- Introduction
- cef table consistency-check through clear pxf
- ip cache-invalidate-delay through monitor event-trace cef ipv6 (global)
- show adjacency through show ip cef with source
- show ip mds forwarding through show monitor event-trace merged-list
- show pxf accounting through test cef table consistency
- show ip mds forwarding
- show ip mds interface
- show ip mds stats
- show ip mds summary
- show ip traffic
- show ipv6 cef with epoch
- show ipv6 cef with source
- show mls cef
- show mls cef adjacency
- show mls cef exact-route
- show mls cef exception
- show mls cef hardware
- show mls cef inconsistency
- show mls cef ip
- show mls cef ip multicast
- show mls cef ipv6
- show mls cef ipx
- show mls cef logging
- show mls cef lookup
- show mls cef mac
- show mls cef maximum-routes
- show mls cef mpls
- show mls cef rpf
- show mls cef statistics
- show mls cef summary
- show mls cef vrf
- show mls ip cef rpf-table
- show mls ip non-static
- show mls ip routes
- show mls ip static
- show mls ip statistics
- show mls table-contention
- show monitor event-trace
- show monitor event-trace adjacency
- show monitor event-trace cef
- show monitor event-trace cef events
- show monitor event-trace cef interface
- show monitor event-trace cef ipv4
- show monitor event-trace cef ipv6
- show monitor event-trace continuous
- show monitor event-trace cpu-report
- show monitor event-trace hw-api
- show monitor event-trace merged-list
show ip mds forwarding
To display the Multicast Forwarding Information Base (MFIB) table and forwarding information for multicast distributed switching (MDS) on a line card, use the show ip mds forwarding command in user EXEC or privileged EXEC mode.
show ip mds forwarding [group-address] [source-address]
Syntax Description
Command Modes
User EXEC (>)
Privileged EXEC (#)
Command History
Usage Guidelines
Use this command on the line card. This command displays the MFIB table, forwarding information, and related flags and counts.
Note 
To reach the console for a line card, enter attach slot# (slot number where the line card resides).
On a Gigabit Switched Router (GSR) only, line card commands can be executed from the Route Processor (RP) using the following syntax: execute [slot slot-number | all] command.
The command argument is any of the line card show commands, such as show ip mds summary and show ip mds forward.
Examples
The following is sample output from the show ip mds forwarding command:
Router# show ip mds forwarding
IP multicast MDFS forwarding information and statistics:
Flags: N - Not MDFS switchable, F - Not all MDFS switchable, O - OIF Null
R - In-ratelimit, A - In-access, M - MTU mismatch, P - Register set
Interface state: Interface, Next-Hop, Mac header
(*, 224.2.170.73),
Incoming interface: Null
Pkts: 0, last used: never, Kbps: 0, fast-flags: N
Outgoing interface list: Null
(172.17.62.86, 224.2.170.73) [31]
Incoming interface: Fddi3/0/0
Pkts: 3034, last used: 00:00:00, Kbps: 0, fast-flags: M
Outgoing interface list:
Table 54 describes the significant fields shown in the display.
show ip mds interface
To display Multicast Distributed Switching (MDS) information for all the interfaces on the line card, use the show ip mds interface command in user EXEC or privileged EXEC mode.
show ip mds interface [vrf vrf-name]
Syntax Description
vrf |
(Optional) Supports the Multicast Virtual Private Network (VPN) routing and forwarding instance (VRF). |
vrf-name |
(Optional) Name assigned to the VRF. |
Command Modes
User EXEC (>)
Privileged EXEC (#)
Command History
Examples
The following is sample output from the show ip mds interface command:
Router# show ip mds interface
Interface SW-Index HW-Index HW IDB FS Vector VRF
Ethernet1/0/0 2 1 0x60C2DB40 0x602FB7A4 default
Ethernet1/0/1 3 2 0x60C32280 0x603D52B8 default
Ethernet1/0/2 4 3 0x60C35E40 0x602FB7A4 default
Ethernet1/0/3 5 4 0x60C39E60 0x603D52B8 default
Ethernet1/0/4 6 5 0x60C3D780 0x602FB7A4 default
Ethernet1/0/5 7 6 0x60C41140 0x602FB7A4 default
Ethernet1/0/6 8 7 0x60C453A0 0x602FB7A4 default
Ethernet1/0/7 9 8 0x60C48DC0 0x602FB7A4 default
POS2/0/0 10 9 0x0 default
POS3/0/0 11 10 0x0 default
Virtual-Access1 13 11 0x0 default
Loopback0 14 12 0x0 default
Tunnel0 15 23 0x61C2E480 0x603D52B8 vrf1
Tunnel1 16 24 0x61C267E0 0x603D52B8 vrf2
Ethernet1/0/3.1 17 4 0x60C39E60 0x603D52B8 vrf1
Ethernet1/0/3.2 18 4 0x60C39E60 0x603D52B8 vrf2
Table 55 describes the significant fields shown in the display.
show ip mds stats
To display multicast distributed switching (MDS) statistics, use the show ip mds stats command in user EXEC or privileged EXEC mode.
show ip mds stats {switching | linecard | ipc-msg}
Syntax Description
switching |
Displays switching statistics. |
linecard |
Displays line card statistics. |
ipc-msg |
Displays Interprocess Communication (IPC) message statistics. |
Command Modes
User EXEC (>)
Privileged EXEC (#)
Command History
Usage Guidelines
The switching and linecard keywords are available only on the Route Processor (RP). The ipc-msg keyword is available on both the RP and line card (LC).
Examples
The following is sample output from the show ip mds stats command with the switching keyword:
Router# show ip mds stats switching
Slot Total Switched Drops RPF Punts Failures
(switch/clone)
1 0 0 0 0 4 0/0
3 20260925 18014717 253 93 2247454 1/0
Table 56 describes the fields in the display.
The following is sample output from the show ip mds stats command with the linecard keyword:
Router# show ip mds stats linecard
Slot Status IPC(seq/max) Q(high/route) Reloads
1 active 10560/10596 0/0 9
3 active 11055/11091 0/0 9
Table 57 describes the fields in the display.
The following is sample output from a line card using the show ip mds stats command with the ipc-msg keyword:
Router# show ip mds stats ipc-msg
MDFS IPC stats information
==========================
MDFS Reload stats
-----------------
Full reload request: 1 Partial reload request: 0
LC disable request : 0
MDFS ipc messages sent
----------------------
line card stats : 494394 mdb stats : 38421
hwidb stats : 4775 swidb stats : 4805
flow control msg : 6981 clear mroute msg : 0
MDFS alert messages received
----------------------------
mdfs enable alert : 306 table2 size alert : 0
clear all alert : 206 clear stats alert : 0
spd alert : 714 svd alert : 303
route limit alert : 4 source limit alert : 5
punt limit alert : 707
MDFS ipc messages received
--------------------------
gdb msg : 431 mdb msg : 11866 midb msg : 749592
hwidb msg: 4915 oir hwidb msg: 51 hwidb erase msg : 51
swidb msg: 5456 oir swidb msg: 51 swidb erase msg : 51
mdt msg : 263 rpdf msg : 0 fwd table erase msg: 0
mdt mgid ext slotmask msg: 6 mvrf ext slotmask msg: 719
Table 58 describes the fields in the display.
show ip mds summary
To display a summary of the Multicast Forwading Information Base (MFIB) table for multicast distributed switching (MDS), use the show ip mds summary command in user EXEC or privileged EXEC mode.
show ip mds summary
Syntax Description
This command has no arguments or keywords.
Command Modes
User EXEC (>)
Privileged EXEC (#)
Command History
Usage Guidelines
Use this command on a line card. On a Gigabit Switched Router (GSR) only, line card commands can be executed from the Route Pricessor (RP) using the following syntax:
execute [slot slot-number | all] command
The command argument is any of the line card show commands, such as show ip mds summary or show ip mds forward.
Examples
The following is sample output from the show ip mds summary command:
Router# show ip mds summary
IP multicast MDFS forwarding information and statistics:
Flags: N - Not MDFS switchable, F - Not all MDFS switchable, O - OIF Null
R - In-ratelimit, A - In-access, M - MTU mismatch, P - Register set
Interface state: Interface, Next-Hop, Mac header
(*, 224.2.170.73),
Incoming interface: Null
Pkts: 0, last used: never, Kbps: 0, fast-flags: N
(172.17.62.86, 224.2.170.73) [31]
Incoming interface: Fddi3/0/0
Pkts: 3045, last used: 00:00:03, Kbps: 0, fast-flags: M
(172.22.3.7, 224.2.170.73) [334]
Incoming interface: Fddi3/0/0
Pkts: 0, last used: never, Kbps: 0, fast-flags: M
Table 59 describes the significant fields in the display.
show ip traffic
To display the global or system-wide IP traffic statistics for one or more interfaces, use the show ip traffic command in user EXEC or privileged EXEC mode.
show ip traffic [interface type number]
Syntax Description
interface type number |
(Optional) Displays the global or system-wide IP traffic statistics for a specific interface. If the interface keyword is used, the type and number arguments are required. |
Command Default
Using the show ip traffic command with no keywords or arguments displays the global or system-wide IP traffic statistics for all interfaces.
Command Modes
User EXEC (>)
Privileged EXEC (#)
Command History
Usage Guidelines
Using the show ip traffic command with the optional interface keyword displays the ipIfStatsTable counters for the specified interface if IPv4 addressing is enabled.
Examples
The following is sample output from the show ip traffic command:
Router# show ip traffic
IP statistics:
Rcvd: 27 total, 27 local destination
0 format errors, 0 checksum errors, 0 bad hop count
0 unknown protocol, 0 not a gateway
0 security failures, 0 bad options, 0 with options
Opts: 0 end, 0 nop, 0 basic security, 0 loose source route
0 timestamp, 0 extended security, 0 record route
0 stream ID, 0 strict source route, 0 alert, 0 cipso, 0 ump
0 other
Frags: 0 reassembled, 0 timeouts, 0 couldn't reassemble
0 fragmented, 0 couldn't fragment
Bcast: 27 received, 0 sent
Mcast: 0 received, 0 sent
Sent: 0 generated, 0 forwarded
Drop: 0 encapsulation failed, 0 unresolved, 0 no adjacency
0 no route, 0 unicast RPF, 0 forced drop
Drop: 0 packets with source IP address zero
ICMP statistics:
Rcvd: 0 format errors, 0 checksum errors, 0 redirects, 0 unreachable
0 echo, 0 echo reply, 0 mask requests, 0 mask replies, 0 quench
0 parameter, 0 timestamp, 0 info request, 0 other
0 irdp solicitations, 0 irdp advertisements
0 time exceeded, 0 timestamp replies, 0 info replies
Sent: 0 redirects, 0 unreachable, 0 echo, 0 echo reply
0 mask requests, 0 mask replies, 0 quench, 0 timestamp
0 info reply, 0 time exceeded, 0 parameter problem
0 irdp solicitations, 0 irdp advertisements
BGP statistics:
Rcvd: 0 total, 0 opens, 0 notifications, 0 updates
0 keepalives, 0 route-refresh, 0 unrecognized
Sent: 0 total, 0 opens, 0 notifications, 0 updates
0 keepalives, 0 route-refresh
EIGRP-IPv4 statistics:
Rcvd: 0 total
Sent: 0 total
TCP statistics:
Rcvd: 0 total, 0 checksum errors, 0 no port
Sent: 0 total
PIMv2 statistics: Sent/Received
Total: 0/0, 0 checksum errors, 0 format errors
Registers: 0/0 (0 non-rp, 0 non-sm-group), Register Stops: 0/0, Hellos: 0/0
Join/Prunes: 0/0, Asserts: 0/0, grafts: 0/0
Bootstraps: 0/0, Candidate_RP_Advertisements: 0/0
State-Refresh: 0/0
IGMP statistics: Sent/Received
Total: 0/0, Format errors: 0/0, Checksum errors: 0/0
Host Queries: 0/0, Host Reports: 0/0, Host Leaves: 0/0
DVMRP: 0/0, PIM: 0/0
UDP statistics:
Rcvd: 185515 total, 0 checksum errors, 185515 no port
Sent: 0 total, 0 forwarded broadcasts
OSPF statistics:
Rcvd: 0 total, 0 checksum errors
0 hello, 0 database desc, 0 link state req
0 link state updates, 0 link state acks
Sent: 0 total
0 hello, 0 database desc, 0 link state req
0 link state updates, 0 link state acks
Probe statistics:
Rcvd: 0 address requests, 0 address replies
0 proxy name requests, 0 where-is requests, 0 other
Sent: 0 address requests, 0 address replies (0 proxy)
0 proxy name replies, 0 where-is replies
ARP statistics:
Rcvd: 1477 requests, 8841 replies, 396 reverse, 0 other
Sent: 1 requests, 20 replies (0 proxy), 0 reverse
Drop due to input queue full: 0
The following is sample output from the show ip traffic command for Ethernet interface 0/0:
Router# show ip traffic interface ethernet 0/0
Ethernet0/0 IP-IF statistics :
Rcvd: 99 total, 9900 total_bytes
0 format errors, 0 hop count exceeded
0 bad header, 0 no route
0 bad destination, 0 not a router
0 no protocol, 0 truncated
0 forwarded
0 fragments, 0 total reassembled
0 reassembly timeouts, 0 reassembly failures
0 discards, 99 delivers
Sent: 99 total, 9900 total_bytes 0 discards
99 generated, 0 forwarded
0 fragmented into, 0 fragments, 0 failed
Mcast: 0 received, 0 received bytes
0 sent, 0 sent bytes
Bcast: 0 received, 0 sent
Cisco 10000 Series Routers Example
The following is sample output from the show ip traffic command when used on a Cisco 10000 series router:
Router# show ip traffic
IP statistics:
Rcvd: 27 total, 27 local destination
0 format errors, 0 checksum errors, 0 bad hop count
0 unknown protocol, 0 not a gateway
0 security failures, 0 bad options, 0 with options
Opts: 0 end, 0 nop, 0 basic security, 0 loose source route
0 timestamp, 0 extended security, 0 record route
0 stream ID, 0 strict source route, 0 alert, 0 cipso, 0 ump
0 other
Frags: 0 reassembled, 0 timeouts, 0 couldn't reassemble
0 fragmented, 0 couldn't fragment
Bcast: 27 received, 0 sent
Mcast: 0 received, 0 sent
Sent: 0 generated, 0 forwarded
Drop: 0 encapsulation failed, 0 unresolved, 0 no adjacency
0 no route, 0 unicast RPF, 0 forced drop
0 options denied, 0 source IP address zero
Table 60 describes the significant fields shown in the display.
Related Commands
|
|
|
|---|---|
clear ip traffic |
Clears the global or system-wide IP traffic statistics for one or more interfaces. |
show ipv6 cef with epoch
To display Cisco Express Forwarding IPv6 Forwarding Information Base (FIB) information filtered for a specific epoch, use the show ipv6 cef with epoch command in privileged EXEC mode.
show ipv6 cef with epoch epoch-number [checksum | detail | internal [checksum] | platform [checksum | detail | internal [checksum]]]
Syntax Description
Command Modes
Privileged EXEC (#)
Command History
Usage Guidelines
Use this command to display information about prefix properties for a specified epoch in the Cisco Express Forwarding IPv6 FIB. This command is similar to the show ip cef with epoch command, except that it is IPv6 specific. Use the show ipv6 cef epoch command to display entries filtered by epoch number.
Examples
The following is sample output from the show ipv6 cef with epoch command:
Router# show ipv6 cef with epoch 0
::/0
no route
::/127
discard
2000::1/128
receive for Loopback0
2000::2/128
nexthop FE80::A8BB:CCFF:FE00:2500 Ethernet0/0
2000::3/128
nexthop FE80::A8BB:CCFF:FE00:2602 Ethernet2/0
2000::4/128
nexthop FE80::A8BB:CCFF:FE00:2602 Ethernet2/0
2001::/64
attached to Ethernet2/0
2001::1/128
receive for Ethernet2/0
2001::3/128
attached to Ethernet2/0
2001:1::/64
attached to Ethernet0/0
2001:1::1/128
receive for Ethernet0/0
2001:2::/64
nexthop FE80::A8BB:CCFF:FE00:2602 Ethernet2/0
2002::/64
attached to Tunnel0
2002::1/128
receive for Tunnel0
FE80::/10
receive for Null0
FF00::/8
receive for Null0
Table 61 describes significant fields shown in the display.
The following is sample output from the show ipv6 cef with epoch detail command:
Router# show ipv6 cef with epoch 0 detail
IPv6 CEF is enabled and running centrally.
VRF base:
16 prefixes (16/0 fwd/non-fwd)
Table id 0
Database epoch: 0 (16 entries at this epoch)
::/0, epoch 0, flags default route handler
no route
::/127, epoch 0, flags attached, discard
discard
2000::1/128, epoch 0, flags attached, connected, receive, local
receive for Loopback0
2000::2/128, epoch 0
nexthop FE80::A8BB:CCFF:FE00:2500 Ethernet0/0
2000::3/128, epoch 0, flags rib only nolabel, rib defined all labels
nexthop FE80::A8BB:CCFF:FE00:2602 Ethernet2/0
2000::4/128, epoch 0, flags rib only nolabel, rib defined all labels
nexthop FE80::A8BB:CCFF:FE00:2602 Ethernet2/0
2001::/64, epoch 0, flags attached, connected, cover dependents
Covered dependent prefixes: 1
notify cover updated: 1
attached to Ethernet2/0
2001::1/128, epoch 0, flags attached, receive, local
receive for Ethernet2/0
2001::3/128, epoch 0, flags attached
Adj source: IPV6 adj out of Ethernet2/0, addr 2001::3 02513FD8
Dependent covered prefix type adjfib cover 2001::/64
attached to Ethernet2/0
2001:1::/64, epoch 0, flags attached, connected
attached to Ethernet0/0
2001:1::1/128, epoch 0, flags attached, receive, local
receive for Ethernet0/0
2001:2::/64, epoch 0, flags rib only nolabel, rib defined all labels
nexthop FE80::A8BB:CCFF:FE00:2602 Ethernet2/0
2002::/64, epoch 0, flags attached, connected
attached to Tunnel0
2002::1/128, epoch 0, flags attached, receive, local
receive for Tunnel0
FE80::/10, epoch 0, flags attached, receive, local
receive for Null0
FF00::/8, epoch 0, flags attached, receive, local
receive for Null0
Table 62 describes significant fields shown in the display.
The following is sample output from the show ipv6 cef with epoch checksum command:
Router# show ipv6 cef with epoch 0 checksum
::/0
FIB checksum: 0x64E25610
::/127
FIB checksum: 0xE0B3DE11
2000::1/128
FIB checksum: 0xD04E36EC
2000::2/128
FIB checksum: 0x84892BA5
2000::3/128
FIB checksum: 0x912BA720
2000::4/128
FIB checksum: 0xC6D89ADA
.
.
.
Table 63 describes significant fields shown in the display.
Related Commands
show ipv6 cef with source
To display Cisco Express Forwarding IPv6 Forwarding Information Base (FIB) filtered for a specific source, use the show ipv6 cef with source command in privileged EXEC mode.
show ipv6 cef with source source-type [checksum | detail | epoch | internal [checksum] | platform [checksum | detail | internal [checksum]]]
Syntax Description
Command Modes
Privileged EXEC (#)
Command History
Usage Guidelines
Use this command to filter on prefixes in the Cisco Express Forwarding FIB that are added by a specified source.
Examples
Examples For All Supported Releases
The following is sample output from the show ipv6 cef with source rib command:
Router# show ipv6 cef with source rib
::/127
discard
2000::1/128
receive for Loopback0
2000::2/128
nexthop FE80::A8BB:CCFF:FE00:2500 Ethernet0/0
2000::3/128
nexthop FE80::A8BB:CCFF:FE00:2602 Ethernet2/0
2000::4/128
nexthop FE80::A8BB:CCFF:FE00:2602 Ethernet2/0
2001::/64
attached to Ethernet2/0
2001::1/128
receive for Ethernet2/0
2001:1::/64
attached to Ethernet0/0
2001:1::1/128
receive for Ethernet0/0
2001:2::/64
nexthop FE80::A8BB:CCFF:FE00:2602 Ethernet2/0
2002::/64
attached to Tunnel0
2002::1/128
receive for Tunnel0
FE80::/10
receive for Null0
FF00::/8
receive for Null0
Table 64 describes the significant fields shown in the display.
The following is sample output from the show ipv6 cef with source fib detail command:
Router# show ipv6 cef with source rib detail
IPv6 CEF is enabled and running centrally.
VRF base:
16 prefixes (16/0 fwd/non-fwd)
Table id 0
Database epoch: 0 (16 entries at this epoch)
::/127, epoch 0, flags attached, discard
discard
2000::1/128, epoch 0, flags attached, connected, receive, local
receive for Loopback0
2000::2/128, epoch 0
nexthop FE80::A8BB:CCFF:FE00:2500 Ethernet0/0
2000::3/128, epoch 0, flags rib only nolabel, rib defined all labels
nexthop FE80::A8BB:CCFF:FE00:2602 Ethernet2/0
2000::4/128, epoch 0, flags rib only nolabel, rib defined all labels
nexthop FE80::A8BB:CCFF:FE00:2602 Ethernet2/0
2001::/64, epoch 0, flags attached, connected, cover dependents
Covered dependent prefixes: 1
notify cover updated: 1
attached to Ethernet2/0
2001::1/128, epoch 0, flags attached, receive, local
receive for Ethernet2/0
2001:1::/64, epoch 0, flags attached, connected
attached to Ethernet0/0
2001:1::1/128, epoch 0, flags attached, receive, local
receive for Ethernet0/0
2001:2::/64, epoch 0, flags rib only nolabel, rib defined all labels
nexthop FE80::A8BB:CCFF:FE00:2602 Ethernet2/0
2002::/64, epoch 0, flags attached, connected
attached to Tunnel0
2002::1/128, epoch 0, flags attached, receive, local
receive for Tunnel0
FE80::/10, epoch 0, flags attached, receive, local
receive for Null0
FF00::/8, epoch 0, flags attached, receive, local
receive for Null0
Table 65 describes the significant fields shown in the display.
Examples for Cisco IOS Releases 12.2(25)S, 12.2(28)SB, 12.2(33)SRA, and Later SB and SR Releases
The following is sample output from the show ipv6 cef with source adjacency command:
Router# show ipv6 cef with source adjacency
2001::3/128
attached to Ethernet2/0
Table 66 describes the significant fields shown in the display.
The following is sample output from the show ipv6 cef with source adjacency detail command:
Router# show ipv6 cef with source adjacency detail
#
IPv6 CEF is enabled and running centrally.
VRF Default
16 prefixes (16/0 fwd/non-fwd)
Table id 0x1E000000
Database epoch: 0 (16 entries at this epoch)
2001::3/128, epoch 0, flags attached
Adj source: IPV6 adj out of Ethernet2/0, addr 2001::3 050878F0
Dependent covered prefix type adjfib cover 2001::/64
attached to Ethernet2/0
Table 67 describes the significant fields shown in the display.
The following is sample output from the show ipv6 cef with source adjacency checksum command:
Router# show ipv6 cef with source adjacency checksum
2001::3/128
FIB checksum: 0x4AE0F5DC
Table 68 describes the significant fields shown in the display.
|
|
|
|---|---|
2001::3/128 |
IPv6 prefix whose source is an adjacency. |
FIB checksum: 0x4AE0F5DC |
FIB checksum. |
Examples for Cisco IOS Releases 12.2(33)SXH, 12.4(20)T and Later SX and T Releases
The following is sample output from the show ipv6 cef with source adjacency command:
Router# show ipv6 cef with source adj
2001::3/128
attached to Ethernet2/0
Table 69 describes the significant fields shown in the display.
The following is sample output from the show ipv6 cef with source adj detail command:
Router# show ipv6 cef with source adj detail
IPv6 CEF is enabled and running centrally.
VRF base:
16 prefixes (16/0 fwd/non-fwd)
Table id 0
Database epoch: 0 (16 entries at this epoch)
2001::3/128, epoch 0, flags attached
Adj source: IPV6 adj out of Ethernet2/0, addr 2001::3 02513FD8
Dependent covered prefix type adjfib cover 2001::/64
attached to Ethernet2/0
Table 70 describes the significant fields shown in the display.
The following is sample output from the show ipv6 cef with source adj checksum command:
Router# show ipv6 cef with source adj checksum
2001::3/128
FIB checksum: 0x4AE0F5DC
Table 71 describes the significant fields shown in the display.
|
|
|
|---|---|
2001::3/128 |
IPv6 prefix whose source is an adjacency. |
FIB checksum: 0x4AE0F5DC |
FIB checksum. |
Related Commands
show mls cef
To display the Multilayer Switching (MLS)-hardware Layer 3-switching table entries, use the show mls cef command in user EXEC and privileged EXEC mode.
show mls cef [ip] [prefix [mask-length | load-info]] [detail] [module number]
show mls cef [ip] [{lookup ...} | {multicast ...} | {rpf ...} | {vpn ...} | {vrf ...}]
show mls cef [{adjacency ...} | {block block-number [entries}] | {config-register reg-address} | {diags [detail]} | {entry index [detail]} | {exact-route ...} | {hardware [module number]} | {inconsistency ...} | {lookup ...} | {masks [type] [module number]} | {rpf ...} | {statistics ...} | {summary [module number]} | {tunnel fragment} | {used-blocks [type] [module number]} | {vpn ...} | {vrf ...}]
show mls cef [{eom ...} | {ip ...} | {ipv6 ...} | {mpls ...}]
Syntax Description
ip |
(Optional) Displays IPv6 unicast entries in the MLS-hardware Layer 3-switching table; see the "Usage Guidelines" section for additional information. |
prefix |
(Optional) Entry prefix in the format A.B.C.D. |
mask-length |
(Optional) Mask length; valid values are from 0 to 32. |
load-info |
(Optional) Displays output with a hash value next to each adjacency. |
detail |
(Optional) Displays detailed hardware information. See the "Usage Guidelines" section for important information. |
module number |
(Optional) Displays information about the entries for a specific module. |
lookup ... |
(Optional) Displays IP entries in the MLS-hardware Layer 3-switching table for the specified destination IP address. See the show mls cef lookup command. |
multicast ... |
(Optional) Displays IP entries in the MLS-hardware Layer 3-switching table in the compact Cisco Express Forwarding table display format; see the show mls cef ip multicast command. |
rpf ... |
(Optional) Displays information about the Reverse Path Forwarding (RPF) hardware in the MLS-hardware Layer 3-switching table; see the show mls cef rpf command. |
vpn ... |
(Optional) Displays information about the Virtual Private Network (VPN) ID Cisco Express Forwarding table. See the "Usage Guidelines" section for important information. |
vrf ... |
(Optional) Displays information about the Cisco Express Forwarding table for the specified VRF name. |
adjacency ... |
(Optional) Displays information about the MLS-hardware Layer 3-switching adjacency node; see the show mls cef adjacency command. |
block block-number |
(Optional) Displays information about the mask-block utilization for a specific block; valid values are from 0 to 4294967295. See the "Usage Guidelines" section for important information. |
entries |
(Optional) Displays the mask-block utilization entries. See the "Usage Guidelines" section for important information. |
config-register reg-address |
(Optional) Displays information about the hardware configuration register for a specific register. See the "Usage Guidelines" section for important information. |
diags |
(Optional) Displays information about the diagnostic entry. See the "Usage Guidelines" section for important information. |
entry index |
(Optional) Specifies the specified prefix entry index to display; valid values are from 0 to 4294967295. See the "Usage Guidelines" section for important information. |
exact-route ... |
(Optional) Displays information about hardware load sharing; see the show mls cef exact-route command. |
hardware |
(Optional) Displays a summary of the hardware information. See the "Usage Guidelines" section for important information. |
inconsistency ... |
(Optional) Displays information about the consistency checker; see the show mls cef inconsistency command. |
masks ... |
(Optional) Displays information about the mask. See the "Usage Guidelines" section for important information. |
statistics ... |
(Optional) Displays the number of switched packets and bytes; see the show mls cef statistics command. |
tunnel fragment |
(Optional) Displays the operational status of tunnel fragmentation. |
summary ... |
(Optional) Displays a summary of rates in the hardware for each protocol; see the show mls cef summary command. |
used-blocks |
(Optional) Displays a list of used blocks; see the "Usage Guidelines" section for important information. |
eom ... |
Displays information about the EoM protocol; this keyword is not supported. |
ip ... |
Displays information about the IP protocol; see the "Usage Guidelines" section for additional information. |
ipv6 ... |
Displays information about the IPv6 protocol. |
mpls ... |
Displays information about the MPLS protocol; see the show mls cef mpls command. |
Command Default
If you do not specify a protocol, the default display is for IP and the global Cisco Express Forwarding table.
Command Modes
User EXEC (>)
Privileged EXEC (#)
Command History
Usage Guidelines
The ... indicates that there is additional information.
The following options are for expert users only and are not documented:
•load-info
•detail
•block block-number [entries]
•config-register reg-address}
•diags [detail]
•entry index [detail]
•hardware [module number]
•masks [type]
•used-blocks [type]
•vpn
The MLS-hardware Layer 3 switching applies to IP traffic only.
Use the show mls cef [ip] vrf command to display the VRF Cisco Express Forwarding table entries.
You can enter this command on the supervisor engine or switch consoles. Enter the remote login command to session into the supervisor engine to enter the commands.
The show mls cef command offers three levels of options as follows:
•Protocol-independent options—The following keywords are not protocol specific:
–adjacency
–exact-route
–inconsistency
–module
–rpf
–statistics
–summary
–used-blocks
–vpn
–vrf
•Protocol-dependent keywords—The following keywords specify a protocol:
–eom
–ip
–ipv6
–mpls
•Default keywords—The following keywords display identical output for both the show mls cef and show mls cef ip commands:
– prefix
–lookup
–multicast—This keyword is not supported on systems configured with a Supervisor Engine 720.
–module
–rpf
–vpn
–vrf
Examples
This example shows how the show mls cef and show mls cef ip commands are identical:
Router# show mls cef
Codes: decap - Decapsulation, + - Push Label
Index Prefix Adjacency
66 127.0.0.1/32 punt
67 10.1.1.100/32 punt
68 10.1.1.0/32 punt
69 10.1.1.255/32 punt
70 10.2.2.100/32 punt
71 10.2.2.0/32 punt
72 10.2.2.255/32 punt
73 10.2.2.5/32 Gi5/2, 0000.c005.0205
74 0.0.0.0/32 punt
75 10.255.255.255/32 punt
76 172.16.22.22/32 punt
77 172.20.0.0/32 punt
78 173.32.255.255/32 punt
79 172.16.1.153/32 Vl30, 0050.808b.8200
81 172.16.1.91/32 Vl30, 0004.4eef.8800
82 172.16.1.100/32 Vl30, 00d0.bb02.0400
83 172.17.223.3/32 Vl30, 00d0.061b.7000
84 172.22.5.3/32 Vl30, 00d0.061d.200a
85 172.16.1.101/32 Vl30, 0007.ecfc.e40a
86 172.20.100.1/32 Vl30, 0050.2a8d.700a
87 172.16.1.104/32 Vl30, 0050.0f2d.ac00
88 172.32.254.226/32 Vl30, 0050.2a8d.700a
89 10.2.2.7/32 Gi5/2, 0000.c005.0207
90 10.1.1.5/32 Gi5/1, 0000.0101.0105
3200 224.0.0.0/8 punt
3201 10.1.1.0/24 punt
3202 10.2.2.0/24 punt
134400 172,20.0.0/8 punt
134432 0.0.0.0/0 drop
524256 0.0.0.0/0 drop
Router#
This example shows how to display all the MLS-hardware Layer 3-switching table IP entries:
Router# show mls cef ip
Codes: decap - Decapsulation, + - Push Label
Index Prefix Adjacency
66 127.0.0.1/32 punt
67 10.1.1.100/32 punt
68 10.1.1.0/32 punt
69 10.1.1.255/32 punt
70 10.2.2.100/32 punt
71 10.2.2.0/32 punt
72 10.2.2.255/32 punt
73 10.2.2.5/32 Gi5/2, 0000.c005.0205
74 0.0.0.0/32 punt
75 10.255.255.255/32 punt
76 172.16.22.22/32 punt
77 172.20.0.0/32 punt
78 173.32.255.255/32 punt
79 172.16.1.153/32 Vl30, 0050.808b.8200
81 172.16.1.91/32 Vl30, 0004.4eef.8800
82 172.16.1.100/32 Vl30, 00d0.bb02.0400
83 172.17.223.3/32 Vl30, 00d0.061b.7000
84 172.22.5.3/32 Vl30, 00d0.061d.200a
85 172.16.1.101/32 Vl30, 0007.ecfc.e40a
86 172.20.100.1/32 Vl30, 0050.2a8d.700a
87 172.16.1.104/32 Vl30, 0050.0f2d.ac00
88 172.32.254.226/32 Vl30, 0050.2a8d.700a
89 10.2.2.7/32 Gi5/2, 0000.c005.0207
90 10.1.1.5/32 Gi5/1, 0000.0101.0105
3200 224.0.0.0/8 punt
3201 10.1.1.0/24 punt
3202 10.2.2.0/24 punt
134400 172,20.0.0/8 punt
134432 0.0.0.0/0 drop
524256 0.0.0.0/0 drop
Router#
Table 72 describes the fields in the examples.
This example shows how to display the operational status of tunnel fragmentation:
Router# show mls cef tunnel fragment
Tunnel Fragmentation: Enabled
Router#
Related Commands
|
|
|
|---|---|
show mls cef summary |
Displays the number of routes in the MLS-hardware Layer 3-switching table for all the protocols. |
show mls cef adjacency
To display information about the Multilayer Switching (MLS)-hardware Layer 3-switching adjacency node, use the show mls cef adjacency command in user EXEC or privileged EXEC mode.
show mls cef adjacency [all | decap-tunnel | {encap-tunnel ip-src-addr} | {entry index [to end-range]} | {flags lower-flag upper-flag} | mac-address number | mac-rewrite | macv4 | {mpls [label]} | multicast | nat | recirculation | special | tcp | usage] [detail] [module number]
Syntax Description
Command Modes
User EXEC (>)
Privileged EXEC (#)
Command History
Usage Guidelines
The decap-tunnel and endcap-tunnel keywords are used to display the tunnel nodes. The encapsulator node is considered the tunnel-entry point and the decapsulator node is considered the tunnel-exit point. There may be multiple source-destination pairs using the same tunnel between the encapsulator and decapsulator.
The decap-tunnel and endcap-tunnel keywords are not supported on Cisco 7600 series routers that are configured with a Supervisor Engine 720.
The flags keyword applies to all adjacency formats (for example, mac-rewrite, mpls, and multicast) and indicates the bits that are set in the adjacency for the specific adjacency.
The module number keyword and argument designate the module and port number. Valid values depend on the chassis and module used. For example, if you have a 48-port 10/100BASE-T Ethernet module installed in a 13-slot chassis, valid values for the module number are from 1 to 13 and valid values for the port number are from 1 to 48.
MLS-hardware Layer 3 switching applies to IP traffic only.
MLS-hardware Layer 3-switching adjacency statistics are updated every 60 seconds.
You can display hardware-switched IP-directed broadcast information by entering the show mls cef adjacency mac-address number detail command.
For each MLS-hardware Layer 3-switching Forwarding Information Base (FIB) entry, MLS-hardware Layer 3 switching stores Layer 2 information from the MSFC2 for adjacent nodes in the MLS-hardware Layer 3-switching adjacency table. Adjacent nodes are directly connected at Layer 2. To forward traffic, MLS-hardware Layer 3 switching selects a route from a MLS-hardware Layer 3-switching FIB entry, which points to a MLS-hardware Layer 3-switching adjacency entry, and uses the Layer 2 header for the adjacent node in the adjacency table entry to rewrite the packet during Layer 3 switching. MLS-hardware Layer 3 switching supports one million adjacency-table entries.
Examples
Supervisor Engine 720 Examples
These examples show the output from Cisco 7600 series routers that are configured with a Supervisor Engine 720.
This example shows how to display information for all adjacency nodes:
Router# show mls cef adjacency all
Index: 5 smac: 0000.0000.0000, dmac: 0000.0000.0000
mtu: 0, vlan: 0, dindex: 0x0, l3rw_vld: 0
packets: 0, bytes: 0
Index: 32773 smac: 0000.0000.0000, dmac: 0000.0000.0000
mtu: 0, vlan: 0, dindex: 0x0, l3rw_vld: 0
packets: 0, bytes: 0
<Output is truncated>
This example shows how to display the adjacency-entry information for a specific index:
Router# show mls cef adjacency entry 132
Index: 132 smac: 0000.0000.0000, dmac: 0000.0000.0000
mtu: 0, vlan: 0, dindex: 0x0, l3rw_vld: 0
packets: 0, bytes: 0
This example shows how to display the adjacency-entry information for a range of indexes:
Router# show mls cef adjacency entry 132 to 134
Index: 132 smac: 0000.0000.0000, dmac: 0000.0000.0000
mtu: 0, vlan: 0, dindex: 0x0, l3rw_vld: 0
packets: 0, bytes: 0
Index: 133 smac: 0000.0000.0000, dmac: 0000.0000.0000
mtu: 0, vlan: 0, dindex: 0x0, l3rw_vld: 0
packets: 0, bytes: 0
Index: 134 smac: 0000.0000.0000, dmac: 0000.0000.0000
mtu: 0, vlan: 0, dindex: 0x0, l3rw_vld: 0
packets: 0, bytes: 0
Router#
This example shows how to display recirculation-adjacency information:
Router# show mls cef adjacency recirculation detail
Index: 6 smac: 0000.0000.0000, dmac: 0000.0000.0000
mtu: 65535, vlan: 0, dindex: 0x0, ccc = 110,
format: RECIR, l3rw_vld: 1
Router#
This example shows how to display specific bit flags:
Router# show mls cef adjacency flags 8408 0
STAT_REQUIRED NO_STAT CAP1 IQO UTTL UTOS
Router#
This example shows how to display adjacency-node information for a specific MAC address:
Router# show mls cef adjacency mac-address 00e0.f74c.842d
Index: 133138 smac: 00d0.061d.200a, dmac: 00e0.f74c.842d
mtu: 1518, vlan: 45, dindex: 0x0, l3rw_vld: 1
packets: 0, bytes: 0
Index: 133144 smac: 00d0.061d.200a, dmac: 00e0.f74c.842d
mtu: 1518, vlan: 45, dindex: 0x0, l3rw_vld: 1
packets: 0, bytes: 0
Router#
This example shows how to display the MAC-rewrite adjacency information:
Router# show mls cef adjacency mac-rewrite
Index: 133132 smac: 0000.0000.0000, dmac: 0000.0000.0000
mtu: 0, vlan: 0, dindex: 0x0, l3rw_vld: 0
packets: 0, bytes: 0
Index: 133133 smac: 000a.421f.3000, dmac: 0050.2a8d.700a
mtu: 1518, vlan: 1, dindex: 0x0, l3rw_vld: 1
packets: 0, bytes: 0
Index: 133134 smac: 000a.421f.3000, dmac: 0000.7201.0001
mtu: 1518, vlan: 72, dindex: 0x0, l3rw_vld: 1
packets: 0, bytes: 0
Index: 133135 smac: 000a.421f.3000, dmac: 0000.7301.0001
mtu: 1518, vlan: 73, dindex: 0x0, l3rw_vld: 1
packets: 0, bytes: 0
<Output is truncated>
This example shows how to display information about the MPLS adjacency:
Router# show mls cef adjacency mpls detail
Index: 32768 smac: 0000.0000.0000, dmac: 0000.0000.0000
mtu: 1514, vlan: 0, dindex: 0x7FFA, l3rw_vld: 1
format: MPLS, flags: 0x1000408600
label0: 0, exp: 0, ovr: 0
label1: 0, exp: 0, ovr: 0
label2: 0, exp: 0, ovr: 0
op: POP
packets: 0, bytes: 0
Router#
This example shows how to display information about the multicast adjacency:
Router# show mls cef adjacency multicast detail
Index: 22 smac: 0000.0000.0000, dmac: 0000.0000.0000
mtu: 0, vlan: 0, dindex: 0x0, l3rw_vld: 0
format: MULTICAST, flags: 0x800
met2: 0, met3: 0
packets: 2232, bytes: 180684
Router#
This example shows how to display information about the NAT adjacency:
Router# show mls cef adjacency nat detail
Index: 200 mtu: 1522, vlan: 1063, dindex: 0x7FFA, l3rw_vld: 1
format: NAT, flags: 0x8600
ip_sa: 10.2.2.2, src_port: 100
ip_da: 10.3.3.3, dst_port: 300
delta_seq: 0, delta_ack: 0
packets: 0, bytes: 0
Router#
This example shows how to display information about the special adjacency:
Router# show mls cef adjacency special
Index: 0 smac: 0000.0000.0000, dmac: 0000.0000.0000
mtu: 9234, vlan: 0, dindex: 0x0, l3rw_vld: 0
format: MULTICAST, flags: 0x800 (mcast_fib_fail)
met2: 0, met3: 0
packets: 0, bytes: 0
Index: 1 smac: 0000.0000.0000, dmac: 0000.0000.0000
mtu: 9234, vlan: 0, dindex: 0x0, l3rw_vld: 0
format: MULTICAST, flags: 0x800 (mcast_fib_rf_cr)
met2: 0, met3: 0
packets: 0, bytes: 0
<Output is truncated>
This example shows how to display information about the TCP adjacency:
Router# show mls cef adjacency tcp detail
Index: 200 smac: abcd.abcd.abcd, dmac: 0000.1000.2000
mtu: 1518, vlan: 1063, dindex: 0x0, l3rw_vld: 1
format: MAC_TCP, flags: 0x8408
delta_seq: 10, delta_ack: 0
packets: 0, bytes: 0
Router#
This example shows how to display information about the adjacency usage:
Router# show mls cef adjacency usage
Adjacency Table Size: 1048576
ACL region usage: 2
Non-stats region usage: 128
Stats region usage: 31
Total adjacency usage: 161
Router#
Supervisor Engine 2 Examples
These examples show the output from Cisco 7600 series routers that are configured with a Supervisor Engine 2.
This example shows how to display information for all adjacency nodes:
Router# show mls cef adjacency
Index 17414 : mac-sa:00d0.061d.200a, mac-da:0000.0000.0b0b
interface:Gi4/11, mtu:1514
packets:0000000000000000, bytes:0000000000000000
Index 17415 : mac-sa:00d0.061d.200a, mac-da:00e0.f74c.842e
interface:Vl46, mtu:1514
packets:0000000000000000, bytes:0000000000000000
Router#
This example shows how to display adjacency-node information for a specific MAC address:
Router# show mls cef adjacency mac-address 00e0.f74c.842e
Index 17415 : mac-sa:00d0.061d.200a, mac-da:00e0.f74c.842e
interface:Vl46, mtu:1514
packets:0000000000000000, bytes:0000000000000000
Router#
This example shows how to display the adjacency node information for a specific MAC address for a specific module:
Router# show mls cef adjacency mac-address 00e0.f74c.842e module 4
Module 4#
Index 17415 : mac-sa:00d0.061d.200a, mac-da:00e0.f74c.842e
interface:Vl46, mtu:1514
packets:0000000000000000, bytes:0000000000000000
Router#
show mls cef exact-route
To display information about the hardware load sharing, use the show mls cef exact-route command in user EXEC or privileged EXEC mode.
show mls cef exact-route {vrf instance-name src-ip | src-ip} {dest-ip | src-l4port} [dest-l4port | module num]
Syntax Description
Command Modes
User EXEC (>)
Privileged EXEC (#)
Command History
Usage Guidelines
The vrf instance-name keyword and argument are not supported on Cisco 7600 series routers that are configured with a Supervisor Engine 2.
Examples
This example shows how to display the hardware load-sharing information. The fields shown in the display are self-explanatory.
Router# show mls cef exact-route 172.20.52.16 172.20.52.31
Interface: Gi2/1, Next Hop: 255.255.255.255, Vlan: 4073, Destination Mac: 00d0.061d.200a
Router#
Related Commands
|
|
|
|---|---|
show ip cef exact-route |
Displays the exact route for a source-destination IP address pair. |
show mls cef exception
To display information about the Cisco Express Forwarding exception, use the show mls cef exception command in user EXEC or privileged EXEC mode.
Note The show mls cef exception command is not available in Cisco IOS Release 12.2(33)SXJ and later Cisco IOS 12.2SX releases.
show mls cef exception {status [detail] | priorities}
Syntax Description
Command Modes
User EXEC (>)
Privileged EXEC (#)
Command History
Usage Guidelines
This command is not supported on Cisco 7600 series routers that are configured with a Supervisor Engine 2.
The detail keyword is for expert users only and is not documented.
In the output of the show mls cef exception status command, the following definitions apply:
•FALSE—Indicates that the protocol is not under the exception.
•TRUE—Indicates that the protocol is under the exception.
Examples
This example shows how to display detailed information about the Cisco Express Forwarding exception status. The fields shown in the display are self-explanatory.
Router# show mls cef exception status
Current IPv4 FIB exception state = FALSE
Current IPv6 FIB exception state = FALSE
Current MPLS FIB exception state = FALSE
Router#
This example shows how to display the Forwarding Information Base (FIB) Error Rate Monitor (ERM) exception priority. The fields shown in the display are self-explanatory.
Router# show mls cef exception priorities
Priority Protocol
=====================
1 IPv4
2 IPv6
3 MPLS
Router#
Related Commands
|
|
|
|---|---|
mls erm priority |
Assigns the priorities to define an order in which protocols attempt to recover from the exception status. |
show mls cef hardware
To display the MLS-hardware Layer 3-switching table entries, use the show mls cef hardware command in user EXEC or privileged EXEC mode.
show mls cef hardware [module number]
Syntax Description
module number |
(Optional) Displays the adjacency-node information for a specific module. |
Command Modes
User EXEC (>)
Privileged EXEC (#)
Command History
Usage Guidelines
In Cisco 7600 series routers that are configured with a Supervisor Engine 2 with a Policy Feature Card (PFC) and an Multilayer Switching Feature Card 2 (MSFC2), MLS-hardware Layer 3 switching provides IP unicast and IP multicast Layer 3 switching for a Supervisor Engine 2, a PFC2, an MSFC2, and fabric-enabled switching modules that have a Distributed Feature Card (DFC).
MLS-hardware Layer 3 switching applies to IP traffic only.
Examples
Supervisor Engine 2 Examples
This example shows the output from Cisco 7600 series routers that are configured with a Supervisor Engine 720.
This example shows how to display all the MLS-hardware Layer 3-switching table entries:
Router# show mls cef hardware
CEF TCAM v2:
Size:
65536 rows/device, 2 device(s), 131072 total rows
32 entries/mask-block
8192 total blocks (32b wide)
0 - 4095 upper blocks, 4096 - 8191 lower blocks
1179648 s/w table memory
Used blocks:
Upper bank:
63 IP ucast
0 IPX
0 IP mcast
Lower bank:
0 IP ucast
0 IPX
0 IP mcast
Free blocks (non-contiguous range):
27 - 4095 upper blocks, 4096 - 8191 lower blocks
Options:
sanity check: off
sanity interval: 301 seconds
consistency check: on
consistency check interval: 61 seconds
redistribution: off
redistribution interval: 120 seconds
redistribution threshold: 10
compression: on
compression interval: 30 seconds
bank balancing: off
bank differential limit: 5
rpf mode: off
tcam shadowing: on
Background Task statistics:
sanity check count: 0000000000000169
Consistency check count: 0000000000000834
Consistency check errors: 0000000000000002
block redistribute count: 0000000000000000
block compress count: 0000000000000011
IP ucast [29]: 0000000000000001
IP ucast [28]: 0000000000000001
Hardware switching status:
ip switching: on
ipx switching: off
Router#
Supervisor Engine 720 Example
This example shows the output from Cisco 7600 series routers that are configured with a Supervisor Engine 720.
This example shows how to display all the MLS-hardware Layer 3-switching table entries:
Router# show mls cef hardware
CEF TCAM v2:
Size:
65536 rows/device, 4 device(s), 262144 total rows
32 entries/mask-block
8192 total blocks (32b wide)
1212416 s/w table memory
Options:
sanity check: on
sanity interval: 301 seconds
consistency check: on
consistency interval: 61 seconds
redistribution: off
redistribution interval: 120 seconds
redistribution threshold: 10
compression: on
compression interval: 31 seconds
tcam/ssram shadowing: on
Operation Statistics:
Entries inserted: 0000000000000024
Entries deleted: 0000000000000005
Entries compressed: 0000000000000000
Blocks inserted: 0000000000000018
Blocks deleted: 0000000000000004
Blocks compressed: 0000000000000000
Blocks shuffled: 0000000000000002
Blocks deleted for exception: 0000000000000000
Direct h/w modifications: 0000000000000000
Background Task Statistics:
Consistency Check count: 0000000000014066
Consistency Errors: 0000000000000000
SSRAM Consistency Errors: 0000000000000000
Sanity Check count: 0000000000002855
Sanity Check Errors: 0000000000000000
Compression count: 0000000000004621
Exception Handling status : on
L3 Hardware switching status : on
Fatal Error Handling Status : Reset
Fatal Errors: 0000000000000000
Fatal Error Recovery Count: 0000000000000000
SSRAM ECC error summary:
Uncorrectable ecc entries : 0
Correctable ecc entries : 0
Packets dropped : 0
Packets software switched : 0
FIB SSRAM Entry status
----------------------
Key: UC - Uncorrectable error, C - Correctable error
SSRAM banks : Bank0 Bank1
No ECC errors reported in FIB SSRAM.
show mls cef inconsistency
To display consistency-checker information, use the show mls cef inconsistency command in user EXEC or privileged EXEC mode.
show mls cef inconsistency [module num | now | records] [detail] [module num]
Syntax Description
Command Modes
User EXEC (>)
Privileged EXEC (#)
Command History
Usage Guidelines
This command is not supported on Cisco 7600 series routers that are configured with a Supervisor Engine 2.
If you enter the show mls cef inconsistency command with no arguments, this information is displayed:
•Consistency check count
•Ternary Content Addressable Memory (TCAM)-consistency check errors
•Synchronous static random access memory (SSRAM)-consistency check errors
Examples
This sections contains examples from the show mls cef inconsistency command. The fields shown in the displays are self-explanatory.
This example shows how to display information about the consistency checker:
Router# show mls cef inconsistency
Consistency Check Count : 81
TCAM Consistency Check Errors : 0
SSRAM Consistency Check Errors : 0
Router#
This example shows how to display information about the consistency checker for a specific module:
Router# show mls cef inconsistency module 7
Consistency Check Count : 11033
TCAM Consistency Check Errors : 0
SSRAM Consistency Check Errors : 0
Router#
This example shows how to run a consistency check and display any issues:
Router# show mls cef inconsistency now
Performing TCAM check now ...done
No. of FIB TCAM Consistency Check Errors : 0
Performing SSRAM check now ...done
No. of FIB SSRAM Consistency Check Errors : 0
Router#
This example shows how to display the consistency records:
Router# show mls cef inconsistency records
Consistency Check Count : 11044
TCAM Consistency Check Errors : 0
SSRAM Consistency Check Errors : 0
Router#
show mls cef ip
To display the IP entries in the Multilayer Switching (MLS)-hardware Layer 3-switching table, use the show mls cef ip command in user EXEC or privileged EXEC mode.
show mls cef ip [prefix [mask-length]] [detail] [module number]
show mls cef ip accounting per-prefix
show mls cef ip {lookup ...} | {multicast tcam ...} | {rpf ...} | {vpn ...} | {vrf ...}
Syntax Description
prefix |
(Optional) Entry prefix in the format A.B.C.D. |
mask-length |
(Optional) Mask length; valid values are from 0 to 32. |
detail |
(Optional) Displays hardware-entry details. |
module number |
(Optional) Displays the entries for a specific module. |
accounting per-prefix |
Displays all the prefixes that are configured for the statistic collection. |
lookup ... |
Displays the Ternary Content Addressable Memory (TCAM)-entry index for the specified destination IP unicast address; see the show mls cef lookup command. |
multicast tcam ... |
Displays the IP entries in the MLS-hardware Layer 3-switching table in the compact Cisco Express Forwarding table-display format; see the "Usage Guidelines" section for additional information. |
rpf ... |
Displays the Reverse Path Forwarding (RPF)--hardware information in the MLS-hardware Layer 3-switching table; see the show mls cef rpf command. |
vpn ... |
(Optional) Displays information about the Virtual Private Network (VPN) ID Cisco Express Forwarding table; see the "Usage Guidelines" section for more information. |
vrf ... |
Displays information about the VPN-instance Cisco Express Forwarding table. |
Command Modes
User EXEC (>)
Privileged EXEC (#)
Command History
Usage Guidelines
For Cisco 7600 series routers that are configured with a Supervisor Engine 720, see the show mls cef ip multicast tcam command for information about this command.
For Cisco 7600 series routers that are configured with a Supervisor Engine 2, the supported syntax for the show mls cef ip multicast tcam command is show mls cef ip {multicast tcam [prefix [mask]} [module num]].
The following keywords are not supported on Cisco 7600 series routers that are configured with a Supervisor Engine 2:
•detail
•rpf
•vpn
•vrf
The ... indicates that there is additional information.
The vpn keyword is for expert users only and is not documented.
Information in the output of the show mls cef ip command is also displayed in the show mls cef commands.
The lookup is performed as a "longest prefix match" and displays the TCAM-entry index that applies to the specified destination IP address.
The information output is in this format: Index, Prefix, Mask, and Adjacency.
Examples
Supervisor Engine 2 Examples
These examples show the output from Cisco 7600 series routers that are configured with a Supervisor Engine 720.
This example shows how to display IP entries in the MLS-hardware Layer 3-switching table:
Router# show mls cef ip
Index Prefix Mask Adjacency
0 0.0.0.0 255.255.255.255 punt
1 255.255.255.255 255.255.255.255 punt
2 127.0.0.12 255.255.255.255 punt
3 127.0.0.0 255.255.255.255 punt
4 127.255.255.255 255.255.255.255 punt
5 172.20.52.18 255.255.255.255 punt
6 172.20.52.0 255.255.255.255 punt
7 172.20.52.31 255.255.255.255 punt
8 172.20.52.1 255.255.255.255 0010.0d59.b8c0
160 172.20.52.0 255.255.255.224 punt
6400 224.0.0.0 255.255.255.0 punt
115200 0.0.0.0 0.0.0.0 0010.0d59.b8c0
Router#
This example shows how to display the longest-prefix match lookup:
Router# show mls cef ip lookup 172.20.52.19
160 172.20.52.0 255.255.255.224 punt
Router#
Supervisor Engine 720 Examples
These examples show the output from Cisco 7600 series routers that are configured with a Supervisor Engine 720.
This example shows how the show mls cef and show mls cef ip commands are identical:
Router# show mls cef
Codes: decap - Decapsulation, + - Push Label
Index Prefix Adjacency
64 127.0.0.51/32 punt
65 127.0.0.0/32 punt
66 127.255.255.255/32 punt
67 1.1.1.100/32 punt
68 1.1.1.0/32 punt
69 1.1.1.255/32 punt
70 2.2.2.100/32 punt
71 2.2.2.0/32 punt
72 2.2.2.255/32 punt
73 2.2.2.5/32 Gi5/2, 0000.c005.0205
74 0.0.0.0/32 punt
75 255.255.255.255/32 punt
76 200.1.22.22/32 punt
77 200.0.0.0/32 punt
78 200.255.255.255/32 punt
79 200.1.1.153/32 Vl30, 0050.808b.8200
81 200.1.1.91/32 Vl30, 0004.4eef.8800
82 200.1.1.100/32 Vl30, 00d0.bb02.0400
83 200.12.223.3/32 Vl30, 00d0.061b.7000
84 200.2.5.3/32 Vl30, 00d0.061d.200a
85 200.1.1.101/32 Vl30, 0007.ecfc.e40a
86 200.0.100.1/32 Vl30, 0050.2a8d.700a
87 200.1.1.104/32 Vl30, 0050.0f2d.ac00
88 223.255.254.226/32 Vl30, 0050.2a8d.700a
89 2.2.2.7/32 Gi5/2, 0000.c005.0207
90 1.1.1.5/32 Gi5/1, 0000.0101.0105
3200 224.0.0.0/24 punt
3201 1.1.1.0/24 punt
3202 2.2.2.0/24 punt
134400 200.0.0.0/8 punt
134432 0.0.0.0/0 drop
524256 0.0.0.0/0 drop
Router#
This example shows how to display all the MLS-hardware Layer 3-switching table IP entries:
Router# show mls cef ip
Codes: decap - Decapsulation, + - Push Label
Index Prefix Adjacency
66 127.0.0.1/32 punt
67 10.1.1.100/32 punt
68 10.1.1.0/32 punt
69 10.1.1.255/32 punt
70 10.2.2.100/32 punt
71 10.2.2.0/32 punt
72 10.2.2.255/32 punt
73 10.2.2.5/32 Gi5/2, 0000.c005.0205
74 0.0.0.0/32 punt
75 10.255.255.255/32 punt
76 172.16.22.22/32 punt
77 172.20.0.0/32 punt
78 173.32.255.255/32 punt
79 172.16.1.153/32 Vl30, 0050.808b.8200
81 172.16.1.91/32 Vl30, 0004.4eef.8800
82 172.16.1.100/32 Vl30, 00d0.bb02.0400
83 172.17.223.3/32 Vl30, 00d0.061b.7000
84 172.22.5.3/32 Vl30, 00d0.061d.200a
85 172.16.1.101/32 Vl30, 0007.ecfc.e40a
86 172.20.100.1/32 Vl30, 0050.2a8d.700a
87 172.16.1.104/32 Vl30, 0050.0f2d.ac00
88 172.32.254.226/32 Vl30, 0050.2a8d.700a
89 10.2.2.7/32 Gi5/2, 0000.c005.0207
90 10.1.1.5/32 Gi5/1, 0000.0101.0105
3200 224.0.0.0/8 punt
3201 10.1.1.0/24 punt
3202 10.2.2.0/24 punt
134400 200.20.0.0/8 punt
134432 0.0.0.0/0 drop
524256 0.0.0.0/0 drop
Router#
Table 73 describes the fields shown in the examples.
This example shows how to display the detailed MLS-hardware Layer 3-switching table entries:
Router# show mls cef ip 127.0.0.1 detail
Codes: M - mask entry, V - value entry, A - adjacency index, P - priority bit
D - full don't switch, m - load balancing modnumber, B - BGP Bucket sel
V0 - Vlan 0,C0 - don't comp bit 0,V1 - Vlan 1,C1 - don't comp bit 1
RVTEN - RPF Vlan table enable, RVTSEL - RPF Vlan table select
Format: IPV4_DA - (8 | xtag vpn pi cr recirc tos prefix)
Format: IPV4_SA - (9 | xtag vpn pi cr recirc prefix)
M(194 ): E | 1 FFF 0 0 0 0 255.255.255.255
V(194 ): 8 | 1 0 0 0 0 0 127.0.0.1 (A:133120 ,P:1,D:0,m:0 ,B:0)
Router#
This example shows how to display all the prefixes that are configured for the statistic collection:
Router# show mls cef ip accounting per-prefix
VRF Prefix/Mask Packets Bytes
A - Active, I - Inactive
Router#
Related Commands
|
|
|
|---|---|
show mls cef |
Displays the MLS-hardware Layer 3-switching table entries. |
show mls cef ip multicast
To display the IP entries in the Multilayer Switching (MLS)-hardware Layer 3-switching table on the switch processor, use the show mls cef ip multicast command in user EXEC or privileged EXEC mode.
show mls cef ip multicast {bidir | grp-only | source source-ip} [detail | group group-id | vlan rpf-vlanid]
show mls cef ip multicast control [detail | prefix prefix | vlan rpf-vlanid]
show mls cef ip multicast group group-id [detail | vlan rpf-vlanid]
show mls cef ip multicast src-grp [detail | group group-ip | source | vlan rpf-vlanid]
show mls cef ip multicast subnet [detail | prefix prefix | vlan rpf-vlanid]
show mls cef ip multicast summary [vpn-num]
show mls cef ip multicast tcam [prefix [mask]] [detail] [module num] [vrf src-ip {src-port | dst-ip} [dst-port | module num]]
show mls cef ip multicast {grp-mask | vlan rpf-vlanid | vpn vpn-id} [detail]
Syntax Description
Command Modes
User EXEC (>)
Privileged EXEC (#)
Command History
Usage Guidelines
For Cisco 7600 series routers that are configured with a Supervisor Engine 2, the only supported syntax for the show mls cef ip multicast command is show mls cef ip {multicast tcam [prefix [mask]} [module num]].
There are two Multicast Multilayer Switching (MMLS) modes, ingress and egress. The output displayed differs for each mode.
The hardware-entry types are as follows:
•{S/m,*}—Interface/mask (or subnet) entries that are used to catch a directly connected source.
•{*,G/m}—Groups that are served by the route processors as group/mask.
•{G,C}—G indicates a destination MAC address, which is derived from an IP-multicast address, and C indicates the ingress VLAN.
•{S,G,C}—S indicates the source IP address, G indicates the destination IP address, which is a multicast address, and C indicates the ingress VLAN, which is usually the RPF VLAN of the flow.
•{S,G}—Multicast-routing table entry that is maintained by the software or a multicast-forwarding table entry that is created in the Forwarding Information Base (FIB) table.
•{*,G}—Same as {S,G}, except that the source address is a wildcard.
The designated forwarder (DF) index field ranges from 1 to 4 and is an index into the acceptance (Protocol Independent Multicast [PIM] Route Processors (RPs) multiplied by the DF) table. The acceptance table is used with DF forwarding and is used to identify the set of DF interfaces for each of the four RPs in a VPN.
Examples
This example shows how to display ingress hardware-entry information that is based on Bidir (*,G/m) shortcuts:
Router# show mls cef ip multicast grp-mask
Multicast CEF Entries for VPN#0
Flags: R - Control, S - Subnet, B - Bidir, C - Complete, P - Partial,
c - Central Rewrite, p - Primary Input, r - Recirculation
Source/mask Destination/mask RPF/DF Flags #packets #bytes rwindex Output Vlans/Info
+---------------+-------------------+-------+-----+---------+--------+--------+----------- ------+
* 226.2.2.0/24 Df0 BCp 0 0 - Vl50 [1 oifs]
* 225.2.2.0/24 Df1 BCp 0 0 - Vl51 [1 oifs]
* 227.2.2.0/24 Df1 BCp 0 0 - Vl51 [1 oifs]
Found 3 entries. 3 are mfd entries
Router#
This example shows how to display detailed ingress hardware-entry information that is based on Bidir (*,G/m) shortcuts:
Router# show mls cef ip multicast grp-mask detail
(*, 226.2.2.0/24)
PI:1 (1) CR:0 (0) Recirc:0 (1)
DFidx:0 AdjPtr:7,32775,65543,98311 FibRpfNf:0 FibRpfDf:0 FibAddr:0x100
rwvlans:0 rwindex:0x0 adjmac:0006.d606.e240 rdt:0 E:0 CAP1:0
fmt:mcast l3rwvld:1 DM:0 mtu:1518 rwtype:L3 met2:0x0 met3:0x5
packets:0000000000000 bytes:000000000000000000
Starting Offset: 0x0005
V E C: 50 I:0x00449
(*, 225.2.2.0/24)
PI:1 (1) CR:0 (0) Recirc:0 (1)
DFidx:1 AdjPtr:8,32776,65544,98312 FibRpfNf:0 FibRpfDf:0 FibAddr:0x102
rwvlans:0 rwindex:0x0 adjmac:0006.d606.e240 rdt:0 E:0 CAP1:0
fmt:mcast l3rwvld:1 DM:0 mtu:1518 rwtype:L3 met2:0x0 met3:0x6
packets:0000000000000 bytes:000000000000000000
Starting Offset: 0x0006
V E C: 51 I:0x0044B
(*, 227.2.2.0/24)
PI:1 (1) CR:0 (0) Recirc:0 (1)
DFidx:1 AdjPtr:19,32787,65555,98323 FibRpfNf:0 FibRpfDf:0 FibAddr:0x104
rwvlans:0 rwindex:0x0 adjmac:0006.d606.e240 rdt:0 E:0 CAP1:0
fmt:mcast l3rwvld:1 DM:0 mtu:1518 rwtype:L3 met2:0x0 met3:0x7
packets:0000000000000 bytes:000000000000000000
Starting Offset: 0x0007
V E C: 51 I:0x0044B
Found 3 entries. 3 are mfd entries
Router#
This example shows how to display ingress-Bidir information:
Router# show mls cef ip multicast bidir
Multicast CEF Entries for VPN#0
Flags: R - Control, S - Subnet, B - Bidir, C - Complete, P - Partial,
c - Central Rewrite, p - Primary Input, r - Recirculation
Source/mask Destination/mask RPF/DF Flags #packets #bytes rwindex Output Vlans/Info
+-------------------+-------------------+-------+-----+-------------+------------------+-- ------+------------------------------+
* 225.2.2.2/32 Df1 BCp 0 0 - Vl51,Vl30 [2 oifs]
* 225.2.2.1/32 Df1 BCp 0 0 - Vl51,Vl30 [2 oifs]
Found 2 entries. 2 are mfd entries
Router#
This example shows how to display detailed ingress-Bidir information:
Router# show mls cef ip multicast bidir detail
(*, 225.2.2.2)
PI:1 (1) CR:0 (0) Recirc:0 (1)
DFidx:1 AdjPtr:10,32778,65546,98314 FibRpfNf:0 FibRpfDf:0 FibAddr:0xE2
rwvlans:0 rwindex:0x0 adjmac:0006.d606.e240 rdt:0 E:0 CAP1:0
fmt:mcast l3rwvld:1 DM:0 mtu:1518 rwtype:L3 met2:0x0 met3:0xA
packets:0000000000000 bytes:000000000000000000
Starting Offset: 0x000A
V C: 51 I:0x004B5 P->19A0
- V
V E C: 30 I:0x0049B
(*, 225.2.2.1)
PI:1 (1) CR:0 (0) Recirc:0 (1)
DFidx:1 AdjPtr:9,32777,65545,98313 FibRpfNf:0 FibRpfDf:0 FibAddr:0xE0
rwvlans:0 rwindex:0x0 adjmac:0006.d606.e240 rdt:0 E:0 CAP1:0
fmt:mcast l3rwvld:1 DM:0 mtu:1518 rwtype:L3 met2:0x0 met3:0x8
packets:0000000000000 bytes:000000000000000000
Starting Offset: 0x0008
V C: 51 I:0x004B1 P->199C
- V
V E C: 30 I:0x00499
Found 2 entries. 2 are mfd entries
Router#
This example shows how to display egress hardware-entry information that is based on Bidir (*,G/m) shortcuts:
Router# show mls cef ip multicast grp-mask
Multicast CEF Entries for VPN#0
Flags: R - Control, S - Subnet, B - Bidir, C - Complete, P - Partial,
c - Central Rewrite, p - Primary Input, r - Recirculation
Source/mask Destination/mask RPF/DF Flags #packets #bytes rwindex Output Vlans/Info
+-------------------+-------------------+-------+-----+-------------+------------------+-- ------+------------------------------+
* 225.2.2.0/24 Df0 BCp 0 0 -
* 225.2.2.0/24 - Bpr 0 0 0x4AE Vl51 [1 oifs]
* 225.2.2.0/24 - Br 0 0 0x40E Vl51 [1 oifs]
* 226.2.2.0/24 Df1 BCp 0 0 -
* 226.2.2.0/24 - Bpr 0 0 0x4AE Vl50 [1 oifs]
* 226.2.2.0/24 - Br 0 0 0x40E Vl50 [1 oifs]
* 227.2.2.0/24 Df0 BCp 0 0 -
* 227.2.2.0/24 - Bpr 0 0 0x4AE Vl51 [1 oifs]
* 227.2.2.0/24 - Br 0 0 0x40E Vl51 [1 oifs]
Found 3 entries. 3 are mfd entries
Router#
This example shows how to display detailed egress hardware-entry information that is based on Bidir (*,G/m) shortcuts:
Router# show mls cef ip multicast grp-mask detail
(*, 225.2.2.0/24)
PI:1 (1) CR:0 (0) Recirc:0 (1)
DFidx:0 AdjPtr:7,32775,65543,98311 FibRpfNf:0 FibRpfDf:0 FibAddr:0x120
rwvlans:0 rwindex:0x0 rdt:0 E:0 CAP1:0
fmt:recir l3rwvld:1 DM:0 mtu:1522 rwtype:RECIR
packets:0000000000000 bytes:000000000000000000
PI:1 (1) CR:0 (0) Recirc:1 (1)
AdjPtr:8,32776,65544,98312 FibRpfNf:0 FibRpfDf:0 FibAddr:0x122
rwvlans:0 rwindex:0x4AE adjmac:0006.d606.e240 rdt:1 E:1 CAP1:0
fmt:mcast l3rwvld:1 DM:0 mtu:1522 rwtype:L3 met2:0x0 met3:0x5
packets:0000000000000 bytes:000000000000000000
Starting Offset: 0x0005
V E C: 51 I:0x0044C
PI:0 (1) CR:0 (0) Recirc:1 (1)
AdjPtr:9,32777,65545,98313 FibRpfNf:0 FibRpfDf:0 FibAddr:0x124
rwvlans:0 rwindex:0x40E adjmac:0006.d606.e240 rdt:1 E:0 CAP1:0
fmt:mcast l3rwvld:1 DM:0 mtu:1522 rwtype:L3 met2:0x0 met3:0x5
packets:0000000000000 bytes:000000000000000000
Starting Offset: 0x0005
V E C: 51 I:0x0044C
(*, 226.2.2.0/24)
PI:1 (1) CR:0 (0) Recirc:0 (1)
DFidx:1 AdjPtr:10,32778,65546,98314 FibRpfNf:0 FibRpfDf:0 FibAddr:0x126
rwvlans:0 rwindex:0x0 rdt:0 E:0 CAP1:0
fmt:recir l3rwvld:1 DM:0 mtu:1522 rwtype:RECIR
packets:0000000000000 bytes:000000000000000000
PI:1 (1) CR:0 (0) Recirc:1 (1)
AdjPtr:11,32779,65547,98315 FibRpfNf:0 FibRpfDf:0 FibAddr:0x128
rwvlans:0 rwindex:0x4AE adjmac:0006.d606.e240 rdt:1 E:1 CAP1:0
fmt:mcast l3rwvld:1 DM:0 mtu:1522 rwtype:L3 met2:0x0 met3:0x1C
packets:0000000000000 bytes:000000000000000000
Starting Offset: 0x001C
V E C: 50 I:0x00447
PI:0 (1) CR:0 (0) Recirc:1 (1)
AdjPtr:12,32780,65548,98316 FibRpfNf:0 FibRpfDf:0 FibAddr:0x12A
rwvlans:0 rwindex:0x40E adjmac:0006.d606.e240 rdt:1 E:0 CAP1:0
fmt:mcast l3rwvld:1 DM:0 mtu:1522 rwtype:L3 met2:0x0 met3:0x1C
packets:0000000000000 bytes:000000000000000000
Starting Offset: 0x001C
V E C: 50 I:0x00447
(*, 227.2.2.0/24)
PI:1 (1) CR:0 (0) Recirc:0 (1)
DFidx:0 AdjPtr:13,32781,65549,98317 FibRpfNf:0 FibRpfDf:0 FibAddr:0x12C
rwvlans:0 rwindex:0x0 rdt:0 E:0 CAP1:0
fmt:recir l3rwvld:1 DM:0 mtu:1522 rwtype:RECIR
packets:0000000000000 bytes:000000000000000000
PI:1 (1) CR:0 (0) Recirc:1 (1)
AdjPtr:14,32782,65550,98318 FibRpfNf:0 FibRpfDf:0 FibAddr:0x12E
rwvlans:0 rwindex:0x4AE adjmac:0006.d606.e240 rdt:1 E:1 CAP1:0
fmt:mcast l3rwvld:1 DM:0 mtu:1522 rwtype:L3 met2:0x0 met3:0x1D
packets:0000000000000 bytes:000000000000000000
Starting Offset: 0x001D
V E C: 51 I:0x0044C
PI:0 (1) CR:0 (0) Recirc:1 (1)
AdjPtr:15,32783,65551,98319 FibRpfNf:0 FibRpfDf:0 FibAddr:0x130
rwvlans:0 rwindex:0x40E adjmac:0006.d606.e240 rdt:1 E:0 CAP1:0
fmt:mcast l3rwvld:1 DM:0 mtu:1522 rwtype:L3 met2:0x0 met3:0x1D
packets:0000000000000 bytes:000000000000000000
Starting Offset: 0x001D
V E C: 51 I:0x0044C
Found 3 entries. 3 are mfd entries
Router#
This example shows how to display egress-Bidir information:
Router# show mls cef ip multicast bidir
Multicast CEF Entries for VPN#0
Flags: R - Control, S - Subnet, B - Bidir, C - Complete, P - Partial,
c - Central Rewrite, p - Primary Input, r - Recirculation
Source/mask Destination/mask RPF/DF Flags #packets #bytes rwindex Output Vlans/Info
+-------------------+-------------------+-------+-----+-------------+------------------+-- ------+------------------------------+
* 225.2.2.2/32 Df0 BCp 0 0 -
* 225.2.2.2/32 - Bpr 0 0 0x4AE Vl51,Vl30 [2 oifs]
* 225.2.2.2/32 - Br 0 0 0x40E Vl51,Vl30 [2 oifs]
* 225.2.2.1/32 Df0 BCp 0 0 -
* 225.2.2.1/32 - Bpr 0 0 0x4AE Vl51,Vl30 [2 oifs]
* 225.2.2.1/32 - Br 0 0 0x40E Vl51,Vl30 [2 oifs]
Found 2 entries. 2 are mfd entries
Router#
This example shows how to display detailed egress-Bidir information:
Router# show mls cef ip multicast bidir detail
(*, 225.2.2.2)
PI:1 (1) CR:0 (0) Recirc:0 (1)
DFidx:0 AdjPtr:19,32787,65555,98323 FibRpfNf:0 FibRpfDf:0 FibAddr:0xE6
rwvlans:0 rwindex:0x0 rdt:0 E:0 CAP1:0
fmt:recir l3rwvld:1 DM:0 mtu:1522 rwtype:RECIR
packets:0000000000000 bytes:000000000000000000
PI:1 (1) CR:0 (0) Recirc:1 (1)
AdjPtr:20,32788,65556,98324 FibRpfNf:0 FibRpfDf:0 FibAddr:0xE8
rwvlans:0 rwindex:0x4AE adjmac:0006.d606.e240 rdt:1 E:1 CAP1:0
fmt:mcast l3rwvld:1 DM:0 mtu:1522 rwtype:L3 met2:0x0 met3:0x22
packets:0000000000000 bytes:000000000000000000
Starting Offset: 0x0022
V C: 51 I:0x004B3 P->24
V E C: 30 I:0x004B6
PI:0 (1) CR:0 (0) Recirc:1 (1)
AdjPtr:21,32789,65557,98325 FibRpfNf:0 FibRpfDf:0 FibAddr:0xEA
rwvlans:0 rwindex:0x40E adjmac:0006.d606.e240 rdt:1 E:0 CAP1:0
fmt:mcast l3rwvld:1 DM:0 mtu:1522 rwtype:L3 met2:0x0 met3:0x22
packets:0000000000000 bytes:000000000000000000
Starting Offset: 0x0022
V C: 51 I:0x004B3 P->24
V E C: 30 I:0x004B6
(*, 225.2.2.1)
PI:1 (1) CR:0 (0) Recirc:0 (1)
DFidx:0 AdjPtr:16,32784,65552,98320 FibRpfNf:0 FibRpfDf:0 FibAddr:0xE0
rwvlans:0 rwindex:0x0 rdt:0 E:0 CAP1:0
fmt:recir l3rwvld:1 DM:0 mtu:1522 rwtype:RECIR
packets:0000000000000 bytes:000000000000000000
PI:1 (1) CR:0 (0) Recirc:1 (1)
AdjPtr:17,32785,65553,98321 FibRpfNf:0 FibRpfDf:0 FibAddr:0xE2
rwvlans:0 rwindex:0x4AE adjmac:0006.d606.e240 rdt:1 E:1 CAP1:0
fmt:mcast l3rwvld:1 DM:0 mtu:1522 rwtype:L3 met2:0x0 met3:0x1E
packets:0000000000000 bytes:000000000000000000
Starting Offset: 0x001E
V C: 51 I:0x004AF P->20
V E C: 30 I:0x004B2
PI:0 (1) CR:0 (0) Recirc:1 (1)
AdjPtr:18,32786,65554,98322 FibRpfNf:0 FibRpfDf:0 FibAddr:0xE4
rwvlans:0 rwindex:0x40E adjmac:0006.d606.e240 rdt:1 E:0 CAP1:0
fmt:mcast l3rwvld:1 DM:0 mtu:1522 rwtype:L3 met2:0x0 met3:0x1E
packets:0000000000000 bytes:000000000000000000
Starting Offset: 0x001E
V C: 51 I:0x004AF P->20
V E C: 30 I:0x004B2
Found 2 entries. 2 are mfd entries
Router#
This example shows how to display TCAM information:
Router# show mls cef ip multicast tcam
Index Group Source RPF/DF Interface
64 224.0.1.39 0.0.0.0 NULL
66 224.0.1.40 0.0.0.0 NULL
96 224.0.0.0 0.0.0.0 NULL
Router#
show mls cef ipv6
To display the hardware IPv6-switching table entries, use the show mls cef ipv6 command in privileged EXEC mode.
show mls cef ipv6 [vrf vrf-name] [ip-address/mask] [accounting per-prefix] [module number]
show mls cef ipv6 exact-route src-addr [L4-src-port] dst-addr [L4-dst-port]
show mls cef ipv6 multicast tcam [v6mcast-address] [detail] [internal]
Syntax Description
Command Modes
Privileged EXEC (#)
Command History
Usage Guidelines
This command is not supported on Cisco 7600 series routers that are configured with a Supervisor Engine 2.
You can enter this command on the supervisor engine and Multilayer Switching (MLS)-hardware Layer 3-switching module consoles only. Enter the remote login command to enter a session into the supervisor engine and distributed forwarding card (DFC)-equipped module to enter the commands.
When entering the ip-address/mask argument, use this format, X:X:X:X::X/mask, where valid values for mask are from 0 to 128.
Up to 64 IPv6 prefixes are supported.
You must enter the L4-src-port and L4-dst-port arguments when the load-sharing mode is set to full, for example, when Layer 4 ports are included in the load-sharing hashing algorithm.
Examples
This example shows how to display the hardware IPv6-switching table entries:
Router# show mls cef ipv6
Codes:M-MPLS encap, + - Push label
Index Prefix Adjacency
524384 BEEF:6::6/128 punt
524386 5200::6/128 punt
524388 2929::6/128 punt
524390 6363::30/128 Fa1/48 , 0000.0001.0002
524392 3FFE:1B00:1:1:0:5EFE:1B00:1/128 punt
524394 2002:2929:6:2::6/128 punt
524396 2002:2929:6:1::6/128 punt
524398 6363::6/128 punt
524416 BEEF:6::/64 drop
524418 5200::/64 punt
524420 2929::/64 punt
524422 2002:2929:6:2::/64 punt
524424 2002:2929:6:1::/64 punt
524426 6363::/64 punt
524428 3FFE:1B00:1:1::/64 Tu4 , V6 auto-tunnel
524448 FEE0::/11 punt
524480 FE80::/10 punt
524512 FF00::/8 punt
524544 ::/0 drop
This example shows how to display the IPv6 entries for a specific IPv6 address and mask:
Router# show mls cef ipv6 2001:4747::/64
Codes:R - Recirculation, I-IP encap
M-MPLS encap, + - Push label
Index Prefix Out i/f Out Label
160 2001:4747::/64 punt
This example shows how to display all the IPv6-FIB entries that have per-prefix statistics available:
Router# show mls cef ipv6 accounting per-prefix
(I) BEEF:2::/64: 0 packets, 0 bytes
A - Active, I - Inactive
This example shows how to display detailed hardware information:
Router# show mls cef ipv6 detail
Codes: M - mask entry, V - value entry, A - adjacency index, P - FIB Priority
D - FIB Don't short-cut, m - mod-num
Format: IPv6_DA - (C | xtag vpn uvo prefix)
M(128 ): F | 1 FF 1 FFFF:FFFF:FFFF:FFFF:FFFF:FFFF:FFFF:FFFF
V(128 ): C | 1 0 1 2001:4747::1253 (A:12 ,P:1,D:0,m:0 )
M(160 ): F | 1 FF 1 FFFF:FFFF:FFFF:FFFF::
V(160 ): C | 1 0 1 2001:4747:: (A:11 ,P:1,D:0,m:0 )
M(224 ): F | 1 FF 1 FFE0::
V(224 ): C | 1 0 1 FEE0:: (A:11 ,P:1,D:0,m:0 )
M(256 ): F | 1 FF 1 FFC0::
V(256 ): C | 1 0 1 FE80:: (A:12 ,P:1,D:0,m:0 )
M(352 ): F | 1 FF 1 FF00::
V(352 ): C | 1 0 1 FF00:: (A:12 ,P:1,D:0,m:0 )
M(480 ): F | 1 FF 1 ::
V(480 ): C | 1 0 1 :: (A:14 ,P:1,D:0,m:0
Related Commands
|
|
|
|---|---|
mls ipv6 acl compress address unicast |
Turns on the compression of IPv6 addresses. |
remote login |
Accesses the Cisco 7600 series router console or a specific module. |
show mls cef ipx
To display Internetwork Packet Exchange (IPX) entries in the Multilayer Switching (MLS)-hardware Layer 3 switching table, use the show mls cef ipx command in user EXEC or privileged EXEC mode.
show mls cef ipx [prefix [mask | module number] | module number]
Syntax Description
prefix |
(Optional) Entry prefix in the format A.B.C.D. |
mask |
(Optional) Entry prefix mask in the format A.B.C.D. |
module number |
(Optional) Displays the entries for a specific module. |
Command Modes
User EXEC(>)
Privileged EXEC (#)
Command History
Usage Guidelines
This command is supported on Cisco 7600 series routers that are configured with a Supervisor Engine 2 only.
Information in the output of the show mls cef ipx command is also displayed in the show mls ipx command.
Examples
This example shows how to display the IPX entries in the MLS-hardware Layer 3-switching table. The fields shown in the display are self-explanatory.
Router# show mls cef ipx
Router#
Index Prefix Mask Adjacency
.
Related Commands
|
|
|
|---|---|
show mls ipx |
Displays IPX-related MLS-hardware Layer 3 switching table entries. |
show mls cef logging
show mls cef logging [module number]
Syntax Description
module number |
(Optional) Displays the entries for a specific module. |
Defaults
This command has no default settings.
Command Modes
User EXEC (>)
Privileged EXEC (#)
Command History
|
|
|
|---|---|
12.2(17d)SXB |
Support for this command on the Supervisor Engine 2 was extended to Release 12.2(17d)SXB. |
12.2(33)SRA |
This command was integrated into Cisco IOS Release 12.2(33)SRA. |
Usage Guidelines
This command is supported on Cisco 7600 series routers that are configured with a Supervisor Engine 2 only.
In Cisco 7600 series routers that are configured with a Supervisor Engine 2 with a Policy Feature Card (PFC) and a Multilayer Switch Feature Card 2 (MSFC2), multilayer switching (MLS)-hardware Layer 3 switching provides IP unicast and IP multicast Layer 3 switching for a Supervisor Engine 2, a Policy Feature Card 2 (PFC2), an MSFC2, and fabric-enabled switching modules that have a Distributed Forwarding Card (DFC).
The TCAM-inconsistency buffer records any inconsistency that is found in the TCAM.
MLS-hardware Layer 3 switching applies to IP traffic only.
Examples
This example shows how to display the contents of the TCAM inconsistency buffer. The significant fields shown in the display are self-explanatory.
Router# show mls cef logging
PFIB_ERR:TCAM_SHADOW_CONSISTENCY_ERR:value : Index: 100
Expected: 0 -0 -0
Hardware: 5 -1020304 -0
PFIB_ERR:TCAM_SHADOW_CONSISTENCY_ERR:Mask : Index: 3
Expected: 4 -0 -0
Hardware: 6 -FFF00000-0
show mls cef lookup
To display the IP entries in the multilayer switching (MLS)-hardware Layer 3 switching table for the specified destination IP address, use the show mls cef lookup command in user EXEC or privileged EXEC mode.
show mls cef [ip] lookup address [detail] [module number]
Syntax Description
Command Modes
User EXEC (>)
Privileged EXEC (#)
Command History
|
|
|
|---|---|
12.2(14)SX |
Support for this command was introduced on the Supervisor Engine 720. |
12.2(33)SRA |
This command was integrated into Cisco IOS Release 12.2(33)SRA. |
Usage Guidelines
This command is not supported on Cisco 7600 series routers that are configured with a Supervisor Engine 2.
The lookup is performed as a "longest-prefix match" and displays the ternary content addressable memory (TCAM)-entry index that applies to the specified destination IP address.
The information output is in this format: Index, Prefix, Mask, and Adjacency.
The output of the show mls cef lookup ip and the show mls cef lookup commands is identical.
Examples
This example shows how to display the longest prefix match that applies to a specific IPv4-unicast address. The fields shown in the display are self-explanatory.
Router# show mls cef lookup 224.0.0.0
Codes: decap - Decapsulation, + - Push Label
Index Prefix Adjacency
3200 224.0.0.0/24 punt
show mls cef mac
To display the multilayer switching (MLS)-hardware Layer 3-switching MAC-address information for the MSFC, use the show mls cef mac command in user EXEC or privileged EXEC mode.
show mls cef mac [module num]
Syntax Description
module num |
(Optional) Displays the entries for a specific module. |
Defaults
This command has no default settings.
Command Modes
User EXEC (>)
Privileged EXEC (#)
Command History
|
|
|
|---|---|
12.2(17d)SXB |
Support for this command on the Supervisor Engine 2 was extended to Release 12.2(17d)SXB. |
12.2(33)SRA |
This command was integrated into Cisco IOS Release 12.2(33)SRA. |
Usage Guidelines
This command is supported on Cisco 7600 series routers that are configured with a Supervisor Engine 2 only.
In Cisco 7600 series routers that are configured with a Supervisor Engine 2 with a Policy Feature Card (PFC) and a Multilayer Switch Feature Card 2 (MSFC2), multilayer switching (MLS)-hardware Layer 3 switching provides IP unicast and IP multicast Layer 3 switching for a Supervisor Engine 2, a Policy Feature Card 2 (PFC2), an MSFC2, and fabric-enabled switching modules that have a Distributed Forwarding Card (DFC).
Examples
This example shows how to display the MLS-hardware Layer 3-switching MAC-address information for the MSFC. The fields shown in the display are self-explanatory.
Router# show mls cef mac
Router MAC address:00d0.061d.200a
Related Commands
show mls cef maximum-routes
To display the current maximum-route system configuration, use the show mls cef maximum-routes command in user EXEC or privileged EXEC mode.
show mls cef maximum-routes
Syntax Description
This command has no arguments or keywords.
Defaults
This command has no default settings.
Command Modes
User EXEC (>)
Privileged EXEC (#)
Command History
|
|
|
|---|---|
12.2(17b)SXA |
Support for this command was introduced on the Supervisor Engine 720. |
12.2(33)SRA |
This command was integrated into Cisco IOS Release 12.2(33)SRA. |
Usage Guidelines
This command is not supported on Cisco 7600 series routers that are configured with a Supervisor Engine 2.
When you enter the mls cef maximum-routes command to change the configuration, the following additional fields appear in the output of the show mls cef maximum-routes command:
•User configured—Shows configuration changes that you have made.
•Upon reboot—Shows the configuration after a system reboot.
These fields appear if you have not saved the change (using the copy system:running-config nvram: startup-config command) after entering the mls cef maximum-routes command. See the "Examples" section for additional information.
Examples
This section contains examplse of the msl cef maximum-routes command. The fields shown in the display are self-explanatory.
This example shows the display after you have entered the mls cef maximum-routes command, saved the change (copy system:running-config nvram: startup-config command), and rebooted the system:
Router# show mls cef maximum-routes
FIB TCAM maximum routes :
=======================
Current :-
-------
IPv4 - 1k (default)
MPLS - 239k
IPv6 + IP Multicast - 8k (default)
This example shows the display if you entered the mls cef maximum-routes command and did not save the change:
Router# show mls cef maximum-routes
FIB TCAM maximum routes :
=======================
Current :-
-------
IPv4 - 1k (default)
MPLS - 239k
IPv6 + IP Multicast - 8k (default)
User configured :-
---------------
IPv4 + MPLS - 192k (default)
IPv6 + IP multicast - 32k (default)
Upon reboot :-
-----------
IPv4 - 1k (default)
MPLS - 239k
IPv6 + IP multicast - 8k (default)
This example shows the output if you have made a configuration change and saved the change (copy system:running-config nvram: startup-config command):
Router# show mls cef maximum-routes
FIB TCAM maximum routes :
=======================
Current :-
-------
IPv4 - 1k (default)
MPLS - 239k
IPv6 + IP Multicast - 8k (default)
User configured :-
---------------
IPv4 + MPLS - 192k (default)
IPv6 + IP multicast - 32k (default)
Related Commands
show mls cef mpls
To display the Multiprotocol Label Switching (MPLS) entries in the Multilayer Switching (MLS)-hardware Layer 3 switching table, use the show mls cef mpls command in user EXEC or privileged EXEC mode.
show mls cef mpls [detail] [internal] [labels value] [module number] [vpn instance] [vrf instance]
Syntax Description
Command Modes
User EXEC (>)
Privileged EXEC (#)
Command History
12.2(17a)SX |
Support for this command was introduced on the Supervisor Engine 720. |
12.2(33)SRA |
This command was integrated into Cisco IOS Release 12.2(33)SRA. |
Examples
This examples shows how to display MPLS entries. The fields shown in the display are self-explanatory.
Router# show mls cef mpls
Codes: + - Push label, - - Pop Label * - Swap Label
Index Local Label Out i/f
Label Op
show mls cef rpf
To display the information about the Reverse Path Forwarding (RPF) hardware in the Multilayer Switching (MLS)-hardware Layer 3-switching table, use the show mls cef rpf command in user EXEC or privileged EXEC mode.
show mls cef [ip] rpf [ip-address] [module num]
Syntax Description
Command Modes
User EXEC (>)
Privileged EXEC (#)
Command History
|
|
|
|---|---|
12.2(14)SX |
Support for this command was introduced on the Supervisor Engine 720. |
12.2(33)SRA |
This command was integrated into Cisco IOS Release 12.2(33)SRA. |
Usage Guidelines
This command is not supported on Cisco 7600 series routers that are configured with a Supervisor Engine 2.
If you enter the show mls cef ip rpf command without arguments, the RPF global mode status is displayed.
The output of the show mls cef ip rpf and the show mls cef rpf commands is identical.
Examples
This example shows how to display the status of the RPF global mode. The fields shown in the display are self-explanatory.
Router# show mls cef rpf
RPF global mode: not enabled
Router#
This example shows how to display the RPF information for a specific IP address. The fields shown in the display are self-explanatory.
Router# show mls cef rpf 10.100.0.0
RPF information for prefix 10.100.0.0/24
uRPF check performed in the hardware for interfaces :
GigabitEthernet1/1
Router#
Related Commands
|
|
|
|---|---|
mls ip cef rpf multipath |
Configures the RPF modes. |
show mls cef statistics
To display the number of switched packets and bytes, use the show mls cef statistics command in user EXEC or privileged EXEC mode.
show mls cef statistics [module number]
Syntax Description
module number |
(Optional) Displays the information for a specific module. |
Command Modes
User EXEC (>)
Privileged EXEC (#)
Command History
Usage Guidelines
In Cisco 7600 series routers that are configured with a Supervisor Engine 2 with a Policy Feature Card (PFC) and a Multilayer Switching Feature Card 2 (MSFC2), Multilayer Switching (MLS)-hardware Layer 3 switching provides IP unicast and IP multicast Layer 3 switching for a Supervisor Engine 2, a PFC2, an MSFC2, and fabric-enabled switching modules that have a Distributed Forwarding Card (DFC).
Examples
This example shows how to display the MLS-hardware Layer 3-switching statistics. The fields shown in the display are self-explanatory.
Router# show mls cef statistics
Total CEF switched packets: 0000000000000000
Total CEF switched bytes: 0000000000000000
Router#
show mls cef summary
To display the number of routes in the Multilayer Switching (MLS)-hardware Layer 3-switching table for all the protocols, use the show mls cef summary command in user EXEC or privileged EXEC mode.
show mls cef summary [module number]
Syntax Description
module number |
(Optional) Displays the information for a specific module. |
Command Modes
User EXEC (>)
Privileged EXEC (#)
Command History
Usage Guidelines
The number of prefixes in the MLS-hardware Layer 3-switching table indicates the individual numbers for IPv4 and IPv6 unicast, IPv4 multicast, Multiprotocol Label Switching (MPLS), and EoM routes.
For Cisco 7600 series routers that are configured with a Supervisor Engine 2, the output displays the CEF-switched packets and total bytes.
When IPv6 is not configured, the command output from a Cisco Catalyst 6500 series switch running Cisco IOS Release 12.2(33)SXI or a later release will show 255 IPv6 VRF routes.
Examples
Supervisor Engine 720 Examples
This example shows the output from Cisco 7600 series routers that are configured with a Supervisor Engine 720.
This example shows how to display a summary of MLS-hardware Layer 3-switching information:
Router# show mls cef summary
Total routes: 80385
IPv4 unicast routes: 42
IPv4 Multicast routes: 5
MPLS routes: 0
IPv6 unicast routes: 2
EoM routes: 0
Router#
Supervisor Engine 2 Examples
This example shows the output from Cisco 7600 series routers that are configured with a Supervisor Engine 2.
This example shows how to display a summary of MLS-hardware Layer 3-switching information:
Router# show mls cef summary
Total CEF switched packets: 0000000000098681
Total CEF switched bytes: 0000000004539326
Total routes: 80385
IP unicast routes: 80383
IPX routes: 0
IP multicast routes: 2
Router#
12.2(33)SXI Example
This example shows the output from a Cisco Catalyst 6500 series switch running Cisco IOS Release 12.2(33)SXI or a later release:
Router# show mls cef summary
Total routes: 280
IPv4 unicast routes: 20
IPv4 non-vrf routes : 9
IPv4 vrf routes : 11
IPv4 Multicast routes: 3
MPLS routes: 0
IPv6 unicast routes: 257
IPv6 non-vrf routes: 2
IPv6 vrf routes: 255
IPv6 multicast routes: 3
EoM routes: 0
Table 74 describes the fields in the show mls cef summary command output.
Related Commands
|
|
|
|---|---|
show mls cef |
Displays the MLS-hardware Layer 3-switching table entries. |
show mls cef vrf
To display information about the Virtual Private Network (VPN) routing and forwarding instance (VRF) Cisco Express Forwarding table for a specific VRF name, use the show mls cef vrf command in user EXEC or privileged EXEC mode.
show mls cef vrf instance-name [prefix] [detail] [lookup ip-address] [module num] [rpf [ip-address]]
Syntax Description
Command Modes
User EXEC (>)
Privileged EXEC (#)
Command History
|
|
|
|---|---|
12.2(14)SX |
Support for this command was introduced on the Supervisor Engine 720. |
12.2(33)SRA |
This command was integrated into Cisco IOS Release 12.2(33)SRA. |
Usage Guidelines
This command is not supported on Cisco 7600 series routers that are configured with a Supervisor Engine 2.
The show mls cef ip command displays the Cisco Express Forwarding entries in the default VRF. To display specific (non-default) VRF entries, use the show mls cef [ip] vrf vrf-name command.
Examples
This example shows how to display information about the VPN routing and forwarding instance Cisco Express Forwarding table for a specific VRF name. The fields shown in the display are self-explanatory.
Router# show mls cef vrf vpn-1
Codes: decap - Decapsulation, + - Push Label
Index Prefix Adjacency
64 0.0.0.0/32 receive
65 255.255.255.255/32 receive
280 10.50.27.1/32 receive
281 10.50.27.0/32 receive
282 10.50.27.255/32 receive
298 10.1.1.1/32 receive
299 10.1.1.0/32 receive
300 10.1.1.255/32 receive
656 10.1.99.1/32 receive
Router#
Related Commands
|
|
|
|---|---|
show mls cef ip |
Displays the IP entries in the MLS-hardware Layer 3-switching table. |
show mls ip cef rpf-table
To display the configuration of the Reverse Path Forwarding (RPF) Cisco Express Forwarding table, use the show mls ip cef rpf-table command in privileged EXEC mode.
show mls ip cef rpf-table
Syntax Description
This command has no arguments or keywords.
Command Modes
Privileged EXEC (#)
Command History
Usage Guidelines
This command is not supported on Cisco 7600 series routers that are configured with a Supervisor Engine 2.
Examples
This example shows how to display the RPF Cisco Express Forwarding table entries. The fields shown in the display are self-explanatory.
Router# show mls ip cef rpf-table
----------------------------------------------------------------------------
172.16.10.0/24 [0] Fa2/1, Fa2/2, Fa2/3, Fa2/4
172.16.20.0/24
172.16.30.0/24
10.10.0.0/16 [1] Gi1/1, Gi1/2
10.20.0.0/16
Related Commands
|
|
|
|---|---|
mls ip cef rpf interface-group |
Defines an interface group in the RPF-VLAN table. |
show mls ip non-static
To display information for the software-installed nonstatic entries, use the show mls ip non-static command in user EXEC or privileged in the EXEC mode.
show mls ip non-static [count [module number] | detail [module number] | module number]
Syntax Description
count |
(Optional) Displays the total number of nonstatic entries. |
module number |
(Optional) Designates the module number. |
detail |
(Optional) Specifies a detailed per-flow output. |
Command Modes
User EXEC (>)
Privileged EXEC (#)
Command History
Usage Guidelines
This command is not supported on Cisco 7600 series routers that are configured with a Supervisor Engine 2.
Examples
This sections contains examples from the show mls ip non-static command. The fields shown in the display are self-explanatory.
This example shows how to display the software-installed nonstatic entries:
Router> show mls ip non-static
Displaying Netflow entries in Supervisor Earl
DstIP SrcIP Prot:SrcPort:DstPort Src i/f:AdjPtr
--------------------------------------------------------------------
Pkts Bytes Age LastSeen Attributes
---------------------------------------------------
Router>
This example shows how to display detailed information for the software-installed nonstatic entries:
Router> show mls ip non-static detail
Displaying Netflow entries in Supervisor Earl
DstIP SrcIP Prot:SrcPort:DstPort Src i/f:AdjPtr
--------------------------------------------------------------------
Pkts Bytes Age LastSeen Attributes
---------------------------------------------------
QoS Police Count Threshold Leak Drop Bucket Use-Tbl Use-Enable
-----------+------------+---------+-----------+----+-------+-------+----------+
Router>
This example shows how to display the total number of software-installed nonstatic entries:
Router> show mls ip non-static count
Displaying Netflow entries in Supervisor Earl
Number of shortcuts = 0
Router>
show mls ip routes
To display the NetFlow routing entries, use the show mls ip routes command in user EXEC or privileged EXEC mode.
show mls ip routes [non-static | static] [count [module number] | detail [module number] | module number]
Syntax Description
Command Modes
User EXEC (>)
Privileged EXEC (#)
Command History
Usage Guidelines
This command is not supported on Cisco 7600 series routers that are configured with a Supervisor Engine 2.
Examples
This section contains examples of the show mls ip routes non-static command. The fields shown in the display are self-explanatory.
This example shows how to display the software-installed nonstatic routing entries:
Router> show mls ip routes non-static
Displaying Netflow entries in Supervisor Earl
DstIP SrcIP Prot:SrcPort:DstPort Src i/f:AdjPtr
--------------------------------------------------------------------
Pkts Bytes Age LastSeen Attributes
---------------------------------------------------
Router>
This example shows how to display detailed information for the software-installed nonstatic routing entries:
Router> show mls ip routes non-static detail
Displaying Netflow entries in Supervisor Earl
DstIP SrcIP Prot:SrcPort:DstPort Src i/f:AdjPtr
--------------------------------------------------------------------
Pkts Bytes Age LastSeen Attributes
---------------------------------------------------
QoS Police Count Threshold Leak Drop Bucket Use-Tbl Use-Enable
-----------+------------+---------+-----------+----+-------+-------+----------+
Router>
This example shows how to display the total number of software-installed routing entries:
Router> show mls ip routes count
Displaying Netflow entries in Supervisor Earl
Number of shortcuts = 0
Router>
Related Commands
|
|
|
|---|---|
show mls netflow ip sw-installed |
Displays information for the software-installed IP entries. |
show mls ip static
To display the information for the software-installed static IP entries, use the show mls ip static command in user EXEC or privileged EXEC mode.
show mls ip static [count [module number] | detail [module number] | module number]
Syntax Description
count |
(Optional) Displays the total number of static entries. |
module number |
(Optional) Designates the module number. |
detail |
(Optional) Specifies a detailed per-flow output. |
Command Modes
User EXEC (>)
Privileged EXEC (#)
Command History
Usage Guidelines
This command is not supported on Cisco 7600 series routers that are configured with a Supervisor Engine 2.
Examples
This section contains examples from the show mls ip static command. The fields shown in the display are self-explanatory.
This example shows how to display the software-installed static entries:
Router> show mls ip static
Displaying Netflow entries in Supervisor Earl
DstIP SrcIP Prot:SrcPort:DstPort Src i/f:AdjPtr
--------------------------------------------------------------------
Pkts Bytes Age LastSeen Attributes
---------------------------------------------------
Router>
This example shows how to display detailed information for the software-installed static entries:
Router> show mls ip static detail
Displaying Netflow entries in Supervisor Earl
DstIP SrcIP Prot:SrcPort:DstPort Src i/f:AdjPtr
--------------------------------------------------------------------
Pkts Bytes Age LastSeen Attributes
---------------------------------------------------
QoS Police Count Threshold Leak Drop Bucket Use-Tbl Use-Enable
-----------+------------+---------+-----------+----+-------+-------+----------+
Router>
This example shows how to display the total number of software-installed static entries:
Router> show mls ip static count
Displaying Netflow entries in Supervisor Earl
Number of shortcuts = 0
Router>
show mls ip statistics
To display the statistical information for the NetFlow IP entries, use the show mls ip statistics command in the user EXEC or privileged EXEC mode.
show mls ip statistics [count [module number] | detail [module number] | module number]
Syntax Description
Command Modes
User EXEC (>)
Privileged EXEC (#)
Command History
Examples
This section contains examples from the show mls ip statistics command. The fields shown in the display are self-explanatory.
This example shows how to display statistical information for the NetFlow IP entries:
Router> show mls ip statistics
Displaying Netflow entries in Supervisor Earl
DstIP SrcIP Prot:SrcPort:DstPort Src i/f:AdjPtr
--------------------------------------------------------------------
Pkts Bytes Age LastSeen Attributes
---------------------------------------------------
Router>
This example shows how to display detailed statistical information for the NetFlow IP entries:
Router> show mls ip statistics detail
Displaying Netflow entries in Supervisor Earl
DstIP SrcIP Prot:SrcPort:DstPort Src i/f:AdjPtr
--------------------------------------------------------------------
Pkts Bytes Age LastSeen Attributes
---------------------------------------------------
QoS Police Count Threshold Leak Drop Bucket Use-Tbl Use-Enable
-----------+------------+---------+-----------+----+-------+-------+----------+
Router>
show mls table-contention
To display table contention level (TCL) information, use the show mls table-contention command in the user EXEC or privileged EXEC mode.
show mls table-contention {detailed | summary | aggregate}
Syntax Description
Command Modes
User EXEC (>)
Privileged EXEC (#)
Command History
Usage Guidelines
You can enter the aggregate keyword to display the statistics for the NetFlow-creation failures and NetFlow-hash aliases in the Supervisor Engine 720.
You can enter the aggregate keyword to display the page hits and misses in the Supervisor Engine 2.
The last reading of the corresponding registers are displayed in the summary and detailed keywords for the Supervisor Engine 720.
Examples
This section contains examples from the show mls table-contention command. The fields shown in the display are self-explanatory.
This example shows how to display a detailed list of TCL information:
Router# show mls table-contention detailed
Detailed Table Contention Level Information
===========================================
Layer 3
-------
L3 Contention Level: 0
Page Hits Requiring 1 Lookup = 31
Page Hits Requiring 2 Lookups = 0
Page Hits Requiring 3 Lookups = 0
Page Hits Requiring 4 Lookups = 0
Page Hits Requiring 5 Lookups = 0
Page Hits Requiring 6 Lookups = 0
Page Hits Requiring 7 Lookups = 0
Page Hits Requiring 8 Lookups = 0
Page Misses = 0
Router#
This example shows how to display a summary of TCL information:
Router# show mls table-contention summary
Summary of Table Contention Levels (on a scale of 0 (lowest) to 3 (highest))
============================================================================
L3 Contention Level: 0
This example shows how to display an aggregate count of all missed flows in the Supervisor Engine 720 and page hits/misses in Supervisor Engine 2:
Router# show mls table-contention aggregate
Earl in Module 1
Detailed Table Contention Level Information
===========================================
Layer 3
-------
L3 Contention Level: 0
Page Hits Requiring 1 Lookup = 24000
Page Hits Requiring 2 Lookups = 480
Page Hits Requiring 3 Lookups = 0
Page Hits Requiring 4 Lookups = 0
Page Hits Requiring 5 Lookups = 0
Page Hits Requiring 6 Lookups = 0
Page Hits Requiring 7 Lookups = 0
Page Hits Requiring 8 Lookups = 0
Page Misses = 0
show monitor event-trace
To display event trace messages for Cisco IOS software subsystem components, use the show monitor event-trace command in privileged EXEC mode.
show monitor event-trace {all-traces [merged] {all | back {mmm | hhh:mm} | clock hh:mm [date month | month date] | from-boot seconds | latest} | component {all | back {mmm | hhh:mm} | clock hh:mm [date month | month date] | from-boot seconds | latest | parameters}} [detail]
Syntax Description
Command Modes
Privileged EXEC (#)
Command History
Usage Guidelines
Use the show monitor event-trace command to display trace message information.
The trace function is not locked while information is being displayed to the console, which means that new trace messages can accumulate in memory. If entries accumulate faster than they can be displayed, some messages can be lost. If this happens, the show monitor event-trace command will generate a message indicating that some messages might be lost; however, messages will continue to display on the console. If the number of lost messages is excessive, the show monitor event-trace command will stop displaying messages.
Use the bfd keyword for the component argument to display trace messages relating to the BFD feature.
Use the cfd keyword for the component argument to display trace messages relating to the crypto fault detection feature. This keyword displays the contents of the error trace buffers in an encryption data path.
Examples
IPC Component Example
The following is sample output from the show monitor event-trace component command for the interprocess communication (IPC) component. Notice that each trace message is numbered and is followed by a time stamp (derived from the device uptime). Following the time stamp is the component-specific message data.
Router# show monitor event-trace ipc
3667: 6840.016:Message type:3 Data=0123456789
3668: 6840.016:Message type:4 Data=0123456789
3669: 6841.016:Message type:5 Data=0123456789
3670: 6841.016:Message type:6 Data=0123456
BFD Component for Cisco IOS Release 12.2(18)SXE, 12.0(31)S, and 12.4(4)T
Use the show monitor event-trace bfd all command to display logged messages for important BFD events in the recent past. The following trace messages show BFD session state changes:
Router# show monitor event-trace bfd all
3d03h: EVENT: Session [172.16.10.2,172.16.10.1,Fa6/0,1], event Session
create, state Unknown -> Fail
3d03h: EVENT: Session [172.16.10.2,172.16.10.1,Fa6/0,1], state Fail -> Down
(from LC)
3d03h: EVENT: Session [172.16.10.2,172.16.10.1,Fa6/0,1], state Down -> Init
(from LC)
3d03h: EVENT: Session [172.16.10.2,172.16.10.1,Fa6/0,1], state Init -> Up
(from LC)
3d07h: EVENT: Session [172.16.10.2,172.16.10.1,Fa6/0,2], event Session
create, state Unknown -> Fail
3d07h: EVENT: Session [172.16.10.2,172.16.10.1,Fa6/0,2], state Fail -> Down
(from LC)
3d07h: EVENT: Session [172.16.10.2,172.16.10.1,Fa6/0,2], state Down -> Up
(from LC)
To display trace information for all components configured for event tracing on the networking device, enter the show monitor event-trace all-traces command. In this example, separate output is provided for each event, and message numbers are interleaved between the events.
Router# show monitor event-trace all-traces
Test1 event trace:
3667: 6840.016:Message type:3 Data=0123456789
3669: 6841.016:Message type:4 Data=0123456789
3671: 6842.016:Message type:5 Data=0123456789
3673: 6843.016:Message type:6 Data=0123456789
Test2 event trace:
3668: 6840.016:Message type:3 Data=0123456789
3670: 6841.016:Message type:4 Data=0123456789
3672: 6842.016:Message type:5 Data=0123456789
3674: 6843.016:Message type:6 Data=0123456789
SPA Component Example
The following is sample output from the show monitor event-trace component latest command for the spa component:
Router# show monitor event-trace spa latest
00:01:15.364: subslot 2/3: 4xOC3 POS SPA, TSM Event:inserted New state:wait_psm
_ready
spa type 0x440
00:02:02.308: subslot 2/0: not present, TSM Event:empty New state:remove
spa type 0x0, fail code 0x0(none)
00:02:02.308: subslot 2/0: not present, TSM Event:remove_complete New state:idle
00:02:02.308: subslot 2/1: not present, TSM Event:empty New state:remove
spa type 0x0, fail code 0x0(none)
00:02:02.308: subslot 2/1: not present, TSM Event:remove_complete New state:idle
00:02:02.308: subslot 2/2: not present, TSM Event:empty New state:remove
spa type 0x0, fail code 0x0(none)
00:02:02.308: subslot 2/2: not present, TSM Event:remove_complete New state:idle
00:02:02.312: subslot 2/3: not present(plugin 4xOC3 POS SPA), TSM Event:empty New
state:remove
spa type 0x0, fail code 0x0(none)
00:02:02.312: subslot 2/3: not present, TSM Event:remove_complete New state:idle
Cisco Express Forwarding Component Examples
If you select Cisco Express Forwarding as the component for which to display event messages, you can use the following additional arguments and keywords: show monitor event-trace cef [events | interface | ipv6 | ipv4][all].
The following example shows the IPv6 or IPv4 events related to the Cisco Express Forwarding component. Each trace message is numbered and is followed by a time stamp (derived from the device uptime). Following the time stamp is the component-specific message data.
Router# show monitor event-trace cef ipv6 all
00:00:24.612: [Default] *::*/*'00 New FIB table [OK]
Router# show monitor event-trace cef ipv4 all
00:00:24.244: [Default] 127.0.0.81/32'01 FIB insert [OK]
In the following example, all event trace messages for the Cisco Express Forwarding component are displayed:
Router# show monitor event-trace cef events all
00:00:18.884: SubSys fib_ios_chain init
00:00:18.884: Inst unknown -> RP
00:00:24.584: SubSys fib init
00:00:24.592: SubSys fib_ios init
00:00:24.592: SubSys fib_ios_if init
00:00:24.596: SubSys ipv4fib init
00:00:24.608: SubSys ipv4fib_ios init
00:00:24.612: SubSys ipv6fib_ios init
00:00:24.620: Flag IPv4 CEF enabled set to yes
00:00:24.620: Flag 0x7BF6B62C set to yes
00:00:24.620: Flag IPv4 CEF switching enabled set to yes
00:00:24.624: GState CEF enabled
00:00:24.628: SubSys ipv4fib_les init
00:00:24.628: SubSys ipv4fib_pas init
00:00:24.632: SubSys ipv4fib_util init
00:00:25.304: Process Background created
00:00:25.304: Flag IPv4 CEF running set to yes
00:00:25.304: Process Background event loop enter
00:00:25.308: Flag IPv4 CEF switching running set to yes
The following example shows Cisco Express Forwarding interface events:
Router# show monitor event-trace cef interface all
00:00:24.624: <empty> (sw 4) Create new
00:00:24.624: <empty> (sw 4) SWIDBLnk FastEthernet0/0(4)
00:00:24.624: Fa0/0 (sw 4) NameSet
00:00:24.624: <empty> (hw 1) Create new
00:00:24.624: <empty> (hw 1) HWIDBLnk FastEthernet0/0(1)
00:00:24.624: Fa0/0 (hw 1) NameSet
00:00:24.624: <empty> (sw 3) Create new
00:00:24.624: <empty> (sw 3) SWIDBLnk FastEthernet0/1(3)
00:00:24.624: Fa0/1 (sw 3) NameSet
00:00:24.624: <empty> (hw 2) Create new
Cisco Express Forwarding Component Examples for Cisco 10000 Series Routers Only
The following example shows the IPv4 events related to the Cisco Express Forwarding component. Each trace message is numbered and is followed by a time stamp (derived from the device uptime). Following the time stamp is the component-specific message data.
Router# show monitor event-trace cef ipv4 all
00:00:48.244: [Default] 127.0.0.81/32'01 FIB insert [OK]
In the following example, all event trace message for the Cisco Express Forwarding component are displayed:
Router# show monitor event-trace cef events all
00:00:18.884: SubSys fib_ios_chain init
00:00:18.884: Inst unknown -> RP
00:00:24.584: SubSys fib init
00:00:24.592: SubSys fib_ios init
00:00:24.592: SubSys fib_ios_if init
00:00:24.596: SubSys ipv4fib init
00:00:24.608: SubSys ipv4fib_ios init
00:00:24.620: Flag IPv4 CEF enabled set to yes
00:00:24.620: Flag 0x7BF6B62C set to yes
00:00:24.620: Flag IPv4 CEF switching enabled set to yes
00:00:24.624: GState CEF enabled
00:00:24.628: SubSys ipv4fib_les init
00:00:24.628: SubSys ipv4fib_pas init
00:00:24.632: SubSys ipv4fib_util init
00:00:25.304: Process Background created
00:00:25.304: Flag IPv4 CEF running set to yes
00:00:25.304: Process Background event loop enter
00:00:25.308: Flag IPv4 CEF switching running set to yes
The following examples show Cisco Express Forwarding interface events:
Router# show monitor event-trace cef interface all
00:00:24.624: <empty> (sw 4) Create new
00:00:24.624: <empty> (sw 4) SWIDBLnk FastEthernet1/0/0(4)
00:00:24.624: Fa0/0 (sw 4) NameSet
00:00:24.624: <empty> (hw 1) Create new
00:00:24.624: <empty> (hw 1) HWIDBLnk FastEthernet1/0/0(1)
00:00:24.624: Fa0/0 (hw 1) NameSet
00:00:24.624: <empty> (sw 3) Create new
00:00:24.624: <empty> (sw 3) SWIDBLnk FastEthernet1/1/0(3)
00:00:24.624: Fa0/1 (sw 3) NameSet
00:00:24.624: <empty> (hw 2) Create new
CFD Component for Cisco IOS Release 12.4(9)T
To troubleshoot errors in an encryption datapath, enter the show monitor event-trace cfd all command. In this example, events are shown separately, each beginning with a time stamp, followed by data from the error trace buffer. Cisco Technical Assistence Center (TAC) engineers can use this information to diagnose the cause of the errors.
Note If no packets have been dropped, this command does not display any output.
Router# show monitor event-trace cfd all
00:00:42.452: 450000B4 00060000 FF33B306 02020203 02020204 32040000 F672999C 00000001 7A7690C2 A0A4F8BC E732985C D6FFDCC8 00000001 C0902BD0 A99127AE 8EAA22D4 00:00:44.452: 450000B4 00070000 FF33B305 02020203 02020204 32040000 F672999C 00000002 93C01218 2325B697 3C384CF1 D6FFDCC8 00000002 BFA13E8A D21053ED 0F62AB0E 00:00:46.452: 450000B4 00080000 FF33B304 02020203 02020204 32040000 F672999C 00000003 7D2E11B7 A0BA4110 CC62F91E D6FFDCC8 00000003 7236B930 3240CA8C 9EBB44FF 00:00:48.452: 450000B4 00090000 FF33B303 02020203 02020204 32040000 F672999C 00000004 FB6C80D9 1AADF938 CDE57ABA D6FFDCC8 00000004 E10D8028 6BBD748F 87F5E253 00:00:50.452: 450000B4 000A0000 FF33B302 02020203 02020204 32040000 F672999C 00000005 697C8D9D 35A8799A 2A67E97B D6FFDCC8 00000005 BC21669D 98B29FFF F32670F6 00:00:52.452: 450000B4 000B0000 FF33B301 02020203 02020204 32040000 F672999C 00000006 CA18CBC4 0F387FE0 9095C27C D6FFDCC8 00000006 87A54811 AE3A0517 F8AC4E64
Related Commands
show monitor event-trace adjacency
To display adjacency trace events, use the show monitor event-trace adjacency command in privileged EXEC mode.
show monitor event-trace adjacency {{all | back trace-duration | clock hh:mm [date] [month] | from-boot [seconds] | latest} [detail] | parameters}
Syntax Description
Command Modes
Privileged EXEC (#)
Command History
Examples
The following is sample output from the show monitor event-trace adjacency all command. The fields are self-explanatory.
Router# show monitor event-trace adjacency all
*Aug 7 05:13:56.408: GLOBAL: adj system chunk pool created (element size 276) [OK]
*Aug 7 05:13:56.408: GLOBAL: adj system state change to adjacency system up [OK]
*Aug 7 05:13:56.408: GLOBAL: adj manager background process started [OK]
*Aug 7 05:13:56.408: GLOBAL: adj ios manager up [OK]
*Aug 7 05:13:56.408: GLOBAL: adj ios manager add enable [OK]
*Aug 7 05:13:56.924: GLOBAL: adj ipv4 bundle changed to IPv4 no fixup, no
redirect adj oce [OK]
*Aug 7 05:14:07.928: GLOBAL: adj mgr notified of fibidb state change int
SSLVPN-VIF0 to up [OK]
*Aug 7 05:14:11.320: GLOBAL: adj mgr notified of fibidb state change int
FastEthernet0/0 to up [OK]
*Aug 7 05:14:11.320: GLOBAL: adj mgr notified of fibidb state change int
FastEthernet0/1 to up [OK]
*Aug 7 05:14:11.324: GLOBAL: adj mgr notified of fibidb state change int
*Aug 7 05:14:11.324: GLOBAL: adj mgr notified of fibidb state change int
Serial3/1 to up [OK]
*Aug 7 05:14:12.064: GLOBAL: adj mgr notified of fibidb state change int
Serial3/0 to down [OK]
*Aug 7 05:14:12.080: GLOBAL: adj mgr notified of fibidb state change int
Serial3/1 to down [OK]
*Aug 7 05:14:17.292: GLOBAL: adj ipv4 bundle changed to IPv4 no fixup adj oce [OK]
*Aug 7 05:14:17.292: ADJ: IP 10.4.9.1 FastEthernet0/0: update oce bundle, IPv4
incomplete adj oce [OK]
*Aug 7 05:14:17.292: ADJ: IP 10.4.9.1 FastEthernet0/0: allocate [OK]
*Aug 7 05:14:17.292: ADJ: IP 10.4.9.1 FastEthernet0/0: request resolution [OK]
*Aug 7 09:10:25.576: ADJ: IP 10.4.9.1 FastEthernet0/0: request to add ARP [OK]
*Aug 7 09:10:25.576: ADJ: IP 10.4.9.1 FastEthernet0/0: allocate [Ignr]
*Aug 7 09:10:25.576: ADJ: IP 10.4.9.1 FastEthernet0/0: add source ARP [OK]
*Aug 7 09:10:25.580: ADJ: IP 10.4.9.1 FastEthernet0/0: request to update [OK]
*Aug 7 09:10:25.580: ADJ: IP 10.4.9.1 FastEthernet0/0: update oce bundle, IPv4
no fixup adj oce [OK]
*Aug 7 09:10:25.580: ADJ: IP 10.4.9.1 FastEthernet0/0: update [OK] IPv4 no
fixup adj oce [OK]
*Aug 7 05:14:11.324: GLOBAL: adj mgr notified of fibidb state change int
Serial3/1 to up [OK]
*Aug 7 05:14:12.064: GLOBAL: adj mgr notified of fibidb state change int
Serial3/0 to down [OK]
*Aug 7 05:14:12.080: GLOBAL: adj mgr notified of fibidb state change int
Serial3/1 to down [OK]
*Aug 7 05:14:17.292: GLOBAL: adj ipv4 bundle changed to IPv4 no fixup adj oce [OK]
*Aug 7 05:14:17.292: ADJ: IP 10.4.9.1 FastEthernet0/0: update oce bundle, IPv4
incomplete adj oce [OK]
*Aug 7 05:14:17.292: ADJ: IP 10.4.9.1 FastEthernet0/0: allocate [OK]
*Aug 7 05:14:17.292: ADJ: IP 10.4.9.1 FastEthernet0/0: request resolution [OK]
*Aug 7 09:10:25.576: ADJ: IP 10.4.9.1 FastEthernet0/0: request to add ARP [OK]
*Aug 7 09:10:25.576: ADJ: IP 10.4.9.1 FastEthernet0/0: allocate [Ignr]
*Aug 7 09:10:25.576: ADJ: IP 10.4.9.1 FastEthernet0/0: add source ARP [OK]
*Aug 7 09:10:25.580: ADJ: IP 10.4.9.1 FastEthernet0/0: request to update [OK]
*Aug 7 09:10:25.580: ADJ: IP 10.4.9.1 FastEthernet0/0: update oce bundle, IPv4
no fixup adj oce [OK]
*Aug 7 09:10:25.580: ADJ: IP 10.4.9.1 FastEthernet0/0: update [OK]
Related Commands
show monitor event-trace cef
To display event trace messages for Cisco Express Forwarding, use the show monitor event-trace cef command in privileged EXEC mode.
show monitor event-trace cef {all [detail] | back {minutes | hours:minutes} [detail] | clock hours:minutes [day month] [detail] | from-boot [seconds] [detail] | latest [detail]
| merged {all [detail] | back {minutes | hours:minutes} [detail] | clock hours:minutes [day month] [detail] | from-boot [seconds] [detail] | latest [detail]}}
Syntax Description
Command Modes
Privileged EXEC (#)
Command History
Usage Guidelines
Use the show monitor event-trace cef command to display trace message information for Cisco Express Forwarding.
The trace function is not locked while information is displayed to the console, which means that new trace messages can accumulate in memory. If entries accumulate faster than they can be displayed, some messages can be lost. If this happens, the show monitor event-trace cef command generates a message indicating that some messages might be lost; however, messages continue to display on the console. If the number of lost messages is excessive, the show monitor event-trace cef command stops displaying messages.
Examples
The following is sample output from the show monitor event-trace cef all command:
Router# show monitor event-trace cef all
cef_events:
*Aug 22 20:14:58.999: SubSys ipv4fib_ios_def_cap init
*Aug 22 20:14:58.999: SubSys ipv6fib_ios_def_cap init
*Aug 22 20:14:58.999: Inst unknown -> RP
*Aug 22 20:14:58.999: SubSys fib_ios_chain init
*Aug 22 20:14:59.075: SubSys fib init
*Aug 22 20:14:59.075: SubSys ipv4fib init
*Aug 22 20:14:59.075: SubSys fib_ios init
*Aug 22 20:14:59.075: SubSys fib_ios_if init
*Aug 22 20:14:59.075: SubSys ipv4fib_ios init
*Aug 22 20:14:59.075: Flag Common CEF enabled set to yes
*Aug 22 20:14:59.075: Flag IPv4 CEF enabled set to yes
*Aug 22 20:14:59.075: Flag IPv4 CEF switching enabled set to yes
*Aug 22 20:14:59.075: GState CEF enabled
*Aug 22 20:14:59.075: SubSys ipv6fib_ios init
*Aug 22 20:14:59.075: SubSys ipv4fib_util init
*Aug 22 20:14:59.075: SubSys ipv4fib_les init
*Aug 22 20:15:02.907: Process Background created
*Aug 22 20:15:02.907: Flag IPv4 CEF running set to yes
*Aug 22 20:15:02.907: Process Background event loop enter
*Aug 22 20:15:02.927: Flag IPv4 CEF switching running set to yes
cef_interface:
*Aug 22 20:14:58.999: Et0/0 (hw 3) SWvecLES <unknown> (0x01096A3C)
*Aug 22 20:14:58.999: Et0/1 (hw 4) SWvecLES <unknown> (0x01096A3C)
*Aug 22 20:14:58.999: Et0/2 (hw 5) SWvecLES <unknown> (0x01096A3C)
*Aug 22 20:14:58.999: Et0/3 (hw 6) SWvecLES <unknown> (0x01096A3C)
*Aug 22 20:14:58.999: Et1/0 (hw 7) SWvecLES <unknown> (0x01096A3C)
*Aug 22 20:14:58.999: Et1/1 (hw 8) SWvecLES <unknown> (0x01096A3C)
*Aug 22 20:14:58.999: Et1/2 (hw 9) SWvecLES <unknown> (0x01096A3C)
*Aug 22 20:14:58.999: Et1/3 (hw 10) SWvecLES <unknown> (0x01096A3C)
*Aug 22 20:14:58.999: Se2/0 (hw 11) SWvecLES <unknown> (0x01096A3C)
*Aug 22 20:14:58.999: Se2/1 (hw 12) SWvecLES <unknown> (0x01096A3C)
.
.
.
The output is in table format where the first column contains a timestamp, the second column lists the type of event, and the third column lists the detail for the event.
Table 75 describes the significant fields shown in the display.
The following is sample output from the show monitor event-trace cef latest command:
Router# show monitor event-trace cef latest
cef_events:
cef_interface:
*Aug 22 20:14:59.075: Se3/0 (sw 15) FlagCha 0x60C1 add puntLC
*Aug 22 20:14:59.075: <empty> (hw 16) State down -> up
*Aug 22 20:14:59.075: <empty> (hw 16) Create new
*Aug 22 20:14:59.075: Se3/1 (hw 16) NameSet
*Aug 22 20:14:59.075: Se3/1 (hw 16) HWIDBLnk Serial3/1(16)
*Aug 22 20:14:59.075: Se3/1 (hw 16) RCFlags None -> Fast
*Aug 22 20:14:59.075: <empty> (sw 16) VRFLink IPv4:id0 - success
*Aug 22 20:14:59.075: <empty> (sw 16) State deleted -> down
*Aug 22 20:14:59.075: <empty> (sw 16) Create new
*Aug 22 20:14:59.075: Se3/1 (sw 16) NameSet
*Aug 22 20:14:59.075: Se3/1 (sw 16) FIBHWLnk Serial3/1(16)
*Aug 22 20:14:59.075: Se3/1 (sw 16) SWIDBLnk Serial3/1(16)
*Aug 22 20:14:59.075: Se3/1 (sw 16) FlagCha 0x6001 add p2p|input|first
*Aug 22 20:14:59.075: Se3/1 (sw 16) FlagCha 0x6041 add auto_adj
*Aug 22 20:14:59.075: Se3/1 (sw 16) Impared lc rea Queueing configuration
*Aug 22 20:14:59.075: Se3/1 (sw 16) FlagCha 0x60C1 add puntLC
*Aug 22 20:14:59.075: <empty> (hw 17) State down -> up
*Aug 22 20:14:59.075: <empty> (hw 17) Create new
*Aug 22 20:14:59.075: Se3/2 (hw 17) NameSet
Table 76 describes the significant fields shown in the display.
Related Commands
show monitor event-trace cef events
To display event trace messages for Cisco Express Forwarding events, use the show monitor event-trace cef events command in privileged EXEC mode.
show monitor event-trace cef events {all [detail] | back {minutes | hours:minutes} [detail] | clock hours:minutes [day month] [detail] | from-boot [seconds] [detail] | latest [detail] | parameters}
Syntax Description
Command Modes
Privileged EXEC (#)
Command History
Usage Guidelines
Use the show monitor event-trace cef events command to display trace message information about events associated with Cisco Express Forwarding.
The trace function is not locked while information is being displayed to the console. This means that new trace messages can accumulate in memory. If entries accumulate faster than they can be displayed, some messages can be lost. If this happens, the show monitor event-trace cef events command generates a message indicating that some messages might be lost; however, messages continue to be displayed on the console. If the number of lost message is excessive, the show monitor event-trace cef events command stops displaying messages.
Examples
The following is sample output from the show monitor event-trace cef events all command:
Router# show monitor event-trace cef events all
*Aug 13 17:38:27.999: SubSys ipv4fib_ios_def_cap init
*Aug 13 17:38:27.999: SubSys ipv6fib_ios_def_cap init
*Aug 13 17:38:27.999: Inst unknown -> RP
*Aug 13 17:38:27.999: SubSys fib_ios_chain init
*Aug 13 17:38:28.199: SubSys fib init
*Aug 13 17:38:28.199: SubSys ipv4fib init
*Aug 13 17:38:28.199: SubSys fib_ios init
*Aug 13 17:38:28.199: SubSys fib_ios_if init
*Aug 13 17:38:28.199: SubSys ipv4fib_ios init
*Aug 13 17:38:28.199: Flag Common CEF enabled set to yes
*Aug 13 17:38:28.199: Flag IPv4 CEF enabled set to yes
*Aug 13 17:38:28.199: Flag IPv4 CEF switching enabled set to yes
*Aug 13 17:38:28.199: GState CEF enabled
*Aug 13 17:38:28.199: SubSys ipv6fib_ios init
*Aug 13 17:38:28.199: SubSys ipv4fib_util init
*Aug 13 17:38:28.199: SubSys ipv4fib_les init
*Aug 13 17:38:34.059: Process Background created
*Aug 13 17:38:34.059: Flag IPv4 CEF running set to yes
*Aug 13 17:38:34.059: Process Background event loop enter
*Aug 13 17:38:34.079: Flag IPv4 CEF switching running set to yes
Table 77 describes the significant fields shown in the display.
Related Commands
show monitor event-trace cef interface
To display event trace messages for Cisco Express Forwarding interface events, use the show monitor event-trace cef interface command in privileged EXEC mode
show monitor event-trace cef interface {all [detail] | back {minutes | hours:minutes} [detail] | clock hours:minutes [day month] [detail] | from-boot [seconds] [detail] | latest [detail] | parameters | {hw | sw} interface-index {all [detail] | back {minutes | hours:minutes} [detail] | clock hours:minutes [day month] [detail] | from-boot [seconds] [detail] | latest [detail]}}
Syntax Description
Command Modes
Privileged EXEC (#)
Command History
Usage Guidelines
Use the show monitor event-trace cef interface to display trace message information about interface events associated with Cisco Express Forwarding.
The trace function is not locked while information is displayed to the console. This means that new trace messages can accumulate in memory. If entries accumulate faster than they can be displayed, some messages can be lost. If this happens, the show monitor event-trace cef interface command generates a message indicating that some messages might be lost; however, messages continue to be displayed on the console. If the number of lost messages is excessive, the show monitor event-trace cef interface command stops displaying messages.
Examples
The following is sample output from the show monitor event-trace cef interface latest command:
Router# show monitor event-trace cef interface latest
*Aug 22 20:14:58.999: Et0/0 (hw 3) SWvecLES <unknown> (0x01096A3C)
*Aug 22 20:14:58.999: Et0/1 (hw 4) SWvecLES <unknown> (0x01096A3C)
*Aug 22 20:14:58.999: Et0/2 (hw 5) SWvecLES <unknown> (0x01096A3C)
*Aug 22 20:14:58.999: Et0/3 (hw 6) SWvecLES <unknown> (0x01096A3C)
.
.
.
*Aug 22 20:14:59.075: <empty> (hw 3) State down -> up
*Aug 22 20:14:59.075: <empty> (hw 3) Create new
*Aug 22 20:14:59.075: Et0/0 (hw 3) NameSet
*Aug 22 20:14:59.075: Et0/0 (hw 3) HWIDBLnk Ethernet0/0(3)
*Aug 22 20:14:59.075: Et0/0 (hw 3) RCFlags None -> Fast
*Aug 22 20:14:59.075: <empty> (sw 3) VRFLink IPv4:id0 - success
*Aug 22 20:14:59.075: <empty> (sw 3) State deleted -> down
*Aug 22 20:14:59.075: <empty> (sw 3) Create new
*Aug 22 20:14:59.075: Et0/0 (sw 3) NameSet
*Aug 22 20:14:59.075: Et0/0 (sw 3) FIBHWLnk Ethernet0/0(3)
*Aug 22 20:14:59.075: Et0/0 (sw 3) SWIDBLnk Ethernet0/0(3)
*Aug 22 20:14:59.075: Et0/0 (sw 3) FlagCha 0x6000 add input|first
*Aug 22 20:14:59.075: Et0/0 (sw 3) State down -> up
*Aug 22 20:14:59.075: <empty> (hw 4) State down -> up
*Aug 22 20:14:59.075: <empty> (hw 4) Create new
*Aug 22 20:14:59.075: Et0/1 (hw 4) NameSet
*Aug 22 20:14:59.075: Et0/1 (hw 4) HWIDBLnk Ethernet0/1(4)
*Aug 22 20:14:59.075: Et0/1 (hw 4) RCFlags None -> Fast
*Aug 22 20:14:59.075: <empty> (sw 4) VRFLink IPv4:id0 - success
*Aug 22 20:14:59.075: <empty> (sw 4) State deleted -> down
*Aug 22 20:14:59.075: <empty> (sw 4) Create new
*Aug 22 20:14:59.075: Et0/1 (sw 4) NameSet
*Aug 22 20:14:59.075: Et0/1 (sw 4) FIBHWLnk Ethernet0/1(4)
*Aug 22 20:14:59.075: Et0/1 (sw 4) SWIDBLnk Ethernet0/1(4)
*Aug 22 20:14:59.075: Et0/1 (sw 4) FlagCha 0x6000 add input|first
*Aug 22 20:14:59.075: Et0/1 (sw 4) State down -> up
.
.
.
Table 78 describes the significant fields shown in the display.
Related Commands
show monitor event-trace cef ipv4
To display event trace messages for Cisco Express Forwarding IPv4 events, use the show monitor event-trace cef ipv4 command in privileged EXEC mode.
show monitor event-trace cef ipv4 {{ip-address | vrf vrf-name ip-address} {all [detail] | back {minutes | hours:minutes} [detail] | clock hours:minutes [day month] [detail] | from-boot seconds [detail] | latest [detail]} | all [detail] | back {minutes | hours:minutes} [detail] | clock hours:minutes [day month] [detail] | from-boot seconds [detail] | latest [detail] | parameters}
Syntax Description
Command Modes
Privileged EXEC (#)
Command History
Usage Guidelines
Use the show monitor event-trace cef ipv4 command to display trace message information for Cisco Express Forwarding IPv4 events.
The trace function is not locked while information is displayed to the console. This means that new trace messages can accumulate in memory. If entries accumulate faster than they can be displayed, some messages can be lost. If this happens, the show monitor event-trace cef ipv4 command generates a message indicating that some messages might be lost; however, messages continue to be displayed on the console. If the number of lost messages is excessive, the show monitor event-trace cef ipv4 command stops displaying messages.
Examples
The following is sample output from the show monitor event-trace cef ipv4 all command:
Router# show monitor event-trace cef ipv4 all
*Aug 22 20:14:59.075: [Default] *.*.*.*/* Allocated FIB table
[OK]
*Aug 22 20:14:59.075: [Default] *.*.*.*/*'00 Add source Default table
[OK]
*Aug 22 20:14:59.075: [Default] 0.0.0.0/0'00 FIB add src DRH (ins)
[OK]
*Aug 22 20:14:59.075: [Default] *.*.*.*/*'00 New FIB table
[OK]
*Aug 22 20:15:02.927: [Default] *.*.*.*/*'00 FIB refresh start
[OK]
.
.
.
Table 79 describes the significant fields shown in the display.
Following is sample output from the show monitor event-trace cef ipv4 parameters command:
Router# show monitor event-trace cef ipv4 parameters
Trace has 1000 entries
Stacktrace is disabled by default
Matching all events
Table 80 describes the significant fields shown in the display.
Related Commands
show monitor event-trace cef ipv6
To display event trace messages for Cisco Express Forwarding IPv6 events, use the show monitor event-trace cef ipv6 command in privileged EXEC mode.
show monitor event-trace cef ipv6 {ipv6-address {all [detail] | back {minutes | hours:minutes} [detail] | clock hours:minutes [day month] [detail] | from-boot seconds [detail] | latest [detail]} | all [detail] | back {minutes | hours:minutes} [detail] | clock hours:minutes [day month] [detail] | from-boot seconds [detail] | latest [detail] | parameters}
Syntax Description
Command Modes
Privileged EXEC (#)
Command History
Usage Guidelines
Use the show monitor event-trace cef ipv6 command to display trace message information for Cisco Express Forwarding IPv6 events.
The trace function is not locked while information is displayed to the console. This means that new trace messages can accumulate in memory. If entries accumulate faster than they can be displayed, some messages can be lost. If this happens, the show monitor event-trace cef ipv6 command generates a message indicating that some messages might be lost; however, messages continue to be displayed on the console. If the number of lost messages is excessive, the show monitor event-trace cef ipv6 command stops displaying messages.
Examples
The following is a sample of the show monitor event-trace cef ipv6 all command:
Router# show monitor event-trace cef ipv6 all
*Aug 22 20:14:59.075: [Default] *::*/* Allocated FIB table
[OK]
*Aug 22 20:14:59.075: [Default] *::*/*'00 Add source Default table
[OK]
*Aug 22 20:14:59.075: [Default] ::/0'00 FIB add src DRH (ins)
[OK]
*Aug 22 20:14:59.075: [Default] *::*/*'00 New FIB table
[OK]
Table 81 describes the significant fields shown in the display.
The following is sample output from the show monitor event-trace cef ipv6 parameters command:
Router# show monitor event-trace cef ipv6 parameters
Trace has 1000 entries
Stacktrace is disabled by default
Matching all events
Table 82 describes the significant fields shown in the display.
Related Commands
show monitor event-trace continuous
To display event trace messages of components that have enabled continuous display, use the show monitor event-trace continuous command in privileged EXEC mode.
show monitor event-trace continuous
Syntax Description
This command has no arguments or keywords.
Command Modes
Privileged EXEC (#)
Command History
Examples
The following is sample output from the show monitor event-trace continuous command. The fields are self-explanatory.
Router# show monitor event-trace continuous
Event trace continuous display enabled for:
datainteg
tunnel
adjacency
Related Commands
show monitor event-trace cpu-report
To display event trace messages for the CPU, use the show monitor event-trace cpu-report command in user EXEC or privileged EXEC mode.
show monitor event-trace cpu-report {brief {all | back {mmm | hhh:mm} | clock hh:mm [date month | month date] | from-boot [seconds] | latest} [detail] | handle handle-number}
Syntax Description
Command Modes
User EXEC (>)
Privileged EXEC (#)
Command History
Usage Guidelines
Use the show monitor event-trace cpu-report command with the brief keyword to display the CPU report details. To display individual snapshots, use the show monitor event-trace cpu-report handle handle-number command.
To display the uptime, in seconds, enter the show monitor event-trace cpu-report from-boot ? command.
Examples
To display CPU report details for event tracing on a networking device, enter the show monitor event-trace cpu-report brief all command. The field descriptions are self-explanatory.
Router# show monitor event-trace cpu-report brief all
Timestamp : Handle Name Description
00:01:07.320: 1 CPU None
To display CPU report details for event tracing on a networking device for the handle number 1, enter the show monitor event-trace cpu-report handle 1 command. The field descriptions are self-explanatory.
Router# show monitor event-trace cpu-report handle 1
00:01:07.320: 1 CPU None
################################################################################
Global Statistics
-----------------
5 sec CPU util 0%/0% Timestamp 21:03:56
Queue Statistics
----------------
Exec Count Total CPU Response Time Queue Length
(avg/max) (avg/max)
Critical 1 0 0/0 1/1
High 5 0 0/0 1/1
Normal 178 0 0/0 2/9
Low 15 0 0/0 2/3
Common Process Information
-------------------------------
PID Name Prio Style
-------------------------------
10 AAA high-capacit M New
133 RADIUS TEST CMD M New
47 VNM DSPRM MAIN H New
58 TurboACL M New
97 IP Background M New
99 CEF: IPv4 proces L New
112 X.25 Background M New
117 LFDp Input Proc M New
3 Init M Old
CPU Intensive processes
-------------------------------------------------------------------------------
PID Total Exec Quant Burst Burst size Schedcall Schedcall
CPUms Count avg/max Count avg/max(ms) Count Per avg/max
-------------------------------------------------------------------------------
3 820 6 136/236 1 24/24 18 887/15172
Priority Suspends
------------------------------------
PID Exec Count Prio-Susps
------------------------------------
3 6 1
Latencies
-------------------------
PID Exec Count Latency
avg/max
-------------------------
10 1 15192/15192
133 1 15192/15192
58 1 15192/15192
112 1 15192/15192
117 1 15192/15192
99 1 15172/15172
47 1 15172/15172
97 1 15172/15172
################################################################################
Global Statistics
-----------------
5 sec CPU util 0%/0% Timestamp 00:00:00
Queue Statistics
----------------
Exec Count Total CPU Response Time Queue Length
(avg/max) (avg/max)
Critical 0 0 0/0 0/0
High 0 0 0/0 0/0
Normal 0 0 0/0 0/0
Low 0 0 0/0 0/0
Common Process Information
-------------------------------
PID Name Prio Style
-------------------------------
CPU Intensive processes
-------------------------------------------------------------------------------
PID Total Exec Quant Burst Burst size Schedcall Schedcall
CPUms Count avg/max Count avg/max(ms) Count Per avg/max
-------------------------------------------------------------------------------
Priority Suspends
------------------------------------
PID Exec Count Prio-Susps
------------------------------------
Latencies
-------------------------
PID Exec Count Latency
avg/max
-------------------------
################################################################################
Related Commands
show monitor event-trace hw-api
To display event trace information about the HW-API events, use the show monitor event-trace hw-api command in privileged EXEC mode.
show monitor event-trace hw-api {{all | back time | clock time day month | from-boot [time] | latest} [detail] | parameters}
Syntax Description
Command Modes
Privileged EXEC (#)
Command History
Examples
The following is sample output from the show monitor event-trace hw-api all command. The fields are self-explanatory.
Router# show monitor event-trace hw-api all
*Jan 14 17:42:25.207: bwalk at 000756FC adj Et0/0 IP 192.168.1.1 0
0.000
*Jan 14 17:42:25.207: bwalk as 00075600 adj Et0/0 IP 192.168.1.1 0
0.000
*Jan 14 17:42:25.207: bwalk at 000756FC adj Et0/0 IP 192.168.1.1 0
0.000
*Jan 14 17:42:25.207: bwalk as 00075600 rpflst 014B1450
0.000
*Jan 14 17:42:25.207: bwalk at 000756FC rpflst 014B1450
0.000
*Jan 14 17:42:25.207: bwalk as 00075600 fibidb Ethernet0/0
0.000
*Jan 14 17:42:25.207: bwalk at 000756FC fibidb Ethernet0/0
0.000
*Jan 14 17:42:25.207: bwalk as 00075600 adj Et0/0 IP 192.168.1.1 0
0.000
*Jan 14 17:42:25.207: bwalk at 000756FC adj Et0/0 IP 192.168.1.1 0
0.000
*Jan 14 17:42:25.207: bwalk as 00075600 rpflst 014B1450
0.000
*Jan 14 17:42:25.207: bwalk at 000756FC rpflst 014B1450
0.000
*Jan 14 17:42:25.207: bwalk as 00075600 adj Et0/0 IP 192.168.1.1 0
Related Commands
show monitor event-trace merged-list
To display event trace information for a list of trace buffers sorted by time, use the show monitor event-trace merged-list command in privileged EXEC mode.
show monitor event-trace merged-list trace-buffer-name1 [...[trace-buffer-name4]]
Syntax Description
trace-buffer-name |
Name of the trace buffer. You can specify up to four trace buffers. |
Command Modes
Privileged EXEC (#)
Command History
Examples
The following is sample output from the show monitor event-trace merged-list command. The output displays event trace information for the lists cef_interface and licnvram, sorted by time. The fields are self-explanatory.
Router# show monitor event-trace merged-list list1 cef_interface licnvram
*Dec 7 14:02:21.019: licnvram: **NVRAM: Original config magic is good
*Dec 7 14:02:21.019: licnvram: **NVRAM: Backup config magic is good
*Dec 7 14:02:21.019: licnvram: **NVRAM: Second Backup Magic is not good
*Dec 7 14:02:42.767: cef_interface: Gi0/0 (hw 2) SWvecLES Null
(0x622026C8)
*Dec 7 14:02:42.767: cef_interface: Gi0/1 (hw 3) SWvecLES Null
(0x622026C8)
*Dec 7 14:02:42.767: cef_interface: AO1/0 (hw 5) SWvecLES Null
(0x622026C8)
*Dec 7 14:02:42.767: cef_interface: In2/0 (hw 6) SWvecLES Null
(0x622026C8)
*Dec 7 14:02:42.767: cef_interface: Vo0 (hw 4) SWvecLES Null
(0x622026C8)
*Dec 7 14:02:42.851: cef_interface: <empty> (hw 2) Create new ['0]
*Dec 7 14:02:42.851: cef_interface: <empty> (hw 2) State down -> up
*Dec 7 14:02:42.851: cef_interface: Gi0/0 (hw 2) NameSet
*Dec 7 14:02:42.851: cef_interface: Gi0/0 (hw 2) HWIDBLnk GigabitEthernet
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