays when the LC-ATM fails to deallocate the output leg LVC of a cross connect: 


Router# debug mpls atm-ldp failure
TAGATM_API_FAILURE: connDeAllocateHalfLeg returned false interface: ATM1/0/0 
vpi: 1  vci: 48

The following failure message displays when a cross connect cannot be installed on the switching fabric. The result code is also provided. 


Router# debug mpls atm-ldp failure
TAGATM_API_FAILURE: setup_xconn_req InstallSvcXconn failed result

The following message displays when attempts to establish a cross connect fail. The result describes the reason for the failure. 


Router# debug mpls atm-ldp failure
TCATM-4-XCONNECT_FAILED: 10.254.13.237/32 for ATM0/1/2 ATM1/0/0 
TAGATM_API: x-conn setup request completed 
             input interface: ATM0/1/2  vpi: 1  vci: 48 
            output interface: ATM1/0/0  vpi: 2  vci: 2038 
            result = TAGATM_FAIL 
Xconnect setup response for 10.254.13.215: failure, 8

The following message displays when attempts to remove a cross connect fail. The result describes why the cross connect cannot be removed. 


Router# debug mpls atm-ldp failure
TCATM-4-XCONNECT_REMOVE_FAILED: Remove XConnect API failed for ATM1/0/12 1/894
-> ATM1/0/13 1/528 
TAGATM_API: x-conn remove request completed 
             input interface: ATM1/0/12  vpi: 1  vci: 894 
            output interface: ATM1/0/13  vpi: 1  vci: 528 
            result = TAGATM_FAIL

Related Commands

Command

Description

debug mpls atm-ldp api

Displays all driver API events.

debug mpls atm-ldp routes


Note

Effective with Cisco IOS Release 12.4(20)T, the debugmplsatm-ldproutes command is not available in Cisco IOS software.

To display information about the state of the routes for which virtual circuit identifier (VCI) requests are being made, use the debugmplsatm-ldproutes command in privileged EXEC mode. To disable this feature, use the no form of this command.

debug mpls atm-ldp routes

no debug mpls atm-ldp routes

Syntax Description

This command has no arguments or keywords.

Command Default

No default behavior or values.

Command Modes

Privileged EXEC (#)

Command History

Command

Modification

11.1CT

This command was introduced.

12.0(10)ST

This command was modified to reflect MPLS IETF command syntax and terminology.

12.0(14)ST

This command was integrated into Cisco IOS Release 12.0(14)ST.

12.1(2)T

This command was modified.

12.1(8a)E

This command was integrated into Cisco IOS Release 12.1(8a)E.

12.2(2)T

This command was integrated into Cisco IOS Release 12.2(2)T.

12.2(4)T

This command was integrated into Cisco IOS Release 12.2(4)T.

12.2(8)T

This command was integrated into Cisco IOS Release 12.2(8)T.

12.0(21)ST

This command was integrated into Cisco IOS Release 12.0(21)ST.

12.0(22)S

This command was integrated into Cisco IOS Release 12.0(22)S.

12.0(23)S

This command was integrated into Cisco IOS Release 12.0(23)S.

12.2(13)T

This command was integrated into Cisco IOS Release 12.2(13)T.

12.2(14)S

This command was integrated into Cisco IOS Release 12.2(14)S.

12.2(33)SRA

This command was integrated into Cisco IOS Release 12.2(33)SRA.

12.2SX

This command is supported in the Cisco IOS Release 12.2SX train. Support in a specific 12.2SX release of this train depends on your feature set, platform, and platform hardware.

12.4(20)T

This command was removed.

Usage Guidelines

When there are many routes and system activities (that is, shutting down interfaces, learning new routes, and so forth), the debugmplsatm-ldproutes command displays extensive information that might interfere with system timing. Most commonly, this interference affects normal label distribution protocol (LDP) operation. To avoid this problem, you can increase the LDP hold time by means of the mplsldpholdtime command.

Examples

The following shows sample output from the debugmplsatm-ldproutes command: 


Router# debug mpls atm-ldp routes
CleanupRoutes,not deleting route of idb ATM0/0.2,rdbIndex 0
tcatmFindRouteTags,153.7.0.0/16,idb=ATM0/0.2,nh=134.111.102.98,index=0
AddNewRoute,153.7.0.0/16,idb=ATM0/0.2
CleanupRoutes,153.7.0.0/16
CleanupRoutes,not deleting route of idb ATM0/0.2,rdbIndex 0
tcatmFindRouteTags,153.8.0.0/16,idb=ATM0/0.2,nh=134.111.102.98,index=0
AddNewRoute,153.8.0.0/16,idb=ATM0/0.2
CleanupRoutes,153.8.0.0/16
CleanupRoutes,not deleting route of idb ATM0/0.2,rdbIndex 0
tcatmFindRouteTags,153.9.0.0/16,idb=ATM0/0.2,nh=134.111.102.98,index=0
AddNewRoute,153.9.0.0/16,idb=ATM0/0.2
CleanupRoutes,153.9.0.0/16
CleanupRoutes,not deleting route of idb ATM0/0.2,rdbIndex 0
tcatmFindRouteTags,153.10.0.0/16,idb=ATM0/0.2,nh=134.111.102.98,index=0
AddNewRoute,153.10.0.0/16,idb=ATM0/0.2
CleanupRoutes,153.10.0.0/16
CleanupRoutes,not deleting route of idb ATM0/0.2,rdbIndex 0
tcatmFindRouteTags,153.11.0.0/16,idb=ATM0/0.2,nh=134.111.102.98,index=0
AddNewRoute,153.11.0.0/16,idb=ATM0/0.2
CleanupRoutes,153.11.0.0/16

The following table describes the significant fields shown in the display.

Table 4. debug mpls atm-ldp routes Field Descriptions

Field

Description

CleanupRoutes

Cleans up the routing table after a route has been deleted.

not deleting route of idb ATM0/0.2

The route cleanup event has not removed the specified route.

rdbIndex

Index identifying the route.

tcatmFindRouteTags

Request a VC for the route.

idb

The internal descriptor for an interface.

nh

Next hop for the route.

index

Identifier for the route.

AddNewRoute

Action of adding routes for a prefix or address.

Related Commands

Command

Description

mpls ldp holdtime

Changes the time an LDP session is maintained in the absence of LDP messages from the session peer.

debug mpls atm-ldp states


Note

Effective with Cisco IOS Release 12.4(20)T, the debugmplsatm-ldpstates command is not available in Cisco IOS software.

To display information about label virtual circuit (LVC) state transitions as they occur, use the debugmplsatm-ldpstates command in privileged EXEC mode. To disable this feature, use the no form of this command.

debug mpls atm-ldp states

no debug mpls atm-ldp states

Syntax Description

This command has no arguments or keywords.

Command Default

No default behavior or values.

Command Modes

Privileged EXEC (#)

Command History

Release

Modification

11.1CT

This command was introduced.

12.0(10)ST

This command was modified to reflect MPLS IETF command syntax and terminology.

12.0(14)ST

This command was integrated into Cisco IOS Release 12.0(14)ST.

12.1(2)T

This command was modified.

12.1(8a)E

This command was integrated into Cisco IOS Release 12.1(8a)E.

12.2(2)T

This command was integrated into Cisco IOS Release 12.2(2)T.

12.2(4)T

This command was integrated into Cisco IOS Release 12.2(4)T.

12.2(8)T

This command was integrated into Cisco IOS Release 12.2(8)T.

12.0(21)ST

This command was integrated into Cisco IOS Release 12.0(21)ST.

12.0(22)S

This command was integrated into Cisco IOS Release 12.0(22)S.

12.0(23)S

This command was integrated into Cisco IOS Release 12.0(23)S.

12.2(13)T

This command was integrated into Cisco IOS Release 12.2(13)T.

12.2(14)S

This command was integrated into Cisco IOS Release 12.2(14)S.

12.2(33)SRA

This command was integrated into Cisco IOS Release 12.2(33)SRA.

12.2SX

This command is supported in the Cisco IOS Release 12.2SX train. Support in a specific 12.2SX release of this train depends on your feature set, platform, and platform hardware.

12.4(20)T

This command was removed.

Usage Guidelines

When there are many routes and system activities (such as shutting down interfaces, learning new routes, and so forth), the debugmplsatm-ldpstates command outputs extensive information that might interfere with system timing. Most commonly, this interference affects normal label distribution protocol (LDP) operation. To avoid this problem, you should increase the LDP hold time by means of the mplsldpholdtime command.

Examples

The following shows sample output from the debugmplsatm-ldpstates command: 


Router# debug mpls atm-ldp states
Transit Output 166.35.0.0 VPI/VCI 1/67 Active -> XmitRelease NoPath
Transit Input 166.35.0.0 VPI/VCI 1/466 Active -> ApiWaitParentLoss ParentLoss
Transit Input 166.35.0.0 VPI/VCI 1/466 ApiWaitParentLoss -> ParentWait ApiSuccess
Transit Input 166.35.0.0 VPI/VCI 1/466 ParentWait -> XmitWithdraw NoPath
Transit Input 166.35.0.0 VPI/VCI 1/466 XmitWithdraw -> XmitWithdraw Transmit
Transit Input 166.35.0.0 VPI/VCI 1/466 XmitWithdraw -> NonExistent Release
Transit Input 166.35.0.0 VPI/VCI 1/466 NonExistent -> NonExistent ApiSuccess

The following table describes the significant fields shown in the display.

Table 5. debug mpls atm-ldp states Field Descriptions

Field

Description

Transit Output

Output side of an LVC.

VPI/VCI

VC value.

Transit Input

Input side of an LVC.

Related Commands

Command

Description

mpls ldp holdtime

Changes the time an LDP session is maintained in the absence of LDP messages from the session peer.

debug mpls checkpoint label-binding

To display the events for the checkpoint label bindings of Multiprotocol Label Switching (MPLS) applications running on the router, use the debug mpls checkpoint label-binding command in privileged EXEC mode. To disable the display of these events, use the no form of this command.

debug mpls checkpoint label-binding

no debug mpls checkpoint label-binding

Syntax Description

This command has no arguments or keywords.

Command Default

Debugging is not enabled.

Command Modes

Privileged EXEC

Command History

Release

Modification

12.2(25)S

This command was introduced.

12.2(28)SB

This command was integrated into Cisco IOS Release 12.2(28)SB and implemented on the Cisco 10000 series router.

12.2(33)SRA

This command was integrated into Cisco IOS Release 12.2(33)SRA.

12.2(33)SXH

This command was integrated into Cisco IOS Release 12.2(33)SXH.

Usage Guidelines

Use this command with caution. The command displays the events for every label binding.

Examples

The following example shows the output when you issue the command on the standby Route Processor: 


Router# debug mpls checkpoint label-binding
MPLS Label Binding Checkpoint debugging is on
3d17h: mpls_lbl_bind_chkpt: client ID 13 up, total client 1
3d17h: mpls_lbl_bind_chkpt: msg rx for 1D, vers 0, type 1
action 56, len 0, state 4, peer 13
3d17h: mpls_lbl_bind_chkpt: post msg type 1
3d17h: mpls_lbl_bind_chkpt: msg rx for 1D, vers 0, type 1
action 56, len 0, state 4, peer 13
3d17h: mpls_lbl_bind_chkpt: post msg type 1
3d17h: mpls_lbl_bind_chkpt: msg rx for 1D, vers 0, type 1
action 56, len 0, state 4, peer 13
3d17h: mpls_lbl_bind_chkpt: post msg type 1
3d17h: mpls_lbl_bind_chkpt: appl_id 13, KEY 000C800018888200
3d17h: mpls_chkpt_db: AVL insert successful, Key 000C800018888200 action Add, label 19
3d17h: mpls_lbl_bind_chkpt: appl_id 13, KEY 000C800013200080
3d17h: mpls_chkpt_db: AVL insert successful, Key 000C800013200080 action Add, label 20
3d17h: mpls_lbl_bind_chkpt: appl_id 13, KEY 000C8000138383838200
3d17h: mpls_chkpt_db: AVL insert successful, Key 000C8000138383838200 action Add, label 21
3d17h: Stby RP OR CF peer not ready, don't send msg
3d17h: mpls_lbl_bind_chkpt: client ID 13 down, total client 0
3d17h: mpls_lbl_bind_chkpt: msg rx for 1D, vers 0, type 1
action 56, len 2, state 4, peer 13
3d17h: mpls_lbl_bind_chkpt: post msg type 1
3d17h: mpls_lbl_bind_chkpt: appl_id 13, KEY  action NSF unconfig, appl id 13

Related Commands

Command

Description

debug ip bgp vpnv4 checkpoint

Display the events for the VRF checkpointing system between the active and standby Route Processors.

debug mpls events

To display information about significant Multiprotocol Label Switching ( MPLS) events, use the debug mpls events command in privileged EXEC mode. To disable debugging output, use the no form of this command.

debug mpls events

no debug mpls events

Syntax Description

This command has no keywords or arguments.

Command Default

No default behavior or values.

Command Modes

Privileged EXEC

Command History

Release

Modification

12.1(3)T

This command was introduced.

12.2(33)SRA

This command was integrated into Cisco IOS Release 12.2(33)SRA.

Usage Guidelines

Use this command to monitor significant MPLS events.

Examples

The following is sample output from the debug mpls events command: 


Router# debug mpls events
 
MPLS events debugging is on
TAGSW: Unbound IP address, 155.0.0.55, from Router ID
TAGSW: Bound IP address, 199.44.44.55, to Router ID

debug mpls infra label-broker api

To display Multiprotocol Label Switching (MPLS) label-broker API error messages, use the debug mpls infra label-broker api command in privileged EXEC mode. To disable the display of the messages, use the no form of this command.

debug mpls infra label-broker api [ipv4 | ipv6 | [default | vrf vrf-name ] | prefix-list { prefix-name}]

no debug mpls infra label-broker api [ipv4 | ipv6 | [default | vrf vrf-name ] | prefix-list { prefix-name}]

Syntax Description

ipv4

(Optional) Displays track labels for IPv4 prefixes.
ipv6

(Optional) Displays track labels for IPv6 prefixes.
default

(Optional) Displays the default routing/forwarding table.
vrf vrf-name

(Optional) Displays debugging information for the specified Virtual Private Network (VPN) routing and forwarding (VRF) instance. You can find VRF names using the show ip vrf command.

prefix-list

(Optional) Displays debugging information for the specified prefix list.
prefix-name

The name of the prefix list. You can find prefix list names using the show ip prefix-list command.

Command Modes

Privileged EXEC (#)

Command History

Release Modification

Cisco IOS XE Release 3.8S

This command was introduced.

Usage Guidelines

To enable the debug mpls infra label-broker api command, the user must first enter global configuration mode and then enter the service internal command, followed by the end command.

Examples

The following shows how to enable the debug mpls infra label-broker api command: 

Device> enable
Device# configure terminal
Enter configuration commands, one per line.  End with CNTL/Z.
Device(config)# service internal
Device(config)# end
00:01:05: %SYS-5-CONFIG_I: Configured from console by console
Device# debug mpls infra label-broker api
MFI Label Broker:
  api debugging is on for all prefixes and labels

Related Commands

Command

Description

debug mpls infra label-broker api key

Displays information about the MFI label broker and track labels for key database entries.

debug mpls infra lfd label-block

Displays information about label-block debugging.

debug mpls infra lfd label-broker key

Displays information about keyed label debugging for all key entries.
service internal

Enables infra commands to be configured.

show ip prefix-list

Displays information about a prefix list or prefix list entries.

show ip vrf

Displays the set of defined VPN VRF instances and associated interfaces.

show xconnect

Displays information about xconnect attachment circuits and pseudowires.

debug mpls infra label-broker api key

To display Multiprotocol Label Switching (MPLS) application programming interface (API) key error messages, use the debug mpls infra label-broker api key command in privileged EXEC mode. To disable the display of the messages, use the no form of this command.

debug mpls infra label-broker api key [ vpnv4 | vpnv6 | [rd ip-address]] | [ per-vrf [vrf vrf-name | default | {ipv4 | ipv6}]]

no debug mpls infra label-broker api key [ vpnv4 | vpnv6 | [rd ip-address]] | [ per-vrf [vrf vrf-name | default | {ipv4 | ipv6}]]

Syntax Description

vpnv4

(Optional) Displays Virtual Private Network version 4 (VPNv4) events.

vpnv 6

(Optional) Displays Virtual Private Network version 6 (VPNv6) events.
rd

(Optional) Specifies a route distinguisher (RD) for a VPN routing and forwarding (VRF) instance.

ip-address

IPv4 or IPv6 address and mask.
per-vrf

(Optional) Specifies per-prefix label mode.
vrf vrf-name

(Optional) Displays debugging information for the specified Virtual Private Network (VPN) routing and forwarding (VRF) instance. You can find VRF names using the show ip vrf command.

ipv4

(Optional) Displays track labels for IPv4 prefixes.
ipv6

(Optional) Displays track labels for IPv6 prefixes.
default

(Optional) Displays the default routing/forwarding table.

Command Modes

Privileged EXEC (#)

Command History

Release Modification

Cisco IOS XE Release 3.8S

This command was introduced.

Usage Guidelines

To enable the debug mpls infra label-broker api key command, the user must first enter global configuration mode, and then enter the service internal command, followed by the end command.

Examples

The following shows how to enable the debug mpls infra label-broker api key command: 

Device> enable
Device# configure terminal
Enter configuration commands, one per line.  End with CNTL/Z.
Device(config)# service internal
Device(config)# end
00:01:05: %SYS-5-CONFIG_I: Configured from console by console
Device# debug mpls infra label-broker api key
MFI Label Broker:
  api debugging is on for all IPv4 tables for IPv4 prefix list prefix-list
  api debugging is on for all IPv6 tables
  api debugging is on for all MPLS tables
  api debugging is on for all key entries

Related Commands

Command

Description

debug mpls infra label-broker api

Displays information about the MFI label broker and the API for all prefixes and labels.

debug mpls infra lfd label-block

Displays information about label-block debugging.

debug mpls infra lfd label-broker key

Displays information about keyed label debugging for all key entries.
service internal

Enables infra commands to be configured.

show ip prefix-list

Displays information about a prefix list or prefix list entries.

show ip vrf

Displays the set of defined VPN VRF instances and associated interfaces.

show xconnect

Displays information about xconnect attachment circuits and pseudowires.

debug mpls infra lfd label-block

To display information about label-block debugging, use the debug mpls infra lfd label-block command in privileged EXEC mode. To disable the display of the messages, use the no form of this command.

debug mpls infra lfd label-block [broker]

no debug mpls infra lfd label-block

Syntax Description

broker

(Optional) Displays debug messages for label-block broker events.

Command Modes

Privileged EXEC (#)

Command History

Release Modification

Cisco IOS XE Release 3.8S

This command was introduced.

Usage Guidelines

To enable the debug mpls infra lfd label-block command, the user must first enter global configuration mode, and then enter the service internal command, followed by the end command.

Examples

The following shows how to enable the debug mpls infra lfd label-block command: 

Device> enable
Device# configure terminal
Enter configuration commands, one per line.  End with CNTL/Z.
Device(config)# service internal
Device(config)# end
00:01:05: %SYS-5-CONFIG_I: Configured from console by console
Device# debug mpls infra lfd label-block
  label block debugging is on

Related Commands

Command

Description

debug mpls infra label-broker api

Displays information about the MFI label broker and the API for all prefixes and labels.

debug mpls infra label-broker api key

Displays information about the MFI label broker and track labels for key database entries.

debug mpls infra lfd label-broker key

Displays information about keyed label debugging for all key entries.
service internal

Enables infra commands to be configured.

show ip prefix-list

Displays information about a prefix list or prefix list entries

show ip vrf

Displays the set of defined VPN VRF instances and associated interfaces.

show xconnect

Displays information about xconnect attachment circuits and pseudowires.

debug mpls infra lfd label-broker key

To display information about keyed label debugging for all key entries, use the debug mpls infra lfd label-broker key command in privileged EXEC mode. To disable the display of the messages, use the no form of this command.

debug mpls infra lfd label-broker key [per-vrf | [default | vrf | {vrf-name | {ipv4 | ipv6}}] | | [vpnv4 | vpnv6 | [rd | {ASN:nn | ip-address:nn | {ipv4-address-mask | ipv6-address-prefix}}]]]

no debug mpls infra lfd label-broker key [per-vrf | [default | vrf | {vrf-name | {ipv4 | ipv6}}] | | [vpnv4 | vpnv6 | [rd | {ASN:nn | ip-address:nn | {ipv4-address-mask | ipv6-address-prefix}}]]]

Syntax Description

per-vrf

(Optional) Specifies per-prefix label mode.
default

(Optional) Displays the default routing/forwarding table.
vrf

Displays debugging information for the specified Virtual Private Network (VPN) routing and forwarding (VRF) instance.
vrf-name

The name of the VRF instance. You can find VRF names using the show ip vrf command.

ipv4

Displays track labels for IPv4 prefixes.
ipv6

Displays track labels for IPv6 prefixes.
vpnv4

(Optional) Displays Virtual Private Network version 4 (VPNv4) events.

vpnv6

(Optional) Displays Virtual Private Network version 6 (VPNv6) events.

rd

(Optional) Specifies a route distinguisher (RD) for a VRF instance.

asn:nn

IP address and network number.
ip-address:nn

Autonomous system number (ASN) and network number.

ipv4-address-mask

IPv4 address and subnet mask of the remote peer.

ipv6-address-prefix

IPv6 address and prefix length of the remote peer.

Command Modes

Privileged EXEC (#)

Command History

Release Modification

Cisco IOS XE Release 3.8S

This command was introduced.

Usage Guidelines

To enable the debug mpls infra lfd label-broker key command, the user must first enter global configuration mode, and then enter the service internal command, followed by the end command.

Examples

The following shows how to enable the debug mpls infra lfd label-broker key command: 

Device> enable
Device# configure terminal
Enter configuration commands, one per line.  End with CNTL/Z.
Device(config)# service internal
Device(config)# end
00:01:05: %SYS-5-CONFIG_I: Configured from console by console
Device# debug mpls infra lfd label-broker key
  keyed label debugging is on for all key entries

Related Commands

Command

Description

debug mpls infra label-broker api

Displays information about the MFI label broker and the API for all prefixes and labels.

debug mpls infra label-broker api key

Displays information about the MFI label broker and track labels for key database entries.

debug mpls infra lfd label-block

Displays information about label-block debugging.
service internal

Enables infra commands to be configured.

show ip prefix-list

Displays information about a prefix list or prefix-list entries.
show ip vrf

Displays the set of defined VPN VRF instances and associated interfaces.

show xconnect

Displays information about xconnect attachment circuits and pseudowires.

debug mpls ip iprm

To display debugging information for the Multiprotocol Label Switching (MPLS) IP Rewrite Manager (IPRM), use the debug mpls ip iprm command in privileged EXEC mode. To disable the display of this information, use the no form of this command.

debug mpls ip iprm

no debug mpls ip iprm

Syntax Description

This command has no arguments or keywords.

Command Default

Debugging is not enabled.

Command Modes

Privileged EXEC

Command History

Release

Modification

12.2(25)S

This command was introduced.

12.2(28)SB

This command was integrated into Cisco IOS Release 12.2(28)SB and implemented on the Cisco 10000 series routers.

12.2(33)SRA

This command was integrated into Cisco IOS Release 12.2(33)SRA.

12.2(33)SXH

This command was integrated into Cisco IOS Release 12.2(33)SXH.

12.4(20)T

This command was integrated into Cisco IOS Release 12.4(20)T.

Usage Guidelines

This command displays all output related to IPRM.

Examples

The command in the following examples display all IPRM debugging for the global routing table.

Examples


Router# debug mpls ip iprm 
IPRM debugging is on for global routing table
  iprm: prefix deleted: 10.0.0.44/32(glbl)
  iprm: delete mfi rewrite: 10.0.0.44/32(glbl)
  .
  .
  .
  iprm: discover prefix labels: 10.0.0.44/32(glbl); recurs tree change; ctxt 0x38002
  iprm: get mfi rewrite 10.0.0.44/32(glbl) obtained: 0 fpis/0 mois
  iprm: announce prefix local labels: lcatm; trans #80; 10.0.0.44/32(glbl); 0 labels; flags 0x0
  iprm: update mfi rewrite: 10.0.0.44/32(glbl); prefix label info
  iprm: omit rewrite create: 10.0.0.44/32(glbl)
  iprm: discover prefix labels: 10.0.0.44/32(glbl); recurs tree change; ctxt 0x38000
  iprm: get mfi rewrite 10.0.0.44/32(glbl) obtained: 0 fpis/0 mois
  iprm: announce prefix local labels: lcatm; trans #81; 10.0.0.44/32(glbl); 0 labels; flags 0x0
  iprm: get path labels: 10.0.0.44/32(glbl); nh 10.0.0.55(glbl), Et4/0/1; trans #81; recurs tree change
  iprm: ldm get path labels: 10.0.0.44/32(glbl), ldp; flags 0x8000
  iprm: announce prefix local labels: ldp; trans #81; 10.0.0.44/32(glbl); 1 label; flags 0x0
  iprm:    lab 21, ltbl 0
  iprm: announce path labels: ldp; trans #81; 10.0.0.44/32(glbl); 0 labels; flags 0x0
  iprm:    path: nh 10.0.0.55(glbl), Et4/0/1
  iprm: update mfi rewrite: 10.0.0.44/32(glbl); prefix label info
  iprm:    lcl lab 21, ltbl 0, ldp
  iprm:    path lab -, nh 10.0.0.55(glbl), Et4/0/1; ldp
  iprm: create mfi rewrite 10.0.0.44/32(glbl) passed: 2 fpis/1 mois
  iprm:    fpi[0] IV4, owner IPRM; 10.0.0.44/32; glbl
  iprm:    fpi[1] LBL, owner LDP; 21, ltbl 0
  iprm:    moi[0] PKT, flags 0x8; lab label-no-label; nh 10.0.0.55; nh if Et4/0/1 (nsf)

Examples


Router# debug mpls ip iprm 
IPRM debugging is on for global routing table
  iprm: prefix deleted: 10.0.0.44/32(glbl)
  iprm: delete mfi rewrite: 10.0.0.44/32(glbl)
  .
  .
  .
  iprm: discover prefix labels: 10.0.0.44/32(glbl); recurs tree change; ctxt 0x38002
  iprm: get mfi rewrite 10.0.0.44/32(glbl) obtained: 0 fpis/0 mois
  
  iprm: update mfi rewrite: 10.0.0.44/32(glbl); prefix label info
  iprm: omit rewrite create: 10.0.0.44/32(glbl)
  iprm: discover prefix labels: 10.0.0.44/32(glbl); recurs tree change; ctxt 0x38000
  iprm: get mfi rewrite 10.0.0.44/32(glbl) obtained: 0 fpis/0 mois
  
  iprm: get path labels: 10.0.0.44/32(glbl); nh 10.0.0.55(glbl), GigabitEthernet4/0/0; trans #81; recurs tree change
  iprm: ldm get path labels: 10.0.0.44/32(glbl), ldp; flags 0x8000
  iprm: announce prefix local labels: ldp; trans #81; 10.0.0.44/32(glbl); 1 label; flags 0x0
  iprm:    lab 21, ltbl 0
  iprm: announce path labels: ldp; trans #81; 10.0.0.44/32(glbl); 0 labels; flags 0x0
  iprm:    path: nh 10.0.0.55(glbl), GigabitEthernet4/0/0
 
  iprm: update mfi rewrite: 10.0.0.44/32(glbl); prefix label info
  iprm:    lcl lab 21, ltbl 0, ldp
  iprm:    path lab -, nh 10.0.0.55(glbl), GigabitEthernet4/0/0; ldp
  iprm: create mfi rewrite 10.0.0.44/32(glbl) passed: 2 fpis/1 mois
  iprm:    fpi[0] IV4, owner IPRM; 10.0.0.44/32; glbl
  iprm:    fpi[1] LBL, owner LDP; 21, ltbl 0
  iprm:    moi[0] PKT, flags 0x8; lab label-no-label; nh 10.0.0.55; nh if GigabitEthernet4/0/0 (nsf)

The table below describes the significant fields shown in the display. The field descriptions also apply to the output of following debug commands:

  • debug mpls ip iprm cef

  • debug mpls ip iprm events

  • debug mpls ip iprm ldm

  • debug mpls ip iprm mfi

Table 6. debug mpls ip iprm Field Descriptions

Field

Description

discover prefix labels

The prefix labels that the IP LDM discovered.

announce prefix local labels announce path labels

IP LDMs pass prefix incoming (local) and outgoing (path) labels to IPRM by announcing the labels.

mfi rewrite

The information required by MPLS Forwarding Infrastructure (MFI) to create forwarding data structures for an MPLS forwarding equivalence class (FEC). For IP over MPLS a prefix is an MPLS FEC. An MFI rewrite includes a set of forwarding path identifier (FPI) and MPLS output information (MOI) elements.

fpi

Forwarding path identifier, which is required to locate MPLS forwarding information for a FEC. IP over MPLS deals with several types of FPIs, including IPv4 (IV4), IPv6 (IV6), and label (LBL) FPIs.

Note 

The Cisco 10000 series router does not support IPv6.

moi

MPLS output information. For IP over MPLS, there is a MOI for each prefix path. The MOI includes the next hop (nh), outgoing interface (nh if), and outgoing label. IP over MPLS handles several types of MOIs, including packet (PKT) and ATM (ATM).

get/create/update MFI rewrite

The process IPRM uses to read (get) or update (create/update) an MFI rewrite.

recurs tree change

Recursion tree change. Cisco Express Forwarding notifies IPRM when the recursion tree (see below) for a prefix changes. IPRM responds by performing label discovery (see above).

recursion tree

A prefix known to Cisco Express Forwarding can have one or more paths (routes). Each is either a terminal path with a next hop and an outgoing interface or a recursive path with a next hop and no outgoing interface. The next hop for a recursive path typically matches a prefix known to Cisco Express Forwarding. That prefix also has one or more paths. The IP recursion tree for prefix P is a tree rooted at P's Cisco Express Forwarding entry with one of more path descendants. Terminal paths are leaf nodes in P's recursion tree and recursive paths are nonleaf nodes, each of which points to the Cisco Express Forwarding entry for its next hop.

glbl

The global (default) routing table.

ctxt

Context. Information used by IPRM when it performs label discovery.

flags

Information passed between IPRM and other components.

trans #

Transaction number used to identify an ongoing label discovery.

ltbl

Label table.

nsf

Nonstop forwarding.

Related Commands

Command

Description

debug mpls ip iprm cef

Displays debugging information for interactions between Cisco Express Forwarding and the IPRM.

debug mpls ip iprm events

Displays events related to the MPLS IPRM.

debug mpls ip iprm ldm

Displays debugging information for interactions between the LDMs and the MPLS IPRM.

debug mpls ip iprm mfi

Displays debugging information for interactions between the MFI and the MPLS IPRM.

debug mpls ip iprm cef

To display debugging information for interactions between Cisco Express Forwarding and the Multiprotocol Label Switching (MPLS) IP Rewrite Manager (IPRM), use the debug mpls ip iprm cef command in privileged EXEC mode. To disable the display of these events, use the no form of this command.

debug mpls ip iprm cef [table {all | table-id} | vrf vrf-name | acl acl-name | prefix-list prefix-list-name]

no debug mpls ip iprm cef

Syntax Description

table

(Optional) Displays the debugging information for one or more routing tables.

all

Displays debugging information for all routing tables.

table-id

The ID of the routing table for which you want to display debugging information. Table 0 is the default or global routing table.

vrf

(Optional) Displays debugging information for the VPN routing and forwarding (VRF) instance you specify.

vrf-name

The name of the VRF instance. You can find VRF names with the show ip vrf command.

acl

(Optional) Displays debugging information for the access control list (ACL) you specify.

acl-name

The name of the ACL. You can find ACL names with the show ip access-list command.

prefix-list

(Optional) Displays debugging information for the prefix list you specify.

prefix-list-name

The name of the prefix list. You can find prefix list names with the show ip prefix-list command.

Command Default

Debugging is not enabled. If you do not supply an optional keyword, all the debugging events are displayed.

Command Modes

Privileged EXEC

Command History

Release

Modification

12.2(25)S

This command was introduced.

12.2(28)SB

This command was integrated into Cisco IOS Release 12.2(28)SB and implemented on the Cisco 10000 series routers.

12.2(33)SRA

This command was integrated into Cisco IOS Release 12.2(33)SRA.

12.2(33)SXH

This command was integrated into Cisco IOS Release 12.2(33)SXH.

12.4(20)T

This command was integrated into Cisco IOS Release 12.4(20)T.

Usage Guidelines

This command limits the debug output to the IPRM interactions with Cisco Express Forwarding.

Examples

In the following example, IPRM events related to Cisco Express Forwarding are displayed.

Examples


Router# debug mpls ip iprm cef
IPRM CEF interaction debugging is on for global routing table
iprm: prefix deleted: 10.0.0.44/32(glbl)
  iprm: discover prefix labels: 10.0.0.44/32(glbl); recurs tree change; ctxt 0x38002
  iprm: announce prefix local labels: lcatm; trans #94; 10.0.0.44/32(glbl); 0 labels; flags 0x0
  .
  .
  .
  iprm: discover prefix labels: 10.0.0.44/32(glbl); recurs tree change; ctxt 0x38000
  iprm: announce prefix local labels: lcatm; trans #97; 10.0.0.44/32(glbl); 0 labels; flags 0x0
  iprm: get path labels: 10.0.0.44/32(glbl); nh 10.0.0.55(glbl), Et4/0/1; trans #97; recurs tree change
  iprm: announce prefix local labels: ldp; trans #97; 10.0.0.44/32(glbl); 1 label; flags 0x0
  iprm:    lab 21, ltbl 0
  iprm: announce path labels: ldp; trans #97; 10.0.0.44/32(glbl); 0 labels; flags 0x0
  iprm:    path: nh 10.0.0.55(glbl), Et4/0/1

Examples


Router# debug mpls ip iprm cef
IPRM CEF interaction debugging is on for global routing table
iprm: prefix deleted: 10.0.0.44/32(glbl)
  iprm: discover prefix labels: 10.0.0.44/32(glbl); recurs tree change; ctxt 0x38002
  .
  .
  .
  iprm: discover prefix labels: 10.0.0.44/32(glbl); recurs tree change; ctxt 0x38000
  
  iprm: get path labels: 10.0.0.44/32(glbl); nh 10.0.0.55(glbl), GigabitEthernet4/0/0; trans #97; recurs tree change
  iprm: announce prefix local labels: ldp; trans #97; 10.0.0.44/32(glbl); 1 label; flags 0x0
  iprm:    lab 21, ltbl 0
  iprm: announce path labels: ldp; trans #97; 10.0.0.44/32(glbl); 0 labels; flags 0x0
  iprm:    path: nh 10.0.0.55(glbl), GigabitEthernet4/0/0

See the field descriptions for the debug mpls ip iprm command for an explanation of the fields displayed in the output.

Related Commands

Command

Description

debug mpls ip iprm events

Displays events related to the MPLS IPRM.

debug mpls ip iprm ldm

Displays debugging information for interactions between the IP LDMs and the MPLS IPRM.

debug mpls ip iprm mfi

Displays debugging information for interactions between the MFI and the MPLS IPRM.

debug mpls ip iprm events

To display events related to the Multiprotocol Label Switching (MPLS) IP Rewrite Manager (IPRM), use the debug mpls ip iprm events command in privileged EXEC mode. To disable the display of these events, use the no form of this command.

debug mpls ip iprm events

no debug mpls ip iprm events

Syntax Description

This command has no arguments or keywords.

Command Default

Debugging is not enabled.

Command Modes

Privileged EXEC

Command History

Release

Modification

12.2(25)S

This command was introduced.

12.2(28)SB

This command was integrated into Cisco IOS Release 12.2(28)SB and implemented on the Cisco 10000 series routers.

12.2(33)SRA

This command was integrated into Cisco IOS Release 12.2(33)SRA.

12.2(33)SXH

This command was integrated into Cisco IOS Release 12.2(33)SXH.

12.4(20)T

This command was integrated into Cisco IOS Release 12.4(20)T.

Examples

See the command page for debug mpls ip iprm for sample command output and an explanation of the fields displayed in the output.

Related Commands

Command

Description

debug mpls ip iprm cef

Displays debugging information for interactions between Cisco Express Forwarding and the IPRM.

debug mpls ip iprm ldm

Displays debugging information for interactions between the LDMs and the MPLS IPRM.

debug mpls ip iprm mfi

Displays debugging information for interactions between the MFI and the MPLS IPRM.

debug mpls ip iprm ldm

To display debugging information for interactions between the IP Label Distribution Modules (LDMs) and the Multiprotocol Label Switching (MPLS) IP Rewrite Manager (IPRM), use the debug mpls ip iprm ldm command in privileged EXEC mode. To disable the display of this information, use the no form of this command.

debug mpls ip iprm ldm [bgp | lcatm | ldp | vpnv4 | 6pe | table {all | table-id} | vrf vrf-name | acl acl-name | prefix-list prefix-list-name]

no debug mpls ip iprm ldm

Cisco 10000 Series Routers

debug mpls ip iprm ldm [bgp | ldp | vpnv4 | table {all | table-id} | vrf vrf-name | acl acl-name | prefix-list prefix-list-name]

no debug mpls ip iprm ldm

Syntax Description

bgp

(Optional) Displays Border Gateway Protocol (BGP) events.

lcatm

(Optional) Displays Label Controlled ATM (LC-ATM) events.

Note 

This keyword applies to Cisco 7000 series routers only.

ldp

(Optional) Displays Label Distribution Protocol (LDP) events.

vpnv4

(Optional) Displays Virtual Private Network (VPNv4) events.

6pe

(Optional) Displays IPv6 over MPLS events.

Note 

This keyword applies to Cisco 7000 series routers only.

table

(Optional) Displays debugging information for one or more routing tables.

all

(Optional) Displays debugging information for all routing tables.

table-id

(Optional) Specifies the routing table for which you want to display debugging information. Table 0 is the default or global routing table.

vrf

(Optional) Displays debugging information for the VPN routing and forwarding (VRF) instance you specify.

vrf-name

(Optional) The name of the VRF instance. You can find VRF names with the show ip vrf command.

acl

(Optional) Displays debugging information for the access control list (ACL) you specify.

acl-name

(Optional) The name of the ACL. You can find ACL names with the show ip access-list command.

prefix-list

(Optional) Displays debugging information for the prefix list you specify.

prefix-list-name

(Optional) The name of the prefix list. You can find prefix list names with the show ip prefix-list command.

Command Default

Debugging is not enabled. If you do not supply an optional keyword, all the debugging events are displayed.

Command Modes

Privileged EXEC

Command History

Release

Modification

12.2(25)S

This command was introduced.

12.2(28)SB

This command was integrated into Cisco IOS Release 12.2(28)SB and implemented on the Cisco 10000 series routers.

12.2(33)SRA

This command was integrated into Cisco IOS Release 12.2(33)SRA.

12.2(33)SXH

This command was integrated into Cisco IOS Release 12.2(33)SXH.

12.4(20)T

This command was integrated into Cisco IOS Release 12.4(20)T.

Examples

See the debug mpls ip iprm command page for sample output and an explanation of the fields displayed in the output.

Related Commands

Command

Description

debug mpls ip iprm cef

Displays debugging information for interactions between Cisco Express Forwarding and the IPRM.

debug mpls ip iprm events

Displays debugging information about events related to the MPLS IPRM.

debug mpls ip iprm mfi

Displays debugging information for interactions between the MFI and the MPLS IPRM.

debug mpls ip iprm mfi

To display debugging information for interactions between the Multiprotocol Label Switching (MPLS) Forwarding Infrastructure (MFI) and the MPLS IP Rewrite Manager (IPRM), use the debug mpls ip iprm mfi command in privileged EXEC mode. To disable the display of this information, use the no form of this command.

debug mpls ip iprm mfi [table {all | table-id} | vrf vrf-name | acl acl-name | prefix-list prefix-list-name]

no debug mpls ip iprm mfi

Syntax Description

table

(Optional) Displays debugging information for one or more routing tables.

all

(Optional) Displays debugging information for all routing tables.

table-id

(Optional) Displays debugging information for the routing table you specify. Table 0 is the default or global routing table.

vrf

(Optional) Displays debugging information for the VPN Routing and Forwarding (VRF) instance you specify.

vrf-name

(Optional) The name of the VRF instance. You can find VRF names with the show ip vrf command.

acl

(Optional) Displays debugging information for the access control list (ACL) you specify.

acl-name

(Optional) The name of the ACL. You can find ACL names with the show ip access-list command.

prefix-list

(Optional) Displays debugging information for the prefix list you specify.

prefix-list-name

(Optional) The name of the prefix list. You can find prefix list names with the show ip prefix-list command.

Command Default

Debugging is not enabled. If you enable debugging but do not supply an optional keyword, all the debugging events are displayed.

Command Modes

Privileged EXEC

Command History

Release

Modification

12.2(25)S

This command was introduced.

12.2(28)SB

This command was integrated into Cisco IOS Release 12.2(28)SB and implemented on the Cisco 10000 series routers.

12.2(33)SRA

This command was integrated into Cisco IOS Release 12.2(33)SRA.

12.2(33)SXH

This command was integrated into Cisco IOS Release 12.2(33)SXH.

12.4(20)T

This command was integrated into Cisco IOS Release 12.4(20)T.

Examples

The command in the following example displays MFI events.

Examples


Router# debug mpls ip iprm mfi
IPRM MFI interaction debugging is on for global routing table
iprm: delete mfi rewrite: 10.0.0.44/32(glbl)
 .
 .
 .
  iprm: get mfi rewrite 10.0.0.44/32(glbl) obtained: 0 fpis/0 mois
  iprm: update mfi rewrite: 10.0.0.44/32(glbl); prefix label info
  iprm: omit rewrite create: 10.0.0.44/32(glbl)
 .
 .
 .
  iprm: get mfi rewrite 10.0.0.44/32(glbl) obtained: 0 fpis/0 mois
  iprm: update mfi rewrite: 10.0.0.44/32(glbl); prefix label info
  iprm:    lcl lab 21, ltbl 0, ldp
  iprm:    path lab -, nh 10.0.0.55(glbl), Et4/0/1; ldp
  iprm: create mfi rewrite 10.0.0.44/32(glbl) passed: 2 fpis/1 mois
  iprm:    fpi[0] IV4, owner IPRM; 10.0.0.44/32; glbl
  iprm:    fpi[1] LBL, owner LDP; 21, ltbl 0
  iprm:    moi[0] PKT, flags 0x8; lab label-no-label; nh 10.0.0.55; nh if Et4/0/1 (nsf)

Examples


Router# debug mpls ip iprm mfi
IPRM MFI interaction debugging is on for global routing table
iprm: delete mfi rewrite: 10.0.0.44/32(glbl)
 .
 .
 .
  iprm: get mfi rewrite 10.0.0.44/32(glbl) obtained: 0 fpis/0 mois
  iprm: update mfi rewrite: 10.0.0.44/32(glbl); prefix label info
  iprm: omit rewrite create: 10.0.0.44/32(glbl)
 .
 .
 .
  iprm: get mfi rewrite 10.0.0.44/32(glbl) obtained: 0 fpis/0 mois
  iprm: update mfi rewrite: 10.0.0.44/32(glbl); prefix label info
  iprm:    lcl lab 21, ltbl 0, ldp
  iprm:    path lab -, nh 10.0.0.55(glbl), GigabitEthernet4/0/0; ldp
  iprm: create mfi rewrite 10.0.0.44/32(glbl) passed: 2 fpis/1 mois
  iprm:    fpi[0] IV4, owner IPRM; 10.0.0.44/32; glbl
  iprm:    fpi[1] LBL, owner LDP; 21, ltbl 0
  iprm:    moi[0] PKT, flags 0x8; lab label-no-label; nh 10.0.0.55; nh if   GigabitEthernet4/0/0 (nsf)

See the debug mpls ip iprm command page for an explanation of the fields displayed in the output.

Related Commands

Command

Description

debug mpls ip iprm cef

Displays debugging information for interactions between Cisco Express Forwarding and the MPLS IPRM .

debug mpls ip iprm events

Displays events related to the MPLS IPRM.

debug mpls ip iprm ldm

Displays debugging information for interactions between the IP LDMs and the MPLS IPRM.

debug mpls l2transport checkpoint

To enable the display of Any Transport over MPLS (AToM) events when AToM is configured for nonstop forwarding/stateful switchover (NSF/SSO) and Graceful Restart, use the debug mpls l2transport checkpoint command in privileged EXEC mode. To disable the display of these messages, use the no form of this command.

debug mpls l2transport checkpoint

no debug mpls l2transport checkpoint

Syntax Description

This command has no arguments or keywords.

Command Default

Debugging of the AToM NSF/SSO and Graceful Restart feature is disabled.

Command Modes

Privileged EXEC (#)

Command History

Release

Modification

12.2(25)S

This command was introduced.

12.2(28)SB

This command was integrated into Cisco IOS Release 12.2(28)SB.

12.2(33)SRA

This command was integrated into Cisco IOS Release 12.2(33)SRA.

12.2(33)SRC

This command was integrated into Cisco IOS Release 12.2(33)SRC.

Usage Guidelines

Use debug commands with care. They use a significant amount of CPU time and can affect system performance.

Examples

In the following example, the output shows that NSF/SSO and Graceful Restart synchronize the data between the active and backup Route Processors after an AToM virtual circuit (VC) is created. (Both the debug mpls l2transport checkpoint and the debug acircuit checkpoint commands are enabled in this example.)

The debug mpls l2transport checkpoint command is enabled on the active RP: 


Router# debug mpls l2transport checkpoint
Router# debug acircuit checkpoint
Router# show debug
AToM HA:
  AToM checkpointing events and errors debugging is on
AC HA:
  Attachment Circuit Checkpoint debugging is on
Router# configure terminal
Enter configuration commands, one per line.  End with CNTL/Z.
Router(config)# interface Fa5/1/1.2
Router(config-subif)# xconnect 10.55.55.2 1002 pw-class mpls
AToM HA [10.55.55.2, 1002]: Build provision msg, SSM sw/seg 8192/8194 [0x2000/0x2002] PW id 9216 [0x2400] local label 21
AC HA: Dynamic Sync. Event:4 Sw:8192[2000] Se:16385[4001]
AToM HA: CF sync send complete
AC HA CF: Sync send complete. Code:0

On the standby Route Processor, the following messages indicate that it receives checkpointing data: 


AC HA [10.55.55.2, 1002]: Add to WaitQ. Flags:1
AToM HA [105.55.55.2, 1002]: Received 32-byte provision version 1 CF message
AC HA CF: ClientId:89, Entity:0 Length:40
AToM HA [10.55.55.2, 1002]: Process chkpt msg provision [1], ver 1
AToM HA [10.55.55.2, 1002]: Reserved SSM sw/seg 8192/8194 [0x2000/0x2002] PW id 9216 [0x2400]
AC HA: Process Msg:35586. Ptr:44CBFD90. Val:0
AC HA: Sync. Event:4 CktType:4 Sw:8192[2000] Se:16385[4001]
AC HA [10.55.55.2, 1002]: Remove from WaitQ. Flags:1[OK][OK]

During a switchover from the active to the backup Route Processor, the debug messages look similar to the following: 


%HA-5-MODE: Operating mode is hsa, configured mode is sso.
AC HA RF: CId:83, Seq:710, Sta:RF_STATUS_OPER_REDUNDANCY_MODE_CHANGE, Opr:5, St:STANDBY HOT, PSt:ACTIVE
AToM HA: CID 84, Seq 715, Status RF_STATUS_OPER_REDUNDANCY_MODE_CHANGE, Op 5, State STANDBY HOT, Peer ACTIVE
AC HA RF: CId:83, Seq:710, Sta:RF_STATUS_PEER_PRESENCE, Opr:0, St:STANDBY HOT, PSt:ACTIVE
AToM HA: CID 84, Seq 715, Status RF_STATUS_PEER_PRESENCE, Op 0, State STANDBY HOT, Peer ACTIVE
AC HA RF: CId:83, Seq:710, Sta:RF_STATUS_PEER_COMM, Opr:0, St:STANDBY HOT, PSt:DISABLED
AToM HA: CID 84, Seq 715, Status RF_STATUS_PEER_COMM, Op 0, State STANDBY HOT, Peer DISABLED
%HA-2-CUTOVER_NOTICE: Cutover initiated. Cease all console activity until system restarts.
%HA-2-CUTOVER_NOTICE: Do not add/remove RSPs or line cards until switchover completes.
%HA-2-CUTOVER_NOTICE: Deinitializing subsystems...
%OIR-6-REMCARD: Card removed from slot 4, interfaces disabled
%OIR-6-REMCARD: Card removed from slot 5, interfaces disabled
%OIR-6-REMCARD: Card removed from slot 9, interfaces disabled
%HA-2-CUTOVER_NOTICE: Reinitializing subsystems...
%HA-2-CUTOVER_NOTICE: System preparing to restart...
%HA-5-NOTICE: Resuming initialization...
AC HA RF: CId:83, Seq:710, Sta:RF_STATUS_REDUNDANCY_MODE_CHANGE, Opr:7, St:STANDBY HOT, PSt:DISABLED
.
.
.
%LDP-5-GR: LDP restarting gracefully.  Preserving forwarding state for 250 seconds.
AC HA RF: CId:83, Seq:710, Sta:RF_PROG_ACTIVE, Opr:0, St:ACTIVE, PSt:DISABLED
AToM HA: CID 84, Seq 715, Event RF_PROG_ACTIVE, Op 0, State ACTIVE, Peer DISABLED
AC HA: Process Msg:35588. Ptr:0. Val:0
AC HA: Switchover: Standby->Active
AC HA RF: Reconciling

Related Commands

Command

Description

debug acircuit checkpoint

Enables the display of AToM attachment circuit events when AToM is configured for NSF/SSO and Graceful Restart.

debug mpls l2transport fast-reroute

To enable the display of Fast Reroute debugging information, use the debug mpls l2transport fast-reroute command in privileged EXEC mode. To stop the display of these messages, use the no form of this command.

debug mpls l2transport fast-reroute commanddebug mpls l2transport fast-reroute

no debug mpls l2transport fast-reroute

Syntax Description

This command has no arguments or keywords.

Command Default

Debugging of the fast reroute feature is not enabled.

Command Modes

Privileged EXEC (#)

Command History

Release

Modification

12.0(25)S

This command was introduced.

12.2(33)SRA

This command was integrated into Cisco IOS Release 12.2(33)SRA.

12.2SX

This command is supported in the Cisco IOS Release 12.2SX train. Support in a specific 12.2SX release of this train depends on your feature set, platform, and platform hardware.

Usage Guidelines

This command does not display output on platforms where AToM Fast Reroute is implemented in the forwarding code. This command does not display output for the Cisco 7500 (both RP and VIP) series routers, 7200 series routers, and Cisco 12000 series route processor. The command does display output on Cisco 10720 Internet router line cards and Cisco 12000 series line cards.

Examples

In the following example, the primary link is disabled, which causes the backup tunnel (Tu1) to become the primary path. 


Router# execute-on slot 3 debug mpls l2transport fast-reroute
========= Line Card (Slot 3) =========
AToM fast reroute debugging is on
SLOT 3:Sep 16 17:58:56.346: AToM SMGR: Processing TFIB FRR event for 1.4.0.1
SLOT 3:Sep 16 17:58:56.346: AToM SMGR: Finished processing TFIB FRR event for 1.4.0.1
SLOT 3:Sep 16 17:58:56.346: AToM SMGR: Processing TFIB FRR event for Tunnel41
SLOT 3:Sep 16 17:58:56.346: AToM SMGR: Finished processing TFIB FRR event for Tunnel41
Sep 16 17:58:58.342: %LINK-3-UPDOWN: Interface POS0/0, changed state to down
Sep 16 17:58:58.342: %OSPF-5-ADJCHG: Process 1, Nbr 1.0.0.1 on POS0/0 from FULL to DOWN, Neighbor Down: Interface down or detached
Sep 16 17:58:59.342: %LINEPROTO-5-UPDOWN: Line protocol on Interface POS0/0, changed state to down

Related Commands

Command

Description

show mpls traffic-eng fast-reroute database

Displays the contents of the Fast Reroute database.

debug mpls l2transport ipc

To display the interprocessor communication (IPC) messages exchanged between distributed platforms, such as the Cisco 12000 series router and the Cisco 7500 series routers, use the debug mpls l2transport ipc command in privileged EXEC mode. To disable debugging output, use the no form of this command.

debug mpls l2transport ipc

no debug mpls l2transport ipc

Syntax Description

This command has no arguments or keywords.

Command Modes

Privileged EXEC

Command History

Release

Modification

12.0(23)S

This command was introduced.

12.2(14)S

This command was integrated into Cisco IOS Release 12.2(14)S.

12.2(15)T

This command was integrated into Cisco IOS Release 12.2(15)T.

12.2(33)SRA

This command was integrated into Cisco IOS Release 12.2(33)SRA.

Usage Guidelines

You can issue this command either from the line card or the route processor to log Any Transport over MPLS (AToM) updates to or from line cards. This command applies only to platforms that support distributed mode.

Examples

The following is sample output from the debug mpls l2transport ipc command: 


Router# debug mpls l2transport ipc
AToM ipc debugging is on
*May 27 23:56:04.699 UTC: AToM SMGR: Repopulating line card 255
*May 27 23:56:04.699 UTC: AToM SMGR [17.17.17.17, 1101]: Sending Imposition update to slot 255
*May 27 23:56:04.699 UTC: AToM SMGR [17.17.17.17, 1101]: Imposition being done on ingress interface
*May 27 23:56:04.699 UTC: AToM SMGR [17.17.17.17, 1101]: Sending disposition update to slot 255
*May 27 23:56:04.699 UTC: AToM SMGR [17.17.17.17, 1101]: Distributing disposition info to all linecards
*May 27 23:56:04.699 UTC: AToM SMGR [17.17.17.17, 701]: Sending Imposition update to slot 255
*May 27 23:56:04.699 UTC: AToM SMGR [17.17.17.17, 701]: Imposition being done on ingress interface
*May 27 23:56:04.699 UTC: AToM SMGR [17.17.17.17, 701]: Sending disposition update to slot 255
*May 27 23:56:04.699 UTC: AToM SMGR [17.17.17.17, 701]: Distributing disposition info to all linecards
*May 27 23:56:04.699 UTC: AToM SMGR [17.17.17.17, 1201]: Sending Imposition update to slot 255
*May 27 23:56:04.699 UTC: AToM SMGR [17.17.17.17, 1201]: Imposition being done on ingress interface
*May 27 23:56:04.699 UTC: AToM SMGR [17.17.17.17, 1201]: Sending disposition update to slot 255
*May 27 23:56:04.699 UTC: AToM SMGR [17.17.17.17, 1201]: Distributing disposition info to all linecards

debug mpls l2transport packet

To display information about the status of Any Transport over MPLS (AToM) switched packets, use the debug mpls l2transport packet command in privileged EXEC mode. To disable debugging output, use the no form of this command.

debug mpls l2transport packet {data | error}

no debug mpls l2transport packet {data | error}

Syntax Description

data

Displays (in hex) the AToM switched packets for imposition and disposition. This can help validate that packets are flowing between the customer edge (CE) routers. Also, you can display the packets to check the format of the data or the data itself.

error

Displays AToM switching errors, such as the reason that packets cannot be switched. This can help identify why data is not being transported.

Command Modes

Privileged EXEC

Command History

Release

Modification

12.0(23)S

This command was introduced.

12.2(14)S

This command was integrated into Cisco IOS Release 12.2(14)S.

12.2(15)T

This command was integrated into Cisco IOS Release 12.2(15)T.

12.2(33)SRA

This command was integrated into Cisco IOS Release 12.2(33)SRA.

Usage Guidelines

Use this command sparingly because the command output can be overwhelming.

For platforms that support distributed switching, the command displays output only for packets switched by the central route processor module. Packets switched autonomously by the linecards are not displayed. For example, packets switched by Versatile Interface Processors (VIPs) on the Cisco 7500 router are not displayed.

Examples

The following is sample output from the debug mpls l2transport packet commands for a PPP over MPLS configuration: 


Router# debug mpls l2transport packet data
AToM packet data debugging is on
Router# debug mpls l2transport packet error
AToM packet errors debugging is on
Router# show debug
 
AToM:
  AToM packet data debugging is on
  AToM packet errors debugging is on
*Mar 24 23:29:30.495: ATOM-PPP Switching: check features failed.
*Mar 24 23:29:30.495: ATOM-PPP Switching (Fast) Imposition Packet data: experimental bits are 0
*Mar 24 23:29:30.495: 0F 00 88 47 00 01 10 FF 00 01 51 02 00 00 00 00 
*Mar 24 23:29:30.495: 00 FD C0 01 01 01 C0 4B 41 73 F4 00 01 00 02 CC 
*Mar 24 23:29:30.495: 66 51 88 B4 CE 73 39 00 00 40 00 88 03 02 00 70 
*Mar 24 23:29:30.495: 23 30 00 04 3C 61 83 C0 00 06 00 06 94 CC A7 23 
*Mar 24 23:29:30.495: 49 84 D8 33 17 8C F2 60 00 11 9E 80 00 50 08 08 
*Mar 24 23:29:30.495: 86 69 39 98 CD E2 02 49 B8 E9 9D 0D C6 53 A1 DC 
*Mar 24 23:29:30.495: DE 72 35 88 09 E7 0C 60 61 3A 1A 4D C6 71 01 4C 
*Mar 24 23:29:30.495: F2 73 CC 06 DC 38 6F 33 66 83 09 C8 CA 20 05 12 
*Mar 24 23:29:30.495: 49 E5 31 00 A0 E8 6D 14 88 06 E3 21 80 C3 31 E4 
*Mar 24 23:29:30.495: 28 21 E4 21 69 28 A6 2D 26 8A 45 82 02 B6 FC 39 
*Mar 24 23:29:30.499: D8 60 A3 62 B1 60 A5 80 
*Mar 24 23:29:31.835: ATOM-L2 Switching Disposition Packet data:
*Mar 24 23:29:31.835: FF 03 00 FD C0 04 8A 57 FF FF FF FF FF FF FF FF 
*Mar 24 23:29:31.835: FF FF FB 14 B0 00 
*Mar 24 23:29:49.423: ATOM-L2 Switching Disposition Packet data:
*Mar 24 23:29:49.423: FF 03 C0 21 01 11 00 0F 03 05 C2 23 05 05 06 5F 
*Mar 24 23:29:49.423: 23 35 D4 
*Mar 24 23:29:49.435: ATOM-PPP Switching: check features failed.
*Mar 24 23:29:49.435: ATOM-PPP Switching (Fast) Imposition Packet data: experimental bits are 0
*Mar 24 23:29:49.435: 0F 00 88 47 00 01 10 FF 00 01 61 02 00 15 00 00 
*Mar 24 23:29:49.435: C0 21 01 2F 00 0F 03 05 C2 23 05 05 06 5F CC 5F 
*Mar 24 23:29:49.435: E5 
*Mar 24 23:29:49.435: ATOM-PPP Switching: check features failed.
*Mar 24 23:29:49.435: ATOM-PPP Switching (Fast) Imposition Packet data: experimental bits are 0
*Mar 24 23:29:49.435: 0F 00 88 47 00 01 10 FF 00 01 61 02 00 15 00 00 
*Mar 24 23:29:49.435: C0 21 02 11 00 0F 03 05 C2 23 05 05 06 5F 23 35 
*Mar 24 23:29:49.435: D4 
*Mar 24 23:29:49.443: ATOM-L2 Switching Disposition Packet data:
*Mar 24 23:29:49.443: FF 03 C0 21 02 2F 00 0F 03 05 C2 23 05 05 06 5F 
*Mar 24 23:29:49.443: CC 5F E5 
*Mar 24 23:29:49.447: ATOM-L2 Switching Disposition Packet data:
*Mar 24 23:29:49.447: FF 03 C2 23 01 D0 00 1C 10 45 59 13 1A 92 FD 93 
*Mar 24 23:29:49.447: 01 A2 CF B6 FB 3A 04 46 93 63 65 32 2D 67 73 72 
*Mar 24 23:29:49.451: ATOM-PPP Switching: check features failed.
*Mar 24 23:29:49.451: ATOM-PPP Switching (Fast) Imposition Packet data: experimental bits are 0
*Mar 24 23:29:49.451: 0F 00 88 47 00 01 10 FF 00 01 61 02 00 22 00 00 
*Mar 24 23:29:49.451: C2 23 01 F5 00 1C 10 F1 98 35 3F 79 F2 1A 15 10 
*Mar 24 23:29:49.451: B4 C0 73 D7 B1 9F 2A 63 65 31 2D 67 73 72 
*Mar 24 23:29:49.455: ATOM-PPP Switching: check features failed.
*Mar 24 23:29:49.455: ATOM-PPP Switching (Fast) Imposition Packet data: experimental bits are 0
*Mar 24 23:29:49.455: 0F 00 88 47 00 01 10 FF 00 01 61 02 00 22 00 00 
*Mar 24 23:29:49.455: C2 23 02 D0 00 1C 10 56 4A 32 5B 99 55 D5 CF 44 
*Mar 24 23:29:49.455: FC D3 D9 3F CC 8C A8 63 65 31 2D 67 73 72 
*Mar 24 23:29:49.463: ATOM-L2 Switching Disposition Packet data:
*Mar 24 23:29:49.463: FF 03 C2 23 02 F5 00 1C 10 45 84 E4 E5 DD C0 5F 
*Mar 24 23:29:49.463: FD 2F 37 63 9A 3D 03 7B B9 63 65 32 2D 67 73 72 
*Mar 24 23:29:49.463: ATOM-L2 Switching Disposition Packet data:
*Mar 24 23:29:49.463: FF 03 C2 23 03 D0 00 04 
*Mar 24 23:29:49.471: ATOM-PPP Switching: check features failed.
*Mar 24 23:29:49.471: ATOM-PPP Switching (Fast) Imposition Packet data: experimental bits are 0
*Mar 24 23:29:49.471: 0F 00 88 47 00 01 10 FF 00 01 61 02 00 0A 00 00 
*Mar 24 23:29:49.471: C2 23 03 F5 00 04 
*Mar 24 23:29:49.471: ATOM-PPP Switching: check features failed.
*Mar 24 23:29:49.471: ATOM-PPP Switching (Fast) Imposition Packet data: experimental bits are 0
*Mar 24 23:29:49.471: 0F 00 88 47 00 01 10 FF 00 01 61 02 00 10 00 00 
*Mar 24 23:29:49.471: 80 21 01 0B 00 0A 03 06 78 01 01 78 
*Mar 24 23:29:49.475: ATOM-PPP Switching: check features failed.

debug mpls l2transport signaling

To display information about the Any Transport over MPLS (AToM) signaling protocol, use the debug mpls l2transport signaling command in privileged EXEC mode. To disable debugging output, use the no form of this command.

debug mpls l2transport signaling {event | message}

no debug mpls l2transport signaling {event | message}

Syntax Description

event

Displays AToM signaling events.

message

Displays AToM signaling status messages.

Command Modes

Privileged EXEC

Command History

Release

Modification

12.0(23)S

This command was introduced.

12.2(14)S

This command was integrated into Cisco IOS Release 12.2(14)S.

12.2(15)T

This command was integrated into Cisco IOS Release 12.2(15)T.

12.2(33)SRA

This command was integrated into Cisco IOS Release 12.2(33)SRA.

Examples

The following is sample output from the debug mpls l2transport signaling command: 


Router# debug mpls l2transport signaling event
AToM LDP event debugging is on
Router# debug mpls l2transport signaling message
AToM LDP message debugging is on
Router# show debugging 
AToM:
  AToM LDP event debugging is on
  AToM LDP message debugging is on
*Mar 24 23:10:55.611: AToM LDP [9.9.9.9]: Allocate LDP instance
*Mar 24 23:10:55.611: AToM LDP [9.9.9.9]: Opening session, 1 clients
*Mar 24 23:10:56.063: %SYS-5-CONFIG_I: Configured from console by console
*Mar 24 23:10:56.583: %LINEPROTO-5-UPDOWN: Line protocol on Interface Serial3/0, changed state to up
*Mar 24 23:11:00.539: AToM LDP [9.9.9.9]: Session is up
*Mar 24 23:11:00.539: AToM LDP [9.9.9.9]: Peer address change, add 1.1.1.100
*Mar 24 23:11:00.539: AToM LDP [9.9.9.9]: Peer address change, add 46.1.1.6
*Mar 24 23:11:00.539: AToM LDP [9.9.9.9]: Peer address change, add 9.9.9.9
*Mar 24 23:11:00.539: AToM LDP [9.9.9.9]: Peer address change, add 57.1.1.6
*Mar 24 23:11:00.539: AToM LDP [9.9.9.9]: Sending label mapping msg 
vc type 7, cbit 1, vc id 50, group id 6, vc label 21, status 0, mtu 1500
*Mar 24 23:11:00.539: AToM LDP [9.9.9.9]: Received label mapping msg, id 113 
vc type 7, cbit 1, vc id 50, group id 6, vc label 21, status 0, mtu 1500

debug mpls l2transport static-oam

To enable the display of messages related to static pseudowire operations administrative and management (OAM), use the debug mpls l2transport static-oam command in privileged EXEC mode. To disable the display of these messages, use the no form of this command.

debug mpls l2transport static-oam [elog | error | event | fsm]

no debug mpls l2transport static-oam

Syntax Description

elog

Displays logging messages for static pseudowire OAM.

error

Displays error messages for static pseudowire OAM.

event

Displays event messages for static pseudowire OAM.

fsm

Displays finite state machine (FSM) messages for static pseudowire OAM.

Command Default

Static sseudowire messages are not displayed.

Command Modes

Privileged EXEC (#)

Command History

Release

Modification

15.1(1)SA

This command was introduced.

15.1(3)S

This command was integrated.

Examples

The following example enables the display of error messages for static pseudowire OAM: 


Router# debug mpls l2transport static-oam error

Related Commands

Command

Description

show mpls l2transport static-oam

Displays the status of static pseudowires.

debug mpls l2transport vc

To display information about the status of the Any Transport over MPLS (AToM) virtual circuits (VCs), use thedebug mpls l2transport vc command in privileged EXEC mode. To disable debugging output, use the no form of this command.

debug mpls l2transport vc {event | fsm | ldp | sss | status {event | fsm}}

no debug mpls l2transport vc {event | fsm | ldp | sss | status {event | fsm}}

Syntax Description

event

Displays AToM event messages about the VCs.

fsm

Displays debug information related to the finite state machine (FSM).

ldp

Displays debug information related to the Label Distribution Protocol (LDP).

sss

Displays debug information related to the subscriber service switch (SSS).

status

Displays debug information related to the status of the VCs.

Command Modes

Privileged EXEC (#)

Command History

Release

Modification

12.0(23)S

This command was introduced.

12.2(14)S

This command was integrated into Cisco IOS Release 12.2(14)S.

12.2(15)T

This command was integrated into Cisco IOS Release 12.2(15)T.

12.0(25)S

This command was integrated into Cisco IOS Release 12.0(25)S.

12.2(25)S

This command was integrated into Cisco IOS Release 12.2(25)S.

12.2(28)SB

This command was integrated into Cisco IOS Release 12.2(28)SB.

12.2(33)SRA

This command was integrated into Cisco IOS Release 12.2(33)SRA.

12.2SX

This command is supported in the Cisco IOS Release 12.2SX train. Support in a specific 12.2SX release of this train depends on your feature set, platform, and platform hardware.

12.2(33)SRC

The command was updated to include the ldp , sss , and status keywords as part of the MPLS Pseudowire Status Signaling feature.

12.2(50)SY

This command was integrated into Cisco IOS Release 12.2(50)SY.

Usage Guidelines

You can issue this command from the line card or the route processor.

Examples

The following is sample output from the debug mpls l2transport vc command: 


Router# debug mpls l2transport vc event
AToM vc event debugging is on
Router# debug mpls l2transport vc fsm
AToM vc fsm debugging is on
Router# show debugging
 
AToM:
  AToM vc event debugging is on
  AToM vc fsm debugging is on
*Mar 24 23:17:24.371: AToM MGR [10.9.9.9, 50]: Event provision, state changed from idle to provisioned
*Mar 24 23:17:24.371: AToM MGR [10.9.9.9, 50]: Provision vc
*Mar 24 23:17:24.371: AToM SMGR [10.9.9.9, 50]: Requesting VC create, vc_handle 61A09930
*Mar 24 23:17:24.371: AToM MGR [10.9.9.9, 50]: Event local up, state changed from provisioned to local standby
*Mar 24 23:17:24.371: AToM MGR [10.9.9.9, 50]: Update local vc label binding
*Mar 24 23:17:24.371: AToM SMGR [10.9.9.9, 50]: sucessfully processed create request 
*Mar 24 23:17:24.875: %SYS-5-CONFIG_I: Configured from console by console
*Mar 24 23:17:25.131: %LINEPROTO-5-UPDOWN: Line protocol on Interface Serial3/0, changed state to up
*Mar 24 23:17:28.567: AToM MGR [10.9.9.9, 50]: Event ldp up, state changed from local standby to local ready
*Mar 24 23:17:28.567: AToM MGR [10.9.9.9, 50]: Advertise local vc label binding
*Mar 24 23:17:28.567: AToM MGR [10.9.9.9, 50]: Event remote up, state changed from local ready to establishing
*Mar 24 23:17:28.567: AToM MGR [10.9.9.9, 50]: Remote end up
*Mar 24 23:17:28.567: AToM MGR [10.9.9.9, 50]: Event remote validated, state changed from establishing to established
*Mar 24 23:17:28.567: AToM MGR [10.9.9.9, 50]: Validate vc, activating data plane
*Mar 24 23:17:28.567: AToM SMGR [10.9.9.9, 50]: Processing imposition update, vc_handle 61A09930, update_action 3, remote_vc_label 21
*Mar 24 23:17:28.567: AToM SMGR [10.9.9.9, 50]: Imposition Programmed, Output Interface: PO5/0
*Mar 24 23:17:28.567: AToM SMGR [10.9.9.9, 50]: Processing disposition update, vc_handle 61A09930, update_action 3, local_vc_label 22
*Mar 24 23:17:28.571: AToM SMGR: Processing TFIB event for 10.9.9.9
*Mar 24 23:17:28.571: AToM SMGR [10.9.9.9, 50]: Imposition Programmed, Output Interface: PO5/0

The following is sample output of MPLS Pseudowire Status Signaling messages from the debug mpls l2transport vc status event and debug mpls l2transport vc status fsm commands: 


Router# debug mpls l2transport vc status event
Router# debug mpls l2transport vc status fsm
*Feb 26 14:03:42.543: AToM MGR [10.9.9.9, 100]: Receive SSS STATUS(UP)
*Feb 26 14:03:42.543: AToM MGR [10.9.9.9, 100]: AC status UP
*Feb 26 14:03:42.543: AToM MGR [10.9.9.9, 100]: S:Evt local up, LndRru->LnuRru
*Feb 26 14:03:42.543: AToM MGR [10.9.9.9, 100]: S:Evt local ready, LnuRru->LruRru
*Feb 26 14:03:42.543: AToM MGR [10.9.9.9, 100]: S:Act send label(UP)
*Feb 26 14:03:42.543: AToM MGR [10.9.9.9, 100]: Send label(UP)
*Feb 26 14:03:42.543: AToM MGR [10.9.9.9, 100]: Local AC : UP
*Feb 26 14:03:42.543: AToM MGR [10.9.9.9, 100]: Dataplane: no fault
*Feb 26 14:03:42.543: AToM MGR [10.9.9.9, 100]: Overall  : no fault
*Feb 26 14:03:42.543: AToM MGR [10.9.9.9, 100]: Remote label is ready
*Feb 26 14:03:42.543: AToM MGR [10.9.9.9, 100]: S:Evt remote ready in LruRru
*Feb 26 14:03:42.543: AToM MGR [10.9.9.9, 100]: S:Evt remote up in LruRru
*Feb 26 14:03:42.543: AToM MGR [10.9.9.9, 100]: S:Evt dataplane clear fault in LruRru
*Feb 26 14:03:42.543: AToM MGR [10.9.9.9, 100]: S:Evt dataplane clear fault in LruRru
*Feb 26 14:03:42.551: AToM MGR [10.9.9.9, 100]: S:Evt dataplane clear fault in LruRru

The status codes in the messages, such as S: and LruRru, indicate the staus of the local and remote routers. The following list translates the status codes:

L--local router

R--remote router

r or n--ready (r) or not ready (n)

u or d-- up (u) or down (d) status

The output also includes the following values:

D--Dataplane

S--Local shutdown

debug mpls l2transport vc subscriber

To enable debugging for Any Transport over MPLS (AToM) virtual circuit (VC) subscriber sessions, use the debug mpls l2transport vc subscriber command in privileged EXEC mode. To disable debugging for AToM VC subscribers, use the no form of this command.

debug l2transport vc subscriber {error | event}

Syntax Description

error

Specifies debugging for AToM VC subscriber session errors.

event

Specifies debugging for AToM VC subscriber session events.

Command Modes

Privileged EXEC (#)

Command History

Release

Modification

15.1(2)S

This command was introduced.

Usage Guidelines

The debug l2transport vc subscriber command displays the debugs for flows involving the creation of AToM VCs as a result of the detection of First Sign of Life (FSOL) events.

Examples

The following is sample output from the debug l2transport vc subscriber command: 


Router# debug mpls l2transport vc subscriber error
AToM LDP subscriber error debugging is on
Router# debug mpls l2transport vc subscriber event 
AToM LDP subscriber event debugging is on
Router# show debugging
AToM:
  AToM vc event debugging is on
  AToM LDP subscriber event debugging is on
  AToM LDP subscriber error debugging is on
Router# show logging
Syslog logging: enabled (0 messages dropped, 41 messages rate-limited, 0 flushes, 0 overruns, xml disabled, filtering disabled)
No Active Message Discriminator.
No Inactive Message Discriminator.
    Console logging: level debugging, 498 messages logged, xml disabled,
                     filtering disabled
    Monitor logging: level debugging, 0 messages logged, xml disabled,
                     filtering disabled
    Buffer logging:  level debugging, 229 messages logged, xml disabled,
                    filtering disabled
    Exception Logging: size (4096 bytes)
    Count and timestamp logging messages: disabled
    Persistent logging: disabled
    Trap logging: level informational, 123 message lines logged
Log Buffer (10000000 bytes):
*Apr 15 20:58:34.048: AToM LDP: Receive label adv
*Apr 15 20:58:34.048: AToM[33.33.33.34, 12346]: Received LDP label msg, signal peer ID 0.0.0.0
*Apr 15 20:58:34.048: AToM[33.33.33.34, 12346]: label details: type 5, label 20
*Apr 15 20:58:34.048: AToM LDP Sub::Found subscriber author group atom_test1, for peer ID 33.33.33.34, VC ID 12346
*Apr 15 20:58:34.048: AToM LDP Sub::33.33.33.34 created pre-auth key peer-ip:33.33.33.34:vc-id:12346
*Apr 15 20:58:34.049: AToM LDP Sub::SDB find string/context not found 31:peer-ip:33.33.33.34:vc-id:12346
*Apr 15 20:58:34.049: AToM LDP Sub::creating FSOL context - string 31:peer-ip:33.33.33.34:vc-id:12346, service 0
*Apr 15 20:58:34.049: AToM LDP Sub::SDB add string success 31:peer-ip:33.33.33.34:vc-id:12346, 0x43EFE12
*Apr 15 20:58:34.049: AToM LDP Sub::Init notify 31:peer-ip:33.33.33.34:vc-id:12346
*Apr 15 20:58:34.049: AToM LDP Sub::SDB get FSOL handle success 0x87E7000, 0x43EFE12
*Apr 15 20:58:34.049: AToM LDP Sub::SDB sanity check success 0x87E7000, 0x83928940
*Apr 15 20:58:34.049: AToM LDP Sub::SDB found string/context 31:peer-ip:33.33.33.34:vc-id:12346, 0x43EFE12
*Apr 15 20:58:34.049: AToM LDP Sub::find/create fsol found fsol after add : 
*Apr 15 20:58:34.049: AToM LDP Sub::71237138(0x43EFE12) 31:peer-ip:33.33.33.34:vc-id:12346
*Apr 15 20:58:34.049: AToM LDP Sub::find/create fsol context success
*Apr 15 20:58:34.050: AToM LDP Sub::Preauth request success, handle 0x43EFE12, AAA ID 0x14, policy handle 0x5100000C
*Apr 15 20:58:34.050: AToM[33.33.33.34, 12346]: Succeeded to make pre-author request for ATOM LDP FSOL
*Apr 15 20:58:34.050: AToM[33.33.33.34]: status notification failed: no such vc
*Apr 15 20:58:34.075: AToM LDP Sub::handle 0x43EFE12, AAA attribute 1054
*Apr 15 20:58:34.075: AToM LDP Sub::AAA attribute 1080 not handled
*Apr 15 20:58:34.075: AToM LDP Sub::AAA attribute 968 not handled
*Apr 15 20:58:34.075: AToM LDP Sub::handle 0x43EFE12, AAA attribute 1075
*Apr 15 20:58:34.075: AToM LDP Sub::handle 0x43EFE12, AAA attribute 1056
*Apr 15 20:58:34.075: AToM LDP Sub::handle 0x43EFE12, attribute 1056 val 1
*Apr 15 20:58:34.075: AToM LDP Sub::handle 0x43EFE12, protocol 1
*Apr 15 20:58:34.075: AToM LDP Sub::added 0x8152A00 to 0x370000C7 successfully
*Apr 15 20:58:34.075: AToM LDP Sub::handle 0x43EFE12, Pre-author parser returning 0
*Apr 15 20:58:34.098: AToM LDP Sub::handle 0x43EFE12, AAA attribute 1054
*Apr 15 20:58:34.098: AToM LDP Sub::AAA attribute 1080 not handled
*Apr 15 20:58:34.099: AToM LDP Sub::AAA attribute 968 not handled
*Apr 15 20:58:34.099: AToM LDP Sub::handle 0x43EFE12, AAA attribute 1075
*Apr 15 20:58:34.099: AToM LDP Sub::handle 0x43EFE12, AAA attribute 1056
*Apr 15 20:58:34.099: AToM LDP Sub::handle 0x43EFE12, attribute 1056 val 1
*Apr 15 20:58:34.099: AToM LDP Sub::handle 0x43EFE12, protocol 1
*Apr 15 20:58:34.099: AToM LDP Sub::added 0x81529A0 to 0xB50000D0 successfully
*Apr 15 20:58:34.099: AToM LDP Sub::handle 0x43EFE12, Pre-author parser returning 0
*Apr 15 20:58:34.099: AToM LDP Sub::Preauth callback for client 0x43EFE12, AAA 0x14
*Apr 15 20:58:34.100: AToM LDP Sub::SDB get FSOL handle success 0x87E7000, 0x43EFE12
*Apr 15 20:58:34.100: AToM LDP Sub::SDB sanity check success 0x87E7000, 0x83928940
*Apr 15 20:58:34.100: AToM LDP Sub::atom preauth callback 0. processing info 108
*Apr 15 20:58:34.100: AToM LDP Sub::handle 0x43EFE12, AAA ID 0x14, processing info type 108, val 0x81529A0, list 0xB50000D0
*Apr 15 20:58:34.100: AToM LDP Sub::handle 0x43EFE12, AAA ID 0x14, attribute 1054 12346 len 5, VC ID 12346
*Apr 15 20:58:34.100: AToM LDP Sub::handle 0x43EFE12, AAA ID 0x14 attribute 1075 len 555819298 33.33.33.34
*Apr 15 20:58:34.100: AToM LDP Sub::handle 0x43EFE12, AAA ID 0x14, attribute 1056 val 1
*Apr 15 20:58:34.100: AToM LDP Sub::handle 0x43EFE12, AAA ID 0x14, method 3, protocol 4
*Apr 15 20:58:34.100: AToM LDP Sub::handle 0x43EFE12, AAA ID 0x14 connect notifyfor VPWS service
*Apr 15 20:58:34.100: AToM LDP Sub::handle 0x43EFE12, AAA ID 0x14, added member to provision VPWS service
*Apr 15 20:58:34.100: AToM LDP Sub::downloaded attribute parsing success, handle 0x43EFE12, AAA ID 0x14
*Apr 15 20:58:34.124: AToM LDP Sub::
atom_ldp_subscriber_parse_preauth1char = p:31
*Apr 15 20:58:34.124: AToM LDP Sub::
atom_ldp_subscriber_parse_preauth2char = 3:23
*Apr 15 20:58:34.124: AToM LDP Sub::
atom_ldp_subscriber_parse_preauth3char = v:11:11
*Apr 15 20:58:34.124: AToM LDP Sub::
atom_ldp_subscriber_parse_preauth4char = 33.33.33.34
*Apr 15 20:58:34.124: AToM LDP Sub::0.0.0.0: parsed 33.33.33.34
*Apr 15 20:58:34.124: AToM LDP Sub::
atom_ldp_subscriber_parse_preauth5char = v:11
*Apr 15 20:58:34.124: AToM LDP Sub::
atom_ldp_subscriber_parse_preauth6char = 1:5
*Apr 15 20:58:34.124: AToM LDP Sub::
atom_ldp_subscriber_parse_preauth7char = 12346
*Apr 15 20:58:34.124: AToM LDP Sub::33.33.33.34: parsed VC ID 12346
*Apr 15 20:58:34.124: AToM LDP Sub::Found subscriber author group atom_test1, for peer ID 33.33.33.34, VC ID 12346
*Apr 15 20:58:34.124: AToM LDP Sub::SDB get FSOL handle success 0x87E7000, 0x43EFE12
*Apr 15 20:58:34.124: AToM LDP Sub::SDB sanity check success 0x87E7000, 0x83928940
*Apr 15 20:58:34.124: AToM LDP Sub::SDB found string/context 31:peer-ip:33.33.33.34:vc-id:12346, 0x43EFE12
*Apr 15 20:58:34.125: AToM LDP Sub::found context from earlier trigger, 1, 0, ignoring this request
*Apr 15 20:58:34.125: AToM LDP Sub::Found existing FSOL context ID 31:peer-ip:33.33.33.34:vc-id:12346, re-use 1, 0
*Apr 15 20:58:34.156: AToM[33.33.33.34, 12346]: Provisioned
*Apr 15 20:58:34.156: AToM[33.33.33.34, 12346]: Evt provision, idle -> provisioned
*Apr 15 20:58:34.156: AToM[33.33.33.34, 12346]: . Provision vc
*Apr 15 20:58:34.156: AToM LDP[33.33.33.34, 12346]: LDP OPEN request
*Apr 15 20:58:34.156: AToM LDP[33.33.33.34, 12346]: Signaling peer-id of VC changed to 33.33.33.34
*Apr 15 20:58:34.156: AToM[33.33.33.34, 12346]: Evt remote ready, provisioned -> remote ready
*Apr 15 20:58:34.156: AToM[33.33.33.34, 12346]: . Receive remote vc label binding, instance 3
*Apr 15 20:58:34.160: AToM[33.33.33.34, 12346]: Receive SSS CONNECT
*Apr 15 20:58:34.160: AToM[33.33.33.34, 12346]: . Update AIE peer 9F00000F our 43000010
*Apr 15 20:58:34.161: AToM[33.33.33.34, 12346]: ... Evt local ready, remote ready -> establishing
*Apr 15 20:58:34.161: AToM[33.33.33.34, 12346]: ..... Alloc local binding
*Apr 15 20:58:34.161: AToM[33.33.33.34, 12346]: ...... autosense disabled [init]
*Apr 15 20:58:34.161: AToM[33.33.33.34, 12346]: ...... autosense enabled
*Apr 15 20:58:34.161: AToM[33.33.33.34, 12346]: ...... Grouping on (value 1)
*Apr 15 20:58:34.161: AToM[33.33.33.34, 12346]: ...... Grouping ignored, set to 0
*Apr 15 20:58:34.162: AToM[33.33.33.34, 12346]: ...... MTU set to 1500
*Apr 15 20:58:34.162: AToM[33.33.33.34, 12346]: .... Local end available
*Apr 15 20:58:34.162: AToM LDP[33.33.33.34, 12346]: Send label(DOWN)
*Apr 15 20:58:34.162: AToM[33.33.33.34, 12346]: .... Validate remote binding
*Apr 15 20:58:34.162: AToM[33.33.33.34, 12346]: ..... Evt remote validated in establishing
*Apr 15 20:58:34.162: AToM[33.33.33.34, 12346]: ...... Validate vc, activating data plane
*Apr 15 20:58:34.162: AToM[33.33.33.34, 12346]: ....... Update peer with our circuit type Eth
*Apr 15 20:58:34.162: AToM[33.33.33.34, 12346]: ....... Check if can activate dataplane
*Apr 15 20:58:34.162: AToM[33.33.33.34, 12346]: .. Check if can activate dataplane
*Apr 15 20:58:34.162: AToM[33.33.33.34, 12346]: . Send SSS CONNECTED
*Apr 15 20:58:34.163: AToM[33.33.33.34, 12346]: ... No PW Status SP info to report to SSS peer
*Apr 15 20:58:34.163: AToM LDP[33.33.33.34, 12346]: LDP open
*Apr 15 20:58:34.163: AToM LDP[33.33.33.34, 12346]: Signaling peer-id of VC changed to 33.33.33.34
*Apr 15 20:58:34.163: AToM LDP[33.33.33.34, 12346]: LDP UP
*Apr 15 20:58:34.163: AToM[33.33.33.34, 12346]: Evt ldp up in establishing
*Apr 15 20:58:34.163: AToM[33.33.33.34, 12346]: . Take no action
*Apr 15 20:58:34.169: AToM[33.33.33.34, 12346]: Receive SSS FSP STATUS
*Apr 15 20:58:34.169: AToM LDP[33.33.33.34, 12346]: Send notify(UP)
*Apr 15 20:58:34.169: AToM[33.33.33.34, 12346]: ... Evt local ready in establishing
*Apr 15 20:58:34.169: AToM[33.33.33.34, 12346]: .... Take no action
*Apr 15 20:58:34.169: AToM[33.33.33.34, 12346]: .. Check if can activate dataplane
*Apr 15 20:58:34.169: AToM[33.33.33.34, 12346]: ... Attempt to activate dataplane on Active RP, VC in establishing state
*Apr 15 20:58:34.169: AToM[33.33.33.34, 12346]: ... Evt dataplane activate, establishing -> activating
*Apr 15 20:58:34.169: AToM[33.33.33.34, 12346]: .... Activating data plane
*Apr 15 20:58:34.170: AToM[33.33.33.34, 12346]: .... Activate dataplane
*Apr 15 20:58:34.170: AToM[33.33.33.34, 12346]: .... Need to setup the dataplane
*Apr 15 20:58:34.170: AToM[33.33.33.34, 12346]: .... Setup dataplane
*Apr 15 20:58:34.170: AToM[33.33.33.34, 12346]: ...... Same peer; get switch hdl 4100
*Apr 15 20:58:34.170: AToM[33.33.33.34, 12346]: ..... Set segment count to 1
*Apr 15 20:58:34.170: AToM[33.33.33.34, 12346]: ..... Provision SSM with 4100/8203 (sw/seg)
*Apr 15 20:58:34.173: AToM[33.33.33.34, 12346]: Receive SSM dataplane up notification
*Apr 15 20:58:34.174: AToM[33.33.33.34, 12346]: Receive SSM dataplane up notification
*Apr 15 20:58:34.174: AToM[33.33.33.34, 12346]: Evt dataplane up, activating -> established
*Apr 15 20:58:34.174: AToM[33.33.33.34, 12346]: . Dataplane activated
*Apr 15 20:58:34.174: AToM[33.33.33.34, 12346]: SYSLOG: VC is UP
*Apr 15 20:58:34.174: AToM[33.33.33.34, 12346]: Evt dataplane up in established
*Apr 15 20:58:34.174: AToM[33.33.33.34, 12346]: . Take no action
*Apr 15 20:58:42.222: AToM[33.33.33.34, 12346]: Label 23 freed

Related Commands

Command

Description

show debugging

Displays information about the types of debugging that are enabled for your router.

show logging

Displays the state of system logging (syslog) and the contents of the standard system logging buffer.

show mpls l2transport vc

Displays information about the status of the AToM VCs.

debug mpls l2transport vc vccv

To enable Any Transport over MPLS (AToM) Virtual Circuit Connection Verification (VCCV) debugging, use the debug mpls l2transport vc vccv command in privileged EXEC mode. To disable debugging output, use the no form of this command.

debug mpls l2transport vc vccv [bfd] event

no debug mpls l2transport vc vccv [bfd] event

Syntax Description

bfd

(Optional) Displays event messages when Bidirectional Forwarding Detection (BFD) sessions are created, when BFD sends dataplane fault notifications to Layer 2 VPN (L2VPN), and when L2VPN sends the attachment circuit (AC) signaling status to BFD.

event

Displays AToM event messages about the VCCV.

Command Modes

Privileged EXEC (#)

Command History

Release

Modification

15.0(1)S

This command was introduced.

Usage Guidelines

Use this command to enable AToM VCCV events and AToM VCCV BFD events debugging.

Examples

The following examples show how to enable MPLS L2transport VC VCCV and VCCV BFD event debugging: 


Router# debug mpls l2transport vc vccv bfd event
AToM VCCV BFD events debugging is on
Router# debug mpls l2transport vc vccv event
AToM VCCV events debugging is on
Router# show debugging
AToM VCCV BFD events debugging is on
AToM VCCV events debugging is on

Related Commands

Command

Description

show mpls l2transport vc

Displays information about the status of the AToM VCs.

debug mpls ldp advertisements

To display information about the advertisement of labels and interface addresses to label distribution protocol (LDP) peers, use the debugmplsldpadvertisements command in privileged EXEC mode. To disable this feature, use the no form of this command.

debug mpls ldp advertisements [peer-acl acl] [prefix-acl acl]

no debug mpls ldp advertisements [peer-acl acl] [prefix-acl acl]

Syntax Description

peer-acl acl

(Optional) Limits the displayed advertisements to those for LDP peers permitted by the access control list (acl ).

prefix-acl acl

(Optional) Limits the displayed advertisements to those for prefixes permitted by the access control list (acl ).

Command Default

Displays information about advertisements to all LDP peers for all prefixes.

Command Modes

Privileged EXEC

Command History

Release

Modification

11.1CT

This command was introduced.

12.0(10)ST

This command was modified to reflect MPLS IETF command syntax and terminology.

12.0(14)ST

This command was integrated into Cisco IOS Release 12.0(14)ST.

12.1(2)T

This command was integrated into Cisco IOS Release 12.1(2)T.

12.1(8a)E

This command was integrated into Cisco IOS Release 12.1(8a)E.

12.2(2)T

This command was integrated into Cisco IOS Release 12.2(2)T.

12.2(4)T

This command was integrated into Cisco IOS Release 12.2(4)T.

12.2(8)T

This command was integrated into Cisco IOS Release 12.2(8)T.

12.0(21)ST

This command was integrated into Cisco IOS Release 12.0(21)ST.

12.0(22)S

This command was integrated into Cisco IOS Release 12.0(22)S.

12.0(23)S

This command was integrated into Cisco IOS Release 12.0(23)S.

12.2(13)T

This command was integrated into Cisco IOS Release 12.2(13)T.

12.2(14)S

This command was integrated into Cisco IOS Release 12.2(14)S.

12.2(33)SRA

This command was integrated into Cisco IOS Release 12.2(33)SRA.

Usage Guidelines

Use this command to monitor the label and address advertisements to LDP peers.

Use the peer-acl or prefix-acl options separately or together to limit the information display to specific LDP peers and/or specific prefixes.


Note

This command monitors advertisement of non-LC-ATM labels (generic labels) only. Use the debugmplsatm-ldp command to monitor LC-ATM activity.

Examples

The following shows sample output from the debugmplsldpadvertisements command: 


Router# debug mpls ldp advertisements
tagcon: peer 144.0.0.44:0 (pp 0x60E105BC): advertise 130.77.0.33
tagcon: peer 144.0.0.44:0 (pp 0x60E105BC): advertise 133.0.0.33
tagcon: peer 144.0.0.44:0 (pp 0x60E105BC): advertise 34.0.0.33
tagcon: peer 144.0.0.44:0 (pp 0x60E105BC): advertise 103.0.0.33
tagcon: peer 144.0.0.44:0 (pp 0x60E105BC): advertise 35.0.0.33
tagcon: peer 144.0.0.44:0 (pp 0x60E105BC): advertise 38.0.0.33
tagcon: peer 144.0.0.44:0 (pp 0x60E105BC): advertise 34.0.0.0/8, label 3 (#2)
tagcon: peer 144.0.0.44:0 (pp 0x60E105BC): advertise 203.0.7.7/32, label 24 (#4)
tagcon: peer 144.0.0.44:0 (pp 0x60E105BC): advertise 35.0.0.0/8, label 3 (#8)
tagcon: peer 144.0.0.44:0 (pp 0x60E105BC): advertise 103.0.0.0/8, label 3 (#10)
tagcon: peer 144.0.0.44:0 (pp 0x60E105BC): advertise 138.1.0.0/16, label 26 (#14)
tagcon: peer 144.0.0.44:0 (pp 0x60E105BC): advertise 155.0.0.55/32, label 27 (#16)
tagcon: peer 144.0.0.44:0 (pp 0x60E105BC): advertise 38.0.0.0/8, label 3 (#18)
tagcon: peer 144.0.0.44:0 (pp 0x60E105BC): advertise 212.10.1.0/24, label 30 (#24)
tagcon: peer 144.0.0.44:0 (pp 0x60E105BC): advertise 59.0.0.0/8, label 32 (#28)
tagcon: peer 144.0.0.44:0 (pp 0x60E105BC): advertise 144.0.0.44/32, label 33 (#30)
tagcon: peer 144.0.0.44:0 (pp 0x60E105BC): advertise 106.0.0.0/8, label 34 (#32)
tagcon: peer 144.0.0.44:0 (pp 0x60E105BC): advertise 133.0.0.33/32, label 3 (#34)
tagcon: peer 144.0.0.44:0 (pp 0x60E105BC): advertise 45.0.0.0/8, label 39 (#36)

The following table describes the significant fields shown in the display.

Table 7. debug mpls ldp advertisements Field Descriptions

Field

Description

tagcon:

Identifies the source of the message as the label control subsystem.

peer a.b.c.d:e

LDP identifier of the peer to which the advertisement was targeted.

(pp 0xnnnnnnnn)

Identifier for the data structure used to represent the peer at the label distribution level. Useful for correlating debug output.

advertise X

Identifies what was advertised to the peer--either an interface address (“a.b.c.d”) or label binding (“a.b.c.d/m, label t (#n)”).

(#n)

For a label binding advertisement, the sequence number of the label information base (LIB) modification that made it necessary to advertise the label.

Related Commands

Command

Description

debug mpls ldp bindings

Displays information about changes to the LIB used to keep track of label bindings learned from LDP peers through LDP downstream label distribution.

show mpls ip binding

Displays specified information about label bindings learned by LDP.

show mpls ldp neighbor

Displays the status of LDP sessions.

debug mpls ldp backoff

To display information about the label distribution protocol (LDP) backoff mechanism parameters, use the debugmplsldpbackoff command in privileged EXEC mode. To disable this feature, use the no form of this command.

debug mpls ldp backoff

no debug mpls ldp backoff

Syntax Description

This command has no arguments or keywords.

Command Default

No default behavior or values.

Command Modes

Privileged EXEC

Command History

Release

Modification

12.0(10)ST

This command was introduced.

12.1(2)T

This command was integrated into Cisco IOS Release 12.1(2)T.

12.1(8a)E

This command was integrated into Cisco IOS Release 12.1(8a)E.

12.0(22)S

This command was integrated into Cisco IOS Release 12.0(22)S.

12.2(14)S

This command was integrated into Cisco IOS Release 12.2(14)S.

12.2(33)SRA

This command was integrated into Cisco IOS Release 12.2(33)SRA.

Usage Guidelines

Use this command to monitor backoff parameters configured for LDP sessions.

Examples

The following shows sample output from the debugmplsldpbackoff command: 


Router# debug mpls ldp backoff
 
LDP session establishment backoff debugging is on
Router#
Jan 6 22:31:13.012: ldp: Backoff peer ok: 12.12.12.12:0; backing off; threshold/count 8/6
Jan 6 22:31:13.824: ldp: Backoff peer ok: 12.12.12.12:1; backing off; threshold/count 8/6
Jan 6 22:31:17.848: ldp: Backoff peer ok: 12.12.12.12:0; backing off; threshold/count 8/6
Jan 6 22:31:18.220: ldp: Backoff peer ok: 12.12.12.12:1; backing off; threshold/count 8/6
Jan 6 22:31:21.908: ldp: Backoff peer ok: 12.12.12.12:0; backing off; threshold/count 8/6
Jan 6 22:31:22.980: ldp: Backoff peer ok: 12.12.12.12:1; backing off; threshold/count 8/6
Jan 6 22:31:25.724: ldp: Backoff peer ok: 12.12.12.12:0; backing off; threshold/count 8/7
Jan 6 22:31:26.944: ldp: Backoff peer ok: 12.12.12.12:1; backing off; threshold/count 8/7
Jan 6 22:31:30.140: ldp: Backoff peer ok: 12.12.12.12:0; backing off; threshold/count 8/7
Jan 6 22:31:31.932: ldp: Backoff peer ok: 12.12.12.12:1; backing off; threshold/count 8/7
Jan 6 22:31:35.028: ldp: Backoff peer ok: 12.12.12.12:0; backing off; threshold/count 8/7
Jan 6 22:31:35.788: ldp: Backoff peer ok: 12.12.12.12:1; backing off; threshold/count 8/7
Jan 6 22:31:39.332: ldp: Update backoff rec: 12.12.12.12:0, threshold = 8, tbl ents 2
Jan 6 22:31:39.640: ldp: Update backoff rec: 12.12.12.12:1, threshold = 8, tbl ents 2

The following table describes the significant fields shown in the display.

Table 8. debug mpls ldp backoff Field Descriptions

Field

Description

ldp

Identifies the Label Distribution Protocol.

Backoff peer ok: a.b.c.d:n

Identifies the LDP peer for which a session is being delayed because of a failure to establish a session due to incompatible configuration.

backing off;

Indicates that a session setup attempt failed and the LSR is delaying its next attempt (that is, is backing off).

threshold/count x/y

Identifies a set threshold (x) and a count (y) that represents the time that has passed since the last attempt to set up a session with the peer. The count is incremented every 15 seconds until it reaches the threshold. When the count equals the threshold, a fresh attempt is made to set up an LDP session with the peer.

Update backoff rec

Indicates that the backoff period is over and that it is time for another attempt to set up an LDP session.

threshold = x

Indicates the backoff time of x*15 seconds, for the next LDP session attempt with the peer.

tbl ents 2

Indicates unsuccessful attempts to set up an LDP session with two different LDP peers. In this example, attempts to set up sessions with LDP peers 12.12.12.12:0 and 12.12.12.12:1 are failing.

Related Commands

Command

Description

mpls ldp backoff

Configures session setup delay parameters for the LDP backoff mechanism.

show mpls ldp backoff

Displays information about the configured session setup backoff parameters and any potential LDP peers with which session setup attempts are being throttled.

debug mpls ldp bindings

To display information about addresses and label bindings learned from Label Distribution Protocol (LDP) peers by means of LDP downstream unsolicited label distribution, use the debugmplsldpbindings command in privileged EXEC mode. To disable this feature, use the no form of this command.

debug mpls ldp bindings [filter] [peer-acl acl] [prefix-acl acl]

no debug mpls ldp bindings [filter] [peer-acl acl] [prefix-acl acl]

Syntax Description

filter

(Optional) Display information about LDP local label allocation filtering.

peer-acl acl

(Optional) Limits the displayed binding information to that learned from LDP peers permitted by the access control list (acl ).

prefix-acl acl

(Optional) Limits the displayed binding information to that learned for prefixes permitted by the access control list (acl ).

Command Default

Displays information about all bindings learned from all LDP peers.

Command Modes

Privileged EXEC (#)

Command History

Release

Modification

11.1CT

This command was introduced.

12.0(10)ST

This command was modified to correspond to MPLS Internet Engineering Task Force (IETF) command syntax and terminology.

12.0(14)ST

This command was integrated into Cisco IOS Release 12.0(14)ST.

12.1(2)T

This command was integrated into Cisco IOS Release 12.1(2)T.

12.1(8a)E

This command was integrated into Cisco IOS Release 12.1(8a)E.

12.2(2)T

This command was integrated into Cisco IOS Release 12.2(2)T.

12.2(4)T

This command was integrated into Cisco IOS Release 12.2(4)T.

12.2(8)T

This command was integrated into Cisco IOS Release 12.2(8)T.

12.0(21)ST

This command was integrated into Cisco IOS Release 12.0(21)ST.

12.0(22)S

This command was integrated into Cisco IOS Release 12.0(22)S.

12.0(23)S

This command was integrated into Cisco IOS Release 12.0(23)S.

12.2(13)T

This command was integrated into Cisco IOS Release 12.2(13)T.

12.2(14)S

This command was integrated into Cisco IOS Release 12.2(14)S.

12.2(33)SRA

This command was integrated into Cisco IOS Release 12.2(33)SRA.

12.2SX

This command is supported in the Cisco IOS Release 12.2SX train. Support in a specific 12.2SX release of this train depends on your feature set, platform, and platform hardware.

12.2(33)SRC

The filter keyword was added and the output of the command was updated to display information about LDP local label allocation filtering.

12.2(33)SB

This command was integrated into Cisco IOS Release 12.2(33)SB.

Usage Guidelines

Use this command to monitor label bindings and label switch router (LSR) addresses learned from LDP peers.


Note

This command monitors non-LC-ATM labels (generic labels) only. Use the debug mpls atm-ldp states command to monitor LC-ATM activity.

Examples

The following is sample output from the debugmplsldpbindings command: 


Router# debug mpls ldp bindings
tagcon:tibent(10.34.0.0/8):created; find route tags request
tagcon:tibent(10.34.0.0/8):label 3 (#2) assigned
tagcon:tibent(10.0.7.7/32):created; find route tags request
tagcon:tibent(10.0.7.7/32):label 24 (#4) assigned
tagcon:tibent(10.0.0.44/32):created; find route tags request
tagcon:tibent(10.0.0.44/32):label 33 (#30) assigned
tagcon:tibent(10.106.0.0/8):created; find route tags request
tagcon:tibent(10.106.0.0/8):label 34 (#32) assigned
tagcon:tibent(10.0.0.33/32):created; find route tags request
tagcon:tibent(10.0.0.33/32):label 3 (#34) assigned
tagcon:tibent(10.45.0.0/8):created; find route tags request
tagcon:tibent(10.45.0.0/8):label 39 (#36) assigned
tagcon:Assign peer id; 10.0.0.44:0:id 0
tagcon:10.0.0.44:0:10.0.0.44 added to addr<->ldp ident map
tagcon:10.0.0.44:0:10.34.0.44 added to addr<->ldp ident map
tagcon:10.0.0.44:0:10.45.0.44 added to addr<->ldp ident map
tagcon:tibent(10.0.0.44/32):rem label 3 from 10.0.0.44:0 added
tagcon:tibent(10.34.0.0/8):label 3 from 10.0.0.44:0 added
tagcon:tibent(10.45.0.0/8):label 3 from 10.0.0.44:0 added
tagcon:tibent(10.107.0.0/8):created; remote label learned
tagcon:tibent(10.107.0.0/8):label 55 from 10.0.0.44:0 added
tagcon:tibent(10.0.7.7/32):label 209 from 10.0.0.44:0 added
tagcon:tibent(10.0.0.33/32):label 207 from 10.0.0.44:0 added

The following table describes the significant fields shown in the display.

Table 9. debug mpls ldp bindings Field Descriptions

Field

Description

tagcon:

Identifies the source of the message as the label control subsystem.

tibent(network/mask)

Destination that has a label binding change.

created; reason

An LIB entry has been created for the specified destination for the indicated reason.

rem label ...

Describes a change to the label bindings for the specified destination. The change is for a label binding learned from the specified LDP peer.

lcl label ...

Describes a change to a locally assigned (incoming) label for the specified destination.

(#n)

Sequence number of the modification to the LIB corresponding to the local label change.

a.b.c.d:n: e.f.g.h added to addr<->ldp ident map

The address e.f.g.h has been added to the set of addresses associated with LDP identifier a.b.c.d:n.

The following is output from the debugmplsldpbindings command when LDP local label allocation filtering is configured: 


Router# debug mpls ldp 
%SYS-5-CONFIG_I: Configured from console by console
Router# debug mpls ldp bindings filter 
LDP Local Label Filtering changes debugging is on
Router# configure terminal
Enter configuration commands, one per line.  End with CNTL/Z.
Router(config)# mpls ldp label
Router(config-ldp-lbl)# allocate global host-routes
Router(config-ldp-lbl)#
 LDP LLAF: Enqueued work item to walk tib for all tables
 LDP LLAF: Withdraw local label for 10.10.7.0
 LDP LLAF: Withdraw local label for 10.10.8.0
 LDP LLAF: Withdraw local label for 10.10.9.0
Router(config-ldp-lbl)#
 LDP LLAF: announce zero local and path labels: 10.10.7.0
 LDP LLAF: announce zero local and path labels: 10.10.8.0
 LDP LLAF: announce zero local and path labels: 10.10.9.0
Router(config-ldp-lbl)#
Router(config-ldp-lbl)# no allocate global host-routes
 
Router(config-ldp-lbl)#
 LDP LLAF: Enqueued work item to walk tib for all tables
 tib: get path labels: 10.1.1.1/32, tableid: 0, Et1/0, nh 10.10.7.2
 LDP LLAF: 10.1.1.1 accepted, absence of filtering config
 tagcon: announce labels for: 10.1.1.1/32; nh 10.10.7.2, Et1/0, inlabel 17, outlabel imp-null (from 10.1.1.1:0), get path labels
 tib: get path labels: 10.2.2.2/32, tableid: 0, Et2/0, nh 10.10.8.2
 LDP LLAF: 10.2.2.2 accepted, absence of filtering config
 tagcon: announce labels for: 10.2.2.2/32; nh 10.10.8.2, Et2/0, inlabel 16, outlabel imp-null (from 10.2.2.2:0), get path labels
 tib: get path labels: 10.10.7.0/24, tableid: 0, Et1/0, nh 0.0.0.0
 LDP LLAF: 10.10.7.0 accepted, absence of filtering config
 tagcon: tibent(10.10.7.0/24): label 1 (#20) assigned
 tagcon: announce labels for: 10.10.7.0/24; nh 0.0.0.0, Et1/0, inlabel imp-null, outlabel unknown (from 0.0.0.0:0), get path labels
 tib: get path labels: 10.10.8.0/24, tableid: 0, Et2/0, nh 0.0.0.0
 LDP LLAF: 10.10.8.0 accepted, absence of filtering config
 tagcon: tibent(10.10.8.0/24): label 1 (#21) assigned
 tagcon: announce labels for: 10.10.8.0/24; nh 0.0.0.0, Et2/0, inlabel imp-null, outlabel unknown (from 0.0.0.0:0), get path labels
 tib: get path labels: 10.10.9.0/24, tableid: 0, Et1/0, nh 10.10.7.2
 LDP LLAF: 10.10.9.0 accepted, absence of filtering config
 tagcon: tibent(10.10.9.0/24): label 22 (#22) assigned
 tagcon: announce labels for: 10.10.9.0/24; nh 10.10.7.2, Et1/0, inlabel 22, outlabel imp-null (from 10.1.1.1:0), get path labels
.
.
.
Router(config-ldp-lbl)# no mpls ldp label
Router(config-ldp-lbl)# end
Router# no debug mpls ldp bindings filter

The following table describes the significant fields shown in the display.

Table 10. debug mpls ldp bindings Field Descriptions with LDP Local Label Allocation Filtering

Field

Description

LDP LLAF

Indicates that the messages apply to LDP local label allocation filtering.

Withdraw local label for 10.10.7.0

Prefix 10.10.7.0 is not in the global routing table. LDP withdraws the label and does not assign a local labels.

announce zero local and path labels: 10.10.7.0

LDP does not announce local and path label for prefix 10.10.7.0.

tagcon: announce labels for:

The label control subsystem announces the next hop (nh) and labels for the named prefix.

tib: get path labels:

LDP LIB searches for the routing and forwarding path for the named prefix.

LDP LLAF: 10.1.1.1 accepted;

LDP accepts the prefix. The prefix was found in the global table (or accepted by the prefix list, if a prefix list was named as a filter).

tibent(network/mask)

Destination that has a label binding change.

Related Commands

Command

Description

debug mpls atm-ldp states

Displays information about label virtual circuit (lvc) state transitions as they occur.

show mpls ldp bindings

Displays the contents of the LIB.