- Introduction
- aaa accounting through clear ipv6 mobile home-agents
- clear ipv6 mobile traffic through debug bgp vpnv6 unicast
- debug crypto ipv6 ipsec through debug ipv6 pim
- debug ipv6 pim df-election through ip http server
- ip mroute-cache through ipv6 general-prefix
- ipv6 hello-interval eigrp through ipv6 mld static-group
- ipv6 mobile home-agent (global configuration) through ipv6 ospf database-filter all out
- ipv6 ospf dead-interval through ipv6 split-horizon eigrp
- ipv6 summary-address eigrp through mpls ldp router-id
- mpls traffic-eng auto-bw timers through route-map
- router-id (IPv6) through show bgp ipv6 labels
- show bgp ipv6 neighbors through show crypto isakmp peers
- show crypto isakmp policy through show ipv6 eigrp neighbors
- show ipv6 eigrp topology through show ipv6 nat statistics
- show ipv6 nat translations through show ipv6 protocols
- show ipv6 rip through snmp-server host
- snmp-server user through vrf forwarding
- show bgp ipv6 neighbors
- show bgp ipv6 paths
- show bgp ipv6 peer-group
- show bgp ipv6 prefix-list
- show bgp ipv6 quote-regexp
- show bgp ipv6 regexp
- show bgp ipv6 route-map
- show bgp ipv6 summary
- show bgp vpnv6 unicast
- show call active fax
- show call active voice
- show call history fax
- show call history voice
- show cdp entry
- show cdp neighbors
- show cef
- show cef interface
- show cef linecard
- show cef table
- show clns neighbors
- show clock
- show crypto engine
- show crypto ikev2 policy
- show crypto ikev2 profile
- show crypto ikev2 sa
- show crypto ikev2 session
- show crypto ipsec policy
- show crypto ipsec sa
- show crypto isakmp key
- show crypto isakmp peers
show bgp ipv6 neighbors
To display information about IPv6 Border Gateway Protocol (BGP) connections to neighbors, use the show bgp ipv6 neighbors command in user EXEC or privileged EXEC mode.
show bgp ipv6 {unicast | multicast} neighbors [ipv6-address] [received-routes | routes | flap-statistics | advertised-routes | paths regular-expression | dampened-routes]
Syntax Description
Command Modes
User EXEC
Privileged EXEC
Command History
Usage Guidelines
The show bgp ipv6 unicast neighbors and show bgp ipv6 multicast neighbors commands provide output similar to the show ip bgp neighbors command, except they are IPv6-specific.
The unicast keyword is available in Cisco IOS Release 12.3(2)T and later releases. It is not available in releases prior to 12.3(2)T. Use of the unicast keyword is mandatory starting with Cisco IOS Release 12.3(2)T.
The multicast keyword is available in Cisco IOS Release 12.0(26)S and later releases. It is not available in releases prior to 12.0(26)S. Use of either the unicast or multicast keyword is mandatory starting with Cisco IOS Release 12.0(26)S.
Examples
The following is sample output from the show bgp ipv6 neighbors command:
Note 
The output is the same whether or not the unicast or multicast keyword is used. The unicast keyword is available in Cisco IOS Release 12.3(2)T and Cisco IOS Release 12.0(26)S and later releases, and the multicast keyword is available only in Cisco IOS Release 12.0(26)S and later releases.
Router# show bgp ipv6 unicast neighbors
BGP neighbor is 3FFE:700:20:1::11, remote AS 65003, external link
Member of peer-group 6BONE for session parameters
BGP version 4, remote router ID 192.168.2.27
BGP state = Established, up for 13:40:17
Last read 00:00:09, hold time is 180, keepalive interval is 60 seconds
Neighbor capabilities:
Route refresh: advertised and received
Address family IPv6 Unicast: advertised and received
Received 31306 messages, 20 notifications, 0 in queue
Sent 14298 messages, 1 notifications, 0 in queue
Default minimum time between advertisement runs is 30 seconds
For address family: IPv6 Unicast
BGP table version 21880, neighbor version 21880
Index 1, Offset 0, Mask 0x2
Route refresh request: received 0, sent 0
6BONE peer-group member
Community attribute sent to this neighbor
Outbound path policy configured
Incoming update prefix filter list is bgp-in
Outgoing update prefix filter list is aggregate
Route map for outgoing advertisements is uni-out
77 accepted prefixes consume 4928 bytes
Prefix advertised 4303, suppressed 0, withdrawn 1328
Number of NLRIs in the update sent: max 1, min 0
1 history paths consume 64 bytes
Connections established 22; dropped 21
Last reset 13:47:05, due to BGP Notification sent, hold time expired
Connection state is ESTAB, I/O status: 1, unread input bytes: 0
Local host: 3FFE:700:20:1::12, Local port: 55345
Foreign host: 3FFE:700:20:1::11, Foreign port: 179
Enqueued packets for retransmit: 0, input: 0 mis-ordered: 0 (0 bytes)
Event Timers (current time is 0x1A0D543C):
Timer Starts Wakeups Next
Retrans 1218 5 0x0
TimeWait 0 0 0x0
AckHold 3327 3051 0x0
SendWnd 0 0 0x0
KeepAlive 0 0 0x0
GiveUp 0 0 0x0
PmtuAger 0 0 0x0
DeadWait 0 0 0x0
iss: 1805423033 snduna: 1805489354 sndnxt: 1805489354 sndwnd: 15531
irs: 821333727 rcvnxt: 821591465 rcvwnd: 15547 delrcvwnd: 837
SRTT: 300 ms, RTTO: 303 ms, RTV: 3 ms, KRTT: 0 ms
minRTT: 8 ms, maxRTT: 300 ms, ACK hold: 200 ms
Flags: higher precedence, nagle
Datagrams (max data segment is 1420 bytes):
Rcvd: 4252 (out of order: 0), with data: 3328, total data bytes: 257737
Sent: 4445 (retransmit: 5), with data: 4445, total data bytes: 244128
The following is sample output from the show bgp ipv6 neighbors command when the router is configured to allow IPv6 traffic to be transported across an IPv4 Multiprotocol Label Switching (MPLS) network (Cisco 6PE) without any software or hardware upgrade in the IPv4 core infrastructure. A new neighbor capability is added to show that an MPLS label is assigned for each IPv6 address prefix to be advertised. 6PE uses multiprotocol BGP to provide the reachability information for the 6PE routers across the IPv4 network so that the neighbor addresses are IPv4.
Router# show bgp ipv6 unicast neighbors
BGP neighbor is 10.11.11.1, remote AS 65000, internal link
BGP version 4, remote router ID 10.11.11.1
BGP state = Established, up for 04:00:53
Last read 00:00:02, hold time is 15, keepalive interval is 5 seconds
Configured hold time is 15, keepalive interval is 10 seconds
Neighbor capabilities:
Route refresh: advertised and received(old & new)
Address family IPv6 Unicast: advertised and received
ipv6 MPLS Label capability: advertised and received
Received 67068 messages, 1 notifications, 0 in queue
Sent 67110 messages, 16 notifications, 0 in queue
Default minimum time between advertisement runs is 5 seconds
For address family: IPv6 Unicast
BGP table version 91, neighbor version 91
Index 1, Offset 0, Mask 0x2
Route refresh request: received 0, sent 0
Sending Prefix & Label
4 accepted prefixes consume 288 bytes
Prefix advertised 90, suppressed 0, withdrawn 2
Number of NLRIs in the update sent: max 3, min 0
Connections established 26; dropped 25
Last reset 04:01:20, due to BGP Notification sent, hold time expired
Connection state is ESTAB, I/O status: 1, unread input bytes: 0
Local host: 10.10.10.1, Local port: 179
Foreign host: 10.11.11.1, Foreign port: 11003
Enqueued packets for retransmit: 0, input: 0 mis-ordered: 0 (0 bytes)
Event Timers (current time is 0x1429F084):
Timer Starts Wakeups Next
Retrans 2971 77 0x0
TimeWait 0 0 0x0
AckHold 2894 1503 0x0
SendWnd 0 0 0x0
KeepAlive 0 0 0x0
GiveUp 0 0 0x0
PmtuAger 0 0 0x0
DeadWait 0 0 0x0
iss: 803218558 snduna: 803273755 sndnxt: 803273755 sndwnd: 16289
irs: 4123967590 rcvnxt: 4124022787 rcvwnd: 16289 delrcvwnd: 95
SRTT: 300 ms, RTTO: 303 ms, RTV: 3 ms, KRTT: 0 ms
minRTT: 32 ms, maxRTT: 408 ms, ACK hold: 200 ms
Flags: passive open, nagle, gen tcbs
Datagrams (max data segment is 536 bytes):
Rcvd: 4531 (out of order: 0), with data: 2895, total data bytes: 55215
Sent: 4577 (retransmit: 77, fastretransmit: 0), with data: 2894, total data
bytes: 55215
Table 119 describes the significant fields shown in the display.
The following is sample output from the show bgp ipv6 neighbors command with the advertised-routes keyword:
Router# show bgp ipv6 unicast neighbors 3FFE:700:20:1::11 advertised-routes
BGP table version is 21880, local router ID is 192.168.7.225
Status codes: s suppressed, d damped, h history, * valid, > best, i - internal
Origin codes: i - IGP, e - EGP, ? - incomplete
Network Next Hop Metric LocPrf Weight Path
*> 2001:200::/35 3FFE:700:20:1::11 0 293 3425 2500 i
*> 2001:208::/35 3FFE:C00:E:B::2 0 237 7610 i
*> 2001:218::/35 3FFE:C00:E:C::2 0 3748 4697 i
The following is sample output from the show bgp ipv6 neighbors command with the routes keyword:
Router# show bgp ipv6 unicast neighbors 3FFE:700:20:1::11 routes
BGP table version is 21885, local router ID is 192.168.7.225
Status codes: s suppressed, d damped, h history, * valid, > best, i - internal
Origin codes: i - IGP, e - EGP, ? - incomplete
Network Next Hop Metric LocPrf Weight Path
*> 2001:200::/35 3FFE:700:20:1::11 0 293 3425 2500 i
* 2001:208::/35 3FFE:700:20:1::11 0 293 7610 i
* 2001:218::/35 3FFE:700:20:1::11 0 293 3425 4697 i
* 2001:230::/35 3FFE:700:20:1::11 0 293 1275 3748 i
Table 120 describes the significant fields shown in the display.
The following is sample output from the show bgp ipv6 neighbors command with the paths keyword:
Router# show bgp ipv6 unicast neighbors 3FFE:700:20:1::11 paths ^293
Address Refcount Metric Path
0x6131D7DC 2 0 293 3425 2500 i
0x6132861C 2 0 293 7610 i
0x6131AD18 2 0 293 3425 4697 i
0x61324084 2 0 293 1275 3748 i
0x61320E0C 1 0 293 3425 2500 2497 i
0x61326928 1 0 293 3425 2513 i
0x61327BC0 2 0 293 i
0x61321758 1 0 293 145 i
0x61320BEC 1 0 293 3425 6509 i
0x6131AAF8 2 0 293 1849 2914 ?
0x61320FE8 1 0 293 1849 1273 209 i
0x613260A8 2 0 293 1849 i
0x6132586C 1 0 293 1849 5539 i
0x6131BBF8 2 0 293 1849 1103 i
0x6132344C 1 0 293 4554 1103 1849 1752 i
0x61324150 2 0 293 1275 559 i
0x6131E5AC 2 0 293 1849 786 i
0x613235E4 1 0 293 1849 1273 i
0x6131D028 1 0 293 4554 5539 8627 i
0x613279E4 1 0 293 1275 3748 4697 3257 i
0x61320328 1 0 293 1849 1273 790 i
0x6131EC0C 2 0 293 1275 5409 i
Note The caret (^) symbol in the example is a regular expression that is entered by simultaneously pressing the Shift and 6 keys on your keyboard. A caret (^) symbol at the beginning of a regular expression matches the start of a line.
Table 121 describes the significant fields shown in the display.
The following sample output from the show bgp ipv6 neighbors command shows the dampened routes for IPv6 address 3FFE:700:20:1::11:
Router# show bgp ipv6 unicast neighbors 3FFE:700:20:1::11 dampened-routes
BGP table version is 32084, local router ID is 192.168.7.225
Status codes: s suppressed, d damped, h history, * valid, > best, i - internal
Origin codes: i - IGP, e - EGP, ? - incomplete
Network From Reuse Path
*d 3FFE:8030::/28 3FFE:700:20:1::11 00:24:20 293 1275 559 8933 i
The following sample output from the show bgp ipv6 neighbors command shows the flap statistics for IPv6 address 3FFE:700:20:1::11:
Router# show bgp ipv6 unicast neighbors 3FFE:700:20:1::11 flap-statistics
BGP table version is 32084, local router ID is 192.168.7.225
Status codes: s suppressed, d damped, h history, * valid, > best, i - internal
Origin codes: i - IGP, e - EGP, ? - incomplete
Network From Flaps Duration Reuse Path
*d 2001:668::/35 3FFE:700:20:1:: 4923 2d12h 00:59:50 293 1849 3257
*d 3FFE::/24 3FFE:700:20:1:: 4799 2d12h 00:59:30 293 1849 5609 4554
*d 3FFE:8030::/28 3FFE:700:20:1:: 95 11:48:24 00:23:20 293 1275 559 8933
The following sample output from the show bgp ipv6 neighbors command shows the received routes for IPv6 address 2000:0:0:4::2:
Router# show bgp ipv6 unicast neighbors 2000:0:0:4::2 received-routes
BGP table version is 2443, local router ID is 192.168.0.2
Status codes:s suppressed, d damped, h history, * valid, > best, i - internal
Origin codes:i - IGP, e - EGP, ? - incomplete
Network Next Hop Metric LocPrf Weight Path
*> 2000:0:0:1::/64 2000:0:0:4::2 0 2 1 i
*> 2000:0:0:2::/64 2000:0:0:4::2 0 2 i
*> 2000:0:0:2:1::/80 2000:0:0:4::2 0 2 ?
*> 2000:0:0:3::/64 2000:0:0:4::2 0 2 ?
* 2000:0:0:4::1/64 2000:0:0:4::2 0 2 ?
Related Commands
|
|
|
neighbor activate |
Enables the exchange of information with a neighboring router. |
show bgp ipv6 paths
To display all the IPv6 Border Gateway Protocol (BGP) paths in the database, use the show bgp ipv6 paths command in user EXEC or privileged EXEC mode.
show bgp ipv6 {unicast | multicast} paths regular-expression
Syntax Description
unicast |
Specifies IPv6 unicast address prefixes. |
multicast |
Specifies IPv6 multicast address prefixes. |
regular-expression |
Regular expression that is used to match the received paths in the database. |
Command Modes
User EXEC
Privileged EXEC
Command History
Usage Guidelines
The show bgp ipv6 unicast paths and show bgp ipv6 multicast paths commands provide output similar to the show ip bgp paths command, except they are IPv6-specific.
The unicast keyword is available in Cisco IOS Release 12.3(2)T and later releases. It is not available in releases prior to 12.3(2)T. Use of the unicast keyword is mandatory starting with Cisco IOS Release 12.3(2)T.
The multicast keyword is available in Cisco IOS Release 12.0(26)S and later releases. It is not available in releases prior to 12.0(26)S. Use of either the unicast or multicast keyword is mandatory starting with Cisco IOS Release 12.0(26)S.
Examples
The following is sample output from the show bgp ipv6 paths command:
Note The output is the same whether or not the unicast or multicast keyword is used. The unicast keyword is available in Cisco IOS Release 12.3(2)T and Cisco IOS Release 12.0(26)S and later, and the multicast keyword is available only in Cisco IOS Release 12.0(26)S and later releases.
Router# show bgp ipv6 unicast paths
Address Hash Refcount Metric Path
0x61322A78 0 2 0 i
0x6131C214 3 2 0 6346 8664 786 i
0x6131D600 13 1 0 3748 1275 8319 1273 209 i
0x613229F0 17 1 0 3748 1275 8319 12853 i
0x61324AE0 18 1 1 4554 3748 4697 5408 i
0x61326818 32 1 1 4554 5609 i
0x61324728 34 1 0 6346 8664 9009 ?
0x61323804 35 1 0 3748 1275 8319 i
0x61327918 35 1 0 237 2839 8664 ?
0x61320504 38 2 0 3748 4697 1752 i
0x61320988 41 2 0 1849 786 i
0x6132245C 46 1 0 6346 8664 4927 i
Table 122 describes the significant fields shown in the display.
show bgp ipv6 peer-group
To display information about Border Gateway Protocol (BGP) peer groups, use the show bgp ipv6 peer-group command in user EXEC or privileged EXEC mode.
show bgp ipv6 {unicast | multicast} peer-group [name]
Syntax Description
unicast |
Specifies IPv6 unicast address prefixes. |
multicast |
Specifies IPv6 multicast address prefixes. |
name |
(Optional) Peer group name. |
Command Modes
User EXEC
Privileged EXEC
Command History
Usage Guidelines
If a user does not specify a peer group name, then all BGP peer groups will be displayed.
The multicast keyword is available in Cisco IOS Release 12.0(26)S and later releases. It is not available in releases prior to 12.0(26)S. Use of either the unicast or multicast keyword is mandatory starting with Cisco IOS Release 12.0(26)S.
Examples
The following is sample output from the show bgp ipv6 peer-group command:
Router# show bgp ipv6 unicast peer-group
BGP peer-group is external-peerings, remote AS 20
BGP version 4
Default minimum time between advertisement runs is 30 seconds
For address family:IPv6 Unicast
BGP neighbor is external-peerings, peer-group external, members:
1::1
Index 0, Offset 0, Mask 0x0
Update messages formatted 0, replicated 0
Number of NLRIs in the update sent:max 0, min 0
Table 123 describes the significant fields shown in the display.
show bgp ipv6 prefix-list
To display routes that match a prefix list, use the show bgp ipv6 prefix-list command in user EXEC or privileged EXEC mode.
show bgp ipv6 {unicast | multicast} prefix-list name
Syntax Description
unicast |
Specifies IPv6 unicast address prefixes. |
multicast |
Specifies IPv6 multicast address prefixes. |
name |
The specified prefix list. |
Command Modes
User EXEC
Privileged EXEC
Command History
|
|
|
|---|---|
12.3(2)T |
This command was introduced. |
12.0(26)S |
The unicast and multicast keywords were added. |
12.3(4)T |
The unicast and multicast keywords were added. |
Usage Guidelines
The specified prefix list must be an IPv6 prefix list, which is similar in format to an IPv4 prefix list.
The multicast keyword is available in Cisco IOS Release 12.0(26)S and later releases. It is not available in releases prior to 12.0(26)S. Use of either the unicast or multicast keyword is mandatory starting with Cisco IOS Release 12.0(26)S.
Examples
The following is sample output from the show bgp ipv6 prefix-list command:
Router# show bgp ipv6 unicast prefix-list pin
ipv6 prefix-list pin:
count:4, range entries:3, sequences:5 - 20, refcount:2
seq 5 permit 747::/16 (hit count:1, refcount:2)
seq 10 permit 747:1::/32 ge 64 le 64 (hit count:2, refcount:2)
seq 15 permit 747::/32 ge 33 (hit count:1, refcount:1)
seq 20 permit 777::/16 le 124 (hit count:2, refcount:1)
The ipv6 prefix-list match the following prefixes:
seq 5: matches the exact match 747::/16
seq 10:first 32 bits in prefix must match with a prefixlen of /64
seq 15:first 32 bits in prefix must match with any prefixlen up to /128
seq 20:first 16 bits in prefix must match with any prefixlen up to /124
Table 124 describes the significant fields shown in the display.
show bgp ipv6 quote-regexp
To display IPv6 Border Gateway Protocol (BGP) routes matching the autonomous system path regular expression as a quoted string of characters, use the show bgp ipv6 quote-regexp command in user EXEC or privileged EXEC mode.
show bgp ipv6 {unicast | multicast} quote-regexp regular-expression
Syntax Description
unicast |
Specifies IPv6 unicast address prefixes. |
multicast |
Specifies IPv6 multicast address prefixes. |
regular-expression |
Regular expression that is used to match the BGP autonomous system paths. |
Command Modes
User EXEC
Privileged EXEC
Command History
Usage Guidelines
The show bgp ipv6 unicast quote-regexp and show bgp ipv6 multicast quote-regexp commands provide output similar to the show ip bgp quote-regexp command, except they are IPv6-specific.
The unicast keyword is available in Cisco IOS Release 12.3(2)T and later releases. It is not available in releases prior to 12.3(2)T. Use of the unicast keyword is mandatory starting with Cisco IOS Release 12.3(2)T.
The multicast keyword is available in Cisco IOS Release 12.0(26)S and later releases. It is not available in releases prior to 12.0(26)S. Use of either the unicast or multicast keyword is mandatory starting with Cisco IOS Release 12.0(26)S.
Examples
The following is sample output from the show bgp ipv6 quote-regexp command that shows paths beginning with 33 or containing 293:
Note The output is the same whether or not the unicast or multicast keyword is used. The unicast keyword is available in Cisco IOS Release 12.3(2)T and Cisco IOS Release 12.0(26)S and later, and the multicast keyword is available only in Cisco IOS Release 12.0(26)S and later releases.
Router# show bgp ipv6 unicast quote-regexp ^33|293
BGP table version is 69964, local router ID is 192.31.7.225
Status codes: s suppressed, d damped, h history, * valid, > best, i - internal
Origin codes: i - IGP, e - EGP, ? - incomplete
Network Next Hop Metric LocPrf Weight Path
* 2001:200::/35 3FFE:C00:E:4::2 1 0 4554 293 3425 2500 i
* 2001:0DB8:0:F004::1
0 3320 293 3425 2500 i
* 2001:208::/35 3FFE:C00:E:4::2 1 0 4554 293 7610 i
* 2001:228::/35 3FFE:C00:E:F::2 0 6389 1849 293 2713 i
* 3FFE::/24 3FFE:C00:E:5::2 0 33 1849 4554 i
* 3FFE:100::/24 3FFE:C00:E:5::2 0 33 1849 3263 i
* 3FFE:300::/24 3FFE:C00:E:5::2 0 33 293 1275 1717 i
* 3FFE:C00:E:F::2 0 6389 1849 293 1275
Note The caret (^) symbol in the example is a regular expression that is entered by pressing the Shift and 6 keys on your keyboard. A caret (^) symbol at the beginning of a regular expression matches the start of a line.
Table 125 describes the significant fields shown in the display.
Related Commands
|
|
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show bgp ipv6 regexp |
Displays IPv6 BGP routes matching the autonomous system path regular expression. |
show ip bgp regexp |
Displays routes matching the regular expression. |
show bgp ipv6 regexp
To display IPv6 Border Gateway Protocol (BGP) routes matching the autonomous system path regular expression, use the show bgp ipv6 regexp command in user EXEC or privileged EXEC mode.
show bgp ipv6 {unicast | multicast} regexp regular-expression
Syntax Description
unicast |
Specifies IPv6 unicast address prefixes. |
multicast |
Specifies IPv6 multicast address prefixes. |
regular-expression |
Regular expression that is used to match the BGP autonomous system paths. |
Command Modes
User EXEC
Privileged EXEC
Command History
Usage Guidelines
The show bgp ipv6 unicast regexp and show bgp ipv6 multicast regexp commands provide output similar to the show ip bgp regexp command, except they are IPv6-specific.
The unicast keyword is available in Cisco IOS Release 12.3(2)T and later releases. It is not available in releases prior to 12.3(2)T. Use of the unicast keyword is mandatory starting with Cisco IOS Release 12.3(2)T.
The multicast keyword is available in Cisco IOS Release 12.0(26)S and later releases. It is not available in releases prior to 12.0(26)S. Use of either the unicast or multicast keyword is mandatory starting with Cisco IOS Release 12.0(26)S.
Examples
The following is sample output from the show bgp ipv6 regexp command that shows paths beginning with 33 or containing 293:
Note The output is the same whether or not the unicast or multicast keyword is used. The unicast keyword is available in Cisco IOS Release 12.3(2)T and Cisco IOS Release 12.0(26)S and later, and the multicast keyword is available only in Cisco IOS Release 12.0(26)S and later releases.
Router# show bgp ipv6 unicast regexp ^33|293
BGP table version is 69964, local router ID is 192.168.7.225
Status codes: s suppressed, d damped, h history, * valid, > best, i - internal
Origin codes: i - IGP, e - EGP, ? - incomplete
Network Next Hop Metric LocPrf Weight Path
* 2001:200::/35 3FFE:C00:E:4::2 1 0 4554 293 3425 2500 i
* 2001:0DB8:0:F004::1
0 3320 293 3425 2500 i
* 2001:208::/35 3FFE:C00:E:4::2 1 0 4554 293 7610 i
* 2001:228::/35 3FFE:C00:E:F::2 0 6389 1849 293 2713 i
* 3FFE::/24 3FFE:C00:E:5::2 0 33 1849 4554 i
* 3FFE:100::/24 3FFE:C00:E:5::2 0 33 1849 3263 i
* 3FFE:300::/24 3FFE:C00:E:5::2 0 33 293 1275 1717 i
* 3FFE:C00:E:F::2 0 6389 1849 293 1275
Note The caret (^) symbol in the example is a regular expression that is entered by pressing the Shift and 6 keys on your keyboard. A caret (^) symbol at the beginning of a regular expression matches the start of a line.
Table 126 describes the significant fields shown in the display.
show bgp ipv6 route-map
To display IPv6 Border Gateway Protocol (BGP) routes that failed to install in the routing table, use the show bgp ipv6 route-map command in user EXEC or privileged EXEC mode.
show bgp ipv6 {unicast | multicast} route-map name
Syntax Description
unicast |
Specifies IPv6 unicast address prefixes. |
multicast |
Specifies IPv6 multicast address prefixes. |
name |
A specified route map to match. |
Command Modes
User EXEC
Privileged EXEC
Command History
|
|
|
|---|---|
12.3(2)T |
This command was introduced. |
12.0(26)S |
The unicast and multicast keywords were added. |
12.3(4)T |
The unicast and multicast keywords were added. |
Usage Guidelines
The multicast keyword is available in Cisco IOS Release 12.0(26)S and later releases. It is not available in releases prior to 12.0(26)S. Use of either the unicast or multicast keyword is mandatory starting with Cisco IOS Release 12.0(26)S.
Examples
The following is sample output from the show bgp ipv6 route-map command for a route map named rmap:
Router# show bgp ipv6 unicast route-map rmap
BGP table version is 16, local router ID is 172.30.242.1
Status codes:s suppressed, d damped, h history, * valid, > best, i - internal,
r RIB-failure, S Stale
Origin codes:i - IGP, e - EGP, ? - incomplete
Network Next Hop Metric LocPrf Weight Path
*>i12:12::/64 2001:0DB8:101::1 0 100 50 ?
*>i12:13::/64 2001:0DB8:101::1 0 100 50 ?
*>i12:14::/64 2001:0DB8:101::1 0 100 50 ?
*>i543::/64 2001:0DB8:101::1 0 100 50 ?
Table 127 describes the significant fields shown in the display.
show bgp ipv6 summary
To display the status of all IPv6 Border Gateway Protocol (BGP) connections, use the show bgp ipv6 summary command in user EXEC or privileged EXEC mode.
show bgp ipv6 {unicast | multicast} summary
Syntax Description
unicast |
Specifies IPv6 unicast address prefixes. |
multicast |
Specifies IPv6 multicast address prefixes. |
Command Modes
User EXEC
Privileged EXEC
Command History
Usage Guidelines
The show bgp ipv6 unicast summary and show bgp ipv6 multicast summary commands provide output similar to the show ip bgp summary command, except they are IPv6-specific.
The unicast keyword is available in Cisco IOS Release 12.3(2)T and later releases. It is not available in releases prior to 12.3(2)T. Use of the unicast keyword is mandatory starting with Cisco IOS Release 12.3(2)T.
The multicast keyword is available in Cisco IOS Release 12.0(26)S and later releases. It is not available in releases prior to 12.0(26)S. Use of either the unicast or multicast keyword is mandatory starting with Cisco IOS Release 12.0(26)S.
Examples
The following is sample output from the show bgp ipv6 summary command:
Note The output is the same whether or not the unicast or multicast keyword is used. The unicast keyword is available in Cisco IOS Release 12.3(2)T and Cisco IOS Release 12.0(26)S and later, and the multicast keyword is available only in Cisco IOS Release 12.0(26)S and later releases.
Router# show bgp ipv6 unicast summary
BGP router identifier 172.30.4.4, local AS number 200
BGP table version is 1, main routing table version 1
Neighbor V AS MsgRcvd MsgSent TblVer InQ OutQ Up/Down State/PfxRcd
2001:0DB8:101::2 4 200 6869 6882 0 0 0 06:25:24 Active
Table 128 describes the significant fields shown in the display.
.
Related Commands
show bgp vpnv6 unicast
To display Virtual Private Network (VPN) entries in a Border Gateway Protocol (BGP) table, use the show bgp vpnv6 unicast command in user EXEC or privileged EXEC mode.
show bgp vpnv6 unicast [all | vrf [vrf-name]]
Syntax Description
Command Modes
User EXEC
Privileged EXEC
Command History
Usage Guidelines
BGP is used for distributing VPN IPv6 routing information in the VPN backbone. The local routes placed in the BGP routing table on an egress provider edge (PE) router are distributed to other PE routers.
Examples
The following examples shows BGP entries from all of the customer-specific IPv6 routing tables:
Router# show bgp vpnv6 unicast all
Network Next Hop Metric LocPrf Weight Path
Route Distinguisher: 100:1
* 2001:100:1:1000::/56 2001:100:1:1000::72a 0 0 200 ?
* :: 0 32768 ?
* i2001:100:1:2000::/56 ::FFFF:200.10.10.1
Route Distinguisher: 200:1
* 2001:100:2:1000::/56 :: 0 32768 ?
* 2001:100:2:2000::/56 ::FFFF:200.10.10.1 0 32768 ?
Table 129 describes the significant fields shown in the displays.
show call active fax
To display call information for T.37 store-and-forward fax transmissions in progress, use the show call active fax command in user EXEC or privileged EXEC mode.
show call active fax [brief [id identifier] | compact [duration {less seconds | more seconds}]
| id identifier]
Syntax Description
Command Modes
User EXEC (>)
Privileged EXEC (#)
Command History
Usage Guidelines
Use this command to display the contents of the active call table. This command displays information about call times, dial peers, connections, quality of service, and other status and statistical information for T.37 store-and-forward fax calls currently connected through the router. This command works with both on-ramp and off-ramp store-and-forward fax functions.
To display information about fax relay calls in progress, use the show call active voice command.
Examples
The following is sample output from the show call active fax command:
Router# show call active fax
GENERIC:
SetupTime=22021 ms
Index=1
PeerAddress=peer one
PeerSubAddress=
PeerId=0
PeerIfIndex=0
LogicalIfIndex=0
ConnectTime=24284
CallState=4
CallOrigin=2
ChargedUnits=0
InfoType=10
TransmitPackets=0
TransmitBytes=0
ReceivePackets=0
ReceiveBytes=41190
MMOIP:
ConnectionId[0x37EC7F41 0xB0110001 0x0 0x35C34]
CallID=1
RemoteIPAddress=10.0.0.0
SessionProtocol=SMTP
SessionTarget=
MessageId=
AccountId=
ImgEncodingType=MH
ImgResolution=fine
AcceptedMimeTypes=2
DiscardedMimeTypes=1
Notification=None
GENERIC:
SetupTime=23193 ms
Index=1
PeerAddress=527....
PeerSubAddress=
PeerId=3469
PeerIfIndex=157
LogicalIfIndex=30
ConnectTime=24284
CallState=4
CallOrigin=1
ChargedUnits=0
InfoType=10
TransmitPackets=5
TransmitBytes=6513
ReceivePackets=0
ReceiveBytes=0
TELE:
ConnectionId=[0x37EC7F41 0xB0110001 0x0 0x35C34]
CallID=2
Port=3/0/0 (2)
BearerChannel=3/0/0.1
TxDuration=24010 ms
FaxTxDuration=10910 ms
FaxRate=14400
NoiseLevel=-1
ACOMLevel=-1
OutSignalLevel=0
InSignalLevel=0
InfoActivity=0
ERLLevel=-1
SessionTarget=
ImgPages=0
Table 130 provides an alphabetical listing of the fields displayed in the output of the show call active fax command and a description of each field.
The following is sample output from the show call active fax brief command:
Router# show call active fax brief
<ID>: <start>hs.<index> +<connect> pid:<peer_id> <dir> <addr> <state> \
tx:<packets>/<bytes> rx:<packets>/<bytes> <state>
IP <ip>:<udp> rtt:<time>ms pl:<play>/<gap>ms lost:<lost>/<early>/<late>
delay:<last>/<min>/<max>ms <codec>
FR <protocol> [int dlci cid] vad:<y/n> dtmf:<y/n> seq:<y/n>
sig:<on/off> <codec> (payload size)
Tele <int>: tx:<tot>/<v>/<fax>ms <codec> noise:<l> acom:<l> i/o:<l>/<l> dBm
1 : 22021hs.1 +2263 pid:0 Answer wook song active
tx:0/0 rx:0/41190
IP 0.0.0.0 AcceptedMime:2 DiscardedMime:1
1 : 23193hs.1 +1091 pid:3469 Originate 527.... active
tx:10/13838 rx:0/0
Tele : tx:31200/10910/20290ms noise:-1 acom:-1 i/0:0/0 dBm
The following is sample output from the show call active fax command displaying T.38 fax relay statistics:
Router# show call active fax
Telephony call-legs: 1
SIP call-legs: 0
H323 call-legs: 0
MGCP call-legs: 0
Multicast call-legs: 0
Total call-legs: 1
GENERIC:
SetupTime=1874690 ms
Index=1
PeerAddress=5551234
PeerSubAddress=
PeerId=3
PeerIfIndex=244
LogicalIfIndex=118
ConnectTime=187875
CallDuration=00:00:44 sec
CallState=4
CallOrigin=2
ChargedUnits=0
InfoType=fax
TransmitPackets=309
TransmitBytes=5661
ReceivePackets=1124
ReceiveBytes=49189
TELE:
ConnectionId=[0x6B241E98 0xA78111D8 0x8002000A 0xF4107CA0]
IncomingConnectionId=[0x6B241E98 0xA78111D8 0x8002000A 0xF4107CA0]
CallID=1
Port=3/0/0 (1)
BearerChannel=3/0/0.1
TxDuration=2840 ms
VoiceTxDuration=0 ms
FaxTxDuration=0 ms
FaxRate=disable bps
FaxRelayMaxJitBufDepth 346
FaxRelayJitterBufOverflow 0
Initial HS Modulation is V.17/long/14400
Recent HS modulation is V.17/short/14400
Number of pages 1
Direction of transmission is Transmit
Num of Packets TX'ed/RX'ed 932/52
Packet loss conceal is 0
Encapsulation protocol is T.38 (UDPTL)
ECM is DISABLED
NoiseLevel=0
ACOMLevel=0
OutSignalLevel=0
InSignalLevel=0
InfoActivity=0
ERLLevel=0
SessionTarget=
ImgPages=0
CallerName=
CallerIDBlocked=False
OriginalCallingNumber=5551234
OriginalCallingOctet=0x80
OriginalCalledNumber=5555678
OriginalCalledOctet=0x80
OriginalRedirectCalledNumber=
OriginalRedirectCalledOctet=0xFF
TranslatedCallingNumber=5551234
TranslatedCallingOctet=0x80
TranslatedCalledNumber=5555678
TranslatedCalledOctet=0x80
TranslatedRedirectCalledNumber=
TranslatedRedirectCalledOctet=0xFF
GwReceivedCalledNumber=5555678
GwReceivedCalledOctet3=0x80
GwReceivedCallingNumber=5551234
GwReceivedCallingOctet3=0x80
GwReceivedCallingOctet3a=0x0
DSPIdentifier=1/0:0
Telephony call-legs: 1
SIP call-legs: 0
H323 call-legs: 0
MGCP call-legs: 0
Multicast call-legs: 0
Total call-legs: 1
Table 131 provides an alphabetical listing of the fields displayed in the output of the show call active fax command for T.38 fax relay statistics and a description of each field.
Related Commands
show call active voice
To display call information for voice calls in progress, use the show call active voice command in user EXEC or privileged EXEC mode.
show call active voice [[brief] [long-dur-call-inactive | media-inactive] [called-number number | calling-number number] [id call-identifier] | compact [duration {less | more} seconds] | echo-canceller {hexadecimal-id | port slot-number | summary} | long-dur-call [called-number number | calling-number number] | redirect tbct | stats]
Syntax in Cisco IOS Release 12.2(33)SXH and Subsequent 12.2SX Releases
show call active [brief]
Syntax Description
Command Modes
User EXEC (>)
Privileged EXEC (#)
Command History
Usage Guidelines
Use this command to display the contents of the active voice call table. This command displays information about call times, dial peers, connections, and quality of service, and other status and statistical information for voice calls currently connected through the router.
Before you can query the echo state, you need to know the hexadecimal ID. To find the hexadecimal ID, enter the show call active voice brief command or use the show voice call status command.
When the extended EC is present, the show call active voice command displays the contents of the Ditech EC_CHAN_CTRL structure. Table 132 contains names and descriptions of the fields in the EC_CHAN_CTRL structure. Table 132 also provides a listing of the information types associated with this command.
Use the show call active voice redirect tbct command to monitor any active calls that implement RTPvt or TBCT.
When a call is no longer active, its record is stored. You can display the record by using the show call history voice command.
Examples
The following is sample output from the show call active voice command for modem relay traffic:
Router# show call active voice
Modem Relay Local Rx Speed=0 bps
Modem Relay Local Tx Speed=0 bps
Modem Relay Remote Rx Speed=0 bps
Modem Relay Remote Tx Speed=0 bps
Modem Relay Phy Layer Protocol=v34
Modem Relay Ec Layer Protocol=v14
SPRTInfoFramesReceived=0
SPRTInfoTFramesSent=0
SPRTInfoTFramesResent=0
SPRTXidFramesReceived=0
SPRTXidFramesSent=0
SPRTTotalInfoBytesReceived=0
SPRTTotalInfoBytesSent=0
SPRTPacketDrops=0
Table 133 describes the significant fields shown in the display.
The following is sample output from the show call active voice command:
Router# show call active voice
Telephony call-legs: 1
SIP call-legs: 0
H323 call-legs: 1
Call agent controlled call-legs: 0
SCCP call-legs: 0
Multicast call-legs: 0
Total call-legs: 2
GENERIC:
SetupTime=1072620 ms
Index=1
PeerAddress=9193927582
PeerSubAddress=
PeerId=8
PeerIfIndex=19
LogicalIfIndex=0
ConnectTime=1078940 ms
CallDuration=00:00:51 sec
CallState=4
CallOrigin=2
ChargedUnits=0
InfoType=speech
TransmitPackets=1490
TransmitBytes=0
ReceivePackets=2839
ReceiveBytes=56780
VOIP:
ConnectionId[0xE28B6D1D 0x3D9011D6 0x800400D0 0xBA0D97A1]
IncomingConnectionId[0xE28B6D1D 0x3D9011D6 0x800400D0 0xBA0D97A1]
CallID=1
RemoteIPAddress=10.44.44.44
RemoteUDPPort=17096
RemoteSignallingIPAddress=10.44.44.44
RemoteSignallingPort=56434
RemoteMediaIPAddress=10.44.44.44
RemoteMediaPort=17096
RoundTripDelay=6 ms
SelectedQoS=best-effort
tx_DtmfRelay=h245-signal
FastConnect=TRUE
AnnexE=FALSE
Separate H245 Connection=FALSE
H245 Tunneling=TRUE
SessionProtocol=cisco
ProtocolCallId=
SessionTarget=
OnTimeRvPlayout=54160
GapFillWithSilence=0 ms
GapFillWithPrediction=0 ms
GapFillWithInterpolation=0 ms
GapFillWithRedundancy=0 ms
HiWaterPlayoutDelay=70 ms
LoWaterPlayoutDelay=60 ms
TxPakNumber=1490
TxSignalPak=0
TxComfortNoisePak=1
TxDuration=54240
TxVoiceDuration=29790
RxPakNumber=2711
RxSignalPak=0
RxDuration=0
TxVoiceDuration=54210
VoiceRxDuration=54160
RxOutOfSeq=0
RxLatePak=0
RxEarlyPak=0
PlayDelayCurrent=60
PlayDelayMin=60
PlayDelayMax=70
PlayDelayClockOffset=212491899
PlayDelayJitter=0 ms
PlayErrPredictive=0
PlayErrInterpolative=0
PlayErrSilence=0
PlayErrBufferOverFlow=10
PlayErrRetroactive=0
PlayErrTalkspurt=0
OutSignalLevel=-57
InSignalLevel=-51
LevelTxPowerMean=0
LevelRxPowerMean=-510
LevelBgNoise=0
ERLLevel=16
ACOMLevel=16
ErrRxDrop=0
ErrTxDrop=0
ErrTxControl=0
ErrRxControl=0
ReceiveDelay=60 ms
LostPackets=0
EarlyPackets=0
LatePackets=0
SRTP = off
VAD = enabled
CoderTypeRate=g729r8
CodecBytes=20
Media Setting=flow-through
CallerName=
CallerIDBlocked=False
OriginalCallingNumber=9193927582
OriginalCallingOctet=0x21
OriginalCalledNumber=93615494
OriginalCalledOctet=0xC1
OriginalRedirectCalledNumber=
OriginalRedirectCalledOctet=0xFF
TranslatedCallingNumber=9193927582
TranslatedCallingOctet=0x21
TranslatedCalledNumber=93615494
TranslatedCalledOctet=0xC1
TranslatedRedirectCalledNumber=
TranslatedRedirectCalledOctet=0xFF
GwReceivedCalledNumber=93615494
GwReceivedCalledOctet3=0xC1
GwReceivedCallingNumber=9193927582
GwReceivedCallingOctet3=0x21
GwReceivedCallingOctet3a=0x81
MediaInactiveDetected=no
MediaInactiveTimestamp=
MediaControlReceived=
Username=
GENERIC:
SetupTime=1072760 ms
Index=1
PeerAddress=93615494
PeerSubAddress=
PeerId=9
PeerIfIndex=18
LogicalIfIndex=4
ConnectTime=1078940 ms
CallDuration=00:00:53 sec
CallState=4
CallOrigin=1
ChargedUnits=0
InfoType=speech
TransmitPackets=2953
TransmitBytes=82684
ReceivePackets=1490
ReceiveBytes=29781
TELE:
ConnectionId=[0xE28B6D1D 0x3D9011D6 0x800400D0 0xBA0D97A1]
IncomingConnectionId=[0xE28B6D1D 0x3D9011D6 0x800400D0 0xBA0D97A1]
CallID=2
Port=3/0/0 (1)
BearerChannel=3/0/0.2
TxDuration=59080 ms
VoiceTxDuration=29790 ms
FaxTxDuration=0 ms
CoderTypeRate=g729r8
NoiseLevel=-54
ACOMLevel=16
OutSignalLevel=-57
InSignalLevel=-51
InfoActivity=1
ERLLevel=16
EchoCancellerMaxReflector=8
SessionTarget=
ImgPages=0
CallerName=
CallerIDBlocked=False
AlertTimepoint=1073340 ms
OriginalCallingNumber=9193927582
OriginalCallingOctet=0x21
OriginalCalledNumber=93615494
OriginalCalledOctet=0xC1
OriginalRedirectCalledNumber=
OriginalRedirectCalledOctet=0xFF
TranslatedCallingNumber=9193927582
TranslatedCallingOctet=0x21
TranslatedCalledNumber=93615494
TranslatedCalledOctet=0xC1
TranslatedRedirectCalledNumber=
TranslatedRedirectCalledOctet=0xFF
GwReceivedCalledNumber=93615494
GwReceivedCalledOctet3=0xC1
GwOutpulsedCalledNumber=93615494
GwOutpulsedCalledOctet3=0xC1
GwReceivedCallingNumber=9193927582
GwReceivedCallingOctet3=0x21
GwReceivedCallingOctet3a=0x81
GwOutpulsedCallingNumber=9193927582
GwOutpulsedCallingOctet3=0x21
GwOutpulsedCallingOctet3a=0x81
DSPIdentifier=3/1:1
Telephony call-legs: 1
SIP call-legs: 0
H323 call-legs: 1
Call agent controlled call-legs: 0
SCCP call-legs: 0
Multicast call-legs: 0
Total call-legs: 2
Table 132 and Table 134 describe the significant fields shown in the display, in alphabetical order.
The following is sample output from the show call active voice command for voice traffic over call-agent controlled call legs. Note that call legs for SCCP telephony endpoints, that is, phones controlled by STCAPP, are displayed under the "Call agent controlled call-legs" field ("SCCP call-legs" displays call legs for devices that are not telephony endpoints; for example, transcoding and conferencing).
Router# show call active voice
Telephony call-legs: 2
SIP call-legs: 0
H323 call-legs: 0
Call agent controlled call-legs: 2
SCCP call-legs: 0
Multicast call-legs: 0
Total call-legs: 4
GENERIC:
SetupTime=1557650 ms
Index=1
PeerAddress=
PeerSubAddress=
PeerId=999100
PeerIfIndex=14
LogicalIfIndex=10
ConnectTime=1562040 ms
CallDuration=00:01:01 sec
CallState=4
CallOrigin=2
ChargedUnits=0
InfoType=speech
TransmitPackets=3101
TransmitBytes=519564
ReceivePackets=3094
ReceiveBytes=494572
TELE:
ConnectionId=[0x11B1860C 0x22D711D7 0x8014E4D4 0x8FD15327]
IncomingConnectionId=[0x11B1860C 0x22D711D7 0x8014E4D4 0x8FD15327]
CallID=25
Port=3/0/0 (25)
BearerChannel=3/0/0.1
TxDuration=59670 ms
VoiceTxDuration=59670 ms
FaxTxDuration=0 ms
CoderTypeRate=g711ulaw
NoiseLevel=-12
ACOMLevel=22
OutSignalLevel=-12
InSignalLevel=-11
InfoActivity=1
ERLLevel=22
EchoCancellerMaxReflector=2
SessionTarget=
ImgPages=0
CallerName=
CallerIDBlocked=False
OriginalCallingNumber=
OriginalCallingOctet=0x0
OriginalCalledNumber=
OriginalCalledOctet=0x80
OriginalRedirectCalledNumber=
OriginalRedirectCalledOctet=0x0
TranslatedCallingNumber=
TranslatedCallingOctet=0x0
TranslatedCalledNumber=
TranslatedCalledOctet=0x80
TranslatedRedirectCalledNumber=
TranslatedRedirectCalledOctet=0x0
DSPIdentifier=1/1:1
GENERIC:
SetupTime=1559430 ms
Index=1
PeerAddress=7702
PeerSubAddress=
PeerId=999100
PeerIfIndex=14
LogicalIfIndex=11
ConnectTime=1562020 ms
CallDuration=00:01:03 sec
CallState=4
CallOrigin=1
ChargedUnits=0
InfoType=speech
TransmitPackets=3151
TransmitBytes=528900
ReceivePackets=3158
ReceiveBytes=503876
TELE:
ConnectionId=[0x0 0x0 0x0 0x0]
IncomingConnectionId=[0x0 0x0 0x0 0x0]
CallID=26
Port=3/0/0 (26)
BearerChannel=3/0/0.2
TxDuration=60815 ms
VoiceTxDuration=60815 ms
FaxTxDuration=0 ms
CoderTypeRate=g711ulaw
NoiseLevel=-12
ACOMLevel=28
OutSignalLevel=-12
InSignalLevel=-11
InfoActivity=1
ERLLevel=28
EchoCancellerMaxReflector=2
SessionTarget=
ImgPages=0
CallerName=
CallerIDBlocked=False
AlertTimepoint=1559430 ms
OriginalCallingNumber=
OriginalCallingOctet=0x0
OriginalCalledNumber=
OriginalCalledOctet=0x0
OriginalRedirectCalledNumber=
OriginalRedirectCalledOctet=0x0
TranslatedCallingNumber=7701
TranslatedCallingOctet=0x0
TranslatedCalledNumber=7702
TranslatedCalledOctet=0x0
TranslatedRedirectCalledNumber=
TranslatedRedirectCalledOctet=0x0
GwOutpulsedCalledNumber=7702
GwOutpulsedCalledOctet3=0x0
GwOutpulsedCallingNumber=7701
GwOutpulsedCallingOctet3=0x0
GwOutpulsedCallingOctet3a=0x0
DSPIdentifier=1/1:2
GENERIC:
SetupTime=1562040 ms
Index=1
PeerAddress=
PeerSubAddress=
PeerId=0
PeerIfIndex=0
LogicalIfIndex=0
ConnectTime=0 ms
CallDuration=00:00:00 sec
CallState=2
CallOrigin=1
ChargedUnits=0
InfoType=speech
TransmitPackets=3215
TransmitBytes=512996
ReceivePackets=3208
ReceiveBytes=512812
VOIP:
ConnectionId[0x0 0x0 0x0 0x0]
IncomingConnectionId[0x0 0x0 0x0 0x0]
CallID=27
RemoteIPAddress=10.10.0.0
RemoteUDPPort=17718
RemoteSignallingIPAddress=10.10.0.0
RemoteSignallingPort=0
RemoteMediaIPAddress=10.2.6.10
RemoteMediaPort=17718
RoundTripDelay=0 ms
SelectedQoS=best-effort
tx_DtmfRelay=inband-voice
FastConnect=FALSE
AnnexE=FALSE
Separate H245 Connection=FALSE
H245 Tunneling=FALSE
SessionProtocol=other
ProtocolCallId=
SessionTarget=
OnTimeRvPlayout=60640
GapFillWithSilence=0 ms
GapFillWithPrediction=0 ms
GapFillWithInterpolation=0 ms
GapFillWithRedundancy=0 ms
HiWaterPlayoutDelay=105 ms
LoWaterPlayoutDelay=105 ms
TxPakNumber=3040
TxSignalPak=0
TxComfortNoisePak=0
TxDuration=60815
TxVoiceDuration=60815
RxPakNumber=3035
RxSignalPak=0
RxDuration=0
TxVoiceDuration=60690
VoiceRxDuration=60640
RxOutOfSeq=0
RxLatePak=0
RxEarlyPak=0
PlayDelayCurrent=105
PlayDelayMin=105
PlayDelayMax=105
PlayDelayClockOffset=-1662143961
PlayDelayJitter=0
PlayErrPredictive=0
PlayErrInterpolative=0
PlayErrSilence=0
PlayErrBufferOverFlow=0
PlayErrRetroactive=0
PlayErrTalkspurt=0
OutSignalLevel=-12
InSignalLevel=-11
LevelTxPowerMean=0
LevelRxPowerMean=-115
LevelBgNoise=0
ERLLevel=28
ACOMLevel=28
ErrRxDrop=0
ErrTxDrop=0
ErrTxControl=0
ErrRxControl=0
PlayoutMode = undefined
PlayoutInitialDelay=0 ms
ReceiveDelay=105 ms
LostPackets=0
EarlyPackets=0
LatePackets=0
SRTP = off
VAD = disabled
CoderTypeRate=g711ulaw
CodecBytes=160
Media Setting=flow-around
Modem passthrough signaling method is nse:
Buffer Fill Events = 0
Buffer Drain Events = 0
Percent Packet Loss = 0
Consecutive-packets-lost Events = 0
Corrected packet-loss Events = 0
Last Buffer Drain/Fill Event = 0sec
Time between Buffer Drain/Fills = Min 0sec Max 0sec
CallerName=
CallerIDBlocked=False
OriginalCallingNumber=
OriginalCallingOctet=0x0
OriginalCalledNumber=
OriginalCalledOctet=0x0
OriginalRedirectCalledNumber=
OriginalRedirectCalledOctet=0x0
TranslatedCallingNumber=
TranslatedCallingOctet=0x0
TranslatedCalledNumber=
TranslatedCalledOctet=0x0
TranslatedRedirectCalledNumber=
TranslatedRedirectCalledOctet=0x0
MediaInactiveDetected=no
MediaInactiveTimestamp=
MediaControlReceived=
Username=
GENERIC:
SetupTime=1562040 ms
Index=2
PeerAddress=
PeerSubAddress=
PeerId=0
PeerIfIndex=0
LogicalIfIndex=0
ConnectTime=0 ms
CallDuration=00:00:00 sec
CallState=2
CallOrigin=1
ChargedUnits=0
InfoType=speech
TransmitPackets=3380
TransmitBytes=540332
ReceivePackets=3386
ReceiveBytes=540356
VOIP:
ConnectionId[0x0 0x0 0x0 0x0]
IncomingConnectionId[0x0 0x0 0x0 0x0]
CallID=28
RemoteIPAddress=10.0.0.0
RemoteUDPPort=18630
RemoteSignallingIPAddress=10.10.0.0
RemoteSignallingPort=0
RemoteMediaIPAddress=10.2.6.10
RemoteMediaPort=18630
RoundTripDelay=0 ms
SelectedQoS=best-effort
tx_DtmfRelay=inband-voice
FastConnect=FALSE
AnnexE=FALSE
Separate H245 Connection=FALSE
H245 Tunneling=FALSE
SessionProtocol=other
ProtocolCallId=
SessionTarget=
OnTimeRvPlayout=63120
GapFillWithSilence=0 ms
GapFillWithPrediction=0 ms
GapFillWithInterpolation=0 ms
GapFillWithRedundancy=0 ms
HiWaterPlayoutDelay=105 ms
LoWaterPlayoutDelay=105 ms
TxPakNumber=3158
TxSignalPak=0
TxComfortNoisePak=0
TxDuration=63165
TxVoiceDuration=63165
RxPakNumber=3164
RxSignalPak=0
RxDuration=0
TxVoiceDuration=63165
VoiceRxDuration=63120
RxOutOfSeq=0
RxLatePak=0
RxEarlyPak=0
PlayDelayCurrent=105
PlayDelayMin=105
PlayDelayMax=105
PlayDelayClockOffset=957554296
PlayDelayJitter=0
PlayErrPredictive=0
PlayErrInterpolative=0
PlayErrSilence=0
PlayErrBufferOverFlow=0
PlayErrRetroactive=0
PlayErrTalkspurt=0
OutSignalLevel=-12
InSignalLevel=-11
LevelTxPowerMean=0
LevelRxPowerMean=-114
LevelBgNoise=0
ERLLevel=22
ACOMLevel=22
ErrRxDrop=0
ErrTxDrop=0
ErrTxControl=0
ErrRxControl=0
PlayoutMode = undefined
PlayoutInitialDelay=0 ms
ReceiveDelay=105 ms
LostPackets=0
EarlyPackets=0
LatePackets=0
SRTP = off
VAD = disabled
CoderTypeRate=g711ulaw
CodecBytes=160
Media Setting=flow-around
Modem passthrough signaling method is nse:
Buffer Fill Events = 0
Buffer Drain Events = 0
Percent Packet Loss = 0
Consecutive-packets-lost Events = 0
Corrected packet-loss Events = 0
Last Buffer Drain/Fill Event = 0sec
Time between Buffer Drain/Fills = Min 0sec Max 0sec
CallerName=
CallerIDBlocked=False
OriginalCallingNumber=
OriginalCallingOctet=0x0
OriginalCalledNumber=
OriginalCalledOctet=0x0
OriginalRedirectCalledNumber=
OriginalRedirectCalledOctet=0x0
TranslatedCallingNumber=
TranslatedCallingOctet=0x0
TranslatedCalledNumber=
TranslatedCalledOctet=0x0
TranslatedRedirectCalledNumber=
TranslatedRedirectCalledOctet=0x0
MediaInactiveDetected=no
MediaInactiveTimestamp=
MediaControlReceived=
Username=
Telephony call-legs: 2
SIP call-legs: 0
H323 call-legs: 0
Call agent controlled call-legs: 2
SCCP call-legs: 0
Multicast call-legs: 0
Total call-legs: 4
Table 132 and Table 134 describe the significant fields shown in the display, in alphabetical order.
The following is sample output from the show call active voice command to indicate if Service Advertisement Framework (SAF) is being used:
Router# show call active voice
Total call-legs: 2
GENERIC:
SetupTime=1971780 ms
Index=1
PeerAddress=6046692010
PeerSubAddress=
PeerId=20003
PeerIfIndex=17
.
.
.
VOIP:
SessionProtocol=sipv2
ProtocolCallId=7A9E7D9A-EAD311DC-8036BCC4-6EEE85D6@1.5.6.12
SessionTarget=1.5.6.10
SafEnabled=TRUE
SafTrunkRouteId=1
SafPluginDialpeerTag=8
Table 132 and Table 136 describe the significant fields shown in the display.
The following is sample output from the show call active voice command for fax-relay traffic:
Router# show call active voice
Telephony call-legs: 0
SIP call-legs: 0
H323 call-legs: 1
MGCP call-legs: 0
Multicast call-legs: 0
Total call-legs: 1
GENERIC:
SetupTime=1049400 ms
Index=2
PeerAddress=52930
PeerSubAddress=
PeerId=82
PeerIfIndex=222
LogicalIfIndex=0
ConnectTime=105105
CallDuration=00:00:59
CallState=4
CallOrigin=1
ChargedUnits=0
InfoType=10
TransmitPackets=1837
TransmitBytes=29764
ReceivePackets=261
ReceiveBytes=4079
VOIP:
ConnectionId[0xEB630F4B 0x9F5E11D7 0x8008CF18 0xB9C3632]
IncomingConnectionId[0xEB630F4B 0x9F5E11D7 0x8008CF18 0xB9C3632]
RemoteIPAddress=10.7.95.3
RemoteUDPPort=16610
RemoteSignallingIPAddress=10.7.95.3
RemoteSignallingPort=1720
RemoteMediaIPAddress=10.7.95.3
RemoteMediaPort=16610
RoundTripDelay=13 ms
SelectedQoS=best-effort
tx_DtmfRelay=inband-voice
FastConnect=TRUE
AnnexE=FALSE
Separate H245 Connection=FALSE
H245 Tunneling=TRUE
SessionProtocol=cisco
ProtocolCallId=
SessionTarget=ipv4:10.7.95.3
OnTimeRvPlayout=1000
GapFillWithSilence=0 ms
GapFillWithPrediction=0 ms
GapFillWithInterpolation=0 ms
GapFillWithRedundancy=0 ms
HiWaterPlayoutDelay=110 ms
LoWaterPlayoutDelay=70 ms
ReceiveDelay=70 ms
LostPackets=0
EarlyPackets=1
LatePackets=0
VAD = enabled
CoderTypeRate=t38
CodecBytes=40
Media Setting=flow-through
AlertTimepoint=104972
CallerName=
CallerIDBlocked=False
OriginalCallingNumber=4085550130
OriginalCallingOctet=0x0
OriginalCalledNumber=52930
OriginalCalledOctet=0xE9
OriginalRedirectCalledNumber=
OriginalRedirectCalledOctet=0x7F
TranslatedCallingNumber=4085550130
TranslatedCallingOctet=0x0
TranslatedCalledNumber=52930
TranslatedCalledOctet=0xE9
TranslatedRedirectCalledNumber=
TranslatedRedirectCalledOctet=0xFF
GwReceivedCalledNumber=52930
GwReceivedCalledOctet3=0xE9
GwOutpulsedCalledNumber=52930
GwOutpulsedCalledOctet3=0xE9
GwReceivedCallingNumber=555-0100
GwReceivedCallingOctet3=0x0
GwReceivedCallingOctet3a=0x80
GwOutpulsedCallingNumber=555-0101
GwOutpulsedCallingOctet3=0x0
GwOutpulsedCallingOctet3a=0x80
Username=
FaxRelayMaxJitterBufDepth = 0 ms
FaxRelayJitterBufOverFlow = 0
FaxRelayHSmodulation = 0
FaxRelayNumberOfPages = 0
Telephony call-legs: 0
SIP call-legs: 0
H323 call-legs: 1
MGCP call-legs: 0
Multicast call-legs: 0
Total call-legs: 1
Table 132 and Table 136 describe the significant fields shown in the display.
The following is sample output from the show call active voice brief command:
Router# show call active voice brief
<ID>: <CallID> <start>hs.<index> +<connect> pid:<peer_id> <dir> <addr> <state>
dur hh:mm:ss tx:<packets>/<bytes> rx:<packets>/<bytes>
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>
long_duration_call_detected:<y/n> long duration call duration:n/a timestamp:n/a
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>
<codec> (payload size)
ATM <protocol> [int vpi/vci cid] vad:<y/n> dtmf:<y/n> seq:<y/n>
<codec> (payload size)
Tele <int> (callID) [channel_id] tx:<tot>/<v>/<fax>ms <codec> noise:<l> acom:<l> i/o:<l>/<l> dBm
MODEMRELAY info:<rcvd>/<sent>/<resent> xid:<rcvd>/<sent> total:<rcvd>/<sent>/<drops>
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>
Total call-legs:2
1269 :7587246hs.1 +260 pid:0 Answer active
dur 00:07:14 tx:590/11550 rx:21721/434420
IP 172.29.248.111:17394 rtt:3ms pl:431850/0ms lost:0/0/0 dela
y:69/69/70ms g729r8
1269 :7587246hs.2 +259 pid:133001 Originate 133001 active
dur 00:07:14 tx:21717/434340 rx:590/11550
Tele 1/0:1 (2):tx:434350/11640/0ms g729r8 noise:-44 acom:-19
i/0:-45/-45 dBm
The following is an example of the show call active voice command using the echo-canceller keyword. The number 9 represents the hexadecimal ID of an active voice call.
Router# show call active voice echo-canceller 9
ACOM=-65 ERL=45
Echo canceller control words=6C 0
Bypass=OFF Tail=64 Residual ecan=Comfort noise
Freeze=OFF Modem tone disable=Ignore 2100Hz tone
Worst ERL=6 High level compensation=OFF
Max amplitude reflector (in msec)=5
Ecan version = 8180
The following is sample output from the show call active voice echo-canceller command for a call with a hexadecimal ID of 10:
Router# show call active voice echo-canceller 10
ACOM=-15 ERL=7
Echo canceller control words=6C 0
Bypass=OFF Tail=64 Residual ecan=Comfort noise
Freeze=OFF Modem tone disable=Ignore 2100Hz tone
Worst ERL=6 High level compensation=OFF
Max amplitude reflector (in msec)=64
The call ID number (which is 10 in the preceding example) changes with every new active call. When an active call is up, you must enter the show call active voice brief command to obtain the call ID number. The call ID must be converted to hexadecimal value if you want to use the show call active voice echo-canceller x command (x = call ID converted to hexadecimal value).
Table 135 shows call ID examples converted to hexadecimal values (generally incremented by 2):
|
|
|
|---|---|
2 |
2 |
4 |
4 |
6 |
6 |
8 |
8 |
10 |
A |
12 |
C |
Alternatively, you can use the show voice call status command to obtain the call ID. The call ID output is already in hexadecimal values form when you use this command:
Router# show voice call status
CallID CID ccVdb Port DSP/Ch Called # Codec Dial-peers
0x1 11CE 0x02407B20 1:0.1 1/1 1000 g711ulaw 2000/1000
The following is sample output from the show call active voice command using the compact keyword:
Router# show call active voice compact
<callID> A/O FAX T<sec> Codec type Peer Address IP R<ip>:<udp>
Total call-legs: 2
58 ANS T11 g711ulaw VOIP Psipp 2001:......:230A:6080
59 ORG T11 g711ulaw VOIP P5000110011 10.13.37.150:6090
The following is sample output from the show call active voice redirect command using the tbct keyword:
Router# show call active voice redirect tbct
TBCT:
Maximum no. of TBCT calls allowed:No limit
Maximum TBCT call duration:No limit
Total number TBCT calls currently being monitored = 1
ctrl name=T1-2/0, tag=13, call-ids=(7, 8), start_time=*00:12:25.985 UTC Mon Mar 1 1993
Table 136 describes the significant fields shown in the display.
Related Commands
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
Command Modes
User EXEC (>)
Privileged EXEC (#)
Command History
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
Telephony call-legs: 1
SIP call-legs: 0
H323 call-legs: 0
MGCP call-legs: 0
Total call-legs: 1
GENERIC:
SetupTime=590180 ms
Index=2
PeerAddress=4085452930
PeerSubAddress=
PeerId=81
PeerIfIndex=221
LogicalIfIndex=145
DisconnectCause=10
DisconnectText=normal call clearing (16)
ConnectTime=59389
DisconnectTime=68204
CallDuration=00:01:28
CallOrigin=2
ReleaseSource=1
ChargedUnits=0
InfoType=fax
TransmitPackets=295
TransmitBytes=5292
ReceivePackets=2967
ReceiveBytes=82110
TELE:
ConnectionId=[0xD9ACDFF1 0x9F5D11D7 0x8002CF18 0xB9C3632]
IncomingConnectionId=[0xD9ACDFF1 0x9F5D11D7 0x8002CF18 0xB9C3632]
CallID=2
Port=3/0/0 (2)
BearerChannel=3/0/0.1
TxDuration=28960 ms
VoiceTxDuration=0 ms
FaxTxDuration=28960 ms
FaxRate=voice bps
FaxRelayMaxJitterBufDepth = 0 ms
FaxRelayJitterBufOverFlow = 0
FaxRelayHSmodulation = 0
FaxRelayNumberOfPages = 0
NoiseLevel=-120
ACOMLevel=127
SessionTarget=
ImgPages=0
CallerName=
CallerIDBlocked=False
OriginalCallingNumber=4085550130
OriginalCallingOctet=0x0
OriginalCalledNumber=52930
OriginalCalledOctet=0xE9
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 137 provides an alphabetical listing of the fields displayed in the output of the show call history fax command and a description of each field.
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
Telephony call-legs: 1
SIP call-legs: 0
H323 call-legs: 0
MGCP call-legs: 0
Total call-legs: 1
GENERIC:
SetupTime=9872460 ms
Index=8
PeerAddress=41023
PeerSubAddress=
PeerId=1
PeerIfIndex=242
LogicalIfIndex=180
DisconnectCause=10
DisconnectText=normal call clearing (16)
ConnectTime=9875610 ms
DisconnectTime=9936000 ms
CallDuration=00:01:00 sec
CallOrigin=2
ReleaseSource=1
ChargedUnits=0
InfoType=fax
TransmitPackets=268
TransmitBytes=4477
ReceivePackets=1650
ReceiveBytes=66882
TELE:
ConnectionId=[0xD6635DD5 0x9FA411D8 0x8005000A 0xF4107CA0]
IncomingConnectionId=[0xD6635DD5 0x9FA411D8 0x8005000A 0xF4107CA0]
CallID=7
Port=3/0/0:0 (7)
BearerChannel=3/0/0.8
TxDuration=6170 ms
VoiceTxDuration=0 ms
FaxTxDuration=0 ms
FaxRate=disable bps
FaxRelayMaxJitterBufDepth=560 ms
FaxRelayJitterBufOverFlow=0
FaxRelayMostRecentHSmodulation=V.17/short/14400
FaxRelayNumberOfPages=1
FaxRelayInitHSmodulation=V.17/long/14400
FaxRelayDirection=Transmit
FaxRelayPktLossConceal=0
FaxRelayEcmStatus=ENABLED
FaxRelayEncapProtocol=T.38 (UDPTL)
FaxRelayNsfCountryCode=Japan
FaxRelayNsfManufCode=0031B8EE80C48511DD0D0000DDDD0000DDDD000000000000000022ED00B0A400
FaxRelayFaxSuccess=Success
NoiseLevel=0
ACOMLevel=0
SessionTarget=
ImgPages=0
CallerName=Analog 41023
CallerIDBlocked=False
OriginalCallingNumber=
OriginalCallingOctet=0x80
OriginalCalledNumber=41021
OriginalCalledOctet=0xA1
OriginalRedirectCalledNumber=
OriginalRedirectCalledOctet=0xFF
TranslatedCallingNumber=41023
TranslatedCallingOctet=0x80
TranslatedCalledNumber=41021
TranslatedCalledOctet=0xA1
TranslatedRedirectCalledNumber=
TranslatedRedirectCalledOctet=0xFF
GwReceivedCalledNumber=41021
GwReceivedCalledOctet3=0xA1
Table 138 describes the fields not shown in Table 137.
Related Commands
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
Command Modes
User EXEC (>)
Privileged EXEC (#)
Command History
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
GENERIC:
SetupTime=104648 ms
Index=1
PeerAddress=55240
PeerSubAddress=
PeerId=2
PeerIfIndex=105
LogicalIfIndex=0
DisconnectCause=10
DisconnectText=normal call clearing.
ConnectTime=104964
DisconectTime=143329
CallDuration=00:06:23
CallOrigin=1
ChargedUnits=0
InfoType=speech
TransmitPackets=37668
TransmitBytes=6157536
ReceivePackets=37717
ReceiveBytes=6158452
VOIP:
ConnectionId[0x4B091A27 0x3EDD0003 0x0 0xFEFD4]
CallID=2
RemoteIPAddress=10.14.82.14
RemoteUDPPort=18202
RoundTripDelay=2 ms
SelectedQoS=best-effort
tx_DtmfRelay=inband-voice
FastConnect=TRUE
SessionProtocol=cisco
SessionTarget=ipv4:10.14.82.14
OnTimeRvPlayout=40
GapFillWithSilence=0 ms
GapFillWithPrediction=0 ms
GapFillWithInterpolation=0 ms
GapFillWithRedundancy=0 ms
HiWaterPlayoutDelay=67 ms
LoWaterPlayoutDelay=67 ms
ReceiveDelay=67 ms
LostPackets=0 ms
EarlyPackets=0 ms
LatePackets=0 ms
VAD = enabled
CoderTypeRate=g729r8
CodecBytes=20
cvVoIPCallHistoryIcpif=0
SignalingType=cas
Modem passthrough signaling method is nse
Buffer Fill Events = 0
Buffer Drain Events = 0
Percent Packet Loss = 0
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
GENERIC:
SetupTime=104443 ms
Index=2
PeerAddress=50110
PeerSubAddress=
PeerId=100
PeerIfIndex=104
LogicalIfIndex=10
DisconnectCause=10
DisconnectText=normal call clearing.
ConnectTime=104964
DisconectTime=143330
CallDuration=00:06:23
CallOrigin=2
ChargedUnits=0
InfoType=speech
TransmitPackets=37717
TransmitBytes=5706436
ReceivePackets=37668
ReceiveBytes=6609552
TELE:
ConnectionId=[0x4B091A27 0x3EDD0003 0x0 0xFEFD4]
CallID=3
Port=3/0/0 (3)
BearerChannel=3/0/0.1
TxDuration=375300 ms
VoiceTxDuration=375300 ms
FaxTxDuration=0 ms
CoderTypeRate=g711ulaw
NoiseLevel=-75
ACOMLevel=11
SessionTarget=
ImgPages=0
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
Telephony call-legs: 1
SIP call-legs: 0
H323 call-legs: 1
Total call-legs: 2
GENERIC:
SetupTime=85975291 ms
.
.
.
DisconnectCause=10
DisconnectText=normal call clearing (16)
ConnectTime=85975335
DisconnectTime=85979339
CallDuration=00:00:40
CallOrigin=1
ReleaseSource=1
.
.
.
DisconnectCause=10
DisconnectText=normal call clearing (16)
ConnectTime=85975335
DisconnectTime=85979339
CallDuration=00:00:40
CallOrigin=1
ReleaseSource=1
.
.
.
VOIP:
ConnectionId[0x2868AD84 0x375B11D4 0x8012F7A5 0x74DE971E]
CallID=1
.
.
.
GENERIC:
SetupTime=85975290 ms
.
.
.
DisconnectCause=10
DisconnectText=normal call clearing (16)
ConnectTime=85975336
DisconnectTime=85979340
CallDuration=00:00:40
CallOrigin=2
ReleaseSource=1
.
.
.
TELE:
ConnectionId=[0x2868AD84 0x375B11D4 0x8012F7A5 0x74DE971E]
CallID=2
Port=3/0/0 (2)
BearerChannel=3/0/0.1
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>
<codec> (payload size)
ATM <protocol> [int vpi/vci cid] vad:<y/n> dtmf:<y/n> seq:<y/n>
<codec> (payload size)
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 139 describes the significant fields shown in the show call history voice redirect tbct display.
Related Commands
show cdp entry
To display information about a specific neighboring device discovered using Cisco Discovery Protocol (CDP), use the show cdp entry command in privileged EXEC mode.
show cdp entry {* | device-name[*]} [version] [protocol]
Syntax Description
Command Modes
Privileged EXEC
Command History
Examples
The following is sample output from the show cdp entry command. Information about the neighbor device.cisco.com is displayed, including device ID, protocols and addresses, platform, interface, hold time, and version.
Router# show cdp entry device.cisco.com
Device ID: device.cisco.com
Entry address(es):
IP address: 10.1.17.24
IPv6 address: FE80::203:E3FF:FE6A:BF81 (link-local)
IPv6 address: 4000::BC:0:0:C0A8:BC06 (global unicast)
CLNS address: 490001.1111.1111.1111.00
Platform: cisco 3640, Capabilities: Router
Interface: Ethernet0/1, Port ID (outgoing port): Ethernet0/1
Holdtime : 160 sec
Version :
Cisco Internetwork Operating System Software
IOS (tm) 3600 Software (C3640-A2IS-M), Experimental Version 12.2
Copyright (c) 1986-2001 by cisco Systems, Inc.
Compiled Wed 08-Aug-01 12:39 by joeuser
Table 140 describes the significant fields shown in the example.
The following is sample output from the show cdp entry version command. Only information about the version of software running on device.cisco.com is displayed.
Router# show cdp entry device.cisco.com version
Version information for device.cisco.com:
Cisco Internetwork Operating System Software
IOS (tm) 3600 Software (C3640-A2IS-M), Experimental Version 12.2
Copyright (c) 1986-2001 by cisco Systems, Inc.
Compiled Wed 08-Aug-01 12:39 by joeuser
The following is sample output from the show cdp entry protocol command. Only information about the protocols enabled on device.cisco.com is displayed.
Router# show cdp entry device.cisco.com protocol
Protocol information for device.cisco.com:
IP address: 10.1.17.24
IPv6 address: FE80::203:E3FF:FE6A:BF81 (link-local)
IPv6 address: 4000::BC:0:0:C0A8:BC06 (global unicast)
CLNS address: 490001.1111.1111.1111.00
Related Commands
show cdp neighbors
To display detailed information about neighboring devices discovered using Cisco Discovery Protocol, use the show cdp neighbors command in privileged EXEC mode.
show cdp neighbors [type number] [detail]
Syntax Description
Command Modes
Privileged EXEC (#)
Command History
Usage Guidelines
The vlan keyword is supported in Cisco 7600 series routers that are configured with a Supervisor Engine 2.
The port-channel values are from 0 to 282; values from 257 to 282 are supported on the call switching module (CSM) and the firewall services module (FWSM) only.
Examples
The following is sample output from the show cdp neighbors command:
Router# show cdp neighbors
Capability Codes:R - Router, T - Trans Bridge, B - Source Route Bridge S - Switch,
H - Host, I - IGMP, r - Repeater
Device ID Local Intrfce Holdtme Capability Platform Port ID
joe Eth 0 133 R 4500 Eth 0
sam Eth 0 152 R AS5200 Eth 0
terri Eth 0 144 R 3640 Eth0/0
maine Eth 0 141 RP1 Eth 0/0
sancho Eth 0 164 7206 Eth 1/0
Table 140 describes the fields shown in the display.
The following is sample output for one neighbor from the show cdp neighbors detail command. Additional detail is shown about neighbors, including network addresses, enabled protocols, and software version.
Router# show cdp neighbors detail
Device ID: device.cisco.com
Entry address(es):
IPv6 address: FE80::203:E3FF:FE6A:BF81 (link-local)
IPv6 address: 4000::BC:0:0:C0A8:BC06 (global unicast)
Platform: cisco 3640, Capabilities: Router
Interface: Ethernet0/1, Port ID (outgoing port): Ethernet0/1
Holdtime : 160 sec
Version :
Cisco Internetwork Operating System Software
IOS (tm) 3600 Software (C3640-A2IS-M), Version 12.2(25)SEB4, RELE)
advertisement version: 2
Duplex Mode: half
Native VLAN: 42
VTP Management Domain: `Accounting Group'
Table 142 describes the fields shown in the display.
Related Commands
show cef
To display information about packets forwarded by Cisco Express Forwarding, use the show cef command in privileged EXEC mode.
show cef {accounting | background [detail] | broker broker-name [detail] | error | fib | hardware vectors | idb | loadinfo | non-ip | nsf | path [list [walk] | sets [detail | id path-set-id | summary] | switching background [detail] | walks [process | queue]}
Syntax Description
Command Modes
Privileged EXEC (#)
Command History
Usage Guidelines
Use this command to display and monitor information about traffic forwarded by Cisco Express Forwarding.
A line card might drop packets because of encapsulation failure, absence of route information, or absence of adjacency information.
A packet is punted (sent to another switch path) because Cisco Express Forwarding may not support a specified encapsulation or feature, the packet may be destined for the router, or the packet may have IP options (such as time stamp and record route). IP options are process switched.
Examples
The following example shows how to display Cisco Express Forwarding accounting information:
Router# show cef accounting
IPv4 accounting state:
Enabled accounting: per-prefix, non-recursive, prefix-length
Non-recursive load interval: 30 (default 30)
Non-recursive update interval: 0 (default 0)
IPv6 accounting state:
Enabled accounting: None
Non-recursive load interval: 30 (default 30)
Non-recursive update interval: 0 (default 0)
Table 143 describes the significant fields shown in the example.
The following example shows how to display Cisco Express Forwarding background information:
Router# show cef background
CEF background process process (pid 77) running
0 events awaiting registration on background process
9 events registered on background process
boolean FIB malloc failed, 0 occurences
boolean FIB assert failed, 0 occurences
boolean FIB hw_api_failure failed, 0 occurences
timer FIB checkers: auto-repair delay, init, !run, 0 occurences
timer FIB checkers: auto-repair delay, init, !run, 0 occurences
timer FIB checkers: IPv4 scan-rib-ios scanner, init, run, 2 occurences
timer FIB checkers: IPv4 scan-ios-rib scanner, init, run, 2 occurences
timer FIB checkers: IPv6 scan-ios-rib scanner, init, run, 2 occurences
timer FIB table: rate monitor, init, run, 0 occurences
Table 144 describes the significant fields shown in the example.
The following example shows how to display information about Cisco Express Forwarding FIB entries:
Router# show cef fib
9 allocated IPv4 entries, 0 failed allocations
1 allocated IPv6 entry, 0 failed allocations
Table 145 describes the significant fields shown in the example.
The following example shows how to display information about Cisco Express Forwarding loadinfo:
Router# show cef loadinfo
0 allocated loadinfos, 0 failed allocations
0 allocated loadinfo hash usage gsbs
0 inplace modifies (enabled)
0 identical modifies
Table 146 describes the significant fields shown in the example.
The following example shows how to display information for Cisco Express Forwarding paths:
Router# show cef path
28 allocated IPv4 paths, 0 failed allocations
4 allocated IPv6 paths, 0 failed allocations
32 Total Paths, 587 Recursive Paths, 0 Unresolved Paths
Table 147 describes the significant fields shown in the example.
The following example shows how to display information about Cisco Express Forwarding background switching processes:
Router# show cef switching background
CEF switching background process (pid 46) running
0 events awaiting registration on background process
1 event registered on background process
boolean OCE unlock queue, 0 occurences
Table 148 describes the significant fields shown in the example.
The following example shows how to display information about Cisco Express Forwarding:
Router# show cef walks
Calling process:
----------------
Number of initial walks:
started
mode / priority low high very high
sync 3 0 0
atomic 0 0 0
finished
mode / priority low high very high
sync 3 0 0
atomic 0 0 0
restarted
mode / priority low high very high
sync 0 0 0
atomic 0 0 0
Number of sub walks:
started
mode / priority low high very high
sync 0 0 0
atomic 0 0 0
finished
mode / priority low high very high
sync 0 0 0
atomic 0 0 0
Table 149 describes the significant fields shown in the example.
Related Commands
show cef interface
To display detailed Cisco Express Forwarding information for a specified interface or for all interfaces, use the show cef interface command in user EXEC or privileged EXEC mode.
show cef interface [type number] [statistics | detail | internal | brief | policy-statistics [input | output]]
Syntax Description
Command Modes
User EXEC (>)
Privileged EXEC (#)
Command History
Usage Guidelines
You can use this command to display the detailed Cisco Express Forwarding status for all interfaces.
Values entered for the type and number arguments display Cisco Express Forwarding status information for the specified interface type and number.
The policy-statistics, input, and output keywords are available only on distributed switching platforms.
Examples
The following example shows how to display a summary of Cisco Express Forwarding information for an interface named Ethernet 3/0:
Router# show cef interface ethernet 3/0 brief
Interface IP-Address Status Switching
Ethernet3/0 10.0.212.6 up CEF
Router#
The following is sample output from the show cef interface command for Fast Ethernet interface 1/0/0 with BGP policy accounting configured for input traffic:
Router# show cef interface fastethernet 1/0/0
FastEthernet1/0/0 is up (if_number 6)
Corresponding hwidb fast_if_number 6
Corresponding hwidb firstsw->if_number 6
Internet address is 10.1.1.1/24
ICMP redirects are always sent
Per packet load-sharing is disabled
IP unicast RPF check is disabled
Inbound access list is not set
Outbound access list is not set
IP policy routing is disabled
BGP based policy accounting on input is enabled
BGP based policy accounting on output is disabled
Hardware idb is FastEthernet1/0/0 (6)
Software idb is FastEthernet1/0/0 (6)
Fast switching type 1, interface type 18
IP Distributed CEF switching enabled
IP Feature Fast switching turbo vector
IP Feature CEF switching turbo vector
Input fast flags 0x100, Output fast flags 0x0, Flags 0x0
ifindex 7(7)
Slot 1 Slot unit 0 VC -1
Transmit limit accumulator 0xE8001A82 (0xE8001A82)
IP MTU 1500
The following is sample output from the show cef interface detail command for Ethernet interface 1/0/0:
Router# show cef interface ethernet 1/0/0 detail
FastEthernet1/0/0 is up (if_number 6)
Corresponding hwidb fast_if_number 6
Corresponding hwidb firstsw->if_number 6
Internet address is 10.1.1.1/24
ICMP redirects are always sent
Per packet load-sharing is disabled
IP unicast RPF check is disabled
Inbound access list is not set
Outbound access list is not set
IP policy routing is disabled
BGP based policy accounting on input is enabled
BGP based policy accounting on output is disabled
Hardware idb is FastEthernet1/0/0 (6)
Software idb is FastEthernet1/0/0 (6)
Fast switching type 1, interface type 18
IP Distributed CEF switching enabled
IP Feature Fast switching turbo vector
IP Feature CEF switching turbo vector
Input fast flags 0x100, Output fast flags 0x0, Flags 0x0
ifindex 7(7)
Slot 1 Slot unit 0 VC -1
Transmit limit accumulator 0xE8001A82 (0xE8001A82)
IP MTU 1500
The following is sample output from the show cef interface Null 0 detail command:
Router# show cef interface null 0 detail
Null0 is up (if_number 1)
Corresponding hwidb fast_if_number 1
Corresponding hwidb firstsw->if_number 1
Internet Protocol processing disabled
Interface is marked as nullidb
Packets switched to this interface on linecard are dropped to next slow path
Hardware idb is Null0
Fast switching type 13, interface type 0
IP CEF switching enabled
IP Feature CEF switching turbo vector
Input fast flags 0x0, Output fast flags 0x0
ifindex 0(0)
Slot -1 Slot unit -1 VC -1
Transmit limit accumulator 0x0 (0x0)
IP MTU 1500
The following is sample output for internal Cisco Express Forwarding interface status and configuration for the Ethernet 3/1 interface:
Router# show cef interface ethernet 3/1 internal
Ethernet3/1 is up (if_number 13)
Corresponding hwidb fast_if_number 13
Corresponding hwidb firstsw->if_number 13
Internet address is 10.0.212.6/24
ICMP redirects are always sent
Per packet load-sharing is disabled
IP unicast RPF check is disabled
Inbound access list is not set
Outbound access list is not set
IP policy routing is disabled
BGP based policy accounting on input is disabled
BGP based policy accounting on output is disabled
Hardware idb is Ethernet3/1
Fast switching type 1, interface type 63
IP CEF switching enabled
IP CEF switching turbo vector
IP CEF turbo switching turbo vector
IP prefix lookup IPv4 mtrie 8-8-8-8 optimized
Input fast flags 0x0, Output fast flags 0x0
ifindex 11(11)
Slot 3 Slot unit 0 VC -1
Transmit limit accumulator 0x0 (0x0)
IP MTU 1500
Subblocks:
IPv6: enabled 1 unreachable FALSE redirect TRUE mtu 1500 flags 0x0
link-local address is FE80::20C:CFFF:FEF9:4854
Global unicast address(es):
10:6:6:6:20C:CFFF:FEF9:4854, subnet is 10:6:6:6::/64 [EUI]
IPv4: Internet address is 10.0.212.6/24
Broadcast address 255.255.255.255
Per packet load-sharing is disabled
IP MTU 1500
Table 150 describes the significant fields shown in the displays.
|
|
|
|---|---|
FastEthernet1/0/0 is up |
Indicates type, number, and status of the interface. |
Internet address is |
Internet address of the interface. |
ICMP redirects are always sent |
Indicates how packet forwarding is configured. |
Per packet load-sharing is disabled |
Indicates status of load sharing on the interface. |
IP unicast RPF check is disabled |
Indicates status of IP unicast Reverse Path Forwarding (RPF) check on the interface. |
Inbound access list is not set |
Indicates the number or name of the inbound access list if one is applied to this interface. Also indicates whether the list is set. |
Outbound access list is not set |
Indicates the number or name of the outbound access list if one is applied to this interface. Also indicates whether the list is set. |
IP policy routing is disabled |
Indicates the status of IP policy routing on the interface. |
BGP based policy accounting on input is enabled |
Indicates the status of BGP policy accounting on the input interface. |
BGP based policy accounting on output is disabled |
Indicates the status of BGP policy accounting on the output interface. |
Hardware idb is Ethernet1/0/0 |
Interface type and number configured. |
Fast switching type |
Used for troubleshooting; indicates switching mode in use. |
Interface type |
Indicates interface type. |
IP Distributed CEF switching enabled |
Indicates whether distributed Cisco Express Forwarding is enabled on this interface. |
IP Feature Fast switching turbo vector |
Indicates IP fast switching type configured. |
IP Feature CEF switching turbo vector |
Indicates IP feature Cisco Express Forwarding switching type configured. |
Input fast flags |
Indicates the input status of various switching features: • • • • • • • • • • • • • • • • • • • • • • • |
Output fast flags |
Indicates the output status of various switching features, as follows: • • • • • • • • • • • • • • • • • |
ifindex 7/(7) |
Indicates a Cisco IOS internal index or identifier for this interface. |
Slot 1 Slot unit 0 VC -1 |
The slot number and slot unit. |
Transmit limit accumulator |
Indicates the maximum number of packets allowed in the transmit queue. |
IP MTU |
The MTU size set on the interface. |
1 Cisco applications and services architecture (CASA) 2 Software interface descriptor block (SWIDB) 3 General packet radio system (GPRS) 4 Web cache communication protocol (WCCP) 5 Resource reservation protocol (RSVP) |
The following is sample output from the show cef interface command using the policy-statistics keyword:
Router# show cef interface policy-statistics
POS7/0 is up (if_number 8)
Index Packets Bytes
1 0 0
2 0 0
3 50 5000
4 100 10000
5 100 10000
6 10 1000
7 0 0
8 0 0
The following is sample output from the show cef interface command using the policy-statistics keyword. It shows policy statistics for Ethernet interface 1/0.
Router# show cef interface ethernet 1/0 policy-statistics
Ethernet1/0 is up (if_number 3)
Corresponding hwidb fast_if_number 3
Corresponding hwidb firstsw->if_number 3
Index Packets Bytes
1 0 0
2 0 0
3 0 0
4 0 0
5 0 0
6 0 0
7 0 0
8 0 0
The following is sample output from the show cef interface command using the policy-statistics keyword. It shows policy statistics for Fast Ethernet interface 1/0/0 with the policy accounting based on input traffic.
Router# show cef interface fastethernet 1/0/0 policy-statistics input
FastEthernet1/0/0 is up (if_number 6)
Corresponding hwidb fast_if_number 6
Corresponding hwidb firstsw->if_number 6
BGP based Policy accounting on input is enabled
Index Packets Bytes
1 9999 999900
2 0 0
3 0 0
4 0 0
5 0 0
6 0 0
7 0 0
8 0 0
9 0 0
10 0 0
11 0 0
12 0 0
13 0 0
14 0 0
15 0 0
16 0 0
17 0 0
18 0 0
19 0 0
20 0 0
21 0 0
22 0 0
23 0 0
24 0 0
25 0 0
26 0 0
27 0 0
28 0 0
29 0 0
30 0 0
31 0 0
32 0 0
33 0 0
34 1234 123400
35 0 0
36 0 0
37 0 0
38 0 0
39 0 0
40 0 0
41 0 0
42 0 0
43 0 0
44 0 0
45 1000 100000
46 0 0
47 0 0
48 0 0
49 0 0
50 0 0
51 0 0
52 0 0
53 0 0
54 5123 1198782
The following is sample output from the show cef interface command using the policy-statistics keyword. It shows policy statistics for serial interface 1/1/2 with the policy accounting based on output traffic.
Router# show cef interface serial 1/1/2 policy-statistics output
Serial1/1/2 is up (if_number 9)
Corresponding hwidb fast_if_number 9
Corresponding hwidb firstsw->if_number 9
BGP based Policy accounting on output is enabled
Index Packets Bytes
1 9999 999900
2 0 0
.
.
.
18 0 0
19 0 0
20 0 0
.
.
.
34 1234 123400
35 0 0
.
.
.
44 0 0
45 1000 100000
46 0 0
47 0 0
48 0 0
49 0 0
50 0 0
51 0 0
52 0 0
53 0 0
54 5123 1198782
55 0 0
56 0 0
57 0 0
58 0 0
59 0 0
60 0 0
61 0 0
62 0 0
63 0 0
64 0 0
Table 151 describes the significant fields shown in the display.
Related Commands
show cef linecard
To display Cisco Express Forwarding-related information by line card, use the show cef linecard command in user EXEC or privileged EXEC mode.
show cef linecard [slot-number] [detail] [internal]
Syntax Description
Command Modes
User EXEC (>)
Privileged EXEC (#)
Command History
Usage Guidelines
This command is available only on distributed switching platforms.
When you omit the slot-number argument, information about all line cards is displayed. When you omit the slot-number argument and include the detail keyword, detailed information is displayed for all line cards. When you omit the slot-number argument and include the internal keyword, detailed internal information is displayed for all line cards.When you omit all keywords and arguments, the show cef linecard command displays important information about all line cards in table format.
Examples
The following is sample output from the show cef linecard command. The command displays information for all line cards in table format.
Router# show cef linecard
Slot MsgSent XDRSent Window LowQ MedQ HighQ Flags
0 6 95 24 0 0 0 up
1 6 95 24 0 0 0 up
VRF Default-table, version 8, 6 routes
Slot Version CEF-XDR I/Fs State Flags
0 7 4 8 Active up, sync
1 7 4 10 Active up, sync
The following is sample output from the show cef linecard detail command for all line cards:
Router# show cef linecard detail
CEF linecard slot number 0, status up
Sequence number 4, Maximum sequence number expected 28, Seq Epoch 2
Send failed 0, Out Of Sequence 0, drops 0
Linecard CEF reset 0, reloaded 1
95 elements packed in 6 messages(3588 bytes) sent
69 elements cleared
linecard in sync after reloading
0/0/0 xdr elements in LowQ/MediumQ/HighQ
11/9/69 peak elements on LowQ/MediumQ/HighQ
Input packets 0, bytes 0
Output packets 0, bytes 0, drops 0
CEF Table statistics:
Table name Version Prefix-xdr Status
Default-table 7 4 Active, up, sync
CEF linecard slot number 1, status up
Sequence number 4, Maximum sequence number expected 28, Seq Epoch 2
Send failed 0, Out Of Sequence 0, drops 0
Linecard CEF reset 0, reloaded 1
95 elements packed in 6 messages(3588 bytes) sent
69 elements cleared
linecard in sync after reloading
0/0/0 xdr elements in LowQ/MediumQ/HighQ
11/9/69 peak elements on LowQ/MediumQ/HighQ
Input packets 0, bytes 0
Output packets 0, bytes 0, drops 0
CEF Table statistics:
Table name Version Prefix-xdr Status
Default-table 7 4 Active, up, sync
The following is sample output from the show cef linecard internal command for all line cards:
Router# show cef linecard internal
CEF linecard slot number 0, status up
Sequence number 11, Maximum sequence number expected 35
Send failed 0, Out Of Sequence 0
Linecard CEF reset 2, reloaded 2
Total elements queued:
prefix 4
adjacency 4
interface 91
address 2
policy routing 2
hw interface 57
state 6
resequence 2
control 13
table 2
time 4484
flow features deactivate 2
flow cache config 2
flow export config 2
dss 2
isl 2
mpls atm vc remove 2
mpls atm vc set label 2
2
2
3
1
4574 elements packed in 4495 messages(90286 bytes) sent
115 elements cleared
Total elements cleared:
prefix 2
adjacency 1
interface 63
address 1
policy routing 1
hw interface 29
state 2
control 5
table 1
flow features deactivate 1
flow cache config 1
flow export config 1
dss 1
isl 1
mpls atm vc remove 1
mpls atm vc set label 1
1
1
1
linecard disabled - failed a reload
0/0/0 xdr elements in LowQ/MediumQ/HighQ
Input packets 0, bytes 0
Output packets 0, bytes 0, drops 0
CEF Table statistics:
Table name Version Prefix-xdr Status
Default-table 8 4 Active, sync
Table 152 describes the significant fields shown in the displays.
Related Commands
show cef table
To display the configuration and operational state of the Cisco Express Forwarding Forwarding Information Base (FIB) table, use the show cef table command in privileged EXEC mode.
Cisco IOS 12.2(33)SRB and Later S-Based Releases
show cef table [consistency-check | detail | internal | [ipv4 | ipv6] [vrf {* | Default | vrf-name}] [topology {* | base | topology-name}] [detail | internal]]
Cisco IOS 12.4(20)T and Later T-Based Releases
show cef table [consistency-check | detail | internal | [ipv4 | ipv6] {Default | vrf-name} [detail | internal]]
Syntax Description
Command Modes
Privileged EXEC (#)
Command History
Usage Guidelines
Use this command to display information about the configuration and operational statistics for Cisco Express Forwarding IPv4 FIB and IPv6 FIB.
Cisco IOS 12.4(20)T and Later T-based Releases
When you enter an ipv4 or ipv6 keyword with the show cef table command, you must enter the name of a configured VRF or the Default keyword.
Cisco IOS 12.2(33)SRB and Later S-based Releases
The vrf and topology keywords are optional when you enter the ipv4 or ipv6 keyword with the show cef table command.
Examples
The following is sample output from the show cef table command:
Router# show cef table
Global information:
Output chain build favors:
platform: not configured
CLI: not configured
operational: convergence-speed
Output chain build characteristics:
Inplace modify
operational for: load-sharing
Collapse
operational for: load-sharing
Indirection
operational for: recursive-prefix
MTRIE information:
TAL: node pools:
pool[C/8 bits]: 12 allocated (0 failed), 12480 bytes {1 refcount}
1 active IPv4 table (9 prefixes total) out of a maximum of 10000.
VRF Prefixes Memory Flags
Default 9 13520
1 active IPv6 table (1 prefix total) out of a maximum of 10000.
VRF Prefixes Memory Flags
VRF Prefixes Memory Flags
Default 1 208
Table 153 describes significant fields shown in the display.
The following is sample output from the show cef table internal command:
Router# show cef table internal
Table: IPv4:Default (id 0)
sources: Default table
ref count: 31
flags (0x00): none
smp allowed: yes
default network: none
route count: 9
route count (fwd): 9
route count (non-fwd): 0
Database epoch: 0 (9 entries at this epoch)
Subblocks:
These rates are ndbs/minute.
RIB update rate: 0
RIB update peak rate: 0
Internals:
table: 0x4BFA060
extra: 0x000000
broker record: 0x000000
tal root: 0x4C01988
lookup OCE: 0x4C12B50
Table: IPv6:Default (id 0)
sources: Default table
ref count: 3
flags (0x00): none
smp allowed: no
default network: none
route count: 1
route count (fwd): 1
route count (non-fwd): 0
Database epoch: 0 (1 entry at this epoch)
Subblocks:
These rates are ndbs/minute.
RIB update rate: 0
RIB update peak rate: 0
Internals:
table: 0x4BF9FF0
extra: 0x000000
broker record: 0x000000
tal root: 0x4C96328
lookup OCE: 0x4C12B30
Table 154 describes significant fields shown in the display.
The following is sample output from the show cef table consistency-check command:
Router# show cef table consistency-check
Consistency checker master control: enabled
IPv4:
Table consistency checker state:
scan-rib-ios: disabled
0/0/0/0 queries sent/ignored/checked/iterated
scan-ios-rib: disabled
0/0/0/0 queries sent/ignored/checked/iterated
full-scan-rib-ios: enabled [1000 prefixes checked every 60s]
0/0/0/0 queries sent/ignored/checked/iterated
full-scan-ios-rib: enabled [1000 prefixes checked every 60s]
0/0/0/0 queries sent/ignored/checked/iterated
Checksum data checking disabled
Inconsistency error messages are disabled
Inconsistency auto-repair is enabled (10s delay, 300s holddown)
Inconsistency auto-repair runs: 0
Inconsistency statistics: 0 confirmed, 0/16 recorded
IPv6:
Table consistency checker state:
scan-ios-rib: disabled
0/0/0/0 queries sent/ignored/checked/iterated
full-scan-rib-ios: enabled [1000 prefixes checked every 60s]
0/0/0/0 queries sent/ignored/checked/iterated
full-scan-ios-rib: enabled [1000 prefixes checked every 60s]
0/0/0/0 queries sent/ignored/checked/iterated
Checksum data checking disabled
Inconsistency error messages are disabled
Inconsistency auto-repair is enabled (10s delay, 300s holddown)
Inconsistency auto-repair runs: 0
Inconsistency statistics: 0 confirmed, 0/16 recorded
Table 155 describes significant fields shown in the display.
The following is sample output from the show cef table IPv4 Default command:
Router# show cef table ipv4 Default
Table: IPv4:Default (id 0)
sources: Default table
ref count: 31
flags (0x00): none
smp allowed: yes
default network: none
route count: 9
route count (fwd): 9
route count (non-fwd): 0
Database epoch: 0 (9 entries at this epoch)
Subblocks:
These rates are ndbs/minute.
RIB update rate: 0
RIB update peak rate: 0
For a description of significant fields shown in the display, see Table 154.
The following is sample output from the show cef table IPv6 Default internal command:
Router# show cef table ipv6 Default internal
Table: IPv6:Default (id 0)
sources: Default table
ref count: 3
flags (0x00): none
smp allowed: no
default network: none
route count: 1
route count (fwd): 1
route count (non-fwd): 0
Database epoch: 0 (1 entry at this epoch)
Subblocks:
These rates are ndbs/minute.
RIB update rate: 0
RIB update peak rate: 0
Internals:
table: 0x4BF9FF0
extra: 0x000000
broker record: 0x000000
tal root: 0x4C96328
lookup OCE: 0x4C12B30
For a description of significant fields shown in the display, see Table 154.
Related Commands
show clns neighbors
To display end system (ES), intermediate system (IS), and multitopology Integrated Intermediate System-to-Intermediate System (M-ISIS) neighbors, use the show clns neighbors command in user EXEC or privileged EXEC mode.
show clns neighbors [process-tag] [interface-type interface-number] [area] [detail]
Syntax Description
Command Modes
User EXEC
Privileged EXEC
Command History
Usage Guidelines
The show clns neighbors command displays the adjacency that is learned through multitopology IS-IS for IPv6.
Examples
The following is sample output from the show clns neighbors command:
Router# show clns neighbors
System Id Interface SNPA State Holdtime Type Protocol
0000.0000.0007 Et3/3 aa00.0400.6408 UP 26 L1 IS-IS
0000.0C00.0C35 Et3/2 0000.0c00.0c36 Up 91 L1 IS-IS
0800.2B16.24EA Et3/3 aa00.0400.2d05 Up 27 L1 M-ISIS
0800.2B14.060E Et3/2 aa00.0400.9205 Up 8 L1 IS-IS
The following is sample output from the show clns neighbors command using the process-tag argument to display information about the VRF-aware IS-IS instance tag1:
Router# show clns tagRED neighbors
Tag tag1:
System Id Interface SNPA State Holdtime Type Protocol
igp-03 Fa0/ 200d0.2b7f.9502 Up 9 L2 IS-IS
igp-03 PO2/2.1 DLCI 211 Up 27 L2 IS-IS
igp-02 PO2/0.1 DLCI 131 Up 29 L2 IS-IS
igp-11 Fa0/4 000e.d79d.7920 Up 7 L2 IS-IS
igp-11 Fa0/5 000e.d79d.7921 Up 8 L2 IS-IS
igp-11 PO3/2.1 DLCI 451 Up 24 L2 IS-IS
The following is sample output from the show clns neighbors command using the detail keyword:
Router# show clns neighbors detail
System Id Interface SNPA State Holdtime Type Protocol
0000.0000.0007 Et3/3 aa00.0400.6408 UP 26 L1 IS-IS
Area Address(es): 20
IP Address(es): 172.16.0.42*
Uptime: 00:21:49
0000.0C00.0C35 Et3/2 0000.0c00.0c36 Up 91 L1 IS-IS
Area Address(es): 20
IP Address(es): 192.168.0.42*
Uptime: 00:21:52
0800.2B16.24EA Et3/3 aa00.0400.2d05 Up 27 L1 M-ISIS
Area Address(es): 20
IP Address(es): 192.168.0.42*
IPv6 Address(es): FE80::2B0:8EFF:FE31:EC57
Uptime: 00:00:27
Topology: IPv6
0800.2B14.060E Et3/2 aa00.0400.9205 Up 8 L1 IS-IS
Area Address(es): 20
IP Address(es): 192.168.0.30*
Uptime: 00:21:52
The following is sample output from the show clns neighbors command using the process-tag argument to display information about the VRF-aware IS-IS instance tagSecond:
Router# show clns tagSecond neighbors
Tag tagSecond:
System Id Interface SNPA State Holdtime Type Protocol
igp-03 Fa0/2 00d0.2b7f.9502 Up 9 L2 IS-IS
igp-03 PO2/2.1 DLCI 211 Up 27 L2 IS-IS
igp-02 PO2/0.1 DLCI 131 Up 29 L2 IS-IS
igp-11 Fa0/4 000e.d79d.7920 Up 7 L2 IS-IS
igp-11 Fa0/5 000e.d79d.7921 Up 8 L2 IS-IS
igp-11 PO3/2.1 DLCI 451 Up 24 L2 IS-IS
Table 156 describes the significant fields shown in the display.
Notice that the information displayed in the show clns neighbors detail command output includes everything shown in show clns neighbors command output in addition to the area address associated with the IS neighbor and its uptime. When IP routing is enabled, Integrated-ISIS adds information to the output of the show clns commands. The show clns neighbors detail command output shows the IP addresses that are defined for the directly connected interface and an asterisk (*) to indicate which IP address is the next hop.
show clock
To display the time and date from the system software clock, use the show clock command in user EXEC or privileged EXEC mode.
show clock [detail]
Syntax Description
detail |
(Optional) Indicates the clock source (NTP, VINES, hardware clock, and so on) and the current summer-time setting (if any). |
Command Modes
User EXEC
Privileged EXEC
Command History
Usage Guidelines
The software clock keeps an "authoritative" flag that indicates whether the time is authoritative (believed to be accurate). If the software clock has been set by a timing source (for example, via NTP), the flag is set. If the time is not authoritative, it will be used only for display purposes. Until the clock is authoritative and the "authoritative" flag is set, the flag prevents peers from synchronizing to the software clock.
The symbol that precedes the show clock display indicates the following:
These symbols are also used in NTP-based timestamping, such as for syslog (SEM) messages.
Note In general, NTP synchronization takes approximately 15 to 20 minutes.
Examples
The following sample output shows that the current clock is authoritative and that the time source is NTP:
Router> show clock detail
15:29:03.158 PST Tue Feb 25 2003
Time source is NTP
The following example shows the current clock is authoritative, but NTP is not yet synchronized:
Router> show clock
.16:42:35.597 UTC Tue Feb 25 2003
Related Commands
|
|
|
|---|---|
clock set |
Manually sets the software clock. |
show calendar |
Displays the current time and date setting of the system hardware clock. |
show crypto engine
To display a summary of the configuration information for the crypto engines, use the show crypto engine command in privileged EXEC mode.
show crypto engine {accelerator {statistic | ring {control | packet | pool}} | brief | configuration | connections {active | dh | dropped-packet | flow} | qos | token [detail]}
Syntax Description
Command Modes
Privileged EXEC (#)
Command History
Usage Guidelines
This command displays all crypto engines and displays the AIM-VPN product name.
If a hardware crypto engine does not support native Group Domain of Interpretation (GDOI) header preservation, the show crypto engine connections active output for Group Encrypted Transport VPN (GET VPN) IP security (IPsec) connections displays a disallowed IP address of 0.0.0.0 (see the show crypto engine connections active "Examples" section).
Examples
The following is sample output from the show crypto engine brief command shows typical crypto engine summary information:
Router# show crypto engine brief
crypto engine name: Virtual Private Network (VPN) Module
crypto engine type: hardware
State: Enabled
Location: aim 0
VPN Module in slot: 0
Product Name: AIM-VPN/SSL-3
Software Serial #: 55AA
Device ID: 001F - revision 0000
Vendor ID: 0000
Revision No: 0x001F0000
VSK revision: 0
Boot version: 255
DPU version: 0
HSP version: 3.3(18) (PRODUCTION)
Time running: 23:39:30
Compression: Yes
DES: Yes
3 DES: Yes
AES CBC: Yes (128,192,256)
AES CNTR: No
Maximum buffer length: 4096
Maximum DH index: 3500
Maximum SA index: 3500
Maximum Flow index: 7000
Maximum RSA key size: 2048
crypto engine name: Cisco VPN Software Implementation
crypto engine type: software
serial number: CAD4FCE1
crypto engine state: installed
crypto engine in slot: N/A
Table 157 describes the significant fields shown in the display.
The following is sample output from show crypto engine command shows IPv6 information:
Router# show crypto engine connections
ID Interface Type Algorithm Encrypt Decrypt IP-Address
1 Et2/0 IPsec MD5 0 46 FE80::A8BB:CCFF:FE01:2C02
2 Et2/0 IPsec MD5 41 0 FE80::A8BB:CCFF:FE01:2C02
5 Tu0 IPsec SHA+DES 0 0 3FFE:2002::A8BB:CCFF:FE01:2C02
6 Tu0 IPsec SHA+DES 0 0 3FFE:2002::A8BB:CCFF:FE01:2C02
1001 Tu0 IKE SHA+DES 0 0 3FFE:2002::A8BB:CCFF:FE01:2C02
The following show crypto engine command output displays information for a situation in which a hardware crypto engine does not support native GDOI:
Router# show crypto engine connections active
Crypto Engine Connections
ID Interface Type Algorithm Encrypt Decrypt IP-Address
1079 Se0/0/0.10 IPsec AES+SHA 0 0 0.0.0.0
1080 Se0/0/0.10 IPsec AES+SHA 0 0 0.0.0.0
4364 <none> IKE SHA+3DES 0 0
4381 <none> IKE SHA+3DES 0 0
Related Commands
|
|
|
|---|---|
crypto engine accelerator |
Enables the use of the onboard hardware accelerator for IPSec encryption. |
show crypto ikev2 policy
To display the default or a user-defined Internet Key Exchange Version 2 (IKEv2) policy, use the show crypto ikev2 policy command in privileged EXEC mode.
show crypto ikev2 policy [policy-name]
Syntax Description
policy-name |
(Optional) Displays the specified policy. |
Command Default
If no option is specified, then this command displays all the policies.
Command Modes
Privileged EXEC (#)
Command History
Usage Guidelines
Use this command to display the default or user-defined IKEv2 policy. User-defined policies display the default values of the commands that are not explicitly configured under the policy.
Examples
The following examples show the output for a default and user-defined policy.
Default IKEv2 Policy
The default IKEv2 policy matches all local addresses in global VRF and uses the default IKEv2 proposal.
Router# show crypto ikev2 policy default
IKEv2 policy : default
Match fvrf : global
Match address local : any
Proposal : default
Router# show crypto ikev2 policy default
This sample output shows the default IKEv2 policy that matches the local IPv6 address in global VRF: IKEv2 policy : default
Match fvrf : global
Match address local : 2001:DB8:1::1
Proposal : default
User-defined IKEv2 policy
Router# show crypto ikev2 policy policy-1
IKEv2 policy : policy-1
Match fvrf : green
Match local : 10.0.0.1
Proposal : proposal-A
Proposal : proposal-B
Table 158 describes the significant fields shown in the display.
Related Commands
show crypto ikev2 profile
To display a user-defined Internet Key Exchange Version 2 (IKEv2) profile, use the show crypto ikev2 profile command in privileged EXEC mode.
show crypto ikev2 profile [profile-name]
Syntax Description
profile-name |
(Optional) Name of the IKEv2 profile. |
Command Default
No default behavior or values.
Command Modes
Privileged EXEC (#)
Command History
Usage Guidelines
Use this command to display information about an IKEv2 profile. This command also displays the default values of the commands that are not explicitly configured in the IKEv2 profile. If a profile name is not specified, the command displays all the user-defined IKEv2 profiles.
Examples
The following example is sample output from the show crypto ikev2 profile command:
Router# show crypto ikev2 profile
IKEv2 profile: prof
Ref Count: 3
Match criteria:
Fvrf: any
Local address/interface: none
Identities:
fqdn smap-initiator
Certificate maps: none
Local identity: fqdn dmap-responder
Remote identity: none
Local authentication method: pre-share
Remote authentication method(s): pre-share
Keyring: v2-kr1
Trustpoint(s): none
Lifetime: 86400 seconds
DPD: disabled
NAT-keepalive: disabled
Ivrf: global
Virtual-template: none
Accounting mlist: none
Table 158 describes the significant fields shown in the display.
show crypto ikev2 sa
To display the Internet Key Exchange Version 2 (IKEv2) security associations (SA), use the show crypto ikev2 sa command in privileged EXEC mode.
show crypto ikev2 sa {local [ipv4-address | ipv6-address] | remote [ipv4-address | ipv6-address] | fvrf vrf-name} [detailed]
Syntax Description
Command Default
All the current IKEv2 security associations are displayed.
Command Modes
Privileged EXEC (#)
Command History
Usage Guidelines
Use this command to display information about the current IKEv2 security associations.
Examples
The following are sample outputs from the show crypto ikev2 sa command:
Router# show crypto ikev2 sa
Tunnel-id Local Remote fvrf/ivrf Status
2 10.0.0.1/500 10.0.0.2/500 (none)/(none) READY
Encr: 3DES, Hash: SHA96, DH Grp:2, Auth: PSK
Life/Active Time: 86400/361 sec
Router# show crypto ikev2 sa
Tunnel-id Local Remote fvrf/ivrf Status
1 2001:DB8:0::1/500 2001:DB8:0::2/500 (none)/(none) READY
Encr: 3DES, Hash: SHA96, DH Grp:2, Auth: PSK
Life/Active Time: 86400/361 sec
The following is sample output from the show crypto ikev2 sa detailed command:
Router# show crypto ikev2 sa detailed
Tunnel-id Local Remote fvrf/ivrf Status
2 10.0.0.1/500 10.0.0.2/500 (none)/(none) READY
Encr: 3DES, Hash: SHA96, DH Grp:2, Auth: PSK
Life/Active Time: 86400/479 sec
CE id: 0, Session-id: 2, MIB-id: 2
Status Description: Negotiation done
Local spi: BCF1453548BE731C Remote spi: 85CB158F05817B3A
Local id: 10.0.0.1 Remote id: 10.0.0.2
Local req mess id: 3 Remote req mess id: 0
Local next mess id: 3 Remote next mess id: 1
Local req queued: 3 Remote req queued: 0
Local window: 5 Remote window: 5
DPD configured for 0 seconds
NAT-T is not detected
Table 160 describes the significant fields shown in the display.
show crypto ikev2 session
To display the status of active Internet Key Exchange Version 2 (IKEv2) sessions, use the show crypto ikev2 session command in privileged EXEC mode.
show crypto ikev2 session [detailed]
Syntax Description
detailed |
(Optional) Displays detailed information about the session. |
Command Default
The session information is displayed in a brief format.
Command Modes
Privileged EXEC (#)
Command History
Usage Guidelines
Use this command to display information about the active IKEv2 sessions. Use the detailed keyword to display information about IKEv2 parent and child security associations.
Examples
The following is a sample output from the show crypto ikev2 session and show crypto ikev2 session detailed command.
Router# show crypto ikev2 session
Session-id:1, Status:UP-ACTIVE, IKE count:1, CHILD count:1
Tunnel-id Local Remote fvrf/ivrf Status
1 10.0.0.1/500 10.0.0.2/500 (none)/(none) READY
Encr: 3DES, Hash: SHA96, DH Grp:2, Auth: PSK
Life/Active Time: 86400/65 sec
CHild sa: local selector 10.0.0.1/0 - 10.0.0.1/65535
remote selector 10.0.0.2/0 - 10.0.0.2/65535
ESP spi in/out: 0x9360A95/0x6C340600
CPI in/out: 0x9FE5/0xC776
Router# show crypto ikev2 session detailed
Session-id:1, Status:UP-ACTIVE, IKE count:1, CHILD count:1
Tunnel-id Local Remote fvrf/ivrf Status
1 10.0.0.1/500 10.0.0.2/500 (none)/(none) READY
Encr: 3DES, Hash: SHA96, DH Grp:2, Auth: PSK
Life/Remaining/Active Time: 86400/86157/248 sec
CE id: 0, Session-id: 1, MIB-id: 1
Status Description: Negotiation done
Local spi: 750CBE827434A245 Remote spi: 4353FEDBABEBF24C
Local id: 10.0.0.1 Remote id: 10.0.0.2
Local req mess id: 0 Remote req mess id: 0
Local next mess id: 0 Remote next mess id: 2
Local req queued: 0 Remote req queued: 0
Local window: 5 Remote window: 5
DPD configured for 0 seconds
NAT-T is not detected
Child sa: local selector 10.0.0.1/0 - 10.0.0.1/65535
remote selector 10.0.0.2/0 - 10.0.0.2/65535
ESP spi in/out: 0x9360A95/0x6C340600
CPI in/out: 0x9FE5/0xC776
AH spi in/out: 0x0/0x0
Encr: AES CBC, keysize: 128, esp_hmac: SHA96
ah_hmac: Unknown - 0, comp: IPCOMP_LZS, mode tunnel
Table 160 describes the significant fields shown in the display.
show crypto ipsec policy
To display the parameters for each IP Security (IPsec) policy, use the show crypto ipsec policy command in user EXEC or privileged EXEC mode.
show crypto ipsec policy [name policy-name]
Syntax Description
name policy-name |
(Optional) The specific policy for which parameters will be displayed. |
Command Modes
User EXEC
Privileged EXEC
Command History
|
|
|
|---|---|
12.3(4)T |
This command was introduced. |
12.4(4)T |
Support for IPv6 was added. |
Cisco IOS XE Release 2.1 |
This command was introduced on Cisco ASR 1000 Series Routers. |
Usage Guidelines
If no policy is specified, then information about all policies is displayed.
Examples
The following is sample output from the show crypto ipsec policy command:
Router# show crypto ipsec policy
Crypto IPsec client security policy data
Policy name: OSPFv3-1-1000
Policy refcount: 1
Inbound AH SPI: 1000 (0x3E8)
Outbound AH SPI: 1000 (0x3E8)
Inbound AH Key: 1234567890ABCDEF1234567890ABCDEF
Outbound AH Key: 1234567890ABCDEF1234567890ABCDEF
Transform set: ah-md5-hmac
Table 162 describes the significant fields shown in the display.
show crypto ipsec sa
To display the settings used by current security associations (SAs), use the show crypto ipsec sa command in privileged EXEC mode.
show crypto ipsec sa [map map-name | address | identity | interface type number | peer [vrf fvrf-name] address | vrf ivrf-name | ipv6 [interface type number]] [detail]
IPsec and IKE Stateful Failover Syntax
show crypto ipsec sa [active | standby]
Syntax Description
Command Modes
Privileged EXEC (#)
Command History
Usage Guidelines
If no keyword is used, all SAs are displayed. They are sorted first by interface and then by traffic flow (for example, source or destination address, mask, protocol, or port). Within a flow, the SAs are listed by protocol (ESP or AH) and direction (inbound or outbound).
Examples
The following is sample output from the show crypto ipsec sa command:
Router# show crypto ipsec sa
interface: Tunnel1
Crypto map tag: Tunnel1-head-0, local addr 10.5.5.2
protected vrf: (none)
local ident (addr/mask/prot/port): (10.5.5.2/255.255.255.255/47/0)
remote ident (addr/mask/prot/port): (10.5.5.1/255.255.255.255/47/0)
current_peer 10.5.5.1 port 500
PERMIT, flags={origin_is_acl,}
#pkts encaps: 492908510, #pkts encrypt: 492908510, #pkts digest: 492908510
#pkts decaps: 492908408, #pkts decrypt: 492908408, #pkts verify: 492908408
#pkts compressed: 0, #pkts decompressed: 0
#pkts not compressed: 0, #pkts compr. failed: 0
#pkts not decompressed: 0, #pkts decompress failed: 0
#send errors 55, #recv errors 0
local crypto endpt.: 10.5.5.2, remote crypto endpt.: 10.5.5.1
path mtu 1500, ip mtu 1500, ip mtu idb GigabitEthernet0/2
current outbound spi: 0xDE4EE29D(3729711773)
inbound esp sas:
spi: 0xC06CA92B(3228346667)
transform: esp-3des esp-sha-hmac ,
in use settings ={Tunnel, }
conn id: 3139, flow_id: VSA:1139, crypto map: Tunnel1-head-0
sa timing: remaining key lifetime (k/sec): (3948785/556)
IV size: 8 bytes
replay detection support: Y
Status: ACTIVE
inbound ah sas:
spi: 0xC87AB936(3363486006)
transform: ah-md5-hmac ,
in use settings ={Tunnel, }
conn id: 3139, flow_id: VSA:1139, crypto map: Tunnel1-head-0
sa timing: remaining key lifetime (k/sec): (3948785/556)
replay detection support: Y
Status: ACTIVE
inbound pcp sas:
outbound esp sas:
spi: 0xDE4EE29D(3729711773)
transform: esp-3des esp-sha-hmac ,
in use settings ={Tunnel, }
conn id: 3140, flow_id: VSA:1140, crypto map: Tunnel1-head-0
sa timing: remaining key lifetime (k/sec): (3948785/556)
IV size: 8 bytes
replay detection support: Y
Status: ACTIVE
outbound ah sas:
spi: 0xAEEDD4F1(2934822129)
transform: ah-md5-hmac ,
in use settings ={Tunnel, }
conn id: 3140, flow_id: VSA:1140, crypto map: Tunnel1-head-0
sa timing: remaining key lifetime (k/sec): (3948785/556)
replay detection support: Y
Status: ACTIVE
outbound pcp sas:
The following is sample output from the show crypto ipsec sa identity detail command:
Router# show crypto ipsec sa identity detail
interface: Tunnel1
Crypto map tag: Tunnel1-head-0, local addr 10.5.5.2
protected vrf: (none)
local ident (addr/mask/prot/port): (0.0.0.0/0.0.0.0/0/0)
remote ident (addr/mask/prot/port): (0.0.0.0/0.0.0.0/0/0)
current_peer (none) port 500
DENY, flags={ident_is_root,}
#pkts encaps: 0, #pkts encrypt: 0, #pkts digest: 0
#pkts decaps: 0, #pkts decrypt: 0, #pkts verify: 0
#pkts compressed: 0, #pkts decompressed: 0
#pkts not compressed: 0, #pkts compr. failed: 0
#pkts not decompressed: 0, #pkts decompress failed: 0
#pkts no sa (send) 0, #pkts invalid sa (rcv) 0
#pkts encaps failed (send) 0, #pkts decaps failed (rcv) 0
#pkts invalid prot (recv) 0, #pkts verify failed: 0
#pkts invalid identity (recv) 0, #pkts invalid len (rcv) 0
#pkts replay rollover (send): 0, #pkts replay rollover (rcv) 0
##pkts replay failed (rcv): 0
#pkts internal err (send): 0, #pkts internal err (recv) 0
protected vrf: (none)
local ident (addr/mask/prot/port): (10.5.5.2/255.255.255.255/47/0)
remote ident (addr/mask/prot/port): (10.5.5.1/255.255.255.255/47/0)
current_peer 10.5.5.1 port 500
PERMIT, flags={origin_is_acl,}
#pkts encaps: 492923510, #pkts encrypt: 492923510, #pkts digest: 492923510
#pkts decaps: 492923408, #pkts decrypt: 492923408, #pkts verify: 492923408
#pkts compressed: 0, #pkts decompressed: 0
#pkts not compressed: 0, #pkts compr. failed: 0
#pkts not decompressed: 0, #pkts decompress failed: 0
#pkts no sa (send) 55, #pkts invalid sa (rcv) 0
#pkts encaps failed (send) 0, #pkts decaps failed (rcv) 0
#pkts invalid prot (recv) 0, #pkts verify failed: 0
#pkts invalid identity (recv) 0, #pkts invalid len (rcv) 0
#pkts replay rollover (send): 0, #pkts replay rollover (rcv) 0
##pkts replay failed (rcv): 0
#pkts internal err (send): 0, #pkts internal err (recv) 0
Table 163 describes the significant fields shown in the above displays (show crypto ipsec sa and show crypto ipsec sa detail).
show crypto ipsec sa vrf Command Output
The following is sample output from the show crypto ipsec sa vrf command:
Router# show crypto ipsec sa vrf vpn2
interface: Ethernet1/2
Crypto map tag: ra, local addr. 172.16.1.1
protected vrf: vpn2
local ident (addr/mask/prot/port): (0.0.0.0/0.0.0.0/0/0)
remote ident (addr/mask/prot/port): (10.4.1.4/255.255.255.255/0/0)
current_peer: 10.1.1.1:500
PERMIT, flags={}
#pkts encaps: 0, #pkts encrypt: 0, #pkts digest 0
#pkts decaps: 0, #pkts decrypt: 0, #pkts verify 0
#pkts compressed: 0, #pkts decompressed: 0
#pkts not compressed: 0, #pkts compr. failed: 0
#pkts not decompressed: 0, #pkts decompress failed: 0
#send errors 0, #recv errors 0
local crypto endpt.: 172.16.1.1, remote crypto endpt.: 10.1.1.1
path mtu 1500, media mtu 1500
current outbound spi: 50110CF8
inbound esp sas:
spi: 0xA3E24AFD(2749516541)
transform: esp-3des esp-md5-hmac ,
in use settings ={Tunnel, }
slot: 0, conn id: 5127, flow_id: 7, crypto map: ra
sa timing: remaining key lifetime (k/sec): (4603517/3503)
IV size: 8 bytes
replay detection support: Y
inbound ah sas:
inbound pcp sas:
outbound esp sas:
spi: 0x50110CF8(1343294712)
transform: esp-3des esp-md5-hmac ,
in use settings ={Tunnel, }
slot: 0, conn id: 5128, flow_id: 8, crypto map: ra
sa timing: remaining key lifetime (k/sec): (4603517/3502)
IV size: 8 bytes
replay detection support: Y
outbound ah sas:
outbound pcp sas:
The following configuration was in effect when the preceding show crypto ipsec sa vrf command was issued. The IPsec remote access tunnel was "UP" when this command was issued.
crypto dynamic-map vpn1 1
set transform-set vpn1
set isakmp-profile vpn1-ra
reverse-route
!
crypto dynamic-map vpn2 1
set transform-set vpn2
set isakmp-profile vpn2-ra
reverse-route
!
!
crypto map ra 1 ipsec-isakmp dynamic vpn1
crypto map ra 2 ipsec-isakmp dynamic vpn2
Table 164 describes the significant fields shown in the preceding show crypto ipsec sa vrf display. Additional fields are self-explanatory or can be found in Table 164.
IPsec and IKE Stateful Failover Examples
The following sample output shows the IPsec SA status of only the active device:
Router# show crypto ipsec sa active
interface: Ethernet0/0
Crypto map tag: to-peer-outside, local addr 10.165.201.3
protected vrf: (none)
local ident (addr/mask/prot/port): (192.168.0.1/255.255.255.255/0/0)
remote ident (addr/mask/prot/port): (172.16.0.1/255.255.255.255/0/0)
current_peer 209.165.200.225 port 500
PERMIT, flags={origin_is_acl,}
#pkts encaps: 3, #pkts encrypt: 3, #pkts digest: 3
#pkts decaps: 4, #pkts decrypt: 4, #pkts verify: 4
#pkts compressed: 0, #pkts decompressed: 0
#pkts not compressed: 0, #pkts compr. failed: 0
#pkts not decompressed: 0, #pkts decompress failed: 0
#send errors 0, #recv errors 0
local crypto endpt.: 209.165.201.3, remote crypto endpt.: 209.165.200.225
path mtu 1500, media mtu 1500
current outbound spi: 0xD42904F0(3559458032)
inbound esp sas:
spi: 0xD3E9ABD0(3555306448)
transform: esp-3des ,
in use settings ={Tunnel, }
conn id: 2006, flow_id: 6, crypto map: to-peer-outside
sa timing: remaining key lifetime (k/sec): (4586265/3542)
HA last key lifetime sent(k): (4586267)
ike_cookies: 9263635C CA4B4E99 C14E908E 8EE2D79C
IV size: 8 bytes
replay detection support: Y
Status: ACTIVE
Table 165 describes the significant fields shown in the preceding show crypto ipsec sa active display. Additional fields are self-explanatory or can be found in Table 165 or Table 164.
|
|
|
|---|---|
HA last key lifetime sent (k) |
Last stored kilobytes lifetime value for HA. |
ike_cookies |
ID that identifies the IKE SAs. |
The following sample output shows the IPsec SA status of only the standby device. The fields in the display are either self-explanatory or can be found in Table 163, Table 164, or Table 165.
Router# show crypto ipsec sa standby
interface: Ethernet0/0
Crypto map tag: to-peer-outside, local addr 10.165.201.3
protected vrf: (none)
local ident (addr/mask/prot/port): (192.168.0.1/255.255.255.255/0/0)
remote ident (addr/mask/prot/port): (172.16.0.1/255.255.255.255/0/0)
current_peer 209.165.200.225 port 500
PERMIT, flags={origin_is_acl,}
#pkts encaps: 0, #pkts encrypt: 0, #pkts digest: 0
#pkts decaps: 0, #pkts decrypt: 0, #pkts verify: 0
#pkts compressed: 0, #pkts decompressed: 0
#pkts not compressed: 0, #pkts compr. failed: 0
#pkts not decompressed: 0, #pkts decompress failed: 0
#send errors 0, #recv errors 0
local crypto endpt.: 209.165.201.3, remote crypto endpt.: 209.165.200.225
path mtu 1500, media mtu 1500
current outbound spi: 0xD42904F0(3559458032)
inbound esp sas:
spi: 0xD3E9ABD0(3555306448)
transform: esp-3des ,
in use settings ={Tunnel, }
conn id: 2012, flow_id: 12, crypto map: to-peer-outside
sa timing: remaining key lifetime (k/sec): (4441561/3486)
HA last key lifetime sent(k): (4441561)
ike_cookies: 00000000 00000000 00000000 00000000
IV size: 8 bytes
replay detection support: Y
Status: STANDBY
inbound ah sas:
spi: 0xF3EE3620(4092474912)
transform: ah-md5-hmac ,
in use settings ={Tunnel, }
conn id: 2012, flow_id: 12, crypto map: to-peer-outside
sa timing: remaining key lifetime (k/sec): (4441561/3486)
HA last key lifetime sent(k): (4441561)
ike_cookies: 00000000 00000000 00000000 00000000
replay detection support: Y
Status: STANDBY
inbound pcp sas:
outbound esp sas:
spi: 0xD42904F0(3559458032)
transform: esp-3des ,
in use settings ={Tunnel, }
conn id: 2011, flow_id: 11, crypto map: to-peer-outside
sa timing: remaining key lifetime (k/sec): (4441561/3485)
HA last key lifetime sent(k): (4441561)
ike_cookies: 00000000 00000000 00000000 00000000
IV size: 8 bytes
replay detection support: Y
Status: STANDBY
outbound ah sas:
spi: 0x75251086(1965363334)
transform: ah-md5-hmac ,
in use settings ={Tunnel, }
conn id: 2011, flow_id: 11, crypto map: to-peer-outside
sa timing: remaining key lifetime (k/sec): (4441561/3485)
HA last key lifetime sent(k): (4441561)
ike_cookies: 00000000 00000000 00000000 00000000
replay detection support: Y
Status: STANDBY
outbound pcp sas:
Related Commands
|
|
|
|---|---|
crypto ipsec security-association |
Configures the IPSec security associations. |
show crypto isakmp key
To list the keyrings and their preshared keys, use the show crypto isakmp key command in privileged EXEC mode.
show crypto isakmp key
Syntax Description
This command has no arguments or keywords.
Command Modes
Privileged EXEC
Command History
Examples
The following is sample output for the show crypto isakmp key command:
Router# show crypto isakmp key
Hostname/Address Preshared Key
vpn1 : 172.61.1.1 vpn1
vpn2 : 10.1.1.1 vpn2
The following configuration was in effect when the above show crypto isakmp key command was issued:
crypto keyring vpn1
pre-shared-key address 172.16.1.1 key vpn1
crypto keyring vpn2
pre-shared-key address 10.1.1.1 key vpn2
Table 166 describes significant fields in the show crypto isakmp key profile.
show crypto isakmp peers
To display the Internet Security Association and Key Management Protocol (ISAKMP) peer descriptions, use the show crypto isakmp peers command in privileged EXEC mode.
show crypto isakmp peers [ipaddress | ipv6address | config [peername]]
Syntax Description
Command Modes
Privileged EXEC (#)
Command History
Usage Guidelines
Before you can use the config keyword, the following commands must be enabled for the accounting update to work correctly: aaa accounting update with new info keyword and radius-server vsa send with accounting keyword.
Examples
The following output example shows information about the peer named "This-is-another-peer-at-10-1-1-3":
Router# show crypto isakmp peers
Peer: 10.1.1.3 Port: 500
Description: This-is-another-peer-at-10-1-1-3
Phase1 id: 10.1.1.3
In the following example, the config keyword is used to display all manageability information for an Easy VPN remote device. Cisco Easy VPN is an IP Security (IPsec) virtual private network (VPN) solution supported by Cisco routers and security appliances. It greatly simplifies VPN deployment for remote offices and mobile workers. The fields are self-explanatory.
Router# show crypto isakmp peers config
Client-Public-Addr=192.168.10.2:500; Client-Assigned-Addr=172.16.1.209; Client-Group=branch; Client-User=branch; Client-Hostname=branch.; Client-Platform=Cisco 1711; Client-Serial=FOC080210E2 (412454448); Client-Config-Version=11; Client-Flash=33292284; Client-Available-Flash=10202680; Client-Memory=95969280; Client-Free-Memory=14992140; Client-Image=flash:c1700-advipservicesk9-mz.ef90241;
Client-Public-Addr=192.168.10.3:500; Client-Assigned-Addr=172.16.1.121; Client-Group=store; Client-User=store; Client-Hostname=831-storerouter.; Client-Platform=Cisco C831; Client-Serial=FOC08472UXR (1908379618); Client-Config-Version=2; Client-Flash=24903676; Client-Available-Flash=5875028; Client-Memory=45298688; Client-Free-Memory=6295596; Client-Image=flash:c831-k9o3y6-mz.ef90241
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