Multiprotocol Routing Services
Protocol Configuration Reference
Version 3.3 Volume 1

Configuring and Monitoring RSVP

This chapter describes how to configure and monitor Resource ReSerVation Protocol (RSVP) and how to use the RSVP monitoring commands. It includes the following sections:

• "Accessing the RSVP Configuration Environment"
• "RSVP Configuration Commands"
• "Accessing the RSVP Monitoring Environment"
• "RSVP Monitoring Commands"

Accessing the RSVP Configuration Environment

To access the RSVP configuration environment, enter the following command at the Config> prompt:

   Config> protocol rsvp
   Resource ReSerVation Protocol config console
   RSVP Config>

RSVP Configuration Commands

This section describes the RSVP configuration commands. Enter these commands at the RSVP Config> prompt.

Table 29. RSVP Configuration Commands Summary

Command	Function
? (Help)	Displays all the commands available for this command level or lists the options for specific commands (if available). See "Getting Help".
Add	Adds sender and receiver.
Delete	Deletes sender and receiver.
Disable	Disables RSVP or One-Path With Advertising (OPWA).
Enable	Enables RSVP or One-Path With Advertising (OPWA).
List	Lists information about the RSVP configuration.
Set	Sets RSVP system parameters.
Exit	Returns you to the previous command level. See "Exiting a Lower Level Environment".

Add

Use the add command to add static RSVP senders and receivers to the router. Static senders or receivers enable the router to send or receive RSVP messages. In most cases, if the router sends and receives RSVP messages, it is acting as a proxy on behalf of a host application that is not configured for RSVP. The sender IP address, in such a case, is the address of the host application and the session IP address is the destination address of the data flow. If no static sender or receiver is configured for the router, it dynamically forwards RSVP messages, sets up reservations, and provides QoS, but does not originate RSVP messages.

Definitions of senders and receivers are saved in the configuration as numbered SRAM records. The talk 5 activate command can be used to activate each record.

Syntax:

add

sender ...

 

receiver ...

sender

Keyword to specify that the parameters following this term apply to the sender of the RSVP path message.

receiver

Keyword to specify that the parameters following this term apply to the receiver, which returns the RSVP resv message to the sender.

Most of the following parameters are specified for both the sender and the receiver. Parameters that are unique to the sender or to the receiver are identified in their descriptions.

session-ip-address

This is the unicast or multicast destination IP address of the IP data flows from one or more senders. When the traffic flows are unicast, this address is the receiver's address; when the traffic flows are multicast, this address is a multicast address; the receiver must be a member of the group identified by the multicast address. The senders and the receiver use the session IP address along with the session port number and the protocol to identify the RSVP session for which QoS is established.

Valid values: Valid IPv4 address. Cannot be 0.0.0.0. When RSVP is activated, this address must be accessible to the sender and the receiver.

Default value: none

session-port

The IP port number of the session to be reserved by RSVP. This is the UDP port number or the TCP socket number of the destination application.

Valid values: 0 - 65535

Default value: 1

session-protocol

Either UDP or TCP.

Valid values: UDP or TCP

Default value: UDP

sender-ip-address

The address of the sender, which is the sending application that originates the data flow to be reserved. This parameter must be a unicast address.

Valid values: Valid IPv4 address.

Default value: none

sender-port

The IP port number of the sender of the IP flow to be reserved for QoS. This is the UDP port number or the TCP socket number of the sending application.

Valid values: 0 - 65535

Default value: 1

receiver-ip-address

The IP address of the receiver that issues the resv message. In the case of a unicast session, this address is the same as the session IP address. In the case of a multicast session, this address is the unicast address of the application that makes the reservation for the multicast session address. If it is a multicast session, the receiver must belong to the multicast group represented by this multicast address.

Valid values: Valid IPv4 address.

Default value: none

peak-rate

Specifies the peak data rate on the IP session. This rate is set to the sender's peak traffic generation rate, if known and controlled, the physical interface line rate, if known, or infinity (X'FFFFFFFF', decimal 4 294 967 295) if no better value is available. The peak traffic rate should be set to a value greater than or equal to the average traffic rate.

If the receiver requests a peak data rate different from the rate offered by the sender, the router attempts to honor the receiver's request.

Valid values: 1 - 4 294 967 295 bytes/second

Default value: 250 000

average-rate

Specifies the average data rate that the sender should send or the receiver should receive on the IP session. This rate is set to the sender's average traffic generation rate, if known and controlled, or to the physical interface line rate, if known, or to 200 000 bytes/ second by default.

If the receiver requests a different average rate from that offered by the sender, the router attempts to honor the receiver's request.

Valid values: 1 - 4 294 967 295 bytes/second

Default value: 200 000

data-burst-size

Specifies the number of bytes that can be sent without regard to the peak or average rate. For example, if the peak rate is 50 000 bytes/second, and the data burst size is 2000, 2000 bytes can be sent in one particular instance even if the burst may cause the peak rate to exceed 50 000 bytes/second at that instance.

If the receiver requests a different rate than the sender, the router attempts to honor the receiver's request.

Valid values: 1 - 4 294 967 295 bytes

Default value: 2000

max-packet-size

Specifies the maximum packet size that the sender will send on the IP flow or that the receiver will receive from the IP flow. For the sender, this value should be set to the size of the largest packet generated by the sending application. For the receiver, it should be set to the smallest path MTU, which the receiver learns either from information arriving in RSVP One-Path With Advertisement (OPWA) packets or in other ways.

If the maximum packet size is larger than the MTU of a link on the path, the reservation request will be rejected at that point. For example, if one link along the path of reservations has an MTU of 1500 and the maximum packet size requested is 2000, the reservation request will be rejected.

If the receiver requests a different maximum packet size than the sender, the router attempts to honor the receiver's request.

The maximum packet size should be configured with a value no smaller than the minimum packet size. For example, if the minimum packet size is 64 bytes, the maximum packet size must be equal to or greater than 64 bytes.

Valid values: 1 - 4 294 967 295 bytes

Default value: 1500

min-packet-size

Specifies the minimum packet size that the sender will send on the IP flow or that the receiver will receive from the IP flow. For the sender, this value should be set to the size of the smallest packet generated by the sending application.

This packet size must be no greater than the maximum packet size. For example, if the maximum packet size is 1500 bytes, the minimum packet size must be equal to or less than 1500. This packet size includes the application data and all protocol headers at or above IP level, such as IP, TCP, or UDP, but does not include any link-level headers.

Note:

This value is used to estimate the overhead in resource reservation. The smaller the minimum packet size, the larger the reservation overhead.

Valid values: 1 - 4 294 967 295 bytes

Default value: 48

reservation-style

This parameter is configured only for receivers. It specifies the reservation style that the receiver will receive on the IP flow. An RSVP reservation guarantees special handling of the packets in an IP traffic flow to provide a particular QoS over each link or a series of links that form a path from the sender to the receiver. The three reservation styles offered are defined as follows:

Fixed-Filter (FF)

Specifies that the receiver will receive one particular sender's data traffic on the IP flow. One reservation is established per sender.

Shared-Explicit (SE)

Specifies that the receiver will receive data traffic from a group of senders in the same group, which is defined by the receiver. The members of this group share the reservation. Each sender in the group can share the reservation as soon as its link merges into a common path to the receiver.

Wildcard-Filter (WF)

Specifies that the receiver will receive data traffic from all senders. Each sender can share the reservation as soon as its link merges into a common path to the receiver.

See Reservation Styles for more information.

Valid values: FF, SE, and WF

Default value: FF

confirm-reservation

Specifies whether the receiver wishes to receive a reservation confirm message. This message is sent back to the receiver that sent the resv message when the request is merged into an existing larger reservation or is delivered to the sender application.

Valid values: Yes or No

Default value: No

Delete

Use the delete command to delete a sender or a receiver.

Syntax:

delete

sender sram-record

receiver sram-record

sender or receiver sram-record

Each sender or receiver is identified by a SRAM record that is displayed when you use the delete command. Entering the SRAM record number of the sender or receiver to be deleted deletes that sender or receiver from the configuration.

Disable

Use the disable command to disable RSVP or OPWA on an interface or on all interfaces.

Syntax:

disable

interface

opwa

opwa-all

rsvp

interface interface-number

Disables the RSVP function on a particular interface. RSVP control messages can flow over this interface, but no RSVP reservations will be made on this interface. This command also disables the ability of this interface to set up QoS.

Valid Values: Any valid interface number.

Default Value: 0

OPWA interface-number

Disables OPWA on a particular interface.

Valid Values: Any valid interface number.

Default Value: 0

OPWA-all

Disables OPWA on all interfaces.

RSVP

Disables the RSVP function within the router. By default, RSVP is disabled .

Enable

Use the enable command to enable RSVP or OPWA on an interface or on all interfaces.

Syntax:

enable

interface

opwa

opwa-all

rsvp

interface interface-number

Enables the RSVP function on a particular interface. This command enables this interface to respond to RSVP messages and to forward them, but not to originate them. You need to configure static senders and receivers to originate RSVP messages.

You will be prompted to set the bandwidth on the enabled interface. You can also use the set bandwidth command later to change the bandwidth setting. This command operates only if the router is enabled for RSVP and the specified interface is enabled and configured for IP.

See Link Types Supported by RSVP for a list of the links that support RSVP.

Valid Values: Any valid interface number.

Default Value: 0

OPWA interface-number

Enables OPWA on a particular interface. OPWA tells the receiver whether the path between the sender and the receiver can be reserved on every hop and how much bandwidth is available at each hop along the path. This operation is allowed only if the interface is enabled for RSVP.

Valid Values: Any valid interface number.

Default Value: 0

OPWA-all

Enables OPWA on all interfaces. RSVP must be enabled in the router for this command to take effect.

RSVP

Enables the RSVP function within the router. If this is the first time that RSVP is enabled, a set of default parameters for RSVP will also be initialized.

Enabling RSVP does not activate it. To activate RSVP in this router, you have to use the set bandwidth command to set bandwidth on at least one interface that will use RSVP. Then, you have to restart the router for RSVP. To do this, you can use the talk 5 command reset rsvp or reboot the router. See the talk 5 reset rsvp command for more information.

List

Use the list command to list RSVP parameters. These groups of parameters can be separately listed:

• All parameters
• Interface parameters
• OPWA settings for all interfaces
• Sender or receiver records
• System-level RSVP parameters

Syntax:

list ...

all

interface

opwa

receiver

sender

system

Example:

RSVP Config>list all
 
Software Version:
 
RSVP Control: IBM RSVP Router Release 1.0 (RFC 2205)
 
 
RSVP Configuration:
 
RSVP Status:                    Enabled
Maximum RSVP Msg Size:          1500 (bytes)
Refresh Interval:               30 (sec)
Allowed Successive Msg Loss:    3 (frame)
Flow Life-Time:                 158 (sec)
Refresh Slew Max:               30 (percent)
Total system reservable b/w:    4294967 (kbps)
 
RSVP Interfaces:
 
If      IP address   RSVP-enabled  Encaps.  max_res_bw SRAM_rec
0       5.0.27.2        Y          IP       5000000      1
5       5.0.28.2        Y          IP       8000000      2
4       5.0.25.101      Y          IP       1024000      3
2       5.0.45.2        Y          IP       1024000      4
 
OPWA configuration:
 
Network OPWA    CTL-LOAD
0       Y       Y
5       Y       Y
4       Y       Y
2       Y       Y
 
Following senders/receivers are defined in SRAM:
Rec.No   Type     DestAddr (1)     Dest Port   Protocol   Src Addr        Src Port
 
1    Sender(PATH) 5.0.25.100      25         17         5.0.25.101      25
2    Receiv(RESV) 5.0.25.101      26         17         0.0.0.0         0
 

(1) The destination address displayed is the IP session address. See the talk 6 add session-ip-address command for the definition of the IP session address.

Set

Sets the RSVP system parameters. See the example under the talk 6 list all command for a view of some typical values for these parameters.

Syntax:

set ...

allowed-successive-msg-loss ...

bandwidth ...

default

encapsulation ...

lifetime ...

max-msg-size ...

refresh-interval ...

slew ...

total ...

allowed-successive-msg-loss msg-losses

This parameter defines the number of successive path and matching resv refresh messages that can be lost before RSVP times out the path and reserve state that is defined for the RSVP traffic flow. When RSVP times out the path and reserve state for a particular traffic flow, that flow no longer provides QoS. The sender and receiver have to re-establish the reservation.

Valid Values: 1 - 9999

Default Value: 3

bandwidth interface bps

This parameter defines the reservable bandwidth of an interface. Normally the reservable bandwidth should be a small portion of the total link bandwidth. A good target is no more than 30%. The reservable bandwidth can be set only on an interface that is enabled for RSVP.

This talk 6 command can optionally take effect immediately and dynamically without affecting the values of other parameters.

interface

Network interface number.

Valid Values: Any valid network interface number.

Default Value: 0

bps

Bits per second (bps) of bandwidth that can be reserved on this interface.

Valid Values: 1 - 4 294 967 295 bps (represents unlimited)

Default Value: 0

default

This parameter sets all RSVP parameters to the original defaults that exist when you use the command enable rsvp. The set default command overwrites any parameter values that you have previously configured on the individual interfaces. Because the default value for bandwidth on each interface is 0, meaning that RSVP reservations will not be established on that interface, you have to use the set bandwidth command for each interface that uses RSVP to prepare RSVP to run again.

encapsulation interface style

This parameter sets the RSVP message encapsulation style on an interface to IP, UDP, or Both. Normally, the RSVP control messages, such as path and resv messages, are encapsulated in native IP frames with protocol type 46. In case a host that is connected to this router can use only UDP packets to send the RSVP messages, the encapsulation style over the interface that connects to that host should be set to UDP. If some hosts that use IP and some that use UDP are sending RSVP messages over the same link, then you should set the encapsulation style to Both. This operation is permitted only if RSVP is enabled on the specified interface.

This talk 6 command can optionally take effect immediately and dynamically without affecting the values of other parameters.

interface

Network interface number.

Valid Values: Any valid network interface number.

Default Value: 0

style

Encapsulation style of the RSVP messages.

Valid Values: IP, UDP, or Both

Default Value: IP

lifetime

This parameter defines the lifetime in seconds of a path and reserve state, which maintains an established RSVP traffic flow. This time must be long enough for RSVP to observe the number of refresh message losses that is specified by the value of the allowed successive message loss parameter. To roughly calculate this time, use this formula: 1.5 x refresh-interval x (allowed-successive-msg-losses + 0.5).

If the reserve state times out, but not the path state, the reservation is torn down and the IP traffic flow continues with best effort service. If the path state times out, both the reservation and the IP traffic flow are ended.

This talk 6 command can optionally take effect immediately and dynamically without affecting the values of other parameters. It is expected that the default value for this parameter should work without modification.

Valid Values: 1 - 2 147 483 647 seconds

Default Value: 158 seconds

max-msg-size

This parameter defines the overall maximum RSVP control message size in the router. This value must be no greater than the smallest of MTU sizes that are supported by the RSVP-enabled interfaces along the path. It is expected that the default value for this parameter should work without modification.

Valid Values:64 - 2 147 483 647 bytes (represents unlimited)

Default Value: 1500 bytes

refresh-interval

This parameter defines the time interval in seconds that elapses between refresh messages to maintain a path and reserve state (an RSVP traffic flow) between the receiver and the sender.

Valid Values: 10 - 600 seconds

Default Value: 30 seconds

slew-max

This parameter limits how much the refresh interval can be changed within one refresh cycle. It is expected that the default value for this parameter should work without modification. However, you may need to modify the value of this parameter to prevent timing errors.

For example, if the slew-max is 30% and the refresh interval is 30 seconds, you can change the refresh interval a maximum of 9 seconds (30% of 30) within one refresh interval. To make a larger change, you must change the refresh interval a second time. For example, once the refresh interval is 39, you can change it plus or minus 11 within one refresh interval. Alternatively, you can increase the slew-max and then make the change. For example, if the refresh interval is 30 and you want to change it to 50, you can first increase the slew-max to 70% (giving you the ability to change 30 by plus or minus 21) and then increase the refresh interval to 50.

This talk 6 command can optionally take effect immediately and dynamically without affecting the values of other parameters.

Valid Values: 0 - 100%

Default Value: 30%

total

Because the aggregate of link bandwidths of all the interfaces can be larger than the total router throughput, you may need to set a limit on the router's total reservable bandwidth. For example, the sum of the bandwidth of the aggregate links might add up to 250 000 000 bps, while the total router throughput might be 200 000 000 bps. If the total reservable bandwidth is set to 200 000 000 bps and 200 000 000 bps are currently reserved across all the interfaces, no more RSVP IP reservations can be established until some are torn down.

This talk 6 command can optionally take effect immediately and dynamically without affecting the values of other parameters.

Valid Values: 1 to 4 294 967 295 bps

Default Value: 4 294 967 295 bps (represents unlimited)

Accessing the RSVP Monitoring Environment

To access the RSVP monitoring environment type t 5 at the OPCON prompt (*):

   * t 5

Then, enter the following command at the + prompt:

   + protocol rsvp
   RSVP>

RSVP Monitoring Commands

This section describes the RSVP monitoring commands. Enter these commands at the RSVP> prompt.

Table 30. RSVP Monitoring Commands Summary

Command	Function
? (Help)	Displays all the commands available for this command level or lists the options for specific commands (if available). See "Getting Help".
Activate	Activates a statically defined sender or receiver.
List	Lists RSVP information.
Reset	Dynamically resets RSVP and characteristics of RSVP.
Send	Sends various RSVP messages, including data-packet, ip ping, path, ptear, resv, and rtear.
Show	Shows information about the active RSVP flows.
Stop-RSVP	Stops the RSVP function in the router.
Exit	Returns you to the previous command level. See "Exiting a Lower Level Environment".

Activate

Use the activate command to dynamically activate a configured sender or receiver.

Syntax:

activate

record-number

This command enables you to dynamically activate senders or receivers that you have defined using the talk 6 add sender and add receiver commands and that have been enabled using the appropriate talk 6 enable commands.

record-number

When you use the activate command, the currently enabled and configured senders and receivers will be displayed and each will be identified with a record number. When you specify a record number, that receiver or sender will be dynamically activated. An activated sender or receiver can be stopped in talk 5 by issuing a send ptear, send rtear, or reset rsvp command, or by restarting the router.

To learn how to configure static senders and receivers, see RSVP Configuration Commands for a description of the talk 6 add sender, add receiver, and enable commands.

List

Use the list command to display information about the running RSVP configuration.

Note:

Use the talk 5 show rsvp flow command to see existing RSVP traffic flows.

Syntax:

list

interface

opwa

sender/receiver-records-in-sram

system

interface

This command shows RSVP interfaces and their current status. The state bwCtrl designates a link that is under RSVP bandwidth control; bandwidth can be reserved on this interface for RSVP QoS. The state notCnf indicates a link that is not configured for RSVP. The state up indicates that a link is configured fro RSVP, but the bandwidth is under the control of a link-level QoS function (such as the Differentiated Services feature).

Example:

RSVP> list int
 
RSVP Interfaces:
 
If      IP address      b/w(K)  res'able  curr-res     state
0/Eth   5.0.27.2        10000   5000      0      Kbps  bwCtrl
2/PPP   5.0.45.2        0       1024      0      Kbps  notCnf
4/PPP   5.0.25.101      2048    1024      0      Kbps  up
 5/TKR   5.0.28.2        16000   8000      0      Kbps  bwCtrl

opwa

This command shows RSVP interfaces and their current OPWA status.

Example:

RSVP>list opwa
 
OPWA running configuration
Network OPWA    CTL-LOAD
0       Y       Y
2       Y       Y
4       Y       Y
5       Y       Y

sender/receiver-records-in-sram

This command shows the list of senders and receivers that have been statically configured.

Example:

RSVP> list sender
 
Following senders/receivers are defined in SRAM:
Rec.No   Type     DestAddr       Dest Port   Protocol   Src Addr        Src Port
1    Sender(PATH) 5.0.25.100      25         17         5.0.25.101      25
2    Receiv(RESV) 5.0.25.101      26         17         0.0.0.0         0
3    Receiv(RESV) 5.0.25.101      5006       17         0.0.0.0         0

system

This command shows the currently running values of the RSVP system parameters, which will be different from those in SRAM if any of them have been dynamically altered using the talk 5 commands.

Example:

RSVP> list system
 
RSVP running configuration:
RSVP Status:                    Running
Current Existing Flows:         0
Current Existing Sessions:      0
Maximum RSVP Msg Size:          1500 (bytes)
Refresh Interval:               30 (sec)
Allowed Successive Msg Loss:    3 (frame)
Flow Life-Time:                 158 (sec)
Refresh Slew Max:               30 (percent)
System resv Max:                unlimited
System current resv:            0 (kbps)

Reset

Use the reset command to reset various aspects of the RSVP configuration. The reset command overwrites any parameters that were dynamically configured using talk 5 and substitutes the values that were most recently configured using talk 6.

Syntax:

reset

interface

queue-stat

rsvp

system-parameters

interface

Updates the RSVP interface parameters with the configuration data that is stored in SRAM. The command prompts you for the interface number.

The reservations over this interface will be lost and re-established at the next path and resv refresh time, subject to resource availability. There is a risk that some reservations may be lost if the resources to renew them, such as bandwidth, are no longer available.

queue-stat

Clears the flow-control queues at all the interfaces that are configured for RSVP.

rsvp

Stops RSVP on the router and restarts RSVP if it is enabled in SRAM.

All path and resv messages on the router will be cleaned up when RSVP is stopped. When RSVP is restarted, the reservations will be restarted at the next path and resv refresh time, subject to resource availability. There is a risk that some reservations may be lost if the resources to renew them, such as bandwidth, are no longer available.

system-parameters

Updates the RSVP system parameters with the configuration data that was created in talk 6 and is stored in SRAM. The RSVP system parameters are those that are set using the talk 6 set command.

Send

Use the send command to dynamically send IP ping and RSVP messages.

Syntax:

send

data-packet

ip-ping

path

ptear

resv

rtear

data-packet

This is a command to send test data over a defined IP flow. It can send multiple packets per second, subject to the speed of the router and resource limitations. A message is displayed every time the tenth packet is sent.

Example:

RSVP>send data
IP Dest Address: [0.0.0.0]? 5.0.25.100
Destination UDP port: [1]? 100
IP Srce Address: [5.0.25.101]? (1)
Source UDP port: [1]? 100
Number of pings per second: [1]?
UDP packet length: [56]?
RSVP send data 1 to 5.0.25.100 protocol 17 source port 100 dest port 100.
..........RSVP send data 11 to 5.0.25.100 protocol 17 source port 100 dest port
100.
..........RSVP send data 21 to 5.0.25.100 protocol 17 source port 100 dest port
100.
RSVP> 

(1) This is the IP address of the router that sends this IP flow.

ip-ping

Sends an IP ping (ICMP echo) message. See the ping command in the chapter "Configuring and Monitoring IP" in the Protocol Configuration and Monitoring Reference Volume 1.

path

Sends an RSVP path message, either for itself or as a proxy for another host. The input format for this command is the same as for the talk 6 add sender command. See the talk 6 add sender command for descriptions of the parameters required.

By default, these messages are sent every 30 seconds. The path remains in existence until you remove it with the send ptear command or reset RSVP.

This command can dynamically add a sender to the configuration. You can use talk 2 to view the ELS trace of the path refreshes.

ptear

Sends an RSVP ptear message, either for itself or as a proxy for another host. Tearing down a path using the send ptear command removes both the traffic flow and the reservation. It prompts you for the parameters that identify a path, for example, the IP destination address and the IP session address. See the talk 6 add command for a description of the requested parameters.

The path state specified in the send ptear command must exist or an ELS error message is generated. You can use talk 2 to view the ELS messages associated with this command.

resv

Sends an RSVP resv message, either for itself or as a proxy for another host. It prompts you for the parameters that identify a path, such as the IP destination address and the IP session address. See the talk 6 add command for a description of the requested parameters. You can use talk 2 to view the ELS messages associated with this command. To view these trace messages, you have to enable them using these commands from either the talk 6 or the talk 5 prompt:

Example:

Config>event
ELS config>disp sub rsvp all 

If you attempt this command for a receiver that has not set up an RSVP session, this command displays the message Inputting session does not exist. Use the show rsvp flow command for a display of the existing RSVP flows.

Example:

RSVP>send resv
RESV requestor IP Address: [0.0.0.0]? 5.0.25.101
Session > IP Address: [5.0.25.101]?
Session > Port Number: [1]? 201
Session> Protocol Type (UDP/TCP): [UDP]?
Inputting session does not exist.
RSVP>
RSVP>show rsvp flow
 
Number of flows:        1
 
Num To (Session)    From            Prot DPrt  SPrt In-If Out-If Rsvd Nhop's
-------------------------------------------------------------------------------
1   5.0.25.101      5.0.25.100      UDP  26    26    4     6      N    0
RSVP>
RSVP>send resv
RESV requestor IP Address: [0.0.0.0]? 5.0.25.101 (1)
Session > IP Address: [5.0.25.101]? (2)
Session > Port Number: [1]? 26
Session> Protocol Type (UDP/TCP): [UDP]?
Style> (WF, FF, SE): [FF]?
Need confirmation?(Yes or [No]):
Service Type: CTL-LOAD
Tspec> Peak Rate (in byte/sec) [250000]? 25000
Tspec> Average Rate (in byte/sec) [200000]? 20000
Tspec> Burst Size (in bytes) [2000]?
Tspec> Max. Pkt Size [1500]?
Tspec> Min Pkt Size [53]?
 
Existing Filters:
Filter 1 (sender-address : sender-port):  5.0.25.100:26
 
Make reservation to all senders?(Yes or [No]): Y
A new RESV message will be sent from 5.0.25.101:26 to 5.0.25.100:26
RESV message sent
RSVP>
RSVP>sh r flow
 
Number of flows:        1
 
Num To (Session)    From            Prot DPrt  SPrt In-If Out-If Rsvd Nhop's
-------------------------------------------------------------------------------
1   5.0.25.101      5.0.25.100      UDP  26    26    4     6      Y (3)   0
RSVP>
 
*t 2 (4)
43:56:28 RSVP.074: Send RESV refresh for session 5.0.25.101:26
43:56:28 RSVP.073: --RSVP send IP pkt to 5.0.25.100 on net 4, return code=0

(1) The requestor's address must be an IP unicast address.

(2) The IP session address, which is the destination address for the session, can be either the IP unicast address of the receiver or an IP multicast address of a multicast group of which the receiver is a member.

(3) Notice that the Rsvd (Reserved) field of the flow entry changes from N (No) to Y (Yes) after the reservation is made. If this value is N, a flow exists, but there is no reservation. The flow is being sent using best effort QoS.

(4) The talk 2 ELS trace shows the reserve refreshes being sent by default every 30 seconds.

rtear

Sends an RSVP rsvtear message, either for itself or as a proxy for another host. This command disconnects an RSVP traffic flow, but does not tear down the path from the sender, so the IP traffic flow continues with best effort QoS. The command prompts you for the parameters that identify an RSVP traffic flow, for example, the IP receiver's destination address and the IP session address. See the talk 6 add command for a description of the requested parameters.

The IP traffic flow specified in the send rtear command must exist or an ELS error message is generated. You can use talk 2 to view the ELS messages associated with this command.

Show

Use the show command to show various aspects of RSVP.

Syntax:

show

adspec

classifier

ds

flowspec

queue

rsvp

flows

senders

sessions

reservations

requests

vc

adspec

Shows the advertisement spec (adspec) of all flows. Adspec is the output of OPWA; it lists information about the resources reserved at every link along an active RSVP session path.

classifier

Shows all the current QoS flow entries in the RSVP packet classifier and/or the IP cache.

ds

Shows the current reservations over Differentiated Services (DS) links. The streamID field allows the user to correlate the reservations with those displayed by the DS feature show stream command.

flowspec

Shows the sender tspec, reservation tspec, and request tspec that are currently in the RSVP state tables.

queue

Shows the current statistics about RSVP's software queues. This applies only for non-ATM links.

rsvp

Shows aspects of the current RSVP connection status.

flows

Shows the active RSVP traffic flows. See the example in the talk 5 send resv command for an example of this command.

senders

Shows the RSVP senders. Senders are configured, but are not necessarily activated.

sessions

Shows the RSVP sessions, both active sessions that have reserved flows and inactive ones that exist but have no reservations at present.

reservations

Shows the RSVP reservations.

requests

Shows the RSVP requests.

vc

Shows the currently established ATM SVCs that are reserved by RSVP.

Stop-RSVP

Use the stop-rsvp command to stop the RSVP function in the router.

Syntax:

stop

rsvp