Table Of Contents
show voice translation-profile
show voice translation-rule
show voice trunk-conditioning signaling
show voice trunk-conditioning supervisory
show voip debug version
show voip rtp connections
show vrm active_calls
show vrm vdevices
show vsp
show xcsp port
show xcsp slot
shut
shutdown (Annex G neighbor)
shutdown (Annex G)
shutdown (dial peer)
shutdown (DSP Farm profile)
shutdown (gatekeeper)
shutdown (gateway)
shutdown (mediacard)
shutdown (auto-config application)
shutdown (RLM)
shutdown (settlement)
shutdown (voice-port)
show voice translation-profile
To display one or more translation profiles, use the show voice translation-profile command in privileged EXEC mode.
show voice translation-profile [name | sort [ascending | descending]]
Syntax Description
name
|
Name of the translation profile to display.
|
sort [ascending | descending]
|
Display order of the translation profiles by name.
|
Command Default
Ascending order
Command Modes
Privileged EXEC
Command History
Release
|
Modification
|
12.2(11)T
|
This command was introduced.
|
Examples
The following sample output displays all the voice translation profiles in ascending order:
Router# show voice translation-profile sort ascending
Rule for Called number: 1
Rule for Redirect number:
Rule for Calling number:1
Rule for Called number: 2
Rule for Redirect number:
Rule for Calling number:1
Rule for Called number: 6
Rule for Redirect number:2
Table 213 describes the fields shown in this output.
Table 213 show voice translation-profile Field Descriptions
Field
|
Description
|
Translation Profile
|
Name of the translation profile.
|
Rule for Called number
|
Number of the rule used for translating called numbers. If the field is blank, this translation profile does not have a rule assigned to that number type.
|
Rule for Calling number
|
Number of the rule used for translating calling numbers. If the field is blank, this translation profile does not have a rule assigned to that number type.
|
Rule for Redirect number
|
Number of the rule used for translating redirect numbers. If the field is blank, this translation profile does not have a rule assigned to that number type.
|
Related Commands
Command
|
Description
|
voice translation-profile
|
Initiates a voice translation-profile definition.
|
voice translation-rule
|
Initiates a voice translation-rule definition.
|
show voice translation-rule
To display one or more translation rules, use the show voice translation-rule command in privileged EXEC mode.
show voice translation-rule [number | sort [ascending | descending]]
Syntax Description
number
|
Number of the translation rule to display. Valid values are from 1 to 2147483647.
|
sort [ascending | descending]
|
Display order of the translation rules by number.
|
Command Default
Ascending order
Command Modes
Privileged EXEC
Command History
Release
|
Modification
|
12.2(11)T
|
This command was introduced.
|
Usage Guidelines
Under each translation rule are numbered subrules.
Examples
The following sample output displays the translation rule number 6:
Router# show voice translation-rule 6
Match pattern: 65088801..
Replace pattern: 6508880101
Match type: none Replace type: none
Match plan: none Replace plan: none
The following sample output displays all the translation rules in ascending order:
Router# show voice translation-rule sort ascending
Match pattern: 5108880...
Replace pattern: 5108880101
Match type: none Replace type: none
Match plan: none Replace plan: none
Match pattern: 510890....
Replace pattern: 5108880101
Match type: none Replace type: none
Match plan: none Replace plan: none
Match pattern: 51088802..
Replace pattern: 5108880101
Match type: none Replace type: none
Match plan: none Replace plan: none
Match pattern: 51088803..
Replace pattern: 5108880101
Match type: none Replace type: none
Match plan: none Replace plan: none
Match pattern: 510889....
Replace pattern: 5108880101
Match type: none Replace type: none
Match plan: none Replace plan: none
Match pattern: 510890....
Replace pattern: 5108880101
Match type: none Replace type: none
Match plan: none Replace plan: none
Table 214 describes the fields shown in this output.
Table 214 show voice translation-rule Field Descriptions
Field
|
Description
|
Translation-rule tag
|
Number of the translation rule.
|
Rule
|
Number of the rule defined within the translation rule.
|
Match pattern
|
SED-like expression used to match incoming call information.
|
Replace pattern
|
SED-like expression used to replace match-pattern in the call information.
|
Match type
|
Type of incoming calls to match.
|
Replace type
|
Type to replace Match type.
|
Match plan
|
Plan of incoming calls to match.
|
Replace plan
|
Plan to replace Match plan.
|
Related Commands
Command
|
Description
|
rule (voice translation-rule)
|
Defines the SED expressions for translating calls.
|
test voice translation-rule
|
Tests the rules in a translation-rule definition.
|
voice translation-rule
|
Initiates a voice translation-rule definition.
|
voice translation-profile
|
Initiates a voice translation-profile definition.
|
show voice trunk-conditioning signaling
To display the status of trunk-conditioning signaling and timing parameters for a voice port, use the show voice trunk-conditioning signaling command in user EXEC or privileged EXEC mode.
show voice trunk-conditioning signaling [summary | voice-port]
Syntax Description
summary
|
(Optional) Displays a summary of the status for all voice ports on the router or concentrator.
|
voice-port
|
(Optional) Displays a detailed report for a specified voice port.
|
Command Modes
User EXEC
Privileged EXEC
Command History
Release
|
Modification
|
12.0(3)XG
|
This command was introduced on the Cisco MC3810 as the show voice permanent-call command.
|
12.0(4)T
|
This command was integrated into Cisco IOS Release 12.0(4)T.
|
12.0(7)XK
|
This command was renamed show voice trunk-conditioning signaling.
|
12.1(2)T
|
This command was integrated into Cisco IOS Release 12.1(2)T.
|
12.1(3)T
|
This command was implemented on the Cisco 2600 series and Cisco 3600 series.
|
Usage Guidelines
This command displays the trunk signaling status for analog and digital voice ports on the Cisco 2600 series and the Cisco 3600 series routers.
Examples
The following is sample output from the show voice trunk-conditioning signaling summary command:
Router# show voice trunk-conditioning signaling summary
The following is sample output from the show voice trunk-conditioning signaling command for voice port 3/0:6:
Router# show voice trunk-conditioning signaling 3/0:6
hardware-state ACTIVE signal type is NorthamericanCAS
forced playout pattern = STOPPED
trunk_down_timer = 0, rx_ais_duration = 0, idle_timer = 0
Table 215 describes significant fields in these outputs.
Table 215 show voice trunk-conditioning signaling Field Descriptions
Field
|
Description
|
current timer
|
Time since last signaling packets were received.
|
forced playout pattern
|
Which forced playout pattern is sent to PBX:
•0 = no forced playout pattern is sent
•1 = receive IDLE playout pattern is sent
•2 = receive OOS playout pattern is sent
|
hardware-state
|
Hardware state based on received IDLE pattern:
•IDLE = both sides are idle
•ACTIVE = at least one side is active
|
signal type
|
Signaling type used by lower level driver: northamerica, melcas, transparent, or external.
|
idle timer
|
Time the hardware on both sides has been in idle state.
|
last-ABCD
|
Last received or transmitted signal bit pattern.
|
max inter-arrival time
|
Maximum interval between received signaling packets.
|
missing
|
Number of missed signal packets.
|
mode
|
Signaling packet generation frequency:
•Fast mode = every 4 milliseconds
•Slow mode = same frequency as keepalive timer
|
out of seq
|
Number of out-of-sequence signal packets.
|
playout depth
|
Number of packets in playout buffer.
|
prev-seq#
|
Sequence number of previous signaling packet.
|
refill count
|
Number of packets created to maintain nominal length of playout packet buffer.
|
rx_ais_duration
|
Time since receipt of AIS indicator.
|
seq#
|
Sequence number of signaling packet.
|
sig pkt cnt
|
Number of transmitted or received signaling packets.
|
signal path
|
Status of signaling path.
|
signaling playout history
|
Signaling bits received in last 60 milliseconds.
|
trunk_down_timer
|
Time since last signaling packets were received.
|
tx_oos_timer
|
Time since PBX started sending OOS signaling pattern defined by signal pattern oos transmit.
|
very late
|
Number of very late signaling packets.
|
Related Commands
Command
|
Description
|
show dial-peer voice
|
Displays the configuration for all VoIP and POTS dial peers configured on the router.
|
show voice dsp
|
Shows the current status of all DSP voice channels.
|
show voice port
|
Displays configuration information about a specific voice port.
|
show voice trunk-conditioning supervisory
|
Displays the status of trunk supervision and configuration parameters for voice ports.
|
show voice trunk-conditioning supervisory
To display the status of trunk supervision and configuration parameters for a voice port, use the show voice trunk-conditioning supervisory command in user EXEC or privileged EXEC mode.
show voice trunk-conditioning supervisory [summary | voice-port]
Syntax Description
summary
|
(Optional) Displays a summary of the status for all voice ports on the router or concentrator.
|
voice-port
|
(Optional) Displays a detailed report for a specified voice port.
|
Command Modes
User EXEC
Privileged EXEC
Command History
Release
|
Modification
|
12.0(7)XK
|
This command was introduced on the Cisco 2600 series, Cisco 3600 series, and Cisco MC3810.
|
12.1(2)T
|
This command was integrated into Cisco IOS Release 12.1(2)T.
|
12.1(3)T
|
This command was implemented on the Cisco 2600 series and Cisco 3600 series.
|
Usage Guidelines
This command displays the trunk supervision and configuration status for analog and digital voice ports.
Examples
The following is sample output from the show voice trunk-conditioning supervisory summary command for all voice ports:
Router# show voice trunk-conditioning supervisory summary
3/0:6(6) : state : TRUNK_SC_CONNECT, voice : on , signal : on ,master
3/0:7(7) : state : TRUNK_SC_CONNECT, voice : on , signal : on ,master
3/1:0(8) : state : TRUNK_SC_CONNECT, voice : on , signal : on ,master
3/1:1(1) : state : TRUNK_SC_CONNECT, voice : on , signal : on ,master
3/1:3(3) : state : TRUNK_SC_CONNECT, voice : on , signal : on ,master
The following is sample output from the show voice trunk-conditioning supervisory command for voice port 3/0:6:
Router# show voice trunk-conditioning supervisory 3/0:6
3/0:6(6) : state : TRUNK_SC_CONNECT, voice : on, signal : on, master
sequence oos : idle and oos
pattern :rx_idle = 0x0 rx_oos = 0xF
timing : idle = 0, restart = 0, standby = 0, timeout = 40
supp_all = 0, supp_voice = 0, keep_alive = 5
timer: oos_ais_timer = 0, timer = 0
Table 216 describes significant fields shown in these outputs.
Table 216 show voice trunk-conditioning supervisory Field Descriptions
Field
|
Description
|
keep_alive
|
Signaling packets periodically sent to the far end, even if there is no signal change. These signaling packets function as keep alive messages.
|
master
|
Voice port configured as "connect trunk xxxx."
|
slave
|
Voice port configured as "connect trunk xxxx answer-mode."
|
oos_ais_timer
|
Time since the signaling packet with AIS indicator was received.
|
pattern
|
4-bit signaling pattern.
|
restart
|
Restart timeout after far end is OOS.
|
rx-idle
|
Signaling bit pattern indicating that the far end is idle.
|
rx-oos
|
Signaling bit pattern sent to the PBX indicating that the network is OOS.
|
standby
|
Time before the slave side goes back to standby after the far end goes OOS.
|
supp_all
|
Timeout before suppressing transmission of voice and signaling packets to the far end after detection of PBX OOS.
|
supp_voice
|
Timeout before suppressing transmission of voice packet to the far end after detection of PBX OOS.
|
timeout
|
Timeout for nonreceipt of keepalive packets before the far end is considered to be OOS.
|
TRUNK_SC_CONNECT
|
Trunk conditioning supervisory component status.
|
Related Commands
Command
|
Description
|
show dial-peer voice
|
Displays the configuration for all VoIP and POTS dial peers configured on the router.
|
show voice dsp
|
Displays the current status of all DSP voice channels.
|
show voice port
|
Displays configuration information about a specific voice port.
|
show voice trunk-conditioning signaling
|
Displays the status of trunk-conditioning signaling and timing parameters for a voice port
|
show voip debug version
To display the current version of the Voice over IP debug structure, use the show voip debug version command in privileged EXEC mode.
show voip debug version
Command Default
No default behavior or values
Command Modes
Privileged EXEC
Command History
Release
|
Modification
|
12.3(8)T
|
This command was introduced.
|
Examples
The following example shows output from the show voip debug version command:
Router# show voip debug version
Table 217 describes significant fields shown in the display.
Table 217 show voip debug version Field Descriptions
Field
|
Description
|
voip debug version 1.0
|
Shows the version of the debug structure.
|
Related Commands
Command
|
Description
|
show voip rtp connections
|
Displays RTP named event packets.
|
show voip rtp connections
To display Real-Time Transport Protocol (RTP) named event packets, use the show voip rtp connections command in privileged EXEC mode.
show voip rtp connections [detail]
Syntax Description
detail
|
(Optional) Displays the called-party and calling-party numbers associated with a call.
|
Command Modes
Privileged EXEC
Command History
Release
|
Modification
|
12.0
|
This command was introduced.
|
12.3(7)T
|
The detail keyword was added.
|
12.3(14)T
|
This command was implemented on the Cisco 2800 series and Cisco 3800 series.
|
12.4(2)T
|
This command was integrated into Cisco IOS Release 12.4(2)T.
|
Usage Guidelines
This command displays information about RTP named event packets, such as caller ID number, IP address, and port for both the local and remote endpoints. The output from this command provides an overview of all the connections in the system, and this information can be used to narrow the criteria for debugging. The debug voip rtp command floods the console with voice packet information. You can use the show voip rtp connections command to get caller ID, remote IP address, or remote port identifiers that you can use to limit the output from the debug voip rtp command.
The detail keyword allows you to identify the phone or phones that have connected two RTP call legs together to create VoIP-to-VoIP or VoIP-to-POTS hairpins. If the detail keyword is omitted, the output does not display calls that are connected by hairpin call routing.
Examples
Table 218 describes the significant fields shown in the examples. Each line of output under "VoIP RTP active connections" shows information for one call leg. A phone call normally consists of two call legs, one connected to the calling party and one connected to the called party. The router joins (or bridges) the two call legs together to make a call. The show voip rtp connections command shows the RTP information for H.323 and SIP calls only; it does not directly show the POTS call legs. The information for the IP phone can be seen using the show ephone offhook command.
The following sample output shows an incoming H.323 call that is being directed to an IP phone attached to a Cisco CME system.
Router# show voip rtp connections
VoIP RTP active connections :
No. CallId dstCallId LocalRTP RmtRTP LocalIP RemoteIP
1 21 22 16996 18174 10.4.204.37 10.4.204.24
Found 1 active RTP connections
The following sample output shows the same call as in the previous example, but using the detail keyword with the command. The sample output shows the called number (1509) and calling number (8108) on both call legs (21 and 22); the called and calling numbers are the same on both legs for a simple A-to-B call. Leg 21 is the H.323 segment of the and leg 22 is the POTS segment that goes to the IP phone.
Router# show voip rtp connections detail
VoIP RTP active connections :
No. CallId dstCallId LocalRTP RmtRTP LocalIP RemoteIP
1 21 22 16996 18174 10.4.204.37 10.4.204.24
callId 21 (dir=1):called=1509 calling=8108 redirect=
dest callId 22:called=1509 calling=8108 redirect=
1 context 64FB3358 xmitFunc 6032E8B4
Found 1 active RTP connections
The following example shows the call from the previous example being transferred by extension 1509 to extension 1514. Notice that the dstCallId changed from 22 to 24, but the original call leg (21) for the transferred party is still present. This implies that H.450.2 capability was disabled for this particular call, because if H.450.2 was being used for the transfer, the transfer would have caused the incoming H.323 call leg to be replaced with a new call.
Router# show voip rtp connections
VoIP RTP active connections :
No. CallId dstCallId LocalRTP RmtRTP LocalIP RemoteIP
1 21 24 16996 18174 10.4.204.37 10.4.204.24
Found 1 active RTP connections
The following example shows the detailed output for the same transfer as shown in the previous example. The original incoming call leg is still present (21) and still has the original called and calling numbers. The transferred call leg (24) shows 1509 (the transferring party) as the calling party and 1514 (the transfer destination) as the called party.
Router# show voip rtp connections detail
VoIP RTP active connections :
No. CallId dstCallId LocalRTP RmtRTP LocalIP RemoteIP
1 21 24 16996 18174 10.4.204.37 10.4.204.24
callId 21 (dir=1):called=1509 calling=8108 redirect=
dest callId 24:called=1514 calling=1509 redirect=
1 context 6466E810 xmitFunc 6032E8B4
Found 1 active RTP connections
The following sample output shows a cross-linked call with two H.323 call legs. The first line of output shows that the CallID for the first call leg is 7 and that this call leg is associated with another call leg that has a destination CallId of 8. The next line shows that the CallID for the leg is 8 and that it is associated with another call leg that has a destination CallId of 7. This cross-linkage between CallIds 7 and 8 shows that the first call leg is related to the second call leg (and vice versa). From this you can infer that the two call legs are actually part of the same phone call.
In an active system you can expect many lines of output that you would have to sort through to see which ones have this cross-linkage relationship. The lines showing two related call legs are not necessarily listed in adjacent order.
Router# show voip rtp connections
VoIP RTP active connections :
No. CallId dstCallId LocalRTP RmtRTP LocalIP RemoteIP
1 7 8 16586 22346 172.27.82.2 172.29.82.2
2 8 7 17010 16590 172.27.82.2 192.168.1.29
Found 2 active RTP connections
Table 218 show voip rtp connections Field Descriptions
Field
|
Description
|
No.
|
Identifier of an RTP connection in this output.
|
CallId
|
Internal call identifier of a telephony call leg (RTP connection).
|
dstCallId
|
Internal call identifier of a VoIP call leg.
|
LocalRTP
|
RTP port of the media stream for the local entity.
|
RmtRTP
|
RTP port of the media stream for the remote entity.
|
LocalIP
|
IP address of the media stream for the local entity.
|
RemoteIP
|
IP address of the media stream for the remote entity.
|
dir
|
0 indicates an outgoing call. 1 indicates an incoming call.
|
called
|
Extension that received the call.
|
calling
|
Extension that made the call.
|
redirect
|
Original called number if the incoming call was forwarded.
|
context
|
Internal memory address for the control block associated with the call.
|
xmitFunc
|
Internal memory address for the transmit function to which incoming RTP packets (on the H.323 and SIP side) are sent; the address for the function that delivers the packets to the ephone.
|
Related Commands
Command
|
Description
|
debug voip rtp
|
Enables debugging for RTP named event packets.
|
show ephone offhook
|
Displays information and packet counts for phones that are currently off hook.
|
show vrm active_calls
To display active-only voice calls either for a specific voice feature card (VFC) or for all VFCs, use the show vrm active_calls command in privileged EXEC mode.
show vrm active_calls {dial-shelf-slot-number | all}
Syntax Description
dial-shelf-slot-number
|
Slot number of the dial shelf. Range is from 0 to 13.
|
all
|
Displays list of all active calls for VFC slots.
|
Command Modes
Privileged EXEC
Command History
Release
|
Modification
|
12.0(7)T
|
This command was introduced on the Cisco AS5800.
|
Usage Guidelines
Use this command to display active-only voice calls either for a specific VFC or for all VFCs. Each active call occupies a block of information describing the call. This information provides basically the same information as the show vrm vdevice command.
Examples
The following is sample output from this command specifying a dial-shelf slot number:
Router# show vrm active_calls 6
slot = 6 virtual voice dev (tag) = 61 channel id = 2
capabilities list map = 9FFF
last/current codec loaded/used = None
Resource (vdev_common) status = 401 means :active others
tot ingress control = 1308
tot ingress data drops = 0
tot ingress control drops = 0
tot egress control = 1304
tot egress data drops = 0
tot egress control drops = 0
slot = 6 virtual voice dev (tag) = 40 channel id = 2
capabilities list map = 9FFF
last/current codec loaded/used = None
Resource (vdev_common) status = 401 means :active others
Table 219 describes significant fields shown in this output.
Table 219 show vrm active_calls Field Descriptions
Field
|
Description
|
slot
|
Slot where the voice card is installed.
|
virtual voice dev (tag)
|
ID number of the virtual voice device.
|
channel id
|
ID number of the channel associated with this virtual voice device.
|
capability list map
|
Bitmaps for the codec supported on that DSP channel. Values are the following:
•CC_CAP_CODEC_G711U: 0x1
•CC_CAP_CODEC_G711A: 0x2
•CC_CAP_CODEC_G729IETF: 0x4
•CC_CAP_CODEC_G729a: 0x8
•CC_CAP_CODEC_G726r16: 0x10
•CC_CAP_CODEC_G726r24: 0x20
•CC_CAP_CODEC_G726r32: 0x40
•CC_CAP_CODEC_G728: 0x80
•CC_CAP_CODEC_G723r63: 0x100
•CC_CAP_CODEC_G723r53: 0x200
•CC_CAP_CODEC_GSM: 0x400
•CC_CAP_CODEC_G729b: 0x800
•CC_CAP_CODEC_G729ab: 0x1000
•CC_CAP_CODEC_G723ar63: 0x2000
•CC_CAP_CODEC_G723ar53: 0x4000
•CC_CAP_CODEC_G729: 0x8000
|
last/current codec loaded/used
|
Last codec loaded or used.
|
TDM time slot
|
Time-division-multiplexing time slot.
|
Resource (vdev_common) status
|
Current status of the VFC.
|
tot ingress data
|
Total amount of data (number of packets) sent from the PSTN side of the connection to the VoIP side of the connection.
|
tot ingress control
|
Total number of control packets sent from the PSTN side of the connection to the VoIP side of the connection.
|
tot ingress data drops
|
Total number of data packets dropped from the PSTN side of the connection to the VoIP side of the connection.
|
tot ingress control drops
|
Total number of control packets dropped from the PSTN side of the connection to the VoIP side of the connection.
|
tot egress data
|
Total amount of data (number of packets) sent from the VoIP side of the connection to the PSTN side of the connection.
|
tot egress control
|
Total number of control packets sent from the VoIP side of the connection to the PSTN side of the connection.
|
tot egress data drops
|
Total number of data packets dropped from the VoIP side of the connection to the PSTN side of the connection.
|
tot egress control drops
|
Total number of control packets dropped from the VoIP side of the connection to the PSTN side of the connection.
|
Related Commands
Command
|
Description
|
show vrm vdevices
|
Displays detailed information for a specific DSP or a brief summary display for all VFCs.
|
show vrm vdevices
To display detailed information for a specific digital signal processor (DSP) or summary information for all voice feature cards (VFCs), use the show vrm vdevices command in privileged EXEC mode.
show vrm vdevices {vfc-slot-number voice-device-number | alarms [vfc-slot-number-for-alarms] |
summary}
Syntax Description
vfc-slot-number
|
Slot number of the VFC. Range is from 0 to 11.
|
voice-device-number
|
DSP number. Range is from 1 to 96.
|
alarms
|
DSP alarm statistics for all DSPs on all slots or specified slots.
|
vfc-slot-number-for-alarms
|
(Optional) Slots for which you need alarm information. If no slots are specified, alarm information for all slots is displayed.
|
summary
|
Synopsis of voice feature card DSP mappings, capabilities, and resource states.
|
Command Modes
Privileged EXEC
Command History
Release
|
Modification
|
12.0(7)T
|
This command was introduced on the Cisco AS5800.
|
12.2(11)T
|
The alarms keyword and vfc-slot-number-for-alarms argument were added.
|
Usage Guidelines
Use this command to display detailed information for a specific DSP or a brief summary for all VFCs. The display provides information such as the number of channels, channels per DSP, bitmap of digital signal processor modules (DSPMs), DSP alarm statistics, and version numbers. This information is useful in monitoring the current state of your VFCs.
The display for a specific DSP provides information on the codec that each channel is using, if active, or on the codec that was last used and whether the channel is not currently sending cells. It also displays the state of the resource. In most cases, if there is an active call on that channel, the resource should be marked active. If the resource is marked as reset or bad, this may be an indication of a response loss for the VFC on a reset request. If this condition persists, you might experience a problem with the communication link between the router shelf and the VFC.
Examples
The following is sample output from this command specifying dial-shelf slot number and DSP number. In this particular example, the call is active so the statistics displayed are for this active call. If no calls are currently active on the device, the statistics would be for the previous (or last active) call.
Router# show vrm vdevices 6 1
slot = 6 virtual voice dev (tag) = 1 channel id = 1
capabilities list map = 9FFF
last/current codec loaded/used = None
Resource (vdev_common) status = 401 means :active others
tot ingress control = 1194
tot ingress data drops = 0
tot ingress control drops = 0
tot egress control = 1209
tot egress data drops = 0
tot egress control drops = 0
slot = 6 virtual voice dev (tag) = 1 channel id = 2
capabilities list map = 9FFF
last/current codec loaded/used = None
Resource (vdev_common) status = 401 means :active others
tot ingress control = 1167
tot ingress data drops = 0
tot ingress control drops = 0
tot egress control = 1163
tot egress data drops = 0
tot egress control drops = 0
Table 220 describes significant fields shown in this output.
Table 220 show vrm vdevices Field Descriptions
Field
|
Description
|
slot
|
Slot in which the voice card is installed.
|
virtual voice dev (tag)
|
ID number of the virtual voice device.
|
channel id
|
ID number of the channel that is associated with this virtual voice device.
|
capabilities list map
|
Bitmaps for the codec supported on that DSP channel. Values are as follows:
•CC_CAP_CODEC_G711U: 0x1
•CC_CAP_CODEC_G711A: 0x2
•CC_CAP_CODEC_G729IETF: 0x4
•CC_CAP_CODEC_G729a: 0x8
•CC_CAP_CODEC_G726r16: 0x10
•CC_CAP_CODEC_G726r24: 0x20
•CC_CAP_CODEC_G726r32: 0x40
•CC_CAP_CODEC_G728: 0x80
•CC_CAP_CODEC_G723r63: 0x100
•CC_CAP_CODEC_G723r53: 0x200
•CC_CAP_CODEC_GSM: 0x400
•CC_CAP_CODEC_G729b: 0x800
•CC_CAP_CODEC_G729ab: 0x1000
•CC_CAP_CODEC_G723ar63: 0x2000
•CC_CAP_CODEC_G723ar53: 0x4000
|
capabilities list map (continued)
|
•CC_CAP_CODEC_G729: 0x8000
•CC_CAP_CODEC_GSMEFR: 0x40000
•CC_CAP_CODEC_T38FAX: 0x10000
|
last/current codec loaded/used
|
Last codec loaded or used.
|
TDM timeslot
|
Time-division-multiplexing time slot.
|
Resource (vdev_common) status
|
Current status of the VFC. Values are as follows:
•FREE = 0x0000
•ACTIVE_CALL = 0x0001
•BUSYOUT_REQ = 0x0002
•BAD = 0x0004
•BACK2BACK_TEST = 0x0008
•RESET = 0x0010
•DOWNLOAD_FILE = 0x0020
•DOWNLOAD_FAIL = 0x0040
•SHUTDOWN = 0x0080
•BUSY = 0x0100
•OIR = 0x0200
•HASLOCK = 0x0400 /* vdev_pool has locked port */
•DOWNLOAD_REQ = 0x0800
•RECOVERY_REQ = 0x1000
•NEGOTIATED = 0x2000
•OOS = 0x4000
|
tot ingress data
|
Total amount of data (number of packets) sent from the public switched telephone network (PSTN) side of the connection to the VoIP side of the connection.
|
tot ingress control
|
Total number of control packets sent from the PSTN side of the connection to the VoIP side of the connection.
|
tot ingress data drops
|
Total number of data packets dropped from the PSTN side of the connection to the VoIP side of the connection.
|
tot ingress control drops
|
Total number of control packets dropped from the PSTN side of the connection to the VoIP side of the connection.
|
tot egress data
|
Total amount of data (number of packets) sent from the VoIP side of the connection to the PSTN side of the connection.
|
tot egress control
|
Total number of control packets sent from the VoIP side of the connection to the PSTN side of the connection.
|
tot egress data drops
|
Total number of data packets dropped from the VoIP side of the connection to the PSTN side of the connection.
|
tot egress control drops
|
Total number of control packets dropped from the VoIP side of the connection to the PSTN side of the connection.
|
The following sample output displays alarm statistics for slot 6 of the DSP.
Router# show vrm vdevices alarms 6
----------------------ALARM STATISTICS FOR SLOT 6 ------------------------
TAG Mod DSP Chn OperStat AlmCnt AlmTime AlmCause AlmText
--------------------------------------------------------------------------
++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++
++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++
Table 221 describes significant fields shown in this output.
Table 221 show vrm vdevices alarms Field Descriptions
Field
|
Description
|
TAG
|
Logical tag number.
|
Mod
|
DSP module number.
|
DSP
|
DSP number within the module.
|
Chn
|
Channel number for the DSP within the module.
|
OperStat
|
Operational status of the channel.
|
AlmCnt
|
Alarm count since bootup on that channel.
|
AlmTime
|
Time at which last alarm message was received.
|
AlmCause
|
Cause of last alarm message received.
|
AlmText
|
Text message corresponding to the last alarm message.
|
Possible Values for the Operational Status of the Channel (OperStat)
|
RESET
|
RESET state.
|
DOWN
|
DOWN state.
|
READY CR
|
CORE READY state.
|
READY CD
|
CODEC READY state.
|
IDLE V
|
VOICE IDLE state.
|
IDLE FAX
|
FAX IDLE state.
|
READY V
|
VOICE READY state.
|
READY FX
|
FAX READY state.
|
READY D
|
DTMF READY state.
|
UNKNOWN
|
UNKNOWN state.
|
The following is sample output from this command specifying a summary list. In the "Voice Device Mapping" area, the "C_Ac" column indicates the number of active calls for a specific DSP. If there are any nonzero numbers under the "C_Rst" and/or "C_Bad" column, a reset request was sent, but it was lost; this could mean a faulty DSP.
Router# show vrm vdevices summary
***********************************************************
******summary of voice devices for all voice cards*********
***********************************************************
slot = 6 major ver = 0 minor ver = 1 core type used = 2
number of modules = 16 number of voice devices (DSPs) = 96
chans per vdevice = 2 tot chans = 192 tot active calls = 178
module presense bit map = FFFF tdm mode = 1 num_of_tdm_timeslots = 384
number of default voice file (core type images) = 2
file 0 maj ver = 0 min ver = 0 core_type = 1
trough size = 2880 slop value = 0 built-in codec bitmap = 0
loadable codec bitmap = 0 fax codec bitmap = 0
file 1 maj ver = 3 min ver = 1 core_type = 2
trough size = 2880 slop value = 1440 built-in codec bitmap = 40B
loadable codec bitmap = BFC fax codec bitmap = 7E
-------------------Voice Device Mapping------------------------
Logical Device (Tag) Module# DSP# C_Ac C_Busy C_Rst C_Bad
---------------------------------------------------------------
+++++++++++++++++++++++++++++++++++++++++++++++++++++++++++
+++++++++++++++++++++++++++++++++++++++++++++++++++++++++++
Total active call channels = 178
Total busied out channels = 0
Total channels in reset = 0
Note :Channels could be in multiple states
Table 222 describes significant fields shown in this output.
Table 222 show vrm vdevices summary Field Descriptions
Field
|
Description
|
slot
|
Slot number in which the VFC is installed.
|
major ver
|
Major version of firmware running on the VFC.
|
minor ver
|
Minor version of firmware running on the VFC.
|
core type used
|
Type of DSPware in use. Values are as follows:
•1 = UBL (boot loader)
•2 = high complexity core
•3 = medium complexity core
•4 = low complexity core
•255 = invalid
|
number of modules
|
Number of modules on the VFC. Maximum number is 16.
|
number of voice devices (DSP)s
|
Number of possible DSPs. Maximum number is 96.
|
chans per vdevice
|
Number of channels (meaning calls) that each DSP can handle.
|
tot chans
|
Total number of channels.
|
tot active calls
|
Total number of active calls on this VFC.
|
module presense bit map
|
Indicates a 16-bit bitmap, each bit representing a module.
|
tdm mode
|
Time-division-multiplex bus mode. Values are as follows:
•0 = VFC is in classic mode.
•1 = VFC is in plus mode.
This field should always be 1.
|
num_of_tdm_timeslots
|
Total number of calls that can be handled by the VFC.
|
auto recovery
|
Whether auto recovery is enabled. When autorecovery is enabled, the VRM tries to recover a DSP by resetting it if, for some reason, the DSP stops responding.
|
number of default voice file (core type images)
|
Number of DSPware files in use.
|
number of default voice file (maj ver)
|
Major version of the DSPware in use.
|
min ver
|
Minor version of the DSPware in use.
|
core_type
|
Type of DSPware in use. Values are as follows:
•1 = boot loader
•2 = high complexity core
•3 = medium complexity core
•4 = low complexity core
|
trough size
|
Indirect representation of the complexity of the DSPware in use.
Note Effective with Cisco IOS Release 12.1(5)XM, this value is no longer displayed.
|
slop value
|
Indirect representation of the complexity of the DSPware in use.
Note Effective with Cisco IOS Release 12.1(5)XM, this value is no longer displayed.
|
built-in codec bitmap
|
Bitmap of the codec built into the DSP firmware. Values are as follows:
•CC_CAP_CODEC_G711U: 0x0001
•CC_CAP_CODEC_G711A: 0x0002
•CC_CAP_CODEC_G729IETF: 0x0004
•CC_CAP_CODEC_G729a: 0x0008
•CC_CAP_CODEC_G726r16: 0x0010
•CC_CAP_CODEC_G726r24: 0x0020
•CC_CAP_CODEC_G726r32: 0x0040
•CC_CAP_CODEC_G728: 0x0080
•CC_CAP_CODEC_G723r63: 0x0100
•CC_CAP_CODEC_G723r53: 0x0200
•CC_CAP_CODEC_GSM: 0x0400
•CC_CAP_CODEC_G729b: 0x0800
•CC_CAP_CODEC_G729ab: 0x1000
•CC_CAP_CODEC_G723ar63: 0x2000
•CC_CAP_CODEC_G723ar53: 0x4000
|
built-in codec bitmap (continued)
|
•CC_CAP_CODEC_G729: 0x8000
•CC_CAP_CODEC_GSMEFR: 0x40000
•CC_CAP_CODEC_T38FAX: 0x10000
|
loadable codec bitmap
|
Loadable codec bitmap for the loadable codecs. Values are as follows:
•CC_CAP_CODEC_G711U: 0x0001
•CC_CAP_CODEC_G711A: 0x0002
•CC_CAP_CODEC_G729IETF: 0x0004
•CC_CAP_CODEC_G729a: 0x0008
•CC_CAP_CODEC_G726r16: 0x0010
•CC_CAP_CODEC_G726r24: 0x0020
•CC_CAP_CODEC_G726r32: 0x0040
•CC_CAP_CODEC_G728: 0x0080
•CC_CAP_CODEC_G723r63: 0x0100
•CC_CAP_CODEC_G723r53: 0x0200
•CC_CAP_CODEC_GSM: 0x0400
•CC_CAP_CODEC_G729b: 0x0800
•CC_CAP_CODEC_G729: = 0x1000
•CC_CAP_CODEC_G723ar63: 0x2000
•CC_CAP_CODEC_G723ar53: 0x4000
•CC_CAP_CODEC_G729: 0x8000
•CC_CAP_CODEC_GSMEFR: 0x40000
•CC_CAP_CODEC_T38FAX: 0x10000
|
fax codec bitmap
|
Fax codec bitmap. Values are as follows:
•FAX_NONE = 0x1
•FAX_VOICE = 0x2
•FAX_144 = 0x80
•FAX_120 = 0x40
•FAX_96 = 0x20
•FAX_72 = 0x10
•FAX_48 = 0x08
•FAX_24 = 0x04
|
Logical Device (Tag)
|
Tag number or DSP number on the VFC.
|
Module#
|
Number identifying the module associated with a specific logical device.
|
DSP#
|
Number identifying the DSP on the VFC.
|
C_Ac
|
Number of active calls on the identified DSP.
|
C_Busy
|
Number of busied-out channels associated with the identified DSP.
|
C_Rst
|
Number of channels in the reset state associated with the identified DSP.
|
C_Bad
|
Number of defective ("bad") channels associated with the identified DSP.
|
Total active call channels
|
Total number of active calls.
|
Total busied out channels
|
Total number of busied-out channels.
|
Total channels in reset
|
Total number of channels in the reset state.
|
Total bad channels
|
Total number of defective channels.
|
Related Commands
Command
|
Description
|
show vrm active_calls
|
Displays active-only voice calls either for a specific VFC or for all VFCs.
|
show vsp
To display cumulative information about voice streaming processing (VSP) sessions, use the show vsp command in privileged EXEC mode.
show vsp {all | debug | session | statistics}
Syntax Description
all
|
Displays all available information on VSP sessions, including the information specified by the other keywords listed in this table.
|
debug
|
Displays the type of debugging information that is enabled by using the debug vsp command.
|
session
|
Displays cumulative statistics about active VSP sessions.
|
statistics
|
Displays statistics about active VSP sessions, including memory statistics.
|
Command Modes
Privileged EXEC
Command History
Release
|
Modification
|
12.2(11)T
|
This command was introduced on the Cisco 3640, Cisco 3660, Cisco AS5300, Cisco AS5350, and Cisco AS5400.
|
Usage Guidelines
Use the clear vsp statistics command to reset the counters to 0 for the show vsp command.
Examples
The following is sample output from the show vsp debug command:
VSP:<1>[0x62291660](0x62291660) debug_flag=0x7FF
The following is sample output from the show vsp session command:
VSP_STATS:Session Statistics -
sessions total=0; max_active=0, current=0
session_duration last=0; max=0, min=0 ms
pre_stream_wait last=0; max=0, min=0 ms
stream_duration last=0; max=0, min=0 ms
post_stream_wait last=0; max=0, min=0 ms
stream_size last=0; max=0, min=0 bytes
streaming_rate last=0; max=0, min=0 bytes/sec
total_packet_count last=0; max=0, min=0 packets
drop_packet_count last=0; max=0, min=0 packets
particle_packet_count last=0; max=0, min=0 packets
The following is sample output from the show vsp statistics command:
Router# show vsp statistics
VSP_STATS:Session Statistics -
sessions total=0; max_active=0, current=0
session_duration last=0; max=0, min=0 ms
pre_stream_wait last=0; max=0, min=0 ms
stream_duration last=0; max=0, min=0 ms
post_stream_wait last=0; max=0, min=0 ms
stream_size last=0; max=0, min=0 bytes
streaming_rate last=0; max=0, min=0 bytes/sec
total_packet_count last=0; max=0, min=0 packets
drop_packet_count last=0; max=0, min=0 packets
particle_packet_count last=0; max=0, min=0 packets
VSP_STATS: Format Statistics -
VSP_STATS: Codec Statistics -
VSP_STATS: Media Statistics -
VSP_STATS:RTP Statistics -
ts_gap_samples max=76800, min=80 samples
[Unexpected SSRC Change (USC)]
usc_count last=0; total=0, max=0, min=0
[Out of sequence packet (OOSP)]
oosp_count last=0; total=0, max=0, min=0
[Unexpected timestamp gap (UTG)]
max_utg_count last=0; total=0, max=0, min=0
max_cn_count last=4; total=70, max=8, min=4
[Unexpected payload type or size (UPTS)]
upt_count last=0; total=0, max=0, min=0; last_type=0
ups_count last=0; total=198, max=61, min=0; last_size=2 bytes
[Data exceeds limit (DEL)]
del_count last=0; total=2, max=1, min=0
[Silence exceeds timeout (SET)]
set_count last=0; total=0, max=0, min=0
VSP_STATS:Packet Statistics -
[Silence patching total (SPT)]
spt_count last=296; total=7230, max=889, min=290
[Concealment patching total (CPT)]
cpt_count last=0; total=34, max=18, min=0
[Normal patching total (NPT)]
npt_count last=171; total=4249, max=453, min=106
Table 223 describes the fields shown in this output.
Table 223 show vsp statistics Field Descriptions
Field
|
Description
|
Session Statistics
|
sessions total; max_active, current
|
Total number of VSP sessions since router startup or since the clear vsp statistics command was used. The active value should always be 0.
|
session_duration last; max, min
|
Duration of the last (most recent) session, and of the longest and shortest sessions in msecs.
|
pre_stream_wait last; max, min
|
Msecs that elapsed before the arrival of the first packet. Values are shown for last session, and for the session with the longest and shortest waits.
|
stream_duration last; max, min
|
Msecs between first packet arrival and last packet flush. Values are shown for last session, and for the session with the longest and shortest durations.
|
post_stream_wait last; max, min
|
Msecs between last packet flush and close of session.
|
stream_size last; max, min
|
Data streaming size.
|
streaming_rate last; max, min
|
Data streaming rate.
|
total_packet_count last; max, min
|
Total packets processed.
|
drop_packet_count last; max, min
|
Total packets dropped. The difference between the total packet count and packets dropped is the number of packets that have been accepted.
|
particle_packet_count last; max, min
|
Total particle packets processed.
|
Format Statistics
|
au_format_count
|
Number of VSP sessions that used audio files in .au format.
|
wav_format_count
|
Number of VSP sessions that used audio files in .wav format.
|
other_format_count
|
Number of VSP sessions that used audio files of an unknown format.
|
Codec Statistics
|
codec_g729_count
|
Number of VSP sessions that used the G.729 codec.
|
codec_g726_count
|
Number of VSP sessions that used the G.726 codec.
|
codec_g711_count
|
Number of VSP sessions that used the G.711 codec.
|
codec_g728_count
|
Number of VSP sessions that used the G.728 codec.
|
codec_g723_count
|
Number of VSP sessions that used the G.723 codec.
|
codec_gsm_count
|
Number of VSP sessions that used the GSM codec.
|
codec_other_count
|
Number of VSP sessions that used an unknown codec.
|
Media Statistics
|
ram_count
|
Total number of RAM recordings and playouts.
|
http_count
|
Total number of HTTP recordings and playouts.
|
smtp_count
|
Total number of SMTP recordings.
|
rtsp_count
|
Total number of RTSP recordings and playouts.
|
other_count
|
Should always be 0.
|
RTP Statistics
|
ts_gap_samples max min
|
Permissible timestamp gap in samples.
|
[Unexpected SSRC Change (USC)]
|
|
usc_count last; total, max, min
|
Number of times that the source of the streaming has changed.
|
[Out of sequence packet (OOSP)]
|
|
oosp_count last; total, max, min
|
Number of out-of-sequence packets.
|
[Unexpected timestamp gap (UTG)]
|
|
max_utg_count last; total, max, min
|
Number of packets with an unexpected timestamp gap.
|
[Unexpected payload type or size (UPTS)]
|
|
upt_count last; total, max, min; last_type
|
Number of comfort noise packets.
|
ups_count last; total, max, min; last_size
|
Number of packets with unexpected nonvoice payload sizes.
|
[Data exceeds limit (DEL)]
|
|
del_count last; total, max, min
|
Number of times that the total recording size is larger than the preset recording size.
|
[Silence exceeds timeout (SET)]
|
|
set_count last; total, max, min
|
Number of times that the timestamp gap is larger than the preset timeout value.
|
Packet Statistics
|
[Silence patching total (SPT)]
|
|
spt_count last; total, max, min
|
Number of silence packets that have been inserted during recording.
|
[Concealment patching total (CPT)]
|
|
cpt_count last; total, max, min
|
Number of concealment packets that have been inserted during recording.
|
[Normal patching total (NPT)]
|
|
npt_count last; total, max, min
|
Number of normal packets that have been patched during recording.
|
Related Commands
Command
|
Description
|
clear vsp statistics
|
Clears the statistics for VSP sessions.
|
show xcsp port
To display the status of a router port under the control of the external control service provider (XCSP) subsystem, use the show xcsp port command in privileged EXEC mode.
show xcsp port slot-num port-num
Syntax Description
slot-num
|
Slot number of the interface card. Values are as follows:
•Cisco AS5350: From 0 to 3.
•Cisco AS5400: From 0 to 7.
•Cisco AS5850: From 0 to 5 and from 8 to 13. Slots 6 and 7 are reserved for the route switch controller (RSC).
|
port-num
|
Port number of the interface card. Values are as follows:
•Cisco AS5350: For T1/E1, from 0 to 7. For T3, from 1 to 28.
•Cisco AS5400: For T1/E1, from 0 to 7. For T3, from 1 to 28.
•Cisco AS5850: For T1/E1, from 0 to 23. For T3, from 1 to 28.
|
Command Modes
Privileged EXEC
Command History
Release
|
Modification
|
12.2(2)XB
|
This command was introduced.
|
12.2(11)T
|
The command was integrated into Cisco IOS Release 12.2(11)T and implemented on the Cisco AS5850.
|
Examples
The following is sample output from this command:
Router# show xcsp port 1 0
Number of ports configured=1 slot state= Up
===================================================
Port 0 State= Up type = 5850 24 port T1
Table 224 describes significant fields in this output.
Note To get the field description output, you must enter the slot-num and port-num arguments for the show xcsp port command.
Table 224 show xcsp port Field Descriptions
Field
|
Descriptions
|
Port
|
Port number. Range is from 1 to 28.
|
State
|
Port state; can be Up or Down.
|
type
|
T1 or E1 ports on the AS5400: 8. T1 or E1 ports on the AS5850: 24. T3 ports on the AS5400 and AS5850: 28.
|
Channel states
|
Channel states. Values are as follows:
•Blocked
•Connection in progress
•Cot Check In Progress
•Cot Check Pending
•Down
•Idle
•In Release in progress
•In Use
•Invalid
•Loopback
•Not Present
•Out of Service
•Out Release in progress
•Playing Tone
•Shutdown
|
Related Commands
Command
|
Description
|
show xcsp slot
|
Displays the status of XCSP slots.
|
show xcsp slot
To display the status of a router slot under the control of the external control service provider (XCSP) subsystem, use the show xcsp slot command in privileged EXEC mode.
show xcsp slot slot-num
Syntax Description
slot-num
|
The slot number of the T1 or E1 interface card. Values are as follows:
•Cisco AS5350: From 0 to 3.
•Cisco AS5400: From 1 to 7.
•Cisco AS5850: From 0 to 5 and from 8 to 13. Slots 6 and 7 are reserved for the route switch controller (RSC).
|
Command Modes
Privileged EXEC
Command History
Release
|
Modification
|
12.2(2)XB
|
This command was introduced.
|
12.2(11)T
|
The command was integrated into Cisco IOS Release 12.2(11)T and implemented on the Cisco AS5850.
|
Examples
The following is sample output from this command:
Number of ports configured=1 slot state= Up
Table 225 describes significant fields shown in this output.
Table 225 show xcsp slot Field Descriptions
Field
|
Description
|
slot state
|
Slot state; can be either Up or Down.
|
Related Commands
Command
|
Description
|
show xcsp port
|
Displays the status of XCSP ports.
|
shut
To shut down a set of digital signal processors (DSPs) on the Cisco 7200 series router, use the shut command in DSP configuration mode. To put DSPs back in service, use the no form of this command.
shut number
no shut number
Syntax Description
number
|
Number of DSPs to be shut down.
|
Command Default
No shut
Command Modes
DSP configuration
Command History
Release
|
Modification
|
12.0(5)XE
|
This command was introduced on the Cisco 7200 series.
|
12.1(1)T
|
This command was modified to add information about DSP groups.
|
Usage Guidelines
This command applies to VoIP on the Cisco 7200 series routers.
Examples
The following example shuts down two sets of DSPs:
shutdown (Annex G neighbor)
To disable the service relationships requirement for border elements, use the shutdown command in config-nxg-neigh-srvc mode. To enable the service relationship for border elements, use the no form of this command.
shutdown
no shutdown
Syntax Description
This command has no arguments or keywords.
Command Default
The Annex G neighbor is shut down.
Command Modes
Annex G neighbor service
Command History
Release
|
Modification
|
12.2(11)T
|
This command was introduced.
|
Usage Guidelines
The no shutdown command verifies that a domain name has been configured and ensures that the border element has been configured to reject messages from unknown "stranger" border elements.
Examples
The following example enables the border element:
Router(config-nxg-neigh-srvc)# no shutdown
Related Commands
Command
|
Description
|
access-policy
|
Requires that a neighbor be explicitly configured.
|
inbound ttl
|
Sets the inbound time-to-live value.
|
outbound retry-interval
|
Defines the retry period for attempting to establish the outbound relationship between border elements.
|
retry interval
|
Defines the time between delivery attempts.
|
retry window
|
Defines the total time that a border element attempts delivery.
|
shutdown (Annex G)
To shut down the Annex G border element (BE), use the shutdown command in Annex G configuration mode. To reinstate the Annex G BE, use the no form of this command.
shutdown
no shutdown
Syntax Description
This command has no arguments or keywords.
Command Default
The Annex G border element is not shut down.
Command Modes
Annex G configuration
Command History
Release
|
Modification
|
12.2(2)XA
|
This command was introduced.
|
12.2(4)T
|
This command was integrated into Cisco IOS Release 12.2(4)T. This command was not supported on the Cisco AS5300, Cisco AS5350, and Cisco AS5400 in this release.
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12.2(2)XB1
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This command was implemented on the Cisco AS5850.
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12.2(11)T
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This command was integrated into Cisco IOS Release 12.2(11)T.
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Usage Guidelines
While the Annex G BE is in shutdown state, all Annex G messages received from neighbors are ignored and the colocated gatekeeper does not use the Annex G BE for address resolution.
Examples
The following example shuts the BE down:
Router(config)# call-router h323-annexg be20
Router(config-annexg)# shutdown
Related Commands
Command
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Description
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call-router
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Enables the Annex G border element configuration commands.
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show call-router status
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Displays the Annex G BE status.
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shutdown (dial peer)
To change the administrative state of the selected dial peer from up to down, use the shutdown command in dial peer configuration mode. To change the administrative state of this dial peer from down to up, use the no form of this command.
shutdown
no shutdown
Syntax Description
This command has no arguments or keywords.
Command Default
No shutdown
Command Modes
Dial peer configuration
Command History
Release
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Modification
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11.3(1)T
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This command was introduced on the Cisco 3600 series.
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12.1(1)
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This command was modified for store-and-forward fax.
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Usage Guidelines
When a dial peer is shut down, you cannot initiate calls to that peer.
This command applies to both on-ramp and off-ramp store-and-forward fax functions.
Examples
The following example changes the administrative state of voice telephony (plain old telephone service [POTS]) dial peer 10 to down:
The following example changes the administrative state of voice telephony (POTS) dial peer 10 to up:
Related Commands
Command
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Description
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dial-peer voice
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Enters dial peer configuration mode, defines the type of dial peer, and defines the dial-peer tag number.
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shutdown (DSP Farm profile)
To disable the digital signal processor (DSP) farm profile, use the shutdown command in DSP farm profile configuration mode. To allocate DSP farm resources and associate with the application, use the no form of this command.
shutdown
no shutdown
Syntax Description
This command has no arguments or keywords.
Command Default
Disabled
Command Modes
DSP farm profile configuration
Command History
Release
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Modification
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12.3(8)T
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This command was introduced.
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Usage Guidelines
It is essential that the profile be disabled by using the shutdown command before a DSP farm profile is updated.
Examples
The following example allocates DSP farm resources and associates with the application:
Router(config-dspfarm-profile)# no shutdown
Related Commands
Command
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Description
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codec (dspfarm-profile)
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Specifies the codecs supported by a DSP farm profile.
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description (dspfarm-profile)
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Includes a specific description about the DSP farm profile.
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dspfarm profile
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Enters the DSP farm profile configuration mode and defines a profile for DSP farm services.
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maximum sessions (dspfarm-profile)
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Specifies the maximum number of sessions that need to be supported by the profile.
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shutdown (gatekeeper)
To disable the gatekeeper, use the shutdown command in gatekeeper configuration mode. To enable the gatekeeper, use the no form of this command.
shutdown
no shutdown
Syntax Description
This command has no arguments or keywords.
Command Default
Disabled (shut down)
Command Modes
Gatekeeper configuration
Command History
Release
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Modification
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11.3(2)NA
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This command was introduced on the Cisco 2500 series and Cisco 3600 series.
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12.0(3)T
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The command was integrated into Cisco IOS Release 12.0(3)T and implemented on the Cisco MC3810.
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Usage Guidelines
The gatekeeper does not have to be enabled before you can use the other gatekeeper configuration commands. In fact, it is recommended that you complete the gatekeeper configuration before bringing up the gatekeeper because some characteristics may be difficult to alter while the gatekeeper is running, as there may be active registrations or calls.
The no shutdown command enables the gatekeeper, but it does not make the gatekeeper operational. The two exceptions to this are as follows:
•If no local zones are configured, a no shutdown command places the gatekeeper in INACTIVE mode waiting for a local zone definition.
•If local zones are defined to use an HSRP virtual address, and the HSRP interface is in STANDBY mode, the gatekeeper goes into HSRP STANDBY mode. Only when the HSRP interface is ACTIVE does the gatekeeper go into the operational UP mode.
Examples
The following command disables a gatekeeper:
Related Commands
Command
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Description
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shutdown (gateway)
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Shuts down all VoIP call service on a gateway.
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shutdown (gateway)
To shut down all VoIP call service on a gateway, use the shutdown command in voice service configuration mode. To enable VoIP call service, use the no form of this command.
shutdown [forced]
no shutdown
Syntax Description
forced
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(Optional) Forces the gateway to immediately terminate all in-progress calls.
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Command Default
Call service is enabled
Command Modes
Voice service configuration
Command History
Release
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Modification
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12.3(1)
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This command was introduced.
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Examples
The following example shows VoIP call service being shut down on a Cisco gateway:
The following example shows VoIP call service being enabled on a Cisco gateway:
Related Commands
Command
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Description
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shutdown (gatekeeper)
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Disables the gatekeeper.
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shutdown (mediacard)
To disable a selected media card, use the shutdown command in mediacard configuration mode. To enable a selected media card, use the no form of this command.
shutdown
no shutdown
Syntax Description
This command has no arguments or keywords.
Command Default
No default behavior or values
Command Modes
Media card configuration
Command History
Release
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Modification
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12.3(8)XY
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This command was introduced on the Communication Media Module.
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12.3(14)T
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This command was integrated into Cisco IOS Release 12.3(14)T.
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12.4(3)
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This command was integrated into Cisco IOS Release 12.4(3).
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Usage Guidelines
Use the no shutdown command at the end of media card configuration. If there are any active connections when you disable the media card, the Digital Signal Processor Resource Manager (DSPRM) displays a warning message indicating that the DSP resources allocated on other media cards for some of the resource pool in this media card will be removed or that there are active connections available in this resource pool and prompts you for a response. Profiles that use resources on this card must be brought up separately after using this command.
Examples
The following example shows how to enable a media card:
Related Commands
Command
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Description
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resource-pool
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Creates a DSP resource pool on the selected media card.
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shutdown (auto-config application)
To disable an auto-configuration application for download, use the shutdown command in auto-config application configuration mode. To enable an auto-configuration application for download, use the no form of this command.
shutdown
no shutdown
Syntax Description
This command has no keywords or arguments.
Command Default
Disabled
Command Modes
Auto-config application configuration
Command History
Release
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Modification
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12.3(8)XY
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This command was introduced on the Communication Media Module.
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12.3(14)T
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This command was integrated into Cisco IOS Release 12.3(14)T.
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Examples
The following example shows the shutdown command used to enable an auto-configuration application for download:
Router(auto-config-app)# no shutdown
Related Commands
Command
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Description
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auto-config
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Enables auto-configuration or enters auto-config application configuration mode for the SCCP application.
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show auto-config
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Displays the current status of auto-configuration applications.
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shutdown (RLM)
To shut down all of the links under the RLM group, use the shutdown command in RLM configuration mode. RLM does not try to reestablish those links until the command is negated. To disable this function, use the no form of this command.
shutdown
no shutdown
Syntax Description
This command has no arguments or keywords.
Command Default
Disabled
Command Modes
RLM configuration
Command History
Release
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Modification
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11.3(7)
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This command was introduced.
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Related Commands
Command
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Description
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clear interface
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Resets the hardware logic on an interface.
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clear rlm group
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Clears all RLM group time stamps to zero.
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interface
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Defines the IP addresses of the server, configures an interface type, and enters interface configuration mode.
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link (RLM)
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Specifies the link preference.
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protocol rlm port
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Reconfigures the port number for the basic RLM connection for the whole rlm-group.
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retry keepalive
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Allows consecutive keepalive failures a certain amount of time before the link is declared down.
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server (RLM)
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Defines the IP addresses of the server.
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show rlm group statistics
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Displays the network latency of the RLM group.
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show rlm group status
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Displays the status of the RLM group.
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show rlm group timer
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Displays the current RLM group timer values.
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timer
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Overwrites the default setting of timeout values.
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shutdown (settlement)
To deactivate the settlement provider, use the shutdown command in settlement configuration mode. To activate a settlement provider, use the no version of the command.
shutdown
no shutdown
Syntax Description
This command has no arguments or keywords.
Command Default
The default status of a settlement provider is deactivated. The settlement provider is down.
Command Modes
Settlement configuration
Command History
Release
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Modification
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12.0(4)XH1
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This command was introduced on the Cisco 2500 series, Cisco 3600 series, and Cisco AS5300.
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12.1(1)T
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This command was integrated into Cisco IOS Release 12.1(1)T.
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Usage Guidelines
Use this command at the end of the configuration of a settlement server to bring up the provider. This command activates the provider. Otherwise, transactions do not go through the provider to be audited and charged. Use the shutdown command to deactivate the provider.
Examples
The following example enables a settlement server:
The following example disables a settlement server:
Related Commands
Command
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Description
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connection-timeout
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Configures the time that a connection is maintained after completing a communication exchange.
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customer-id
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Identifies a carrier or ISP with a settlement provider.
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device-id
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Specifies a gateway associated with a settlement provider.
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encryption
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Sets the encryption method to be negotiated with the provider.
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max-connection
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Sets the maximum number of simultaneous connections to be used for communication with a settlement provider.
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response-timeout
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Configures the maximum time to wait for a response from a server.
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retry-delay
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Sets the time between attempts to connect with the settlement provider.
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session-timeout
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Sets the interval for closing the connection when there is no input or output traffic.
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settlement
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Enters settlement configuration mode and specifies the attributes specific to a settlement provider.
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type
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Configures an SAA-RTR operation type.
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shutdown (voice-port)
To take the voice ports for a specific voice interface card offline, use the shutdown command in voice-port configuration mode. To put the ports back in service, use the no form of this command.
shutdown
no shutdown
Syntax Description
This command has no arguments or keywords.
Command Default
Shutdown
Command Modes
Voice-port configuration
Command History
Release
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Modification
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11.3(1)T
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This command was introduced on the Cisco 3600 series.
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Usage Guidelines
When you use this command, all ports on the voice interface card are disabled. When you use the no form of the command, all ports on the voice interface card are enabled. A telephone connected to an interface hears dead silence when a port is shut down.
Examples
The following example takes voice port 1/1/0 offline and shuts down both voice ports 1/1/0 and 1/1/1:
Related Commands
Command
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Description
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shutdown (port)
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Disables a port.
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