- Preface
- Command-Line Interface
- action to channel-group
- channel-protocol to class-map
- clear cable-diagnostics tdr to copy /noverify
- define interface-range to duplex
- eigrp event-log-size to mls exclude
- mls flow to pagp port
- platform ip features pisa to process-min-time percent
- rcv-queue to show bootvar
- show cable-diagnostics to show ip cache
- show ip cef to show mls asic
- show mls cef to show qm-sp
- show queueing to show vtp
- shutdown vlan to test cable-diagnostics
- tunnel udlr address-resolution to username
- verify to wrr-queue
- wrr-queue cos-trap to wrr-queue threshold
- Acronyms
- Acknowledgments for Open-Source Software
Catalyst Supervisor Engine 32 PISA IOS Command Reference, 12.2ZY
Bias-Free Language
The documentation set for this product strives to use bias-free language. For the purposes of this documentation set, bias-free is defined as language that does not imply discrimination based on age, disability, gender, racial identity, ethnic identity, sexual orientation, socioeconomic status, and intersectionality. Exceptions may be present in the documentation due to language that is hardcoded in the user interfaces of the product software, language used based on RFP documentation, or language that is used by a referenced third-party product. Learn more about how Cisco is using Inclusive Language.
- Updated:
- January 19, 2018
Chapter: show mls cef to show qm-sp
- 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 logging
- show mls cef lookup
- 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 df-table
- show mls ip
- show mls ip cef rpf-table
- show mls ip multicast
- show mls ip multicast bidir
- show mls ip multicast rp-mapping
- show mls ip multicast sso
- show mls ip non-static
- show mls ip routes
- show mls ip static
- show mls ip statistics
- show mls nde
- show mls netflow
- show mls netflow ip
- show mls netflow ip sw-installed
- show mls netflow ipv6
- show mls qos
- show mls qos free-agram
- show mls qos maps
- show mls qos mpls
- show mls qos protocol
- show mls qos statistics-export info
- show mls rate-limit
- show mls sampling
- show mls statistics
- show mls table-contention
- show mmls igmp explicit-tracking
- show mmls msc
- show mobility
- show module
- show monitor permit-list
- show monitor session
- show mpls l2transport vc
- show mpls platform
- show mpls ttfib
- show pagp
- show platform
- show platform hardware capacity
- show platform pisa np
- show platform software ipv6-multicast
- show platform software pisa fm interface
- show platform software pisa split-vlan
- show policy-map
- show policy-map control-plane
- show policy-map interface
- show port-security
- show power
- show qdm status
- show qm-sp port-data
show mls cef
To display the MLS-hardware Layer 3-switching table entries, use the show mls cef command.
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 CEF table display format; see the show mls cef ip multicast command. |
rpf ... |
(Optional) Displays information about the RPF hardware in the MLS-hardware Layer 3-switching table; see the show mls cef rpf command. |
vpn ... |
(Optional) Displays information about the VPN ID CEF table. See the "Usage Guidelines" section for important information. |
vrf ... |
(Optional) Displays information about the CEF 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 MPLS; 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 CEF table.
Command Modes
EXEC (>)
Command History
|
|
|
|---|---|
12.2(18)ZY |
Support for this command was introduced. |
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 CEF 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
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
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#
Table 2-80 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
|
|
|
|---|---|
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 MLS-hardware Layer 3-switching adjacency node, use the show mls cef adjacency command.
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 Default
This command has no default settings.
Command Modes
EXEC (>)
Command History
|
|
|
|---|---|
12.2(18)ZY |
Support for this command was introduced. |
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 Catalyst 6500 series switches 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 FIB entry, MLS-hardware Layer 3 switching stores Layer 2 information from the PISA 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
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: 2.2.2.2, src_port: 100
ip_da: 3.3.3.3, 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#
show mls cef exact-route
To display information about the hardware load sharing, use the show mls cef exact-route command.
show mls cef exact-route src-ip {dest-ip | src-l4port} [dest-l4port | {module num}]
show mls cef exact-route {vrf instance-name} src-ip {dest-ip | src-l4port} [dest-l4port | {module num}]
Syntax Description
Command Default
This command has no default settings.
Command Modes
EXEC (>)
Command History
|
|
|
|---|---|
12.2(18)ZY |
Support for this command was introduced. |
Usage Guidelines
The vrf instance-name keyword and argument are not supported on Catalyst 6500 series switches that are configured with a Supervisor Engine 2.
Examples
This example shows how to display the hardware load-sharing information:
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 CEF exception, use the show mls cef exception command.
show mls cef exception {status [detail] | priorities}
Syntax Description
Command Default
This command has no default settings.
Command Modes
EXEC (>)
Command History
|
|
|
|---|---|
12.2(18)ZY |
Support for this command was introduced. |
Usage Guidelines
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 CEF-exception status:
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 FIB ERM-exception priority:
Router# show mls cef exception priorities
Priority Protocol
=====================
1 IPv4
2 IPv6
3 MPLS
Router#
Related Commands
|
|
|
|---|---|
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.
show mls cef hardware [module number]
Syntax Description
module number |
(Optional) Displays the adjacency-node information for a specific module. |
Command Default
This command has no default settings.
Command Modes
EXEC (>)
Command History
|
|
|
|---|---|
12.2(18)ZY |
Support for this command was introduced. |
Usage Guidelines
MLS-hardware Layer 3 switching applies to IP traffic only.
Examples
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.
show mls cef inconsistency [module num | now | records] [detail] [module num]
Syntax Description
Command Default
This command has no default settings.
Command Modes
EXEC (>)
Command History
|
|
|
|---|---|
12.2(18)ZY |
Support for this command was introduced. |
Usage Guidelines
If you enter the show mls cef inconsistency command with no arguments, this information is displayed:
•Consistency check count
•TCAM-consistency check errors
•SSRAM-consistency check errors
Examples
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 MLS-hardware Layer 3-switching table, use the show mls cef ip command.
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 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 CEF table-display format; see the "Usage Guidelines" section for additional information. |
rpf ... |
Displays the RPF-hardware information in the MLS-hardware Layer 3-switching table; see the show mls cef rpf command. |
vpn ... |
(Optional) Displays information about the VPN ID CEF table; see the "Usage Guidelines" section for more information. |
vrf ... |
Displays information about the VPN-instance CEF table. |
Command Default
This command has no default settings.
Command Modes
EXEC (>)
Command History
|
|
|
|---|---|
12.2(18)ZY |
Support for this command was introduced. |
Usage Guidelines
See the show mls cef ip multicast tcam command for information about this command.
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
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
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#
Table 2-81 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 127.0.0.52 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 0 127.0.0.52 (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
|
|
|
|---|---|
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.
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 Default
This command has no default settings.
Command Modes
EXEC (>)
Command History
|
|
|
|---|---|
12.2(18)ZY |
Support for this command was introduced. |
Usage Guidelines
There are two 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 FIB table.
•{*,G}—Same as {S,G}, except that the source address is a wildcard.
The DF index field ranges from 1 to 4 and is an index into the acceptance (PIM route processors 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.
show mls cef ipv6 [vrf-number] [ip-address/mask] [acccounting 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 Default
This command has no default settings.
Command Modes
EXEC (>)
Command History
|
|
|
|---|---|
12.2(18)ZY |
Support for this command was introduced. |
Usage Guidelines
You can enter this command on the supervisor engine and MLS-hardware Layer 3-switching module consoles only. Enter the remote login command to session into the supervisor engine 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
Router#
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
Router#
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
Router#
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
Router#
Related Commands
|
|
|
|---|---|
Turns on the compression of IPv6 addresses. |
show mls cef logging
show mls cef logging [module num]
Syntax Description
module num |
(Optional) Displays the entries for a specific module. |
Command Default
This command has no default settings.
Command Modes
EXEC (>)
Command History
|
|
|
|---|---|
12.2(18)ZY |
Support for this command was introduced. |
Usage Guidelines
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:
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
Router#
show mls cef lookup
To display the IP entries in the MLS-hardware Layer 3-switching table for the specified destination IP address, use the show mls cef lookup command.
show mls cef [ip] lookup address [detail] [module number]
Syntax Description
Command Default
This command has no default settings.
Command Modes
EXEC (>)
Command History
|
|
|
|---|---|
12.2(18)ZY |
Support for this command was introduced. |
Usage Guidelines
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.
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:
Router# show mls cef lookup 224.0.0.0
Codes: decap - Decapsulation, + - Push Label
Index Prefix Adjacency
3200 224.0.0.0/24 punt
Router#
show mls cef maximum-routes
To view the current maximum-route system configuration, use the show mls cef maximum-routes command.
show mls cef maximum-routes
Syntax Description
This command has no arguments or keywords.
Command Default
This command has no default settings.
Command Modes
EXEC (>)
Command History
|
|
|
|---|---|
12.2(18)ZY |
Support for this command was introduced. |
Usage Guidelines
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 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)
Router#
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)
Router#
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)
Router#
Related Commands
show mls cef mpls
To display the MPLS entries in the MLS-hardware Layer 3-switching table, use the show mls cef mpls command.
show mls cef mpls [detail] [internal] [labels value] [module number] [vpn instance] [vrf instance]
Syntax Description
Command Default
This command has no default settings.
Command Modes
EXEC (>)
Command History
|
|
|
|---|---|
12.2(18)ZY |
Support for this command was introduced. |
Examples
This examples shows how to display MPLS entries:
Router# show mls cef mpls
Codes: + - Push label, - - Pop Label * - Swap Label
Index Local Label Out i/f
Label Op
Router#
show mls cef rpf
To display the information about the RPF hardware in the MLS-hardware Layer 3-switching table, use the show mls cef rpf command.
show mls cef [ip] rpf [ip-address] [module num]
Syntax Description
Command Default
This command has no default settings.
Command Modes
EXEC (>)
Command History
|
|
|
|---|---|
12.2(18)ZY |
Support for this command was introduced. |
Usage Guidelines
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:
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:
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
|
|
|
|---|---|
Configures the RPF modes. |
show mls cef statistics
To display the number of switched packets and bytes, use the show mls cef statistics command.
show mls cef statistics [module number]
Syntax Description
module number |
(Optional) Displays the information for a specific module. |
Command Default
This command has no default settings.
Command Modes
EXEC (>)
Command History
|
|
|
|---|---|
12.2(18)ZY |
Support for this command was introduced. |
Examples
This example shows how to display the MLS-hardware Layer 3-switching statistics:
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 MLS-hardware Layer 3-switching table for all the protocols, use the show mls cef summary command.
show mls cef summary [module number]
Syntax Description
module number |
(Optional) Displays the information for a specific module. |
Command Default
This command has no default settings.
Command Modes
EXEC (>)
Command History
|
|
|
|---|---|
12.2(18)ZY |
Support for this command was introduced. |
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, MPLS, and EoM routes.
Examples
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#
Table 2-82 describes the fields in the show mls cef summary command output.
Related Commands
|
|
|
|---|---|
Displays the MLS-hardware Layer 3-switching table entries. |
show mls cef vrf
To display information about the VPN routing and forwarding instance CEF table for a specific VRF name, use the show mls cef vrf command.
show mls cef vrf instance-name [prefix] [detail] [lookup ip-address] [module num] [rpf [ip-address]]
Syntax Description
Command Default
This command has no default settings.
Command Modes
EXEC (>)
Command History
|
|
|
|---|---|
12.2(18)ZY |
Support for this command was introduced. |
Usage Guidelines
The show mls cef ip command displays the CEF entries in the default VRF. To display specific (nondefault) 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 CEF table for a specific VRF name:
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 7.50.27.1/32 receive
281 7.50.27.0/32 receive
282 7.50.27.255/32 receive
298 2.1.1.1/32 receive
299 2.1.1.0/32 receive
300 2.1.1.255/32 receive
656 2.1.99.1/32 receive
Router#
Related Commands
|
|
|
|---|---|
Displays the IP entries in the MLS-hardware Layer 3-switching table. |
show mls df-table
To display information about the DF table, use the show mls df-table command.
show mls df-table start-vlan end-vlan
Syntax Description
start-vlan |
Start of a range of VLAN IDs; valid values are from 1 to 4094. |
end-vlan |
End of a range of VLAN IDs; valid values are from 1 to 4094. |
Command Default
This command has no default settings.
Command Modes
Switch processor—EXEC (Switch-sp#)
Command History
|
|
|
|---|---|
12.2(18)ZY |
Support for this command was introduced. |
Usage Guidelines
In the output display, the following applies:
•1 indicates that DF is enabled.
•0 indicates that DF is disabled.
Examples
This example shows how to display the DF-table contents for a range of VLANs:
Switch-sp# show mls df-table 201 212
TYCHO FIB DF Table
vlan df_index
3 2 1 0
-----+----------
201 1 1 1 1
202 1 1 1 1
203 1 1 1 1
204 1 1 1 1
205 1 1 1 1
206 1 1 1 1
207 1 1 1 1
208 1 1 1 1
209 1 1 1 1
210 1 1 1 1
211 1 1 1 1
212 1 1 1 1
Switch-sp#
show mls ip
To display the MLS IP information, use the show mls ip command.
show mls ip [any | destination {hostname | ip-address} | detail | flow {tcp | udp} | {vlan vlan-id} | {macd destination-mac-address} | {macs source-mac-address} | {module number} | source {hostname | ip-address} | count | static]
show mls {ipv6 | mpls}
Syntax Description
Command Default
This command has no default settings.
Command Modes
EXEC (>)
Command History
|
|
|
|---|---|
12.2(18)ZY |
Support for this command was introduced. |
Usage Guidelines
The interface-number argument designates the module and port number. Valid values for interface-number depend on the specified interface type and the chassis and module that are used. For example, if you specify a Gigabit Ethernet interface and have a 48-port 10/100BASE-T Ethernet module that is 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. This definition also applies to the module number keyword and argument.
When you view the output, note that a colon (:) is used to separate the fields.
Examples
This example shows how to display any MLS IP information:
Router# show mls ip any
Displaying Netflow entries in Supervisor Earl
DstIP SrcIP Prot:SrcPort:DstPort Src i/f:AdjPtr
--------------------------------------------------------------------
Pkts Bytes Age LastSeen Attributes
---------------------------------------------------
0.0.0.0 0.0.0.0 0 :0 :0 0 : 0x0
82 3772 1329 20:46:03 L3 - Dynamic
Router#
This example shows how to display MLS information on a specific IP address:
Router# show mls ip destination 172.20.52.122
Displaying Netflow entries in Supervisor Earl
DstIP SrcIP Dst i/f:DstMAC Pkts Bytes
-----------------------------------------------------------------------
SrcDstPorts SrcDstEncap Age LastSeen
----------------------------------------
172.20.52.122 0.0.0.0 5 : 00e0.4fac.b3ff 684 103469
Fa5/9,Fa5/9 ARPA,ARPA 281 07:17:02
Number of Entries Found = 1
Router#
This example shows how to display MLS information on a specific flow type:
Router# show mls ip flow udp
Displaying Netflow entries in Supervisor Earl
DstIP SrcIP Prot:SrcPort:DstPort Src i/f:AdjPtr
--------------------------------------------------------------------
Pkts Bytes Age LastSeen Attributes
---------------------------------------------------
0.0.0.0 0.0.0.0 0 :0 :0 0 : 0x0
78 3588 1259 20:44:53 L3 - Dynamic
Router#
This example shows how to display detailed MLS information:
Router# show mls ip detail
Displaying Netflow entries in Supervisor Earl
DstIP SrcIP Prot:SrcPort:DstPort Src i/f:AdjPtr
--------------------------------------------------------------------
Pkts Bytes Age LastSeen Attributes
---------------------------------------------------
Mask Pi R CR Xt Prio Dsc IP_EN OP_EN Pattern Rpf FIN_RDT FIN/RST
----+--+-+--+--+----+---+-----+-----+-------+---+-------+-------
Ig/acli Ig/aclo Ig/qosi Ig/qoso Fpkt Gemini MC-hit Dirty Diags
-------+-------+-------+-------+----+------+------+-----+------
QoS Police Count Threshold Leak Drop Bucket Use-Tbl Use-Enable
-----------+------------+---------+-----------+----+-------+-------+----------+
127.0.0.19 127.0.0.16 udp :68 :67 1009: 0x0
72 3312 1170 20:43:24 L3 - Dynamic
0 1 0 0 1 0 0 1 1 0 0 0 0
0 0 0 0 0 0 0 0 0
0x0 0 0 0 NO 64 NO NO
Router#
Related Commands
|
|
|
|---|---|
Enables MLS IP for the internal router on the interface. |
|
Displays information about the hardware NetFlow IP. |
show mls ip cef rpf-table
To display the configuration of the RPF CEF table, use the show mls ip cef rpf-table command.
show mls ip cef rpf-table
Syntax Description
This command has no keywords or arguments.
Command Default
This command has no default settings.
Command Modes
EXEC (>)
Command History
|
|
|
|---|---|
12.2(18)ZY |
Support for this command was introduced. |
Examples
This example shows how to display the RPF CEF-table entries:
Router# show mls ip cef rpf-table
----------------------------------------------------------------------------
172.10.10.0/24 [0] Fa2/1, Fa2/2, Fa2/3, Fa2/4
172.10.20.0/24
172.10.30.0/24
10.10.0.0/16 [1] Gi1/1, Gi1/2
10.20.0.0/16
Router#
Related Commands
|
|
|
|---|---|
Defines an interface group in the RPF-VLAN table. |
show mls ip multicast
To display the MLS IP information, use the show mls ip multicast command.
show mls ip multicast [{capability [module num]} | connected | group} {{hostname | ip-address} [ip-mask]} | {interface {interface interface-number}} | {module number} | mdt | {source {hostname | ip-address}} | statistics | summary]
show mls ip multicast consistency-check [mroute-mlsm | {rp-sp [log [clear] | statistics]}]
Syntax Description
Command Default
This command has no default settings.
Command Modes
EXEC (>)
Command History
|
|
|
|---|---|
12.2(18)ZY |
Support for this command was introduced. |
Usage Guidelines
The interface-number argument designates the module and port number. Valid values for interface-number depend on the specified interface type and the chassis and module that are used. For example, if you specify a Gigabit Ethernet interface and have a 48-port 10/100BASE-T Ethernet module that is 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. These valid values also apply when entering the module number keyword and argument.
When you view the output, note that a colon (:) is used to separate the fields.
Examples
This example shows how to display general MLS IP-multicast information:
Router# show mls ip multicast
Multicast hardware switched flows:
(*, 224.1.1.1) Incoming interface: Vlan0, Packets switched: 0
Hardware switched outgoing interfaces: Vlan202
RPF-MFD installed
Total hardware switched flows : 1
Router#
This example shows how to display a summary of MLS information:
Router# show mls ip multicast summary
1 MMLS entries using 168 bytes of memory
Number of partial hardware-switched flows: 0
Number of complete hardware-switched flows: 1
Directly connected subnet entry install is enabled
Aggregation of routed oif is enabled
Hardware shortcuts for mvpn mroutes supported
Egress Mode of replication is enabled
Maximum route support is enabled
Router#
This example shows how to display MLS information on a specific interface:
Router# show mls ip multicast interface fastethernet 5/9
DstIP SrcIP Dst i/f:DstMAC Pkts Bytes
-----------------------------------------------------------------------
SrcDstPorts SrcDstEncap Age LastSeen
----------------------------------------
172.20.52.37 0.0.0.0 100: 00d0.5870.a4ff 1 129
Fa5/9,----- ARPA,ARPA 107 06:10:02
172.20.52.36 0.0.0.0 100 : 0050.7312.0cff 50 6403
Fa5/9,----- ARPA,ARPA 107 06:10:04
Number of Entries Found = 2
Router#
This example shows how to display information about the multicast-replication capabilities:
Router# show mls ip multicast capability
Current mode of replication is Ingress
auto replication mode detection is ON
Slot Multicast replication capability
2 Egress
5 Egress
6 Egress
8 Ingress
9 Ingress
Router#
This example shows how to display information about the mroute consistency-checker log:
Router# show mls ip multicast consistency-check mroute-mlsm
MMLS Consistancy checker of mroute-scan type is enabled
Inter scan period = 2 sec
Number of entry scanned = 20
Settle time = 60 sec
Storage for 1000 events (40000 bytes)
Mroute entry missed for a Shortcut : 0
Mroute entry was uneligible for a Shortcut : 0
Mroute entry rpf i/f mismatched with Shortcut : 0
Mroute oif in hw and Shortcut oif in sw : 0
Mroute oif in sw and Shortcut oif in sw : 0
Mroute oif in sw and Shortcut oif in hw : 0
Mroute #oif mismatched with Shortcut #oif : 0
.
.
.
<Output is truncated>
This example shows how to display a log of mismatches that have been detected and corrected:
Router# show mls ip multicast consistency-check rp-sp log
MLSM RP<->SP Consistency Checker Mismatch log for Table 0:
size 512 current-index 0
0 total used entries in log
Router#
Related Commands
|
|
|
|---|---|
Enables MLS IP shortcuts on the interface. |
show mls ip multicast bidir
To display the Bidir hardware-switched entries, use the show mls ip multicast bidir command.
show mls ip multicast bidir [{group {{hostname | ip-address} [ip-mask]}} | {interface {interface interface-number}} | {source {hostname | ip-address}}]
Syntax Description
Command Default
This command has no default settings.
Command Modes
EXEC (>)
Command History
|
|
|
|---|---|
12.2(18)ZY |
Support for this command was introduced. |
Examples
This example shows how to display the Bidir hardware-switched entries:
Router# show mls ip multicast bidir
Multicast hardware switched flows:
(*, 226.1.4.0) Incoming interface: Vlan51, Packets switched: 0
Hardware switched outgoing interfaces: Vlan51 Vlan30
RPF-MFD installed
(*, 227.1.4.0) Incoming interface: Gi2/1, Packets switched: 0
Hardware switched outgoing interfaces: Gi2/1 Vlan30
RPF-MFD installed
Router#
Related Commands
|
|
|
|---|---|
Sets the RPF scan interval for the Bidir rendezvous point. |
show mls ip multicast rp-mapping
To display the mappings for the PIM-Bidir group to active rendezvous points, use the show mls ip multicast rp-mapping command.
show mls ip multicast rp-mapping [rp-address] [df-cache | gm-cache]
Syntax Description
Command Default
This command has no default settings.
Command Modes
EXEC (>)
Command History
|
|
|
|---|---|
12.2(18)ZY |
Support for this command was introduced. |
Examples
This example shows how to display the mappings for the PIM group-to-active rendezvous points:
Router# show mls ip multicast rp-mapping
RP Address State DF-count GM-count
2.2.2.2 H 1 1
9.9.9.9 H 1 2
Router#
This example shows how to display information that is based on the DF list in the mapping cache of the route processor:
Router# show mls ip multicast rp-mapping df-cache
RP Address State DF State
9.9.9.9 H Vl30 H
Router#
This example shows how to display information that is based on the mapping cache of the route processor:
Router# show mls ip multicast rp-mapping gm-cache
State: H - Hardware Switched, I - Install Pending, D - Delete Pending,
Z - Zombie
RP Address State Group Mask State Packet/Byte-count
60.0.0.60 H 230.31.0.0 255.255.0.0 H 100/6400
Router#
show mls ip multicast sso
To display information about multicast high-availability SSO, use the show mls ip multicast sso command.
show mls ip multicast sso [statistics]
Syntax Description
statistics |
(Optional) Displays multicast high-availability SSO statistical information. |
Command Default
This command has no default settings.
Command Modes
EXEC (>)
Command History
|
|
|
|---|---|
12.2(18)ZY |
Support for this command was introduced. |
Examples
This example shows how to display multicast high-availability SSO information:
Router> show mls ip multicast sso
Multicast SSO is enabled
Multicast HA Parameters
---------------------------------------------------+------+
protocol convergence timeout 120 secs
flow leak percent 10
flow leak interval 20 secs
heartquake#
This example shows how to display statistical information about multicast high-availability SSO:
Router# show mls ip multicast sso statistics
Multicast HA Statistics: ACTIVE
--------------------------------------------------+------+
CHKPT msgs sent 5
CHKPT msgs send failed 0
CHKPT msgs send aborted 0
CHKPT met add msg sent 5
CHKPT met del msg sent 1
CHKPT icroif msg sent 1
MET HA met add enqueued 5
MET HA met del enqueued 1
ICROIF HA add enqueued 1
ICROIF HA del enqueued 0
CHKPT buffer failure 0
MET HA Reconstruction Statistics
--------------------------------------------------+------+
Number of met blks reconstructed 0
Number of normal sets reconstructed 0
Number of fixed sets reconstructed 0
Number of sets deleted 0
Number of blks not found 0
normal sets reconstruction failed 0
fixed set reconstruction failed 0
Multicast HA Statistics: STANDBY
--------------------------------------------------+------+
CHKPT msgs rcvd 5
CHKPT met add msg rcvd 5
CHKPT met del msg rcvd 1
CHKPT icroif msg rcvd 1
CHKPT msg unknown 0
CHKPT buffer failure 0
Router#
Related Commands
|
|
|
|---|---|
Configures the SSO parameters. |
show mls ip non-static
To display information for the software-installed nonstatic entries, use the show mls ip non-static command.
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 Default
This command has no default settings.
Command Modes
EXEC (>)
Command History
|
|
|
|---|---|
12.2(18)ZY |
Support for this command was introduced. |
Examples
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.
show mls ip routes [non-static | static] [count [module number] | detail [module number] | module number]
Syntax Description
Command Default
This command has no default settings.
Command Modes
EXEC (>)
Command History
|
|
|
|---|---|
12.2(18)ZY |
Support for this command was introduced. |
Examples
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
|
|
|
|---|---|
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.
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 Default
This command has no default settings.
Command Default
EXEC (>)
Command History
|
|
|
|---|---|
12.2(18)ZY |
Support for this command was introduced. |
Examples
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.
show mls ip statistics [count [module number] | detail [module number] | module number]
Syntax Description
Command Default
This command has no default settings.
Command Modes
EXEC (>)
Command History
|
|
|
|---|---|
12.2(18)ZY |
Support for this command was introduced. |
Examples
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 nde
To display information about the NDE hardware-switched flow, use the show mls nde command.
show mls nde
Syntax Description
This command has no arguments or keywords.
Command Default
This command has no default settings.
Command Modes
EXEC (>)
Command History
|
|
|
|---|---|
12.2(18)ZY |
Support for this command was introduced. |
Usage Guidelines
The output for Catalyst 6500 series switches includes the current NDE mode.
Examples
This example shows how to display information about the NDE hardware-switched flow on a Catalyst 6500 series switch:
Router# show mls nde
Netflow Data Export enabled (Interface Mode)
Exporting flows to 172.20.55.71 (9991)
Exporting flows from 10.6.60.120 (59020)
Version: 7
Include Filter not configured
Exclude Filter not configured
Total Netflow Data Export Packets are:
0 packets, 0 no packets, 0 records
Router#
Related Commands
show mls netflow
To display configuration information about the NetFlow hardware, use the show mls netflow command.
show mls netflow {aging | aggregation flowmask | creation | flowmask | {table-contention {detailed | summary}} | usage}
show mls netflow [ip | ipv6 | mpls] [any | count | destination {hostname | ip-address} | detail | dynamic | flow {tcp | udp} | module number | nowrap | source {hostname | ip-address} | sw-installed [non-static | static]]
Syntax Description
aging |
Displays the NetFlow-aging information. |
aggregation flowmask |
Displays the flow mask that is set for the currrent NetFlow aggregations. |
creation |
Displays the configured protocol-creation filters. |
flowmask |
Displays the current NetFlow IP and IPX flow mask. |
table-contention |
Displays the NetFlow table-contention level information. |
detailed |
Displays detailed NetFlow table-contention level information. |
summary |
Displays a summary of NetFlow table-contention levels. |
usage |
Displays the NetFlow table-usage notification status. |
ip |
(Optional) Displays information about the NetFlow IP table; see the show mls netflow ip command. |
ipv6 |
(Optional) Displays information about the NetFlow IPv6 table; see the show mls netflow ipv6 command. |
mpls |
(Optional) Displays information about the NetFlow MPLS table. |
any |
(Optional) Displays detailed NetFlow table-entry information with no test wrap. |
count |
(Optional) Displays the total number of MLS NetFlow IP entries. |
destination hostname |
(Optional) Displays the entries for a specific destination hostname. |
destination ip-address |
(Optional) Displays the entries for a specific destination IP address. |
detail |
(Optional) Specifies a detailed output. |
dynamic |
(Optional) Displays the hardware-created dynamic entries. |
flow tcp |
(Optional) Displays information about the TCP flows. |
flow udp |
(Optional) Displays information about the UDP flows. |
module number |
(Optional) Displays the entries that are downloaded on the specified module; see the "Usage Guidelines" section for valid values. |
nowrap |
(Optional) Displays information without text wrap. |
source hostname |
(Optional) Displays the entries for a specific source address. |
source ip-address |
(Optional) Displays the entries for a specific source IP address. |
sw-installed |
(Optional) Displays the routing NetFlow entries; see the show mls netflow ip sw-installed command. |
non-static |
(Optional) Displays information for software-installed static IP entries; see the show mls netflow ip sw-installed command. |
static |
(Optional) Displays information for the software-installed nonstatic IP entries; see the show mls netflow ip sw-installed command. |
Command Default
This command has no default settings.
Command Modes
EXEC (>)
Command History
|
|
|
|---|---|
12.2(18)ZY |
Support for this command was introduced. |
Usage Guidelines
The interface, macd, and macs keywords are not supported.
If you enter the show mls netflow ip command with no argument, the output of the show mls netflow ip routes and show mls netflow ip dynamic commands are displayed.
When you view the output, note that a colon (:) is used to separate the fields.
If you enable the NetFlow table-usage notification and the NetFlow table-usage exceeds a preset percentage threshold, a warning message is displayed. You can use the mls netflow usage notify command to set the threshold percentage and the time interval to check the NetFlow table usage.
The interface-number argument designates the module and port number. Valid values for interface-number depend on the specified interface type and the chassis and module that are used. For example, if you specify a Gigabit Ethernet interface and have a 48-port 10/100BASE-T Ethernet module that is 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. These valid values also apply when entering the module number keyword and argument.
Examples
This example shows how to display the NetFlow-aging configuration:
Router# show mls netflow aging
enable timeout packet threshold
------ ------- ----------------
normal aging true 300 N/A
fast aging true 32 100
long aging true 900 N/A
Router#
This example shows how to display the configured protocol-creation filters:
Router# show mls netflow creation
Excluded protocols:
port protocol
-------+----------
10 tcp
8 udp/tcp
Router#
This example shows how to display the flow mask that is set for the currrent NetFlow aggregation:
Router# show mls netflow aggregation flowmask
Current flowmask set for netflow aggregation : Dest only
Minimum flowmask required for netflow aggregation schemes
----------------------+-------------------+-----------------
Aggregation Scheme Min. Flowmask Status
----------------------+-------------------+-----------------
as Intf Src Dest disabled
protocol-port Full Flow disabled
source-prefix Intf Src Dest disabled
destination-prefix Dest only enabled
prefix Intf Src Dest disabled
Router#
This example shows how to display detailed information about the NetFlow table-contention level:
Router# show mls netflow table-contention detailed
Earl in Module 2
Detailed Netflow CAM (TCAM and ICAM) Utilization
================================================
TCAM Utilization : 0%
ICAM Utilization : 0%
Netflow TCAM count : 0
Netflow ICAM count : 0
Router#
This example shows how to display a summary of the NetFlow table-contention level:
Router# show mls netflow table summary
Earl in Module 2
Summary of Netflow CAM Utilization (as a percentage)
====================================================
TCAM Utilization : 0%
ICAM Utilization : 0%
Router#
This example shows how to display the NetFlow table-usage notification status:
Router# show mls netflow usage
Netflow table usage notification enabled at 80% every 300 seconds
Netflow table utilization of module 7 is 99%
Netflow table utilization of module 10 is 24%
Router#
Related Commands
show mls netflow ip
To display information about the hardware NetFlow IP, use the show mls netflow ip command.
show mls netflow ip any
show mls netflow ip count [module number]
show mls netflow ip destination {hostname | ip-address}[/ip-mask] [count [module number]] | detail | dynamic | flow {icmp | tcp | udp} | module number | nowrap | qos | source {hostname | ip-address}[/ip-mask] | sw-installed [non-static | static]
show mls netflow ip detail [module number | nowrap [module number]]
show mls netflow ip dynamic [count [module number]] [detail] [module number] [nowrap [module number]] [{qos [module number] [nowrap [module number]}]]
show mls netflow ip {flow {icmp | tcp | udp}} [count [module number]] | {destination {hostname | ip-address}[/ip-mask]} | detail | dynamic | flow {icmp | tcp | udp} | module number | nowrap | qos | source {hostname | ip-address} | sw-installed [non-static | static]
show mls netflow ip {module number}
show mls netflow ip qos [module number | nowrap [module number]]
show mls netflow ip source {hostname | ip-address}[/ip-mask] [count [module number]] | detail | dynamic | flow {icmp | tcp | udp} | module number | nowrap | qos | sw-installed [non-static | static]
Syntax Description
any |
Displays detailed NetFlow table-entry information with no test wrap. |
count |
Displays the total number of MLS NetFlow IP entries. |
module number |
(Optional) Displays the entries that are downloaded on the specified module; see the "Usage Guidelines" section for valid values. |
destination hostname |
Displays the entries for a specific destination hostname. |
destination ip-address |
Displays the entries for a specific destination IP address. |
/ip-mask |
(Optional) IP mask for a destination IP address. |
detail |
(Optional) Specifies a detailed output. |
dynamic |
Displays the hardware-created dynamic entries; see the show mls nde command. |
flow icmp |
Displays information about the ICMP flows. |
flow tcp |
Displays information about the TCP flows. |
flow udp |
Displays information about the UDP flows. |
nowrap |
Displays information without text wrap. |
qos |
Displays QoS microflow policing information. |
source hostname |
Displays the entries for a specific source address. |
source ip-address |
Displays the entries for a specific source IP address. |
sw-installed |
(Optional) Displays the routing NetFlow entries; see the show mls netflow ip sw-installed command. |
non-static |
(Optional) Displays information for software-installed static IP entries; see the show mls netflow ip sw-installed command. |
static |
(Optional) Displays information for the software-installed nonstatic IP entries; see the show mls netflow ip sw-installed command. |
Command Default
This command has no default settings.
Command Modes
EXEC (>)
Command History
|
|
|
|---|---|
12.2(18)ZY |
Support for this command was introduced. |
Usage Guidelines
If you enter the show mls netflow ip command with no arguments, the output of the show mls netflow ip sw-installed and show mls nde commands are displayed.
When you view the output, note that a colon (:) is used to separate the fields.
Examples
This example shows how to display information about any MLS NetFlow IP:
Router# show mls netflow ip
Displaying Netflow entries in Supervisor Earl
DstIP SrcIP Prot:SrcPort:DstPort Src i/f:AdjPtr
-----------------------------------------------------------------------------
Pkts Bytes Age LastSeen Attributes
---------------------------------------------------
12.1.1.2 11.1.1.2 tcp :3 :5 Fa5/11 :0x0
459983 21159218 6 07:45:13 L3 - Dynamic
12.1.1.2 11.1.1.3 tcp :3 :5 Fa5/11 :0x0
459984 21159264 6 07:45:13 L3 - Dynamic
Router#
This example shows how to display detailed NetFlow table-entry information:
Router# show mls netflow ip detail
Displaying Netflow entries in Supervisor Earl
DstIP SrcIP Prot:SrcPort:DstPort Src i/f:AdjPtr
--------------------------------------------------------------------
Pkts Bytes Age LastSeen Attributes
---------------------------------------------------
Mask Pi R CR Xt Prio Dsc IP_EN OP_EN Pattern Rpf FIN_RDT FIN/RST
----+--+-+--+--+----+---+-----+-----+-------+---+-------+-------
Ig/acli Ig/aclo Ig/qosi Ig/qoso Fpkt Gemini MC-hit Dirty Diags
-------+-------+-------+-------+----+------+------+-----+------
QoS Police Count Threshold Leak Drop Bucket Use-Tbl Use-Enable
-----------+------------+---------+-----------+----+-------+-------+----------+
172.30.46.2 172.30.45.2 4 :0 :0 Gi7/1: 0x0
140063 6442898 15 01:42:52 L3 - Dynamic
1 1 0 0 1 0 0 1 1 0 0 0 0
0 0 0 0 0 0 0 0 0
0x0 672645504 0 0 NO 31784 NO NO
Router#
This example shows how to display NetFlow table-entry information with no test wrap:
Router# show mls netflow ip nowrap
Displaying Netflow entries in Supervisor Earl
DstIP SrcIP Prot:SrcPort:DstPort Src i/f
:AdjPtr Pkts Bytes Age LastSeen Attributes
-----------------------------------------------------------------------
-
------------------------------------------------------------------
12.1.1.2 11.1.1.92 udp :63 :63 Fa5/11
:0x0 176339 8111594 912 22:31:15 L3 - Dynamic
12.1.1.2 11.1.1.93 udp :63 :63 Fa5/11
:0x0 176338 8111548 912 22:31:15 L3 - Dynamic
12.1.1.2 11.1.1.94 udp :63 :63 Fa5/11
:0x0 176338 8111548 912 22:31:15 L3 - Dynamic
12.1.1.2 11.1.1.95 udp :63 :63 Fa5/11
:0x0 176338 8111548 912 22:31:15 L3 - Dynamic
12.1.1.2 11.1.1.96 udp :63 :63 Fa5/11
:0x0 176338 8111548 912 22:31:15 L3 - Dynamic
12.1.1.2 11.1.1.97 udp :63 :63 Fa5/11
:0x0 176337 8111502 912 22:31:15 L3 - Dynamic
12.1.1.2 11.1.1.98 udp :63 :63 Fa5/11
:0x0 176337 8111502 912 22:31:15 L3 - Dynamic
12.1.1.2 11.1.1.99 udp :63 :63 Fa5/11
:0x0 176337 8111502 912 22:31:15 L3 - Dynamic
12.1.1.2 11.1.1.100 udp :63 :63 Fa5/11
:0x0 176337 8111502 912 22:31:15 L3 - Dynamic
Router#
This example shows how to display information about the MLS NetFlow on a specific IP address:
Router# show mls netflow ip destination 172.20.52.122
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 information about the MLS NetFlow on a specific flow:
Router# show mls netflow ip flow udp
Displaying Netflow entries in Supervisor Earl
DstIP SrcIP Prot:SrcPort:DstPort Src i/f:AdjPtr
--------------------------------------------------------------------
Pkts Bytes Age LastSeen Attributes
---------------------------------------------------
172.20.52.19 0.0.0.0 0 :0 :0 0 : 0
0 0 1407 11:01:32 L3 - Dynamic
Router#
This example shows how to display detailed information about the MLS NetFlow on a full-flow mask:
Router# show mls netflow ip 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
-----------+------------+---------+-----------+----+-------+-------+----------+
172.20.52.19 0.0.0.0 0 :0 :0 0 : 0
0 0 1464 11:02:31 L3 - Dynamic
0x0 0 0 0 NO 64 NO NO
Router#
This example shows how to display detailed information about a specific flow type:
Router# show mls netflow ip flow icmp
Displaying Netflow entries in Supervisor Earl
DstIP SrcIP Prot:SrcPort:DstPort Src i/f
:AdjPtr
>
>---------------------------------------------------------------------------
-
-
Pkts Bytes Age LastSeen Attributes
---------------------------------------------------
12.1.1.2 11.1.10.151 icmp:0 :0 Fa5/11
:0x0
1945 89470 1062 08:45:15 L3 - Dynamic
12.1.1.2 11.1.10.153 icmp:0 :0 Fa5/11
:0x0
1945 89470 1062 08:45:15 L3 - Dynamic
12.1.1.2 11.1.10.155 icmp:0 :0 Fa5/11
:0x0
1945 89470 1062 08:45:15 L3 - Dynamic
12.1.1.2 11.1.10.157 icmp:0 :0 Fa5/11
:0x0
1945 89470 1062 08:45:15 L3 - Dynamic
12.1.1.2 11.1.10.159 icmp:0 :0 Fa5/11
:0x0
1945 89470 1062 08:45:15 L3 - Dynamic
12.1.1.2 11.1.10.161 icmp:0 :0 Fa5/11
:0x0
1945 89470 1062 08:45:15 L3 - Dynamic
12.1.1.2 11.1.10.163 icmp:0 :0 Fa5/11
:0x0
Router#
This example shows how to display QoS information:
Router# show mls netflow ip qos
Displaying netflow qos information in Supervisor Earl
DstIP SrcIP Prot:SrcPort:DstPort Src i/f:AdjPtr
-------------------------------------------------------------------------
Pkts Bytes LastSeen QoS PoliceCount Threshold Leak
-------------------------------------------------------------------------
Drop Bucket
------------
xxx.xxxx.xxx.xxx xxx.xxx.xxx.xxx xxxx:63 :63 Fa5/11 :0x0
772357 35528422 17:59:01 xxx xxx xxx xxx
xxx xxx
Router#
Related Commands
show mls netflow ip sw-installed
To display information for the software-installed IP entries, use the show mls netflow ip sw-installed command.
show mls netflow ip sw-installed {non-static | static} [count [module number] | detail [module number] | module number]
Syntax Description
Command Default
This command has no default settings.
Command Modes
EXEC (>)
Command History
|
|
|
|---|---|
12.2(18)ZY |
Support for this command was introduced. |
Examples
This example shows how to display the software-installed nonstatic entries:
Router> show mls netflow ip sw-installed 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 netflow ip sw-installed 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 netflow ip sw-installed non-static count
Displaying Netflow entries in Supervisor Earl
Number of shortcuts = 0
Router>
show mls netflow ipv6
To display information about the hardware NetFlow IPv6 configuration, use the show mls netflow ipv6 command.
show mls netflow ipv6 any
show mls netflow ipv6 count [module number]
show mls netflow ipv6 destination ipv6-address[/ipv6-prefix] [count [module number]] | detail | dynamic | flow {icmp | tcp | udp} | module number | nowrap | qos | source ipv6-address[/ipv6-prefix] | sw-installed [non-static | static]
show mls netflow ipv6 detail [module number | nowrap [module number]]
show mls netflow ipv6 dynamic [count [module number]] [detail] [module number] [nowrap [module number]] [{qos [module number]] [nowrap [module number]}]
show mls netflow ipv6 {flow {icmp | tcp | udp}} [count [module number]] | {destination ipv6-address[/ipv6-prefix]} | detail | dynamic | flow {icmp | tcp | udp} | module number | nowrap | qos | {source ipv6-address[/ipv6-prefix]} | sw-installed [non-static | static]]
show mls netflow ipv6 {module number}
show mls netflow ipv6 qos [module number | nowrap [module number]]
show mls netflow ipv6 source ipv6-address[/ipv6-prefix] [count [module number]] | detail | dynamic | flow {icmp | tcp | udp} | module number | nowrap | qos | sw-installed [non-static | static]
Syntax Description
Command Default
This command has no default settings.
Command Default
EXEC (>)
Command History
|
|
|
|---|---|
12.2(18)ZY |
Support for this command was introduced. |
Examples
This example shows how to display information about the hardware NetFlow configuration:
Router# show mls netflow ipv6
Displaying Netflow entries in Supervisor Earl
DstIP SrcIP
-------------------------------------------------------------------------------
Prot:SrcPort:DstPort Src i/f :AdjPtr
Pkts Bytes Age LastSeen Attributes
------------------------------------------------------------------------------------------
50::2 47::2
tcp :16 :32 Vl47 :0x0
23758 1425480 4 23:48:36 L3 (IPv6) - Dynamic
50::2 47::3
tcp :16 :32 Vl47 :0x0
23758 1425480 4 23:48:36 L3 (IPv6) - Dynamic
50::2 47::4
tcp :16 :32 Vl47 :0x0
23758 1425480 4 23:48:36 L3 (IPv6) - Dynamic
50::2 47::5
tcp :16 :32 Vl47 :0x0
23758 1425480 4 23:48:36 L3 (IPv6) - Dynamic
50::2 47::6
tcp :16 :32 Vl47 :0x0
23758 1425480 4 23:48:36 L3 (IPv6) - Dynamic
Router#
This example shows how to display IPv6 microflow policing information:
Router# show mls netflow ipv6 qos
Displaying Netflow entries in Supervisor Earl
DstIP SrcIP
--------------------------------------------------------------------------------
Prot:SrcPort:DstPort Src i/f :AdjPtr Pkts Bytes
--------------------------------------------------------------------------------
LastSeen QoS PoliceCount Threshold Leak Drop Bucket
--------------------------------------------------------------------
101::3 100::2
icmp:0 :0 -- 0x0 0 0
22:22:09 0x0 0 0 0 NO 0
101::2 100::2
icmp:0 :0 -- 0x0 0 0
22:22:09 0x0 0 0 0 NO 0
Router#
This example shows how to display IPv6 microflow policing information for a specific module:
Router# show mls netflow ipv6 qos module 7
Displaying Netflow entries in module 7
DstIP SrcIP
--------------------------------------------------------------------------------
Prot:SrcPort:DstPort Src i/f :AdjPtr Pkts Bytes
--------------------------------------------------------------------------------
LastSeen QoS PoliceCount Threshold Leak Drop Bucket
--------------------------------------------------------------------
101::2 100::2
icmp:0 :0 -- 0x0 0 0
22:22:56 0x0 0 0 0 NO 0
101::3 100::2
icmp:0 :0 -- 0x0 0 0
22:22:56 0x0 0 0 0 NO 0
Router#
This example shows the output display when you turn off text wrapping:
Router# show mls netflow ipv6 qos nowrap
Displaying Netflow entries in Supervisor Earl
DstIP SrcIP Prot:SrcPort:DstPort Src i/f :AdjPtr Pkts Bytes LastSeen QoS PoliceCount Threshold Leak Drop Bucket
------------------------------------------------------------------------------------------ ------------------------------------------------------------------------------------------ ------------------------------------------------
101::3 100::2 icmp:0 :0 -- 0x0 0 0 22:22:19 0x0 0 0 0 NO 0
101::2 100::2 icmp:0 :0 -- 0x0 0 0 22:22:19 0x0 0 0 0 NO 0
Router#
This example shows the output display when you turn off text wrapping for a specific module:
Router# show mls netflow ipv6 qos nowrap module 7
Displaying Netflow entries in module 7
DstIP SrcIP Prot:SrcPort:DstPort Src i/f :AdjPtr Pkts Bytes LastSeen QoS PoliceCount Threshold Leak Drop Bucket
------------------------------------------------------------------------------------------ ------------------------------------------------------------------------------------------ ------------------------------------------------
101::3 100::2 icmp:0 :0 -- 0x0 0 0 22:22:38 0x0 0 0 0 NO 0
101::2 100::2 icmp:0 :0 -- 0x0 0 0 22:22:38 0x0 0 0 0 NO 0
Router#
Related Commands
|
|
|
|---|---|
Clears the MLS NetFlow-shortcut entries. |
show mls qos
To display MLS QoS information, use the show mls qos command.
show mls qos [{arp | ipv6 | ip | ipx | last | mac | maps [map-type]} [{interface interface-number} | {slot slot} | {null interface-number} | {port-channel number} | {vlan vlan-id}]]
Syntax Description
Command Default
This command has no default settings.
Command Modes
EXEC (>)
Command History
|
|
|
|---|---|
12.2(18)ZY |
Support for this command was introduced. |
Usage Guidelines
The interface-number argument designates the module and port number. Valid values for interface-number depend on the specified interface type and the chassis and module that are used. For example, if you specify a Gigabit Ethernet interface and have a 48-port 10/100BASE-T Ethernet module that is 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.
The port-channel number values from 257 to 282 are supported on the CSM and the FWSM only.
Valid values for map-types are defined as follows:
•cos-dscp—Specifies the ingress CoS-to-DSCP mapping to display; valid values are from 0 to 7.
•dscp-cos—Displays the egress DSCP-to-CoS mapping.
•dscp-exp—Displays the DSCP-to-EXP mapping on the MPLS domain ingress and egress; this keyword is not supported.
•exp-dscp—Displays the EXP-to-DSCP mapping on the MPLS domain ingress and egress; this keyword is not supported.
•ip-prec-dscp value—Specifies the ingress IP precedence-to-DSCP mapping to display; valid values are from 0 to 7.
•policed-dscp—Displays the policed DSCP values to marked-down DSCP values mapping.
The dscp-exp and exp-dscp options are supported on Catalyst 6500 series switches that are configured with a Supervisor Engine 720 only.
Examples
This example shows how to display information about the last logged packet:
Router# show mls qos last
QoS engine last packet information:
Packet was transmitted
Output TOS/DSCP: 0xC0/48[unchanged] Output COS: 0[unchanged]
Aggregate policer index: 0(none)
Microflow policer index: 0(none)
Router#
This example shows how to display the QoS-map settings:
Router# show mls qos maps
Policed-dscp map:
0 1 2 3 4 5 6 7 8 9
----------------------------------
00: 00 01 02 03 04 05 06 07 08 09
10: 10 11 12 13 14 15 16 17 18 19
20: 20 21 22 23 24 25 26 27 28 29
30: 30 31 32 33 34 35 36 37 38 39
40: 40 41 42 43 44 45 46 47 48 49
50: 50 51 52 53 54 55 56 57 58 59
60: 60 61 62 63
Dscp-cos map:
0 1 2 3 4 5 6 7 8 9
----------------------------------
00: 00 00 00 00 00 00 00 00 01 01
10: 01 01 01 01 01 01 02 02 02 02
20: 02 02 02 02 03 03 03 03 03 03
30: 03 03 04 04 04 04 04 04 04 04
40: 05 05 05 05 05 05 05 05 06 06
50: 06 06 06 06 06 06 07 07 07 07
60: 07 07 07 07
Cos-dscp map:
cos: 0 1 2 3 4 5 6 7
----------------------------------
dscp: 0 8 16 24 32 40 48 56
IpPrecedence-dscp map:
ipprec: 0 1 2 3 4 5 6 7
----------------------------------
dscp: 0 8 16 24 32 40 48 56
Router#
This example shows how to verify the configuration of DSCP-mutation mapping:
Router# show mls qos maps | begin DSCP mutation
DSCP mutation map mutmap1: (dscp= d1d2)
d1 : d2 0 1 2 3 4 5 6 7 8 9
-------------------------------------
0 : 00 01 02 03 04 05 06 07 08 09
1 : 10 11 12 13 14 15 16 17 18 19
2 : 20 21 22 23 24 25 26 27 28 29
3 : 08 31 32 33 34 35 36 37 38 39
4 : 40 41 42 43 44 45 46 47 48 49
5 : 50 51 52 53 54 55 56 57 58 59
6 : 60 61 62 63
<...Output Truncated...>
Router#
Note In the DSCP-mutation map displays, the marked-down DSCP values are shown in the body of the matrix. The first digit of the original DSCP value is in the column labeled d1, and the second digit is in the top row. In the example, DSCP 30 maps to DSCP 08.
This example shows how to display IPv6 information:
Router# show mls qos ipv6
QoS Summary [IPv6]: (* - shared aggregates, Mod - switch module)
Int Mod Dir Class-map DSCP Agg Trust Fl AgForward-By AgPoliced-By
Id Id
------------------------------------------------------------------------------
All 7 - Default 0 0* No 0 189115356 0
Router#
This example shows how to display QoS information:
Router# show mls qos
QoS is enabled globally
Microflow policing is enabled globally
QoS ip packet dscp rewrite enabled globally
QoS is disabled on the following interfaces:
Fa6/3 Fa6/4
QoS DSCP-mutation map is enabled on the following interfaces:
Fa6/5
Vlan or Portchannel(Multi-Earl) policies supported: Yes
Egress policies supported: Yes
----- Module [5] -----
QoS global counters:
Total packets: 164
IP shortcut packets: 0
Packets dropped by policing: 0
IP packets with TOS changed by policing: 0
IP packets with COS changed by policing: 0
Non-IP packets with COS changed by policing: 0
MPLS packets with EXP changed by policing: 0
Router#
Related Commands
|
|
|
|---|---|
Enables the QoS functionality globally. |
|
Enables the QoS functionality on an interface. |
show mls qos free-agram
To display the number of free aggregate RAM indexes on the switch processor, use the show mls qos free-agram command.
show mls qos free-agram
Syntax Description
This command has no keywords or arguments.
Command Default
This command has no default settings.
Command Default
EXEC (>)
Command History
|
|
|
|---|---|
12.2(18)ZY |
Support for this command was introduced. |
Examples
This example shows how to display the number of free aggregate RAM indexes on the switch processor :
Router# show mls qos free-agram
Total Number of Avalable AG RAM indices : 1023
Module [1]
Free AGIDs : 1023
Module [6]
Free AGIDs : 1023
Router#
show mls qos maps
To display information about the QoS-map configuration and runtime-version, use the show mls qos maps command.
show mls qos maps [cos-dscp | cos-mutation | dscp-cos | dscp-exp | dscp-mutation | exp-dscp | exp-mutation | ip-prec-dscp | policed-dscp]
Syntax Description
Command Default
This command has no default settings.
Command Modes
EXEC (>)
Command History
|
|
|
|---|---|
12.2(18)ZY |
Support for this command was introduced. |
Examples
This example shows how to display information about the QoS-map configuration and runtime version:
Router# show mls qos maps
Normal Burst Policed-dscp map: (dscp= d1d2)
d1 : d2 0 1 2 3 4 5 6 7 8 9
-------------------------------------
0 : 00 01 02 03 04 05 06 07 08 09
1 : 10 11 12 13 14 15 16 17 18 19
2 : 20 21 22 23 24 25 26 27 28 29
3 : 30 31 32 33 34 35 36 37 38 39
4 : 40 41 42 43 44 45 46 47 48 49
5 : 50 51 52 53 54 55 56 57 58 59
6 : 60 61 62 63
Maximum Burst Policed-dscp map: (dscp= d1d2)
d1 : d2 0 1 2 3 4 5 6 7 8 9
-------------------------------------
0 : 00 01 02 03 04 05 06 07 08 09
1 : 10 11 12 13 14 15 16 17 18 19
2 : 20 21 22 23 24 25 26 27 28 29
3 : 30 31 32 33 34 35 36 37 38 39
4 : 40 41 42 43 44 45 46 47 48 49
5 : 50 51 52 53 54 55 56 57 58 59
6 : 60 61 62 63
Dscp-cos map: (dscp= d1d2)
d1 : d2 0 1 2 3 4 5 6 7 8 9
-------------------------------------
0 : 00 00 00 00 00 00 00 00 01 01
1 : 01 01 01 01 01 01 02 02 02 02
2 : 02 02 02 02 03 03 03 03 03 03
3 : 03 03 04 04 04 04 04 04 04 04
4 : 05 05 05 05 05 05 05 05 06 06
5 : 06 06 06 06 06 06 07 07 07 07
6 : 07 07 07 07
Cos-dscp map:
cos: 0 1 2 3 4 5 6 7
------------------------------------
dscp: 0 8 16 24 32 40 48 56
IpPrecedence-dscp map:
ipprec: 0 1 2 3 4 5 6 7
------------------------------------
dscp: 0 8 16 24 32 40 48 56
Router#
This example shows how to display the configuration and runtime version of the CoS-to-CoS map:
Router# show mls qos maps cos-mutation
CoS mutation map test-map:
In-CoS : Out-CoS
------------------
0 : 0
1 : 1
2 : 2
3 : 1
4 : 1
5 : 1
6 : 6
7 : 7
Router#
Related Commands
show mls qos mpls
To display an interface summary for MPLS QoS classes in the policy maps, use the show mls qos mpls command.
show mls qos mpls [{interface interface-number} | {module slot}]
Syntax Description
Command Default
This command has no default settings.
Command Modes
EXEC (>)
Command History
|
|
|
|---|---|
12.2(18)ZY |
Support for this command was introduced. |
Usage Guidelines
This command is supported in PFC3BXL or PFC3B mode only.
The interface-number argument designates the module and port number. Valid values for interface-number depend on the specified interface type and the chassis and module that are used. For example, if you specify a Gigabit Ethernet interface and have a 48-port 10/100BASE-T Ethernet module that is 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.
Examples
This example shows how to display an interface summary for MPLS QoS classes in the policy maps:
Router# show mls qos mpls
QoS Summary [MPLS]: (* - shared aggregates, Mod - switch module)
Int Mod Dir Class-map DSCP Agg Trust Fl AgForward-By AgPoliced-By
Id Id
------------------------------------------------------------------------------------------ ----------------------------
Fa3/38 5 In exp2 0 1 dscp 0 378900 0
Fa3/41 5 In exp4 0 3 dscp 0 0 0
All 5 - Default 0 0* No 0 1191011240 0
Router#
Related Commands
|
|
|
|---|---|
Attaches an egress-EXP mutation map to the interface. |
|
Defines the ingress EXP value to the internal DSCP map. |
|
Maps a packet's EXP to a new EXP value. |
show mls qos protocol
To display protocol pass-through information, use the show mls qos protocol command.
show mls qos protocol [module num]
Syntax Description
module num |
(Optional) Specifies the module number. |
Command Default
This command has no default settings.
Command Default
EXEC (>)
Command History
|
|
|
|---|---|
12.2(18)ZY |
Support for this command was introduced. |
Examples
This example shows how to display protocol pass-through information:
Router# show mls qos protocol
RIP : Passthru mode
OSPF : Passthru mode
ND : Policing mode Cir = 32000 Burst = 1000
----- Module [5] -----
Routing protocol RIP is using AgId 0*
Routing protocol OSPF is using AgId 0*
Routing protocol ND is using AgId 1
----- Module [6] -----
Routing protocol RIP is using AgId 0*
Routing protocol OSPF is using AgId 0*
Router#
Related Commands
|
|
|
|---|---|
Defines the routing-protocol packet policing. |
show mls qos statistics-export info
To display information about the MLS-statistics data-export status and configuration, use the show mls qos statistics-export info command.
show mls qos statistics-export info
Syntax Description
This command has no keywords or arguments.
Command Default
This command has no default settings.
Command Modes
EXEC (>)
Command History
|
|
|
|---|---|
12.2(18)ZY |
Support for this command was introduced. |
Examples
This example shows how to display information about the MLS-statistics data-export status and configuration:
Router# show mls qos statistics-export info
QoS Statistics Data Export Status and Configuration information
---------------------------------------------------------------
Export Status : enabled
Export Interval : 250 seconds
Export Delimiter : @
Export Destination : 172.20.52.3, UDP port 514 Facility local6, Severity debug
QoS Statistics Data Export is enabled on following ports:
---------------------------------------------------------
FastEthernet5/24
QoS Statistics Data export is enabled on following shared aggregate policers:
-----------------------------------------------------------------------------
aggr1M
QoS Statistics Data Export is enabled on following class-maps:
---------------------------------------------------------------
class3
Router#
Related Commands
show mls rate-limit
To display information about the MLS rate limiter, use the show mls rate-limit command.
show mls rate-limit [usage]
Syntax Description
usage |
(Optional) Displays the feature that is used with the rate-limiter register. |
Command Default
This command has no default settings.
Command Modes
EXEC (>)
Command History
|
|
|
|---|---|
12.2(18)ZY |
Support for this command was introduced. |
Usage Guidelines
In the command output, the rate-limit status could be one of the following:
•On indicates a rate for that particular case has been set.
•Off indicates that the rate-limiter type has not been configured, and the packets for that case are not rate limited.
•On/Sharing indicates a particular case (not manually configured) is affected by the configuration of another rate limiter belonging to the same sharing group.
•A hyphen indicates that the multicast partial-SC rate limiter is disabled.
In the command output, the rate-limit sharing indicates the following information:
•Whether sharing is static or dynamic
•Group dynamic sharing codes
The show mls rate-limit usage command displays the hardware register that is used by a rate-limiter type. If the register is not used by any rate-limiter type, Free is displayed in the output. If the register is used by a rate-limiter type, Used and the rate-limiter type are displayed.
Examples
This example shows how to display information about the rate-limit status:
Router# show mls rate-limit
Sharing Codes: S - static, D - dynamic
Codes dynamic sharing: H - owner (head) of the group, g - guest of the group
Rate Limiter Type Status Packets/s Burst Sharing
--------------------- ---------- --------- ----- -------
MCAST NON RPF Off - - -
MCAST DFLT ADJ On 100000 100 Not sharing
MCAST DIRECT CON Off - - -
ACL BRIDGED IN Off - - -
ACL BRIDGED OUT Off - - -
IP FEATURES Off - - -
ACL VACL LOG On 2000 1 Not sharing
CEF RECEIVE Off - - -
CEF GLEAN Off - - -
MCAST PARTIAL SC On 100000 100 Not sharing
IP RPF FAILURE On 100 10 Group:0 S
TTL FAILURE On 1000 100 Not sharing
ICMP UNREAC. NO-ROUTE On 100 10 Group:0 S
ICMP UNREAC. ACL-DROP On 100 10 Group:0 S
ICMP REDIRECT Off - - -
MTU FAILURE On 1000 100 Not sharing
MCAST IP OPTION Off - - -
UCAST IP OPTION Off - - -
LAYER_2 PDU Off - - -
LAYER_2 PT Off - - -
LAYER_2 PORTSEC On 10000 1 Not sharing
IP ERRORS On 100 10 Group:0 S
CAPTURE PKT Off - - -
MCAST IGMP Off - - -
MCAST IPv6 DIRECT CON Off - - -
MCAST IPv6 ROUTE CNTL Off - - -
MCAST IPv6 *G M BRIDG Off - - -
MCAST IPv6 SG BRIDGE Off - - -
MCAST IPv6 DFLT DROP Off - - -
MCAST IPv6 SECOND. DR Off - - -
MCAST IPv6 *G BRIDGE Off - - -
MCAST IPv6 MLD Off - - -
IP ADMIS. ON L2 PORT Off - - -
Router#
This example shows how to display information about the rate-limit usage:
Router# show mls rate-limit usage
Rate Limiter Type Packets/s Burst
--------------------- --------- -----
Layer3 Rate Limiters:
RL# 0: Free - - -
RL# 1: Free - - -
RL# 2: Free - - -
RL# 3: Used
MCAST DFLT ADJ 100000 100
RL# 4: Used
MTU FAILURE 1000 100
RL# 5: Used
TTL FAILURE 1000 100
RL# 6: Used
IP RPF FAILURE 100 10
ICMP UNREAC. NO-ROUTE 100 10
ICMP UNREAC. ACL-DROP 100 10
IP ERRORS 100 10
RL# 7: Used
ACL VACL LOG 2000 1
RL# 8: Rsvd for capture - - -
Layer2 Rate Limiters:
RL# 9: Reserved
RL#10: Reserved
RL#11: Free - - -
RL#12: Used
LAYER_2 PORTSEC 10000 1
Router #
Related Commands
show mls sampling
To display information about the sampled NDE status, use the show mls sampling command.
show mls sampling
Syntax Description
This command has no keywords or arguments.
Command Default
This command has no default settings.
Command Modes
EXEC (>)
Command History
|
|
|
|---|---|
12.2(18)ZY |
Support for this command was introduced. |
Usage Guidelines
Sampled NetFlow is supported on Layer 3 interfaces only.
Examples
Router# show mls sampling
time-based sampling is enabled
1 out of every 1024 packets is being sampled.
Sampling Interval and Period is 4 millisec per 4096 millisec
Router#
Related Commands
|
|
|
|---|---|
Enables the sampled NetFlow on an interface. |
|
Enables the sampled NetFlow and specifies the sampling method. |
show mls statistics
To display the MLS statistics for the IP, multicast, Layer 2 protocol, and QoS, use the show mls statistics command.
show mls statistics [module num | protocol type]
Syntax Description
module num |
(Optional) Displays the MLS statistics for a specific module. |
protocol type |
(Optional) Displays MLS statistics information based on a protocol (such as Telnet, FTP, or WWW). |
Command Default
This command has no default settings.
Command Modes
EXEC (>)
Command History
|
|
|
|---|---|
12.2(18)ZY |
Support for this command was introduced. |
Usage Guidelines
The total packets switched performance displayed is the rate calculated as the average rate in a period within the last 30 seconds.
The ingress ACL denied packet count is displayed in the Total packets L3 Switched field and in the Total packets dropped by ACL field.
The RPF failed packet count is displayed in the Total packets L3 Switched field.
If the IP multicast source sends traffic to any multicast group that does not have an (*,G) entry present in the mroute table, the show mls statistics command displays these packets as incrementing in the Total Mcast Packets Switched/Routed field. These packets are dropped in the hardware because there are no receivers for that group and no entry in the mroute table.
Examples
This example shows how to display the MLS statistics for all modules:
Router# show mls statistics
Statistics for Earl in Module 2
L2 Forwarding Engine
Total packets Switched : 20273@ 22552 pps
L3 Forwarding Engine
Total Packets Bridged : 20273
Total Packets FIB Switched : 7864
Total Packets ACL Routed : 0
Total Packets Netflow Switched : 0
Total Mcast Packets Switched/Routed : 220598
Total ip packets with TOS changed : 0
Total ip packets with COS changed : 0
Total non ip packets COS changed : 0
Total packets dropped by ACL : 0
Total packets dropped by Policing : 705757744
Statistics for Earl in Module 9
L2 Forwarding Engine
Total packets Switched : 16683@ 1 pps
L3 Forwarding Engine
Total Packets Bridged : 0
Total Packets FIB Switched : 0
Total Packets ACL Routed : 0
Total Packets Netflow Switched : 0
Total Mcast Packets Switched/Routed : 0
Total ip packets with TOS changed : 0
Total ip packets with COS changed : 0
Total non ip packets COS changed : 0
Total packets dropped by ACL : 0
Total packets dropped by Policing : 277949053
Router#
This example shows how to display the MLS statistics for a specific module:
Router# show mls statistics module 1
Statistics for Earl in Module 1
L2 Forwarding Engine
Total packets Switched : 2748166@ 22332 pps
>>
L3 Forwarding Engine
Total Packets Bridged : 92750@ 34 pps
Total Packets FIB Switched : 7
Total Packets ACL Routed : 0
Total Packets Netflow Switched : 0
Total Mcast Packets Switched/Routed : 3079200
Total ip packets with TOS changed : 0
Total ip packets with COS changed : 0
Total non ip packets COS changed : 0
Total packets dropped by ACL : 0
Total packets dropped by Policing : 0
Total Unicast RPF failed packets : 0
Errors
MAC/IP length inconsistencies : 0
Short IP packets received : 0
IP header checksum errors : 0
MAC/IPX length inconsistencies : 0
Short IPX packets received : 0
Router#
show mls table-contention
To display TCL information, use the show mls table-contention command.
show mls table-contention {detailed | summary | aggregate}
Syntax Description
Command Default
This command has no default settings.
Command Modes
EXEC (>)
Command History
|
|
|
|---|---|
12.2(18)ZY |
Support for this command was introduced. |
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 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 mmls igmp explicit-tracking
To display information about the host-tracking database, use the show mmls igmp explicit-tracking command.
show mmls igmp explicit-tracking [vlan-id]
Syntax Description
vlan-id |
(Optional) VLAN ID; valid values are 1 to 4094. |
Command Default
This command has no default settings.
Command Modes
Switch processor—Privileged EXEC (Switch-sp#)
Command History
|
|
|
|---|---|
12.2(18)ZY |
Support for this command was introduced. |
Examples
This example shows how to display information about the host-tracking database for a specific VLAN:
Switch-sp# show mmls igmp explicit-tracking 27
Source/Group Interface Reporter Filter_mode
------------------------------------------------------------------------
10.1.1.1/224.1.1.1 Vl27:3/25 16.27.2.3 INCLUDE
10.2.2.2/224.1.1.1 Vl27:3/25 16.27.2.3 INCLUDE
Router#
show mmls msc
To display information about MMLS, use the show mmls msc command.
show mmls msc [cache | entry | icroif-cache | rpdf-cache | statistics | vpn]
Syntax Description
Command Default
This command has no default settings.
Command Modes
Switch processor—Privileged EXEC (Switch-sp#)
Command History
|
|
|
|---|---|
12.2(18)ZY |
Support for this command was introduced. |
Examples
This example shows how to display information about MMLS:
Switch-sp# show mmls msc
General Info
---------------------------------------------------+------+
Number shortcuts in software database 1890
Number of MFD in software database 1890
Router MAC 0001.64f8.1b00
Internal Vlan 4093
Aggregation Vlan 0
Aggregation Indexes 0
Current Size of inputQ 0
Maximum Size of inputQ 2
flow statistics timeout [sec] 25
non-rpf MFDs purge timeout [sec] 20
non-rpf MFDs aging timeout [sec] 2.0
Switch-sp#
This example shows how to display information about the MMLS shortcut-process cache:
Switch-sp# show mmls msc cache
-------------macg cache buckets for vpn 0-----------------
Bucket 90 #g: 1
Group mac address: 0100.5e01.0105
$$$ (S,G,C): (100.0.0.4, 224.1.1.5, 100) mfd_flag: 1 type: Sparse
$$$ (S,G,C): (0.0.0.0, 224.1.1.5, 1) mfd_flag: 1 type: Sparse
### vlan: 100 sc_count: 0 rpf_count: 1
### vlan: 1 sc_count: 0 rpf_count: 1
Bucket 91 #g: 1
Group mac address: 0100.5e01.0104
$$$ (S,G,C): (100.0.0.4, 224.1.1.4, 100) mfd_flag: 1 type: Sparse
$$$ (S,G,C): (0.0.0.0, 224.1.1.4, 1) mfd_flag: 1 type: Sparse
### vlan: 100 sc_count: 0 rpf_count: 1
### vlan: 1 sc_count: 0 rpf_count: 1
Bucket 92 #g: 1
Group mac address: 0100.5e01.0103
$$$ (S,G,C): (100.0.0.4, 224.1.1.3, 100) mfd_flag: 1 type: Sparse
$$$ (S,G,C): (0.0.0.0, 224.1.1.3, 1) mfd_flag: 1 type: Sparse
### vlan: 100 sc_count: 0 rpf_count: 1
### vlan: 1 sc_count: 0 rpf_count: 1
Bucket 93 #g: 1
Group mac address: 0100.5e01.0102
$$$ (S,G,C): (100.0.0.4, 224.1.1.2, 100) mfd_flag: 1 type: Sparse
$$$ (S,G,C): (0.0.0.0, 224.1.1.2, 1) mfd_flag: 1 type: Sparse
### vlan: 100 sc_count: 0 rpf_count: 1
### vlan: 1 sc_count: 0 rpf_count: 1
Bucket 94 #g: 1
Group mac address: 0100.5e01.0101
$$$ (S,G,C): (100.0.0.4, 224.1.1.1, 100) mfd_flag: 1 type: Sparse
$$$ (S,G,C): (0.0.0.0, 224.1.1.1, 1) mfd_flag: 1 type: Sparse
### vlan: 100 sc_count: 0 rpf_count: 1
### vlan: 1 sc_count: 0 rpf_count: 1
Switch-sp#
This example shows how to display dump ICROIF-cache information:
Switch-sp# show mmls msc icroif-cache
msc_local_icroif_index: 0x493
msc_global_icroif_index: 0x494
ICROIF CACHE:
-------------
Module mask: 0x8 Icroif_index: 0x495
Switch-sp#
This example shows how to display a dump list of DF interfaces for the PIM-RPs:
Switch-sp# show mmls msc rpdf-cache
--------------- RP-CACHE [VPN-0] --------------
Bucket# :0
RP-addr: 1.0.0.1, Rpf: 0 Vpn: 0
DF-index: 0
DF-list: 201 202 203 204 205 206 207 208 209 210
211 212
Group-list:
(224.1.0.0/24, H)
G/m-count: 1, G/32-count: 1
Bucket# :2
RP-addr: 3.0.0.1, Rpf: 0 Vpn: 0
DF-index: 2
DF-list: 201 202 203 204 205 206 207 208 209 210
211 212
Group-list:
(224.1.2.0/24, H)
G/m-count: 1, G/32-count: 0
Bucket# :3
RP-addr: 2.0.0.1, Rpf: 0 Vpn: 0
DF-index: 1
DF-list: 201 202 203 204 205 206 207 208 209 210
211 212
Group-list:
(224.1.1.0/24, H)
G/m-count: 1, G/32-count: 1
Bucket# :5
RP-addr: 4.0.0.1, Rpf: 0 Vpn: 0
DF-index: 3
DF-list: 201 202 203 204 205 206 207 208 209 210
211 212
Group-list:
(224.1.3.0/24, H)
G/m-count: 1, G/32-count: 0
Switch-sp#
This example shows how to display the statistics for the multicast-shortcut process:
Switch-sp# show mmls msc statistics
Communication Statistics
--------------------------------------------------+------+
Number MSM PDU Received 1
Number MSM PDU Sent 1
Unsolicited Feature Notification Sent 1
Feature Notification Received 2
Feature Notification Sent 2
Stop retry Sent 0
Stop download Sent 0
Error Statistics
--------------------------------------------------+------+
L2 entry not found 0
LTL full error 0
MET full error 0
Debug Statistics
--------------------------------------------------+------+
HW Met failure 0
HW Dist failure 0
HW L3 Install failure 0
HW L3 Update failure 0
TLV Statistics
--------------------------------------------------+------+
INSTALL TLV Received 0
SELECTIVE DELETE TLV Received 0
GROUP DELETE TLV Received 0
UPDATE TLV Received 0
INPUT VLAN DELETE TLV Received 0
OUTPUT VLAN DELETE TLV Received 0
GLOBAL DELETE TLV Received 0
MFD INSTALL TLV Received 0
MFD DELETE TLV Received 0
MFD GLOBAL DELETE Received 0
NRPF MFD INSTALL TLV Received 0
NRPF MFD DELETE TLV Received 0
SUBNET INSTALL TLV Received 15
SUBNET DELETE TLV Received 0
MVPN INSTALL TLV Received 0
MVPN SELECTIVE DELETE TLV Received 0
MVPN UPDATE TLV Received 0
MVPN GROUP DELETE TLV Received 0
MVPN MFD INSTALL TLV Received 0
MVPN MFD DELETE TLV Received 0
MVPN BIDIR RPDF UPDATE TLV Received 0
MVPN BIDIR RP UPDATE TLV Received 0
MVPN BIDIR CLEAR ALL GRP TLV Received 0
MVPN BIDIR CLEAR RP GRP TLV Received 0
MVPN BIDIR CLEAR ALL DF TLV Received 0
MVPN BIDIR CLEAR RP DF TLV Received 0
MVPN BIDIR CLEAR ALL RP TLV Received 0
MVPN BIDIR NONDF INSTALL TLV Received 0
INSTALL TLV Ack Sent 0
SELECTIVE DELETE TLV Ack Sent 0
GROUP DELETE TLV Ack Sent 0
UPDATE TLV Ack Sent 0
INPUT VLAN DELETE TLV Ack Sent 0
OUTPUT VLAN DELETE TLV Ack Sent 0
GLOBAL DELETE TLV Ack Sent 0
MFD INSTALL TLV Ack Sent 0
MFD DELETE TLV Ack Sent 0
MFD GLOBAL DELETE Ack Sent 0
NRPF MFD INSTALL TLV Ack Sent 0
NRPF MFD DELETE TLV Ack Sent 0
SUBNET INSTALL TLV Ack Sent 15
SUBNET DELETE TLV Ack Sent 0
MVPN INSTALL TLV Ack Sent 0
MVPN SELECTIVE DELETE TLV Ack Sent 0
MVPN UPDATE TLV Ack Sent 0
MVPN GROUP DELETE TLV Ack Sent 0
MVPN MFD INSTALL TLV Ack Sent 0
MVPN MFD DELETE TLV Ack Sent 0
MVPN BIDIR RPDF UPDATE TLV Ack Sent 0
MVPN BIDIR RP UPDATE TLV Ack Sent 0
MVPN BIDIR CLEAR ALL GRP TLV Ack Sent 1
MVPN BIDIR CLEAR RP GRP TLV Ack Sent 0
MVPN BIDIR CLEAR ALL DF TLV Ack Sent 0
MVPN BIDIR CLEAR RP DF TLV Ack Sent 0
MVPN BIDIR CLEAR ALL RP TLV Ack Sent 0
MVPN BIDIR NONDF INSTALL TLV Ack Sent 0
TLV Error Statistics
--------------------------------------------------+------+
Generic error 0
L3 entry exist error 0
Hash collision error 0
L3 entry not found 0
MFD exist error 0
MFD not found error 0
Invalid subnet error 0
Bidir-RP not found error 0
Bidir-DF partial fail error 0
Bidir-DF Table full error 0
TLV Debug Statistics
--------------------------------------------------+------+
Non RPF L3 failure 0
Bidir DF install 0
Bidir DF failure 0
Bidir NDF install 0
Bidir NDF failure 0
Bidir DF err-tlv sent 0
Bidir GRP err-tlv sent 0
Switch-sp#
show mobility
To display information about the Layer 3 mobility and the wireless network, use the show mobility command.
show mobility {{ap [ipaddr]} | {mn [ip ipaddr]} | {mac mac-addr} | {network network-id} | status}
Syntax Description
Command Default
This command has no default settings.
Command Modes
EXEC (>)
Command History
|
|
|
|---|---|
12.2(18)ZY |
Support for this command was introduced. |
Usage Guidelines
This command is supported on Catalyst 6500 series switches that are configured with a WLSM only.
Examples
This example shows how to display information about the access point:
Router# show mobility ap
AP IP Address AP Mac Address Wireless Network-ID
--------------- -------------- -------------------
148.1.1.2 000d.29a2.a852 101 102 109 103
Router#
This example shows how to display information about the access points for a specific network ID:
Router# show mobility ap 148.1.1.2 detail
IP Address : 148.1.1.2
MAC Address : 000d.29a2.a852
Participating Wireless Tunnels: 101, 102, 109, 103
Registered Mobile Nodes on AP {148.1.1.2, 000d.29a2.a852} :
MN Mac Address MN IP Address AP IP Address Wireless Network-ID
-------------- --------------- --------------- -------------------
000a.8afa.85c9 10.1.3.11 148.1.1.2 103
000d.bdb7.83f7 10.1.2.11 148.1.1.2 102
000d.bdb7.83fb 10.1.1.11 148.1.1.2 101
Router#
Router# show mobility network-id 101
Wireless Network ID : 101
Wireless Tunnel Source IP Address : 1.1.1.1
Wireless Network Properties : Trusted
Wireless Network State : Up
Registered Access Point on Wireless Network 101:
AP IP Address AP Mac Address Wireless Network-ID
--------------- -------------- -------------------
148.1.1.2 000d.29a2.a852 101 102 109 103
Registered Mobile Nodes on Wireless Network 101:
MN Mac Address MN IP Address AP IP Address Wireless Network-ID
-------------- --------------- --------------- -------------------
000d.bdb7.83fb 10.1.1.11 148.1.1.2 101
Router#
Router# show mobility status
WLAN Module is located in Slot: 4 (HSRP State: Active) LCP
Communication status : up
MAC address used for Proxy ARP: 0030.a349.d800
Number of Wireless Tunnels : 1
Number of Access Points : 2
Number of Mobile Nodes : 0
Wireless Tunnel Bindings:
Src IP Address Wireless Network-ID Flags
--------------- ------------------- -------
1.1.1.1 101 B
Flags: T=Trusted, B=IP Broadcast enabled, A=TCP Adjust-mss enabled
Router#
Related Commands
|
|
|
|---|---|
Configures the wireless mGRE tunnels. |
show module
To display the module status and information, use the show module command.
show module [mod-num | all | power | provision | version]
Syntax Description
Command Default
This command has no default settings.
Command Modes
EXEC (>)
Command History
|
|
|
|---|---|
12.2(18)ZY |
Support for this command was introduced. |
Usage Guidelines
In the Mod Sub-Module fields, the show module command displays the supervisor engine number but appends the uplink daughter card's module type and information.
Entering the show module command with no arguments is the same as entering the show module all command.
Examples
This example shows how to display information for all modules on a Catalyst 6500 series switch that is configured with a Supervisor Engine 720:
Router# show module
Mod Ports Card Type Model Serial No.
--- ----- -------------------------------------- ------------------ -----------
5 2 Supervisor Engine 720 (Active) WS-SUP720-BASE SAD0644030K
8 48 aCEF720 48 port 10/100/1000 Ethernet WS-X6748-GE-TX SAD07010045
9 32 dCEF720 32 port Gigabit Ethernet WS-X6832-SFP SAD07010045
Mod MAC addresses Hw Fw Sw Status
--- ---------------------------------- ------ ------------ ------------ -------
5 00e0.aabb.cc00 to 00e0.aabb.cc3f 1.0 12.2(2003012 12.2(2003012 Ok
8 0005.9a3b.d8c4 to 0005.9a3b.d8c7 0.705 7.1(0.12-Eng 12.2(2003012 Ok
9 00e0.b0ff.f0f4 to 00e0.b0ff.f0f5 0.207 12.2(2002082 12.2(2003012 Ok
Mod Sub-Module Model Serial Hw Status
--- --------------------------- --------------- --------------- ------- -------
5 Policy Feature Card 3 WS-F6K-PFC3 SAD0644031P 0.302 Ok
5 PISA Daughtercard WS-SUP720 SAD06460172 0.701
Mod Online Diag Status
--- -------------------
5 Not Available
7 Bypass
8 Bypass
9 Bypass
Router#
This example shows how to display information for a specific module:
Router# show module 2
Mod Ports Card Type Model Serial No.
--- ----- -------------------------------------- ------------------ -----------
5 2 Supervisor Engine 720 (Active) WS-SUP720-BASE SAD0644030K
Mod MAC addresses Hw Fw Sw Status
--- ---------------------------------- ------ ------------ ------------ -------
5 00e0.aabb.cc00 to 00e0.aabb.cc3f 1.0 12.2(2003012 12.2(2003012 Ok
Mod Sub-Module Model Serial Hw Status
--- --------------------------- --------------- --------------- ------- -------
5 Policy Feature Card 3 WS-F6K-PFC3 SAD0644031P 0.302 Ok
5 PISA Daughtercard WS-SUP720 SAD06460172 0.701
Mod Online Diag Status
--- -------------------
5 Not Available
Router#
This example shows how to display version information:
Router# show module version
Mod Port Model Serial # Versions
--- ---- ------------------ ----------- --------------------------------------
2 0 WS-X6182-2PA Hw : 1.0
Fw : 12.2(20030125:231135)
Sw : 12.2(20030125:231135)
4 16 WS-X6816-GBIC SAD04400CEE Hw : 0.205
6 2 WS-X6K-SUP3-BASE SAD064300GU Hw : 0.705
Fw : 7.1(0.12-Eng-02)TAM
Sw : 12.2(20030125:231135)
Sw1: 8.1(0.45)KIS
WS-X6K-SUP3-PFC3 SAD064200VR Hw : 0.701
Fw : 12.2(20021016:001154)
Sw : 12.2(20030125:231135)
WS-F6K-PFC3 SAD064300M7 Hw : 0.301
9 48 WS-X6548-RJ-45 SAD04490BAC Hw : 0.301
Fw : 6.3(1)
Sw : 7.5(0.30)CFW11
Router#
This example shows how to display the administration and operating status of the modules:
Router# show module power
Mod Card Type Admin Status Oper Status
--- -------------------------------------- ------------ ------------
1 SFM-capable 48-port 10/100 Mbps RJ45 on on
4 SFM-capable 16 port 1000mb GBIC on on
5 Supervisor Engine 720 (Active) on on
Router#
This example shows how to display module provisioning information:
Router# show module provision
Module Provision
1 dynamic
2 dynamic
3 dynamic
4 dynamic
5 dynamic
6 dynamic
7 dynamic
8 dynamic
9 dynamic
10 dynamic
11 dynamic
12 dynamic
13 dynamic
Router#
show monitor permit-list
To display the permit-list state and interfaces configured, use the show monitor permit-list command.
show monitor permit-list
Syntax Description
This command has no keywords or arguments.
Command Default
This command has no default settings.
Command Modes
EXEC (>)
Command History
|
|
|
|---|---|
12.2(18)ZY |
Support for this command was introduced. |
Examples
This example shows how to display the permit-list state and interfaces configured:
Router# show monitor permit-list
SPAN Permit-list :Admin Enabled
Permit-list ports :Gi5/1-4,Gi6/1
Router(config)#
Related Commands
|
|
|
|---|---|
Configures a destination port permit list or adds to an existing destination port permit list. |
show monitor session
To display information about the ERSPAN, SPAN and RSPAN sessions, use the show monitor session command.
show monitor session [{range session-range} | local | remote | all | session]
show monitor session [erspan-destination | erspan-source] [detail]
Syntax Description
Command Default
This command has no default settings.
Command Modes
EXEC (>)
Command History
|
|
|
|---|---|
12.2(18)ZY |
Support for this command was introduced. |
Usage Guidelines
When entering a range of sessions, use a dash (-) to specify a range and separate multiple entries with a comma (,). Do not enter spaces before or after the comma or the dash.
You can enter multiple ranges by separating the ranges with a comma.
If you enter the show monitor session command without specifying a session, the information for all sessions is displayed.
Examples
This example shows how to display the saved version of the monitor configuration for a specific session:
Router# show monitor session 2
Session 2
------------
Type : Remote Source Session
Source Ports:
RX Only: Fa1/1-3
Dest RSPAN VLAN: 901
Router#
This example shows how to display the detailed information from a saved version of the monitor configuration for a specific session:
Router# show monitor session 2 detail
Session 2
------------
Type : Remote Source Session
Source Ports:
RX Only: Fa1/1-3
TX Only: None
Both: None
Source VLANs:
RX Only: None
TX Only: None
Both: None
Source RSPAN VLAN: None
Destination Ports: None
Filter VLANs: None
Dest RSPAN VLAN: 901
Router#
This example shows how to display information about the destination ERSPAN sessions only:
Router# show monitor session erspan-destination
Session 2
---------
Type : ERSPAN Destination Session
Status : Admin Disabled
Router#
This example shows how to display detailed information about the destination ERSPAN sessions only:
Router# show monitor session erspan-destination detail
Session 2
---------
Type : ERSPAN Destination Session
Status : Admin Disabled
Description : -
Source Ports :
RX Only : None
TX Only : None
Both : None
Source VLANs :
RX Only : None
TX Only : None
Both : None
Source RSPAN VLAN : None
Destination Ports : None
Filter VLANs : None
Destination RSPAN VLAN : None
Source IP Address : None
Source IP VRF : None
Source ERSPAN ID : None
Destination IP Address : None
Destination IP VRF : None
Destination ERSPAN ID : None
Origin IP Address : None
IP QOS PREC : 0
IP TTL : 255
Router#
This example shows how to display information about the source ERSPAN sessions only:
Router# show monitor session erspan-source
Session 1
---------
Type : ERSPAN Source Session
Status : Admin Disabled
Session 3
---------
Type : ERSPAN Source Session
Status : Admin Disabled
Router#
This example shows how to display detailed information about the source ERSPAN sessions only:
Router# show monitor session erspan-source detail
Session 1
---------
Type : ERSPAN Source Session
Status : Admin Disabled
Description : -
Source Ports :
RX Only : None
TX Only : None
Both : None
Source VLANs :
RX Only : None
TX Only : None
Both : None
Source RSPAN VLAN : None
Destination Ports : None
Filter VLANs : None
Destination RSPAN VLAN : None
Source IP Address : None
Source IP VRF : None
Source ERSPAN ID : None
Destination IP Address : None
Destination IP VRF : None
Destination ERSPAN ID : None
Origin IP Address : None
IP QOS PREC : 0
IP TTL : 255
Session 3
---------
Type : ERSPAN Source Session
Status : Admin Disabled
Description : -
Source Ports :
RX Only : None
TX Only : None
Both : None
Source VLANs :
RX Only : None
TX Only : None
Both : None
Source RSPAN VLAN : None
Destination Ports : None
Filter VLANs : None
Destination RSPAN VLAN : None
Source IP Address : None
Source IP VRF : None
Source ERSPAN ID : None
Destination IP Address : None
Destination IP VRF : None
Destination ERSPAN ID : None
Origin IP Address : None
IP QOS PREC : 0
IP TTL : 255
Router#
Related Commands
show mpls l2transport vc
To display the state of virtual circuits on a router, use the show mpls l2transport vc command.
show mpls l2transport vc [detail] [[vc-id ] | [vc-id-min] vc-id-max] | [summary]
Syntax Description
Command Default
This command has no default settings.
Command Modes
EXEC (>)
Command History
|
|
|
|---|---|
12.2(18)ZY |
Support for this command was introduced. |
Examples
This example shows how to display the status of the virtual circuits on the switch:
Router# show mpls l2transport vc
Transport Client VC Local Remote Tunnel
VC ID Intf State VC Label VC Label Label
4 Vl4 UP 23 21 77
101 Vl101 UP 24 22 77
Router#
This example shows the output of the summary keyword:
Router# show mpls l2transport vc summary
MPLS interface VC summary:
interface: Gi8/1, programmed imposition vcs: 1
interface: Gi8/3, programmed imposition vcs: 1
VC summary (active/non-active) by destination:
destination: 13.0.0.1, Number of locally configured vc(s): 2
Router#
This example shows the detailed information about the currently routed virtual circuits on the switch interfaces:
Router# show mpls l2transport vc detail
VC ID: 111, Local Group ID: 5, Remote Group ID: 2 (VC is up)
Client Intf: Gi1/0.1 is up, Destination: 2.2.2.2, Peer LDP Ident: 2.2.2.2:0
Local VC Label: 17, Remote VC Label: 17, Tunnel Label: 16
Outgoing Interface: Gi0/0, Next Hop: 12.1.1.3
Local MTU: 1500, Remote MTU: 1500
Remote interface description: GigabitEthernet0/0.1
Imposition: LC Programmed
Current Imposition/Last Disposition Slot: 1/255
Packet Totals(in/out): 0/0
Byte totals(in/out): 0/0
VC ID: 123, Local Group ID: 6, Remote Group ID: 3 (VC is up)
Client Intf: Gi1/0.2 is up, Destination: 2.2.2.2, Peer LDP Ident: 2.2.2.2:0
Local VC Label: 18, Remote VC Label: 19, Tunnel Label: 16
Outgoing Interface: Gi0/0, Next Hop: 12.1.1.3
Local MTU: 1500, Remote MTU: 1500
Remote interface description: GigabitEthernet0/0.2
Imposition: LC Programmed
Current Imposition/Last Disposition Slot: 1/255
Packet Totals(in/out): 0/0
Byte totals(in/out): 0/0
Router#
This example shows information about the detailed virtual circuit for a specified virtual circuit:
Router# show mpls l2transport vc 111 detail
VC ID: 111, Local Group ID: 5, Remote Group ID: 2 (VC is up)
Client Intf: Gi1/0.1 is up, Destination: 2.2.2.2, Peer LDP Ident: 2.2.2.2:0
Local VC Label: 17, Remote VC Label: 17, Tunnel Label: 16
Outgoing Interface: Gi0/0, Next Hop: 12.1.1.3
Local MTU: 1500, Remote MTU: 1500
Remote interface description: GigabitEthernet0/0.1
Imposition: LC Programmed
Current Imposition/Last Disposition Slot: 1/255
Packet Totals(in/out): 0/0
Byte totals(in/out): 0/0
Router#
Table 2-83 describes the fields that are shown in the example.
Related Commands
|
|
|
|---|---|
Enables routing of Layer 2 packets over MPLS. |
show mpls platform
To display platform-specific information, use the show mpls platform command.
show mpls platform {common | eompls | gbte-tunnels | reserved-vlans vlan vlan-id | {statistics [reset]} | vpn-vlan-mapping}
Syntax Description
Command Default
This command has no default settings.
Command Modes
EXEC (>)
Command History
|
|
|
|---|---|
12.2(18)ZY |
Support for this command was introduced. |
Examples
This example shows how to display the counters for shared code between the LAN and WAN interfaces:
Router# show mpls platform common
Common MPLS counters for LAN and WAN
-------------------------------------
No. of MPLS configured LAN interfaces = 12
No. of cross-connect configured VLAN interfaces = 0
Router#
This example shows how to display the EoMPLS-enabled interface information:
Router# show mpls platform eompls
Interface VLAN
GigabitEthernet 101
FastEthernet6/1 2022
Router#
This example shows how to display the GBTE-tunnels information:
Router# show mpls platform gbte-tunnels
To From InLbl I/I/F kbps Kbits H/W Info
Router#
This example shows how to display the RP-reserved VLAN show commands:
Router# show mpls platform reserved-vlans vlan 1005
Router#
Note This example shows the output if there are no configured reserved VLANs.
This example shows how to display the information about the RP-control plane statistics:
Router# show mpls platform statistics
RP MPLS Control Plane Statistics:
==================================================
Reserved VLAN creates 0000000001
Reserved VLAN frees 0000000000
Reserved VLAN creation failures 0000000000
Aggregate Label adds 0000000001
Aggregate Label frees 0000000000
Aggregate Labels in Superman 0000000001
Feature Rsvd VLAN Reqs 0000000000
Feature Gen Rsvd VLAN Reqs 0000000000
Feature Rsvd VLAN Free Reqs 0000000000
EoMPLS VPN# Msgs 0000000009
EoMPLS VPN# Msg Failures 0000000000
EoMPLS VPN# Msg Rsp Failures 0000000000
EoMPLS VPN# Set Reqs 0000000010
EoMPLS VPN# Reset Reqs 0000000008
FIDB mallocs 0000000000
FIDB malloc failures 0000000000
FIDB frees 0000000000
EoMPLS Req mallocs 0000000018
EoMPLS Req malloc failures 0000000000
EoMPLS Req frees 0000000018
EoMPLS VPN# allocs 0000000010
EoMPLS VPN# frees 0000000008
EoMPLS VPN# alloc failures 0000000000
GB TE tunnel additions 0000000000
GB TE tunnel label resolves 0000000000
GB TE tunnel deletions 0000000000
GB TE tunnel changes 0000000000
GB TE tunnel heads skips 0000000000
gb_flow allocs 0000000000
gb_flow frees 0000000000
rsvp req creats 0000000000
rsvp req frees 0000000000
rsvp req malloc failures 0000000000
gb_flow malloc failures 0000000000
psb search failures 0000000000
GB TE tunnel deleton w/o gb_flow 0000000000
errors finding slot number 0000000000
Router#
This example shows how to reset the RP-control plane statistics counters:
Router# show mpls platform statistics reset
Resetting Const RP MPLS control plane software statistics ...
GB TE tunnel additions 0000000000
GB TE tunnel label resolves 0000000000
GB TE tunnel deletions 0000000000
GB TE tunnel changes 0000000000
GB TE tunnel heads skips 0000000000
gb_flow allocs 0000000000
gb_flow frees 0000000000
rsvp req creats 0000000000
rsvp req frees 0000000000
rsvp req malloc failures 0000000000
gb_flow malloc failures 0000000000
psb search failures 0000000000
GB TE tunnel deleton w/o gb_flow 0000000000
errors finding slot number 0000000000
Router#
This example shows how to display information about the VPN-to-VLAN mapping table:
Router# show mpls platform vpn-vlan-mapping
VPN# Rsvd Vlan IDB Created Feature Has agg label In superman EoM data
0 1025 Yes No No No No
1 0 No No Yes Yes No
Router#
show mpls ttfib
To display information about the MPLS TTFIB table, use the show mpls ttfib command.
show mpls ttfib [{detail [hardware]} | {vrf instance [detail]}
Syntax Description
detail |
(Optional) Displays detailed information. |
hardware |
(Optional) Displays detailed hardware information. |
vrf instance |
(Optional) Displays entries for a specified VPN Routing/Forwarding instance. |
Command Default
This command has no default settings.
Command Modes
EXEC (>)
Command History
|
|
|
|---|---|
12.2(18)ZY |
Support for this command was introduced. |
Examples
This example shows how to display information about the MPLS TTFIB table:
Router# show mpls ttfib
Local Outgoing Packets Tag LTL Dest. Destination Outgoing
Tag Tag or VC Switched Index Vlanid Mac Address Interface
4116 21 0 0xE0 1020 0000.0400.0000 PO4/1*
34 0 0x132 1019 00d0.040d.380a GE5/3
45 0 0xE3 4031 0000.0430.0000 PO4/4
4117 16 0 0x132 1019 00d0.040d.380a GE5/3*
17 0 0xE0 1020 0000.0400.0000 PO4/1
18 0 0xE3 4031 0000.0430.0000 PO4/4
4118 21 0 0xE0 1020 0000.0400.0000 PO4/1*
56 0 0xE3 4031 0000.0430.0000 PO4/4
4119 35 0 0xE3 4031 0000.0430.0000 PO4/4*
47 0 0xE0 1020 0000.0400.0000 PO4/1
show pagp
To display port-channel information, use the show pagp command.
show pagp [group-number] {counters | internal | neighbor | pgroup}
Syntax Description
Command Default
This command has no default settings.
Command Modes
EXEC (>)
Command History
|
|
|
|---|---|
12.2(18)ZY |
Support for this command was introduced. |
Usage Guidelines
You can enter any show pagp command to display the active port-channel information. To display the nonactive information, enter the show pagp command with a group.
The port-channel number values from 257 to 282 are supported on the CSM and the FWSM only.
Examples
This example shows how to display information about the PAgP counters:
Router# show pagp counters
Information Flush
Port Sent Recv Sent Recv
--------------------------------------
Channel group: 1
Fa5/4 2660 2452 0 0
Fa5/5 2676 2453 0 0
Channel group: 2
Fa5/6 289 261 0 0
Fa5/7 290 261 0 0
Channel group: 1023
Fa5/9 0 0 0 0
Channel group: 1024
Fa5/8 0 0 0 0
Router#
This example shows how to display internal PAgP information:
Router# show pagp 1 internal
Flags: S - Device is sending Slow hello. C - Device is in Consistent state.
A - Device is in Auto mode.
Timers: H - Hello timer is running. Q - Quit timer is running.
S - Switching timer is running. I - Interface timer is running.
Channel group 1
Hello Partner PAgP Learning
Port Flags State Timers Interval Count Priority Method
Fa5/4 SC U6/S7 30s 1 128 Any
Fa5/5 SC U6/S7 30s 1 128 Any
Router#
This example shows how to display PAgP-neighbor information for all neighbors:
Router# show pagp neighbor
Flags: S - Device is sending Slow hello. C - Device is in Consistent state.
A - Device is in Auto mode. P - Device learns on physical port.
Channel group 1 neighbors
Partner Partner Partner Partner Group
Port Name Device ID Port Age Flags Cap.
Fa5/4 JAB031301 0050.0f10.230c 2/45 2s SAC 2D
Fa5/5 JAB031301 0050.0f10.230c 2/46 27s SAC 2D
Channel group 2 neighbors
Partner Partner Partner Partner Group
Port Name Device ID Port Age Flags Cap.
Fa5/6 JAB031301 0050.0f10.230c 2/47 10s SAC 2F
Fa5/7 JAB031301 0050.0f10.230c 2/48 11s SAC 2F
Channel group 1023 neighbors
Partner Partner Partner Partner Group
Port Name Device ID Port Age Flags Cap.
Channel group 1024 neighbors
Partner Partner Partner Partner Group
Port Name Device ID Port Age Flags Cap.
Router#
Related Commands
|
|
|
|---|---|
Learns the input interface of the incoming packets. |
|
Selects a port in hot standby mode. |
show platform
To display platform information, use the show platform command.
show platform {buffers | eeprom | fault | {hardware capacity} | {hardware pfc mode} | internal-vlan | netint | {software ipv6-multicast connected} | {tech-support ipmulticast group-ip-addr src-ip-addr} | tlb}
Syntax Description
buffers |
Displays buffer-allocation information. |
eeprom |
Displays CPU EEPROM information. |
fault |
Displays the fault date. |
hardware capacity |
Displays the capacities and utilizations for hardware resources; see the show platform hardware capacity command. |
hardware pfc mode |
Displays the type of installed PFC. |
internal-vlan |
Displays the internal VLAN. |
netint |
Displays the platform network-interrupt information. |
software ipv6-multicast connected |
Displays all the IPv6 subnet ACL entries on the route processor; see the show platform software ipv6-multicast command. |
tech-support ipmulticast |
Displays IP multicast-related information for TAC. |
group-ip-addr |
Group IP address. |
src-ip-addr |
Source IP address. |
tlb |
Displays information about the TLB register. |
Command Default
This command has no default settings.
Command Modes
EXEC (>)
Command History
|
|
|
|---|---|
12.2(18)ZY |
Support for this command was introduced. |
Examples
This example shows how to display buffer-allocation information:
Router# show platform buffers
Reg. set Min Max
TX 640
ABQ 640 16384
0 0 40
1 6715 8192
2 0 0
3 0 0
4 0 0
5 0 0
6 0 0
7 0 0
Threshold = 8192
Vlan Sel Min Max Cnt Rsvd
1019 1 6715 8192 0 0
Router#
This example shows how to display CPU EEPROM information:
Router# show platform eeprom
PISA CPU IDPROM:
IDPROM image:
IDPROM image block #0:
hexadecimal contents of block:
00: AB AB 02 9C 13 5B 02 00 00 02 60 03 03 E9 43 69 .....[....`...Ci
10: 73 63 6F 20 53 79 73 74 65 6D 73 00 00 00 00 00 sco Systems.....
20: 00 00 57 53 2D 58 36 4B 2D 53 55 50 33 2D 50 46 ..WS-X6K-SUP3-PF
30: 43 33 00 00 00 00 53 41 44 30 36 34 34 30 31 57 C3....SAD064401W
40: 4C 00 00 00 00 00 00 00 00 00 37 33 2D 37 34 30 L.........73-740
50: 34 2D 30 37 00 00 00 00 00 00 30 35 00 00 00 00 4-07......05....
60: 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 ................
70: 00 00 00 00 02 BD 00 00 00 00 00 09 00 05 00 01 ................
80: 00 03 00 01 00 01 00 02 03 E9 00 00 00 00 00 00 ................
90: 00 00 00 00 00 00 00 00 00 00 00 00 ............
block-signature = 0xABAB, block-version = 2,
block-length = 156, block-checksum = 4955
*** common-block ***
IDPROM capacity (bytes) = 512 IDPROM block-count = 2
FRU type = (0x6003,1001)
OEM String = 'Cisco Systems'
Product Number = 'WS-X6K-SUP3-PFC3'
Serial Number = 'SAD064401WL'
Manufacturing Assembly Number = '73-7404-07'
Manufacturing Assembly Revision = '05'
Hardware Revision = 0.701
Manufacturing bits = 0x0 Engineering bits = 0x0
SNMP OID = 9.5.1.3.1.1.2.1001
Power Consumption = 0 centiamperes RMA failure code = 0-0-0-0
CLEI =
*** end of common block ***
IDPROM image block #1:
hexadecimal contents of block:
00: 60 03 02 67 0C 24 00 00 00 00 00 00 00 00 00 00 `..g.$..........
10: 00 00 00 00 00 00 00 51 00 05 9A 3A 7E 9C 00 00 .......Q...:~...
20: 02 02 00 01 00 01 00 00 00 00 00 00 00 00 00 00 ................
30: 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 ................
40: 14 01 00 00 00 00 00 00 00 00 00 00 00 00 00 00 ................
50: 00 00 81 81 81 81 80 80 80 80 80 80 80 80 80 80 ................
60: 80 80 06 72 00 46 37 ...r.F7
block-signature = 0x6003, block-version = 2,
block-length = 103, block-checksum = 3108
*** linecard specific block ***
feature-bits = 00000000 00000000
hardware-changes-bits = 00000000 00000000
card index = 81
mac base = 0005.9A3A.7E9C
mac_len = 0
num_processors = 2
epld_num = 2
epld_versions = 0001 0001 0000 0000 0000 0000 0000 0000 0000 0000 0000 0000 0000 0000 0000
port numbers:
pair #0: type=14, count=01
pair #1: type=00, count=00
pair #2: type=00, count=00
pair #3: type=00, count=00
pair #4: type=00, count=00
pair #5: type=00, count=00
pair #6: type=00, count=00
pair #7: type=00, count=00
sram_size = 0
sensor_thresholds =
sensor #0: critical = -127 oC (sensor present but ignored), warning = -127 oC (sensor present but ignored)
sensor #1: critical = -127 oC (sensor present but ignored), warning = -127 oC (sensor present but ignored)
sensor #2: critical = -128 oC (sensor not present), warning = -128 oC (sensor not present)
sensor #3: critical = -128 oC (sensor not present), warning = -128 oC (sensor not present)
sensor #4: critical = -128 oC (sensor not present), warning = -128 oC (sensor not present)
sensor #5: critical = -128 oC (sensor not present), warning = -128 oC (sensor not present)
sensor #6: critical = -128 oC (sensor not present), warning = -128 oC (sensor not present)
sensor #7: critical = -128 oC (sensor not present), warning = -128 oC (sensor not present)
max_connector_power = 1650
cooling_requirement = 70
ambient_temp = 55
*** end of linecard specific block ***
Router#
This example shows how to display fault-date information:
Router# show platform fault
Fault History Buffer:
s72033_rp Software (s72033_rp-JSV-M), Experimental Version 12.2(20030331:071521) [kkuttuva-CSCea55513-const2 120]
Compiled Mon 31-Mar-03 21:58 by kkuttuva
Signal = 10, Code = 0x1C, Uptime 00:01:14
$0 : 00000000, AT : 00000000, v0 : 00000000, v1 : 00000000
a0 : 00000000, a1 : 10050000, a2 : 00000000, a3 : 43F4B614
t0 : 50A19548, t1 : 10048000, t2 : 10040000, t3 : 10050000
t4 : 43F515A8, t5 : 43F515A4, t6 : 43F515A0, t7 : 43F5159C
s0 : 50A19548, s1 : 00000000, s2 : 50A19548, s3 : 10030100
s4 : 10030000, s5 : 41700000, s6 : 43F4B614, s7 : 41DB0000
t8 : 43F51614, t9 : 00000000, k0 : 5032D19C, k1 : 40231598
gp : 41F96960, sp : 50A19508, s8 : 422183A0, ra : 4027FB50
EPC : 4027FB84, SREG : 3401F103, Cause : 8000001C
Router#
This example shows how to display the PFC-operating mode:
Router# show platform hardware pfc mode
PFC operating mode : PFC3A
Router#
This example shows how to display platform net-interrupt information:
Router# show platform netint
Network IO Interrupt Throttling:
throttle count=0, timer count=0
active=0, configured=1
netint usec=3999, netint mask usec=800
inband_throttle_mask_hi = 0x0
inband_throttle_mask_lo = 0x800000
Router#
This example shows how to display TLB-register information:
Router# show platform tlb
Mistral revision 5
TLB entries : 42
Virt Address range Phy Address range Attributes
0x10000000:0x1001FFFF 0x010000000:0x01001FFFF CacheMode=2, RW, Valid
0x10020000:0x1003FFFF 0x010020000:0x01003FFFF CacheMode=2, RW, Valid
0x10040000:0x1005FFFF 0x010040000:0x01005FFFF CacheMode=2, RW, Valid
0x10060000:0x1007FFFF 0x010060000:0x01007FFFF CacheMode=2, RW, Valid
0x10080000:0x10087FFF 0x010080000:0x010087FFF CacheMode=2, RW, Valid
0x10088000:0x1008FFFF 0x010088000:0x01008FFFF CacheMode=2, RW, Valid
0x18000000:0x1801FFFF 0x010000000:0x01001FFFF CacheMode=0, RW, Valid
0x19000000:0x1901FFFF 0x010000000:0x01001FFFF CacheMode=7, RW, Valid
0x1E000000:0x1E1FFFFF 0x01E000000:0x01E1FFFFF CacheMode=2, RW, Valid
0x1E880000:0x1E899FFF 0x01E880000:0x01E899FFF CacheMode=2, RW, Valid
0x1FC00000:0x1FC7FFFF 0x01FC00000:0x01FC7FFFF CacheMode=2, RO, Valid
0x30000000:0x3001FFFF 0x070000000:0x07001FFFF CacheMode=2, RW, Valid
0x40000000:0x407FFFFF 0x000000000:0x0007FFFFF CacheMode=3, RO, Valid
.
.
.
0x58000000:0x59FFFFFF 0x088000000:0x089FFFFFF CacheMode=3, RW, Valid
0x5A000000:0x5BFFFFFF 0x08A000000:0x08BFFFFFF CacheMode=3, RW, Valid
0x5C000000:0x5DFFFFFF 0x08C000000:0x08DFFFFFF CacheMode=3, RW, Valid
0x5E000000:0x5FFFFFFF 0x08E000000:0x08FFFFFFF CacheMode=3, RW, Valid
Router#
show platform hardware capacity
To display the capacities and utilizations for the hardware resources, use the show platform hardware capacity command.
show platform hardware capacity [resource-type]
Syntax Description
resource-type |
(Optional) Hardware resource type; see the "Usage Guidelines" section for the valid values. |
Command Default
This command has no default settings.
Command Modes
EXEC (>)
Command History
|
|
|
|---|---|
12.2(18)ZY |
Support for this command was introduced. |
Usage Guidelines
The valid values for resource-type are as follows:
•acl—Displays the capacities and utilizations for ACL/QoS TCAM resources.
•cpu—Displays the capacities and utilizations for CPU resources.
•eobc—Displays the capacities and utilizations for EOBC resources.
•flash—Displays the capacities and utilizations for flash/NVRAM resources.
•forwarding—Displays the capacities and utilizations for Layer 2 and Layer 3 forwarding resources.
•interface—Displays the capacities and utilizations for interface resources.
•monitor—Displays the capacities and utilizations for SPAN resources.
•multicast—Displays the capacities and utilizations for Layer 3 multicast resources.
•netflow—Displays the capacities and utilizations for NetFlow resources.
•pfc—Displays the capacities and utilizations for all the PFC resources including Layer 2 and Layer 3 forwarding, NetFlow, CPU rate limiters, and ACL/QoS TCAM resources.
•power—Displays the capacities and utilizations for power resources.
•qos—Displays the capacities and utilizations for QoS policer resources.
•rate-limiter—Displays the capacities and utilizations for CPU rate limiter resources.
•system—Displays the capacities and utilizations for system resources.
•vlan—Displays the capacities and utilizations for VLAN resources.
The show platform hardware capacity cpu command displays the following information:
•CPU utilization for the last 5 seconds (busy time and interrupt time), the percentage of the last 1-minute average busy time, and the percentage of the last 5-minute average busy time.
•Processor memory total available bytes, used bytes, and percentage used.
•I/O memory total available bytes, used bytes, and percentage used.
The show platform hardware capacity eobc command displays the following information:
•Transmit and receive rate
•Packets received and packets sent
•Dropped received packets and dropped transmitted packets
The show platform hardware capacity forwarding command displays the following information:
•The total available entries, used entries, and used percentage for the MAC tables.
•The total available entries, used entries, and used percentage for the FIB TCAM tables. The display is done per protocol base.
•The total available entries, used entries, and used percentage for the adjacency tables. The display is done for each region in which the adjacency table is divided.
•The created entries, failures, and resource usage percentage for the NetFlow TCAM and ICAM tables.
•The total available entries and mask, used entries and mask, reserved entries and mask, and entries and mask used percentage for the ACL/QoS TCAM tables. The output displays the available, used, reserved, and used percentage of the labels. The output displays the resource of other hardware resources that are related to the ACL/QoS TCAMs (such as available, used, reserved, and used percentage of the LOU, ANDOR, and ORAND).
•The available, used, reserved, and used percentage for the CPU rate limiters.
The show platform hardware capacity interface command displays the following information:
•Tx/Rx drops—Displays the sum of transmit and receive drop counters on each online module (aggregate for all ports) and provides the port number that has the highest drop count on the module.
•Tx/Rx per port buffer size—Summarizes the port-buffer size on a per-module basis for modules where there is a consistent buffer size across the module.
The show platform hardware capacity monitor command displays the following SPAN information:
•The maximum local SPAN sessions, maximum RSPAN sessions, maximum ERSPAN sessions, and maximum service module sessions.
•The local SPAN sessions used/available, RSPAN sessions used/available, ERSPAN sessions used/available, and service module sessions used/available.
The show platform hardware capacity multicast command displays the following information:
•Multicast Replication Mode: ingress and egress IPv4 and IPv6 modes.
•The MET table usage that indicates the total used and the percentage used for each module in the system.
•The bidirectional PIM DF table usage that indicates the total used and the percentage used.
The show platform hardware capacity system command displays the following information:
•PFC operating mode (PFC Version)
•Supervisor redundancy mode (RPR, SSO, none, and so forth)
•Module-specific switching information, including the following information:
–Part number (WS-SUP720-BASE, WS-X6548-RJ-45, and so forth)
–Series (supervisor engine)
–CEF Mode (central CEF, dCEF)
The show platform hardware capacity vlan command displays the following VLAN information:
•Total VLANs
•VTP VLANs that are used
•External VLANs that are used
•Internal VLANs that are used
•Free VLANs
Examples
This example shows how to display CPU capacity and utilization information for the route processor, the switch processor, and the LAN module in the Catalyst 6500 series switch:
Router# show platform hardware capacity cpu
CPU Resources
CPU utilization: Module 5 seconds 1 minute 5 minutes
1 RP 0% / 0% 1% 1%
1 SP 5% / 0% 5% 4%
7 69% / 0% 69% 69%
8 78% / 0% 74% 74%
Processor memory: Module Bytes: Total Used %Used
1 RP 176730048 51774704 29%
1 SP 192825092 51978936 27%
7 195111584 35769704 18%
8 195111584 35798632 18%
I/O memory: Module Bytes: Total Used %Used
1 RP 35651584 12226672 34%
1 SP 35651584 9747952 27%
7 35651584 9616816 27%
8 35651584 9616816 27%
Router#
This example shows how to display EOBC-related statistics for the route processor, the switch processor:
Router# show platform hardware capacity eobc
EOBC Resources
Module Packets/sec Total packets Dropped packets
1 RP Rx: 61 108982 0
Tx: 37 77298 0
1 SP Rx: 34 101627 0
Tx: 39 115417 0
7 Rx: 5 10358 0
Tx: 8 18543 0
8 Rx: 5 12130 0
Tx: 10 20317 0
Router#
This example shows how to display information about the total capacity, the bytes used, and the percentage that is used for the flash/NVRAM resources present in the system:
Router# show platform hardware capacity flash
Flash/NVRAM Resources
Usage: Module Device Bytes: Total Used %Used
1 RP bootflash: 31981568 15688048 49%
1 SP disk0: 128577536 105621504 82%
1 SP sup-bootflash: 31981568 29700644 93%
1 SP const_nvram: 129004 856 1%
1 SP nvram: 391160 22065 6%
Router#
This example shows how to display the capacity and utilization of the EARLs present in the system:
Router# show platform hardware capacity forwarding
L2 Forwarding Resources
MAC Table usage: Module Collisions Total Used %Used
6 0 65536 11 1%
VPN CAM usage: Total Used %Used
512 0 0%
L3 Forwarding Resources
FIB TCAM usage: Total Used %Used
72 bits (IPv4, MPLS, EoM) 196608 36 1%
144 bits (IP mcast, IPv6) 32768 7 1%
detail: Protocol Used %Used
IPv4 36 1%
MPLS 0 0%
EoM 0 0%
IPv6 4 1%
IPv4 mcast 3 1%
IPv6 mcast 0 0%
Adjacency usage: Total Used %Used
1048576 175 1%
Forwarding engine load:
Module pps peak-pps peak-time
6 8 1972 02:02:17 UTC Thu Apr 21 2005
Netflow Resources
TCAM utilization: Module Created Failed %Used
6 1 0 0%
ICAM utilization: Module Created Failed %Used
6 0 0 0%
Flowmasks: Mask# Type Features
IPv4: 0 reserved none
IPv4: 1 Intf FulNAT_INGRESS NAT_EGRESS FM_GUARDIAN
IPv4: 2 unused none
IPv4: 3 reserved none
IPv6: 0 reserved none
IPv6: 1 unused none
IPv6: 2 unused none
IPv6: 3 reserved none
CPU Rate Limiters Resources
Rate limiters: Total Used Reserved %Used
Layer 3 9 4 1 44%
Layer 2 4 2 2 50%
ACL/QoS TCAM Resources
Key: ACLent - ACL TCAM entries, ACLmsk - ACL TCAM masks, AND - ANDOR,
QoSent - QoS TCAM entries, QOSmsk - QoS TCAM masks, OR - ORAND,
Lbl-in - ingress label, Lbl-eg - egress label, LOUsrc - LOU source,
LOUdst - LOU destination, ADJ - ACL adjacency
Module ACLent ACLmsk QoSent QoSmsk Lbl-in Lbl-eg LOUsrc LOUdst AND OR ADJ
6 1% 1% 1% 1% 1% 1% 0% 0% 0% 0% 1%
Router#
This example shows how to display the interface resources:
Router# show platform hardware capacity interface
Interface Resources
Interface drops:
Module Total drops: Tx Rx Highest drop port: Tx Rx
9 0 2 0 48
Interface buffer sizes:
Module Bytes: Tx buffer Rx buffer
1 12345 12345
5 12345 12345
Router#
This example shows how to display SPAN information:
Router# show platform hardware capacity monitor
SPAN Resources
Source sessions: 2 maximum, 0 used
Type Used
Local 0
RSPAN source 0
ERSPAN source 0
Service module 0
Destination sessions: 64 maximum, 0 used
Type Used
RSPAN destination 0
ERSPAN destination (max 24) 0
Router#
This example shows how to display the capacity and utilization of resources for Layer 3 multicast functionality:
Router# show platform hardware capacity multicast
L3 Multicast Resources
IPv4 replication mode: ingress
IPv6 replication mode: ingress
Bi-directional PIM Designated Forwarder Table usage: 4 total, 0 (0%) used
Replication capability: Module IPv4 IPv6
5 egress egress
9 ingress ingress
MET table Entries: Module Total Used %Used
5 65526 6 0%
Router#
This example shows how to display information about the system power capacities and utilizations:
Router# show platform hardware capacity power
Power Resources
Power supply redundancy mode: administratively combined
operationally combined
System power: 1922W, 0W (0%) inline, 1289W (67%) total allocated
Powered devices: 0 total
Router#
This example shows how to display the capacity and utilization of QoS policer resources per EARL in the Catalyst 6500 series switch:
Router# show platform hardware capacity qos
QoS Policer Resources
Aggregate policers: Module Total Used %Used
1 1024 102 10%
5 1024 1 1%
Microflow policer configurations: Module Total Used %Used
1 64 32 50%
5 64 1 1%
Router#
This example shows how to display information about the key system resources:
Router# show platform hardware capacity systems
System Resources
PFC operating mode: PFC3BXL
Supervisor redundancy mode: administratively rpr-plus, operationally rpr-plus
Switching Resources: Module Part number Series CEF mode
5 WS-SUP720-BASE supervisor CEF
9 WS-X6548-RJ-45 CEF256 CEF
Router#
This example shows how to display VLAN information:
Router# show platform hardware capacity vlan
VLAN Resources
VLANs: 4094 total, 10 VTP, 0 extended, 0 internal, 4084 free
Router#
show platform pisa np
To display Supervisor Engine 32 PISA-specific information, use the show platform pisa np command.
show platform pisa np counter
Syntax Description
counter |
Counter information; see the "Usage Guidelines section for the list of valid values. |
Command Default
This command has no default settings.
Command Modes
EXEC (>)
Command History
|
|
|
|---|---|
12.2(18)ZY |
Support for this command was introduced. |
Usage Guidelines
The valid values for the counter argument are as follows:
•me num counters—Displays the microengine information; valid values are from 0 to 15.
•acl counters—Displays the ACL counter information.
•all counters—Displays all Supervisor Engine 32 PISA-specific counters.
•all pps counters—Displays the packets per second for all Supervisor Engine 32 PISA-specific counters.
•fpm counters—Displays the flexible packet matching (FPM) counter information.
•mqc counters—Displays the modular QoS CLI information.
•nbar counters—Displays the network-based application recognition (NBAR) counter information.
•rx counters—Displays the receive engine counter information.
•tx counters—Displays the transmit engine counter information.
Examples
This example shows how to display the ACL counter information:
Router# show platform pisa np acl counters
ACL Statistics
--------------
ACL Pkts Received : 0
ACL Pkts Forwarded : 0
ACL Unknown Msg : 0
Router#
This example shows how to display all Supervisor Engine 32 PISA-specific counters:
Router# show platform pisa np all counters
NP ENGINE STATISTICS:
--------------------
RX Statistics
-------------
Idle: 0
Frames Received: 162
Control Frames Received: 0
Forward RBUF: 0
Forward RBUF+DRAM: 162
Forward Buffered: 0
Post stalls: 0
Error: 0
Error(bad sop): 0
Error(missing sop): 0
Error(data buf alloc fail): 0
Error(control buf alloc fail): 0
Error(packet too big): 0
Error(packet length mismatch): 0
NBAR Statistics
---------------
NBAR Pkts Received : 0
NBAR Pkts Classified: 0
PD Pkts Received : 0
NBAR Pkts Out : 0
NBAR Debug 0 : 0
NBAR Debug 1 : 0
NBAR Debug 2 : 0
NBAR Debug 3 : 0
FPM Statistics
--------------
FPM Config Stamp : 0
FPM Pkts Received : 0
FPM Pkts Forwarded : 0
FPM Pkts Dropped : 0
FPM Unknown Msg : 0
FPM Error : 0
FPM Cache Misses : 0
ACL Statistics
--------------
ACL Pkts Received : 0
ACL Pkts Forwarded : 0
ACL Unknown Msg : 0
MQC Statistics
--------------
MQC Pkts Received : 0
MQC Pkts Transmited : 0
MQC Unknown : 0
MQC Error : 0
MQC Pkts marked DSCP : 0
MQC Policer Conformed: 0
MQC Policer Exceeded : 0
MQC Pkts Dropped : 0
TX Statistics
-------------
Errors: 0
Fastpath RBUFs received: 162
Fastpath pkt received: 0
FastTX receive: 0
SlowTX receive: 162
Packets transmitted (loopback): 162
Packets transmit to hyperion: 162
Packets punt to CP: 0
Packets punt to Nitrox: 0
Packets forward to CM: 0
Packets forward to TCP: 0
Packets forward to Reassembly: 0
Packets forward to Fragmentation: 0
Packets forward to XScale: 162
Packets IPCP forward: 0
WARN: TX Packet too small: 0
DROP: Packet too big error: 0
DROP: Connection Route: 0
DROP: Connection Miss: 0
DROP: Bad connection route: 162
DROP: RX Interface miss: 0
DROP: Out of buffers: 0
DROP: Unknown Msg received: 0
DROP: Bandwidth rate policed: 0
Close request Sent: 0
Stubs Statistics for ME: 2
DRAM Pass Count: 0
DRAM Fail Count: 0
SRAM Pass Count: 0
SRAM Fail Count: 0
SCRATCH Pass Count: 0
SCRATCH Fail Count: 0
LMEM Pass Count: 0
LMEM Fail Count: 0
ME Run Count: 0
Stubs Statistics for ME: 3
DRAM Pass Count: 0
DRAM Fail Count: 0
SRAM Pass Count: 0
SRAM Fail Count: 0
SCRATCH Pass Count: 0
SCRATCH Fail Count: 0
LMEM Pass Count: 0
LMEM Fail Count: 0
ME Run Count: 0
Stubs Statistics for ME: 4
DRAM Pass Count: 0
DRAM Fail Count: 0
SRAM Pass Count: 0
SRAM Fail Count: 0
SCRATCH Pass Count: 0
SCRATCH Fail Count: 0
LMEM Pass Count: 0
LMEM Fail Count: 0
ME Run Count: 0
Stubs Statistics for ME: 5
DRAM Pass Count: 0
DRAM Fail Count: 0
SRAM Pass Count: 0
SRAM Fail Count: 0
SCRATCH Pass Count: 0
SCRATCH Fail Count: 0
LMEM Pass Count: 0
LMEM Fail Count: 0
ME Run Count: 0
Stubs Statistics for ME: 6
DRAM Pass Count: 0
DRAM Fail Count: 0
SRAM Pass Count: 0
SRAM Fail Count: 0
SCRATCH Pass Count: 0
SCRATCH Fail Count: 0
LMEM Pass Count: 0
LMEM Fail Count: 0
ME Run Count: 0
Stubs Statistics for ME: 7
DRAM Pass Count: 0
DRAM Fail Count: 0
SRAM Pass Count: 0
SRAM Fail Count: 0
SCRATCH Pass Count: 0
SCRATCH Fail Count: 0
LMEM Pass Count: 0
LMEM Fail Count: 0
ME Run Count: 0
Stubs Statistics for ME: 8
DRAM Pass Count: 0
DRAM Fail Count: 0
SRAM Pass Count: 0
SRAM Fail Count: 0
SCRATCH Pass Count: 0
SCRATCH Fail Count: 0
LMEM Pass Count: 0
LMEM Fail Count: 0
ME Run Count: 0
Stubs Statistics for ME: 9
DRAM Pass Count: 0
DRAM Fail Count: 0
SRAM Pass Count: 0
SRAM Fail Count: 0
SCRATCH Pass Count: 0
SCRATCH Fail Count: 0
LMEM Pass Count: 0
LMEM Fail Count: 0
ME Run Count: 0
Stubs Statistics for ME: 10
DRAM Pass Count: 0
DRAM Fail Count: 0
SRAM Pass Count: 0
SRAM Fail Count: 0
SCRATCH Pass Count: 0
SCRATCH Fail Count: 0
LMEM Pass Count: 0
LMEM Fail Count: 0
ME Run Count: 0
Stubs Statistics for ME: 11
DRAM Pass Count: 0
DRAM Fail Count: 0
SRAM Pass Count: 0
SRAM Fail Count: 0
SCRATCH Pass Count: 0
SCRATCH Fail Count: 0
LMEM Pass Count: 0
LMEM Fail Count: 0
ME Run Count: 0
Stubs Statistics for ME: 12
DRAM Pass Count: 0
DRAM Fail Count: 0
SRAM Pass Count: 0
SRAM Fail Count: 0
SCRATCH Pass Count: 0
SCRATCH Fail Count: 0
LMEM Pass Count: 0
LMEM Fail Count: 0
ME Run Count: 0
Stubs Statistics for ME: 13
DRAM Pass Count: 0
DRAM Fail Count: 0
SRAM Pass Count: 0
SRAM Fail Count: 0
SCRATCH Pass Count: 0
SCRATCH Fail Count: 0
LMEM Pass Count: 0
LMEM Fail Count: 0
ME Run Count: 0
Stubs Statistics for ME: 14
DRAM Pass Count: 0
DRAM Fail Count: 0
SRAM Pass Count: 0
SRAM Fail Count: 0
SCRATCH Pass Count: 0
SCRATCH Fail Count: 0
LMEM Pass Count: 0
LMEM Fail Count: 0
ME Run Count: 0
Stubs Statistics for ME: 15
DRAM Pass Count: 0
DRAM Fail Count: 0
SRAM Pass Count: 0
SRAM Fail Count: 0
SCRATCH Pass Count: 0
SCRATCH Fail Count: 0
LMEM Pass Count: 0
LMEM Fail Count: 0
ME Run Count: 0
This example shows how to display the packets per second for all Supervisor Engine 32 PISA-specific counters:
Router# show platform pisa np all pps
Throughput in packets-per-sec (pps) within 5 secs interval:
-----------------------------------------------------------
Rx Ingress PPS 0
Rx Egress PPS 0
NBAR Ingress PPS 0
NBAR Egress PPS 0
FPM Ingress PPS 0
FPM Egress PPS 0
ACL Ingress PPS 0
ACL Egress PPS 0
MQC Ingress PPS 0
MQC Egress PPS 0
Tx Ingress PPS 0
Tx Egress PPS 0
Router#
This example shows how to display the FPM counter information:
Router# show platform pisa np fpm counters
FPM Statistics
--------------
FPM Config Stamp : 0
FPM Pkts Received : 0
FPM Pkts Forwarded : 0
FPM Pkts Dropped : 0
FPM Unknown Msg : 0
FPM Error : 0
FPM Cache Misses : 0
Router#
This example shows how to display the ME counter information for a specific ME:
Router# show platform pisa np me 0 counters
Stubs Statistics for ME: 0
DRAM Pass Count: 0
DRAM Fail Count: 0
SRAM Pass Count: 0
SRAM Fail Count: 0
SCRATCH Pass Count: 0
SCRATCH Fail Count: 0
LMEM Pass Count: 0
LMEM Fail Count: 0
ME Run Count: 0
Router#
This example shows how to display the the modular QoS CLI information:
Router# show platform pisa np mqc counters
MQC Statistics
--------------
MQC Pkts Received : 0
MQC Pkts Transmited : 0
MQC Unknown : 0
MQC Error : 0
MQC Pkts marked DSCP : 0
MQC Policer Conformed: 0
MQC Policer Exceeded : 0
MQC Pkts Dropped : 0
Router#
This example shows how to display the network-based application recognition counter information:
Router# show platform pisa np nbar counters
NBAR Statistics
---------------
NBAR Pkts Received : 0
NBAR Pkts Classified: 0
PD Pkts Received : 0
NBAR Pkts Out : 0
NBAR Debug 0 : 0
NBAR Debug 1 : 0
NBAR Debug 2 : 0
NBAR Debug 3 : 0
This example shows how to display the receive engine counter information:
Router# show platform pisa np rx counters
RX Statistics
-------------
Idle: 0
Frames Received: 159
Control Frames Received: 0
Forward RBUF: 0
Forward RBUF+DRAM: 159
Forward Buffered: 0
Post stalls: 0
Error: 0
Error(bad sop): 0
Error(missing sop): 0
Error(data buf alloc fail): 0
Error(control buf alloc fail): 0
Error(packet too big): 0
Error(packet length mismatch): 0
Router#
This example shows how to display the transmit engine counter information:
Router# show platform pisa np tx counters
TX Statistics
-------------
Errors: 0
Fastpath RBUFs received: 159
Fastpath pkt received: 0
FastTX receive: 0
SlowTX receive: 159
Packets transmitted (loopback): 159
Packets transmit to hyperion: 159
Packets punt to CP: 0
Packets punt to Nitrox: 0
Packets forward to CM: 0
Packets forward to TCP: 0
Packets forward to Reassembly: 0
Packets forward to Fragmentation: 0
Packets forward to XScale: 159
Packets IPCP forward: 0
WARN: TX Packet too small: 0
DROP: Packet too big error: 0
DROP: Connection Route: 0
DROP: Connection Miss: 0
DROP: Bad connection route: 159
DROP: RX Interface miss: 0
DROP: Out of buffers: 0
DROP: Unknown Msg received: 0
DROP: Bandwidth rate policed: 0
Close request Sent: 0
Router#
show platform software ipv6-multicast
To display information about the platform software IPv6 multicast, use the show platform software ipv6-multicast command.
show platform software ipv6-multicast {acl-exception | acl-table | capability | connected | shared-adjacencies | statistics | summary}
Syntax Description
Command Default
This command has no default settings.
Command Modes
EXEC (>)
Command History
|
|
|
|---|---|
12.2(18)ZY |
Support for this command was introduced. |
Examples
This example shows how to display the IPv6-hardware capabilities:
Router# show platform software ipv6-multicast capability
Hardware switching for ipv6 is Enabled
(S,G) forwarding for ipv6 supported using Netflow
(*,G) bridging for ipv6 is supported using Fib
Directly-connected entries for IPv6 is supported using ACL-TCAM.
Current System HW Replication Mode : Egress
Audo-detection of Replication Mode : ON
Slot Replication-Capability Replication-Mode
2 Egress Egress
5 Egress Egress
Router#
This example shows how to display the IPv6-multicast subnet/connected-hardware entries:
Router# show platform software ipv6-multicast connected
IPv6 Multicast Subnet entries
Flags : H - Installed in ACL-TCAM
X - Not installed in ACL-TCAM due to
label-full exception
Interface: Vlan40 [ H ]
S:40::1 G:FF00::
S:0:5000::2 G:FF00::
S:5000::2 G:FF00::
Interface: Vlan30 [ H ]
S:30::1 G:FF00::
Interface: Vlan20 [ H ]
S:20::1 G:FF00::
Interface: Vlan10 [ H ]
S:10::1 G:FF00::
Router#
This example shows how to display the IPv6-multicast shared adjacencies:
Router# show platform software ipv6-multicast shared-adjacencies
---- SLOT [7] ----
Shared IPv6 Mcast Adjacencies Index Packets Bytes
----------------------------- ------ ------------- ------------------
Subnet bridge adjacency 0x7F802 0 0
Control bridge adjacency 0x7 0 0
StarG_M bridge adjacency 0x8 0 0
S_G bridge adjacency 0x9 0 0
Default drop adjacency 0xA 0 0
StarG (spt == INF) adjacency 0xB 0 0
StarG (spt != INF) adjacency 0xC 0 0
Router#
This example shows how to display the IPv6-multicast statistics information:
Router# show platform software ipv6-multicast statistics
IPv6 Multicast HW-switching Status : Enabled
IPv6 Multicast (*,G) HW-switching Status : Disabled
IPv6 Multicast Subnet-entries Status : Enabled
Default MFIB IPv6-table : 0x5108F770
(S,G,C) flowmask index : 3
(*,G,C) flowmask index : 65535
General Counters
--------------------------------------------------+------+
Mfib-hw-entries count 0
Mfib-add count 4
Mfib-modify count 2
Mfib-delete count 2
Mfib-NP-entries count 0
Mfib-D-entries count 0
Mfib-IC-entries count 0
Error Counters
--------------------------------------------------+------+
ACL flowmask err count 0
ACL TCAM exptn count 0
ACL renable count 0
Idb Null error 0
Router#
This example shows how to display the IPv6-multicast hardware shortcut count:
Router# show platform software ipv6-multicast summary
IPv6 Multicast Netflow SC summary on Slot[7]:
Shortcut Type Shortcut count
---------------------------+--------------
(S, G) 0
IPv6 Multicast FIB SC summary on Slot[7]:
Shortcut Type Shortcut count
---------------------------+--------------
(*, G/128) 0
(*, G/m) 0
Router#
Related Commands
|
|
|
|---|---|
Configures hardware switching for IPv6 multicast packets on a global basis. |
show platform software pisa fm interface
To display the PISA feature manager data for an interface, use the show platform software pisa fm interface command.
show platform software pisa fm interface {all | {interface-type interface-number} | {port-channel number} | {vlan vlan-id}}
Syntax Description
Command Default
This command has no default settings.
Command Modes
EXEC (>)
Command History
|
|
|
|---|---|
12.2(18)ZYA1 |
Support for this command was introduced. |
Usage Guidelines
The interface-number argument designates the module and port number. Valid values for interface-number depend on the specified interface type and the chassis and module that are used. For example, if you specify a Gigabit Ethernet interface and have a 48-port 10/100BASE-T Ethernet module that is 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.
Examples
This example shows how to display the PISA feature manager data for VLAN 10, which is not configured with the reverse-only keywords:
Router> show platform software pisa fm interface vlan 10
PISA FM Interface type/properties
============================================
Interface Type = L3
Trunk = False
Ether Channel = False
PISA FM FDB DUMP
==========================================================
Interface Vlan10
ACL name 112
ACL direction input
ACL reverse only False
Direction-less features:
-----------------------
Feature-QOS : NONE
Feature-ACL : NONE
Feature-PD : SF-INS
Feature-URLF : NONE
Feature-TAGGING : NONE
Ingress features:
----------------
Feature-QOS : NONE
Feature-ACL : NONE
Feature-PD : NONE
Feature-URLF : NONE
Feature-TAGGING : NONE
Egress features:
---------------
Feature-QOS : NONE
Feature-ACL : NONE
Feature-PD : NONE
Feature-URLF : NONE
Feature-TAGGING : NONE
Action flags: INGRESS INGRESS-ACL-RDT-SEL EGRESS-ACL-CAP-SEL
==========================================================
This example shows how to display the PISA feature manager data for Gigabit Ethernet port 4/25 when it is not configured with the reverse-only keywords:
Router> show platform software pisa fm interface gigabitethernet 4/25
pisa_fm_ec_cap_enabled 1
IDB = 0x271885C0
PISA_SB = 0x27660AC0
PISA FDB = 0x27181500
PISA FM Interface type/properties
============================================
Interface Type = L2
Trunk = True
Ether Channel = False
PISA FM FDB DUMP
==========================================================
Interface GigabitEthernet4/25
ACL name 101
ACL direction input
ACL reverse only False
Direction-less features:
-----------------------
Feature-QOS : NONE
Feature-ACL : NONE
Feature-PD : SF-INS
Feature-URLF : NONE
Feature-TAGGING : NONE
Ingress features:
----------------
Feature-QOS : NONE
Feature-ACL : NONE
Feature-PD : NONE
Feature-URLF : NONE
Feature-TAGGING : NONE
Egress features:
---------------
Feature-QOS : NONE
Feature-ACL : NONE
Feature-PD : NONE
Feature-URLF : NONE
Feature-TAGGING : NONE
Action flags: INGRESS-ACL-CAP-SEL EGRESS-COPY
==========================================================
This example shows how to display the PISA feature manager data for Gigabit Ethernet port 4/25 when it is configured with the reverse-only keywords:
Router> show platform software pisa fm interface gigabitethernet 4/25
pisa_fm_ec_cap_enabled 0
IDB = 0x271885C0
PISA_SB = 0x27660AC0
PISA FDB = 0x27181500
PISA FM Interface type/properties
============================================
Interface Type = L2
Trunk = True
Ether Channel = False
PISA FM FDB DUMP
==========================================================
Interface GigabitEthernet4/25
ACL name 101
ACL direction input
ACL reverse only True
Direction-less features:
-----------------------
Feature-QOS : NONE
Feature-ACL : NONE
Feature-PD : SF-INS
Feature-URLF : NONE
Feature-TAGGING : NONE
Ingress features:
----------------
Feature-QOS : NONE
Feature-ACL : NONE
Feature-PD : NONE
Feature-URLF : NONE
Feature-TAGGING : NONE
Egress features:
---------------
Feature-QOS : NONE
Feature-ACL : NONE
Feature-PD : NONE
Feature-URLF : NONE
Feature-TAGGING : NONE
Action flags: INGRESS EGRESS-COPY
==========================================================
Note The show platform software pisa fm interface all command sequentially displays all of the data for all of the interfaces.
Related Commands
|
|
|
|---|---|
Configures the Intelligent Traffic Redirect (ITR) feature. |
show platform software pisa split-vlan
To display the split VLANs on PISA, use the show platform software pisa split-vlan command in privileged EXEC mode.
show platform software pisa split-vlan {interface interface-type | range | summary}
Syntax Description
Defaults
This command has no default settings.
Command Modes
Privileged EXEC
Command History
|
|
|
|---|---|
12.2(18)ZYA1 |
Support for this command was introduced. |
Examples
This example shows how to display PISA split VLAN information on the Fast Ethernet port 1/48:
Router# show platform software pisa split-vlan interface fas 1/48
Codes: P - NBAR PD, N - NBAR, F - FPM, U - URLF, 0x380 - RP, 0x340 - IXP
Interface Vlan PisaVlan InFeat OutFeat
DestIndex State
-------------------------------------------------------------------------------------
FastEthernet1/48 1019 1023 F F
0x340 down
Router#
This example shows how to display a summary of the PISA split VLANs:
Router# show platform software pisa split-vlan summary
PISA Vlan Usage
--------- -----
1019 FastEthernet1/46.1
1023 FastEthernet1/48
Router#
Related Commands
|
|
|
|---|---|
show platform |
Displays platform information. |
show policy-map
To display information about the policy map, use the show policy-map command.
show policy-map [policy-map-name]
Syntax Description
policy-map-name |
(Optional) Name of the policy map. |
Command Default
This command has no default settings.
Command Modes
EXEC (>)
Command History
|
|
|
|---|---|
12.2(18)ZY |
Support for this command was introduced. |
Examples
This example shows how to display information about all policy maps:
Router# show policy-map
Policy Map simple
Policy Map max-pol-ipp5
class ipp5
class ipp5
police flow 10000000 10000 conform-action set-prec-transmit 6 exceed-action
policed-dscp-transmit trust precedence police 2000000000 2000000 2000000 co
nform-action set-prec-transmit 6exceed-action policed-dscp-transmit
Router#
This example shows how to display information for a specific policy map:
Router# show policy-map max-pol-ipp5
Policy Map max-pol-ipp5
class ipp5
class ipp5
police flow 10000000 10000 conform-action set-prec-transmit 6 exceed-action
policed-dscp-transmit trust precedence police 2000000000 2000000 2000000 co
nform-action set-prec-transmit 6exceed-action policed-dscp-transmit
Router#
Related Commands
show policy-map control-plane
To display the configuration either of a class or of all classes for the policy map of a control plane, use the show policy-map control-plane command.
show policy-map control-plane [all] [input [class class-name] | output | [class class-name]]
Syntax Description
Command Default
This command has no default settings.
Command Modes
Privileged EXEC (#)
Command Historyv
Usage Guidelines
The show policy-map control-plane command displays information for aggregate control-plane services that control the number or rate of packets that are going to the process level.
Examples
This example shows that the policy map TEST is associated with the control plane. This policy map polices traffic that matches the class-map TEST, while allowing all other traffic (that matches the class-map class-default) to go through as is. Table 2-84 describes the fields shown in the display.
Router# show policy-map control-plane
Control Plane
Service-policy input:TEST
Class-map:TEST (match-all)
20 packets, 11280 bytes
5 minute offered rate 0 bps, drop rate 0 bps
Match:access-group 101
police:
8000 bps, 1500 limit, 1500 extended limit
conformed 15 packets, 6210 bytes; action:transmit
exceeded 5 packets, 5070 bytes; action:drop
violated 0 packets, 0 bytes; action:drop
conformed 0 bps, exceed 0 bps, violate 0 bps
Class-map:class-default (match-any)
105325 packets, 11415151 bytes
5 minute offered rate 0 bps, drop rate 0 bps
Match:any
Related Commands
|
|
|
|---|---|
Enters control-plane configuration mode. |
|
Attaches a policy map to a control plane for aggregate control plane services. |
show policy-map interface
To display the statistics and the configurations of the input and output policies that are attached to an interface, use the show policy-map interface command.
show policy-map interface [{interface interface-number} | {null interface-number} | {vlan vlan-id}] [input | output]
Syntax Description
Command Default
This command has no default settings.
Command Modes
EXEC (>)
Command History
|
|
|
|---|---|
12.2(18)ZY |
Support for this command was introduced. |
Usage Guidelines
The output keyword is not supported.
Catalyst 6500 series switches that are configured with a Supervisor Engine 32 PISA display byte counters.
The output does not display policed-counter information; 0 is displayed in its place (for example, 0 packets, 0 bytes). To view dropped and forwarded policed-counter information, enter the show mls qos ip command.
The interface-number argument designates the module and port number. Valid values for interface-number depend on the specified interface type and the chassis and module that are used. For example, if you specify a Gigabit Ethernet interface and have a 48-port 10/100BASE-T Ethernet module that is 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.
Examples
This example shows how to display the statistics and the configurations of all the input and output policies that are attached to an interface:
Router# show policy-map interface
FastEthernet5/36
service-policy input: max-pol-ipp5
class-map: ipp5 (match-all)
0 packets, 0 bytes
5 minute rate 0 bps
match: ip precedence 5
class ipp5
police 2000000000 2000000 conform-action set-prec-transmit 6 exceed-action p
policed-dscp-transmit
Router#
This example shows how to display the input-policy statistics and the configurations for a specific interface:
Router# show policy-map interface fastethernet 5/36 input
FastEthernet5/36
service-policy input: max-pol-ipp5
class-map: ipp5 (match-all)
0 packets, 0 bytes
5 minute rate 0 bps
match: ip precedence 5
class ipp5
police 2000000000 2000000 conform-action set-prec-transmit 6 exceed-action p
policed-dscp-transmit
Router#
Related Commands
show port-security
To display information about the port-security setting, use the show port-security command.
show port-security [interface interface interface-number]
show port-security [interface interface interface-number] {address | vlan}
Syntax Description
Command Default
This command has no default settings.
Command Modes
EXEC (>)
Command History
|
|
|
|---|---|
12.2(18)ZY |
Support for this command was introduced. |
Usage Guidelines
The vlan keyword is supported on trunk ports only and displays per-VLAN maximums set on a trunk port.
The interface-number argument designates the module and port number. Valid values for interface-number depend on the specified interface type and the chassis and module that are used. For example, if you specify a Gigabit Ethernet interface and have a 48-port 10/100BASE-T Ethernet module that is 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.
Examples
This example shows the output from the show port-security command when you do not enter any options:
Router# show port-security
Secure Port MaxSecureAddr CurrentAddr SecurityViolation Security
Action
(Count) (Count) (Count)
----------------------------------------------------------------------------
Fa5/1 11 11 0 Shutdown
Fa5/5 15 5 0 Restrict
Fa5/11 5 4 0 Protect
----------------------------------------------------------------------------
Total Addresses in System: 21
Max Addresses limit in System: 128
Router#
This example shows how to display port-security information for a specified interface:
Router# show port-security interface fastethernet 5/1
Port Security: Enabled
Port status: SecureUp
Violation mode: Shutdown
Maximum MAC Addresses: 11
Total MAC Addresses: 11
Configured MAC Addresses: 3
Aging time: 20 mins
Aging type: Inactivity
SecureStatic address aging: Enabled
Security Violation count: 0
Router#
This example show how to display all the secure MAC addresses that are configured on all the switch interfaces or on a specified interface with aging information for each address:
Router# show port-security address
Default maximum: 10
VLAN Maximum Current
1 5 3
2 4 4
3 6 4
Router#
Related Commands
|
|
|
|---|---|
Deletes configured secure MAC addresses and sticky MAC addresses from the MAC-address table. |
show power
To display information about the power status, use the show power command.
show power [{available | redundancy-mode | {status {all | {module num}}} | {power-supply number} | total | used | inline [{interface number} | {module num}}]]
Syntax Description
Command Default
This command has no default settings.
Command Modes
EXEC (>)
Command History
|
|
|
|---|---|
12.2(18)ZY |
Support for this command was introduced. |
Usage Guidelines
Regardless of the type of supervisor engine you are using, the Catalyst 6500 series switch allocates power to the second supervisor engine slot in anticipation of a redundant supervisor engine configuration. You cannot turn off this function.
If you do not install a second supervisor engine, we recommend that you put the highest power-consuming module into the second supervisor engine slot to get the maximum power utilization.
The interface-number argument designates the module and port number. Valid values for interface-number depend on the specified interface type and the chassis and module that are used. For example, if you specify a Gigabit Ethernet interface and have a 48-port 10/100BASE-T Ethernet module that is 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.
Valid values for vlan-id are from 1 to 4094.
The Inline power field in the show power output displays the inline power that is consumed by the modules. For example, this example shows that module 9 has consumed 0.300 A of inline power:
Inline power # current
module 9 0.300A
Examples
This example shows how to display the available system power:
Router> show power available
system power available = 20.470A
Router>
This example shows how to display power-supply redundancy mode:
Router# show power redundancy-mode
system power redundancy mode = redundant
Router#
This command shows how to display the system-power status:
Router> show power
system power redundancy mode = combined
system power total = 3984.12 Watts (94.86 Amps @ 42V)
system power used = 1104.18 Watts (26.29 Amps @ 42V)
system power available = 2879.94 Watts (68.57 Amps @ 42V)
Power-Capacity PS-Fan Output Oper
PS Type Watts A @42V Status Status State
---- ------------------ ------- ------ ------ ------ -----
1 WS-CAC-3000W 2830.80 67.40 OK OK on
2 WS-CAC-1300W 1153.32 27.46 OK OK on
Note: PS2 capacity is limited to 2940.00 Watts (70.00 Amps @ 42V)
when PS1 is not present
Pwr-Allocated Oper
Fan Type Watts A @42V State
---- ------------------ ------- ------ -----
1 FAN-MOD-9 241.50 5.75 OK
2 241.50 5.75 failed
Pwr-Requested Pwr-Allocated Admin Oper
Slot Card-Type Watts A @42V Watts A @42V State State
---- ------------------ ------- ------ ------- ------ ----- -----
1 WS-X6K-SUP2-2GE 145.32 3.46 145.32 3.46 on on
2 - - 145.32 3.46 - -
3 WS-X6516-GBIC 118.02 2.81 118.02 2.81 on on
5 WS-C6500-SFM 117.18 2.79 117.18 2.79 on on
7 WS-X6516A-GBIC 214.20 5.10 - - on off (insuff cooling capacity)
8 WS-X6516-GE-TX 178.50 4.25 178.50 4.25 on on
9 WS-X6816-GBIC 733.98 17.48 - - on off (connector rating exceeded)
Router>
This example shows how to display the power status for all FRU types:
Router# show power status all
FRU-type # current admin state oper
power-supply 1 27.460A on on
module 1 4.300A on on
module 2 4.300A - - (reserved)
module 5 2.690A on on
Router#
This example shows how to display the power status for a specific module:
Router# show power status module 1
FRU-type # current admin state oper
module 1 -4.300A on on
Router#
This example shows how to display the power status for a specific power supply:
Router# show power status power-supply 1
FRU-type # current admin state oper
power-supply 1 27.460A on on
Router#
This example displays information about the high-capacity power supplies:
Router# show power status power-supply 2
Power-Capacity PS-Fan Output Oper
PS Type Watts A @42V Status Status State
---- ------------------ ------- ------ ------ ------ -----
1 WS-CAC-6000W 2672.04 63.62 OK OK on
2 WS-CAC-9000W-E 2773.68 66.04 OK OK on
Router#
This example shows how to display the total power that is available from the power supplies:
Router# show power total
system power total = 27.460A
Router#
This example shows how to display the total power that is budgeted for powered-on items:
Router# show power used
system power used = -6.990A
Router#
This command shows how to display the inline power status on the interfaces:
Router# show power inline
Interface Admin Oper Power ( mWatt ) Device
-------------------- ----- ---------- --------------- -----------
FastEthernet9/1 auto on 6300 Cisco 6500 IP Phone
FastEthernet9/2 auto on 6300 Cisco 6500 IP Phone
.
.
. <Output truncated>
This command shows how to display the inline power status for a specific module:
Router# show power inline mod 7
Interface Admin Oper Power Device Class
(Watts)
---------- ----- ---------- ------- -------------- -----------
Gi7/1 auto on 6.3 Cisco IP Phone 7960 n/a
Gi7/2 static power-deny 0 Ieee PD 3
.
.
. <Output truncated>
Related Commands
|
|
|
|---|---|
Turns on power for the modules. |
|
Sets the power-supply redundancy mode. |
show qdm status
To display information about the status for the currently active QDM clients who are connected to the Catalyst 6500 series switch, use the show qdm status command.
show qdm status
Syntax Description
This command has no keywords or arguments.
Command Default
This command has no default settings.
Command Modes
EXEC (>)
Command History
|
|
|
|---|---|
12.2(18)ZY |
Support for this command was introduced. |
Usage Guidelines
You can use this command to display the unique client ID that is assigned to each QDM client that is connected to the Catalyst 6500 series switch. The output display includes the following information:
•Number of QDM clients that are currently connected to the Catalyst 6500 series switch
•Version of QDB client
•Name and IP address of client
•Client identification
•Connection duration
Examples
This example shows how to display information on the status of the currently active QDM web-based clients:
Router# show qdm status
Number of QDM Clients : 2
QDM Client v2.1(0.7)-_picard_2 @ 10.34.8.92 (id:5)
connected since 07:50:00 UTC Sat Aug 11 1917
QDM Client v2.1(0.7)-_janeway_2 @ 171.69.49.14 (id:4)
connected since 07:49:39 UTC Sat Aug 11 1917
Router#
Related Commands
|
|
|
|---|---|
Disconnects a QDM session. |
show qm-sp port-data
To display information about the QoS-manager switch processor, use the show qm-sp port-data command.
show qm-sp port-data {mod port}
Syntax Description
mod port |
Module and port number; see the "Usage Guidelines" section for valid values. |
Command Default
This command has no default settings.
Command Modes
Switch command—Privileged EXEC (Switch-sp#)
Command History
|
|
|
|---|---|
12.2(18)ZY |
Support for this command was introduced. |
Usage Guidelines
This command is supported by the supervisor engine only. This command can be entered only from the Catalyst 6500 series switch console (see the remote login command).
The mod port arguments designate the module and port number. Valid values depend on the chassis and module that are used. For example, if you have a 48-port 10/100BASE-T Ethernet module that is 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.
Enter the show qm-sp port-data command to verify the values that are programmed in the hardware.
Examples
This example shows how to display information about the QoS manager:
Switch-sp# show qm-sp port-data 1 2
-----------------------------------------------------------------------------
* Type: Tx[1p2q2t] Rx[1p1q4t] [0] Pinnacle
* Per-Port: [Untrusted] Default COS[0] force[0] [VLAN based]
-----------------------------------------------------------------------------
* COSMAP(C[Q/T]) TX: 0[1/1] 1[1/1] 2[1/2] 3[1/2] 4[2/1] 5[3/1] 6[2/1] 7[2/2]
RX: 0[1/1] 1[1/1] 2[1/2] 3[1/2] 4[1/3] 5[2/1] 6[1/3] 7[1/4]
-----------------------------------------------------------------------------
* WRR bandwidth: [7168 18432]
* TX queue limit(size): [311296 65536 65536]
* WRED queue[1]: failed (0x82)
queue[2]: failed (0x82)
-----------------------------------------------------------------------------
* TX drop thr queue[1]: type[2 QOS_SCP_2_THR] dropThr[311104 311104]
queue[2]: type[2 QOS_SCP_2_THR] dropThr[61504 61504]
* RX drop threshold: type[4 QOS_SCP_4_THR] dropThr[62259 62259 62259 62259]
* RXOvr drop threshold: type[0 UNSUPPORTED] dropThr[16843009 131589 61504 61504]
* TXOvr drop threshold: type[0 UNSUPPORTED] dropThr[67174656 260 16843009 131589]
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