Cisco IOS Interface and Hardware Component Command Reference
show interfaces vlan mapping through show scp
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show interfaces vlan mapping through show scp

Contents

show interfaces vlan mapping through show scp

show interfaces vlan mapping

To display the status of a virtual local area network (VLAN) mapping on a port, use the showinterfacesvlanmapping command in user EXEC or privileged EXEC mode.

show interfaces interface interface-number vlan mapping

Syntax Description

interface

Interface type; possible valid values are ethernet, fastethernet, gigabitethernet, tengigabitethernet, pos, atm, and ge-wan.

interface-number

Module and port number; see the “Usage Guidelines” section for valid values.

Command Default

This command has no default settings.

Command Modes

User EXEC Privileged EXEC

Command History

Release

Modification

12.2(17b)SXA

Support for this command was introduced on the Supervisor Engine 720.

12.2(17d)SXB

Support for this command on the Supervisor Engine 2 was extended to Release 12.2(17d)SXB.

12.2(33)SRA

This command was integrated into Cisco IOS Release 12.2(33)SRA.

Usage Guidelines

The pos, atm, and ge-wan keywords are supported on Cisco 7600 series routers that are configured with a Supervisor Engine 2.

The interface-number designates 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 slot number are from 1 to 13 and valid values for the port number are from 1 to 48.

Examples

This example shows how to list all of the VLAN mappings that are configured on a port and indicate whether such mappings are enabled or disabled on the port:

Router# show interfaces gigabitethernet 5/2 vlan mapping 
State: enabled
Original VLAN Translated VLAN
------------- ---------------
  1649           755   
Router# 

Related Commands

Command

Description

show vlan mapping

Registers a mapping of an 802.1Q VLAN to an ISL VLAN.

switchport vlan mapping enable

Enables VLAN mapping per switch port.

show interfaces wlan-controller

To show the Cisco Wireless Local Area Network (WLAN) controller network module interfaces on the router, use the showinterfaceswlan-controller command in privileged EXEC mode.

show interfaces wlan-controller slot /unit

Syntax Description

slot/unit

Specifies the router slot and unit numbers for the WLAN controller network module.

Command Default

None

Command Modes

Privileged EXEC

Command History

Release

Modification

12.4(2)XA1

This command was introduced on the router software.

12.4(6)T

This command was integrated into Cisco IOS Release 12.4(6)T.

Examples

The following example shows how to read the hardware information about the interface WLAN controller in the router:

Router# show interfaces wlan-controller 1/0
wlan-controller1/0 is up, line protocol is up 
  Hardware is I82559FE, address is 0005.9a3d.7450 (bia 0005.9a3d.7450)
  Internet address is 30.0.0.1/24
  MTU 1500 bytes, BW 100000 Kbit, DLY 100 usec, 
     reliability 255/255, txload 1/255, rxload 1/255
  Encapsulation 802.1Q Virtual LAN, Vlan ID  1., loopback not set
  Keepalive set (10 sec)
  Full-duplex, 100Mb/s, 100BaseTX/FX
  ARP type: ARPA, ARP Timeout 04:00:00
  Last input 00:00:05, output 00:00:03, output hang never
  Last clearing of "show interface" counters never
  Input queue: 0/75/0/0 (size/max/drops/flushes); Total output drops: 0
  Queueing strategy: fifo
  Output queue: 0/40 (size/max)
  5 minute input rate 0 bits/sec, 0 packets/sec
  5 minute output rate 0 bits/sec, 0 packets/sec
     2400779 packets input, 143127299 bytes
     Received 2349587 broadcasts, 0 runts, 0 giants, 0 throttles
     0 input errors, 0 CRC, 0 frame, 0 overrun, 0 ignored
     0 watchdog
     0 input packets with dribble condition detected
     468232 packets output, 106333102 bytes, 0 underruns
     0 output errors, 0 collisions, 3 interface resets
     0 babbles, 0 late collision, 0 deferred
     0 lost carrier, 1 no carrier
     0 output buffer failures, 0 output buffers swapped out

show ip interface

To display the usability status of interfaces configured for IP, use the show ip interface command in privileged EXEC mode.

show ip interface [ type number ] [brief]

Syntax Description

type

(Optional) Interface type.

number

(Optional) Interface number.

brief

(Optional) Displays a summary of the usability status information for each interface.

Command Default

The full usability status is displayed for all interfaces configured for IP.

Command Modes

Privileged EXEC (#)

Command History

Release

Modification

10.0

This command was introduced.

12.0(3)T

The command output was modified to show the status of the ip wccp redirect out and ip wccp redirect exclude add in commands.

12.2(14)S

The command output was modified to display the status of NetFlow on a subinterface.

12.2(15)T

The command output was modified to display the status of NetFlow on a subinterface.

12.3(6)

The command output was modified to identify the downstream VPN routing and forwarding (VRF) instance in the output.

12.3(14)YM2

The command output was modified to show the usability status of interfaces configured for Multiprocessor Forwarding (MPF) and implemented on the Cisco 7301 and Cisco 7206VXR routers.

12.2(14)SX

This command was implemented on the Supervisor Engine 720.

12.2(17d)SXB

This command was integrated into Cisco IOS 12.2(17d)SXB on the Supervisor Engine 2, and the command output was changed to include NDE for hardware flow status.

12.4(4)T

This command was integrated into Cisco IOS Release 12.4(4)T.

12.2(28)SB

This command was integrated into Cisco IOS Release 12.2(28)SB.

12.2(33)SRA

This command was integrated into Cisco IOS Release 12.2(33)SRA.

12.2(31)SB2

The command output was modified to display information about the Unicast Reverse Path Forwarding (RPF) notification feature.

12.4(20)T

The command output was modified to display information about the Unicast RPF notification feature.

12.2(33)SXI2

This command was modified. The command output was modified to display information about the Unicast RPF notification feature.

Cisco IOS XE Release 2.5

This command was modified. This command was implemented on the Cisco ASR 1000 Series Aggregation Services Routers.

Cisco IOS XE Release 3.9S

This command was implemented on Cisco 4400 Series ISRs.

Usage Guidelines

The Cisco IOS software automatically enters a directly connected route in the routing table if the interface is usable (which means that it can send and receive packets). If an interface is not usable, the directly connected routing entry is removed from the routing table. Removing the entry lets the software use dynamic routing protocols to determine backup routes to the network, if any.

If the interface can provide two-way communication, the line protocol is marked "up." If the interface hardware is usable, the interface is marked "up."

If you specify an optional interface type, information for that specific interface is displayed. If you specify no optional arguments, information on all the interfaces is displayed.

When an asynchronous interface is encapsulated with PPP or Serial Line Internet Protocol (SLIP), IP fast switching is enabled. A show ip interface command on an asynchronous interface encapsulated with PPP or SLIP displays a message indicating that IP fast switching is enabled.

You can use the show ip interface brief command to display a summary of the router interfaces. This command displays the IP address, the interface status, and other information.

The show ip interface brief command does not display any information related to Unicast RPF.

Examples

The following example shows configuration information for interface Gigabit Ethernet 0/3. In this example, the IP flow egress feature is configured on the output side (where packets go out of the interface), and the policy route map named PBRNAME is configured on the input side (where packets come into the interface).

Router# show running-config interface gigabitethernet 0/3
interface GigabitEthernet0/3
 ip address 10.1.1.1 255.255.0.0
 ip flow egress
 ip policy route-map PBRNAME
 duplex auto
 speed auto
 media-type gbic
 negotiation auto
end

The following example shows interface information on Gigabit Ethernet interface 0/3. In this example, MPF is enabled, and both Policy Based Routing (PBR) and NetFlow features are not supported by MPF and are ignored.

Router# show ip interface gigabitethernet 0/3
GigabitEthernet0/3 is up, line protocol is up
  Internet address is 10.1.1.1/16
  Broadcast address is 255.255.255.255
  Address determined by setup command
  MTU is 1500 bytes
  Helper address is not set
  Directed broadcast forwarding is disabled
  Outgoing access list is not set
  Inbound access list is not set
  Proxy ARP is enabled
  Local Proxy ARP is disabled
  Security level is default
  Split horizon is enabled
  ICMP redirects are always sent
  ICMP unreachables are always sent
  ICMP mask replies are never sent
  IP fast switching is enabled
  IP fast switching on the same interface is disabled
  IP Flow switching is disabled
  IP CEF switching is enabled
  IP Feature Fast switching turbo vector
  IP VPN Flow CEF switching turbo vector
  IP multicast fast switching is enabled
  IP multicast distributed fast switching is disabled
  IP route-cache flags are Fast, CEF
  Router Discovery is disabled
  IP output packet accounting is disabled
  IP access violation accounting is disabled
  TCP/IP header compression is disabled
  RTP/IP header compression is disabled
  Policy routing is enabled, using route map PBR
  Network address translation is disabled
  BGP Policy Mapping is disabled
  IP Multi-Processor Forwarding is enabled
     IP Input features, "PBR",
         are not supported by MPF and are IGNORED
     IP Output features, "NetFlow",
         are not supported by MPF and are IGNORED

The following example identifies a downstream VRF instance. In the example, "Downstream VPN Routing/Forwarding "D"" identifies the downstream VRF instance.

Router# show ip interface virtual-access 3
Virtual-Access3 is up, line protocol is up
  Interface is unnumbered. Using address of Loopback2 (10.0.0.8)
  Broadcast address is 255.255.255.255
  Peer address is 10.8.1.1
  MTU is 1492 bytes
  Helper address is not set
  Directed broadcast forwarding is disabled
  Outgoing access list is not set
  Inbound  access list is not set
  Proxy ARP is enabled
  Local Proxy ARP is disabled
  Security level is default
  Split horizon is enabled
  ICMP redirects are always sent
  ICMP unreachables are always sent
  ICMP mask replies are never sent
  IP fast switching is enabled
  IP fast switching on the same interface is enabled
  IP Flow switching is disabled
  IP CEF switching is enabled
  IP Feature Fast switching turbo vector
  IP VPN CEF switching turbo vector
  VPN Routing/Forwarding "U"
  Downstream VPN Routing/Forwarding "D"
  IP multicast fast switching is disabled
  IP multicast distributed fast switching is disabled
  IP route-cache flags are Fast, CEF
  Router Discovery is disabled
  IP output packet accounting is disabled
  IP access violation accounting is disabled
  TCP/IP header compression is disabled
  RTP/IP header compression is disabled
  Policy routing is disabled
  Network address translation is disabled
  WCCP Redirect outbound is disabled
  WCCP Redirect inbound is disabled
  WCCP Redirect exclude is disabled
  BGP Policy Mapping is disabled 

The following example shows the information displayed when Unicast RPF drop-rate notification is configured:

Router# show ip interface ethernet 2/3
Ethernet2/3 is up, line protocol is up
  Internet address is 10.0.0.4/16
  Broadcast address is 255.255.255.255
  Address determined by non-volatile memory
  MTU is 1500 bytes
  Helper address is not set
  Directed broadcast forwarding is disabled
  Outgoing access list is not set
  Inbound  access list is not set
  Proxy ARP is enabled
  Local Proxy ARP is disabled
  Security level is default
  Split horizon is enabled
  ICMP redirects are always sent
  ICMP unreachables are always sent
  ICMP mask replies are never sent
  IP fast switching is disabled
  IP Flow switching is disabled
  IP CEF switching is disabled
  IP Null turbo vector
  IP Null turbo vector
  IP multicast fast switching is disabled
  IP multicast distributed fast switching is disabled
  IP route-cache flags are No CEF
  Router Discovery is disabled
  IP output packet accounting is disabled
  IP access violation accounting is disabled
  TCP/IP header compression is disabled
  RTP/IP header compression is disabled
  Probe proxy name replies are disabled
  Policy routing is disabled
  Network address translation is disabled
  WCCP Redirect outbound is disabled
  WCCP Redirect inbound is disabled
  WCCP Redirect exclude is disabled
  BGP Policy Mapping is disabled

Examples

  Input features: uRPF
  IP verify source reachable-via RX, allow default
   0 verification drops
   0 suppressed verification drops
   0 verification drop-rate
Router#

The following example shows how to display the usability status for a specific VLAN:

Router# show ip interface vlan 1
Vlan1 is up, line protocol is up
  Internet address is 10.0.0.4/24
  Broadcast address is 255.255.255.255
Address determined by non-volatile memory
  MTU is 1500 bytes
  Helper address is not set
  Directed broadcast forwarding is disabled
  Outgoing access list is not set
  Inbound  access list is not set
  Proxy ARP is enabled
  Local Proxy ARP is disabled
  Security level is default
  Split horizon is enabled
  ICMP redirects are always sent
  ICMP unreachables are always sent
  ICMP mask replies are never sent
  IP fast switching is enabled
  IP fast switching on the same interface is disabled
  IP Flow switching is disabled
  IP CEF switching is enabled
  IP Fast switching turbo vector
  IP Normal CEF switching turbo vector
  IP multicast fast switching is enabled
  IP multicast distributed fast switching is disabled
  IP route-cache flags are Fast, CEF
  Router Discovery is disabled
  IP output packet accounting is disabled
  IP access violation accounting is disabled
  TCP/IP header compression is disabled
  RTP/IP header compression is disabled
  Probe proxy name replies are disabled
  Policy routing is disabled
  Network address translation is disabled
  WCCP Redirect outbound is disabled
  WCCP Redirect inbound is disabled
  WCCP Redirect exclude is disabled
  BGP Policy Mapping is disabled
  Sampled Netflow is disabled
  IP multicast multilayer switching is disabled
  Netflow Data Export (hardware) is enabled

The table below describes the significant fields shown in the display.

Table 1 show ip interface Field Descriptions

Field

Description

Virtual-Access3 is up

Shows whether the interface hardware is usable (up). For an interface to be usable, both the interface hardware and line protocol must be up.

Broadcast address is

Broadcast address.

Peer address is

Peer address.

MTU is

MTU value set on the interface, in bytes.

Helper address

Helper address, if one is set.

Directed broadcast forwarding

Shows whether directed broadcast forwarding is enabled.

Outgoing access list

Shows whether the interface has an outgoing access list set.

Inbound access list

Shows whether the interface has an incoming access list set.

Proxy ARP

Shows whether Proxy Address Resolution Protocol (ARP) is enabled for the interface.

Security level

IP Security Option (IPSO) security level set for this interface.

Split horizon

Shows whether split horizon is enabled.

ICMP redirects

Shows whether redirect messages will be sent on this interface.

ICMP unreachables

Shows whether unreachable messages will be sent on this interface.

ICMP mask replies

Shows whether mask replies will be sent on this interface.

IP fast switching

Shows whether fast switching is enabled for this interface. It is generally enabled on serial interfaces, such as this one.

IP Flow switching

Shows whether Flow switching is enabled for this interface.

IP CEF switching

Shows whether Cisco Express Forwarding switching is enabled for the interface.

Downstream VPN Routing/Forwarding "D"

Shows the VRF instance where the PPP peer routes and AAA per-user routes are being installed.

IP multicast fast switching

Shows whether multicast fast switching is enabled for the interface.

IP route-cache flags are Fast

Shows whether NetFlow is enabled on an interface. Displays "Flow init" to specify that NetFlow is enabled on the interface. Displays "Ingress Flow" to specify that NetFlow is enabled on a subinterface using the ip flow ingresscommand. Shows "Flow" to specify that NetFlow is enabled on a main interface using the ip route-cache flow command.

Router Discovery

Shows whether the discovery process is enabled for this interface. It is generally disabled on serial interfaces.

IP output packet accounting

Shows whether IP accounting is enabled for this interface and what the threshold (maximum number of entries) is.

TCP/IP header compression

Shows whether compression is enabled.

WCCP Redirect outbound is disabled

Shows the status of whether packets received on an interface are redirected to a cache engine. Displays "enabled" or "disabled."

WCCP Redirect exclude is disabled

Shows the status of whether packets targeted for an interface will be excluded from being redirected to a cache engine. Displays "enabled" or "disabled."

Netflow Data Export (hardware) is enabled

NetFlow Data Expert (NDE) hardware flow status on the interface.

The table below describes the significant fields shown in the display.

Examples

In the following example, command show ip interface brief shows a summary of the interfaces and their status on the device.

Router#show ip interface brief
Interface              IP-Address      OK? Method Status                Protocol
GigabitEthernet0/0/0   unassigned      YES NVRAM  down                  down    
GigabitEthernet0/0/1   unassigned      YES NVRAM  down                  down    
GigabitEthernet0/0/2   unassigned      YES NVRAM  down                  down    
GigabitEthernet0/0/3   unassigned      YES NVRAM  down                  down    
Serial1/0/0            unassigned      YES unset  down                  down    
GigabitEthernet0       unassigned      YES NVRAM  up                    up  

Examples

The following example shows how to display a summary of the usability status information for each interface:

Router# show ip interface brief
Interface     IP-Address     OK?  Method  Status                  Protocol
Ethernet0     10.108.00.5    YES  NVRAM   up                      up      
Ethernet1     unassigned     YES  unset   administratively down   down    
Loopback0     10.108.200.5   YES  NVRAM   up                      up      
Serial0       10.108.100.5   YES  NVRAM   up                      up      
Serial1       10.108.40.5    YES  NVRAM   up                      up      
Serial2       10.108.100.5   YES  manual  up                      up      
Serial3       unassigned     YES  unset   administratively down   down 
Table 2 show ip interface brief Field Descriptions

Field

Description

Interface

Type of interface.

IP-Address

IP address assigned to the interface.

OK?

"Yes" means that the IP Address is valid. "No" means that the IP Address is not valid.

Method

The Method field has the following possible values:

  • RARP or SLARP--Reverse Address Resolution Protocol (RARP) or Serial Line Address Resolution Protocol (SLARP) request.
  • BOOTP--Bootstrap protocol.
  • TFTP--Configuration file obtained from the TFTP server.
  • manual--Manually changed by the command-line interface.
  • NVRAM--Configuration file in NVRAM.
  • IPCP--ip address negotiated command.
  • DHCP--ip address dhcp command.
  • unset--Unset.
  • other--Unknown.

Status

Shows the status of the interface. Valid values and their meanings are:

  • up--Interface is up.
  • down--Interface is down.
  • administratively down--Interface is administratively down.

Protocol

Shows the operational status of the routing protocol on this interface.

Related Commands

Command

Description

ip address

Sets a primary or secondary IP address for an interface.

ip vrf autoclassify

Enables VRF autoclassify on a source interface.

match ip source

Specifies a source IP address to match to required route maps that have been set up based on VRF connected routes.

route-map

Defines the conditions for redistributing routes from one routing protocol into another or to enable policy routing.

set vrf

Enables VPN VRF selection within a route map for policy-based routing VRF selection.

show ip arp

Displays the ARP cache, in which SLIP addresses appear as permanent ARP table entries.

show route-map

Displays static and dynamic route maps.


 
	 

show ipc

To display interprocess communication (IPC) statistics, use the showipc command in privileged EXEC mode.

show ipc { nodes | ports [open] | queue | status [cumulative] | zones }

Syntax Description

nodes

Displays participating nodes.

ports

Displays local and registered IPC ports.

open

(Optional) Displays local IPC ports that have been opened by the current seat (node).

queue

Displays information about the IPC retransmission queue and the IPC message queue.

status

Displays the status of the local IPC server.

cumulative

(Optional) Displays cumulative totals for the status counters of the local IPC server since the router was rebooted.

zones

Displays information about the IPC zones and seats.

Command Modes

Privileged EXEC

Command History

Release

Modification

12.1(12c)EW

This command was introduced.

12.2(15)T

The cumulative keyword was added.

12.3(7)T

The zones keyword was added.

12.2(14)SX

Support for this command was introduced on the Supervisor Engine 720.

12.2(17d)SXB

Support for this command on the Supervisor Engine 2 was extended to 12.2(17d)SXB.

12.2(28)SB

This command was integrated into Cisco IOS Release 12.2(28)SB.

Usage Guidelines

The Cisco IOS version of IPC provides a reliable ordered delivery of messages using an underlying platform driver transport or User Datagram Protocol (UDP) transport protocol.

Nodes

A node (referred to as a seat) is an intelligent element like a processor that can communicate using IPC services. A seat is where entities and ports reside. A seat manager performs all the interprocessor communications by receiving messages from the network and forwarding the messages to the appropriate port.

Ports

IPC communication endpoints (ports) receive and queue received IPC messages.

Queue

Use the queue keyword to display information about the IPC retransmission queue and the IPC message queue.

Status

Use thestatus keyword to display the IPC statistics that have been generated since a clearipcstatistics command was entered. The showipcstatus command with the cumulative keyword displays the IPC statistics that have been gathered since the router was rebooted, regardless of how many times the statistics have been cleared.

Zones

The IPC zone manager allows more than one group of IPC seats to exist to enable direct communication between line cards and the route processor. Use thezones keyword to display the IPC zone and seat information.

Examples

The following is sample output from the showipccommand with the nodeskeyword displaying the participating seats (nodes):

Router# show ipc nodes
There are 6 nodes in this IPC realm.
   ID      Type       Name                     Last  Last
                                               Sent Heard
0.10000    Local      IPC Master                  0     0 
0.1060000  RSP-CY     RSP IPC card slot 6         9    79 
0.1050000  RSP-CY     RSP IPC card slot 5        21    22 
0.1080000  RSP-CY     RSP IPC card slot 8        21    22 
1.10000    Local      IPC Master: -Zone#1         0     0 
2.10000    Local      IPC Master: -Zone#2

The table below describes the significant fields shown in the display.

Table 3 show ipc nodes Field Descriptions

Field

Description

ID

Port ID, which consists of a zone ID followed by the seat ID.

Type

Type of seat (node).

Name

Seat name.

Last Sent

Sequence number of the message that was last sent.

Last Heard

Sequence number of the in-sequence message that was last heard.

The following is sample output from the showipccommand with the portskeyword displaying the local and registered IPC ports:

Router# show ipc ports
There are 11 ports defined.
 
Port ID     Type    Name            (current/peak/total) 
1.10000.1   unicast IPC Master:Zone 
1.10000.2   unicast IPC Master:Echo 
1.10000.3   unicast IPC Master:Control 
1.10000.4   unicast Remote TTY Server Port 
1.10000.5   unicast GALIOS RF :Active 
index = 0 seat_id = 0x2020000 last sent = 0 heard = 1635 0/1/1635
1.10000.6   unicast GALIOS RED:Active 
index = 0 seat_id = 0x2020000 last sent = 0 heard = 2 0/1/2
 
2.2020000.3 unicast GALIOS IPC:Card 2:Control 
2.2020000.4 unicast GALIOS RFS :Standby 
2.2020000.5 unicast Slave: Remote TTY Client Port 
2.2020000.6 unicast GALIOS RF :Standby 
2.2020000.7 unicast GALIOS RED:Standby 
RPC packets: current/peak/total 0/1/17

The table below describes the significant fields shown in the display.

Table 4 show ipc ports Field Descriptions

Field

Description

Port ID

Port ID, which consists of a zone ID followed by the seat ID.

Type

Type of port.

Name

Port name.

current/peak/total

Displays information about the number of messages held by this IPC session.

The following is sample output from the showipccommand with the queuekeyword displaying information about the IPC retransmission queue and the IPC message queue:

Router# show ipc queue
There are 0 IPC messages waiting for acknowledgement in the transmit queue.
There are 0 IPC messages waiting for a response.
There are 0 IPC messages waiting for additional fragments.
There are 0 IPC messages currently on the IPC inboundQ.
There are 0 messages currently in use by the system.

The following is sample output from the showipccommand with the statuskeyword displaying information about the local IPC server:

Router# show ipc status
IPC System Status
Time last IPC stat cleared : never 
This processor is the IPC master server.
Do not drop output of IPC frames for test purposes.
1000 IPC Message Headers Cached.
                                                      Rx Side     Tx Side
Total Frames                                              189         140
Total from Local Ports                                    189          70
Total Protocol Control Frames                              70          44
Total Frames Dropped                                        0           0
                           Service Usage
Total via Unreliable Connection-Less Service              145           0
Total via Unreliable Sequenced Connection-Less Svc          0           0
Total via Reliable Connection-Oriented Service             44          70
                            IPC Protocol Version 0
Total Acknowledgements                                     70          44
Total Negative Acknowledgements                             0           0
                            Device Drivers
Total via Local Driver                                      0           0
Total via Platform Driver                                   0          70
Total Frames Dropped by Platform Drivers                    0           0
                    Reliable Tx Statistics
Re-Transmission                                                         0
Re-Tx Timeout                                                           0
Rx Errors                              Tx Errors
Unsupp IPC Proto Version          0  Tx Session Error                  0
Corrupt Frame                     0  Tx Seat Error                     0
Duplicate Frame                   0  Destination Unreachable           0
Out-of-Sequence Frame             0  Tx Test Drop                      0
Dest Port does Not Exist          0  Tx Driver Failed                  0
Rx IPC Msg Alloc Failed           0  Ctrl Frm Alloc Failed             0
Unable to Deliver Msg             0
         Buffer Errors                          Misc Errors
IPC Msg Alloc                     0  IPC Open Port                     0
Emer IPC Msg Alloc                0  No HWQ                            0
IPC Frame PakType Alloc           0  Hardware Error                    0
IPC Frame MemD Alloc              0
         Tx Driver Errors
No Transport                      0
MTU Failure                       0
Dest does not Exist               0

The table below describes the significant fields shown in the display.

Table 5 show ipc status Field Descriptions

Field

Description

Time last IPC stat cleared

Displays the time, in dd:hh:mm (or never), since the IPC statistics were last cleared.

This processor is

Shows whether the processor is the IPC master or an IPC slave.

IPC Message Headers Cached

Number of message headers available in the IPC message cache.

Rx Side

Information about IPC messages received.

Tx Side

Information about IPC messages sent.

Service Usage

Number of IPC messages received or sent via connectionless or connection-oriented protocols.

IPC Protocol Version 0

Number of acknowledgements and negative acknowledgements received or sent by the system.

Device Drivers

Number of IPC messages received or sent using the underlying device drivers.

Reliable Tx Statistics

Number of IPC messages that were retransmitted or that timed out on retransmission using a reliable connection-oriented protocol.

Rx Errors

Number of IPC messages received that displayed various internal frame or delivery errors.

Tx Errors

Number of IPC messages sent that displayed various transmission errors.

Buffer Errors

Number of message allocation failures from the IPC message cache, IPC emergency message cache, IPC frame allocation cache, and IPC frame memory allocation cache.

Misc Errors

Various miscellaneous errors that relate to the IPC open queue, to the hardware queue, or to other hardware failures.

Tx Driver Errors

Number of messages that relate to IPC transmission driver failures including messages to or from a destination without a valid transport entity from the seat; number of messages dropped because the packet size is larger than the maximum transmission unit (MTU); and number of messages without a valid destination address.

The following example shows how to display cumulative IPC counters for the local IPC server. Note that the recent IPC clearing has not cleared the IPC counters because the cumulative keyword displays the IPC statistics that have been generated since the router was rebooted.

Router# show ipc status cumulative
IPC System Status
Time last IPC stat cleared : 00:00:05
This processor is the IPC master server.
Do not drop output of IPC frames for test purposes.
1000 IPC Message Headers Cached.
                                                      Rx Side     Tx Side
Total Frames                                             3473         184
Total from Local Ports                                   3473          92
Total Protocol Control Frames                              92          54
Total Frames Dropped                                        0           0
                             Service Usage
Total via Unreliable Connection-Less Service             2449           0
Total via Unreliable Sequenced Connection-Less Svc        970           0
Total via Reliable Connection-Oriented Service             54          92
                     IPC Protocol Version 0
Total Acknowledgements                                      0           0
Total Negative Acknowledgements                             0           0
                            Device Drivers
Total via Local Driver                                      0           0
Total via Platform Driver                                   0          92
Total Frames Dropped by Platform Drivers                    0           0
                    Reliable Tx Statistics
Re-Transmission                                                         0
Re-Tx Timeout                                                           0
Rx Errors                              Tx Errors
Unsupp IPC Proto Version          0  Tx Session Error                  0
Corrupt Frame                     0  Tx Seat Error                     0
Duplicate Frame                   0  Destination Unreachable           0
Out-of-Sequence Frame             0  Tx Test Drop                      0
Dest Port does Not Exist          0  Tx Driver Failed                  0
Rx IPC Msg Alloc Failed           0  Ctrl Frm Alloc Failed             0
Unable to Deliver Msg             0
         Buffer Errors                          Misc Errors
IPC Msg Alloc                     0  IPC Open Port                     0
Emer IPC Msg Alloc                0  No HWQ                            0
IPC Frame PakType Alloc           0  Hardware Error                    0
IPC Frame MemD Alloc              0
         Tx Driver Errors
No Transport                      0
MTU Failure                       0
Dest does not Exist               0

The following is sample output from the showipccommand with the zoneskeyword displaying information about the IPC zones and seats:

Router# show ipc zones
There are 3 Zones in this IPC realm.
Zone ID   Seat ID   Name
      0    10000    IPC Default Zone                        
      1    10000    IPC TEST ZONE#1                         
      2    10000    IPC TEST ZONE#2

The table below describes the significant fields shown in the display.

Table 6 show ipc zones Field Descriptions

Field

Description

Zone ID

Zone number.

Seat ID

Seat number.

Name

Zone name.

Related Commands

Command

Description

clear ipc statistics

Clears and resets the IPC statistics.

show ipc hog-info

To provide information about interprocess communication (IPC) messages that consume excessive CPU, use the showipchog-infocommand in privileged EXEC mode.

show ipc hog-info

Syntax Description

This command has no arguments or keywords.

Command Modes

Privileged EXEC

Command History

Release

Modification

12.2(15)T

This command was introduced.

12.2(28)SB

This command was integrated into Cisco IOS Release 12.2(28)SB.

12.2(33)SRA

This command was integrated into Cisco IOS Release 12.2(33)SRA.

Usage Guidelines

The Cisco IOS version of IPC provides a reliable ordered delivery of messages using an underlying platform driver transport or User Datagram Protocol (UDP) transport protocol.

The show ipc hog-info command displays information about IPC messages that are being processed when a CPUHOG error occurs, indicating that the client processing an IPC message is using too much CPU, or when an IPC message callback exceeds 200 milliseconds.

Examples

The following example shows that the IPC process has had a CPUHOG error or the message callback exceeded the 200-millisecond threshold:

Router# show ipc hog-info
Time last IPC process hogged CPU: 00:05:09
IPC Messages Processed:
Source       Destination  Name                      Message-Type  Time-taken
                                                        (0x)       (msec)
 1030000     10000.14    ISSU Process: Active Por         0        864
 1030000     10000.D     RF : Active                      0          0

In the following example, the show ipc status command shows a counter incrementing whenever a callback exceeds 200 milliseconds:

Router# show ipc status
                            IPC System Status
 Time last IPC stat cleared : never
 This processor is the IPC master server.
 Do not drop output of IPC frames for test purposes.
 1000 IPC Message Headers Cached.
                                                    Rx Side     Tx Side
 Total Frames                                             9501        3973
 Total from Local Ports                                  14328        3258
 Total Protocol Control Frames                            1628         713
 Total Frames Dropped                                        0           0
                             Service Usage
 Total via Unreliable Connection-Less Service             7865           0
 Total via Unreliable Sequenced Connection-Less Svc          0           0
 Total via Reliable Connection-Oriented Service            831        1629
                      IPC Protocol Version 0

 Total Acknowledgments                                   1628         713
 Total Negative Acknowledgments                             0           0
                             Device Drivers
 Total via Local Driver                                     12          12
 Total via Platform Driver                                9478        1619
 Total Frames Dropped by Platform Drivers                    0           0
 Total Frames Sent when media is quiesced                                0
                     Reliable Tx Statistics
 Re-Transmission                                                         0
 Re-Tx Timeout                                                           0
          Rx Errors                              Tx Errors
 Unsupp IPC Proto Version          0  Tx Session Error                  0
 Corrupt Frame                     0  Tx Seat Error                     0
 Duplicate Frame                   0  Destination Unreachable           0
 Rel Out-of-Seq Frame              0  Unrel Out-of-Seq Frame            0
 Dest Port does Not Exist          0  Tx Driver Failed                  0
 Rx IPC Msg Alloc Failed           0  Rx IPC Frag Dropped               0
 Rx IPC Transform Errors           0  Tx IPC Transform Errors           0
 Unable to Deliver Msg             0  Tx Test Drop                      0
 Ctrl Frm Alloc Failed             0  Rx Msg Callback Hog              11
          Buffer Errors                          Misc Errors
 IPC Msg Alloc                     0  IPC Open Port                     0
 Emer IPC Msg Alloc                0  No HWQ                            0
 IPC Frame PakType Alloc           0  Hardware Error                    0
 IPC Frame MemD Alloc              0  Invalid Messages                  0
          Tx Driver Errors
 No Transport                      0
 MTU Failure                       0
 Dest does not Exist               0

Related Commands

Command

Description

show ipc

Displays IPC statistics.

show ipv6 ospf interface

To display Open Shortest Path First (OSPF)-related interface information, use the showipv6ospfinterface command in user EXEC or privileged mode.

show ipv6 ospf [process-id] [area-id] interface [ type number ] [brief]

Syntax Description

process-id

(Optional) Internal identification. It is locally assigned and can be any positive integer. The number used here is the number assigned administratively when the OSPF routing process is enabled.

area-id

(Optional) Displays information about a specified area only.

type number

(Optional) Interface type and number.

brief

(Optional) Displays brief overview information for OSPF interfaces, states, addresses and masks, and areas on the router.

Command Modes

User EXEC Privileged EXEC

Command History

Release

Modification

12.0(24)S

This command was introduced.

12.2(15)T

This command was integrated into Cisco IOS Release 12.2(15)T.

12.2(18)S

This command was integrated into Cisco IOS Release 12.2(18)S.

12.3(4)T

Command output is changed when authentication is enabled.

12.2(28)SB

This command was integrated into Cisco IOS Release 12.2(28)SB.

12.2(25)SG

This command was integrated into Cisco IOS Release 12.2(25)SG.

12.2(33)SRA

This command was integrated into Cisco IOS Release 12.2(33)SRA.

12.4(9)T

Command output is changed when encryption is enabled.

12.2(33)SRB

The brief keyword was added.

12.4(15)XF

Output displays were modified so that VMI PPPoE interface-based local state values are displayed in the command output when a VMI interface is specified.

12.4(15)T

This command was integrated into Cisco IOS Release 12.4(15)T

12.2(33)SXH

This command was integrated into Cisco IOS Release 12.2(33)SXH.

Cisco IOS XE Release 2.1

Command output was updated to display graceful restart information.

12.2(33)SRE

This command was modified. It was integrated into Cisco IOS Release 12.2(33)SRE.

15.1(1)SY

This command was was modified. It was integrated into Cisco IOS Release 15.1(1)SY.

Examples

Examples

The following is sample output from the showipv6ospfinterface command:

Router# show ipv6 ospf interface
ATM3/0 is up, line protocol is up 
  Link Local Address 2001:0DB1:205:5FFF:FED3:5808, Interface ID 13
  Area 1, Process ID 1, Instance ID 0, Router ID 172.16.3.3
  Network Type POINT_TO_POINT, Cost: 1
  Transmit Delay is 1 sec, State POINT_TO_POINT,
  Timer intervals configured, Hello 10, Dead 40, Wait 40, Retransmit 5
    Hello due in 00:00:06
  Index 1/2/2, flood queue length 0
  Next 0x0(0)/0x0(0)/0x0(0)
  Last flood scan length is 12, maximum is 12
  Last flood scan time is 0 msec, maximum is 0 msec
  Neighbor Count is 1, Adjacent neighbor count is 1 
    Adjacent with neighbor 172.16.4.4
  Suppress hello for 0 neighbor(s)
FastEthernet0/0 is up, line protocol is up 
  Link Local Address 2001:0DB1:205:5FFF:FED3:5808, Interface ID 3
  Area 1, Process ID 1, Instance ID 0, Router ID 172.16.3.3
  Network Type BROADCAST, Cost: 1
  Transmit Delay is 1 sec, State BDR, Priority 1 
  Designated Router (ID) 172.16.6.6, local address 2001:0DB1:205:5FFF:FED3:6408
  Backup Designated router (ID) 172.16.3.3, local address 2001:0DB1:205:5FFF:FED3:5808
  Timer intervals configured, Hello 10, Dead 40, Wait 40, Retransmit 5
    Hello due in 00:00:05
  Index 1/1/1, flood queue length 0
  Next 0x0(0)/0x0(0)/0x0(0)
  Last flood scan length is 12, maximum is 12
  Last flood scan time is 0 msec, maximum is 0 msec
  Neighbor Count is 1, Adjacent neighbor count is 1 
    Adjacent with neighbor 172.16.6.6  (Designated Router)
  Suppress hello for 0 neighbor(s)

The table below describes the significant fields shown in the display.

Table 7 show ipv6 ospf interface Field Descriptions

Field

Description

ATM3/0

Status of the physical link and operational status of protocol.

Link Local Address

Interface IPv6 address.

Area 1, Process ID 1, Instance ID 0, Router ID 172.16.3.3

The area ID, process ID, instance ID, and router ID of the area from which this route is learned.

Network Type POINT_TO_POINT, Cost: 1

Network type and link-state cost.

Transmit Delay

Transmit delay, interface state, and router priority.

Designated Router

Designated router ID and respective interface IP address.

Backup Designated router

Backup designated router ID and respective interface IP address.

Timer intervals configured

Configuration of timer intervals.

Hello

Number of seconds until the next hello packet is sent out this interface.

Neighbor Count

Count of network neighbors and list of adjacent neighbors.

Examples

The following is sample output of the showipv6ospfinterface command when the brief keyword is entered.

Router# show ipv6 ospf interface brief
 
Interface    PID   Area            Intf ID    Cost  State Nbrs F/C
VL0          6     0               21         65535 DOWN  0/0
Se3/0        6     0               14         64    P2P   0/0
Lo1          6     0               20         1     LOOP  0/0
Se2/0        6     6               10         62    P2P   0/0
Tu0          1000  0               19         11111 DOWN  0/0

Examples

The following is sample output from the showipv6ospfinterface command with authentication enabled on the interface:

Router# show ipv6 ospf interface
Ethernet0/0 is up, line protocol is up
  Link Local Address 2001:0DB1:A8BB:CCFF:FE00:6E00, Interface ID 2
  Area 0, Process ID 1, Instance ID 0, Router ID 10.10.10.1
  Network Type BROADCAST, Cost:10
  MD5 Authentication SPI 500, secure socket state UP (errors:0)
  Transmit Delay is 1 sec, State BDR, Priority 1
  Designated Router (ID) 10.11.11.1, local address 2001:0DB1:A8BB:CCFF:FE00:6F00
  Backup Designated router (ID) 10.10.10.1, local address
2001:0DB1:A8BB:CCFF:FE00:6E00
  Timer intervals configured, Hello 10, Dead 40, Wait 40, Retransmit 5
    Hello due in 00:00:01
  Index 1/1/1, flood queue length 0
  Next 0x0(0)/0x0(0)/0x0(0)
  Last flood scan length is 1, maximum is 1
  Last flood scan time is 0 msec, maximum is 0 msec
  Neighbor Count is 1, Adjacent neighbor count is 1
    Adjacent with neighbor 10.11.11.1  (Designated Router)
  Suppress hello for 0 neighbor(s)

Examples

The following is sample output from the showipv6ospfinterface command with null authentication configured on the interface:

Router# show ipv6 ospf interface
Ethernet0/0 is up, line protocol is up
  Link Local Address 2001:0DB1:A8BB:CCFF:FE00:6E00, Interface ID 2
  Area 0, Process ID 1, Instance ID 0, Router ID 10.10.10.1
  Network Type BROADCAST, Cost:10
  Authentication NULL
  Transmit Delay is 1 sec, State BDR, Priority 1
  Designated Router (ID) 10.11.11.1, local address 2001:0DB1:A8BB:CCFF:FE00:6F00
  Backup Designated router (ID) 10.10.10.1, local address
2001:0DB1:A8BB:CCFF:FE00:6E00
  Timer intervals configured, Hello 10, Dead 40, Wait 40, Retransmit 5
    Hello due in 00:00:03
  Index 1/1/1, flood queue length 0
  Next 0x0(0)/0x0(0)/0x0(0)
  Last flood scan length is 1, maximum is 1
  Last flood scan time is 0 msec, maximum is 0 msec
  Neighbor Count is 1, Adjacent neighbor count is 1
    Adjacent with neighbor 10.11.11.1  (Designated Router)
  Suppress hello for 0 neighbor(s)

Examples

The following is sample output from the showipv6ospfinterface command with authentication configured for the area:

Router# show ipv6 ospf interface
Ethernet0/0 is up, line protocol is up
  Link Local Address 2001:0DB1:A8BB:CCFF:FE00:6E00, Interface ID 2
  Area 0, Process ID 1, Instance ID 0, Router ID 10.10.10.1
  Network Type BROADCAST, Cost:10
  MD5 Authentication (Area) SPI 1000, secure socket state UP (errors:0)
  Transmit Delay is 1 sec, State BDR, Priority 1
  Designated Router (ID) 10.11.11.1, local address 2001:0DB1:A8BB:CCFF:FE00:6F00
  Backup Designated router (ID) 10.10.10.1, local address
FE80::A8BB:CCFF:FE00:6E00
  Timer intervals configured, Hello 10, Dead 40, Wait 40, Retransmit 5
    Hello due in 00:00:03
  Index 1/1/1, flood queue length 0
  Next 0x0(0)/0x0(0)/0x0(0)
  Last flood scan length is 1, maximum is 1
  Last flood scan time is 0 msec, maximum is 0 msec
  Neighbor Count is 1, Adjacent neighbor count is 1
    Adjacent with neighbor 10.11.11.1  (Designated Router)
  Suppress hello for 0 neighbor(s)

Examples

The following display shows sample output from the showipv6ospfinterface command when the OSPF cost dynamic is configured.

Router1# show ipv6 ospf interface serial 2/0
Serial2/0 is up, line protocol is up
   Link Local Address 2001:0DB1:A8BB:CCFF:FE00:100, Interface ID 10
   Area 1, Process ID 1, Instance ID 0, Router ID 172.1.1.1
   Network Type POINT_TO_MULTIPOINT, Cost: 64 (dynamic), Cost Hysteresis: 200
   Cost Weights: Throughput 100, Resources 20, Latency 80, L2-factor 100
   Transmit Delay is 1 sec, State POINT_TO_MULTIPOINT,
   Timer intervals configured, Hello 30, Dead 120, Wait 120, Retransmit 5
     Hello due in 00:00:19
   Index 1/2/3, flood queue length 0
   Next 0x0(0)/0x0(0)/0x0(0)
   Last flood scan length is 0, maximum is 0
   Last flood scan time is 0 msec, maximum is 0 msec
   Neighbor Count is 0, Adjacent neighbor count is 0
   Suppress hello for 0 neighbor(s)

Examples

The following display shows sample output from the showipv6ospfinterface command when the OSPF graceful restart feature is configured:

Router# show ipv6 ospf interface 
Ethernet0/0 is up, line protocol is up 
  Link Local Address FE80::A8BB:CCFF:FE00:300, Interface ID 2
  Area 0, Process ID 1, Instance ID 0, Router ID 10.3.3.3
  Network Type POINT_TO_POINT, Cost: 10
  Transmit Delay is 1 sec, State POINT_TO_POINT,
  Timer intervals configured, Hello 10, Dead 40, Wait 40, Retransmit 5
   Graceful Restart p2p timeout in 00:00:19
    Hello due in 00:00:02
  Graceful Restart helper support enabled
  Index 1/1/1, flood queue length 0
  Next 0x0(0)/0x0(0)/0x0(0)
  Last flood scan length is 1, maximum is 1
  Last flood scan time is 0 msec, maximum is 0 msec
  Neighbor Count is 1, Adjacent neighbor count is 1 
    Adjacent with neighbor 10.1.1.1
  Suppress hello for 0 neighbor(s)

Examples

The following display shows that the OSPF interface is enabled for Bidirectional Forwarding Detection (BFD):

Router# show ipv6 ospf interface 
Serial10/0 is up, line protocol is up 
  Link Local Address FE80::A8BB:CCFF:FE00:6500, Interface ID 42 
  Area 1, Process ID 1, Instance ID 0, Router ID 10.0.0.1 
  Network Type POINT_TO_POINT, Cost: 64 
  Transmit Delay is 1 sec, State POINT_TO_POINT, BFD enabled 
  Timer intervals configured, Hello 10, Dead 40, Wait 40, Retransmit 5 
    Hello due in 00:00:07 
  Index 1/1/1, flood queue length 0 
  Next 0x0(0)/0x0(0)/0x0(0) 
  Last flood scan length is 1, maximum is 1 
  Last flood scan time is 0 msec, maximum is 0 msec 
  Neighbor Count is 1, Adjacent neighbor count is 1
    Adjacent with neighbor 10.1.0.1
  Suppress hello for 0 neighbor(s)

Related Commands

Command

Description

show ipv6 ospf graceful-restart

Displays OSPFv3 graceful restart information.


 
	 

show l2protocol-tunnel

To display the protocols that are tunneled on an interface or on all interfaces, use the showl2protocol-tunnel command.

show l2protocol-tunnel [ interface interface mod /port | summary | vlan vlan ]

Syntax Description

interface interface-id

(Optional) Specifies the interface type; possible valid values are ethernet, FastEthernet, gigabitethernet, tengigabitethernet, pos, atm, and ge-wan

mod/port

Module and port number.

summary

(Optional) Displays a summary of a tunneled port.

vlanvlan

(Optional) Limits the display to interfaces on the specified VLAN. Valid values are from 1 to 4094.

Command Modes

EXEC (>)

Privileged EXEC (#)

Command History

Release

Modification

12.2(14)SX

Support for this command was introduced on the Supervisor Engine 720.

12.2(17a)SX

The showl2protocol-tunnelsummary command output was changed to display the following information:

  • Global drop-threshold setting
  • Up status of a Layer 2-protocol interface tunnel

12.2(17d)SXB

Support for this command on the Supervisor Engine 2 was extended to the 12.2 SX release.

12.2(33)SRA

This command was integrated into Cisco IOS Release 12.2(33)SRA.

12.2(33)SXI

This command was changed to add the optional vlanvlan keyword and argument.

15.2(2)T

This command was integrated into Cisco IOS Release 15.2(2)T.

Usage Guidelines

After enabling Layer 2 protocol tunneling on an access or IEEE 802.1Q tunnel port by using the l2protocol-tunnel interface configuration command, you can configure some or all of these parameters:

  • Protocol type to be tunneled
  • Shutdown threshold
  • Drop threshold

The showl2protocol-tunnel command displays only the ports that have protocol tunneling enabled.

The showl2protocol-tunnelsummary command displays the ports that have protocol tunneling enabled, regardless of whether the port is down or currently configured as a trunk.

Examples

The following example is an output from the show l2protocol-tunnel command:


Router# show l2protocol-tunnel
COS for Encapsulated Packets: 5
Drop Threshold for Encapsulated Packets: 0

Port
Protocol
Shutdown Threshold
Drop Threshold
Encapsulation Counter
Decapsulation Counter
Drop Counter
Fa0/3
---
----
----
----
----
----

 
				  
---
----
----
----
----
----

 
				  
---
----
----
----
----
----

 
				  
pagp
----
----
0
242500

 
				  

 
				  
lacp
----
----
24268
242640

 
				  

 
				  
udld
----
----
0
897960

 
				  
Fa0/4
---
----
----
----
----
----

 
				  
---
----
----
----
----
----

 
				  
---
----
----
----
----
----

 
				  
pagp
1000
----
24249
242700

 
				  

 
				  
lacp
----
----
24256
242660

 
				  

 
				  
udld
----
----
0
1344820

 
				  
Gi0/3
cdp
----
----
134482
1344820

 
				  

 
				  
---
----
----
----
----
----

 
				  
---
----
----
----
----
----

 
				  
pagp
1000
----
0
242500

 
				  

 
				  
lacp
500
----
0
485320

 
				  

 
				  
udld
300
----
44899
448980

 
				  
Gi0/3
cdp
----
----
134482
1344820

 
				  

 
				  
---
----
----
----
----
----

 
				  
---
----
----
----
----
----

 
				  
pagp
----
1000
0
242700

 
				  

 
				  
lacp
----
----
0
485220

 
				  

 
				  
udld
300
----
44899
448980

 
				  

This example shows how to display a summary of Layer 2-protocol tunnel ports:

Router# show l2protocol-tunnel summary 
COS for Encapsulated Packets:5
Drop Threshold for Encapsulated Packets:0
Port    Protocol    Shutdown         Drop             Status
                    Threshold        Threshold
                    (cdp/stp/vtp)    (cdp/stp/vtp)
------- ----------- ---------------- ---------------- ----------
Fa9/1   --- stp --- ----/----/----   ----/----/----   down
Fa9/9   cdp stp vtp ----/----/----   ----/----/----   up
Fa9/47  --- --- --- ----/----/----   1500/1500/1500   down(trunk)
Fa9/48  cdp stp vtp ----/----/----   ----/----/----   down(trunk) 

This example shows how to display Layer 2-protocol tunnel information on interfaces for a specific VLAN:

Router# show l2protocol-tunnel vlan 1
COS for Encapsulated Packets: 5
Drop Threshold for Encapsulated Packets: 0
Protocol Drop Counter
-------- -------------
 cdp                 0
 lldp                0
 stp                 0
 vtp                 0
Port                Protocol Thresholds          Counters
                             Shutdown  Drop      Encap     Decap     Drop
------------------- -------- --------- --------- --------- --------- ---------

Related Commands

Command

Description

debug l2protocol-tunnel

Displays the debugging options for L2PT.

l2protocol-tunnel

Enables the protocol tunneling on an interface and specifies the type of protocol to be tunneled.

l2protocol-tunnel drop-threshold

Specifies the maximum number of packets that can be processed for the specified protocol on that interface before being dropped.

l2protocol-tunnel global drop-threshold

Enables rate limiting at the software level.

l2protocol-tunnel shutdown-threshold

Specifies the maximum number of packets that can be processed for the specified protocol on that interface in 1 second.

show l3-mgr

To display the information about the Layer 3 manager , use the showl3-mgr command in user EXEC or privileged EXEC mode.

show l3-mgr status

show l3-mgr { interface interface interface-number | null interface-number | port-channel number | vlan vlan-id | status }

Syntax Description

status

Displays information about the global variable.

interface

Displays information about the Layer 3 manager .

interface

Interface type; possible valid values are ethernet, fastethernet, gigabitethernet, tengigabitethernet, pos, atm, and ge-wan.

interface-number

Module and port number; see the “Usage Guidelines” section for valid values.

null interface-number

Specifies the null interface; the valid value is 0.

port-channel number

Specifies the channel interface; valid values are a maximum of 64 values ranging from 1 to 282.

vlan vlan-id

Specifies the VLAN; valid values are from 1 to 4094.

status

Displays status information about the Layer 3 manager.

Command Default

This command has no default settings.

Command Modes

User EXEC Privileged EXEC

Command History

Release

Modification

12.2(14)SX

Support for this command was introduced on the Supervisor Engine 720.

12.2(17d)SXB

Support for this command on the Supervisor Engine 2 was extended to Release 12.2(17d)SXB.

12.2(33)SRA

This command was integrated into Cisco IOS Release 12.2(33)SRA.

Usage Guidelines

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-channelnumbervalues from 257 to 282 are supported on the CSM and the FWSM only.

Examples

This example shows how to display the status of the Layer 3 manager:

Router# 
show l3-mgr status
l3_mgr_state:         2
l3_mgr_req_q.count:   0
l3_mgr_req_q.head:    0
l3_mgr_req_q.tail:    0
l3_mgr_max_queue_count:  1060
l3_mgr_shrunk_count:  0
l3_mgr_req_q.ip_inv_count:    303
l3_mgr_req_q.ipx_inv_count:   0
l3_mgr_outpak_count:  18871
l3_mgr_inpak_count:   18871
l3_mgr_max_pending_pak: 4
l3_mgr_pending_pak_count: 0
nde enable statue:    0
current nde addr:     0.0.0.0
Router#   
                                  

This example shows how to display the information about the Layer 3 manager for a specific interface:

Router# 
show l3-mgr interface fastethernet 5/40
vlan:                0
ip_enabled:        1
ipx_enabled:       1
bg_state:          0 0 0 0
hsrp_enabled:      0
hsrp_mac:          0000.0000.0000
state:             0
up:                0
Router# 

show l3vpn encapsulation ip

To display the L3VPN encapsulation profile health and the underlying tunnel interface, use the showl3vpnencapsulationip command in privileged EXEC mode.

show l3vpn encapsulation ip [ profile name ]

Syntax Description

profile name

(Optional) Name of the Layer 3 encapsulation profile.

Command Modes

Privileged EXEC (#)

Command History

Release

Modification

12.2(33)SRE

This command was introduced.

Examples

The following is a sample output from the showl3vpnencapsulationip command:

Router# show l3vpn encapsulation ip tunnelencap
Profile: tunnelencap
    transport ipv4 source Loopback0
    protocol gre key 500
  Tunnel Tunnel0 Created [OK]
  Tunnel Linestate
  Tunnel Transport Source Loopback0

show lacp

To display Link Aggregation Control Protocol (LACP) and multi-chassis LACP (mLACP) information, use the show lacp command in either user EXEC or privileged EXEC mode.

show lacp { channel-group-number { counters | internal [detail] | neighbor [detail] } | multi-chassis [load-balance] { group number | port-channel number } | sys-id }

Cisco ASR 901 Series Aggregation Services Router

show lacp { channel-group-number { counters | internal [detail] | neighbor [detail] | sys-id } }

Syntax Description

channel-group- number

(Optional) Number of the channel group. The following are valid values:

  • Cisco IOS 12.2 SB and Cisco IOS XE 2.4 Releases--from 1 to 64
  • Cisco IOS 12.2 SR Releases--from 1 to 308
  • Cisco IOS 12.2 SX Releases--from 1 to 496
  • Cisco IOS 15.1S Releases—from 1 to 564
  • Cisco ASR 901 Series Aggregation Services Router—from 1 to 8

counters

Displays information about the LACP traffic statistics.

internal

Displays LACP internal information.

neighbor

Displays information about the LACP neighbor.

detail

(Optional) Displays detailed internal information when used with the internal keyword and detailed LACP neighbor information when used with the neighbor keyword.

multi-chassis

Displays information about mLACP.

load-balance

Displays mLACP load balance information.

group

Displays mLACP redundancy group information,

number

Integer value used with the group and port-channel keywords.

  • Values from 1 to 4294967295 identify the redundancy group.
  • Values from 1 to 564 identify the port-channel interface.

port-channel

Displays mLACP port-channel information.

sys-id

Displays the LACP system identification. It is a combination of the port priority and the MAC address of the device

Command Modes

User EXEC (>) Privileged EXEC (#)

Command History

Release

Modification

12.2(14)SX

Support for this command was introduced on the Supervisor Engine 720.

12.2(17d)SXB

Support for this command on the Supervisor Engine 2 was extended to Cisco IOS Release 12.2(17d)SXB.

12.2(33)SRA

This command was integrated into Cisco IOS Release 12.2(33)SRA.

12.2(31)SB2

This command was integrated into Cisco IOS Release 12.2(31)SB2.

12.2(33)SRB

Support for this command on the Cisco 7600 router was integrated into Cisco IOS Release 12.2(33)SRB.

Cisco IOS XE Release 2.4

This command was integrated into Cisco IOS XE Release 2.4.

12.2(33)SRE

This command was modified. The multi-chassis, group, and port-channelkeywords and number argument were added.

15.1(3)S

This command was modified. The load-balance keyword was added.

15.1(2)SNG

This command was implemented on the Cisco ASR 901 Series Aggregation Services Router.

Usage Guidelines

Use the show lacp command to troubleshoot problems related to LACP in a network.

If you do not specify a value for the argument channel-group-number, all channel groups are displayed. Values in the range of 257 to 282 are supported on the CSM and the FWSM only.

Examples

Examples

This example shows how to display the LACP system identification using the show lacp sys-idcommand:

Device> show lacp sys-id

8000,AC-12-34-56-78-90

The system identification is made up of the system priority and the system MAC address. The first two bytes are the system priority, and the last six bytes are the globally administered individual MAC address that is associated to the system.

Examples

This example shows how to display the LACP statistics for a specific channel group:

Device# show lacp 1 counters

              LACPDUs         Marker       LACPDUs
Port       Sent   Recv     Sent   Recv     Pkts Err
---------------------------------------------------
Channel group: 1
  Fa4/1    8      15       0      0         3    0
  Fa4/2    14     18       0      0         3    0
  Fa4/3    14     18       0      0         0
  Fa4/4    13     18       0      0         0

The output displays the following information:

  • The LACPDUs Sent and Recv columns display the LACPDUs that are sent and received on each specific interface.
  • The LACPDUs Pkts and Err columns display the marker-protocol packets.

The following example shows output from a show lacpchannel-group-numbercounterscommand:

Device1# show lacp 5 counters

             LACPDUs         Marker      Marker Response    LACPDUs
Port       Sent   Recv     Sent   Recv     Sent   Recv      Pkts Err
---------------------------------------------------------------------
Channel group: 5
Gi5/0/0     21     18       0      0        0      0         0     

The following table describes the significant fields shown in the display.

Table 8 show lacp channel-group-number counters Field Descriptions

Field

Description

LACPDUs Sent Recv

Number of LACP PDUs sent and received.

Marker Sent Recv

Attempts to avoid data loss when a member link is removed from an LACP bundle.

Marker Response Sent Recv

Cisco IOS response to the Marker protocol.

LACPDUs Pkts Err

Number of LACP PDU packets transmitted and the number of packet errors.

The following example shows output from a show lacp internalcommand:

Device1# show lacp 5 internal

Flags:  S - Device is requesting Slow LACPDUs 
        F - Device is requesting Fast LACPDUs
        A - Device is in Active mode       P - Device is in Passive mode     
Channel group 5
                            LACP port     Admin     Oper    Port        Port
Port      Flags   State     Priority      Key       Key     Number      State
Gi5/0/0   SA      bndl      32768         0x5       0x5     0x42        0x3D

The following table describes the significant fields shown in the display.

Table 9 show lacp internal Field Descriptions

Field

Description

Flags

Meanings of each flag value, which indicates a device activity.

Port

Port on which link bundling is configured.

Flags

Indicators of device activity.

State

Activity state of the port. States can be any of the following:

  • Bndl--Port is attached to an aggregator and bundled with other ports.
  • Susp--Port is in suspended state, so it is not attached to any aggregator.
  • Indep--Port is in independent state (not bundled but able to switch data traffic). This condition differs from the previous state because in this case LACP is not running on the partner port.
  • Hot-sby--Port is in hot standby state.
  • Down--Port is down.

LACP port Priority

Priority assigned to the port.

Admin Key

Defines the ability of a port to aggregate with other ports.

Oper Key

Determines the aggregation capability of the link.

Port Number

Number of the port.

Port State

State variables for the port that are encoded as individual bits within a single octet with the following meaning:

  • bit0: LACP_Activity
  • bit1: LACP_Timeout
  • bit2: Aggregation
  • bit3: Synchronization
  • bit4: Collecting
  • bit5: Distributing
  • bit6: Defaulted
  • bit7: Expired

Examples

This example shows how to display internal information for the interfaces that belong to a specific channel:

Device# show lacp 1 internal

Flags:  S - Device sends PDUs at slow rate. F - Device sends PDUs at fast rate.
        A - Device is in Active mode.       P - Device is in Passive mode. 
Channel group 1
                            LACPDUs     LACP Port    Admin   Oper    Port     Port
Port      Flags    State    Interval    Priority     Key     Key     Number   State
Fa4/1     saC      bndl     30s         32768        100     100     0xc1     0x75
Fa4/2     saC      bndl     30s         32768        100     100     0xc2     0x75
Fa4/3     saC      bndl     30s         32768        100     100     0xc3     0x75
Fa4/4     saC      bndl     30s         32768        100     100     0xc4     0x75
Device# 

The following table describes the significant fields shown in the display.

Table 10  show lacp internal Field Descriptions

Field

Description

State

Current state of the port; allowed values are as follows:

  • bndl--Port is attached to an aggregator and bundled with other ports.
  • susp--Port is in a suspended state; it is not attached to any aggregator.
  • indep--Port is in an independent state (not bundled but able to switch data traffic. In this case, LACP is not running on the partner port).
  • hot-sby--Port is in a hot-standby state.
  • down--Port is down.

LACPDUs Interval

Interval setting.

LACP Port Priority

Port-priority setting.

Admin Key

Defines the ability of a port to aggregate with other ports.

Oper Key

Determines the aggregation capability of the link.

Port Number

Port number.

Port State

Activity state of the port.

  • See the Port State description in the show lacp internal Field Descriptions table for state variables.

Examples

This example shows how to display the information about the LACP neighbors for a specific port channel:

Device# show lacp 1 neighbors

Flags:  S - Device sends PDUs at slow rate. F - Device sends PDUs at fast rate.
        A - Device is in Active mode.       P - Device is in Passive mode.
Channel group 1 neighbors
          Partner                 Partner 
Port      System ID               Port Number     Age     Flags
Fa4/1     8000,00b0.c23e.d84e     0x81            29s     P
Fa4/2     8000,00b0.c23e.d84e     0x82            0s      P
Fa4/3     8000,00b0.c23e.d84e     0x83            0s      P 
Fa4/4     8000,00b0.c23e.d84e     0x84            0s      P
          Port          Admin     Oper      Port
          Priority      Key       Key       State
Fa4/1     32768         200       200       0x81
Fa4/2     32768         200       200       0x81
Fa4/3     32768         200       200       0x81
Fa4/4     32768         200       200       0x81
Device# 

The following table describes the significant fields shown in the display.

Table 11  show lacp neighbors Field Descriptions

Field

Description

Port

Port on which link bundling is configured.

Partner System ID

Peer’s LACP system identification (sys-id). It is a combination of the system priority and the MAC address of the peer device.

Partner Port Number

Port number on the peer device

Age

Number of seconds since the last LACP PDU was received on the port.

Flags

Indicators of device activity.

Port Priority

Port priority setting.

Admin Key

Defines the ability of a port to aggregate with other ports.

Oper Key

Determines the aggregation capability of the link.

Port State

Activity state of the port.

See the Port State description in the show lacp internal Field Descriptions table for state variables.

If no PDUs have been received, the default administrative information is displayed in braces.

Related Commands

Command

Description

clear lacp counters

Clears the statistics for all interfaces belonging to a specific channel group.

lacp port-priority

Sets the priority for the physical interfaces.

lacp system-priority

Sets the priority of the system.

show link state group

To display the link-state group information., use the showlinkstategroup command in user EXEC or privileged EXEC mode .

show link state group detail

Syntax Description

detail

Displays the detailed information about the group.

Command Modes

Privileged EXEC (#)

Command History

Release

Modification

15.1(1)S

This command was introduced.

Usage Guidelines

Link State Ttracking (LST), also known as trunk failover, is a feature that binds the link state of multiple interfaces. When you configure LST for the first time, add upstream interfaces to the link state group before adding the downstream interface, otherwise the downstream interfaces would move into error-disable mode. The maximum number of link state groups configurable is 10.

Examples

The following example displays the link-state group information:

Router# enable
Router# show link state group 1
Link State Group: 1 Status: Enabled, Down
Router> show link state group detail
(Up):Interface up (Dwn):Interface Down (Dis):Interface disabled
Link State Group: 1 Status: Enabled, Down
Upstream Interfaces : Gi3/5(Dwn) Gi3/6(Dwn)
Downstream Interfaces : Gi3/1(Dis) Gi3/2(Dis) Gi3/3(Dis) Gi3/4(Dis)
Link State Group: 2 Status: Enabled, Down
Upstream Interfaces : Gi3/15(Dwn) Gi3/16(Dwn) Gi3/17(Dwn)
Downstream Interfaces : Gi3/11(Dis) Gi3/12(Dis) Gi3/13(Dis) Gi3/14(Dis)
(Up):Interface up (Dwn):Interface Down (Dis):Interface disabled

Related Commands

Command

Description

link state track

Configures the link state tracking number.

link state group

Configures the link state group and interface, as either an upstream or downstream interface in the group.

show mac-address-table dynamic

To display dynamic MAC address table entries only, use the showmac-address-tabledynamic command in privileged EXEC mode.

Cisco 2600 Series, Cisco 3600 Series, and Cisco 3700 Series Routers

show mac-address-table dynamic [ address mac-addr | interface interface type slot/number | vlan vlan ]

Catalyst Switches

show mac-address-table dynamic [ address mac-addr | detail | interface interface numberprotocol protocol | module number | vlan vlan ] [ begin | exclude | include | expression ]

Catalyst 6500 Series Switches

show mac-address-table dynamic [ address mac-addr | interface interface interface-number [ all | module number ] | module num | vlan vlan-id [ all | module number ] ]

Syntax Description

address mac -address

(Optional) Specifies a 48-bit MAC address; valid format is H.H.H.

detail

(Optional) Specifies a detailed display of MAC address table information.

interface type number

(Optional) Specifies an interface to match; valid type values are FastEthernet and GigabitEthernet, valid number values are from 1 to 9.

interface type

(Optional) Specifies an interface to match; valid type values are FastEthernet and GigabitEthernet.

slot

(Optional) Adds dynamic addresses to module in slot 1 or 2.

port

(Optional) Port interface number ranges based on type of Ethernet switch network module used:

  • 0 to 15 for NM-16ESW
  • 0 to 35 for NM-36ESW
  • 0 to 1 for GigabitEthernet

protocol protocol

(Optional) Specifies a protocol. See the “Usage Guidelines” section for keyword definitions.

module number

(Optional) Displays information about the MAC address table for a specific Distributed Forwarding Card (DFC) module.

vlan vlan

(Optional) Displays entries for a specific VLAN; valid values are from 1 to 1005.

begin

(Optional) Specifies that the output display begin with the line that matches the expression.

exclude

(Optional) Specifies that the output display exclude lines that match the expression.

include

(Optional) Specifies that the output display include lines that match the specified expression.

expression

Expression in the output to use as a reference point.

all

(Optional) Specifies that the output display all dynamic MAC-address table entries.

Command Modes

Privileged EXEC (#)

Command History

Release

Modification

12.0(7)XE

This command was introduced on Catalyst 6000 series switches.

12.2(2)XT

This command was implemented on Cisco 2600 series, Cisco 3600 series, and Cisco 3700 series routers.

12.2(8)T

This command was integrated into Cisco IOS Release 12.2(8)T on Cisco 2600 series, Cisco 3600 series, and Cisco 3700 series routers.

12.2(11)T

This command was integrated into Cisco IOS Release 12.2(11)T.

12.2(33)SRA

This command was integrated into Cisco IOS Release 12.2(33)SRA.

12.2(14)SX

Support for this command was introduced on the Catalyst 6500 series switch.

12.2(33)SXH

This command was changed to support the all keyword on the Catalyst 6500 series switch.

Usage Guidelines

Cisco 2600 Series, Cisco 3600 Series, and Cisco 3700 Series Routers

The showmac-address-tabledynamic command output for an EtherChannel interface changes the port-number designation (for example, 5/7) to a port-group number.

Catalyst Switches

The keyword definitions for the protocol argument are:

  • ip --Specifies IP protocol
  • ipx --Specifies Internetwork Packet Exchange (IPX) protocols
  • assigned --Specifies assigned protocol entries
  • other --Specifies other protocol entries

The showmac-address-tabledynamic command output for an EtherChannel interface changes the port-number designation (for example, 5/7) to a port-group number.

Catalyst 6500 Series Switches

The mac-addressis a 48-bit MAC address and the valid format is H.H.H.

The optional modulenum keyword and argument are supported only on DFC modules. The modulenumkeyword and argument designate the module number.

Examples

The following examples show how to display all dynamic MAC address entries. The fields shown in the various displays are self-explanatory.

Examples

Router# show mac-address-table dynamic
 
Non-static Address Table:
Destination Address  Address Type  VLAN  Destination Port
-------------------  ------------  ----  --------------------
000a.000a.000a          Dynamic       1     FastEthernet4/0
002a.2021.4567          Dynamic       2     FastEthernet4/0

Examples

Router# show mac-address-table dynamic
vlan   mac address     type    protocol  qos             ports
-----+---------------+--------+---------+---+--------------------------------
 200  0010.0d40.37ff  dynamic        ip  --  5/8
   1  0060.704c.73ff  dynamic        ip  --  5/9
4095  0000.0000.0000  dynamic        ip  --  15/1
   1  0060.704c.73fb  dynamic     other  --  5/9
   1  0080.1c93.8040  dynamic        ip  --  5/9
4092  0050.f0ac.3058  dynamic        ip  --  15/1
   1  00e0.4fac.b3ff  dynamic     other  --  5/9

The following example shows how to display dynamic MAC address entries with a specific protocol type (in this case, assigned).

Router# show mac-address-table dynamic protocol assigned
vlan   mac address     type    protocol  qos             ports
-----+---------------+--------+---------+---+--------------------------------
4092  0000.0000.0000  dynamic  assigned  --  Router
4092  0050.f0ac.3059  dynamic  assigned  --  Router
   1  0010.7b3b.0978  dynamic  assigned  --  Fa5/9
Router#

The following example shows the detailed output for the previous example.

Router# show mac-address-table dynamic protocol assigned detail
MAC Table shown in details
======================================== 
 Type   Always Learn Trap Modified Notify Capture Protocol Flood
-------+------------+----+--------+------+-------+--------+-----+
     QoS bit      L3 Spare   Mac Address  Age Byte Pvlan Xtag SWbits Index
-----------------+--------+--------------+--------+-----+----+------+-----
DYNAMIC     NO        NO     YES     NO     NO    assigned   NO
   Bit Not On        0     0000.0000.0000  255      4092   0     0     0x3
 
DYNAMIC     NO        NO     YES     NO     NO    assigned   NO
   Bit Not On        0     0050.f0ac.3059  254      4092   0     0     0x3
 
DYNAMIC     NO        NO     YES     NO     NO    assigned   NO
   Bit Not On        0     0010.7b3b.0978  254      1      0     0     0x108
 
Router#

Examples

This example shows how to display all the dynamic MAC-address entries for a specific VLAN.

Router# show mac-address-table dynamic vlan 200 all
Legend: * - primary entry
        age - seconds since last seen
        n/a - not aevailable
vlan     mac address      type   learn    age               ports 
------+----------------+--------+-----+----------+-------------------------- 
 200  0010.0d40.37ff   dynamic    NO      23        Gi5/8
Router# 

This example shows how to display all the dynamic MAC-address entries.

Router# show mac-address-table dynamic
Legend: * - primary entry 
age - seconds since last seen 
n/a - not applicable
vlan     mac address      type   learn    age               ports 
------+----------------+--------+-----+----------+-------------------------- 
* 10   0010.0000.0000   dynamic  Yes   n/a        Gi4/1 
* 3    0010.0000.0000   dynamic  Yes   0          Gi4/2 
* 1    0002.fcbc.ac64   dynamic  Yes   265        Gi8/1 
* 1    0009.12e9.adc0   static   No    -          Router
Router# 

Related Commands

Command

Description

show mac -address-tableaddress

Displays MAC address table information for a specific MAC address.

show mac -address-tableaging-time

Displays the MAC address aging time.

show mac -address-tablecount

Displays the number of entries currently in the MAC address table.

show mac -address-tabledetail

Displays detailed MAC address table information.

show mac -address-tableinterface

Displays the MAC address table information for a specific interface.

show mac -address-tablemulticast

Displays multicast MAC address table information.

show mac -address-tableprotocol

Displays MAC address table information based on protocol.

show mac -address-tablestatic

Displays static MAC address table entries only.

show mac -address-tablevlan

Displays the MAC address table information for a specific VLAN.

show mls asic

To display the application-specific integrated circuit (ASIC) version, use the showmlsasic command in user EXEC or privileged EXEC mode.

show mls asic

Syntax Description

This command has no arguments or keywords.

Command Default

This command has no default settings.

Command Modes

User EXEC Privileged EXEC

Command History

Release

Modification

12.2(14)SX

Support for this command was introduced on the Supervisor Engine 720.

12.2(17d)SXB

Support for this command on the Supervisor Engine 2 was extended to Release 12.2(17d)SXB.

12.2(33)SRA

This command was integrated into Cisco IOS Release 12.2(33)SRA.

Examples

This example shows how to display the ASIC versions on a Supervisor Engine 2:

Router# 
show mls asic
  Cafe version: 2
  Centauri version: 1
  Perseus version: 0/0
  Titan version: 1
Router# 

This example shows how to display the ASIC versions on a Supervisor Engine 720:

Router# 
show mls asic
Earl in Module 2
 Tycho - ver:1 Cisco-id:1C8 Vendor-id:49
Router# 

Related Commands

Command

Description

show mls df-table

Displays information about the DF table.

show mls ip

Displays the Multilayer Switching (MLS) IP information.

show mls ipx

Displays the Multilayer Switching (MLS) IPX information.

show mls qos

Displays Multilayer Switching (MLS) quality of service (QoS) information

show mls statistics

Displays the Multilayer Switching (MLS) statistics for the Internet Protocol (IP)

show mls ip

To display the Multilayer Switching (MLS) IP information, use the showmlsip command in user EXEC or privileged EXEC mode.

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 ip { ipv6 | mpls }

Syntax Description

any

(Optional) Displays any MLS IP information.

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.

flow

(Optional) Specifies the flow type.

tcp | udp

Selects the flow type.

vlan vlan-id

(Optional) Specifies the virtual local area network (VLAN) ID; valid values are from 1 to 4094.

macd destination-mac-address

(Optional) Specifies the destination MAC address.

macs source- mac-address

(Optional) Specifies the source Media Access Control (MAC) address.

module number

(Optional) Displays the entries that are downloaded on the specified module; see the “Usage Guidelines” section for valid values.

source hostname

(Optional) Displays the entries for a specific source address.

source ip-address

(Optional) Displays the entries for a specific source IP address.

count

(Optional) Displays the total number of MLS entries.

static

(Optional) Displays the total number of static entries.

ipv6

Displays the total number of IPv6 entries.

mpls

Displays the total number of MPLS entries.

Command Default

This command has no default settings.

Command Modes

User EXEC Privileged EXEC

Command History

Release

Modification

12.2(14)SX

Support for this command was introduced on the Supervisor Engine 720.

12.2(17a)SX

This command is supported on releases prior to Release 12.2(17a)SX only.

12.2(17b)SXA

On Cisco 7600 series routers that are configured with a Supervisor Engine 720, this command is replaced by the show mls netflow ip command.

12.2(17d)SXB

Support for this command on the Supervisor Engine 2 was extended to Release 12.2(17d)SXB.

12.2(33)SRA

This command was integrated into Cisco IOS Release 12.2(33)SRA.

Usage Guidelines

The static, ipv6 and mpls keywords are not supported on Cisco 7600 series routers that are configured with a Supervisor Engine 2.

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 modulenumber 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

Command

Description

show mls asic

display the application-specific integrated circuit (ASIC) version

show mls df-table

Displays information about the DF table.

show mls ipx

Displays the Multilayer Switching (MLS) IPX information.

show mls qos

Displays Multilayer Switching (MLS) quality of service (QoS) information

show mls statistics

Displays the Multilayer Switching (MLS) statistics for the Internet Protocol (IP)

show mls ipx

To display Multilayer Switching (MLS) Internetwork Packet Exchange (IPX) information, use the showmlsipx command in user EXEC or privileged EXEC mode.

show mls ipx [ destination ipx-network | interface interface interface-number | vlan vlan-id | macd destination-mac-address | macs source-mac-address | module number | source hostname | ipx-network ] [ detail | count ]

Syntax Description

destination ipx-network

(Optional) Displays the entries for a specific destination network address.

interface

(Optional) Specifies the interface.

interface

(Optional) Interface type; possible valid values are ethernet, fastethernet, gigabitethernet, tengigabitethernet, pos, atm, and ge-wan.

interface-number

(Optional) Module and port number; see the “Usage Guidelines” section for valid values.

vlan vlan-id

(Optional) Specifies the virtual local area network (VLAN) ID; valid values are from 1 to 4094.

macd destination-mac-address

(Optional) Specifies the destination Media Access Control (MAC) address.

macs source- mac-address

(Optional) Specifies the source MAC address.

module number

(Optional) Displays the entries that are downloaded on the specified slot; see the “Usage Guidelines” section for valid values.

source hostname

(Optional) Displays the entries for a specific source address.

source ipx-network

(Optional) Displays the entries for a specific destination network address.

detail

(Optional) Displays the detailed list of entries.

count

(Optional) Displays the total number of MLS entries.

Command Default

This command has no default settings.

Command Modes

User EXEC Privileged EXEC

Command History

Release

Modification

12.2(17d)SXB

Support for this command on the Supervisor Engine 2 was extended to Release 12.2(17d)SXB.

12.2(33)SRA

This command was integrated into Cisco IOS Release 12.2(33)SRA.

Usage Guidelines

This command is not supported on Cisco 7600 series routers that are configured with a Supervisor Engine 720 with a PFC2.

When you enter the ipx-network value, the format is N.H.H.H.

When you enter the destination-mac-address value, the format for the 48-bit MAC address is H.H.H.

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 used. For example, if you specify a Gigabit Ethernet interface and 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. These valid values also apply when entering the modulenumber keyword and argument.

Examples

This example shows how to display MLS IPX information:

Router# 
show mls ipx
DstNet-DstNode          SrcNet   Dst i/f:DstMAC      Pkts         Bytes
-----------------------------------------------------------------------
SrcDstPorts   SrcDstEncap Age   LastSeen
----------------------------------------
 Number of Entries Found = 0
Router#
                                                   

This example shows how to display the total number of MLS entries:

Router# 
show mls ipx
 count
Number of shortcuts = 66
Router#

Related Commands

Command

Description

mls ipx

Enables MLS IPX on the interface.

show mls asic

display the application-specific integrated circuit (ASIC) version

show mls df-table

Displays information about the DF table.

show mls ip

Displays the Multilayer Switching (MLS) IP information.

show mls qos

Displays Multilayer Switching (MLS) quality of service (QoS) information

show mls statistics

Displays the Multilayer Switching (MLS) statistics for the Internet Protocol (IP)

show mobility

To display information about the Layer 3 mobility and the wireless network, use the showmobility command in privileged EXEC mode.

show mobility { ap [ip-address] | mn [ ip ip-address ] | mac mac-address | network network-id | status }

Syntax Description

ap

Displays information about the access point.

ip-address

(Optional) IP address.

mn

Displays information about the mobile node.

ip ip-address

(Optional) Displays information about the IP database thread.

mac mac-address

Displays information about the MAC database thread.

network network-id

Displays information for a specific wireless network ID.

status

Displays status information.

Command Modes

Privileged EXEC

Command History

Release

Modification

12.2(18)SXD

This command was introduced on the Supervisor Engine 720.

12.2(18)SXD3

The output of this command was changed to include the TCP adjust-mss status.

12.2(33)SRA

This command was integrated into Cisco IOS Release 12.2(33)SRA.

Usage Guidelines

This command is supported on Cisco 7600 series routers that are configured with a 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
--------------- -------------- -------------------
10.1.1.2 000d.29a2.a852 101 102 109 103

This example shows how to display information about the access points for a specific network ID:

Router# show mobility
 ap 172.16.1.2 detail
IP Address : 172.16.1.2
MAC Address : 000d.29a2.a852
Participating Wireless Tunnels: 101, 102, 109, 103
Registered Mobile Nodes on AP {172.16.1.2, 000d.29a2.a852} :
MN Mac Address MN IP Address AP IP Address Wireless Network-ID
-------------- --------------- --------------- -------------------
000a.8afa.85c9 10.1.3.11 172.16.1.2 103
000d.bdb7.83f7 10.1.2.11 172.16.1.2 102
000d.bdb7.83fb 10.1.1.11 172.16.1.2 101
Router# show mobility
 network-id 101
Wireless Network ID : 101
Wireless Tunnel Source IP Address : 10.1.1.1
Wireless Network Properties : Trusted
Wireless Network State : Up
Registered Access Point on Wireless Network 101:
AP IP Address AP Mac Address Wireless Network-ID
--------------- -------------- -------------------
176.16.1.2 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 10.1.1.11 176.16.1.2 101
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
---------------  -------------------  ------- 
10.1.1.1          101                  B 
Flags: T=Trusted, B=IP Broadcast enabled, A=TCP Adjust-mss enabled 

Related Commands

Command

Description

mobility

Configures the wireless mGRE tunnels.

show module

To display the module status and information, use the show module command in user EXEC or privileged EXEC mode.

show module [ mod-num | all | provision | version ]

Syntax Description

mod -num

(Optional) Number of the module.

all

(Optional) Displays the information for all modules.

provision

(Optional) Displays the status about the module provisioning.

version

(Optional) Displays the version information.

Command Default

This command has no default settings.

Command Modes

User EXEC Privileged EXEC

Command History

Release

Modification

12.2(14)SX

Support for this command was introduced on the Supervisor Engine 720.

12.2(17d)SXB

Support for this command on the Supervisor Engine 2 was extended to Release 12.2(17d)SXB.

12.2(33)SRA

This command was integrated into Cisco IOS Release 12.2(33)SRA.

Usage Guidelines

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 Cisco 7600 series router that is configured with a Supervisor Engine 720:

Router# 
show module
 
Mod Ports Card Type Model Serial No.
--- ----- -------------------------------------- ------------------ -----------
1 48 CEF720 48 port 10/100/1000mb Ethernet WS-X6748-GE-TX SAL0843557C
2 48 48-port 10/100/1000 RJ45 EtherModule WS-X6148A-GE-45AF SAL1109HZW9
3 48 48-port 10/100/1000 RJ45 EtherModule WS-X6148A-GE-45AF SAL1114KYZ7
4 48 48 port 10/100 mb RJ45 WS-X6348-RJ-45 SAL0543DGZ1
6 2 Supervisor Engine 720 (Active) WS-SUP720-3B SAL1016KASS
7 48 48-port 10/100 mb RJ45 WS-X6148-45AF SAL08321X1H
8 4 CEF720 4 port 10-Gigabit Ethernet WS-X6704-10GE SAL08528ADQ
9 48 48-port 100FX SFP Ethernet Module WS-X6148-FE-SFP SAD090208MB
Mod MAC addresses Hw Fw Sw Status
--- ---------------------------------- ------ ------------ ------------ -------
1 0012.005c.86e0 to 0012.005c.870f 2.1 12.2(14r)S5 12.2(33)SXH Ok
2 001b.0ce4.9fb0 to 001b.0ce4.9fdf 2.2 8.4(1) 8.7(0.22)SXH Ok
3 001b.534f.0540 to 001b.534f.056f 2.2 8.4(1) 8.7(0.22)SXH Ok
4 0007.4f6c.69f8 to 0007.4f6c.6a27 5.0 5.4(2) 8.7(0.22)SXH Ok
6 0017.9441.44cc to 0017.9441.44cf 5.2 8.4(2) 12.2(33)SXH Ok
7 0011.bb0e.c260 to 0011.bb0e.c28f 1.1 5.4(2) 8.7(0.22)SXH Ok
8 0012.da89.a43c to 0012.da89.a43f 2.0 12.2(14r)S5 12.2(33)SXH Ok
9 0030.f273.baf0 to 0030.f273.bb1f 3.0 8.4(1) 8.7(0.22)SXH Ok
Mod Sub-Module Model Serial Hw Status 
---- --------------------------- ------------------ ----------- ------- -------
1 Centralized Forwarding Card WS-F6700-CFC SAL08363HL6 2.0 Ok
2 IEEE Voice Daughter Card WS-F6K-48-AF SAL1108HRB1 2.3 Ok
3 IEEE Voice Daughter Card WS-F6K-48-AF SAL1114KV3P 2.3 Ok
4 Inline Power Module WS-F6K-VPWR 1.0 Ok
6 Policy Feature Card 3 WS-F6K-PFC3B SAL1015K00Q 2.3 Ok
6 MSFC3 Daughterboard WS-SUP720 SAL1016KBY3 2.5 Ok
7 IEEE Voice Daughter Card WS-F6K-FE48-AF SAL08311GGL 1.1 Ok
8 Centralized Forwarding Card WS-F6700-CFC SAL0902040K 2.0 Ok
Mod Online Diag Status 
---- -------------------
1 Bypass
2 Bypass
3 Bypass
4 Bypass
6 Bypass
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 MSFC3 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 
         WS-F6K-DFC3A       SAD0641029Y Hw : 0.501 
                     Fw : 12.2(20020828:202911) 
                     Sw : 12.2(20030125:231135) 
  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 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#

Related Commands

Command

Description

show interfaces

Displays the status and statistics for the interfaces in the chassis.

show environment alarm

Displays the information about the environmental alarm.

show fm summary

Displays a summary of FM Information.

show environment status

Displays the information about the operational FRU status.

show msfc

To display Multilayer Switching Feature Card (MSFC) information, use the show msfc command in user EXEC or privileged EXEC mode.

show msfc { buffers | eeprom | fault | netint | tlb }

Syntax Description

buffers

Displays buffer-allocation information.

eeprom

Displays the internal information.

fault

Displays fault information.

netint

Displays network-interrupt information.

tlb

Displays information about the TLB registers.

Command Default

This command has no default settings.

Command Modes

User EXEC Privileged EXEC

Command History

Release

Modification

12.2(14)SX

Support for this command was introduced on the Supervisor Engine 720.

12.2(17d)SXB

Support for this command on the Supervisor Engine 2 was extended to Release 12.2(17d)SXB.

12.2(33)SRA

This command was integrated into Cisco IOS Release 12.2(33)SRA.

Examples

These examples display the show msfc command output:

Router# show msfc 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
1016    1 6715 8192    0     0
Router#
Router# show msfc eeprom
RSFC CPU IDPROM:
IDPROM image:
  (FRU is 'Cat6k MSFC 2 daughterboard')
IDPROM image block #0:
  hexadecimal contents of block:
  00: AB AB 01 90 13 22 01 00 00 02 60 03 00 EA 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 46 36 4B 2D 4D 53 46 43 32 00 00    ..WS-F6K-MSFC2..
  30: 00 00 00 00 00 00 53 41 44 30 36 32 31 30 30 36    ......SAD0621006
  40: 37 00 00 00 00 00 00 00 00 00 37 33 2D 37 32 33    7.........73-723
  50: 37 2D 30 33 00 00 00 00 00 00 41 30 00 00 00 00    7-03......A0....
  60: 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00    ................
  70: 00 00 00 02 00 03 00 00 00 00 00 09 00 05 00 01    ................
  80: 00 03 00 01 00 01 00 02 00 EA FF DF 00 00 00 00    ................
  block-signature = 0xABAB, block-version = 1,
  block-length = 144, block-checksum = 4898
  *** common-block ***
  IDPROM capacity (bytes) = 256  IDPROM block-count = 2
  FRU type = (0x6003,234)
  OEM String = 'Cisco Systems'
  Product Number = 'WS-F6K-MSFC2'
  Serial Number = 'SAD06210067'
  Manufacturing Assembly Number = '73-7237-03'
  Manufacturing Assembly Revision = 'A0'
  Hardware Revision = 2.3
  Manufacturing bits = 0x0  Engineering bits = 0x0
  SNMP OID = 9.5.1.3.1.1.2.234
  Power Consumption = -33 centiamperes    RMA failure code = 0-0-0-0
  *** end of common block ***
IDPROM image block #1:
  hexadecimal contents of block:
  00: 60 03 01 62 0A C2 00 00 00 00 00 00 00 00 00 00    `..b............
  10: 00 00 00 00 00 01 00 23 00 08 7C A4 CE 80 00 40    .......#..|....@
  20: 01 01 00 01 00 00 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: 10 00 4B 3C 41 32 80 80 80 80 80 80 80 80 80 80    ..K<A2..........
  60: 80 80                                              ..
  block-signature = 0x6003, block-version = 1,
  block-length = 98, block-checksum = 2754
  *** linecard specific block ***
  feature-bits =   00000000 00000000
  hardware-changes-bits =   00000000 00000001
  card index = 35
  mac base = 0008.7CA4.CE80
  mac_len = 64
  num_processors = 1
  epld_num = 1
  epld_versions = 0001 0000 0000 0000 0000 0000 0000 0000 0000 0000 0000 0000 00
00 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 = 4096
  sensor_thresholds =
    sensor #0: critical = 75 oC, warning = 60 oC
    sensor #1: critical = 65 oC, warning = 50 oC
    sensor #2: critical = -128 oC (sensor not present), warning = -128 oC (senso
r not present)
    sensor #3: critical = -128 oC (sensor not present), warning = -128 oC (senso
r not present)
    sensor #4: critical = -128 oC (sensor not present), warning = -128 oC (senso
r not present)
    sensor #5: critical = -128 oC (sensor not present), warning = -128 oC (senso
r not present)
    sensor #6: critical = -128 oC (sensor not present), warning = -128 oC (senso
r not present)
    sensor #7: critical = -128 oC (sensor not present), warning = -128 oC (senso
r not present)
  *** end of linecard specific block ***
End of IDPROM image
Router#
Router# show msfc fault
 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
1016    1 6715 8192    0     0
Router#
Router# show msfc netint
Network IO Interrupt Throttling:
 throttle count=0, timer count=0
 active=0, configured=1
 netint usec=3999, netint mask usec=400
Router#
Router# show msfc tlb
Mistral revision 3
TLB entries : 37
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
0x1E880000:0x1E881FFF   0x01E880000:0x01E881FFF   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
0x40800000:0x40FFFFFF   0x000800000:0x000FFFFFF   CacheMode=3, RO, Valid
0x41000000:0x417FFFFF   0x001000000:0x0017FFFFF   CacheMode=3, RO, Valid
0x41800000:0x419FFFFF   0x001800000:0x0019FFFFF   CacheMode=3, RO, Valid
0x41A00000:0x41A7FFFF   0x001A00000:0x001A7FFFF   CacheMode=3, RO, Valid
0x41A80000:0x41A9FFFF   0x001A80000:0x001A9FFFF   CacheMode=3, RO, Valid
0x41AA0000:0x41ABFFFF   0x001AA0000:0x001ABFFFF   CacheMode=3, RO, Valid
0x41AC0000:0x41AC7FFF   0x001AC0000:0x001AC7FFF   CacheMode=3, RO, Valid
0x41AC8000:0x41ACFFFF   0x001AC8000:0x001ACFFFF   CacheMode=3, RO, Valid
0x41AD0000:0x41AD7FFF   0x001AD0000:0x001AD7FFF   CacheMode=3, RO, Valid
0x41AD8000:0x41AD9FFF   0x001AD8000:0x001AD9FFF   CacheMode=3, RO, Valid
0x41ADA000:0x41ADBFFF   0x001ADA000:0x001ADBFFF   CacheMode=3, RW, Valid
0x41ADC000:0x41ADDFFF   0x001ADC000:0x001ADDFFF   CacheMode=3, RW, Valid
0x41ADE000:0x41ADFFFF   0x001ADE000:0x001ADFFFF   CacheMode=3, RW, Valid
0x41AE0000:0x41AFFFFF   0x001AE0000:0x001AFFFFF   CacheMode=3, RW, Valid
0x41B00000:0x41B7FFFF   0x001B00000:0x001B7FFFF   CacheMode=3, RW, Valid
0x41B80000:0x41BFFFFF   0x001B80000:0x001BFFFFF   CacheMode=3, RW, Valid
0x41C00000:0x41DFFFFF   0x001C00000:0x001DFFFFF   CacheMode=3, RW, Valid
0x41E00000:0x41FFFFFF   0x001E00000:0x001FFFFFF   CacheMode=3, RW, Valid
0x42000000:0x43FFFFFF   0x002000000:0x003FFFFFF   CacheMode=3, RW, Valid
0x44000000:0x45FFFFFF   0x004000000:0x005FFFFFF   CacheMode=3, RW, Valid
0x46000000:0x47FFFFFF   0x006000000:0x007FFFFFF   CacheMode=3, RW, Valid
0x06E00000:0x06FFFFFF   0x006E00000:0x006FFFFFF   CacheMode=2, RW, Valid
0x07000000:0x077FFFFF   0x007000000:0x0077FFFFF   CacheMode=2, RW, Valid
0x07800000:0x07FFFFFF   0x007800000:0x007FFFFFF   CacheMode=2, RW, Valid
Router#

Related Commands

Command

Description

show environment alarm

Displays the information about the environmental alarm.

show fm summary

Displays a summary of FM Information.

show environment status

Displays the information about the operational FRU status.

show network-clocks

To display the current configured and active network clock sources, use theshownetwork-clocks command in privileged EXEC mode.

show network-clocks

Syntax Description

This command has no arguments or keywords.

Command Modes

Privileged EXEC

Command History

Release

Modification

11.1

This command was introduced.

12.2(33)SRA

This command was integrated into Cisco IOS Release 12.2(33)SRA.

12.2SX

This command is supported in the Cisco IOS Release 12.2SX train. Support in a specific 12.2SX release of this train depends on your feature set, platform, and platform hardware.

12.2(33)SRD1

This command was introduced to display BITS clock information for the 7600-ES+ITU-2TG and 7600-ES+ITU-4TG.

Usage Guidelines

On the Cisco MC3810, this command applies to Voice over Frame Relay, Voice over ATM, and Voice over HDLC. The Cisco MC3810 has a background task that verifies whether a valid clocking configuration exists every 120 seconds. If this task detects an error, you will be reminded every 120 seconds until the error is corrected. A clocking configuration error may be generated for various reasons. Using the shownetwork-clocks command, you can display the clocking configuration status.

On the Cisco 7600 series routers, this command applies to the following:

  • The clock source from the POS SPAs on the SIP-200 and the SIP-400.
  • The 24-Port Channelized T1/E1 ATM CEoP SPA and the 1-Port Channelized OC-3 STM1 ATM CEoP SPA on the SIP-400.
  • The 7600-ES+ITU-2TG and 7600-ES+ITU-4TG line cards.

Examples

The following is sample output from the shownetwork-clocks EXEC command:

Router# show network-clocks
Priority 1 clock source: ATM3/0/0
Priority 2 clock source: System clock
Priority 3 clock source: System clock
Priority 4 clock source: System clock
Current clock source:ATM3/0/0, priority:1

The following is sample output from the shownetwork-clocks command on the Cisco MC3810:

Router# show network-clocks
Priority 1 clock source(inactive config): T1 0
Priority 1 clock source(active config) : T1 0
Clock switch delay: 10
Clock restore delay: 10
T1 0 is clocking system bus for 9319 seconds.
Run Priority Queue: controller0

In this display, inactive configuration is the new configuration that has been established. Active configuration is the run-time configuration. Should an error be made in the new configuration, the inactive and active configurations will be different. In the previous example, the clock priority configuration is valid, and the system is being clocked as indicated.

The following is another sample output from the shownetwork-clocks command:

Router# show network-clocks
Priority 1 clock source(inactive config) : T1 0
Priority 2 clock source(inactive config) : T1 1
Priority 1 clock source(active config) : T1 0
Clock switch delay: 10
Clock restore delay: 10
T1 0 is clocking system bus for 9319 seconds.
Run Priority Queue: controller0

In this display, the new clocking configuration has an error for controller T1 1. This is indicated by checking differences between the last valid configuration (active) and the new proposed configuration (inactive). The error may result from hardware (the system controller board or MFT) unable to support this mode, or controller T1 1 is currently configured as “clock source internal.”

Since the active and inactive configurations are different, the system will periodically display the warning message about the wrong configuration.

The following is another sample output from the shownetwork-clocks command for the 7600-ES+ITU-2TG or 7600-ES+ITU-4TG:

Router# show network-clocks 
 Active source = Slot 1 BITS 0
 Active source backplane reference line = Primary Backplane Clock
 Standby source = Slot 9
 Standby source backplane reference line = Secondary Backplane Clock
(Standby source not driving backplane clock currently)
 All Network Clock Configuration
---------------------------------
 Priority  Clock Source             State                        Reason
 1         POS3/0/1                 Valid but not present         
 2         Slot 1 BITS 0            Valid
 3         Slot 9                   Valid                         
 Current operating mode is Revertive 
 Current OOR Switchover mode is Switchover 
There are no slots disabled from participating in network clocking
 BITS Port Configuration
-------------------------
 Slot    Port    Signal Type/Mode        Line Build-Out Select

1 0 T1 ESF DSX-1 (533 to 655 feet)

Related Commands

Command

Description

clock source

Specifies the interface clock source type.

network-clock

Configures BITS port signaling types.

network-clock select

Selects a source of network clock.

network-clock-select (ATM)

Establishes the sources and priorities of the requisite clocking signals for an ATM-CES port adapter.

show platform hardware network-clocks

Displays network clocks for an ES+ line card.

show pagp

To display port-channel information, use the show pagp command in user EXEC or privileged EXEC mode.

show pagp [group-number] { counters | internal | neighbor | pgroup }

Syntax Description

group-number

(Optional) Channel-group number; valid values are a maximum of 64 values from 1 to 282.

counters

Displays the traffic information.

internal

Displays the internal information.

neighbor

Displays the neighbor information.

pgroup

Displays the active port channels.

Command Default

This command has no default settings.

Command Modes

User EXEC Privileged EXEC

Command History

Release

Modification

12.2(14)SX

Support for this command was introduced on the Supervisor Engine 720.

12.2(17d)SXB

Support for this command on the Supervisor Engine 2 was extended to Release 12.2(17d)SXB.

12.2(33)SRA

This command was integrated into Cisco IOS Release 12.2(33)SRA.

Usage Guidelines

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 numbervalues 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

Command

Description

pagp learn-method

Learns the input interface of the incoming packets.

pagp port-priority

Selects a port in hot standby mode.

show pas caim

To show debug information about the data compression Advanced Interface Module (CAIM) daughter card, use the showpascaimcommand in user EXEC or privileged EXEC mode.

show pas caim { rings | dma | coprocessor | stats | cnxt_table | page_table } element-number

Syntax Description

rings element-number

Displays current content of the Direct Memory Access (DMA) ring buffer.

dma element-number

Displays registers of the Jupiter DMA controller.

coprocessor element-number

Displays registers of the Hifn 9711 compression coprocessor.

stats element-number

Displays statistics that describes operation of the data compression Advanced Interface Module (AIM).

cnxt_table element-number

Displays the context of the specific data compression AIM element.

page_table element-number

Displays the page table for each CAIM element.

Command Modes

User EXEC Privileged EXEC

Command History

Release

Modification

12.0(2)T

This command was introduced.

12.2(33)SRA

This command was integrated into Cisco IOS Release 12.2(33)SRA.

12.2SX

This command is supported in the Cisco IOS Release 12.2SX train. Support in a specific 12.2SX release of this train depends on your feature set, platform, and platform hardware.

Usage Guidelines

This command displays performance statistics that describe the operation of the CAIM. This command is primarily intended for engineering debug, but it can also be useful to Cisco support personnel and to Cisco customers in troubleshooting network problems. The table below lists the output values for this command.

Table 12 show pas caim Output Values and Descriptions

Value

Description

uncomp paks in

Number of packets containing uncompressed data input to the CAIM for compression.

comp paks out

Number of packets containing uncompressed data that were successfully compressed.

comp paks in

Number of packets containing compressed data input to the CAIM for compression.

uncomp paks out

Number of packets containing compressed data that were successfully decompressed.

uncomp bytes in / comp bytes out

Summarizes the compression performance of the CAIM. The “uncomp bytes in” statistic gives the total number of uncompressed bytes submitted to the CAIM for compression. The “Comp bytes out” statistic gives the resulting number of compressed bytes output by the CAIM. If one forms the ratio of “uncomp bytes in” to “comp bytes out”, one obtains the average compression ratio achieved by the CAIM.

comp bytes in / uncomp bytes out

Summarizes the decompression performance of the CAIM. The “comp bytes in” statistic gives the total number of compressed bytes submitted to the CAIM for decompression. The “uncomp bytes out” statistic gives the resulting number of uncompressed bytes output by the CAIM. The average decompression ratio achieved can be computed as the ratio of “uncomp bytes out” to “comp bytes in”.

Note that each packet submitted for compression or decompression has a small header at the front which is always clear data and hence never compressed nor decompressed. The “comp bytes in / uncomp bytes out” and “uncomp bytes in / comp bytes out” statistics do not include this header.

uncomp paks/sec in

A time average of the number of packets per second containing uncompressed data submitted as input to the CAIM for compression. It is computed as the ratio of the “uncomp paks in” statistic to the “seconds since last clear” statistic.

comp paks/sec out

A time average of the number of packets per second containing uncompressed data which were successfully compressed by the CAIM. It is computed as the ratio of the “comp paks out” statistic to the “seconds since last clear” compressed by the CAIM. It is computed as the ratio of the “comp paks out” statistic to the “seconds since last clear” statistic.

comp paks/sec in

A time average of the number of packets per second containing compressed data submitted as input to the CAIM for decompression. It is computed as the ratio of the “comp paks in” statistic to the “seconds since last clear” statistic.

uncomp paks/sec out

A time average of the number of packets per second containing compressed data which were successfully decompressed by the CAIM. It is computed as the ratio of the “uncomp paks out” statistic to the “seconds since last clear” statistic.

Note that the “uncomp paks/sec in”, “comp paks/sec out”, “comp paks/sec in”, and “uncomp paks/sec out” statistics are averages over the entire time since the last “clear count” command was issued. This means that as time progresses, these statistics become averages over an ever larger time interval. As time progresses, these statistics become ever less sensitive to current prevailing conditions. Note also that the “uncomp paks in”, “comp paks out”, “comp paks in”, and “uncomp paks out” statistics are 32-bit counters and can roll over from 0xffff ffff to 0. When they do so, the “uncomp paks/sec in”, “comp paks/sec out”, “comp paks/sec in”, and “uncomp paks/sec out” statistics can be rendered meaningless. It is therefore recommend that one issue a “clear count” command before sampling these statistics.

uncomp bits/sec in

A time average of the number of bits per second of uncompressed data which were submitted to the CAIM for compression. It is computed as the ratio of the “uncomp bytes in” statistic, times 8, to the “seconds since last clear” statistic.

comp bits/sec out

A time average of the number of bits per second of uncompressed data which were successfully compressed by the CAIM. It is computed as the ratio of the “comp bytes out” statistic, times 8, to the “seconds since last clear” statistic.

comp bits/sec in

A time average of the number of bits per second of compressed data which were submitted to the CAIM for decompression. It is computed as the ratio of the “comp bytes in” statistic, times 8, to the “seconds since last clear” statistic.

uncomp bits/sec out

A time average of the number of bits per second of compressed data which were successfully decompressed by the CAIM. It is computed as the ratio of the “uncomp bytes in” statistic, times 8, to the “seconds since last clear” statistic.

Note again that these “bits/sec” statistics are time averages over the “seconds since last clear” statistics, and therefore become less and less sensitive to current conditions as time progresses. Also, these “bits/sec” statistics are computed from 32-bit counters, and when the counters roll over from the maximum 32-bit value to 0, the “bits/sec” statistics become inaccurate. It is again recommended that one issue the “clear count” command before sampling the “bits/sec” statistics.

The remaining statistics summarize operational state and error conditions encountered by the CAIM, and have the following interpretations:

holdq

Gives the number of packets occupying the “hold queue” of the CAIM. The hold queue is a holding area, or “overflow” area, for packets to be processed by the CAIM. Normally, the CAIM is fast enough that no overflow into the hold queue occurs, and so normally this statistic should show zero.

hw_enable

Flag indicating if the CAIM is disabled or not. Zero implies disabled; one implies enabled. The CAIM can become disabled if certain fatal hardware error conditions are detected. It can be reenabled by issuing the clearaimelement-number command.

src_limited

Flag indicating if the CAIM is in “source limited” mode. In source limited mode, the CAIM can only process a single command at a time. In non source limited mode, the CAIM can process several commands at a time using a pipeline built into the 9711 coprocessor. Note that the normal mode of operation is “non-source limited”, and there is no command to place the CAIM in “source limited” mode. Hence, this statistic should always read zero.

num cnxts

Gives the number of “contexts” which are currently open on the CAIM. Each interface configured for compression opens two contexts, one for each direction of data transfer.

no data

Counts the number of times in which the CAIM performed either a compress or decompression operation, and the output data length was reported with a length of zero. In normal operation, this statistic should always read zero. A nonzero value is an indication of a malfunctioning CAIM.

drops

Counts the total number of times in which the CAIM was forced to drop a packet it was asked to compress or decompress. This can happen for a number of reasons, and the remaining statistics summarize these reasons. This statistic indicates that the CAIM is being overloaded with requests for compression/decompression.

nobuffers

Counts the total number of times the CAIM needed to allocate memory for buffers but could not obtain memory. The CAIM allocates memory for buffers for holding the results of compression or decompression operations. In normal operation, there is plenty of memory available for holding CAIM results. This statistic, if nonzero, indicates that there is a significant backup in memory, or perhaps a memory leak.

enc adj errs

Each packet compressed or decompressed involves an adjustment of the encapsulation of the packet between the LZS-DCP, FRF9, or MPPC encapsulation used to transport compressed packets to the standard encapsulation used to transport clear data. This statistic counts the number of times this encapsulation adjustment failed. In normal operation, this statistic should be zero. A nonzero value indicates that we are short in a specific memory resource referred to as “paktypes”, and that packets are being dropped because of this shortage.

fallbacks

Number of times the data compression AIM card could not use its pre-allocated buffers to store compression results and had to “fallback” to using a common buffer pool.

no replace

Each time a compression or decompression operation is completed and the resultant data fill up a buffer, the CAIM software allocates a new buffer to replace the buffer filled. If no buffers are available, then the packet involved in this operation is dropped and the old buffer reused. This statistic thus represents the number of times such an allocation failure occurred. In normal operation there is plenty of memory available for these buffers. A nonzero value for this statistic is thus a serious indication of a memory leak or other backup in buffer usage somewhere in the system.

num seq errs

This statistic is incremented when the CAIM produces results in a different order than that in which the requests were submitted. Packets involved in such errors are dropped. A nonzero value in this statistic indicates a serious malfunction in the CAIM.

num desc errs

Incremented when the CAIM reports error in a compression or decompression operation. Such errors are most likely bus errors, and they indicate a serious malfunction in the CAIM.

cmds complete

Reports the number of compression/decompression commands completed. This statistic should steadily increase in normal operation (assuming that the CAIM is continuously being asked to perform compression or decompression). If this statistic is not steadily increasing or decreasing when a steady stream of compression/decompression is expected, this is an indication of a malfunctioning CAIM.

bad reqs

Reports the number of compression/decompression requests that the CAIM software determined it could not possibly handle. This occurs only if a severely scattered packet (with more than 64 “particles”, or separate buffers of data) is handed to the CAIM to compress or decompress. This statistic should not increment during normal operation. A nonzero value indicates a software bug.

dead cntxts

Number of times a packet was successfully compressed or decompressed, only to find that the software “context”, or stream sourcing the packet, was no longer around. In such a case the packet is dropped. This statistic can be incremented at times when a serial interface is administratively disabled. If the timing is right, the CAIM may be right in the middle of operating on a packet from that interface when the disable takes effect. When the CAIM operation completes, it finds that the interface has been disabled and all “compression contexts” pertaining to that interface have been deleted. Another situation in which this can occur is when a Frame Relay DLC goes down. This is a normal and tolerable. If this statistic is incrementing when no such situations exist, it is an indication of a software bug.

no paks

If a packet to be compressed or decompressed overflows into the hold queue, then it must undergo an operation called “reparenting”. This involves the allocation of a “paktype” structure for the packet. If no paktype structures are available, then the packet is dropped and this statistic is incremented. A nonzero value of this statistic indicates that the CAIM is being overtaxed, that is, it is being asked to compress/decompress at a rate exceeding its capabilities.

enq errors

Closely related to the “no paks” statistic. The hold queue for the CAIM is limited in length, and if the hold queue grows to this length, no further packets may be placed on it. A nonzero value of this statistic therefore also indicates that the CAIM is being overtaxed.

rx pkt drops

Contains the total number of packets dropped because of “no paks” or “enq errors”, which were destined to be decompressed.

tx pkt drops

Contains the total number of packets dropped because of “no paks” or “enq errors”, which were destined to be compressed

dequeues

Indicates the total number of packets which were removed from the CAIM hold queue when the CAIM became available for servicing its hold queue.

requeues

Indicates the total number of packets that were removed from the hold queue, only to find that the necessary CAIM resources were not available (it is not possible to determine whether CAIM resources are available until the packet is dequeued). Such packets are requeued onto the hold queue, with order in the queue preserved.

drops disabled

Indicates the total number of packets which were submitted for compression or decompression, but that were dropped because the CAIM was disabled.

clears

Indicates the number of times the CAIM was reset using the clearaimelement-numbercommand.

# ints

Indicates the number of interrupts serviced by the CAIM software. This statistic should steadily increase (assuming that the CAIM workload is steady). If this statistic is not incremented when expected, it indicates a severe CAIM malfunction.

# purges

Indicates the total number of times the compression history for a session had to be purged. This statistic is incremented a couple of times at startup. Thereafter, any increase in this statistic is an indication that the other side of the serial link detected bad data or gaps in the compressed packets being passed to it, and hence signalled a request to purge compression history in order to get back in synchronization. This can indicate that the CAIM is being overtaxed or that the serial interface is overtaxed and being forced to drop output packets.

no cnxts

Indicates the total number of times a request was issued to open a context, but the CAIM could not support any more contexts. Recall that two contexts are required for each interface configured for compression.

bad algos

Indicates the total number of times a request was issued to open a context for a compression algorithm not supported by the CAIM. Recall that the CAIM supports the LZS and MPPC algorithms only.

no crams

Indicates the total number of times a request was issued to open a context but there was insufficient compression DRAM to open another context. The CAIM software is set up to run out of contexts before it runs out of compression DRAM, so this statistic should always be zero.

bad paks

Indicates the total number of times a packet was submitted for compression or decompression to the CAIM, but the packet had an invalid size.

# opens

Indicates the total number of times a context was opened.

# closes

Indicates the total number of times a context was closed.

# hangs

Indicates the total number of times a CAIM appeared hung up, necessitating a clear of the CAIM.

Examples

The showpascaimringselement-number command displays the current state of the DMA ring buffers maintained by the CAIM software. These rings feed the CAIM with data and commands. It is intended for an engineering debug of the compression AIM. It produces the following output:

Router# show pas caim rings 0
CAIM Command Ring: 0x01A2BC00  Stack: 0x01A2BE40  Shadow: 0x80F88BAC
 Head: 0021  Tail: 0021  Count: 0000
CAIM Source Ring:  0x01A2C900  Shadow: 0x80F88BAC
 Head: 0021  Tail: 0021  Num: 0000
CAIM Results Ring: 0x01A2C280  Stack: 0x01A2C4C0
 Head=021  Tail=021
CAIM Dest Ring:    0x01A2CB40  Shadow: 0x80F892D8  Head=021  Tail=000
  Desc: 0x01A2CBE8  flags: 0x8000060C  dptr: 0x019E7EB8  part: 0x80F84BE0
  Desc: 0x01A2CBF0  flags: 0x8000060C  dptr: 0x019FC63C  part: 0x80F85240
.
.
.

The table below describes the significant fields shown in the display.

Table 13 show pas caim rings Field Descriptions

Field

Description

CAIM Command Ring

Feeds commands to the CAIM.

command ring address

Address of the command ring.

Command Ring Stack

Ring that feeds additional commands to the CAIM.

command ring stack address

Address of the command ring stack.

Command Ring Shadow

Software ring that stores additional information about each command.

command ring shadow address

Address of the command ring shadow.

Command Ring Head

Index into the Source Ring, specifying where the next entry will be extracted from.

Command Ring Tail

Index into the Source Ring, specifying where the next entry will be inserted.

CAIM Source Ring

Feeds information about input data to the CAIM.

source ring address

Address of the source ring.

Source Ring Shadow

Ring that contains additional information about each source buffer.

source ring shadow address

Address of the source ring shadow.

Source Ring Head

Specifies where the next entry will be extracted from.

Source Ring Tail

Specifies where the next entry will be inserted.

CAIM Results Ring

Receives information about each CAIM command as it is completed.

results ring address

Address of the results ring.

Results Ring Stack

Ring that receives additional information about each completed command.

results ring stack address

Address of the results ring stack.

Results Ring Head

Specifies where the next entry will be extracted from.

Results Ring Tail

Specifies where the next entry will be inserted.

CAIM Dest Ring

Holds information about the buffers available to the CAIM for output data.

dest ring address

Address of the dest ring.

Dest Ring Shadow

Ring that holds additional information about each output buffer.

dest ring shadow address

Address of the dest ring shadow.

Dest Ring Head

Index into the Source Ring, specifying where the next entry will be extracted from.

Dest Ring Tail

Index into the Source Ring, specifying where the next entry will be inserted.

The remaining fields describe each output data buffer.

dest

Address of a so-called descriptor, used by the Jupiter DMA engine.

flags

Contains flags describing attributes of the buffer.

dptr

Displays the actual address of the output buffer.

part

Displays the address of the corresponding particle type structure, a software-defined structure that describes a buffer when it is a component of a network data buffer.

The show pas caim dma element-numbercommand displays the registers of the Jupiter DMA Controller. These registers control the operation of the Jupiter DMA Controller. This command is intended for Engineering debug of the CAIM. You can find detailed descriptions of the various fields in the Jupiter DMA Controller specification. It produces the following output:

Router# show pas caim dma 0
Jupiter DMA Controller Registers: (0x40200000
        Cmd Ring: 0x01A2BCA8  Src Ring: 0x01A2C9A8
        Res Ring: 0x01A2C328  Dst Ring: 0x01A2CBE8
        Status/Cntl: present: 0x80808084  last int: 0x80808084
        Inten: 0x10100000  config: 0x00100003
        Num DMA ints: 143330469

The show pas caim compressor element-number command displays the registers of the Hifn 9711 compression coprocessor. These registers control the operation of the Hifn 9711 part. This command is intended for engineering to debug the CAIM. Detailed descriptions of the various fields may be found in the Hifn 9711 data book. It produces the following output:

Router# show pas caim compressor 0
Hifn9711 Data Compression Coprocessor Registers (0x40201000):
        Config: 0x000051D4  Inten: 0x00000E00
        Status: 0x00004000  FIFO status: 0x00004000
        FIFO config: 0x00000101

The table below describes the fields shown in the preceding display.

Table 14 show pas caim compressor Field Descriptions

Field

Description

Hifn9711 Data Compression Coprocessor Registers

Controls the operation of the Hifn 9711 part.

registers address

Address of the registers in the address space of the processor.

Config

Displays the current contents of the 9711 configuration register.

Inten

Displays the contents of the 9711 interrupt enable register.

Status

Displays the contents of the 9711 status register.

FIFO status

Contents of the 9711 FIFO Status register.

FIFO config

Contents of the 9711 FIFO Config register.

The show pas caim cnxt_table element-number command displays the context table for the specified CAIM element. The context table is a table of information concerning each compression context. It produces the following output:

Router# show pas caim cnxt_table 0
CAIM0 Context Table
Context: 0x8104F320  Type: Compr   Algo: Stac
    Hdrlen: 0006  History: 0x0000
    Callback: 0x8011D68C  Shutdown: x8011EBE4  Purge: N
    Comp_db: 0x81034BC0  idb: 0x81038084  ds: 0x8104E514
Context: 0x8104F340  Type: Decomp  Algo: Stac
    Hdrlen: 0002  History: 0x0000
    Callback: 0x8011E700  Shutdown: x8011EBE4  Purge: N
    Comp_db: 0x81034BC0  idb: 0x81038084  ds: 0x8104E514

The table below describes the fields shown in the preceding display.

Table 15 show pas caim cnxt_table Fields Descriptions

Field

Description

Context

Numeric internal reference for the compression context.

Type

Gives the type of context:

  • Compr--compression context
  • Decomp--decompression context

Algo

Gives the compression algorithm used:

  • Stac
  • Mppc

Hdrlen

Gives the number of bytes in the compression header for each compressed packet.

History

Gives the 16-KB page number in compression RAM for the context.

Callback

Gives an internal numeric reference for a control structures or procedure to facilitate debugging.

Shutdown

Gives an internal numeric reference for a control structures or procedure to facilitate debugging.

Comp_db

Gives an internal numeric reference for a control structures or procedure to facilitate debugging.

idb

Gives an internal numeric reference for a control structures or procedure to facilitate debugging.

idb

Gives an internal numeric reference for a control structures or procedure to facilitate debugging.

Purge

Indicates whether the compression context has been flagged to have its history purged.

The show pas caim page_table element-number command displays the page table for the selected CAIM element. The page table is a table of entries describing each page in compression RAM. It produces the following output:

Router# show pas caim page_table 0
CAIM0 Page Table
    Page  0x0000 Comp cnxt: 8104F320  Decmp cnxt: 8104F340  Algo: Stac

The table below describes the fields shown in the preceding display.

Table 16 show pas caim page_table Field Descriptions

Field

Description

Page

16 KB page number of the page.

Comp cnxt

Contains an internal numeric reference to the context structures using this page.

Decmp cnxt

Contains an internal numeric reference to the context structures using this page.

Algo

Gives the compression algorithm used:

  • Stac
  • Mppc

The following example shows statistics of an active data compression AIM session:

Router# show pas caim stats 0
CompressionAim0
    ds:0x80F56A44 idb:0x80F50DB8
        422074 uncomp paks in -->       422076 comp paks out
        422071 comp paks in   -->       422075 uncomp paks out
     633912308 uncomp bytes in-->     22791798 comp bytes out
      27433911 comp bytes in  -->    633911762 uncomp bytes out
           974 uncomp paks/sec in-->       974 comp paks/sec out
           974 comp paks/sec in  -->       974 uncomp paks/sec out
      11739116 uncomp bits/sec in-->    422070 comp bits/sec out
        508035 comp bits/sec in  -->  11739106 uncomp bits/sec out
    433 seconds since last clear
    holdq: 0  hw_enable: 1  src_limited: 0  num cnxts: 4
    no data: 0  drops: 0  nobuffers: 0  enc adj errs: 0  fallbacks: 0
    no Replace: 0  num seq errs: 0  num desc errs: 0  cmds complete: 844151
    Bad reqs: 0  Dead cnxts: 0  No Paks: 0  enq errs: 0
    rx pkt drops: 0  tx pkt drops: 0  dequeues: 0  requeues: 0
    drops disabled: 0  clears: 0  ints: 844314  purges: 0
    no cnxts: 0  bad algos: 0  no crams: 0  bad paks: 0
    # opens: 0  # closes: 0 # hangs: 0

Related Commands

Command

Description

show compress

Displays compression statistics.

show pas eswitch address

To display the Layer 2 learned addresses for an interface, use the showpaseswitchaddress command in user EXEC or privileged EXEC mode.

show pas eswitch address commandshow pas eswitch address [ ethernet | fastethernet ] [ slot/port ]

Syntax Description

ethernet | fastethernet

(Optional) Type of interface.

slot

(Optional) Slot number of the interface.

port

(Optional) Interface number.

Command Modes

User EXEC Privileged EXEC

Command History

Release

Modification

11.2P

This command was introduced.

12.2(33)SRA

This command was integrated into Cisco IOS Release 12.2(33)SRA.

12.2SX

This command is supported in the Cisco IOS Release 12.2SX train. Support in a specific 12.2SX release of this train depends on your feature set, platform, and platform hardware.

Examples

The following sample output shows that the first PA-12E/2FE interface (listed below as port 0) in port adapter slot 3 has learned the Layer 2 address 00e0.f7a4.5100 for bridge group 30 (listed below as BG 30):

Router# show pas eswitch address fastethernet 3/0
U 00e0.f7a4.5100, AgeTs 56273 s, BG 30 (vLAN 0), Port 0

show pas i82543 interface

To display interface information that is specific to Fast Ethernet or Gigabit Ethernet port adapters with an Intel 82543 processor on Cisco 7200 series routers, use the showpasi82543interfacecommand in privileged EXEC mode.

show pas i82543 interface { fastethernet | gigabitethernet } slot /port [ multicast-table | receive-address | statistics ]

Syntax Description

fastethernet

Displays i82543-specific information for Fast Ethernet interfaces.

gigabitethernet

Displays i82543-specific information for Gigabit Ethernet interfaces.

slot

Slot number.

/ port

Port number. The slash mark is required between the slot argument and the port argument.

multicast-table

(Optional) Displays i82543-specific multicast address table information.

Note   

In Cisco IOS Release 12.2 S, this keyword is MTA.

receive-address

(Optional) Displays the contents of the receive address registers on the i82543 chip.

statistics

(Optional) Displays i82543-specific statistical information.

Command Modes

Privileged EXEC(#)

Command History

Release

Modification

12.2(20)S

This command was introduced on Cisco 7200 series routers.

12.1(20)E

This command was integrated into Cisco IOS Release 12.1(20)E on Cisco 7200 series routers.

12.0(27)S

This command was integrated into Cisco IOS Release 12.0(27)S on Cisco 7200 series routers.

12.3(7)T

This command was integrated into Cisco IOS Release 12.3(7)T on Cisco 7200 series routers.

Usage Guidelines

Use the showpasi82543interface command with the statistics keyword to determine what types of packets are being processed. Similar statistical information is displayed by the showcontrollersfastethernet and showcontrollersgigabitethernet commands.


Note


We recommend that the multicast-table and receive-address keywords for this command be used only under the supervision of a Cisco engineer because of the cryptic output.


Examples

The following sample output shows the contents of the multicast address table present on the i82543 processor.

Router# show pas i82543 interface fastethernet 6/0 multicast-table
Multicast Table Entry #0 = 0x10000
Multicast Table Entry #1 = 0x1
Multicast Table Entry #84 = 0x8000

The following sample output shows the contents of the Receive Address High (RAH) and Receive Address Low (RAL) registers on the i82543 processor.

Router# show pas i82543 interface fastethernet 6/0 receive-address
#1 RAH 0x8000A8FC RAL 0x67B60900
#3 RAH 0x0003FFFF RAL 0xFF45F75B
#5 RAH 0x0003FFFF RAL 0xCBEE539A
#7 RAH 0x0003FFFF RAL 0x5ABDADEB
#9 RAH 0x0003FFFF RAL 0x365B5ACF
#11 RAH 0x0003FFFF RAL 0xB2D9B0CE
#13 RAH 0x0003FFFF RAL 0x12A91CF6
#15 RAH 0x0003FFFF RAL 0xEF4A3125
#17 RAH 0x0003FFFF RAL 0x1A07EB7D
#19 RAH 0x0003FFFF RAL 0xFF9B6EF8
#21 RAH 0x0003FFFF RAL 0xB7C2AFC9
#23 RAH 0x0003FFFF RAL 0x14F4FB0A
#25 RAH 0x0003FFFF RAL 0xC60D6706
#27 RAH 0x0003FFFF RAL 0x5E9DE230
#29 RAH 0x0003FFFF RAL 0x5FEF9FBE
#31 RAH 0x0003FFFF RAL 0xBBCCC57E

The following sample output shows packet statistics of the i82543 processor.

Router# show pas i82543 interface fastethernet 6/0 statistics
i82543 (Livengood) Statistics
  CRC error        0             Symbol error     0           
  Missed Packets   0             Single Collision 0           
  Excessive Coll   0             Multiple Coll    0           
  Late Coll        0             Collision        0           
  Defer            0             Receive Length   0           
  Sequence Error   0             XON RX           0           
  XON TX           0             XOFF RX          0           
  XOFF TX          0             FC RX Unsupport  0           
  Packet RX (64)   0             Packet RX (127)  0           
  Packet RX (255)  0             Packet RX (511)  0           
  Packet RX (1023) 0             Packet RX (1522) 0           
  Good Packet RX   348           Broadcast RX     0           
  Multicast RX     319           Good Packet TX   0           
  Good Octets RX.H 0             Good Octets RX.L 0           
  Good Octets TX.H 0             Good Octets TX.L 0           
  RX No Buff       0             RX Undersize     0           
  RX Fragment      0             RX Oversize      0           
  RX Octets High   0             RX Octets Low    0           
  TX Octets High   0             TX Octets Low    0           
  TX Packet        0             RX Packet        348         
  TX Broadcast     0             TX Multicast     0           
  Packet TX (64)   0             Packet TX (127)  0           
  Packet TX (255)  0             Packet TX (511)  0           
  Packet TX (1023) 0             Packet TX (1522) 0           
  TX Underruns     0             TX No CRS        0           
  RX Error Count   0             RX DMA Underruns 0           
  RX Carrier Ext   0           
  TCP Segmentation 0             TCP Seg Failed   0

The table below describes significant fields shown in the display.

Table 17  show pas i82543 interface statistics Field Descriptions

Field

Description

CRC error

Cyclic redundancy checksum (CRC) generated by the originating LAN station or far-end device does not match the checksum calculated from the data received. On a LAN, this usually indicates noise or transmission problems on the LAN interface or the LAN bus itself. A high number of CRCs is usually the result of collisions or a station transmitting bad data.

Symbol error

Number of symbol errors between reads.

Missed Packets

Indicates whether the software processes that handle the line protocol believe that the interface is usable (that is, whether keepalives are successful) or if it has been taken down by an administrator.

Single Collision

Number of times that a transmit operation encountered a single collision.

Excessive Coll

This counter is incremented after a transmit operation has encountered more than 16 collisions.

Multiple Coll

Number of times that a transmit operation encountered more than 1 collision, but less than 16 collisions.

Late Coll

Number of late collisions. A late collision happens when a collision occurs after transmitting the preamble. The most common cause of late collisions is Ethernet cable segments that are too long for the speed at which you are transmitting.

Collision

Number of messages transmitted because of an Ethernet collision. A packet that collides is counted only once in output packets.

Defer

Defer indicates that the chip had to defer while ready to transmit a frame because the carrier was asserted.

Receive Length

Number of receive length error events. A receive length error occurs if an incoming packet passes the filter criteria but is either oversized or undersized. Packets less than 64 bytes are undersized. Packets over 1522 bytes are oversized if LongPacketEnable (LPE) is 0. If LPE is 1, a packet is considered oversized if it exceeds 16,384 bytes.

Sequence Error

Number of sequence error events.

XON RX

Number of XON packets received.

XON TX

Number of XON packets transmitted.

XOFF RX

Number of XOFF packets received.

XOFF TX

Number of XOFF packets transmitted.

FC RX Unsupport

Number of unsupported flow control frames received.

Packet RX

Number of received packets of the following lengths in bytes: 64, 127, 255, 511, 1023, 1522.

Good Packet RX

Number of received packets without errors.

Broadcast RX

Number of broadcast packets received.

Multicast RX

Number of multicast packets received.

Good Packet TX

Number of transmitted packets without errors.

Good Octets

Number of good (without errors) octets received (RX) or transmitted (TX).

RX No Buff

Number of times that frames were received when there were no available buffers in host memory to store those frames. The packet will be received if there is space in FIFO memory.

RX Undersize

Number of received frames that passed through address filtering and were less than the minimum size of 64 bytes (from destination address through CRC, inclusively), but that contained a valid CRC.

RX Fragment

Number of received frames that passed through address filtering and were less than the minimum size of 64 bytes (from destination address through CRC, inclusively), but that contained a bad CRC.

RX Oversize

Number of received frames that passed through address filtering and were greater than the maximum size.

RX Octets

Total number of octets received.

TX Octets

Total number of octets transmitted.

TX Packet

Number of transmitted packets.

RX Packet

Number of received packets.

TX Broadcast

Number of broadcast packets transmitted.

TX Multicast

Number of multicast packets transmitted.

Packet TX

Number of transmitted packets of the following lengths in bytes: 64, 127, 255, 511, 1023, 1522.

TX Underruns

Number of times that the transmitter has been running faster than the router can handle. This may never be reported on some interfaces.

TX No CRS

Number of successful packet transmissions in which Carrier Sense (CRS) input from the physical layer was not asserted within one slot time of start of transmission.

RX Error Count

Number of receive packets in which RX_ER was asserted by the physical layer.

RX DMA Underruns

Number of receive direct memory access (DMA) underruns observed by the DMA.

RX Carrier Ext

Number of packets received in which the carrier extension error was signalled across the gigabit medium independent interface (GMII) interface.

TCP Segmentation

Number of TCP segmentation offload transmissions to the hardware.

TCP Seg Failed

Number of TCP segmentation offload transmissions to the hardware that failed to transmit all data in the TCP segmentation context payloads.

Related Commands

Commands

Description

show compress

Displays compression statistics.

show controllers fastethernet

Displays information about Fast Ethernet controllers.

show controllers gigabitethernet

Displays information about Gigabit Ethernet controllers.

show interfaces

Displays information about interfaces.

show pas isa controller

To show controller information that is specific to the Virtual Private Network (VPN) accelerator controller when an Integrated Services Adapter (ISA) is installed, use the showpasisacontrollerEXEC command.

show pas isa controller

Syntax Description

This command has no arguments or keywords.

Command Modes

Privileged EXEC

Command History

Release

Modification

12.1(5)T

This command was introduced.

12.2(33)SRA

This command was integrated into Cisco IOS Release 12.2(33)SRA.

12.2SX

This command is supported in the Cisco IOS Release 12.2SX train. Support in a specific 12.2SX release of this train depends on your feature set, platform, and platform hardware.

Examples

The following is sample output from the showpasisacontroller command:

Router# show pas isa controller
Interface ISA5/1 :
Encryption Mode = IPSec 
Addresses of Rings and instance structure:
High Priority Rings
   TX: 0x4B0E97C0 TX Shadow:0x62060E00
   RX: 0x4B0EB840 RX Pool:0x4B0EBC80 RX Pool Shadow:0x62068E58
Low Priority Rings
   TX: 0x4B0EA800 TX Shadow:0x62066E2C
   RX: 0x4B0EC0C0, RX Shadow:0x62069284
Instance Structure address:0x620603D8
Firmware write head/tail offset:0x4B0EC900
Firmware read  head/tail offset:0x3EA00000

Related Commands

Command

Description

show pas isa interface

Displays interface status information that is specific to the VPN accelerator card.

show pas isa interface

To display interface information that is specific to the Virtual Private Network (VPN) accelerator card when an Integrated Services Adapter (ISA) is installed, use the showpasisainterfacecommand in privileged EXEC mode.

show pas isa interface

Syntax Description

This command has no arguments or keywords.

Command Modes

Privileged EXEC

Command History

Release

Modification

12.1(5)T

This command was introduced.

12.2(33)SRA

This command was integrated into Cisco IOS Release 12.2(33)SRA.

12.2SX

This command is supported in the Cisco IOS Release 12.2SX train. Support in a specific 12.2SX release of this train depends on your feature set, platform, and platform hardware.

Examples

The following is sample output from the showpasisainterface command:

Router# show pas isa interface
Interface ISA5/1 : 
        Statistics of packets and bytes through this interface: 
           2876894 packets in                   2910021 packets out
               420 paks/sec in                      415 paks/sec out
              2327 Kbits/sec in                    2408 Kbits/sec out
               632 commands out                     632 commands acknowledged
        low_pri_pkts_sent     1911    low_pri_pkts_rcvd:      1911
        invalid_sa:           260     invalid_flow:           33127
        invalid_dh:           0       ah_seq_failure:         0  
        ah_spi_failure:       0       esp_auth_failure:       0  
        esp_seq_failure:      0       esp_spi_failure:        0  
        esp_protocol_absent:  0       ah_protocol_absent:     0  
        bad_key_group:        0       no_shared_secret:       0  
        no_skeyids:           0       pad_size_error:         0  
        cmd_ring_full:        0       bulk_ring_full:         990
        bad_peer_pub_len:     0       authentication_failure: 0  
        fallback:             1606642 no_particle:            0  
        6922 seconds since last clear of counters

The table below describes the significant fields shown in the display.

Table 18 show pas isa interface Field Descriptions

Field

Description

packets in/out

Number of data packets received from, or sent to, the Integrated Service Adapter (ISA).

paks/sec in/out

Number of packets received in, or sent out, with the total number of seconds that the ISA is active.

Kbits/sec in/out

Number of kilobits (Kbits) received in, or sent out, with the total number of seconds that the ISA is active.

commands out

Number of commands going to the ISA. Examples of commands include setting up encryption sessions and retrieving statistics or status from the ISA.

commands acknowledged

Number of commands returning from the ISA. Examples of commands include setting up encryption sessions and retrieving statistics or status from the ISA.

low_pri_pkts_sent

This is a summary counter for number of Internet Key Exchange (IKE) and IPSec commands submitted to ISA.

low_pri_pkts_rcvd

This is a summary counter for number of IKE & IPSEC command responses received from ISA.

invalid_sa

Reference to an unusable security association key pair.

invalid_flow

An invalid packet using an IPSec key is received for encryption or decryption.

Example: session has expired.

invalid_dh

Reference to an unusable Diffie-Hellman( DH) key pair.

ah_seq_failure

Unacceptably late Authentication Header (AH) header received.

ah_spi_failure

SPI specified in the AH header does not match the SPI associated with the IPSec AH key.

esp_auth_failure

Number of ESP packets received with authentication failures.

esp_seq_failure

Unacceptably late ESP packet received.

esp_spi_failure

SPI specified in the ESP header does not match the SPI associated with the IPSec ESP key.

esp_protocol_absent

Packet is missing expected ESP header.

ah_protocol_absent

Packet is missing expected AH header.

bad_key_group

Unsupported key group requested during a Diffie-Hellman generation.

no_shared_secret

Attempting to use a Diffie-Hellman shared secret that is not generated.

no_skeyids

Attempting to use a shared secret that is not generated.

pad_size_error

The length of the ESP padding is greater than the length of the entire packet.

cmd_ring_full

New IKE setup messages are not queued for processing until the previous queued requests are processed.

bulk_ring_full

New packets requiring IPSec functionality are not queued to the ISA until the ISA completes the processing of existing requests.

bad_peer_pub_len

Length of peer's DH public key does not match the length specified for the negotiated DH key group.

authentication_failure

Authentication failed.

fallback

The number of instances when the driver is successful in getting a replacement buffer from the global pool.

no_particle

The number of instances when the driver was unable to get a replacement buffer from the driver pool and the global (fallback) pool.

Related Commands

Command

Description

show pas isa controller

Displays controller status information that is specific to the VPN accelerator card.

show pas vam controller

To display controller information that is specific to the VPN Acceleration Module (VAM), use the showpasvamcontroller command in privileged EXEC mode.

show pas vam controller

Syntax Description

This command has no arguments or keywords.

Command Modes

Privileged EXEC

Command History

Release

Modification

12.1(9)E

This command was introduced.

12.2(9)YE

This command was integrated into Cisco IOS Release 12.2(9)YE.

12.2(13)T

This command was integrated into Cisco IOS Release 12.2(13)T.

Examples

The following is sample output from theshowpasvamcontrollercommand:

Router# show pas vam controller
Encryption Mode = IPSec
Addresses of Rings and instance structure:
Low Priority Queue:
    OMQ=0xF2CB2E0, OMQ Shadow = 0x630E6638, {1, 1, 0, 256}
    PKQ=0xF2CF320, PKQ Shadow = 0x630EBE64, {232, 232, 0, 256}
    ERQ=0xF2D3360, ERQ Shadow = 0x630F1690, {0, 0, 0, 256}
High Priority Rings:
   TX: 0x0F2D73A0 TX Shadow:0x630F6EBC, {6, 6, queued=0}
   RX: 0x7F2D93E0 {13, 0, 256}
   RX Pool:0x7F2DA420 RX Pool Shadow:0x630FCAE8, {6, 0, 255}
Instance Structure address:0x630E5898
Misc registers:
mini-omq=0xF2DB460, shdw=0x63102714
Group0=0x3D800000, Group1=0x3D801000
IndexReg = 0xDFFE700
Heartbeat info:<Addr, Value> = <0xF2DB520, 0x2A55A>
Running default HSP (addr=0x629D36AC, size=294268)

Related Commands

Command

Description

show pas vam interface

Displays interface status information specific to the VPN accelerator module.

show pas vam interface

To display interface information that is specific to the VPN Acceleration Module (VAM), use the showpasvaminterface command in privileged EXEC mode.

show pas vam interface

Syntax Description

This command has no arguments or keywords.

Command Modes

Privileged EXEC

Command History

Release

Modification

12.1(9)E

This command was introduced.

12.2(9)YE

This command was integrated into Cisco IOS Release 12.2(9)YE.

12.2(13)T

This command was integrated into Cisco IOS Release 12.2(13)T.

Usage Guidelines

Enter theshowpasvaminterface command to see if the VAM is currently processing crypto packets.

Examples

The following is sample output from the showpasvaminterface command:

Router# show pas vam interface 
Interface VAM 2/1 :
        ds: 0x621CE0D8        idb:0x621C28DC
        Statistics of packets and bytes that through this interface:
              1110 packets in                   1110 packets out
            123387 bytes in                   100979 bytes out
                 0 paks/sec in                     0 paks/sec out
                 0 Kbits/sec in                    0 Kbits/sec out
              3507 commands out                 3507 commands acknowledged
        ppq_full_err   : 0            ppq_rx_err       : 0
        cmdq_full_err  : 0            cmdq_rx_err      : 0
        no_buffer      : 0            fallback         : 0
        dst_overflow   : 0            nr_overflow      : 0
        sess_expired   : 0            pkt_fragmented   : 0
        out_of_mem     : 0            access_denied    : 0
        invalid_fc     : 0            invalid_param    : 0
        invalid_handle : 0            output_overrun   : 0
        input_underrun : 0            input_overrun    : 0
        key_invalid    : 0            packet_invalid   : 0
        decrypt_failed : 0            verify_failed    : 0
        attr_invalid   : 0            attr_val_invalid : 0
        attr_missing   : 0            obj_not_wrap     : 0
        bad_imp_hash   : 0            cant_fragment    : 0
        out_of_handles : 0            compr_cancelled  : 0
        rng_st_fail    : 0            other_errors     : 0
        3420 seconds since last clear of counters

The table below describes the significant fields shown in the display.

Table 19 show pas vam interface Field Descriptions

Field

Description

packets in/out

Number of data packets received from, or sent to, the VAM.

bytes in/out

Number of data bytes received from, or sent to, the VAM.

paks/sec in/out

Number of packets received in, or sent out, with the total number of seconds that the VAM is active.

Kbits/sec in/out

Number of kilobits (Kbits) received in, or sent out, with the total number of seconds that the VAM is active.

commands out

Number of commands going to the VAM. Examples of commands include setting up encryption sessions and retrieving statistics or status from the VAM.

commands acknowledged

Number of commands returning from the VAM. Examples of commands include setting up encryption sessions and retrieving statistics or status from the VAM.

ppq_full_err

Number of packets dropped because of a lack of space in the packet processing queues for the VAM. This usually means that input traffic has reached VAM maximum throughput possible.

ppq_rx_err

Summary counter for all errors related to packet processing.

cmdq_full_err

Number of commands dropped because of a lack of space in the command processing queues for the VAM. This error indicates that the input tunnel setup rate has reached the VAM maximum setup rate. The Internet Key Exchange (IKE) process retries the tunnel creation and deletion when commands are dropped by VAM.

cmdq_rx_err

Summary counter for all errors related to command processing (for example, IKE, or IPSec session creation or deletion).

no_buffer

Errors related to the VAM running out of buffers. May occur with large packets. Although VAM buffers cannot be tuned, try tuning buffers for other interfaces.

fallback

Internal VAM buffer pool is completely used up and VAM has to fallback to global buffer pool. This may cause minor performance impact, however, packets are still processed so this error can be ignored.

dst_overflow

Counter that is incremented when the VAM has completed an operation, but there is no available space into which to place the result.

nr_overflow

Counter that is incremented when the VAM has completed an operation, but there is no available space into which to place the result.

sess_expired

Counter that is incremented if the session used to encrypt or decrypt the packet has expired because of time or space limit.

pkt_fragmented

Counter that is incremented when the input packet has to be fragmented after encryption. This counter should always be 0 as fragmentation by VAM is disabled.

out_of_mem

Counter that is incremented when the VAM runs out of memory.

access_denied

Counter that is incremented when the VAM is requested to perform an operation on an object that can not be modified.

invalid_fc

Counter that is incremented when the VAM has received a request that is illegal for the specified object type.

invalid_param

Counter that is incremented when the VAM has received invalid parameters within a command.

invalid_handle

Counter that is incremented when the VAM receives a request for an operation to be performed on an object that does not exist.

output_overrun

Counter that is incremented when the space allocated for a response is not large enough to hold the result posted by the VAM.

input_underrun

Counter that is incremented when the VAM receives a packet for which it finds a premature end to the data, for example, a truncated packet.

input_overrun

Counter that is incremented when the VAM receives a buffer that is too large for the requested operation.

key_invalid

Counter that is incremented when the VAM receives a request for an operation on a key where the key is invalid or of the wrong type.

packet_invalid

Counter that is incremented when the VAM receives a packet whose body is badly formed.

decrypt_failed

Counter that is incremented when the VAM receives a packet that cannot be decrypted because the decrypted data was not properly formatted (for example, padding is wrong).

verify_failed

Counter that is incremented when the VAM receives a packet which could not be verified because the verification of a signature or authentication value failed.

attr_invalid

Counter that is incremented when the VAM receives a packet which specifies an attribute that is not correct for the specified object or operation.

attr_val_invalid

Counter that is incremented when the VAM encounters errors during packet or command processing. The packets or commands are dropped in such cases.

attr_missing

Counter that is incremented when the VAM receives an operation request for which the value of a required attribute is missing.

obj_not_wrap

Counter that is incremented when the VAM receives an operation request to retrieve an object that is hidden or unavailable for export beyond the FIPS boundary of the VPN Module.

bad_imp_hash

Counter that is incremented when the VAM sees a hash miscompare on unwrap.

cant_fragment

Counter that is incremented when the VAM determines a need to fragment a packet, but cannot fragment because the “don’t fragment” bit is set. This counter should always be zero because the fragmentation on the VAM is disabled.

out_of_handles

Counter that is incremented when the VAM has run out of available space for objects of the requested type.

comp_cancelled

Due to the operation of the compression algorithm, some data patterns cannot be compressed. Usually data that has already been compressed or data that does not have a sufficient number of repetitive patterns cannot be compressed and a compress operation would actually result in expansion of the data.

There are certain known data patterns which do not compress. In these cases, the compression engine cancels the compression of the data and returns the original, uncompressed data without an IPPCP header.

These counters are useful to determine if the content of the traffic on the network is actually benefiting from compression. If a large percentage of the network traffic is already compressed files, these counters may indicate that compression on these streams are not improving the performance of the network.

rng_st_fail

Counter that is incremented when the VAM detects a Random Number Generator self test failure.

pkt_replay_err

Counter that is incremented when a replay error is detected by the VAM.

other_errors

Counter that is incremented when the VAM encounters a packet or command error that is not listed in other error categories. An example could be if the packet IP header checksum is incorrect.


 
	 

Related Commands

Command

Description

show pas vam controller

Displays controller status information that is specific to the VPN accelerator module.

show pas y88e8k interface

To display the y88e8k Port Adaptor Information (pas) message details of a Gigabit Ethernet interface, use the showpasy88e8kinterface command in User EXEC or privileged EXEC mode.

show pas y88e8k interface type number { registers | rx_ring | statistics | tx_ring }

Syntax Description

type

(Optional) Displays the interface type.

number

(Optional) Displays the interface number.

registers

Displays register values.

rx -ring

Displays the receive ring entries of the interface.

statistics

Displays the y88e8k chip statistics values.

tx -ring

Displays the transmit ring entries of the interface.

Command Modes

User EXEC (>) Privileged EXEC (#)

Command History

Release

Modification

12.4(22)T

This command was introduced in a release earlier than Cisco IOS Release 12.4(22)T.

Examples

The following is sample output from the showpasy88e8kinterface command:

Router# show pas y88e8k interface gigabit ethernet 1/0 rx-ring
Rx Ring:
 --------
  ring size = 128, particle size = 2048
  ring head = 0, tail = 127
  Ring entries:
     rxr       next_desc_addr   buf_ctrl   buf_addr_lo frame_sw  rxr_shadow   data_start  data_bytes
  0  0x642AE918  0x2DD9F020    0xC8550800 0x0DDA3180  0x00000000 0x64525440  0x2DDA3180  0
  1  0x642AE938  0x2DD9F040    0xC8550800 0x0DDA3A00  0x00000000 0x64525480  0x2DDA3A00  0
  2  0x642AE958  0x2DD9F060    0xC8550800 0x0DDA4280  0x00000000 0x645254C0  0x2DDA4280  0
  3  0x642AE978  0x2DD9F080    0xC8550800 0x0DDA4B00  0x00000000 0x64525500  0x2DDA4B00  0
  4  0x642AE998  0x2DD9F0A0    0xC8550800 0x0DDA5380  0x00000000 0x64525540  0x2DDA5380  0
  5  0x642AE9B8  0x2DD9F0C0    0xC8550800 0x0DDA5C00  0x00000000 0x64525580  0x2DDA5C00  0
  6  0x642AE9D8  0x2DD9F0E0    0xC8550800 0x0DDA6480  0x00000000 0x645255C0  0x2DDA6480  0
  7  0x642AE9F8  0x2DD9F100    0xC8550800 0x0DDA6D00  0x00000000 0x64525600  0x2DDA6D00  0
  8  0x642AEA18  0x2DD9F120    0xC8550800 0x0DDA7580  0x00000000 0x64525640  0x2DDA7580  0
  9  0x642AEA38  0x2DD9F140    0xC8550800 0x0DDA7E00  0x00000000 0x64525680  0x2DDA7E00  0
  10 0x642AEA58  0x2DD9F160    0xC8550800 0x0DDA8680  0x00000000 0x645256C0  0x2DDA8680  0
  11 0x642AEA78  0x2DD9F180    0xC8550800 0x0DDA8F00  0x00000000 0x64525700  0x2DDA8F00  0
  12 0x642AEA98  0x2DD9F1A0    0xC8550800 0x0DDA9780  0x00000000 0x64525740  0x2DDA9780  0
  13 0x642AEAB8  0x2DD9F1C0    0xC8550800 0x0DDAA000  0x00000000 0x64525780  0x2DDAA000  0
 .
 .
 .
  127 0x642AF8F8  0x2DD9F000    0xC8550800 0x0DDE6900  0x00000000 0x64527400  0x2DDE6900  0

Table 1 describes the significant fields shown in the display.

Table 20 show pas y88e8k interface Field Descriptions

Field

Description

ring size

Displays the size of the ring. This is based on the bandwidth of the interface or virtual circuit (VC) and is a power of two.

particle size

Displays the particle size on the receive and transmit paths, in bytes.

ring head

Displays the head of the ring.

tail

Displays the tail of the ring.

rxr

Displays the Rx ring pointer.

next_desc_addr

Displays next Rx buffer descriptor address.

buf_ctrl

Displays the buffer control.

buf_addr_lo

Displays the buffer address.

frame_sw

Displays the Frame status word.

rxr_shadow

Displays the Rx ring shadow.

data_start

Displays the start of data in the particle.

data_bytes

Displays the number of bytes consumed for data storage.

Related Commands

Command

Description

tx-ring-limit

Limits the number of packets that can be used on a transmission ring on the DSL WIC or interface.

show pci aim

To show the IDPROM contents for each compression Advanced Interface Module (AIM) daughter card in the Cisco 2600 router, use the showpciaimcommand in user EXEC or privileged EXEC mode.

show pci aim

Syntax Description

This command has no arguments or keywords.

Command Modes

User EXEC Privileged EXEC

Command History

Release

Modification

12.0(1)T

This command was introduced.

12.2(33)SRA

This command was integrated into Cisco IOS Release 12.2(33)SRA.

12.2SX

This command is supported in the Cisco IOS Release 12.2SX train. Support in a specific 12.2SX release of this train depends on your feature set, platform, and platform hardware.

Usage Guidelines

This command shows the IDPROM contents for each compression AIM daughtercard present in the system, by AIM slot number (currently 0, since that is the only daughtercard installed for Cisco IOS Release 12.0(1)T). The IDPROM is a small PROM built into the AIM board used to identify it to the system. It is sometimes referred to as an EEPROM because it is implemented using electronically erasable PROM.

Examples

The following example shows the IDPROM output for the installed compression AIM daughter card:

Router# show pci aim
AIM Slot 0: ID 0x012D
        Hardware Revision        : 1.0
        EEPROM format version 4
        EEPROM contents (hex):
          0x00: 04 FF 40 01 2D 41 01 00 FF FF FF FF FF FF FF FF
          0x10: FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF
          0x20: FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF
          0x30: FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF
          0x40: FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF
          0x50: FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF
          0x60: FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF
          0x70: FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF

Related Commands

Command

Description

clear aim

Clears data compression AIM registers and resets the hardware.

test aim eeprom

Tests the data compression AIM after it is installed in a Cisco 2600 series router.

show platform

To display platform information, use the show platform command in privileged EXEC mode.

show platform { buffers | copp rate-limit { arp | dhcp | atm-oam | ethernet-oam | icmp | igmp | pppoe-discovery | atom ether-vc | all } | np copp [ifnum] [detail] | dma | eeprom | fault | hardware capacity | hardware pfc mode | internal-vlan | interrupts | netint | software ipv6-multicast connected | stats | tech-support { ipmulticast [ vrf vrf-name ] group-ip-addr src-ip-addr | unicast [ vrf vrf-name ] destination-ip-addr destination-mask [global] } | tlb | vfi dot1q-transparency | vlans }

Cisco 4400 Series Integrated Services Routers

show platform

Cisco ASR 1000 Series Aggregation Services Routers

show platform

Syntax Description

buffers

Displays buffer-allocation information.

copp rate-limit

Displays Cisco Control Plane Policing (CoPP) rate-limit information on the Cisco 7600 SIP-400.

arp

Specifies Address Resolution Protocol (ARP) packet traffic.

dhcp

Specifies Dynamic Host Configuration Protocol (DHCP) packet traffic.

atm-oam

Specifies ATM Operation, Administration, and Maintenance (OAM) packet traffic.

ethernet-oam

Specifies Ethernet OAM packet traffic.

icmp

Specifies Internet Connection Management Protoocol Rate limiter.

igmp

Specifies Internet Group Management Potocol Rate limiter.

pppoe-discovery

Specifies Point-to-Point Protocol over Ethernet (PPPoE) discovery packet information.

atom ether-vc

Shows whether IP or routed mode interworking is configured.

all

Displays rate-limit information for all protocols.

np copp

Displays debug information for a given CoPP session ID or for all CoPP sessions.

ifnum

(Optional) A session ID.

detail

(Optional) Shows full rate-limited values.

dma

Displays Direct Memory Access (DMA) channel 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 Policy Feature Card (PFC).

internal-vlan

Displays the internal VLAN.

interrupts

Displays m8500 interrupt counters.

netint

Displays the platform network-interrupt information.

software ipv6-multicast connected

Displays all the IPv6 subnet Access Control List (ACL) entries on the Route Processor (RP); see the show platform software ipv6-multicast command.

stats

Displays Constellation WAN (CWAN) statistics.

tech-support ipmulticast

Displays IP multicast-related information for Technical Assistance Center (TAC).

vrf vrf-name

(Optional) Displays the Virtual Private Network (VPN) routing and forwarding (VRF) instance.

group-ip-addr

Group IP address.

src-ip-addr

Source IP address.

unicast

Displays IP unicast-related information for TAC.

destination-ip-addr

Destination IP address.

destination-mask

Destination mask.

global

(Optional) Displays global output.

tlb

Displays information about the translation look-aside buffer (TLB) register.

vfi

Displays CWAN virtual forwarding instance (VFI) commands.

dot1q-transparency

Displays the dot1q transparency setting.

vlans

Displays hidden VLAN-to-WAN interface mapping.

Command Modes

Privileged EXEC (#)

Command History

Release

Modification

12.2(14)SX

Support for this command was introduced on the Supervisor Engine 720.

12.2(17d)SXB

Support for this command on the Supervisor Engine 2 was extended to Cisco IOS Release 12.2(17d)SXB. This command was changed to include the hardware pfc modekeywords.

12.2(18)SXD

This command was modified to include the software ipv6-multicast connectedkeywords.

12.2(33)SRA

This command was integrated into Cisco IOS Release 12.2(33)SRA.

12.2(33)SRC

This command was modified to include additional keywords to support CoPP enhancements on the Cisco 7600 SIP-400 on the Cisco 7600 series router.

Cisco IOS XE Release 2.1

This command was integrated into Cisco IOS XE Release 2.1.

12.2(33)SRD

This command was modified. The atom ether-vc keyword was added.

Cisco IOS XE Release 3.9S

This command was integrated into Cisco IOS XE Release 3.9S.

Usage Guidelines

This command is similar to the show msfc command.

This command can be used to verify the existence of a second Cisco IOS process on a single Cisco ASR 1000 RP on a Cisco ASR 1002 router or Cisco ASR 1004 router.

When this command is used with the atom ether-vc keyword, it is used on the line-card console.

Examples

The following sample output from the show platform buffers command displays 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#

Examples

The following example displays online status information for the Cisco ISR 4400 Front Panel Gigabit Ethernet port (ISR4451-4X1GE), Cisco SSD Carrier Card Network Interface Module (NIM-SSD), Cisco SM-1T3/E3 Service Module (SM-1T3/E3), and Cisco 4th Generation T1/E1 Voice and WAN Network Interface Module (NIM 8MFT-T1/E1)

Router# show platform 
Chassis type: ISR4452/K9

Slot      Type                State                 Insert time (ago)
--------- ------------------- --------------------- -----------------
0         ISR4452/K9          ok                    15:57:33
0/0       ISR4451-4X1GE       ok                    15:55:24
0/3       NIM-SSD             ok                    15:55:24
1         ISR4452/K9          ok                    15:57:33
1/0       NIM 8MFT-T1/E1      ok                    15:55:24
2         ISR4452/K9          ok                    15:57:33
2/0       SM-1T3/E3           ok                    15:55:24
R0        ISR4452/K9          ok, active            15:57:33
F0        ISR4451-FP          ok, active            15:57:33
P0        Unknown             ps, fail              never
P1        XXX-XXXX-XX         ok                    15:56:58
P2        ACS-4450-ASSY       ok                    15:56:58

Slot      CPLD Version        Firmware Version
--------- ------------------- ---------------------------------------
0         12090323            15.3(01r)S            [ciscouser-ISRRO...
1         12090323            15.3(01r)S            [ciscouser-ISRRO...
2         12090323            15.3(01r)S            [ciscouser-ISRRO...
R0        12090323            15.3(01r)S            [ciscouser-ISRRO...
F0        12090323            15.3(01r)S            [ciscouser-ISRRO...

The table below describes the fields that appear in the above example

Table 21 Show Platform Field Descriptions

Field

Descriptions

Slot

slot number

Type

Type of module

State

Status of the module

Insert Time

Period of time ((hh:mm:ss format) since the module has been up and running

The following example displays online status information for the shared port adapters (SPAs), Cisco ASR 1000 SPA Interface Processor (SIP), Cisco ASR 1000 Embedded Services Processor (ESP), Cisco ASR 1000 RP, power supplies, and fans. The ESPs are shown as F0 and F1. The RPs are shown as R0 and R1.

The State column should display “ok” for SIPs, SPAs, power supplies, and fans. For RPs and ESPs, the State column should display “ok, active” or “ok, standby.”

Router# show platform
Chassis type: ASR1006
Slot      Type                State                 Insert time (ago)
--------- ------------------- --------------------- -----------------
0         ASR1000-SIP10       ok                    18:23:58
 0/0      SPA-5X1GE-V2        ok                    18:22:38
 0/1      SPA-8X1FE-TX-V2     ok                    18:22:33
 0/2      SPA-2XCT3/DS0       ok                    18:22:38
1         ASR1000-SIP10       ok                    18:23:58
 1/0      SPA-2XOC3-POS       ok                    18:22:38
 1/1      SPA-8XCHT1/E1       ok                    18:22:38
 1/2      SPA-2XT3/E3         ok                    18:22:38
R0        ASR1000-RP1         ok, active 				       18:23:58
R1        ASR1000-RP1         ok, standby           18:23:58
F0        ASR1000-ESP10       ok, active            18:23:58
F1        ASR1000-ESP10       ok, standby           18:23:58
P0        ASR1006-PWR-AC      ok                    18:23:09
P1        ASR1006-FAN         ok                    18:23:09
Slot      CPLD Version        Firmware Version
--------- ------------------- ---------------------------------------
0         06120701            12.2(33r)XN2
1         06120701            12.2(33r)XN2
R0        07082312            12.2(33r)XN2
R1        07082312            12.2(33r)XN2
F0        07051680            12.2(33r)XN2
F1        07051680            12.2(33r)XN2

Examples

In the following example, a second Cisco IOS process is enabled on a Cisco ASR 1004 router using stateful switchover (SSO). The output of the show platform command is provided before and after the SSO configuration to verify that the second Cisco IOS process is enabled and active.

Router# show platform
Chassis type: ASR1004             
Slot      Type                State                 Insert time (ago) 
--------- ------------------- --------------------- ----------------- 
0         ASR1000-SIP10       ok                    00:04:39      
 0/0      SPA-5X1GE-V2        ok                    00:03:23      
 0/1      SPA-2XT3/E3         ok                    00:03:18      
R0        ASR1000-RP1         ok, active            00:04:39      
F0        ASR1000-ESP10       ok, active            00:04:39      
P0        ASR1004-PWR-AC      ok                    00:03:52      
P1        ASR1004-PWR-AC      ok                    00:03:52      
Slot      CPLD Version        Firmware Version                        
--------- ------------------- --------------------------------------- 
0         07091401            12.2(33r)XN2                        
R0        07062111            12.2(33r)XN2                        
F0        07051680            12.2(33r)XN2                        
Router# configure terminal
Enter configuration commands, one per line.  End with CNTL/Z.
Router(config)# redundancy
Router(config-red)# mode sso
*May 27 19:43:43.539: %CMRP-6-DUAL_IOS_REBOOT_REQUIRED: R0/0: cmand:  Configuration must be saved and the chassis must be rebooted for IOS redundancy changes to take effect
Router(config-red)# exit
Router(config)# exit
Router#
*May 27 19:44:04.173: %SYS-5-CONFIG_I: Configured from console by user on console
Router# copy running-config startup-config
Destination filename [startup-config]? 
Building configuration...
[OK]
Router# reload
Proceed with reload? [confirm]
*May 27 19:45:16.917: %SYS-5-RELOAD: Reload requested by user on console. Reload Reason: Reload command.
<reload output omitted for brevity>
Router# show platform
Chassis type: ASR1004             
Slot      Type                State                 Insert time (ago) 
--------- ------------------- --------------------- ----------------- 
0         ASR1000-SIP10       ok                    00:29:34      
 0/0      SPA-5X1GE-V2        ok                    00:28:13      
 0/1      SPA-2XT3/E3         ok                    00:28:18      
R0        ASR1000-RP1         ok                    00:29:34       R0/0                         ok, active            00:29:34        R0/1                         ok, standby           00:27:49      F0        ASR1000-ESP10       ok, active            00:29:34      
P0        ASR1004-PWR-AC      ok                    00:28:47      
P1        ASR1004-PWR-AC      ok                    00:28:47      
Slot      CPLD Version        Firmware Version                        
--------- ------------------- --------------------------------------- 
0         07091401            12.2(33r)XN2                        
R0        07062111            12.2(33r)XN2                        
F0        07051680            12.2(33r)XN2                        

The table below describes the significant fields shown in the display.

Table 22 show platform Field Descriptions

Field

Description

Slot

Chassis slot.

Type

Hardware type.

State

Online state of the hardware. One of the following values:

All Hardware

  • booting--Hardware is initializing and software is booting.
  • disabled--Hardware is not operational.
  • init--Hardware or Cisco IOS process is initializing.
  • ok--Hardware is operational.
  • shutdown--Hardware was administratively shut down using the no shutdown command.
  • unknown--Hardware is not operational; state is unknown.

RP or ESP

  • init, standby--Standby RP or ESP is operational but is not yet in a high availability (HA) state. An RP or ESP switchover is not yet possible.
  • ok, active--Active RP or ESP is operational.
  • ok, standby--Standby RP or ESP is operational. The standby RP or ESP is ready to become active in the event of a switchover.

SPA

  • admin down--SPA was disabled using the shutdown command.
  • inserted--SPA is being inserted.
  • missing--SPA was removed.
  • out of service--SPA is not operational.
  • retrieval error--An error occurred while retrieving the SPA state; state is unknown.
  • stopped--SPA was gracefully deactivated using the hw-module subslot stop command.

Fan or Power Supply

  • fan, fail--Fan is failing.
  • ps, fail--Power supply is failing.

Insert time (ago)

Amount of time (hh:mm:ss format) the hardware has been online.

CPLD Version

Complex programmable logic device version number.

Firmware Version

Firmware (ROMmon) version number.

Examples

The following sample output from the show platform copp rate-limit arp command displays the list of interfaces on which a rate limiter is active for ARP, along with the count of confirmed and exceeded packets for the rate limiter:

Router# show platform copp rate-limit arp
Rate limiter Information for Protocol arp:
  Rate Limiter Status: Enabled
  Rate : 20 pps
  Max Observation Period : 60 seconds
Per Interface Rate Limiter Information
  Interface              Conformed Pkts  Exceeded Pkts  Enabled  Obs Period (Mts)
  GigabitEthernet5/1         0                0          No        -
  GigabitEhternet5/1.1       14               0          No        -
  GigabitEthernet5/1.2       28               2          No        -
  GigabitEthernet5/2         0                0          No        -
  GigabitEthernet5/2.1       180              4          Yes       35
  GigabitEthernet5/2.2       200              16         Yes       Max

The table below describes the significant fields shown in the display.

Table 23 show platform copp rate-limit Field Descriptions

Field

Description

Rate Limiter Status

Indicates if a rate limiter has been enabled on the interface.

Rate

Indicates the configured rate in packets per second (pps) or bits per second (bps).

Max Observation Period

Indicates the configured observation period, in seconds, before the per-interface rate limiter is automatically turned off.

Per Interface Rate Limiter Information

Displays the list of interfaces on which the rate limiter is active. In this example:

  • GigabitEthernet5/1.1 is free from attack.
  • GigabitEthernet5/2.1 has an exceed count of 4, and has a rate limiter enabled. The observation period is 35 minutes, which indicates that currently the interface is free from attack and is being kept under observation. The interface will remain under observation for an additional 35 minutes. If it remains free from attack after that time, the rate limiter is automatically removed.
  • GigabitEthernet5/2.2 has an exceed count of 16 and has a rate limiter enabled. The observation period has been designated as Max. This indicates that the interface is still under attack and has not yet entered the observation time window.

The following sample from the show platform eeprom command displays CPU EEPROM information:

Router# show platform
 eeprom 
MSFC 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 ***

The following sample output from the show platform fault command displays fault-date information:

Router# show platform
 fault
Fault History Buffer:
rsp72043_rp Software (rsp72043_rp-ADVENTERPRISEK9_DBG-M), Version 12.2(32.8.1)RE
C186 ENGINEERING WEEKLY BUILD, synced to V122_32_8_11_SR186
Compiled Wed 08-Apr-09 09:22 by abcd
Uptime 2w3d
Exception Vector: 0x1500 PC 0x0B13DD4C MSR 0x00029200 LR 0x0B13DD10
r0  0x0B13DD10 r1  0x1C58A1C8 r2  0xFFFCFFFC r3  0x189EDEF4
r4  0x00000000 r5  0x00000000 r6  0x1C58A1B0 r7  0x00029200
r8  0x00029200 r9  0x00000000 r10 0x00000001 r11 0x189EDEF0
r12 0x0000001B r13 0x04044000 r14 0x08736008 r15 0x115C0000
r16 0x00000000 r17 0x00000000 r18 0x00000000 r19 0x1B751358
r20 0x00000000 r21 0x00000000 r22 0x00000000 r23 0x00000000
r24 0x00000000 r25 0x00000000 r26 0x00000000 r27 0x00000001
r28 0x13255EC0 r29 0x1C59BD00 r30 0x13255EC0 r31 0x00000000
dec  0x00007333 tbu   0x00004660 tbl   0x594BBFC4 pvr   0x80210020
dear 0x00000000 dbcr0 0x41000000 dbcr1 0x00000000 dbcr2 0x00000000
iac1 0x00000000 iac2  0x00000000 dac1  0x00000000 dac2  0x00000000

The following sample output from the show platform hardware pfc mode command displays the PFC-operating mode:

Router# show platform
 hardware pfc mode
PFC operating mode : PFC3A

This example shows how to display platform network-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

This following sample output from the show platform tlb command displays the 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

This example shows how use the atom ether-vc keyword to display line-card information for an ES20 line card in slot 3.

Router# show platform copp rate-limit atom ether-vc
 AToM Ether VC Index(12902): segtype(3) seghandle(0x5ECF7F34)
  Disposition : flags(97) vlanid(502) local_vc_label(22691)
   ForwardingTable: oper(12) flags(0x2100) vlan(502) dest_index(0x9ED)
  Imposition: flags(0x21) egress_idx(0x0) ifnum(28)
   tx_tvc(0x7D83) rvclbl[0](3356) rigplbl[1](1011) label[2](0)
   label[3](0) ltl(0x9ED) mac(0014.1c80.f600) qos_info(0x0)
  Platform Data:
   loc_lbl acif_num fw_idx cword    eg_ifnum ckt_idx  vlan ac_hdl     vc_hash
   22691   615      0x0    0x3      28       0x8003   502  0x5ECF7F34 0x3266  
  Platform Index(0x81F68003) is_sw(1) is_vfi(0) vlan(502) pseudo_port_offset(3) tx_tvc(0x7D83)
  Statistics :  Packets    Bytes      Drop Pkts  Drop Bytes ID
   Disposition: 0          0          0          0          0
   Imposition : 0          0          0          0          0
     Vlan func[1]: 502 (0x1F6) func(0:invalid) feat  (0x0 )
    Tx TVC Table
            idx   ltl h pt cw vt efp  adj  v imp 
            x---- x-- d d- d- d- x--- x--- d x---
  SIP10G EoMPLS disp detailed info:
    t vclbl    VLAN       Type    disp-idx
    - d------- x---(d---) ------- x-------
    0 00022691 01F6(0502) ether   00001692   
  SIP10G EoMPLS ipiw disp detailed info:
    ipiw mac valid CE-MAC Address
    b--- b-------- --------------
    0001 000000001 0016.9c6e.7480
  VC Summary: vlan(502) VC count(1)

Related Commands

Command

Description

platform copp

Turns on or off rate-limiting for an interface on the Cisco 7600 SIP-400.

platform copp observation period

Sets the observation period before automatically turning off the per-interface rate limiter on the Cisco 7600 SIP-400.

pseudowire class

Specifies the name of a Layer 2 pseudowire class.

show msfc

Displays MSFC information.

show platform acl software-switched

To display whether ACLs are enabled for software-switched WAN packets, use the showplatformaclsoftware-switchedcommand in privileged EXEC mode.

show platform acl software-switched

Syntax Description

This command has no arguments or keywords.

Command Default

This command has no default settings.

Command Modes

Privileged EXEC (#)

Command History

Release

Modification

12.2(50)SY

This command was introduced.

12.2(33)SXI2

This command was integrated into Cisco IOS Release 12.2(33)SXI2.

Usage Guidelines

By default, ACLs are not applied to packets that are software-switched between WAN cards and the route processor. To determine whether ACLs are enabled for software-switched ingress or egress WAN packets, use the showplatformaclsoftware-switchedcommand.

Examples

This example shows how to display whether ACLs are enabled for software-switched WAN packets:

Router# show platform acl software-switched
 CWAN: ACL treatment for software switched in INGRESS is enabled 
 CWAN: ACL treatment for software switched in EGRESS is disabled 

Related Commands

Command

Description

platform cwan acl software-switched

Allows ACLs to be applied to WAN packets that are software-switched.

show platform atom disp-tbl backup

To display the disposition table on the line card for backup VCs, use the showplatformatomdisp-tblbackup command in privileged EXEC mode .

show platform atom disp-tbl backup pseudo-ckt-index

Syntax Description

pseudo-ckt-index

Defines the pseudo-circuit-index. The acceptable range is between 1 and 65537.

Command Modes

Privileged EXEC (#)

Command History

Release

Modification

15.1(1)S

This command was introduced.

Usage Guidelines

The show platform atom disp-tbl backup command should be used while using the Hot-Standby Psuedo Wire (HSPW) feature.

Examples

The following example displays the disposition table on the Line Card for backup VCs.

Router# show platform atom disp-tbl backup
 
Pseudo   Dlci or   Local         Outgoing          IW   Backup
Ckt Idx    Vcd     Label         Interface        Type   VC   
-------  -------  -------  ---------------------  ----  ------
  32786       2       24                    AC0   L2L    Yes

Related Commands

Command

Description

show platform atom disp-tbl local-vc-label

Displays the disposition table on the line card for a VC based on the local label.

show platform atom tbl-summary

Displays the total number of PWs programmed on the Line Card.

show platform atom imp-tbl backup

Displays the imposition table on the line card for backup VCs.

show platform atom imp-tbl remote-vc-label

Displays the imposition table on the line card for a VC based on the remote label.



    

show platform atom disp-tbl local-vc-label

To display the disposition table on the line card for a VC based local label, use the showplatformatomdisp-tbllocal-vc-label command in privileged EXEC mode .

show platform atom disp-tbl local-vc-label local-vc-label

Syntax Description

local-vc-label

Defines the VC based local label. The acceptable range is between 15 and 1048575.

Command Modes

Privileged EXEC (#)

Command History

Release

Modification

15.1(1)S

This command was introduced.

Usage Guidelines

The show platform atom disp-tbl local-vc-label command should be used only if you know the Local VC Label for a VC.

Examples

The following example displays the disposition table on the Line Card for a VC based on the local label.

Router# show platform atom imp-tbl remote-vc-label 97
Pseudo Ckt Idx    Dlci or Vcd   Dest Vlanid   LTL Index   # Lbls Imposed   Remote Label  
--------------   -------------  ------------  ----------  ---------------  -------------- 
 49170                2            1028          0xFF             2              97 
Local Label  Outgoing Interface   IW Type  Backup VC    AC segment ssm id   Segment Status
----------- --------------------  -------  ---------   -------------------  --------------      
   57               Gi4/3/3         L2L       No            20561                UP

Related Commands

Command

Description

show platform atom imp-tbl remote-vc-label

Displays the imposition table on the line card for a VC based on the remote label.

show platform atom tbl-summary

Displays the total number of PWs programmed on the line card.

show platform atom imp-tbl backup

Displays the imposition table on the line card for backup VCs.

show platform atom disp-tbl backup

Displays the disposition table on the line card for backup VCs.

show platform atom imp-tbl backup

To display the imposition table on the line card for backup VCs, use the showplatformatomimp-tblbackup command in privileged EXEC mode .

show platform atom imp-tbl backup pseudo-ckt-index

Syntax Description

pseudo-ckt-index

Defines the pseudocircuitindex. The acceptable range is between 1 and 65537.

Command Modes

Privileged EXEC (#)

Command History

Release

Modification

15.1(1)S

This command was introduced.

Usage Guidelines

The show platform atom imp-tbl backup command should be used while using the Hot-Standby Psuedo Wire (HSPW) feature.

Examples

The following example displays the imposition table on the Line Card for backup VCs.

Router# show platform atom imp-tbl backup
 
Pseudo Ckt Idx    Dlci or Vcd   Dest Vlanid   LTL Index   # Lbls Imposed   Remote Label  
--------------   -------------  ------------  ----------  ---------------  -------------- 
 432786					 2            1029							 0xFF             1							 25 
Local Label  Outgoing Interface   IW Type  Backup VC    AC segment ssm id   Segment Status
----------- --------------------  -------  ---------   -------------------  --------------      
61					 Gi4/0/1				L2L       Yes					 16464					 STANDBY

Related Commands

Command

Description

show platform atom disp-tbl local-vc-label

Displays the disposition table on the line card for a VC based on the local label.

show platform atom tbl-summary

Displays the total number of PWs programmed on the Line Card.

show platform atom disp-tbl backup

Displays the disposition table on the line card for backup VCs.

show platform atom imp-tbl remote-vc-label

Displays the imposition table on the line card for a VC based on the remote label.

show platform atom imp-tbl remote-vc-label

To display the imposition table on the line card for a VC based remote label, use the showplatformatomimp-tblremote-vc-label command in privileged EXEC mode .

show platform atom imp-tbl remote-vc-label remote-vc-label

Syntax Description

remote-vc-label

Defines the remote VC based label. The acceptable range is between 15 and 1048575.

Command Modes

Privileged EXEC (#)

Command History

Release

Modification

15.1(1)S

This command was introduced.

Usage Guidelines

The showplatformatomimp-tblremote-vc-label command should be used only if the Remote VC Label for a VC is known.

Examples

The following example displays the imposition table on the Line Card for a VC based on the remote label.

Router# show platform atom imp-tbl remote-vc-label 97
Pseudo Ckt Idx    Dlci or Vcd   Dest Vlanid   LTL Index   # Lbls Imposed   Remote Label  
--------------   -------------  ------------  ----------  ---------------  -------------- 
 49170                2            1028          0xFF             2              97 
Local Label  Outgoing Interface   IW Type  Backup VC    AC segment ssm id   Segment Status
----------- --------------------  -------  ---------   -------------------  --------------      
   57               Gi4/3/3         L2L       No            20561                UP

Related Commands

Command

Description

show platform atom disp-tbl local-vc-label

Displays the disposition table on the line card for a VC based on the local label.

show platform atom tbl-summary

Displays the total number of PWs programmed on the Line Card.

show platform atom imp-tbl backup

Displays the imposition table on the line card for backup VCs.

show platform atom disp-tbl backup

Displays the disposition table on the line card for backup VCs.

show platform atom tbl-summary

To display the total number of pseudowires (PWs) programmed on the line card., use theshowplatformatomtbl-summary command in privileged EXEC mode .

show platform atom tbl-summary

Syntax Description

This command has no arguments or keywords.

Command Modes

Privileged EXEC (#)

Command History

Release

Modification

15.1(1)S

This command was introduced.

Usage Guidelines

The showplatformatomtbl-summary command is used to determine the primaryPWs and backup PWs that are programmed.

Examples

This example displays the total number of PWs programmed on the Line Card.

Router# show platform atom tbl-summary
 
 Total Number of entries(CWAN): 2, AToM Entries(LC): 2 Local Switching Entries(LC): 0
 AToM Entries Primary: 1, Backup: 1

Related Commands

Command

Description

show platform atom imp-tbl local-vc-label

Displays the imposition table on the line card for a VC based on the remote label.

show platform atom disp-tbl local-vc-label

Displays the disposition table on the line card for a VC based on the local label.

show platform atom imp-tbl backup

Displays the imposition table on the line card for backup VCs.

show platform atom disp-tbl backup

Displays the disposition table on the line card for backup VCs.

show platform condition

To display the currently active debug configuration, use the show platform condition command in privileged EXEC mode.

show platform condition

Command Modes

Privileged EXEC (#)

Command History

Release Modification
Cisco IOS XE 3.10.0S

This command was introduced on the Cisco ASR 1000 Series Aggregation Services Routers.

Examples

The following is sample output of the show platform condition command:

Router# show platform condition
 
Conditional Debug Global State: Start
 
Conditions                                                          Direction
----------------------------------------------------------------------|---------
VoIP-Null0                               & IPV4 [2.2.2.2/24]         both
LI-Null0                                 & IPV4 [2.2.2.2/24]         both
GigabitEthernet0                         & IPV4 [2.2.2.2/24]         both
LIIN0                                    & IPV4 [2.2.2.2/24]         both
GigabitEthernet0/0/0                     & IPV4 [2.2.2.2/24]         both
GigabitEthernet0/0/1                     & IPV4 [2.2.2.2/24]         both
GigabitEthernet0/1/0                     & IPV4 [2.2.2.2/24]         both
GigabitEthernet0/1/1                     & IPV4 [2.2.2.2/24]         both
GigabitEthernet0/3/0                     & IPV4 [2.2.2.2/24]         both
GigabitEthernet0/3/1                     & IPV4 [2.2.2.2/24]         both
GigabitEthernet0/3/6                     & IPV4 [2.2.2.2/24]         both
GigabitEthernet0/3/7                     & IPV4 [2.2.2.2/24]         both
Loopback1                                & IPV4 [2.2.2.2/24]         both
Overlay10                                & IPV4 [2.2.2.2/24]         both
Overlay30                                & IPV4 [2.2.2.2/24]         both
GigabitEthernet0/0/4.20                  & IPV4 [2.2.2.2/24]         both
Internal-RP                              & IPV4 [2.2.2.2/24]         both
Internal-Recycle                         & IPV4 [2.2.2.2/24]         both
GigabitEthernet0/0/2.EFP100              & IPV4 [2.2.2.2/24]         both

The following table describes the significant fields shown in the display.

Table 24 show platform condition Field Descriptions
Field Description

Conditions

Condition of platform debug.

Direction

Direction of platform debug.

show platform diag

To display diagnostic and debug information about individual platform components, use the show platform diag command in privileged EXEC mode.

show platform diag

Syntax Description

This command has no arguments or keywords.

Command Modes

Privileged EXEC (#)

Command History

Release

Modification

Cisco IOS XE Release 2.2

This command was introduced on the Cisco ASR 1000 Series Aggregation Services Routers.

Cisco IOS XE Release 3.9S

This command was integrated into Cisco IOS XE Release 3.9S.

Usage Guidelines

This command can be used to display the debug and diagnostic information about the Cisco ASR 1000 shared port adapter (SPA) Interface Processor (SIP), SPA, Cisco ASR 1000 Embedded Services Processor (ESP), Cisco ASR 1000 Route Processor (RP), and power supplies. This command also indicates the status of the field replaceable unit (FRU) components in any Cisco ASR 1000 Series Router.

Use the show platform diag command to display the debug and diagnostic information related to your Cisco 4400 Series Integrated Services Router (ISR), any connected Service Modules (SM-X) or Network Interface Modules (NIMs), power supply for front panel Gigabit Ethernet (FPGE) ports, Fan Trays and other components of your router.

Examples

The following is sample output from the show platform diag command. The Embedded Services Processor (ESP) is shown as F0 or F1. The RPs are shown as R0 or R1. The power supplies are shown as P0 and P1.

Device# show platform diag
 
Chassis type: ASR1004 
Slot: 0, ASR1000-SIP10 
Running state               : ok
Internal state              : online
Internal operational state  : ok
Physical insert detect time : 00:00:48 (4d22h ago)
Software declared up time   : 00:01:40 (4d22h ago)
CPLD version                : 07091401
Firmware version            : 12.2(33r)XNB
Sub-slot: 0/0, SPA-5X1GE-V2
Operational status          : ok
Internal state              : inserted
Physical insert detect time : 00:00:36 (4d22h ago)
Logical insert detect time  : 00:02:23 (4d22h ago)
Sub-slot: 0/1, SPA-2XT3/E3
Operational status          : ok
Internal state              : inserted
  Physical insert detect time : 00:00:36 (4d22h ago)
  Logical insert detect time  : 00:02:23 (4d22h ago)
Slot: R0, ASR1000-RP1         
  Running state               : ok
  Internal state              : online
  Internal operational state  : ok
  Physical insert detect time : 00:00:48 (4d22h ago)
  Software declared up time   : 00:00:48 (4d22h ago)
  CPLD version                : 07062111
  Firmware version            : 12.2(33r)XNB
Sub-slot: R0/0, 
  Running state               : ok, active
  Logical insert detect time  : 00:00:48 (4d22h ago)
  Became HA Active time       : 00:04:56 (4d22h ago)
Sub-slot: R0/1, 
  Running state               : ok, standby
  Logical insert detect time  : 00:02:50 (4d22h ago)
Slot: F0, ASR1000-ESP10       
  Running state               : ok, active
  Internal state              : online
  Internal operational state  : ok
  Physical insert detect time : 00:00:48 (4d22h ago)
  Software declared up time   : 00:01:40 (4d22h ago)
  Hardware ready signal time  : 00:00:49 (4d22h ago)
  Packet ready signal time    : 00:01:49 (4d22h ago)
  CPLD version                : 07051680
  Firmware version            : 12.2(33r)XNB
Slot: P0, ASR1004-PWR-AC
  State                       : ok
  Physical insert detect time : 00:01:40 (4d22h ago)
Slot: P1, ASR1004-PWR-AC
  State                       : ok
  Physical insert detect time : 00:01:40 (4d22h ago)

Device# show platform diag 

Chassis type: CSR1000V            

Slot: R0, CSR1000V            
  Running state               : ok, active
  Internal state              : online
  Internal operational state  : ok
  Physical insert detect time : 00:00:37 (00:02:26 ago)
  Software declared up time   : 00:00:37 (00:02:26 ago)

Slot: F0, CSR1000V            
  Running state               : ok, active
  Internal state              : online
  Internal operational state  : ok
  Physical insert detect time : 00:00:37 (00:02:26 ago)
  Software declared up time   : 00:00:57 (00:02:06 ago)
  Hardware ready signal time  : 00:00:56 (00:02:06 ago)
  Packet ready signal time    : 00:01:01 (00:02:02 ago)

Examples

The following is a sample output from the show platform diag command.


Router# show platform diag
 
Chassis type: ISR4451/K9
 
Slot: 0, ISR4451/K9
  Running state               : ok
  Internal state              : online
  Internal operational state  : ok
  Physical insert detect time : 00:01:05 (6d23h ago)
  Software declared up time   : 00:01:46 (6d23h ago)
  CPLD version                : 12090323
  Firmware version            : 12.2(20120829:165313) [ciscouser-ESGROM_20120829_DELTA 101]
 
Sub-slot: 0/0, ISR4451-X-4x1GE
  Operational status          : ok
  Internal state              : inserted
  Physical insert detect time : 00:02:57 (6d23h ago)
  Logical insert detect time  : 00:02:57 (6d23h ago)
 
Slot: 1, ISR4451/K9
  Running state               : ok
  Internal state              : online
  Internal operational state  : ok
  Physical insert detect time : 00:01:05 (6d23h ago)
  Software declared up time   : 00:01:47 (6d23h ago)
  CPLD version                : 12090323
  Firmware version            : 12.2(20120829:165313) [ciscouser-ESGROM_20120829_DELTA 101]
 
Sub-slot: 1/0, SM-X-1T3/E3
  Operational status          : ok
  Internal state              : inserted
  Physical insert detect time : 00:02:57 (6d23h ago)
  Logical insert detect time  : 00:02:57 (6d23h ago)
 
Slot: 2, ISR4451/K9
  Running state               : ok
  Internal state              : online
  Internal operational state  : ok
  Physical insert detect time : 00:01:05 (6d23h ago)
  Software declared up time   : 00:01:48 (6d23h ago)
  CPLD version                : 12090323
  Firmware version            : 12.2(20120829:165313) [ciscouser-ESGROM_20120829_DELTA 101]
 
Slot: R0, ISR4451/K9
  Running state               : ok, active
  Internal state              : online
  Internal operational state  : ok
  Physical insert detect time : 00:01:05 (6d23h ago)
  Software declared up time   : 00:01:05 (6d23h ago)
  CPLD version                : 12090323
  Firmware version            : 12.2(20120829:165313) [ciscouser-ESGROM_20120829_DELTA 101]
 
Slot: F0, ISR4451/K9
  Running state               : ok, active
  Internal state              : online
  Internal operational state  : ok
  Physical insert detect time : 00:01:05 (6d23h ago)
  Software declared up time   : 00:02:20 (6d23h ago)
  Hardware ready signal time  : 00:00:00 (never ago)
  Packet ready signal time    : 00:02:29 (6d23h ago)
  CPLD version                : 12090323
  Firmware version            : 12.2(20120829:165313) [ciscouser-ESGROM_20120829_DELTA 101]
 
Slot: P0, Unknown
  State                       : ps, fail
  Physical insert detect time : 00:00:00 (never ago)
 
Slot: P1, XXX-XXXX-XX
  State                       : ok
  Physical insert detect time : 00:01:30 (6d23h ago)
 
Slot: P2, ACS-4450-FANASSY
  State                       : ok
  Physical insert detect time : 00:01:30 (6d23h ago)
 
Slot: GE-POE, Unknown
  State                       : NA
  Physical insert detect time : 00:00:00 (never ago)

The table below describes the significant fields shown in the display.

Table 25 show platform diag Field Descriptions

Field

Description

Running state

The current online running state of the FRU component.

Internal state

The internal debug state of the FRU component for diagnostic purposes.

Internal operational state

The internal operational state of the FRU component for diagnostic purposes.

Physical insert detect time

The time of the most recent physical insertion of the FRU component detected by the platform code.

Software declared up time

The time that the software on the FRU component was declared running by the platform code.

Hardware ready signal time

The time that the hardware ready signal was detected by the platform code.

Packet ready signal time

The time that the ESP packet ready signal was detected by the platform code.

CPLD version

The Complex Programmable Logic Device (CPLD) version number.

Firmware version

The firmware ROM monitor (ROMMON) version number.

Logical insert detect time

The time that the SPA was logically detected by the platform code.

Became HA Active time

The time that this FRU became High Availability (HA) active.

Related Commands

Command

Description

show platform

Displays platform information.

show platform hardware

Displays platform hardware information.

show platform software

Displays platform software information.

show platform discover-devices

To display PCI device information, use the showplatformdiscover-devicescommand in privileged EXEC mode.

show platform discover-devices

Syntax Description

show platform discover-devices

Displays PCI device information.

Command Modes

Privileged EXEC mode

Command History

Release

Modification

15.1(1)T

This command was introduced for Cisco 3925E and Cisco 3945E Integrated Services Routers.

Usage Guidelines

Use the showplatformdiscover-devices command to display information about PCI devices on the router. The output shows the device name, interface slot and port, and detailed hardware information.

Examples

The following sample output shows PCI device information for Cisco 3925E ISR.

Router#show platform discover-devices
Discovered PCI device GE 0/0, GE 0/1
  root_port=2, bus_no=1, device_no=0, func_no=0, root_device_id=2
  DeviceID=0x10C9, VendorID=0x8086, Command=0x0146, Status=0x0010
  Class=0x02/0x00/0x00, Revision=0x01, LatencyTimer=0x00, CacheLineSize=0x10
  BaseAddr0=0xFD220000, BaseAddr1=0x00000000
Discovered PCI device GE 0/2, GE 0/3
  root_port=3, bus_no=2, device_no=0, func_no=0, root_device_id=3
  DeviceID=0x10C9, VendorID=0x8086, Command=0x0146, Status=0x0010
  Class=0x02/0x00/0x00, Revision=0x01, LatencyTimer=0x00, CacheLineSize=0x10
  BaseAddr0=0xFD120000, BaseAddr1=0x00000000
Discovered PCI device PLX:
  root_port=6, bus_no=37, device_no=0, func_no=0, root_device_id=6
  DeviceID=0x8509, VendorID=0x10B5, Command=0x0007, Status=0x0010
  Class=0x06/0x04/0x00, Revision=0xAA, LatencyTimer=0x00, CacheLineSize=0x10
  BaseAddr0=0xF8F00000, BaseAddr1=0x00000000
  SecLat=0x00, SubBus=53, SecBus=38, PrimBus=37
  MemLimit=0xF8F0, MemBase=0xF100, PrefMemLimit=0x0001, PrefMemBase=0xFFF1
Discovered PCI device PLX:
  root_port=6, bus_no=38, device_no=1, func_no=0, root_device_id=6
  DeviceID=0x8509, VendorID=0x10B5, Command=0x0007, Status=0x0010
  Class=0x06/0x04/0x00, Revision=0xAA, LatencyTimer=0x00, CacheLineSize=0x10
  BaseAddr0=0x00000000, BaseAddr1=0x00000000
  SecLat=0x00, SubBus=40, SecBus=39, PrimBus=38
  MemLimit=0xF2F0, MemBase=0xF100, PrefMemLimit=0x0001, PrefMemBase=0xFFF1
Table 26 Show Platform Discover-Devices Field Description

Field

Description

PCI Device

Identifies the PCI device on the router.

Root_port

Defines the root port address on the device.

Bus_no

Defines the bus number on the device.

Device_no

Defines the device number.

Func_no

Defines the function number.

Root_device_id

Defines the root device number.

DeviceID

Defines the device identifcation number.

VendorID

Defines the vendor identifcation number.

Operation Command

Defines the operation command.

Status of Device

Defines the status of device.

Class

Defines the class address.

Revision (type of device)

Defines type of device.

LatencyTimer

Defines the latency timer.

CacheLineSize

Defines cache line size.

Base Address

Address of Base.

Base Address 1

Address of Base 1.

Secondary Latency Timer

Defines secondary latency timer.

SubBus

Defines subordinate Bus number.

SecBus

Defines secondary Bus number.

PrimBus

Defines primary Bus number.

DeviceID

Defines the device identifcation number.

MemLimit

Defines the memory limit.

MemBase

Defines the memory base.

PrefMemLimit

Defines the pre-fetchable memory limit.

PrefMemBase

Defines the pre-fetchable memory base.

Related Commands

Command

Description

show platform cf

Shows CF support-related information.

show platform dma

Show DMA-related information.

show platform hw-module-power

Displays power settings of service modules.

show platform interrupt

Shows Interrupt-related information.

show platform io-controller

Displays IO-controller information.

show platform led

Shows LED-related information.

show platform nvram

Displays NVRAM-related information.

show platform versions

Displays versions/revisions of various modules.

show platform smbdev

Shows smbus slave devices.

show platform mgf

Shows multi-gigabit fabric information.

show platform dwdm alarm history

To display platform DWDM alarm history, use the showplatformdwdmalarmhistorycommand in privileged EXEC mode.

show platform dwdm alarm history [ port index ]

Syntax Description

port index

Specifies the port index.

  • For a 7600-ES+ITU-2TG, the valid values for the port index are 1, 2.
  • For a 7600-ES+ITU-4TG, the valid values for the port index are 1, 2, 3, 4.

Command Modes

Privileged EXEC (#)

Command History

Release

Modification

12.2(33)SRD1

This command was introduced on the Cisco 7600 series routers for the 7600-ES+ITU-2TG and the 7600-ES+ITU-4TG line cards only.

Usage Guidelines

If the port index is not specified, the alarm history (last 32 alarms) for all ports on that line card whose interface transport mode is Optical Transport Network (OTN) is displayed. If a port index is specified, the alarm history (last 32 alarms) for that particular port is displayed, if the interface transport mode of that port is OTN. An alarm is logged in the alarm history only if the reporting for that alarm is enabled. If reporting for an alarm is disabled with the no g709 otu report command or the no g709 odu report command, then neither the alarm declaration nor clearing will be logged in the alarm history.

Examples

The following examples illustrate the command when interface TenGigabitEthernet 2/1 and interface TenGigabitEthernet 2/3 are configured with a transport-mode of OTN. Because the transport modes of interface TenGigabitEthernet 2/2 and interface TenGigabitEthernet 2/4 are not OTN, nothing is displayed for dwdm 2/2 and dwdm 2/4.

Router# show platform dwdm alarm history
dwdm 2/1 :
Current alarms in HW are 
 LOS  
 ---- LAST 32 ALARMS ----------
00. LOS declared                    , *Jan  7 2009 21:16:40.165 UTC
dwdm 2/3 :
Current alarms in HW are 
 
 ---- LAST 32 ALARMS ----------
00. LOS cleared                     , *Jan  7 2009 21:14:32.709 UTC
01. LOS declared                    , *Jan  7 2009 21:14:02.625 UTC
Router# show platform dwdm alarm history 1
dwdm 2/1 :
Current alarms in HW are 
 LOS  
 ---- LAST 32 ALARMS ----------
00. LOS declared                    , *Jan  7 2009 21:16:40.165 UTC
Router# how platform dwdm alarm history 2
Router# show platform dwdm alarm history 3
dwdm 2/3 :
Current alarms in HW are 
 
 ---- LAST 32 ALARMS ----------
00. LOS cleared                     , *Jan  7 2009 21:14:32.709 UTC
01. LOS declared                    , *Jan  7 2009 21:14:02.625 UTC

Related Commands

Command

Description

show controllers dwdm

Displays ITU-T G.709 alarms, alerts, and counters for a DWDM controller.

show platform hardware capacity

To display the capacities and utilizations for the hardware resources, use the show platform hardware capacity command in privileged EXEC mode.

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

Privileged EXEC (#)

Command History

Release

Modification

12.2(18)SXF

This command was introduced.

12.2(33)SRA

This command was integrated into Cisco IOS Release 12.2(33)SRA.

12.2(33)SXI

This command was integrated into Cisco IOS Release 12.2(33)SXI. Support was added for the ibc and rewrite-engine keywords.

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 Ethernet out-of-band channel resources.
  • fabric --Displays the capacities and utilizations for Switch Fabric 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.
  • ibc --Displays the capacities and utilizations for interboard communication 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-limit --Displays the capacities and utilizations for CPU rate limiter resources.
  • rewrite-engine --Displays the packet drop and performance counters of the central rewrite engine on supervisors and line cards. For detailed information, see the show platform hardware capacity rewrite-engine command documentation.
  • system --Displays the capacities and utilizations for system resources.
  • vlan --Displays the capacities and utilizations for VLAN resources.

The show platform hardware capacity cpucommand 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 eobccommand 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 systemcommand displays the following information:

  • PFC operating mode (PFC Version: PFC3A, PFC3B, unknown, and so forth)
  • Supervisor redundancy mode (RPR, 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, fabric, CEF720, CEF256, dCEF256, or classic)
    • 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 Cisco 7600 series router:

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, and the DFCs in the Cisco 7600 series router:

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 the current and peak switching utilization:

Router# show platform hardware capacity fabric
Switch Fabric Resources
  Bus utilization: current is 100%, peak was 100% at 12:34 12mar45
  Fabric utilization:      ingress                     egress
      Module channel speed current peak                current peak
       1      0        20G   100%  100% 12:34 12mar45  100%    100% 12:34 12mar45
       1      1        20G   12%    80% 12:34 12mar45   12%     80% 12:34 12mar45
       4      0        20G   12%    80% 12:34 12mar45   12%     80% 12:34 12mar45
      13      0         8G   12%    80% 12:34 12mar45   12%     80% 12:34 12mar45
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%
         7      dfc#7-bootflash:              15204352        616540        4%
         8      dfc#8-bootflash:              15204352             0        0%
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 interboard communication resources:

Router# show platform hardware capacity ibc
IBC Resources
  Module                     Packets/sec     Total packets     Dropped packets
  1  RP      Rx:                       3           5001419                   0
             Tx:                       1           1943884                   0
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 Cisco 7600 series router:

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 system
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#

Related Commands

Command

Description

show msfc

Displays MSFC information.

show platform

Displays platform information.

show platform hardware capacity rewrite-engine

Displays the packet drop and performance counters of the central rewrite engine on supervisors and line cards.

show platform hardware capacity rewrite-engine

To display the packet drop and performance counters of the central rewrite engine on supervisors and line cards, use the show platform hardware capacity rewrite-engine command in privileged EXEC mode.

show platform hardware capacity rewrite-engine { drop | performance } [ slot number ] [ rate [ sample interval ] ] [ details]

Syntax Description

drop

Displays the central rewrite engine drop counter values.

performance

Displays the central rewrite engine current performance counter values or the performance rate.

slot number

(Optional) Displays the counter values for the module in the specified slot. If no slot is specified, the counters are displayed for each slot.

rate [sample_interval]

(Optional) Displays the drop rate or rewrite rate for a sample interval in msec between 1 and 1000. The default interval is 50 msec.

details

(Optional) Displays each individual drop counter with its name and register ID number. This keyword is not available with the performance keyword.

Command Default

If the sample interval is not specified, the default interval is 50 msec.

Command Modes

Privileged EXEC
          

Command History

Release

Modification

12.2(33)SXI

This command was introduced.

15.1(1)S

Support was added for Cisco 7600 routers. This command replaces the show platform hardware central-rewritecommand.

Usage Guidelines

In the output of the show platform hardware capacity rewrite-engine performance command output, a value of �N/A� means the slot/channel has a rewrite engine, but does not support performance counters.

Examples

The following sample output of the show platform hardware capacity rewrite-engine dropcommand displays the packet drop counters of the central rewrite engine in all installed supervisors and line cards:

Router# show platform hardware capacity rewrite-engine drop
slot channel   packet drops      total overruns
----+---------+-----------------+------------------+
1    0         0                 0
5    0         15440040          22
7    0         44                0
7    1         0                 0

      

Examples

The following sample output of the show platform hardware capacity rewrite-engine dropcommand displays the packet drop counters of the central rewrite engine in all installed supervisors and line cards:

Router# show platform hardware capacity rewrite-engine drop
slot channel   packet drops      total overruns
----+---------+-----------------+------------------+
1    0         0                 0
5    0         15440040          22
7    0         44                0
7    1         0                 0

The following sample output of the show platform hardware capacity rewrite-engine dropcommand displays a detailed report of the packet drop counters of the module in slot 1:

Router# show platform hardware capacity rewrite-engine drop slot 1 details
slot channel drop_id description          packet drops     total overruns
----+-------+-------+--------------------+----------------+--------------+
1    0       0x5ED   DROP NON BPDU        0                0
1    0       0x5EB   DROP BPDU            0                0
1    1       0x5ED   DROP NON BPDU        0                0
1    1       0x5EB   DROP BPDU            0                0

The following sample output of the show platform hardware capacity rewrite-engine dropcommand displays the packet drop counters of the module in slot 5 over the default sample interval of 50 msec:

Router# show platform hardware capacity rewrite-engine drop slot 5 rate
slot channel   drop rate [pps]        overrun [Y/N]
----+---------+----------------------+-------------+
5    0         120079                 Y

The following sample output of the show platform hardware capacity rewrite-engine dropcommand displays the packet drop counters of the module in slot 5 over a sample interval of 20 msec:

Router# show platform hardware capacity rewrite-engine drop slot 5 rate 20
slot channel   drop rate [pps]        overrun [Y/N]
----+---------+----------------------+-------------+
5    0         180000                 N

The following sample output of the show platform hardware capacity rewrite-engine dropcommand displays the performance counters of the central rewrite engine in all installed supervisors and line cards:

Router# show platform hardware capacity rewrite-engine performance
slot channel perf_id description          packets          total overruns
----+-------+-------+--------------------+----------------+--------------+
1    0       0x235   FAB RX 0             12870            0
1    0       0x237   FAB RX 1             0                0
1    0       0x27B   FAB TX 0             164              0
1    0       0x27F   FAB TX 1             0                0
1    0       0x350   REPLICATION ML3      0                0
1    0       0x351   REPLICATION ML2      0                0
1    0       0x352   RECIRC L2            0                0
1    0       0x353   RECIRC L3            0                0
1    0       0x34C   SPAN TX 0            0                0
1    0       0x34D   SPAN TX 1            0                0
1    0       0x34E   SPAN RX 0            0                0
1    0       0x34F   SPAN RX 1            0                0
1    0       0x354   SPAN TERMINATION     0                0
1    1       0x235   FAB RX 0             106065           0
1    1       0x237   FAB RX 1             0                0
1    1       0x27B   FAB TX 0             180806           0
1    1       0x27F   FAB TX 1             0                0
1    1       0x350   REPLICATION ML3      0                0
1    1       0x351   REPLICATION ML2      0                0
1    1       0x352   RECIRC L2            0                0
1    1       0x353   RECIRC L3            0                0
1    1       0x34C   SPAN TX 0            0                0
1    1       0x34D   SPAN TX 1            0                0
1    1       0x34E   SPAN RX 0            201              0
1    1       0x34F   SPAN RX 1            90201            0
1    1       0x354   SPAN TERMINATION     0                0
4    0       N/A
5    0       0xBE    FAB RX 0             181496           0
5    0       0xC0    FAB RX 1             0                0
5    0       0x112   FAB TX 0             992089           0
5    0       0x116   FAB TX 1             0                0
5    0       0x299   REPLICATION ML3      0                0
5    0       0x29A   REPLICATION ML2      0                0
5    0       0x29B   RECIRC L2            0                0
5    0       0x29C   RECIRC L3            0                0
5    0       0x295   SPAN TX 0            91166            0
5    0       0x296   SPAN TX 1            91313            0
5    0       0x297   SPAN RX 0            1                0
5    0       0x298   SPAN RX 1            1                0
5    0       0x29D   SPAN TERMINATION     0                0

The following sample output of the show platform hardware capacity rewrite-engine dropcommand displays the performance counters of the module in slot 5:

Router# show platform hardware capacity rewrite-engine performance slot 5
slot channel perf_id description          packets          total overruns
----+-------+-------+--------------------+----------------+--------------+
5    0       0xBE    FAB RX 0             1330             0
5    0       0xC0    FAB RX 1             0                0
5    0       0x112   FAB TX 0             715253           0
5    0       0x116   FAB TX 1             0                0
5    0       0x299   REPLICATION ML3      0                0
5    0       0x29A   REPLICATION ML2      0                0
5    0       0x29B   RECIRC L2            0                0
5    0       0x29C   RECIRC L3            0                0
5    0       0x295   SPAN TX 0            1022             0
5    0       0x296   SPAN TX 1            1152             0
5    0       0x297   SPAN RX 0            1                0
5    0       0x298   SPAN RX 1            1                0
5    0       0x29D   SPAN TERMINATION     0                0

The following sample output of the show platform hardware capacity rewrite-engine dropcommand displays the performance counters of the module in slot 5 over the default sample interval of 50 msec:

Router# show platform hardware capacity rewrite-engine performance slot 5 rate
slot channel perf_id description          packet rate[pps] overrun [Y/N] 
----+-------+-------+--------------------+----------------+--------------+
5    0       0xBE    FAB RX 0             11680            N
5    0       0xC0    FAB RX 1             0                N
5    0       0x112   FAB TX 0             11680            N
5    0       0x116   FAB TX 1             0                N
5    0       0x299   REPLICATION ML3      0                N
5    0       0x29A   REPLICATION ML2      0                N
5    0       0x29B   RECIRC L2            0                N
5    0       0x29C   RECIRC L3            0                N
5    0       0x295   SPAN TX 0            5840             N
5    0       0x296   SPAN TX 1            5840             N
5    0       0x297   SPAN RX 0            0                N
5    0       0x298   SPAN RX 1            0                N
5    0       0x29D   SPAN TERMINATION     0                N

Related Commands

Command

Description

clear platform hardware capacity rewrite-engine counter

Clears the packet drop and performance counters of the central rewrite engine on supervisors and line cards.

show platform hardware interface

To display information about an interface, use the showplatformhardwareinterfacecommand in privileged EXEC or diagnostic mode.

show platform hardware interface type number plim qos input map

Channelized T3 Shared Port Adapters

show platform hardware interface serial slot /subslot /port /t1-number :channel-group plim qos input map

Channelized T1/E1 Shared Port Adapters

show platform hardware interface serial slot /subslot /port :channel-group plim qos input map

Shared Port Adapters

show platform hardware interface type slot /subslot /port [ .subint ] plim qos input map

Syntax Description

type

Interface type. The table in the “Usage Guidelines” contains a list of interface types.

number

Port number on the selected interface.

plim qos input map

Physical Line Interface Module (PLIM) QoS input mapping information.

serial

Serial interface.

slot/subslot/port/t1- number:channel-group

The following applies to Channelized T3 shared port adapters:

  • slot/--Chassis slot where the Cisco ASR 1000 Series SPA interface processor (SIP) is installed.
  • subslot/--Secondary slot number of the SIP where the Cisco ASR 1000 Series shared port adapter (SPA) is installed.
  • port/--Interface number on the SPA.
  • t1-number--T1 time slot in the T3 line. The value can be from 1 to 28.
  • channel-group--Number 0 to 23 of the DS0 link on the T1 channel.
Note   

When a port on a Channelized T3 SPA is configured to be in unchannelized mode, only the slot/subslot/port/ arguments are used to specify the unchannelized T3 interface. The t1-number and channel-group arguments are not used.

slot/subslot/port: channel-group

The following applies to Channelized T1/E1 shared port adapters:

  • slot/--Chassis slot where the Cisco ASR 1000 Series SPA interface processor (SIP) is installed.
  • subslot/--Secondary slot number of the SIP where the Cisco ASR 1000 Series shared port adapter (SPA) is installed.
  • port--Interface number on the SPA.
  • channel-group--Number 0 to 30 of the DS0 link on the T1 channel.

slot/subslot/port [.subint]

The following applies to shared port adapters other than the Channelized T3 or Channelized T1/E1 shared port adapters:

  • slot/--Chassis slot where the Cisco ASR 1000 Series SPA interface processor (SIP) is installed.
  • subslot/--Secondary slot number of the SIP where the Cisco ASR 1000 Series shared port adapter (SPA) is installed.
  • port--Interface number on the SPA.
  • (Optional) .subint--Subinterface number (for those SPAs that support subinterface configuration).

Command Default

No default behavior or values

Command Modes

Privileged EXEC (#)

Diagnostic (diag)

Command History

Release

Modification

Cisco IOS XE Release 2.1

This command was introduced on the Cisco ASR 1000 Series Routers.

Usage Guidelines

This command displays platform-specific information and configuration information related to a specific interface.

The table below lists the interface types.

Table 27 Interface Types

Interface Type

Description

async

Asynchronous interface

auto-template

Auto-template interface

bvi

Bridge group virtual interface

ctunnel

Connectionless Network Service (CLNS) tunnel (CTunnel) interface

container

Container interface

dialer

Dialer interface

esconphy

ESCON interface

fastethernet

Fast Ethernet IEEE 802.3 interface

filter

Filter interface

filtergroup

Filter group interface

gigabitethernet

Gigabit Ethernet IEEE 802.3 interface.

group-async

Group asynchronous interface

lex

LAN extender (LEX) interface

longreachethernet

Long Reach Ethernet interface

loopback

Loopback interface

multilink

Multilink group interface

null

Null interface

pos

Packet over SONET (POS) interface

port-channel

Ethernet channel of interfaces

portgroup

Port group interface

pos-channel

POS channel of interfaces

sbc

Session border controller interface

sysclock

Telecom bus clock controller interface

serial

Serial interface

tunnel

Tunnel interface

vif

Pragmatic General Multicast (PGM) host interface

virtual-ppp

Virtual point-to-point (PPP) interface

virtual-template

Virtual template interface

virtual-tokenring

Virtual Token Ring interface

vlan

Catalyst VLAN interface

fcpa

Fiber Channel interface

multiservice

Multiservice interface

voabyapssin

Variable optical attenuator (VOA) bypass-in interface

voabyapssout

VOA bypass-out interface

voafilterin

VOA filter-in interface

voafilterout

VOA filter-out interface

voain

VOA-in interface

voaout

VOA-out interface

Examples

Packets can be classified based on the IP precedence, IPv6 traffic class, MPLS experimental bits, or VLAN TOS bits. In the following example, incoming packets with IP precedence 6 or 7, IPv6 packets with traffic class 46, and MPLS packets with experimental bits 6 or 7 are classified as high priority packets:

Router# show platform hardware interface gigabitethernet 0/0/0 plim qos input map 
Interface GigabitEthernet0/0/0 
Low Latency Queue(High Priority): 
IP PREC, 6, 7 
IPv6 TC, 46 
MPLS EXP, 6, 7

Related Commands

Command

Description

show platform hardware port

Displays information about an interface port on a shared port adapter (SPA).

show platform hardware slot

Displays information about the processor in a chassis slot.

show platform hardware subslot

Displays information about a shared port adapter (SPA).

show platform hardware network-clocks

To display network clocks for an ES+ line card, use the showplatformhardwarenetwork-clockscommand in privileged EXEC mode.

show platform hardware network-clocks [ bits | zl30138 ]

Syntax Description

bits

Specifies uilding Integrated Timing Supply (BITS) element.

zl30138

Specifies ZL30138 SONET/SDH/10GbE System Synchronizer.

Command Modes

Privileged EXEC (#)

Command History

Release

Modification

12.2(33)SRD1

This command was introduced on the Cisco 7600 series routers for ES+ line cards only.

Examples

The following example shows how the showplatformhardwarenetwork-clockscommand is used to display network clocks:

Router# show platform hardware network-clocks 

Local Loop Timing:

    Port 1: N    Port 2: N    Port 3: N    Port 4: N

Backplane Bus Status and Source:

    Primary   : Disabled, Port 0 RX_DEMAP Clock
    Secondary : Disabled, Port 0 RX_DEMAP Clock
    BITS      : Disabled, Port 0 RX_DEMAP Clock

ZL30138 Configuration and Status:

    DPLL1: Failure (4)
        Mode of Operation  : Manual Freerun
        Selected Reference : 0
        Ref0 Priority : 15        Ref1 Priority : 15
        Ref2 Priority : 15        Ref3 Priority : 15
        Ref4 Priority : 15        Ref5 Priority : 15
        Ref6 Priority : 15        Ref7 Priority : 15

    Reference Monitoring: Custom A frequency 25000 kHz
        Ref#    SCM    CFM    GST    PFM    Mode      Detected
        ----------------------------------------------------------
        0       1      1      1      1      CustA     38.88 MHz
        1       1      1      1      1      CustA     19.44 MHz
        2       0      0      0      0      Auto      77.76 MHz
        3       1      1      1      1      CustA     not detected
        4       1      1      1      1      Auto      not detected
        5       1      1      1      1      Auto      not detected
        6       1      1      1      1      Auto      not detected
        7       1      1      1      1      Auto      not detected

BITS Configuration and Status:

    Signal Type   : T1 ESF Framing
    Clock Divider : 1.544 MHz

Related Commands

Command

Description

clock source

Specifies the interface clock source type.

network-clock select

Selects a source of network clock.

show network-clocks

Displays the current configured and active network clock sources.

show platform hardware qfp active feature cef-mpls urpf

To confirm and display the hardware information pertaining to Cisco Express Forwarding (CEF) Multiprotocol Label Switching (MPLS) Unicast Reverse Path Forwarding (uRPF) feature on a Cisco QuantumFlow Processor (QFP) of the Cisco ASR 1000 Series Aggregation Services Routers, use the show platform hardware qfp active feature cef-mpls urpf command in privileged EXEC mode.

show platform hardware qfp active feature cef-mpls urpf interface-name ip-version ip version

Syntax Description

ip-version

Name of the interface.

interface-name

Version of the IP. Valid values are IPv4 and IPv6.

Command Modes

Privileged EXEC (#)
      

Command History

Release

Modification

Cisco IOS XE Release 2.0S

This command was introduced on the Cisco ASR 1000 Series Aggregation Services Routers.

Examples

The following is a sample output of the show platform hardware qfp active feature cef-mpls urpf command:

Device# show platform hardware qfp active feature cef-mpls urpf GigabitEthernet 0/0/0.777 ipv4
       

=== uRPF Information ===
  uRPF mode: Strict
  allow_default_route: FALSE
  allow_self_ping: FALSE
      

Related Commands

The table below describes the significant fields shown in the display.

Table 28 show platform hardware qfp active feature cef-mpls urpf Field Descriptions

Field

Description

uRPF mode

Mode of uRPF. Valid values are Strict or Loose..

allow_default_route

State showing whether the QFP allows the use of the default route in the source verification process or not. Valid values are TRUE or FALSE.

allow_self_ping

State showing whether the QFP allows the source of the packet to ping itself during the source verification process or not. Valid values are TRUE or FALSE.

show platform hardware qfp active feature cef-mpls prefix ip

To display the interface name along with the interface descriptor block (IDB) information, use the showplatformhardwareqfpactivefeaturecef-mplsprefixip command in privileged EXEC.

show platform hardware qfp active feature cef-mpls prefix ip { ipv4 prefix | [ vrf [ id ] ] [exact] [brief] }

Syntax Description

ipv4 prefix

IPv4 address and mask.

vrf

(Optional) Displays information about VPN Routing and Forwarding (VRF).

id

(Optional) Information about the particular VRF instance. The range is from 0 to 4294967295. If no VRF ID is specified, information about the global VRF, which is the prefix in global routing table, is displayed.

exact

(Optional) Find and displays the exact match of the IPV4 prefix.

brief

(Optional) Displays a summary of prefix information.

Command Modes

Privileged EXEC (#)

Command History

Release

Modification

12.2(33)XNB

This command was introduced on the Cisco ASR 1000 Series Routers.

Cisco IOS XE Release 3.4S

This command was integrated into Cisco IOS Release XE 3.4S. Support for IP Fast Reroute (IP FRR) was added.

Examples

The following is sample output from theshowplatformhardwareqfpactivefeaturecef-mplsprefixip command:

Router# show platform hardware qfp active feature cef-mpls prefix ip 0.0.0.0/1 vrf
Gtrie Node Type: Leaf Node
HW Content: : 00002000 00000000 897daf40 895db490
  QPPB QoS Precedence valid: 0
  QoS Precedence: 0
  QPPB QoS Group valid: 0
  QoS Group: 0
  BGPPA Traffic Index valid: 0
  BGPPA Traffic Index: 0
  TBLF refcount: 2
  TBLF application lf handle: 0
  Prefix Length: 32
  Prefix: 64 00 00 01
=== uRPF path list ===
  Loose Flag: : 1
  Path list pointer: : 0x8b8414a0
  Number of interfaces: : 1
  Interfaces: : 1017
  Interface Name(s): GigabitEthernet0/3/1 
=== OCE ===
OCE Type: Adjacency, Number of children: 0
Adj Type: : IPV4 Adjacency
Encap Len: : 14
L3 MTU: : 1500
Adj Flags: : 0
Fixup Flags: : 0
Output UIDB: : 65522
Interface Name: GigabitEthernet0/3/1 
Encap: : 00 14 f1 74 9c 1a 00 1a 30 44 3a 31 08 00
Next Hop Address: : 64000001 00000000 00000000 00000000
Oce Chain: : 0

The following example shows the output with the names of each interface when there are multiple interfaces in the unicast reverse path forwarding (uRPF) path list:

Router# show platform hardware qfp active feature cef-mpls prefix ip 0.0.0.0/2 vrf

Gtrie Node Type: Leaf Node
HW Content: : 00001800 00000000 897dae00 895d8df0
  QPPB QoS Precedence valid: 0
  QoS Precedence: 0
  QPPB QoS Group valid: 0
  QoS Group: 0
  BGPPA Traffic Index valid: 0
  BGPPA Traffic Index: 0
  TBLF refcount: 2
  TBLF application lf handle: 0
  Prefix Length: 24
  Prefix: 4d 4d 4d
=== uRPF path list ===
  Loose Flag: : 1
  Path list pointer: : 0x8b8414a0
  Number of interfaces: : 2  
  Interfaces: : 1019, 1017
  Interface Name(s): : GigabitEthernet0/0/4, GigabitEthernet0/3/1 

show platform hardware qfp active feature cef-mpls prefix mpls

To display the complete Output Chain Element (OCE) chains used for handling the incoming Multiprotocol Label Switching (MPLS) packets with a particular label, use the show platform hardware qfp active feature cef-mpls prefix mpls command in the privileged EXEC mode.

show platform hardware qfp active feature cef-mpls prefix mpls mpls-label exact

Syntax Description

mpls-label

MPLS label containing a 20-bit label value, a 3-bit experimental field, a 1-bit bottom-of-stack indicator, and an 8-bit Time-to-Live (TTL) field.

exact

Displays all the OCE chains that are used for handling the incoming MPLS packets with a particular label.

Command Modes

Privileged EXEC (#)

Command History

Release

Modification

Cisco IOS XE Release 3.8S

This command was introduced on the Cisco ASR 1000 Series Aggregation Services Routers.

Examples

The following is sample output from the show platform hardware qfp active feature cef-mpls prefix mpls mpls-label exact command displaying all the OCE chains used for handling incoming MPLS packets with a particular label:

Router# show platform hardware qfp active feature cef-mpls prefix mpls 17 exact
Gtrie Node Type: Leaf Node
HW Content: : 0a000000 00000f00 00000000 8bb08a30
QPPB QoS Precedence valid: 0
QoS Precedence: 0
QPPB QoS Group valid: 0
QoS Group: 0
BGPPA Traffic Index valid: 0
BGPPA Traffic Index: 0
TBLF refcount: 2
TBLF application lf handle: 0
CTS src_sgt: 0
CTS dst_sgt: 0
Prefix Length: 20
Prefix: 00 0d 00
Lisp local eid: 0
Lisp remote eid: 0
Lisp locator status bits: 0
Lisp dynamic configured eid: 0
Lisp dynamic discovered eid: 0
OCE Type: EOS OCE, Number of children: 2
Next HW OCE Ptr: : 0x8bb07e10, 0x8bb07e00
OCE Type: REPLICATE OCE, Number of children: 2
Replica_node: : 0x8ca90a20
Next HW OCE Ptr: : 0x8bb07eb0, 0x8bb08840
OCE Type: Label OCE, Number of children: 1
Label flags: : 64
Num Labels: : 1
Num Bk Labels: : 0
Out Labels: : 1048577
Next HW OCE Ptr: : 0x8bb07e60
OCE Type: Interface OCE, Number of children: 1
Next HW OCE Ptr: : 0x8bb07e40
Interface Name: Lspvif20
OCE Type: Lookup OCE, Number of children: 0
Lookup flags: : 1
Table Type: : 0
Lookup table ID: : 0
OCE Type: Label OCE, Number of children: 1
Label flags: : 0
Num Labels: : 1
Num Bk Labels: : 1
Out Labels: : 88
Out Backup Labels: : 0
Next HW OCE Ptr: : 0x8bb06ca0
OCE Type: Adjacency, Number of children: 0
Adj Type: : MPLS Adjacency
Encap Len: : 14
L3 MTU: : 1500
Adj Flags: : 0
Fixup Flags: : 0
Interface Name: GigabitEthernet0/1/0
Encap: : 00 0e 39 88 70 19 00 21 d8 60 c0 10 88 47
Next Hop Address: : 0f000001 00000000 00000000 00000000
Next HW OCE Ptr: : 00000000
OCE Type: REPLICATE OCE, Number of children: 2
Replica_node: : 0x8ca90a00
Next HW OCE Ptr: : 0x8bb07e70, 0x8bb08840
OCE Type: Label OCE, Number of children: 1
Label flags: : 64
Num Labels: : 1
Num Bk Labels: : 0
Out Labels: : 1048577
Next HW OCE Ptr: : 0x8bb07e50
OCE Type: Interface OCE, Number of children: 1
Next HW OCE Ptr: : 0x8bb001f0
Interface Name: Lspvif20
OCE Type: Lookup OCE, Number of children: 0
Lookup flags: : 0
Table Type: : 1
Lookup table ID: : 2
OCE Type: Label OCE, Number of children: 1
Label flags: : 0
Num Labels: : 1
Num Bk Labels: : 1
Out Labels: : 88
Out Backup Labels: : 0
Next HW OCE Ptr: : 0x8bb06ca0
OCE Type: Adjacency, Number of children: 0
Adj Type: : MPLS Adjacency
Encap Len: : 14
L3 MTU: : 1500
Adj Flags: : 0
Fixup Flags: : 0
Interface Name: GigabitEthernet0/1/0
Encap: : 00 0e 39 88 70 19 00 21 d8 60 c0 10 88 47
Next Hop Address: : 0f000001 00000000 00000000 00000000
Next HW OCE Ptr: : 00000000
The fields shown in the display are self-explanatory.

show platform hardware qfp active feature multicast

To display the complete Output Chain Element (OCE) chains that are connected by each leaf node in the multicast replication tree for a particular output path in the Cisco QuantumFlow Processor (QFP) active feature on the Cisco ASR 1000 Series Aggregation Services Routers, use the show platform hardware qfp active feature multicast command in the privileged EXEC mode.

show platform hardware qfp active feature multicast ip-version ip-address-mgroup [ip-address-source] vrf vrf-id extension

Syntax Description

ip-version

Version of the IP address. It can be one of the following values:

  • v4mcast—IPv4.
  • v6mcast—IPv6.

ip-address-mgroup

Multicast group’s IP address.

ip-address-source

(Optional) Source prefix for the IP address.

vrf

Displays information present in a particular VRF.

vrf-id

ID of the VRF.

extension

Displays the entire OCE that is connected by each leaf node in the multicast replication tree for a particular output path.

Command Modes

Privileged EXEC (#)

Command History

Release

Modification

Cisco IOS XE Release 3.8S

This command was introduced on the Cisco ASR 1000 Series Aggregation Services Routers.

Examples

The following is sample output from the show platform hardware qfp active feature multicast v4mcast command displaying all the OCE chains used for forwarding traffic to a particular IPv4 multicast address:

Router# show platform hardware qfp active feature multicast v4mcast 239.1.1.1/32 vrf 2 extension
Root: 0x1187fc58
Flags: 0x000002
First leaf: 0x11887fa8
Number of nodes: 1
Number of leaves: 3
RPF i/f: 0x01fff7
Punt limit counter: 200
NS DCS Punt limit: 0x000001
RPF Fast Convergence Flags: 00000000
Secondary RPF interface: 00000000
RPF Fast Convergence Timer: 0
Extended leaf address: 0x89f80060
Node: 0x1187fc58
Cumulative Free Space: : 4
Cumulative Weight: : 3
Number of Children: : 3
Hw Addr: : 0x8b969440
Node Flags: : 0x000004
Software Child Ptr: : 0x1187fce0, 0x1187fd60, 0x11887fa8, 00000000
00000000, 00000000, 00000000
Hardware Child Ptr: : 0x89f8e440, 0x89f8e450, 0x89f8e460, 00000000
00000000, 00000000, 00000000
OCE Flags: : 0x000009
SW OCE chain ptr: 0x11884b48
HW OCE chain ptr: 0x895d59a0
OCE Type: Adjacency, Number of children: 1
Adj Type: : IPV4 Adjacency
Encap Len: : 0
L3 MTU: : 9216
Adj Flags: : 64
Fixup Flags: : 0
Interface Name: Lspvif0
Next Hop Address: : 00000000 00000000 00000000 00000000
Lisp locator status: : 00000000
Next HW OCE Ptr: : 0x895d5940
OCE Type: REPLICATE OCE, Number of children: 1
Replica_node: : 0x89fab440
Next HW OCE Ptr: : 0x895d5ab0
OCE Type: Label OCE, Number of children: 1
Label flags: : 0
Num Labels: : 1
Num Bk Labels: : 1
Out Labels: : 17
Out Backup Labels: : 0
Next HW OCE Ptr: : 0x895d5a70
OCE Type: Label OCE, Number of children: 1
Label flags: : 65
Num Labels: : 1
Num Bk Labels: : 0
Out Labels: : 3
Next HW OCE Ptr: : 0x895d59f0
OCE Type: Adjacency, Number of children: 0
Adj Type: : MPLS Adjacency
Encap Len: : 14
L3 MTU: : 1500
Adj Flags: : 0
Fixup Flags: : 0
Interface Name: GigabitEthernet0/1/0
Encap: : 00 24 14 f4 9d 00 00 21 d8 d4 a5 10 88 47
Next Hop Address: : 0b000002 00000000 00000000 00000000
Next HW OCE Ptr: : 00000000
OCE Flags: : 0x000002
SW OCE chain ptr: 0x118830d0
HW OCE chain ptr: 0x895d58f0
OCE Type: Adjacency, Number of children: 0
Adj Type: : IPV4 Adjacency
Encap Len: : 20
L3 MTU: : 1480
Adj Flags: : 0
Fixup Flags: : 2
Interface Name: Tunnel1
Encap: : 45 00 00 00 00 00 00 00 ff 67 39 94 c0 00 01 01
c0 00 01 01
Next Hop Address: : 00000000 00000000 00000000 00000000
Lisp locator status: : 00000000
Next HW OCE Ptr: : 00000000
OCE Flags: : 0x000009
SW OCE chain ptr: 0x1186c250
HW OCE chain ptr: 0x895d5650
OCE Type: Adjacency, Number of children: 0
Adj Type: : IPV4 Adjacency
Encap Len: : 14
L3 MTU: : 1500
Adj Flags: : 0
Fixup Flags: : 64
Interface Name: GigabitEthernet0/1/2
Encap: : 01 00 5e 00 00 00 00 21 d8 d4 a5 12 08 00
Next Hop Address: : e1000000 00000000 00000000 00000000
Lisp locator status: : 00000000
Next HW OCE Ptr: : 00000000
OCE Flags: : 0x000009
SW OCE chain ptr: 0x1186d478
HW OCE chain ptr: 0x895d5660
OCE Type: Adjacency, Number of children: 0
Adj Type: : IPV4 Adjacency
Encap Len: : 14
L3 MTU: : 1500
Adj Flags: : 0
Fixup Flags: : 64
Interface Name: GigabitEthernet0/1/4
Encap: : 01 00 5e 00 00 00 00 21 d8 d4 a5 14 08 00
Next Hop Address: : e1000000 00000000 00000000 00000000
Lisp locator status: : 00000000
Next HW OCE Ptr: : 00000000

The fields shown in the display are self-explanatory.

The following is sample output from the show platform hardware qfp active feature multicast v6mcast command displaying all the OCE chains used for forwarding traffic to a particular IPv6 multicast address:

Router# show platform hardware qfp active feature multicast v6mcast FF04::10/128 vrf 503316482 extension
Root: 0x11b6c700
Flags: 0x000002
First leaf: 0x11e55bc8
Number of nodes: 1
Number of leaves: 3
RPF i/f: 0x01fff3
Punt limit counter: 200
NS DCS Punt limit: 0x000001
RPF Fast Convergence Flags: 00000000
Secondary RPF interface: 00000000
RPF Fast Convergence Timer: 0
Extended leaf address: 0x8ba18c90
Node: 0x11b6c700
Cumulative Free Space: : 4
Cumulative Weight: : 3
Number of Children: : 3
Hw Addr: : 0x8ba06c60
Node Flags: : 0x000004
Software Child Ptr: : 0x11b6dcb0, 0x11b6e0b0, 0x11e55bc8, 00000000
00000000, 00000000, 00000000
Hardware Child Ptr: : 0x8ba24060, 0x8ba24070, 0x8ba245f0, 00000000
00000000, 00000000, 00000000
OCE Flags: : 0x000009
SW OCE chain ptr: 0x11b71af0
HW OCE chain ptr: 0x895ffa40
OCE Type: Adjacency, Number of children: 1
Adj Type: : IPV6 Adjacency
Encap Len: : 0
L3 MTU: : 9216
Adj Flags: : 64
Fixup Flags: : 0
Interface Name: Lspvif0
Next Hop Address: : 00000000 00000000 00000000 00000000
Lisp locator status: : 00000000
Next HW OCE Ptr: : 0x895ffa20
OCE Type: Label OCE, Number of children: 1
Label flags: : 0
Num Labels: : 1
Num Bk Labels: : 1
Out Labels: : 2
Out Backup Labels: : 2
Next HW OCE Ptr: : 0x895ff9f0
OCE Type: Adjacency, Number of children: 1
Adj Type: : MPLS Adjacency
Encap Len: : 0
L3 MTU: : 9216
Adj Flags: : 64
Fixup Flags: : 0
Interface Name: Lspvif0
Next Hop Address: : 00000000 00000000 00000000 00000000
Next HW OCE Ptr: : 0x895ff980
OCE Type: REPLICATE OCE, Number of children: 1
Replica_node: : 0x8ba51060
Next HW OCE Ptr: : 0x895ffa60
OCE Type: Label OCE, Number of children: 1
Label flags: : 0
Num Labels: : 1
Num Bk Labels: : 1
Out Labels: : 17
Out Backup Labels: : 0
Next HW OCE Ptr: : 0x895ff7b0
OCE Type: Adjacency, Number of children: 0
Adj Type: : MPLS Adjacency
Encap Len: : 14
L3 MTU: : 1500
Adj Flags: : 0
Fixup Flags: : 0
Interface Name: GigabitEthernet0/1/0
Encap: : 00 24 14 f4 9d 00 00 21 d8 d4 a5 10 88 47
Next Hop Address: : 0b000002 00000000 00000000 00000000
Next HW OCE Ptr: : 00000000
OCE Flags: : 0x000009
SW OCE chain ptr: 0x11b6b800
HW OCE chain ptr: 0x895ff6a0
OCE Type: Adjacency, Number of children: 0
Adj Type: : IPV6 Adjacency
Encap Len: : 14
L3 MTU: : 1500
Adj Flags: : 0
Fixup Flags: : 64
Interface Name: GigabitEthernet0/1/2
Encap: : 33 33 00 00 00 00 00 21 d8 d4 a5 12 86 dd
Next Hop Address: : ff0e0000 00000000 00000000 00000000
Lisp locator status: : 00000000
Next HW OCE Ptr: : 00000000
OCE Flags: : 0x000009
SW OCE chain ptr: 0x11b6ba08
HW OCE chain ptr: 0x895ff6e0
OCE Type: Adjacency, Number of children: 0
Adj Type: : IPV6 Adjacency
Encap Len: : 14
L3 MTU: : 1500
Adj Flags: : 0
Fixup Flags: : 64
Interface Name: GigabitEthernet0/1/4
Encap: : 33 33 00 00 00 00 00 21 d8 d4 a5 14 86 dd
Next Hop Address: : ff0e0000 00000000 00000000 00000000
Lisp locator status: : 00000000
Next HW OCE Ptr: : 00000000
OCE Flags: : 0x00000a
SW OCE chain ptr: 0x11b6de20
HW OCE chain ptr: 0x895ff770
OCE Type: Adjacency, Number of children: 0
Adj Type: : IPV6 Adjacency
Encap Len: : 4
L3 MTU: : 1460
Adj Flags: : 2
Fixup Flags: : 2
Interface Name: Tunnel5
Encap: : f8 00 01 47
Next Hop Address: : 00000000 00000000 00000000 00000000
Lisp locator status: : 00000000
Next HW OCE Ptr: : 00000000
Root: 0x11e4f428
Flags: 00000000
First leaf: 0x11e51b90
Number of nodes: 1
Number of leaves: 3
RPF i/f: 0x0003fd
Punt limit counter: 200
NS DCS Punt limit: 0x000001
RPF Fast Convergence Flags: 00000000
Secondary RPF interface: 00000000
RPF Fast Convergence Timer: 0
Extended leaf address: 0x8ba21210
Node: 0x11e4f428
Cumulative Free Space: : 4
Cumulative Weight: : 3
Number of Children: : 3
Hw Addr: : 0x8ba0c560
Node Flags: : 0x000004
Software Child Ptr: : 0x11e424b8, 0x11e332b8, 0x11e51b90, 00000000
Root: 0x11e50f20
Flags: 00000000
First leaf: 0x11e51b90
Number of nodes: 1
Number of leaves: 3
RPF i/f: 0x0003fd
Punt limit counter: 200
NS DCS Punt limit: 0x000001
RPF Fast Convergence Flags: 00000000
Secondary RPF interface: 00000000
RPF Fast Convergence Timer: 0
Extended leaf address: 0x8ba212a0
Node: 0x11e50f20
Cumulative Free Space: : 4
Cumulative Weight: : 3
Number of Children: : 3
Hw Addr: : 0x8ba0c560
Node Flags: : 0x000004
Software Child Ptr: : 0x11e424b8, 0x11e56f98, 0x11e51b90, 00000000
00000000, 00000000, 00000000
Hardware Child Ptr: : 0x8ba247a0, 0x8ba24750, 0x8ba24740, 00000000
00000000, 00000000, 00000000
OCE Flags: : 0x000009
SW OCE chain ptr: 0x11b6ba08
HW OCE chain ptr: 0x895ff6e0
OCE Type: Adjacency, Number of children: 0
Adj Type: : IPV6 Adjacency
Encap Len: : 14
L3 MTU: : 1500
Adj Flags: : 0
Fixup Flags: : 64
Interface Name: GigabitEthernet0/1/4
Encap: : 33 33 00 00 00 00 00 21 d8 d4 a5 14 86 dd
Next Hop Address: : ff0e0000 00000000 00000000 00000000
Lisp locator status: : 00000000
Next HW OCE Ptr: : 00000000
OCE Flags: : 0x000009
SW OCE chain ptr: 0x11b71af0
HW OCE chain ptr: 0x895ffa40
OCE Type: Adjacency, Number of children: 1
Adj Type: : IPV6 Adjacency
Encap Len: : 0
L3 MTU: : 9216
Adj Flags: : 64
Fixup Flags: : 0
Interface Name: Lspvif0
Next Hop Address: : 00000000 00000000 00000000 00000000
Lisp locator status: : 00000000
Next HW OCE Ptr: : 0x895ffa20
OCE Type: Label OCE, Number of children: 1
Label flags: : 0
Num Labels: : 1
Num Bk Labels: : 1
Out Labels: : 2
Out Backup Labels: : 2
Next HW OCE Ptr: : 0x895ff9f0
OCE Type: Adjacency, Number of children: 1
Adj Type: : MPLS Adjacency
Encap Len: : 0
L3 MTU: : 9216
Adj Flags: : 64
Fixup Flags: : 0
Interface Name: Lspvif0
Next Hop Address: : 00000000 00000000 00000000 00000000
Next HW OCE Ptr: : 0x895ff980
OCE Type: REPLICATE OCE, Number of children: 1
Replica_node: : 0x8ba51060
Next HW OCE Ptr: : 0x895ffa60
OCE Type: Label OCE, Number of children: 1
Label flags: : 0
Num Labels: : 1
Num Bk Labels: : 1
Out Labels: : 17
Out Backup Labels: : 0
Next HW OCE Ptr: : 0x895ff7b0
OCE Type: Adjacency, Number of children: 0
Adj Type: : MPLS Adjacency
Encap Len: : 14
L3 MTU: : 1500
Adj Flags: : 0
Fixup Flags: : 0
Interface Name: GigabitEthernet0/1/0
Encap: : 00 24 14 f4 9d 00 00 21 d8 d4 a5 10 88 47
Next Hop Address: : 0b000002 00000000 00000000 00000000
Next HW OCE Ptr: : 00000000
OCE Flags: : 0x000003
SW OCE chain ptr: 0x11b6b800
HW OCE chain ptr: 0x895ff6a0
OCE Type: Adjacency, Number of children: 0
Adj Type: : IPV6 Adjacency
Encap Len: : 14
L3 MTU: : 1500
Adj Flags: : 0
Fixup Flags: : 64
Interface Name: GigabitEthernet0/1/2
Encap: : 33 33 00 00 00 00 00 21 d8 d4 a5 12 86 dd
Next Hop Address: : ff0e0000 00000000 00000000 00000000
Lisp locator status: : 00000000
Next HW OCE Ptr: : 00000000
The fields shown in the display are self-explanatory.

show platform hardware qfp active infrastructure punt

To display the hardware and infrastructure information for punt statistics and configuration in an active instance of the Cisco Quantum Flow Processor (QFP), use the show platform hardware qfp active infrastructure punt command in privileged EXEC mode.

show platform hardware qfp active infrastructure punt[ config | internal-interface | policer | statistics { interface |qfp |type[ global-drop | inject-drop | per-cause | punt-drop]}]

Syntax Description

config

Specifies the entries in the punt table.

internal-interface

Specifies the configuration for an internal interface.

policer

Specifies the punt policer configuration.

statistics

Specifies the punt statistics.

interface

Specifies the punt statistics for an interface.

qfp

Specifies the punt statistics for a specific qfp.

type

Specifies the aggregate statistics.

global-drop

Specifies the aggregate drop statistics.

inject-drop

Specifies the aggregate inject drop statistics.

per-cause

Specifies the aggregate per cause punt statistics.

punt-drop

Specifies the aggregate punt drop statistics.

Command Modes

Privileged EXEC (#)

Command History

Release Modification
Cisco IOS XE 3.2.0S

This command was introduced.

Cisco IOS XE 3.13.0S

This command was integrated into Cisco IOS XE Release 3.13.0S.

Examples

The following is sample output of the show platform hardware qfp active infrastructure punt config command:

Router# show platform hardware qfp active infrastructure punt config
Punt table base addr : 0x89C91010
  punt cause index     96
  punt cause name      VLAN Auto Sense FSOL
  maximum instances    1
  punt table address : 0x89C91190
  instance[0] ptr    : 0x89C919A0
    QFP interface handle : 2
    Interface name       : internal0/0/rp:0
   instance address        : 0x89C919A0
    fast failover address   : 0x89C8EC94
    Low priority policer    : 128
    High priority policer   : 129

The following table describes the significant fields shown in the display.

Table 29 show platform hardware qfp active infrastructure punt config Field Descriptions
Field Description
Punt table base addr Base address of the punt table.
punt cause index Index number of the punt cause
punt cause name Name of the punt cause.
maximum instances The number of instances.
punt table address Address of the punt table.
instance[0] ptr Address where the packets are stored for each of the punt cause.
QFP interface handle The handle number of the qfp interface.
Interface name Name of the interface.
instance address Points to the address for each instance.
fast failover address Points to the address for a fast failover.
Low priority policer Low priority policer number.
High priority policer High priority policer number.

Examples

The following is sample output of the show platform hardware qfp a infrastructure punt policer command:

Router# show platform hardware qfp active infrastructure punt policer
QFP Punt Policer Config Summary


Policer  Rate     PeakRate   ConformBurst  ExceedBurst   Scaling
Handle   (pps)    (pps)      (pps)         (pps)         Factor
---------------------------------------------------------------------
001      146484   0          2288          2288          0
002      4000     0          4000          0             0
003      3000     0          3000          0             0
004      40000    0          40000         0             0


The following table describes the significant fields shown in the display.

Table 30 show platform hardware qfp a infrastructure punt config Field Descriptions
Field Description
Policer Handle Indicates the number of the policer handle.
Rate Indicates the configured rate in packets per second (pps).
Peak Rate Indicates the peak rate in pps.
Conform Burst Displays the number of packets marked as conforming to a specified rate.
Exceed Burst Displays the number of packets marked as exceeding a specified rate.
Scaling Factor Indicates the scaling factor.

Examples

The following is sample output of the show platform hardware qfp active infrastructure statistics type per-cause command. The fields in the display are self-explanatory.

Router# show platform hardware qfp active infrastructure punt statistics type per-cause

Global Per Cause Statistics

  Number of punt causes =   97

  Per Punt Cause Statistics
                                                        Packets          Packets
  Counter ID  Punt Cause Name                           Received         Transmitted
  --------------------------------------------------------------------------------------
  000         Reserved                                  0                0 
  001         MPLS ICMP Can't Fragment                  0                0 
  002         IPv4 Options                              0                0 
  003         Layer2 control and legacy                 0                0
…


Examples

The following is sample output of the show platform hardware qfp active infrastructure statistics type punt-drop command. The fields in the display are self-explanatory.

Router# show platform hardware qfp active infrastructure punt statistics type punt-drop

Punt Drop Statistics

  Number of punt causes = 97

  Drop Counter ID   0     Drop Counter Name PUNT_NOT_ENABLED_BY_DATA_PLANE

  Counter ID  Punt Cause Name                           Packets
  ---------------------------------------------------------------------
  000         Reserved                                  0
  001         MPLS ICMP Can't Fragment                  0
  002         IPv4 Options                              0
  003         Layer2 control and legacy                 0
  004         PPP Control                               0
…

show platform hardware qfp active interface if-name statistics

To display the statistics of packet drops for each interface in the Packet Processor Engine (PPE), use the show platform hardware qfp active interface if-name statistics command in privileged EXEC mode.

show platform hardware qfp active interface if-name type number statistics

Syntax Description

This command has no arguments or keywords.

Command Default

No default behavior or values.

Command Modes


        Privileged EXEC (#)
      

Command History

Release

Modification

Cisco IOS XE Release 2.0

This command was introduced.

Usage Guidelines

You can use this command for troubleshooting the problems on an interface in a PPE by analyzing the statistics of packet drops.

Examples

The following sample output from the show platform hardware qfp active interface if-name statistics command displays the statistics of packet drops on the Gigabit Ethernet interface 0/0/0.781 interface:

Router # show platform hardware qfp active GigabitEthernet0/0/0.781 if-name statistics

----------------------------------------------------------------
Receive Stats                             Packets        Octets
----------------------------------------------------------------
  Ipv4                                       2             322
  Ipv6                                       0               0
  Tag                                        0               0
  McastIpv4                                  0               0
  McastIpv6                                  0               0
  Other                                      3             204

----------------------------------------------------------------
Transmit Stats                            Packets        Octets
----------------------------------------------------------------
  Ipv4                                       2             178
  Ipv6                                       0               0
  Tag                                        0               0
  McastIpv4                                  0               0
  McastIpv6                                  0               0
  Other                                      0               0

----------------------------------------------------------------
Input Drop Stats                          Packets        Octets
---------------------------------------------------------------
Ipv4uRpfStrictFailed                            5           590
Ipv6uRpfStrictFailed                            5           590

----------------------------------------------------------------
Output Drop Stats                         Packets        Octets
----------------------------------------------------------------
  The Egress drop stats were all zero

----------------------------------------------------------------
Drop Stats Summary:
note: 1) these drop stats are only updated when PAL
         reads the interface stats.
      2) the interface stats include the subinterface

Interface                                       Rx Pkts             Tx Pkts
---------------------------------------------------------------------------
GigabitEthernet0/0/0.781                             25                   0
      

The following table describes the fields shown in the display.

Table 31 show platform hardware qfp active interface if-name statistics Field Descriptions

Field

Description

Receive Stats

Number of packets received.

Packets

Number of packets that are received.

Octets

Total number of bytes of the packets that are received.

Transmit Stats

Number of packets that are transmitted on an interface.

Input Drop Stats

The drop cause and the number of incoming packets that are dropped.

  • pv4uRpfStrictFailed - Specifies the number and bytes of packets that are dropped with this drop cause.
  • Ipv6uRpfStrictFailed - Specifies the number and bytes of packets that are dropped with this drop cause

Packets

Number of packets that are transmitted.

  • IPv4uRpfStrictFailed received 5 packets.
  • IPv6uRpfStrictFailed received 5 packets.

Octets

Total number of bytes of the packets that are received.

  • IPv4uRpfStrictFailed received 590 bytes of packets.
  • IPv6uRpfStrictFailed received 590 bytes of packets.

Output Drop Stats

Specifies the drop cause and the number of outgoing packets that are dropped.

Interface

Name of the interface.

Rx Pkts

Number of packets received on an interface.

Tx Pkts

Number of packets transmitted on an interface.

Related Commands

Command

Description

show platform hardware qfp active statistics drop

Displays the statistics of packet drops on all the interfaces in a PPE.

show platform hardware qfp statistics drop

To display the statistics of all the dropped packets on the Embedded Services Processor (ESP), use the show platform hardwareqfp active statistics drop command in privileged EXEC mode.

show platform hardware qfp { active | standby } statistics drop

Syntax Description

active

Active forwarding processor.

standby

Standby forwarding processor .

Command Default

No default behavior or values.

Command Modes

Privileged EXEC (#)

Command History

Release

Modification

Cisco IOS XE Release 2.0

This command was introduced.

Cisco IOS XE Release 3.5

This command was modified for Cisco ASR 1000 Series Routers. A new drop type, PPPoECAC, was added to theshow platform hardware qfp active statistics drop command.

Usage Guidelines

You can use this command for troubleshooting the problems on all the interfaces in a PPE by analyzing the statistics of packet drops.

You can use this command for troubleshooting the problems on all the interfaces in a packet processing engine (PPE) by analyzing the statistics of packet drops.

To improve the CPU utilization and memory of the Route Processor (RP) on Cisco ASR 1000 Series Router, the SRSM hardware feature has been implemented. When Call Admission Control (CAC) is enabled and the CAC threshold level is reached, the PPPoE packets are punted on the Embedded Service Processor (ESP) instead of being sent to the RP. Managing the PPPoE packets at the ESP level helps in controlling and minimizing RP CPU and memory utilization. A new drop type, PPPoECAC, is added to theshow platform hardware qfp active statistics drop command which indicates the number of PPPoE Active Discovery Initiation (PADI) and PPPoE Active Discovery Request (PADR) packets rejected by the hardware due to call admission control.


Note


The show call admission statistics command shows how many packets were dropped by the RP and the show platform hardware qfp active statistics drop command indicates how many packets were dropped by the ESP. A small number of packets are still dropped by the RP because it takes time for the drop message to reach the ESP. The actual number of packets dropped by SRSM is the total number of packets dropped by show call admission statistics and show platform hardware qfp active statistics drop commands.


Examples

The following sample output from the show platform hardware qfp active statistics drop command displays the statistics of packet drops on all the interfaces in a PPPoE:

Router# show platform hardware qfp active statistics drop

Global Drop Stats                         Packets                  Octets
-------------------------------------------------------------------------
BadUidbSubIdx                               59187                 4918277
Disabled                                     4725                  373436
Ipv4NoAdj                                     219                    9468
Ipv4uRpfStrictFailed                           10                    1180
Ipv6uRpfStrictFailed                           10                    1180
UnconfiguredIpv4Fia                          1589                  132013

The following sample output of the show platform hardware qfp active statistics drop command shows the PPPoECAC packets dropped on the ESP when the CAC threshold level is reached:

Router# show platform hardware qfp active statistics drop

Global Drop Stats                         Packets                  Octets  
-------------------------------------------------------------------------
BadUidbIdx                                     80                    7901  
BadUidbSubIdx                               40374                 2860531  
Disabled                                     4765                  375064  
InjectErr                                      64                    8350  
Ipv4NoAdj                                       8                     776  
Ipv4NoRoute                                 52608                 5482626  
Ipv6NoAdj                                       1                      79  
MplsIpv6FragReq                                 1                    1515  
UnconfiguredIpv4Fia                          2412                  215692 
PPPoECAC                                     4648                  171976 

The following table describes the fields shown in the display.

Table 32 show platform hardware qfp active statistics drop Field Descriptions

Field

Description

Global Drop Stats

The reason for dropping packets.

  • pv4uRpfStrictFailed - Specifies the number and bytes of packets that are dropped with this drop cause.
  • Ipv6uRpfStrictFailed - Specifies the number and bytes of packets that are dropped with this drop cause

Packets

Number of packets that are dropped.

  • IPv4uRpfStrictFailed dropped 10 packets.
  • IPv6uRpfStrictFailed dropped 10 packets.

Octets

Total number of bytes of the packets that are dropped.

  • IPv4uRpfStrictFailed dropped 1180 bytes of packets.
  • IPv6uRpfStrictFailed dropped 1180 bytes of packets.

Related Commands

Command

Description

show platform hardware qfp interface

Displays information about an interface in the target flow processor.

show platform hardware qfp active interface if-name statistics

Displays the statistics of packet drops for each interface in the Packet Processor Engine (PPE).

show platform hardware qfp interface

To display information about an interface in the target flow processor, use the show platform hardware qfp interface command in privileged EXEC mode.

show platform hardware qfp { active | standby } interface { all [ summary | statistics [ drop_summary [ subinterface ] ] [ clear_drop ] [ detail ] ] | dsp { client resource dsp-resource-id | global clear | stream stream-id } | { if-name name | if-handle handle } [ info | path | statistics [ drop_summary [ subinterface ] ] | [ clear_drop ] | [ detail ] ] | atm if-name name statistics [ clear_drop ] }

Syntax Description

active

Specifies the active instance of the processor.

standby

Specifies the standby instance of the processor.

interface

Specifies interfaces.

all

Specifies all interfaces available on the processor.

summary

(Optional) Specifies the interface summary report.

statistics

(Optional) Specifies the statistics of transmitted and received packets.

drop_summary

(Optional) Specifies the drop status summary report.

subinterface

(Optional) Specifies the subinterface and the drop statistics.

clear_drop

(Optional) Clears the drop statistics after reading.

detail

(Optional) Shows drop cause IDs.

dsp

Specifies digital signal processor (DSP) statistics.

client

Specifies DSP client statistics.

resource

Specifies DSP client resource statistics.

dsp-resource-id

Combinet Packet Protocol (CPP) DSP resource ID.

global

Specifies DSP global statistics.

clear

Clears statistics after reading.

stream

Specifies DSP stream statistics.

stream-id

Stream ID.

if-name name

Specifies the name of an interface, interface type, and port number of the selected interface.

if-handle handle

Specifies the quantum flow processor (QFP) interface handle number.

info

(Optional) Specifies interface information.

path

(Optional) Specifies path information.

atm

Specifies information and statistics for the ATM interface.

Command Modes

Privileged EXEC (#)

Command History

Release

Modification

Cisco IOS XE Release 2.1

This command was introduced.

Cisco IOS XE Release 2.5

This command was modified. The cpp keyword was changed to qfp.

12.2(33)XNE

This command was integrated into Cisco IOS Release 12.2(33)XNE.

Cisco IOS XE Release 3.8S

This command was modified. The path keyword was added.

Usage Guidelines

The show platform hardware qfp interface command displays information about the relationship between one interface and another in the target flow processor. In the command output, the main interface is identified if the interface is a subinterface; the group interface is identified if the interface is a member of a group; and the interfaces that are members of the group are identified if the interface is a group, bundle, or multipoint interface.

Examples

The following sample output shows information about the relationship between one interface and the other on the target flow processor:

Device# show platform hardware qfp active interface if-name Port-channel1 info

General interface information
  Interface Name: Port-channel1
  Platform interface handle: 36
  QFP interface handle: 36
  Rx uidb: 131064
  Tx uidb: 131036
  Channel: 0			
Interface Relationships
  if_h   Member Interface Name	
  10      GigabitEthernet0/0/2
  11      GigabitEthernet0/0/3

The table below describes the significant fields shown in the display.

Table 33 show platform hardware qfp interface Field Descriptions

Field

Description

Interface Name

Name of the interface requested by the show platform hardware qfp interface command.

Platform interface handle

Number of platform interface handles displayed for the interface.

QFP interface handle

Internal identifier assigned by the QFP software for this interface.

Rx uidb

Internal identifier for the receive side of the interface.

Tx uidb

Internal identifier for the transmit side of the interface.

Channel

Internal identifier for the transmit path to which the interface is connected.

The following sample output shows the summary of the drop status of the packets:

Device# show platform hardware qfp active statistics drop

Global Drop Stats                         Packets                  Octets  
-------------------------------------------------------------------------
BadUidbIdx                                     80                    7901  
BadUidbSubIdx                               40374                 2860531  
Disabled                                     4765                  375064  
InjectErr                                      64                    8350  
Ipv4NoAdj                                       8                     776  
Ipv4NoRoute                                 52608                 5482626  
Ipv6NoAdj                                       1                      79  
MplsIpv6FragReq                                 1                    1515  
UnconfiguredIpv4Fia                          2412                  215692 

The table below describes the significant fields shown in the display.

Table 34 show platform hardware qfp active statistics drop Field Descriptions

Field

Description

Global Drop Stats

Reason for dropping of packets.

Packets

Number of packets that are dropped.

Octets

Total number of bytes of the packets that are dropped.

The following sample output shows the statistics of the packets on an interface:

Device# show platform hardware qfp active interface if-name GigabitEthernet0/0/0.775 statistics

----------------------------------------------------------------
Receive Stats                             Packets        Octets 
----------------------------------------------------------------
  Ipv4                                       9             810
  Ipv6                                       0               0
  Tag                                        0               0
  McastIpv4                                  0               0
  McastIpv6                                  0               0
  Other                                      2             136
----------------------------------------------------------------
Transmit Stats                            Packets        Octets 
----------------------------------------------------------------
  Ipv4                                       0               0
  Ipv6                                       1             154
  Tag                                        0               0
  McastIpv4                                  0               0
  McastIpv6                                  0               0
  Other                                      0               0
----------------------------------------------------------------
Input Drop Stats                          Packets        Octets  
---------------------------------------------------------------
Ipv4NoRoute                                   182         22996  
MplsIpv6FragReq                                 1          1515  
UnconfiguredIpv4Fia                           550         49120  
----------------------------------------------------------------
Output Drop Stats                         Packets        Octets  
---------------------------------------------------------------
Ipv4NoRoute                                    13          3721  
----------------------------------------------------------------
Drop Stats Summary:
note: 1) these drop stats are only updated when PAL
         reads the interface stats.
      2) the interface stats include the subinterface
Interface                                       Rx Pkts             Tx Pkts
---------------------------------------------------------------------------
GigabitEthernet0/0/0.775                           3209                  20

The table below describes the significant fields shown in the display.

Table 35 show platform hardware qfp active interface if-name statistics Field Descriptions

Field

Description

Receive Stats

Number of packets received through a protocol.

Packets

Number of packets transmitted through a protocol.

Octets

Total number of bytes of the packets that are dropped.

Transmit Stats

Number of packets that are transmitted on an interface.

Input Drop Stats

Drop cause and the number of incoming packets that are dropped.

Output Drop Stats

Drop cause and the number of outgoing packets that are dropped.

Interface

Name of the interface.

Rx Pkts

Number of packets received on an interface.

Tx Pkts

Number of packets transmitted on an interface.

Device# show platform hardware qfp active interface if-handle 10 path

Hardware Path Information: Port type 2 - NGIO
Ingress Path Information:
Interface ID 1
IID table entry address 0x30b61018
Input uIDB 2043
Flow Control ID 0x30b61500
Egress Path Information:
Interface ID 1
FFP output port -2
Module backplane connection index 0
Switch port ID 8
Module number 0
MAC destination address c4: a:cb:56: 0:d5
MAC source address 30:f7: d:53:f4:db

The table below describes the significant fields shown in the display.

Table 36 show platform hardware qfp active interface if-handle path Field Descriptions

Field

Description

Hardware Path Information

Type of module on which the interface exists. Possible values are NGIO and BEST_EFFORT.

Ingress Path Information

Ingress path information.

Interface ID

Identifier assigned to the interface by the module. This identifier is local to the module.

IID table entry address

Address of the table of interfaces on the module in the forwarding plane memory.

Input uIDB

Input micro-interface descriptor block (uIDB) assigned to this interface.

Flow Control ID

Identifier for the flow control structure if the interface traffic is flow controlled.

Egress Path Information

Egress path information.

FFP output port

Port of the forwarding process that handles traffic on the interface.

Module backplane connection index

Identifier for the backplane connection of the module that handles the traffic on the interface.

Switch port ID

Identifier for the backplane switchport that handles the traffic for the interface.

Module number

Module identifier.

MAC destination address

MAC address in the headers of the packets that traverse the backplane switch.

Device# show platform hardware qfp active interface if-handle 14 path

Hardware Path Information: 
Ingress Path Information:
Look-up class 1
Remap table entry:
  SPA Format 2
  Valid flag 1
  Marmot channel 0
  Indirect flag 1
  Input uIDB 1019
Egress Path Information:
Marmot header 0x2000000
SPA type 2
SPA header length 4
SPA header 0x0 0x0 0x0 0x0
  LP small header 0xd2 0xa9 0xe0 0x10
  HP header 0x0 0x0 0x1 0x0
  Cntl header 0xfa 0x28 0xd4 0x10

The table below describes the significant fields shown in the display.

Table 37 show platform hardware qfp active interface if-handle path Field Descriptions

Field

Description

Hardware Path Information

Type of module on which the interface exists.

Ingress Path Information

Ingress path information follows.

Look-up class

Look-up method used to identify the ingress interface.

Remap table entry

Entry of the remap table of the interface follows.

SPA format

Format of the Shared Port Adapter (SPA) header.

Valid Flag

Flag indicating whether entry in the remap table is valid. 1 is valid.

Marmot Channel

Channel in the Marmot chip through which traffic passes.

Indirect flag

Flag indicating whether the ingress interface is determined indirectly through the SPA header.

Input uIDB

Input micro-interface descriptor block (uIDB) assigned to the interface.

Egress Path Information

Egress path information follows.

Marmot header

Marmot header in the egress packets.

SPA type

Format of the SPA header.

SPA header length

Length of the egress SPA header, in bytes.

SPA header

Default SPA header of the egress packets.

LP small header

SPA header used for low priority (LP) packets.

HP header

SPA header used for high priority (HP) packets.

Cntl header

SPA header used for control packets.

Related Commands

Command

Description

show interfaces

Displays statistics for all interfaces configured on a device or on an access server.

show platform hardware slot

To display information about the processor in a chassis slot, use the show platform hardware slot command in privileged EXEC or diagnostic mode.

Cisco ASR 1000 Series SPA Interface Processors

show platform hardware slot sip { dram statistics | eobc { interface { primary | standby } { rmon | status } | switch statistics { brief | detail } } | fan status | io-port | led status | mcu status [raw] | plim { buffer settings [detail] | cpu | qos input bandwidth | registers reg | statistics [internal] | status [internal] } | sensor { consumer | producer } { id | all } | serdes { registers reg | statistics [internal] | status [brief] } | spa { attributes | oir-statistics | status } }

Cisco ASR 1000 Series Embedded Services Processors

show platform hardware slot esp { dram statistics | eobc { interface { primary | standby } { rmon | status } | switch statistics { brief | detail } } | io-port | led status | sensor { consumer | producer } { id | all } | serdes { registers reg | statistics [internal] | status [brief] } }

Cisco ASR 1000 Series Route Processors

show platform hardware slot rp { alarms { audible | visual } | dram statistics | eobc { interface { primary | standby } { rmon | status } | switch statistics { brief | detail } } | io-port | led status | plim { buffer settings [detail] | cpu | qos input bandwidth | registers reg | statistics [internal] | status [internal] } | sensor { consumer | producer } { id | all } | serdes { registers reg | statistics [internal] | status [brief] } }

Cisco ISR 4400 Series Routers

show platform hardware slot sm { dram statistics | eobc { interface { primary | standby } { rmon | status } } | fan status | i95 stats | io-port | led status | mcu status [raw] | network-clocks | pcie { driver { layers | statistics { 3pa | lsmpi | mux | octeon } } | status } | plim { buffer settings [detail] | cpu | qos input bandwidth | registers reg | statistics [internal] | status [internal] } | rommon status | sensor { consumer | producer } { id | all } | serdes { registers reg | statistics [ internal | clear ] | status [ brief | clear ] } | spa { attributes | oir-statistics | status } }

Syntax Description

sip

Type of Cisco ASR 1000 Series SPA interface processor (SIP) with one of the following values:

  • 0—SIP in chassis slot 0.
  • 1—SIP in chassis slot 1.
  • 2—SIP in chassis slot 2.
  • P0—Power supply slot 0.
  • P1—Power supply slot 1.
  • P2—Power supply slot 2.
  • P3—Power supply slot 3.

dram statistics

Displays error-correcting code (ECC) error statistics for DRAM (for Cisco Technical Support only).

eobc

Displays Ethernet out-of-band channel (EOBC) information.

interface primary

Displays primary EOBC interface information.

interface standby

Displays standby EOBC interface information.

rmon

Displays EOBC interface remote monitoring (RMON) information (for Cisco Technical Support only).

status

Displays EOBC interface status information (Physical Line Interface Module [PLIM] status and serializer/deserializer [SerDes] status are for Cisco Technical Support only).

switch statistics

Displays EOBC switch statistics.

brief

Displays summary information.

detail

Displays detailed information (for Cisco Technical Support only). This keyword is optional for PLIM buffer settings.

fan status

Displays fan software status.

io-port

Displays I/O port information.

led status

Displays LED states.

mcu status

Displays microcontroller unit (MCU) hardware status (for Cisco Technical Support only).

raw

(Optional) Displays MCU unparsed raw data (for Cisco Technical Support only).

plim

Displays PLIM information.

buffer settings

Displays PLIM buffer settings (for Cisco Technical Support only).

cpu

Displays CPU hyper threading (HT) bus information (for Cisco Technical Support only).

qos input bandwidth

Displays PLIM quality of service (QoS) input bandwidth information.

registers reg

It is the register name (for Cisco Technical Support only).

statistics

Displays statistics information.

internal

(Optional) Displays Cisco internal information (for Cisco Technical Support only).

sensor

Displays sensor information (for Cisco Technical Support only).

consumer

Displays sensor information from the consumer process (for Cisco Technical Support only).

producer

Displays sensor information from the producer process (for Cisco Technical Support only).

id

Displays the consumer or producer sensor ID number (for Cisco Technical Support only).

all

Displays a brief view of all sensors (for Cisco Technical Support only).

serdes

Displays serializer/deserializer (SerDes) information.

spa

Displays Cisco ASR 1000 Series SPA information.

attributes

Displays SPA attribute information (for Cisco Technical Support only).

oir-statistics

Displays SPA online insertion and removal (OIR) counters.

esp

Type of Cisco ASR 1000 Series Embedded Services Processor (ESP) with one of the following values:

  • f0—ESP in ESP slot 0.
  • f1—ESP in ESP slot 1.

rp

Type of Cisco ASR 1000 Series Route Processor (RP) with one of the following values:

  • r0—RP in RP slot 0.
  • r1—RP in RP slot 1.

alarms

Displays alarm states information (for Cisco Technical Support only). To display alarm status, use the show facility-alarm status command.

audible

Displays audible alarm states (for Cisco Technical Support only) information.

visual

Displays LED alarm states (for Cisco Technical Support only) information.

sm

Type of Cisco ISR 4400 Series Routers interface with one of the following values:

  • 0—SM-Inter-Processor slot 0.
  • F0—Embedded Service Processor slot 0.
  • P0—Power supply slot 0.
  • P1—Power supply slot 1.
  • P2—Power supply slot 2.
  • R0—Route Processor slot 0.

i95 stats

Displays i95 driver statistics.

network-clocks

Displays network clock devices.

pcie status

Displays Peripheral Component Interconnect Express (PCIE) information.

pcie driver layers

Displays PCIE driver stacking information.

pcie driver statistics

Displays PCIE driver statistics.

rommon status

Displays ROM Monitor (ROMMON) status.

Command Modes

Privileged EXEC (#)

Diagnostic (diag)

Command History

Release

Modification

Cisco IOS XE Release 2.1

This command was introduced.

15.0(1)S

This command was modified. The minimum bandwidth and the priority mode that cannot be configured in Strict Priority mode are not displayed in the output. The HP policer BW field was added to the output.

Cisco IOS XE Release 3.8S

This command was modified. References to SIP (Cisco ASR 1000 Series Shared Port Adaptor Interface Processors) in command options were replaced with SM (Cisco Services-Ready Engine [SRE] service module) for Cisco ISR 4400 Series Routers only.

Examples

The following sample output from the show platform hardware slot 0 eobc interface primary status command displays EOBC interface status for a SIP in chassis slot 0. This command provides the status of the EOBC in the indicated slot.

Device# show platform hardware slot 0 eobc interface primary status

EOBC interface status
  EOBC : eth0, status : Active
    Line State : Up, Speed : 1Gbps, Link mode : Full
    Line Type : AUI, Autoneg : Disabled
    Addr : 10.0.3.0, Netmask : 255.255.0.0, HW Addr : 0000.0300.0000
    Rx pkts : 1292995, bytes : 316283357, dropped : 0 errors : 0
    Tx pkts : 1124534, bytes : 270172949, dropped : 0 errors : 0

The table below describes the significant fields shown in the display.

Table 38 show platform hardware slot 0 eobc interface primary status Field Descriptions

Field

Description

EOBC: eth0

Ethernet port.

status

Port status. “Active” or “Standby.”

Line State

Line status. “Up” or “Down.”

Speed

Bandwidth in gigabits per second (Gbps).

Link mode

Transmission mode. “Full” (full duplex) or “Half” (half duplex).

Line Type

Type of transceiver. “AUI” (attachment unit interface), “TP” (twisted pair), “MII” (media independent interface), “FIBER” (fiber optic), or “BNC” (Bayonette Neil-Concelman).

Autoneg

Autonegotiation. “Enabled” or “Disabled.”

Addr

IP address of the port.

Netmask

IP addressing netmask of the port.

HW Addr

MAC address of the port.

Rx pkts/bytes

Number of packets and bytes received.

Tx pkts/bytes

Number of packets and bytes transmitted.

Rx dropped

Number of received packets that were dropped.

Tx dropped

Number of transmitted packets that were dropped.

Rx errors

Number of packets received with errors.

Tx errors

Number of packets transmitted with errors.

The following sample output from the show platform hardware slot 0 eobc switch statistics brief command displays brief EOBC switch statistics for a SIP in chassis slot 0:

Device# show platform hardware slot 0 eobc switch statistics brief

Port: 4, Link state: Up, Mode: Full Duplex, Speed: 1000 Mbps
Ingress bytes  :            276915312    Egress bytes  :            349585709
Ingress packets:              1151944    Egress packets:              1320618

The table below describes the significant fields shown in the display.

Table 39 show platform hardware slot 0 eobc switch statistics brief Field Descriptions

Field

Description

Port

Port on the EOBC switch.

Link state

Link status. “Up” or “Down.”

Mode

Transmission mode. “Full Duplex” or “Half Duplex.”

Speed

Bandwidth in megabits per second (Mbps).

Ingress bytes

Number of bytes received on this port.

Egress bytes

Number of bytes transmitted through this port.

Ingress packets

Number of packets received on this port.

Egress packets

Number of packets transmitted through this port.

The following sample output from the show platform hardware slot 0 fan status command displays fan operation status for a SIP in chassis slot 0:

Device# show platform hardware slot 0 fan status

Fan speed: 65%
Fan 0: Normal
Fan 1: Normal
Fan 2: Normal

The table below describes the significant fields shown in the display.

Table 40 show platform hardware slot 0 fan status Field Descriptions

Field

Description

Fan speed

Speed at which the fans are spinning as a percentage of their maximum speed.

Fan 0, 1, 2

Specifies whether a fan is encountering a fault condition. “Normal” or “Fail.”

The following sample output from the show platform hardware slot 0 plim qos input bandwidth command displays the ingress arbiter settings for all PLIM buffers that are in use for a SIP in chassis slot 0:

Device# show platform hardware slot 0 plim qos input bandwidth

Ingress QOS Scheduling Mode: Strict Priority
 
0/0, SPA-3XOC3-ATM-V2
  Interface 0/0/0
    BW:   155520 Kbps, Min BW: N/A , Excessive Weight:   100000 Kbps, HP Policer BW:   155520 Kbps
  Interface 0/0/1
    BW:   155520 Kbps, Min BW: N/A , Excessive Weight:   155000 Kbps, HP Policer BW:   155520 Kbps
  Interface 0/0/2
    BW:   155520 Kbps, Min BW: N/A , Excessive Weight:   155000 Kbps, HP Policer BW:   155520 Kbps

The table below describes the significant fields shown in the display.

Table 41 show platform hardware slot 0 plim qos input bandwidth Field Descriptions

Field

Description

Ingress QOS Scheduling Mode

Current scheduler operation mode.

BW

Interface bandwidth in kilobits per second (kb/s).

Min BW

Guaranteed bandwidth assigned on this interface in Kbps.

Excessive Weight

Excessive bandwidth assigned on this interface in Kbps.

HP Policer BW

Bandwidth assigned for processing high-priority traffic on this interface in Kbps.

The following sample output from the show platform hardware slot 0 plim statistics command displays PLIM statistics for a SIP in chassis slot 0. Interprocess communication (IPC) packets are internal control packets. The first set of RX and TX packet counts include both user packets and IPC packets. In this example, the RX/TX and RX IPC/TX IPC packet counts are the same because only IPC packets are being passed (no user packets).

Device# show platform hardware slot 0 plim statistics

1/0, 2XOC3-POS, Online
  RX Pkts 739     Bytes 54564
  TX Pkts 739     Bytes 30752
  RX IPC Pkts 739     Bytes 54564
  TX IPC Pkts 739     Bytes 30752

The table below describes the significant fields shown in the display.

Table 42 show platform hardware slot 0 plim statistics Field Descriptions

Field

Description

RX Pkts

Packets (user data and IPC data) received by the PLIM from the indicated SPA.

TX Pkts

Packets (user data and IPC data) transmitted from the PLIM to the indicated SPA.

RX IPC Pkts

IPC packets received by the PLIM from the indicated SPA.

TX IPC Pkts

IPC packets transmitted from the PLIM to the indicated SPA.

The following is sample output from the show platform hardware slot f0 serdes statistics command for Cisco ASR1000-ESP20 and later versions of the ESP. This output displays the byte counters and packet counters associated with the Enhanced SerDes Interconnect (ESI) links for the ESP. The output includes information about drop counters and the number of link-level flow control messages. Information is displayed from the standpoint of the card (in this example, ESP0), where the command is run. An ESP displays information from all the cards with active ESI links connected to it. A SIP or an RP displays statistics from each ESP.

Device# show platform hardware slot f0 serdes statistics

From Slot R0
  Pkts High: 0 Low: 0 Bad: 0 Dropped: 0
  Bytes High: 0 Low: 0 Bad: 0 Dropped: 0
  Pkts Looped: 0 Error: 0
  Bytes Looped 0
  Qstat count: 0 Flow ctrl count: 25671
To Slot R0
  Pkts High: 0 Low: 0
From Slot 0
  Pkts High: 0 Low: 0 Bad: 0 Dropped: 0
  Bytes High: 0 Low: 0 Bad: 0 Dropped: 0
  Pkts Looped: 0 Error: 0
  Bytes Looped 0
  Qstat count: 0 Flow ctrl count: 25674
To Slot 0
  Pkts High: 0 Low: 0

The table below describes the significant fields shown in the display.

Table 43 show platform hardware slot f0 serdes statistics Field Descriptions

Field

Description

From Slot

Information on data passed from the indicated processor to the card where the command is run and over the SerDes.

To Slot

Information on data passed to the indicated processor from the card where the command is run and over the SerDes.

Pkts/Bytes High

Number of packets and bytes of high priority data payload.

Pkts/Bytes Low

Number of packets and bytes of low priority data payload.

Pkts/Bytes Bad

Number of packets received with packet length errors or cyclic redundacy check (CRC) errors.

Pkts/Bytes Dropped

Number of bit bucket packets or bytes dropped.

Pkts/Bytes Looped

Number of packets looped back in loopback mode.

Pkts Error

Number of packets with errors.

Qstat count

Number of queue status messages received.

Flow ctrl count

Number of link-level flow control messages.

The following is sample output from the show platform hardware slot f0 serdes statistics command for the Cisco ASR1000-ESP10.

Device# show platform hardware slot f0 serdes statistics

From Slot R0
  Pkts High: 0 Low: 0 Bad: 0 Dropped: 0
  Bytes High: 0 Low: 0 Bad: 0 Dropped: 0
  Pkts Looped: 0 Error: 0
  Bytes Looped 0
  Qstat count: 0 Flow ctrl count: 25671
From Slot 0
  Pkts High: 0 Low: 0 Bad: 0 Dropped: 0
  Bytes High: 0 Low: 0 Bad: 0 Dropped: 0
  Pkts Looped: 0 Error: 0
  Bytes Looped 0
  Qstat count: 0 Flow ctrl count: 25674
The following is sample output from the show platform hardware slot f0 serdes statistics internal command for the Cisco ASR 1000-ESP10.

Device# show platform hardware slot f0 serdes statistics internal

Load for five secs: 35%/8%; one minute: 33%; five minutes: 30% 
Time source is NTP, 12:20:00.746 IST Fri Nov 9 2011 
Network-Processor Link: 
  Local TX in sync, Local RX in sync 
  From Network-Processor    Packets:     1150522  Bytes:   166031138 
  To Network-Processor      Packets:     4364008  Bytes:   697982854 
  
RP/ESP Link: 
Local TX in sync, Local RX in syncxist 
Remote TX in sync, Remote RX in sync 
To RP/ESP                 Packets:     1150522  Bytes:   166031138 
 Drops                   Packets:           0  Bytes:           0 
From RP/ESP               Packets:     4364008  Bytes:   697982854 
 Drops                   Packets:           0  Bytes:           0 
Errors: 
 RX/TX process: 0/0, RX/TX schedule: 0/0 
 RX/TX statistics: 0/0, RX parity: 0 
 
Encryption Processor Link: 
  Local TX in sync, Local RX in sync 
  Remote TX in sync, Remote RX in sync                 

The following is sample output from the show platform hardware slot f0 serdes statistics internal command for the Cisco ASR 1000-ESP20 and later versions of the ESP.

Device# show platform hardware slot f0 serdes statistics internal

Load for five secs: 35%/8%; one minute: 33%; five minutes: 30% 
Time source is NTP, 12:20:00.746 IST Fri Nov 9 2011 
Network-Processor Link: 
  Local TX in sync, Local RX in sync 
  From Network-Processor    Packets:     1150522  Bytes:   166031138 
  To Network-Processor      Packets:     4364008  Bytes:   697982854 
  
Encryption Processor Link: 
  Local TX in sync, Local RX in sync 
  Remote TX in sync, Remote RX in sync

The following sample output from the show platform hardware slot 0 spa oir-statistics command displays the OIR statistics of SPAs installed in a SIP in chassis slot 0:

Device# show platform hardware slot 0 spa oir-statistics

 SPA OIR requests: : 3
SPA OIR responses: : 3
   SPA insertions: : 0
     SPA removals: : 0
SPA driver starts: : 0
 SPA driver stops: : 0
SPA driver deaths: : 0

The table below describes the significant fields shown in the display.

Table 44 show platform hardware slot 0 spa oir-statistics Field Descriptions

Field

Description

SPA OIR requests

Number of times the chassis software on the SIP made a request to the chassis software on the RP to allow a SPA to come online.

SPA OIR responses

Number of times the chassis software on the RP sent a response to an OIR request to the chassis software on the SIP.

SPA insertions

Number of SPA insertions since the last boot. The number is zero for SPAs that were in the chassis when the chassis booted.

SPA removals

Number of SPA removals since the last boot.

SPA driver starts

Number of times the SPA driver started.

SPA driver stops

Number of times the SPA driver stopped.

SPA driver deaths

Number of time the SPA driver reloaded.

The following sample output from the show platform hardware slot P0 mcu status displays the MCU hardware status and power supply in the slot:

If you use the show platform hardware slot sip mcu status command or the show platform hardware slot sip fan status command on the Cisco ASR 1000 Series Router, we recommend that you use the value “Px” rather than “0” or other numeric values to specify the power supply slot. This command displays the MCU hardware status or fan status and references the power supply in the slot.
Device# show platform hardware slot P0 mcu status

Model ID: 5
12V I: 31
12V V: 11
Temp: 29
Input V: 218
Fan speed: 65%

The table below describes the significant fields shown in the display.

Table 45 show platform hardware slot mcu status Field Descriptions

Field

Description

Model ID

Model ID of the card slot.

12V

Power supply in the slot in voltage.

Temp

Chassis temperature.

Input V

Voltage input for power supply.

Fan speed

Speed at which the fans are spinning as a percentage of their maximum speed.

Related Commands

Command

Description

show platform hardware interface

Displays information about an interface.

show platform hardware port

Displays information about an interface port on an SPA.

show platform hardware subslot

Displays information about an SPA.

show platform hardware throughput level

To display the current maximum throughput level for a virtual router, use the show platform hardware throughput level command in Privileged EXEC mode.

show platform hardware throughput level

Command Modes

Privileged EXEC

Command History

Release Modification

Cisco IOS XE 3.9S

This command was introduced on the Cisco CSR 1000V Cloud Services Router.

Usage Guidelines

The maximum throughput level is determined by the installed license. Depending on the configuration and installed license, you can change the maximum throughput level. See the platform hardware throughput level command for more information.

Examples

The following example displays the maximum throughput level on the router:

Router# show platform hardware throughput level
The current throughput level is 50000 kb/s

Related Commands

Command

Description

platform hardware throughput level

Changes the maximum throughput level on the virtual router.  

show platform hardware subslot

To display information about a Cisco ASR 1000 Series shared port adapter (SPA), use the showplatformhardwaresubslotcommand in privileged EXEC or diagnostic mode.

show platform hardware subslot slot /card plim { buffer [ settings detail ] | qos input bandwidth | spa settings | statistics [internal] }

Syntax Description

slot /

Chassis slot where the Cisco ASR 1000 Series SPA interface processor (SIP) is installed.

card

Secondary slot number of the SIP where the SPA is installed.

plim

Provides Physical Line Interface Module (PLIM) information.

buffer

Provides PLIM buffer information (for Cisco Technical Support only).

settings detail

(Optional) Provides detailed PLIM buffer settings (for Cisco Technical Support only).

qos input bandwidth

Provides PLIM QoS input bandwidth information.

spa settings

Provides PLIM SPA settings (for Cisco Technical Support only).

statistics

Provides PLIM statistics.

internal

(Optional) Provides PLIM detailed statistics information (for Cisco Technical Support only).

Command Modes

Privileged EXEC (#) Diagnostic (diag)

Command History

Release

Modification

Cisco IOS XE Release 2.1

This command was introduced on the Cisco ASR 1000 Series Routers.

15.0(1)S

This command was modified. The minimum bandwidth and the proirity mode that cannot be configured in Strict Priority mode are not displayed in the output. The HP policer BW field was added to the output.

Examples

The following example displays ingress arbiter settings for all PLIM buffers that are in use for a SPA in chassis slot 1:

Router# show platform hardware subslot 1/0 plim qos input bandwidth
Ingress QOS Scheduling Mode: Strict Priority
 
0/0, SPA-3XOC3-ATM-V2
  Interface 0/0/0
    BW:   155520 Kbps, Min BW: N/A , Excessive Weight:   100000 Kbps, HP Policer BW:   155520 Kbps
  Interface 0/0/1
    BW:   155520 Kbps, Min BW: N/A , Excessive Weight:   155000 Kbps, HP Policer BW:   155520 Kbps
  Interface 0/0/2
    BW:   155520 Kbps, Min BW: N/A , Excessive Weight:   155000 Kbps, HP Policer BW:   155520 Kbps

The table below describes the significant fields shown in the display.

Table 46 show platform hardware subslot 1/0 plim qos input bandwidth Field Descriptions

Field

Description

Ingress QOS Scheduling Mode

Current scheduler operation mode.

BW

Interface bandwidth in kilobits per second (kb/s).

Min Bw

Guaranteed bandwidth assigned on this interface in kb/s.

Excessive Weight

Excessive bandwidth assigned on this interface in kb/s.

HP Policer BW

Bandwidth assigned for processing high priority traffic on this interface in kb/s.

The following example displays PLIM statistics for a SPA in chassis slot 1. Interprocess communication (IPC) packets are internal control packets. The first set of RX and TX packet counts includes both user packets and IPC packets. In this example, the RX/TX and RX IPC/TX IPC packet counts are the same because no user packets are being passed, only IPC packets.

Router# show platform hardware subslot 1/0 plim statistics
1/0, 2XOC3-POS, Online
  RX Pkts 739     Bytes 54564
  TX Pkts 739     Bytes 30752
  RX IPC Pkts 739     Bytes 54564
  TX IPC Pkts 739     Bytes 30752

The table below describes the significant fields shown in the display.

Table 47 show platform hardware subslot 1/0 plim statistics Field Descriptions

Field

Description

RX Pkts

Packets (user data and IPC data) received by the PLIM from the indicated SPA.

TX Pkts

Packets (user data and IPC data) transmitted from the PLIM to the indicated SPA.

RX IPC Pkts

IPC packets received by the PLIM from the indicated SPA.

TX IPC Pkts

IPC packets transmitted from the PLIM to the indicated SPA.

Related Commands

Command

Description

show platform hardware interface

Displays information about an interface.

show platform hardware port

Displays information about an interface port on a shared port adapter (SPA).

show platform hardware slot

Displays information about the processor in a chassis slot.

show platform hardware subslot (4400)

To display information on the network interface module, use the show platform hardware subslot command in privileged EXEC mode.

show platform hardware subslot slot/bay module [ firmware | | status | | device device-name | host-if | [ statistics | | status | | register ] ]

Syntax Description

slot/ bay

Specifies the chassis slot and secondary slot number where the module is installed.

module

Specifies the module information.

firmware

Displays the firmware and bootloader version.

status

Displays information on the firmware operational status, CPU, and memory utilization.

device

Displays information for specific module devices.

device-name

Specifies the device.

host-if

Specifies the host interface.

statistics

(Optional) Displays the link statistics for the host interface.

status

(Optional) Displays the configuration, status, and interface ID for the host interface.

register

(Optional) Displays the register information for the host interface.

Command Modes

Privileged EXEC (#)

Command History

Release Modification

Cisco IOS XE Release 3.9S

This command was introduced.

Examples

The following are sample outputs from the show platform hardware subslot module command.

Router# show platform hardware subslot 0/1 module host-if status

NPU global_info:
CP_MAC:     0x30.f7.0d.53.bc.9e
FFP_MAC:    0x30.f7.0d.53.bc.9b
Module_MAC: 0x0c.d9.96.a8.01.cc
DSP_MAC:    0x00.00.00.00.00.00
CP VLAN ID:    0x09 0x2f
FFP VLAN ID:    0x29 0x2e
FFP HP1 VLAN ID: 0x89 0x2e
FFP HP2 VLAN ID: 0xa9 0x2e
Max MTU 10442

Router# show platform hardware subslot 0/1 module host-if statistics

GE (connecting to BP switch) statistics

                Rx frames       Rx Bytes        Tx frames       Tx Bytes
-----------------------------------------------------------------------------
pkt forwarded   744             51328           691             101687
oversize        0                               2
undersize       0                               0
multicast       0                               0
broadcast       0                               2
pause           0                               0
dropped         0                               0
FCS err         0                               0
aligmt err      0
length err      0
MRU err         0
SDU err         0
overrun err     0
undrrun err                                     0


Total frames
-----------------------------------------------------------------------------
64              696
65 ~ 127        195
128 ~ 255       529
256 ~ 511       11
512 ~ 1023      2
1024 ~ 1518     0
1519 ~ 1522     0

Flow Aggregation to BP switch
-----------------------------------------------------------------------------
FlowControl FA
        pkt fowarded:18 bytes forwarded:576
        fpb drop:0 mtu drop:0 tx_q drop:0
DSP signaling FA
        pkt fowarded:0 bytes forwarded:0
        fpb drop:0 mtu drop:0 tx_q drop:0
DSP media FA
        pkt fowarded:0 bytes forwarded:0
        fpb drop:0 mtu drop:0 tx_q drop:0
Low priorty FA (IP/ARP/BC)
        pkt fowarded:2 bytes forwarded:1180
        fpb drop:0 mtu drop:0 tx_q drop:0
Control message FA
        pkt fowarded:670 bytes forwarded:96285
        fpb drop:0 mtu drop:0 tx_q drop:0
Router# show platform hardware subslot 0/1 module firmware


Chip Revision: unknown

WDDI Build: 1771
WinFarm-0:DPS Build: 2220
WinFarm-1:DPS Build: 2220

WF-0 features set:
70d43f57 7987fffe 30f80386 46809a62 016d100e 
c780344e 38357dd1 01940200 00000000 00000000 
00000000 00000000 00000000 00000000 50c55135 

WF-1 features set:
70d43f57 7987fffe 30f80386 46809a62 016d100e 
c780344e 38357dd1 01940200 00000000 00000000 
00000000 00000000 00000000 00000000 50c55135 



Linux version 2.6.28.10.mips-malta (sheaunt@mcp-bld-lnx-101) (gcc version 4.3.3 (MontaVista Linux Sourcery G++ 4.3-302) ) #2 PREEMPT Wed Feb 27 19:14:01 PST 2013


Bootloader version: 0.1
FPGA (Active) version: 12120415
FPGA (Upgraded) version: 12120415
Router# show platform hardware subslot 0/1 module status

        
Process and Memory
---------------------------------
Mem: 39640K used, 12464K free, 0K shrd, 0K buff, 27492K cached
CPU:   0% usr   0% sys   0% nic 100% idle   0% io   0% irq   0% sirq
Load average: 0.00 0.00 0.00 1/17 198
  PID  PPID USER     STAT   VSZ %MEM %CPU COMMAND
  156   155 0        S     122m 240%   0% [cisco_fortitude]
    1     0 0        S     3452   7%   0% sh 
  197   196 0        S     3080   6%   0% /bin/sh ./fortitude_moduleinfo.sh Proc
  196   156 0        S     3016   6%   0% sh -c ./fortitude_moduleinfo.sh "Proce
  198   197 0        R     3016   6%   0% /usr/bin/top -b -n 1 -d 30 
  155   154 0        S     1852   4%   0% ./Supervisory 
  154     1 0        S     1788   3%   0% ./Supervisory 
    2     0 0        SW<      0   0%   0% [kthreadd]
    3     2 0        SW<      0   0%   0% [ksoftirqd/0]
    4     2 0        SW<      0   0%   0% [events/0]
    5     2 0        SW<      0   0%   0% [khelper]
    6     2 0        SW<      0   0%   0% [kblockd/0]
    7     2 0        SW       0   0%   0% [pdflush]
    8     2 0        SW       0   0%   0% [pdflush]
    9     2 0        SW<      0   0%   0% [kswapd0]
   10     2 0        SW<      0   0%   0% [aio/0]
   19     2 0        SW<      0   0%   0% [mtdblockd]



        
Interrupts
---------------------------------
           CPU0       
  2:          0            MIPS  WinPath interrupt controller
  7:   26845968            MIPS  timer
  8:          0     WinPath-PIC  sys_err_handler
  9:          0     WinPath

show platform hardware transceiver

To see transceiver information on a port, use the show platform hardware transceiver command in EXEC mode.

show platform hardware transceiver { brief | status | config | error | register } [port]

Syntax Description

brief

Brief device information.

status

Device status.

config

Device configuration.

error

Device error information.

register

Device register contents.

port

Specifies the port. If you do not select a port, this command will iterate through all ports.

Command Default

No default behavior or values

Command Modes

EXEC (#)

Command History

Release

Modification

12.2(33)SRD

This command was introduced on the Cisco 7600 series routers.

Note   

This command applies only to the Cisco 7600 Series Ethernet Services Plus (ES+) line card on the Cisco 7600 series router.

Usage Guidelines

Use this command with the remote command command in EXEC mode.

Examples

The following example shows brief information for port 1.

Router# remote command module 13 show platform hardware transceiver brief 1
Show brief info for port 1:
GigabitEthernet13/1: 
        ID: SFP
        Extended ID: 4
        Xcvr Type: GE SX (13)
        Connector: LC
        Vendor name: CISCO-FINISAR   
        Vendor part number: FTLF8519P2BCL-CS
        State: Enabled

The following example shows status information for port 1.

Router# remote command module 13 show platform hardware transceiver status 1
Show status info for port 1:
TenGigabitEthernet1/1: 
        State: Enabled
        Environmental Information - raw values
                Temperature: 7616
                Tx voltage: 0 in units of 100uVolt
                Tx bias: 28722 uA
                Tx power: -2 dBm (5441 in units of 0.1 uW)
                Rx power: 0 dBm (7712 in units of 0.1 uW)
                (AUX1) Laser Temperature: 8704
                (AUX2) +3.3V Supply Voltage: 32928
        XFP TX is enabled.
        XFP TX is soft enabled.
        XFP is ready.
        XFP is not power down.
        XFP is not soft power down.
        XFP doesn't have interrupt(s).
        XFP is not LOS.
        XFP data is ready.
        XFP TX path is ready.
        XFP TX laser is not in fault condition.
        XFP TX path CDR is locked.
        XFP RX path is ready.
        XFP RX path CDR is locked.
        No active alarms
        No active warning

Related Commands

Command

Description

remote command {module num | standby-rp | switch} command

Executes a Cisco 7600 series router command directly on the switch console or a specified module without having to log into the Cisco 7600 series router first.

show platform isg memory

To display dynamically allocated memory usage information on the route processor (RP), use the showplatformisgmemorycommand in privileged EXEC mode.

show platform isg memory [detail]

Syntax Description

detail

(Optional) Displays detailed memory usage information.

Command Modes

Privileged EXEC (#)

Command History

Release

Modification

15.1(1)S

This command was introduced.

Examples

This is a sample output of the showplatformisgmemorycommand.

Router# show platform isg memory
Allocator-Name                  In-use/Allocated            Count
  ----------------------------------------------------------------------------
  CWAN VRF NODE             :          0/65588      (  0%) [      0] Chunk
  CWAN PLATFORM             :          0/20052      (  0%) [      0] Chunk
  CWAN PPPoE SB             :          0/20052      (  0%) [      0] Chunk
  CWAN PPPOE NOD            :          0/65588      (  0%) [      0] Chunk
  CWAN VRF Sess Cnt         :      16384/16436      ( 99%) [      1]
  CWAN MSI Array            :      16384/16436      ( 99%) [      1]
  CWAN MSI Elem             :      98304/311296     ( 31%) [   4096]
  VRF Pend list Array       :      16384/16436      ( 99%) [      1]
  VRF Pend list MSI         :      98304/311296     ( 31%) [   4096]
  CWAN slot pid hdl         :         60/112        ( 53%) [      1]
  CWAN sess per slot        :    2880000/2880780    ( 99%) [     15]
  CWAN test lru hdl         :         24/76         ( 31%) [      1]
  CWAN Container HWSB       :         56/108        ( 51%) [      1]
  CW Cont swidb SB          :        104/208        ( 50%) [      2]
  L4R Rules per             :          0/32820      (  0%) [      0] Chunk
  L4R Srv Grps p            :          0/32820      (  0%) [      0] Chunk
  L4R non-access            :          0/65588      (  0%) [      0] Chunk
  L4R Srv Info              :          0/32820      (  0%) [      0] Chunk

The table below describes the fields shown in the showplatformisgmemorycommand display.

Table 48 show platform isg memory Field Descriptions

Field

Description

Allocator-Name

Name of the memory allocating process.

In-use

Indicates the current memory usage.

Allocated

Total memory allocated by the process.

Count

Number of allocated memory blocks.

show platform mgf

To show the details of the multi-gigabit fabric, use the show platform mgf command in privileged EXEC mode.

show platform mgf [ module | statistics cpu ]

Syntax Description

module

Shows details of the modules registered to the backplane switch manager (BPSM).

statistics

Displays the multi-gigabit fabric’s packet statistics.

cpu

Displays the multi-gigabit fabric’s cpu port statistics.

Command Default

None

Command Modes

Privileged EXEC (#)

Command History

Release

Modification

15.0(1)M

This command was introduced for the Cisco 3900 Series, 2900 Series, and 1900 Series Integrated Services Routers (ISRs).

Usage Guidelines

To show the details of the multi-gigabit fabric, use the show platform mgf command in privileged EXEC mode. Or, enter the show platform mgf command and press Enter to display VLAN and slot assignments on the router. An asterisk next to the slot indicates that the vlan is the slot's default VLAN. The following example displays output from a Cisco 3945 ISR.


Note


Before Cisco IOS 15.1(3)T release, the Cisco Services Ready Engine (SRE) Service Module was managed by the platform backplane code. Therefore, when you entered the show platform mgf command, the Cisco SRE Service Module was displayed in the command output. But with Cisco IOS 15.1(3)T release, because the Cisco SRE Service Module is in the switchport managed module, it is no longer displayed in the show platform mgf command output.



Note


VLAN1 is the default when no other VLAN are listed.


Router# show platform mgf
VLAN    Slots
------------------------------------------------------------
1       ISM*, EHWIC-0*, EHWIC-1*, EHWIC-2*, EHWIC-3*
        PVDM-0*, PVDM-1*, PVDM-2*, PVDM-3*, SM-1*
        SM-2*, SM-3*, SM-4*

Examples

The following example displays the output for the show platform mgf module command when entered on a Cisco 3945 ISR. The table below displays the information code that appears in the output.

Router# show platform mgf module
Registered Module Information
Code:   NR - Not Registered, TM - Trust Mode, SP - Scheduling Profile
        BL - Buffer Level, TR - Traffic Rate, PT - Pause Threshold
slot    vlan    type/ID         TM      SP      BL      TR      PT
----    ----    ----------      ------- ---     ------  -----   ----
ISM     NR
EHWIC-0 NR
EHWIC-1 NR
EHWIC-2 NR
EHWIC-3 NR
PVDM-0  NR
PVDM-1  NR
PVDM-2  NR
PVDM-3  NR
SM-1     1       SM/6            UP      1       high    1000    high
SM-2     1       SM/6            UP      1       high    1000    high
SM-3    NR
SM-4    NR
Table 49 Show Platform Backplane Module Information Code

Code

Description

NR

Not registered

TM

Trust mode

SP

Scheduling profile

BL

Buffer level

TR

Traffic rate

PT

Pause threshold

The following example displays output for the show platform mgf statistics command when entered on a Cisco 1941 ISR.

Router# show platform mgf statistics
 
Interface statistics for slot: ISM (port 1)
-----------------------------------------------------
30 second input rate 0 packets/sec
30 second output rate 0 packets/sec
0 packets input, 0 bytes, 0 overruns
Received 0 broadcasts, 0 multicast, 0 unicast 0 runts, 0 giants, 0 jabbers 0 input errors, 0 CRC, 0 fragments, 0 pause input 0 packets output, 0 bytes, 0 underruns 0 broadcast, 0 multicast, 0 unicast 0 late collisions, 0 collisions, 0 deferred 0 bad bytes received, 0 multiple, 0 pause output
Interface statistics for slot: EHWIC-0 (port 2)
-----------------------------------------------------
30 second input rate 13844 packets/sec
30 second output rate 13844 packets/sec
3955600345 packets input, 1596845471340 bytes, 26682 overruns Received 0 broadcasts, 0 multicast, 3955600345 unicast 0 runts, 0 giants, 0 jabbers 0 input errors, 0 CRC, 0 fragments, 0 pause input
3955738564 packets output, 1596886171288 bytes, 0 underruns 0 broadcast, 0 multicast, 3955738564 unicast 0 late collisions, 0 collisions, 0 deferred 0 bad bytes received, 0 multiple, 94883 pause output
Interface statistics for slot: EHWIC-1 (port 3)
-----------------------------------------------------
30 second input rate 13844 packets/sec
30 second output rate 13844 packets/sec
3955973016 packets input, 1598763291608 bytes, 26684 overruns Received 0 broadcasts, 0 multicast, 3955973016 unicast 0 runts, 0 giants, 0 jabbers 0 input errors, 0 CRC, 0 fragments, 0 pause input 3955781430 packets output, 1598708166660 bytes, 0 underruns 0 broadcast, 0 multicast, 3955781430 unicast 0 late collisions, 0 collisions, 0 deferred 0 bad bytes received, 0 multiple, 94987 pause output

The following example displays output for the show platform mgf statistics cpu command when entered on a Cisco 3945 ISR.

Router# show platform mgf statistics cpu
Backplane-GigabitEthernet0/3 is up, line protocol is up
  Hardware is PQ3_TSEC, address is 001b.5428.d403 (bia 001b.5428.d403)
  MTU 9600 bytes, BW 1000000 Kbit/sec, DLY 10 usec,
     reliability 255/255, txload 1/255, rxload 1/255
  Encapsulation ARPA, loopback not set
  Full-duplex, 1000Mb/s, media type is internal
  output flow-control is unsupported, input flow-control is unsupported
  ARP type: ARPA, ARP Timeout 04:00:00
  Last input never, output never, output hang never
  Last clearing of "show interface" counters never
  Input queue: 0/75/0/0 (size/max/drops/flushes); Total output drops: 0
  Queueing strategy: fifo
  Output queue: 0/40 (size/max)
  5 minute input rate 0 bits/sec, 0 packets/sec
  5 minute output rate 0 bits/sec, 0 packets/sec
     0 packets input, 0 bytes, 0 no buffer
     Received 0 broadcasts, 0 runts, 0 giants, 0 throttles
     0 input errors, 0 CRC, 0 frame, 0 overrun, 0 ignored
     0 watchdog, 0 multicast, 0 pause input
     0 input packets with dribble condition detected
     0 packets output, 0 bytes, 0 underruns
     0 output errors, 0 collisions, 0 interface resets
     0 unknown protocol drops
     0 babbles, 0 late collision, 0 deferred
     0 lost carrier, 0 no carrier, 0 pause output
     0 output buffer failures, 0 output buffers swapped out Interface statistics for CPU: (port 0)
-----------------------------------------------------
30 second input rate 0 packets/sec
30 second output rate 0 packets/sec
0 packets input, 0 bytes, 0 overruns
Received 0 broadcasts, 0 multicast, 0 unicast 0 runts, 0 giants, 0 jabbers 0 input errors, 0 CRC, 0 fragments, 0 pause input 0 packets output, 0 bytes, 0 underruns 0 broadcast, 0 multicast, 0 unicast 0 late collisions, 0 collisions, 0 deferred 0 bad bytes received, 0 multiple, 0 pause output

Related Commands

Command

Description

show platform

To display platform information, use the show platform command in privileged EXEC mode.

show platform slot r0 pcie status

To display information about all Peripheral Component Interconnect (PCI) buses on the Route Processor (RP) slot on the Cisco ASR 1000 Series Aggregation Services Router and devices connected to the PCI buses, use the show platform slot r0 pcie status command in user EXEC or privileged EXEC mode.

show platform slot r0 pcie status

Syntax Description

This command has no arguments or keywords.

Command Modes

Privileged EXEC (#)
User EXEC (>)
      

Command History

Release

Modification

Cisco IOS XE Release 3.6

This command was introduced.

Examples

The following sample output from the show platform slot r0 pcie status command displays information about all PCI buses on the RP slot on the Cisco ASR 1000 Series Aggregation Services Router and the devices connected to them:

Router# show platform slot r0 pcie status

00:00.0 Class 0600: Device 8086:65c0 (rev 90)
00:02.0 Class 0604: Device 8086:65f7 (rev 90)
00:03.0 Class 0604: Device 8086:65e3 (rev 90)
00:04.0 Class 0604: Device 8086:65e4 (rev 90)
00:05.0 Class 0604: Device 8086:65e5 (rev 90)
00:06.0 Class 0604: Device 8086:65e6 (rev 90)
00:07.0 Class 0604: Device 8086:65e7 (rev 90)
00:08.0 Class 0880: Device 8086:65ff (rev 90)
00:10.0 Class 0600: Device 8086:65f0 (rev 90)
00:10.1 Class 0600: Device 8086:65f0 (rev 90)
00:10.2 Class 0600: Device 8086:65f0 (rev 90)
00:11.0 Class 0600: Device 8086:65f1 (rev 90)
00:13.0 Class 0600: Device 8086:65f3 (rev 90)
00:15.0 Class 0600: Device 8086:65f5 (rev 90)
00:16.0 Class 0600: Device 8086:65f6 (rev 90)
00:19.0 Class 0200: Device 8086:10e5 (rev 02)
00:1a.0 Class 0c03: Device 8086:2937 (rev 02)
00:1a.1 Class 0c03: Device 8086:2938 (rev 02)
00:1a.2 Class 0c03: Device 8086:2939 (rev 02)
00:1a.7 Class 0c03: Device 8086:293c (rev 02)
00:1b.0 Class 0403: Device 8086:293e (rev 02)
00:1d.0 Class 0c03: Device 8086:2934 (rev 02)
00:1d.1 Class 0c03: Device 8086:2935 (rev 02)

      

The output fields are self-explanatory.

show platform software memory

To display memory information for the specified process, use the show platform software memorycommand in privileged EXEC or diagnostic mode.

show platform software memory [ database | messaging ] { chassis-manager slot | cpp-control-process process | cpp-driver process | cpp-ha-server process | cpp-service-process process | forwarding-manager slot | host-manager slot | interface-manager slot | ios slot | logger slot | pluggable-services slot | shell-manager slot } [brief]

Syntax Description

database database

(Optional) Displays database memory information for the specified process.

messaging

(Optional) Displays messaging memory information for specified process.

The information displayed is for internal debugging purposes only.

chassis-manager slot

Displays memory information for the Chassis Manager process in the specified slot. Possible slot values are:

  • 0 --Cisco ASR 1000 Series SPA Interface Processor (SIP) slot 0
  • 1 --Cisco ASR 1000 Series SIP slot 1
  • 2 --Cisco ASR 1000 Series SIP slot 2
  • f0 --Cisco ASR 1000 Series Embedded Services Processor (ESP) slot 0
  • f1 --Cisco ASR 1000 Series ESP slot 1
  • fp active --Active Cisco ASR 1000 Series ESP
  • fp standby --Standby Cisco ASR 1000 Series ESP
  • r0 --Cisco ASR 1000 Series Route Processor (RP) slot 0
  • r1 --Cisco ASR 1000 Series RP slot 1
  • rp active --Active Cisco ASR 1000 Series RP
  • rp standby --Standby Cisco ASR 1000 Series RP

cpp-control-process

Displays memory information for the specified Cisco Packet Processor (CPP) Client Control process. Possible process values are:

  • cpp active --Active CPP Client Control process
  • cpp standby --Standby CPP Client Control process

The information displayed is for internal debugging purposes only.

cpp-driver

Displays memory information for the specified CPP Driver process. Possible process values are:

  • cpp active --Active CPPDriver process
  • cpp standby --Standby CPP Driver process

The information displayed is for internal debugging purposes only.

cpp-ha-server

Displays memory information for the specified CPP High Availability (HA) Server process. Possible process values are:

  • cpp active --Active CPP HA Server process
  • cpp standby --Standby CPP HA Server process

The information displayed is for internal debugging purposes only.

cpp-service-process

Displays memory information for the specified CPP Client Service process. Possible process values are:

  • cpp active --Active CPP Client Service process
  • cpp standby --Standby CPP Client Service process

The information displayed is for internal debugging purposes only.

forwarding-manager slot

Displays memory information for the Forwarding Manager process in the specified slot. Possible slot values are:

  • f0 --Cisco ASR 1000 Series ESP slot 0
  • f1 --Cisco ASR 1000 Series ESP slot 1
  • fp active --Active Cisco ASR 1000 Series ESP
  • fp standby --Standby Cisco ASR 1000 Series ESP
  • r0 --Cisco ASR 1000 Series RP slot 0
  • r1 --Cisco ASR 1000 Series RP slot 1
  • rp active --Active Cisco ASR 1000 Series RP
  • rp standby --Standby Cisco ASR 1000 Series RP

host-manager slot

Displays memory information for the Host Manager process in the specified slot. Possible slot values are:

  • 0 --Cisco ASR 1000 Series SIP slot 0
  • 1 --Cisco ASR 1000 Series SIP slot 1
  • 2 --Cisco ASR 1000 Series SIP slot 2
  • f0 --Cisco ASR 1000 Series ESP slot 0
  • f1 --Cisco ASR 1000 Series ESP slot 1
  • fp active --Active Cisco ASR 1000 Series ESP
  • fp standby --Standby Cisco ASR 1000 Series ESP
  • r0 --Cisco ASR 1000 Series RP slot 0
  • r1 --Cisco ASR 1000 Series RP slot 1
  • rp active --Active Cisco ASR 1000 Series RP
  • rp standby --Standby Cisco ASR 1000 Series RP

interface-manager slot

Displays memory information for the Interface Manager process in the specified slot. Possible slot values are:

  • 0 --Cisco ASR 1000 Series SIP slot 0
  • 1 --Cisco ASR 1000 Series SIP slot 1
  • 2 -- Cisco ASR 1000 Series SIP slot 2
  • r0 --Cisco ASR 1000 Series RP slot 0
  • r1 --Cisco ASR 1000 Series RP slot 1
  • rp active --Active Cisco ASR 1000 Series RP
  • rp standby --Standby Cisco ASR 1000 Series RP

ios slot

Displays memory information for the IOS process in the specified slot. Possible slot values are:

  • 0/0 --Cisco ASR 1000 Series SIP slot 0, bay 0
  • 0/1 --Cisco ASR 1000 Series SIP slot 0, bay 1
  • 0/2 --Cisco ASR 1000 Series SIP slot 0, bay 2
  • 0/3 --Cisco ASR 1000 Series SIP slot 0, bay 3
  • 1/0 --Cisco ASR 1000 Series SIP slot 1, bay 0
  • 1/1 --Cisco ASR 1000 Series SIP slot 1, bay 1
  • 1/2 --Cisco ASR 1000 Series SIP slot 1, bay 2
  • 1/3 --Cisco ASR 1000 Series SIP slot 1, bay 3
  • 2/0 --Cisco ASR 1000 Series SIP slot 2, bay 0
  • 2/1 --Cisco ASR 1000 Series SIP slot 2, bay 1
  • 2/2 --Cisco ASR 1000 Series SIP slot 2, bay 2
  • 2/3 --Cisco ASR 1000 Series SIP slot 2, bay 3
  • r0 --Cisco ASR 1000 Series RP slot 0
  • r1 --Cisco ASR 1000 Series RP slot 1
  • rp active --Active Cisco ASR 1000 Series RP
  • rp standby --Standby Cisco ASR 1000 Series RP

logger slot

Displays memory information for the logger process in the specified slot. Possible slot values are:

  • 0 --Cisco ASR 1000 Series SIP slot 0
  • 1 --Cisco ASR 1000 Series SIP slot 1
  • 2 --Cisco ASR 1000 Series SIP slot 2
  • f0 --Cisco ASR 1000 Series ESP slot 0
  • f1 --Cisco ASR 1000 Series ESP slot 1
  • fp active --Active Cisco ASR 1000 Series ESP
  • fp standby --Standby Cisco ASR 1000 Series ESP
  • r0 --Cisco ASR 1000 Series RP slot 0
  • r1 --Cisco ASR 1000 Series RP slot 1
  • rp active --Active Cisco ASR 1000 Series RP
  • rp standby --Standby Cisco ASR 1000 Series RP

pluggable-services slot

Displays memory information for the pluggable-services process in the specified slot. Possible slot values are:

  • r0 --Cisco ASR 1000 Series RP slot 0
  • r1 --Cisco ASR 1000 Series RP slot 1
  • rp active --Active Cisco ASR 1000 Series RP
  • rp standby --Standby Cisco ASR 1000 Series RP

shell-manager slot

Displays memory information for the Shell Manager process in the specified slot. Possible slot values are:

  • r0 --Cisco ASR 1000 Series RP slot 0
  • r1 --Cisco ASR 1000 Series RP slot 1
  • rp active --Active Cisco ASR 1000 Series RP
  • rp standby --Standby Cisco ASR 1000 Series RP

brief

(Optional) Displays abbreviated memory information for the specified process.

Command Default

No default behavior or values.

Command Modes

Privileged EXEC (#)

Diagnostic (diag)

Command History

Release

Modification

Cisco IOS XE Release 2.1

This command was introduced on the Cisco ASR 1000 Series Routers.

Usage Guidelines

The specification of the database and brief keywords are optional.

The specification of a process and slot are required.

Examples

The following example displays memory information for the Forwarding Manager process for Cisco ASR 1000 Series RP slot 0:

Router# show platform software memory forwarding-manager r0
Module: cdllib
  allocated: 900, requested: 892, overhead: 8
  Allocations: 2, failed: 0, frees: 1
Module: eventutil
  allocated: 117379, requested: 117059, overhead: 320
  Allocations: 46, failed: 0, frees: 6
Module: uipeer
  allocated: 9264, requested: 9248, overhead: 16
  Allocations: 3, failed: 0, frees: 1
Module: Summary
  allocated: 127543, requested: 127199, overhead: 344
  Allocations: 51, failed: 0, frees: 8

The table below describes the significant fields shown in the display.

Table 50 show platform software memory Field Descriptions

Field

Description

Module:

Name of submodule.

allocated:

Memory, allocated in bytes.

requested:

Number of bytes requested by application.

overhead:

Allocation overhead.

Allocations:

Number of discrete allocation event attempts.

failed:

Number of allocation attempts that were attempted, but failed.

frees:

Number of free events.

The following example displays abbreviated (brief keyword) memory information for the Chassis Manager process for Cisco ASR 1000 Series ESP slot 0:

Router# show platform software memory chassis-manager f0 brief
 
  module            allocated     requested     allocs        frees         
  ------------------------------------------------------------------------
  CPP Features      692           668           3             0             
  Summary           497816        495344        323           14            
  chunk             419322        419290        4             0             
  eventutil         68546         66146         312           12            
  uipeer            9256          9240          4             2             

The table below describes the significant fields shown in the brief keyword display.

Table 51 show platform software memory brief Field Descriptions

Field

Description

module

Name of submodule.

allocated

Memory, allocated in bytes.

requested

Number of bytes requested by application.

allocs

Number of discrete allocation event attempts.

frees

Number of free events.

show platform software mount

To display the mounted file systems, both physical and virtual, for a Cisco ASR 1000 Series SPA Interface Processor (SIP), Cisco ASR 1000 Series Embedded Services Processor (ESP), or Cisco ASR 1000 Series Route Processor (RP), use the show platform software mountcommand in privileged EXEC or diagnostic mode.

show platform software mount [ slot [brief] ]

Syntax Description

slot

(Optional) Displays mounted file systems for the specified slot. Possible slot values are:

  • 0 --Cisco ASR 1000 Series SIP slot 0
  • 1 --Cisco ASR 1000 Series SIP slot 1
  • 2 --Cisco ASR 1000 Series SIP slot 2
  • f0 --Cisco ASR 1000 Series ESP slot 0
  • f1 --Cisco ASR 1000 Series ESP slot 1
  • fp active --Active Cisco ASR 1000 Series ESP
  • fp standby --Standby Cisco ASR 1000 Series ESP
  • r0 --Cisco ASR 1000 Series RP slot 0
  • r1 --Cisco ASR 1000 Series RP slot 1
  • rp active --Active Cisco ASR 1000 Series RP
  • rp standby --Standby Cisco ASR 1000 Series RP

brief

(Optional) Displays abbreviated mounted file system information.

Command Default

No default behavior or values.

Command Modes

Privileged EXEC (#)

Diagnostic (diag)

Command History

Release

Modification

Cisco IOS XE Release 2.1

This command was introduced on the Cisco ASR 1000 Series Routers.

Usage Guidelines

If no slot is specified, the command returns mounted file systems for the active RP.

This command allows you to ascertain the presence or absence of specific system mounts. For example, this command might be used to determine /tmp-related mounts, which are used to create many run-time directories and files.

Users may be requested to execute this command to collect information about the underlying configuration of the platform software.

The RP output can differ depending on how the router was booted, and whether there are USB devices inserted.

The SIP and ESP output can differ depending on whether the chassis is a dual or single RP.

Examples

The following example displays mounted file systems for the active RP:

Router# show platform software mount
Filesystem                          Used   Available  Use% Mounted on                    
rootfs                                 0           0     -  /                             
proc                                   0           0     -  /proc                         
sysfs                                  0           0     -  /sys                          
none                                 524     1037640    1%  /dev                          
/dev/bootflash1                   298263       42410   88%  /bootflash                    
/dev/harddisk1                    609208     4025132   14%  /misc/scratch                 
/dev/loop1                         28010           0  100%  /tmp/sw/mount/2007-10-14_...  
/dev/loop2                         26920           0  100%  /tmp/sw/mount/2007-10-14_...  
/dev/loop3                         48236           0  100%  /tmp/sw/mount/2007-10-14_...  
/dev/loop4                          6134           0  100%  /tmp/sw/mount/2007-10-14_...  
/dev/loop5                         43386           0  100%  /tmp/sw/mount/2007-10-14_...  
/dev/loop6                         30498           0  100%  /tmp/sw/mount/2007-10-14_...  
/dev/loop7                         14082           0  100%  /tmp/sw/mount/2007-10-14_...  
none                                 524     1037640    1%  /dev                          
/proc/bus/usb                          0           0     -  /proc/bus/usb                 
/dev/mtdblock1                       460        1588   23%  /obfl                         
automount(pid4165)                     0           0     -  /vol 

The following example displays mounted file systems for the Cisco ASR 1000 Series ESP in ESP slot 0:

Router# show platform software mount f0
Filesystem                          Used   Available Use% Mounted on 
rootfs                                 0           0     -  /                             
proc                                   0           0     -  /proc                         
sysfs                                  0           0     -  /sys                          
none                               10864      507124    3%  /dev                          
/dev/loop1                         41418           0  100%  /tmp/sw/fp/0/0/fp/mount       
none                               10864      507124    3%  /dev                          
/proc/bus/usb                          0           0     -  /proc/bus/usb                 
/dev/mtdblock1                       504        1544   25%  /obfl                         
automount(pid3210)                     0           0     -  /misc1 

The following example displays mounted file systems for the active Cisco ASR 1000 Series RP:

Router# show platform software mount rp active
Filesystem                          Used   Available  Use% Mounted on                    
rootfs                                 0           0     -  /                             
proc                                   0           0     -  /proc                         
sysfs                                  0           0     -  /sys                          
none                                 436     1037728    1%  /dev                          
/dev/bootflash1                   256809       83864   76%  /bootflash                    
/dev/harddisk1                    252112     4382228    6%  /misc/scratch                 
/dev/loop1                         30348           0  100%  /tmp/sw/mount/2007-09-27_...  
/dev/loop2                         28394           0  100%  /tmp/sw/mount/2007-09-27_...  
/dev/loop3                         42062           0  100%  /tmp/sw/mount/2007-09-27_...  
/dev/loop4                          8384           0  100%  /tmp/sw/mount/2007-09-27_...  
/dev/loop5                         41418           0  100%  /tmp/sw/mount/2007-09-27_...  
/dev/loop6                         21612           0  100%  /tmp/sw/mount/2007-09-27_...  
/dev/loop7                         16200           0  100%  /tmp/sw/mount/2007-09-27_...  
none                                 436     1037728    1%  /dev                          
/proc/bus/usb                          0           0     -  /proc/bus/usb                 
/dev/mtdblock1                       484        1564   24%  /obfl                         
automount(pid4004)                     0           0     -  /vol 

The table below describes the significant fields shown in the SIP slot (0, 1, or 2) displays.

Table 52 show platform software mount SIP slot Field Descriptions

Field

Description

Filesystem

Logical name of the file system device.

Used

Number of 1Kb blocks used.

Available

Number of free 1Kb blocks available.

Use%

Percentage of 1Kb blocks used of the total available.

Mounted on

Canonical path to the mounted file system.

The following example displays abbreviated (brief keyword) mounted file system information for Cisco ASR 1000 Series SIP slot 0:

Router# show platform software mount 0 brief
Mount point: rootfs
  Type     : rootfs
  Location : /
  Options  : rw
Mount point: proc
  Type     : proc
  Location : /proc
  Options  : rw
Mount point: sysfs
  Type     : sysfs
  Location : /sys
  Options  : rw
Mount point: none
  Type     : tmpfs
  Location : /dev
  Options  : rw
Mount point: /dev/loop1
  Type     : iso9660
  Location : /tmp/sw/cc/0/0/cc/mount
  Options  : ro
          
Mount point: none
  Type     : tmpfs
  Location : /dev
  Options  : rw
          
Mount point: /proc/bus/usb
  Type     : usbfs
  Location : /proc/bus/usb
  Options  : rw
          
Mount point: /dev/mtdblock1
  Type     : jffs2
  Location : /obfl
  Options  : rw,noatime,nodiratime
          
Mount point: automount(pid3199)
  Type     : autofs
  Location : /misc1
  Options  : rw,fd=5,pgrp=3199,timeout=60,minproto=2,maxproto=4,indirect

The tab le below describes the significant fields shown in the brief keyword display.

Table 53 show platform software mount brief Field Descriptions

Field

Description

Mount point:

Logical name of the file system device.

Type:

File system type.

Location:

Canonical path to the mounted file system.

Options:

Mount point type-specific flags and settings.

show platform software infrastructure punt-keepalive

To display information about the settings for the platform punt-keepalive command, use the show platform software infrastructure punt-keepalive command in the privileged EXEC mode.

show platform software infrastructure punt-keepalive

Syntax Description

This command has no arguments or keywords.

Command Modes


        Privileged EXEC (#)
      

Command History

Release

Modification

Cisco IOS XE Release 3.5S

This command was introduced.

Examples

The following is a sample output of the show platform software infrastructure punt-keepalive command when the punt-keepalive feature is enabled:

        
Router# show platform software infrastructure punt-keepalive

----- punt inject keepalive settings -----
punt keepalive interval (sec) = 2
punt keepalive warn count(miss) = 10
punt keepalive fatal (warn count) = 15

----- punt inject keepalive status -----
Last punt keepalive proc sched = 1.140 sec ago
Last punt keepalive sent = 1.140 sec ago
punt keepalive rx count = 1473
punt keepalive tx count = 1473
punt keepalive last keepalive received = yes

----- punt inject keepalive errors -----
punt keepalive failed to send no buffers = 0
punt keepalive tx fail count = 0

----- punt inject keepalive tweaks -----
ignore rx keepalive msg = no
ignore keepalive failover fault = yes
      

The following is a sample output of the show platform software infrastructure punt-keepalive command when the punt-keepalive feature is disabled:

Router# show platform software infrastructure punt-keepalive

----- punt inject keepalive settings -----
punt keepalive fatal (warn count) = 15
punt keepalive interval (sec) = 0(Stopped)
punt keepalive warning count (miss) = 10
Disable XE kernel core = No

----- punt inject keepalive status -----
Last punt keepalive proc sched = 8.005 sec ago
Last punt keepalive sent = 8.195 sec ago
punt keepalive rx count = 6695
punt keepalive tx count = 6695
punt keepalive last keepalive received = yes

----- punt inject keepalive errors -----
punt keepalive failed to send no buffers = 0
punt keepalive tx fail count = 0

Related Commands

Command

Description

platform punt-keepalive

Enables the Punt-Keepalive feature and monitors the status of the punt path between the forwarding processor (FP) and the route processor (RP).

show platform software interface summary

To display a summary of statistics for interfaces that are configured on a networking device, use the show platform software interface summary command in privileged EXEC mode.

show platform software interface summary [ [name] | [queues] | [rates] ]

Syntax Description

name

(Optional) Displays, for the named interface, a summary of the packets held and dropped in input/output queues and the transmission/reception rates.

queues

(Optional) Displays a summary of the packets held and dropped in input/output queues, for interfaces on the router..

rates

(Optional) Displays a summary of the transmission/reception rates, for interfaces on the router.

Command Default

No default behavior or values.

Command Modes

Privileged EXEC (#)

Command History

Release

Modification

Cisco IOS XE Release 3.9

This command was introduced on Cisco 4400 Series Routers.

Usage Guidelines

Cisco ISR 4400 Series

On a Cisco ISR 4400 Series router you can use this command to show a summary of the packets held and dropped in input/output queues and the transmit/receive rates, for interfaces on the router.

Examples

The following example displays summary information for the interfaces of a Cisco 4400 Series router.

Router# show platform software interface summary
 Interface                 IHQ  IQD  OHQ  OQD  RXBS  RXPS  TXBS  TXPS  TRTL 
-----------------------------------------------------------------------------
  GigabitEthernet0/0/0        0    0    0    0     0     0     0     0     0 
  GigabitEthernet0/0/1        0    0    0    0     0     0     0     0     0 
  GigabitEthernet0/0/2        0    0    0    0     0     0     0     0     0 
  GigabitEthernet0/0/3        0    0    0    0     0     0     0     0     0 
  Serial1/0/0                 0    0    0    0     0     0     0     0     0 
* GigabitEthernet0            0    0    0    0 34000    60     0     0     0

Table 54 show platform software interface summary Field Descriptions

Field

Description

IHQ

Packets in input hold queue.

IQD

Packets dropped from input queue.

OHQ

Packets in output hold queue.

OQD

Packets dropped from output queue.

RXBS

Reception rate in bits per second.

RXPS

Reception rate in packets per second.

TXBS

Transmission rate in bits per second.

TXPS

Transmission rate in packets per second.

TRTL

Throttle count.

The following example displays summary (queues) information for interfaces of a Cisco 4400 Series router.

Router# show platform software interface summary queues
 
Interface                      IHQ           IQD           OHQ           OQD
----------------------------------------------------------------------------
GigabitEthernet0/0/0             0             0             0             0
GigabitEthernet0/0/1             0             0             0             0
GigabitEthernet0/0/2             0             0             0             0
GigabitEthernet0/0/3             0             0             0             0
Serial1/0/0                      0             0             0             0
GigabitEthernet0                 0             0             0             0



The table below describes the significant fields shown in the queues keyword display.

Table 55 show platform software interface summary queues Field Descriptions

Field

Description

IHQ

Packets in input hold queue.

IQD

Packets dropped from input queue.

OHQ

Packets in output hold queue.

OQD

Packets dropped from output queue.

Related Commands

Command

Description

show interfaces summary

Displays a summary of statistics for interfaces on a networking device.

show platform software process list

To display a list of the processes running in a given slot, use the show platform software process listcommand in privileged EXEC or diagnostic mode.

show platform software process list slot [ name process-name | process-id process-id | sort memory | summary ]

Syntax Description

slot

Displays running process information for the specified slot. Possible slot values are:

  • 0--Cisco ASR 1000 Series SPA Interface Processor (SIP) slot 0
  • 1--Cisco ASR 1000 Series SIP slot 1
  • 2--Cisco ASR 1000 Series SIP slot 2
  • f0--Cisco ASR 1000 Series Embedded Services Processor (ESP) slot 0
  • f1--Cisco ASR 1000 Series ESP slot 1
  • fp active--Active Cisco ASR 1000 Series ESP
  • fp standby--Standby Cisco ASR 1000 Series ESP
  • r0--Cisco ASR 1000 Series Route Processor (RP) slot 0
  • r1--Cisco ASR 1000 Series RP slot 1
  • rp active--Active Cisco ASR 1000 Series RP
  • rp standby--Standby Cisco ASR 1000 Series RP

name process-name

(Optional) Displays information for the specified process name.

process-id process-id

(Optional) Displays information for the specified process ID.

sort memory

(Optional) Sorts the processes by memory.

summary

(Optional) Displays summary process information for the running host.

Command Default

No default behavior or values.

Command Modes

Privileged EXEC (#)

Diagnostic (diag)

Command History

Release

Modification