show call history fax
To display the call history table for fax transmissions, use the show call history fax command in user EXEC or privileged EXEC mode.
show call history fax [brief [id identifier] | compact [duration {less | more} time]
| id identifier | last number]
Syntax Description
brief |
(Optional) Displays a truncated version of the call history table. |
id identifier |
(Optional) Displays only the call with the specified identifier. Range is a hex value from 1 to FFFF. |
compact |
(Optional) Displays a compact version. |
duration time |
(Optional) Displays history information for calls that are longer or shorter than a specified time value. The arguments and keywords are as follows: •less—Displays calls shorter than the value in the time argument. •more—Displays calls longer than the value in the time argument. •time—Elapsed time, in seconds. Range is from 1 to 2147483647. |
last number |
(Optional) Displays the last calls connected, where the number of calls that appear is defined by the number argument. Range is from 1 to 100. |
Command Modes
User EXEC
Privileged EXEC
Command History
|
|
11.3(1)T |
This command was introduced on the Cisco 3600 series. |
12.0(3)XG |
This command was implemented for Voice over Frame Relay (VoFR) on the Cisco 2600 series and Cisco 3600 series. |
12.0(4)XJ |
This command was modified for store-and-forward fax. |
12.0(4)T |
This command was modified. The brief keyword was added, and the command was implemented on the Cisco 7200 series. |
12.0(7)XK |
This command was modified. The brief keyword was implemented on the Cisco MC3810. |
12.1(2)T |
This command was integrated into Cisco IOS Release 12.1(2)T. |
12.1(5)XM |
This command was implemented on the Cisco AS5800. |
12.1(5)XM2 |
This command was implemented on the Cisco AS5350 and Cisco AS5400. |
12.2(2)XA |
This command was modified. The output of this command was modified to indicate whether the call in question has been established using Annex E. |
12.2(4)T |
This command was integrated into Cisco IOS Release 12.2(4)T. |
12.2(2)XB1 |
This command was implemented on the Cisco AS5850. |
12.2(8)T |
This command was integrated into Cisco IOS Release 12.2(8)T. Support for the Cisco AS5350, Cisco AS5400, Cisco AS5800, and Cisco AS5850 was not included in this release. |
12.2(11)T |
This command was implemented on the Cisco AS5350, Cisco AS5400, Cisco AS5800, and Cisco AS5850. |
12.3(1) |
This command was modified. The following fields were added: FaxRelayMaxJitterBufDepth, FaxRelayJitterBufOverFlow, FaxRelayHSmodulation, and FaxRelayNumberOfPages. |
12.3(14)T |
This command was modified. T.38 fax relay call statistics were made available to Call Detail Records (CDRs) through vendor-specific attributes (VSAs) and added to the call log. |
12.4(15)T |
This command was modified. The Port and BearerChannel display fields were added to the TELE call leg record of the command output. |
12.4(16) |
This command was modified. The Port and BearerChannel display fields were added to the TELE call leg record of the command output. |
12.4(22)T |
This command was modified. Command output was updated to show IPv6 information. |
Usage Guidelines
This command displays a call-history table that contains a list of fax calls connected through the router in descending time order. The maximum number of calls contained in the table can be set to a number from 0 to 500 using the dial-control-mib command in global configuration mode. The default maximum number of table entries is 50. Each call record is aged out of the table after a configurable number of minutes has elapsed, also specified by the dial-control-mib command. The default timer value is 15 minutes.
You can display subsets of the call history table by using specific keywords. To display the last calls connected through this router, use the keyword last, and define the number of calls to be displayed with the number argument.
To display a truncated version of the call history table, use the brief keyword.
This command applies to both on-ramp and off-ramp store-and-forward fax functions.
Examples
The following is sample output from the show call history fax command:
Router# show call history fax
DisconnectText=normal call clearing (16)
ConnectionId=[0xD9ACDFF1 0x9F5D11D7 0x8002CF18 0xB9C3632]
IncomingConnectionId=[0xD9ACDFF1 0x9F5D11D7 0x8002CF18 0xB9C3632]
FaxRelayMaxJitterBufDepth = 0 ms
FaxRelayJitterBufOverFlow = 0
FaxRelayNumberOfPages = 0
OriginalCallingNumber=4085550130
OriginalCalledNumber=52930
OriginalRedirectCalledNumber=
OriginalRedirectCalledOctet=0xFF
TranslatedCallingNumber=4085550130
TranslatedCallingOctet=0x0
TranslatedCalledNumber=52930
TranslatedCalledOctet=0xE9
TranslatedRedirectCalledNumber=
TranslatedRedirectCalledOctet=0xFF
GwReceivedCalledNumber=52930
GwReceivedCalledOctet3=0xE9
GwReceivedCallingNumber=4085550130
GwReceivedCallingOctet3=0x0
GwReceivedCallingOctet3a=0x80
Table 69 provides an alphabetical listing of the fields displayed in the output of the show call history fax command and a description of each field.
Table 69 show call history fax Field Descriptions
|
|
ACOM Level |
Current ACOM level for this call. ACOM is the combined loss achieved by the echo canceler, which is the sum of the Echo Return Loss, Echo Return Loss Enhancement, and nonlinear processing loss for the call. |
BearerChannel |
Identification of the bearer channel carrying the call. |
Buffer Drain Events |
Total number of jitter buffer drain events. |
Buffer Fill Events |
Total number of jitter buffer fill events. |
CallDuration |
Length of the call, in hours, minutes, and seconds, hh:mm:ss. |
CallerName |
Voice port station name string. |
CallOrigin |
Call origin: answer or originate. |
CallState |
Current state of the call. |
ChargedUnits |
Total number of charging units that apply to this peer since system startup. The unit of measure for this field is hundredths of second. |
CodecBytes |
Payload size, in bytes, for the codec used. |
CoderTypeRate |
Negotiated coder rate. This value specifies the send rate of voice or fax compression to its associated call leg for this call. |
ConnectionId |
Global call identifier for this gateway call. |
ConnectTime |
Time, in milliseconds (ms), at which the call was connected. |
Consecutive-packets-lost Events |
Total number of consecutive (two or more) packet-loss events. |
Corrected packet-loss Events |
Total number of packet-loss events that were corrected using the RFC 2198 method. |
Dial-Peer |
Tag of the dial peer sending this call. |
DisconnectCause |
Cause code for the reason this call was disconnected. |
DisconnectText |
Descriptive text explaining the reason for the disconnect. |
DisconnectTime |
Time, in ms, when this call was disconnected. |
EchoCancellerMaxReflector=64 |
The location of the largest reflector, in ms. The reflector size does not exceed the configured echo path capacity. For example, if 32 ms is configured, the reflector does not report beyond 32 ms. |
ERLLevel |
Current Echo Return Loss (ERL) level for this call. |
FaxTxDuration |
Duration of fax transmission from this peer to the voice gateway for this call. You can derive the Fax Utilization Rate by dividing the FaxTxDuration value by the TxDuration value. |
FaxRelayJitterBufOverFlow |
Count of number of network jitter buffer overflows (number of packets). These packets are equivalent to lost packets. |
FaxRelayMaxJitterBufDepth |
Maximum depth of jitter buffer (in ms). |
FaxRelayHSmodulation |
Most recent high-speed modulation used. |
FaxRelayNumberOfPages |
Number of pages transmitted. |
GapFillWithInterpolation |
Duration of a voice signal played out with a signal synthesized from parameters, or samples of data preceding and following in time because voice data was lost or not received in time from the voice gateway for this call. |
GapFillWithRedundancy |
Duration of a voice signal played out with a signal synthesized from available redundancy parameters because voice data was lost or not received in time from the voice gateway for this call. |
GapFillWithPrediction |
Duration of the voice signal played out with signal synthesized from parameters, or samples of data preceding in time, because voice data was lost or not received in time from the voice gateway for this call. Examples of such pullout are frame-eraser and frame-concealment strategies in G.729 and G.723.1 compression algorithms. |
GapFillWithSilence |
Duration of a voice signal replaced with silence because voice data was lost or not received in time for this call. |
GENERIC |
Generic or common parameters, that is, parameters that are common for VoIP and telephony call legs. |
GwReceivedCalledNumber, GwReceivedCalledOctet3, GwReceivedCallingNumber, GwReceivedCallingOctet3, GwReceivedCallingOctet3a |
Call information received at the gateway. |
H323 call-legs |
Total H.323 call legs for which call records are available. |
HiWaterPlayoutDelay |
High-water-mark Voice Playout FIFO Delay during this call. |
ImgPages |
The fax pages that have been processed. |
Incoming ConnectionId |
The incoming_GUID. It can be different with ConnectionId (GUID) when there is a long_pound or blast_call feature involved. In those cases, incoming_GUID is unique for all the subcalls that have been generated, and GUID is different for each subcall. |
Index |
Dial peer identification number. |
InfoActivity |
Active information transfer activity state for this call. |
InfoType |
Information type for this call; for example, voice or fax. |
InSignalLevel |
Active input signal level from the telephony interface used by this call. |
Last Buffer Drain/Fill Event |
Elapsed time since the last jitter buffer drain or fill event, in seconds. |
LogicalIfIndex |
Index number of the logical interface for this call. |
LoWaterPlayoutDelay |
Low-water-mark Voice Playout FIFO Delay during this call. |
LowerIFName |
Physical lower interface information. Appears only if the medium is ATM, Frame Relay (FR), or High-Level Data Link Control (HDLC). |
Media |
Medium over which the call is carried. If the call is carried over the (telephone) access side, the entry is TELE. If the call is carried over the voice network side, the entry is either ATM, FR, or HDLC. |
Modem passthrough signaling method in use |
Indicates that this is a modem pass-through call and that named signaling events (NSEs)—a Cisco-proprietary version of named telephone events in RFC 2833—are used for signaling codec upspeed. The upspeed method is the method used to dynamically change the codec type and speed to meet network conditions. This means that you might move to a faster codec when you have both voice and data calls and then slow down when there is only voice traffic. |
NoiseLevel |
Active noise level for this call. |
OnTimeRvPlayout |
Duration of voice playout from data received on time for this call. Derive the Total Voice Playout Duration for Active Voice by adding the OnTimeRvPlayout value to the GapFill values. |
OriginalCallingNumber, OriginalCalling Octet, OriginalCalledNumber, OriginalCalledOctet, OriginalRedirectCalledNumber, OriginalRedirectCalledOctet |
Original call information regarding calling, called, and redirect numbers, as well as octet-3s. Octet-3s are information elements (IEs) of Q.931 that include type of number, numbering plan indicator, presentation indicator, and redirect reason information. |
OutSignalLevel |
Active output signal level to the telephony interface used by this call. |
PeerAddress |
Destination pattern or number associated with this peer. |
PeerId |
ID value of the peer table entry to which this call was made. |
PeerIfIndex |
Voice port index number for this peer. For ISDN media, this would be the index number of the B channel used for this call. |
PeerSubAddress |
Subaddress when this call is connected. |
Percent Packet Loss |
Total percent packet loss. |
Port |
Identification of the voice port carrying the call. |
ReceiveBytes |
Number of bytes received by the peer during this call. |
ReceiveDelay |
Average Playout FIFO Delay plus the Decoder Delay during this voice call. |
ReceivePackets |
Number of packets received by this peer during this call. |
ReleaseSource |
Number value of the release source. |
RemoteIPAddress |
Remote system IP address for the VoIP call. |
RemoteUDPPort |
Remote system User Datagram Protocol (UDP) listener port to which voice packets are sent. |
RoundTripDelay |
Voice packet round-trip delay between the local and remote systems on the IP backbone for this call. |
SelectedQoS |
Selected Resource Reservation Protocol (RSVP) quality of service (QoS) for this call. |
SessionProtocol |
Session protocol used for an Internet call between the local and remote routers through the IP backbone. |
SessionTarget |
Session target of the peer used for this call. |
SetupTime |
Value of the system UpTime, in ms, when the call associated with this entry was started. |
SignalingType |
Signaling type for this call; for example, channel-associated signaling (CAS) or common-channel signaling (CCS). |
SIP call-legs |
Total SIP call legs for which call records are available. |
Telephony call-legs |
Total telephony call legs for which call records are available. |
Time between Buffer Drain/Fills |
Minimum and maximum durations between jitter buffer drain or fill events, in seconds. |
TranslatedCallingNumber, TranslatedCallingOctet, TranslatedCalledNumber, TranslatedCalledOctet, TranslatedRedirectCalled Number, TranslatedRedirectCalledOctet |
Translated call information. |
TransmitBytes |
Number of bytes sent by this peer during this call. |
TransmitPackets |
Number of packets sent by this peer during this call. |
TxDuration |
The length of the call. Appears only if the medium is TELE. |
VAD |
Whether voice activation detection (VAD) was enabled for this call. |
VoiceTxDuration |
Duration of voice transmission from this peer to the voice gateway for this call. Derive the Voice Utilization Rate by dividing the VoiceTxDuration value by the TxDuration value. |
The following is sample output from the show call history fax brief command:
Router# show call history fax brief
<ID>: <start>hs.<index> +<connect> +<disc> pid:<peer_id> <direction> <addr>
tx:<packets>/<bytes> rx:<packets>/<bytes> <disc-cause>(<text>)
IP <ip>:<udp> rtt:<time>ms pl:<play>/<gap>ms lost:<lost>/<early>/<late>
delay:<last>/<min>/<max>ms <codec>
Telephony <int>: tx:<tot>/<voice>/<fax>ms <codec> noise:<lvl>dBm acom:<lvl>dBm
2 : 5996450hs.25 +-1 +3802 pid:100 Answer 408
tx:0/0 rx:0/0 1F (T30 T1 EOM timeout)
Telephony : tx:38020/38020/0ms g729r8 noise:0dBm acom:0dBm
2 : 5996752hs.26 +-1 +3500 pid:110 Originate uut1@linux2.allegro.com
tx:0/0 rx:0/0 3F (The e-mail was not sent correctly. Remote SMTP server said: 354 )
IP 14.0.0.1 AcceptedMime:0 DiscardedMime:0
3 : 6447851hs.27 +1111 +3616 pid:310 Originate 576341.
tx:11/14419 rx:0/0 10 (Normal connection)
Telephony : tx:36160/11110/25050ms g729r8 noise:115dBm acom:-14dBm
3 : 6447780hs.28 +1182 +4516 pid:0 Answer
tx:0/0 rx:0/0 10 (normal call clearing.)
IP 0.0.0.0 AcceptedMime:0 DiscardedMime:0
4 : 6464816hs.29 +1050 +3555 pid:310 Originate 576341.
tx:11/14413 rx:0/0 10 (Normal connection)
Telephony : tx:35550/10500/25050ms g729r8 noise:115dBm acom:-14dBm
4 : 6464748hs.30 +1118 +4517 pid:0 Answer
tx:0/0 rx:0/0 10 (normal call clearing.)
IP 0.0.0.0 AcceptedMime:0 DiscardedMime:0
5 : 6507900hs.31 +1158 +2392 pid:100 Answer 4085763413
tx:0/0 rx:3/3224 10 (Normal connection)
Telephony : tx:23920/11580/12340ms g729r8 noise:0dBm acom:0dBm
5 : 6508152hs.32 +1727 +2140 pid:110 Originate uut1@linux2.allegro.com
tx:0/2754 rx:0/0 3F (service or option not available, unspecified)
IP 14.0.0.4 AcceptedMime:0 DiscardedMime:0
6 : 6517176hs.33 +1079 +3571 pid:310 Originate 576341.
tx:11/14447 rx:0/0 10 (Normal connection)
Telephony : tx:35710/10790/24920ms g729r8 noise:115dBm acom:-14dBm
6 : 6517106hs.34 +1149 +4517 pid:0 Answer
tx:0/0 rx:0/0 10 (normal call clearing.)
IP 0.0.0.0 AcceptedMime:0 DiscardedMime:0
7 : 6567382hs.35 +1054 +3550 pid:310 Originate 576341.
tx:11/14411 rx:0/0 10 (Normal connection)
Telephony : tx:35500/10540/24960ms g729r8 noise:115dBm acom:-14dBm
7 : 6567308hs.36 +1128 +4517 pid:0 Answer
tx:0/0 rx:0/0 10 (normal call clearing.)
IP 0.0.0.0 AcceptedMime:0 DiscardedMime:0
The following example shows output for the show call history fax command with the T.38 Fax Relay statistics:
Router# show call history fax
DisconnectText=normal call clearing (16)
DisconnectTime=9936000 ms
CallDuration=00:01:00 sec
ConnectionId=[0xD6635DD5 0x9FA411D8 0x8005000A 0xF4107CA0]
IncomingConnectionId=[0xD6635DD5 0x9FA411D8 0x8005000A 0xF4107CA0]
FaxRelayMaxJitterBufDepth=560 ms
FaxRelayJitterBufOverFlow=0
FaxRelayMostRecentHSmodulation=V.17/short/14400
FaxRelayInitHSmodulation=V.17/long/14400
FaxRelayDirection=Transmit
FaxRelayEcmStatus=ENABLED
FaxRelayEncapProtocol=T.38 (UDPTL)
FaxRelayNsfCountryCode=Japan
FaxRelayNsfManufCode=0031B8EE80C48511DD0D0000DDDD0000DDDD000000000000000022ED00B0A400
FaxRelayFaxSuccess=Success
OriginalCallingOctet=0x80
OriginalCalledNumber=41021
OriginalRedirectCalledNumber=
OriginalRedirectCalledOctet=0xFF
TranslatedCallingNumber=41023
TranslatedCallingOctet=0x80
TranslatedCalledNumber=41021
TranslatedCalledOctet=0xA1
TranslatedRedirectCalledNumber=
TranslatedRedirectCalledOctet=0xFF
GwReceivedCalledNumber=41021
GwReceivedCalledOctet3=0xA1
Table 70 describes the fields not shown in Table 69.
Table 70 show call history fax Field Descriptions
|
|
FaxRelayDirection |
Direction of fax relay. |
FaxRelayEcmStatus |
Fax relay error correction mode status. |
FaxRelayEncapProtocol |
Fax relay encapsulation protocol. |
FaxRelayFaxSuccess |
Fax relay success. |
FaxRelayInitHSmodulation |
Fax relay initial high speed modulation. |
FaxRelayMostRecentHSmodulation |
Fax relay most recent high speed modulation. |
FaxRelayNsfCountryCode |
Fax relay Nonstandard Facilities (NSF) country code. |
FaxRelayNsfManufCode |
Fax relay NSF manufacturers code. |
FaxRelayPktLossConceal |
Fax relay packet loss conceal. |
Related Commands
|
|
dial-control-mib |
Specifies attributes for the call history table. |
show call active fax |
Displays call information for fax transmissions that are in progress. |
show call active voice |
Displays call information for voice calls that are in progress. |
show call history voice |
Displays the call history table for voice calls. |
show dial-peer voice |
Displays configuration information for dial peers. |
show num-exp |
Displays how the number expansions are configured in VoIP. |
show voice port |
Displays configuration information about a specific voice port. |
show call history media
To display the call history table for media calls, use the show call history media command in user EXEC or privileged EXEC mode.
show call history media [[brief] [id identifier] | compact [duration {less | more} seconds | last number]
Syntax Description
brief |
(Optional) Displays a truncated version of the call history table. |
id identifier |
(Optional) Displays only the call with the specified identifier. The range is from 1 to FFFF. |
compact |
(Optional) Displays a compact version of the call history table. |
duration |
(Optional) Displays the call history for the specified time duration. |
less |
Displays the call history for shorter duration calls. |
more |
Displays the call history for longer duration calls. |
seconds |
Time, in seconds. The range is from 1 to 2147483647. |
last number |
(Optional) Displays the last calls connected, where the number of calls that appear is defined by the number argument. The range is from 1 to 100. |
Command Modes
User EXEC (>)
Privileged EXEC (#)
Command History
|
|
12.4(15)T |
This command was introduced. |
Usage Guidelines
This command displays a call-history table that contains a list of media calls connected through the router in descending time order. The maximum number of calls contained in the table can be set to a number from 0 to 500 using the dial-control-mib command in global configuration mode. The default maximum number of table entries is 50. Each call record is aged out of the table after a configurable number of minutes has elapsed, also specified by the dial-control-mib command. The default timer value is 15 minutes.
You can display subsets of the call history table by using specific keywords. To display the last calls connected through this router, use the last keyword, and define the number of calls to be displayed with the number argument.
To display a truncated version of the call history table, use the brief keyword.
When a media call is active, you can display its statistics by using the show call active media command.
Examples
The following is sample output from the show call history media command:
Router# show call history media
Call agent controlled call-legs: 0
PeerAddress=sip:mrcpv2ASRServer@10.5.18.224:5060
DisconnectText=normal call clearing (16)
CallDuration=00:00:10 sec
ConnectionId[0x2FB5B737 0xC3511DB 0x8005000B 0x5FDA0EF4]
IncomingConnectionId[0x2FB5B737 0xC3511DB 0x8005000B 0x5FDA0EF4]
RemoteIPAddress=10.5.18.224
RemoteSignallingIPAddress=10.5.18.224
RemoteSignallingPort=5060
RemoteMediaIPAddress=10.5.18.224
Separate H245 Connection=FALSE
ProtocolCallId=2FBDA670-C3511DB-8015C48C-6A894889@10.5.14.2
SessionTarget=10.5.18.224
GapFillWithPrediction=0 ms
GapFillWithInterpolation=2740 ms
GapFillWithRedundancy=0 ms
HiWaterPlayoutDelay=100 ms
LoWaterPlayoutDelay=40 ms
cvVoIPCallHistoryIcpif=16
OriginalRedirectCalledNumber=
OriginalRedirectCalledOctet=0x0
TranslatedCallingNumber=555-0100
TranslatedCallingOctet=0x21
TranslatedCalledOctet=0xC1
TranslatedRedirectCalledNumber=
TranslatedRedirectCalledOctet=0xFF
GwOutpulsedCallingNumber=555-0101
GwOutpulsedCallingOctet3=0x21
GwOutpulsedCallingOctet3a=0x81
LongDurationCallDetected=no
LongDurationCallTimerStamp=
LongDurationCallDuration=
PeerAddress=sip:mrcpv2TTSServer@10.5.18.224:5060
DisconnectText=normal call clearing (16)
CallDuration=00:00:10 sec
ConnectionId[0x2FB5B737 0xC3511DB 0x8005000B 0x5FDA0EF4]
IncomingConnectionId[0x2FB5B737 0xC3511DB 0x8005000B 0x5FDA0EF4]
RemoteIPAddress=10.5.18.224
RemoteSignallingIPAddress=10.5.18.224
RemoteSignallingPort=5060
RemoteMediaIPAddress=10.5.18.224
Separate H245 Connection=FALSE
ProtocolCallId=2FBC6E20-C3511DB-8013C48C-6A894889@10.5.14.2
SessionTarget=10.5.18.224
GapFillWithPrediction=0 ms
GapFillWithInterpolation=2740 ms
GapFillWithRedundancy=0 ms
HiWaterPlayoutDelay=100 ms
LoWaterPlayoutDelay=40 ms
cvVoIPCallHistoryIcpif=16
OriginalRedirectCalledNumber=
OriginalRedirectCalledOctet=0x0
TranslatedCallingNumber=555-0102
TranslatedCallingOctet=0x21
TranslatedCalledOctet=0xC1
TranslatedRedirectCalledNumber=
TranslatedRedirectCalledOctet=0xFF
GwOutpulsedCallingNumber=555-0103
GwOutpulsedCallingOctet3=0x21
GwOutpulsedCallingOctet3a=0x81
LongDurationCallDetected=no
LongDurationCallTimerStamp=
LongDurationCallDuration=
PeerAddress=sip:mrcpv2ASRServer@10.5.18.224:5060
DisconnectText=normal call clearing (16)
CallDuration=00:00:18 sec
ConnectionId[0x6B02FC0C 0xC3511DB 0x8006000B 0x5FDA0EF4]
IncomingConnectionId[0x6B02FC0C 0xC3511DB 0x8006000B 0x5FDA0EF4]
RemoteIPAddress=10.5.18.224
RemoteSignallingIPAddress=10.5.18.224
RemoteSignallingPort=5060
RemoteMediaIPAddress=10.5.18.224
Separate H245 Connection=FALSE
ProtocolCallId=6B0E94CD-C3511DB-801DC48C-6A894889@10.5.14.2
SessionTarget=10.5.18.224
GapFillWithPrediction=0 ms
GapFillWithInterpolation=9560 ms
GapFillWithRedundancy=0 ms
HiWaterPlayoutDelay=100 ms
LoWaterPlayoutDelay=55 ms
cvVoIPCallHistoryIcpif=16
OriginalRedirectCalledNumber=
OriginalRedirectCalledOctet=0x0
TranslatedCallingNumber=555-0100
TranslatedCallingOctet=0x21
TranslatedCalledOctet=0xC1
TranslatedRedirectCalledNumber=
TranslatedRedirectCalledOctet=0xFF
GwOutpulsedCallingNumber=555-0101
GwOutpulsedCallingOctet3=0x21
GwOutpulsedCallingOctet3a=0x81
LongDurationCallDetected=no
LongDurationCallTimerStamp=
LongDurationCallDuration=
PeerAddress=sip:mrcpv2TTSServer@10.5.18.224:5060
DisconnectText=normal call clearing (16)
CallDuration=00:00:18 sec
ConnectionId[0x6B02FC0C 0xC3511DB 0x8006000B 0x5FDA0EF4]
IncomingConnectionId[0x6B02FC0C 0xC3511DB 0x8006000B 0x5FDA0EF4]
RemoteIPAddress=10.5.18.224
RemoteSignallingIPAddress=10.5.18.224
RemoteSignallingPort=5060
RemoteMediaIPAddress=10.5.18.224
Separate H245 Connection=FALSE
ProtocolCallId=6B0CC055-C3511DB-801BC48C-6A894889@10.5.14.2
SessionTarget=10.5.18.224
GapFillWithPrediction=0 ms
GapFillWithInterpolation=9560 ms
GapFillWithRedundancy=0 ms
HiWaterPlayoutDelay=100 ms
LoWaterPlayoutDelay=55 ms
cvVoIPCallHistoryIcpif=16
OriginalRedirectCalledNumber=
OriginalRedirectCalledOctet=0x0
TranslatedCallingNumber=555-0100
TranslatedCallingOctet=0x21
TranslatedCalledOctet=0xC1
TranslatedRedirectCalledNumber=
TranslatedRedirectCalledOctet=0xFF
GwOutpulsedCallingNumber=555-0101
GwOutpulsedCallingOctet3=0x21
GwOutpulsedCallingOctet3a=0x81
LongDurationCallDetected=no
LongDurationCallTimerStamp=
LongDurationCallDuration=
Table 71 describes the significant fields shown in the display, in alphabetical order.
Table 71 show call history media Field Descriptions
|
|
CallDuration |
Length of the call, in hours, minutes, and seconds, hh:mm:ss. |
CallOrigin |
Call origin: not answer or originate. |
ChargedUnits |
Total number of charging units that apply to this peer since system startup. The unit of measure for this field is hundredths of second. |
CodecBytes |
Payload size, in bytes, for the codec used. |
CoderTypeRate |
Negotiated coder rate. This value specifies the send rate of voice or fax compression to its associated call leg for this call. |
ConnectionId |
Global call identifier for this gateway call. |
ConnectTime |
Time, in ms, during which the call was connected. |
GapFillWithInterpolation |
Duration, in ms, of a voice signal played out with a signal synthesized from parameters, or samples of data preceding and following in time because voice data was lost or not received in time from the voice gateway for this call. |
GapFillWithRedundancy |
Duration, in ms, of a voice signal played out with a signal synthesized from available redundancy parameters because voice data was lost or not received in time from the voice gateway for this call. |
GapFillWithPrediction |
Duration, in ms, of the voice signal played out with a signal synthesized from parameters, or samples of data preceding in time, because voice data was lost or not received in time from the voice gateway for this call. Examples of such pullout are frame-eraser and frame-concealment strategies in G.729 and G.723.1 compression algorithms. |
GapFillWithSilence |
Duration, in ms, of a voice signal replaced with silence because voice data was lost or not received in time for this call. |
GENERIC |
Generic or common parameters; that is, parameters that are common for VoIP and telephony call legs. |
H323 call-legs |
Total H.323 call legs for which call records are available. |
HiWaterPlayoutDelay |
High-water-mark voice playout first in first out (FIFO) Delay during this call, in ms. |
Index |
Dial peer identification number. |
InfoType |
Information type for this call; for example, voice, speech, or fax. |
LogicalIfIndex |
Index number of the logical interface for this call. |
LoWaterPlayoutDelay |
Low-water-mark voice playout FIFO delay during this call, in ms. |
OnTimeRvPlayout |
Duration of voice playout from data received on time for this call. Derive the Total Voice Playout Duration for Active Voice by adding the OnTimeRvPlayout value to the GapFill values. |
PeerAddress |
Destination pattern or number associated with this peer. |
PeerId |
ID value of the peer table entry to which this call was made. |
PeerIfIndex |
Voice port index number for this peer. For ISDN media, this would be the index number of the B channel used for this call. |
PeerSubAddress |
Subaddress when this call is connected. |
ReceiveBytes |
Number of bytes received by the peer during this call. |
ReceiveDelay |
Average playout FIFO delay plus the decoder delay during this voice call, in ms. |
ReceivePackets |
Number of packets received by this peer during this call. |
ReleaseSource |
Number value of the release source. |
RemoteIPAddress |
Remote system IP address for the VoIP call. |
RemoteUDPPort |
Remote system User Datagram Protocol (UDP) listener port to which voice packets are sent. |
RoundTripDelay |
Voice packet round-trip delay, in ms, between the local and remote systems on the IP backbone for this call. |
SelectedQoS |
Selected Resource Reservation Protocol (RSVP) quality of service (QoS) for this call. |
SessionProtocol |
Session protocol used for an Internet call between the local and remote routers through the IP backbone. |
SessionTarget |
Session target of the peer used for this call. |
SetupTime |
Value of the system UpTime, in ms, when the call associated with this entry was started. |
SIP call-legs |
Total Session Initiation Protocol (SIP) call legs for which call records are available. |
Telephony call-legs |
Total telephony call legs for which call records are available. |
TransmitBytes |
Number of bytes sent by this peer during this call. |
TransmitPackets |
Number of packets sent by this peer during this call. |
VAD |
Whether voice activation detection (VAD) was enabled for this call. |
Related Commands
|
|
dial-control-mib |
Sets the maximum number of calls contained in the table. |
show call active media |
Displays call information for media calls in progress. |
show call history video
To display call history information for signaling connection control protocol (SCCP) video calls, use the show call history video command in user EXEC or privileged EXEC mode.
show call history video [[brief] [id identifier] | compact [duration {less | more} seconds] | last number]
Syntax Description
brief |
(Optional) Displays a truncated version of video call history information. |
id identifier |
(Optional) Displays only the video call history with the specified identifier. Range is a hexadecimal value from 1 to FFFF. |
compact |
(Optional) Displays a compact version of video call history information. |
duration |
(Optional) Displays the call history for the specified time duration. |
less |
Displays the call history for shorter duration calls. |
more |
Displays the call history for longer duration calls. |
seconds |
Time, in seconds. The range is from 1 to 2147483647. |
last number |
(Optional) Displays the last calls connected, where the number of calls that appear is defined by the number argument. The range is from 1 to 100. |
Command Modes
User EXEC (>)
Privileged EXEC (#)
Command History
|
|
|
12.4(4)XC |
Cisco Unified CME 4.0 |
This command was introduced. |
12.4(9)T |
Cisco Unified CME 4.0 |
This command was integrated into Cisco IOS Release 12.4(9)T. |
12.4(16); 12.4(15)T |
Cisco Unified CME 4.0 |
This command was modified. The Port and BearerChannel display fields were added to the TELE call leg record of the command output. |
Examples
The following is sample output from the show call history video command with the compact option:
Router# show call history video compact
<callID> A/O FAX T<sec> Codec type Peer Address IP R<ip>:<udp>
241 ANS T17 g729r8 VOIP P555-0100 192.0.2.0:16926
242 ORG T17 g729r8 TELE-VIDEO P555-0101
Table 72 describes the significant fields shown in the display.
Table 72 show call history video Field Descriptions
|
|
callID |
Unique identifier for the call leg. |
A/O |
Call leg was an answer (ANS) or an originator (ORG). |
FAX |
Fax number for the call leg. |
T<sec> |
Duration in seconds. |
Codec |
Codec used for this call leg. |
type |
Call type for this call leg. |
Peer Address |
Called or calling number of the remote peer. |
IP R<ip>:<udp> |
IP address and port number |
Total call-legs |
Total number of call legs for this call. |
Related Commands
|
|
show call active video |
Displays call information for SCCP video calls in progress. |
show call history video record
To display information about incoming and outgoing video calls, use the show call history video record command in privileged EXEC mode.
show call history video record
Syntax Description
This command has no arguments or keywords.
Command Modes
Privileged EXEC
Command History
|
|
12.0(5)XK |
This command was introduced on the Cisco MC3810. |
12.0(7)T |
This command was integrated into Cisco IOS Release 12.0(7)T. |
Examples
The following example displays information about two video calls:
Router# show call history video record
CallDuration = 39006 seconds
DisconnectText = remote hangup
Remote NSAP = 47.0091810000000002F26D4901.00107B09C645.C8
Local NSAP = 47.0091810000000002F26D4901.00107B4832E1.C8
vcd = 414, vpi = 0, vci = 158
VideoSlot = 1, VideoPort = 0
CallDuration = 557 seconds
DisconnectText = local hangup
Remote NSAP = 47.0091810000000002F26D4901.00107B09C645.C8
Local NSAP = 47.0091810000000002F26D4901.00107B4832E1.C8
vcd = 364, vpi = 0, vci = 108
VideoSlot = 1, VideoPort = 0
show call history voice
To display the call history table for voice calls, use the show call history voice command in user EXEC or privileged EXEC mode.
show call history voice [brief [id identifier] | compact [duration {less | more} seconds]
| id identifier | last number | redirect {rtpvt | tbct} | stats]
Syntax Description
brief |
(Optional) Displays a truncated version of the call history table. |
id identifier |
(Optional) Displays only the call with the specified identifier. Range is from 1 to FFFF. |
compact |
(Optional) Displays a compact version of the call history table. |
duration seconds |
(Optional) Displays history information for calls that are longer or shorter than the value of the specified seconds argument. The arguments and keywords are as follows: •less—Displays calls shorter than the seconds value. •more—Displays calls longer than the seconds value. •seconds—Elapsed time, in seconds. Range is from 1 to 2147483647. |
last number |
(Optional) Displays the last calls connected, where the number of calls that appear is defined by the number argument. Range is from 1 to 100. |
redirect |
(Optional) Displays information about calls that were redirected using Release-to-Pivot (RTPvt) or Two B-Channel Transfer (TBCT). The keywords are as follows: •rtpvt—Displays information about RTPvt calls. •tbct—Displays information about TBCT calls. |
stats |
(Optional) Displays information about digital signal processing (DSP) voice quality metrics. |
Command Modes
User EXEC
Privileged EXEC
Command History
|
|
11.3(1)T |
This command was introduced on the Cisco 3600 series. |
12.0(3)XG |
Support was added for Voice over Frame Relay (VoFR) on the Cisco 2600 series and Cisco 3600 series. |
12.0(4)XJ |
This command was modified for store-and-forward fax. |
12.0(4)T |
The brief keyword was added, and the command was implemented on the Cisco 7200 series. |
12.0(5)XK |
This command was implemented on the Cisco MC3810. |
12.0(7)XK |
The brief keyword was implemented on the Cisco MC3810. |
12.0(7)T |
This command was integrated into Cisco IOS Release 12.0(7)T. |
12.1(2)T |
This command was integrated into Cisco IOS Release 12.1(2)T. |
12.1(5)XM |
This command was implemented on the Cisco AS5800. |
12.1(5)XM2 |
This command was implemented on the Cisco AS5350 and Cisco AS5400. |
12.2(2)XA |
The output of this command was modified to indicate whether a specified call has been established using Annex E. |
12.2(4)T |
This command was integrated into Cisco IOS Release 12.2(4)T. |
12.2(2)XB1 |
This command was implemented on the Cisco AS5850. |
12.2(8)T |
This command was integrated into Cisco IOS Release 12.2(8)T. Support was not included for the Cisco AS5350, Cisco AS5400, Cisco AS5800, and Cisco AS5850. |
12.2(11)T |
Support was added for Cisco AS5350, Cisco AS5400, Cisco AS5800, and Cisco AS5850. |
12.2(13)T |
The ReleaseSource field was added to the Field Description table, and the record keyword was deleted from the command name. |
12.3(1) |
The redirect keyword was added. |
12.4(2)T |
The LocalHostname display field was added to the VoIP call leg record. |
12.4(11)XW |
The stats keyword was added. |
12.4(15)T |
The Port and BearerChannel display fields were added to the TELE call leg record of the command output. |
12.4(16) |
The Port and BearerChannel display fields were added to the TELE call leg record of the command output. |
12.4(22)T |
Command output was updated to show IPv6 information. |
Usage Guidelines
This command displays a call-history table that contains a list of voice calls connected through the router in descending time order. The maximum number of calls contained in the table can be set to a number from 0 to 500 using the dial-control-mib command in global configuration mode. The default maximum number of table entries is 50. Each call record is aged out of the table after a configurable number of minutes has elapsed. The timer value is also specified by the dial-control-mib command. The default timer value is 15 minutes.
You can display subsets of the call history table by using specific keywords. To display the last calls connected through this router, use the last keyword, and define the number of calls to be displayed with the number argument.
To display a truncated version of the call history table, use the brief keyword.
Use the show call active voice redirect command to review records for calls that implemented RTPvt or TBCT.
When a call is active, you can display its statistics by using the show call active voice command.
Examples
The following is sample output from the show call history voice command:
Router# show call history voice
DisconnectText=normal call clearing.
ConnectionId[0x4B091A27 0x3EDD0003 0x0 0xFEFD4]
RemoteIPAddress=10.14.82.14
tx_DtmfRelay=inband-voice
SessionTarget=ipv4:10.14.82.14
GapFillWithPrediction=0 ms
GapFillWithInterpolation=0 ms
GapFillWithRedundancy=0 ms
HiWaterPlayoutDelay=67 ms
LoWaterPlayoutDelay=67 ms
Modem passthrough signaling method is nse
Consecutive-packets-lost Events = 0
Corrected packet-loss Events = 0
Last Buffer Drain/Fill Event = 373sec
Time between Buffer Drain/Fills = Min 0sec Max 0sec
DisconnectText=normal call clearing.
ConnectionId=[0x4B091A27 0x3EDD0003 0x0 0xFEFD4]
VoiceTxDuration=375300 ms
The following example from a Cisco AS5350 router displays a sample of voice call history records showing release source information:
Router# show call history voice
DisconnectText=normal call clearing (16)
DisconnectText=normal call clearing (16)
ConnectionId[0x2868AD84 0x375B11D4 0x8012F7A5 0x74DE971E]
DisconnectText=normal call clearing (16)
ConnectionId=[0x2868AD84 0x375B11D4 0x8012F7A5 0x74DE971E]
The following is sample output from the show call history voice brief command:
Router# show call history voice brief
<ID>: <CallID> <start>hs.<index> +<connect> +<disc> pid:<peer_id> <direction> <addr>
dur hh:mm:ss tx:<packets>/<bytes> rx:<packets>/<bytes> <disc-cause>(<text>)
IP <ip>:<udp> rtt:<time>ms pl:<play>/<gap>ms lost:<lost>/<early>/<late>
delay:<last>/<min>/<max>ms <codec>
media inactive detected:<y/n> media cntrl rcvd:<y/n> timestamp:<time>
MODEMPASS <method> buf:<fills>/<drains> loss <overall%> <multipkt>/<corrected>
last <buf event time>s dur:<Min>/<Max>s
FR <protocol> [int dlci cid] vad:<y/n> dtmf:<y/n> seq:<y/n>
ATM <protocol> [int vpi/vci cid] vad:<y/n> dtmf:<y/n> seq:<y/n>
Telephony <int> (callID) [channel_id] tx:<tot>/<voice>/<fax>ms <codec> noise:<lvl>dBm
acom:<lvl>dBm
MODEMRELAY info:<rcvd>/<sent>/<resent> xid:<rcvd>/<sent> total:<rcvd>/<sent>/<drops>
disc:<cause code>
speeds(bps): local <rx>/<tx> remote <rx>/<tx>
Proxy <ip>:<audio udp>,<video udp>,<tcp0>,<tcp1>,<tcp2>,<tcp3> endpt: <type>/<manf>
bw: <req>/<act> codec: <audio>/<video>
tx: <audio pkts>/<audio bytes>,<video pkts>/<video bytes>,<t120 pkts>/<t120 bytes>
rx: <audio pkts>/<audio bytes>,<video pkts>/<video bytes>,<t120 pkts>/<t120 bytes>
The following is sample output from the show call history voice redirect command:
Router# show call history voice redirect tbct
index=2, xfr=tbct-notify, status=redirect_success, start_time=*00:12:25.981 UTC Mon Mar 1
1993, ctrl name=T1-2/0, tag=13
index=3, xfr=tbct-notify, status=redirect_success, start_time=*00:12:25.981 UTC Mon Mar 1
1993, ctrl name=T1-2/0, tag=13
index=4, xfr=tbct-notify, status=redirect_success, start_time=*00:13:07.091 UTC Mon Mar 1
1993, ctrl name=T1-2/0, tag=12
index=5, xfr=tbct-notify, status=redirect_success, start_time=*00:13:07.091 UTC Mon Mar 1
1993, ctrl name=T1-2/0, tag=12
Number of call-legs redirected using tbct with notify:4
Table 73 describes the significant fields shown in the show call history voice redirect tbct display.
Table 73 show call history voice redirect Field Descriptions
|
|
index |
Index number of the record in the history file. |
xfr |
Whether TBCT or TBCT with notify has been invoked. |
status |
Status of the redirect request. |
start_time |
Time, in hours, minutes, and seconds when the redirected call began. |
ctrl name |
Name of the T1 controller where the call originated. |
tag |
Call tag number that identifies the call. |
Number of call-legs redirected using tbct with notify |
Total number of call legs that were redirected using TBCT with notify. |
Related Commands
|
|
dial-control-mib |
Set the maximum number of calls contained in the table. |
show call active fax |
Displays call information for fax transmissions that are in progress. |
show call active voice |
Displays call information for voice calls that are in progress. |
show call history fax |
Displays the call history table for fax transmissions. |
show dial-peer voice |
Displays configuration information for dial peers. |
show num-exp |
Displays how the number expansions are configured in VoIP. |
show voice port |
Displays configuration information about a specific voice port. |
show call language voice
To display a summary of languages configured and the URLs of the corresponding Tool Command Language (TCL) modules for the languages that are not built-in languages, use the show call language voice command in EXEC mode.
show call language voice [language | summary]
Syntax Description
language |
(Optional) Two-character prefix configured with the call language voice command in global configuration mode, either for a prefix for a built-in language or one that you have defined; for example, "en" for English or "ru" for Russian. |
summary |
(Optional) Summary of all the languages configured and the URLs for the TCL modules other than built-in languages. |
Command Modes
EXEC
Command History
|
|
12.2(2)T |
This command was introduced. |
Usage Guidelines
This command is similar to the show call application voice command. If a language is built in, the URL listed reads "fixed." If you decide to overwrite the built-in language with your own language, the word "fixed" in the URL column changes to the actual URL where your new application lives.
Examples
The following command displays a summary of the configured languages:
Router# show call language voice summary
ru tftp://dirt/fwarlau/scripts/multilag/ru_translate.tcl
The following command displays information about Russian-language configuration:
Router# show call language voice ru
people% more ru_translate.tcl
# Script Locked by: farmerj
# Script Version: 1.1.0.0
# Script Lock Date: Sept 24 2000
#------------------------------------------------------------------
# Sept 24, 2000 Farmer Joe
# Copyright (c) 2000 by Cisco Systems, Inc.
#------------------------------------------------------------------
# puts "\t\t**** $prompt RETURNED"
Field descriptions should be self-explanatory.
Related Commands
|
|
call language voice |
Configures a TCL module. |
call language voice load |
Loads or reloads a TCL module from the configured URL location. |
debug voip ivr |
Specifies the type of VoIP IVR debug output that you want to view. |
show call application voice |
Shows and describes applications. |
show call leg
To display event logs and statistics for voice call legs, use the show call leg command in privileged EXEC mode.
show call leg {active | history} [summary | [last number | leg-id leg-id] [event-log | info]]
Syntax Description
active |
Statistics or event logs for active call legs. |
history |
Statistics or event logs for terminated call legs. |
summary |
(Optional) A summary of each call leg. |
last number |
(Optional) Selected number of most recent call legs. Not available with active keyword. |
leg-id leg-id |
(Optional) A specific call leg. Output displays event logs or statistics for that call leg. |
event-log |
(Optional) Event logs for call legs. |
info |
(Optional) Statistics for call legs. |
Command Modes
Privileged EXEC
Command History
|
|
12.3(8)T |
This command was introduced. |
Usage Guidelines
If you use the leg-id keyword, only statistics or event logs for that call leg display. To display event logs with this command, you must enable event logging with the call leg event-log command.
Examples
The following is sample output from the show call leg command using different keywords:
Router# show call leg active summary
G<id> L<id> Elog A/O FAX T<sec> Codec type Peer Address IP R<ip>:<udp>
G11DC L A Y ANS T2 None TELE P4085550198
Router# show call leg active event-log
Event log for call leg ID: A Connection ID: 11DC
buf_size=4K, log_lvl=INFO
<ctx_id>:<timestamp>:<seq_no>:<severity>:<msg_body>
A:1057277701:71:INFO: Call setup indication received, called = 4085550198, calling =
52927, echo canceller = enable, direct inward dialing
A:1057277701:72:INFO: Dialpeer = 1
A:1057277701:77:INFO: Digit collection
A:1057277701:78:INFO: Call connected using codec None
Router# show call leg active info
Information for call leg ID: A Connection ID: 11DC
ConnectionId=[0x632D2CAB 0xACEB11D7 0x80050030 0x96F8006E]
IncomingConnectionId=[0x632D2CAB 0xACEB11D7 0x80050030 0x96F8006E]
EchoCancellerMaxReflector=16685
OriginalCallingNumber=4085550198
OriginalCalledNumber=52927
OriginalRedirectCalledNumber=
OriginalRedirectCalledOctet=0xFF
TranslatedCallingNumber=4085550198
TranslatedCallingOctet=0x0
TranslatedCalledNumber=52927
TranslatedCalledOctet=0xE9
TranslatedRedirectCalledNumber=
TranslatedRedirectCalledOctet=0xFF
GwReceivedCalledNumber=52927
GwReceivedCalledOctet3=0xE9
GwReceivedCallingNumber=4085550198
GwReceivedCallingOctet3=0x0
GwReceivedCallingOctet3a=0x81
For a description of the call leg statistics, see the description for the show call active voice command.
Router# show call leg active leg-id A
Call Information - Connection ID: 11DC , Call Leg ID: A
ConnectionId=[0x632D2CAB 0xACEB11D7 0x80050030 0x96F8006E]
IncomingConnectionId=[0x632D2CAB 0xACEB11D7 0x80050030 0x96F8006E]
EchoCancellerMaxReflector=16685
OriginalCallingNumber=4085550198
OriginalCalledNumber=52927
OriginalRedirectCalledNumber=
OriginalRedirectCalledOctet=0xFF
TranslatedCallingNumber=4085550198
TranslatedCallingOctet=0x0
TranslatedCalledNumber=52927
TranslatedCalledOctet=0xE9
TranslatedRedirectCalledNumber=
TranslatedRedirectCalledOctet=0xFF
GwReceivedCalledNumber=52927
GwReceivedCalledOctet3=0xE9
GwReceivedCallingNumber=4085550198
GwReceivedCallingOctet3=0x0
GwReceivedCallingOctet3a=0x81
Call Event Log - Connection ID: 11DC , Call Leg ID: A
buf_size=4K, log_lvl=INFO
<ctx_id>:<timestamp>:<seq_no>:<severity>:<msg_body>
A:1057277701:71:INFO: Call setup indication received, called = 4085550198, calling =
52927, echo canceller = enable, direct inward dialing
A:1057277701:72:INFO: Dialpeer = 1
A:1057277701:77:INFO: Digit collection
A:1057277701:78:INFO: Call connected using codec None
Router# show call leg active leg-id A event-log
Call Event Log - Connection ID: 11DC , Call Leg ID: A
buf_size=4K, log_lvl=INFO
<ctx_id>:<timestamp>:<seq_no>:<severity>:<msg_body>
A:1057277701:71:INFO: Call setup indication received, called = 4085550198, calling =
52927, echo canceller = enable, direct inward dialing
A:1057277701:72:INFO: Dialpeer = 1
A:1057277701:77:INFO: Digit collection
A:1057277701:78:INFO: Call connected using codec None
Router# show call leg history summary
G<id> L<id> Elog A/O FAX T<sec> Codec type Peer Address IP R<ip>:<udp>
disc-cause
G11DB L 7 Y ANS T24 None TELE P4085550198 D10
G11DC L A Y ANS T159 None TELE P4085550198 D10
Router# show call leg history last 1
Call Information - Connection ID: 11DC , Call Leg ID: A
DisconnectText=normal call clearing (16)
ConnectionId=[0x632D2CAB 0xACEB11D7 0x80050030 0x96F8006E]
IncomingConnectionId=[0x632D2CAB 0xACEB11D7 0x80050030 0x96F8006E]
OriginalCallingNumber=4085550198
OriginalCalledNumber=52927
OriginalRedirectCalledNumber=
OriginalRedirectCalledOctet=0xFF
TranslatedCallingNumber=4085550198
TranslatedCallingOctet=0x0
TranslatedCalledNumber=52927
TranslatedCalledOctet=0xE9
TranslatedRedirectCalledNumber=
TranslatedRedirectCalledOctet=0xFF
GwReceivedCalledNumber=52927
GwReceivedCalledOctet3=0xE9
GwReceivedCallingNumber=4085550198
GwReceivedCallingOctet3=0x0
GwReceivedCallingOctet3a=0x81
Call Event Log - Connection ID: 11DC , Call Leg ID: A
buf_size=4K, log_lvl=INFO
<ctx_id>:<timestamp>:<seq_no>:<severity>:<msg_body>
A:1057277701:71:INFO: Call setup indication received, called = 4085550198, calling =
52927, echo canceller = enable, direct inward dialing
A:1057277701:72:INFO: Dialpeer = 1
A:1057277701:77:INFO: Digit collection
A:1057277701:78:INFO: Call connected using codec None
A:1057277860:150:INFO: Inform application call disconnected (cause = normal call clearing
(16))
A:1057277860:154:INFO: Call disconnected (cause = normal call clearing (16))
A:1057277860:155:INFO: Call released
Total call-legs with event log: 1
Router# show call leg history leg-id A event-log
Call Event Log - Connection ID: 11DC , Call Leg ID: A
buf_size=4K, log_lvl=INFO
<ctx_id>:<timestamp>:<seq_no>:<severity>:<msg_body>
A:1057277701:71:INFO: Call setup indication received, called = 4085550198, calling =
52927, echo canceller = enable, direct inward dialing
A:1057277701:72:INFO: Dialpeer = 1
A:1057277701:77:INFO: Digit collection
A:1057277701:78:INFO: Call connected using codec None
A:1057277860:150:INFO: Inform application call disconnected (cause = normal call clearing
(16))
A:1057277860:154:INFO: Call disconnected (cause = normal call clearing (16))
A:1057277860:155:INFO: Call released
Call-leg matched ID found: 1
Call-legs matched ID with event log: 1
Field descriptions should be self-explanatory.
Related Commands
|
|
call leg event-log |
Enables event logging for voice, fax, and modem call legs. |
call leg event-log dump ftp |
Enables the voice gateway to write the contents of the call-leg event log buffer to an external file. |
call leg event-log error-only |
Restricts event logging to error events only for voice call legs. |
call leg event-log max-buffer-size |
Sets the maximum size of the event log buffer for each call leg. |
call leg history event-log save-exception-only |
Saves to history only event logs for call legs that had at least one error. |
monitor call leg event-log |
Displays the event log for an active call leg in real-time. |
show callmon
To display call monitor information, use the show callmon command in user EXEC or privileged EXEC mode.
show callmon {call | gcid | subscription | trace {all | event {all | call | connection} | exec | server | subscription | trigger}}
Syntax Description
call |
Displays the active call monitor calls. |
gcid |
Displays the active global call ID information. |
subscription |
Displays the subscription information. |
trace |
Displays the trace information. |
all |
Displays all types of traces based on time. |
event |
Displays the event trace information. •all—Displays all event traces. •call—Displays event traces related to a call. •connection—Displays the event traces related to a connection. |
exec |
Displays all critical execution traces. |
server |
Displays all session server up or down traces. |
subscription |
Displays all subscription traces. |
trigger |
Displays the entire trigger structure by index. |
Command Modes
User EXEC (>)
Privileged EXEC (#))
Command History
|
|
12.4(22)T |
This command was introduced. |
Examples
The following sample output from the show callmon call command shows active call monitor calls:
Router# show callmon call
line dn sub_id number of call instance
callID 2038(19D7), *cg = 6401, cd = 6601
callID 2039(19D7), cg = 6401, *cd = 6601
Table 74 describes the significant fields shown in the display.
Table 74 show callmon call Field Descriptions
|
|
dn |
Directory number. |
number of call |
Number of call instances. |
instance |
Contents of the call instance. |
The following sample output from the show callmon gcid command shows the active global call ID information:
Router# show callmon gcid
GCID callIDs(active_entry_id)
AE48ECBC-D89311DB-87FC996E-115FF692
isConfGcid:FALSE gcid_conf:00000000-00000000-00000000-00000000
Table 75 describes the significant fields shown in the display.
Table 75 show callmon gcid Field Descriptions
|
|
GCID |
Global call ID. |
CallIDs |
Active call IDs. |
Related Commands
|
|
callmonitor |
Enables call monitoring messaging functionality on a SIP endpoint in a VoIP network. |
show call prompt-mem-usage
To display the amount of memory used by prompts, use the show call prompt-mem-usage command in privileged EXEC mode.
show call prompt-mem-usage [detail]
Syntax Description
detail |
(Optional) Displays details about memory usage and names of tones used. |
Command Modes
Privileged EXEC
Command History
|
|
12.2(15)T |
This command was introduced. |
12.3(7)T |
The detail keyword was added. |
Usage Guidelines
Use this command to display the number of prompts loaded into the gateway, the amount of memory used by the prompts, the number of prompts currently being played, and the status of prompt loads.
For calls transferred by a Cisco CallManager Express (Cisco CME) system, the ringback tone generation for commit-at-alerting uses an interactive voice response (IVR) prompt playback mechanism. Ringback tone is played to the transferred party by the Cisco CME system associated with the transferring party.
The system automatically generates tone prompts as needed on the basis of the network-locale setting made in the Cisco CME system.
Examples
The following sample output shows details about the memory usage of the prompts that are used.
Router# show call prompt-mem-usage
config'd wait active free mc total ms total
file(s) 0200 0010 0001 00189 00011 00002
memory 02097152 00081259 00055536 01960357 00136795
Prompt load counts: (counters reset 0)
success 11(1st try) 0(2nd try), failure 0
Number of prompts playing: 1
Number of start delays : 0
MCs in the ivr MC sharing table
===============================
Media Content: NoPrompt (0x83C64554)
cid=0, status=MC_READY size=24184 coding=g711ulaw refCount=0
Media Content: tone://GB_g729_tone_ringback (0x83266EC8)
URL: tone://GB_g729_tone_ringback
Table 76 describes the significant fields shown in the display.
Table 76 show call prompt-mem-usage Field Descriptions
|
|
file(s) |
Number of prompts in different queues. |
file(s) - config'd |
Maximum number of configured prompts that can be simultaneously available in memory. In the sample output, the value of 200 in this field means that loading the 201st prompt results in the oldest prompts being removed. |
file(s) -wait |
Number of prompts in the wait queue that are not being used in any call and are ready to be deleted when there is no space for a new prompt. This field lists older prompts that can be deleted. |
file(s) - active |
Number of prompts that are being used in active calls. These prompts cannot be deleted. |
file(s) - free |
Number of prompts that can be loaded without deleting any prompt from the wait queue. This is the number of configured prompts (listed under config'd) minus the total number of prompts in the wait and active states. |
file(s) - mc total |
Total number of prompts in the wait and active states. |
ms total |
Number of media streams that are currently active. One media stream is used for playing INBOX prompts. A prompt is considered an INBOX prompt if its URL is either flash:, http:, ram:, or tftp:. |
memory |
Displays the memory used by prompts, in bytes. |
memory - config'd |
Maximum amount of memory configured to be available for prompts. |
memory - wait |
Total amount of memory used by prompts in the wait list. |
memory - active |
Total amount of memory used by prompts in the active list. |
memory - free |
Amount of available memory. This is the amount of configured prompts (listed under config'd) memory minus the total amount of memory used by the prompts in the wait and active lists. |
memory - mc total |
Total amount of memory used by prompts in the wait and active lists. |
Prompt load counts |
Number of successful attempts to load a prompt on the first try and on the second try, and the number of attempts to load a prompt that failed. |
mcDynamic |
Number of dynamic element queues that are active. A dynamic element queue is a list of prompts that are played together. |
mcReader |
Number of mcReaders that are active. An mcReader is used for playing one mcDynamic queue of prompts. An mcReader is used only if the mcDynamic contains prompts that are associated with one of the following types of URL: flash:, http:, ram:, or tftp:. |
Number of prompts playing |
Number of prompts that are currently playing. |
Number of start delays |
Number of times that prompts failed to start and have subsequently restarted. |
MCs in the ivr MC sharing table |
The fields below this line of text refer to each media content (prompt) currently cached in memory. In the sample output, the only cached prompt is the built-in default prompt named "NoPrompt." |
Media Content |
Name of the prompt, which is derived from the audio file URL (the characters after the last "/" in the URL). The address in parentheses is the memory location of the prompt. |
URL |
Location of the file for the prompt that is playing. In the case of the default prompt, NoPrompt, no URL is given. |
cid |
Call identification number of the call that initiated the loading of the prompt. |
status |
Status of the media content. The following values are possible: •MC_NOT_READY—Initial status for media content. When the media content is successfully loaded, the status will change to MC_READY. •MC_READY—Media content is loaded into memory and ready for use. •MC_LOAD_FAIL—Media content failed to load. |
size |
Size of the media content, in bytes. |
coding |
Type of encoding used by the media content. |
refCount=0 |
Number of calls to which this media content is currently being streamed. |
show call resource voice stats
To display resource statistics for an H.323 gateway, use the show call resource voice stats command in privileged EXEC mode.
show call resource voice stats [ds0 | dsp]
Syntax Description
ds0 |
(Optional) Specifies the voice digital signal level zero (DS0) resource statistics information. |
dsp |
(Optional) Specifies the voice digital signal processor (DSP) resource statistics information. |
Command Modes
Privileged EXEC (#)
Command History
|
|
12.0(5)T |
This command was introduced. |
12.1(5)XM2 |
This command was integrated into Cisco IOS Release 12.1(5)XM2 |
12.2(4)T |
This command was integrated into Cisco IOS Release 12.2(4)T. |
12.2(2)XB1 |
This command was integrated into Cisco IOS Release into 12.2(2)XB1. |
12.2(8)T |
This command was modified. Support for the Cisco AS5300,Cisco AS5350, Cisco AS5400, Cisco AS5800, and Cisco AS5850 series routers is not included in this release. |
12.4(22)T |
This command was modified. The ds0 and dsp keywords were added. |
Usage Guidelines
The show call resource voice stats command displays the H.323 resources that are monitored when the resource threshold command is used to configure resource threshold reporting.
Examples
The following is sample output from the show call resource voice stats command, which shows the resource statistics for an H.323 gateway:
Router# show call resource voice stats
Resource Monitor - Dial-up Resource Statistics Information:
Table 77 describes significant fields shown in this output.
Table 77 show call resource voice stats Field Descriptions
|
|
Total channels |
Number of channels physically configured for the resource. |
Inuse channels |
Number of addressable channels that are in use. This value includes all channels that either have active calls or have been reserved for testing. |
Disabled channels |
Number of addressable channels that are physically down or that have been disabled administratively with the shutdown or busyout command. |
Pending channels |
Number of addressable channels that are pending in loadware download. |
Free channels |
Number of addressable channels that are free. |
Addressable channels |
Number of channels that can be used for a specific type of dialup service, such as H.323, which includes all the DS0 resources that have been associated with a voice plain old telephone service (POTS) dial plan profile. |
Related Commands
|
|
resource threshold |
Configures a gateway to report H.323 resource availability to the gatekeeper of the gateway. |
show call resource voice threshold |
Displays the threshold configuration settings and status for an H.323 gateway. |
show call resource voice threshold
To display the threshold configuration settings and status for an H.323 gateway, use the show call resource voice threshold command in privileged EXEC mode.
show call resource voice threshold [ds0 | dsp]
Syntax Description
ds0 |
(Optional) Specifies the voice digital signal level zero (DS0) resource statistics information. |
dsp |
(Optional) Specifies the voice digital signal processor (DSP) resource statistics information. |
Command Modes
Privileged EXEC (#)
Command History
|
|
12.0(5)T |
This command was introduced. |
12.1(5)XM2 |
This command was integrated into Cisco IOS Release 12.1(5)XM2 |
12.2(2)XB1 |
This command was integrated into Cisco IOS Release into 12.2(2)XB1. |
12.4(22)T |
This command was modified. The ds0 and dsp keywords were added. |
Usage Guidelines
The show call resource voice threshold command displays the H.323 resource thresholds that are configured with the resource threshold command.
Examples
The following is sample output from the show call resource voice threshold command, which shows the resource threshold settings and status for an H.323 gateway:
Router# show call resource voice threshold
Resource Monitor - Dial-up Resource Threshold Information:
Threshold State: low_threshold_hit
Table 78 describes the significant fields shown in the display.
Table 78 show call resource voice threshold Field Descriptions
|
|
High Water Mark |
Resource-utilization level that triggers a message indicating that H.323 resource use is high. The range is 1 to 100. A value of 100 indicates that the resource is unavailable.The default is 90. |
Low Water Mark |
Resource-utilization level that triggers a message indicating that H.323 resource use has dropped below the high-usage level. The range is 1 to 100. The default is 90. |
Related Commands
|
|
resource threshold |
Configures a gateway to report H.323 resource availability to the gatekeeper of the gateway. |
show call resource voice stats |
Displays resource statistics for an H.323 gateway. |
show call rsvp-sync conf
To display the configuration settings for Resource Reservation Protocol (RSVP) synchronization, use the show call rsvp-sync conf command in privileged EXEC mode.
show call rsvp-sync conf
Syntax Description
This command has no arguments or keywords.
Command Modes
Privileged EXEC
Command History
|
|
12.1(3)XI1 |
This command was introduced on the Cisco 2600 series, Cisco 3600 series, Cisco 7200, Cisco MC3810, Cisco AS5300, and Cisco AS5800. |
12.1(5)T |
This command was integrated into Cisco IOS Release 12.1(5)T. |
12.2(2)XB1 |
This command was implemented on the Cisco AS5850. |
12.2(8)T |
Support for the Cisco AS5300,Cisco AS5350, Cisco AS5400, Cisco AS5800, and Cisco AS5850 is not included in this release. |
12.2(11)T |
This command is supported on the Cisco AS5300, Cisco AS5350, Cisco AS5400, Cisco AS5800, and Cisco AS5850 in this release. |
Examples
The following example shows sample output from this command:
Router# show call rsvp-sync conf
VoIP QoS: RSVP/Voice Signaling Synchronization config:
Overture Synchronization is ON
Reservation Timer is set to 10 seconds
Table 79 describes significant fields shown in this output.
Table 79 show call rsvp-sync conf Field Descriptions
|
|
Overture Synchronization is ON |
Indicates whether RSVP synchronization is enabled. |
Reservation Timer is set to xx seconds |
Number of seconds for which the RSVP reservation timer is configured. |
Related Commands
|
|
call rsvp-sync |
Enables synchronization between RSVP and the H.323 voice signaling protocol. |
call rsvp-sync resv-timer |
Sets the timer for RSVP reservation setup. |
debug call rsvp-sync events |
Displays the events that occur during RSVP synchronization. |
show call rsvp-sync stats |
Displays statistics for calls that attempted RSVP reservation. |
show call rsvp-sync stats
To display statistics for calls that attempted Resource Reservation Protocol (RSVP) reservation, use the show call rsvp-sync stats command in privileged EXEC mode.
show call rsvp-sync stats
Syntax Description
This command has no arguments or keywords.
Command Modes
Privileged EXEC
Command History
|
|
12.1(3)XI1 |
This command was introduced. |
12.1(5)T |
This command was integrated into Cisco IOS Release 12.1(5)T. |
12.2(2)XB1 |
This command was implemented on the Cisco AS5850. |
12.2(11)T |
This command was integrated into Cisco IOS Release 12.2(11)T. |
Examples
The following example shows sample output from this command:
Router# show call rsvp-sync stats
VoIP QoS:Statistics Information:
Number of calls for which QoS was initiated : 18478
Number of calls for which QoS was torn down : 18478
Number of calls for which Reservation Success was notified : 0
Total Number of PATH Errors encountered : 0
Total Number of RESV Errors encountered : 0
Total Number of Reservation Timeouts encountered : 0
Table 80 describes significant fields shown in this output.
Table 80 show call rsvp-sync stats Field Descriptions
|
|
Number of calls for which QoS was initiated |
Number of calls for which RSVP setup was attempted. |
Number of calls for which QoS was torn down |
Number of calls for which an established RSVP reservation was released. |
Number of calls for which Reservation Success was notified |
Number of calls for which an RSVP reservation was successfully established. |
Total Number of PATH Errors encountered |
Number of path errors that occurred. |
Total Number of RESV Errors encountered |
Number of reservation errors that occurred. |
Total Number of Reservation Timeouts encountered |
Number of calls in which the reservation setup was not complete before the reservation timer expired. |
Related Commands
|
|
call rsvp-sync |
Enables synchronization between RSVP and the H.323 voice signaling protocol. |
call rsvp-sync resv-timer |
Sets the timer for RSVP reservation setup. |
debug call rsvp-sync events |
Displays the events that occur during RSVP synchronization. |
show call rsvp-sync conf |
Displays the RSVP synchronization configuration. |
show call spike status
To display the configured call spike threshold and statistics for incoming calls, use the show call spike status command in privileged EXEC mode.
show call spike status [dial-peer tag]
Syntax Description
dial-peer |
(Optional) Displays configuration information for a dial peer. |
tag |
(Optional) Specifies the dial peer identifying number. Range is from 1 to 2147483647. |
Command Modes
Privileged EXEC (#)
Command History
|
|
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. |
12.2(2)XB1 |
This command was implemented on the Cisco AS5850. |
12.2(4)XM |
This command was implemented on the Cisco 1750 and Cisco 1751. This command was not supported on any other platforms in this release. |
12.2(8)T |
This command was implemented on the Cisco 7200 series. Support for the Cisco AS5300, Cisco AS5350, Cisco AS5400, and Cisco AS5850 was not included in this release. |
12.2(11)T |
Support for the Cisco AS5300, Cisco AS5350, Cisco AS5400, and Cisco AS5850 was added in this release. |
15.1(3)T |
This command was modified. The output fields of the command were modified to include the output at the dial peer level. |
Examples
The following is sample output from this command:
Router# show call spike status
Call spiking :NOT TRIGGERED
total call count in sliding window ::20
Table 81 describes the significant fields shown in the display.
Table 81 show call spike status Field Descriptions
|
|
Call Spiking |
Current enabled state of call spiking. |
Call Spiking |
Details if the call spiking limit has been triggered. |
total call count in sliding window |
Number of calls during the spiking interval. |
Router# show call spike status dial-peer 400
TAG CONFIG SPIKED TOTAL REJECTED CALLS REJECTED CALLS
Table 82 describes the significant fields shown in the display.
Table 82 show call spike status (dial peer) Field Descriptions
|
|
TAG |
Dial peer tag. |
CONFIG |
Displays if the call spike command has been configured. |
SPIKED |
Details if the call spiking limit has been triggered. |
TOTAL REJECTED CALLS |
Displays the number of calls rejected due to a call spike in the dial peer. |
REJECTED CALLS |
Displays the number of calls rejected when the call spike was triggered until the call spike control was released. |
Related Commands
|
|
call spike |
Configures the limit for the number of incoming calls in a short period of time. |
show call threshold
To display enabled triggers, current values for configured triggers, and number of application programming interface (API) calls that were made to global and interface resources, use the
show call threshold command in privileged EXEC mode.
show call threshold {config | status [unavailable] | stats}
Syntax Description
config |
Displays the current threshold configuration. |
status |
Displays the status of all configured triggers and whether or not the CPU is available. |
unavailable |
(Optional) Displays the status for all unavailable resources. |
stats |
Displays statistics for API calls; that is, the resource-based measurement. |
Command Modes
Privileged EXEC
Command History
|
|
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 platforms in this release. |
12.2(2)XB1 |
This command was implemented on the Cisco AS5850. |
12.2(4)XM |
This command was implemented on the Cisco 1750 and Cisco 1751. This command was not supported on any other platforms in this release. |
12.2(8)T |
This command was implemented on the Cisco 7200 series. Support for the Cisco AS5300, Cisco AS5350, Cisco AS5400, and Cisco AS5850 is not included in this release. |
12.2(11)T |
This command is supported on the Cisco AS5300, Cisco AS5350, Cisco AS5400, and Cisco AS5850 in this release. |
Examples
The following is sample output from the show call threshold config command:
Router# show call threshold config
Some resource polling interval:
IF Type Value Low High Enable
----- ---- ----- ---- ---- ------
Serial3/1:23 int-calls 0 107 107 N/A
N/A cpu-avg 0 70 90 busy&treat
The following is sample output from the show call threshold status command:
Router# show call threshold status
Status IF Type Value Low High Enable
------ --- ------ ---- ---- ---- -----
Avail N/A total-calls 0 5 5000 busyout
Avail N/A cpu-avg 0 5 65 busyout
The following is sample output from the show call threshold status unavailable command:
Router# show call threshold status unavailable
Unavailable configured resources at the current time:
IF Type Value Low High Enable
---- ----- ----- ---- ---- -----
The following is sample output from the show call threshold stats command:
Router# show call threshold stats
Table 83 describes significant fields shown in this output.
Table 83 show call threshold Field Descriptions
|
|
CPU_AVG interval |
Interval of configured trigger CPU_AVG. |
Memory interval |
Interval of configured trigger Memory. |
IF |
Interface. |
Type |
Type of resource. |
Value |
Value of call to be matched against low and high thresholds. |
Low |
Low threshold. |
High |
High threshold. |
Enable |
Shows if busyout and the call treatment command are enabled. |
Related Commands
|
|
call threshold |
Enables a resource and defines associated parameters. |
call threshold poll-interval |
Enables a polling interval threshold for CPU or memory. |
clear call threshold |
Clears enabled triggers and their associated parameters. |
show call treatment
To display the call-treatment configuration and statistics for handling the calls on the basis of resource availability, use the show call treatment command in privileged EXEC mode.
show call treatment {config | stats}
Syntax Description
config |
Displays the call treatment configuration. |
stats |
Displays statistics for handling the calls on the basis of resource availability. |
Command Modes
Privileged EXEC
Command History
|
|
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. |
12.2(2)XB1 |
This command was implemented on the Cisco AS5850. |
12.2(4)XM |
This command was implemented on the Cisco 1750 and Cisco 1751. This command was not supported on any other platforms in this release. |
12.2(8)T |
This command was implemented on the Cisco 7200 series. Support for the Cisco AS5300, Cisco AS5350, Cisco AS5400, and Cisco AS5850 is not included in this release. |
12.2(11)T |
This command is supported on the Cisco AS5300, Cisco AS5350, Cisco AS5400, and Cisco AS5850 in this release. |
Examples
The following is sample output from this command:
Router# show call treatment config
Call treatment action is: Reject
Call treatment disconnect cause is: no-resource
Call treatment ISDN reject cause-code is: 41
Table 84 describes significant fields shown in this output.
Table 84 show call treatment config Field Descriptions
|
|
Call treatment is: |
State of call treatment, either ON or OFF. |
Call treatment action is: |
Action trigger assigned for call treatment. |
Call treatment disconnect cause is: |
Reason for disconnect. |
Call treatment ISDN reject cause-code is: |
Reject code number assigned. |
The following is sample output from the show call treatment command:
Router# show call treatment stats
Call Treatment Statistics
-------------------------
Total Calls by call treatment: 0
Calls accepted by call treatment: 0
Calls rejected by call treatment: 0
Reason Num. of calls rejected
------ ----------------------
Table 85 describes significant fields shown in this output.
Table 85 show call treatment stats Field Descriptions
|
|
Total Calls by call treatment: |
Number of calls received and treated. |
Calls accepted by call treatment: |
Calls that passed treatment parameters. |
Calls rejected by call treatment: |
Calls that failed treatment parameters. |
cpu-5sec |
Number of calls rejected for failing the cpu-5sec parameter. |
cpu-avg |
Number of calls rejected for failing the cpu-avg parameter. |
total-mem |
Number of calls rejected for failing the total-mem parameter. |
io-mem |
Number of calls rejected for failing the io-mem parameter. |
proc-mem |
Number of calls rejected for failing the proc-mem parameter. |
total-calls |
Number of calls rejected for failing the total-calls parameter. |
Related Commands
|
|
call treatment on |
Enables call treatment to process calls when local resources are unavailable. |
call treatment action |
Configures the action that the router takes when local resources are unavailable. |
call treatment cause-code |
Specifies the reason for the disconnection to the caller when local resources are unavailable. |
call treatment isdn-reject |
Specifies the rejection cause-code for ISDN calls when local resources are unavailable. |
clear call treatment stats |
Clears the call-treatment statistics. |
show call-router routes
To display the routes cached in the current border element (BE), use the show call-router routes in EXEC mode.
show call-router routes [static | dynamic | all]
Syntax Description
static |
Descriptors provisioned on the border element. |
dynamic |
Dynamically learned descriptors. |
all |
Both static and dynamic descriptors. |
Command Default
All
Command Modes
EXEC
Command History
|
|
12.2(2)XA |
This command was introduced. |
12.2(4)T |
This command was integrated into Cisco IOS Release 12.2(4)T. |
12.2(2)XB1 |
This command was implemented on the Cisco AS5850. |
12.2(11)T |
This command was integrated into Cisco IOS Release 12.2(11)T. |
Examples
The following example is sample output from this command.
Router# show call-router routes
DescriptorID= 6561676C65000000000000000000000A
lastChanged = 19930301063311
172.18.195.64 :2099 5553122
DescriptorID= 506174726F6E6F757300000000000002
lastChanged = 19930228190012
DescriptorID= 506174726F6E6F757300000000000003
lastChanged = 19930228190012
172.18.195.65 :2099 555301
DescriptorID= 506174726F6E6F757300000000000004
lastChanged = 19930228190012
172.18.195.65 :2099 555302
DescriptorID= 506174726F6E6F757300000000000005
lastChanged = 19930228190012
DescriptorID= 506174726F6E6F757300000000000001
lastChanged = 19930228190012
Field descriptions should be self-explanatory.
Related Commands
|
|
show call-router active |
Displays active call information for a voice call in progress. |
show call-router history |
Displays the VoIP call-history table. |
show call-router status |
Displays the Annex G BE status. |
show dial-peer voice |
Displays configuration information for dial peers. |
show num-exp |
Displays how the number expansions are configured in VoIP. |
show voice port |
Displays configuration information about a specific voice port. |
show call-router status
To display the Annex G border element status, use the show call-router status command in user EXEC mode.
show call-router status [neighbors]
Syntax Description
neighbors |
(Optional) Displays the neighbor border element status. |
Command Modes
User EXEC
Command History
|
|
12.2(2)XA |
This command was introduced. |
12.2(4)T |
This command was integrated into Cisco IOS Release 12.2(4)T. |
12.2(2)XB1 |
This command was implemented on the Cisco AS5850. |
12.2(11)T |
This command was integrated into Cisco IOS Release 12.2(11)T and modified to add the neighbors keyword. |
Examples
The following example displays the Annex G border element status. Note that the example shows the status for two neighbors.:
Router# show call-router status neighbors
ANNEX-G CALL ROUTER STATUS:
===========================
Border Element ID Tag : Celine
Domain Name : Celine-Domain
Border Element State : UP
Border Element Local IP : 172.18.193.31:2099
Advertise Policy : STATIC descriptors
Access Policy : Neighbors only
Current Calls in Cache : 0
Cumulative Active Calls : 0
Usage Ind Messages Sent : 0
Usage Ind Send Retrys : 0
Local Neighbor ID : (none)
Remote Element ID : (unknown)
Remote Domain ID : (unknown)
Query Interval : 30 MIN (querying disabled)
Service Relationship Status: ACTIVE
Inbound Service Relationship : DOWN
Outbound Service Relationship : DOWN
Retry interval : 120 SEC (0 until next attempt)
Table 86 describes significant fields shown in this output.
Table 86 show call-router status Field Descriptions
|
|
Border Element ID Tag |
Identifier for the border element. |
Border Element State |
Indicates if the border element is running. |
Border Element Local IP |
Local IP address of the border element. |
Advertise Policy |
Type of descriptors that the border element advertises to its neighbors. Default is static. Other values are dynamic and all. |
Hopcount Value |
Maximum number of border element hops through which an address resolution request can be forwarded. Default is 7. |
Descriptor TTL |
Time-to-live value, or the amount of time, in seconds, for which a route from a neighbor is considered valid. Range is from 1 to 2147483647. Default is 1800 (30 minutes). |
Access Policy |
Requires that a neighbor be explicitly configured for requests to be accepted. |
Local Neighbor ID |
Domain name reported in service relationships. |
Service Relationship Status |
Service relationship between two border elements is active. |
Inbound Service Relationship |
Inbound time-to-Live (TTL) value in number of seconds. Range is from 1 to 4294967295. |
Outbound Service Relationship |
Specifies the amount of time, in seconds, to establish the outbound relationship. Range is from 1 to 65535. |
Retry interval |
Retry value between delivery attempts, in number of seconds. Range is from 1 to 3600. |
Related Commands
|
|
advertise |
Controls the type of descriptors that the border element advertises to its neighbors. |
call-router |
Enables the Annex G border element configuration commands. |
hopcount |
Specifies the maximum number of border element hops through which an address resolution request can be forwarded. |
local |
Defines the local domain, including the IP address and port border elements that the border element should use for interacting with remote border elements. |
shutdown |
Shuts down the Annex G border element. |
ttl |
Sets the expiration timer for advertisements. |
show ccm-manager
To display a list of Cisco CallManager servers and their current status and availability, use the show ccm-manager command in privileged EXEC mode.
show ccm-manager [backhaul | config-download | fallback-mgcp | hosts | music-on-hold | redundancy | download-tones [c1 | c2]]
Syntax Description
backhaul |
(Optional) Displays information about the backhaul link. |
config-download |
(Optional) Displays information about the status of Media Gateway Control Protocol (MGCP) and Skinny Client Control Protocol (SCCP) configuration download. |
fallback-mgcp |
(Optional) Displays the status of the MGCP gateway fallback feature. |
hosts |
(Optional) Displays a list of each configured Cisco CallManager server in the network, together with its operational status and host IP address. |
music-on-hold |
(Optional) Displays information about all the multicast music-on-hold (MOH) sessions in the gateway at any given point in time. |
redundancy |
(Optional) Displays failover mode and status information for hosts, including the redundant link port, failover interval, keepalive interval, MGCP traffic time, switchover time, and switchback mode. |
download-tones [c1 | c2] |
(Optional) Displays custom tones downloaded to the gateway. The custom tone value of c1 or c2 specifies which tone information to display. |
Defaults
If none of the optional keywords is specified, information related to all keywords is displayed.
Command Modes
Privileged EXEC
Command History
|
|
12.1(3)T |
This command was introduced on the Cisco CallManager Version 3.0 and Cisco VG200. |
12.2(2)XA |
This command was implemented on the Cisco 2600 series and Cisco 3600 series. |
12.2(2)XN |
This command was modified to provide enhanced MGCP voice gateway interoperability to Cisco CallManager Version 3.1 for the Cisco 2600 series, Cisco 3600 series, and Cisco VG200. |
12.2(11)T |
This command was integrated into Cisco IOS Release 12.2(11) and the Cisco CallManager Version 3.2. It was implemented on the Cisco IAD2420 series. |
12.2(15)ZJ |
The download-tones [c1 | c2] keywords were added for the following platforms: Cisco 2610XM, Cisco 2611XM, Cisco 2620XM, Cisco 2621XM, Cisco 2650XM, Cisco 2651XM, Cisco 2691, Cisco 3640A, Cisco 3660, Cisco 3725, and Cisco 3745. |
12.3(4)T |
The keywords were integrated into Cisco IOS Release 12.3(4)T. |
12.3(14)T |
New output was added relating to SCCP autoconfiguration. |
12.4(15)XY |
The display output was modified to include the number of TFTP download failures allowed. |
Usage Guidelines
Use the show ccm-manager config-download command to determine the status of Cisco Unified Communications Manager servers and the automatic download information and statistics.
Examples
The following sample output shows the configured amplitudes, frequencies, and cadences of custom tone 1, Hong Kong:
Router# show ccm-manager download-tones c1
Custom Tone 1 : Hong Kong
Pulse dial:normal, Percent make:35%, DTMF low Amp.= 65424, high Amp.= 65446, Pcm:u-Law
Dual Tone DR NF FOF FOS AOF AOF AOF AOS AOS AOS ONTF OFTF ONTS OFTS ONTT OFTT ONT4 OFT4
(optional) FOF2 FOS2 FOF3 FOS3 FOF4 FOS4 FOT FO4 AOT AO4 RCT1 RCT2 RCT3 RCT4
BUSY 0 2 480 620 -120 -120 -120 -120 -120 -120 500 500 0 0 0 0 0 0
RING_BACK 0 2 440 520 -120 -120 -120 -120 -120 -120 400 200 400 3000
CONGESTION 0 2 480 620 -200 -200 -200 -240 -240 -240 250 250 0 0
NUMBER_UNOBTAINABLE 0 2 480 620 -120 -120 -120 -120 -120 -120 65535 0 0 0
DIAL_TONE 0 2 350 440 -150 -150 -150 -150 -150 -150 65535 0 0 0
DIAL_TONE2 0 2 350 440 -150 -150 -150 -150 -150 -150 65535 0 0 0
OUT_OF_SERVICE 0 1 950 0 -150 -150 -150 0 0 0 330 330 0 0
ADDR_ACK 0 1 600 0 -240 -240 -240 0 0 0 125 125 125 65535
DISCONNECT 0 1 600 0 -150 -150 -150 0 0 0 330 330 330 65535
OFF_HOOK_NOTICE 0 2 1400 2040 -240 -240 -240 -240 -240 -240 100 100 0 0
OFF_HOOK_ALERT 0 2 1400 2040 -240 -240 -240 -240 -240 -240 100 100 0 0
WAITING 0 0 0 0 0 0 0 0 0 0 0 0 0 0
CONFIRM 0 0 0 0 0 0 0 0 0 0 0 0 0 0
CNFWRN_J 0 1 950 0 -170 -170 -190 0 0 0 100 100 100 65535
CNFWRN_D 0 1 600 0 -170 -170 -190 0 0 0 100 100 100 65535
STUTT_DIALTONE 0 2 350 440 -150 -150 -150 -150 -150 -150 100 100 100 100
100 100 65535 0
PERM_SIG_TONE 0 1 480 0 -170 -170 -170 0 0 0 65535 0 0 0
WAITING1 0 0 0 0 0 0 0 0 0 0 0 0 0 0
WAITING2 0 0 0 0 0 0 0 0 0 0 0 0 0 0
WAITING3 0 0 0 0 0 0 0 0 0 0 0 0 0 0
WAITING4 0 0 0 0 0 0 0 0 0 0 0 0 0 0
MSGWAIT_IND 0 0 0 0 0 0 0 0 0 0 0 0 0 0
OFF_HOOK_WARN 0 0 0 0 0 0 0 0 0 0 0 0 0 0
Sequence Tone DR NF F1C1 F2C1 AOF AOS C1ONT C1OFT C2ONT C2OFT C3ONT C3OFT
C4ONT C4OFT F1C2 F2C2 F1C3 F2C3 F1C4 F2C4
INTERCEPT 0 0 0 0 0 0 0 0 0 0 0 0
TONE_ON_HOLD 0 0 0 0 0 0 0 0 0 0 0 0
NO_CIRCUIT 0 0 0 0 0 0 0 0 0 0 0 0
DR: direction NF: number of frequency FO<F,S,T,4>: frequency of<1st,2nd,3rd,4th>
AO<F,S,T,4>: amplitude of<1st,2nd,3rd,4th>
FOF<1-4>: frequency of 1st, cadence<1-4> FOS<1-4>: frequency of 2nd, cadence<1-4>
RCT<1-4>: repeat count for cadence<l-4> F(1-4>C<1-4> : frequency<1-4> of cadence<1-4>
C<1-4>ONT: cadence<1-4> on time C<1-4>OFT: cadence<1-4> off time
Table 87, Table 88, and Table 89 give descriptions of significant fields once the tones are automatically downloaded to the gateway.
Table 87 show ccm-manager download-tones Significant Output Fields
|
|
Percent make |
Pulse ratio in percentage of make. |
DTMF low Amp. |
Low frequency level. |
high Amp. |
High frequency level. |
Pcm |
Pulse Code Modulation (mu-law or a-law). |
Table 88 show ccm-manager download-tones Output Fields for Dual Tones
|
|
DR |
Direction to PSTN (0) or Packet Network (1). |
NF |
Number of Frequency (from 1 to 4). |
FOF |
Frequency of First component (in Hz). |
FXS AOF |
Amplitude of First component (from 1 to 65535 = +3 dBm0) for the foreign exchange station (FXS). |
FXO AOF |
Amplitude of First component (from 1 to 65535 = +3 dBm0) for the foreign exchange office (FXO). |
E&M AOF |
Amplitude of First component (from 1 to 65535 = +3 dBm0) for the recEive and transMit (E&M). |
FXS AOS |
Amplitude of Second component (from 1 to 65535 = +3 dBm0) for the FXS. |
FXO AOS |
Amplitude of Second component (from 1 to 65535 = +3 dBm0) for the FXO. |
E&M AOS |
Amplitude of Second component (from 1 to 65535 = +3 dBm0) for the E&M. |
ONTF |
On time; time the tone is generated (milliseconds) for the first frequency. |
OFTF |
Off time; silence time (milliseconds) for the first frequency. |
ONTS |
On time; time the tone is generated (milliseconds) for the second frequency. |
OFTS |
Off time; silence time (milliseconds) for the second frequency. |
ONTT |
On time; time the tone is generated (milliseconds) for the third frequency. |
OFTT |
Off time; silence time (milliseconds) for the third frequency. |
ONT4 |
On time; time the tone is generated (milliseconds) for the fourth frequency. |
OFT4 |
Off time; silence time (milliseconds) for the fourth frequency. |
FOF2 |
Frequency of First component for the second cadence. |
FOS2 |
Frequency of Second component for the second cadence. |
FOF3 |
Frequency of First component for the third cadence. |
FOS3 |
Frequency of Second component for the third cadence. |
FOF4 |
Frequency of First component for the fourth cadence. |
FOS4 |
Frequency of Second component for the fourth cadence. |
FOT |
Frequency of Third component (in Hertz). |
FO4 |
Frequency of Fourth component (in Hertz). |
AOT |
Amplitude of Third component (from 1 to 65535 = +3 dBm0). |
AO4 |
Amplitude of Fourth component (from 1 to 65535 = +3 dBm0). |
RCT1 |
Number of repeat for the first cadence. |
RCT2 |
Number of repeat for the second cadence. |
RCT3 |
Number of repeat for the third cadence. |
RCT4 |
Number of repeat for the fourth cadence. |
Table 89 show ccm-manager download-tones Output Fields for Sequence Tones
|
|
DR |
Direction to PSTN (0) or Packet Network (1). |
NF |
Number of Frequency (from 1 to 4). |
F1C1 |
Frequency 1 of Cadence 1. |
F2C1 |
Frequency 2 of Cadence 1. |
AOF |
Amplitude of First component (from 1 to 65535). |
AOS |
Amplitude of Second component (from 1 to 65535). |
C1ONT |
Cadence 1 On Time. |
C1OFT |
Cadence 1 Off Time. |
C2ONT |
Cadence 2 On Time. |
C2OFT |
Cadence 2 Off Time. |
C3ONT |
Cadence 3 On Time. |
C3OFT |
Cadence 3 Off Time. |
C4ONT |
Cadence 4 On Time. |
C4OFT |
Cadence 4 Off Time. |
F1C2 |
Frequency 1 of Cadence 2. |
F2C2 |
Frequency 2 of Cadence 2. |
F1C3 |
Frequency 1 of Cadence 3. |
F2C3 |
Frequency 2 of Cadence 3. |
F1C4 |
Frequency 1 of Cadence 4. |
F2C4 |
Frequency 2 of Cadence 4. |
The following is sample output from the show ccm-manager command for displaying the status and availability of both the primary and the backup Cisco Unified Communications Manager server:
MGCP Domain Name: Router2821.cisco.com
============================================================
Primary Registered 10.78.236.222
Current active Call Manager: 10.78.236.222
Backhaul/Redundant link port: 2428
Failover Interval: 30 seconds
Keepalive Interval: 15 seconds
Last keepalive sent: 21:48:37 UTC Nov 4 2007 (elapsed time: 00:00:15)
Last MGCP traffic time: 21:48:51 UTC Nov 4 2007 (elapsed time: 00:00:02)
Last switchback time: None
Switchback mode: Graceful
MGCP Fallback mode: Not Selected
Last MGCP Fallback start time: None
Last MGCP Fallback end time: None
MGCP Download Tones: Disabled
TFTP retry count to shut Ports: 3
Remote IP Address: 172.20.71.38
PRI Ports being backhauled:
MGCP Download Tones: Enabled
Configuration Auto-Download Information
=======================================
Current version-id: {1645327B-F59A-4417-8E01-7312C61216AE}
Last config-downloaded:00:00:49
Current state: Waiting for commands
Configuration Download statistics:
Configuration Attempted : 1
Configuration Successful : 1
Configuration Failed(Parsing): 0
Configuration Failed(config) : 0
Last config download command: New Registration
Configuration Error History:
Table 90 describes the significant fields shown in the display.
Table 90 show ccm-manager Field Descriptions
|
|
MGCP Domain Name (system) |
System used in the Internet for translating domain names of network nodes into IP addresses. |
Priority |
Priority of the Cisco CallManager servers present in the network. Possible priorities are primary, first backup, and second backup. |
Status |
Current usage of the Cisco Unified Communications Manager server. Values are Registered, Idle, Backup Polling, and Undefined. |
Host |
Host IP address of the Cisco CallManager server. |
Current active Call Manager |
IP address of the active Cisco Communications Manager server. This field can be the IP address of any one of the following Cisco Communications Manager servers: Primary, First Backup, and Second Backup. |
Backhaul/Redundant link port |
Port that the Cisco CallManager server is to use. |
Failover Interval |
Maximum amount of time that can elapse without the gateway receiving messages from the currently active Cisco Call Manager before the gateway switches to the backup Cisco Call Manager. |
Keepalive Interval |
Interval following which, if the gateway has not received any messages from the currently active Cisco Communications Manager server within the specified amount of time, the gateway sends a keepalive message to the Cisco Communications Manager server to determine if it is operational. |
Last keepalive sent |
Time in hours (military format), minutes and seconds at which the last keepalive message was sent. |
Last MGCP traffic time |
Time in hours (military format), minutes and seconds at which the last MGCP traffic message was sent. |
Switchback mode |
Displays the switchback mode configuration that determines when the primary Cisco CallManager server is used if it becomes available again while a backup Cisco CallManager server is being used. Values that can appear in this field are Graceful, Immediate, Schedule-time, and Uptime-delay. |
MGCP Fallback mode |
Displays the MGCP fallback mode configuration. If "Not Selected" displays, then fallback is not configured. If "Enabled/OFF" displays, then fallback is configured but not in effect. If "Enabled/ON" displays, then fallback is configured and in effect. |
Last MGCP Fallback start time |
Start time stamp in hours (military format), minutes and seconds of the last fallback. |
Lasts MGCP Fallback end time |
End time stamp in hours (military format), minutes and seconds of the last fallback. |
MGCP Download Tones |
Displays if the customized tone download is enabled. |
TFTP retry count to shut Ports |
Number of TFTP download failures allowed before endpoints are shutdown. |
The following is sample output from the show ccm-manager config-download command showing the status of the SCCP download:
Router# show ccm-manager config-download
Configuration Auto-Download Information
=======================================
Current version-id:{4171F93A-D8FC-49D8-B1C4-CE33FA8095BF}
Last config-downloaded:00:00:47
Current state:Waiting for commands
Configuration Download statistics:
Configuration Attempted :1
Configuration Successful :1
Configuration Failed(Parsing):0
Configuration Failed(config) :0
Last config download command:New Registration
SCCP auto-configuration status
===============================================================
Registered with Call Manager: No
Local interface: FastEthernet0/0 (000c.8522.6910)
Current version-id: {D3A886A2-9BC9-41F8-9DB2-0E565CF51E5A}
Current config applied at: 04:44:45 EST Jan 9 2003
Gateway downloads succeeded: 1
Gateway download attempts: 1
Last gateway download attempt: 04:44:45 EST Jan 9 2003
Last successful gateway download: 04:44:45 EST Jan 9 2003
Current TFTP server: 10.2.6.101
Endpoint downloads succeeded: 6
Endpoint download attempts: 6
Last endpoint download attempt: 04:44:45 EST Jan 9 2003
Last successful endpoint download: 04:44:45 EST Jan 9 2003
Configuration Error History:
sccp ccm CCM-PUB7 identifier 1
isdn switch-type primary-ni
Table 91 describes the significant fields shown in the display.
Table 91 show ccm-manager config-download Field Descriptions
|
|
Current state |
Current configuration state. |
Download Attempted |
Number of times the gateway has tried to download the configuration file. The number of successes and failures is displayed. |
Configuration Attempted |
Number of times the gateway has tried to configure the gateway based on the configuration file. The number of successes and failures is displayed. |
Managed endpoints |
Number of SSCP-controlled endpoints (analog and BRI phones). |
Endpoint downloads succeeded |
Number of times the gateway has successfully downloaded the configuration files for SCCP-controlled endpoints. |
Endpoint download attempts |
Number of times the gateway has tried to download the configuration files for SCCP-controlled endpoints. |
Endpoint resets |
Number of SCCP gateway resets. |
Endpoint restarts |
Number of SCCP gateway restarts. |
Configuration Error History |
Displays SCCP autoconfiguration errors. |
The following is sample output from the show ccm-manager fallback-mgcp command:
Router# show ccm-manager fallback-mgcp
Current active Call Manager: 172.20.71.38
MGCP Fallback mode: Enabled/OFF
Last MGCP Fallback start time: 00:14:35
Last MGCP Fallback end time: 00:17:25
Table 92 displays te mode. Modes are as follows:
Table 92 show ccm-manager fallback-mgcp modes
|
|
MGCP Fallback mode |
The following are displayed: •Not Selected—Fallback is not configured. •Enabled/OFF—Fallback is configured but not in effect. •Enabled/ON—Fallback is configured and in effect. |
Last MGCP Fallback start time |
Start time stamp in hh:mm:ss of the last fallback. |
Last MGCP Fallback end time |
End time stamp in hh:mm:ss of the last fallback. |
The following is sample output from the show ccm-manager music-on-hold command:
Router# show ccm-manager music-on-hold
Current active multicast sessions :1
Multicast RTP port Packets Call Codec Incoming
Address number in/out id Interface
===================================================================
172.20.71.38 2428 5/5 99 g711
Table 93 describes the significant fields shown in the display.
Table 93 show ccm-manager music-on-hold Field Descriptions
|
|
Current active multicast sessions |
Number of active calls on hold. |
Multicast Address |
Valid class D address from which the gateway is getting the RTP streams. |
RTP port number |
Valid RTP port number on which the gateway receives the RTP packets. |
Packets in/out |
Number of RTP packets received and sent to the digital signal processor (DSP). |
Call id |
Call ID of the call that is on hold. |
Codec |
Codec number. |
Incoming Interface |
Interface through which the gateway is receiving the RTP stream. |
Related Commands
|
|
ccm-manager config |
Supplies the local MGCP voice gateway with the IP address or logical name of the TFTP server from which to download XML configuration files and enable the download of the configuration. |
debug ccm-manager |
Displays debugging information about the Cisco CallManager. |
show ccm-manager |
Displays a list of Cisco CallManager servers, their current status, and their availability. |
show ccm-manager fallback-mgcp |
Displays the status of the MGCP gateway fallback feature. |
show isdn status |
Displays the Cisco IOS gateway ISDN interface status. |
show mgcp |
Displays the MGCP configuration information. |
show cdapi
To display the Call Distributor Application Programming Interface (CDAPI), use the show cdapi command in privileged EXEC mode.
show cdapi
Syntax Description
This command has no arguments or keywords.
Command Modes
Privileged EXEC
Command History
|
|
12.0(7)T |
This command was introduced on the Cisco AS5300. |
12.3(4)T |
This command was enhanced to display V.120 call types registering with the modem. |
Usage Guidelines
CDAPI is the internal application programming interface (API) that provides an interface between signaling stacks and applications.
Examples
The following is sample output from the show cdapi command. The reports are self-explanatory and display the following information:
•Signaling stacks that register with CDAPI
•Applications that register with CDAPI
•Active calls
•Call type of each active call
•Message buffers in use
Enbloc is the mode where all call establishment information is sent in the setup message (opposite of overlap mode, where additional messages are needed to establish the call). Cot is the Continuity Test (COT) subsystem that supports the Continuity Test required by the Signaling System 7 (SS7) network to conduct loopback and tone check testing on the path before a circuit is established.
Registered CDAPI Applications/Stacks
====================================
Application: TSP CDAPI Application Voice
Application Type(s) : Voice Data Facility Signaling V110 V120
Application Level : Tunnel
Application Mode : Enbloc
Application: TSP CDAPI Application COT
Application Type(s) : Cot
Application Level : Tunnel
Application Mode : Enbloc
Application Type(s) : Modem V110 V120
Application Level : Basic
Application Mode : Enbloc
Application Type(s) : Data
Application Level : Basic
Application Mode : Enbloc
Se7/7:23 Call ID = 0x7717, Call Type = V.120, Application = CSM
Free Large-Raw Buffers: 120
Related Commands
|
|
debug cdapi |
Displays information about the CDAPI. |
show ces clock-select
To display the setting of the network clock for the specified port, use the show ces clock-select command in privileged EXEC mode.
show ces slot/port clock-select
Syntax Description
slot |
Backplane slot number. |
/port |
Interface port number. The slash must be entered. |
Command Modes
Privileged EXEC
Command History
|
|
12.1(2)T |
This command was introduced on the Cisco 3600 series. |
Examples
The following is sample output from this command for slot 1, port 0:
Router# show ces 1/0 clock-select
Priority 1 clock source:not configured
Priority 2 clock source:not configured
Priority 3 clock source:ATM1/0 UP
Priority 4 clock source:Local oscillator
Current clock source:ATM1/0, priority:3
Field descriptions should be self-explanatory.
Related Commands
|
|
clock-select |
Establishes the sources and priorities of the requisite clocking signals for the OC-3/STM-1 ATM Circuit Emulation Service network module. |
show connect
To display configuration information about drop-and-insert connections that have been configured on a router, use the show connect command in privileged EXEC mode.
show connect {all | elements | name | id | port {T1 | E1} slot/port}}
Syntax Description
all |
Information for all configured connections. |
elements |
Information for registered hardware or software interworking elements. |
name |
Information for a connection that has been named by using the connect global configuration command. The name you enter is case sensitive and must match the configured name exactly. |
id |
Information for a connection that you specify by an identification number or range of identification numbers. The router assigns these IDs automatically in the order in which they were created, beginning with 1. The show connect all command displays these IDs. |
port |
Information for a connection that you specify by indicating the type of controller (T1 or E1) and location of the interface. |
T1 |
T1 controller. |
E1 |
E1 controller. |
slot/port |
Location of the T1 or E1 controller port whose connection status you want to see. Valid values for slot and port are 0 and 1. The slash must be entered. |
Defaults
No default behavior or values
Command Modes
Privileged EXEC
Command History
|
|
12.0(5)XK |
This command was introduced on the Cisco 2600 series and Cisco 3600 series. |
12.0(7)T |
This command was integrated into Cisco IOS Release 12.0(7)T. |
Usage Guidelines
This command shows drop-and-insert connections on modular access routers that support drop-and-insert. It displays different information in different formats, depending on the keyword that you use.
Examples
The following examples show how the same tabular information appears when you enter different keywords:
ID Name Segment 1 Segment 2 State
========================================================================
1 Test -T1 1/0 01 -T1 1/1 02 ADMIN UP
2 Test2 -T1 1/0 03 -T1 1/1 04 ADMIN UP
Router# show connect id 1-2
ID Name Segment 1 Segment 2 State
========================================================================
1 Test -T1 1/0 01 -T1 1/1 02 ADMIN UP
2 Test2 -T1 1/0 03 -T1 1/1 04 ADMIN UP
Router# show connect port t1 1/1
ID Name Segment 1 Segment 2 State
========================================================================
1 Test -T1 1/0 01 -T1 1/1 02 ADMIN UP
2 Test2 -T1 1/0 03 -T1 1/1 04 ADMIN UP
The following examples show details about specific connections, including the number of time slots in use and the switching elements:
Router# show connect id 2
TDM timeslots in use: 14-18 (5 total)
TDM timeslots in use: 14-18
Internal Switching Elements: VIC TDM Switch
Router# show connect name Test
TDM timeslots in use: 1-13 (13 total)
TDM timeslots in use: 1-13
Internal Switching Elements: VIC TDM Switch
Field descriptions should be self-explanatory.
Related Commands
|
|
connect |
Defines connections between T1 or E1 controller ports for Drop and Insert. |
tdm-group |
Configures a list of time slots for creating clear channel groups (pass-through) for TDM cross-connect. |
show controllers rs366
To display information about the RS-366 video interface on the video dialing module (VDM), use the show controllers rs366 command in privileged EXEC mode.
show controllers rs366 slot port
Syntax Description
slot |
Slot location of the VDM module. Valid entries are 1 or 2. |
port |
Port location of the EIA/TIA-366 interface in the VDM module. |
Command Default
No default behavior or values
Command Modes
Privileged EXEC
Command History
|
|
12.0(5)XK |
This command was introduced on the Cisco MC3810. |
12.0(7)T |
This command was integrated into Cisco IOS Release 12.0(7)T. |
Examples
The following example displays information about the RS-366 controller:
Router# show controllers rs366 0 1
RS366:driver is initialized in slot 1, port 0:
STATUS STATE LSR LCR ICSR EXT T1 T2 T3 T4 T5
0x02 0x01 0x00 0x50 0xE0 0x00 5000 5000 5000 20000 10000
Table 94 describes significant fields shown in this output.
Table 94 show controllers rs366 Field Descriptions
|
|
STATUS |
Last interrupt status. |
STATE |
Current state of the state machine. |
LSR |
Line status register of the VDM. |
LCR |
Line control register of the VDM. |
ICSR |
Interrupt control and status register of the VDM. |
EXT |
Extended register of the VDM. |
T1 through T5 |
Timeouts 1 through 5 of the watchdog timer, in milliseconds. |
Dial string |
Most recently dialed number collected by the driver. 0xC at the end of the string indicates the EON (end of number) character. |
show controllers timeslots
To display the channel-associated signaling (CAS) and ISDN PRI state in detail, use the show controllers timeslots command in privileged EXEC mode.
show controllers t1/e1 controller-number timeslots timeslot-range
Syntax Description
tl/e1 controller-number |
Controller number of CAS or ISDN PRI time slot. Range is from 0 to 7. |
timeslots timeslot-range |
Timeslot. E1 range is from 1 to 31. T1 range is from 1 to 24. |
Command Default
No default behavior or values
Command Modes
Privileged EXEC
Command History
|
|
10.0 |
This command was introduced. |
12.1(3)T |
The timeslots keyword was added. |
12.1(5)T |
This command was implemented on the Cisco AS5400. |
Usage Guidelines
Use this command to display the CAS and ISDN PRI channel state in detail. The command shows whether the DS0 channels of a controller are in idle, in-service, maintenance, or busyout states. Use the show controllers e1 or show controllers t1 command to display statistics about the E1 or T1 links.
Examples
The following example shows that the CAS state is enabled on the Cisco AS5300 with a T1 PRI card:
Router# show controllers timeslots
DS0 Type Modem <-> Service Channel Rx Tx
State State A B C D A B C D
-----------------------------------------------------------------------------------------
1 cas-modem 1 in insvc connected 1 1 1 1 1 1 1 1
2 cas - - insvc idle 0 0 0 0 0 0 0 0
3 cas - - insvc idle 0 0 0 0 0 0 0 0
4 cas - - insvc idle 0 0 0 0 0 0 0 0
5 cas - - insvc idle 0 0 0 0 0 0 0 0
6 cas - - insvc idle 0 0 0 0 0 0 0 0
7 cas - - insvc idle 0 0 0 0 0 0 0 0
8 cas - - insvc idle 0 0 0 0 0 0 0 0
9 cas - - insvc idle 0 0 0 0 0 0 0 0
10 cas - - maint static-bo 0 0 0 0 1 1 1 1
11 cas - - maint static-bo 0 0 0 0 1 1 1 1
12 cas - - maint static-bo 0 0 0 0 1 1 1 1
13 cas - - maint static-bo 0 0 0 0 1 1 1 1
14 cas - - maint static-bo 0 0 0 0 1 1 1 1
15 cas - - maint static-bo 0 0 0 0 1 1 1 1
16 cas - - maint static-bo 0 0 0 0 1 1 1 1
17 cas - - maint static-bo 0 0 0 0 1 1 1 1
18 cas - - maint static-bo 0 0 0 0 1 1 1 1
19 cas - - maint dynamic-bo 0 0 0 0 1 1 1 1
20 cas - - maint dynamic-bo 0 0 0 0 1 1 1 1
21 cas - - maint dynamic-bo 0 0 0 0 1 1 1 1
The following example shows that the ISDN PRI state is enabled on the Cisco AS5300 with a T1 PRI card:
DS0 Type Modem <-> Service Channel Rx Tx
State State A B C D A B C D
---------------------------------------------------------------------------
21 pri-modem 2 in insvc busy
22 pri-modem 1 out insvc busy
23 pri-digi - in insvc busy
24 pri-sig - - outofsvc reserved
Field descriptions should be self-explanatory.
Related Commands
|
|
show controllers e1 |
Displays information about E1 links. |
show controllers t1 |
Displays information about T1 links. |
show controllers voice
To display information about voice-related hardware, use the show controllers voice command in privileged EXEC mode.
Syntax Description
This command has no arguments or keywords.
Command Default
No default behavior or values
Command Modes
Privileged EXEC
Command History
|
|
12.0(5)XQ |
This command was introduced on the Cisco 1750. |
Usage Guidelines
This command displays interface status information that is specific to voice-related hardware, such as the registers of the TDM switch, the host port interface of the digital signal processor (DSP), and the DSP firmware versions. The information displayed is generally useful only for diagnostic tasks performed by technical support.
Examples
The following is sample output from this command:
Router# show controllers voice
STDA 0xFF STDB 0xFF SARA 0xAD SARB 0xFF SAXA 0xFF SAXB 0x0 STCR 0x3F
STAR 0x65 OMDR 0xE2 VNSR 0x0 PMOD 0x4C PBNR 0xFF POFD 0xF0 POFU 0x18
PCSR 0x1 PICM 0x0 CMD1 0xA0 CMD2 0x70 CBNR 0xFF CTAR 0x2 CBSR 0x20 CSCR
DSP 0 Host Port Interface:
HPI Control Register 0x202
InterfaceStatus 0x2A MaxMessageSize 0x80
RxRingBufferSize 0x6 TxRingBufferSize 0x9
pInsertRx 0x4 pRemoveRx 0x4 pInsertTx 0x6 pRemoveTx 0x6
packet_length 100 channel_id 2 packet_id 0 process id 0x1
0000: 0000 4AC7 5F08 91D1 0000 0000 7DF1 69E5 63E1 63E2
0020: 6E7C ED67 DE5D DB5C DC60 EC7E 6BE1 58D3 50CD 4DCE
0040: 50D2 5AE5 7868 DA52 CE4A C746 C647 C94B D25A EAF4
0060: 5DD7 4FCD 4ACA 4ACC 4FD3 5DE8 F769 DC58 D352 D253
0080: D65B E573 6CDF 59D3 4ECF 4FD0
packet_length 100 channel_id 1 packet_id 0 process id 0x1
0000: 0000 1CDD 3E48 3B74 0000 0000 3437 3D4C F0C8 BBB5
0020: B2B3 B7BF D25B 4138 3331 3339 435F CFBD B6B2 B1B4
0040: BBC8 7E48 3B34 3131 363D 4FDE C3B9 B3B1 B3B8 C2DB
0060: 533F 3833 3235 3B48 71CC BDB7 B4B5 B8BF CF67 483D
0080: 3836 383C 455B DAC6 BDB9 B9BB
packet_length 100 channel_id 2 packet_id 0 process id 0x1
0000: 0000 4AC8 5F08 9221 0000 0000 54DA 61F5 EF60 DA53
0020: CF4F CD4E D256 DB63 FCEE 5FDA 55D1 50CF 4FD3 56D8
0040: 5DE1 6E7C EC60 DC59 D655 D456 D85D DF6A F4F4 69E2
0060: 5CDD 5BDC 5BDE 61E9 6DF1 FF76 F16D E96A E566 EA6A
0080: EB6F F16D EF79 F776 F5F5 73F0
packet_length 100 channel_id 1 packet_id 0 process id 0x1
0000: 0000 1CDE 3E48 3BC4 0000 0000 C0CC EC54 453E 3C3C
0020: 3F47 56F3 D1C7 C1BF C0C6 CEE1 6752 4A46 4648 4E59
0040: 6FE4 D6CF CDCE D2DA E57E 675E 5B5B 5E62 6B76 FCF6
0060: F6FA 7D75 7373 7BF5 EAE1 DCDA DADD E6FE 6559 514D
0080: 4D4E 5563 EFD9 CDC8 C5C6 CAD1
packet_length 100 channel_id 2 packet_id 0 process id 0x1
0000: 0000 4AC6 5F08 9181 0000 0000 DD5B DC5E E161 E468
0020: FAFD 6CE1 5AD3 53D1 53D7 61EC EA59 CF4A C644 C344
0040: CA4E D86C 60D0 48C2 3EBD 3CBD 3EC0 47CF 5976 DF4F
0060: C945 C242 C146 C94E D668 73DB 54CE 4DCC 4DCE 53DB
0080: 64F9 ED63 DC59 DA58 DC5D E46C
packet_length 100 channel_id 1 packet_id 0 process id 0x1
0000: 0000 1CDC 3E48 3B24 0000 0000 5B5B 5D62 6A76 FCF5
0020: F5F9 7D78 7374 7CF5 EAE1 DDDA DBDD E7FE 6559 514E
0040: 4D4F 5663 EFD8 CDC8 C6C6 CAD1 E760 4E46 403F 4047
0060: 5173 D5C7 BFBC BCBE C5D4 6D4C 3F3B 3939 3D46 5ADB
0080: C5BC B7B6 B8BD C8E8 4F3F 3835
packet_length 100 channel_id 1 packet_id 0 process id 0x1
0000: 0000 4AC6 5F08 9181 0000 003C DD5B DC5E E161 E468
0020: FAFD 6CE1 5AD3 53D1 53D7 61EC EA59 CF4A C644 C344
0040: CA4E D86C 60D0 48C2 3EBD 3CBD 3EC0 47CF 5976 DF4F
0060: C945 C242 C146 C94E D668 73DB 54CE 4DCC 4DCE 53DB
0080: 64F9 ED63 DC59 DA58 DC5D E46C
packet_length 100 channel_id 2 packet_id 0 process id 0x1
0000: 0000 1CDC 3E48 3B24 0000 003C 5B5B 5D62 6A76 FCF5
0020: F5F9 7D78 7374 7CF5 EAE1 DDDA DBDD E7FE 6559 514E
0040: 4D4F 5663 EFD8 CDC8 C6C6 CAD1 E760 4E46 403F 4047
0060: 5173 D5C7 BFBC BCBE C5D4 6D4C 3F3B 3939 3D46 5ADB
0080: C5BC B7B6 B8BD C8E8 4F3F 3835
packet_length 100 channel_id 1 packet_id 0 process id 0x1
0000: 0000 4AC7 5F08 91D1 0000 003C 7DF1 69E5 63E1 63E2
0020: 6E7C ED67 DE5D DB5C DC60 EC7E 6BE1 58D3 50CD 4DCE
0040: 50D2 5AE5 7868 DA52 CE4A C746 C647 C94B D25A EAF4
0060: 5DD7 4FCD 4ACA 4ACC 4FD3 5DE8 F769 DC58 D352 D253
0080: D65B E573 6CDF 59D3 4ECF 4FD0
packet_length 100 channel_id 2 packet_id 0 process id 0x1
0000: 0000 1CDD 3E48 3B74 0000 003C 3437 3D4C F0C8 BBB5
0020: B2B3 B7BF D25B 4138 3331 3339 435F CFBD B6B2 B1B4
0040: BBC8 7E48 3B34 3131 363D 4FDE C3B9 B3B1 B3B8 C2DB
0060: 533F 3833 3235 3B48 71CC BDB7 B4B5 B8BF CF67 483D
0080: 3836 383C 455B DAC6 BDB9 B9BB
packet_length 100 channel_id 1 packet_id 0 process id 0x1
0000: 0000 4AC8 5F08 9221 0000 003C 54DA 61F5 EF60 DA53
0020: CF4F CD4E D256 DB63 FCEE 5FDA 55D1 50CF 4FD3 56D8
0040: 5DE1 6E7C EC60 DC59 D655 D456 D85D DF6A F4F4 69E2
0060: 5CDD 5BDC 5BDE 61E9 6DF1 FF76 F16D E96A E566 EA6A
0080: EB6F F16D EF79 F776 F5F5 73F0
packet_length 100 channel_id 2 packet_id 0 process id 0x1
0000: 0000 1CDE 3E48 3BC4 0000 003C C0CC EC54 453E 3C3C
0020: 3F47 56F3 D1C7 C1BF C0C6 CEE1 6752 4A46 4648 4E59
0040: 6FE4 D6CF CDCE D2DA E57E 675E 5B5B 5E62 6B76 FCF6
0060: F6FA 7D75 7373 7BF5 EAE1 DCDA DADD E6FE 6559 514D
0080: 4D4E 5563 EFD9 CDC8 C5C6 CAD1
packet_length 100 channel_id 2 packet_id 0 process id 0x1
0000: 0000 1CDA 3E48 3A84 0000 003C E75F 4E46 403F 4147
0020: 5174 D5C7 BFBC BCBE C5D4 6C4C 3F3B 3939 3D46 5BDA
0040: C5BC B7B6 B8BD C8E9 4F3F 3834 3437 3D4C EEC8 BBB5
0060: B2B3 B8BF D35A 4138 3331 3339 435F CEBD B6B1 B1B4
0080: BBC9 7C48 3B34 3131 363D 4FDE
packet_length 100 channel_id 1 packet_id 0 process id 0x1
0000: 0000 4AC5 5F08 9131 0000 003C 66DE 66EB 67EE FE6E
0020: F7E7 6B68 E068 EE6A DF5C DF62 EDF1 6FF2 7A78 67DC
0040: 5EDF 62E7 64E6 66E0 7071 EA69 F86E E260 DE5D E665
0060: EB75 F0FB 6DE9 64E4 69E3 66EA 67E9 6DF9 F177 EC6E
0080: EB6E F876 F875 7D6E E966 E05D
packet_length 100 channel_id 2 packet_id 0 process id 0x1
0000: 0000 1CDB 3E48 3AD4 0000 003C C2B9 B3B1 B3B8 C2DC
0020: 523F 3733 3235 3C49 72CB BDB7 B4B5 B8BF CF67 483C
0040: 3836 373C 455C DAC6 BDB9 B9BB C0CC EE54 453E 3C3C
0060: 3F47 56F1 D1C7 C1BF C0C6 CEE1 6651 4A46 4648 4D59
0080: 70E3 D6CF CDCE D2D9 E67E 675E
Application firmware 3.1.8, Built by claux on Thu Jun 17 11:00:05 1999
VIC Interface Foreign Exchange Station 0/0, DSP instance (0x19543C0)
Singalling channel num 128 Signalling proxy 0x0 Signaling dsp 0x19543C0
tx outstanding 0, max tx outstanding 32
ptr 0x0, length 0x0, max length 0x0
dsp_number 0, Channel ID 1
received 0 packets, 0 bytes, 0 gaint packets
0 drops, 0 no buffers, 0 input errors 0 input overruns
650070 bytes output, 4976 frames output, 0 output errors, 0 output
VIC Interface Foreign Exchange Station 0/1, DSP instance (0x1954604)
Singalling channel num 129 Signalling proxy 0x0 Signaling dsp 0x1954604
tx outstanding 0, max tx outstanding 32
ptr 0x0, length 0x0, max length 0x0
dsp_number 0, Channel ID 2
received 0 packets, 0 bytes, 0 gaint packets
0 drops, 0 no buffers, 0 input errors 0 input overruns
393976 bytes output, 3982 frames output, 0 output errors, 0 output
Field descriptions are hardware-dependent and are meant for use by trained technical support.
Related Commands
|
|
show dial-peer voice |
Displays configuration information and call statistics for dial peers. |
show interface dspfarm |
Displays hardware information including DRAM, SRAM, and the revision-level information on the line card. |
show voice dsp |
Displays the current status of all DSP voice channels. |
show voice port |
Displays configuration information about a specific voice port. |
show crm
To display the carrier call capacities statistics, use the show crm command in privileged EXEC mode.
show crm
Syntax Description
This command has no arguments or keywords.
Command Default
No default behavior or values
Command Modes
Privileged EXEC
Command History
|
|
12.2(11)T |
This command was introduced. |
Usage Guidelines
Both the show trunk group command and the show crm command display values for the maximum number of calls. These values originate from different configuration procedures:
•In the show trunk group command, the Max Calls value originates from the max-calls command in the trunk group configuration.
•In the show crm command, Max calls indicates the maximum number of available channels after the carrier ID or trunk group label is assigned to an interface using the trunk-group (interface) command.
Examples
The following example illustrates the carrier call capacities statistics:
Max Voice (in) : 4 Cur Voice (in) : 0
Max Voice (out): 4 Cur Voice (out): 0
Max Data (in) : 4 Cur Data (in) : 0
Max Data (out) : 4 Cur Data (out) : 0
Max Voice (in) : 6 Cur Voice (in) : 0
Max Voice (out): 6 Cur Voice (out): 0
Max Data (in) : 6 Cur Data (in) : 0
Max Data (out) : 6 Cur Data (out) : 0
Table 95 describes the fields shown in this output, in alphabetical order.
Table 95 show crm Field Descriptions
|
|
Carrier |
ID of the carrier that handles the calls. |
Cur Data (in) |
Current number of incoming data calls that are handled by the carrier or trunk group. |
Cur Data (out) |
Current number of outgoing data calls that are handled by the carrier or trunk group. |
Cur Voice (in) |
Current number of incoming voice calls that are handled by the carrier or trunk group. |
Cur Voice (out) |
Current number of outgoing voice calls that are handled by the carrier or trunk group. |
Max Calls |
Maximum number of calls that are handled by the carrier or trunk group. |
Max Data (in) |
Maximum number of incoming data calls that are handled by the carrier or trunk group. |
Max Data (out) |
Maximum number of outgoing data calls that are handled by the carrier or trunk group. |
Max Voice (in) |
Maximum number of incoming voice calls that are handled by the carrier or trunk group. |
Max Voice (out) |
Maximum number of outgoing voice calls that are handled by the carrier or trunk group. |
Trunk Group Label |
Label of the trunk group that handles the calls. |
Related Commands
|
|
carrier-id (dial peer) |
Specifies the carrier associated with VoIP calls. |
max-calls |
Specifies the maximum number of calls handled by a trunk group. |
show trunk group |
Displays the configuration parameters for one or more trunk groups. |
trunk-group (interface) |
Assigns an interface to a trunk group. |
trunk-group-label (dial peer) |
Specifies the trunk group associated with VoIP calls. |
show csm
To display the call switching module (CSM) statistics for a particular digital signal processor (DSP) channel, all DSP channels, or a specific modem or DSP channel, use the show csm command in privileged EXEC mode.
Cisco AS5300 Universal Access Server
show csm {call-rate [table] | call-resource | modem [slot/port | group modem-group-number] | signaling-channel}
Cisco AS5400Series Router
show csm {call rate [table] | call-resource | modem [slot/port | group modem-group-number] | signaling-channel | voice [slot/port]}
Syntax Description
call-rate |
Displays the incoming and outgoing call switching rate. |
table |
(Optional) Displays the incoming and outgoing call switching rate in the form of numerical table. |
call-resource |
Displays statistics about the CSM call resource. |
modem |
Displays CSM call statistics for modems. |
slot/port |
(Optional) Location (and thereby identity) of a specific modem. |
group |
(Optional) Displays modem group information. |
modem-group-number |
(Optional) Location of a particular dial peer. Range: 1 to 32767. |
signaling-channel |
Displays CSM signaling channel Information. |
voice |
Displays CSM call statistics for DSP channels. |
Command Modes
Privileged EXEC (#)
Command History
|
|
11.3 NA |
This command was introduced. |
12.0(3)T |
This command was modified. Port-specific values for the Cisco AS5300 were added. |
12.0(7)T |
This command was modified. Port-specific values for the Cisco AS5800 were added. |
Usage Guidelines
This command shows the information related to CSM, which includes the DSP channel, the start time of the call, the end time of the call, and the channel on the controller used by the call.
Use the show csm modem command to display the CSM call statistics for a specific modem, for a group of modems, or for all modems. If a slot/port argument is specified, then CSM call statistics are displayed for the specified modem. If the modem-group-number argument is specified, the CSM call statistics for all of the modems associated with that modem group are displayed. If no keyword is specified, CSM call statistics for all modems on the Cisco AS5300 universal access server are displayed.
Use the show csm voice command to display CSM statistics for a particular DSP channel. If the slot/dspm/dsp/dsp-channel or shelf/slot/port argument is specified, the CSM call statistics for calls using the identified DSP channel are displayed. If no argument is specified, all CSM call statistics for all DSP channels are displayed.
Examples
The following is sample output from the show csm command for the Cisco AS5300 universal access server:
Router# show csm voice 2/4/4/0
slot 2, dspm 4, dsp 4, dsp channel 0,
slot 2, port 56, tone, device_status(0x0002): VDEV_STATUS_ACTIVE_CALL.
csm_state(0x0406)=CSM_OC6_CONNECTED, csm_event_proc=0x600E2678, current call thru PRI line
invalid_event_count=0, wdt_timeout_count=0
wdt_timestamp_started is not activated
wait_for_dialing:False, wait_for_bchan:False
pri_chnl=TDM_PRI_STREAM(s0, u0, c22), tdm_chnl=TDM_DSP_STREAM(s2, c27)
dchan_idb_start_index=0, dchan_idb_index=0, call_id=0xA003, bchan_num=22
csm_event=CSM_EVENT_ISDN_CONNECTED, cause=0x0000
ring_no_answer=0, ic_failure=0, ic_complete=0
dial_failure=0, oc_failure=0, oc_complete=3
oc_busy=0, oc_no_dial_tone=0, oc_dial_timeout=0
remote_link_disc=0, stat_busyout=0
call_duration_started=00:06:53, call_duration_ended=00:00:00, total_call_duration=00:00:44
The calling party phone number = 408
The called party phone number = 5271086
total_free_rbs_timeslot = 0, total_busy_rbs_timeslot = 0, total_dynamic_busy_rbs_timeslot
= 0, total_static_busy_rbs_timeslot = 0,
total_sw56_rbs_timeslot = 0, total_sw56_rbs_static_bo_ts = 0,
total_free_isdn_channels = 21, total_busy_isdn_channels = 0,total_auto_busy_isdn_channels
= 0,
min_free_device_threshold = 0
Table 96 describes the significant fields shown in the display.
Table 96 show csm voice Field Descriptions
|
|
slot |
Slot where the VFC resides. |
dsp |
DSP through which this call is established. |
slot/port |
Logical port number for the device. This is equivalent to the DSP channel number. The port number is derived as follows: •(max_number_of_dsp_channels per dspm=12) * the dspm # (0-based) + •(max_number_of_dsp_channels per dsp=2) * the dsp # (0-based) + the dsp channel number (0-based). |
tone |
Which signaling tone is being used (DTMF, MF, R2). This only applies to CAS calls. Possible values are as follows: •mf •dtmf •r2-compelled •r2-semi-compelled •r2-non-compelled |
device_status |
Status of the device. Possible values are as follows: •VDEV_STATUS_UNLOCKED—Device is unlocked (meaning that it is available for new calls). •VDEV_STATUS_ACTIVE_WDT—Device is allocated for a call and the watchdog timer is set to time the connection response from the central office. •VDEV_STATUS_ACTIVE_CALL—Device is engaged in an active, connected call. •VDEV_STATUS_BUSYOUT_REQ—Device is requested to busyout; does not apply to voice devices. •VDEV_STATUS_BAD—Device is marked as bad and not usable for processing calls. •VDEV_STATUS_BACK2BACK_TEST—Modem is performing back-to-back testing (for modem calls only). •VDEV_STATUS_RESET—Modem needs to be reset (for modem only). •VDEV_STATUS_DOWNLOAD_FILE—Modem is downloading a file (for modem only). •VDEV_STATUS_DOWNLOAD_FAIL—Modem has failed during downloading a file (for modem only). •VDEV_STATUS_SHUTDOWN—Modem is not powered up (for modem only). •VDEV_STATUS_BUSY—Modem is busy (for modem only). •VDEV_STATUS_DOWNLOAD_REQ—Modem is requesting connection (for modem only). |
csm_state |
CSM call state of the current call (PRI line) associated with this device. Possible values are as follows: •CSM_IDLE_STATE—Device is idle. •CSM_IC_STATE—A device has been assigned to an incoming call. •CSM_IC1_COLLECT_ADDR_INFO—A device has been selected to perform ANI/DNIS address collection for this call. ANI/DNIS address information collection is in progress. The ANI/DNIS is used to decide whether the call should be processed by a modem or a voice DSP. •CSM_IC2_RINGING—The device assigned to this incoming call has been told to get ready for the call. •CSM_IC3_WAIT_FOR_SWITCH_OVER—A new device is selected to take over this incoming call from the device collecting the ANI/DNIS address information. •CSM_IC4_WAIT_FOR_CARRIER—This call is waiting for the CONNECT message from the carrier. •CSM_IC5_CONNECTED—This incoming call is connected to the central office. •CSM_IC6_DISCONNECTING—This incoming call is waiting for a DISCONNECT message from the VTSP module to complete the disconnect process. •CSM_OC_STATE —An outgoing call is initiated. •CSM_OC1_REQUEST_DIGIT—The device is requesting the first digit for the dial-out number. •CSM_OC2_COLLECT_1ST_DIGIT—The first digit for the dial-out number has been collected. •CSM_OC3_COLLECT_ALL_DIGIT—All the digits for the dial-out number have been collected. •CSM_OC4_DIALING—This call is waiting for a dsx0 (B channel) to be available for dialing out. •CSM_OC5_WAIT_FOR_CARRIER—This (outgoing) call is waiting for the central office to connect. •CSM_OC6_CONNECTED—This (outgoing) call is connected. •CSM_OC7_BUSY_ERROR—A busy tone has been sent to the device (for VoIP call, no busy tone is sent; just a DISCONNECT INDICATION message is sent to the VTSP module), and this call is waiting for a DISCONNECT message from the VTSP module (or ONHOOK message from the modem) to complete the disconnect process. •CSM_OC8_DISCONNECTING—The central office has disconnected this (outgoing) call, and the call is waiting for a DISCONNECT message from the VTSP module to complete the disconnect process. |
csm_state: invalid_event_count |
Number of invalid events received by the CSM state machine. |
wdt_timeout_count |
Number of times the watchdog timer is activated for this call. |
wdt_timestamp_started |
Whether the watchdog timer is activated for this call. |
wait_for_dialing |
Whether this (outgoing) call is waiting for a free digit collector to become available to dial out the outgoing digits. |
wait_for_bchan |
Whether this (outgoing) call is waiting for a B channel to send the call out on. |
pri_chnl |
Which type of TDM stream is used for the PRI connection. For PRI and CAS calls, it is always TDM_PRI_STREAM. |
tdm_chnl |
Which type of TDM stream is used for the connection to the device used to process this call. In the case of a VoIP call, this is always set to TDM_DSP_STREAM. |
dchan_idb_start_index |
First index to use when searching for the next IDB of a free D channel. |
dchan_idb_index |
Index of the currently available IDB of a free D channel. |
csm_event |
Event just passed to the CSM state machine. |
cause |
Event cause. |
ring_no_answer |
Number of times a call failed because there was no response. |
ic_failure |
Number of failed incoming calls. |
ic_complete |
Number of successful incoming calls. |
dial_failure |
Number of times a connection failed because there was no dial tone. |
oc_failure |
Number of failed outgoing calls. |
oc_complete |
Number of successful outgoing calls. |
oc_busy |
Number of outgoing calls whose connection failed because there was a busy signal. |
oc_no_dial_tone |
Number of outgoing calls whose connection failed because there was no dial tone. |
oc_dial_timeout |
Number of outgoing calls whose connection failed because the timeout value was exceeded. |
call_duration_started |
Start of this call. |
call_duration_ended |
End of this call. |
total_call_duration |
Duration of this call. |
The calling party phone number |
Calling party number as given to CSM by ISDN. |
The called party phone number |
Called party number as given to CSM by ISDN. |
total_free_rbs_time slot |
Total number of free RBS (CAS) time slots available for the whole system. |
total_busy_rbs_time slot |
Total number of RBS (CAS) time slots that have been busied-out. This includes both dynamically and statically busied out RBS time slots. |
total_dynamic_busy_rbs_time slot |
Total number of RBS (CAS) time slots that have been dynamically busied out. |
total_static_busy_rbs_time slot |
Total number of RBS (CAS) time slots that have been statically busied out (that is, they are busied out using the CLI command). |
total_free_isdn_channels |
Total number of free ISDN channels. |
total_busy_isdn_channels |
Total number of busy ISDN channels. |
total_auto_busy_isdn_channels |
Total number of ISDN channels that are automatically busied out. |
Related Commands
|
|
show call active voice |
Displays the contents of the active call table. |
show call history voice |
Displays the contents of the call history table. |
show num-exp |
Displays how number expansions are configured. |
show voice port |
Displays configuration information about a specific voice port. |
show csm call
To view the call switching module (CSM) call statistics, use the show csm call command in privileged EXEC mode
show csm call {failed | rate | total}
Syntax Description
failed |
CSM call fail/reject rate for the last 60 seconds, 60 minutes, and 72 hours. |
rate |
CSM call rate for the last 60 seconds, 60 minutes, and 72 hours. |
total |
Total number of CSM calls for the last 60 seconds, 60 minutes, and 72 hours. |
Command Default
No default behavior or values.
Command Modes
Privileged EXEC
Command History
|
|
12.3(2)T |
This command was introduced on the Cisco AS5850. |
Usage Guidelines
Use this command to understand CSM call volume.
Examples
The following examples show the CSM call statistics for the last 60 seconds:
Router# show csm call rate
0....5....1....1....2....2....3....3....4....4....5....5....
CSM call switching rate per second (last 60 seconds)
# = calls entering the module per second
Router# show csm call failed
0....5....1....1....2....2....3....3....4....4....5....5....
CSM call fail/reject rate per second (last 60 seconds)
# = calls failing per second
Router# sh csm call total
0....5....1....1....2....2....3....3....4....4....5....5....
CSM total calls (last 60 seconds)
Field descriptions should be self-explanatory.
show debug condition
To display the debugging filters that have been enabled for VoiceXML applications, ATM-enabled interfaces, or Frame Relay interfaces, use the show debug condition command in privileged EXEC mode.
show debug condition
Syntax Description
This command has no arguments or keywords.
Command Modes
Privileged EXEC
Command History
|
|
12.2(11)T |
This command was introduced on the Cisco 3640, Cisco 3660, Cisco AS5300, Cisco AS5350, and Cisco AS5400. |
12.0(28)S |
This command was integrated into Cisco IOS Release 12.0(28)S and was enhanced to include debugging for ATM-enabled and Frame Relay-enabled interfaces. |
12.2(25)S |
This command was integrated into Cisco IOS Release 12.2(25)S. |
12.2(27)SBC |
This command was integrated into Cisco IOS Release 12.2(27)SBC. |
12.2(28)SB |
This command was integrated into Cisco IOS Release 12.2(28)SB. |
12.4(9)T |
This command was enhanced to include debugging for ATM-enabled and Frame Relay-enabled interfaces. |
Usage Guidelines
This command displays the debugging filter conditions that have been set for VoiceXML applications by using the debug condition application voice command.
Examples
The following is sample output from this command when it is used with the VoiceXML application:
Router# show debug condition
Condition 1: application voice vmail (1 flags triggered)
Condition 2: application voice myapp1 (1 flags triggered)
The following is sample output from this command when an ATM interface is being debugged:
Router# show debug condition
Condition 1: atm-vc 0/56784 AT2/0 (0 flags triggered)
Condition 2: atm-vc 255/45546 AT2/0 (0 flags triggered)
Condition 3: atm-vc 0/266 AT6/0 (1 flags triggered)
Table 97 describes the significant fields shown in the display.
Table 97 show debug condition Field Descriptions
|
|
Condition 1 |
Sequential number identifying the filter condition that was set for the specified command. |
Flags |
Name of the voice application for which the condition was set. |
at2/0 |
Interface number of the ATM interface that has the debug condition applied. |
atm-vc 0/56784 |
Virtual channel identifier (VCI). Alternatively, virtual path identifier/virtual channel identifier (VCI/VPI) pair. |
Related Commands
|
|
debug condition application voice |
Filters out debugging messages for all VoiceXML applications except the specified application. |
debug http client |
Displays debugging messages for the HTTP client. |
debug vxml |
Displays debugging messages for VoiceXML features. |