Table Of Contents

show access-lists rate-limit

show atm bundle

show atm bundle statistics

show class-map

show interfaces fair-queue

show interfaces random-detect

show interfaces rate-limit

show ip rsvp

show ip rsvp atm-peak-rate-limit

show ip rsvp installed

show ip rsvp interface

show ip rsvp neighbor

show ip rsvp request

show ip rsvp reservation

show ip rsvp sbm

show ip rsvp sender

show policy-map

show policy-map class

show policy-map interface

show queue

show queueing

show queueing interface

show tech-support rsvp

show traffic-shape

show traffic-shape queue

show traffic-shape statistics

traffic-shape adaptive

traffic-shape fecn-adapt

traffic-shape group

traffic-shape rate

show access-lists rate-limit

To display information about rate-limit access lists, use the show access-lists rate-limit EXEC command.

show access-lists rate-limit [acl-index]

Syntax Description

acl-index

(Optional) Rate-limit access list number from 1 to 199.

Command Modes

EXEC

Command History

Release	Modification
11.1 CC	This command was introduced.

Examples

The following is sample output from the show access-lists rate-limit command:

Router# show access-lists rate-limit

Rate-limit access list 1

    0

Rate-limit access list 2

    1

Rate-limit access list 3

    2

Rate-limit access list 4

    3

Rate-limit access list 5

    4

Rate-limit access list 6

    5

Rate-limit access list 9

    mask FF

Rate-limit access list 10

    mask 0F

Rate-limit access list 11

    mask F0

Rate-limit access list 100

    1001.0110.1111

Rate-limit access list 101

    00E0.34B8.D840

Rate-limit access list 199

    1111.1111.1111

The following is sample output from the show access-lists rate-limit command when specific rate-limit access lists are specified:

Router# show access-lists rate-limit 1

Rate-limit access list 1

    0

Router# show access-lists rate-limit 9

Rate-limit access list 9

    mask FF

Router# show access-lists rate-limit 101

Rate-limit access list 101

    00E0.34B8.D840

Table 14 describes the fields shown in these displays.

Table 14 show access-lists rate-limit Field Descriptions

Field	Description
Rate-limit access list	Rate-limit access list number. A number from 1 to 99 represents a precedence-based access list. A number from 100 to 199 indicates a MAC address-based access list.
0	IP Precedence for packets in this rate-limit access list.
mask FF	IP Precedence mask for packets in this rate-limit access list.
1001.0110.1111	MAC address for packets in this rate-limit access list.

Related Commands

Command	Description
access-list rate-limit	Configures an access list for use with CAR policies.
show access-lists	Displays the contents of current IP and rate-limit access lists.

show atm bundle

To display the bundle attributes assigned to each bundle virtual circuit (VC) member and the current working status of the VC members, use the show atm bundle privileged EXEC command.

show atm bundle bundle-name

Syntax Description

bundle-name

The name of the bundle whose member information is displayed. This is the bundle name specified by the bundle command when the bundle was created.

Command Modes

Privileged EXEC

Command History

Release	Modification
12.0(3)T	This command was introduced.

Examples

The following is sample output from the show atm bundle command (* indicates that this VC is the VC for all precedence levels not explicitly configured):

Router# show atm bundle 

new-york on atm1/0.1 Status: UP 
 
                      Config. Active  Bumping    PG/ Peak  Avg/Min  Burst      
Name       VPI/VCI    Preced. Preced. Predec./   PV  kbps  kbps     Cells  Status 
                                          Accept                  

ny-control   0/207      7        7      4  /Yes   pv  10000  5000     32      UP 
ny-premium   0/206     6-5     6-5      7  /No    pg  20000  10000    32      UP 
ny-priority  0/204     4-2     4-2      1  /Yes   pg  10000  3000             UP 
ny-basic*    0/201     1-0     1-0      -  /Yes   pg  10000                   UP 
 

los-angeles on atm1/0.1 - Status: UP

     
                      Config. Active  Bumping    pg/ Peak  Avg/Min  Burst      
Name       VPI/VCI    Preced. Preced. Predec./   pv  kbps  kbps     Cells  Status 
                                      Accept 
 
la-high     0/407     7-5     7-5     4 /Yes      pv  20000  5000     32     UP 
la-med      0/404     4-2     4-2     1 /Yes      pg  10000  3000            UP 
la-low*     0/401     1-0     1-0     - /Yes      pg  10000                  UP 

san-francisco on atm1/0.1 Status: UP 
 
                      Config. Active  Bumping    PG/ Peak  Avg/Min  Burst      
Name       VPI/VCI    Preced. Preced. Predec./   PV  kbps  kbps     Cells  Status

                                      Accept

sf-control   0/307      7        7      4 /Yes   pv  10000  5000     32      UP 
sf-premium   0/306     6-5     6-5      7 /No    pg  20000  10000    32      UP 
sf-priority  0/304     4-2     4-2      1 /Yes   pg  10000  3000             UP 
sf-basic*    0/301     1-0     1-0      - /Yes   pg  10000                   UP 

Related Commands

Command	Description
show atm bundle statistics	Displays statistics on the specified bundle.
show atm map	Displays the list of all configured ATM static maps to remote hosts on an ATM network.

show atm bundle statistics

To display statistics or detailed statistics on the specified bundle, use the show atm bundle statistics privileged EXEC command.

show atm bundle bundle-name statistics [detail]

Syntax Description

bundle-name	Specifies the name of the bundle whose member information is displayed. This is the bundle name specified by the bundle command when the bundle was created.
detail	(Optional) Displays detailed statistics.

Command Modes

Privileged EXEC

Command History

Release	Modification
12.0(3)T	This command was introduced.

Examples

The following is sample output from the show atm bundle statistics command:

Router# show atm bundle san-jose statistics 

Bundle Name: Bundle State: UP

AAL5-NLPID 
OAM frequency : 0 second(s), OAM retry frequency: 1 second(s)

OAM up retry count: 3, OAM down retry count: 5

BUNDLE is not managed. 

InARP frequency: 15 minute(s)

InPkts: 3, OutPkts: 3, Inbytes: 1836, Outbytes: 1836 
InPRoc: 3, OutPRoc: 0, Broadcasts: 3

InFast: 0, OutFast: 0, InAS: 0, OutAS: 0

Router# show atm bundle san-jose statistics detail

Bundle Name: Bundle State: UP

AAL5-NLPID

OAM frequency: 0 second(s), OAM retry frequency: 1 second(s)

OAM up retry count: 3, OAM down retry count: 5

BUNDLE is not managed.

InARP frequency: 15 minute(s)

InPkts: 3, OutPkts: 3, InBytes; 1836, OutBytes: 1836

InPRoc: 3, OutPRoc: 0, Broadcasts: 3

InFast: 0, OutFast: 0, InAS: 0, OutAS: 0

ATM1/0.52: VCD: 6, VPI: 0 VCI: 218, Connection Name: sj-basic 
UBR, PeakRate: 155000 
AAL5-LLC/SNAP, etype:0x0, Flags: 0xC20, VCmode: 0xE00

OAM frequency: 0 second(s), OAM retry frequency: 1 second(s)

OAM up retry count: 3, OAM down retry count: 5

OAM Loopbavk status: OAM Disabled

OMA VC state: Not Managed

ILMI VC state: Not Managed

InARP frequency: 15 minute(s)

InPkts: 3, OutPkts: 3, InBytes; 1836, OutBytes: 1836

InPRoc: 3, OutPRoc: 0,Broadcasts: 3

InFast: 0, OutFast: 0, InAS: 0, OututAS: 0

OAM cells received: 0

F5 InEndloop: 0, F5 InSegloop: 0, F5 InAIS: 0, F5 InRDI: 0

F4 InEndloop: 0, F4 OutSegloop:0, F4 InAIS: 0, F4 InRDI: 0

OAM cells sent: 0

F5 OutEndloop: 0. F5 OutSegloop: 0, f5 Out RDI:0

F4 OutEndloop: 0, F4 OutSegloop: 0, F4 OUtRDI: 0

OAM cell drops: 0

Status; UP

ATM1/0.52: VCD: 4, VPI: 0 VCI: 216, Connection Name: sj-premium

UBR, PeakRate: 155000

AAL5-LLC/SNAP, etype: 0x0, Flags: 0xC20, VCmode: 0xE000

OAM frequency: 0 second(s), OAM retry frequency: 1 second(s)

OAM up retry count: 3, OAM down retry count: 5

OAM Loopback status: OAM Disabled

OAM VC state:  Not Managed

ILMI VC state: Not Managed 
InARP frequency: 15 minute(s)

InPkts: 0, OutPkts: 0, InBytes; 0, OutBytes: 0

InPRoc: 0, OutPRoc: 0, Broadcasts: 0

InFast: 0, OutFast: 0, InAS: 0 
OAM cells received: 0

F5 InEndloop: 0, F4 InSegloop: 0, F4InAIS; 0, F4 InRDI: 0

F4 OutEndloop: 0, F4 OutSegloop: F4 OutRDI: 0

OAM cell drops: 0

Status: UP

Related Commands

Command	Description
show atm bundle	Displays the bundle attributes assigned to each bundle VC member and the current working status of the VC members.
show atm map	Displays the list of all configured ATM static maps to remote hosts on an ATM network.

show class-map

To display all class maps and their matching criteria, or a specified class map and its matching criteria, use the show class-map EXEC or privileged EXEC command.

show class-map [class-map-name]

Syntax Description

class-map-name

(Optional) Name of the class map.

Defaults

No default behavior or values.

Command Modes

EXEC or privileged EXEC

Command History

Release	Modification
12.0(5)T	This command was introduced.

Usage Guidelines

You can use the show class-map command to display all class maps and their matching criteria. If you enter the optional class-map-name argument, the specified class map and its matching criteria will be displayed.

Examples

In the following example, three class maps are defined. Packets that match access list 103 belong to class c3, IP packets belong to class c2, and packets that come through input interface Ethernet1/0 belong to class c1. The output from the show class-map command shows the three defined class maps.

Router# show class-map

 Class Map c3 

 Match access-group 103 

 Class Map c2 

 Match protocol ip 

 Class Map c1 

 Match input-interface Ethernet1/0 

Related Commands

Command	Description
class-map	Creates a class map to be used for matching packets to a specified class.
show policy-map	Displays the configuration of all classes comprising the specified service policy map or all classes for all existing policy maps.

show interfaces fair-queue

To display information and all statistics about weighted fair queueing for a Versatile Interface Processor (VIP)-based interface, use the show interfaces fair-queue EXEC command.

show interfaces [interface-type interface-number] fair-queue

Syntax Description

interface-type	(Optional) The type of the interface.
interface-number	(Optional) The number of the interface.

Command Modes

EXEC

Command History

Release	Modification
11.1 CC	This command was introduced.

Examples

The following is sample output from the show interfaces fair-queue command for VIP-Distributed WFQ (DWFQ):

Router# show interfaces fair-queue

Hssi0/0/0 queue size 0

        packets output 1417079, drops 2

 WFQ: aggregate queue limit 54, individual queue limit 27

    max available buffers 54

     Class 0: weight 10 limit 27 qsize 0 packets output 1150 drops 0

     Class 1: weight 20 limit 27 qsize 0 packets output 0 drops 0

     Class 2: weight 30 limit 27 qsize 0 packets output 775482 drops 1

     Class 3: weight 40 limit 27 qsize 0 packets output 0 drops 0

Table 15 describes the fields and statistics shown in this display.

Table 15 show interfaces fair-queue Field Descriptions 

Field	Description
queue size	Current output queue size for this interface.
packets output	Number of packets sent out this interface or number of packets in this class sent out the interface.
drops	Number of packets dropped or number of packets in this class dropped.
aggregate queue limit	Aggregate limit (in number of packets).
individual queue limit	Individual limit (in number of packets).
max available buffers	Available buffer space allocated to aggregate queue limit (in number of packets).
Class	QoS group or type of service (ToS) class.
weight	Percent of bandwidth allocated to this class during periods of congestion.
limit	Queue limit for this class (in number of packets).
qsize	Current size of the queue for this class.

Related Commands

Command	Description
show interfaces	Displays statistics for all interfaces configured on the router or access server.

show interfaces random-detect

To display information about Weighted Random Early Detection (WRED) for a Versatile Interface Processor (VIP)-based interface, use the show interfaces random-detect EXEC command.

show interfaces [interface-type interface-number] random-detect

Syntax Description

interface-type	(Optional) The type of the interface.
interface-number	(Optional) The number of the interface.

Command Modes

EXEC

Command History

Release	Modification
11.1 CC	This command was introduced.

Examples

The following is sample output from the show interfaces random-detect command for VIP-Distributed WRED (DWRED):

Router# show interfaces random-detect

 FastEthernet1/0/0 queue size 0

        packets output 29692, drops 0

 WRED: queue average 0

       weight 1/512

     Precedence 0: 109 min threshold, 218 max threshold, 1/10 mark weight

       1 packets output, drops: 0 random, 0 threshold

     Precedence 1: 122 min threshold, 218 max threshold, 1/10 mark weight

        (no traffic)

     Precedence 2: 135 min threshold, 218 max threshold, 1/10 mark weight

       14845 packets output, drops: 0 random, 0 threshold

     Precedence 3: 148 min threshold, 218 max threshold, 1/10 mark weight

        (no traffic)

     Precedence 4: 161 min threshold, 218 max threshold, 1/10 mark weight

        (no traffic)

     Precedence 5: 174 min threshold, 218 max threshold, 1/10 mark weight

        (no traffic)

     Precedence 6: 187 min threshold, 218 max threshold, 1/10 mark weight

       14846 packets output, drops: 0 random, 0 threshold

     Precedence 7: 200 min threshold, 218 max threshold, 1/10 mark weight

        (no traffic)

Table 16 describes the fields shown in this display.

Table 16 show interfaces random-detect Field Descriptions 

Field	Description
queue size	Current output queue size for this interface.
packets output	Number of packets sent out this interface.
drops	Number of packets dropped.
queue average	Average queue length.
weight	Weighting factor used to determine the average queue size.
Precedence	WRED parameters for this precedence.
min threshold	Minimum threshold for this precedence.
max threshold	Maximum length of the queue. When the average queue is this long, any additional packets will be dropped.
mark weight	Probability of a packet being dropped if the average queue is at the maximum threshold.
packets output	Number of packets with this precedence that have been sent.
random	Number of packets dropped randomly through the WRED process.
threshold	Number of packets dropped automatically because the average queue was at the maximum threshold length.
(no traffic)	No packets with this precedence.

Related Commands

Command	Description
random-detect (interface)	Enables WRED or DWRED.
random-detect flow	Enables flow-based WRED.
show access-lists rate-limit	Configures WRED and DWRED parameters for a particular IP Precedence.
show interfaces	Displays statistics for all interfaces configured on the router or access server.
show queueing	Lists all or selected configured queueing strategies.

show interfaces rate-limit

To display information about committed access rate (CAR) for an interface, use the show interfaces rate-limit EXEC command.

show interfaces [interface-type interface-number] rate-limit

Syntax Description

interface-type	(Optional) The type of the interface.
interface-number	(Optional) The number of the interface.

Command Modes

EXEC

Command History

Release	Modification
11.1 CC	This command was introduced.

Examples

The following is sample output from the show interfaces rate-limit command:

Router# show interfaces fddi2/1/0 rate-limit

Fddi2/1/0

 Input

  matches: access-group rate-limit 100

   params: 800000000 bps, 64000 limit, 80000 extended limit

   conformed 0 packets, 0 bytes; action: set-prec-continue 1

   exceeded 0 packets, 0 bytes; action: set-prec-continue 0

   last packet: 4737508ms ago, current burst: 0 bytes

   last cleared 01:05:47 ago, conformed 0 bps, exceeded 0 bps

  matches: access-group 101

   params: 80000000 bps, 56000 limit, 72000 extended limit

   conformed 0 packets, 0 bytes; action: set-prec-transmit 5

   exceeded 0 packets, 0 bytes; action: set-prec-transmit 0

   last packet: 4738036ms ago, current burst: 0 bytes

   last cleared 01:02:05 ago, conformed 0 bps, exceeded 0 bps

  matches: all traffic

   params: 50000000 bps, 48000 limit, 64000 extended limit

   conformed 0 packets, 0 bytes; action: set-prec-transmit 5

   exceeded 0 packets, 0 bytes; action: set-prec-transmit 0

   last packet: 4738036ms ago, current burst: 0 bytes

   last cleared 01:00:22 ago, conformed 0 bps, exceeded 0 bps

 Output

  matches: all traffic

   params: 80000000 bps, 64000 limit, 80000 extended limit

   conformed 0 packets, 0 bytes; action: transmit

   exceeded 0 packets, 0 bytes; action: drop

   last packet: 4809528ms ago, current burst: 0 bytes

   last cleared 00:59:42 ago, conformed 0 bps, exceeded 0 bps

Table 17 describes the fields shown in this display.

Table 17 show interfaces rate-limit Field Descriptions

Field	Description
Input	These rate limits apply to packets received by the interface.
matches	Packets that match this rate limit.
params	Parameters for this rate limit, as configured by the rate-limit command.
bps	Average rate (in bits per second).
limit	Normal burst size (in bytes).
extended limit	Excess burst size (in bytes).
conformed	Number of packets that have conformed to the rate limit.
action	Conform action.
exceeded	Number of packets that have exceeded the rate limit.
action	Exceed action.
last packet	Time since the last packet (in milliseconds).
current burst	Instantaneous burst size at the current time.
last cleared	Time since the burst counter was set back to zero by the clear counters command.
conformed	Rate of conforming traffic.
exceeded	Rate of exceeding traffic.
Output	These rate limits apply to packets sent by the interface.

Related Commands

Command	Description
access-list rate-limit	Configures an access list for use with CAR policies.
clear counters	Clears the interface counters.
show access-lists	Displays the contents of current IP and rate-limit access lists.
show access-lists rate-limit	Displays information about rate-limit access lists.
show interfaces	Displays statistics for all interfaces configured on the router or access server.

show ip rsvp

To display the IP Precedence bit values and type of service (ToS) bit values to be used to mark the ToS byte of the IP headers of all packets in a Resource Reservation Protocol (RSVP) reserved path that conform to or exceed the RSVP flowspec for a given interface, use the show ip rsvp EXEC command.

show ip rsvp {precedence | tos} [interface]

Syntax Description

precedence	Displays IP Precedence bit and ToS bit conform and exceed values for all interfaces on the router. Either argument—precedence or tos—yields the same results. IP Precedence and ToS bit values for all interfaces with RSVP enabled are displayed in both cases. Either tos or precedence may be specified; one is required.
tos	Displays IP Precedence bit and ToS bit conform and exceed values for all interfaces on the router. Either argument—precedence or tos—yields the same results. IP Precedence and ToS bit values for all interfaces with RSVP enabled are displayed in both cases. Either tos or precedence may be specified; one is required.
interface	(Optional) The name of the interface. If this argument is omitted, IP Precedence and ToS bit values are displayed for all interfaces with RSVP enabled.

Command Modes

EXEC

Command History

Release	Modification
12.0(3)T	This command was introduced.

Usage Guidelines

Use this command to show the current IP Precedence bit values set for traffic conforming to or exceeding the RSVP flowspec for an interface if the ip rsvp precedence command was used to configure values for any Enhanced ATM port adapter (PA-A3) interface on the router.

Use this command to show the current ToS bit values set for traffic conforming to or exceeding the RSVP flowspec for an interface if the ip rsvp tos command was used to configure values for any Enhanced ATM port adapter (PA-A3) interface on the router.

The show ip rsvp tos and show ip rsvp precedence commands are functionally equivalent. They both show the IP Precedence and ToS bit values for all interfaces with RSVP enabled.

To display these values for a given interface exclusively, specify the interface name. If the interface argument is omitted, IP Precedence and ToS bit values are displayed for all interfaces with RSVP enabled.

Examples

The following sample output shows that for the ATM0 interface, the IP Precedence bits are set to 3 for traffic that conforms to the RSVP flowspec and to 2 for traffic that exceeds the flowspec. It also shows that for the ATM2 interface, the ToS bits are set to 6 for traffic that conforms to the RSVP flowspec and to 5 for traffic that exceeds the flowspec.

Router# show ip rsvp precedence

Interface name      Precedence    Precedence   TOS    TOS

                      conform       exceed   conform exceed

ATM0                    3             2         -      -

Ethernet1               -             -         -      - 

ATM2                    -             -         6      5

Hssi0                   -             -         -      - 

Loopback0               -             -         -      - 

The following sample output shows that for the ATM0 interface, the IP Precedence bits are set to 3 for traffic that conforms to the RSVP flowspec and to 2 for traffic that exceeds the flowspec:

Router# show ip rsvp tos ATM0

Interface name      Precedence    Precedence   TOS    TOS

                      conform       exceed   conform exceed

ATM0                    3             2         -      - 

Related Commands

Command	Description
ip rsvp precedence	Allows you to set the IP Precedence values to be applied to packets that either conform to or exceed the RSVP flowspec.
ip rsvp tos	Allows you to set the ToS values to be applied to packets that either conform to or exceed the RSVP flowspec.

show ip rsvp atm-peak-rate-limit

To display the current peak rate limit set for an interface, if any, use the show ip rsvp atm-peak-rate-limit EXEC command.

show ip rsvp atm-peak-rate-limit [interface]

Syntax Description

interface

(Optional) The name of the interface.

Command Modes

EXEC

Command History

Release	Modification
12.0(3)T	This command was introduced.

Usage Guidelines

The show ip rsvp atm-peak-rate-limit command displays the configured peak rate using the following notations for brevity:

•Kilobytes is shown as K bytes, for example, 1200 kilobytes is displayed as 1200K bytes.

•1000 kilobytes is displayed as 1M bytes.

If no interface name is specified, configured peak rates for all Resource Reservation Protocol (RSVP)-enabled interfaces are displayed.

Examples

The following example depicts results of the show ip rsvp atm-peak-rate-limit command, presuming that the subinterface atm2/0/0.1 was configured with a reservation peak rate limit of 100 KB using the ip rsvp atm-peak-rate-limit command.

The following is sample output from the show ip rsvp atm-peak-rate-limit command using the interface argument:

Router# show ip rsvp atm-peak-rate-limit atm2/0/0.1

RSVP: Peak rate limit for ATM2/0/0.1 is 100K bytes

The following samples show output from the show ip rsvp atm-peak-rate-limit command when no interface name is given:

Router# show ip rsvp atm-peak-rate-limit  
Interface name	        Peak rate limit

Ethernet0/1/1         not set

ATM2/0/0              not set

ATM2/0/0.1            100K 

Router# show ip rsvp atm-peak-rate-limit

Interface name       Peak rate limit     

Ethernet0/1          not set             

ATM2/1/0             1M                  

ATM2/1/0.10          not set             

ATM2/1/0.11          not set             

ATM2/1/0.12          not set        

Related Commands

Command	Description
ip rsvp atm-peak-rate-limit	Sets a limit on the peak cell rate of reservations for all newly created RSVP SVCs established on the current interface or any of its subinterfaces.

show ip rsvp installed

To display Resource Reservation Protocol (RSVP)-related installed filters and corresponding bandwidth information, use the show ip rsvp installed EXEC command.

show ip rsvp installed [interface-type interface-number]

Syntax Description

interface-type	(Optional) The type of the interface.
interface-number	(Optional) The number of the interface.

Command Modes

EXEC

Command History

Release	Modification
11.2	This command was introduced.

Usage Guidelines

The command displays the current installed RSVP filters and the corresponding bandwidth information for a specified interface or all interfaces.

Examples

The following is sample output from the show ip rsvp installed command:

Router# show ip rsvp installed 

RSVP: 

RSVP: Ethernet1: has no installed reservations

RSVP: Serial0:

     kbps   To              From       Protocol DPort Sport Weight Conversation

     0      224.250.250.1   132.240.2.28     UDP 20    30    128   270

     150    224.250.250.1   132.240.2.1      UDP 20    30    128   268

     100    224.250.250.1   132.240.1.1      UDP 20    30    128   267

     200    224.250.250.1   132.240.1.25     UDP 20    30    256   265

     200    224.250.250.2   132.240.1.25     UDP 20    30    128   271

     0      224.250.250.2   132.240.2.28     UDP 20    30    128   269

     150    224.250.250.2   132.240.2.1      UDP 20    30    128   266

     350    224.250.250.3   0.0.0.0          UDP 20    0     128   26

Table 18 describes significant fields shown in this display.

Table 18 show ip rsvp installed Field Descriptions 

Field	Description
kbps	Reserved rate.
To	IP address of the source device.
From	IP address of the destination device.
Protocol DPort	Protocol type of the destination User Datagram Protocol UDP/TCP port (no longer the usual protocol).
Sport	Source UDP/TCP port.
Weight	Weight used in weighted fair queueing (WFQ).
Conversation	WFQ conversation number. If the WFQ is not configured on the interface, weight and conversation will be zero.

show ip rsvp interface

To display Resource Reservation Protocol (RSVP)-related interface information, use the show ip rsvp interface EXEC command.

show ip rsvp interface [interface-type interface-number]

Syntax Description

interface-type	(Optional) The type of the interface.
interface-number	(Optional) The number of the interface.

Command Modes

EXEC

Command History

Release	Modification
11.2	This command was introduced.

Usage Guidelines

The primary purpose of this command is to determine the status of RSVP on an interface.

Use this command to determine if the ip rsvp svc-required command was used to configure an interface or subinterface to tell RSVP that reservations made on that interface are to be serviced by creation of a switched virtual circuit (SVC).

Use this command to determine if the ip rsvp flow-assist command was used to configure an interface to enable RSVP to attach itself to NetFlow.

Use this command to show the current allocation budget and maximum allocatable bandwidth.

Examples

The following sample output from the show ip rsvp interface command shows that for the AT2/0/0 interface RSVP has been informed that reservations made on that interface are to be serviced by creation of an SVC. It also shows that for the AT2/0/1 interface, RSVP is enabled to attach itself to NetFlow.

Router# show ip rsvp interface 

interface allocate i/f max flow max per/255 UDP IP UDP_IP  UDP M/C

AT2/0/0   OM       116640K 116640K  0  /255 0   0  0       0        SVC

AT2/0/1   OM       116640K 116640K  0  /255 0   0  0       0        FLOW 

Et1/0     OM       7500K   7500K    0  /255 0   1  0       0

The following sample output from the show ip rsvp interface command shows that for the AT3/0/0 interface RSVP has been configured to establish an SVC to service any reservations made on the interface. RSVP-ATM QoS Interworking has not been enabled for Et0/2.

Router# show ip rsvp interface 

interface    allocate i/f max  flow max per/255 UDP  IP   UDP_IP   UDP M/C 

Et0/2        0M       7500K    7500K    0  /255 0    1    0        0       

AT3/0/0      0M       112320K  112320K  0  /255 0    1    0        0         SVC

Table 19 describes significant fields shown in the displays.

Table 19 show ip rsvp interface Field Descriptions 

Field	Description
interface	Interface name.
allocate	Current allocation budget.
i/f max	Maximum allocatable bandwidth.
flow max	Largest single flow allocatable on this interface.
per /255	Percent of bandwidth utilized.
UDP	Number of neighbors sending User Datagram Protocol (UDP)-encapsulated RSVP.
IP	Number of neighbors sending IP-encapsulated RSVP.
UDP_IP	Number of neighbors sending both UDP- and IP-encapsulated RSVP.
UDP M/C	Is router configured for UDP on this interface?
SVC	Use of an SVC to service each reservation.
FLOW	RSVP is enabled to attach itself to NetFlow.

Related Commands

Command	Description
ip rsvp flow-assist	Enables RSVP to attach itself to NetFlow so that it can leverage NetFlow services.
ip rsvp svc-required	Enables creation of an SVC to service any new RSVP reservation made on the interface or subinterface.

show ip rsvp neighbor

To display current Resource Reservation Protocol (RSVP) neighbors, use the show ip rsvp neighbor EXEC command.

show ip rsvp neighbor [interface-type interface-number]

Syntax Description

interface-type	(Optional) The type of the interface.
interface-number	(Optional) The number of the interface.

Command Modes

EXEC

Command History

Release	Modification
11.2	This command was introduced.

Usage Guidelines

Use this command to show the current RSVP neighbors and identify if the neighbor is using IP, User Datagram Protocol (UDP), or RSVP encapsulation for a specified interface or all interfaces.

Examples

The following is sample output from the show ip rsvp neighbor command:

Router# show ip rsvp neighbor

Interface Neighbor        Encapsulation

Se1       132.240.1.49    RSVP

Table 20 describes significant fields shown in this display.

Table 20 show ip rsvp neighbor Field Descriptions

Field	Description
Interface	Interface name.
Neighbor	IP address of the RSVP neighbor.
Encapsulation	The type of encapsulation the neighbor is using: IP, UDP, or RSVP.

show ip rsvp request

To display Resource Reservation Protocol (RSVP)-related request information being requested upstream, use the show ip rsvp request EXEC command.

show ip rsvp request [detail]

Syntax Description

detail

(Optional) Specifies additional request information.

Command Modes

EXEC

Command History

Release	Modification
11.2	This command was introduced.

Usage Guidelines

Use this command to show the RSVP reservations currently being requested upstream for a specified interface or all interfaces. The received reservations may differ from requests because of aggregated or refused reservations.

Examples

The following is sample output from the show ip rsvp request command:

Router# show ip rsvp request 

To            From          Pro DPort Sport Next Hop      I/F   Fi Serv

132.240.1.49  132.240.4.53  1   0     0     132.240.3.53  Et1   FF LOAD

Table 21 describes significant fields shown in this display.

Table 21 show ip rsvp request Field Descriptions 

Field	Description
To	IP address of the receiver.
From	IP address of the sender.
Pro	Protocol code. Code 1 indicates Internet Control Message Protocol (ICMP).
DPort	Destination port number.
Sport	Source port number.
Next Hop	IP address of the next hop.
I/F	Interface of the next hop.
Fi	Filter (Wild Card Filter, Shared Explicit, or Fixed Filter).
Serv	Service (value can be rate or load).

show ip rsvp reservation

To display Resource Reservation Protocol (RSVP)-related receiver information currently in the database, use the show ip rsvp reservation EXEC command.

show ip rsvp reservation [detail]

Syntax Description

detail

(Optional) Specifies additional reservation information.

Command Modes

EXEC

Command History

Release	Modification
11.2	This command was introduced.

Usage Guidelines

Use this command to show the current receiver (RESV) information in the database for a specified interface or all interfaces. This information includes reservations aggregated and forwarded from other RSVP routers.

Examples

The following is sample output from the show ip rsvp reservation command:

Router# show ip rsvp reservation

To            From          Pro DPort Sport Next Hop      I/F   Fi Serv

132.240.1.49  132.240.4.53  1   0     0     132.240.1.49  Se1   FF LOAD

Table 22 describes significant fields shown in this display.

Table 22 show ip rsvp reservation Field Descriptions 

Field	Descriptions
To	IP address of the receiver.
From	IP address of the sender.
Pro	Protocol code. Code 1 indicates Internet Control Message Protocol (ICMP).
DPort	Destination port number.
Sport	Source port number.
Next Hop	IP address of the next hop.
I/F	Interface of the next hop.
Fi	Filter (Wild Card Filter, Shared Explicit, or Fixed Filter).
Serv	Service (value can be rate or load).

show ip rsvp sbm

To display information about a Subnetwork Bandwidth Manager (SBM) configured for a specific Resource Reservation Protocol (RSVP) enabled interface or for all RSVP-enabled interfaces on the router, use the show ip rsvp sbm EXEC command.

show ip rsvp sbm [detail] [interface-name]

Syntax Description

detail	(Optional) Detailed SBM configuration information, including values for the NonResvSendLimit object.
interface-name	(Optional) Name of the interface for which you want to display SBM configuration information.

Command Modes

EXEC

Command History

Release	Modification
12.0(5)T	This command was introduced.
12.1(1)	The detail keyword was added.

Usage Guidelines

To obtain SBM configuration information about a specific interface configured to use RSVP, specify the interface name with the show ip rsvp sbm command. To obtain information about all interfaces enabled for RSVP on the router, use the show ip rsvp sbm command without specifying an interface name.

To view the values for the NonResvSendLimit object, use the detail keyword.

Examples

The following example displays information for the two RSVP-enabled Ethernet interfaces Et1 and Et2 on router1:

router1# show ip rsvp sbm

Interface DSBM Addr      DSBM Priority    DSBM Candidate   My Priority

Et1      1.1.1.1         70               yes              70

Et2      10.2.2.150      100              yes              100

The following example displays information about the RSVP-enabled Ethernet interface e2 on router1:

router1# show ip rsvp sbm e2

Interface DSBM Addr       DSBM Priority    DSBM candidate   My Priority

e2        10.2.2.150      100              yes              100 

Table 23 identifies the fields and their values displayed as output of the show ip rsvp sbm command.

Table 23 show ip rsvp sbm Field Descriptions 

Field	Description
Interface	Name of the Designated Subnetwork Bandwidth Manager (DSBM) candidate interface on the router.
DSBM Addr	IP address of the DSBM.
DSBM Priority	Priority of the DSBM.
DSBM Candidate	Yes if the ip rsvp dsbm candidate command was issued for this SBM to configure it as a DSBM candidate. No if it was not so configured.
My Priority	Priority configured for this interface.

The following example displays information about the RSVP-enabled Ethernet interface Ethernet2 on router1. In the left column, the local SBM configuration is shown; in the right column, the corresponding information for the current DSBM is shown. In this example, the information is the same because the DSBM won election.

router1# show ip rsvp sbm detail

Interface:Ethernet2

Local Configuration             Current DSBM

  IP Address:10.2.2.150         IP Address:10.2.2.150

  DSBM candidate:yes             I Am DSBM:yes

  Priority:100                   Priority:100

  Non Resv Send Limit             Non Resv Send Limit

    Rate:500 Kbytes/sec            Rate:500 Kbytes/sec

    Burst:1000 Kbytes              Burst:1000 Kbytes

    Peak:500 Kbytes/sec            Peak:500 Kbytes/sec

    Min Unit:unlimited             Min Unit:unlimited

    Max Unit:unlimited             Max Unit:unlimited

Table 24 identifies the fields and their values displayed as output of the show ip rsvp sbm detail command.

Table 24 show ip rsvp sbm detail Field Descriptions 

Field	Description
Local Configuration	The local DSBM candidate configuration.
Current DSBM	The current DSBM configuration.
Interface	Name of the DSBM candidate interface on the router.
IP Address	IP address of the local DSBM candidate or the current DSBM.
DSBM candidate	Yes if the ip rsvp dsbm candidate command was issued for this SBM to configure it as a DSBM candidate. No if it was not so configured.
I am DSBM	Yes if the local candidate is the DSBM. No if the local candidate is not the DSBM.
Priority	Priority configured for the local DSBM candidate or the current SBM.
Rate	The average rate (in kbps) for the DSBM candidate.
Burst	The maximum burst size (in KB) for the DSBM candidate.
Peak	The peak rate (in kbps) for the DSBM candidate.
Min Unit	The minimum policed unit (in bytes) for the DSBM candidate.
Max Unit	The maximum packet size (in bytes) for the DSBM candidate.

Related Commands

Command	Description
ip rsvp dsbm candidate	Configures an interface as a DSBM candidate.
ip rsvp dsbm non-resv-send-limit	Configures the NonResvSendLimit object parameters.

show ip rsvp sender

To display Resource Reservation Protocol (RSVP) PATH-related sender information currently in the database, use the show ip rsvp sender EXEC command.

show ip rsvp sender [detail]

Syntax Description

detail

(Optional) Specifies additional sender information.

Command Modes

EXEC

Command History

Release	Modification
11.2	This command was introduced.

Usage Guidelines

Use this command to show the RSVP sender (PATH) information currently in the database for a specified interface or all interfaces.

Examples

The following is sample output from the show ip rsvp sender command:

Router# show ip rsvp sender

To              From            Pro DPort Sport Prev Hop        I/F

132.240.1.49    132.240.4.53    1   0     0     132.240.3.53    Et1 

132.240.2.51    132.240.5.54    1   0     0     132.240.3.54    Et1 

Table 25 describes the fields shown in this display.

Table 25 show ip rsvp sender Field Descriptions

Field	Description
To	IP address of the receiver.
From	IP address of the sender.
Pro	Protocol code. Code 1 indicates Internet Control Message Protocol (ICMP).
DPort	Destination port number.
Sport	Source port number.
Prev Hop	IP address of the previous hop.
I/F	Interface of the previous hop.

show policy-map

To display the configuration of all classes comprising the specified service policy map or all classes for all existing policy maps, use the show policy-map EXEC or privileged EXEC command.

show policy-map [policy-map]

Syntax Description

policy-map

(Optional) The name of the service policy map whose complete configuration is to be displayed.

Defaults

All existing policy map configurations are displayed.

Command Modes

EXEC or privileged EXEC

Command History

Release	Modification
12.0(5)T	This command was introduced.

Usage Guidelines

The show policy-map command displays the configuration of a service policy map created using the policy-map command. You can use the show policy-map command to display all class configurations comprising any existing service policy map, whether or not that service policy map has been attached to an interface.

Examples

The following example displays the contents of the service policy map called po1:

Router# show policy-map po1

Policy Map po1 
 Weighted Fair Queueing 
    Class class1 
       Bandwidth 937 (kbps) Max thresh 64 (packets) 
    Class class2 
        Bandwidth 937 (kbps)  Max thresh 64 (packets)

    Class class3 
        Bandwidth 937 (kbps)  Max thresh 64 (packets) 
    Class class4 
        Bandwidth 937 (kbps)  Max thresh 64 (packets) 
    Class class5 
        Bandwidth 937 (kbps)  Max thresh 64 (packets) 
    Class class6 
        Bandwidth 937 (kbps)  Max thresh 64 (packets) 
    Class class7 
        Bandwidth 937 (kbps)  Max thresh 64 (packets) 
    Class class8 
         Bandwidth 937 (kbps)  Max thresh 64 (packets)

The following example displays the contents of all policy maps on the router:

Router# show policy-map 

Policy Map poH1 
 Weighted Fair Queueing 
    Class class1 
       Bandwidth 937 (kbps) Max thresh 64 (packets) 
    Class class2 
        Bandwidth 937 (kbps)  Max thresh 64 (packets)

    Class class3 
        Bandwidth 937 (kbps)  Max thresh 64 (packets) 
    Class class4 
        Bandwidth 937 (kbps)  Max thresh 64 (packets) 
    Class class5 
        Bandwidth 937 (kbps)  Max thresh 64 (packets) 
    Class class6 
        Bandwidth 937 (kbps)  Max thresh 64 (packets) 
    Class class7 
        Bandwidth 937 (kbps)  Max thresh 64 (packets) 
    Class class8 
         Bandwidth 937 (kbps)  Max thresh 64 (packets)

Policy Map policy2 
 Weighted Fair Queueing 
    Class class1 
       Bandwidth 300 (kbps) Max thresh 64 (packets) 
    Class class2 
        Bandwidth 300  (kbps)  Max thresh 64 (packets)

    Class class3 
        Bandwidth 300 (kbps)  Max thresh 64 (packets) 
    Class class4 
        Bandwidth 300 (kbps)  Max thresh 64 (packets) 
    Class class5 
        Bandwidth 300 (kbps)  Max thresh 64 (packets) 
    Class class6 
        Bandwidth 300 (kbps)  Max thresh 64 (packets) 

Related Commands

Command	Description
show policy-map class	Displays the configuration for the specified class of the specified policy map.
show policy-map interface	Displays the configuration of classes configured for service policies on the specified interface or PVC.

show policy-map class

To display the configuration for the specified class of the specified policy map, use the show policy-map class EXEC or privileged EXEC command.

show policy-map policy-map class class-name

Syntax Description

policy-map	The name of a policy map that contains the class configuration to be displayed.
class-name	The name of the class whose configuration is to be displayed.

Defaults

No default behavior or values.

Command Modes

EXEC or privileged EXEC

Command History

Release	Modification
12.0(5)T	This command was introduced.

Usage Guidelines

You can use the show policy-map class command to display any single class configuration for any service policy map, whether or not the specified service policy map has been attached to an interface.

Examples

The following example displays configurations for the class called class7 that belongs to the policy map po1:

Router# show policy-map po1 class class7 
Class class7 
 Bandwidth 937 (kbps) Max Thresh 64 (packets)

Related Commands

Command	Description
show policy-map	Displays the configuration of all classes comprising the specified service policy map or all classes for all existing policy maps.
show policy-map interface	Displays the configuration of classes configured for service policies on the specified interface or PVC.

show policy-map interface

To display the configuration of all classes configured for all service policies on the specified interface or to display the classes for the service policy for a specific permanent virtual circuit (PVC) on the interface, use the show policy-map interface EXEC or privileged EXEC command.

show policy-map interface interface-name [vc [vpi/] vci]] {input | output}

Syntax Description

interface-name	Name of the interface or subinterface whose policy configuration is to be displayed.
vc	(Optional) For ATM interfaces only, shows the policy configuration for a specified PVC. The name can be up to 16 characters long.
vpi/	(Optional) ATM network virtual path identifier (VPI) for this PVC. The absence of the "/" and a vpi value defaults the vpi value to 0. On the Cisco 7200 and 7500 series routers, this value ranges from 0 to 255. The vpi and vci arguments cannot both be set to 0; if one is 0, the other cannot be 0. If this value is omitted, information for all VCs on the specified ATM interface or subinterface is displayed.
vci	(Optional) ATM network virtual channel identifier (VCI) for this PVC. This value ranges from 0 to 1 less than the maximum value set for this interface by the atm vc-per-vp command. Typically, lower values 0 to 31 are reserved for specific traffic (F4 Operation, Administration, and Maintenance (OAM), switched virtual circuit (SVC) signalling, Integrated Local Management Interface (ILMI), and so on) and should not be used. The VCI is a 16-bit field in the header of the ATM cell. The VCI value is unique only on a single link, not throughout the ATM network, because it has local significance only. The vpi and vci arguments cannot both be set to 0; if one is 0, the other cannot be 0.
input	(Optional) Indicates that the statistics for the attached input policy will be displayed.
output	(Optional) Indicates that the statistics for the attached output policy will be displayed.

Defaults

There is no default behavior.

Command Modes

EXEC or privileged EXEC

Command History

Release	Modification
12.0(5)T	This command was introduced.

Usage Guidelines

This command displays the configuration for classes on the specified interface or the specified PVC only if a service policy has been attached to the interface or the PVC.

You can use the pvc-name argument to display output for a PVC only for Enhanced ATM port adapters (PA-A3) that support per-VC queueing.

The counters displayed after the show policy-map interface command is entered are updated only if congestion is present on the interface.

Examples

The following example displays configurations for classes on the output interface e1/1:

Router# show policy-map interface output e1/1

Ethernet1/1 output : po1

 Weighted Fair Queueing

    Class class1

      Output Queue: Conversation 264

        Bandwidth 937 (kbps) Max Threshold 64 (packets)

        (total/discards/tail drops) 11548/0/0

    Class class2

      Output Queue: Conversation 265

        Bandwidth 937 (kbps) Max Threshold 64 (packets)

        (total/discards/tail drops) 11546/0/0

    Class class3

      Output Queue: Conversation 266

        Bandwidth 937 (kbps) Max Threshold 64 (packets)

        (total/discards/tail drops) 11546/0/0

    Class class4

      Output Queue: Conversation 267

        Bandwidth 937 (kbps) Max Threshold 64 (packets)

        (total/discards/tail drops) 11702/0/0

    Class class5

      Output Queue: Conversation 268

        Bandwidth 937 (kbps) Max Threshold 64 (packets)

        (total/discards/tail drops) 11701/0/0

    Class class6

      Output Queue: Conversation 269

        Bandwidth 937 (kbps) Max Threshold 64 (packets)

        (total/discards/tail drops) 11702/0/0

    Class class7

      Output Queue: Conversation 270

        Bandwidth 937 (kbps) Max Threshold 64 (packets)

        (total/discards/tail drops) 11857/0/0

    Class class8

      Output Queue: Conversation 271

        Bandwidth 937 (kbps) Max Threshold 64 (packets)

        (total/discards/tail drops) 11858/1/0

The following example displays configurations for classes comprising the service policy for the output VC 0/101 on the output interface atm2/0.6:

Router# show policy-map interface atm2/0.6

 ATM2/0.6: VC 0/101 - output : p1

  Weighted Fair Queueing

    Class c-vc1-c1

      Output Queue: Conversation 264

        Bandwidth 31 (kbps)

      mean queue depth: 1

      drops: class  random   tail     min-th   max-th   mark-prob

             0      0        0        100      200      1/10

             1      0        0        105      200      1/10

             2      0        0        110      200      1/10

             3      0        0        115      200      1/10

             4      0        0        120      200      1/10

             5      0        0        125      200      1/10

             6      0        0        130      200      1/10

             7      0        0        135      200      1/10

             rsvp   0        0        140      200      1/10

    Class c-vc1-c2

      Output Queue: Conversation 265

        Bandwidth 54 (kbps)

      mean queue depth: 1

      drops: class  random   tail     min-th   max-th   mark-prob

             0      0        0        60       100      1/10

             1      0        0        65       100      1/10

             2      0        0        70       100      1/10

             3      0        0        75       100      1/10

             4      0        0        80       100      1/10

             5      0        0        83       100      1/10

             6      0        0        85       100      1/10

             7      0        0        87       100      1/10

             rsvp   0        0        90       100      1/10

    Class c-vc1-c3

      Output Queue: Conversation 266

        Bandwidth 77 (kbps)

      mean queue depth: 0

      drops: class  random   tail     min-th   max-th   mark-prob

             0      0        0        1        10       1/10

             1      0        0        2        10       1/10

             2      0        0        3        10       1/10

             3      0        0        4        10       1/10

             4      0        0        5        10       1/10

             5      0        0        6        10       1/10

             6      0        0        7        10       1/10

             7      0        0        7        10       1/10

             rsvp   0        0        7        10       1/10

    Class c-vc1-c4

      Output Queue: Conversation 267

        Bandwidth 100 (kbps)

      mean queue depth: 9

      drops: class  random   tail     min-th   max-th   mark-prob

             0      0        0        1        10       1/10

             1      9        220      2        10       1/10

             2      24       645      3        10       1/10

             3      22       844      4        10       1/10

             4      0        0        5        10       1/10

             5      23       351      6        10       1/10

             6      28       213      7        10       1/10

             7      59       540      7        10       1/10

             rsvp   0        0        7        10       1/10

    Class c-vc1-c5

      Output Queue: Conversation 268

        Bandwidth 123 (kbps)

      mean queue depth: 150

      drops: class  random   tail     min-th   max-th   mark-prob

             0      120      1777     50       150      1/50

             1      136      1549     60       150      1/50

             2      88       2354     70       150      1/50

             3      121      1569     80       150      1/50

             4      122      1717     80       150      1/50

             5      0        0        90       150      1/50

             6      0        0        100      150      1/50

             7      105      2058     110      150      1/50

             rsvp   0        0        120      150      1/50

    Class c-vc1-c6

      Output Queue: Conversation 269

        Bandwidth 146 (kbps) Max Threshold 64 (packets)

        (total/discards/tail drops) 50216/32696/0

    Class c-vc1-c7

      Output Queue: Conversation 270

        Bandwidth 216 (kbps) Max Threshold 64 (packets)

        (total/discards/tail drops) 74577/51994/0

    Class class-default

      Flow Based Fair Queueing

      Number of Hashed Queues 256

      drops: class  random   tail     min-th   max-th   mark-prob

             0      101      828      50       150      1/50

             1      87       1154     60       150      1/50

             2      115      476      70       150      1/50

             3      116      444      80       150      1/50

             4      123      338      80       150      1/50

             5      92       1042     90       150      1/50

             6      79       1068     100      150      1/50

             7      110      740      110      150      1/50

             rsvp   0        0        120      150      1/50

Related Commands

Command	Description
show policy-map	Displays the configuration of all classes comprising the specified service policy map or all classes for all existing policy maps.
show policy-map class	Displays the configuration for the specified class of the specified policy map.

show queue

To display the contents of packets inside a queue for a particular interface or virtual circuit (VC), use the show queue privileged EXEC command.

show queue interface-name interface-number [vc [vpi/] vci]]

Syntax Description

interface-name	The name of the interface.
interface-number	The number of the interface.
vc	(Optional) For ATM interfaces only, shows the fair queueing configuration for a specified permanent virtual circuit (PVC). The name can be up to 16 characters long.
vpi/	(Optional) ATM network virtual path identifier (VPI) for this PVC. The absence of the "/" and a vpi value defaults the vpi value to 0. On the Cisco 7200 and 7500 series routers, this value ranges from 0 to 255. The vpi and vci arguments cannot both be set to 0; if one is 0, the other cannot be 0. If this value is omitted, information for all VCs on the specified ATM interface or subinterface is displayed.
vci	(Optional) ATM network virtual channel identifier (VCI) for this PVC. This value ranges from 0 to 1 less than the maximum value set for this interface by the atm vc-per-vp command. Typically, lower values 0 to 31 are reserved for specific traffic (F4 Operation, Administration, and Maintenance (OAM), switched virtual circuit (SVC) signalling, Integrated Local Management Interface (ILMI), and so on) and should not be used. The VCI is a 16-bit field in the header of the ATM cell. The VCI value is unique only on a single link, not throughout the ATM network, because it has local significance only. The vpi and vci arguments cannot both be set to 0; if one is 0, the other cannot be 0.

Command Modes

Privileged EXEC

Command History

Release	Modification
10.2	This command was introduced.

Usage Guidelines

This command displays the contents of packets inside a queue for a particular interface or VC.

This command does not support VIP-Distributed WRED (DWRED). You can use the vc keyword and its arguments to display output for a PVC only on Enhanced ATM port adapters (PA-A3) that support per-VC queueing.

Examples

The following examples show sample output when the show queue command is entered and either weighted fair queueing (WFQ), random early detection (WRED), or flow-based WRED are configured.

WFQ Example

The following is sample output from the show queue command for PVC 33 on the atm2/0.33 ATM subinterface. Two conversations are active on this interface. WFQ ensures that both data streams receive equal bandwidth on the interface while they have messages in the pipeline.

Router# show queue atm2/0.33 vc 33

Interface ATM2/0.33 VC 0/33

  Queueing strategy: weighted fair

  Total output drops per VC: 18149

  Output queue: 57/512/64/18149 (size/max total/threshold/drops)

     Conversations  2/2/256 (active/max active/max total)

     Reserved Conversations 3/3 (allocated/max allocated)

  (depth/weight/discards/tail drops/interleaves) 29/4096/7908/0/0

  Conversation 264, linktype: ip, length: 254

  source: 10.1.1.1, destination: 10.0.2.20, id: 0x0000, ttl: 59,

  TOS: 0 prot: 17, source port 1, destination port 1

  (depth/weight/discards/tail drops/interleaves) 28/4096/10369/0/0

  Conversation 265, linktype: ip, length: 254

  source: 10.1.1.1, destination: 10.0.2.20, id: 0x0000, ttl: 59,

  TOS: 32 prot: 17, source port 1, destination port 2

Table 26 describes the fields shown in this display.

Table 26 show queue Field Descriptions for WFQ 

Field	Description
Input Queue	Input queue size (in packets).
Total output drops per VC	Total output packet drops.
Queueing strategy	Type of queueing active on this interface.
Output queue	Output queue size (in packets).
Conversations	WFQ conversation number.
Reserved Conversations	Total number of reserved WFQ conversations. Default is 256.
depth	Queue depth for the conversation (in packets).
weight	Weight used in WFQ.
discards	Number of packet discards for the conversation.
tail drops	Number of tail drop packets for the conversation.
interleaves	Number of packets interleaved.
linktype	Protocol name.
length	Packet length.
source	Source IP address.
destination	Destination IP address.
id	Packet ID.
ttl	Time to live count.
TOS	IP type of service.
prot	Layer 4 protocol number.

Flow-Based WRED Example

The following is sample output from the show queue command issued for the Serial1 interface on which flow-based WRED is configured. The output shows information for each packet in the queue; the data identifies the packet by number, the flow-based queue to which the packet belongs, the protocol used, and so forth.

Router# show queue Serial1

   Output queue for Serial1 is 2/0

   Packet 1, flow id:160, linktype:ip, length:118, flags:0x88

     source:10.1.3.4, destination:10.1.2.2, id:0x0000, ttl:59,

     TOS:32 prot:17, source port 1, destination port 515

       data:0x0001 0x0203 0x0405 0x0607 0x0809 0x0A0B 0x0C0D 

             0x0E0F 0x1011 0x1213 0x1415 0x1617 0x1819 0x1A1B 

   Packet 2, flow id:161, linktype:ip, length:118, flags:0x88

     source:10.1.3.5, destination:10.1.2.2, id:0x0000, ttl:59,

     TOS:64 prot:17, source port 1, destination port 515

       data:0x0001 0x0203 0x0405 0x0607 0x0809 0x0A0B 0x0C0D 

             0x0E0F 0x1011 0x1213 0x1415 0x1617 0x1819 0x1A1B 

Table 27 describes the fields shown in this display.

Table 27 show queue Field Descriptions for Flow-Based WRED 

Field	Description
Packet	Packet number.
flow id	Flow-based WRED number.
linktype	Protocol name.
length	Packet length.
flags	Internal version-specific flags.
source	Source IP address.
destination	Destination IP address.
id	Packet ID.
ttl	Time to live count.
prot	Layer 4 protocol number.
data	Packet data.

WRED Example

The following is sample output from the show queue command issued for the Serial3 interface on which WRED is configured. The output has been truncated to show only two of the 24 packets.

Router# show queue Serial3

   Output queue for Serial3 is 24/0

   Packet 1, linktype:ip, length:118, flags:0x88

     source:10.1.3.25, destination:10.1.2.2, id:0x0000, ttl:59,

     TOS:192 prot:17, source port 1, destination port 515

       data:0x0001 0x0203 0x0405 0x0607 0x0809 0x0A0B 0x0C0D 

             0x0E0F 0x1011 0x1213 0x1415 0x1617 0x1819 0x1A1B 

   Packet 2, linktype:ip, length:118, flags:0x88

     source:10.1.3.26, destination:10.1.2.2, id:0x0000, ttl:59,

     TOS:224 prot:17, source port 1, destination port 515

       data:0x0001 0x0203 0x0405 0x0607 0x0809 0x0A0B 0x0C0D 

             0x0E0F 0x1011 0x1213 0x1415 0x1617 0x1819 0x1A1B 

Related Commands

Command	Description
custom-queue-list	Assigns a custom queue list to an interface.
fair-queue (class-default)	Specifies the number of dynamic queues to be reserved for use by the class-default class as part of the default class policy.
fair-queue (WFQ)	Enables WFQ for an interface.
priority-group	Assigns the specified priority list to an interface.
random-detect (interface)	Enables WRED or DWRED.
random-detect flow	Enables flow-based WRED.
show interfaces fair-queue	Displays information and statistics about WFQ for a VIP-based interface.
show queueing	Lists all or selected configured queueing strategies.

show queueing

To list all or selected configured queueing strategies, use the show queueing privileged EXEC command.

show queueing [custom | fair | priority | random-detect [interface atm-subinterface [vc [[vpi/] vci]]]]

Syntax Description

custom	(Optional) Status of the custom queueing list configuration.
fair	(Optional) Status of the fair queueing configuration.
priority	(Optional) Status of the priority queueing list configuration.
random-detect	(Optional) Status of the Weighted Random Early Detection (WRED) and VIP-Distributed WRED (DWRED) configuration, including configuration of flow-based WRED.
interface atm-subinterface	(Optional) Displays the WRED parameters of every virtual circuit (VC) with WRED enabled on the specified ATM subinterface.
vc	(Optional) Displays the WRED parameters associated with a specific VC. If desired, both the virtual path identifier (VPI) and virtual circuit identifier (VCI) values, or just the VCI value, can be specified.
vpi/	(Optional) Specifies the VPI. If the vpi argument is omitted, 0 is used as the VPI value for locating the permanent virtual circuit (PVC). If the vpi argument is specified, the / separator is required.
vci	(Optional) Specifies the VCI.

Defaults

If no keyword is entered, this command shows the configuration of all interfaces.

Command Modes

Privileged EXEC

Command History

Release	Modification
10.3	This command was introduced.
12.0(4)T	The red keyword was changed to random-detect.

Examples

The following is sample output from the show queueing command. There are two active conversations in the serial interface 0. Weighted fair queueing ensures that both of these IP data streams—both using TCP—receive equal bandwidth on the interface while they have messages in the pipeline, even though there is more FTP data in the queue than remote-procedure call (RCP) data.

Router# show queueing

Current fair queue configuration:

Interface           Discard     Dynamic      Reserved

                    threshold   queue count  queue count

  Serial0             64          256          0    

  Serial1             64          256          0    

  Serial2             64          256          0    

  Serial3             64          256          0    

Current priority queue configuration:

List   Queue  Args

1      high   protocol cdp         

2      medium interface Ethernet1  

Current custom queue configuration:

Current random-detect configuration:

  Serial5

    Queueing strategy:random early detection (WRED)

    Exp-weight-constant:9 (1/512)

    Mean queue depth:40

    Class   Random       Tail    Minimum    Maximum     Mark 

              drop       drop  threshold  threshold  probability 

      0       1401       9066        20         40      1/10 

      1          0          0        22         40      1/10 

      2          0          0        24         40      1/10 

      3          0          0        26         40      1/10 

      4          0          0        28         40      1/10 

      5          0          0        31         40      1/10 

      6          0          0        33         40      1/10 

      7          0          0        35         40      1/10 

      rsvp       0          0        37         40      1/10

Table 28 describes the significant fields shown in this display.

Table 28 show queueing Field Descriptions 

Field	Description
Discard threshold	Number of messages allowed in each queue.
Dynamic queue count	Number of dynamic queues used for best-effort conversations.
Reserved queue count	Number of reservable queues used for reserved conversations.
List	Custom queueing—Number of the queue list. Priority queueing—Number of the priority list.
Queue	Custom queueing—Number of the queue. Priority queueing—Priority queue level (high, medium, normal, or low).
Args	Packet matching criteria for that queue.
Exp-weight-constant	Exponential weight factor.
Mean queue depth	Average queue depth. It is calculated based on the actual queue depth on the interface and the exponential weighting constant. It is a moving average. The minimum and maximum thresholds are compared against this value to determine drop decisions.
Class	IP Precedence value.
Random drop	Number of packets randomly dropped when the mean queue depth is between the minimum threshold value and the maximum threshold value for the specified IP Precedence value.
Tail drop	Number of packets dropped when the mean queue depth is greater than the maximum threshold value for the specified IP Precedence value.
Minimum threshold	Minimum WRED threshold in number of packets.
Maximum threshold	Maximum WRED threshold in number of packets.
Mark probability	Fraction of packets dropped when the average queue depth is at the maximum threshold.

Custom Queueing Example

The following is sample output from the show queueing custom command:

Router# show queueing custom

Current custom queue configuration:

List   Queue  Args

3      10     default

3      3      interface Tunnel3

3      3      protocol ip

3      3      byte-count 444 limit 3

Flow-Based WRED Example

The following is sample output from the show queueing random-detect command. The output shows that the interface is configured for flow-based WRED to ensure fairness among flows in regard to packet drop. The random-detect flow average-depth-factor command was used to configure a scaling factor of 8 for this interface. The scaling factor is used to scale the number of buffers available per flow and to determine the number of packets allowed in the output queue of each active flow before the queue is susceptible to packet drop. As the output shows, the maximum flow count for this interface was set to 16 by the random-detect flow count command.

Router# show queueing random-detect

    Current random-detect configuration:

      Serial1

        Queueing strategy:random early detection (WRED)

        Exp-weight-constant:9 (1/512)

        Mean queue depth:29

        Max flow count:16       Average depth factor:8

        Flows (active/max active/max):39/40/16

        Class   Random       Tail    Minimum    Maximum     Mark

                  drop       drop  threshold  threshold  probability

          0         31          0         20         40     1/10

          1         33          0         22         40     1/10

          2         18          0         24         40     1/10

          3         14          0         26         40     1/10

          4         10          0         28         40     1/10

          5          0          0         31         40     1/10

          6          0          0         33         40     1/10

          7          0          0         35         40     1/10

         rsvp        0          0         37         40     1/10

DWRED Example

The following is sample output from the show queueing random-detect command for DWRED:

Current random-detect configuration:

  FastEthernet2/0/0

    Queueing strategy:fifo

    Packet drop strategy:VIP-based random early detection (DWRED)

    Exp-weight-constant:9 (1/512)

    Mean queue depth:0

    Queue size:0       Maximum available buffers:6308

    Output packets:5  WRED drops:0  No buffer:0

    Class   Random       Tail    Minimum    Maximum     Mark       Output

              drop       drop  threshold  threshold  probability  Packets

      0          0          0       109        218      1/10            5

      1          0          0       122        218      1/10            0

      2          0          0       135        218      1/10            0

      3          0          0       148        218      1/10            0

      4          0          0       161        218      1/10            0

      5          0          0       174        218      1/10            0

      6          0          0       187        218      1/10            0

      7          0          0       200        218      1/10            0

Related Commands

Command	Description
custom-queue-list	Assigns a custom queue list to an interface.
exponential-weighting-constant	Configures the exponential weight factor for the average queue size calculation for a WRED parameter group.
fair-queue (WFQ)	Enables WFQ for an interface.
precedence	Configures a WRED group for a particular IP Precedence.
priority-group	Assigns the specified priority list to an interface.
priority-list interface	Establishes queueing priorities on packets entering from a given interface.
priority-list queue-limit	Specifies the maximum number of packets that can be waiting in each of the priority queues.
queue-list interface	Establishes queueing priorities on packets entering on an interface.
queue-list queue byte-count	Specifies how many bytes the system allows to be delivered from a given queue during a particular cycle.
random-detect (interface)	Enables WRED or DWRED.
random-detect flow average-depth-factor	Sets the multiplier to be used in determining the average depth factor for a flow when flow-based WRED is enabled.
random-detect flow count	Sets the flow count for flow-based WRED.
show interfaces	Displays the statistical information specific to a serial interface.
show queue	Displays the contents of packets inside a queue for a particular interface or VC.
show queueing interface	Displays the queueing statistics of an interface or VC.

show queueing interface

To display the queueing statistics of an interface or a virtual circuit (VC), use the show queueing interface privileged EXEC command.

show queueing interface interface-number [vc [[vpi/] vci]]

Syntax Description

interface-number	Specifies the number of the interface.
vc	(Optional) Shows the weighted fair queueing (WFQ) and Weighted Random Early Detection (WRED) parameters associated with a specific VC. If desired, both the virtual path identifier (VPI) and virtual channel identifier (VCI) values, or just the VCI value, can be specified.
vpi/	(Optional) Specifies the VPI. If the vpi argument is omitted, 0 is used as the VPI value for locating the permanent virtual circuit (PVC). If the vpi argument is specified, the / separator is required.
vci	(Optional) Specifies the VCI.

Command Modes

Privileged EXEC

Command History

Release	Modification
11.1(22)CC	This command was introduced.

Examples

The following is sample output from the show queueing interface command:

Router# show queueing interface atm2/0

  Interface ATM2/0 VC 201/201 

  Queueing strategy:random early detection (WRED)

    Exp-weight-constant:9 (1/512)

    Mean queue depth:49

    Total output drops per VC:759

    Class   Random       Tail    Minimum    Maximum     Mark

              drop       drop  threshold  threshold  probability

      0        165         26         30         50     1/10

      1        167         12         32         50     1/10

      2        173         14         34         50     1/10

      3        177         25         36         50     1/10

      4          0          0         38         50     1/10

      5          0          0         40         50     1/10

      6          0          0         42         50     1/10

      7          0          0         44         50     1/10

     rsvp        0          0         46         50     1/10

Related Commands

custom-queue-list	Assigns a custom queue list to an interface.
fair-queue (class-default)	Specifies the number of dynamic queues to be reserved for use by the class-default class as part of the default class policy.
fair-queue (WFQ)	Enables WFQ for an interface.
priority-group	Assigns the specified priority list to an interface.
random-detect (interface)	Enables WRED or DWRED.
random-detect (per VC)	Enables per-VC WRED or per-VC DWRED.
random-detect flow	Enables flow-based WRED.
show interfaces fair-queue	Displays information and statistics about WFQ for a VIP-based interface.
show policy-map interface	Displays the configuration of classes configured for service policies on the specified interface or PVC.
show queueing	Lists all or selected configured queueing strategies.

show tech-support rsvp

To generate a report of all Resource Reservation Protocol (RSVP)-related information, use the show tech-support rsvp privileged EXEC ommand.

show tech-support rsvp

Syntax Description

This command has no arguments or keywords.

Command Modes

Privileged EXEC

Command History

Release	Modification
11.2	This command was introduced.

Usage Guidelines

This command is not required for normal use of the operating system. This command is useful when you contact technical support personnel with questions regarding RSVP. The show tech-support rsvp command generates a series of reports that can be useful to technical support personnel attempting to solve problems.

Any issues or caveats that apply to the show tech-support command also apply to this command. For example, the enable password, if configured, is not displayed in the output of the show running-config command.

The show tech-support rsvp command is equivalent to issuing the following commands:

•show ip rsvp installed

•show ip rsvp interface

•show ip rsvp neighbor

•show ip rsvp request

•show ip rsvp reservation

•show ip rsvp sender

•show running-config

•show version

Refer to the displays and descriptions for the individual commands listed above for information about the show tech-support rsvp command display.

show traffic-shape

To display the current traffic-shaping configuration, use the show traffic-shape EXEC command.

show traffic-shape [interface-type interface-number]

Syntax Description

interface-type	(Optional) The type of the interface. If no interface is specified, traffic-shaping details for all configured interfaces are shown.
interface-number	(Optional) The number of the interface.

Command Modes

EXEC

Command History

Release	Modification
11.2	This command was introduced.

Usage Guidelines

You must have first enabled traffic shaping using the traffic-shape rate, traffic-shape group, or frame-relay traffic-shaping command to display traffic-shaping information.

Examples

The following is sample output from the show traffic-shape command:

Router# show traffic-shape

Interface   Fa0/0

       Access Target    Byte   Sustain   Excess    Interval  Increment Adapt

VC     List   Rate      Limit  bits/int  bits/int  (ms)      (bytes)   Active

-             1000000   6250   25000     25000     25        3125      - 

Table 29 describes the fields shown in this display.

Table 29 show traffic-shape Field Descriptions 

Field	Description
Interface	Interface type and number.
VC	Virtual circuit. Note If you configure traffic shaping at a VC level instead of an interface level, a number appears in this field.
access list	Number of the access list, if one is configured.
Target Rate	Rate that traffic is shaped to (in bits per second).
Byte Limit	Maximum number of bytes sent per internal interval.
Sustain bits/int	Configured sustained bits per interval.
Excess bits/int	Configured excess bits in the first interval.
Interval (ms)	Interval (in milliseconds) being used internally, which may be smaller than the committed burst divided by the committed information rate, if the router determines that traffic flow will be more stable with a smaller configured interval.
Increment (bytes)	Number of bytes that will be sustained per internal interval.
Adapt Active	Contains "BECN" if Frame Relay has backward explicit congestion notification (BECN) adaptation configured.

Related Commands

Command	Description
frame-relay cir	Specifies the incoming or outgoing committed information rate (CIR) for a Frame Relay virtual circuit.
frame-relay traffic-rate	Configures all the traffic-shaping characteristics of a virtual circuit (VC) in a single command.
frame-relay traffic-shaping	Enables both traffic shaping and per-VC queueing for all PVCs and SVCs on a Frame Relay interface.
show traffic-shape queue	Displays information about the elements queued by traffic shaping at the interface level or the DLCI level.
show traffic-shape statistics	Displays the current traffic-shaping statistics.
traffic-shape adaptive	Configures a Frame Relay subinterface to estimate the available bandwidth when BECN signals are received.
traffic-shape fecn-adapt	Replies to messages with the FECN bit (which are set with TEST RESPONSE messages with the BECN bit set).
traffic-shape group	Enables traffic shaping based on a specific access list for outbound traffic on an interface.
traffic-shape rate	Enables traffic shaping for outbound traffic on an interface.

show traffic-shape queue

To display information about the elements queued by traffic shaping at the interface level or the data-link connection identifier (DLCI) level, use the show traffic-shape queue EXEC mode.

show traffic-shape queue [interface-number [dlci dlci-number]]

Syntax Description

interface-number	(Optional) The number of the interface.
dlci	(Optional) The specific DLCI for which you wish to display information about queued elements.
dlci-number	(Optional) The number of the DLCI.

Command Modes

EXEC

Command History

Release	Modification
11.2	This command was introduced.
12.0(3)XG	The dlci argument was added.
12.0(4)T	The dlci argument was added.
12.0(5)T	This command was modified to include information on the special voice queue that is created using the queue keyword of the frame-relay voice bandwidth command.

Usage Guidelines

When no parameters are specified with this command, the output displays information for all interfaces and DLCIs containing queued elements. When a specific interface and DLCI are specified, information is displayed about the queued elements for that DLCI only.

Examples

The following is sample output for the show traffic-shape queue command when weighted fair queueing is configured on the map class associated with DLCI 16:

router# show traffic-shape queue Serial1/1 dlci 16

Traffic queued in shaping queue on Serial1.1 dlci 16

  Queueing strategy: weighted fair

  Queueing Stats: 1/600/64/0 (size/max total/threshold/drops)

     Conversations  0/16 (active/max total)

     Reserved Conversations 0/2 (active/allocated)

  (depth/weight/discards) 1/4096/0

  Conversation 5, linktype: ip, length: 608

source: 172.21.59.21, destination: 255.255.255.255, id: 0x0006, ttl: 255,

  TOS: 0 prot: 17, source port 68, destination port 67

The following is sample output for the show traffic-shape queue command when priority queueing is configured on the map class associated with DLCI 16:

router# show traffic-shape queue Serial1/1 dlci 16

Traffic queued in shaping queue on Serial1.1 dlci 16

  Queueing strategy: priority-group 4

  Queueing Stats: low/1/80/0 (queue/size/max total/drops)

Packet 1, linktype: cdp, length: 334, flags: 0x10000008

The following is sample output for the show traffic-shape queue command when first-come, first-serve queueing is configured on the map class associated with DLCI 16:

router# show traffic-shape queue Serial1/1 dlci 16

Traffic queued in shaping queue on Serial1.1 dlci 16

  Queueing strategy: fcfs

  Queueing Stats: 1/60/0 (size/max total/drops)

Packet 1, linktype: cdp, length: 334, flags: 0x10000008

The following is sample output for the show traffic-shape queue command displaying statistics for the special queue for voice traffic that is created automatically when the frame-relay voice bandwidth command is entered:

Router# show traffic-shape queue serial 1 dlci 45   

 Voice queue attached to traffic shaping queue on Serial1 dlci 45

 ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~

    Voice Queueing Stats: 0/100/0 (size/max/dropped)

    ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~

 Traffic queued in shaping queue on Serial1 dlci 45

   Queueing strategy: weighted fair

   Queueing Stats: 0/600/64/0 (size/max total/threshold/drops)

      Conversations  0/16 (active/max total)

      Reserved Conversations 0/2 (active/allocated)

Table 30 describes the significant fields shown in these displays.

Table 30 show traffic-shape queue Field Descriptions 

Field	Description
Queueing strategy	When Frame Relay traffic shaping is configured, the queueing type can be weighted fair, custom-queue, priority-group, or fcfs (first-come-first-serve), depending on what is configured on the Frame Relay map class for this DLCI. The default is fcfs for Frame Relay traffic shaping. When generic traffic shaping is configured, the only queueing type available is weighted fair queueing.
Queueing Stats	Statistics for the configured queueing strategy, as follows: •size—Current size of the queue. •max total—Maximum number of packets of all types that can be queued in all queues. •threshold—For weighted fair queueing, the number of packets in the queue after which new packets for high-bandwidth conversations will be dropped. •drops—Number of packets discarded during this interval.
Conversations active	Number of currently active conversations.
Conversations max total	Maximum allowed number of concurrent conversations.
Reserved Conversations active	Number of currently active conversations reserved for voice.
Reserved Conversations allocated	Maximum configured number of conversations reserved.
depth	Number of packets currently queued.
weight	Number used to classify and prioritize the packet.
discards	Number of packets discarded from queues.
Packet	Number of queued packet.
linktype	Protocol type of the queued packet. (cdp = Cisco Discovery Protocol)
length	Number of bytes in the queued packet.
flags	Number of flag characters in the queued packet.
source	Source IP address.
destination	Destination IP address.
id	Packet ID.
ttl	Time to live count.
TOS	IP type of service.
prot	Layer 4 protocol number. Refer to RFC 943 for a list of protocol numbers. (17 = User Datagram Protocol (UDP))
source port	Port number of source port.
destination port	Port number of destination port.

Related Commands

Command	Description
show frame-relay fragment	Displays Frame Relay fragmentation details.
show frame-relay pvc	Displays statistics about PVCs for Frame Relay interfaces.
show frame-relay vofr	Displays details about FRF.11 subchannels being used on Voice over Frame Relay DLCIs.
show traffic-shape	Displays the current traffic-shaping configuration.
show traffic-shape statistics	Displays the current traffic-shaping statistics.

show traffic-shape statistics

To display the current traffic-shaping statistics, use the show traffic-shape statistics EXEC command.

show traffic-shape statistics [interface-type interface-number]

Syntax Description

interface-type	(Optional) The type of the interface. If no interface is specified, traffic-shaping statistics for all configured interfaces are shown.
interface-number	(Optional) The number of the interface.

Command Modes

EXEC

Command History

Release	Modification
11.2	This command was introduced.

Usage Guidelines

You must have first enabled traffic shaping using the traffic-shape rate, traffic-shape group, or frame-relay traffic-shaping command to display traffic-shaping information.

Examples

The following is sample output from the show traffic-shape statistics command:

Router# show traffic-shape statistics

          Access Queue     Packets   Bytes     Packets   Bytes     Shaping

I/F       List   Depth                         Delayed   Delayed   Active

Et0       101    0         2         180       0         0         no

Et1              0         0         0         0         0         no

Table 31 describes the fields shown in this display.

Table 31 show traffic-shape statistics Field Descriptions 

Field	Description
I/F	Interface.
Access List	Number of the access list.
Queue Depth	Number of messages in the queue.
Packets	Number of packets sent through the interface.
Bytes	Number of bytes sent through the interface.
Packets Delayed	Number of packets sent through the interface that were delayed in the traffic-shaping queue.
Bytes Delayed	Number of bytes sent through the interface that were delayed in the traffic-shaping queue.
Shaping Active	Contains "yes" when timers indicate that traffic shaping is occurring and "no" if traffic shaping is not occurring.

Related Commands

Command	Description
frame-relay traffic-shaping	Enables both traffic shaping and per-VC queueing for all PVCs and SVCs on a Frame Relay interface.
show interfaces	Displays statistics for all interfaces configured on the router or access server.
show ip rsvp neighbor	Displays RSVP-related interface information.
traffic-shape adaptive	Configures a Frame Relay subinterface to estimate the available bandwidth when BECN signals are received.
traffic-shape group	Enables traffic shaping based on a specific access list for outbound traffic on an interface.
traffic-shape rate	Enables traffic shaping for outbound traffic on an interface.

traffic-shape adaptive

To configure a Frame Relay subinterface to estimate the available bandwidth when backward explicit congestion notification (BECN) signals are received, use the traffic-shape adaptive interface configuration command. To stop adapting to congestion signals, use the no form of this command.

traffic-shape adaptive bit-rate

no traffic-shape adaptive

Syntax Description

bit-rate

Lowest bit rate that traffic is shaped to, in bits per second. The default bit rate value is 0.

Defaults

This command is not enabled by default.

Command Modes

Interface configuration

Command History

Release	Modification
11.2	This command was introduced.

Usage Guidelines

This command specifies the boundaries in which traffic will be shaped when BECN signals are received. You must enable traffic shaping on the interface with the traffic-shape rate or traffic-shape group command before you can use the traffic-shape adaptive command.

The bit rate specified for the traffic-shape rate command is the upper limit, and the bit rate specified for the traffic-shape adaptive command is the lower limit to which traffic is shaped when BECN signals are received on the interface. The rate actually shaped to will be between these two bit rates.

You should configure this command and the traffic-shape fecn-adapt command on both ends of the connection to ensure adaptive traffic shaping over the connection, even when traffic is flowing primarily in one direction. The traffic-shape fecn-adapt command configures the router to reflect forward explicit congestion notification (FECN) signals as BECN signals.

Examples

The following example configures traffic shaping on serial interface 0.1 with an upper limit of 128 kbps and a lower limit of 64 kbps. This configuration allows the link to run from 64 to 128 kbps, depending on the congestion level.

interface serial 0

 encapsulation-frame-relay

interface serial 0.1

 traffic-shape rate 128000

 traffic-shape adaptive 64000

 traffic-shape fecn-adapt

Related Commands

Command	Description
show traffic-shape	Displays the current traffic-shaping configuration.
show traffic-shape statistics	Displays the current traffic-shaping statistics.
traffic-shape fecn-adapt	Replies to messages with the FECN bit (which are set with TEST RESPONSE messages with the BECN bit set).
traffic-shape group	Enables traffic shaping based on a specific access list for outbound traffic on an interface.
traffic-shape rate	Enables traffic shaping for outbound traffic on an interface.

traffic-shape fecn-adapt

To reply to messages with the forward explicit congestion notification (FECN) bit (which are set with TEST RESPONSE messages with the BECN bit set), use the traffic-shape fecn-adapt interface configuration command. To stop backward explicit congestion notification (BECN) signal generation, use the no form of this command.

traffic-shape fecn-adapt

no traffic-shape fecn-adapt

Syntax Description

This command has no arguments or keywords.

Defaults

Traffic shaping is disabled.

Command Modes

Interface configuration

Command History

Release	Modification
11.2	This command was introduced.

Usage Guidelines

Enable traffic shaping on the interface with the traffic-shape rate or traffic-shape group command. FECN is available only when traffic shaping is configured.

Use this command to reflect FECN bits as BECN bits to notify the other DTE that it is sending too fast. Use the traffic-shape adaptive command to configure the router to adapt its transmission rate when it receives BECN signals.

You should configure this command and the traffic-shape adaptive command on both ends of the connection to ensure adaptive traffic shaping over the connection, even when traffic is flowing primarily in one direction.

Examples

The following example configures traffic shaping on serial interface 0.1 with an upper limit of 128 kbps and a lower limit of 64 kbps. This configuration allows the link to run from 64 to 128 kbps, depending on the congestion level. The router reflects FECN signals as BECN signals.

interface serial 0

 encapsulation-frame-relay

interface serial 0.1

 traffic-shape rate 128000

 traffic-shape adaptive 64000

 traffic-shape fecn-adapt

Related Commands

Command	Description
show traffic-shape	Displays the current traffic-shaping configuration.
show traffic-shape statistics	Displays the current traffic-shaping statistics.
traffic-shape adaptive	Configures a Frame Relay subinterface to estimate the available bandwidth when BECN signals are received.
traffic-shape group	Enables traffic shaping based on a specific access list for outbound traffic on an interface.
traffic-shape rate	Enables traffic shaping for outbound traffic on an interface.

traffic-shape group

To enable traffic shaping based on a specific access list for outbound traffic on an interface, use the traffic-shape group interface configuration command. To disable traffic shaping on the interface for the access list, use the no form of this command.

traffic-shape group access-list bit-rate [burst-size [excess-burst-size]]

no traffic-shape group access-list

Syntax Description

access-list	Number of the access list that controls the packets that traffic shaping is applied to on the interface.
bit-rate	Bit rate that traffic is shaped to (in bits per second). This is the access bit rate that you contract with your service provider, or the service levels you intend to maintain.
burst-size	(Optional) Sustained number of bits that can be sent per interval. On Frame Relay interfaces, this is the committed burst size contracted with your service provider.
excess-burst-size	(Optional) Maximum number of bits that can exceed the burst size in the first interval in a congestion event. On Frame Relay interfaces, this is the excess burst size contracted with your service provider. The default is equal to the burst-size argument.

Defaults

Traffic shapping is not on by default.

Command Modes

Interface configuration

Command History

Release	Modification
11.2	This command was introduced.

Usage Guidelines

Generic traffic shaping is not supported on ISDN and dialup interfaces. Is is also not supported on non-generic routing encapsulation (GRE) tunnel interfaces. Traffic shaping is not supported with flow switching.

Traffic shaping uses queues to limit surges that can congest a network. Data is buffered and then sent into the network in regulated amounts to ensure that traffic will fit within the promised traffic envelope for the particular connection.

The traffic-shape group command allows you to specify one or more previously defined access list to shape traffic to on the interface. You must specify one traffic-shape group command for each access list on the interface.

The traffic-shape group command supports both standard and extended access lists.

Use traffic shaping if you have a network with differing access rates or if you are offering a subrate service. You can configure the values according to your contract with your service provider or the service levels you intend to maintain.

An interval is calculated as follows:

•If the burst-size is not equal to zero, the interval is the burst-size divided by the bit-rate.

•If the burst-size is zero, the interval is the excess-burst-size divided by the bit-rate.

Traffic shaping is supported on all media and encapsulation types on the router. To perform traffic shaping on Frame Relay virtual circuits, you can also use the frame-relay traffic-shaping command. For more information on Frame Relay traffic shaping, refer to the "Configuring Frame Relay" chapter in the Cisco IOS Wide-Area Networking Configuration Guide.

If traffic shaping is performed on a Frame Relay network with the traffic-shape rate command, you can also use the traffic-shape adaptive command to specify the minimum bit rate to which the traffic is shaped.

Examples

The following example enables traffic that matches access list 101 to be shaped to a certain rate and traffic matching access list 102 to be shaped to another rate on the interface:

interface serial 1

 traffic-shape group 101 128000 16000 8000

 traffic-shape group 102 130000 10000 1000

Related Commands

Command	Description
access-list (IP Standard)	Defines a standard IP access list.
show traffic-shape	Displays the current traffic-shaping configuration.
show traffic-shape statistics	Displays the current traffic-shaping statistics.
traffic-shape adaptive	Configures a Frame Relay subinterface to estimate the available bandwidth when BECN signals are received.
traffic-shape fecn-adapt	Replies to messages with the FECN bit (which are set with TEST RESPONSE messages with the BECN bit set).
traffic-shape rate	Enables traffic shaping for outbound traffic on an interface.

traffic-shape rate

To enable traffic shaping for outbound traffic on an interface, use the traffic-shape rate interface configuration command. To disable traffic shaping on the interface, use the no form of this command.

traffic-shape rate bit-rate [burst-size [excess-burst-size]]

no traffic-shape rate

Syntax Description

bit-rate	Bit rate that traffic is shaped to (in bits per second). This is the access bit rate that you contract with your service provider, or the service levels you intend to maintain.
burst-size	(Optional) Sustained number of bits that can be sent per interval. On Frame Relay interfaces, this is the committed burst size contracted with your service provider.
excess-burst-size	(Optional) Maximum number of bits that can exceed the burst size in the first interval in a congestion event. On Frame Relay interfaces, this is the excess burst size contracted with your service provider. The default is equal to the burst-size argument.

Defaults

Traffic shaping is disabled.

Command Modes

Interface configuration

Command History

Release	Modification
11.2	This command was introduced.

Usage Guidelines

Generic traffic shaping is not supported on ISDN and dialup interfaces. Is is also not supported on non-generic routing encapsulation (GRE) tunnel interfaces. Traffic shaping is not supported with flow switching.

Traffic shaping uses queues to limit surges that can congest a network. Data is buffered and then sent into the network in regulated amounts to ensure that traffic will fit within the promised traffic envelope for the particular connection.

Use traffic shaping if you have a network with differing access rates or if you are offering a subrate service. You can configure the values according to your contract with your service provider or the service levels you intend to maintain.

An interval is calculated as follows:

•If the burst-size is not equal to zero, the interval is the burst-size divided by the bit-rate.

•If the burst-size is zero, the interval is the excess-burst-size divided by the bit-rate.

Traffic shaping is supported on all media and encapsulation types on the router. To perform traffic shaping on Frame Relay virtual circuits, you can also use the frame-relay traffic-shaping command. For more information on Frame Relay traffic shaping, refer to the "Configuring Frame Relay" chapter in the Cisco IOS Wide-Area Networking Configuration Guide.

If traffic shaping is performed on a Frame Relay network with the traffic-shape rate command, you can also use the traffic-shape adaptive command to specify the minimum bit rate to which the traffic is shaped.

Examples

The following example enables traffic shaping on serial interface 0 using the bandwidth required by the service provider:

interface serial 0

 traffic-shape rate 128000 16000 8000

Related Commands

Command	Description
show traffic-shape	Displays the current traffic-shaping configuration.
show traffic-shape statistics	Displays the current traffic-shaping statistics.
traffic-shape adaptive	Configures a Frame Relay subinterface to estimate the available bandwidth when BECN signals are received.
traffic-shape fecn-adapt	Replies to messages with the FECN bit (which are set with TEST RESPONSE messages with the BECN bit set).
traffic-shape group	Enables traffic shaping based on a specific access list for outbound traffic on an interface.