Cisco Unified Border Element (SP Edition) Command Reference: Unified Model
deact-mode (billing) through group
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Table of Contents

deact-mode (billing)

deact-mode (XML Billing)

deactivation-mode (session border controller)

debug condition vrf

debug ip bgp igp-metric ignore

debug ip bgp route-server

debug ip multicast topology

de bug ip wccp

debug platform hardware qfp active feature wccp

debug platform hardware qfp feature sbc

debug platform software wccp

debug sbc alarm-filter

debug sbc alarm-log-level

debug sbc asr log-level filter

debug sbc correlation-logs filter

debug sbc errors

debug sbc events

debug sbc filter

debug sbc filter billing_id

debug sbc filter bm

debug sbc filter cac

debug sbc filter call

debug sbc filter (session border controller)

debug sbc ha

debug sbc info

debug sbc ips (session border controller)

debug sbc log-level console

debug sbc log-level file

debug sbc logging

debug sbc mem-trace dump

debug sbc nbase

debug sbc off

debug sbc pd filter component

debug sbc pd filter context

debug sbc pd filter product

debug sbc pd log-level

debug vrf

default-port-limit

delegate-profile

delegate-registration

description (route server context)

description (session border controller)

description (sip-opt)

dial-plan-suffix

diameter

div-address

div-address (header)

domain-name

dscp

dst-address

dst-address (editor)

dst-adjacency

dtmf-duration (session border controller)

dtmf disable sip

dtmf sip

duration

early-media-deny

early-media-timeout

early-media-type

edit-cic

edit-src

edit

editor-list

editor-type

editor

entry

entry (enum)

enum

error-profile

exit-if-vnet

exit-route-server-context

exit-vrf-list

expires-header

fast-register-interval

fast-register disable

filename (session border controller)

first-cac-scope

first-cac-table

first-call-routing-table

first-inbound-na-table

first-outbound-na-table

first-reg-routing-table

flipped-interval (XML Billing)

flipped-size (XML Billing)

fmtp (codec variant)

fmtp (session border controller)

force-signaling-peer

g107a-factor

g107 bpl

g107 ie

generic-stream callee

generic-stream caller

generic-stream media-type

generic-stream branch

global

group (session border controller)

deact-mode (billing)

To configure the deactivate mode for the billing method, use the deact-mode command in the packetcable-em configuration mode. To disable the deactivate mode, use the no form of this command.

deact-mode {abort | quiesce}

no deact-mode

 
Syntax Description

abort

Billing method is deactivated immediately. No further CDRs for existing calls and new calls are generated.

quiesce

Billing CDRs are not generated for new calls. CDRs continue to be generated for existing calls until the calls complete. This delays the deactivation of the method.

 
Command Default

The default is abort.

 
Command Modes

Packet-cable em configuration (config-sbc-sbe-billing-packetcable-em)

 
Command History

Release
Modification

Cisco IOS XE Release 2.4

This command was introduced on the Cisco ASR 1000 Series Aggregation Services Routers.

 
Usage Guidelines

To use this command, you must be in the correct configuration mode. The Examples section shows the hierarchy of modes required to run the command.

Examples

The following example shows how to delay the deactivation of the billing method:

Router# configure terminal
Router(config)# sbc mySbc
Router(config-sbc)# sbe
Router(config-sbc-sbe)# billing
(config-sbc-sbe-billing)# packetcable-em 4 transport radius test
(config-sbc-sbe-billing-packetcable-em)# batch-size 256
(config-sbc-sbe-billing-packetcable-em)# batch-time 22
(config-sbc-sbe-billing-packetcable-em)# attach
(config-sbc-sbe-billing-packetcable-em)# activate
(config-sbc-sbe-billing-packetcable-em)# deact-mode quiesce

 
Related Commands

Command
Description

activate (radius)

Activates the billing functionality after configuration is committed.

attach

activate the billing for a RADIUS client

batch-size

Configures the batching or grouping of RADIUS messages sent to a RADIUS server.

batch-time

Configures the maximum number of milliseconds for which any record is held in the batch before the batch is sent

deact-mode

Configures the deactivate mode for the billing method.

ldr-check

Configures the time of day (local time) to run the Long Duration Check (LDR).

local-address ipv4

Configures the local IPv4 address that appears in the CDR.

local-address ipv4 (packet-cable)

Configures the local address of the packet-cable billing instance.

method packetcable-em

Enables the packet-cable billing method.

packetcable-em transport radius

Configures a packet-cable billing instance.

show sbc sbe billing remote

Displays the local and billing configurations.

deact-mode (XML Billing)

To configure the deactivate mode for the XML billing method, use the deact-mode command in the SBE billing XML configuration mode. The deact-mode command defines the state after which the billing method will be deactivated. To disable the deactivate mode, use the no form of this command.

deact-mode {normal | quiesce | abort}

no deact-mode

 
Syntax Description

normal

Billing CDRs are generated for the existing calls before the billing method is deactivated. The calls that are still in progress and have not ended are not included in the CDR billing cycle. The default mode is normal.

quiesce

Billing CDRs are generated for the existing calls, and the CDRs continue to be generated for the calls that have still not ended. This delays the XML billing method from being deactivated.

abort

The billing method is deactivated immediately. No further CDRs are generated for the existing calls and new calls.

 
Command Default

By default, the deact-mode is normal.

 
Command Modes

SBE billing XML configuration (config-sbc-sbe-billing-xml)

 
Command History

Release
Modification

3.2S

This command was introduced on the Cisco ASR 1000 Series Routers.

 
Usage Guidelines

The XML billing method can be deactivated forcefully using the deact-mode command from SBE billing XML configuration mode.

Since the calls are still in progress, it is important to bill the calls that are completed before the XML billing method is deactivated. To bill the CDRs for the existing calls before deactivating the XMl billing method, use the deact-mode normal command.

As an option to wait for the calls that have still not ended, and to build the CDRs for the existing calls as well as the calls that are still in progress, use the deact-mode quiesce command.

To immediately abort the XML billing method without billing the CDRs, use the deact-mode abort command.

Examples

The following example shows how to set the deactivation mode to normal. This will process the CDRs for the existing calls:

Router(config)# sbc sbcbilling
Router(config-sbc)# sce
Router(config-sbc-sce)# billing
Router(config-sbc-sce-billing)# xml method
Router(config-sbc-sce-billing)# xml 1
Router(config-sbc-sce-billing-xml)# deact-mode normal

The following example shows how to bill CDRs for the existing calls and will continue to build the CDRs for the calls that are still in progress:

Router(config-sbc-sce-billing-xml)# deact-mode quiesce
 

The following example shows how to deactivate the XML billing method without building the CDRs:

Router(config-sbc-sce-billing-xml)# deact-mode abort

 
Related Commands

Command
Description

xml (billing)

Configures the method index for XML billing.

method xml

Configures the billing method as XML for the Billing Manager.

ldr-check

Configures the time at which long duration records are checked.

deactivation-mode (session border controller)

To specify the action to take upon DBE or SBE deactivation, use the deactivation-mode command in the appropriate configuration mode. To revert to the default value, use the no form of this command.

deactivation-mode deact-type

no deactivation-mode

 
Syntax Description

deact-type

Specifies the action to take upon DBE deactivation:

  • abort : All calls dropped with no signaling.
  • normal : Service change signaled to SBE, and all calls immediately terminated.
  • quiesce : No new calls accepted. Deactivation occurs only after existing calls have terminated naturally.

Specifies the action to take upon SBE deactivation:

  • abort : All calls dropped with no signaling.
  • normal : Existing calls are torn down gracefully.
  • quiesce : No new calls accepted. Existing calls are allowed to terminate.

 
Command Default

By default, this command assumes the normal parameter.

 
Command Modes

SBC-DBE configuration (config-sbc-dbe)

SBE configuration (config-sbc-sbe)

 
Command History

Release
Modification

Cisco IOS XE Release 2.1

This command was introduced on the Cisco ASR 1000 Series Aggregation Services Routers.

Cisco IOS XE Release 2.4

Support for SBE was added for unified SBC.

 
Usage Guidelines

To use this command, you must be in the correct configuration mode. The Examples section shows the hierarchy of modes required to run the command.

Examples

The following example shows how to set the DBE to deactivate in quiesce mode to prepare the device for hardware maintenance:

Router# configure terminal
Router(config)# sbc mySbc dbe
Router(config-sbc-dbe)# deactivation-mode quiesce

 
Related Commands

Command
Description

sbc dbe

Creates the DBE service on a SBC and enters into the DBE-SBE configuration mode.

activate

Initiates the DBE service of the Session Border Controller (SBC).

debug condition vrf

To limit debug output to a specific Virtual Routing and Forwarding (VRF) instance, use the debug condition vrf command in privileged EXEC mode. To remove the debug condition, use the undebug version of the command.

debug condition vrf vrf-name

undebug condition vrf vrf-name

 
Syntax Description

vrf-name

Name of a VRF.

 
Command Modes

Privileged EXEC (#)

 
Command History

Release
Modification

Cisco IOS XE Release 3.2S

This command was introduced.

 
Usage Guidelines

Use this command to limit debug output to a single VRF.


NoteEIGRP does not support the EIGRP does not support the debug condition vrf command.


Examples

The following example shows how to limit debugging output to VRF red:

Router# debug condition vrf red

 
Related Commands

Command
Description

vrf definition

Defines a virtual routing and forwarding instance.

debug ip bgp igp-metric ignore

To display information related to the system ignoring the Interior Gateway Protocol (IGP) metric during best path selection, use the debug ip bgp igp-metric ignore command in privileged EXEC mode. To disable such debugging output, use the no form of the command.

debug ip bgp igp-metric ignore

no debug ip bgp igp-metric ignore

 
Syntax Description

This command has no arguments or keywords.

 
Command Modes

Privileged EXEC (#)

 
Command History

Release
Modification

Cisco IOS XE Release 3.4S

This command was introduced.

 
Usage Guidelines

You might use this command if the path you expected to be chosen as the best path at the shadow RR was not chosen as such. That could be because the bgp bestpath igp-metric ignore command makes the best path algorithm choose the same best path as the primary RR if they are not co-located.

Examples

The following example turns on debugging of events related to the system ignoring the IGP metric during bestpath selection:

Router# debug ip bgp igp-metric ignore

 
Related Commands

Command
Description

bgp bestpath igp-metric ignore

Specifies that the system ignore the Interior Gateway Protocol (IGP) metric during best path selection.

debug ip bgp route-server

To turn on debugging for a BGP route server, use the debug ip bgp route-server command in privileged EXEC mode. To disable debugging output, use the no form of this command.

debug ip bgp route-server { client | context | event | import | policy } [ detail ]

no debug ip bgp route-server { client | context | event | import | policy } [ detail ]

 
Syntax Description

client

Displays information about BGP route server clients.

context

Displays information about BGP route server contexts.

event

Displays information about route server events, such as importing into the virtual RS table.

import

Displays information about BGP route server import maps.

policy

Displays information about the policy path process.

detail

(Optional) Displays detailed debugging information.

 
Command Modes

Privileged EXEC (#)

 
Command History

Release
Modification

Cisco IOS XE 3.3S

This command was introduced.

 
Usage Guidelines

Use this command to turn on debugging of a BGP router server.


Caution The detail keyword is used for complex issues and should only be turned on when you are debugging with a Cisco representative.

Examples

In the following example, BGP route server client debugging is turned on:

Router# debug ip bgp route-server client
 

 
Related Commands

Command
Description

import-map

Configures flexible policy handling by a BGP route server.

neighbor route-server-client

Specifies on a BGP route server that a neighbor is a route server client.

route-server-context

Creates a route-server context in order to provide flexible policy handling for a BGP route server.

debug ip multicast topology

To enable debugging output for IP multicast stream topology creation events, deletion events, and IP multicast stream access control list (ACL) matching events, use the debug ip multicast topology command in privileged EXEC mode. To disable debugging output, use the no form of this command.

debug ip multicast topology

no debug ip multicast topology

 
Syntax Description

This command has no arguments or keywords.

 
Command Modes

Privileged EXEC (#)

 
Command History

Release
Modification

Cisco IOS XE Release 3.2S

This command was introduced.

 
Usage Guidelines

Use this command when IP multicast stream topology creation, IP multicast stream topology deletion, or IP multicast stream ACL matching appears not to be functioning.

Examples

The following example shows how to enable debugging output for IP multicast stream topology creation events, IP multicast stream topology deletion events, and IP multicast stream ACL matching events:

Router# debug ip multicast topology

 
Related Commands

Command
Description

ip multicast rpf select topology

Associates a multicast topology with a multicast group with a specific mroute entry.

ip multicast topology

Configures topology selection for multicast streams.

show ip multicast topology

Displays IP multicast topology information.

debug ip wccp

To display information about Web Cache Control Protocol (WCCP) services, use the debug ip wccp command in privileged EXEC mode. To disable debugging output, use the no form of this command.

debug ip wccp { default | vrf vrf-name { events | packets [ control ]} | events | packets [ bypass | control | redirect ] | platform | subblocks }

no debug ip wccp { default | vrf vrf-name { events | packets [ control ]} | events | packets [ bypass | control | redirect ] | platform | subblocks }

 
Syntax Description

default

Displays information about default WCCP services.

vrf vrf-name

Specifies a virtual routing and forwarding instance (VRF) to associate with a service group.

events

Displays information about significant WCCP events.

packets

Displays information about every WCCP packet received or sent by the router.

control

(Optional) Displays information about WCCP control packets.

bypass

(Optional) Displays information about WCCP bypass packets.

redirect

(Optional) Displays information about WCCP redirect packets.

platform

Displays information about WCCP platform API.

subblocks

Displays information about WCCP subblocks.

 
Command Default

Debug information is not displayed.

 
Command Modes

Privileged EXEC (#)

 
Command History

Release
Modification

15.0(1)M

This command was introduced. This command replaces the debug ip wccp packets and debug ip wccp events commands.

12.2(33)SRE

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

Cisco IOS XE Release 3.1S

This command was integrated into Cisco IOS XE Release 3.1S.

 
Usage Guidelines

When the vrf keyword is not used, the command displays debug information about all WCCP services on the router. The default keyword is used to specify default WCCP services.

Examples

The following is sample output from the debug ip wccp events command when a Cisco Cache Engine is added to the list of available Web caches:

Router# debug ip wccp events
 
WCCP-EVNT: Built I_See_You msg body w/1 usable web caches, change # 0000000A
WCCP-EVNT: Web Cache 192.168.25.3 added
WCCP-EVNT: Built I_See_You msg body w/2 usable web caches, change # 0000000B
WCCP-EVNT: Built I_See_You msg body w/2 usable web caches, change # 0000000C
 

The following is sample output from the debug ip wccp packets command. The router is sending keepalive packets to the Cisco Cache Engines at 192.168.25.4 and 192.168.25.3. Each keepalive packet has an identification number associated with it. When the Cisco Cache Engine receives a keepalive packet from the router, it sends a reply with the identification number back to the router.

Router# debug ip wccp packets
 
WCCP-PKT: Received valid Here_I_Am packet from 192.168.25.4 w/rcvd_id 00003532
WCCP-PKT: Sending I_See_You packet to 192.168.25.4 w/ rcvd_id 00003534
WCCP-PKT: Received valid Here_I_Am packet from 192.168.25.3 w/rcvd_id 00003533
WCCP-PKT: Sending I_See_You packet to 192.168.25.3 w/ rcvd_id 00003535
WCCP-PKT: Received valid Here_I_Am packet from 192.168.25.4 w/rcvd_id 00003534
WCCP-PKT: Sending I_See_You packet to 192.168.25.4 w/ rcvd_id 00003536
WCCP-PKT: Received valid Here_I_Am packet from 192.168.25.3 w/rcvd_id 00003535
WCCP-PKT: Sending I_See_You packet to 192.168.25.3 w/ rcvd_id 00003537
WCCP-PKT: Received valid Here_I_Am packet from 192.168.25.4 w/rcvd_id 00003536
WCCP-PKT: Sending I_See_You packet to 192.168.25.4 w/ rcvd_id 00003538
WCCP-PKT: Received valid Here_I_Am packet from 192.168.25.3 w/rcvd_id 00003537
WCCP-PKT: Sending I_See_You packet to 192.168.25.3 w/ rcvd_id 00003539

 
Related Commands

Command
Description

clear ip wccp

Clears the counter for packets redirected using WCCP.

ip wccp

Enables support of the specified WCCP service for participation in a service group.

ip wccp redirect

Enables packet redirection on an outbound or inbound interface using WCCP.

show ip interface

Lists a summary of the IP information and status of an interface.

debug platform hardware qfp active feature wccp

To enable debug logging for the Web Cache Communication Protocol (WCCP) client in the Cisco Quantum Flow Processor (QFP), use the debug platform hardware qfp active feature wccp command in privileged EXEC mode. To disable WCCP QFP debug logging, use the no form of this command.

debug platform hardware qfp active feature wccp {{ client | lib-client { all | error | info | trace | warning }} | datapath all }

no debug platform hardware qfp active feature wccp {{ client | lib-client { all | error | info | trace | warning }} | datapath all }

 
Syntax Description

client

Enables WCCP QFP client debug logging.

lib-client

Enables WCCP QFP client-library debug logging.

all

Enables all logs.

error

Enables error logs.

info

Enables info logs.

trace

Enables trace logs.

warning

Enables warning logs.

datapath all

Enables all WCCP QFP datapath debug logging.

 
Command Default

WCCP QFP debug logging is disabled.

 
Command Modes

Privileged EXEC (#)

 
Command History

Release
Modification

Cisco IOS XE Release 3.1S

This command was introduced.

 
Usage Guidelines

When the debug platform hardware qfp active feature wccp command is configured, QFP client debugs are enabled and can be collected from the forwarding processor (FP) from the file cpp_cp_F0-0.log.

When the debug platform hardware qfp active feature wccp lib-client all command is configured, QFP lib-client debugs are enabled and can be collected from the FP from the file fman-fp_F0-0.log.

When the debug platform hardware qfp active feature wccp datapath all command is configured, QFP datapath debugs are enabled and can be collected from the FP from the file cpp_cp-F0-0.log.

Examples

The following is sample output from the debug platform hardware qfp active feature wccp command:

Router# debug platform hardware qfp active feature wccp
 

A WCCP service is configured:

06/17 10:48:15.980 [(null)]: (debug): cpp_wccp_service_add_handler: service_params::: type =0 id = 0priority = 240 is_closed = 0 assign = 0
06/17 10:48:15.980 [(null)]: (debug): cpp_wccp_dplane_init dplane cpp-init for all cpps
06/17 10:48:15.980 [(null)]: (debug): cpp_wccp_dplane_init_cpp Enter: cpp_info = 0x1027b970:
.
.
.
 

The sequence of messages repeats for each access control entry (ACE) of a merged access control list (ACL):

06/17 10:53:38.792 [(null)]: (debug): cpp_wccp_update_bind_obj_list:idx = 63 bind-info:no.lvl = 1 fobj = 80024000 bind-id = 0
06/17 10:53:38.792 [(null)]: (debug): cpp_wccp_update_bind_obj_list fobj:service-id = 0 type = 0 cache-id = 9action = 2 acl-log = 0
06/17 10:53:38.792 [(null)]: (debug): cpp_wccp_add_dplane_cache_desc service-index = 0, cache_id = 9
06/17 10:53:38.792 [(null)]: (debug): cpp_wccp_get_dplane_cache_index service-index = 0, cache_id = 9
06/17 10:53:38.792 [(null)]: (debug): cpp_wccp_create_dplane_cache_index Cache index = 0 exists for cache-id = 9,service-index = 0
.
.
.
 

WCCP redirection is configured on an interface:

06/17 13:15:44.655 [(null)]: (debug): cpp_wccp_intf_attach_msg req = 0x13116848, msg-len = 36
06/17 13:15:44.655 [(null)]: (debug): cpp_wccp_intf_attach_handler: type = 0 id = 0 ifh = 17dir = 0 vrfid = 0
06/17 13:15:44.655 [(null)]: (debug): cpp_wccp_get_service_index WCCP: service_id 0 vrfid 0service_desc_index 0
06/17 13:15:44.655 [(null)]: (debug): cpp_wccp_get_service_desc: service-id: 0 type = 0 index = 0
.
.
.
 

Debug messages appear for each ACE of the merged ACL for a service group:

06/17 13:15:44.670 [(null)]: (debug): cpp_wccp_translate_fobj_to_cce_result Entry
06/17 13:15:44.670 [(null)]: (debug): cpp_wccp_get_service_index WCCP: service_id 0 vrfid 0service_desc_index 0
06/17 13:15:44.670 [(null)]: (debug): cpp_wccp_get_service_desc: service-id: 0 type = 0 index = 0
06/17 13:15:44.670 [(null)]: (debug): cpp_wccp_get_dplane_cache_index service-index = 0, cache_id = 9
.
.
.
 

Redirection is removed from an interface:

06/17 13:24:54.617 [(null)]: (debug): cpp_wccp_intf_detach_handler: type = 0 id = 0 ifh = 17dir = 0 vrfid = 0
06/17 13:24:54.617 [(null)]: (debug): cpp_wccp_get_service_index WCCP: service_id 0 vrfid 0service_desc_index 0
06/17 13:24:54.617 [(null)]: (debug): cpp_wccp_get_service_desc: service-id: 0 type = 0 index = 0
06/17 13:24:54.617 [(null)]: (debug): cpp_wccp_intf_detach_handler:hw_cg_node, ifh = 17 dir = 0vrfid = 0 service-index = 0 exists
.
.
 

A service group is unconfigured:

06/17 13:29:41.828 [(null)]: (debug): cpp_wccp_cache_delete_handler: cache-desc ip-addr = 5a140102 id-addr = 0cache-id = 9 cef_handle = 0x112d3b68 cef-obj-type = 10router-id = 42424242 ce_mac_addr fwd-method = 0 hw-addr = 0x11188f78
06/17 13:29:41.828 [(null)]: (debug): cpp_wccp_remove_dplane_ip_hash_entry cache_id= 9:
06/17 13:29:41.828 [(null)]: (debug): cpp_wccp_remove_dplane_ip_hash_entry ip-hash-index = 6934:
.
.
.
 

The following is sample output from the debug platform hardware qfp active feature wccp lib-client all command:

Router# debug platform hardware qfp active feature wccp lib-client all
 

A WCCP service group is configured:

06/17 13:47:00.158 [buginf]: (debug): cpp_wccp_service_group_add_a: API call from PAL service-type = 0 id = 0vrfid = 0, priority = 240 is_closed = 0 has_ports = 1 assign-method = 0
06/17 13:47:00.158 [buginf]: (debug): cpp_wccp_api_async_msg_send: data size = 28 for this 3message
06/17 13:47:00.158 [buginf]: (debug): cpp_wccp_api_async_send_cb: SMC async send call-back
.
.
.
 

The set of debug messages repeats for each ACE of the merged ACL of the WCCP service group:

06/17 13:47:29.474 [buginf]: (debug): Notification from CGM to WCCP, op:13, tid:0,async: 0, ctx: (nil)
06/17 13:47:29.474 [buginf]: (debug): cpp_wccp_cgm_notif_handler:cgm BIND num_lvl = 1, bind-id = 0 fobj = 80028000
06/17 13:47:29.474 [buginf]: (debug): Notification from CGM to WCCP, op:2, tid:0,async: 1,ctx: 0x77
.
.
.
 

WCCP redirection is configured on an interface:

06/17 13:52:05.841 [buginf]: (debug): Notification from CGM to WCCP, op:1, tid:0,async: 0,ctx: (nil)
06/17 13:52:05.841 [buginf]: (debug): cpp_wccp_attach_service_to_intf_a: API call from PAL service-type = 0 id = 0 vrfid = 0 if_h = 11 dir = 0
06/17 13:52:05.841 [buginf]: (debug): cpp_wccp_attach_service_to_intf_a:tid el= 0x11347470 ifh = 17, dir = 0 id = 0 type = 0 vrfid = 0
.
.
.
 

WCCP is unconfigured on an interface:

06/17 13:54:30.544 [buginf]: (debug): Notification from CGM to WCCP, op:1, tid:0,async: 0,ctx: (nil)
06/17 13:54:30.544 [buginf]: (debug): cpp_wccp_detach_service_from_intf_a: API call from PALservice-type = 0 id = 0 vrfid = 0 if_h = 11 dir = 0
06/17 13:54:30.544 [buginf]: (debug): cpp_wccp_detach_service_from_intf_a:tid el= 0x11338890ifh = 17, dir = 0 id = 0 type = 0
06/17 13:54:30.544 [buginf]: (debug): Notification from CGM to WCCP, op:2, tid:0,async: 1,ctx: 0x79
.
.
.
 

A WCCP service group is unconfigured:

06/17 13:56:14.492 [buginf]: (debug): cpp_wccp_cache_delete_a: API call from PAL cache-id= 10
06/17 13:56:14.492 [buginf]: (debug): cpp_wccp_api_async_msg_send: data size = 2 for this 6 message
06/17 13:56:14.492 [buginf]: (debug): cpp_wccp_api_async_send_cb: SMC async send call-back
06/17 13:56:14.492 [buginf]: (debug): cpp_wccp_api_async_msg_send successfully sent msg-type 6 to server.
06/17 13:56:14.492 [buginf]: (debug): Notification from CGM to WCCP, op:1, tid:0,async: 0,ctx: (nil)
06/17 13:56:14.492 [buginf]: (debug): Notification from CGM to WCCP, op:14, tid:0,async: 0, ctx: (nil)
06/17 13:56:14.493 [buginf]: (debug): cpp_wccp_cgm_notif_handler:cgm BIND num_lvl = 1, bind-id = 0 fobj = 80028000
.
.
.
 

The debug messages repeat for each ACE of the merged ACL for the WCCP service group:

06/17 13:56:14.500 [buginf]: (debug): Notification from CGM to WCCP, op:14, tid:0,async: 0, ctx: (nil)
06/17 13:56:14.500 [buginf]: (debug): cpp_wccp_cgm_notif_handler:cgm BIND num_lvl = 1, bind-id = 0 fobj = 80028000
06/17 13:56:14.501 [buginf]: (debug): Notification from CGM to WCCP, op:2, tid:0,async: 1,ctx: 0x7a

.

.
.
 

The following is sample output from the debug platform hardware qfp active feature wccp datapath all command:

Router# debug platform hardware qfp active feature wccp datapath all
 

A packet is successfully redirected:

06/17 14:49:28.935 [(null)]: (debug):
QFP:00 Thread:090 TS:00003918904609765795 ##########################################################################################
06/17 14:49:28.936 [(null)]: (debug):
QFP:00 Thread:090 TS:00003918904609777642 CCE IPV4 PKT (src:3.3.3.2,dst:2.2.2.2,sprt:0000,dprt:0050,prot:06,tos:00,len:0014,ttl:3f) , intf:3f3
06/17 14:49:28.936 [(null)]: (debug):
QFP:00 Thread:090 TS:00003918904609814715 ##########################################################################################
06/17 14:49:28.936 [(null)]: (debug):
QFP:00 Thread:090 TS:00003918904609825865 CCE IPV4 UIDB_INFO W0:00000004, W1:00084441, tcam_region_index:0004, key_index:00, cmd:00084441
06/17 14:49:28.936 [(null)]: (debug):
.
.
.

 
Related Commands

Command
Description

clear ip wccp

Removes WCCP statistics (counts) maintained on the router for a particular service.

ip wccp

Enables support of the specified WCCP service for participation in a service group.

ip wccp check services all

Enables enable all WCCP services.

ip wccp outbound-acl-check

Enables execution of ACL applied on the actual outgoing interface of a packet before a decision is taken to redirect a packet.

ip wccp redirect

Enables packet redirection on an outbound or inbound interface using WCCP.

debug platform hardware qfp feature sbc

To enable debug logging for signaling border element (SBE) or the data border element (DBE) logs in the Cisco QuantumFlow Processor (QFP), use the debug platform hardware qfp feature sbc command in Privileged EXEC mode. To disable this form of debugging, use the no form of this command.

debug platform hardware qfp {active | standby} feature sbc {sbe {pfilter | sfx {datapath}} | dbe {client {all | clear | error | informational | trace | warning} | datapath {all | drop | dtmf | error | events | find | latch | proxy | rtcp}}

no debug platform hardware qfp {active | standby} feature sbc {sbe {pfilter | sfx {datapath}} | dbe {client {all | clear | error | informational | trace | warning} | datapath {all | drop | dtmf | error | events | find | latch | proxy | rtcp}}

 
Syntax Description

active

Enables debug logging for the active processor.

standby

Enables debug logging for the standby processor.

sbe

SBC signaling border element. Enables SBE debug logging.

pfilter

Specifies SBC SBE packet filter.

sfx

Specifies SBC SIP Fast Register (SFX).

datapath

Specifies SBC datapath SIP Fast Register (SFX).

dbe

SBC data border element. Enables DBE debug logging.

client

Enables SBC DBE client debugging.

all

Specifies all client debugging.

clear

Specifies Clear the forwarding counters.

error

Specifies Client error debugging.

informational

Specifies Client informational debugging.

trace

Specifies Client trace debugging.

warning

Specifies Client warning debugging.

datapath

Enables SBC DBE datapath debugging.

all

Specifies datapath all debugs.

drop

Specifies datapath drop debugs.

dtmf

Specifies datapath DTMF debugs.

error

Specifies datapath errors debugs.

events

Specifies datapath events debugs.

find

Specifies datapath find debugs.

latch

Specifies datapath latch events debugs.

proxy

Specifies datapath proxy debugs.

rtcp

Specifies datapath RTCP debugs.

 
Command Default

No default behavior or values are available.

 
Command Modes

Privileged EXEC (#)

 
Command History

Release
Modification

Cisco IOS XE Release 2.4

This command was introduced on the Cisco ASR 1000 Series Aggregation Services Routers.

 
Usage Guidelines

The output of the debugs is stored in the harddisk:tracelog/ directory.

Examples

The following example turns on debugging of SBE logs for SIP fast-register (SFX) datapath messages residing on the active processor in the Cisco QuantumFlow Processor (QFP):

Router# debug platform hardware qfp active feature sbc sbe sfx datapath
 
 

The following example turns on debugging of DBE logs for datapath DTMF debugs residing on the active processor in the Cisco QuantumFlow Processor (QFP):

Router# debug platform hardware qfp active feature sbc dbe datapath dtmf

 
Related Commands

Command
Description

show platform hardware qfp active feature sbc sfx

Displays information about SIP fast-register (SFX) messages in the Cisco QuantumFlow Processor (QFP).

clear platform hardware qfp active feature sbc sfx

Clears the Cisco QuantumFlow Processor (QFP) SIP Fast Register (SFX) counters.

debug platform software wccp

To enable Web Cache Control Protocol (WCCP) platform debug messages, use the debug platform software wccp command in privileged EXEC mode. To disable WCCP platform debug messages, use the no form of this command.

debug platform software wccp { configuration | counters | detail | messages }

no debug platform software wccp { configuration | counters | detail | messages }

 
Syntax Description

configuration

Enables configuration related debugs.

counters

Enables statistics collection related debugs.

detail

Enables detailed debugs for all WCCP related configurations.

messages

Enables debugs related to type definition language (TDL) messages being exchanged.

 
Command Default

Debugging is disabled.

 
Command Modes

Privileged EXEC (#)

 
Command History

Release
Modification

Cisco IOS XE Release 2.2

This command was introduced.

Cisco IOS XE Release 3.1S

This command was modified. The counters keyword was added.

Examples

The following is sample output from the debug platform software wccp configuration command:

Router# debug platform software wccp configuration
 

A WCCP service is configured:

*Jun 17 15:41:04.816: FMANRP-WCCP: Config Service Group (0, 0, 0)
acl = , propagate_tos = TRUE, mode_is_closed = FALSE
definition_is_valid = TRUE, protocol = 6, priority = 240
ass_method = Unknown, fwd_method = Unknown, ret_method = Unknown
num_mv_sets = 0, redirection_is_active = FALSE, num_wcs = 0
use_source_port = FALSE, ports_defined = TRUE
ports[0] = 80
ports[1] = 0
ports[2] = 0
ports[3] = 0
ports[4] = 0
ports[5] = 0
ports[6] = 0
ports[7] = 0
*Jun 17 15:41:24.827: FMANRP-WCCP: create ce adjacency: CE = 90.20.1.2, fwd_method = GRE oce= 0x30692230 adj = 0x306921C0 handle = 0x30692230 obj_id = 135
*Jun 17 15:41:24.827: FMANRP-WCCP: adjacency 90.20.1.2 (4500.0000.0000), router_id 66.66.66.66 proto=47
*Jun 17 15:41:39.807: FMANRP-WCCP: update mask data, Service Group (0, 0, 0)
acl = , propagate_tos = TRUE, mode_is_closed = FALSE
definition_is_valid = TRUE, protocol = 6, priority = 240
ass_method = Mask, fwd_method = GRE, ret_method = L2
num_mv_sets = 1, redirection_is_active = TRUE, num_wcs = 1
use_source_port = FALSE, ports_defined = TRUE
wc[0] = 90.20.1.2
ports[0] = 80
ports[1] = 0
ports[2] = 0
ports[3] = 0
ports[4] = 0
ports[5] = 0
ports[6] = 0
ports[7] = 0
*Jun 17 15:41:39.808: FMANRP-WCCP: Service Group (0, 0, 0) generate merged acl from IOS
*Jun 17 15:41:39.808: FMANRP-WCCP: wccp merged_acl(acl=), p=64 t=64 MCP wccp merged_acl, num_port=1 result_len=64
 

A WCCP service is configured on an interface:

*Jun 17 15:45:17.083: FMANRP-WCCP: Config Service Group (0, 0, 0) to interface GigabitEthernet0/3/1, direction = IN
*Jun 17 15:45:17.084: FMANRP-WCCP: Attach GigabitEthernet0/3/1 interface info for Service group (0, 0, 0) if_handle 20, direction Input(0x2)
 

A WCCP service is removed from an interface:

 
*Jun 17 15:46:29.815: FMANRP-WCCP: Unconfig Service Group (0, 0, 0) to interface GigabitEthernet0/3/1, direction = IN
*Jun 17 15:46:29.815: FMANRP-WCCP: Detach GigabitEthernet0/3/1 interface info for Service group (0, 0, 0) if_handle 20, direction Input(0x2)
 

A WCCP service group is unconfigured:

*Jun 17 15:48:17.224: FMANRP-WCCP: (0 0 0) Delete ce = 90.20.1.2
*Jun 17 15:48:17.225: Failed to retrieve service group params while removing ce
*Jun 17 15:48:17.241: FMANRP-WCCP: Unconfig Service Group (0, 0, 0)
 

The following is sample output from debug platform software wccp messages command:

Router# debug platform software wccp messages
 

A WCCP service is configured:

*Jun 17 15:50:57.796: FMANRP-WCCP: send out (0, 0, 0) wccp_svc_cfg (ADD) to fman-rp
pri=0, ce_num=0, ass=Unknown, fwd=Unknown, ret=Unknown
protocol=6 use_source_port=0 is_closed=0
ports[0] = 80
ports[1] = 0
ports[2] = 0
ports[3] = 0
ports[4] = 0
ports[5] = 0
ports[6] = 0
ports[7] = 0
*Jun 17 15:51:14.864: FMANRP-WCCP: send out (0, 0, 0) wccp_ce_cfg (ADD) to fman-rp, ce=90.20.1.2 ce_id=0.0.0.0 rtr_id=66.66.66.66 fwd_method=GRE obj_id=141
*Jun 17 15:51:29.846: FMANRP-WCCP: send out (0, 0, 0) wccp_svc_cfg (MODIFY) to fman-rp
pri=0, ce_num=1, ass=Mask, fwd=GRE, ret=L2
protocol=6 use_source_port=0 is_closed=0
ports[0] = 80
ports[1] = 0
ports[2] = 0
ports[3] = 0
ports[4] = 0
ports[5] = 0
ports[6] = 0
ports[7] = 0
*Jun 17 15:51:29.847: FMANRP-WCCP: send out (0, 0, 0) wccp_acl_begin to fman-rp
*Jun 17 15:51:29.886: FMANRP-WCCP: Service Group (0, 0, 0) send out ACL=WCCP_ACL_0x0, 64 ACEs to fman-rp
*Jun 17 15:51:29.886: FMANRP-WCCP: send out (0, 0, 0) wccp_acl_end to fman-rp
 

A WCCP service is removed from an interface:

*Jun 17 15:53:40.710: FMANRP-WCCP: send out (0, 0, 0) wccp_if_svc_bind (ADD) to fman-rp if_handle=20 dir=IN
 

A WCCP service is removed from an interface:

*Jun 17 15:54:36.924: FMANRP-WCCP: send out (0, 0, 0) wccp_if_svc_bind (DELETE) to fman-rp if_handle=20 dir=IN
 

A WCCP service group is unconfigured:

*Jun 17 15:55:13.117: FMANRP-WCCP: send out (0, 0, 0) wccp_ce_cfg (DELETE) to fman-rp, ce=90.20.1.2 ce_id=0.0.0.0 rtr_id=0.0.0.0 fwd_method=Unknown obj_id=0
*Jun 17 15:55:13.128: FMANRP-WCCP: send out (0, 0, 0) wccp_svc_cfg (DELETE) to fman-rp
pri=0, ce_num=0, ass=Unknown, fwd=Unknown, ret=Unknown
protocol=0 use_source_port=0 is_closed=0
ports[0] = 0
ports[1] = 0
ports[2] = 0
ports[3] = 0
ports[4] = 0
ports[5] = 0
ports[6] = 0
ports[7] = 0
 

The following is sample output from the debug platform software wccp detail command:

Router# debug platform software wccp detail
 

WCCP service is configured:

*Jun 17 18:42:15.491: FMANRP-WCCP: create ce adjacency: CE = 90.20.1.2, fwd_method = GRE oce= 0x30692230 adj = 0x306921C0 handle = 0x30692230 obj_id = 181
*Jun 17 18:42:30.472: FMANRP-WCCP: Converted adjacency (0x30692230), to ce_addr (90.20.1.2)
*Jun 17 18:42:30.473: FMANRP-WCCP: Service Group (0, 0, 0) send out ACL=WCCP_ACL_0x0, ACE=1, obj_id=181 PERMIT, srcopr 5, dstopr 3 to fman-rp
*Jun 17 18:42:30.473: FMANRP-WCCP: oce 0x30692230 adj 0x306921C0 handle 0x30692230
 

The debug messages appear for each access control entry (ACE) of the merged access control list (ACL) for the service group:

*Jun 17 18:42:30.487: FMANRP-WCCP: Converted adjacency (0x30692230), to ce_addr (90.20.1.2)
*Jun 17 18:42:30.487: FMANRP-WCCP: Service Group (0, 0, 0) send out ACL=WCCP_ACL_0x0, ACE=64, obj_id=181 PERMIT, srcopr 5, dstopr 3 to fman-rp
*Jun 17 18:42:30.487: FMANRP-WCCP: oce 0x30692230 adj 0x306921C0 handle 0x30692230
 

A WCCP service group is unconfigured:

*Jun 17 18:46:34.316: FMANRP-WCCP: (0 0 0) Delete ce = 90.20.1.2
*Jun 17 18:46:34.316: Failed to retrieve service group params while removing ce
 

The following is sample output from the debug platform software wccp counters command.

Router# debug platform software wccp counters
 

Statistics are collected for the first time on a WCCP-enabled interface:

*Jun 17 18:50:18.930: FMANRP-WCCP: Received wccp_if_stats intf 20, redirect(IN) 0 from fman-fp
 

The following debug messages are displayed every 10 seconds:

*Jun 17 18:51:18.929: FMANRP-WCCP: Received (0, 0, 0) svc_grp_stats from fman-fp
unassigned_count = 0, dropped_closed_count = 0
bypass_count = 0, bypass_failed_count = 0
denied_count = 0, redirect_count = 0
num_entries = 0
*Jun 17 18:51:18.929: FMANRP-WCCP: Received wccp_if_stats intf 20, redirect(IN) 0 from fman-fp
*Jun 17 18:51:28.929: FMANRP-WCCP: Received (0, 0, 0) svc_grp_stats from fman-fp
unassigned_count = 0, dropped_closed_count = 0
bypass_count = 0, bypass_failed_count = 0
denied_count = 0, redirect_count = 0
num_entries = 0

 
Related Commands

Command
Description

clear ip wccp

Removes WCCP statistics (counts) maintained on the router for a particular service.

ip wccp

Enables support of the specified WCCP service for participation in a service group.

ip wccp check services all

Enables all WCCP services.

ip wccp outbound-acl-check

Enables execution of ACL applied on the actual outgoing interface of a packet before a decision is taken to redirect a packet.

ip wccp redirect

Enables packet redirection on an outbound or inbound interface using WCCP.

show platform software wccp

Displays global statistics related to WCCP on Cisco ASR 1000 Series Routers.

debug sbc alarm-filter

To configure the alarm types for which alarm logs must be generated, use the debug sbc alarm-filter command in the privileged EXEC mode. To unconfigure generation of alarm logs for a specified alarm type, use the no form of this command.

debug sbc sbc-name alarm-filter alarm-type

no debug sbc sbc-name alarm-filter alarm-type

 
Syntax Description

sbc-name

Name of the SBC.

alarm-filter alarm-type

Specifies that logs must be generated for one of the following alarm types:

  • audit-congestion —Call audit congestion.
  • blacklist-alert —Blacklist alert.
  • blacklist-event —Blacklist event.
  • h248 —H248 connection failed.
  • handled-exception —Handled exception.
  • routing-component —Routing component set not active.
  • routing-config —Routing config set not active.
  • routing-invalid —Invalid routing configuration.
  • sip-congestion —Session Initiation Protocol (SIP) congestion detection.
  • sip-peer —SIP peer unavailable.
  • vqm —Voice Quality metrics (VQM) threshold exceeded.

 
Command Default

The default is that alarm logs are generated for all alarm types.

 
Command Modes

Privileged EXEC (#)

 
Command History

Release
Modification

Cisco IOS XE Release 3.5S

This command was introduced on the Cisco ASR 1000 Series Aggregation Services Routers.

 
Usage Guidelines

Run this command for each alarm type for which you want logs to be generated. You can use the show debugging command to display the debugging settings created by running the debug sbc alarm-log-level command.

Examples

The following example shows how the debug sbc alarm-filter command is used to configure the generation of alarm logs for call audit congestion alarms:

Router# debug sbc MySbc alarm-filter audit-congestion

The following example shows how the show debugging command displays the configuration settings created by running the debug sbc alarm-filter command. For example:

Router# show debugging
 
SBC:

SBC alarm filter 1 : AUDIT CONGESTION

 
Related Commands

Command
Description

debug sbc alarm-log-level

Specifies the output mode for and the alarm severity level at which alarms must be logged.

sbc dump-alarms

Moves alarm logs from the buffer to a file system.

sbc periodic-dump-alarms

Configures periodic movement of alarm logs from the buffer to a file system.

show debugging

Displays information about the types of debugging that are enabled for the router.

debug sbc alarm-log-level

To configure the output mode and the alarm severity level at which alarms must be logged, use the debug sbc alarm-log-level command in the privileged EXEC mode. To unconfigure the display and storage of alarm logs, use the no form of this command.

debug sbc sbc-name alarm-log-level [ buffer | console] severity-level

no debug sbc sbc-name alarm-log-level [ buffer | console]

 
Syntax Description

sbc-name

Name of the SBC.

alarm-log-level

Specifies that logs must be displayed or stored for alarms of the specified alarm severity level.

buffer

Specifies that alarm logs must be stored in the buffer.

console

Specifies that logging output must be displayed on the console.

severity-level

Alarm severity level for which logs must be generated. The range is from 0 to 100. For alarm logs stored in the buffer, the default is 40. For alarm logs displayed on the console, the default is 80. To disable logging, set the value to 100. If you set the value to 0, logs are generated for all levels of alarm severity.

 
Command Default

This command applies to all the alarms for which you configure logging by running the debug sbc alarm-filter command.

 
Command Modes

Privileged EXEC (#)

 
Command History

Release
Modification

Cisco IOS XE Release 3.5S

This command was introduced on the Cisco ASR 1000 Series Aggregation Services Routers.

 
Usage Guidelines

If you specify buffer as the output mode for the alarm logs, note that the logs are moved to a file in the specified file system when the capacity of the buffer is exceeded. The size of a single log file created on the file system cannot exceed 2 MB. When the size of a particular log file reaches 2 MB, a new file is created and logging output is stored in the new file. Use the show debugging command to display the debug settings created by running the debug sbc alarm-log-level command.

Examples

In the following example, the debug sbc alarm-log-level command is run twice. The first run of this command is used to specify that logs must be generated for alarms that are of severity 20 or higher and that these logs must be stored in the buffer. The second run of the command is used to specify that logs must be generated for alarms that are of severity 40 or higher and that these logs must be displayed on the console.

Router# debug sbc MySbc alarm-log-level buffer 20
Router# debug sbc MySbc alarm-log-level console 40

The show debugging command shows the configuration settings created by running the debug sbc alarm-log-level command. For example:

Router# show debugging
 
SBC:
SBC buffer alarm-log-level : 20
SBC console alarm-log-level : 40

 
Related Commands

Command
Description

debug sbc alarm-filter

Specifies the alarm types for which alarm logs must be generated.

sbc dump-alarms

Moves alarm logs from the buffer to a file system.

sbc periodic-dump-alarms

Configures periodic movement of alarm logs from the buffer to a file system.

show debugging

Displays information about the types of debugging that are enabled for the router.

debug sbc asr log-level filter

To set the problem determination (PD) log level at which filtering occurs, use the debug sbc asr log-level filter command in the Exec mode. To disable this form of debugging, use the no form of this command.

debug sbc asr log-level filter level

no debug sbc asr log-level filter level

 
Syntax Description

level

The level to set. Range is 0 to 100.

The default is 50.

0 applies filtering to all PD logs. Setting a filter log level of 60 will only apply filtering to logs 60 and above. For example, if you set the console log level to 100, set a SIP filter, and set the filter log level to 60, then only logs matching the SIP filter and above level 60 will output to the screen.

Logs with severity greater than the specified threshold, matching the include/exclude filter set, or the log group filter are output regardless of the configured unconditional log levels for the buffer, file and console output streams. They are output to all three of those streams.

 
Command Default

No default behavior or values are available.

 
Command Modes

Exec (#)

 
Command History

Release
Modification

Cisco IOS XE Release 2.5

This command was introduced on the Cisco ASR 1000 Series Aggregation Services Routers.

 
Usage Guidelines

Logs with severity greater than the specified threshold, matching the include/exclude filter set, or the log group filter are output regardless of the configured unconditional log levels for the buffer, file and console output streams. They are output to all three of those streams.

Use the show debug command to see debug information.

Examples

The following examples show various output for this command:

Router# show debug
SBC: SBC buffer log-level is 100
SBC console log-level is 100 SBC filter log-level is 2
SBC log filter 1 - combination of: SIP components
 
 
Router# debug sbc asr log-level ?
buffer Buffer log console
Console log filter
Filter log
 
 
Router# debug sbc asr log-level filter ?
<0-100> Filter log level (default 50)
 

 
Related Commands

Command
Description

debug sbc pd filter component

Turns on problem determination (PD) filter components.

debug sbc pd filter context

Turns on different logs from the problem determination (PD) filters.

debug sbc pd filter product

Turns on problem determination (PD) filter product group logs.

debug sbc pd log-level

Sets the file logging level.

debug sbc correlation-logs filter

To enable the correlation-logs filter, use the debug sbc correlation-logs filter command in the privileged EXEC mode. To disable the correlation-logs filter, use the no form of this command.

debug sbc sbc-name correlation-logs filter filter-name [ pdtrc-log-level value ]

no debug sbc sbc-name correlation-logs filter filter-name

 
Syntax Description

sbc-name

Name of the Session Border Controller (SBC) service.

filter-name

Name of the filter used for filtering the correlation logs.

pdtrc-log-level value

(Optional) Specifies the value of the pdtrc log level. The range is from 0 to 100. The default is 60.

 
Command Default

No default behavior or values are available.

 
Command Modes

Privileged EXEC (#)

 
Command History

Release
Modification

Cisco IOS XE Release 3.5.0S

This command was introduced on the Cisco ASR 1000 Series Aggregation Services Routers.

 
Usage Guidelines

Use the show debugging command to display the debug logs, filters, and log levels.

Examples

The following example shows the various filters available for filtering the correlation logs:

Router# debug sbc test correlation-logs filter ?
adjacency Adjacency,matching calls to or from this adjacency
dn Dialed/Dialing number,matching calls to or from this number
remote-signalling-address Remote signalling address matching to or from this address
sip-uri SIP-URI,matching calls to or from this uri
vrf VRF name
 

The following example shows the filtering of correlation logs based on the adjacency parameter:

Router# debug sbc test correlation-logs filter adjacency abc
Debugging filter log-level set to default level 60
 
Router# show debugging
SBC correlator filter Adjacency name is abc
IpsTracing is enabled

The following example shows the filtering of correlation logs based on the remote signalling address parameter:

Router# debug sbc test correlation-logs filter vrf new ipv4 rsa 192.0.2.1 pdtrc-log-level 70
Debugging filter log-level set to default level 60
 
Router# show debugging
SBC correlator Filter Remote signalling-address ipv4 address is 192.0.2.1
SBC correlator Filter VRF is new with Vpn(id) = 3
Pd loglevel is 70
IpsTracing is enabled
SBC correlator Filter SIP-URI is 9.0.0.0
Pd loglevel is 0
IpsTracing is enabled

 
Related Commands

Command
Description

debug sbc pd log-level

Sets the file logging level.

show debugging

Displays the debug logs, filters, and log levels.

debug sbc errors

To debug sbc service errors, use the debug sbc errors command in the Exec mode. To disable this form of debugging, use the no form of this command.

debug sbc errors

no debug sbc errors

 
Syntax Description

This command has no arguments or keywords.

 
Command Default

No default behavior or values are available.

 
Command Modes

Exec (#)

 
Command History

Release
Modification

Cisco IOS XE Release 2.4

This command was introduced on the Cisco ASR 1000 Series Aggregation Services Routers.

 
Usage Guidelines

Use the show debug command to see debug information.

Examples

The following command turns on sbc error debugging:

Router# debug sbc errors
Router# 2007 May 13 04:24:50.902717 sbc: (ctx:0)hmstub_proc_recv_hb_message:test_rcv_hb_failed = 1110000
2007 May 13 04:29:50.960623 sbc: (ctx:0)hmstub_proc_recv_hb_message:test_rcv_hb_failed = 1112000
2007 May 13 04:34:50.960631 sbc: (ctx:0)hmstub_proc_recv_hb_message:test_rcv_hb_failed = 1114000

 
Related Commands

Command
Description

debug sbc filter control

Enables console logging based on a number of filters.

debug sbc ips

Enables IPS tracing.

debug sbc log-level console

Sets the console logging level.

debug sbc log-level file

Sets the file logging level.

debug sbc events

Enables debugging of sbc service events.

debug sbc ha

Enables debugging of sbc high availability.

debug sbc info

Enables debugging of sbc services information.

debug sbc nbase

Enables debugging of sbc services nbase.

debug sbc events

To debug sbc service events, use the debug sbc events command in privileged EXEC mode. To disable this form of debugging, use the no form of this command.

debug sbc events

no debug sbc events

 
Syntax Description

This command has no arguments or keywords.

 
Command Default

No default behavior or values are available.

 
Command Modes

privileged EXEC (#)

 
Command History

Release
Modification

Cisco IOS XE Release 2.4

This command was introduced on the Cisco ASR 1000 Series Aggregation Services Routers.

 
Usage Guidelines

Use the show debug command to see debug information.

Examples

The following command turns on debugging for sbc events:

Router# debug sbc events
 

 
Related Commands

Command
Description

debug sbc filter control

Enables console logging based on a number of filters.

debug sbc ips

Enables IPS tracing.

debug sbc log-level console

Sets the console logging level.

debug sbc log-level file

Sets the file logging level.

debug sbc errors

Enables debugging of sbc service errors.

debug sbc ha

Enables debugging of sbc high availability.

debug sbc info

Enables debugging of sbc services information.

debug sbc nbase

Enables debugging of sbc services nbase.

 

 

debug sbc filter

To enable logging based on a number of filters, use the debug sbc filter command in privileged EXEC mode. To disable logging based on these filters, use the no form of this command.

debug sbc { sbc-name} filter [adjacency {adj-name}] [bill {billing-id}] [ipv4 {ipv4-address}] [ipv6 {ipv6-address}] [number {number}] [billing] [call] [media] [overview] [protocol] [bm | cac | control | h323 | icc | radius | routing | sip | mgm]

no debug sbc { sbc-name} filter [adjacency {adj-name}] [bill {billing-id}] [ipv4 {ipv4-address}] [ipv6 {ipv6-address}] [number {number}] [billing] [call] [media] [overview] [protocol] [bm | cac | control | h323 | icc | radius | routing | sip | mgm]

 
Syntax Description

sbc-name

Name of the session border controller (SBC) service.

adjacency

Output of logs relating to this adjacency.

adj-name

Name of the adjacency.

bill

Log output of calls with a specified billing ID.

billing-id

Billing ID.

ipv4

Output logs that include the IPv4 IP address.

ipv4-address

IPv4 IP address.

ipv6

Output logs that include the IPv6 IP address.

ipv6-address

IPv6 IP address.

number

Output logs of calls with a specified number.

number

Either the caller number or dialed number.

billing

Logs about billing events.

call

Logs about call events.

media

Logs about media events.

overview

Logs showing the flow of control through the session border controller (SBC) components.

protocol

Logs showing protocol messages.

bm

Logs from the Bandwidth Manager (BM) component.

cac

Logs from the Call Admission Control (CAC) components.

control

Logs from the H.248 controller components.

h323

Logs from the H.323 components.

icc

Logs from the Interworking Call Control (ICC) components.

radius

Logs from the RADIUS components.

routing

Logs from the routing components.

sip

Logs from the Session Initiation Protocol (SIP) components.

mgm

Logs from the Media Gateway Manager (MGM) component.

 
Command Default

Debugging is off.

 
Command Modes

Privileged EXEC (#)

 
Command History

Release
Modification

Cisco IOS XE Release 2.1

This command was introduced on the Cisco ASR 1000 Series Aggregation Services Routers.

 
Usage Guidelines

You can specify any number of optional keywords, but each keyword can only be specified once. At least one keyword must be specified for the debug sbc filter command. You can issue multiple debug sbc filter commands.


NoteThe debug logs are only output if the appropriate filter keywords have been specified. The debug logs are only output if the appropriate filter keywords have been specified.


The keywords are composed of the following types of filters:

  • String filters—Allow the user to turn on logs about common SBC objects such as adjacencies. An object matches the string filter if the object exactly matches the string or the prefix matches the string.

String filters include the following keywords:

adjacency {adj-name}

bill {billing-id}

ipv4 {ipv4-address}

ipv6 {ipv6-address}

number {number}

  • Component filters—Turn on logs from individual components (or groups of components) within the SBC service. Only one component filter may be specified per debug sbc filter command.

Component filters include the following keywords:

bm, cac, control, h323, icc, radius, routing, sip, mgm

  • Cross-SBC filters—Turn on logs across all components of the SBC service.

Cross-SBC filters include the following keywords:

billing, call, media, overview, protocol


Caution Because debugging output is assigned high priority in the CPU process, it can render the system unusable. For this reason, use debug commands only to troubleshoot specific problems or during troubleshooting sessions with Cisco technical support personnel. Moreover, it is best to use debug commands during periods of lower network traffic and fewer users. Debugging during these periods decreases the likelihood that increased debug command processing overhead will affect system use.

Examples

The following example shows all debug logs for the H.248 control channel to the SBE on an SBC called “mySbc”:

Router# debug sbc mySbc filter control
 

The following example shows all debug logs relating to media flows on an SBC called “mySbc”:

Router# debug sbc mySbc filter media
 

The following example shows all debug logs relating to media flows with a source or destination address of 10.0.1.1 on an SBC called “mySbc” including output logs for the specified IPv4 IP address:

Router# debug sbc mySbc filter media ipv4 10.0.1.1
 

The following example shows that if you want to show all debug logs that relate to media flowing to and from 10.0.1.1 or 10.0.1.2, you must issue the following two commands:

Router# debug sbc mySbc filter media ipv4 10.0.1.1
Router# debug sbc mySbc filter media ipv4 10.0.1.2

 
Related Commands

Command
Description

debug sbc log-level

Sets the debug logging level for logging to the cyclic buffer or to the system logger.

logging buffered

Logs messages to an internal buffer.

logging console

Logs messages to console connections.

logging host

Logs messages to a syslog server host.

logging monitor

Limits messages logged to the terminal lines (monitors) based on severity.

logging on

Enables logging of system messages.

logging synchronous

Synchronizes unsolicited messages and debug output with solicited Cisco IOS software output and prompts for a specific console port line, auxiliary port line, or vty.

debug sbc filter billing_id

To print log entries to the console and file based on a billing_id context, use the debug sbc filter billing_id command in privileged EXEC mode. To disable this form of debugging, use the no form of this command.

debug sbc sbc-name filter billing_id billing_id

no debug sbc sbc-name filter billing_id billing_id

 
Syntax Description

sbc-name

This is the name of the SBC service.

billing_id

The billing ID to be filtered.

 
Command Default

None.

 
Command Modes

privileged EXEC (#)

 
Command History

Release
Modification

Cisco IOS XE Release 2.4

This command was introduced on the Cisco ASR 1000 Series Aggregation Services Routers.

 
Usage Guidelines

Use the show debug command to see debug information.

Examples

The following command prints log entries to the console and file based on a billing_id context:

Router# debug sbc test-sbc filter billing_id abc
Router# 2008 May 20 17:08:36.084825 sbc: (ctx:0) SBC: New log filter enabled.
 
The following command shows debugging information:
Router# show debug
 
SBC Daemon:
 
SBC inter-process logging is off
SBC log filter 0:
Billing ID : abc

 
Related Commands

Command
Description

debug sbc filter adjacency

Prints log entries to the console and file based on an adjacency context.

debug sbc filter ipv4

Prints print log entries to the console and file based on an ipv4 address context.

debug sbc filter number

Prints log entries to the console and file based on a number context.

debug sbc filter bm

To print log entries to the console and file from the bandwidth manager component group, use the debug sbc filter bm command in privileged EXEC mode. To disable this form of debugging, use the no form of this command.

debug sbc sbc-name filter bm

no debug sbc sbc-name filter bm

 
Syntax Description

sbc-name

This is the name of the SBC service.

 
Command Default

None.

 
Command Modes

privileged EXEC (#)

 
Command History

Release
Modification

Cisco IOS XE Release 2.4

This command was introduced on the Cisco ASR 1000 Series Aggregation Services Routers.

 
Usage Guidelines

Use the show debug command to see debug information.

Examples

The following command prints log entries to the console and file from the bandwidth manager component group:

Router# debug sbc test-sbc filter bm
Router# 2008 May 20 17:36:10.924908 sbc: (ctx:0) SBC: New log filter enabled.
 
 
The following command shows debugging information:
Router# show debug
 
SBC Daemon:
 
SBC inter-process logging is off
SBC log filter 1:
BM components

 
Related Commands

Command
Description

debug sbc filter cac

Prints log entries to the console and file from the call admission control (CAC) component group.

debug sbc filter control

 

debug sbc filter h323

Prints log entries to the console and file from the h323 component group.

debug sbc filter hm

Prints log entries to the console and file from the hardware manager (hm) component group.

debug sbc filter icc

Prints log entries to the console and file from the Internetworking Call Control (ICC) component group.

debug sbc filter mgm

Prints log entries to the console and file from the media gateway manager (MGM) component group.

debug sbc filter radius

Prints log entries to the console and file from the RADIUS component group.

debug sbc filter routing

Prints log entries to the console and file from the routing component group.

debug sbc filter sip

Prints log entries to the console and file from the SIP component group.

debug sbc filter cac

To print log entries to the console and file from the call admission control (CAC) component group, use the debug sbc filter cac command in privileged EXEC mode. To disable this form of debugging, use the no form of this command.

debug sbc sbc-name filter cac

no debug sbc sbc-name filter cac

 
Syntax Description

sbc-name

This is the name of the SBC service.

 
Command Default

None.

 
Command Modes

privileged EXEC (#)

 
Command History

Release
Modification

Cisco IOS XE Release 2.4

This command was introduced on the Cisco ASR 1000 Series Aggregation Services Routers.

 
Usage Guidelines

Use the show debug command to see debug information.

Examples

The following command prints log entries to the console and file from the CAC component group:

Router# debug sbc test-sbc filter cac
Router# 2008 May 20 17:39:18.748447 sbc: (ctx:0) SBC: New log filter enabled.
 
The following command shows debugging information:
Router# show debug
 
SBC Daemon:
 
SBC inter-process logging is off
SBC log filter 1:
CAC components

 
Related Commands

Command
Description

debug sbc filter bm

Prints log entries to the console and file from the bandwidth manager component group.

debug sbc filter control

 

debug sbc filter h323

Prints log entries to the console and file from the h323 component group.

debug sbc filter hm

Prints log entries to the console and file from the hardware manager (hm) component group.

debug sbc filter icc

Prints log entries to the console and file from the Internetworking Call Control (ICC) component group.

debug sbc filter mgm

Prints log entries to the console and file from the media gateway manager (MGM) component group.

debug sbc filter radius

Prints log entries to the console and file from the RADIUS component group.

debug sbc filter routing

Prints log entries to the console and file from the routing component group.

debug sbc filter sip

Prints log entries to the console and file from the SIP component group.

debug sbc filter call

To print log entries to the console and file from the call product group, use the debug sbc filter call command in privileged EXEC mode. To disable this form of debugging, use the no form of this command.

debug sbc sbc-name filter call

no debug sbc sbc-name filter call

 
Syntax Description

sbc-name

This is the name of the SBC service.

 
Command Default

None.

 
Command Modes

privileged EXEC (#)

 
Command History

Release
Modification

Cisco IOS XE Release 2.4

This command was introduced on the Cisco ASR 1000 Series Aggregation Services Routers.

 
Usage Guidelines

Use the show debug command to see debug information.

Examples

The following command prints log entries to the console and file from the call product group:

Router# debug sbc test-sbc filter call
Router# 2008 May 20 17:43:16.078547 sbc: (ctx:0) SBC: New log filter enabled.
 
The following command shows debugging information:
Router# show debug
 
SBC Daemon:
 
SBC inter-process logging is off
SBC log filter 0:
Call Logging Group

 
Related Commands

Command
Description

debug sbc filter billing

Prints log entries to the console and file from the billing product group.

debug sbc filter media

Prints log entries to the console and file from the media product group.

debug sbc filter overview

Prints log entries to the console and file from the overview product group.

debug sbc filter protocol

Prints log entries to the console and file from the protocol product group.

debug sbc filter (session border controller)

To enable logging based on a number of filters, use the debug sbc filter command in privileged EXEC mode. To disable logging based on these filters, use the no form of this command.

debug sbc { sbc-name} filter [adjacency {adj-name}] [bill {billing-id}] [ipv4 {ipv4-address}] [ipv6 {ipv6-address}] [number {number}] [billing] [call] [media] [overview] [protocol] [bm | cac | control | h323 | icc | radius | routing | sip | mgm]

no debug sbc { sbc-name} filter [adjacency {adj-name}] [bill {billing-id}] [ipv4 {ipv4-address}] [ipv6 {ipv6-address}] [number {number}] [billing] [call] [media] [overview] [protocol] [bm | cac | control | h323 | icc | radius | routing | sip | mgm]

 
Syntax Description

sbc-name

Name of the Session Border Controller (SBC) service.

adjacency

Output of logs relating to this adjacency.

adj-name

Name of the adjacency.

bill

Log output of calls with a specified billing ID.

billing-id

Billing ID.

ipv4

Output logs that include the IPv4 IP address.

ipv4-address

IPv4 IP address.

ipv6

Output logs that include the IPv6 IP address.

ipv6-address

IPv6 IP address.

number

Output logs of calls with a specified number.

number

Either the caller number or dialed number.

billing

Logs about billing events.

call

Logs about call events.

media

Logs about media events.

overview

Logs showing the flow of control through the Session Border Controller (SBC) components.

protocol

Logs showing protocol messages.

bm

Logs from the Bandwidth Manager (BM) component.

cac

Logs from the Call Admission Control (CAC) components.

control

Logs from the H.248 controller components.

h323

Logs from the H.323 components.

icc

Logs from the Interworking Call Control (ICC) components.

radius

Logs from the RADIUS components.

routing

Logs from the routing components.

sip

Logs from the Session Initiation Protocol (SIP) components.

mgm

Logs from the Media Gateway Manager (MGM) component.

 
Command Default

Debugging is off.

 
Command Modes

Privileged EXEC (#)

 
Command History

Release
Modification

Cisco IOS XE Release 2.1

This command was introduced on the Cisco ASR 1000 Series Aggregation Services Routers.

 
Usage Guidelines

You can specify any number of optional keywords, but each keyword can only be specified once. At least one keyword must be specified for the debug sbc filter command. You can issue multiple debug sbc filter commands.


NoteThe debug logs are only output if the appropriate filter keywords have been specified. The debug logs are only output if the appropriate filter keywords have been specified.


The keywords are composed of the following types of filters:

  • String filters—Allow the user to turn on logs about common SBC objects such as adjacencies. An object matches the string filter if the object exactly matches the string or the prefix matches the string.

String filters include the following keywords:

adjacency {adj-name}

bill {billing-id}

ipv4 {ipv4-address}

ipv6 {ipv6-address}

number {number}

  • Component filters—Turn on logs from individual components (or groups of components) within the SBC service. Only one component filter may be specified per debug sbc filter command.

Component filters include the following keywords:

bm, cac, control, h323, icc, radius, routing, sip, mgm

  • Cross-SBC filters—Turn on logs across all components of the SBC service.

Cross-SBC filters include the following keywords:

billing, call, media, overview, protocol


Caution Because debugging output is assigned high priority in the CPU process, it can render the system unusable. For this reason, use debug commands only to troubleshoot specific problems or during troubleshooting sessions with Cisco technical support personnel. Moreover, it is best to use debug commands during periods of lower network traffic and fewer users. Debugging during these periods decreases the likelihood that increased debug command processing overhead will affect system use.

Examples

The following example shows all debug logs for the H.248 control channel to the SBE on an SBC called “mySbc”:

Router# debug sbc mySbc filter control
 

The following example shows all debug logs relating to media flows on an SBC called “mySbc”:

Router# debug sbc mySbc filter media
 

The following example shows all debug logs relating to media flows with a source or destination address of 10.0.1.1 on an SBC called “mySbc” including output logs for the specified IPv4 IP address:

Router# debug sbc mySbc filter media ipv4 10.0.1.1
 

The following example shows that if you want to show all debug logs that relate to media flowing to and from 10.0.1.1 or 10.0.1.2, you must issue the following two commands:

Router# debug sbc mySbc filter media ipv4 10.0.1.1
Router# debug sbc mySbc filter media ipv4 10.0.1.2
 

The following command prints log entries to the console and file based on an adjacency context:

Router# debug sbc test-sbc filter adjacency sip-1
Router# 2008 May 20 15:08:50.114277 sbc: (ctx:0) SBC: New log filter enabled.
 
 
The following command shows debugging information:
Router# show debug
 
SBC Daemon:
 
SBC inter-process logging is off
SBC log filter 0:
Adjacency : sip-1
 
Filter output:
SBC/SIP: **** Overview 0x5001 - 108 (0000) **** 00001100000000000000000100
000000
SBC/SIP: (vpsuafsm.c 914) at 18:26:11, 20 May 2008 (82249142 ms)
SBC/SIP: << INVITE
SBC/SIP: Adj=sip-1,DN=service,CN=sipp

 

The following command prints log entries to the console and file from the billing product group:

Router# debug sbc test-sbc filter billing
Router# 2008 May 20 17:14:51.758095 sbc: (ctx:0) SBC: New log filter enabled.
 
The following command shows debugging information:
Router# show debug
 
SBC Daemon:
 
SBC inter-process logging is off
SBC log filter 0:
Billing Logging Group
 

The following command prints log entries to the console and file from the bandwidth manager component group:

Router# debug sbc test-sbc filter bm
Router# 2008 May 20 17:36:10.924908 sbc: (ctx:0) SBC: New log filter enabled.
The following command shows debugging information:
Router# show debug
 
SBC Daemon:
 
SBC inter-process logging is off
SBC log filter 1:
BM components
 
 

The following command prints log entries to the console and file from the ICC component group:

Router# debug sbc test-sbc filter icc
Router# 2008 May 20 17:52:15.801682 sbc: (ctx:0) SBC: New log filter enabled.
 
The following command shows debugging information:
Router# show debug
 
SBC Daemon:
 
SBC inter-process logging is off
SBC log filter 1:
ICC components
 
Log:
SBC/ICC: **** UNEXPECTED 0x1504 - 15 (0001) **** 00000000000000000000000000
000000
SBC/ICC: (dblblack.c 253) at 18:25: 3, 20 May 2008 (82180687 ms)
SBC/ICC: The Dynamic Blacklisting component is blacklisting a source.
SBC/ICC: Subfamily = 0X0000000C
SBC/ICC: Cause = 1
SBC/ICC: Time period = 600000 ms
SBC/ICC:
SBC/ICC: Event=["Routing failure" VPN=0X00000000 10.10.1.1]
 

The following command prints log entries to the console and file from the h323 component group:

Router# debug sbc test-sbc filter h323
Accessing H323
Completed TNRPC : H323
2008 May 20 17:45:22.058599 sbc: (ctx:0) SBC: New log filter enabled.
 
BC Daemon:
 
SBC inter-process logging is off
SBC log filter 1:
H323 components
 
 

The following command prints log entries to the console and file from the ICC component group:

Router# debug sbc test-sbc filter icc
Router# 2008 May 20 17:52:15.801682 sbc: (ctx:0) SBC: New log filter enabled.
 
The following command shows debugging information:
Router# show debug
 
SBC Daemon:
 
SBC inter-process logging is off
SBC log filter 1:
ICC components
 
Log:
SBC/ICC: **** UNEXPECTED 0x1504 - 15 (0001) **** 00000000000000000000000000
000000
SBC/ICC: (dblblack.c 253) at 18:25: 3, 20 May 2008 (82180687 ms)
SBC/ICC: The Dynamic Blacklisting component is blacklisting a source.
SBC/ICC: Subfamily = 0X0000000C
SBC/ICC: Cause = 1
SBC/ICC: Time period = 600000 ms
SBC/ICC:
SBC/ICC: Event=["Routing failure" VPN=0X00000000 10.10.1.1]
 
 

The following command prints log entries to the console and file based on an ipv4 address context:

Router# debug sbc test-sbc filter ipv4 10.10.10.1
Router# 2008 May 20 17:12:16.128077 sbc: (ctx:0)Len IPV4: 10
2008 May 20 17:12:16.128159 sbc: (ctx:0)IPV4: 10.10.10.1
2008 May 20 17:12:16.128239 sbc: (ctx:0) SBC: New log filter enabled.
 
The following command shows debugging information:
Router# show debug
 
SBC Daemon:
 
SBC inter-process logging is off
SBC log filter 0:
IPv4: 10.10.10.1
2008 May 20 17:12:18.371175 sbc: (ctx:0)Filter IPv4 Len: 10
2008 May 20 17:12:18.371256 sbc: (ctx:0)Filter IPv4 string: 10.10.10.1
 
 

The following command prints log entries to the console and file from the media product group:

Router# debug sbc test-sbc filter media
Router# 2008 May 20 17:57:59.071693 sbc: (ctx:0) SBC: New log filter enabled.
 
The following command shows debugging information:
Router# show debug
 
SBC Daemon:
 
SBC inter-process logging is off
SBC log filter 0:
Media Logging Group
 

The following command prints log entries to the console and file from the media product group:

Router# debug sbc test-sbc filter media
Router# 2008 May 20 17:57:59.071693 sbc: (ctx:0) SBC: New log filter enabled.
 
The following command shows debugging information:
Router# show debug
 
SBC Daemon:
 
SBC inter-process logging is off
SBC log filter 0:
Media Logging Group
 
 

The following command prints log entries to the console and file from the media product group:

Router# debug sbc test-sbc filter media
Router# 2008 May 20 17:57:59.071693 sbc: (ctx:0) SBC: New log filter enabled.
 
The following command shows debugging information:
Router# show debug
 
SBC Daemon:
 
SBC inter-process logging is off
SBC log filter 0:
Media Logging Group
 
 

The following command prints log entries to the console and file from the media product group:

Router# debug sbc test-sbc filter media
Router# 2008 May 20 17:57:59.071693 sbc: (ctx:0) SBC: New log filter enabled.
 
The following command shows debugging information:
Router# show debug
 
SBC Daemon:
 
SBC inter-process logging is off
SBC log filter 0:
Media Logging Group
 
 

The following command prints log entries to the console and file from the MGM component group:

Router# debug sbc test-sbc filter mgm
Router# 2008 May 20 18:24:17.552046 sbc: (ctx:0) SBC: New log filter enabled.
 
 
The following command shows debugging information:
Router# show debug
 
SBC Daemon:
 
SBC inter-process logging is off
SBC log filter 1:
MGM components
 
Log:
SBC/MGM: << Gate allocate req BillingID (sideA) 48331709 20202020 20202030 000
00000 00000000 00001064 BillingID (sideB) 48331709 20202020 20202030 00000000 0
0000000 00001063
 
 

The following command prints log entries to the console and file based on a number context:

Router# debug sbc test-sbc filter number 1234
Router# 2008 May 20 17:13:26.138304 sbc: (ctx:0) SBC: New log filter enabled.
.
The following command shows debugging information:
Router# show debug
 
SBC Daemon:
 
SBC inter-process logging is off
SBC log filter 0:
Number : 1234
 
 

The following command prints log entries to the console and file based on a number context:

Router# debug sbc test-sbc filter number 1234
Router# 2008 May 20 17:13:26.138304 sbc: (ctx:0) SBC: New log filter enabled.
.
The following command shows debugging information:
Router# show debug
 
SBC Daemon:
 
SBC inter-process logging is off
SBC log filter 0:
Number: 1234

The following command prints log entries to the console and file from the overview product group:

Router# debug sbc test-sbc filter overview
Router# 2008 May 20 18:25:54.811973 sbc: (ctx:0) SBC: New log filter enabled.
 
.
The following command shows debugging information:
Router# show debug
 
SBC Daemon:
 
SBC inter-process logging is off
SBC log filter 0:
Overview Logging Group
 
Log:
SBC/SIP: **** Operational 0x3801 - 43 (0001) **** 00001110000000000000000000
000000
SBC/SIP: (siphsrcv.c 45) at 18:26:37, 20 May 2008 (82274720 ms)
SBC/SIP: SIP message received:
SBC/SIP: INVITE sip:service@10.10.1.110:5060 SIP/2.0^M
SBC/SIP: Via: SIP/2.0/UDP 10.10.1.3:5060;branch=z9hG4bK-28511-243-0^M
SBC/SIP: From: sipp <sip:sipp@10.10.1.3:5060>;tag=28511SIPpTag00243^M
SBC/SIP: To: sut <sip:service@10.10.1.110:5060>^M
SBC/SIP: Call-ID: 243-28511@10.10.1.3^M
SBC/SIP: CSeq: 1 INVITE^M
SBC/SIP: Contact: sip:sipp@10.10.1.3:5060^M
SBC/SIP: Max-Forwards: 70^M
SBC/SIP: Subject: Performance Test^M
SBC/SIP: Content-Type: application/sdp^M
SBC/SIP: Content-Length: 129^M
SBC/SIP: ^M
SBC/SIP: v=0^M
SBC/SIP: o=user1 53655765 2353687637 IN IP4 10.10.1.3^M
SBC/SIP: s=-^M
SBC/SIP: c=IN IP4 10.10.1.3^M
SBC/SIP: t=0 0^M
SBC/SIP: m=audio 6000 RTP/AVP 0^M
SBC/SIP: a=rtpmap:0 PCMU/8000^M
 
 

The following command prints log entries to the console and file from the overview product group:

Router# debug sbc test-sbc filter overview
Router# 2008 May 20 18:25:54.811973 sbc: (ctx:0) SBC: New log filter enabled.
 
.
The following command shows debugging information:
Router# show debug
 
SBC Daemon:
 
SBC inter-process logging is off
SBC log filter 0:
Overview Logging Group
 
Log:
SBC/SIP: **** Operational 0x3801 - 43 (0001) **** 00001110000000000000000000
000000
SBC/SIP: (siphsrcv.c 45) at 18:26:37, 20 May 2008 (82274720 ms)
SBC/SIP: SIP message received:
SBC/SIP: INVITE sip:service@10.10.1.110:5060 SIP/2.0^M
SBC/SIP: Via: SIP/2.0/UDP 10.10.1.3:5060;branch=z9hG4bK-28511-243-0^M
SBC/SIP: From: sipp <sip:sipp@10.10.1.3:5060>;tag=28511SIPpTag00243^M
SBC/SIP: To: sut <sip:service@10.10.1.110:5060>^M
SBC/SIP: Call-ID: 243-28511@10.10.1.3^M
SBC/SIP: CSeq: 1 INVITE^M
SBC/SIP: Contact: sip:sipp@10.10.1.3:5060^M
SBC/SIP: Max-Forwards: 70^M
SBC/SIP: Subject: Performance Test^M
SBC/SIP: Content-Type: application/sdp^M
SBC/SIP: Content-Length: 129^M
SBC/SIP: ^M
SBC/SIP: v=0^M
SBC/SIP: o=user1 53655765 2353687637 IN IP4 10.10.1.3^M
SBC/SIP: s=-^M
SBC/SIP: c=IN IP4 10.10.1.3^M
SBC/SIP: t=0 0^M
SBC/SIP: m=audio 6000 RTP/AVP 0^M
SBC/SIP: a=rtpmap:0 PCMU/8000^M
 
 

The following command prints log entries to the console and file from the protocol product group:

Router# debug sbc test-sbc filter protocol
Router# 2008 May 20 18:28:13.622095 sbc: (ctx:0) SBC: New log filter enabled.
.
The following command shows debugging information:
Router# show debug
 
SBC Daemon:
 
SBC inter-process logging is off
SBC log filter 0:
Protocol Logging Group
Router#
 
Log:
SBC/SIP: **** Operational 0x3801 - 43 (0001) **** 00001110000000000000000000
000000
SBC/SIP: (siphsrcv.c 45) at 18:29: 1, 20 May 2008 (82418949 ms)
SBC/SIP: SIP message received:
SBC/SIP: INVITE sip:service@10.10.1.110:5060 SIP/2.0^M
SBC/SIP: Via: SIP/2.0/UDP 10.10.1.3:5060;branch=z9hG4bK-28511-259-0^M
SBC/SIP: From: sipp <sip:sipp@10.10.1.3:5060>;tag=28511SIPpTag00259^M
SBC/SIP: To: sut <sip:service@10.10.1.110:5060>^M
SBC/SIP: Call-ID: 259-28511@10.10.1.3^M
SBC/SIP: CSeq: 1 INVITE^M
SBC/SIP: Contact: sip:sipp@10.10.1.3:5060^M
SBC/SIP: Max-Forwards: 70^M
SBC/SIP: Subject: Performance Test^M
SBC/SIP: Content-Type: application/sdp^M
SBC/SIP: Content-Length: 129^M
SBC/SIP: ^M
SBC/SIP: v=0^M
SBC/SIP: o=user1 53655765 2353687637 IN IP4 10.10.1.3^M
SBC/SIP: s=-^M
SBC/SIP: c=IN IP4 10.10.1.3^M
SBC/SIP: t=0 0^M
SBC/SIP: m=audio 6000 RTP/AVP 0^M
SBC/SIP: a=rtpmap:0 PCMU/8000^M
 
 

The following command prints log entries to the console and file from the RADIUS component group:

Router# debug sbc test-sbc filter radius
Router# 2008 May 20 18:33:02.845280 sbc: (ctx:0) SBC: New log filter enabled.
 
The following command shows debugging information:
Router# show debug
 
SBC Daemon:
 
SBC inter-process logging is off
SBC log filter 1:
Radius components
 
 

The following command prints log entries to the console and file from the routing component group:

Router# debug sbc test-sbc filter routing
Router# 2008 May 20 18:36:38.995736 sbc: (ctx:0) SBC: New log filter enabled.
 
The following command shows debugging information:
Router# show debug
 
SBC Daemon:
 
SBC inter-process logging is off
SBC log filter 1:
Routing components
 
Log:
SBC/ROUTING:Number validation begins.
SBC/ROUTING:SBC Index = 0X00000001
SBC/ROUTING:Config set Index = 0X00000003
SBC/ROUTING:Input Called Address Type = 0X00030003
SBC/ROUTING:Input Called Address = CE
SBC/ROUTING:mwCallIccIndex=2909
 
 

The following command prints log entries to the console and file from the SIP component group:

Router# debug sbc test-sbc filter sip
Router# 2008 May 20 18:38:43.795675 sbc: (ctx:0) SBC: New log filter enabled.
 
The following command shows debugging information:
Router# show debug
 
SBC Daemon:
 
SBC inter-process logging is off
SBC log filter 1:
SIP components
 
Log:
SBC/SIP: **** Operational 0x3801 - 43 (0001) **** 00001110000000000000000000
000000
SBC/SIP: (siphsrcv.c 45) at 18:39:19, 20 May 2008 (83037087 ms)
SBC/SIP: SIP message received:
SBC/SIP: INVITE sip:service@10.10.1.110:5060 SIP/2.0^M
SBC/SIP: Via: SIP/2.0/UDP 10.10.1.3:5060;branch=z9hG4bK-28511-1002-0^M
SBC/SIP: From: sipp <sip:sipp@10.10.1.3:5060>;tag=28511SIPpTag001002^M
SBC/SIP: To: sut <sip:service@10.10.1.110:5060>^M
SBC/SIP: Call-ID: 1002-28511@10.10.1.3^M
SBC/SIP: CSeq: 1 INVITE^M
SBC/SIP: Contact: sip:sipp@10.10.1.3:5060^M
SBC/SIP: Max-Forwards: 70^M
SBC/SIP: Subject: Performance Test^M
SBC/SIP: Content-Type: application/sdp^M
SBC/SIP: Content-Length: 129^M
SBC/SIP: ^M
SBC/SIP: v=0^M
SBC/SIP: o=user1 53655765 2353687637 IN IP4 10.10.1.3^M
SBC/SIP: s=-^M
SBC/SIP: c=IN IP4 10.10.1.3^M
SBC/SIP: t=0 0^M
SBC/SIP: m=audio 6000 RTP/AVP 0^M
SBC/SIP: a=rtpmap:0 PCMU/8000^M
 

 
Related Commands

Command
Description

debug sbc log-level

Sets the debug logging level for logging to the cyclic buffer or to the system logger.

logging buffered

Logs messages to an internal buffer.

logging console

Logs messages to console connections.

logging host

Logs messages to a syslog server host.

logging monitor

Limits messages logged to the terminal lines (monitors) based on severity.

logging on

Enables logging of system messages.

logging synchronous

Synchronizes unsolicited messages and debug output with solicited Cisco IOS software output and prompts for a specific console port line, auxiliary port line, or vty.

debug sbc ha

To turn on debugging for Session Border Controller high availability, use the debug sbc ha command in privileged EXEC mode. To disable this form of debugging, use the no form of this command.

debug sbc ha

no debug sbc ha

 
Syntax Description

This command has no arguments or keywords.

 
Command Default

No default behavior or values are available.

 
Command Modes

privileged EXEC (#)

 
Command History

Release
Modification

Cisco IOS XE Release 2.4

This command was introduced on the Cisco ASR 1000 Series Aggregation Services Routers.

 
Usage Guidelines

Use the show debug command to see debug information.

Examples

The following command turns on debugging for sbc high availability:

Router# debug sbc ha
Router#
2007 May 13 06:04:51.504671 sbc: (ctx:0)hmstub_send_hb: test_send_hb OK 1150000

 
Related Commands

Command
Description

debug sbc filter control

Enables console logging based on a number of filters.

debug sbc ips

Enables IPS tracing.

debug sbc log-level console

Sets the console logging level.

debug sbc log-level file

Sets the file logging level.

debug sbc errors

Enables debugging of sbc service errors.

debug sbc events

Enables debugging of sbc service events.

debug sbc info

Enables debugging of sbc services information.

debug sbc nbase

Enables debugging of sbc services nbase.

debug sbc info

To debug sbc services information, use the debug sbc info command in the Exec mode. To disable this form of debugging, use the no form of this command.

debug sbc info

no debug sbc info

 
Syntax Description

This command has no arguments or keywords.

 
Command Default

No default behavior or values are available.

 
Command Modes

Exec (#)

 
Command History

Release
Modification

Cisco IOS XE Release 2.4

This command was introduced on the Cisco ASR 1000 Series Aggregation Services Routers.

 
Usage Guidelines

Use the show debug command to see debug information.

Examples

The following command turns on debugging for sbc information:

Router# debug sbc info
2007 May 13 06:07:42.071738 sbc: (ctx:0)Received debug msg
2007 May 13 06:07:42.071961 sbc: (ctx:0)Exit mts or debug msg recv
 

 
Related Commands

Command
Description

debug sbc filter control

Enables console logging based on a number of filters.

debug sbc ips

Enables IPS tracing.

debug sbc log-level console

Sets the console logging level.

debug sbc log-level file

Sets the file logging level.

debug sbc errors

Enables debugging of sbc service errors.

debug sbc events

Enables debugging of sbc service events.

debug sbc ha

Enables debugging of sbc high availability.

debug sbc nbase

Enables debugging of sbc services nbase.

debug sbc ips (session border controller)

To turn on IPS tracing (giving details of inter-component signals flowing between the internal components of the Session Border Controller (SBC) process), use the debug sbc ips command in the Exec mode. To disable this form of debugging, use the no form of this command.

debug sbc sbc-name ips {file | in-memory}

no debug sbc sbc-name ips {file | in-memory}

 
Syntax Description

sbc-name

This is the name of the SBC service.

file

Configures file IPS tracing.

in-memory

Configures in-memory IPS tracing.

 
Command Default

No default behavior or values are available.

 
Command Modes

Exec (#)

 
Command History

Release
Modification

Cisco IOS XE Release 2.4

This command was introduced on the Cisco ASR 1000 Series Aggregation Services Routers.

 
Usage Guidelines

This command provides details of inter-component signals flowing between the internal components of the SBC process. Events should be logged on IPS trace file for further debugging.

Use the show debug command to see debug information.

Examples

The following command turns on IPS tracing:

Router# debug sbc mySbc ips

 
Related Commands

Command
Description

debug sbc errors

Debugs SBC service errors.

debug sbc events

Debugs SBC service events.

debug sbc ha

Debugs SBC high availability (HA) services.

debug sbc info

Debugs SBC services information.

debug sbc ips

Turns on IPS tracing.

debug sbc logging

Debugs SBC logging information.

debug sbc mem-trace dump

Dumps current memory usage statistics to file.

debug sbc nbase

Debugs SBC

debug sbc pd filter component

Turns on problem determination (PD) filter components.

debug sbc pd filter context

Turns on different logs from the problem determination (PD) filters.

debug sbc pd filter product

Turns on problem determination (PD) filter product group logs.

debug sbc pd log-level

Sets the file logging level.

debug sbc log-level console

To set the console logging level, use the debug sbc log-level console command in Exec mode. To disable this form of debugging, use the no form of this command.

debug sbc name log-level console level

no debug sbc name log-level console level

 
Syntax Description

name

This is the name of the Session Border Controller (SBC) service.

level

The level to set. 0 gives all pd logging and 100 gives none.

The log levels are defined as follows:

90+ Fatal errors

80+ Errors

70+ Unexpected conditions

60+ Operational events

50+ Auditable events

40+ Statistics

30+ Verbose operational events

20+ Verbose statistics

10+ Internal diagnostic logs

The following values are used for specific types of logs.

55 Call logs

63 Configuration errors

 
Command Default

No default behavior or values are available.

 
Command Modes

Exec (#)

 
Command History

Release
Modification

Cisco IOS XE Release 2.4

This command was introduced on the Cisco ASR 1000 Series Aggregation Services Routers.

 
Usage Guidelines

This command configures the display of the most serious logs directly to the console. Note that when you run the debug sbc name log-level console 0 command, a large number of log messages are generated. This could cause an increase in the response time of the system. To limit the rate of messages logged per second, use the logging rate-limit console command in global configuration mode.

Use the show debug command to see debug information.

Examples

The following command sets the log level for fatal errors to the console at 90:

Router# # debug sbc mySbc log-level console 90

 
Related Commands

Command
Description

debug sbc filter control

Enables console logging based on a number of filters.

debug sbc ips

Enables IPS tracing.

debug sbc log-level file

Sets the file logging level.

debug sbc errors

Enables debugging of sbc service errors.

debug sbc events

Enables debugging of sbc service events.

debug sbc ha

Enables debugging of sbc high availability.

debug sbc info

Enables debugging of sbc services information.

debug sbc nbase

Enables debugging of sbc services nbase.

logging rate-limit

Limits the rate of messages logged per second.

debug sbc log-level file

To set the file logging level, use the debug sbc log-level file command in the Exec mode. To disable this form of debugging, use the no form of this command.

debug sbc name log-level file level

no debug sbc name log-level file level

 
Syntax Description

name

This is the name of the Session Border Controller (SBC) service.

level

The level to set. 0 gives all pd logging and 100 gives none.

The log levels are defined as follows:

90+ Fatal errors

80+ Errors

70+ Unexpected conditions

60+ Operational events

50+ Auditable events

40+ Statistics

30+ Verbose operational events

20+ Verbose statistics

10+ Internal diagnostic logs

The following values are used for specific types of logs.

55 Call logs

63 Configuration errors

 
Command Default

No default behavior or values are available.

 
Command Modes

Exec (#)

 
Command History

Release
Modification

Cisco IOS XE Release 2.4

This command was introduced on the Cisco ASR 1000 Series Aggregation Services Routers.

 
Usage Guidelines

This command logs the most serious logs directly to file.

Use the show debug command to see debug information.

Examples

The following command sets the log level to send to file to 60:

Router# debug sbc mySbc log-level file 60

 
Related Commands

Command
Description

debug sbc filter control

Enables console logging based on a number of filters.

debug sbc ips

Enables IPS tracing.

debug sbc log-level console

Sets the console logging level.

debug sbc errors

Enables debugging of sbc service errors.

debug sbc events

Enables debugging of sbc service events.

debug sbc ha

Enables debugging of sbc high availability.

debug sbc info

Enables debugging of sbc services information.

debug sbc nbase

Enables debugging of sbc services nbase.

debug sbc logging

To debug SBC logging information, use the debug sbc logging command in the Exec mode. To disable this form of debugging, use the no form of this command.

debug sbc logging

no debug sbc logging

 
Syntax Description

This command has no arguments or keywords.

 
Command Default

No default behavior or values are available.

 
Command Modes

Exec (#)

 
Command History

Release
Modification

Cisco IOS XE Release 2.4

This command was introduced on the Cisco ASR 1000 Series Aggregation Services Routers.

 
Usage Guidelines

Use the show debug command to see debug information.

Examples

The following command turns on debugging for sbc information:

Router# debug sbc logging
 

 
Related Commands

Command
Description

debug sbc errors

Debugs SBC service errors.

debug sbc events

Debugs SBC service events.

debug sbc ha

Debugs SBC high availability (HA) services.

debug sbc info

Debugs SBC services information.

debug sbc ips

Turns on IPS tracing.

debug sbc logging

Debugs SBC logging information.

debug sbc mem-trace dump

Dumps current memory usage statistics to file.

debug sbc nbase

Debugs SBC

debug sbc pd filter component

Turns on problem determination (PD) filter components.

debug sbc pd filter context

Turns on different logs from the problem determination (PD) filters.

debug sbc pd filter product

Turns on problem determination (PD) filter product group logs.

debug sbc pd log-level

Sets the file logging level.

debug sbc mem-trace dump

To dump current memory usage statistics to file, use the debug sbc mem-trace dump command in the Exec mode. To disable printing to the terminal, use the no form of this command.

debug sbc sbc-name mem-trace dump

no debug sbc sbc-name mem-trace dump

 
Syntax Description

 

sbc-name

This is the name of the SBC service.

 
Command Default

No default behavior or values are available.

 
Command Modes

Exec (#)

 
Command History

Release
Modification

Cisco IOS XE Release 2.4

This command was introduced on the Cisco ASR 1000 Series Aggregation Services Routers.

 
Usage Guidelines

Use the show debug command to see debug information.

Examples

The following example dumps current memory usage statistics to file:

Router# debug sbc mysbc mem-trace dump.

 
Related Commands

Command
Description

debug sbc errors

Debugs SBC service errors.

debug sbc events

Debugs SBC service events.

debug sbc ha

Debugs SBC high availability (HA) services.

debug sbc info

Debugs SBC services information.

debug sbc ips

Turns on IPS tracing.

debug sbc logging

Debugs SBC logging information.

debug sbc mem-trace dump

Dumps current memory usage statistics to file.

debug sbc nbase

Debugs SBC

debug sbc pd filter component

Turns on problem determination (PD) filter components.

debug sbc pd filter context

Turns on different logs from the problem determination (PD) filters.

debug sbc pd filter product

Turns on problem determination (PD) filter product group logs.

debug sbc pd log-level

Sets the file logging level.

debug sbc nbase

To enable printing to the terminal for the debug sbc log-level console command, use the debug sbc nbase command in the Exec mode. To disable printing to the terminal, use the no form of this command.

debug sbc nbase

no debug sbc nbase

 
Syntax Description

This command has no arguments or keywords.

 
Command Default

No default behavior or values are available.

 
Command Modes

Exec (#)

 
Command History

Release
Modification

Cisco IOS XE Release 2.4

This command was introduced on the Cisco ASR 1000 Series Aggregation Services Routers.

 
Usage Guidelines

Use the show debug command to see debug information.

Examples

The following command enables printing to the terminal for the debug sbc log-level console command:

Router# debug sbc nbase
Router# 2007 May 13 07:58:45.133136 sbc: (ctx:0)SBC/MG-CTRL:**** Audit 0x2e01 - 35 (0000) **** 00000000000000000000000000000010 SBC/MG-CTRL:(gctpassn.c 1157) at 7:58:45, 13 May 2007 (0x0X00060464 ms) SBC/MG-CTRL: Megaco has created an association with a peer. SBC/MG-CTRL: Remote address = 22.22.22.100 SBC/MG-CTRL: Remote port = 2940
2007 May 13 07:58:45.232974 sbc: (ctx:0)SBC/MGM: **** Operational 0x4d02 - 10 (0000) **** 00010000000000000000000001000000 SBC/MGM: (zmxsipcp.c 490) at 7:58:45, 13 May 2007 (0x0X000604C8 ms) SBC/MGM: MPF stub sent MCI req #0X000061D8 (0X00000401) to agent.

 
Related Commands

Command
Description

debug sbc errors

Debugs SBC service errors.

debug sbc events

Debugs SBC service events.

debug sbc ha

Debugs SBC high availability (HA) services.

debug sbc info

Debugs SBC services information.

debug sbc ips

Turns on IPS tracing.

debug sbc logging

Debugs SBC logging information.

debug sbc mem-trace dump

Dumps current memory usage statistics to file.

debug sbc nbase

Debugs SBC

debug sbc pd filter component

Turns on problem determination (PD) filter components.

debug sbc pd filter context

Turns on different logs from the problem determination (PD) filters.

debug sbc pd filter product

Turns on problem determination (PD) filter product group logs.

debug sbc pd log-level

Sets the file logging level.

debug sbc off

To turn off all sbc filters and set the log-level back to default (63), use the debug sbc off command in the Exec mode. To disable this form of debugging, use the no form of this command.

debug sbc sbc-name off

no debug sbc sbc-name off

 
Syntax Description

sbc-name

This is the name of the SBC service.

 
Command Default

Log-levels set to 63.

 
Command Modes

Exec (#)

 
Command History

Release
Modification

Cisco IOS XE Release 2.4

This command was introduced on the Cisco ASR 1000 Series Aggregation Services Routers.

 
Usage Guidelines

Use the show debug command to see debug information.

Examples

The following command turns on debugging for sbc information:

Router# debug sbc test-sbc off
Router# 2008 May 20 14:55:51.410879 sbc: (ctx:0)This option will disable all SBC debugs
2008 May 20 14:55:51.410978 sbc: (ctx:0) SBC: Log filter removed.
2008 May 20 14:55:51.411014 sbc: (ctx:0) SBC: Log filter removed.
 
The following command shows debugging information:
Router# show debug
SBC Daemon:
 
SBC inter-process logging is off
SBC log filter 0:
 

 
Related Commands

Command
Description

debug sbc log-level console

 

debug sbc log-level file

 

debug sbc pd filter product

Turns on problem determination (PD) filter product group logs.

debug sbc pd log-level

Sets the file logging level.

debug sbc pd filter component

To turn on problem determination (PD) filter components, use the debug sbc pd command in the Exec mode. To disable this form of debugging, use the no form of this command.

debug sbc sbc-name pd filter component [bm | cac | control | h323 | hm | icc | mgm | radius | routing | sip]

no debug sbc sbc-namee pd filter component [bm | cac | control | h323 | hm | icc | mgm | radius | routing | sip]

 
Syntax Description

sbc-name

This is the name of the SBC service.

bm

Logs from the bm components.

cac

Logs from the cac components.

control

Logs from the H.248 controller components.

h323

Logs from the H.323 components.

hm

Logs from the bm components.

icc

Logs from the icc components.

mgm

Logs from the mgm components.

radius

Logs from the radius components.

routing

Logs from the routing components.

sip

Logs from the sip components.

 
Command Default

No default behavior or values are available.

 
Command Modes

Exec (#)

 
Command History

Release
Modification

Cisco IOS XE Release 2.4

This command was introduced on the Cisco ASR 1000 Series Aggregation Services Routers.

 
Usage Guidelines

This command provides details of inter-component signals flowing between the internal components of the SBC process. Events should be logged on IPS trace file for further debugging.

Use the show debug command to see debug information.

Examples

The following command turns on IPS tracing:

Router# debug sbc mySbc ips
 

 
Related Commands

Command
Description

debug sbc errors

Debugs SBC service errors.

debug sbc events

Debugs SBC service events.

debug sbc ha

Debugs SBC high availability (HA) services.

debug sbc info

Debugs SBC services information.

debug sbc ips

Turns on IPS tracing.

debug sbc logging

Debugs SBC logging information.

debug sbc mem-trace dump

Dumps current memory usage statistics to file.

debug sbc nbase

Debugs SBC

debug sbc pd filter component

Turns on problem determination (PD) filter components.

debug sbc pd filter context

Turns on different logs from the problem determination (PD) filters.

debug sbc pd filter product

Turns on problem determination (PD) filter product group logs.

debug sbc pd log-level

Sets the file logging level.

debug sbc pd filter context

To turn on different logs from the problem determination (PD) filters, use the debug sbc pd filter context command in the Exec mode. To disable this form of debugging, use the no form of this command.

debug sbc sbc-name pd filter context [adjacency name name| billing_id name | ipv4 name | number name]

no debug sbc sbc-name pd filter context [adjacency name name| billing_id name | ipv4 name | number name]

 
Syntax Description

sbc-name

This is the name of the SBC service.

adjacency

Logs from the adjacency filter.

billing_id

Logs from the billing_id filter.

ipv4

Logs from the ipv4 filter.

number

Logs from the number filter.

name

Name for the specific filter context.

 
Command Default

No default behavior or values are available.

 
Command Modes

Exec (#)

 
Command History

Release
Modification

Cisco IOS XE Release 2.4

This command was introduced on the Cisco ASR 1000 Series Aggregation Services Routers.

 
Usage Guidelines

This command provides details of inter-component signals flowing between the internal components of the SBC process. Events should be logged on IPS trace file for further debugging.

Use the show debug command to see debug information.

Examples

The following command turns on the adjacency log filter:

Router# debug sbc pd filter context adjacency test

 
Related Commands

Command
Description

debug sbc errors

Debugs SBC service errors.

debug sbc events

Debugs SBC service events.

debug sbc ha

Debugs SBC high availability (HA) services.

debug sbc info

Debugs SBC services information.

debug sbc ips

Turns on IPS tracing.

debug sbc logging

Debugs SBC logging information.

debug sbc mem-trace dump

Dumps current memory usage statistics to file.

debug sbc nbase

Debugs SBC

debug sbc pd filter component

Turns on problem determination (PD) filter components.

debug sbc pd filter context

Turns on different logs from the problem determination (PD) filters.

debug sbc pd filter product

Turns on problem determination (PD) filter product group logs.

debug sbc pd log-level

Sets the file logging level.

debug sbc pd filter product

To turn on problem determination (PD) filter product group logs, use the debug sbc pd filter product command in the Exec mode. To disable this form of debugging, use the no form of this command.

debug sbc sbc-name pd filter context [billing | call | media | overview | protocol]

no debug sbc sbc-name pd filter context [adjacency | billing_id | ipv4 | number]

 
Syntax Description

sbc-name

This is the name of the SBC service.

billing

Logs from the billing product group.

call

Logs from the call product group.

media

Logs from the media product group.

overview

Logs from the overview product group.

protocol

Logs from the protocol product group.

 
Command Default

No default behavior or values are available.

 
Command Modes

Exec (#)

 
Command History

Release
Modification

Cisco IOS XE Release 2.4

This command was introduced on the Cisco ASR 1000 Series Aggregation Services Routers.

 
Usage Guidelines

This command provides details of inter-component signals flowing between the internal components of the SBC process. Events should be logged on IPS trace file for further debugging.

Use the show debug command to see debug information.

Examples

The following command turns on the logs from the protocol product group:

Router# debug sbc pd filter product protocol

 
Related Commands

Command
Description

debug sbc errors

Debugs SBC service errors.

debug sbc events

Debugs SBC service events.

debug sbc ha

Debugs SBC high availability (HA) services.

debug sbc info

Debugs SBC services information.

debug sbc ips

Turns on IPS tracing.

debug sbc logging

Debugs SBC logging information.

debug sbc mem-trace dump

Dumps current memory usage statistics to file.

debug sbc nbase

Debugs SBC

debug sbc pd filter component

Turns on problem determination (PD) filter components.

debug sbc pd filter context

Turns on different logs from the problem determination (PD) filters.

debug sbc pd filter product

Turns on problem determination (PD) filter product group logs.

debug sbc pd log-level

Sets the file logging level.

debug sbc pd log-level

To set the file logging level, use the debug sbc pd log-level command in the Exec mode. To disable this form of debugging, use the no form of this command.

debug sbc sbc-name pd log-level {console level | file level | filter level}

no debug sbc sbc-name pd log-level {console level | file level | filter level}

 
Syntax Description

sbc-name

This is the name of the Session Border Controller (SBC) service.

level

The level to set. 0 gives all problem determination (pd) logging and 100 gives none.

The log levels are defined as follows:

90+ Fatal errors

80+ Errors

70+ Unexpected conditions

60+ Operational events

50+ Auditable events

40+ Statistics

30+ Verbose operational events

20+ Verbose statistics

10+ Internal diagnostic logs

The following values are used for specific types of logs.

55 Call logs

63 Configuration errors

 
Command Default

No default behavior or values are available.

 
Command Modes

Exec (#)

 
Command History

Release
Modification

Cisco IOS XE Release 2.4

This command was introduced on the Cisco ASR 1000 Series Aggregation Services Routers.

 
Usage Guidelines

This command logs the most serious logs directly to file.

Use the show debug command to see debug information.

Examples

The following command sets the log level to send to file to 60:

Router# debug sbc mySbc pd log-level file 60

 
Related Commands

Command
Description

debug sbc errors

Debugs SBC service errors.

debug sbc events

Debugs SBC service events.

debug sbc ha

Debugs SBC high availability (HA) services.

debug sbc info

Debugs SBC services information.

debug sbc ips

Turns on IPS tracing.

debug sbc logging

Debugs SBC logging information.

debug sbc mem-trace dump

Dumps current memory usage statistics to file.

debug sbc nbase

Debugs SBC

debug sbc pd filter component

Turns on problem determination (PD) filter components.

debug sbc pd filter context

Turns on different logs from the problem determination (PD) filters.

debug sbc pd filter product

Turns on problem determination (PD) filter product group logs.

debug sbc pd log-level

Sets the file logging level.

debug vrf

To get debugging information on virtual routing and forwarding (VRF) instances, use the debug vrf command in privileged EXEC mode. To turn off the debug output, use the undebug version of the command.

debug vrf { create | delete | error | ha | initialization | interface | ipv4 | ipv6 | issu | lock | lookup | mpls | selection }

undebug vrf { create | delete | error | ha | initialization | interface | ipv4 | ipv6 | issu | lock | lookup | mpls | selection }

 
Syntax Description

create

Specifies VRF creation debugging.

delete

Specifies VRF deletion debugging.

error

Specifies VRF error debugging.

ha

Specifies VRF high-availability debugging.

initialization

Specifies VRF subsystem initialization debugging.

interface

Specifies VRF interface assignment debugging.

ipv4

Specifies VRF IPv4 address family debugging.

ipv6

Specifies VRF IPv6 address family debugging.

issu

Specifies VRF in-service software upgrade debugging.

lock

Specifies VRF lock debugging.

lookup

Specifies VRF database lookup debugging.

mpls

Specifies VRF multiprotocol label switching debugging.

selection

Specifies VRF selection debugging.

 
Command Modes

Privileged EXEC (#)

 
Command History

Release
Modification

Cisco IOS XE Release 3.2S

This command was introduced.

 
Usage Guidelines

Use this command to get debugging information on VRFs.

Examples

The following example shows how to turn on debugging of VRF interface assignment:

Router# debug vrf interface

 
Related Commands

Command
Description

vrf definition

Defines a virtual routing and forwarding instance.

default-port-limit

To enter the mode for configuring the default event limits for the ports of a given address, use the default-port-limit command in the SBE blacklist IPv4 configuration mode. To remove the event limits set, use the no form of this command.

default-port-limit

no default-port-limit

 
Syntax Description

This command has no arguments or keywords.

 
Command Default

No event limits are defined for ports.

 
Command Modes

SBE blacklist IPv4 configuration (config-sbc-sbe-blacklist-ipv4)

 
Command History

Release
Modification

Cisco IOS XE Release 2.4

This command was introduced on the Cisco ASR 1000 Series Aggregation Services Routers.

 
Usage Guidelines

To use this command, you must be in the correct configuration mode. The Examples section shows the hierarchy of modes required to run the command.

Examples

The following example shows how the blacklist default-port-limit command is used to enter the mode for configuring the default event limits for the ports of the source address 123.123.2.2:

Router# configure terminal
Router(config)# sbc mySbc
Router(config-sbc)# sbe
Router(config-sbc-sbe)# blacklist
Router(config-sbc-sbe-blacklist)# ipv4 123.123.2.2
Router(config-sbc-sbe-blacklist-ipv4)# default-port-limit
Router(config-sbc-sbe-blacklist-ipv4-port-lmt)#

 
Related Commands

Command
Description

blacklist

Enters the mode for configuring the default event limits for the source addresses in a given VPN.

ipv4 (blacklist)

Enters the mode for applying blacklisting options to a single IP address.

reason

Enters a mode for configuring a limit to a specific event type on the source.

timeout

Defines the length of time that packets from the source are blocked, should the limit be exceeded.

trigger-period

Defines the period over which events are considered.

trigger-size

Defines the number of the specified events from the specified source that are allowed before the blacklisting is triggered, and blocks all packets from the source.

delegate-profile

To configure a delegate client registration profile that can be applied to a delegate subscriber, use the delegate-profile command in SBE configuration mode. To remove a delegate client registration profile, use the no delegate-profile command.

delegate-profile {profile name}

no delegate-profile {profile name}

 
Syntax Description

profile name

This is the name of the delegate client registration profile that can be applied to a delegate subscriber.

The profile name is a string field of 24 characters maximum length.

 
Command Default

No default behavior or values are available.

 
Command Modes

SBE configuration (config-sbc-sbe)

 
Command History

Release
Modification

Cisco IOS XE Release 2.4

This command was introduced on the Cisco ASR 1000 Series Aggregation Services Routers.

 
Usage Guidelines

After a delegate profile is configured, the following profile parameters may optionally be configured:

  • duration
  • retry-count
  • retry-interval
  • refresh-buffer

Before configuring provisioned delegate registration, you need to configure a delegate registration profile and a SIP contact for a subscriber for whom a subscriber detail table exists, and then you can configure delegate registration for the subscriber. See the Examples section.

Delegate registration is done underneath the SBE configuration for globally unique subscribers.

Examples

The following example configures a delegate registration profile that can be applied to a delegate registration subscriber:

sbc mySbc sbe
delegate-profile my-profile
dur 1000
retry-cnt 5
retry-interval 60
refresh-timeout 200

 

The following example configures a SIP contact for a subscriber, for whom a subscriber detail table exists, and for whom, after the SIP contact is configured, Provisioned Delegate Registration can be configured:

sbc mySbc
sbe
subscriber sip:bob@isp.example
sip-contact sip:steve@10.1.1.2
adjacency CallMgrB
exit

 

The following example configures a delegate registration aor= sip:bob@isp.example

(config)# sbc mySbc
(config)# sbe
(config-sbc-sbe)# subscriber sip:bob@isp.example
(config-sbc-sbe-subscriber-entry)# sip-contact sip:steve@10.1.1.2
(config-sbc-sbe-subscriber-contact)# adjacency CallMgrB
(config-sbc-sbe-subscriber-contact)# exit
(config-sbc-sbe-subscriber-entry)# delegate-registration sip:registrar@1.1.1.1
(config-sbc-sbe-subscriber-delegate)# adjacency CallMgrA
(config-sbc-sbe-subscriber-delegate)# activate

 
Related Commands

Command
Description

sip-contact

Configures the SIP contact information for a specified Uniform Resource Identifier (URI) for a delegate subscriber.

subscriber

Configures a delegate registration for a specified subscriber associated with a client device.

delegate-registration

Configures provisioned delegate registration for a specific delegate client.

adjacency

Configures the adjacency facing the registrar.

profile

Applies a delegate registration profile to a delegate registration subscriber.

show sbc sbe sip subscribers

Displays subscribers for whom Provisioned Delegate Registration has been provisioned.

show sbc sbe sip delegate-profile

Displays subscriber profiles for whom Provisioned Delegate Registration has been configured.

delegate-registration

To configure provisioned delegate registration for a specific delegate client, use the delegate-registration command in subscriber-entry configuration mode. To remove provisioned delegate registration for a specific delegate client, use the no delegate-registration command.

delegate-registration {hostname}

no delegate-registration {hostname}

 
Syntax Description

hostname

Specifies the name of the delegate client.

The hostname can have a maximum of 30 characters which can include the underscore character (_) and alphanumeric characters.

Note Except for the underscore character, do not use any special character to specify field names.

 
Command Default

No default behavior or values are available.

 
Command Modes

subscriber-entry configuration mode (config-sbc-sbe-subscriber-entry)

 
Command History

Release
Modification

Cisco IOS XE Release 2.4

This command was introduced on the Cisco ASR 1000 Series Aggregation Services Routers.

 
Usage Guidelines

This command allows you to configure a provisioned delegate registration for a specific delegate client. While in the subscriber-delegate configuration mode, you typically configure adjacency and profile, as shown in the examples section.

Before configuring provisioned delegate registration, you need to configure a delegate registration profile, a SIP contact for a subscriber for whom a subscriber detail table exists, and then you can configure delegate registration for the subscriber. See the Examples section.

Examples

The following example configures a delegate registration aor= sip:bob@isp.example:

(config)# sbc mySbc
(config)# sbe
(config-sbc-sbe)# subscriber sip:bob@isp.example
(config-sbc-sbe-subscriber-entry)# sip-contact sip:steve@10.1.1.2
(config-sbc-sbe-subscriber-contact)# adjacency CallMgrB
(config-sbc-sbe-subscriber-contact)# exit
(config-sbc-sbe-subscriber-entry)# delegate-registration sip:registrar@1.1.1.1
(config-sbc-sbe-subscriber-delegate)# adjacency CallMgrA
(config-sbc-sbe-subscriber-delegate)# profile my-profile
(config-sbc-sbe-subscriber-delegate)# activate

 

The following example configures a delegate registration profile that can be applied to a delegate registration subscriber.

sbc mySbc sbe
delegate-profile my-profile
duration 1000
retry-count 5
retry-interval 60
refresh-buffer 200

 

The following example configures a SIP contact for a subscriber, for whom a subscriber detail table exists, and for whom, after the SIP contact is configured, delegate registration can be configured:

sbc mySbc
sbe
subscriber sip:bob@isp.example
sip-contact sip:steve@10.1.1.2
adjacency CallMgrB
exit

 

The following example configures a delegate registration for a specified client device address location, after the SIP contact information has been configured:

sbc mySbc
sbe
subscriber sip:bob@isp.example
sip-contact sip:steve@10.1.1.2
adjacency CallMgrB =================> client adjacency
exit
delegate-registration sip:registrar@1.1.1.1
adjacency CallMgrA ===========> registrar adjacency
profile my-profile
activate
 

 
Related Commands

Command
Description

delegate-profile

Configures a delegate registration profile that is applied to a delegate registration subscriber.

sip-contact

Configures the SIP contact information for a specified Uniform Resource Identifier (URI) for a delegate subscriber

subscriber

Configures a delegate registration for a specified subscriber associated with a client device.

adjacency

Configures the adjacency facing the registrar.

profile

Applies a delegate registration profile to a delegate registration subscriber.

show sbc sbe sip subscribers

Displays subscribers for whom Provisioned Delegate Registration has been provisioned.

show sbc sbe sip delegate-profile

Displays subscriber profiles for whom Provisioned Delegate Registration has been configured.

description (route server context)

To specify a description for a BGP route server context, use the description command in route server context configuration mode. To remove the description, use the no form of this command.

description string

no description

 
Syntax Description

string

Description of the route server context. The string can be up to 80 characters long.

 
Command Default

No description for a route server context exists.

 
Command Modes

Route server context configuration (config-router-rsctx)

 
Command History

Release
Modification

Cisco IOS XE 3.3S

This command was introduced.

 
Usage Guidelines

Create a route server context if you want your BGP route server to support customized, flexible policies. The routes needing flexible policy handling are selected for import into a route server context by an import map that you configure. The import map references a route map, where the actual policy is defined.

The description command allows an optional description of a route server context to remind you of the purpose of the context or policy, for example. This is more user-friendly and scannable than trying to interpret the route map commands when looking at a configuration file or show output.

Examples

In the following example, the description is a user-friendly way to see the purpose of the context, without having to interpret the import map and route map:

Router(config)# router bgp 65000
Router(config-router)# route-server-context only_AS27_context
Router(config-router-rsctx)# description Context references route map permitting only routes with AS 27 in AS path.

 
Related Commands

Command
Description

import-map

Configures flexible policy handling by a BGP route server.

route-server-context

Creates a route-server context in order to provide flexible policy handling for a BGP route server.

description (session border controller)

To configure descriptive text for a policy set, an adjacency, a source and its event limits, a number analysis table, a stream list, or an administrative domain, use the description command in the appropriate configuration mode. To remove this configuration, use the no form of this command.

description description

no description description

 
Syntax Description

description

Object you are describing.

 
Command Default

No default behavior or values are available.

 
Command Modes

Adjacency H.323 configuration (config-sbc-sbe-adj-h323)

Adjacency SIP configuration (config-sbc-sbe-adj-sip)

Routing policy table (config-sbc-sbe-rtgpolicy)

CAC policy-set configuration (config-sbc-sbe-cacpolicy)

CAC table configuration (config-sbc-sbe-cacpolicy-cactable)

NA routing table configuration (config-sbc-sbe-rtgpolicy-natable)

RTG routing table configuration (config-sbc-sbe-rtgpolicy-rtgtable)

SBE blacklist configuration (config-sbc-sbe-blacklist)

SIP header configuration (config-sbc-sbe-sip-hdr)

SIP method profile configuration (config-sbc-sbe-sip-mth)

Administrative domain configuration (config-sbc-sbe-ad)

Stream list configuration (config-sbc-sbe-stream-list)

SIP Body Editor configuration (config-sbc-sbe-mep-bdy)

SIP Method Editor configuration (config-sbc-sbe-mep-mth)

SIP Option Editor configuration (config-sbc-sbe-mep-opt)

SIP Header Editor configuration (config-sbc-sbe-mep-hdr)

SIP Parameter Editor configuration (config-sbc-sbe-mep-prm)

 
Command History

Release
Modification

Cisco IOS XE Release 2.4

This command was introduced on the Cisco ASR 1000 Series Aggregation Services Routers.

Cisco IOS XE Release 3.2S

This command was added in the Administrative domain mode.

Cisco IOS XE Release 3.3S

This command was added in the Stream list, SIP Body Editor, SIP Method Editor, SIP Option Editor, SIP Header Editor, and SIP Parameter Editor configuration modes.

 
Usage Guidelines

To use this command, you must be in the correct configuration mode. The Examples section shows the hierarchy of the modes required to run the command.

The use of special characters, such as backslash (\), and a three or larger digit for character settings such as description , results in incorrect translation.

Examples

The following example shows how to configure the h323ToIsp42 H.323 adjacency to use the description test adjacency:

Router# configure terminal
Router(config)# sbc mySbc
Router(config-sbc)# sbe
Router(config-sbc-sbe)# adjacency h323 h323ToIsp42
Router(config-sbc-sbe-adj-h323)# description test adjacency
 

The following example shows how to set the SipToIsp42 SIP adjacency to use the description test adjacency:

Router# configure terminal
Router(config)# sbc mySbc
Router(config-sbc)# sbe
Router(config-sbc-sbe)# adjacency sip SipToIsp42

Router(config-sbc-sbe-adj-sip)# description test adjacency

 

The following example shows how to create a description for the MyNaTable number analysis table with entries that match the entire dialed number:

Router# configure terminal
Router(config)# sbc mySbc
Router(config-sbc)# sbe
Router(config-sbc-sbe)# call-policy-set 1
Router(config-sbc-sbe-rtgpolicy)# na-dst-number-table MyNaTable
Router(config-sbc-sbe-rtgpolicy-natable)# description “My first number analysis table”
 

The following example shows how to create an empty policy set, identified by the number 1, on mySbc:

Router# configure terminal
Router(config)# sbc mySbc
Router(config-sbc)# sbe
Router(config-sbc-sbe)# cac-policy-set 1
Router(config-sbc-sbe-cacpolicy)# description “empty set”
 

The following example shows how to set the description of the MyCacTable admission control table:

Router# configure terminal
Router(config)# sbc mySbc
Router(config-sbc)# sbe
Router(config-sbc-sbe)# cac-policy-set 1
Router(config-sbc-sbe-cacpolicy)# cac-table MyCacTable
Router(config-sbc-sbe-cacpolicy-cactable)# description “My first CAC table”
 

The following example shows how to create a description for the MyNaTable number analysis table with entries that match the start of the dialed number:

Router# configure terminal
Router(config)# sbc mySbc
Router(config-sbc)# sbe
Router(config-sbc-sbe)# call-policy-set 1
Router(config-sbc-sbe-rtgpolicy)# na-dst-prefix-table MyNaTable
Router(config-sbc-sbe-rtgpolicy-natable)# description “My first number analysis table”
 

The following example shows how to add a description for a specific source IP address:

Router# configure terminal
Router(config)# sbc mySbc
Router(config-sbc)# sbe
Router(config-sbc-sbe)# blacklist
Router(config-sbc-sbe-blacklist)# ipv4
Router(config-sbc-sbe-blacklist)# ipv4 125.12.12.15
Router(config-sbc-sbe-blacklist-ipv4)# description “test”

 

The following example shows how to create an empty policy set, identified by the number 1, on mySbc:

Router# configure terminal
Router(config)# sbc mySbc
Router(config-sbc)# sbe
Router(config-sbc-sbe)# call-policy-set 1
Router(config-sbc-sbe-rtgpolicy)# description “empty set”

 

The following example shows how to add a description for an administrative domain:

Router# configure terminal
Router(config)# sbc mySbc
Router(config-sbc)# sbe
Router(config-sbc-sbe)# admin-domain ADMIN1
Router(config-sbc-sbe-ad)# description “My first administrative domain”
 

The following example shows how to add a description for a stream list:

Router# configure terminal
Router(config)# sbc mySbc
Router(config-sbc)# sbe
Router(config-sbc-sbe)# stream-list my-stream
Router(config-sbc-sbe-stream-list)# description “This is my first stream list”

 

The following examples shows how to add a description to the header, body, option, parameter, and method editors.

Router# configure terminal
Router(config)# sbc mySbc
Router(config-sbc)# sbe
Router(config-sbc-sbe)# sip parameter-editor paramedit1

Router(config-sbc-sbe-mep-prm)# description “The Parameter Editor”

Router# configure terminal
Router(config)# sbc mySbc
Router(config-sbc)# sbe
Router(config-sbc-sbe)# sip header-editor header1

Router(config-sbc-sbe-mep-hdr)# description “The Header Editor”

Router# configure terminal
Router(config)# sbc mySbc
Router(config-sbc)# sbe
Router(config-sbc-sbe)# sip option-editor option1

Router(config-sbc-sbe-mep-opt)# description “The Option Editor”

Router# configure terminal
Router(config)# sbc mySbc
Router(config-sbc)# sbe
Router(config-sbc-sbe)# sip body-editor Body1

Router(config-sbc-sbe-mep-bdy)# description “The Body Editor”

Router# configure terminal
Router(config)# sbc mySbc
Router(config-sbc)# sbe
Router(config-sbc-sbe)# sip method-editor Method1

Router(config-sbc-sbe-mep-mth)# description “The Method Editor”

description (sip-opt)

To set the description for the profile, use the description command in SIP option mode. Use the no form of this command to remove description from this profile.

description line

no description line

 
Syntax Description

 

line

The description of the profile. The maximum number of characters is 80.

 
Command Default

The global default is used.

 
Command Modes

SIP option (sip-opt)

 
Command History

Release
Modification

Cisco IOS XE Release 2.4

This command was introduced on the Cisco ASR 1000 Series Aggregation Services Routers.

 
Usage Guidelines

To use this command, you must be in the correct configuration mode. The Examples section shows the hierarchy of modes required to run the command:

Examples

The following example shows how to set the description for the profile.

Router# configure terminal
Router(config)# sbc sanity
Router(config-sbc)# sbe
Router(config-sbc-sbe)# sip option-profile optpr1
Router(config-sbc-sbe-sip-opt)# description test

 

dial-plan-suffix

To configure the dial plan suffix used for the ENUM query, use the dial-plan-suffix command in ENUM entry configuration mode. To return the dial plan suffix to the default value, use the no form of this command.

dial-plan-suffix suffix

no dial-plan-suffix suffix

 
Syntax Description

suffix

ENUM dialing plan suffix. The maximum length is 255.

 
Command Default

The default suffix is e164.arpa.

 
Command Modes

ENUM entry configuration (config-sbc-sbe-enum-entry)

 
Command History

Release
Modification

Cisco IOS XE Release 3.1S

This command was introduced on the Cisco ASR 1000 Series Aggregation Services Routers.

 
Usage Guidelines

To use this command, you must be in the correct configuration mode. The Examples section shows the hierarchy of modes required to run the command.

Examples

The following example shows how to configure the dial plan suffix used for the ENUM query:

Router# configure terminal
Router(config)# sbc MySBC
Router(config-sbc-sbe)# enum 1
Router(config-sbc-sbe-enum)# entry ENUM_1
Router(config-sbc-sbe-enum-entry)# server ipv4 10.10.10.10 vrf VRF1
Router(config-sbc-sbe-enum-entry)# dial-plan-suffix Example.Suffix
Router(config-sbc-sbe-enum-entry)#
 

 
Related Commands

Command
Description

activate (enum)

Activates ENUM client.

dial-plan-suffix

Configures the dial plan suffix used for the ENUM query.

div-address

Enters the diverted-by address mode to set the priority of the header or headers from which to derive a diverted-by address (inbound only).

dst-address

Enters the destination address mode to set the priority of the header or headers from which to derive a called party address (inbound only).

entry (enum)

Configures the ENUM client entry name and enter the ENUM entry configuration mode.

enum

Configures the ENUM client ID number and enter the ENUM configuration mode.

header-prio header-name

Configures the priority of a header that is used to derive a source, destination, or diverted-by address.

max-recursive-depth

Configures the maximum number of recursive ENUM look-ups for non-terminal Resource Records (RR).

max-responses

Configures the maximum number of ENUM records returned to the routing module.

req-timeout

Configures the ENUM request timeout period.

src-address

Enters the source address mode to set the priority of the header or headers from which to derive a calling party address (inbound only).

server ipv4

Configures the IPv4 address of a DNS server for ENUM client and optionally associate the DNS server to a VRF.

show sbc sbe call-policy-set

Displays configuration and status information about call policy sets.

show sbc sbe enum

Displays the configuration information about an ENUM client.

show sbc sbe enum entry

Displays the contents of an ENUM client entry.

diameter

To enable the Diameter protocol on a node and enter the Diameter configuration mode, use the diameter command in SBE configuration mode. To disable the Diameter protocol on a node, use the no form of this command.

diameter

no diameter

 
Syntax Description

This command has no arguments or keywords.

 
Command Default

No default behavior or values are available.

 
Command Modes

SBE configuration (config-sbc-sbe)

 
Command History

Release
Modification

Cisco IOS XE Release 3.1S

This command was introduced on the Cisco ASR 1000 Series Aggregation Services Routers.

 
Usage Guidelines

To use this command, you must be in the correct configuration mode. The Examples section shows the hierarchy of modes required to run the command.

Diameter is an Authentication Authorization Accounting (AAA) protocol and is an enhanced version of the RADIUS (Remote Authentication Dial-In User Service) protocol. Diameter is the protocol of choice for the next generation network IP Multimedia Subsystem (IMS) developed by 3rd Generation Partnership Project (3GPP).

Examples

The following example shows how to enable the Diameter protocol on a node and enter the diameter configuration mode:

Router# configure terminal
Router(config)# sbc MySBC
Router(config-sbc)# sbe
Router(config-sbc-sbe)# diameter
Router(config-sbc-sbe-diameter)#
 

 
Related Commands

Command
Description

diameter

Enables the Diameter protocol on a node and enter the Diameter configuration mode.

origin-realm

Configures the domain name of an IMS local realm.

origin-host

Configures the domain name of an IMS local host.

peer

Creates an IMS peer and configure the name and IPv4 address of the peer.

realm (diameter)

Configures a peer and assign the peer to a realm.

show sbc sbe diameter

Displays the configuration information for the Diameter protocol.

show sbc sbe diameter peers

Displays the configuration information for IMS peers.

show sbc sbe diameter stats

Displays the transport statistics for an IMS peer.

ims rx

Configures an IMS Rx interface for access adjacency

ims pani

Configures the P-Access-Network-Info (PANI) header process preference for an adjacency.

ims realm

Configures an IMS realm for use by an IMS Rx interface.

ims rx preliminary-aar-forbid

Prevents preliminary AAR messages from being sent in an IMS Rx session.

ims media-service

Configures a CAC table to allow the use of media resources and 3rd party transcoding resources as well as Rx resources.

div-address

To enter the diverted-by address mode to set the priority of the header or headers from which to derive a diverted-by address (inbound only), use the div-address command in SIP header configuration mode. To exit the diverted-by address mode, use the no form of this command or the exit command.

div-address

no div-address

 
Syntax Description

This command has no arguments or keywords.

 
Command Default

No default behavior or values are available.

 
Command Modes

SIP header configuration (config-sbc-sbe-sip-hdr)

 
Command History

Release
Modification

Cisco IOS XE Release 3.1S

This command was introduced on the Cisco ASR 1000 Series Aggregation Services Routers.

 
Usage Guidelines

To use this command, you must be in the correct configuration mode. The Examples section that follows shows the hierarchy of modes required to run the command.

This command puts you in the diverted-by address mode where you use the header-prio header-name command to set the priority of the header or headers from which a diverted-by address is derived.


NoteThe header list is for inbound calls only. The header list is for inbound calls only.


Examples

The following example shows how to enter the diverted-by address mode:

Router# configure terminal
Router(config)# sbc MySBC
Router(config-sbc)# sbe
Router(config-sbc-sbe)# sip header-profile HP1
Router(config-sbc-sbe-sip-hdr) div-address
Router(config-sbc-sbe-sip-hdr-div)#
 

 
Related Commands

Command
Description

activate (enum)

Activates ENUM client.

dial-plan-suffix

Configures the dial plan suffix used for the ENUM query.

div-address

Enters the diverted-by address mode to set the priority of the header or headers from which to derive a diverted-by address (inbound only).

dst-address

Enters the destination address mode to set the priority of the header or headers from which to derive a called party address (inbound only).

entry (enum)

Configures the ENUM client entry name and enter the ENUM entry configuration mode.

enum

Configures the ENUM client ID number and enter the ENUM configuration mode.

header-prio header-name

Configures the priority of a header that is used to derive a source, destination, or diverted-by address.

max-recursive-depth

Configures the maximum number of recursive ENUM look-ups for non-terminal Resource Records (RR).

max-responses

Configures the maximum number of ENUM records returned to the routing module.

req-timeout

Configures the ENUM request timeout period.

src-address

Enters the source address mode to set the priority of the header or headers from which to derive a calling party address (inbound only).

server ipv4

Configures the IPv4 address of a DNS server for ENUM client and optionally associate the DNS server to a VRF.

show sbc sbe call-policy-set

Displays configuration and status information about call policy sets.

show sbc sbe enum

Displays the configuration information about an ENUM client.

show sbc sbe enum entry

Displays the contents of an ENUM client entry.

div-address (header)

To enter the Diverted-by address mode and set the priority of the header or headers from which to derive a diverted-by address (inbound only), use the div-address command in the Session Initiation Protocol (SIP) Header Editor configuration mode. To remove the priority list of headers, use the no form of this command.

div-address

no div-address

 
Syntax Description

This command has no arguments or keywords.

 
Command Default

No default behavior or values are available.

 
Command Modes

SIP Header Editor configuration (config-sbc-sbe-mep-hdr)

 
Command History

Release
Modification

Cisco IOS XE Release 3.3S

This command was introduced on the Cisco ASR 1000 Series Aggregation Services Routers.

 
Usage Guidelines

To use this command, you must be in the correct configuration mode. The Examples section that follows shows the hierarchy of the modes required to run the command.

This command puts you in the Diverted-by address mode from where you can use the header-prio header-name command to set the priority of the header or headers from which a diverted-by address is derived.

Examples

The following example shows how to enter the Diverted-by address mode:

Router# configure terminal
Router(config)# sbc MySBC
Router(config-sbc)# sbe
Router(config-sbc-sbe)# sip header-editor HP1
Router(config-sbc-sbe-mep-hdr) div-address
Router(config-sbc-sbe-mep-hdr-div)#
 

 
Related Commands

Command
Description

sip header-editor

Configures a header editor.

domain-name

To specify the domain name of a Border Access Controller (BAC) adjacency that replaces the domain name of the Access Gateway Control Function (AGCF) and the Media Gateway Control Function (MGCF), use the domain-name command in the H248 BAC adjacency configuration mode. To remove the specification of the domain name for a BAC adjacency, use the no form of this command.

domain-name domain-name

no domain-name domain-name

 
Syntax Description

domain-name

Specifies the omain name of a BAC adjacency.

The domain-name can have a maximum of 30 characters which can include the underscore character (_) and alphanumeric characters.

Note Except for the underscore character, do not use any special character to specify field names.

 
Command Default

None

 
Command Modes

H248 BAC adjacency configuration (config-h248-bac-adj)

 
Command History

Release
Modification

Cisco IOS XE Release 3.7

This command was introduced on the Cisco ASR 1000 Series Aggregation Services Routers.

 
Usage Guidelines

This command can be configured only in the access adjacency submode and not in the core adjacency submode.

Examples

The following example shows how the domain-name command is used to specify the domain name of a BAC adjacency:

Router# configure terminal
Router(config)# sbc h248 bac
Router(config-h248-bac)# adjacency h248 access iad_80_123
Router(config-h248-bac-adj)# domain-name cisco

 
Related Commands

Command
Description

adjacency h248

Configures an H.248 access adjacency and core adjacency.

dscp

To configure a DSCP with which to mark IP packets belonging to a given QoS profile, use the dscp command in the appropriate configuration mode. To return to the default, use the no form of this command.

dscp value

no dscp

 
Syntax Description

value

Specifies the DSCP value with which to mark packets. Range is 0 to 63.

 
Command Default

The default DSCP value is 0.

 
Command Modes

QoS sig configuration (config-sbc-sbe-qos-sig)

QoS video configuration (config-sbc-sbe-qos-video)

QoS voice configuration (config-sbc-sbe-qos-voice)

 
Command History

Release
Modification

Cisco IOS XE Release 2.4

This command was introduced on the Cisco ASR 1000 Series Aggregation Services Routers.

 
Usage Guidelines

To use this command, you must be in the correct configuration mode. The Examples section shows the hierarchy of modes required to run the command.

Examples

The following example shows how to configure the QoS profile for sig to mark IP packets with a DSCP of 10:

Router# configure terminal
Router(config)# sbc mySbc
Router(config-sbc)# sbe
Router(config-sbc-sbe)# qos sig residential
Router(config-sbc-sbe-qos-fax)# dscp 10
 

The following example shows how to configure the QoS profile for video to mark IP packets with a DSCP of 10:

Router# configure terminal
Router(config)# sbc mySbc
Router(config-sbc)# sbe
Router(config-sbc-sbe)# qos video residential
Router(config-sbc-sbe-qos-video)# dscp 10
 

The following example shows how to configure the QoS profile for voice to mark IP packets with a DSCP of 10:

Router# configure terminal
Router(config)# sbc mySbc
Router(config-sbc)# sbe
Router(config-sbc-sbe)# qos voice residential
Router(config-sbc-sbe-qos-voice)# dscp 10

 

dst-address

To enter the destination address mode to set the priority of the header or headers from which to derive a called party address (inbound only), use the dst-address command in SIP header configuration mode. To exit the destination address mode, use the no form of this command or the exit command.

dst-address

no dst-address

 
Syntax Description

This command has no arguments or keywords.

 
Command Default

No default behavior or values are available.

 
Command Modes

SIP header configuration (config-sbc-sbe-sip-hdr)

 
Command History

Release
Modification

Cisco IOS XE Release 3.1S

This command was introduced on the Cisco ASR 1000 Series Aggregation Services Routers.

 
Usage Guidelines

To use this command, you must be in the correct configuration mode. The Examples section that follows shows the hierarchy of modes required to run the command.

This command puts you in the destination address mode where you use the header-prio header-name command to set the priority of the header or headers from which a called party address is derived.


NoteThe header list is for inbound calls only. The header list is for inbound calls only.


Examples

The following example shows how to enter the destination address mode:

Router# configure terminal
Router(config)# sbc MySBC
Router(config-sbc)# sbe
Router(config-sbc-sbe)# sip header-profile HP1
Router(config-sbc-sbe-sip-hdr) dst-address
Router(config-sbc-sbe-sip-hdr-dst)#
 

 
Related Commands

Command
Description

activate (enum)

Activates ENUM client.

dial-plan-suffix

Configures the dial plan suffix used for the ENUM query.

div-address

Enters the diverted-by address mode to set the priority of the header or headers from which to derive a diverted-by address (inbound only).

dst-address

Enters the destination address mode to set the priority of the header or headers from which to derive a called party address (inbound only).

entry (enum)

Configures the ENUM client entry name and enter the ENUM entry configuration mode.

enum

Configures the ENUM client ID number and enter the ENUM configuration mode.

header-prio header-name

Configures the priority of a header that is used to derive a source, destination, or diverted-by address.

max-recursive-depth

Configures the maximum number of recursive ENUM look-ups for non-terminal Resource Records (RR).

max-responses

Configures the maximum number of ENUM records returned to the routing module.

req-timeout

Configures the ENUM request timeout period.

src-address

Enters the source address mode to set the priority of the header or headers from which to derive a calling party address (inbound only).

server ipv4

Configures the IPv4 address of a DNS server for ENUM client and optionally associate the DNS server to a VRF.

show sbc sbe call-policy-set

Displays configuration and status information about call policy sets.

show sbc sbe enum

Displays the configuration information about an ENUM client.

show sbc sbe enum entry

Displays the contents of an ENUM client entry.

dst-address (editor)

To enter the Destination address mode to set the priority of the header or headers from which to derive a called party address (inbound only), use the dst-address command in the Session Initiation Protocol (SIP) Header Editor configuration mode. To exit the Destination address mode, use the no form of this command or the exit command.

dst-address

no dst-address

 
Syntax Description

This command has no arguments or keywords.

 
Command Default

No default behavior or values are available.

 
Command Modes

SIP Header Editor configuration (config-sbc-sbe-mep-hdr)

 
Command History

Release
Modification

Cisco IOS XE Release 3.3S

This command was introduced on the Cisco ASR 1000 Series Aggregation Services Routers.

 
Usage Guidelines

To use this command, you must be in the correct configuration mode. The Examples section that follows shows the hierarchy of the modes required to run the command.

This command enables you to enter the Destination address mode from where you can use the header-prio header-name command to set the priority of the header or headers from which a called party address is derived.


NoteThe header list is for inbound calls only. The header list is for inbound calls only.


Examples

The following example shows how to enter the Destination address mode:

Router# configure terminal
Router(config)# sbc MySBC
Router(config-sbc)# sbe
Router(config-sbc-sbe)# sip header-editor HP1
Router(config-sbc-sbe-mep-hdr) dst-address
Router(config-sbc-sbe-mep-hdr-dst)#

 
Related Commands

Command
Description

div-address

Enables entry into the Diverted-by address mode to set the priority of the header or headers from which to derive a diverted-by address (inbound only).

dst-address

Enables entry into the Destination address mode to set the priority of the header or headers from which to derive a called party address (inbound only).

header-prio header-name

Configures the priority of a header that is used to derive a source, destination, or diverted-by address.

src-address

Enables entry into the Source address mode to set the priority of the header or headers from which to derive a calling party address (inbound only).

sip header-editor

Configures a header editor.

dst-adjacency

To configure the destination adjacency of an entry in a routing table, use the dst-adjacency command in RTG routing table configuration mode. To delete the destination adjacency, use the no form of this command.

dst-adjacency target-adjacency

no dst-adjacency target-adjacency

 
Syntax Description

target-adjacency

Specifies the string that identifies the destination adjacency to use.

 
Command Default

No default behavior or values are available.

 
Command Modes

RTG routing table configuration (config-sbc-sbe-rtgpolicy-rtgtable)

 
Command History

Release
Modification

Cisco IOS XE Release 2.4

This command was introduced on the Cisco ASR 1000 Series Aggregation Services Routers.

 
Usage Guidelines

To use this command, you must be in the correct configuration mode. The Examples section shows the hierarchy of modes required to run the command.

The target-adjacency argument is mandatory for routing tables entries with table-type round-robin .

Examples

The following example shows how to configure the destination adjacency of an entry in the new routing table MyRtgTable to softswitch1:

Router# configure terminal
Router(config)# sbc mySbc
Router(config-sbc)# sbe
Router(config-sbc-sbe)# call-policy-set 1
Router(config-sbc-sbe-rtgpolicy)# rtg-dst-address-table MyRtgTable
Router(config-sbc-sbe-rtgpolicy-rtgtable)# entry 1
Router(config-sbc-sbe-rtgpolicy-rtgtable-entry)# dst-adjacency softswitch1
 

The following example shows how to configure the destination adjacency of an entry in the new routing table MyRtgTable to softswitch1:

Router# configure terminal
Router(config)# sbc mySbc
Router(config-sbc)# sbe
Router(config-sbc-sbe)# call-policy-set 1
Router(config-sbc-sbe-rtgpolicy)# rtg-src-address-table MyRtgTable
Router(config-sbc-sbe-rtgpolicy-rtgtable)# entry 1
Router(config-sbc-sbe-rtgpolicy-rtgtable-entry)# dst-adjacency softswitch1
 

The following example shows how to configure the destination adjacency of an entry in the new routing table MyRtgTable to softswitch1:

Router# configure terminal
Router(config)# sbc mySbc
Router(config-sbc)# sbe
Router(config-sbc-sbe)# call-policy-set 1
Router(config-sbc-sbe-rtgpolicy)# rtg-src-adjacency-table MyRtgTable
Router(config-sbc-sbe-rtgpolicy-rtgtable)# entry 1
Router(config-sbc-sbe-rtgpolicy-rtgtable-entry)# dst-adjacency softswitch1
 

The following example shows how to configure the destination adjacency of an entry in the new routing table MyRtgTable to softswitch1:

Router# configure terminal
Router(config)# sbc mySbc
Router(config-sbc)# sbe
Router(config-sbc-sbe)# call-policy-set 1
Router(config-sbc-sbe-rtgpolicy)# rtg-src-account-table MyRtgTable
Router(config-sbc-sbe-rtgpolicy-rtgtable)# entry 1
Router(config-sbc-sbe-rtgpolicy-rtgtable-entry)# dst-adjacency softswitch1
 

The following example shows how to configure the destination adjacency of an entry in the new routing table MyRtgTable to softswitch1:

Router# configure terminal
Router(config)# sbc mySbc
Router(config-sbc)# sbe
Router(config-sbc-sbe)# call-policy-set 1
Router(config-sbc-sbe-rtgpolicy)# rtg-round-robin-table MyRtgTable
Router(config-sbc-sbe-rtgpolicy-rtgtable)# entry 1
Router(config-sbc-sbe-rtgpolicy-rtgtable-entry)# dst-adjacency softswitch1

 

dtmf-duration (session border controller)

To configure the default duration of a dual tone multifrequency (DTMF) event in milliseconds, use the dtmf-duration command in VDBE configuration mode. To reconfigure the default duration of a DTMF event in milliseconds, use the no form of this command.

dtmf-duration duration

no dtmf-duration duration

 
Syntax Description

duration

This is the default duration of a DTMF event in milliseconds. The range is 0-1000. The default is 200.

 
Command Default

The default is 200 ms if this command is not configured, or the no dtmf-duration command is issued.

 
Command Modes

VDBE configuration (config-sbc-dbe-vdbe) for distributed SBC

VDBE configuration (config-sbc-vdbe) for unified SBC

 
Command History

Release
Modification

Cisco IOS XE Release 2.1

This command was introduced on the Cisco ASR 1000 Series Aggregation Services Routers.

Cisco IOS XE Release 2.4

This command was modified for unified SBC.

 
Usage Guidelines

This command can be used on both unified and distributed SBC, but in slightly different configuration modes. Note the correct mode to use for either unified or distributed SBC.

Examples

The following example configures the duration of a DTMF event to be 250 milliseconds for a unified SBC:

Router# configure terminal
Router(config)# sbc mySbc
Router(config-sbc)# sbe
Router(config-sbc)# vdbe
Router(config-sbc-vdbe)# dtmf-duration 250
Router(config-sbc-vdbe)# end

 

The following example configures the duration of a DTMF event to be 250 milliseconds for a distributed SBC:

Router# configure terminal
Router(config)# sbc mySbc dbe
Router(config-sbc-dbe)# vdbe
Router(config-sbc-dbe-vdbe)# dtmf-duration 250
Router(config-sbc-dbe-vdbe)# end
 

 
Related Commands

Command
Description

vdbe

Enter into VDBE configuration mode.

dtmf disable sip

To turn off automatic detection of dual tone multifrequency-specific options, use the dtmf disable sip command in adjacency SIP configuration mode. To turn on the automatic detection of dual tone multifrequency (DTMF) relay, use the no form of this command.

dtmf disable sip { info | notify }

no dtmf disable sip { info | notify }

 
Syntax Description

info

Specifies INFO-based DTMF relay.

notify

Specifies NOTIFY-based DTMF relay.

 
Command Default

The default is automatic detection of DTMF relay.

 
Command Modes

Adjacency SIP configuration (config-sbc-sbe-adj-sip)

 
Command History

Release
Modification

Cisco IOS XE Release 3.1S

This command was introduced on the Cisco ASR 1000 Series Aggregation Services Routers.

 
Usage Guidelines

To use this command, you must be in the correct configuration mode. The Examples section that follows shows the hierarchy of the modes and modes required to run the command.

Examples

The following example shows how to turn off automatic detection of DTMF relay using the INFO method as the preferred DTMF transport method for the endpoints on an adjacency:

Router# configure terminal
Router(config)# sbc mySbc
Router(config-sbc)# sbe
Router(config-sbc-sbe)# adjacency sip SipToIsp4
Router(config-sbe-adj-sip)# dtmf disable sip info

 

dtmf sip

To configure DTMF SIP, use the dtmf sip command in adjacency SIP configuration mode. To unconfigure DTMF SIP, use the no form of this command.

dtmf sip { default duration millisec | info always-supported | notify interval millisec }

no dtmf sip { default duration millisec | info always-supported | notify interval millisec }

 
Syntax Description

default

Specifies default values.

duration

Specifies the duration for which the SBC advertises on outbound DTMF transport.

info

Specifies INFO-based DTMF relay.

always-supported

Overrides automatic detection of DTMF support, assuming the INFO method as the preferred DTMF transport method for endpoints on an adjacency.

notify

Specifies NOTIFY-based DTMF relay.

interval

Specifies the maximum time for which the SBC waits between the NOTIFY messages for a single DTMF event.

millisec

The time in milliseconds, ranging from 1 to 65535.

 
Command Default

The default is automatic detection of DTMF relay.

 
Command Modes

Adjacency SIP configuration (config-sbc-sbe-adj-sip)

 
Command History

Release
Modification

Cisco IOS XE Release 3.1S

This command was introduced on the Cisco ASR 1000 Series Aggregation Services Routers.

 
Usage Guidelines

To use this command, you must be in the correct configuration mode. The Examples section that follows shows the hierarchy of the modes and modes required to run the command.

Examples

The following example shows how to configure DTMF SIP:

Router# configure terminal
Router(config)# sbc mySbc
Router(config-sbc)# sbe
Router(config-sbc-sbe)# adjacency sip SipToIsp4
Router(config-sbe-adj-sip)# dtmf sip notify interval 1000
Router(config-sbe-adj-sip)# dtmf sip info always-supported

 

 

duration

To configure the expiration time during which the Cisco Unified Border Element (SP Edition) tries to perform provisioned delegate registration before stopping, use the duration command in subscriber delegate profile configuration mode. To reset the expiration time to the default duration time, use the no duration command.

duration {dur time in secs}

no duration {dur time in secs}

 
Syntax Description

dur time in secs

This is the duration time in seconds. The range is 1 to 2,147,483 seconds. The default duration time is 1800 seconds.

 
Command Default

The default duration time is 1800 seconds.

 
Command Modes

Subscriber delegate profile configuration mode (config-sbc-sbe-subscriber-delegate-prof)

 
Command History

Release
Modification

Cisco IOS XE Release 2.4

This command was introduced on the Cisco ASR 1000 Series Aggregation Services Routers.

 
Usage Guidelines

This command configures the expiration time when the delegate client is due to expire, that is, the length of time in seconds during which the SBC tries to perform delegate registration before stopping. This is one of the delegate profile parameters you can configure.

After a delegate profile is configured, the following profile parameters may optionally be configured:

  • duration
  • retry-count
  • retry-interval
  • refresh-buffer

Examples

The following example configures a provisioned delegate registration profile that can be applied to a delegate registration subscriber and configures a delegate registration for delegate client (aor= sip:bob@isp.example). The delegate registration profile is configured with a duration expiration time of 1000 seconds, a retry count of 5 times, a retry interval of 60 seconds, and a refresh timeout time of 200 seconds:

Router# configure terminal
Router(config)# sbc mySbc
Router(config-sbc)# sbe
Router(config-sbc-sbe)# delegate-profile my-profile
Router(config-sbc-sbe-subscriber-delegate-prof)# duration 1000
Router(config-sbc-sbe-subscriber-delegate-prof)# retry-count 5
Router(config-sbc-sbe-subscriber-delegate-prof)# retry-interval 60
Router(config-sbc-sbe-subscriber-delegate-prof)# refresh-buffer 200
Router(config-sbc-sbe-subscriber-delegate-prof)# exit
Router(config-sbc-sbe)# subscriber sip:bob@isp.example
Router(config-sbc-sbe-subscriber-entry)# sip-contact sip:steve@10.1.1.2
Router(config-sbc-sbe-subscriber-contact)# adjacency CallMgrB
Router(config-sbc-sbe-subscriber-contact)# exit
Router(config-sbc-sbe-subscriber-entry)# delegate-registration sip:registrar@1.1.1.1
Router(config-sbc-sbe-subscriber-delegate)# adjacency CallMgrA
Router(config-sbc-sbe-subscriber-delegate)# profile my-profile
Router(config-sbc-sbe-subscriber-delegate)# activate
Router(config-sbc-sbe-subscriber-delegate)# end
 

 
Related Commands

Command
Description

retry-count

Configures the number of times the SBC repeats the delegate registration processing after the retry interval ends.

retry-interval (registration)

Configures the length of time the SBC waits before it retries delegate registration.

refresh-buffer

Configures the length of time by which the SBC attempts to refresh the address location with a delegate registration before the specified expiration time.

delegate-profile

Configures a delegate registration profile that is applied to a delegate registration subscriber.

delegate-registration

Configures a delegate registration for a delegate client.

show sbc sbe sip delegate-profile

Displays subscriber profiles for whom Provisioned Delegate Registration has been configured.

early-media-deny

To configure whether to disallow early-media for an entry in an admission control table, use the early-media-deny command in CAC table configuration mode. To return to the default value, use the no form of this command.

early-media-deny

no early-media-deny

 
Syntax Description

This command has no arguments or keywords.

 
Command Default

By default, early-media is allowed.

 
Command Modes

CAC table configuration (config-sbc-sbe-cacpolicy-cactable)

 
Command History

Release
Modification

Cisco IOS XE Release 2.4

This command was introduced on the Cisco ASR 1000 Series Aggregation Services Routers.

 
Usage Guidelines

To use this command, you must be in the correct configuration mode. The Examples section shows the hierarchy of modes required to run the command.

Examples

The following example shows how to disallow early-media for an existing entry in the admission control table MyCacTable:

Router# configure terminal
Router(config)# sbc mySbc
Router(config-sbc)# sbe
Router(config-sbc-sbe)# cac-policy-set 1
Router(config-sbc-sbe-cacpolicy)# cac-table MyCacTable
Router(config-sbc-sbe-cacpolicy-cactable)# entry 1
Router(config-sbc-sbe-cacpolicy-cactable-entry)# early-media-deny
Router(config-sbc-sbe-cacpolicy-cactable-entry)# exit
Router(config-sbc-sbe-cacpolicy-cactable)# exit
Router(config-sbc-sbe-cacpolicy)# exit

 
Related Commands

Command
Description

early-media-timeout

Configures the time to allow early-media before a call is established.

early-media-timeout

To configure the amount of time for which to allow early-media before a call is established, use the early-media-timeout command in CAC table configuration mode. To return to the default value, use the no form of this command.

early-media-timeout value

no early-media-timeout

 
Syntax Description

value

Specifies the timeout period (in seconds). A value of 0 means that calls are not timed out.

 
Command Default

value : 0

 
Command Modes

CAC table configuration (config-sbc-sbe-cacpolicy-cactable)

 
Command History

Release
Modification

Cisco IOS XE Release 2.4

This command was introduced on the Cisco ASR 1000 Series Aggregation Services Routers.

 
Usage Guidelines

To use this command, you must be in the correct configuration mode. The Examples section shows the hierarchy of modes required to run the command.

Examples

The following example shows how to configure the early-media-timeout for an existing entry in the admission control table MyCacTable:

Router# configure terminal
Router(config)# sbc mySbc
Router(config-sbc)# sbe
Router(config-sbc-sbe)# cac-policy-set 1
Router(config-sbc-sbe-cacpolicy)# cac-table MyCacTable table-type limit dst-prefix
Router(config-sbc-sbe-cacpolicy)# cac-table MyCacTable
Router(config-sbc-sbe-cacpolicy-cactable)# entry 1
Router(config-sbc-sbe-cacpolicy-cactable-entry)# early-media-timeout 90
Router(config-sbc-sbe-cacpolicy-cactable-entry)# exit
Router(config-sbc-sbe-cacpolicy-cactable)# exit

 

early-media-type

To configure the direction of early media to allow for an entry in a call admission control table, use the early-media-type command in CAC table configuration mode. To return to the default value, use the no form of this command.

early-media-type {backward-half-duplex | forward-half-duplex | full-duplex}

no early-media-type

 
Syntax Description

 

backward-half-duplex

Allows early media in the backwards direction only.

forward-half-duplex

Allows early media in the forwards direction only.

full-duplex

Allows early media in both directions.

 
Command Default

The default direction is full-duplex.

 
Command Modes

CAC table configuration (config-sbc-sbe-cacpolicy-cactable)

 
Command History

Release
Modification

Cisco IOS XE Release 2.4

This command was introduced on the Cisco ASR 1000 Series Aggregation Services Routers.

 
Usage Guidelines

To use this command, you must be in the correct configuration mode. The Examples section shows the hierarchy of modes required to run the command.

Examples

The following example shows how to disallow early-media for an existing entry in the admission control table MyCacTable:

Router# configure terminal
Router(config)# sbc mySbc
Router(config-sbc)# sbe
Router(config-sbc-sbe)# cac-policy-set 1
Router(config-sbc-sbe-cacpolicy)# cac-table MyCacTable
Router(config-sbc-sbe-cacpolicy-cactable)# entry 1
Router(config-sbc-sbe-cacpolicy-cactable-entry)# early-media-type full-duplex
Router(config-sbc-sbe-cacpolicy-cactable-entry)# exit
Router(config-sbc-sbe-cacpolicy-cactable)# exit
Router(config-sbc-sbe-cacpolicy)# exit

 

Command
Description

early-media-timeout

Configures the time to allow early-media before a call is established.

edit-cic

To manipulate a carrier identification code in number analysis and routing tables, use the edit-cic command call policy set table mode. The no form of the command removes the configured string.

edit-cic [ del-prefix pd ] | [ del-suffix sd ] | [ add-prefix pa ] | [ replace ds ]

 
Syntax Description

del-prefix

Specifies digits to delete from the front of the carrier ID string.

del-suffix

Specifies digits to delete from the end of the carrier ID string.

add-prefix

Specifies digits to add to the front of the carrier ID string.

replace

Replaces the carrier ID string with the configured string of digits.

pd

A positive integer specifying the number of digits to delete from the front of the carrier ID string.

sd

A positive integer specifying the number of digits to delete from the end of the carrier ID string.

pa

A string of digits to add to the front of the carrier ID string.

ds

A string of digits with which to replace the carrier ID string.

 
Command Default

No default behavior or values are available.

 
Command Modes

NA-DST-address-table configuration (config-sbc-sbe-rtgpolicy-natable-entry)

 
Command History

Release
Modification

Cisco IOS XE Release 2.4

This command was introduced on the Cisco ASR 1000 Series Aggregation Services Routers.

 
Usage Guidelines

This command is used to manipulate the carrier identification code (cic) address in number analysis and routing tables. You can configure more than one edit action (del-prefix, del-suffix, and add-prefix) and configure combinations of edit actions, as long as you follow the rules. The rules are as follows:

  • The edit-cic action keywords del-prefix, del-suffix, and add-prefix can be combined in any order, with at least one keyword required.
  • Combinations of edit-cic actions are implemented from left to right. For example, the combination edit-cic del-prefix 3 add-prefix 919 del-suffix 4 command changes the dialed digit string, 2025551212, into 919555.
  • The edit-cic replace action cannot be combined with other edit actions.

If you want to remove the carrier ID entirely from outgoing messages, specify a replacement string of 0000 or a prefix deletion length of 4. For example:

edit-cic del-prefix 4

or

edit-cic replace 0000

Re-entering the edit-cic command with a new combination of edit actions replaces the existing combination.

To use this command, you must be in the correct configuration mode. The Examples section shows the hierarchy of modes required to run the command.

Examples

The following example shows how to configure entry 1 to delete four digits from the end of the dialed string, delete three digits from the beginning of the dialed string, and then add 202 to the beginning of the dialed string in the new number analysis table MyNaTable:

Router# configure terminal
Router(config)# sbc mySbc
Router(config-sbc)# sbe
Router(config-sbc-sbe)# call-policy-set 1
Router(config-sbc-sbe-rtgpolicy)# na-dst-address-table MyNaTable
Router(config-sbc-sbe-rtgpolicy-natable)# entry 1
Router(config-sbc-sbe-rtgpolicy-rtgtable-entry)# edit-cic del-suffix 4 del-prefix 3 add-prefix 202
Router(config-sbc-sbe-cacpolicy-natable-ent)# exit
Router(config-sbc-sbe-cacpolicy-natable)# exit
Router(config-sbc-sbe-cacpolicy)# exit

 

The following example replaces the entire carrier code identification address of dialed digits with the digits 2025551212:

Router# configure terminal
Router(config)# sbc mySbc
Router(config-sbc)# sbe
Router(config-sbc-sbe)# call-policy-set 1
Router(config-sbc-sbe-rtgpolicy)# na-dst-address-table MyNaTable
Router(config-sbc-sbe-rtgpolicy-natable)# entry 1
Router(config-sbc-sbe-rtgpolicy-rtgtable-entry)# edit-cic replace 2025551212
Router(config-sbc-sbe-cacpolicy-natable-ent)# exit
Router(config-sbc-sbe-cacpolicy-natable)# exit
Router(config-sbc-sbe-cacpolicy)# exit

 

The following command sets entry 1 to delete the first digit of the carrier ID in NA table MyNaTable :

Router# configure terminal
Router(config)# sbc mySbc
Router(config-sbc)# sbe
Router(config-sbc-sbe)# call-policy-set 1
Router(config-sbc-sbe-rtgpolicy)# na-src-account-table mytable
Router(config-sbc-sbe-rtgpolicy-natable)# entry 1
Router(config-sbc-sbe-rtgpolicy-natable-entry)# edit-cic del-prefix 1
Router(config-sbc-sbe-rtgpolicy-natable-entry)#

 
Related Commands

Command
Description

call-policy-set

Enters the mode of a routing policy configuration within an SBE entity.

entry

Enters the mode for configuring an entry in a number analysis table, creating the table, if necessary.

na-src-account-table

Enters the mode for configuring a number analysis table within an SBE policy set, with entries that match the source account.

edit

Configures a dial-string manipulation action in number analysis and routing tables with entries of the table matching the whole dialed number.

edit-src

Configures a source number manipulation action in number analysis and routing tables.

edit-src

To configure a source address manipulation action in the number analysis table and the routing table, use the edit-src command in the appropriate configuration mode. To remove a configured string, use the no form of this command.

edit-src [ del-prefix pd ] | [ del-suffix sd ] | [ add-prefix pa ] | [ replace ds ]

 
Syntax Description

del-prefix

Specifies the digits to be deleted from the beginning of the dialed string.

del-suffix

Specifies the digits to be deleted from the end of the dialed string.

add-prefix

Specifies the digits to be added to the beginning of the dialed string.

replace

Replaces the dialed string with the configured digits.

pa

A string of digits to be added to the beginning of the source number string.

pd

A positive integer specifying the number of digits to be deleted from the beginning of the source number string.

sd

A positive integer specifying the number of digits to be deleted from the end of the source number string.

ds

A string of digits with which to replace the source number string.

 
Command Default

No default behavior or values are available.

 
Command Modes

Number Analysis table entry (config-sbc-sbe-rtgpolicy-natable-entry)

rtg-carrier-id-table entry

rtg-dst-address-table entry

rtg-dst-domain-table entry

rtg-round-robin-table entry

rtg-src-account-table entry

rtg-src-address-table entry

rtg-src-adjacency-table entry

rtg-src-domain-table entry

rtg-category-table entry

rtg-least-cost-table entry

rtg-time-table entry

 
Command History

Release
Modification

Cisco IOS XE Release 2.4

This command was introduced on the Cisco ASR 1000 Series Aggregation Services Routers.

Cisco IOS XE Release 3.2S

The command was modified. The source address can now be edited in the number analysis table.

 
Usage Guidelines

You cannot use this command if the table is a part of the active policy set.

This command is used to manipulate the source address in the number analysis table and the routing table. You can configure more than one edit action ( del-prefix , del-suffix , and add-prefix ) or combinations of edit actions, as long as you follow these rules:

  • The del-prefix, del-suffix, and add-prefix edit-src action keywords can be combined in any order, with at least one keyword being mandatory.
  • Combinations of edit-src actions are implemented from left to right. For example, the edit-src del-prefix 3 add-prefix 919 del-suffix 4 combination command changes the dialed digit string 2025551212 into 919555.
  • The edit-src replace action command cannot be combined with other edit actions.

Re-entering the edit-src command with a new combination of edit actions replaces the existing combination.

To use this command, you must be in the correct configuration mode. The Examples section shows the hierarchy of the modes required to run the command.

Examples

The following example shows how to configure entry 1 to delete four digits from the end of the dialed string, delete three digits from the beginning of the dialed string, and then add 202 to the beginning of the dialed string in the new number analysis table, MyNaTable:

Router# configure terminal
Router(config)# sbc mySbc
Router(config-sbc)# sbe
Router(config-sbc-sbe)# call-policy-set 1
Router(config-sbc-sbe-rtgpolicy)# na-dst-address-table MyNaTable
Router(config-sbc-sbe-rtgpolicy-natable)# entry 1
Router(config-sbc-sbe-rtgpolicy-natable-entry)# edit-src del-suffix 4 del-prefix 3 add-prefix 202
Router(config-sbc-sbe-cacpolicy-natable-ent)# exit
Router(config-sbc-sbe-cacpolicy-natable)# exit
Router(config-sbc-sbe-cacpolicy)# exit

 

The following example shows how to replace the entire source address of the dialed digits with the digit 2025551212:

Router# configure terminal
Router(config)# sbc mySbc
Router(config-sbc)# sbe
Router(config-sbc-sbe)# call-policy-set 1
Router(config-sbc-sbe-rtgpolicy)# na-dst-address-table MyNaTable
Router(config-sbc-sbe-rtgpolicy-natable)# entry 1
Router(config-sbc-sbe-rtgpolicy-natable-entry)# edit-src replace 2025551212
Router(config-sbc-sbe-cacpolicy-natable-ent)# exit
Router(config-sbc-sbe-cacpolicy-natable)# exit
Router(config-sbc-sbe-cacpolicy)# exit

 

The following command shows how to set entry 1 to delete the first digit of the source address in the MyTable routing table:

Router# configure terminal
Router(config)# sbc mySbc
Router(config-sbc)# sbe
Router(config-sbc-sbe)# call-policy-set 1
Router(config-sbc-sbe-rtgpolicy)# rtg-dst-address-table mytable
Router(config-sbc-sbe-rtgpolicy-rtgtable)# entry 1
Router(config-sbc-sbe-rtgpolicy-rtgtable-entry)# edit-src del-prefix 1
Router(config-sbc-sbe-rtgpolicy-rtgtable-entry)#

 
Related Commands

Command
Description

entry

Enters the mode for configuring an entry in a number analysis table, creating the table, if necessary.

edit

Configures a dial-string manipulation action in the number analysis table and the routing table, with the entries in the table matching the complete dialed number.

edit-cic

Manipulates a carrier identification code in the number analysis table and the routing table.

edit

To configure a string manipulation action in number analysis and routing tables with entries of the table matching the whole dialed number or the source number, use the edit command in NA routing table entry configuration mode. To return to the default value, use the no form of this command.

edit [ del-prefix pd ] | [ del-suffix sd ] | [ add-prefix pa ] | [ replace ds ]

no edit

 
Syntax Description

del-prefix

Positive integer specifying a number of digits to delete from the front of the dialed digit string.

del-suffix

Positive integer specifying a number of digits to delete from the end of the dialed digit string.

add-prefix

String of digits to add to the front of the dialed string.

replace

String of digits with which to replace the dialed string.

pd

A positive integer specifying the number of digits to delete from the front of the carrier ID string.

sd

A positive integer specifying the number of digits to delete from the end of the carrier ID string.

pa

A string of digits to add to the front of the carrier ID string.

ds

A string of digits with which to replace the carrier ID string.

 
Command Default

No default behavior or values are available.

 
Command Modes

NA routing table entry configuration (config-sbc-sbe-rtgpolicy-natable-ent)

 
Command History

Release
Modification

Cisco IOS XE Release 2.4

This command was introduced on the Cisco ASR 1000 Series Aggregation Services Routers.

 
Usage Guidelines

This command is used to manipulate the source address or a destination address in number analysis and routing tables. You can configure more than one edit action (del-prefix, del-suffix, and add-prefix) and configure combinations of edit actions, as long as you follow the rules. The rules are as follows:

  • The edit action keywords del-prefix, del-suffix, and add-prefix can be combined in any order, with at least one keyword required.
  • Combinations of edit actions are implemented from left to right. For example, the combination edit del-prefix 3 add-prefix 919 del-suffix 4 command changes the dialed digit string, 2025551212, into 919555.
  • The edit replace action cannot be combined with other edit actions.

Re-entering the edit command with a new combination of edit actions replaces the existing combination.

To use this command, you must be in the correct configuration mode. The Examples section shows the hierarchy of modes required to run the command.

Examples

The following example shows how to configure entry 1 to delete four digits from the end of the dialed string, delete three digits from the beginning of the dialed string, and then add 202 to the beginning of the dialed string in the new number analysis table MyNaTable:

Router# configure terminal
Router(config)# sbc mySbc
Router(config-sbc)# sbe
Router(config-sbc-sbe)# call-policy-set 1
Router(config-sbc-sbe-rtgpolicy)# na-dst-address-table MyNaTable
Router(config-sbc-sbe-rtgpolicy-natable)# entry 1
Router(config-sbc-sbe-rtgpolicy-rtgtable-entry)# edit del-suffix 4 del-prefix 3 add-prefix 202
Router(config-sbc-sbe-cacpolicy-natable-ent)# exit
Router(config-sbc-sbe-cacpolicy-natable)# exit
Router(config-sbc-sbe-cacpolicy)# exit

 

The following example replaces the entire address of dialed digits with the digits 2025551212:

Router# configure terminal
Router(config)# sbc mySbc
Router(config-sbc)# sbe
Router(config-sbc-sbe)# call-policy-set 1
Router(config-sbc-sbe-rtgpolicy)# na-dst-address-table MyNaTable
Router(config-sbc-sbe-rtgpolicy-natable)# entry 1
Router(config-sbc-sbe-rtgpolicy-rtgtable-entry)# edit replace 2025551212
Router(config-sbc-sbe-cacpolicy-natable-ent)# exit
Router(config-sbc-sbe-cacpolicy-natable)# exit
Router(config-sbc-sbe-cacpolicy)# exit
 

 
Related Commands

Command
Description

edit-cic

Manipulates a carrier identification code in number analysis and routing tables.

edit-src

Configures a source number manipulation action in number analysis and routing tables.

editor-list

To specify the stage at which you want the editors to be applied, use the editor-list command in the adjacency SIP editor configuration mode. To remove the configuration of the editor list, use the no form of this command.

editor-list {after-send | before-receive}

no editor-list {after-send | before-receive}

 
Syntax Description

after-send

Specifies that the outgoing message must be edited after the message is processed by the adjacency and just before it is forwarded from the adjacency.

before-receive

Specifies that the incoming message must be edited just after it is received on the adjacency and before the adjacency begins processing it.

 
Command Default

No default behavior or values are available.

 
Command Modes

Adjacency SIP editor configuration (config-sbc-sbe-adj-sip-ed)

 
Command History

Release
Modification

Cisco IOS XE Release 3.4S

This command was introduced on the Cisco ASR 1000 Series Aggregation Services Routers.

 
Usage Guidelines

To use this command, you must be in the correct configuration mode. The Examples section shows the hierarchy of the modes required to run this command.

Note that the editors must be configured before you run this command.

Examples

In the following example, the editor-list command is used to specify that the editors must be applied to the messages after the messages are received:

Router# configure terminal
Router(config)# sbc mySbc
Router(config-sbc)# sbe
Router(config-sbc-sbe)# adjacency sip my_adjacency
Router(config-sbc-sbe-adj-sip)# editor-type editor
Router(config-sbc-sbe-adj-sip)# editor-list after-send
 

 
Related Commands

Command
Description

active-script-set

Activates a script set,

clear sbc sbe script-set-stats

Clears the stored statistics related to a script set.

complete

Completes a CAC policy set, call policy set, or script set after committing the full set.

editor

Specifies the order in which a particular editor must be applied.

editor type

Configures an editor type to be applied on a SIP adjacency.

filename

Specifies the path and name of the script file written using the Lua programming language.

load-order

Specifies the load order of a script in a script set.

script

Configures a script written using the Lua programming language.

show sbc sbe editors

Displays a list of all the editors registered on the SBC.

show sbc sbe script-set

Displays a summary of the details pertaining to all the configured script sets or the details of a specified script set.

script-set lua

Configures a script set composed of scripts written using the Lua programming language.

sip header-editor

Configures a header editor.

sip method-editor

Configures a method editor.

sip option-editor

Configures an option editor.

sip parameter-editor

Configures a parameter editor.

test sbc message sip filename script-set editors

Tests the message editing functionality of the SBC.

test script-set

Tests the working of a script set.

type

Specifies the type of a script written using the Lua programming language.

editor-type

To configure an editor type for a SIP adjacency to apply, use the editor-type command in the SIP adjacency configuration mode. To unconfigure an editor type, use the no form of this command.

editor-type { editor | profile }

no editor-type

 
Syntax Description

editor

Uses the method, header, option, parameter, or body editor.

profile

Uses the method, header, option, parameter, or body profile.

 
Command Default

No default behavior or values are available.

 
Command Modes

SIP adjacency configuration (config-sbc-sbe-sip)

 
Command History

Release
Modification

Cisco IOS XE Release 3.3S

This command was introduced on the Cisco ASR 1000 Series Aggregation Services Routers.

 
Usage Guidelines

To use this command, you must be in the correct configuration mode. The Examples section shows the hierarchy of the modes required to run the command.

Examples

The following example shows how to configure an editor type for a SIP adjacency to apply:

Router# configure terminal
Router(config)# sbc mySbc
Router(config-sbc)# sbe
Router(config-sbc-sbe)# adjacency SIP SIPP
Router(config-sbc-sbe-sip)# editor-type editor

 
Related Commands

Command
Description

sip method-editor

Configures a method editor.

sip header-editor

Configures a header editor.

sip parameter-editor

Configures a parameter editor.

sip body-editor

Configures a body editor.

sip option-editor

Configures an option editor.

editor

If multiple editors have been configured in an editor list, to specify the order in which a particular editor must be applied in the sequence defined by the list, use the editor command in the adjacency SIP editor configuration mode. To remove the configuration of the editor, use the no form of this command.

editor order-number editor-name [condition [body contains sdp]]

no editor order-number editor-name [condition [body contains sdp]]

 
Syntax Description

order-number

Order in which the editor must be applied.

editor-name

Name of the editor that you want to apply to messages that are processed by the adjacency.

condition

Specifies that there are one or more conditions for the editor to be applied.

body contains sdp

Specifies that the message body must contain SDP-based content. The editor is applied only if this condition is met. Include body contains sdp in the command for script-based editors.

 
Command Default

No default behavior or values are available.

 
Command Modes

Adjacency SIP editor configuration (config-sbc-sbe-adj-sip-ed)

 
Command History

Release
Modification

Cisco IOS XE Release 3.4S

This command was introduced on the Cisco ASR 1000 Series Aggregation Services Routers.

 
Usage Guidelines

To use this command, you must be in the correct configuration mode. The Examples section shows the hierarchy of the modes required to run this command.

Examples

In the following example, the editor command is used to set the load order for the my_editor editor to 4. A header editor is configured in this example.

Router# configure terminal
Router(config)# sbc mySbc
Router(config-sbc)# sbe
Router(config-sbc-sbe)# sip editor-type editor
Router(config-sbc-sbe)# sip parameter-editor my_parameter_editor
Router(config-sbc-sbe-mep-prm)# exit
Router(config-sbc-sbe)# sip header-editor my_header_editor
Router(config-sbc-sbe-mep-hdr)# exit
Router(config-sbc-sbe)# adjacency sip my_adjacency
Router(config-sbc-sbe-adj-sip)# editor-type editor
Router(config-sbc-sbe-adj-sip)# header-editor inbound my_header_editor
Router(config-sbc-sbe-adj-sip)# editor-list after-send
Router(config-sbc-sbe-adj-sip-ed)# editor 4 my_editor condition body contains sdp

 
Related Commands

Command
Description

active-script-set

Activates a script set,

clear sbc sbe script-set-stats

Clears the stored statistics related to a script set.

complete

Completes a CAC policy set, call policy set, or script set after committing the full set.

editor-list

Specifies the stage at which the editors must be applied.

editor type

Configures an editor type to be applied on a SIP adjacency.

filename

Specifies the path and name of the script file written using the Lua programming language.

load-order

Specifies the load order of a script in a script set.

script

Configures a script written using the Lua programming language.

show sbc sbe editors

Displays a list of all the editors registered on the SBC.

show sbc sbe script-set

Displays a summary of the details pertaining to all the configured script sets or the details of a specified script set.

script-set lua

Configures a script set composed of scripts written using the Lua programming language.

sip header-editor

Configures a header editor.

sip method-editor

Configures a method editor.

sip option-editor

Configures an option editor.

sip parameter-editor

Configures a parameter editor.

test sbc message sip filename script-set editors

Tests the message editing functionality of the SBC.

test script-set

Tests the working of a script set.

type

Specifies the type of a script written using the Lua programming language.

entry

To create or modify an entry in a table or an SDP media profile, use the entry command in the appropriate configuration mode. To destroy the given entry, use the no form of this command.

entry entry-id

no entry entry-id

 
Syntax Description

entry-id

Specifies the table entry.

 
Command Default

No default behavior or values are available.

 
Command Modes

CAC table configuration (config-sbc-sbe-cacpolicy-cactable)

NA routing table configuration (config-sbc-sbe-rtgpolicy-natable)

RTG routing table configuration (config-sbc-sbe-rtgpolicy-rtgtable)

SIP SDP media profile configuration (config-sbc-sbe-sip-sdp-media)

 
Command History

Release
Modification

Cisco IOS XE Release 2.4

This command was introduced on the Cisco ASR 1000 Series Aggregation Services Routers.

Cisco IOS XE Release 2.5

Command usage was expanded to support SDP media profiles for the Customized Option for Late-to-Early Media Interworking.

 
Usage Guidelines

To use this command, you must be in the correct configuration mode. The Examples section shows the hierarchy of modes required to run the command.


NoteYou cannot change the configuration of tables in the context of the active policy set. An entry may not be destroyed if the table is a part of the active policy set. You cannot change the configuration of tables in the context of the active policy set. An entry may not be destroyed if the table is a part of the active policy set.


Examples

The following example shows how to create an entry in the new admission control table, MyCacTable:

Router# configure terminal
Router(config)# sbc mySbc
Router(config-sbc)# sbe
Router(config-sbc-sbe)# cac-policy-set 1
Router(config-sbc-sbe-cacpolicy)# cac-table MyCacTable table-type limit dst-prefix
Router(config-sbc-sbe-cacpolicy)# cac-table MyCacTable
Router(config-sbc-sbe-cacpolicy-cactable)# entry 1
Router(config-sbc-sbe-cacpolicy-cactable-entry)#

 

entry (enum)

To configure the ENUM client entry name and enter the ENUM entry configuration mode, use the entry (enum) command in SBE configuration mode. To remove the ENUM client entry name, use the no form of this command.

entry entry-name

no entry entry-name

 
Syntax Description

entry-name

ENUM client entry name.

 
Command Default

No default behavior or values are available.

 
Command Modes

ENUM configuration (config-sbc-sbe-enum)

 
Command History

Release
Modification

Cisco IOS XE Release 3.1S

This command was introduced on the Cisco ASR 1000 Series Aggregation Services Routers.

 
Usage Guidelines

To use this command, you must be in the correct configuration mode. The Examples section shows the hierarchy of modes required to run the command.

Examples

The following example shows how to configure the ENUM client entry name:

Router# configure terminal
Router(config)# sbc MySBC
Router(config-sbc)# sbe
Router(config-sbc-sbe)# enum 1
Router(config-sbc-sbe-enum)# entry ENUM_1
 

 
Related Commands

Command
Description

activate (enum)

Activates ENUM client.

dial-plan-suffix

Configures the dial plan suffix used for the ENUM query.

div-address

Enters the diverted-by address mode to set the priority of the header or headers from which to derive a diverted-by address (inbound only).

dst-address

Enters the destination address mode to set the priority of the header or headers from which to derive a called party address (inbound only).

entry (enum)

Configures the ENUM client entry name and enter the ENUM entry configuration mode.

enum

Configures the ENUM client ID number and enter the ENUM configuration mode.

header-prio header-name

Configures the priority of a header that is used to derive a source, destination, or diverted-by address.

max-recursive-depth

Configures the maximum number of recursive ENUM look-ups for non-terminal Resource Records (RR).

max-responses

Configures the maximum number of ENUM records returned to the routing module.

req-timeout

Configures the ENUM request timeout period.

src-address

Enters the source address mode to set the priority of the header or headers from which to derive a calling party address (inbound only).

server ipv4

Configures the IPv4 address of a DNS server for ENUM client and optionally associate the DNS server to a VRF.

show sbc sbe call-policy-set

Displays configuration and status information about call policy sets.

show sbc sbe enum

Displays the configuration information about an ENUM client.

show sbc sbe enum entry

Displays the contents of an ENUM client entry.

enum

To configure the ENUM client ID number and enter the ENUM configuration mode, use the enum command in SBE configuration mode. To remove the ENUM client ID number, use the no form of this command.

enum enum-id

no enum enum-id

 
Syntax Description

enum-id

ENUM client ID number. Currently, only the number 1 is allowed.

 
Command Default

No default behavior or values are available.

 
Command Modes

SBE configuration (config-sbc-sbe)

 
Command History

Release
Modification

Cisco IOS XE Release 3.1S

This command was introduced on the Cisco ASR 1000 Series Aggregation Services Routers.

 
Usage Guidelines

To use this command, you must be in the correct configuration mode. The Examples section shows the hierarchy of modes required to run the command.

The ENUM ID number is used by the Routing Policy Service (RPS) to initiate service requests.

At the SBE level, multiple ENUM client entries can be provisioned.

Examples

The following example shows how to configure the ENUM client ID number and enter the ENUM configuration mode:

Router# configure terminal
Router(config)# sbc MySBC
Router(config-sbc)# sbe
Router(config-sbc-sbe)# enum 1
Router(config-sbc-sbe-enum)#
 

 
Related Commands

Command
Description

activate (enum)

Activates ENUM client.

dial-plan-suffix

Configures the dial plan suffix used for the ENUM query.

div-address

Enters the diverted-by address mode to set the priority of the header or headers from which to derive a diverted-by address (inbound only).

dst-address

Enters the destination address mode to set the priority of the header or headers from which to derive a called party address (inbound only).

entry (enum)

Configures the ENUM client entry name and enter the ENUM entry configuration mode.

enum

Configures the ENUM client ID number and enter the ENUM configuration mode.

header-prio header-name

Configures the priority of a header that is used to derive a source, destination, or diverted-by address.

max-recursive-depth

Configures the maximum number of recursive ENUM look-ups for non-terminal Resource Records (RR).

max-responses

Configures the maximum number of ENUM records returned to the routing module.

req-timeout

Configures the ENUM request timeout period.

src-address

Enters the source address mode to set the priority of the header or headers from which to derive a calling party address (inbound only).

server ipv4

Configures the IPv4 address of a DNS server for ENUM client and optionally associate the DNS server to a VRF.

show sbc sbe call-policy-set

Displays configuration and status information about call policy sets.

show sbc sbe enum

Displays the configuration information about an ENUM client.

show sbc sbe enum entry

Displays the contents of an ENUM client entry.

error-profile

To configure an existing error profile as the outbound SIP error profile, use the error-profile outbound command in adjacency SIP configuration mode. To remove an error profile as the SIP error profile, use the no form of this command.

error-profile outbound profile-name

no error-profile outbound profile-name

 
Syntax Description

profile-name

Name of the existing error profile to be used as the inbound or outbound SIP error profile.

 
Command Default

No default behavior or values are available.

 
Command Modes

Adjacency SIP configuration (config-sbc-sbe-adj-sip)

 
Command History

Release
Modification

Cisco IOS XE Release 3.1S

This command was introduced on the Cisco ASR 1000 Series Aggregation Services Routers.

 
Usage Guidelines

To use this command, you must be in the correct configuration mode. The Examples section shows the hierarchy of modes required to run the command.

Examples

The following example shows how to configure an existing error profile as the outbound SIP error profile:

Router# configure terminal
Router(config)# sbc MySBC
Router(config-sbc)# sbe
Router(config-sbc-sbe)# adjacency sip MySIP
Router(config-sbc-sbe-adj-sip) error-profile outbound OUT_Err_profile_1
Router(config-sbc-sbe-adj-sip)

 
Related Commands

Command
Description

error-profile

Configures an existing error profile as the outbound SIP error profile.

sip error-profile

Creates an error profile and enters error profile configuration mode.

cause

Configures the cause of an internal error for an error profile.

show sbc sbe sip error-profile

Displays the configuration information of an error profile.

exit-if-vnet

To exit virtual network interface mode, use the exit-if-vnet command in virtual network interface mode.

exit-if-vnet

 
Syntax Description

This command has no arguments or keywords.

 
Command Modes

Virtual network interface mode (config-if-vnet)

 
Command History

Release
Modification

Cisco IOS XE Release 3.2S

This command was introduced.

 
Usage Guidelines

This command is not saved in a configuration and therefore does not appear in show running-config output.

The exit-if-vnet command is one of the commands that will be displayed in system help if you enter a ? at the Router(config-if-vnet)# prompt. However, the exit command performs the same function as the exit-if-vnet command and is a shorter command to enter.

Examples

The following example shows how to exit virtual network interface mode:

Router(config)# vrf definition red
Router(config-vrf)# vnet tag 100
R1(config-vrf)# description guest access
R1(config-vrf)# address-family ipv4
R1(config-vrf-af)# exit-address-family
R1(config-vrf)# vrf definition blue
R1(config-vrf)# vnet tag 200
R1(config-vrf)# description Finance
R1(config-vrf)# address-family ipv4
R1(config-vrf-af)# exit-address-family
R1(config-vrf)# interface fastethernet 1/1/1
R1(config-if)# ip address 10.1.1.1 255.255.255.0
R1(config-if)# vnet trunk
R1(config-if)# vnet name blue
R1(config-if-vnet)# exit-if-vnet
R1(config-if)#

 
Related Commands

Command
Description

exit

Exits any configuration mode to the next highest mode in the CLI mode hierarchy.

vnet

Configures overrides of an interface’s attributes on a per-VRF basis and enters virtual network interface mode.

exit-route-server-context

To exit a route server context and return to router configuration mode, use the exit-route-server-context command in route server context configuration mode.

exit-route-server-context

 
Syntax Description

This command has no arguments or keywords.

 
Command Modes

Route server context configuration (config-router-rsctx)

 
Command History

Release
Modification

Cisco IOS XE 3.3S

This command was introduced.

 
Usage Guidelines

When you configure a BGP route server with a flexible policy, you create a route server context with an import map, which is when you might use the exit-route-server-context command. The exit-route-server-context command is one of the commands that will be displayed in system help if you enter a ? at the Router(config-router-rsctx)# prompt. However, the exit command performs the same function as the exit-route-server-context command.

Examples

In the following example, a route server context is created and the exit-route-server-context command is used to exit route server context configuration mode:

router bgp 65000
route-server-context ONLY_AS27_CONTEXT
address-family ipv4 unicast
import-map only_AS27_routemap
exit-address-family
exit-route-server-context
!
Router(config)#

 
Related Commands

Command
Description

route-server-context

Creates a route-server context in order to provide flexible policy handling for a BGP route server.

exit-vrf-list

To exit VRF list submode, use the exit-vrf-list command in VRF list submode.

exit-vrf-list

 
Syntax Description

This command has no arguments or keywords.

 
Command Modes

VRF list submode (config-vrf-list)

 
Command History

Release
Modification

Cisco IOS XE Release 3.2S

This command was introduced.

 
Usage Guidelines

This command is not saved in a configuration and therefore does not appear in show running-config output.

The exit-vrf-list command is one of the commands that will be displayed in system help if you enter a ? at the Router(config-vrf-list)# prompt. However, the exit command performs the same function as the exit-vrf-list command and is a shorter command to enter.

Examples

The following example shows how to exit VRF list submode:

Router(config)# vrf list external
Router(config-vrf-list)# member blue
Router(config-vrf-list)# exit-vrf-list
Router(config)#

 
Related Commands

Command
Description

exit

Exits any configuration mode to the next highest mode in the CLI mode hierarchy.

vrf list

Defines a list of VRFs.

expires-header

To configure expires parameter in the SIP contact header, use the expires-header command in adjacency SIP configuration mode. To remove an expires parameter from the header, use the no form of this command.

expires-header options

no expires-header options

 
Syntax Description

options

The options for the expires header parameters are:

  • add-not-present —SBC provides expiry information in the format provided by the endpoint, or as indicated by other configurations.
  • add-smallest —The value of the expires header is set to the value of the smallest expires parameter on any provided contact.
  • add-value —SBC adds an expires header to any REGISTER request sent out on the specified adjacency that does not contain an expiry value.

 
Command Default

No default behavior or values are available.

 
Command Modes

Adjacency SIP configuration (config-sbc-sbe-adj-sip)

 
Command History

Release
Modification

Cisco IOS XE Release 3.2S

This command was introduced on the Cisco ASR 1000 Series Aggregation Services Routers.

 
Usage Guidelines

To use this command, you must be in the correct configuration mode. The Examples section shows the hierarchy of modes required to run the command.

Examples

The following example shows how to configure an expires header parameter on the SIP contact header:

Router# configure terminal
Router(config)# sbc MySBC
Router(config-sbc)# sbe
Router(config-sbc-sbe)# adjacency sip test
Router(config-sbc-sbe-adj-sip) expires-header add-not-present
Router(config-sbc-sbe-adj-sip)
 
 
 

 
Related Commands

Command
Description

softswitch-shield

Configures softswitch shielding support on SIP adjacency.

show sbc sbe adjacencies

Displays all the detailed field output pertaining to a specified Session Initiation Protocol (SIP) adjacency.

fast-register-interval

To configure the fast-path register interval (in seconds), use the fast-register-interval command in adjacency SIP configuration mode. To unconfigure the fast-path register interval, use the no form of this command.

fast-register-interval interval

no fast-register-interval

 
Syntax Description

interval

Specifies the interval value in seconds. Range is 1 to 2000000.

 
Command Default

No default behavior or values are available.

 
Command Modes

Adjacency SIP configuration (config-sbc-sbe-adj-sip)

 
Command History

Release
Modification

Cisco IOS XE Release 2.4

This command was introduced on the Cisco ASR 1000 Series Aggregation Services Routers.

 
Usage Guidelines

To use this command, you must be in the correct configuration mode. The Examples section shows the hierarchy of modes required to run the command.

If fast-path register support is enabled on this adjacency, this is the minimum expiry period accepted on a subscriber registration. The interval at which registrations are forwarded on to the softswitch is governed by the registration minimum expiry value.


NoteThe The interval must be less than the minimum expiry value.


Examples

The following example shows how to enable the fast-register interval on the SIP adjacency SipToIsp42 to 10 seconds:

Router# configure terminal
Router(config)# sbc mySbc
Router(config-sbc)# sbe
Router(config-sbc-sbe)# adjacency sip SipToIsp42
Router(config-sbc-sbe-adj-sip)# fast-register-interval 10

 
Related Commands

Command
Description

fast-register disable

Disables fast-path register support on the SIP adjacency.

fast-register disable

To disable fast-path register support on the SIP adjacency, use the fast-register disable command in adjacency SIP configuration mode. To enable fast-path register support, use the no form of this command.

fast-register disable

no fast-register disable

 
Syntax Description

This command has no arguments or keywords.

 
Command Default

No default behavior or values are available.

 
Command Modes

Adjacency SIP configuration (config-sbc-sbe-adj-sip)

 
Command History

Release
Modification

Cisco IOS XE Release 2.4

This command was introduced on the Cisco ASR 1000 Series Aggregation Services Routers.

 
Usage Guidelines

To use this command, you must be in the correct configuration mode. The Examples section shows the hierarchy of modes required to run the command.

Fast-path register is used to prevent the SBC from forwarding all SIP register messages to the softswitch, thus reducing the load on the softswitch. This is enabled by default and can be disabled using this command. When active, a SIP register message received from the same host and port as an existing registration, and with a nonzero expires interval, is immediately responded to without further parsing or other processing performed.

Examples

The following example shows how to disable fast-path register support on the SIP adjacency SipToIsp42:

Router# configure terminal
Router(config)# sbc mySbc
Router(config-sbc)# sbe
Router(config-sbc-sbe)# adjacency sip SipToIsp42
Router(config-sbc-sbe-adj-sip)# fast-register disable

 
Related Commands

Command
Description

fast-register-interval

Configures the fast-path register interval.

filename (session border controller)

To specify the path and name of the script file written using the Lua programming language, use the filename command in the SBE script-set script configuration mode.

filename { device-type:file-path-and-name }

 
Syntax Description

device-type

One of the following or any other storage device installed on the router:

  • bootflash:
  • flash:
  • fpd:
  • nvram:
  • obfl:

The list of file system devices is dynamically generated and displayed. Other devices, such as a hard disk, that are available on the platform can also be used in this command.

file-path-and-name

Full path and name of the script file on the specified storage device.

 
Command Default

No default behavior or values are available.

 
Command Modes

SBE script-set script configuration (config-sbc-sbe-scrpset-script)

 
Command History

Release
Modification

Cisco IOS XE Release 3.4S

This command was introduced on the Cisco ASR 1000 Series Aggregation Services Routers.

 
Usage Guidelines

To use this command, you must be in the correct configuration mode. The Examples section shows the hierarchy of the modes required to run this command.

Examples

In the following example, the filename command specifies that the script file is mySBCScript.lua and is located on the bootflash device:

Router# configure terminal
Router(config)# sbc mySbc
Router(config-sbc)# sbe
Router(config-sbc-sbe)# script-set 10 lua
Router(config-sbc-sbe-script-set)# script mySBCScript
Router(config-sbc-sbe-scrpset-script)# load-order 2
Router(config-sbc-sbe-scrpset-script)# type wrapped edit-point both
Router(config-sbc-sbe-scrpset-script)# filename bootflash:mySBCScript.lua
 

 
Related Commands

Command
Description

active-script-set

Activates a script set,

clear sbc sbe script-set-stats

Clears the stored statistics related to a script set.

complete

Completes a CAC policy set, call policy set, or script set after committing the full set.

editor

Specifies the order in which a particular editor must be applied.

editor-list

Specifies the stage at which the editors must be applied.

editor type

Configures an editor type to be applied on a SIP adjacency.

load-order

Specifies the load order of a script in a script set.

script

Configures a script written using the Lua programming language.

show sbc sbe editors

Displays a list of all the editors registered on the SBC.

show sbc sbe script-set

Displays a summary of the details pertaining to all the configured script sets or the details of a specified script set.

script-set lua

Configures a script set composed of scripts written using the Lua programming language.

sip header-editor

Configures a header editor.

sip method-editor

Configures a method editor.

sip option-editor

Configures an option editor.

sip parameter-editor

Configures a parameter editor.

test sbc message sip filename script-set editors

Tests the message editing functionality of the SBC.

test script-set

Tests the working of a script set.

type

Specifies the type of a script written using the Lua programming language.

first-cac-scope

To configure the scope at which to begin defining limits when performing the admission control stage of policy, use the first-cac-scope command in CAC-policy-set configuration mode. Use the no form of this command to delete the routing table.

first-cac-scope scope-name

no first-cac-scope

 
Syntax Description

scope-name

Specifies the scope at which limits should be initially defined when performing the admission control stage of policy. Possible values are:

  • adj-group—Limits for events from members of the same adjacency group.
  • call—Limits are per single call.
  • category—Limits per category.
  • dst-account—Limits for events sent to the same account.
  • dst-adj-group—Limits for events sent to the same adjacency group.
  • dst-adjacency—Limits for events sent to the same adjacency.
  • dst-number—Limits for events that have the same adjacency number.
  • global—Limits are global (May not be combined with any other option).
  • src-account—Limits for events from the same account.
  • src-adj-group—Limits for events from the same adjacency group.
  • arc-adjacency—Limits for events from the same adjacency.
  • src-number—Limits for events that have the same source number.
  • sub-category-pfx prefix-len—The limits specified at this scope apply to all events sent to or received from members of the same subscriber category prefix.

Note The prefix-len is included as part of the first-cac-scope command. For example, the command would be: first-cac-scope sub-category-pfx prefix-len.

 
Command Default

No default behavior or values are available.

 
Command Modes

CAC-policy-set configuration (config-sbc-sbe-cacpolicy)

 
Command History

Release
Modification

Cisco IOS XE Release 2.4

This command was introduced on the Cisco ASR 1000 Series Aggregation Services Routers.

Cisco IOS XE Release 2.5

The sub-category-pfx prefix-len scope was added.

 
Usage Guidelines

To use this command, you must be in the correct configuration mode. The Examples section shows the hierarchy of modes required to run the command.

Examples

The following example shows how to set the scope category as the first scope at which to define an admission control policy in configuration set 1 on mySbc:

Router# configure terminal
Router(config)# sbc mySbc
Router(config-sbc)# sbe
Router(config-sbc-sbe)# cac-policy-set 1
Router(config-sbc-sbe-cacpolicy)# first-cac-scope src-adjacency

 

first-cac-table

To configure the name of the first policy table to process when performing the admission control stage of policy, use the first-cac-table command in CAC-policy-set configuration mode. To remove this configuration, use the no form of this command.

first-cac-table table-name

no first-cac-table

 
Syntax Description

table-name

Specifies the admission control table that should be processed first.

 
Command Default

No default behavior or values are available.

 
Command Modes

CAC-policy-set configuration (config-sbc-sbe-cacpolicy)

 
Command History

Release
Modification

Cisco IOS XE Release 2.4

This command was introduced on the Cisco ASR 1000 Series Aggregation Services Routers.

 
Usage Guidelines

To use this command, you must be in the correct configuration mode. The Examples section shows the hierarchy of modes required to run the command.

Examples

The following example shows how to set the table RootCacTable as the first admission control table in configuration set 1 on mySbc:

Router# configure terminal
Router(config)# sbc mySbc
Router(config-sbc)# sbe
Router(config-sbc-sbe)# cac-policy-set 1
Router(config-sbc-sbe-cacpolicy)# first-cac-table RootCacTable

 

first-call-routing-table

To configure the name of the first policy table to process when performing the routing stage of policy for new-call events, use the first-call-routing-table command in routing policy table mode. To unconfigure the name of the first policy table, use the no form of this command.

first-call-routing-table table-name

no first-call-routing-table

 
Syntax Description

table-name

Specifies the routing table that should be processed first.

 
Command Default

No default behavior or values are available.

 
Command Modes

Routing policy table (config-sbc-sbe-rtgpolicy)

 
Command History

Release
Modification

Cisco IOS XE Release 2.4

This command was introduced on the Cisco ASR 1000 Series Aggregation Services Routers.

 
Usage Guidelines

To use this command, you must be in the correct configuration mode. The Examples section shows the hierarchy of modes required to run the command.

Examples

The following example shows how to configure the table RootCallRtgTable as the first routing table for new-call events in configuration set 1 on mySbc:

Router# configure terminal
Router(config)# sbc mySbc
Router(config-sbc)# sbe
Router(config-sbc-sbe)# call-policy-set 1
Router(config-sbc-sbe-rtgpolicy)# first-call-routing-table RootCallRtgTable

 

first-inbound-na-table

To configure the name of the first inbound policy table to be processed when performing the number analysis stage of a policy, use the first-inbound-na-table command in the Routing policy table configuration mode. To unconfigure the name of the first inbound policy table, use the no form of this command.

first-inbound-na-table table-name

no first-inbound-na-table

 
Syntax Description

table-name

The number analysis table that should be processed first.

 
Command Default

No default behavior or values are available.

 
Command Modes

Routing policy table (config-sbc-sbe-rtgpolicy)

 
Command History

Release
Modification

Cisco IOS XE Release 2.4

This command was introduced on the Cisco ASR 1000 Series Aggregation Services Routers.

Cisco IOS XE Release 3.2S

This command was modified. This first-number-analysis-table command was renamed as the first-inbound-na-table command.

 
Usage Guidelines

To use this command, you must be in the correct configuration mode. The Examples section shows the hierarchy of the modes required to run the command.

Examples

The following example shows how to configure the table RootNaTable as the first inbound number analysis table in configuration set 1 on mySbc:

Router# configure terminal
Router(config)# sbc mySbc
Router(config-sbc)# sbe
Router(config-sbc-sbe)# call-policy-set 1
Router(config-sbc-sbe-rtgpolicy)# first-inbound-na-table RootNaTable

 
Related Commands

Command
Description

call-policy-set

Creates a new policy set on the Session Border Controller (SBC).

call-policy set default

Configures a default policy set on the signaling border element (SBE) entity.

first-outbound-na-table

Configures the name of the first outbound policy table to be processed when performing the number analysis stage of a policy.

show sbc sbe call-policy-set

Lists the details of the policy sets configured on the SBC.

show sbc sbe call-policy-set default

Lists the summary of the default policy set configured on the SBC.

 

 

first-outbound-na-table

To configure the name of the first outbound policy table to be processed when performing the number analysis stage of a policy, use the first-outbound-na-table command in the Routing policy table configuration mode. To deconfigure the name of the first outbound policy table, use the no form of this command.

first-outbound-na-table table-name

no first-outbound-na-table

 
Syntax Description

table-name

The number analysis table that should be processed first.

 
Command Default

No default behavior or values are available.

 
Command Modes

Routing policy table (config-sbc-sbe-rtgpolicy)

 
Command History

Release
Modification

Cisco IOS XE Release 3.2S

This command was introduced on the Cisco ASR 1000 Series Aggregation Services Routers.

 
Usage Guidelines

To use this command, you must be in the correct configuration mode. The Examples section shows the hierarchy of the modes required to run the command.

Examples

The following example shows how to configure the table RootOutTable as the first outbound number analysis table in configuration set 1 on mySbc:

Router# configure terminal
Router(config)# sbc mySbc
Router(config-sbc)# sbe
Router(config-sbc-sbe)# call-policy-set 1
Router(config-sbc-sbe-rtgpolicy)# first-outbound-na-table RootOutTable

 
Related Commands

Command
Description

call-policy-set

Creates a new policy set on the Session Border Controller (SBC).

call-policy set default

Configures a default policy set on the signaling border element (SBE) entity.

first-inbound-na-table

Configures the name of the first inbound policy table to be processed when performing the number analysis stage of a policy.

show sbc sbe call-policy-set

Lists the details of the policy sets configured on the SBC.

show sbc sbe call-policy-set default

Lists the summary of the default policy set configured on the SBC.

first-reg-routing-table

To configure the name of the first policy table to process when performing the routing stage of policy for subscriber-registration events, use the first-reg-routing-table command in routing policy table configuration mode. To deconfigure the name of the first policy table, use the no form of this command.

first-reg-routing-table table-name

no fi rst-reg-routing-table

 
Syntax Description

table-name

Specifies the routing table that should be processed first.

 
Command Default

No default behavior or values are available.

 
Command Modes

Routing policy table (config-sbc-sbe-rtgpolicy)

 
Command History

Release
Modification

Cisco IOS XE Release 2.4

This command was introduced on the Cisco ASR 1000 Series Aggregation Services Routers.

 
Usage Guidelines

To use this command, you must be in the correct configuration mode. The Examples section shows the hierarchy of modes required to run the command.

Examples

The following example shows how to configure the table RootRegRtgTable as the first routing table for subscriber-registration events in configuration set 1 on mySbc:

Router# configure terminal
Router(config)# sbc mySbc
Router(config-sbc)# sbe
Router(config-sbc-sbe)# call-policy-set 1
Router(config-sbc-sbe-rtgpolicy)# first-reg-routing-table RootRegRtgTable

 

flipped-interval (XML Billing)

To configure the maximum interval at which to flip a billing XML file, use the flipped-interval command in the SBE billing XML configuration mode. To reset the flip interval to its default value of 3 minutes, use the no form of this command.

flipped-interval seconds

no flipped-interval

 
Syntax Description

seconds

Time after which the CDRs being stored in the existing XML file is stopped and flipped to a new XML billing file. The interval at which to switch from one XML file to another XML file can be specified in seconds ranging from 60 to 86400. The default interval is 180 seconds.

 
Command Default

By default, the flip interval is 3 minutes (180 seconds).

 
Command Modes

SBE billing XML configuration (config-sbc-sbe-billing-xml)

 
Command History

Release
Modification

3.2S

This command was introduced on the Cisco ASR 1000 Series Routers.

 
Usage Guidelines

The XML billing files are stored under the CDR path configured by the administrator. An XML billing file is generated for CDRs at regular intervals and not exceeding the defined flip size. To switch the XML billing file from one XML file to another, use the flipped-interval seconds command from the SBE billing xml configuration mode. The default interval to flip an XML billing file is 3 minutes.

Examples

The following example shows how to set the flip interval to 5 minutes (300 seconds):

Router(config)# sbc sbcbilling
Router(config-sbc)# sce
Router(config-sbc-sce)# billing
Router(config-sbc-sce-billing)# xml method
Router(config-sbc-sce-billing)# xml 1
Router(config-sbc-sce-billing-xml)# flipped-interval 300

 
Related Commands

Command
Description

xml (billing)

Configures the method index for XML billing.

method xml

Configures the billing method as XML for the Billing Manager.

ldr-check

Configures the time at which long duration records are checked.

flipped-size (XML Billing)

To configure the maximum file-size, that if exceeds, leads to the flipping of the billing XML file, use the flipped-size command in the SBE billing XML configuration mode. To reset the flip-size to its default value of 10 MB, use the no form of this command.

flipped-size size

no flipped-size

 
Syntax Description

size

The file size, which, if exceeds, leads to the CDRs stored in the existing XML file being stopped and flipped to a new XML billing file. The flip size can be specified in Kilo Bytes (KB) ranging from 5120 to 512000. The default file size is 10 MB or 10240 KB.

 
Command Default

By default, the maximum size of billing file after which the billing file is flipped to a new file, is 10 MB.

 
Command Modes

SBE billing XML configuration (config-sbc-sbe-billing-xml)

 
Command History

Release
Modification

3.2S

This command was introduced on the Cisco ASR 1000 Series Routers.

 
Usage Guidelines

The XML billing files are stored in the CDR path configured by the administrator. An XML billing file is generated for the CDR at regular intervals not exceeding the defined flip-size. To switch the XML billing file from one XML file to another after the flip size is exceeded, execute the flipped-size size command from the SBE billing XML configuration mode. The default file size to flip an XML billing file is 10 MB.

Examples

The following example shows how to set the flip size to 512000:

Router(config)# sbc sbcbilling
Router(config-sbc)# sce
Router(config-sbc-sce)# billing
Router(config-sbc-sce-billing)# xml method
Router(config-sbc-sce-billing)# xml 1
Router(config-sbc-sce-billing-xml)# flipped-size 512000

 
Related Commands

Command
Description

xml (billing)

Configures the method index for XML billing.

method xml

Configures the billing method as XML for the Billing Manager.

ldr-check

Configures the time at which long duration records are checked.

fmtp (codec variant)

To define the format-specific parameters for a variant, use the fmtp command in the Codec variant configuration mode. To remove the defined format-specific parameters, use the no form of this command.

fmtp fmtp-string

no fmtp

 
Syntax Description

fmtp-string

The format-specific parameter string in the name=value format.

 
Command Default

No default behavior or values are available.

 
Command Modes

Codec variant configuration (config-sbc-sbe-codec-var-codec)

 
Command History

Release
Modification

Cisco IOS XE Release 3.2S

This command was introduced on the Cisco ASR 1000 Series Aggregation Services Routers.

 
Usage Guidelines

To use this command, you must be in the correct configuration mode. The Examples section that follows shows the hierarchy of the modes required to run the command.

To view the default format-specific parameters values associated with variants, use the show sbc sbe codecs variant command.

Examples

The following example shows how to define the format-specific parameters for a variant in the Codec variant configuration mode:

Router# configure terminal
Router(config)# sbc mysbc
Router(config-sbc)# sbe
Router(config-sbc-sbe)# codec variant codec G723-H-1
Router(config-sbc-sbe-codec-var-codec)# fmtp bitrate=6.3

 

fmtp (session border controller)

To configure the default value of the format-specific parameters for Session Description Protocol (SDP), use the fmtp command in the Codec system configuration mode.To remove the default value of the format-specific parameters, use the no form of this command.

fmtp fmtp-string

no fmtp

 
Syntax Description

fmtp-string

The format-specific parameter string for SDP, in the name=value format.

 
Command Default

No default behavior or values are available.

 
Command Modes

Codec system configuration (config-sbc-sbe-codec-def)

 
Command History

Release
Modification

Cisco IOS XE Release 3.2S

This command was introduced on the Cisco ASR 1000 Series Aggregation Services Routers.

 
Usage Guidelines

When a codec is converted from a standard to a variant representation, the default format-specific parameters, if any, are stripped out of the resulting SDP. However, when the format-specific parameters under codec variant in a codec variant contains parameters that match the default format-specific parameters for the variant's standard codec, those parameters are deemed matched in SDP if either one of the following is true:

  • The exact '< name >=< value >' parameter has been received.
  • No parameters that start with '< name >=' have been received.

To view the default format-specific parameters values associated with standard codecs, use the show sbc sbe codecs command.

To use this command, you must be in the correct configuration mode. The Examples section that follows shows the hierarchy of the modes required to run the command.

Examples

The following example shows how to configure the default value of the format-specific parameters for SDP using the fmtp command in the Codec system configuration mode:

Router# configure terminal
Enter configuration commands, one per line. End with CNTL/Z.
Router(config)# sbc mySBC
Router(config-sbc)# sbe
Router(config-sbc-sbe)# codec system G723 id 4
Router(config-sbc-sbe-codec-def)# fmtp annexa=yes
 

 

force-signaling-peer

To force the Session Initiation Protocol (SIP) messages for either only out-of-dialog requests (that is, dialog-creating requests) or both in-dialog and out-of-dialog requests to go to a configured signaling peer, use the force-signaling-peer command in adjacency SIP configuration mode. To disable this feature, use the no form of this command.

force-signaling-peer [ all ]

no force-signaling-peer [ all ]

 
Syntax Description

all

Forces the hop to a configured signaling peer for both in-dialog requests and out-of-dialog requests.

 
Command Default

No default behavior or values are available.

 
Command Modes

Adjacency SIP configuration (config-sbc-sbe-adj-sip)

 
Command History

Release
Modification

Cisco IOS XE Release 2.4

This command was introduced on the Cisco ASR 1000 Series Aggregation Services Routers.

Cisco IOS XE Release 3.1S

The all keyword was added.

 
Usage Guidelines

While configuring redundant peer addresses, you must include the all keyword in the command. This is to force SIP messages for both in-call requests and out-of-call requests to go to the configured signaling peer.

To use this command, you must be in the correct configuration mode. The Examples section shows the hierarchy of modes required to run the command.

Examples

The following example shows how to force SIP messages to go to a configured signaling peer in the context of both in-dialog and out-of-dialog requests:

Router# configure terminal
Router(config)# sbc mySbc
Router(config-sbc)# sbe
Router(config-sbc-sbe)# adjacency sip SipToIsp42
Router(config-sbc-sbe-adj-sip)# force-signaling-peer all
Router(config-sbc-sbe-adj-sip)# exit
 

 
Related Commands

redundant peer

Configures an alternative signaling peer for an adjacency.

signaling-peer-priority

Configures the priority of a signaling peer on a SIP adjacency.

signaling-peer-switch

Configures a SIP adjacency to switch the signaling peer to an available destination.

g107a-factor

To set the Advantage (A) factor, use the g107a-factor command in the adjacency H.323 configuration mode or adjacency SIP configuration mode. The Advantage factor is one of the parameters used in the calculation of the MOS-CQE score. To remove the Advantage factor setting, use the no form of this command.

g107a-factor factor-number

no g107a-factor

 
Syntax Description

factor-number

Value of the Advantage factor. The range is from 0 to 20.

 
Command Default

By default, the value of factor-number is 0 .

 
Command Modes

Adjacency H.323 configuration (config-sbc-sbe-adj-h323)

Adjacency SIP configuration (config-sbc-sbe-adj-sip)

 
Command History

Release
Modification

Cisco IOS XE Release 3.4S

This command was introduced on the Cisco ASR 1000 Series Aggregation Services Routers.

 
Usage Guidelines

To use this command, you must be in the correct configuration mode. The Examples section shows the hierarchy of the modes required to run this command.

Examples

The following example shows how to configure the Advantage factor by using the g107a-factor command in the adjacency H.323 configuration mode:

Router# configure terminal
Router(config)# sbc mySbc
Router(config-sbc)# sbe
Router(config-sbc-sbe)# adjacency h323 adj1
Router(config-sbc-sbe-adj-h323)# g107a-factor 10

 
Related Commands

Command
Description

calc-moscqe

Specifies the percentage of calls that must be used to calculate the MOS-CQE score.

current15minutes

Specifies that QoS statistics must be calculated for 15-minute intervals.

current5minutes

Specifies that QoS statistics must be calculated for 5-minute intervals.

currentday

Specifies that statistics must be calculated for 24-hour intervals.

currenthour

Specifies that QoS statistics must be calculated for 60-minute intervals.

currentindefinite

Specifies that statistics must be calculated indefinitely, starting from the last explicit reset.

g107 bpl

Sets a value for the Packet-Loss Robustness (Bpl) factor.

g107 ie

Sets a value for the Equipment Impairment (Ie) factor.

local-jitter-ratio

Specifies the percentage of calls that must be used to calculate the local jitter ratio.

show sbc sbe adjacencies

Displays details of the adjacencies configured on the SBE.

show sbc sbe call-stats

Displays the statistics pertaining to all the calls on a the SBE.

snmp-server enable traps sbc

Enables SBC notification types.

statistics

Specifies the QoS statistic for which alert levels must be set.

g107 bpl

To set the Packet-Loss Robustness (Bpl) factor, use the g107 bpl command in the codec definition mode. The Packet-Loss Robustness factor is one of the parameters used in the calculation of the MOS-CQE score. To remove the Packet-Loss Robustness factor setting, use the no form of this command.

g107 bpl factor-number

no g107 bpl

 
Syntax Description

factor-number

Value of the Packet-Loss Robustness factor. The range is from 1 to 40.

 
Command Default

By default, the value of factor-number is 1 .

 
Command Modes

Codec definition mode (config-sbc-sbe-codec-def)

 
Command History

Release
Modification

Cisco IOS XE Release 3.4S

This command was introduced on the Cisco ASR 1000 Series Aggregation Services Routers.

 
Usage Guidelines

To use this command, you must be in the correct configuration mode. The Examples section shows the hierarchy of the modes required to run this command.

Examples

The following example shows how to configure the Packet-Loss Robustness factor by using the g107 bpl command in the adjacency H.323 configuration mode:

Router# configure terminal
Router(config)# sbc mySbc
Router(config-sbc)# sbe
Router(config-sbc-sbe)# codec system PCMU id 0
Router(config-sbc-sbe-codec-def)# g107 bpl 30
 

 
Related Commands

Command
Description

calc-moscqe

Specifies the percentage of calls that must be used to calculate the MOS-CQE score.

current15minutes

Specifies that QoS statistics must be calculated for 15-minute intervals.

current5minutes

Specifies that QoS statistics must be calculated for 5-minute intervals.

currentday

Specifies that statistics must be calculated for 24-hour intervals.

currenthour

Specifies that QoS statistics must be calculated for 60-minute intervals.

currentindefinite

Specifies that statistics must be calculated indefinitely, starting from the last explicit reset.

g107 ie

Sets a value for the Equipment Impairment (Ie) factor.

g107a-factor

Sets a value for the Advantage (A) factor.

local-jitter-ratio

Specifies the percentage of calls that must be used to calculate the local jitter ratio.

show sbc sbe adjacencies

Displays details of the adjacencies configured on the SBE.

show sbc sbe call-stats

Displays the statistics pertaining to all the calls on a the SBE.

snmp-server enable traps sbc

Enables SBC notification types.

statistics

Specifies the QoS statistic for which alert levels must be set.

g107 ie

To set the Equipment Impairment (Ie) factor, use the g107 ie command in the codec definition mode. The Equipment Impairment factor is one of the parameters used in the calculation of the MOS-CQE score. To remove the Equipment Impairment factor setting, use the no form of this command.

g107 ie factor-number

no g107 ie

 
Syntax Description

factor-number

Value of the Equipment Impairment factor. The range is from 0 to 50.

 
Command Default

By default, the value of factor-number is 0 .

 
Command Modes

Codec definition mode (config-sbc-sbe-codec-def)

 
Command History

Release
Modification

Cisco IOS XE Release 3.4S

This command was introduced on the Cisco ASR 1000 Series Aggregation Services Routers.

 
Usage Guidelines

To use this command, you must be in the correct configuration mode. The Examples section shows the hierarchy of the modes required to run this command.

Examples

The following example shows how to configure the Equipment Impairment factor by using the g107 ie command in the adjacency H.323 configuration mode:

Router# configure terminal
Router(config)# sbc mySbc
Router(config-sbc)# sbe
Router(config-sbc-sbe)# codec system PCMU id 0
Router(config-sbc-sbe-codec-def)# g107 ie 20
 

 
Related Commands

Command
Description

calc-moscqe

Specifies the percentage of calls that must be used to calculate the MOS-CQE score.

current15minutes

Specifies that QoS statistics must be calculated for 15-minute intervals.

current5minutes

Specifies that QoS statistics must be calculated for 5-minute intervals.

currentday

Specifies that statistics must be calculated for 24-hour intervals.

currenthour

Specifies that QoS statistics must be calculated for 60-minute intervals.

currentindefinite

Specifies that statistics must be calculated indefinitely, starting from the last explicit reset.

g107 bpl

Sets a value for the Packet-Loss Robustness (Bpl) factor.

g107a-factor

Sets a value for the Advantage (A) factor.

local-jitter-ratio

Specifies the percentage of calls that must be used to calculate the local jitter ratio.

show sbc sbe adjacencies

Displays details of the adjacencies configured on the SBE.

show sbc sbe call-stats

Displays the statistics pertaining to all the calls on a the SBE.

snmp-server enable traps sbc

Enables SBC notification types.

statistics

Specifies the QoS statistic for which alert levels must be set.

generic-stream callee

To configure the generic media stream list settings for a callee, use the generic-stream callee command in the CAC table entry configuration mode. To deconfigure the generic media stream list settings, use the no form of this command.

generic-stream callee generic-stream-list

no generic-stream callee

 
Syntax Description

generic-stream-list

The name of the generic stream list. This generic stream list should be defined during the configuration of the stream list.

 
Command Default

No default behavior or values are available.

 
Command Modes

CAC table entry configuration (config-sbc-sbe-cacpolicy-cactable-entry)

 
Command History

Release
Modification

Cisco IOS XE Release 3.3S

This command was introduced on the Cisco ASR 1000 Series Aggregation Services Routers.

 
Usage Guidelines

To use this command, you must be in the correct configuration mode. The Examples section that follows shows the hierarchy of the modes required to run the command.

Examples

The following example shows how to configure the generic media stream list settings for a callee using the generic-stream callee command in the CAC table entry mode:

Router# configure terminal
Enter configuration commands, one per line. End with CNTL/Z.
Router(config)# sbc mySBC
Router(config-sbc)# sbe
Router(config-sbc-sbe)# stream-list my-stream
Router(config-sbc-sbe-stream-list)# exit
Router(config-sbc-sbe)# cac-policy-set 2
Router(config-sbc-sbe-cacpolicy)# cac-table 2
Router(config-sbc-sbe-cacpolicy-cactable)# table-type limit src-adjacency
Router(config-sbc-sbe-cacpolicy-cactable)# entry 1
Router(config-sbc-sbe-cacpolicy-cactable-entry)# generic-stream callee my-stream

 

generic-stream caller

To configure the generic media stream list settings for a caller, use the generic-stream caller command in the CAC table entry configuration mode. To deconfigure the generic media stream list settings, use the no form of this command.

generic-stream caller generic-stream-list

no generic-stream caller

 
Syntax Description

generic-stream-list

The name of the generic stream list. This generic stream list should be defined during the configuration of the stream list.

 
Command Default

No default behavior or values are available.

 
Command Modes

CAC table entry configuration (config-sbc-sbe-cacpolicy-cactable-entry)

 
Command History

Release
Modification

Cisco IOS XE Release 3.3S

This command was introduced on the Cisco ASR 1000 Series Aggregation Services Routers.

 
Usage Guidelines

To use this command, you must be in the correct configuration mode. The Examples section that follows shows the hierarchy of the modes required to run the command.

Examples

The following example shows how to configure the generic media stream list settings for a caller using the generic-stream caller command in the CAC table entry mode:

Router# configure terminal
Enter configuration commands, one per line. End with CNTL/Z.
Router(config)# sbc mySBC
Router(config-sbc)# sbe
Router(config-sbc-sbe)# stream-list my-stream
Router(config-sbc-sbe-stream-list)# exit
Router(config-sbc-sbe)# cac-policy-set 2
Router(config-sbc-sbe-cacpolicy)# cac-table 2
Router(config-sbc-sbe-cacpolicy-cactable)# table-type limit src-adjacency
Router(config-sbc-sbe-cacpolicy-cactable)# entry 1
Router(config-sbc-sbe-cacpolicy-cactable-entry)# generic-stream caller my-stream

 

generic-stream media-type

To configure the media type for a generic stream, use the generic-stream media-type command in the Stream list configuration mode. To deconfigure the media type for a generic stream, use the no form of this command.

generic-stream media-type { application | message } transport udp protocol protocol-name

no generic-stream media-type { application | message } transport udp protocol protocol-name

 
Syntax Description

application

Specifies application as media type for the generic stream.

message

Specifies message as media type for the generic stream.

transport

Configures the transport protocol for the generic stream.

udp

Specifies the UDP protocol for the generic stream.

protocol

Specifies the protocol name for the generic stream.

protocol-name

The protocol name for the generic stream. The protocol name is case sensitive.

 
Command Default

No default behavior or values are available.

 
Command Modes

Stream list configuration (config-sbc-sbe-stream-list)

 
Command History

Release
Modification

Cisco IOS XE Release 3.3S

This command was introduced on the Cisco ASR 1000 Series Aggregation Services Routers.

 
Usage Guidelines

To use this command, you must be in the correct configuration mode. The Examples section shows the hierarchy of the modes required to run the command.

Examples

The following example shows how to configure application as the media type for the generic stream using the generic-stream media-type command in the Stream list configuration mode:

Router# configure terminal
Router(config)# sbc mysbc
Router(config-sbc)# sbe
Router(config-sbc-sbe)# stream-list my-stream
Router(config-sbc-sbe-stream-list)# generic-stream media-type application transport udp protocol BFCP

 
Related Commands

Command
Description

show sbc sbe stream-list

Displays the stream lists that are present on the SBE.

stream-list

Configures a stream list.

generic-stream branch

To configure the generic media stream list settings for a caller or a callee, use the generic-stream branch command in the CAC table entry configuration mode. To unconfigure the generic media stream list settings, use the no form of this command.

generic-stream branch generic-stream-list

no generic-stream branch

 
Syntax Description

generic-stream-list

Name of the generic stream list. This list must be defined during the configuration of the stream list.

The generic-stream-list can have a maximum of 30 characters which can include the underscore character (_) and alphanumeric characters.

Note Except for the underscore character, do not use any special character to specify field names.

 
Command Default

No default behavior or values are available.

 
Command Modes

CAC table entry configuration (config-sbc-sbe-cacpolicy-cactable-entry)

 
Command History

Release
Modification

Cisco IOS XE Release 3.5S

This command was introduced on the Cisco ASR 1000 Series Aggregation Services Routers.

 
Usage Guidelines

To use this command, you must be in the correct configuration mode. The Examples section shows the hierarchy of the modes required to run the command.

Examples

The following example shows how to configure the generic media stream list settings by using the generic-stream branch command:

Router# configure terminal
Enter configuration commands, one per line. End with CNTL/Z.
Router(config)# sbc mySBC
Router(config-sbc)# sbe
Router(config-sbc-sbe)# stream-list my-stream
Router(config-sbc-sbe-stream-list)# exit
Router(config-sbc-sbe)# cac-policy-set 2
Router(config-sbc-sbe-cacpolicy)# cac-table 2
Router(config-sbc-sbe-cacpolicy-cactable)# table-type limit src-adjacency
Router(config-sbc-sbe-cacpolicy-cactable)# entry 1
Router(config-sbc-sbe-cacpolicy-cactable-entry)# generic-stream branch my-stream

 
Related Commands

Command
Description

generic-stream callee

Configures the generic media stream list settings for a callee.

generic-stream caller

Configures the generic media stream list settings for a caller.

global

To enter the mode for configuring blacklisting to apply to all addresses, use the global command in the SBE blacklist configuration mode.

global

 
Syntax Description

This command has no arguments or keywords.

 
Command Default

No default behavior or values are available.

 
Command Modes

SBE blacklist configuration (config-sbc-sbe-blacklist)

 
Command History

Release
Modification

Cisco IOS XE Release 2.4

This command was introduced on the Cisco ASR 1000 Series Aggregation Services Routers.

 
Usage Guidelines

To use this command, you must be in the correct configuration mode. The Examples section shows the hierarchy of modes required to run the command.

Examples

The following example shows how to enter the mode for configuring blacklisting to apply to all addresses:

Router# configure terminal
Router(config)# sbc mySbc
Router(config-sbc)# sbe
Router(config-sbc-sbe)# blacklist
Router(config-sbc-sbe-blacklist)# global
Router(config-sbc-sbe-blacklist-global)#

 
Related Commands

Command
Description

blacklist

Enters the mode for configuring the default event limits for the source addresses in a given VPN.

ipv4 (blacklist)

Enters the mode for applying blacklisting options to a single IP address.

reason

Enters a mode for configuring a limit to a specific event type on the source.

timeout

Defines the length of time that packets from the source are blocked, should the limit be exceeded.

trigger-period

Defines the period over which events are considered.

trigger-size

Defines the number of the specified events from the specified source that are allowed before the blacklisting is triggered, and blocks all packets from the source.

group (session border controller)

To configure an adjacency to an adjacency group, use the group command in the appropriate adjacency mode. To remove the adjacency from the specified group, use the no form of this command.

group word

no group word

 
Syntax Description

word

Indicates the group name for the adjacency. The maximum size is 32 characters.

 
Command Default

No default behavior or values are available.

 
Command Modes

Adjacency H.323 configuration (config-sbc-sbe-adj-h323)

Adjacency SIP configuration (config-sbc-sbe-adj-sip)

 
Command History

Release
Modification

Cisco IOS XE Release 2.4

This command was introduced on the Cisco ASR 1000 Series Aggregation Services Routers.

 
Usage Guidelines

To use this command, you must be in the correct configuration mode. The Examples section shows the hierarchy of modes required to run the command.

Examples

The following example shows how the group command assigns a SIP adjacency named sipGW to adjacency group named InternetEth0:

Router# configure terminal
Router(config)# sbc mySbc
Router(config-sbc)# sbe
Router(config-sbc-sbe)# adjacency sip sipGW
Router(config-sbc-sbe-adj-sip)# group InternetEth0
 

The following example shows how the group command assigns an H.323 adjacency named H323ToIsp42 to an adjacency group named Isp42.

Router# configure terminal
Router(config)# sbc mySbc
Router(config-sbc)# sbe
Router(config-sbc-sbe)# adjacency h323 H323ToIsp42
Router(config-sbc-sbe-adj-h323)# group Isp42