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Table Of Contents
Command Reference for Cisco PDSN Release 4.1 in IOS Release 12.4(15)XR2
bandwidth (service flows qos subscriber profile submode)
cdma pdsn a10 always-on keepalive
cdma pdsn a10 init-ppp-after-airlink-start airlink-start-timeout
cdma pdsn a10 police downstream
cdma pdsn a11 dormant ppp-idle-timeout send-termreq
cdma pdsn a11 dormant sdb-indication gre-flags
cdma pdsn a11 dormant sdb-indication match-qos-group
cdma pdsn a11 mandate presence airlink-setup
cdma pdsn a11 receive de-reg send-termreq
cdma pdsn a11 reject airlink-start active
cdma pdsn a11 reject airlink-stop dormant
cdma pdsn a11 session-update qos
cdma pdsn accounting local-timezone
cdma pdsn accounting prepaid threshold
cdma pdsn accounting send cdma-ip-tech
cdma pdsn accounting send ipv6-flows
cdma pdsn accounting send start-stop
cdma pdsn accounting time-of-day
cdma pdsn attribute send meid-optional
cdma pdsn cluster controller closed-rp
cdma pdsn cluster controller member
cdma pdsn cluster controller session-high
cdma pdsn cluster controller session-low
cdma pdsn cluster member periodic-update
cdma pdsn cluster member prohibit administratively
cdma pdsn compliance iosv4.1 session-reference
cdma pdsn debug show-conditions
cdma pdsn ingress-address-filtering
cdma pdsn mobile-advertisement-burst
cdma pdsn multiple service-flows
cdma pdsn multiple service-flows qos remark-dscp
cdma pdsn multiple service-flows qos subscriber profile
cdma pdsn pcf default closed-rp
cdma pdsn redundancy accounting send vsa swact
cdma pdsn redundancy accounting update-periodic
cdma pdsn retransmit a11-update
cdma pdsn selection load-balancing
cdma pdsn selection session-table-size
cdma pdsn tft reject include error extension
cdma pdsn timeout mobile-ip-registration
clear cdma pdsn cluster controller session record age
clear cdma pdsn cluster controller statistics
clear cdma pdsn cluster member statistics
clear cdma pdsn redundancy statistics
debug cdma pdsn accounting flow
debug cdma pdsn accounting time-of-day
debug cdma pdsn radius disconnect nai
debug cdma pdsn resource-manager
debug cdma pdsn service-selection
dscp (service flows qos subscriber profile submode)
flow-priority (service flows qos subscriber profile submode)
flow-profile direction (service flows qos subscriber profile submode)
inter-user-priority (service flows qos subscriber profile submode)
ip mobile authentication ignore-spi
ip mobile foreign-service revocation
ip mobile registration-lifetime
link-flow (service flows qos subscriber profile submode)
show cdma pdsn accounting detail
show cdma pdsn accounting session
show cdma pdsn accounting session detail
show cdma pdsn accounting session flow
show cdma pdsn accounting session flow user
show cdma pdsn cluster controller
show cdma pdsn cluster controller configuration
show cdma pdsn cluster controller member
show cdma pdsn cluster controller session
show cdma pdsn cluster controller statistics
show cdma pdsn qos local profile
show cdma pdsn redundancy statistics
show cdma pdsn statistics prepaid
show ip mobile cdma ipsec profile
snmp-server enable traps ipmobile
tft-allowed (service flows qos subscriber profile submode)
Command Reference for Cisco PDSN Release 4.1 in IOS Release 12.4(15)XR2
Published: June 17, 2009Revised: June 17, 2009This section lists new and revised commands for the Cisco PDSN software. All other commands used with this feature are documented in the Cisco IOS Release 12.4 command reference publications.
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bandwidth (service flows qos subscriber profile submode)
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access list
To configure the access list mechanism for filtering frames by protocol type or vendor code, use the access-list global configuration command. Use the no form of this command to remove the single specified entry from the access list.
access-list access-list-number {permit | deny} {type-code wild-mask | address mask}
no access-list access-list-number {permit | deny} {type-code wild-mask | address mask}
Syntax Description
Defaults
No numbered encryption access lists are defined, and therefore no traffic will be encrypted/decrypted. After being defined, all encryption access lists contain an implicit "deny" ("do not encrypt/decrypt") statement at the end of the list.
Command Modes
Global configuration
Command History
Usage Guidelines
Use encryption access lists to control which packets on an interface are encrypted/decrypted, and which are transmitted as plain text (unencrypted).
When a packet is examined for an encryption access list match, encryption access list statements are checked in the order that the statements were created. After a packet matches the conditions in a statement, no more statements will be checked. This means that you need to carefully consider the order in which you enter the statements.
To use the encryption access list, you must first specify the access list in a crypto map and then apply the crypto map to an interface, using the crypto map (CET global configuration) and crypto map (CET interface configuration) commands.
Fragmented IP packets, other than the initial fragment, are immediately accepted by any extended IP access list. Extended access lists used to control virtual terminal line access or restrict contents of routing updates must not match the TCP source port, the type of service value, or the packet's precedence.
Note
Caution
Note
Examples
The following example creates a numbered encryption access list that specifies a class C subnet for the source and a class C subnet for the destination of IP packets. When the router uses this encryption access list, all TCP traffic that is exchanged between the source and destination subnets will be encrypted.
access-list 101 permit tcp 172.21.3.0 0.0.0.255 172.22.2.0 0.0.0.255bandwidth (service flows qos subscriber profile submode)
To configure the maximum aggregate bandwidth value, use the bandwidth command in the service flows qos subscriber profile submode. Use the no form of the command to disable this feature.
bandwidth number
no bandwidth number
Syntax Description
Defaults
There are no default values.
Command Modes
Service flows qos subscriber profile submode.
Command History
Usage Guidelines
Examples
The following example illustrates a maximum aggregate bandwidth value of 9000:
router#(config-qos-profile)#bandwidth ?<8000-2000000000> Valuerouter#(config-qos-profile)#bandwidth 9000 ?<cr>cdma pdsn a10 ahdlc engine
To limit the number of Asynchronous High-Level Data Link Control (AHDLC) channel resources provided by the AHDLC engine, use the cdma pdsn a10 ahdlc engine command to in global configuration mode. To reset the number of AHDLC channel resources to the default, use the no form of this command.
cdma pdsn a10 ahdlc engine slot usable-channels usable-channels
no cdma pdsn a10 ahdlc engine slot usable-channels
Syntax Description
Defaults
The default number of usable channels equals the maximum channels supported by the engine; the c-5 images supports 8000 sessions, and all c-6 image support 20000 sessions. In the PDSN 4.0 image, the maximum number of usable channel is increased to 75000.
Command Modes
Global configuration
Command History
Usage Guidelines
If the value of usable-channels is greater than default maximum channels provided by the engine, the command will fail.
If the engine has any active channels, the command will fail.
Examples
The following example limits the number of service channels provided by the AHDLC engine to 1000:
cdma pdsn a10 ahdlc engine 0 usable-channels 1000Related Commands
cdma pdsn a10 ahdlc trailer
To enable the PDSN so that AHDLC frames are expected to contain trailer byte, use the cdma pdsn a10 ahdlc trailer command to in global configuration mode. To disable the PDSN so that AHDLC processing does not expect the AHDLC trailer (0x7e), use the no form of this command.
cdma pdsn a10 ahdlc trailer
no cdma pdsn a10 ahdlc trailer
Syntax Description
There are no arguments or keywords for this command.
Defaults
The default behavior is that trailer byte 0x7e is expected in the AHDLC frames.
Command Modes
Global configuration
Command History
Usage Guidelines
When the no version of the command is configured, each AHDLC frame is considered a full AHDLC fragment, and the PDSN will start processing the packet.
Examples
The following example disables the PDSN so that AHDLC processing does not expect the AHDLC trailer:
Router (config)# no cdma pdsn a10 ahdlc trailercdma pdsn a10 always-on keepalive
To alter the default always-on service parameters, use the cdma pdsn a10always-on keepalive command in global configuration mode. To return to the default values, use the no form of this command.
cdma pdsn a10 always-on keepalive {interval 1-65535 [attempts 0-255] | attempts 0-255}
no cdma pdsn a10 always-on keepalive {interval 1-65535 [attempts 0-255] | attempts 0-255}
Syntax Description
Defaults
The Always On feature is enabled by default. The default value for interval is 3, and the default value for attempts is 3.
Command Modes
Global configuration
Command History
cdma pdsn a10 init-ppp-after-airlink-start airlink-start-timeout
To configure the PDSN so that Point-to-Point Protocol (PPP) negotiation with an MN will start only after the traffic channel is assigned, (in other words, after a Registration Request with airlink-start is received), use the cdma pdsn a10 init-ppp-after-airlink-start command in global configuration mode. Use the no form of this command to revert to the default behavior.
cdma pdsn a10 init-ppp-after-airlink-start airlink-start-timeout 1-120
no cdma pdsn a10 init-ppp-after-airlink-start airlink-start-timeout 1-120
Syntax Description
Defaults
By default, this CLI is not enabled, therefore, the PDSN will initiate PPP negotiation immediately after a Registration Reply is sent to the initial Registration.Request.
When enabled, the default timeout interval is 10 seconds.
Command Modes
Global configuration
Command History
Usage Guidelines
The PDSN initiates PPP negotiation immediately after a Registration Reply is sent to the initial Registration Request, but the calls (for which the PPP negotiation has started before the traffic channel is assigned to MN) have failed.
When this command is enabled, the PPP negotiation with the MN will start only after the traffic channel is assigned—after a Registration Request with airlink-start is received. If the airlink start is not received at all, the session will be torn down when timeout occurs.By default, this timeout interval is 10 seconds, or can be configured through the CLI.
The session is not torn down immediately after the timeout, so, in order to minimize the impact on the performance, there is just one timer started to keep track of all the sessions waiting for airlink-start to start PPP.
For example, with a default of 10 seconds, if the timer expires at t1 and a new call comes at t2(t2 >t1), the next run of the timer will be at t1+10. It is likely that the uptime for the call is not more than 10 seconds since t2 > t1. So the call will be checked at the next run (t1+10+10). Thus, the variation is between 1 and 10.
Examples
The following example illustrates the cdma pdsn a10 init-ppp-after-airlink-start airlink-start-timeout command:
router# cdma pdsn a10 init-ppp-after-airlink-start airlink-start-timeout 20cdma pdsn a10 gre sequencing
To enable inclusion of Generic Routing Encapsulation (GRE) sequence numbers in the packets sent over the A10 interface, use the cdma pdsn gre sequencing command in global configuration mode. To disable the inclusion of GRE sequence number in the packets sent over the A10 interface, use the no form of this command.
cdma pdsn a10 gre sequencing
no cdma pdsn a10 gre sequencing
Syntax Description
This command has no arguments or keywords.
Defaults
GRE sequence numbers are included in the packets sent over the A10 interface.
Command Modes
Global configuration
Command History
Examples
The following example instructs Cisco PDSN to include per-session GRE sequence numbers in the packets sent over the A10 interface:
router# cdma pdsn a10 gre sequencingRelated Commands
cdma pdsn a10 max-lifetime
To specify the maximum A10 registration lifetime accepted, use the cdma pdsn a10 max-lifetime command in global configuration mode. To return to the default length of time, use the no form of this command.
cdma pdsn a10 max-lifetime seconds
no cdma pdsn a10 max-lifetime
Syntax Description
seconds
Maximum A10 registration lifetime accepted by Cisco PDSN. The range is 1 to 65535 seconds. The default is 1800 seconds.
Defaults
1800 seconds.
Command Modes
Global configuration
Command History
Examples
The following example specifies that the A10 interface will be maintained for 1440 seconds:
router# cdma pdsn a10 max-lifetime 1440Related Commands
cdma pdsn a10 police downstream
To enable policing of down stream data traffic for the session, use the cdma pdsn a10 police downstream command in global configuration mode. To disable this feature, use the no form of this command.
cdma pdsn a10 police downstream
no cdma pdsn a10 police downstream
Syntax Description
There are no keywords or variable for this command.
Defaults
The default value is that policing is not applied for downstream packets.
Command Modes
Global configuration
Command History
Examples
router(config)# cdma pdsn a10 police downstream
cdma pdsn a11 dormant ppp-idle-timeout send-termreq
To specify that for dormant sessions, on PPP idle timeout, PPP termreq will be sent, use the cdma pdsn all dormant ppp-idle-timeout send-termreq command in global configuration mode. To disable this feature, use the no form of this command.
cdma pdsn all dormant ppp-idle-timeout send-termreq
no cdma pdsn all dormant ppp-idle-timeout send-termreq
Syntax Description
There are no keywords or variable for this command.
Defaults
There are no default values.
Command Modes
Global configuration
Command History
Usage Guidelines
Disabling this behavior will avoid traffic channel allocation for cleaning up ppp sessions at the mobile.
Examples
router# cdma pdsn a11 dormant ppp-idle-timeout send-termreq
cdma pdsn a11 dormant sdb-indication gre-flags
To configure the PDSN so that all packets that are set with the specific group-number will be flagged for SDB usage between the PCF and the PDSN, use the cdma pdsn a11 dormant sdb-indication gre-flags command in global configuration mode. To disable this feature, use the no form of the command.
cdma pdsn a11 dormant sdb-indication gre-flags group-number
no cdma pdsn a11 dormant sdb-indication gre-flags group-number
Syntax Description
Defaults
There are no default values.
Command Modes
Global configuration
Command History
Usage Guidelines
The B bit (SDB indication) would be set for packets matching the sdb-indication group-number.
Examples
router# cdma pdsn a11 dormant sdb-indication gre-flags 12
cdma pdsn a11 dormant sdb-indication match-qos-group
To configure the PDSN to use SDBs to deliver PPP control packets for Always-On sessions, where the session is dormant, use the cdma pdsn a11 dormant sdb-indication match-qos-group command in global configuration mode. Use the no form of this command to disable this feature.
cdma pdsn a11 dormant sdb-indication match-qos-group group-number ppp-ctrl-pkts
no cdma pdsn a11 dormant sdb-indication match-qos-group group-number ppp-ctrl-pkts
Syntax Description
Defaults
There are no default values.
Command Modes
Global configuration
Command History
Usage Guidelines
While data packets can be sent towards the mobile using SDBs, SDBs can also be used to deliver PPP control packets. This method can be particularly helpful for Always-On sessions, where the session is dormant. Basically, with Always On configured, the PDSN sends out LCP echo requests (and waits for LCP echo replies) to keep the session alive. As a result, when such a session goes dormant, a data channel needs to be setup to deliver these LCP echo requests to the MN. The other option is to use SDBs to deliver the LCP echo requests without setting up a data channel.
Examples
The following example illustrates the cdma pdsn a11 dormant sdb-indication match-qos-group command:
router(config)# cdma pdsn a11 dormant sdb-indication match-qos-group 14 ppp-ctrl-pktscdma pdsn a11 mandate presence airlink-setup
To mandate that the initial RRQ should have Airlink-Setup in Acct CVSE from PCF, use the cdma pdsn all mandate presence airlink-setup command in global configuration mode. To disable this feature, use the no form of this command.
cdma pdsn a11 mandate presence airlink-setup
no cdma pdsn a11 mandate presence airlink-setup
Syntax Description
This command has no keywords or variables.
Defaults
There are no default values.
Command Modes
Global configuration
Command History
Usage Guidelines
Issuing this command mandates that the initial RRQ should have Airlink-Setup in Acct CVSE from PCF. As a result, if this Airlink setup is not present in the RRQ, the session is not created, and a RRP with error code "86H - Poorly formed request" is returned.
If you do not configure this command, or disable it, then sessions can be opened even with no accounting CVSE being present in the initial RRQ.
Examples
router# cdma pdsn a11 mandate presence airlink-setup
cdma pdsn a11 receive de-reg send-termreq
To enable the PDSN to send an LCP TermReq to the Mobile Node when it receives a A11 de-registration message from the PCF, use the cdma pdsn a11 receive de-reg send-termreq command in global configuration mode. To disable this feature, use the no form of the command.
cdma pdsn a11 receive de-reg send-termreq
no cdma pdsn a11 receive de-reg send-termreq
Syntax Description
There are no arguments or keywords for this command.
Defaults
There are no default values.
Command Modes
Global configuration
Command History
Examples
The following example enables the PDSN to send an LCP TermReq to the Mobile Node when it receives a A11 de-registration message from the PCF:
router (config)# cdma pdsn a11 receive de-reg send-termreqcdma pdsn a11 reject airlink-start active
To enable the PDSN to send RRP (with error code "86H-Poorly formed request") when the RRQ is received with airlink-start in the Acct CVSE from PCF for an active session, use the cdma pdsn a11 reject airlink-start active command in global configuration mode. To disable this function, use the no form of the command.
cdma pdsn a11 reject airlink-start active
no cdma pdsn a11 reject airlink-start active
Syntax Description
This command has no arguments or keywords.
Defaults
No default values.
Command Modes
Global configuration
Command History
Examples
The following example illustrates the cdma pdsn a11 reject airlink-start active command:
Router(config)# cdma pdsn a11 reject airlink-start activecdma pdsn a11 reject airlink-stop dormant
To enable the PDSN to send RRP (with error code "86H-Poorly formed request") when the RRQ is received with airlink-stop in the Acct CVSE from PCF for a dormant session, use the cdma pdsn a11 reject airlink-stop dormant command in global configuration mode. To disable this function, use the no form of the command.
cdma pdsn a11 reject airlink-stop dormant
no cdma pdsn a11 reject airlink-stop dormant
Syntax Description
This command has no arguments or keywords.
Defaults
No default values.
Command Modes
Global configuration
Command History
Examples
The following example illustrates the cdma pdsn a11 reject airlink-stop dormant command:
Router(config)# cdma pdsn a11 reject airlink-stop dormantcdma pdsn a11 session-update
To enable the A11 Session update feature on the PDSN, and to send an A11 session update for either the Always On, or RNPDIT (or both) attributes that are downloaded from the AAA during the authentication phase, use the cdma pdsn a11 session-update command in global configuration. Use the no form of the command to disable this feature.
cdma pdsn a11 session-update {[always-on] 1-10 [rn-pdit] 0-9}
no cdma pdsn a11 session-update {[always-on] [rn-pdit] 1-10}
Syntax Description
Defaults
The default timeout value is 3 seconds. The default retransmit number is 3.
Command Modes
Global configuration
Command History
Examples
The following example enables both the always-on and rn-pdit attributes:
Router(config)#cdma pdsn a11 session-update ?always-on Send Always-on indicator in A11 Session-Updatern-pdit Send RN-PDIT in A11 Session-Updatecdma pdsn a11 session-update qos
To enable sending a Subscriber QoS profile through an A11 session-update and A11 RRP, use the cdma pdsn a11 session-update qos command in global configuration mode. Use the no form of the command disable the feature. The existing timeout and retransmit a11 session-update configurations also apply to this command.
cdma pdsn a11 session-update qos
no cdma pdsn a11 session-update qos
Syntax Description
This command has no arguments or keywords.
Defaults
The default value is that subscriber qos is not sent in session update.
Command Modes
Global configuration
Command History
Examples
The following example illustrates how to configure the cdma pdsn a11 session-update qos command:
router(config)# cdma pdsn a11 session-update qoscdma pdsn accounting local-timezone
To specify the local time stamp for PDSN accounting events, use the cdma pdsn accounting local-timezone command in global configuration mode. To return to the default Universal Time (UTC), use the no form of this command.
cdma pdsn accounting local-timezone
no cdma pdsn accounting local-timezone
Syntax Description
This command has no arguments or keywords.
Defaults
UTC time, a standard based on GMT, is enabled.
Command Modes
Global configuration
Command History
Usage Guidelines
You must use the clock timezone hours-offset [minutes-offset] global configuration command to reflect the difference between local time and UTC time.
Examples
The following example sets the local time in Korea:
clock timezone KOREA 9cdma pdsn accounting local-timezoneRelated Commands
cdma pdsn accounting prepaid
To enable the Prepaid billing feature on PDSN, use the cdma pdsn accounting prepaid command in global configuration mode. To disable this feature, use the no form of the command.
cdma pdsn accounting prepaid [volume | duration]
no cdma pdsn accounting prepaid [volume | duration]
Syntax Description
volume
Specifies that quota metering on the PDSN will be volume-based.
duration
Specifies that quota metering on the PDSN will be duration-based.
Defaults
There are no default values for this command.
Command Modes
Global configuration
Command History
Usage Guidelines
Prepaid quota metering on the PDSN can be configured as volume-based only by enabling the volume keyword, or duration-based only by enabling the duration keyword. If no option is provided, both volume-based and duration-based metering are enabled on the PDSN, but only one can be effective at a time for one prepaid flow.
Note
Examples
The following example illustrates how to enable volume-based billing on the PDSN using the cdma pdsn accounting prepaid command:
router# cdma pdsn accounting prepaid volumecdma pdsn accounting prepaid threshold
To set the box-level threshold for all volume-based or duration-based prepaid flows on the PDSN, use the cdma pdsn accounting prepaid threshold command in global configuration mode. To disable this feature, use the no form of the command.
cdma pdsn accounting prepaid threshold [volume | duration] value
no cdma pdsn accounting prepaid threshold [volume | duration] value
Syntax Description
Defaults
There are no default values for this command.
Command Modes
Global configuration
Command History
Examples
The following example illustrates how to set the threshold for volume-based billing on the PDSN using the cdma pdsn accounting prepaid threshold command:
router# cdma pdsn accounting prepaid volume 80
router# cdma pdsn accounting prepaid duration 75
cdma pdsn accounting send cdma-ip-tech
To configure specific values for the F11 attribute for proxy Mobile IP and VPDN services, use the cdma pdsn accounting send cdma-ip-tech command in global configuration mode. To deconfigure those values, use the no form of this command.
cdma pdsn accounting send cdma-ip-tech [proxy-mobile-ip | vpdn]
no cdma pdsn accounting send cdma-ip-tech [proxy-mobile-ip | vpdn]
Syntax Description
proxy-mobile-ip
Sets the IP-Tech proxy-mobile-ip number. Values are 3-65535.
vpdn
Sets the IP-Tech vpdn number. Values are 3-65535.
Defaults
No default behavior or values.
Command Modes
Global configuration.
Command History
Examples
pdsn(config)#cdma pdsn accounting send cdma-ip-tech proxy-mobile-ip 3pdsn(config)#cdma pdsn accounting send cdma-ip-tech vpdn 4cdma pdsn accounting send ipv6-flows
To to control the number of flows and UDR records used for IPv4/IPv6 simultaneous sessions, use the cdma pdsn accounting send ipv6-flows command in global configuration mode. Use the no form of this command to disable this function.
cdma pdsn accounting send ipv6-flows number
no cdma pdsn accounting send ipv6-flows number
Syntax Description
number
Number of flows. The default value is 1, denoting shared flow. The range of values is 1-2.
Defaults
The default value of flows is 1, denoting a shared flow.
Command Modes
Global configuration
Command History
Usage Guidelines
The session will default to 1 flow for a simultaneous IPv4/IPv6 session, but 2 flows can be configured for a simultaneous session.
Examples
The following example illustrates the cdma pdsn accounting send ipv6-flows command:
router(config)# cdma pdsn accounting send ipv6-flows 2cdma pdsn accounting send start-stop
To cause the PDSN to send accounting records when the call transitions between active and dormant states, use the cdma pdsn accounting send start-stop command in global configuration mode. To stop sending accounting records, use the no form of this command.
cdma pdsn accounting send {start-stop | cdma-ip-tech}
no cdma pdsn accounting send {start-stop | cdma-ip-tech}
Syntax Description
start-stop
Informs the PDSN when to begin sending accounting records and when to stop sending them.
cdma-ip-tech
Accounting records are generated with special IP-Tech number.
Defaults
No default behavior or values.
Command Modes
Global configuration
Command History
Usage Guidelines
When this feature is enabled, the PDSN will send:
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Examples
The following example starts sending PDSN accounting events:
cdma pdsn accounting send start-stopRelated Commands
cdma pdsn accounting time-of-day
To set the accounting information for specified times during the day, use the cdma pdsn accounting time-of-day command in global configuration mode. To disable the specification, use the no form of this command.
cdma pdsn accounting time-of-day hh:mm:ss
no cdma pdsn accounting time-of-day
Syntax Description
Defaults
No default behavior or values.
Command Modes
Global configuration
Command History
Usage Guidelines
This command is used to facilitate billing when a user is charged different prices based upon the time of the day. Up to ten different accounting triggers can be configured.
Examples
The following example sets an accounting trigger for 13:30:20:
cdma pdsn accounting time-of-day 13:30:30Related Commands
cdma pdsn age-idle-users
To configure the aging of idle users, use the cdma pdsn age-idle-users command. To stop aging out idle users, use the no form of this command.
cdma pdsn age-idle-users [minimum-age value]
no cdma pdsn age-idle-users
Syntax Description
minimum-age value
(Optional) The minimum number of seconds a user should be idle before they are a candidate for being aged out. Possible values are 1 through 65535.
Defaults
By default, no idle users are aged out.
Command Modes
Global configuration
Command History
Usage Guidelines
If no value is specified, the user that has been idle the longest will be aged out. If an age is specified and the user that has been idle the longest has not been idle for the specified value, then no users are aged out.
Examples
The following example sets a minimum age out value of 5 seconds:
cdma pdsn age-idle-users minimum-age 5cdma pdsn attribute send
To configure the attributes to be sent in an access-request or accounting request, use the cdma pdsn attribute send command in global configuration mode. To disable this feature and return to the default settings, use the no form of this command.
cdma pdsn attribute send {a1 {fa-chap | mip-rrq} | a2 {auth-req | fa-chap | mip-rrq} a3 {auth-req | fa-chap | mip-rrq} | c5 {acct-reqs} | f11 {auth-req | fa-chap} | f15 {acct-reqs} | f16 {acct-reqs} | f5 {auth-req | fa-chap}| f17{acct-reqs} | f18 {acct-reqs} | f19 {acct-reqs} | f20 {acct-reqs} | f22 {acct-reqs} | g1 {acct-start} | g2 {acct-start} | g17 | esn-optional | is835a}
no cdma pdsn attribute send {a1 {fa-chap | mip-rrq} | a2 {auth-req | fa-chap | mip-rrq} a3 {auth-req | fa-chap | mip-rrq} | c5 {acct-reqs} | f11 {auth-req | fa-chap} | f15 {acct-reqs} | f16 {acct-reqs} | f5 {auth-req | fa-chap}| f17{acct-reqs} | f18 {acct-reqs} | f19 {acct-reqs} | f20 {acct-reqs} | f22 {acct-reqs} | g1 {acct-start} | g2 {acct-start} | g17 | esn-optional | is835a}
Syntax Description
Defaults
No default values
Command Modes
Global configuration
Command History
12.3(8)XW
This command was introduced.
12.3(14)YX
The F11 attribute was introduced.
12.4(15)XN
The f17, f18, f19, f20, and f22 attributes were added.
Usage Guidelines
Use this command to enable the optional attributes to be sent in access and accounting requests.
When attributes which have multiple options (for example, a1, which can be sent in fa-chap as well as mip-rrq), the configuration can be done in the following way as well,
cdma pdsn attribute send a1 fa-chap mip-rrq,similarly
cdma pdsn attribute send a1 auth-req mip-rrq fa-chapExamples
The following example enables the cdma pdsn attribute send command:
cdma pdsn attribute send a1 fa-chapThe attribute a1 will be sent in the access request during FA-CHAP
cdma pdsn attribute send a1 auth-reqThe attribute a2 will be sent in the access request during PPP PAP/CHAP
Here is sample output for PDSN Release 4.0:
cdma pdsn attribute send ?a1 Attribute Calling Station IDa2 Attribute ESN, Electronic Serial Numbera3 Attribute MEID, Mobile Equipment Identifierc5 Service Reference IDesn-optional Send ESN in Access Req/accounting records only when receivedfrom PCFf11 IP Technologyf15 Attribute f15, always-onf16 Forward PDCH RC ------------------------|f17 Forward DCCH MUX ------------------------|f18 Reverse DCCH MUX ------------------------|-----> NEWf19 Forward DCCH RC ------------------------ |f20 Reverse DCCH RC ------------------------|f22 Reverse PDCH RC ------------------------ |f5 Attribute Service Optiong1 Attribute Input Octetsg17 Last known user activityg2 Attribute Output Octetsis835a is835a specified attributes (g3 and g8 to g16)meid-optional Send MEID in Access req/accounting records only when received from PCFcdma pdsn attribute send meid-optional
To include the MEID in the Accounting Requests and access requests, in FA-CHAP requests and MOIP- requests, use the cdma pdsn attribute send meid-optional command in global configuration mode. To disable this feature, use the no form of the command.
cdma pdsn attribute send meid-optional
no cdma pdsn attribute send meid-optional
Syntax Description
There are no arguments of keywords for this command.
Defaults
No default values
Command Modes
Global configuration
Command History
Usage Guidelines
If the MN is not equipped to send the MEID, it will not be included in the RRQ. In such circumstances, a blank string will be included in the Accounting Requests, and the access requests, FA-CHAP and MOIP-rrqs.
If the cdma pdsn attribute send meid-optional command is configured, the MEID is included in the Accounting Requests and access requests, in FA-CHAP requests and MOIP- requests, only if it is included in the RRQ.
Examples
The following example illustrates the cdma pdsn attribute send meid-optional command:
cdma pdsn attribute send meid-optionalcdma pdsn attribute vendor
To configure the PDSN to parse the served mdn attribute sent in the China Telecom VSA, and send the attributes in accounting messages, use the cdma pdsn attribute vendor command in Global configuration mode. Use the no form of the command to disable this feature.
cdma pdsn attribute vendor [20492]
no cdma pdsn attribute vendor [20492]
Syntax Description
Defaults
No default values.
Command Modes
Global configuration.
Command History
Examples
The following example illustrates the cdma pdsn attribute vendor command:
router (config)#cdma pdsn attribute vendor?20492 cnctccdma pdsn cac maximum
To enable the Call Admission Control feature, and to control the CAC bandwidth parameter and CAC CPU parameters, use the cdma pdsn cac maximum command in global configuration mode. Use the no form of the command to disable this feature.
cdma pdsn cac maximum [bandwidth | cpu]
no cdma pdsn cac maximum [bandwidth | cpu]
Syntax Description
Defaults
No default values.
Command Modes
Global configuration.
Command History
Usage Guidelines
The Call Admission Control feature is only enabled if the CAC CLI for CPU and Bandwidth is configured.
Examples
The following example illustrates the cdma pdsn cac maximum bandwidth command:
cdma pdsn cac ?maximum Configure Maximum values for CAC Parameterscdma pdsn cac maximum ?bandwidth Configure Maximum Bandwidthcpu-threshold Configure CPU Threshold parameterscdma pdsn cac maximum bandwidth ?<8000-2000000000> ValueThe following example illustrates the cdma pdsn cac maximum cpu command:
cdma pdsn cac ?maximum Configure Maximum values for CAC Parameterscdma pdsn cac maximum ?bandwidth Configure CDMA PDSN cac maximum bandwidthcpu Configure CDMA PDSN cac CPUcdma pdsn cac cpu ?<30-90> Valuecdma pdsn cluster controller
To configure the PDSN to operate as a cluster controller, and to configure various parameters on the cluster controller, use the cdma pdsn cluster controller command. To disable certain cluster controller parameters, use the no form of this command.
cdma pdsn cluster controller [ interface interface-name | timeout seconds [window number] | window number ]
no cdma pdsn cluster controller [ interface interface-name | timeout seconds [window number] | window number ]
Syntax Description
Defaults
The timeout default value is 300 seconds.
Command Modes
Global configuration
Command History
Examples
The following example enables the cdma cluster controller:
cdma pdsn cluster controller interface FastEthernet1/0cdma pdsn cluster controller closed-rp
To configure the VPDN group to be used to establish the L2TP tunnels between the controller and members for the Closed-RP Controller-Member clustering, use the cdma pdsn cluster controller closed-rp command in global configuration mode on the PDSN cluster controller. To remove this configuration, use the no form of the command.
cdma pdsn cluster controller closed-rp vpdn-group
no cdma pdsn cluster controller closed-rp vpdn-group
Syntax Description
Defaults
No default behavior or values.
Command Modes
Global Configuration
Command History
Usage Guidelines
The VPDN group to be used for controller-member L2TP tunnels must be present in the running configuration before this command is configured.
Examples
The following example illustrates the cdma pdsn cluster controller closed-rp command:
cdma pdsn cluster controller closed-rp vpdn-groupcdma pdsn cluster controller member
To enable the periodic process to flush the dangling session records on the controller, enable the cluster controller to use CAC parameters to distribute the load, and enable the member selection policy, use the cdma pdsn cluster controller member command in global configuration mode. Use the no form of the command to disable this feature.
cdma pdsn cluster controller member {periodic-update | reva-support | selection-policy}
no cdma pdsn cluster controller member {periodic-update | reva-support | selection-policy}
Syntax Description
periodic-update
Enables you to receive periodic session info from members.
reva-support
Configures member reva-support.
selection-policy
Configures member selection-policy.
Defaults
There are no default values.
Command Modes
Global configuration
Command History
12.3(8)ZB1
This command was introduced.
12.4(15)XN
This reva-support keyword was introduced.
Examples
The following example illustrates how to enable the cdma pdsn cluster controller member reva-support command:
router(config)#cdma pdsn cluster controller member ?periodic-update Receive periodic session info from membersreva-support Member reva-supportselection-policy Member selection policycdma pdsn cluster controller session-high
To generate an alarm when the controller reaches the upper threshold of the maximum number of sessions it can handle, use the cdma pdsn cluster member session-high command. To disable this feature, use the no form of this command.
cdma pdsn cluster controller session-high 1-1000000
no cdma pdsn cluster controller session-high 1-1000000
Syntax Description
Defaults
The range is 1-1000000. The configured value should be more than the lower threshold value. The default value is 200000.
Command Modes
Global configuration
Command History
Usage Guidelines
You should take into account the number of members in the cluster when you configure the high threshold. For example, if there are only 2 members in the cluster, the high threshold should be less than 40000.
Examples
The following example illustrates the cdma pdsn cluster controller session-high command:
Received SNMPv1 Trap:Community: publicEnterprise: cCdmaPdsnMIBNotifPrefixAgent-addr: 9.15.72.15Enterprise Specific trap.Enterprise Specific trap: 8Time Ticks: 9333960cCdmaServiceAffectedLevel.0 = major(3)cCdmaClusterSessHighThreshold.0 = 50cdma pdsn cluster controller session-low
To generate an alarm when the controller reaches the lower threshold of the sessions (hint to NOC that the system is being under utilized), use the cdma pdsn cluster member session-low command. To disable this feature, use the no form of this command.
cdma pdsn cluster controller session-low 1-999999
no cdma pdsn cluster controller session-low 1-999999
Syntax Description
Defaults
The range is 0-999999. The configured value should be less than the upper threshold value. The default value is 190000.
Command Modes
Global configuration
Command History
Usage Guidelines
You should take into account the number of members in the cluster when you configure the low threshold.
Examples
The following example illustrates the cdma pdsn cluster controller session-low command:
Received SNMPv1 Trap:Community: publicEnterprise: cCdmaPdsnMIBNotifPrefixAgent-addr: 9.15.72.15Enterprise Specific trap.Enterprise Specific trap: 9Time Ticks: 9330691cCdmaServiceAffectedLevel.0 = major(3)cCdmaClusterSessLowThreshold.0 = 10cdma pdsn cluster member
To configure the PDSN to operate as a cluster member, and to configure various parameters on the cluster member, use the cdma pdsn cluster member command. To disable certain cluster controller parameters, use the no form of this command.
cdma pdsn cluster member [controller ipaddr | interface interface-name | prohibit type
| queueing | timeout seconds [window number] | window number]no cdma pdsn cluster member [controller ipaddr | interface interface-name | prohibit type
| queueing | timeout seconds [window number] | window number]Syntax Description
Defaults
The default timeout value for the cluster member is 300 seconds.
Command Modes
Global configuration
Command History
Usage Guidelines
The prohibit field enables a member to administratively rid itself of its load without service interruption. When enabled, the member is no longer given any new data sessions by the controller.
Examples
The following example enables a cdma pdsn cluster member:
cdma pdsn cluster member interface FastEthernet1/0cdma pdsn cluster member periodic-update
To enable sending only bulk-update on a member PDSN, use the cdma pdsn cluster member periodic-update command in Global configuration mode. To disable this feature, use the no form of the command.
cdma pdsn cluster member periodic-update time
no cdma pdsn cluster member periodic-update time
Syntax Description
time
The time between when the member sends periodic bulk-updates. The time can be between 300 to 3000 msecs.
Defaults
The default value is 1000 ms.
Command Modes
Global configuration
Command History
Examples
The following example illustrates the cdma pdsn cluster member periodic-update command:
router# cdma pdsn cluster member periodic-update 1000cdma pdsn cluster member prohibit administratively
To separate a member PDSN out of the cluster use the cdma pdsn cluster member prohibit administratively command in global configuration mode. To disable this feature, use the no form of the command.
cdma pdsn cluster member prohibit administratively
no cdma pdsn cluster member prohibit administratively
Syntax Description
This command has no arguments or keywords.
Defaults
There are no default values.
Command Modes
Global configuration.
Command History
Usage Guidelines
Note
The status of the member will be updated to the controller in a subsequent periodic keepalive reply message the member sends to the controller. When the controller receives the message, it does not select this member for any of the new incoming calls. The member PDSNs that are prohibited administratively can be displayed on the controller using the show cluster controller member prohibited administratively command.
Examples
The following command illustrates the use of the cdma pdsn cluster member prohibit administratively command.
router# cdma pdsn cluster member prohibit administrativelycdma pdsn compliance
To configure PDSN behavior to comply with various standards, use the cdma pdsn compliance command in global configuration mode. Use the no form of the command to disable this function.
cdma pdsn compliance [iosv4.1] [sdb] [is835a] [is835c]
no cdma pdsn compliance [iosv4.1] [sdb] [is835a] [is835c]
Syntax Description
Defaults
There are no default values for this command.
Command Modes
Global configuration
Command History
12.3(11)YF1
This command was introduced.
12.3(11)YF2
The sdb keyword was introduced.
Examples
The following example illustrates one instance of the cdma pdsn compliance command:
router# cdma pdsn compliance is835acdma pdsn compliance iosv4.1 session-reference
3GPP2 IOS version 4.2 mandates that the Session Reference ID in the A11 Registration Request is always set to 1. To configure the PDSN to interoperate with a PCF that is not compliant with 3GPP2 IOS version 4.2, use the cdma pdsn compliance iosv4.1 session-reference command in Global configuration mode. To disable this configuration, use the no form of this command.
cdma pdsn compliance iosv4.1 session-reference
no cdma pdsn compliance iosv4.1 session-reference
Syntax Description
This command has no arguments or keywords.
Defaults
Session Reference ID set to 1 in the A11 registration Request is on by default.
Command Modes
Global configuration.
Command History
Examples
The following command instructs the PDSN to skip any checks done on the session reference id of incoming Registration Requests to ensure that they are set to 1.
router # cdma pdsn compliance iosv4.1 session-referenceRelated Commands
debug cdma pdsn a11
Displays debug messages for A11 interface errors, events, and packets.
cdma pdsn debug show-conditions
To configure the PDSN to print the username/IMSI along with the debugs even without configuring conditional debugging, use the cdma pdsn debug show-conditions command in global configuration mode. Use the no form of the command to disable this function.
Syntax Description
This command has no arguments or keywords.
Defaults
The default value is disabled.
Command Modes
Global configuration
Command History
Usage Guidelines
When the debug conditions match, every line of the debug message is pre-pended with either the username or the IMSI (not both), depending on the condition set.
This behavior is controlled through the cdma pdsn debug show-condition and ip mobile debug include username commands. If conditional debugging is enabled without these CLI being configured, the username/IMSI will not be displayed in the debugs. However, if the above CLIs are configured without configuring conditional debugging, the username/IMSI is printed along with the debugs.
Examples
The following example enables username and IMSI printing in the debugs:
router(config)#cdma pdsn debug show-conditioncdma pdsn failure-history
To configure CDMA PDSN SNMP session failure history size, use the cdma pdsn failure-history command in global configuration mode. To return to the default length of time, use the no form of this command.
cdma pdsn failure-history entries
no cdma pdsn failure-history
Syntax Description
entries
Maximum number of entries that can be recorded in the SNMP session failure table. Possible values are 0 through 2000.
Defaults
No default behavior or values.
Command Modes
Global configuration
Command History
Examples
The following example specifies that 1000 is the maximum number of entries that can be recorded in the SNMP session table:
cdma pdsn failure-history 1000Related Commands
cdma pdsn ingress-address-filtering
To enable ingress address filtering, use the cdma pdsn ingress-address-filtering command in global configuration mode. To disable ingress address filtering, use the no form of this command.
cdma pdsn ingress-address-filtering
no cdma pdsn ingress-address-filtering
Syntax Description
This command has no arguments or keywords.
Defaults
Ingress address filtering is disabled.
Command Modes
Global configuration
Command History
Usage Guidelines
When this command is configured, the PDSN checks the source IP address of every packet received on the PPP link from the mobile station. If the address is not associated with the PPP link to the mobile station and is not an MIP RRQ or Agent Solicitation, then the PDSN discards the packet and sends a request to reestablish the PPP link.
Examples
The following example enables ingress address filtering:
cdma pdsn ingress-address-filteringRelated Commands
show cdma pdsn
Displays the current status and configuration of the PDSN gateway.
show cdma pdsn session
Displays the session information on the PDSN.
cdma pdsn ipv6
To enable the PDSN IPv6 functionality, use the cdma pdsn ipv6 command in global configuration mode. Use the now form of the command to disable this function.
cdma pdsn ipv6 {ra-count 1-5 [ra-interval 1-1800]}
no cdma pdsn ipv6 {ra-count 1-5 [ra-interval 1-1800]}
Syntax Description
Command Modes
Global configuration
Command History
Usage Guidelines
If the cdma pdsn ipv6 command is not entered, and a PDSN session is brought up with IPv6, the session will be terminated and the following message displayed:
%CDMA_PDSN-3-PDSNIPV6NOTENABLED: PDSN IPv6 feature has not been enabled.
Examples
The following example illustrates how to control the number and interval Routing Advertisements sent to the MN when an IPv6CP session comes up:
router(config)# cdma pdsn ipv6 ra-count 2 ra-interval 3cdma pdsn maximum pcf
To set the maximum number of PCFs that can connect to a PDSN, use the cdma pdsn maximum pcf command in global configuration mode. To disable a configured limit, use the no form of this command.
cdma pdsn maximum pcf maxpcf
no cdma pdsn maximum pcf
Syntax Description
Defaults
No default behavior or values.
Command Modes
Global Configuration
Command History
Usage Guidelines
If no maximum number of PCFs is configured, the only limitation is the amount of memory.
You can configure the maximum PCFs to be less than the existing PCFs. As a result, when you issue the show cdma pdsn command, you may see more existing PCFs than the configured maximum. It is the responsibility of the user to bring down the existing PCFs to match the configured maximum.
Examples
The following example specifies that 200 PCFs can be sent:
cdma pdsn maximum pcf 200Related Commands
show cdma pdsn
Displays the current status and configuration of the PDSN gateway.
cdma pdsn maximum sessions
To set the maximum number of mobile sessions allowed on a PDSN, use the cdma pdsn maximum sessions command in global configuration mode. To disable a configured limit, use the no form of this command.
cdma pdsn maximum sessions maxsessions
no cdma pdsn maximum sessions
Syntax Description
maxsessions
Maximum number of mobile sessions allowed on a PDSN. Possible values depend on which image you are using.
Defaults
The c-5 images support 8000 sessions, and the c-6 images support 20000 sessions. The PDSN 4.0 Release supports 25000 sessions.
Command Modes
Global Configuration.
Command History
12.1(3)XS
This command was introduced.
12.2(8)BY
The maximum number of mobile sessions was raised to 20000.
12.4(15)xx
The maximum number of mobile sessions was raised to 25000.
Usage Guidelines
If PDSN runs out of resources before the configured number is reached, then PDSN will reject the creation of further sessions.
You can configure the maximum sessions to be less than the existing sessions. As a result, when you issue the show cdma pdsn command, you may see more existing sessions than the configured maximum. It is the responsibility of the user to bring down the existing sessions to match the configured maximum.
Examples
The following example sets the maximum number of mobile sessions to 100:
cdma pdsn maximum sessions 100Related Commands
cdma pdsn mobile-advertisement-burst
To configure the number and interval of Agent Advertisements that a PDSN FA can send, use the cdma pdsn mobile-advertisement-burst command in either interface or global configuration mode. To reset the configuration to the defaults, use the no form of this command.
cdma pdsn mobile-advertisement-burst {number value | interval msec}
no cdma pdsn mobile-advertisement-burst {number | interval}
Syntax Description
Defaults
The default number of agent advertisements to send is 5.
The default interval between advertisements is 200 milliseconds.
Command Modes
Interface or Global configuration.
Command History
Usage Guidelines
You must specify at least one of the optional parameters. Otherwise, the command has no effect. When virtual-access interfaces are created from the virtual template, default values will be used for any parameters not already configured on the virtual template.
This command should be configured on virtual templates only, and only when PDSN service is configured.
Examples
The following example configures PDSN FA advertisement:
cdma pdsn mobile-advertisement-burst number 10 interval 500Related Commands
cdma pdsn msid-authentication
To enable MSID-based authentication and access, use the cdma pdsn msid-authentication command in global configuration mode. To disable MSID-based authentication and access, use the no form of this command.
cdma pdsn msid-authentication [close-session-on-failure] [imsi number] [irm number] [min number] [profile-password password]
no cdma pdsn msid-authentication
Syntax Description
Defaults
MSID authentication is disabled. When enabled, the default values are as follows:
•
•
•
•
Command Modes
Global Configuration.
Command History
12.1(3)XS
This command was introduced.
12.2(2)XC
The profile-password keyword was added.
12.2(8)ZB1
The close-session-on-failure keyword was added
Usage Guidelines
MSID authentication provides Simple IP service for mobile stations that do not negotiate CHAP or PAP. Cisco PDSN retrieves a network profile based on the MSID from the RADIUS server. The network profile should include the internet realm of the home network that owns the MSID. Cisco PDSN constructs the NAI from the MSID and the realm. The constructed NAI is used in generated accounting records. If the PDSN is unable to obtain the realm, then it denies service to the mobile station.
The identifier used to retrieve the network profile from the RADIUS server depends on the format of the MSID, which can be one of the following:
•
•
•
If the mobile station uses IMSI, the default identifier that PDSN uses to retrieve network profile is of the form "IMSI-nnnnn" where "nnnnn" is the first five digits of the IMSI. The number of digits from the IMSI to be used can be configured using the command cdma pdsn msid-authentication imsi.
If the mobile station uses MIN, the default identifier that PDSN uses to retrieve network profile is of the form "MIN-nnnnnn" where "nnnnnn" is the first six digits of the MIN. The number of digits from the MIN to be used can be configured using the command cdma pdsn msid-authentication min.
If the mobile station uses IRM, the default identifier that PDSN uses to retrieve network profile is of the form "IRM-nnnn" where "nnnn" is the first four digits of the IRM. The number of digits from the IRM to be used can be configured using the command cdma pdsn msid-authentication irm.
The realm should be defined in the network profile on the RADIUS user with the Cisco AVPair attribute cdma:cdma-realm.
Examples
The following example enables MSID-based authentication and access:
cdma pdsn msid-authentication profile-password test1Related Commands
show cdma pdsn
Displays the current status and configuration of the PDSN gateway.
cdma pdsn multiple service-flows
To enable the Multiple flow support feature, use the cdma pdsn multiple service-flows command in global configuration mode. Use the no form of the command to disable this feature.
cdma pdsn multiple service-flows [maximum number]
no cdma pdsn multiple service-flows [maximum number]
Syntax Description
maximum number
Defines the maximum number of auxiliary A10s that can be created between the PDSN and the PCF. The default number of auxiliary A10s allowed is 7.
Defaults
The default number of auxiliary A10s allowed is 7. Main A10 also should be included here.
Command Modes
Global configuration mode.
Command History
Usage Guidelines
Configure the cdma pdsn multiple service-flows command on the controller PDSN (no need for maximum number of connections).
Examples
Here is and example of the cdma pdsn multiple service-flows command:
)#cdma pdsn multiple service-flows ?maximum Maximum limitqos Configure qos parameters<cr>router# cdma pdsn multiple service-flowsrouter# cdma pdsn multiple service-flows maximum 8cdma pdsn multiple service-flows qos remark-dscp
To configure the DSCP remark value used for marking data packets, use the cdma pdsn multiple service-flows qos remark-dscp command in global configuration mode. Use the no form of the command to disable this feature.
cdma pdsn multiple service-flows qos remark-dscp value
no cdma pdsn multiple service-flows qos remark-dscp value
Syntax Description
value
Used for marking when the data packets from the mobile towards the internet is determined to have the DSCP not within the allowed dscp value for that mobile
Command Default
There are no default values.
Command Modes
Global configuration.
Command History
Usage Guidelines
This command configures the DSCP remark value used for marking when the data packets from the mobile towards the internet are determined to have a DSCP value that is not within the allowed DSCP values for that mobile. Here are the values:
router#cdma pdsn multiple service-flows qos remark-dscp ?AF11 AF11AF12 AF12AF13 AF13AF21 AF21AF22 AF22AF23 AF23AF31 AF31AF32 AF32AF33 AF33AF41 AF41AF42 AF42AF43 AF43Default Selector Class 0EF EFclass1 Selector Class 1class2 Selector Class 2class3 Selector Class 3class4 Selector Class 4class5 Selector Class 5class6 Selector Class 6class7 Selector Class 7Examples
Here is and example of the cdma pdsn multiple service-flows qos remark-dscp command:
router# cdma pdsn multiple service-flows qos remark-dscp AF11cdma pdsn multiple service-flows qos subscriber profile
To configure the local subscriber qos profile, use the cdma pdsn multiple service-flows qos subscriber profile command in global configuration mode. Use the no form of the command to disable this feature.
cdma pdsn multiple service-flows qos subscriber profile
no cdma pdsn multiple service-flows qos subscriber profile
Syntax Description
There are no keywords or arguments for this command.
Command Default
There are no default values.
Command Modes
Global configuration.
Command History
Usage Guidelines
This profile is used for a MN when the Subscriber QoS profile is not downloaded from AAA.
Examples
Here is and example of the cdma pdsn multiple service-flows qos subscriber profile command:
router(config)#cdm pds multiple service-flows qos subscriber profilerouter(config-qos-profile)#Eg:cdma pdsn multiple service-flows qos subscriber profilecdma pdsn pcf
To enable sending of vendor specific attributes in subscriber QoS profile based on the PCF, use the cdma pdsn pcf ip-address command in global configuration mode. Use the no form of the command to disable this feature.
cdma pdsn pcf PCF IP address ending IP address vendor-id NVSE Vendor id
no cdma pdsn pcf PCF IP address ending IP Address vendor-id NVSE Vendor id
Syntax Description
PCF IP address
Single or starting PCF IP address
ending PCF IP address
Ending PCF IP address.
NVSE Vendor Id
Radius vendor ID of PCF.
Defaults
The default value is that the home area attribute is not sent to the PCF.
Command Modes
Global configuration
Command History
Examples
The following example illustrates the cdma pdsn pcf command to configure vendor-id for a set of PCFs:
Router (config)# cdma pdsn pcf 10.1.1.1 10.1.1.50 vendor-id 3729cdma pdsn pcf default closed-rp
To enable the Closed-RP interface feature on the PDSN, use the cdma pdsn pcf default closed-rp command in global configuration mode. Use the no form of the command to disable the Closed-RP interface feature.
cdma pdsn pcf default closed-rp
no cdma pdsn pcf default closed-rp
Syntax Description
There are no arguments or keywords for this command.
Defaults
The default setting is that Closed-RP is disabled.
Command Modes
Global configuration
Command History
Usage Guidelines
When the cdma pdsn pcf default closed-rp command is configured, the Closed-RP interface feature is enabled on the PDSN. All the PCF's connecting to the PDSN will be considered as Closed-RP PCF's. When this command is configured the 3GPP2 (Open) RP interface will be disabled on the PCF.
Examples
The following example illustrates the cdma pdsn pcf default closed-rp command:
Router (config)# cdma pdsn pcf default closed-rpcdma pdsn radius disconnect
To enable support for Radius Disconnect on the Cisco PDSN, use the cdma pdsn radius disconnect command in Global configuration. Use the no form of the command to disable this feature.
cdma pdsn radius disconnect [nai]
no cdma pdsn radius disconnect [nai]
Syntax Description
nai
(Optional) Indicates whether to enable processing of Disconnect Request received with only the NAI attribute.
Defaults
By default the PDSN will not process a Disconnect Request received with only the nai attribute.
Command Modes
Global Configuration
Command History
Usage Guidelines
By default the PDSN will not process a Disconnect Request received with only NAI attribute. In a Service provider environment all simple IP sessions can be opened with the same user-name (and in case of Resource Management for sessions), therefore, a session identification attribute will be sent in Disconnect Request. Additionally, the overhead to maintain tables relating sessions and NAI can be avoided in such cases.
But if the PDSN can receive a Disconnect Request with only an NAI attribute in a particular environment, then nai keyword should be configured.
This configuration will set the Session Termination Capability VSA value to 1. The presence of other feature configurations (like MIP Revocation) can alter that value.
Examples
The following example illustrates the cdma pdsn radius disconnect command:
Router(config)#cdma pdsn radius disconnect nai
cdma pdsn redundancy
To enable the active PDSN to synchronize the session and flow related data to its standby peer, use the cdma pdsn redundancy command in global configuration mode. Use the no form of the command to disable this function.
cdma pdsn redundancy
no cdma pdsn redundancy
Syntax Description
There are no arguments or keywords for this command.
Defaults
The default setting is that PDSN redundancy is disabled.
Command Modes
Global configuration
Command History
Examples
The following example illustrates the cdma pdsn redundancy command:
Router (config)# cdma pdsn redundancycdma pdsn redundancy accounting send vsa swact
To send the Cisco VSA (cdma-rfswact) in first interim/stop record after switchover, use the cdma pdsn redundancy accounting send vsa swact command in Global configuration mode. To disable this feature, use the no form of the command.
cdma pdsn redundancy accounting send vsa swact
no cdma pdsn redundancy accounting send vsa swact
Syntax Description
There are no keywords or arguments for this command.
Defaults
By default, this command is disabled.
Command Modes
Global configuration
Command History
Usage Guidelines
After a switchover takes place, the first interim or stop accounting record (as appropriate) includes a VSA (cdma-rfswact) indicating that a switchover has occurred. The inclusion of this VSA is controllable through this CLI.
If periodic syncing is enabled, you cannot configure the cdma pdsn redundancy accounting send vsa swact command, and vice-versa, as the two approaches are mutually exclusive.
Note
Examples
The following example illustrates the cdma pdsn redundancy accounting send vsa swact command:
Router(config)# cdma pdsn redundancy accounting send vsa swact
cdma pdsn redundancy accounting update-periodic
To enable the active PDSN to periodically synchronize accounting counters, and to synch accounting information between the active and standby in Session Redundancy environment, use the cdma pdsn redundancy accounting update-periodic command in global configuration mode. To disable this feature, use the no form of the command.
cdma pdsn redundancy accounting [update-periodic]
no cdma pdsn redundancy accounting [update-periodic]
Syntax Description
update-periodic
Syncs the G1/G2 and Packets In/Out with interim AAA updates, and closes the session if authorization fails.
Defaults
By default, this command is disabled.
Command Modes
Global configuration
Command History
Usage Guidelines
When configured, the byte and packet counts for each flow are synced from the active to the standby unit (only if they undergo a change) at the configured periodic accounting interval (using aaa accounting update periodic xxx). If periodic accounting is not configured, the byte and packet counts will not be synced.
Examples
The following example illustrates the cdma pdsn redundancy accounting update-periodic command:
Router(config)# cdma pdsn redundancy accounting update-periodiccdma pdsn retransmit a11-update
To specify the maximum number of times an A11 Registration Update message is retransmitted, use the cdma pdsn retransmit a11-update command in global configuration mode. To return to the default of 5 retransmissions, use the no form of this command.
cdma pdsn retransmit a11-update number
no cdma pdsn retransmit a11-update
Syntax Description
number
Maximum number of times an A11 Registration Update message is retransmitted. Possible values are 0 through 9. The default is 5 retransmissions.
Defaults
5 retransmissions.
Command Modes
Global Configuration
Command History
Usage Guidelines
PDSN may initiate the release of an A10 connection by sending an A11 Registration Update message to the PCF. In this case, the PCF is expected to send an A11 Registration Acknowledge message followed by an A11 Registration Request with Lifetime set to 0. If PDSN does not receive an A11 Registration Acknowledge or an A11 Registration Request with Lifetime set to 0, or if it receives an A11 Registration Acknowledge message with an update denied status, PDSN retransmits the A11 Registration Update. The number of retransmissions is 5 by default and is configurable using this command.
Examples
The following example specifies that A11 Registration Update messages will be retransmitted a maximum of 9 times:
cdma pdsn retransmit a11-update 9Related Commands
cdma pdsn secure cluster
To configure one common security association for all PDSNs in a cluster, use the cdma pdsn secure cluster command. To remove this configuration, use the no form of the command.
cdma pdsn secure cluster default spi {value | inbound value outbound value} key {hex | ascii} string
no cdma pdsn secure cluster
Syntax Description
Defaults
No default behavior or values.
Command Modes
Global Configuration
Command History
Usage Guidelines
The SPI is the 4-byte index that selects the specific security parameters to be used to authenticate the peer. The security parameters consist of the authentication algorithm and mode, replay attack protection method, timeout, and IP address.
Examples
The following example shows a security association for a cluster of PDSNs:
cdma pdsn secure cluster spi 100 key hex 12345678123456781234567812345678Related Commands
cdma pdsn secure pcf
To configure the security association for one or more PCFs or the default security association for all PCFs, use the cdma pdsn secure pcf command. To remove this configuration, use the no form of the command.
cdma pdsn secure pcf {lower [upper] | default} spi {value | inbound value outbound value} key {hex | ascii} string [local-timezone]
no cdma pdsn secure pcf
Syntax Description
Defaults
There are no default behavior or values.
Command Modes
Global Configuration
Command History
12.2(2)XC
This command was introduced.
12.2(8)BY1
The local-timezone keyword was added.
Usage Guidelines
The SPI is the 4-byte index that selects the specific security parameters to be used to authenticate the peer. The security parameters consist of the authentication algorithm and mode, replay attack protection method, timeout, and IP address.
You can configure several explicit and default secure PCF entries. (An explicit entry being one in which the IP address of a PCF is specified.) When the PDSN receives an A11 message from a PCF, it attempts to match the message to a secure PCF entry as follows:
•
•
•
When the PDSN receives a request from a PCF, it performs an identity check. As part of this check, the PDSN compares the timestamp of the request to its own local time and determines whether the difference is within a specified range. This range is determined by the replay time window. If the difference between the timestamp and the local time is not within this range, a request rejection message is sent back to the PCF along with the value of PDSN's local time.
Examples
The following example shows PCF 20.0.0.1, which has a key that is generated by the MD5 hash of the string:
cdma pdsn secure pcf 20.0.0.1 spi 100 key hex 12345678123456781234567812345678The following example configures a global default replay time of 60 seconds for all PCFs and all SPIs:
cdma pdsn secure pcf default replay 60The following example configures a default replay time of 30 seconds for a specific SPI applicable to all PCFs:
cdma pdsn secure pcf default spi 100 key ascii cisco replay 30The following example configures a replay time of 45 seconds for a specific PCF/SPI combination:
cdma pdsn secure pcf 192.168.105.4 spi 200 key ascii cisco replay 45Related Commands
cdma pdsn selection interface
To configure the interface used to send and receive PDSN selection messages, use the cdma pdsn selection interface command in global configuration mode. To remove the configuration, use the no form of the command.
cdma pdsn selection interface interface_name
no cdma pdsn selection interface
Syntax Description
interface_name
Name (type and number) of the interface that is connected to the LAN to be used to exchange PDSN selection messages with the other PDSNs in the cluster.
Defaults
No default behavior or values.
Command Modes
Global Configuration
Command History
Usage Guidelines
Each PDSN in a cluster maintains information about the mobile stations connected to the other PDSNs in the cluster. All PDSNs in the cluster exchange this information using periodic multicast messages. For this reason, all PDSNs in the cluster should be connected to a shared LAN.
This command identifies the interface on the PDSN that is connected to the LAN used for sending and receiving PDSN selection messages.
The Intelligent PDSN Selection feature will not work if you do not configure this interface on each PDSN in the cluster.
Examples
The following example specifies that the FastEthernet0/1 interface should be used for sending and receiving PDSN selection messages:
cdma pdsn selection interface FastEthernet0/1Related Commands
cdma pdsn selection keepalive
To configure the intelligent PDSN selection keepalive feature, use the cdma pdsn selection keepalive command in global configuration mode. To disable the feature, use the no form of this command.
cdma pdsn selection keepalive value
no cdma pdsn selection keepalive
Syntax Description
Defaults
No default behavior or values.
Command Modes
Global Configuration
Command History
Examples
The following example configures a keepalive value of 200 seconds:
cdma pdsn selection keepalive 200Related Commands
cdma pdsn selection load-balancing
To enable the load-balancing function of the intelligent PDSN selection feature, use the cdma pdsn selection load-balancing command in global configuration mode. To disable the load-balancing function, use the no form of this command.
cdma pdsn selection load-balancing [threshold val [alternate]]
no cdma pdsn selection load-balancing
Syntax Description
Defaults
The threshold value is 100 sessions.
Command Modes
Global Configuration
Command History
12.1(3)XS
This command was introduced.
12.2(8)BY
The maximum number of sessions that can be load-balanced was raised to 20000.
Usage Guidelines
You must enable PDSN selection session-table-size first. If sessions in a PDSN go beyond the threshold, PDSN selection will redirect the PCF to the PDSN that has less of a load.
Examples
The following example configures load-balancing with an advertisement interval of 2 minutes and a threshold of 50 sessions:
cdma pdsn selection load-balancing advertisement 2 threshold 50Related Commands
cdma pdsn selection session-table-size
Defines the size of the selection session database.
show cdma pdsn session
Displays PDSN session information.
cdma pdsn selection session-table-size
In PDSN selection, a group of PDSNs maintains a distributed session database. To define the size of the database, use the cdma pdsn selection session-table-size command in global configuration mode. To disable PDSN selection, use the no form of this command.
cdma pdsn selection session-table-size size
no cdma pdsn selection session-table-size
Syntax Description
Defaults
PDSN selection is disabled.
The default session table size is undefined.
Command Modes
Global Configuration
Command History
Examples
The following example sets the size of the distributed session database to 5000 sessions:
cdma pdsn selection session-table-size 5000Related Commands
cdma pdsn selection load-balancing
Enables the load-balancing function of PDSN selection.
show cdma pdsn session
Displays PDSN session information.
cdma pdsn send-agent-adv
To enable agent advertisements to be sent over a newly formed PPP session with an unknown user class that negotiates IPCP address options, use the cdma pdsn send-agent-adv command in global configuration mode. To disable the sending of agent advertisements, use the no form of this command.
cdma pdsn send-agent-adv
no cdma pdsn send-agent-adv
Syntax Description
This command has no arguments or keywords.
Defaults
No default behavior or values.
Command Modes
Global Configuration
Command History
Usage Guidelines
This command is used with multiple flows.
Examples
The following example enables agent advertisements to be sent:
cdma pdsn send-agent-advRelated Commands
show cdma pdsn
Displays the current status and configuration of the PDSN gateway.
cdma pdsn tft reject include error extension
To include the error extension in the reject message whenever a TFT is rejected, use the cdma pdsn tft reject include error extension command in global configuration mode. Use the no form of the command to disable this feature.
cdma pdsn tft reject include error extension
no cdma pdsn tft reject include error extension
Syntax Description
There are no keywords or arguments for this command.
Defaults
There are no default values.
Command Modes
Global configuration.
Command History
Examples
Here is an example of the cdma pdsn tft reject include error extension command:
cdma pdsn tft ?reject Configure CDMA PDSN TFT rejectcdma pdsn tft reject ?include Configure CDMA PDSN TFT reject includecdma pdsn tft reject include ?error Configure CDMA PDSN TFT reject include errorcdma pdsn tft reject include error ?extension Configure CDMA PDSN TFT reject include error extensioncdma pdsn tft reject include error extension ?cdma pdsn timeout
To configure a variety of different message timeouts, use the cdma pdsn timeout command in global configuration mode. To disable any of these message timeouts, use the no form of this command.
cdma pdsn timeout [a11-session-update | a11-update seconds | {airlink-start [close-rp | initiate-ppp]}mobile-ip-registration]
no [a11-session-update | a11-update seconds | {airlink-start [close-rp | initiate-ppp]}mobile-ip-registration]
Syntax Description
Defaults
a11-session-update default value is 1 second.
Command Modes
Global Configuration
Command History
12.1(3)XS
This command was introduced.
12.3(14)YF
The close-rp keyword was added.
Usage Guidelines
PDSN may initiate the release of an A10 connection by sending an A11 Registration Update message to the PCF. In this case, the PCF is expected to send an A11 Registration Acknowledge message followed by an A11 Registration Request with Lifetime set to 0. If PDSN does not receive an A11 Registration Acknowledge or an A11 Registration Request with Lifetime set to 0, PDSN times out and retransmits the A11 Registration Update. The default timeout is 1 second and is configurable using this command.
Examples
The following example specifies an A11 Registration Update message timeout value of 5 seconds:
PDSN(config)#cdma pdsn timeout airlink-start 5 ?close-rp Close RP session if airlink start timeout occursinitiate-ppp Initiate PPP negotiation if airlink start timeout occursPDSN(config)#cdma pdsn timeout airlink-start 5 iniPDSN(config)#cdma pdsn timeout airlink-start 5 initiate-ppp ?<cr>PDSN(config)#cdma pdsn timeout airlink-start 5 cloPDSN(config)#cdma pdsn timeout airlink-start 5 close-rp ?Related Commands
cdma pdsn timeout mobile-ip-registration
To set the timeout value before which Mobile IP registration should occur for a user skipping the PPP authentication, use the cdma pdsn timeout mobile-ip-registration command in global configuration mode. To return to the default 5-second timeout, use the no version of the command.
cdma pdsn timeout mobile-ip-registration timeout
no cdma pdsn timeout mobile-ip-registration
Syntax Description
Defaults
5 seconds.
Command Modes
Global Configuration
Command History
Usage Guidelines
A CDMA data user using Mobile IP will skip authentication and authorization during PPP and perform those tasks through Mobile IP registration. In order to secure the network, the traffic is filtered. The only packets allowed through the filter are the Mobile IP registration messages. As an additional protection, if the Mobile IP registration does not happen within a defined time, the PPP link is terminated.
Examples
The following example sets the timeout value for Mobile IP registration to 15 seconds:
cdma pdsn mobile-ip-timeout 15Related Commands
cdma pdsn virtual-template
To associate a virtual template with PPP over GRE, use the cdma pdsn virtual-template command in global configuration mode. To remove the association, use the no form of this command.
cdma pdsn virtual-template virtualtemplate_num
no cdma pdsn virtual-template virtualtemplate_num
Syntax Description
Defaults
No default behavior or values.
Command Modes
Global Configuration
Command History
Usage Guidelines
PPP links are dynamically created. Each link requires an interface. The characteristics of each link are cloned from a virtual template. Because there can be multiple virtual templates defined in a single PDSN, this command is used to identify the virtual template that is used for cloning virtual accesses for PPP over GRE.
Examples
The following example associate virtual template 2 with PPP over GRE:
cdma pdsn virtual-template 2Related Commands
clear cdma pdsn cluster controller session record age
To clear session records of a specified age, use the clear cdma pdsn cluster controller session record age command in privileged EXEC mode.
clear cdma pdsn cluster controller session record age days
Syntax Description
Defaults
No default keywords or arguments.
Command Modes
Privileged EXEC
Command History
Examples
The following example shows output from the clear cdma pdsn cluster controller session record age command:
Router# clear cdma pdsn cluster controller session record age 1clear cdma pdsn cluster controller statistics
To clear controller statistics, use the clear cdma pdsn cluster controller statistics command in privileged EXEC mode.
clear cdma pdsn cluster controller statistics [queuing | redundancy]
Syntax Description
queuing
Clears statistics associated with controller queuing feature.
redundancy
Clears statistics associated with controller redundancy interface.
Defaults
There are no default values for this command.
Command Modes
Privileged EXEC
Command History
Examples
The following example shows output from the clear cdma pdsn cluster controller statistics command:
router# clear cdma pdsn cluster controller statistics queuingclear cdma pdsn cluster member statistics
To clear member statistics, use the clear cdma pdsn cluster member statistics command in privileged EXEC mode.
clear cdma pdsn cluster member statistics [queuing | statistics]
Syntax Description
Defaults
There are no default values for this command.
Command Modes
Privileged EXEC
Command History
Examples
The following example shows output from the clear cdma pdsn cluster member statistics command:
Router# clear cdma pdsn cluster member statistics queuing
clear cdma pdsn redundancy statistics
To clear the data counters associated with the PDSN session redundancy to their initial values, use the clear cdma pdsn redundancy statistics command in privileged EXEC mode.
clear cdma pdsn redundancy statistics
Syntax Description
There are no keywords or arguments for this command.
Defaults
There are no default values for this command.
Command Modes
EXEC mode
Command History
clear cdma pdsn session
To clear one or more user sessions on the PDSN, use the clear cdma pdsn session command in privileged EXEC mode.
clear cdma pdsn session {{all [rate value | send [a11-update | termreq] value]} | dormant | pcf ip_addr | msid number}
Syntax Description
Defaults
No default behavior or values.
Command Modes
Privileged EXEC
Command History
12.1(3)XS
This command was introduced.
12.3(11)YF1
The rate, send, a11-update, dormant and termreq variables were added.
Usage Guidelines
This command terminates one or more user sessions. When this command is issued, the PDSN initiates the session release by sending an A11Registration Update message to the PCF.
The keyword all clears all sessions on a given PDSN. The keyword pcf with an IP address clears all the sessions coming from a given PCF. The keyword msid with a number will clear the session for a given MSID.
Examples
The following example clears session MSID 0000000002:
clear cdma pdsn session msid 0000000002clear cdma pdsn statistics
To clear the RAN-to-PDSN interface (RP) or PPP statistics on the PDSN, use the clear cdma pdsn statistics command in privileged EXEC mode.
clear cdma pdsn statistics
Syntax Description
There are no arguments or keywords.
Defaults
No default behavior or values.
Command Modes
Privileged EXEC
Command History
Usage Guidelines
Previous releases used the show cdma pdsn statistics command to show PPP and RP statistic summaries from the time the system was restarted. The clear cdma pdsn statistics command allows the user to reset the counters as desired, and to view the history since the counters were last reset.
Examples
The following example illustrates the clear cdma pdsn statistics rp command before and after the counters are reset.
Before counters are reset
Router#show cdma pdsn statistics rpRP Interface:Reg Request rcvd 5, accepted 5, denied 0, discarded 0
Note
Initial Reg Request accepted 4, denied 0Re-registration requests accepted 0, denied 0De-registration accepted 1, denied 0Registration Request Errors:Unspecified 0, Administratively prohibited 0Resource unavailable 0, Authentication failed 0Identification mismatch 0, Poorly formed requests 0Unknown PDSN 0, Reverse tunnel mandatory 0Reverse tunnel unavailable 0, Bad CVSE 0Update sent 1, accepted 1, denied 0, not acked 0Initial Update sent 1, retransmissions 0Acknowledge received 1, discarded 0Update reason lifetime expiry 0, PPP termination 1, other 0Registration Update Errors:Unspecified 0, Identification mismatch 0Authentication failed 0, Administratively prohibited 0Poorly formed request 0Service Option:asyncDataRate2 (12) success 4, failure 0After the counters are reset
Router#clear cdma pdsn statistics rp==> RESETTING COUNTERSRouter#show cdma pdsn statistics rpRP Interface:Reg Request rcvd 0, accepted 0, denied 0, discarded 0
Note
Initial Reg Request accepted 0, denied 0Re-registration requests accepted 0, denied 0De-registration accepted 0, denied 0Registration Request Errors:Unspecified 0, Administratively prohibited 0Resource unavailable 0, Authentication failed 0Identification mismatch 0, Poorly formed requests 0Unknown PDSN 0, Reverse tunnel mandatory 0Reverse tunnel unavailable 0, Bad CVSE 0Update sent 0, accepted 0, denied 0, not acked 0Initial Update sent 0, retransmissions 0Acknowledge received 0, discarded 0Update reason lifetime expiry 0, PPP termination 0, other 0Registration Update Errors:Unspecified 0, Identification mismatch 0Authentication failed 0, Administratively prohibited 0Poorly formed request 0Service Option:asyncDataRate2 (12) success 4, failure 0Related Commands
clear ip mobile
To clear various IP Mobile information, use the clear ip mobile EXEC command.
clear ip mobile [proxy | router | traffic | visitor [ip-address | nai string ip_address]]
Syntax Description
Command Modes
EXEC
Command History
12.0(1)T
This command was introduced.
12.2(2)XC
The nai keyword and associated variables were added.
Usage Guidelines
The foreign agent creates a visitor entry for each accepted visitor. The visitor entry allows the mobile node to receive packets while in a visited network. Associated with the visitor entry is the ARP entry for the visitor. There should be no need to clear the entry because it expires after lifetime is reached or when the mobile node deregisters.
When a visitor entry is removed, the number of users on the tunnel is decremented and the ARP entry is removed from the ARP cache. The visitor is not notified.
Use this command with care because it may terminate any sessions used by the mobile node. After using this command, the visitor will need to reregister to continue roaming.
Examples
The following example shows how counters can be used for debugging:
Router# show ip mobile trafficIP Mobility traffic:Advertisements:Solicitations received 0Advertisements sent 0, response to solicitation 0Home Agent Registrations:Register 8, Deregister 0 requestsRegister 7, Deregister 0 repliedAccepted 6, No simultaneous bindings 0Denied 1, Ignored 1Unspecified 0, Unknown HA 0Administrative prohibited 0, No resource 0Authentication failed MN 0, FA 0Bad identification 1, Bad request form 0.Router# clear ip mobile trafficRouter# show ip mobile trafficIP Mobility traffic:Advertisements:Solicitations received 0Advertisements sent 0, response to solicitation 0Home Agent Registrations:Register 0, Deregister 0 requestsRegister 0, Deregister 0 repliedAccepted 0, No simultaneous bindings 0Denied 0, Ignored 0Unspecified 0, Unknown HA 0Administrative prohibited 0, No resource 0Authentication failed MN 0, FA 0Bad identification 0, Bad request form 0Related Commands
crypto map (global IPSec)
To enter crypto map configuration mode and create or modify a crypto map entry, to create a crypto profile that provides a template for configuration of dynamically created crypto maps, or to configure a client accounting list, use the crypto map command in global configuration mode. To delete a crypto map entry, profile, or set, use the no form of this command.
crypto map map-name seq-num ipsec-manual
crypto map map-name seq-num ipsec-isakmp [dynamic dynamic-map-name] [discover] [profile profile-name]
crypto map map-name [client-accounting-list aaalist]
no crypto map map-name [seq-num]
Note
Syntax Description
Defaults
No crypto maps exist.
Peer discovery is not enabled.
Command Modes
Global configuration. Using this command puts you into crypto map configuration mode, unless you use the dynamic keyword.
Command History
Usage Guidelines
Use this command to create a new crypto map entry, to create a crypto map profile, or to modify an existing crypto map entry or profile.
After a crypto map entry has been created, you cannot change the parameters specified at the global configuration level because these parameters determine which of the configuration commands are valid at the crypto map level. For example, after a map entry has been created using the ipsec-isakmp keyword, you cannot change it to the option specified by the ipsec-manual keyword; you must delete and reenter the map entry.
After you define crypto map entries, you can assign the crypto map set to interfaces using the crypto map (interface IPSec) command.
Crypto Map Functions
Crypto maps provide two functions: filtering and classifying traffic to be protected and defining the policy to be applied to that traffic. The first use affects the flow of traffic on an interface; the second affects the negotiation performed (using IKE) on behalf of that traffic.
IPSec crypto maps define the following:
•
•
•
•
Multiple Crypto Map Entries with the Same Map Name Form a Crypto Map Set
A crypto map set is a collection of crypto map entries, each with a different seq-num argument but the same map-name argument. Therefore, for a given interface, you could have certain traffic forwarded to one IPSec peer with specified security applied to that traffic and other traffic forwarded to the same or a different IPSec peer with different IPSec security applied. To accomplish differential forwarding you would create two crypto maps, each with the same map-name argument, but each with a different seq-num argument. Crypto profiles must have unique names within a crypto map set.
Sequence Numbers
The number you assign to the seq-num argument should not be arbitrary. This number is used to rank multiple crypto map entries within a crypto map set. Within a crypto map set, a crypto map entry with a lower seq-num is evaluated before a map entry with a higher seq-num; that is, the map entry with the lower number has a higher priority.
For example, consider a crypto map set that contains three crypto map entries: mymap 10, mymap 20, and mymap 30. The crypto map set named "mymap" is applied to serial interface 0. When traffic passes through serial interface 0, the traffic is evaluated first for mymap 10. If the traffic matches any access list permit statement entry in the extended access list in mymap 10, the traffic will be processed according to the information defined in mymap 10 (including establishing IPSec SAs when necessary). If the traffic does not match the mymap 10 access list, the traffic will be evaluated for mymap 20, and then mymap 30, until the traffic matches a permit entry in a map entry. (If the traffic does not match a permit entry in any crypto map entry, it will be forwarded without any IPSec security.)
Dynamic Crypto Maps
Refer to the "Usage Guidelines" section of the crypto dynamic-map command for a discussion on dynamic crypto maps.
Crypto map entries that reference dynamic map sets should be the lowest priority map entries, allowing inbound SA negotiation requests to try to match the static maps first. Only after the request does not match any of the static maps, do you want it to be evaluated against the dynamic map set.
To make a crypto map entry referencing a dynamic crypto map set the lowest priority map entry, give the map entry the highest seq-num of all the map entries in a crypto map set.
Create dynamic crypto map entries using the crypto dynamic-map command. After you create a dynamic crypto map set, add the dynamic crypto map set to a static crypto map set with the crypto map (global IPSec) command using the dynamic keyword.
TED
TED is an enhancement to the IPSec feature. Defining a dynamic crypto map allows you to dynamically determine an IPSec peer; however, only the receiving router has this ability. With TED, the initiating router can dynamically determine an IPSec peer for secure IPSec communications.
Dynamic TED helps to simplify IPSec configuration on the individual routers within a large network. Each node has a simple configuration that defines the local network that the router is protecting and the IPSec transforms that are required.
Note
Crypto Map Profiles
Crypto map profiles are created using the profile profile-name keyword and argument combination. Crypto map profiles are used as configuration templates for dynamically creating crypto maps on demand for use with the Layer 2 Transport Protocol (L2TP) Security feature. The relevant SAs the crypto map profile will be cloned and used to protect IP traffic on the L2TP tunnel.
Note
Examples
The following example shows the minimum required crypto map configuration when IKE will be used to establish the security associations:
Router# crypto map mymap 10 ipsec-isakmpmatch address 101set transform-set my_t_set1set peer 10.0.0.1The following example shows the minimum required crypto map configuration when the security associations are manually established:
Router# crypto transform-set someset ah-md5-hmac esp-descrypto map mymap 10 ipsec-manualmatch address 102set transform-set somesetset peer 10.0.0.5set session-key inbound ah 256 98765432109876549876543210987654set session-key outbound ah 256 fedcbafedcbafedcfedcbafedcbafedcset session-key inbound esp 256 cipher 0123456789012345set session-key outbound esp 256 cipher abcdefabcdefabcdThe following example configures an IPSec crypto map set that includes a reference to a dynamic crypto map set.
Crypto map "mymap 10" allows security associations to be established between the router and either (or both) of two remote IPSec peers for traffic matching access list 101. Crypto map "mymap 20" allows either of two transform sets to be negotiated with the remote peer for traffic matching access list 102.
Crypto map entry "mymap 30" references the dynamic crypto map set "mydynamicmap," which can be used to process inbound security association negotiation requests that do not match "mymap" entries 10 or 20. In this case, if the peer specifies a transform set that matches one of the transform sets specified in "mydynamicmap," for a flow "permitted" by the access list 103, IPSec will accept the request and set up security associations with the remote peer without previously knowing about the remote peer. If accepted, the resulting security associations (and temporary crypto map entry) are established according to the settings specified by the remote peer.
The access list associated with "mydynamicmap 10" is also used as a filter. Inbound packets that match a permit statement in this list are dropped for not being IPSec protected. (The same is true for access lists associated with static crypto maps entries.) Outbound packets that match a permit statement without an existing corresponding IPSec SA are also dropped.
Router# crypto map mymap 10 ipsec-isakmpmatch address 101set transform-set my_t_set1set peer 10.0.0.1set peer 10.0.0.2crypto map mymap 20 ipsec-isakmpmatch address 102set transform-set my_t_set1 my_t_set2set peer 10.0.0.3crypto map mymap 30 ipsec-isakmp dynamic mydynamicmap!crypto dynamic-map mydynamicmap 10match address 103set transform-set my_t_set1 my_t_set2 my_t_set3The following example configures Tunnel Endpoint Discovery on a Cisco router:
Router# crypto map testtag 10 ipsec-isakmp dynamic dmap discoverThe following example configures a crypto profile to be used as a template for dynamically created crypto maps when IPSec is used to protect an L2TP tunnel:
Router# crypto map l2tpsec 10 ipsec-isakmp profile l2tpcrypto map local-address
To specify and name an identifying interface to be used by the crypto map for IPSec traffic, use the crypto map local-address command in global configuration mode. To remove this command from the configuration, use the no form of this command.
crypto map map-name local-address interface-id
no crypto map map-name local-address interface-id
Syntax Description
Defaults
No default behavior or values.
Command Modes
Global configuration
Command History
Usage Guidelines
If you apply the same crypto map to two interfaces and do not use this command, two separate security associations (with different local IP addresses) could be established to the same peer for similar traffic. If you are using the second interface as redundant to the first interface, it could be preferable to have a single security association (with a single local IP address) created for traffic sharing the two interfaces. Having a single security association decreases overhead and makes administration simpler.
This command allows a peer to establish a single security association (and use a single local IP address) that is shared by the two redundant interfaces.
If applying the same crypto map set to more than one interface, the default behavior is as follows:
•
•
However, if you use a local-address for that crypto map set, it has multiple effects:
•
•
One suggestion is to use a loopback interface as the referenced local address interface, because the loopback interface never goes down.
Examples
The following example assigns crypto map set "mymap" to the S0 interface and to the S1 interface. When traffic passes through either S0 or S1, the traffic will be evaluated against the all the crypto maps in the "mymap" set. When traffic through either interface matches an access list in one of the "mymap" crypto maps, a security association will be established. This same security association will then apply to both S0 and S1 traffic that matches the originally matched IPSec access list. The local address that IPSec will use on both interfaces will be the IP address of interface loopback0.
interface S0crypto map mymapinterface S1crypto map mymapcrypto map mymap local-address loopback0debug cdma pdsn a10 ahdlc
To display debug messages for AHDLC, use the debug cdma pdsn a10 ahdlc command in privileged EXEC mode. To disable debug messages, use the no form of this command.
debug cdma pdsn a10 ahdlc [errors | events]
no debug cdma pdsn a10 ahdlc [errors | events]
Syntax Description
errors
(Optional) Displays details of AHDLC packets in error.
events
(Optional) Displays AHDLC events.
Defaults
If the command is entered without any optional keywords, all of the types of debug information are enabled.
Command History
Examples
The following is sample output from the debug cdma pdsn a10 ahdlc command:
Router# debug cdma pdsn a10 ahdlc errorsahdlc error packet display debugging is onRouter# debug cdma pdsn a10 ahdlc eventsahdlc events display debugging is onRouter#*Jan 1 00:18:30:%LINK-3-UPDOWN:Interface Virtual-Access1, changed state to up*Jan 1 00:18:30:*****OPEN AHDLC******Jan 1 00:18:30: ahdlc_mgr_channel_create*Jan 1 00:18:30: ahdlc_mgr_allocate_available_channel:*Jan 1 00:18:30:ahdlc:tell h/w open channel 9 from engine 0debug cdma pdsn a10 gre
To display debug messages for A10 GRE interface errors, events, and packets, use the debug cdma pdsn a10 gre command in privileged EXEC mode. To disable debug messages, use the no form of this command.
debug cdma pdsn a10 gre [errors | events | packets] [tunnel-key key]
no debug cdma pdsn a10 gre [errors | events | packets]
Syntax Description
Defaults
If the command is entered without any optional keywords, all of the types of debug information are enabled.
Command History
12.1(3)XS
This command was introduced.
12.2(8)BY
The tunnel-key parameter was added and the existing keywords were made optional.
Examples
The following is sample output from the debug cdma pdsn a10 gre events tunnel-key command:
Router#debug cdma pdsn a10 gre events tunnel-key 1Router#show debugCDMA:CDMA PDSN A10 GRE events debugging is on for tunnel key 1PDSN#*Mar 1 04:00:57.847:CDMA-GRE:CDMA-Ix1 (GRE/CDMA) created with src 5.0.0.2 dst 0.0.0.0*Mar 1 04:00:57.847:CDMA-GRE:(in) found session 5.0.0.2-4.0.0.1-1*Mar 1 04:00:59.863:CDMA-GRE:(in) found session 5.0.0.2-4.0.0.1-1*Mar 1 04:00:59.863:CDMA-GRE:(in) found session 5.0.0.2-4.0.0.1-1*Mar 1 04:01:01.879:CDMA-GRE:(in) found session 5.0.0.2-4.0.0.1-1*Mar 1 04:01:01.879:CDMA-GRE:(in) found session 5.0.0.2-4.0.0.1-1*Mar 1 04:01:03.899:CDMA-GRE:(in) found session 5.0.0.2-4.0.0.1-1*Mar 1 04:01:03.899:CDMA-GRE:(in) found session 5.0.0.2-4.0.0.1-1debug cdma pdsn a10 ppp
To display debug messages for A10 PPP interface errors, events, and packets, use the debug cdma pdsn a10 gre command in privileged EXEC mode. To disable debug messages, use the no form of this command.
debug cdma pdsn a10 ppp [errors | events | packets]
no debug cdma pdsn a10 ppp [errors | events | packets]
Syntax Description
errors
(Optional) Displays A10 PPP errors.
events
(Optional) Displays A10 PPP events.
packets
(Optional) Displays transmitted or received A10 PPP packets.
Defaults
If the command is entered without any optional keywords, all of the types of debug information are enabled.
Command History
Examples
The following is sample output from the debug cdma pdsn a10 ppp command:
Router# debug cdma pdsn a10 ppp errorsCDMA PDSN A10 errors debugging is onRouter# debug cdma pdsn a10 ppp eventsCDMA PDSN A10 events debugging is onRouter# debug cdma pdsn a10 ppp packetsCDMA PDSN A10 packet debugging is onRouter#show debug*Jan 1 00:13:09:CDMA-PPP:create_va tunnel=CDMA-Ix1 virtual-template template=Virtual-Template2 ip_enabled=1*Jan 1 00:13:09:CDMA-PPP:create_va va=Virtual-Access1*Jan 1 00:13:09:CDMA-PPP:clone va=Virtual-Access1 subif_state=1 hwidb->state=0*Jan 1 00:13:09: linestate=1 ppp_lineup=0*Jan 1 00:13:09:%LINK-3-UPDOWN:Interface Virtual-Access1, changed state to up*Jan 1 00:13:09:CDMA-PPP:clone va=Virtual-Access1 subif_state=1 hwidb->state=4*Jan 1 00:13:09: linestate=0 ppp_lineup=0*Jan 1 00:13:09:*****OPEN AHDLC*****debug cdma pdsn a11
To display debug messages for A11 interface errors, events, and packets, use the debug cdma pdsn a11 command in privileged EXEC mode. To disable debug messages, use the no form of this command.
debug cdma pdsn a11 [errors | events | packets] [mnid]
no debug cdma pdsn a11 [errors | events | packets]
Syntax Description
errors
(Optional) Displays A11 protocol errors.
events
(Optional) Displays A11 events.
packets
(Optional) Displays transmitted or received packets.
mnid
(Optional) Specifies the mobile station's ID.
Defaults
If the command is entered without any optional keywords, all of the types of debug information are enabled.
Command History
12.1(3)XS
This command was introduced.
12.2(8)BY
The MNID parameter was added and the existing keywords were made optional.
Examples
The following is sample output from the debug cdma pdsn a11commands:
Router#debug cdma pdsn a11 errorsCDMA PDSN A11 errors debugging is onRouter#show debug1d21h:CDMA-RP:(in) rp_msgs, code=1, status=01d21h:CDMA-RP:(enqueue req) type=1 homeagent=5.0.0.2 coaddr=4.0.0.11d21h: id=0xBEF750F0-0xBA53E0F lifetime=655351d21h:CDMA-RP:len=8, 00-00-00-00-00-00-00-F1 convert to 00000000000001(14 digits), type=IMSI1d21h:CDMA-RP:(req) process_rp_req, homeagent=5.0.0.2 coaddr=4.0.0.11d21h: lifetime=65535 id=BEF750F0-BA53E0Fimsi=000000000000011d21h:CDMA-RP:(req) rp_req_create, 5.0.0.2-4.0.0.1-1 imsi=000000000000011d21h:CDMA-RP:(out) rp_reply session=5.0.0.2-4.0.0.1-1, lifetime=655351d21h:CDMA-RP:(out) setup_rp_out_msg, ha=5.0.0.2 coa=4.0.0.1 key=11d21h:%LINK-3-UPDOWN:Interface Virtual-Access2000, changed state to up1d21h:CDMA-RP:ipmobile_visitor add/delete=1, mn=8.0.2.132, ha=7.0.0.21d21h:%LINEPROTO-5-UPDOWN:Line protocol on Interface Virtual-Access2000,changed state to upRouter#debug cdma pdsn a11 packets eventsRouter#show debugCDMA:CDMA PDSN A11 packet debugging is on for mnid 000000000000001CDMA PDSN A11 events debugging is on for mnid 000000000000001Router#*Mar 1 03:15:32.507:CDMA-RP:len=8, 01-00-00-00-00-00-00-10 convert to 000000000000001 (15 digits), type=IMSI*Mar 1 03:15:32.511:CDMA-RP:extension type=38, len=0*Mar 1 03:15:32.511:CDMA-RP:extension type=38, len=0*Mar 1 03:15:32.511:CDMA-RP:extension type=38, len=0*Mar 1 03:15:32.511:CDMA-RP:extension type=32, len=20*Mar 1 03:15:32.511: 00 00 01 00 EE 1F FC 43 0A 7D F9 36 29 C2 BA 28*Mar 1 03:15:32.511: 5A 64 D5 9C*Mar 1 03:15:32.511:CDMA-RP:(req) process_rp_req, homeagent=5.0.0.2 coaddr=4.0.0.1*Mar 1 03:15:32.511: lifetime=1800 id=AF3BFE55-69A109D IMSI=000000000000001*Mar 1 03:15:32.511:CDMA-RP:(req) rp_req_create, ha=5.0.0.2, coa=4.0.0.1, key=1 IMSI=000000000000001*Mar 1 03:15:32.511:CDMA-RP:(out) rp_reply session=5.0.0.2-4.0.0.1-1, lifetime=1800*Mar 1 03:15:32.511:CDMA-RP:(out) Setup RP out message, ha=5.0.0.2 coa=4.0.0.1 key=1*Mar 1 03:15:38.555:CDMA-RP:simple ip visitor added, mn=9.2.0.1, ha=0.0.0.0Router#*Mar 1 03:15:54.755:CDMA-RP:len=8, 01-00-00-00-00-00-00-10 convert to 000000000000001 (15 digits), type=IMSI*Mar 1 03:15:54.755:CDMA-RP:extension type=38, len=0*Mar 1 03:15:54.755:CDMA-RP:extension type=32, len=20*Mar 1 03:15:54.755: 00 00 01 00 EA 9C C6 4C BA B9 F9 B6 DD C4 19 76*Mar 1 03:15:54.755: 51 5A 56 45*Mar 1 03:15:54.755:CDMA-RP:(req) process_rp_req, homeagent=5.0.0.2 coaddr=4.0.0.1*Mar 1 03:15:54.755: lifetime=0 id=AF3BFE6B-4616E475 IMSI=000000000000001*Mar 1 03:15:54.755:CDMA-RP:(req) rp_req_lifetime_zero 5.0.0.2-4.0.0.1-1*Mar 1 03:15:54.755: IMSI=000000000000001*Mar 1 03:15:54.755:CDMA-RP:(out) rp_reply session=5.0.0.2-4.0.0.1-1, lifetime=0*Mar 1 03:15:54.755:CDMA-RP:(out) Setup RP out message, ha=5.0.0.2 coa=4.0.0.1 key=1Router#debug cdma pdsn a11 event mnid 000000000000001Router#show debugCDMA:CDMA PDSN A11 events debugging is on for mnid 000000000000001Router#*Mar 1 03:09:34.339:CDMA-RP:len=8, 01-00-00-00-00-00-00-10 convert to 000000000000001 (15 digits), type=IMSI*Mar 1 03:09:34.339:CDMA-RP:(req) process_rp_req, homeagent=5.0.0.2 coaddr=4.0.0.1*Mar 1 03:09:34.339: lifetime=1800 id=AF3BFCEE-DC9FC751 IMSI=000000000000001*Mar 1 03:09:34.339:CDMA-RP:(req) rp_req_create, ha=5.0.0.2, coa=4.0.0.1, key=1 IMSI=000000000000001*Mar 1 03:09:34.339:CDMA-RP:(out) rp_reply session=5.0.0.2-4.0.0.1-1, lifetime=1800*Mar 1 03:09:34.339:CDMA-RP:(out) Setup RP out message, ha=5.0.0.2 coa=4.0.0.1 key=1*Mar 1 03:09:40.379:CDMA-RP:simple ip visitor added, mn=9.2.0.1, ha=0.0.0.0Router#close the sessionRouter#*Mar 1 03:10:00.575:CDMA-RP:len=8, 01-00-00-00-00-00-00-10 convert to 000000000000001 (15 digits), type=IMSI*Mar 1 03:10:00.575:CDMA-RP:(req) process_rp_req, homeagent=5.0.0.2 coaddr=4.0.0.1*Mar 1 03:10:00.575: lifetime=0 id=AF3BFD09-18040319 IMSI=000000000000001*Mar 1 03:10:00.575:CDMA-RP:(req) rp_req_lifetime_zero 5.0.0.2-4.0.0.1-1*Mar 1 03:10:00.575: IMSI=000000000000001*Mar 1 03:10:00.575:CDMA-RP:(out) rp_reply session=5.0.0.2-4.0.0.1-1, lifetime=0*Mar 1 03:10:00.575:CDMA-RP:(out) Setup RP out message, ha=5.0.0.2 coa=4.0.0.1 key=1Router#debug cdma pdsn a11 packet mnid 000000000000001Router#show debugCDMA:CDMA PDSN A11 packet debugging is on for mnid 000000000000001Router#*Mar 1 03:13:37.803:CDMA-RP:extension type=38, len=0*Mar 1 03:13:37.803:CDMA-RP:extension type=38, len=0*Mar 1 03:13:37.803:CDMA-RP:extension type=38, len=0*Mar 1 03:13:37.803:CDMA-RP:extension type=32, len=20*Mar 1 03:13:37.803: 00 00 01 00 A8 5B 30 0D 4E 2B 83 FE 18 C6 9D C2*Mar 1 03:13:37.803: 15 BF 5B 57*Mar 1 03:13:51.575:CDMA-RP:extension type=38, len=0*Mar 1 03:13:51.575:CDMA-RP:extension type=32, len=20*Mar 1 03:13:51.575: 00 00 01 00 58 77 E5 59 67 B5 62 15 17 52 83 6D*Mar 1 03:13:51.579: DC 0A B0 5Bdebug cdma pdsn accounting
To display debug messages for accounting events, use the debug cdma pdsn accounting command in privileged EXEC mode. debug cdma pdsn accounting
debug cdma pdsn accounting
no debug cdma pdsn accounting
Syntax Description
This command has no arguments or keywords.
Defaults
No default behavior or values.
Command History
12.1(3)XS
This command was introduced.
12.4xx
Enhanced to display the IP flow accounting details.
Examples
The following is sample output from the debug cdma pdsn accounting command:
Router# debug cdma pdsn accountingCDMA PDSN accounting debugging is onRouter#*Jan 1 00:15:32:CDMA/ACCT:null vaccess in session_start*Jan 1 00:15:32:CDMA/ACCT: Current Attribute type:0x[1A] len:[9]*Jan 1 00:15:32:CDMA/ACCT: VSA Vid:5535 type:[44] len:[3] 01 Processing Y1*Jan 1 00:15:32:CDMA/ACCT: Setup airlink record received*Jan 1 00:15:32:CDMA/ACCT: Current Attribute type:0x[1A] len:[12]*Jan 1 00:15:32:CDMA/ACCT: VSA Vid:5535 type:[41] len:[6] 00 00 00 02 CDMA/ACCT: Processing Y2*Jan 1 00:15:32:CDMA/ACCT: Current Attribute type:0x[1A] len:[9]*Jan 1 00:15:32:CDMA/ACCT: VSA Vid:5535 type:[42] len:[3] 12 CDMA/ACCT: Processing Y3*Jan 1 00:15:32:CDMA/ACCT: Current Attribute type:0x[1F] len:[17] 30 30 30 30 30 30 30 30 30 30 30 30 30 30 32 Processing A1*Jan 1 00:15:32:CDMA/ACCT: Current Attribute type:0x[1A] len:[12]*Jan 1 00:15:32:CDMA/ACCT: VSA Vid:5535 type:[9] len:[6] 04 04 04 05 Processing D3*Jan 1 00:15:32:CDMA/ACCT: Current Attribute type:0x[1A] len:[14]*Jan 1 00:15:32:CDMA/ACCT: VSA Vid:5535 type:[10] len:[8] 00 00 04 04 04 05 Processing D4*Jan 1 00:15:32:CDMA/ACCT: Current Attribute type:0x[1A] len:[9]*Jan 1 00:15:32:CDMA/ACCT: VSA Vid:5535 type:[44] len:[3] 02 Processing Y1*Jan 1 00:15:32:CDMA/ACCT: Start airlink record received*Jan 1 00:15:32:CDMA/ACCT: Current Attribute type:0x[1A] len:[12]*Jan 1 00:15:32:CDMA/ACCT: VSA Vid:5535 type:[41] len:[6] 00 00 00 02 CDMA/ACCT: Processing Y2*Jan 1 00:15:32:CDMA/ACCT: Current Attribute type:0x[1A] len:[9]*Jan 1 00:15:32:CDMA/ACCT: VSA Vid:5535 type:[42] len:[3] 13 CDMA/ACCT: Processing Y3*Jan 1 00:15:32:CDMA/ACCT: Current Attribute type:0x[1A] len:[10]*Jan 1 00:15:32:CDMA/ACCT: VSA Vid:5535 type:[11] len:[4] 00 02 Processing E1*Jan 1 00:15:32:CDMA/ACCT: Current Attribute type:0x[1A] len:[10]*Jan 1 00:15:32:CDMA/ACCT: VSA Vid:5535 type:[12] len:[4] 00 F1 Processing F1debug cdma pdsn accounting flow
To display debug messages for accounting flow, use the debug cdma pdsn accounting flow command in privileged EXEC mode. To disable this function, use the no form of this command
debug cdma pdsn accounting flow
no debug cdma pdsn accounting flow
Syntax Description
This command has no arguments or keywords.
Defaults
No default behavior or values.
Command History
Examples
The following is sample output from the debug cdma pdsn accounting flow command:
Router# debug cdma pdsn acc flowCDMA PDSN flow based accounting debugging is onpdsn-6500#01:59:40:CDMA-SM:cdma_pdsn_flow_acct_upstream sess id 1 flow type 0 bytes 100 addr 20.20.20.101:59:40:CDMA-SM:cdma_pdsn_flow_acct_downstream sess id 1 flow type 0 bytes 100 addr 20.20.20.1debug cdma pdsn accounting time-of-day
To display the timer value, use the debug cdma pdsn accounting time-of-day command in privileged EXEC mode. To disable debug messages, use the no form of this command.
debug cdma pdsn accounting time-of-day
no debug cdma pdsn accounting time-of-day
Syntax Description
This command has no arguments or keywords.
Defaults
No default behavior or values.
Command History
Examples
The following is sample output from the debug cdma pdsn accounting time-of-day command:Router# debug cdma pdsn accounting time-of-dayCDMA PDSN accounting time-of-day debugging is onFeb 15 19:13:23.634:CDMA-TOD:Current timer expiring in 22 secondsFeb 15 19:13:24.194:%SYS-5-CONFIG_I:Configured from console by consoleRouter#Feb 15 19:13:45.635:CDMA-TOD:Timer expired...Rearming timerFeb 15 19:13:45.635:CDMA-TOD:Gathering session infoFeb 15 19:13:45.635:CDMA-TOD:Found 0 sessionsdebug cdma pdsn closed-rp
To display the error messages, event messages s and packets received, use the debug cdma pdsn closed-rp command in privileged EXEC mode. To disable debug messages, use the no form of this command.
debug cdma pdsn closed-rp [error | events | packets]
no debug cdma pdsn closed-rp [error | events | packets]
Syntax Description
error
Displays closed-rp error messages.
events
Displays closed-rp events.
packets
Displays closed-rp packets.
Defaults
No default behavior or values.
Command History
Examples
The following is sample output from the debug cdma pdsn closed-rp command:
Router#debug cdma pdsn closed-rp ?errors CDMA PDSN closed-rp errorsevents CDMA PDSN closed-rp eventspacket CDMA PDSN closed-rp packetdebug cdma pdsn cluster
To display the error messages, event messages and packets received, use the debug cdma pdsn cluster command in privileged EXEC mode. To disable debug messages, use the no form of this command.
debug cdma pdsn cluster {message [error | events | packets] redundancy [error | events | packets]}
no debug cdma pdsn cluster {message [error | events | packets] redundancy [error | events | packets]}
Syntax Description
Defaults
No default behavior or values.
Command History
Usage Guidelines
This debug is only allowed on PDSN c6-mz images, and helps to monitor cluster information.
Examples
The following is sample output from the debug cdma pdsn cluster command:
Router# debug cdma pdsn cluster ?message Debug PDSN cluster controller messagesredundancy Debug PDSN cluster controller redundancydebug cdma pdsn ipv6
To display IPV6 error or event messages, use the debug cdma pdsn IPV6 command in privileged EXEC mode. To disable debug messages, use the no form of this command.
debug cdma pdsn ipv6
no debug cdma pdsn ipv6
Syntax Description
There are no arguments or keywords for this command.
Defaults
No default behavior or values.
Command History
Usage Guidelines
The following example illustrates the debug cdma pdsn ipv6 command:
Router# debug cdma pdsn ipv6
debug cdma pdsn prepaid
To display debug messages about prepaid flow, use the debug cdma pdsn prepaid command in privileged EXEC mode. To disable debug messages, use the no form of this command.
debug cdma pdsn prepaid
no debug cdma pdsn prepaid
Syntax Description
There are no arguments or keywords for this command.
Defaults
No default behavior or values.
Command History
Usage Guidelines
The following is sample output from the debug cdma pdsn prepaid command:
Router# debug cdma pdsn prepaid*Jan 13 17:46:56: CDMA-PREPAID: Volume Threshold 1000 bytes reached for Quota Id 1, current quota usage 1000 bytes^M*Jan 13 17:46:56: CDMA-PREPAID: Preparing to send on-line Access Request^M*Jan 13 17:46:56: CDMA-PREPAID: Update Reason: Threshold Reached^M*Jan 13 17:46:56: CDMA-PREPAID: Added Username: mwtr_sip_user^M*Jan 13 17:46:56: CDMA-PREPAID: Added Message Authenticator attribute^M*Jan 13 17:46:56: CDMA-PREPAID: Added CLID: 00000000000002^M*Jan 13 17:46:56: CDMA-PREPAID: Added Service Option: 245^M*Jan 13 17:46:56: CDMA-PREPAID: Added Correlation ID: 0000001E^M*Jan 13 17:46:56: CDMA-PREPAID: Adding PrepaidAccountingQuota(PPAQ):^M*Jan 13 17:46:56: CDMA/PREPAID/AAA: PPAQ_QUOTA_ID_SUBTYPE[1]: value=1^M*Jan 13 17:46:56: CDMA/PREPAID/AAA: PPAQ_VOLUME_QUOTA_SUBTYPE[2]: value=1000^M*Jan 13 17:46:56: CDMA/PREPAID/AAA: PPAQ_VOLUME_QUOTA_OVERFLOW_SUBTYPE[3]: value=0^M*Jan 13 17:46:56: CDMA/PREPAID/AAA: PPAQ_VOLUME_THRESHOLD_OVERFLOW_SUBTYPE[5]: value=0^M*Jan 13 17:46:56: CDMA/PREPAID/AAA: PPAQ_UPDATE_REASON_SUBTYPE[8]: value=3^M------------------------------------------------------------------------------------------*Jan 13 17:46:56: CDMA-PREPAID: Received prepaid response: status 2^M*Jan 13 17:46:56: CDMA-PREPAID: AAA authorised params being processed in on-line Access Accept^M*Jan 13 17:46:56: CDMA-PREPAID: Attr received: addr^M*Jan 13 17:46:56: CDMA-PREPAID: Attr received: Framed-Protocol^M*Jan 13 17:46:56: CDMA-PREPAID: Attr received: service-type^M*Jan 13 17:46:56: CDMA-PREPAID: Attr received: routing^M*Jan 13 17:46:56: CDMA-PREPAID: Attr received: cdma-prepaid-accounting-capability^M*Jan 13 17:46:56: CDMA-PREPAID: Attr received: cdma-sess-term-capability^M*Jan 13 17:46:56: CDMA-PREPAID: Attr received: cdma-prepaid-accounting-quota^M*Jan 13 17:46:56: CDMA/PREPAID/AAA: AAA_AT_CDMA_PREPAID_ACCOUNTING_QUOTA^M*Jan 13 17:46:56: CDMA/PREPAID/AAA: PPAQ_QUOTA_ID_SUBTYPE[1]: value=1^M*Jan 13 17:46:56: CDMA/PREPAID/AAA: PPAQ_VOLUME_QUOTA_SUBTYPE[2]: value=4000^M*Jan 13 17:46:56: CDMA/PREPAID/AAA: PPAQ_VOLUME_THRESHOLD_SUBTYPE[4]: value=3000^M*Jan 13 17:46:56: CDMA-PREPAID: Volume Quota received: 4000 bytes with threshold 3000 bytes^M*Jan 13 17:46:56: CDMA-PREPAID: Access Accept received and retrieved attributes successfully^Mdebug cdma pdsn qos
To display debug messages about quality of service features, use the debug cdma pdsn qos command in privileged EXEC mode. To disable debug messages, use the no form of this command.
debug cdma pdsn qos [errors | events]
no debug cdma pdsn qos [errors | events]
Syntax Description
Defaults
There are no default values for this command.
Command History
debug cdma pdsn radius disconnect nai
To display debug messages about RADIUS disconnect functions, use the debug cdma pdsn radius disconnect nai command in Privileged EXEC mode. Use the no form of the command to disable debug messages.
debug cdma pdsn radius disconnect nai
no debug cdma pdsn radius disconnect nai
Syntax Description
There are no keywords or arguments for this command.
Defaults
There are no default values for this command.
Command Modes
EXEC mode
Command History
Examples
Here is sample output for the debug cdma pdsn radius disconnect nai command:
Jan 5 12:17:59.671: CDMA-POD: POD request receivedJan 5 12:17:59.671: CDMA-POD: NAI in POD request : mwtr-mip-sa2sp1-user1@ispxyz.comJan 5 12:17:59.671: CDMA-POD: IMSI in POD request : 00000000000201Jan 5 12:17:59.671: CDMA-POD: Delete flow for NAI: mwtr-mip-sa2sp1-user1@ispxyz.comJan 5 12:17:59.671: CDMA-POD: Delete flow for NAI: mwtr-mip-sa2sp1-user1@ispxyz.comdebug cdma pdsn redundancy
To debug the PDSN-SR redundancy aspect of errors, use the debug cdma pdsn redundancy errors command. To disable debug messages, use the no form of this command.
debug cdma pdsn redundancy {errors | events | packets | attributes}
no debug cdma pdsn redundancy {errors | events | packets | attributes}
Syntax Description
There are no keywords or arguments for this command.
Defaults
There are no default values for this command.
Command Modes
EXEC mode
Command History
12.3(8)XW
This command was introduced.
12.4xx
Enhanced to print TFT and other new parameters like subscriber qos profile, IP flow, and auxiliary A10 synced to standby.
Examples
Here is example debug output for the debug cdma pdsn redundancy attributes command:
SAMI 12/3: Jun 24 10:23:17.563: %LINEPROTO-5-UPDOWN: Line protocol on Interface Virtual-Access2, changed state to upSAMI 12/3: Jun 24 10:23:21.303: CDMASR-ACT: Attr type[0] name[Key] length[4] 00000001SAMI 12/3: Jun 24 10:23:21.303: CDMASR-ACT: Attr type[1] name[Flags] length[4] 00800000SAMI 12/3: Jun 24 10:23:21.303: CDMASR-ACT: Attr type[2] name[PCF SPI] length[4] 00000101SAMI 12/3: Jun 24 10:23:21.303: CDMASR-ACT: Attr type[3] name[Tunnel Src Addr] length[4] 21212101SAMI 12/3: Jun 24 10:23:21.303: CDMASR-ACT: Attr type[4] name[Tunnel Dest. Addr] length[4] 02020204SAMI 12/3: Jun 24 10:23:21.303: CDMASR-ACT: Attr type[5] name[Src Addr] length[4] 02020204SAMI 12/3: Jun 24 10:23:21.303: CDMASR-ACT: Attr type[6] name[PCF Addr] length[4] 02020204SAMI 12/3: Jun 24 10:23:21.303: CDMASR-ACT: Attr type[7] name[MN ID Type] length[2] 0000SAMI 12/3: Jun 24 10:23:21.303: CDMASR-ACT: Attr type[8] name[MN ID Len] length[1] 0BSAMI 12/3: Jun 24 10:23:21.303: CDMASR-ACT: Attr type[9] name[MSID] length[8] 09884708942AAAAASAMI 12/3: Jun 24 10:23:21.303: CDMASR-ACT: Attr type[10] name[GRE Protocol Type] length[4] 00008881SAMI 12/3: Jun 24 10:23:21.303: CDMASR-ACT: Attr type[24] name[Main A10 SR ID] length[1] 01SAMI 12/3: Jun 24 10:23:21.303: CDMASR-ACT: Attr type[25] name[Main A10 Service Option] length[2] 003BSAMI 12/3: Jun 24 10:23:21.303: CDMASR-ACT: Attr type[11] name[Source Port] length[2] 02BBSAMI 12/3: Jun 24 10:23:21.303: CDMASR-ACT: Attr type[12] name[Lifetime] length[2] FFFFSAMI 12/3: Jun 24 10:23:21.303: CDMASR-ACT: Attr type[13] name[Elapsed Time] length[4] 00001288SAMI 12/3: Jun 24 10:30:47.719: CDMA-CCM: [ACT] SHDB 0x96000001 Sync collection for: CDMA_SR_EVENT_TFT_CREATE (event_handle = 0x8A000001)SAMI 12/3: Jun 24 10:30:47.719: CDMA-CCM: [ACT] SHDB 0x96000001 Sync collection for: CDMA_SR_EVENT_IPFLOW_ACCT_SEND_START (event_handle = 0x45000001)debug cdma pdsn resource-manager
To display debug messages that help you monitor the resource-manager information, use the debug cdma pdsn resource-manager command in privileged EXEC mode. To disable debug messages, use the no form of this command.
debug cdma pdsn resource-manager [error | events]
no debug cdma pdsn resource-manager [error | events]
Syntax Description
Defaults
No default behavior or values.
Command History
Examples
The following is sample output from the debug cdma pdsn resource-manager command:
Router# debug cdma pdsn resource-manager ?errors CDMA PDSN resource manager errorsevents CDMA PDSN resource manager eventsdebug cdma pdsn rsvp
To display details of the RSVP packets received, use the debug cdma pdsn rsvp command in privileged EXEC mode. To disable debug messages, use the no form of this command.
debug cdma pdsn rsvp {events | errors}
no debug cdma pdsn rsvp {events | errors}
Syntax Description
Defaults
No default behavior or values.
Command History
Examples
The following is sample output from the debug cdma pdsn rsvp command:
*Jun 19 11:56:38.943: CDMA-RSVP: Received Resv message from 4.4.4.1*Jun 19 11:56:38.943: CDMA-RSVP: Start Parsing Received Resv Message from 4.4.4.1*Jun 19 11:56:38.943: CDMA-RSVP: Resv type=2, len=112*Jun 19 11:56:38.943: 10 02 52 06 FF 00 00 70 00 0C 01 01 04 04 04 01*Jun 19 11:56:38.943: 11 00 0D 7F 00 08 05 01 00 00 00 01 00 08 0F 01*Jun 19 11:56:38.943: 04 04 04 01 00 44 E7 01 00 00 00 27 00 1E 00 00*Jun 19 11:56:38.943: 04 04 04 01 08 01 01 02 01 01 00 07 00 05 50 06*Jun 19 11:56:38.943: 1F 02 02 00 07 00 05 50 06 1F 00 1E 00 00 04 04*Jun 19 11:56:38.943: 04 01 48 01 01 02 01 01 00 07 00 05 50 06 1F 03*Jun 19 11:56:38.943: 02 00 07 00 05 50 06 1F 00 08 08 01 00 00 00 11*Jun 19 11:56:38.943: CDMA-RSVP: Parsing Done Successfully,Sending 3GPP2 object to PDSN*Jun 19 11:56:38.943: CDMA-RSVP: Building Objects for ResvError message*Jun 19 11:56:38.943: CDMA-RSVP: Resv type=4, len=52*Jun 19 11:56:38.943: 10 04 C3 C6 FF 00 00 34 00 0C 01 01 04 04 04 01*Jun 19 11:56:38.943: 11 00 0D 7F 00 04 06 01 00 14 E7 01 00 00 00 27*Jun 19 11:56:38.943: 00 0C 00 01 04 04 04 01 08 00 00 01 00 08 08 01*Jun 19 11:56:38.943: 00 00 00 11*Jun 19 11:56:38.943: CDMA-RSVP: Sending ResvError message from PDSN 1.1.1.1 to Mn 4.4.4.1debug cdma pdsn selection
To display debug messages for the intelligent PDSN selection feature, use the debug cdma pdsn selection command in privileged EXEC mode. To disable debug messages, use the no form of this command.
debug cdma pdsn selection {errors | events | packets}
no debug cdma pdsn selection {errors | events | packets}
Syntax Description
errors
Displays pdsn selection errors.
events
Displays pdsn selection events.
packets
Displays transmitted or received packets.
Defaults
No default behavior or values.
Command History
Examples
The following is sample output from the debug cdma pdsn selection command with the keyword events specified:
Router#debug cdma pdsn selection eventsCDMA PDSN selection events debugging is onRouter#00:27:46: CDMA-PSL: Message(IN) pdsn 51.4.2.40 interface 70.4.2.4000:27:46: Keepalive 1000:27:46: Count 000:27:46: Capacity 1600000:27:46: Weight 000:27:46: Hostname 11 7206-PDSN-200:27:46: CDMA-PSL: Reset keepalive, pdsn 51.4.2.40 current 10 new 1000:27:46: CDMA-PSL: Message processed, pdsn 51.4.2.40 tsize 0 pendings 000:27:47: CDMA-PSL: Send KEEPALIVE, len 3200:27:47: CDMA-PSL: Message(OUT) dest 224.0.0.1100:27:47: Keepalive 1000:27:47: Count 100:27:47: Capacity 1600000:27:47: Weight 000:27:47: Hostname 11 7206-PDSN-100:27:47: CDMA-PSL: RRQ sent, s=70.4.1.40 (FastEthernet0/1), d=224.0.0.11debug cdma pdsn service-selection
To display debug messages for service selection, use the debug cdma pdsn service-selection command in privileged EXEC mode. To disable debug messages, use the no form of this command.
debug cdma pdsn service-selection
no debug cdma pdsn service-selection
Syntax Description
This command has no arguments or keywords.
Defaults
No default behavior or values.
Command History
Examples
The following is sample output from the debug cdma pdsn service-selection command:
Router# debug cdma pdsn service-selectionCDMA PDSN service provisioning debugging is onRouter#1d02h:%LINK-3-UPDOWN:Interface Virtual-Access3, changed state to up1d02h:Vi3 CDMA-SP:user_class=1, ms_ipaddr_req=1, apply_acl=01d02h:Vi3 CDMA-SP:Adding simple ip flow, user=bsip, mn=6.0.0.2,1d02h:%LINEPROTO-5-UPDOWN:Line protocol on Interface Virtual-Access3,changed state to updebug cdma pdsn session
To display debug messages for Session Manager errors, events, and packets, use the debug cdma pdsn session-manager command in privileged EXEC mode. To disable debug messages, use the no form of this command.
debug cdma pdsn session [errors | events]
no debug cdma pdsn session [errors | events]
Syntax Description
Defaults
If the command is entered without any optional keywords, all of the types of debug information are enabled.
Command History
12.1(3)XS
This command was introduced.
12.2(8)BY
Keywords were made optional.
12.4xx
Enhanced to display the Auxiliary A10 and IP flow parsing and installation details.
Examples
The following is sample output from the debug cdma pdsn session command:
Router# debug cdma pdsn session eventsCDMA PDSN session events debugging is onRouter# debug cdma pdsn session errorsCDMA PDSN session errors debugging is onRouter# show debugCDMA:CDMA PDSN session events debugging is onCDMA PDSN session errors debugging is onRouter#*Jan 1 00:22:27:CDMA-SM:create_session 5.5.5.5-4.4.4.5-2*Jan 1 00:22:27:CDMA-SM:create_tunnel 5.5.5.5-4.4.4.5*Jan 1 00:22:27:%LINK-3-UPDOWN:Interface Virtual-Access1, changed state to up*Jan 1 00:22:29:CDMA-SM:create_flow mn=0.0.0.0, ha=8.8.8.8 nai=l2tp2@cisco.com*Jan 1 00:22:30:%LINEPROTO-5-UPDOWN:Line protocol on Interface Virtual-Access1, changed state to updebug cdma pdsn tft
To display information details about TFT parsing, use the command in privileged EXEC mode. To disable debug messages, use the no form of this command.
debug cdma pdsn tft {errors | events}
no debug cdma pdsn tft {errors | events}
Syntax Description
Defaults
No default behavior or values.
Command History
Usage Guidelines
The TFT debug is prefixed with IP address:Tft opcode:direction
Tft opcode ranges from 1 to 5, and direction is forward (0), or reverse (1).
For example, 4.4.4.1:1:1 represents mobile node IP address as 4.4.4.1, Opcode as 1 (Create Tft), and dierction as 1 (Reverse).
Examples
The following is sample output from the debug cdma pdsn tft command:
*Jun 19 11:56:38.943: CDMA-TFT: 4.4.4.1:1:0: Tft IE 1 P 1 NS 1 PF count 2*Jun 19 11:56:38.943: CDMA-TFT: 4.4.4.1:1:0: Flow id 1 Prec 1*Jun 19 11:56:38.943: CDMA-TFT: 4.4.4.1:1:0: Component: Single Source Port 1567*Jun 19 11:56:38.943: CDMA-TFT: 4.4.4.1:1:0: Flow id 2 Prec 2*Jun 19 11:56:38.943: CDMA-TFT: 4.4.4.1:1:0: Component: Single Source Port 1567*Jun 19 11:56:38.943: CDMA-TFT: 4.4.4.1:1:0: Deleting all Pf's in TFT*Jun 19 11:56:38.943: CDMA-TFT: 4.4.4.1:1:0: Pf 1 added to Tft EC 0*Jun 19 11:56:38.943: CDMA-TFT: 4.4.4.1:1:0: Pf 2 added to Tft EC 0*Jun 19 11:56:38.943: CDMA-TFT: 4.4.4.1:1:0: Parsing success for Tft Ie 1*Jun 19 11:56:38.943: CDMA-TFT: TFT not successfully synced to standby*Jun 19 11:56:38.943: CDMA-TFT: 4.4.4.1:1:1: Tft IE 2 P 1 NS 1 PF count 2*Jun 19 11:56:38.943: CDMA-TFT: 4.4.4.1:1:1: Flow id 1 Prec 1*Jun 19 11:56:38.943: CDMA-TFT: 4.4.4.1:1:1: Component: Single Source Port 1567*Jun 19 11:56:38.943: CDMA-TFT: Error: IPFlow 3 [Reverse] not found for Flow Attach*Jun 19 11:56:38.943: CDMA-TFT: 4.4.4.1:1:1: Error: IPFlow Attach to Flow Failed*Jun 19 11:56:38.943: CDMA-TFT: 4.4.4.1:1:1: Parsing FailurePDSN1_ACT#*Jun 19 11:56:38.943: CDMA-TFT: 4.4.4.1:1:1: Tft Error IE 2 Reason: Pf Add Failure*Jun 19 11:56:38.943: CDMA-TFT: 4.4.4.1:1:1: Error Response Sentdebug condition calling
To enable conditional debug feature for clustering, use the debug condition calling command in privileged EXEC mode. To remove the condition, use the no form of the command.
debug condition calling msid
no debug condition calling msid
Syntax Description
Defaults
When all the conditions are removed, the debugging information will appear without any filtering mechanism.
Command History
Examples
The following example illustrates how to enable conditional debugging for the clustering feature:
router# debug condition callingdebug condition username
To filter the output of the debug ip mobile command, use the debug condition username command to set the conditions. Use the no form of this command to remove the conditions.
debug condition username username
no debug condition username username
Syntax Description
Defaults
When all the conditions are removed, the debugging information will appear without any filtering mechanism.
Command History
Examples
The following example illustrates how to filter conditional debugging for the debug ip mobile command:
router# debug condition username user1debug ip mobile
Use the debug ip mobile command in privileged EXEC mode to display debugging information about the Mobile IP subsystem. Use the no form of the command to disable debugging functions.
debug ip mobile [advertise | local-area | proxy | redundancy | router]
no debug ip mobile [advertise | local-area | proxy | redundancy | router]
Syntax Description
Defaults
No default values.
Command History
12.0(1)T
This command was introduced.
12.3(8)XW
The local-area, proxy, redundancy, and router keywords were added.
Examples
The following is sample output from the debug ip mobile advertise command. Table 1 describes significant fields shown in the display.
Router# debug ip mobile advertiseMobileIP: Agent advertisement sent out Ethernet1/2: type=16, len=10, seq=1,lifetime=36000,flags=0x1400(rbhFmGv-rsv-),Care-of address: 68.0.0.31Prefix Length ext: len=1 (8)Table 1 Debug IP Mobile Advertise Field Descriptions
debug ip mobile cdma ipsec
To enable debugging on the IS835 IPsec feature, use the debug ip mobile cdma ipsec command in privileged EXEC mode. To disable debugging for this feature, use the no form of the command.
debug ip mobile cdma ipsec
no debug ip mobile cdma ipsec
Syntax Description
This command has no arguments or keywords.
Defaults
No default behavior or values.
Command History
Examples
The following example illustrates how to issue the debug ip mobile cdma ipsec command:
router# debug ip mobile csma ipsecdscp (service flows qos subscriber profile submode)
To configure the allowed differentiated services markings parameter, use the dscp command in the service flows qos subscriber profile submode. Use the no form of the command to disable this feature.
dscp {allowed-class {AF | EF | O} | max-class value| reverse-marking value}
no {allowed-class {AF | EF | O} | max-class value| reverse-marking value}
Syntax Description
Defaults
There are no default values.
Command Modes
Global configuration
Command History
Usage Guidelines
Examples
Here is an example of the dscp command:
router#(config-qos-profile)#dscp ?allowed-class allowed dscp's classes with which user can markpacketsmax-class User may mark packets with a class selector codepointreverse-marking marking level pdsn apply to reverse tunneled packetsrouter#(config-qos-profile)#dscp allowed-class ?AF User can send packets with AF dscp (A bit)EF User can send packets with EF dscp (E bit)O User can mark packets for experiment or local use (O bit)router#(config-qos-profile)#dscp allowed-class AF ?<cr>Here is an example of the max-class and reverse-marking keywords:
router(config-qos-profile)#dscp max-class ?AF11 AF11AF12 AF12AF13 AF13AF21 AF21AF22 AF22AF23 AF23AF31 AF31AF32 AF32AF33 AF33AF41 AF41AF42 AF42AF43 AF43Default Selector Class 0EF EFclass1 Selector Class 1class2 Selector Class 2class3 Selector Class 3class4 Selector Class 4class5 Selector Class 5class6 Selector Class 6class7 Selector Class 7router(config-qos-profile)#router(config-qos-profile)#dscp reverse-marking ?AF11 AF11AF12 AF12AF13 AF13AF21 AF21AF22 AF22AF23 AF23AF31 AF31AF32 AF32AF33 AF33AF41 AF41AF42 AF42AF43 AF43Default Selector Class 0EF EFclass1 Selector Class 1class2 Selector Class 2class3 Selector Class 3class4 Selector Class 4class5 Selector Class 5class6 Selector Class 6class7 Selector Class 7router(config-qos-profile)#Related Commands
flow-priority (service flows qos subscriber profile submode)
To configure the maximum per flow priority parameter, use the flow-priority command in service flows qos subscriber profile submode. Use the no form of the command to disable this feature.
flow-priority value
no flow-priority value
Syntax Description
Defaults
There are no default values.
Command Modes
Service flows qos subscriber profile submode
Command History
Usage Guidelines
Examples
Here is an example or the flow-priority command:
router#(config-qos-profile)#flow-priority ?<1-65535> Valuerouter#(config-qos-profile)#flow-priority 100 ?Related Commands
flow-profile direction (service flows qos subscriber profile submode)
To configure authorized flow profile IDs for each direction, use the flow-profile direction command in the service flows qos subscriber profile submode. Use the no form of the command to disable this feature.
flow-profile direction {forward | reverse | bi-direction} flow-id flow-id
no bandwidth {forward | reverse | bi-direction} flow-id flow-id
Syntax Description
Defaults
There are no default values.
Command Modes
Service flows qos subscriber profile submode.
Command History
Usage Guidelines
Examples
Here is an example or the flow-profile direction command:
router#(config-qos-profile)#flow-profile ?direction Configure direction for flow of packetrouter#(config-qos-profile)#flow-profile direction ?<1-3> 1-Reverse 2-Forward 3-Bi-directionrouter#(config-qos-profile)#flow-profile direction 1 ?flow-id defines qos treatment to apply to a packet flowrouter#(config-qos-profile)#flow-profile direction 1 flow-id ?<1-255> Valuerouter#(config-qos-profile)#flow-profile direction 1 flow-id 100 ?Related Commands
interface cdma-Ix
To define the virtual interface for the R-P tunnels, use the interface cdma-Ix command in global configuration mode. To disable the interface, use the no form of this command.
interface cdma-Ix1
no interface cdma-Ix1
Syntax Description
Defaults
No default behavior or values.
Command Modes
Global Configuration
Command History
Usage Guidelines
The only interface level command allowed on the virtual interface is the IP address configuration.
Examples
The following example defines the virtual interface for the R-P tunnel and configures the IP address:
interface cdma-Ix1ip address 1.1.1.1 255.255.0.0Related Commands
inter-user-priority (service flows qos subscriber profile submode)
To configure Inter-user priority parameter, use the inter-user-priority command in the service flows qos subscriber profile submode. Use the no form of the command to disable this feature.
inter-user-priority value
no inter-user-priority value
Syntax Description
Defaults
There are no default values.
Command Modes
Service flows qos subscriber profile submode.
Command History
Usage Guidelines
Examples
Here is an example of the inter-user-priority command:
router#(config-qos-profile)#inter-user-priority ?<1-4294967295> Valuerouter#(config-qos-profile)#inter-user-priority 200 ?<cr>
ip mobile authentication ignore-spi
To enable MNs and Foreign Agents to use the SPI while calculating the authenticator value for Mobile-Home Auth or Foreign-Home authorization, use the ip mobile authentication ignore-spi global configuration command.
ip mobile authentication ignore-spi
Syntax Description
This command has no arguments or keywords.
Defaults
No default values.
Command Modes
Global configuration.
Command History
Examples
The following example illustrates the ip mobile authentication ignore-spi command:
Router# ip mobile authentication ignore-spi
ip mobile bindupdate
During an inter-PDSN handoff, to enable an HA to send a binding update message to an old FA to release the unused PPP session the FA is holding, use the ip mobile bindupdate global configuration command. To disable this configuration, use the no form of the command.
ip mobile bindupdate [acknowledge | maximum secs | minimum secs | retry value]
no ip mobile bindupdate [acknowledge | maximum secs | minimum secs | retry value]
Syntax Description
Defaults
No default values.
Command Modes
Global configuration.
Command History
Examples
The following example illustrates the ip mobile bindupdate command:
Router# ip mobile bindupdate
ip mobile cdma imsi dynamic
To enable the PDSN to delete the first call session for dynamic home address cases (1x-RTT to EVDO handoff where IMSI changes during the handoff), and allow the new session to come up, use the ip mobile cdma imsi dynamic command in global configuration mode. Use the no form of the command to disable this feature.
ip mobile cdma imsi dynamic
no ip mobile cdma imsi dynamic
Syntax Description
There are no arguments or keywords for this command.
Defaults
There are no default values for this command.
Command Modes
Global configuration
Command History
Examples
The following example illustrates how to issue the ip mobile cdma imsi dynamic command:
router(config)# ip mobile cdma imsi dynamic
ip mobile cdma ipsec
To enable IS835 IPSec security, use the ip mobile cdma ipsec command in global configuration mode. Use the no form of the command to disable this feature.
ip mobile cdma ipsec
no ip mobile cdma ipsec
Syntax Description
There are no arguments or keywords for this command.
Defaults
There are no default values for this command.
Command Modes
Global configuration
Command History
Usage Guidelines
This command is only present in crypto images for the 7200, and non-crypto images for the MWAM.
Examples
The following example illustrates how to enable IS835 IPsec on the PDSN:
router# ip mobile cdma ipsecip mobile foreign-agent
To enable foreign agent service, use the ip mobile foreign-agent global configuration command. To disable this service, use the no form of this command.
ip mobile foreign-agent [care-of interface | reg-wait seconds | local-timezone]
no ip mobile foreign-agent [care-of interface | reg-wait seconds | local-timezone]
Syntax Description
Defaults
Disabled.
Command Modes
Global configuration
Command History
12.0(1)T
This command was introduced.
12.2(2)XC
The local-timezone keyword was added.
Usage Guidelines
This command enables foreign agent service when at least one care-of address is configured. When no care-of address exists, foreign agent service is disabled.
The foreign agent is responsible for relaying the registration request to the home agent, setting up tunnel to the home agent, and forwarding packets to the mobile node. The show commands used to display relevant information are shown in parentheses in the following paragraph.
When a registration request comes in, the foreign agent will ignore requests when foreign agent service is not enabled on interface or no care-of address is advertised. If a security association exists for a visiting mobile node, the visitor is authenticated (show ip mobile secure visitor command). The registration bitflag is handled as described in Table 2 (show ip mobile interface command). The foreign agent checks the validity of the request. If successful, the foreign agent relays the request to the home agent, appending an FH authentication extension if a security association for the home agent exists. The pending registration timer of 15 seconds is started (show ip mobile visitor pending command). At most, five outstanding pending requests per mobile node are allowed. If a validity check fails, the foreign agent sends a reply with error code to the mobile node (reply codes are listed in Table 3). A security violation is logged when visiting mobile node authentication fails (show ip mobile violation command). (Violation reasons are listed in Table 9.)
When a registration reply comes in, the home agent is authenticated (show ip mobile secure home-agent command) if a security association exists for the home agent (IP source address or home agent address in reply). The reply is relayed to the mobile node.
When registration is accepted, the foreign agent creates or updates the visitor table, which contains the expiration timer. If no binding existed before this registration, a virtual tunnel is created, a host route to the mobile node via the interface (of the incoming request) is added to the routing table (show ip route mobile command), and an ARP entry is added to avoid sending ARP requests for the visiting mobile node. Visitor binding is removed (along with its associated host route, tunnel, and ARP entry) when the registration lifetime expires or deregistration is accepted.
When registration is denied, the foreign agent will remove the request from the pending registration table. The table and timers of the visitor will be unaffected.
When a packet destined for the mobile node arrives on the foreign agent, the foreign agent will de-encapsulates the packet and forwards it out its interface to the visiting mobile node, without sending ARP requests.
The care-of address must be advertised by the foreign agent. This is used by the mobile node to register with the home agent. The foreign agent and home agent use this address as the source and destination point of tunnel, respectively. The foreign agent is not enabled until at least one care-of address is available. The foreign agent will advertise on interfaces configured with the ip mobile foreign-service command.
Only care-of addresses with interfaces that are up are considered available.
Examples
The following example enables foreign agent service on interface Ethernet1, advertising 1.0.0.1 as the care-of address:
ip mobile foreign-agent care-of Ethernet0interface Ethernet0ip address 1.0.0.1 255.0.0.0interface Ethernet1ip mobile foreign-serviceRelated Commands
ip mobile foreign-service
To enable foreign agent service on an interface if care-of addresses are configured, use the ip mobile foreign-service interface configuration command. To disable this service, use the no form
of this command.ip mobile foreign-service [home-access acl] [limit number] [registration-required] [challenge {timeout value | window num | forward-mfce}] [reverse-tunnel [mandatory]]
no ip mobile foreign-service [home-access acl] [limit number] [registration-required] [challenge {timeout value | window num | forward-mfce}] [reverse-tunnel [mandatory]]
Syntax Description
Defaults
Disabled. Default is no limit to the number of visitors allowed on an interface. The default number of challenge values is 2.
Command Modes
Global configuration
Command History
12.0(1)T
This command was introduced.
12.1(3)XS
The challenge keyword and associated parameters were added.
12.2(2)XC
The reverse-tunnel keyword was added.
Usage Guidelines
This command enables foreign agent service on the interface. The foreign agent (F) bit will be set in the agent advertisement, which is appended to the IRDP router advertisement whenever the foreign agent or home agent service is enabled on the interface.
Note
Table 4 lists the advertised bitflags.
Examples
The following example enables foreign agent service for up to 100 visitors:
interface Ethernet 0ip mobile foreign-service limit 100 registration-requiredRelated Commands
ip mobile foreign-service revocation
To enable registration revocation support on the PDSN, use the ip mobile foreign-service revocation command in Global configuration. To disable this feature, use the no form of the command.
ip mobile foreign-service revocation [timeout value] [retransmit value] [timestamp msec]
Syntax Description
Defaults
The default value for timeout is 3 seconds, and the default value for retransmit is 3 seconds.
Command Modes
Global configuration
Command History
Usage Guidelines
The Registration Revocation feature requires that all the foreign-service configurations should be done globally, and not under the virtual-template interface.
Examples
The following example illustrates the ip mobile foreign-service revocation command:
Router(config)#ip mobile foreign-service revocation timeout 6 retransmit 10ip mobile prefix-length
To append the prefix-length extension to the advertisement, use the ip mobile prefix-length command in interface configuration mode. To restore the default, use the no form of this command.
ip mobile prefix-length
no ip mobile prefix-length
Syntax Description
This command has no arguments or keywords.
Defaults
The prefix-length extension is not appended.
Command Modes
Interface configuration
Command History
Usage Guidelines
The prefix-length extension is used for movement detection. When a mobile node registered with one foreign agent receives an agent advertisement from another foreign agent, the mobile node uses the prefix-length extension to determine whether the advertisements arrived on the same network. The mobile node needs to register with the second foreign agent if it is on a different network. If the second foreign agent is on the same network, reregistration is not necessary.
Examples
The following example appends the prefix-length extension to agent advertisements sent by a foreign agent:
ip mobile prefix-lengthRelated Commands
show ip mobile interface
Displays advertisement information for interfaces that are providing foreign agent service or are home links for mobile nodes.
ip mobile proxy-host
To locally configure the proxy Mobile IP attributes of the PDSN, use the ip mobile proxy-host global configuration command. To remove the configuration, use the no form of this command.
ip mobile proxy-host nai username@realm [flags rrq-flags] [home-agent homeagent] [home-addr home_address] [lifetime value] [local-timezone]
no ip mobile proxy-host nai username@realm [flags rrq-flags] [home-agent homeagent] [home-addr home_address] [lifetime value] [local-timezone]
Syntax Description
Defaults
No security association is specified.
Command Modes
Global configuration
Command History
Usage Guidelines
All proxy Mobile IP attributes can be retrieved from the AAA server. You can use this command to configure the attributes locally.
If only a realm is specified, the home address cannot be specified.
Examples
The following example shows the ip mobile proxy-host command:
ip mobile proxy-host nai MoIPProxy1@cisco.com flags 40 ha 3.3.3.1 lifetime 6000Related Commands
ip mobile registration-lifetime
To set the registration lifetime value advertised, use the ip mobile registration-lifetime command in interface configuration mode.
ip mobile registration-lifetime seconds
Syntax Description
Defaults
36000 seconds
Command Modes
Interface configuration
Command History
Usage Guidelines
This command allows an administrator to control the advertised lifetime on the interface. The foreign agent uses this command to control duration of registration. Visitors requesting longer lifetimes will be denied.
Examples
The following example sets the registration lifetime to 10 minutes on interface Ethernet 1 and 1 hour on interface Ethernet 2:
interface e1ip mobile registration-lifetime 600interface e2ip mobile registration-lifetime 3600Related Commands
show ip mobile interface
Displays advertisement information for interfaces that are providing foreign agent service or are home links for mobile nodes.
ip mobile secure
To specify the mobility security associations for the mobile host, visitor, home agent, foreign agent, and proxy host, use the ip mobile secure global configuration command. To remove the mobility security associations, use the no form of this command.
ip mobile secure {aaa-download | visitor | home-agent | proxy-host} {lower-address [upper-address] | nai string} {inbound-spi spi-in outbound-spi spi-out | spi spi} key {hex | ascii} string [replay timestamp [number] algorithm md5 mode prefix-suffix]
no ip mobile secure {aaa-download | visitor | foreign-agent | proxy-host} {lower-address [upper-address] | nai string} {inbound-spi spi-in outbound-spi spi-out | spi spi} key {hex | ascii} string [replay timestamp [num] algorithm md5 mode prefix-suffix]
Syntax Description
Defaults
No security association is specified.
Command Modes
Global configuration
Command History
12.0(1)T
This command was introduced.
12.2(2)XC
The proxy-host and nai keywords were added.
Usage Guidelines
The security association consists of the entity address, SPI, key, replay protection method, authentication algorithm, and mode.
The SPI is the 4-byte index that selects the specific security parameters to be used to authenticate the peer. The security parameters consist of the authentication algorithm and mode, replay attack protection method, timeout, and IP address.
On a home agent, the security association of the mobile host is mandatory for mobile host authentication. If desired, configure a foreign agent security association on your home agent. On a foreign agent, the security association of the visiting mobile host and security association of the home agent are optional. Multiple security associations for each entity can be configured.
If registration fails because the timestamp value is out of bounds, the time stamp of the home agent is returned so the mobile node can reregister with the time-stamp value closer to that of the home agent, if desired.
The nai keyword is only valid for a host, visitor, and proxy host. To configure security associations for proxy Mobile IP users, use the following form of the command:
ip mobile secure proxy-host nai string spi spi key {hex | ascii} string
Note
Examples
The following example shows mobile node 20.0.0.1, which has a key that is generated by the MD5 hash of the string:
ip mobile secure host 20.0.0.1 spi 100 key hex 12345678123456781234567812345678Related Commands
ip mobile tunnel
To specify the settings of tunnels created by Mobile IP, use the ip mobile tunnel interface configuration command.
ip mobile tunnel {crypto map map-name | route-cache | path-mtu-discovery | nat {inside | outside}}
Syntax Description
Defaults
Disabled.
Command Modes
Global configuration
Command History
Usage Guidelines
These commands are only available in ipsec images (K9).
Path MTU discovery is used by end stations to find a packet size that does not need fragmentation between them. Tunnels have to adjust their MTU to the smallest MTU interior to achieve this. This is described in RFC 2003.
The discovered tunnel MTU should be aged out periodically to possibly recover from case where sub-optimum MTU existed at time of discovery. It is reset to the outgoing interface's MTU.
Examples
The following example assigns and specifically names a crypto map:
router (config)#ip mobile tunnel crypto ?map Assign a Crypto Maprouter (config)#ip mobile tunnel crypto map ?WORD Crypto Map taglink-flow (service flows qos subscriber profile submode)
To configure the maximum service connection parameter, use the link-flow command in the service flows qos subscriber profile submode. Use the no form of the command to disable this feature.
link-flow number
no linkflow number
Syntax Description
Defaults
There are no default values.
Command Modes
Service flows qos subscriber profile submode.
Command History
Usage Guidelines
Examples
Here is an example of the link-flow command:
router#(config-qos-profile)#link-flow ?<1-255> Valuerouter#(config-qos-profile)#link-flow 40 ?Related Commands
ppp accm
To configure the Asynchronous Control Character Map (ACCM) to be negotiated with the mobile station, use the ppp accm command in interface configuration mode. To remove the configuration, use the no form of this command.
ppp accm number
no ppp accm
Syntax Description
number
Hexadecimal number identifying the ACCM. Possible values are 0 through FFFFFFFF. The default value is 000A0000.
Defaults
The default value is 000A0000.
Command Modes
Interface Configuration
Command History
Usage Guidelines
The ACCM is a four octet hexadecimal number that indicates the set of control characters to be mapped during transmission of AHDLC frames. During the LCP, each end of the PPP connection informs its peer the ACCM that should be used when transmitting the Asynchronous HDLC (AHDLC) frames. The TIA/EIA/IS-835-B requires that the PDSN propose an ACCM of 0x00000000. To be compliant with TIA/EIA/IS-835-B, "ppp accm 00000000" must be configured on the virtual template interface on Cisco PDSN.
Examples
The following example specifies that PDSN propose an ACCM of 0x00000000:
ppp accm 00000000Related Commands
ppp authentication
To enable CHAP, PAP or EAP, and to specify the order in which authentication is selected on the interface, use the ppp authentication command in interface configuration mode. To disable authentication, use the no form of this command.
ppp authentication {protocol1 [protocol2...] eap} [if-needed] [list-name | default] [callin] [one-time] [optional] [eap]
no ppp authentication
Syntax Description
Defaults
PPP authentication is not enabled.
Command Modes
Interface Configuration
Command History
Usage Guidelines
To configure Cisco PDSN in compliance with the TIA/EIA/IS-835-B standard, you must configure the PDSN virtual template as follows:
ppp authentication chap pap optionalExamples
The following example configures virtual-template interface 4:
interface virtual-template 4ip unnumbered loopback0ppp authentication chap pap optionalRelated Commands
service cdma pdsn
To enable PDSN service, use the service cdma pdsn command in global configuration mode. To disable PDSN service, use the no form of this command.
service cdma pdsn
no service cdma pdsn
Syntax Description
This command has no arguments or keywords.
Defaults
No default behavior or values.
Command Modes
Global Configuration
Command History
Usage Guidelines
This command must be configured to enable CDMA PDSN on the router.
Examples
The following example enables PDSN service:
service cdma pdsnRelated Commands
show cdma pdsn pcf brief
Displays a table of all PCFs that have R-P tunnels to the PDSN.
show cdma pdsn session
Displays PDSN session information.
show cdma pdsn
To display the status and current configuration of the PDSN gateway, use the show cdma pdsn command in privileged EXEC mode.
show cdma pdsn
Syntax Description
This command has no keywords or arguments.
Defaults
No default keywords or arguments.
Command Modes
Privileged EXEC
Command History
Examples
The following example shows output from the show cdma pdsn command:
Router#show cdma pdsnPDSN software version 3.0, service is enabledA11 registration-update timeout 1 sec, retransmissions 5Mobile IP registration timeout 5 secA10 maximum lifetime allowed 1800 secGRE sequencing is onMaximum PCFs limit not setMaximum sessions limit not set (default 20000 maximum)SNMP failure history table size 100MSID Authentication is disabledIngress address filtering is disabledSending Agent Adv in case of IPCP Address Negotiation is disabledAllow CI_ADD option during IPCP Phase is disabledAging of idle users disabledRadius Disconnect Capability disabledClosed RP Capability not enabledNumber of pcfs connected 0,Number of pcfs 3GPP2-RP 0, Closed-RP 0,Number of sessions connected 0,Number of sessions 3GPP2-RP 0, Closed-RP 0,Number of sessions Active 0, Dormant 0,Number of sessions using HDLCoGRE 0, using PPPoGRE 0Simple IP flows 0, Mobile IP flows 0,Proxy Mobile IP flows 0, VPDN flows 0This example shows the new PPPoGRE counter statistics.
Router#show cdma pdsnPDSN software version 2.0, service is enabledA11 registration-update timeout 1 sec, retransmissions 5Mobile IP registration timeout 5 secA10 maximum lifetime allowed 65534 secGRE sequencing is onMaximum PCFs limit not setMaximum sessions limit not set (default 20000 maximum)SNMP failure history table size 100MSID Authentication is disabledIngress address filtering is disabledSending Agent Adv in case of IPCP Address Negotiation is disabledAllow CI_ADD option during IPCP Phase is disabledAging of idle users disabledRadius Disconnect Capability disabledClosed RP Capability not enabledNumber of pcfs connected 0,Number of sessions connected 0,Number of sessions using HDLCoGRE 0, using PPPoGRE 0Simple IP flows 0, Mobile IP flows 0,Proxy Mobile IP flows 0, VPDN flows 0The counter HDLCoGRE and PPPoGRE indicates number of sessions opened with AHDLC enabled and disabled respectively.
Router#show cdma pdsn sessionMobile Station ID IMSI 000000000000001PCF IP Address 13.1.102.17, PCF Session ID 1A10 connection time 00:00:07, registration lifetime 65534 secNumber of successful A11 re-registrations 0Remaining session lifetime 65526 secAlways-On not enabled for the userCurrent Access network ID 000D-0166-11Last airlink record received is Active Start, airlink is activeGRE protocol type is 0x880BGRE sequence number transmit 14, receive 0Using interface Virtual-Access2.1, status OPNService Option 1xEV-DOThis session has 1 flowFlow service Simple, NAI sip1Mobile Node IP address 11.112.1.0Packets in 0, bytes in 0Packets out 0, bytes out 0The GRE Protocol type field indicates if this is an PPPoGRE (0x880B) or HDLCoGRE (0x8881) session.
Cisco PDSN Release 3.0 adds the simple IPV6 information in the show output:
router# show cdma pdsnPDSN software version 3.0, service is enabledA11 registration-update timeout 1 sec, retransmissions 5Mobile IP registration timeout 60 secA10 maximum lifetime allowed 65535 secGRE sequencing is onMaximum PCFs limit not setMaximum sessions limit not set (default 20000 maximum)SNMP failure history table size 100MSID Authentication is disabledIngress address filtering is disabledSending Agent Adv in case of IPCP Address Negotiation is enabledAllow CI_ADD option during IPCP Phase is disabledAging of idle users disabledRadius Disconnect Capability disabledClosed RP Capability not enabledIPv6 feature enabledNumber of pcfs connected 1,Number of pcfs 3GPP2-RP 1, Closed-RP 0,Number of sessions connected 1,Number of sessions 3GPP2-RP 1, Closed-RP 0,Number of sessions Active 1, Dormant 0,Number of sessions using HDLCoGRE 1, using PPPoGRE 0Simple IP flows 1, Mobile IP flows 0,Proxy Mobile IP flows 0, VPDN flows 0router#Here is an example for the Cisco PDSN Release 3.5:
Router# show cdma pdsnPDSN software version 3.5, service is enabledA11 registration-update timeout 1 sec, retransmissions 5Mobile IP registration timeout 10 secA10 maximum lifetime allowed 65535 secGRE sequencing is onMaximum PCF's limit set to 2000Maximum sessions limit not set (default 974 maximum)SNMP failure history table size 100MSID Authentication is disabledIngress address filtering is disabledSending Agent Adv in case of IPCP Address Negotiation is enabledAllow CI_ADD option during IPCP Phase is disabledAging of idle users disabledRadius Disconnect Capability enabledNumber of pcfs connected 0,Number of pcfs 3GPP2-RP 0,Number of sessions connected 0,Number of sessions 3GPP2-RP 0,Number of sessions Active 0, Dormant 0,Number of sessions using HDLCoGRE 0, using PPPoGRE 0Here is an example for Cisco PDSN Release 4.0:
PDSN software version 4.0, service is enabledA11 registration-update timeout 1 sec, retransmissions 5A11 session-update timeout 3 sec, retransmissions 3Mobile IP registration timeout 300 secA10 maximum lifetime allowed 65535 secGRE sequencing is onMaximum PCFs limit not setMaximum sessions limit set to 10 (default 9950 maximum)SNMP failure history table size 100MSID Authentication is disabledIngress address filtering is disabled
Sending Agent Adv in case of IPCP Address Negotiation is enabledAllow CI_ADD option during IPCP Phase is disabledAging of idle users disabledRadius Disconnect Capability disabledMultiple Service flows enabledMaximum number of service-flows per MN allowed is 8Call Admission Control enabledPolice Downstream enabledNumber of pcfs connected 1,Number of pcfs 3GPP2-RP 1,Number of sessions connected 1,Number of sessions 3GPP2-RP 1,Number of sessions Active 1, Dormant 0,Number of sessions using HDLCoGRE 1, using PPPoGRE 0Number of sessions using Auxconnections 1, using Policing 1, using DSCP 1Number of service flows 1Simple IP flows 1, Mobile IP flows 0,Proxy Mobile IP flows 0, VPDN flows 0Here is an example for the PDSN 4.1 Release:
PDSN software version 4.0, service is enabledA11 registration-update timeout 1 sec, retransmissions 5A11 session-update timeout 3 sec, retransmissions 3Mobile IP registration timeout 5 secA10 maximum lifetime allowed 65535 secGRE sequencing is onMaximum PCFs limit not setMaximum sessions limit not set (default 25000 maximum)SNMP failure history table size 100MSID Authentication is disabledIngress address filtering is disabledSending Agent Adv in case of IPCP Address Negotiation is disabledAllow CI_ADD option during IPCP Phase is disabledAging of idle users disabledRadius Disconnect Capability disabledMultiple Service flows enabledMaximum number of service-flows per MN allowed is 7Call Admission Control disabledPolice Downstream disabledNumber of pcfs connected 1,Number of pcfs 3GPP2-RP 1,Number of sessions connected 1,Number of sessions 3GPP2-RP 1,Number of sessions Active 1, Dormant 0,Number of sessions using HDLCoGRE 1, using PPPoGRE 0Number of sessions using Auxconnections 1, using Policing 0, using DSCP 1Number of service flows 1,Number of sessions connected to VRF 0, ---> newSimple IP flows 1, Mobile IP flows 0,Proxy Mobile IP flows 0, VPDN flows 0show cdma pdsn accounting
To display the accounting information for all sessions and the corresponding flows, use the show cdma pdsn accounting command in privileged EXEC mode.
show cdma pdsn accounting
Syntax Description
This command has no keywords or arguments.
Defaults
No default keywords or arguments.
Command Modes
Privileged EXEC
Command History
12.2(2)XC
This command was introduced.
12.3(14)YX
IPV6 UDR show output was added.
12.4(15)XR5
New UDR show output is added.
Usage Guidelines
The counter names appear in abbreviated format.
Examples
The following example shows output from the show cdma pdsn accounting command:
router#show cdma pdsn accountingUDR for sessionsession ID: 1Mobile Station ID IMSI 123456789123457A - A1:123456789123457 A2:000100020003005 A3:C - C3:0D - D3:2.2.1.1 D4:000000000000E - E1:0000F - F1:0001 F2:0002 F5:003B F6:06 F7:07 F8:08F9:09 F10:0A F14:0E F15:0F16:10 F17:11 F18:12F19:13 F20:14 F22:16G - G3:0 G8:0 G9:1 G10:0 G11:0 G12:0G13:0 G14:225 G15:0 G16:0 G17:0I - I1:0 I4:0Y - Y2:1UDR for flowMobile Node IP address 20.2.0.0B - B1:20.2.0.0 B2:mwtcp-sip-basic-user1C - C1:1098 C2:240 C4:0D - D1:0.0.0.0F - F11:01 F12:00 F13:00G - G1:0 G2:0 G4:1219295403G22:0 G23:0 G24:0 G25:0 <-- newPackets- in:0 out:0UDR for IPFlow (new: Yes)Session ID : 2 Flow ID : 0x01 Direction : ForwardServing PCF (D3) 2.2.1.1C - C1:1095 C2:0 C5:2 C6:1 <-- newD - D3:2.2.1.1F - F1:0001 F2:0002 F5:003B F6:06 F7:07 F8:08F9:09 F10:0A F14:0EF16:10 F17:11 F18:12F19:13 F20:14 F22:16 F24:00G - G1:0 G2:0 G4:0 G8:0G9:1 G10:0 G11:0 G12:0 G13:0I - I1:0 I4:0 I5:00 01 00 01 00 01 64 64 64 0A 0A 64Y - Y2:2Release 3.0 includes the following IPv6 UDR information:
•
•
•
UDR for sessionsession ID: 1Mobile Station ID IMSI 00000000000101A - A1:00000000000101 A2:C - C3:0D - D3:4.0.0.1 D4:000000000000E - E1:0000F - F1:00F1 F2:00F2 F5:00F5 F6:F6 F7:F7 F8:F8 F9:F9 F10:FA F14:00 F15:0G - G3:0 G8:0 G9:1 G10:0 G11:0 G12:0 G13:0 G14:530 G15:0 G16:0I - I1:0 I4:0Y - Y2:1UDR for flowMobile Node IP address 2001:420:10:0:211:20FF:FE43:61CB - B2:mwts-uc1-np-user1 B3: 2001:420:10:0 B4: 211:20FF:FE43:61CC - C1:0011 C2:7 C4:0D - D1:0.0.0.0F - F11:01 F12:00 F13:00G - G1:0 G2:0 G4:1131720576Packets- in:0 out:0Here is an example from the PDSN 4.0 release that highlights the new UDR attributes:
UDR for sessionsession ID: 1Mobile Station ID IMSI 09884708942A - A1:09884708942 A2: A3:C - C3:0D - D3:2.2.2.4 D4:000000000000E - E1:0000F - F1:0000 F2:0000 F5:003B F6:00 F7:00 F8:00F9:00 F10:00 F14:00 F15:0F16:00 F17:00 F18:00F19:00 F20:00 F22:00G - G3:0 G8:0 G9:0 G10:0 G11:0 G12:0G13:0 G14:185 G15:0 G16:270 G17:0I - I1:0 I4:0Y - Y2:1UDR for flowMobile Node IP address 4.4.4.1B - B1:4.4.4.1 B2:arajeshkumarC - C1:001F C2:2 C4:0D - D1:0.0.0.0F - F11:01 F12:00 F13:00G - G1:0 G2:0 G4:1214286477G22:0 G23:0 G24:0 G25:0Packets- in:0 out:0UDR for IPFlow (new: Yes)Session ID : 1 Flow ID : 0x01 Direction : ForwardServing PCF (D3) 2.2.2.4C - C1:0017 C2:0 C5:1 C6:1D - D3:2.2.2.4F - F1:0000 F2:0000 F5:0000 F6:00 F7:00 F8:00F9:00 F10:00 F14:00F16:00 F17:00 F18:00F19:00 F20:00 F22:00 F24:00G - G1:0 G2:0 G4:0 G8:0G9:0 G10:0 G11:0 G12:0 G13:0I - I1:0 I4:0 I5:00 00 00 00 00 00 00 00 00 00 00 00Y - Y2:0Here is an example of the new UDR attributes from the PDSN 4.1 IOS 12.4(15)XR5 release:
UDR for sessionsession ID: 1Mobile Station ID IMSI 09884708943A - A1:09884708943 A2: A3:C - C3:0D - D3:2.2.2.6 D4:01234567890AD7:SNL 128SN 12340000000000000000000000000001 <--- newSID 12340000000000000000000000000001E - E1:03E9F - F1:00F1 F2:00F2 F5:003B F6:1F41 F7:2329 F8:3EAF9:7D2 F10:BB9 F14:FA1 F15:0F16:00 F17:00 F18:00F19:00 F20:00 F22:00G - G3:0 G8:0 G9:1 G10:0 G11:0 G12:0G13:0 G14:184 G15:0 G16:270 G17:0I - I1:0 I4:0Y - Y2:1UDR for flowMobile Node IP address 8.0.0.171B - B1:8.0.0.171 B2:arajeshkumarC - C1:004F C2:30 C4:0D - D1:0.0.0.0F - F11:01 F12:00 F13:00G - G1:0 G2:0 G4:1244702347G22:0 G23:0 G24:0 G25:0Packets- in:0 out:0UDR for IPFlow (new: Yes)Session ID : 2 Flow ID : 0x03 Direction : ForwardServing PCF (D3) 2.2.2.6C - C1:004C C2:0 C5:2 C6:3D - D3:2.2.2.6D7:SNL 128SN 12340000000000000000000000000001 <--- newSID 12340000000000000000000000000001F - F1:00F1 F2:00F2 F5:003B F6:1F41 F7:2329 F8:3EAF9:7D2 F10:BB9 F14:FA1F16:00 F17:00 F18:00F19:00 F20:00 F22:00 F24:00G - G1:0 G2:0 G4:0 G8:0G9:1 G10:0 G11:0 G12:0 G13:0I - I1:0 I4:0 I5:00 03 01 00 01 0A 01 0A 02 03 05 01Y - Y2:2UDR for IPFlow (new: Yes)Session ID : 2 Flow ID : 0x03 Direction : ReverseServing PCF (D3) 2.2.2.6C - C1:004A C2:0 C5:2 C6:3D - D3:2.2.2.6D7:SNL 128SN 12340000000000000000000000000001 <--- newSID 12340000000000000000000000000001F - F1:00F1 F2:00F2 F5:003B F6:1F41 F7:2329 F8:3EAF9:7D2 F10:BB9 F14:FA1F16:00 F17:00 F18:00F19:00 F20:00 F22:00 F24:00G - G1:0 G2:0 G4:0 G8:0G9:1 G10:0 G11:0 G12:0 G13:0I - I1:0 I4:0 I5:01 03 01 00 01 0A 01 0A 02 03 05 01Y - Y2:2show cdma pdsn accounting detail
To display accounting information for all sessions and the corresponding flows, and to display the counter names (along with the abbreviated names), use the show cdma pdsn accounting detail command in privileged EXEC mode.
show cdma pdsn accounting detail
Syntax Description
This command has no keywords or arguments.
Defaults
No default keywords or arguments.
Command Modes
Privileged EXEC
Command History
12.2(2)XC
This command was introduced.
12.4xx
This output has been enhanced to display the HRPD and IP Flow details.
12.4(15)XR5
New UDR show output is added.
Examples
The following example shows output from the show cdma pdsn accounting detail command:
router#show cdma pdsn accounting detailUDR for sessionsession ID: 1Mobile Station ID IMSI 123456789123457Mobile Station ID (A1) IMSI 123456789123457ESN (A2) 000100020003005MEID (A3)Session Continue (C3) ' ' 0Serving PCF (D3) 2.2.1.1 Base Station ID (D4) 000000000000User Zone (E1) 0000Forward Mux Option (F1) 1 Reverse Mux Option (F2) 2Service Option (F5) 59 Forward Traffic Type (F6) 6Reverse Traffix type (F7) 7 Fundamental Frame size (F8) 8Forward Fundamental RC (F9) 9 Reverse Fundamntal RC (F10) 10DCCH Frame Format (F14) 14 Always On (F15) 0Forward PDCH RC (F16) 16 Forward DCCH Mux (F17) 17Reverse DCCH Mux (F18) 18 Forward DCCH RC (F19) 19Reverse DCCH RC (F20) 20 Reverse PDCH RC (F22) 22Bad PPP Frame Count (G3) 0 Active Time (G8) 0Number of Active Transitions (G9) 1SDB Octet Count Terminating (G10) 0SDB Octet Count Originating (G11) 0Number of SDBs Terminating (G12) 0Number of SDBs Originating G13 0Number of HDLC Layer Bytes Received (G14) 225In-Bound Mobile IP Signalling Octet Count (G15) 0Out-bound Mobile IP Signalling Octet Count (G16) 0Last User Activity Time (G17) 0IP Quality of Service (I1) 0Airlink Quality of Service (I4) 0R-P Session ID (Y2) 1UDR for flowMobile Node IP address 20.2.0.0IP Address (B1) 20.2.0.0, Network Access Identifier (B2) mwtcp-sip-basic-user1Account Session ID (C1) 4248Correlation ID (C2) ' ' 240Beginning Session (C4) ' ' 0MIP Home Agent (D1) 0.0.0.0IP Technology (F11) 01 Compulsory Tunnel indicator (F12) 00Release Indicator (F13) 00Data Octet Count Terminating (G1) 0Data Octet Count Originating (G2) 0 Event Time G4:1219295403Rsvp Signaling Inbound Count (G22) 0 Outbound Count (G23) 0Rsvp Signaling Packets In (G24) 0 Packets Out (G25) 0Packets- in:0 out:0The following are new:
UDR for IPFlow (new: Yes)Session ID : 2 Flow ID : 0x01 Direction : ForwardAccount Session ID (C1) 1095 Correlation (C2) 0Service Reference ID (C5) 2 Flow ID (C6) 1Serving PCF (D3) 2.2.1.1Forward Mux Option (F1) 1 Reverse Mux Option (F2) 2Service Option (F5) 59 Forward Traffic Type (F6) 6Reverse Traffix type (F7) 7 Fundamental Frame size (F8) 8Forward Fundamental RC (F9) 9 Reverse Fundamntal RC (F10) 10DCCH Frame Format (F14) 14 Forward PDCH RC (F16) 16Forward DCCH Mux (F17) 17 Reverse DCCH Mux (F18) 18Forward DCCH RC (F19) 19 Reverse DCCH RC (F20) 20Reverse PDCH RC (F22) 22 Flow Status (F24) ActiveData Octet Count Terminating (G1) 0Data Octet Count Originating (G2) 0 Event Time G4:0Active Time (G8) 0Number of Active Transitions (G9) 1SDB Octet Count Terminating (G10) 0SDB Octet Count Originating (G11) 0Number of SDBs Terminating (G12) 0Number of SDBs Originating G13 0Granted Qos (I5):Flow direction :0 Flow ID :1Flow Profile ID :0Qos Attribute Set ID :1 Traffic Class :0Peak Rate :1 Bucket Size :100Token Rate :100 Maximum Latency :100Max IP Packet Loss Rate :10Packet Size :10 Delay Variance Sensitive :100IP Quality of Service (I1) 0Airlink Quality of Service (I4) 0R-P Session ID (Y2) 2Here is an example of the new UDR attributes from the PDSN 4.1 IOS 12.4(15)XR5 release:
UDR for sessionsession ID: 1Mobile Station ID IMSI 09884708943Mobile Station ID (A1) IMSI 09884708943ESN (A2)MEID (A3)Session Continue (C3) ' ' 0Serving PCF (D3) 2.2.2.6 Base Station ID (D4) 01234567890AHRPD Subnet:SNL 128SN 12340000000000000000000000000001 <--- newSID 12340000000000000000000000000001User Zone (E1) 03E9Forward Mux Option (F1) 241 Reverse Mux Option (F2) 242Service Option (F5) 59 Forward Traffic Type (F6) 8001Reverse Traffix type (F7) 9001 Fundamental Frame size (F8) 1002Forward Fundamental RC (F9) 2002 Reverse Fundamntal RC (F10) 3001DCCH Frame Format (F14) 4001 Always On (F15) 0Forward PDCH RC (F16) 0 Forward DCCH Mux (F17) 0Reverse DCCH Mux (F18) 0 Forward DCCH RC (F19) 0Reverse DCCH RC (F20) 0 Reverse PDCH RC (F22) 0Bad PPP Frame Count (G3) 0 Active Time (G8) 0Number of Active Transitions (G9) 1SDB Octet Count Terminating (G10) 0SDB Octet Count Originating (G11) 0Number of SDBs Terminating (G12) 0Number of SDBs Originating G13 0Number of HDLC Layer Bytes Received (G14) 184In-Bound Mobile IP Signalling Octet Count (G15) 0Out-bound Mobile IP Signalling Octet Count (G16) 270Last User Activity Time (G17) 0IP Quality of Service (I1) 0Airlink Quality of Service (I4) 0R-P Session ID (Y2) 1UDR for flowMobile Node IP address 8.0.0.171IP Address (B1) 8.0.0.171, Network Access Identifier (B2) arajeshkumarAccount Session ID (C1) 79Correlation ID (C2) ' ' 30Beginning Session (C4) ' ' 0MIP Home Agent (D1) 0.0.0.0IP Technology (F11) 01 Compulsory Tunnel indicator (F12) 00Release Indicator (F13) 00Data Octet Count Terminating (G1) 0Data Octet Count Originating (G2) 0 Event Time G4:1244702347Rsvp Signaling Inbound Count (G22) 0 Outbound Count (G23) 0Rsvp Signaling Packets In (G24) 0 Packets Out (G25) 0Packets- in:0 out:0UDR for IPFlow (new: Yes)Session ID : 2 Flow ID : 0x03 Direction : ForwardAccount Session ID (C1) 004C Correlation (C2) 0Service Reference ID (C5) 2 Flow ID (C6) 3Serving PCF (D3) 2.2.2.6HRPD Subnet:SNL 128SN 12340000000000000000000000000001 <--- newSID 12340000000000000000000000000001Forward Mux Option (F1) 241 Reverse Mux Option (F2) 242Service Option (F5) 59 Forward Traffic Type (F6) 8001Reverse Traffix type (F7) 9001 Fundamental Frame size (F8) 1002Forward Fundamental RC (F9) 2002 Reverse Fundamntal RC (F10) 3001DCCH Frame Format (F14) 4001 Forward PDCH RC (F16) 0Forward DCCH Mux (F17) 0 Reverse DCCH Mux (F18) 0Forward DCCH RC (F19) 0 Reverse DCCH RC (F20) 0Reverse PDCH RC (F22) 0 Flow Status (F24) ActiveData Octet Count Terminating (G1) 0Data Octet Count Originating (G2) 0 Event Time G4:0Active Time (G8) 0Number of Active Transitions (G9) 1SDB Octet Count Terminating (G10) 0SDB Octet Count Originating (G11) 0Number of SDBs Terminating (G12) 0Number of SDBs Originating G13 0Granted Qos (I5):Flow direction :0 Flow ID :3Qos Attribute Set ID :1Flow Profile ID :0 Traffic Class :1Peak Rate :10 Bucket Size :1Token Rate :10 Maximum Latency :2Max IP Packet Loss Rate :3Packet Size :5 Delay Variance Sensitive :1IP Quality of Service (I1) 0Airlink Quality of Service (I4) 0R-P Session ID (Y2) 2UDR for IPFlow (new: Yes)Session ID : 2 Flow ID : 0x03 Direction : ReverseAccount Session ID (C1) 004A Correlation (C2) 0Service Reference ID (C5) 2 Flow ID (C6) 3Serving PCF (D3) 2.2.2.6HRPD Subnet:SNL 128SN 12340000000000000000000000000001 <--- newSID 12340000000000000000000000000001Forward Mux Option (F1) 241 Reverse Mux Option (F2) 242Service Option (F5) 59 Forward Traffic Type (F6) 8001Reverse Traffix type (F7) 9001 Fundamental Frame size (F8) 1002Forward Fundamental RC (F9) 2002 Reverse Fundamntal RC (F10) 3001DCCH Frame Format (F14) 4001 Forward PDCH RC (F16) 0Forward DCCH Mux (F17) 0 Reverse DCCH Mux (F18) 0Forward DCCH RC (F19) 0 Reverse DCCH RC (F20) 0Reverse PDCH RC (F22) 0 Flow Status (F24) ActiveData Octet Count Terminating (G1) 0Data Octet Count Originating (G2) 0 Event Time G4:0Active Time (G8) 0Number of Active Transitions (G9) 1SDB Octet Count Terminating (G10) 0SDB Octet Count Originating (G11) 0Number of SDBs Terminating (G12) 0Number of SDBs Originating G13 0Granted Qos (I5):Flow direction :1 Flow ID :3Qos Attribute Set ID :1Flow Profile ID :0 Traffic Class :1Peak Rate :10 Bucket Size :1Token Rate :10 Maximum Latency :2Max IP Packet Loss Rate :3Packet Size :5 Delay Variance Sensitive :1IP Quality of Service (I1) 0Airlink Quality of Service (I4) 0R-P Session ID (Y2) 2show cdma pdsn accounting session
To display the accounting information for the session identified by the msid, and the accounting information for the flows tied to the session, use the show cdma pdsn accounting session command in privileged EXEC mode.
show cdma pdsn accounting session msid
Syntax Description
Defaults
No default keywords or arguments.
Command Modes
Privileged EXEC
Command History
12.2(2)XC
This command was introduced.
12.4(15)XR5
New UDR show output is added.
Usage Guidelines
The counter names appear in abbreviated format.
Examples
The following example shows output from the show cdma pdsn accounting session command:
router#show cdma pdsn accounting session <sipuser> ?detail detailed accounting information by MSIDflow flow id for sessionip-flow IP flow id for session| Output modifiers<cr>show cdma pdsn accounting session <sipuser> ip-flow ?<1-255> IP flow id for sessionshow cdma pdsn accounting session <sipuser> ip-flow 5 ?direction Direction of the IP flow<cr>show cdma pdsn accounting session <sipuser> ip-flow 5 direction ?forward Forward IP Flow accounting detailsreverse Reverse IP Flow accounting detailsshow cdma pdsn accounting session <sipuser> ip-flow 5 direction forward ?<cr>show cdma pdsn accounting session <sipuser> ip-flow 5UDR for IPFlow (new: Yes)Session ID : 0 Flow ID : 0x05 Direction : ForwardServing PCF (D3) 80.0.0.20C - C1:0010 C2:16D - D3:80.0.0.20 D7:00000000F - F1:0000 F2:0000 F5:0000 F6:00 F7:00 F8:00F9:00 F10:00 F14:00 F16:00 F17:00 F18:00F19:00 F20:00 F22:00 F24:0000G - G1:0 G2:0 G4:0 G8:0G9:0 G10:0 G11:0 G12:0 G13:0I - I1:0 I4:0Y - Y2:0show cdma pdsn accountingUDR for sessionsession ID: 1Mobile Station ID IMSI 123455432112346A - A1: A2: A3:C - C3:0 C5: C6:D - D3:0.0.0.0 D4: D8:E - E1:0000F - F1:0000 F2:0000 F5:0000 F6:00 F7:00 F8:00F9:00 F10:00 F14:00 F15:0G - G3:0 G8:0 G9:0 G10:0 G11:0 G12:0 G13:0 G14:173 G15:0 G16:162I - I1:0 I4:0 I5:Y - Y2:0UDR for flowMobile Node IP address 32.1.35.204B - B1:32.1.35.204 B2:gSIP1@xxx.comC - C1:25A5CA3 C2:13158870 C4:0D - D1:0.0.0.0F - F11:01 F12:00 F13:00G - G1:0 G2:0 G4:1173256572 G20: G21: G22: G23: G24: G25:Packets- in:0 out:0The following session details are new
UDR for IPFlow (new: Yes)Session ID : 0 Flow ID : 0x05 Direction : ForwardServing PCF (D3) 80.0.0.20C - C1:0010 C2:16D - D3:80.0.0.20F - F1:0000 F2:0000 F5:0000 F6:00 F7:00 F8:00F9:00 F10:00 F14:00 F16:00 F17:00 F18:00F19:00 F20:00 F22:00 F24:0000G - G1:0 G2:0 G4:0 G8:0G9:0 G10:0 G11:0 G12:0 G13:0I - I1:0 I4:0Y - Y2:0Here is an example of the new UDR attributes from the PDSN 4.1 IOS 12.4(15)XR5 release:
UDR for sessionsession ID: 1Mobile Station ID IMSI 09884708943A - A1:09884708943 A2: A3:C - C3:0D - D3:2.2.2.6 D4:01234567890AD7:SNL 128SN 12340000000000000000000000000001 <--- newSID 12340000000000000000000000000001E - E1:03E9F - F1:00F1 F2:00F2 F5:003B F6:1F41 F7:2329 F8:3EAF9:7D2 F10:BB9 F14:FA1 F15:0F16:00 F17:00 F18:00F19:00 F20:00 F22:00G - G3:0 G8:0 G9:1 G10:0 G11:0 G12:0G13:0 G14:184 G15:0 G16:270 G17:0I - I1:0 I4:0Y - Y2:1UDR for flowMobile Node IP address 8.0.0.171B - B1:8.0.0.171 B2:arajeshkumarC - C1:004F C2:30 C4:0D - D1:0.0.0.0F - F11:01 F12:00 F13:00G - G1:0 G2:0 G4:1244702347G22:0 G23:0 G24:0 G25:0Packets- in:0 out:0UDR for IPFlow (new: Yes)Session ID : 2 Flow ID : 0x03 Direction : ForwardServing PCF (D3) 2.2.2.6C - C1:004C C2:0 C5:2 C6:3D - D3:2.2.2.6D7:SNL 128SN 12340000000000000000000000000001 <--- newSID 12340000000000000000000000000001F - F1:00F1 F2:00F2 F5:003B F6:1F41 F7:2329 F8:3EAF9:7D2 F10:BB9 F14:FA1F16:00 F17:00 F18:00F19:00 F20:00 F22:00 F24:00G - G1:0 G2:0 G4:0 G8:0G9:1 G10:0 G11:0 G12:0 G13:0I - I1:0 I4:0 I5:00 03 01 00 01 0A 01 0A 02 03 05 01Y - Y2:2UDR for IPFlow (new: Yes)Session ID : 2 Flow ID : 0x03 Direction : ReverseServing PCF (D3) 2.2.2.6C - C1:004A C2:0 C5:2 C6:3D - D3:2.2.2.6D7:SNL 128SN 12340000000000000000000000000001 <--- newSID 12340000000000000000000000000001F - F1:00F1 F2:00F2 F5:003B F6:1F41 F7:2329 F8:3EAF9:7D2 F10:BB9 F14:FA1F16:00 F17:00 F18:00F19:00 F20:00 F22:00 F24:00G - G1:0 G2:0 G4:0 G8:0G9:1 G10:0 G11:0 G12:0 G13:0I - I1:0 I4:0 I5:01 03 01 00 01 0A 01 0A 02 03 05 01Y - Y2:2show cdma pdsn accounting session detail
To display the accounting information (with counter names) for the session identified by the msid, and the accounting information for the flows tied to the session, use the show cdma pdsn accounting session detail command in privileged EXEC mode.
show cdma pdsn accounting session msid detail
Syntax Description
Defaults
No default keywords or arguments.
Command Modes
Privileged EXEC
Command History
12.2(2)XC
This command was introduced.
12.4(15)XR5
New UDR show output is added.
Usage Guidelines
The counter names appear in abbreviated format.
Examples
The following example shows output from the show cdma pdsn accounting session detail command:
router#sh cdma pdsn accounting session 00000000004 detailUDR for sessionsession ID: 3Mobile Station ID IMSI 00000000004Mobile Station ID (A1) IMSI 00000000004Session Continue (C3) ' ' 0Serving PCF (D3) 4.0.0.1 Base Station ID (D4) 000000000000User Zone (E1) 0000Forward Mux Option (F1) 241 Reverse Mux Option (F2) 242Service Option (F5) 245 Forward Traffic Type (F6) 246Reverse Traffix type (F7) 247 Fundamental Frame size (F8) 248Forward Fundamental RC (F9) 249 Reverse Fundamntal RC (F10) 250DCCH Frame Format (F14) 0Bad PPP Frame Count (G3) 0 Active Time (G8) 0Number of Active Transitions (G9) 0SDB Octet Count Terminating (G10) 0SDB Octet Count Originating (G11) 0Number of SDBs Terminating (G12) 0Number of SDBs Originating G13 0Number of HDLC Layer Bytes Received (G14) 241In-Bound Mobile IP Signalling Octet Count (G15) 0Out-bound Mobile IP Signalling Octet Count (G16) 0IP Quality of Service (I1) 0Airlink Quality of Service (I4) 0R-P Session ID (Y2) 3UDR for flowMobile Node IP address 6.0.0.14IP Address (B1) 6.0.0.14, Network Access Identifier (B2)mwt10-sip-user1Correlation ID (C2) ' ' 40MIP Home Agent (D1) 0.0.0.0IP Technology (F11) 01 Compulsory Tunnel indicator (F12) 00Release Indicator (F13) 00Data Octet Count Terminating (G1) 0Data Octet Count Originating (G2) 0 Event Time G4:1023906826Packets- in:0 out:0Here is show output for the show cdma pdsn accounting session detail command in the PDSN 4.0 Release:
UDR for sessionsession ID: 1Mobile Station ID IMSI 123455432112346Mobile Station ID (A1) IMSIESN (A2)MEID (A3)Session Continue (C3) ' ' 0Service Ref ID (C5)Flow ID (C6)Serving PCF (D3) 0.0.0.0 Base Station ID (D4)Carrier-ID (D8)User Zone (E1) 0000Forward Mux Option (F1) 0 Reverse Mux Option (F2) 0Service Option (F5) 0 Forward Traffic Type (F6) 0Reverse Traffic type (F7) 0 Fundamental Frame size (F8) 0Forward Fundamental RC (F9) 0 Reverse Fundamental RC (F10) 0DCCH Frame Format (F14) 0 Always On (F15) 0Bad PPP Frame Count (G3) 0 Active Time (G8) 0Number of Active Transitions (G9) 0SDB Octet Count Terminating (G10) 0SDB Octet Count Originating (G11) 0Number of SDBs Terminating (G12) 0Number of SDBs Originating G13 0Number of HDLC Layer Bytes Received (G14) 173In-Bound Mobile IP Signaling Octet Count (G15) 0Out-bound Mobile IP Signaling Octet Count (G16) 162IP Quality of Service (I1) 0Airlink Quality of Service (I4) 0Granted QoS (I5)R-P Session ID (Y2) 0UDR for flowMobile Node IP address 32.1.35.204IP Address (B1) 32.1.35.204, Network Access Identifier (B2)gSIP1@xxx.com <mailto:gSIP1@xxx.com>Correlation ID (C2) ' ' 13158870Beginning Session (C4) ' ' 0MIP Home Agent (D1) 0.0.0.0IP Technology (F11) 01 Compulsory Tunnel indicator (F12) 00Release Indicator (F13) 00Data Octet Count Terminating (G1) 0Data Octet Count Originating (G2) 0 Event Time G4:1173256572Filtered Octet count Terminating (G20)Filtered Octet count Originating (G21)Packets- in:0 out:0<Following are new>UDR for IPFlow (new: Yes)Session ID : 0 Flow ID : 0x05 Direction : ForwardServing PCF (D3) 80.0.0.20HRPD Subnet (D7):Subnet : 0 | 0 | 0 | 0Sector ID : 0 | 0 | 0 | 0Forward Mux Option (F1) 0 Reverse Mux Option (F2) 0Service Option (F5) 0 Forward Traffic Type (F6) 0Reverse Traffix type (F7) 0 Fundamental Frame size (F8) 0Forward Fundamental RC (F9) 0 Reverse Fundamntal RC (F10) 0DCCH Frame Format (F14) 0 Flow Status (F24) 0000Forward PDCH RC (F16) 0 Forward DCCH Mux Option (F17) 0Reverse DCCH Mux Option (F18) 0 Forward DCCH RC (F19) 0Reverse DCCH RC (F20) 0 Reverse PDCH RC (F22) 0Active Time (G8) 0Number of Active Transitions (G9) 0SDB Octet Count Terminating (G10) 0SDB Octet Count Originating (G11) 0Number of SDBs Terminating (G12) 0Number of SDBs Originating G13 0Granted Qos:Flow direction :0 Flow ID :0Qos Attribute ID :0 Flow Profile ID :0Qos Attribute Set ID :0 Traffic Class :0Peak Rate :0 Bucket Size :0Token Rate :0 Maximum Latency :0Max IP Packet Loss Rate :0Packet Size :0 Delay Variance Sensitive :0IP Quality of Service (I1) 0RSVP Signaling Octets Inbound (G22)RSVP Signaling Octets Outbound (G23)RSVP Signaling Packets Inbound (G24)RSVP Signaling Packets Outbound (G25)Airlink Quality of Service (I4) 0R-P Session ID (Y2) 0Here is an example of the new UDR attributes from the PDSN 4.1 IOS 12.4(15)XR5 release:
UDR for sessionsession ID: 1Mobile Station ID IMSI 09884708943Mobile Station ID (A1) IMSI 09884708943ESN (A2)MEID (A3)Session Continue (C3) ' ' 0Serving PCF (D3) 2.2.2.6 Base Station ID (D4) 01234567890AHRPD Subnet:SNL 128SN 12340000000000000000000000000001 <--- newSID 12340000000000000000000000000001User Zone (E1) 03E9Forward Mux Option (F1) 241 Reverse Mux Option (F2) 242Service Option (F5) 59 Forward Traffic Type (F6) 8001Reverse Traffix type (F7) 9001 Fundamental Frame size (F8) 1002Forward Fundamental RC (F9) 2002 Reverse Fundamntal RC (F10) 3001DCCH Frame Format (F14) 4001 Always On (F15) 0Forward PDCH RC (F16) 0 Forward DCCH Mux (F17) 0Reverse DCCH Mux (F18) 0 Forward DCCH RC (F19) 0Reverse DCCH RC (F20) 0 Reverse PDCH RC (F22) 0Bad PPP Frame Count (G3) 0 Active Time (G8) 0Number of Active Transitions (G9) 1SDB Octet Count Terminating (G10) 0SDB Octet Count Originating (G11) 0Number of SDBs Terminating (G12) 0Number of SDBs Originating G13 0Number of HDLC Layer Bytes Received (G14) 184In-Bound Mobile IP Signalling Octet Count (G15) 0Out-bound Mobile IP Signalling Octet Count (G16) 270Last User Activity Time (G17) 0IP Quality of Service (I1) 0Airlink Quality of Service (I4) 0R-P Session ID (Y2) 1UDR for flowMobile Node IP address 8.0.0.171IP Address (B1) 8.0.0.171, Network Access Identifier (B2) arajeshkumarAccount Session ID (C1) 79Correlation ID (C2) ' ' 30Beginning Session (C4) ' ' 0MIP Home Agent (D1) 0.0.0.0IP Technology (F11) 01 Compulsory Tunnel indicator (F12) 00Release Indicator (F13) 00Data Octet Count Terminating (G1) 0Data Octet Count Originating (G2) 0 Event Time G4:1244702347Rsvp Signaling Inbound Count (G22) 0 Outbound Count (G23) 0Rsvp Signaling Packets In (G24) 0 Packets Out (G25) 0Packets- in:0 out:0UDR for IPFlow (new: Yes)Session ID : 2 Flow ID : 0x03 Direction : ForwardAccount Session ID (C1) 004C Correlation (C2) 0Service Reference ID (C5) 2 Flow ID (C6) 3Serving PCF (D3) 2.2.2.6HRPD Subnet:SNL 128SN 12340000000000000000000000000001 <--- newSID 12340000000000000000000000000001Forward Mux Option (F1) 241 Reverse Mux Option (F2) 242Service Option (F5) 59 Forward Traffic Type (F6) 8001Reverse Traffix type (F7) 9001 Fundamental Frame size (F8) 1002Forward Fundamental RC (F9) 2002 Reverse Fundamntal RC (F10) 3001DCCH Frame Format (F14) 4001 Forward PDCH RC (F16) 0Forward DCCH Mux (F17) 0 Reverse DCCH Mux (F18) 0Forward DCCH RC (F19) 0 Reverse DCCH RC (F20) 0Reverse PDCH RC (F22) 0 Flow Status (F24) ActiveData Octet Count Terminating (G1) 0Data Octet Count Originating (G2) 0 Event Time G4:0Active Time (G8) 0Number of Active Transitions (G9) 1SDB Octet Count Terminating (G10) 0SDB Octet Count Originating (G11) 0Number of SDBs Terminating (G12) 0Number of SDBs Originating G13 0Granted Qos (I5):Flow direction :0 Flow ID :3Qos Attribute Set ID :1Flow Profile ID :0 Traffic Class :1Peak Rate :10 Bucket Size :1Token Rate :10 Maximum Latency :2Max IP Packet Loss Rate :3Packet Size :5 Delay Variance Sensitive :1IP Quality of Service (I1) 0Airlink Quality of Service (I4) 0R-P Session ID (Y2) 2UDR for IPFlow (new: Yes)Session ID : 2 Flow ID : 0x03 Direction : ReverseAccount Session ID (C1) 004A Correlation (C2) 0Service Reference ID (C5) 2 Flow ID (C6) 3Serving PCF (D3) 2.2.2.6HRPD Subnet:SNL 128SN 12340000000000000000000000000001 <--- newSID 12340000000000000000000000000001Forward Mux Option (F1) 241 Reverse Mux Option (F2) 242Service Option (F5) 59 Forward Traffic Type (F6) 8001Reverse Traffix type (F7) 9001 Fundamental Frame size (F8) 1002Forward Fundamental RC (F9) 2002 Reverse Fundamntal RC (F10) 3001DCCH Frame Format (F14) 4001 Forward PDCH RC (F16) 0Forward DCCH Mux (F17) 0 Reverse DCCH Mux (F18) 0Forward DCCH RC (F19) 0 Reverse DCCH RC (F20) 0Reverse PDCH RC (F22) 0 Flow Status (F24) ActiveData Octet Count Terminating (G1) 0Data Octet Count Originating (G2) 0 Event Time G4:0Active Time (G8) 0Number of Active Transitions (G9) 1SDB Octet Count Terminating (G10) 0SDB Octet Count Originating (G11) 0Number of SDBs Terminating (G12) 0Number of SDBs Originating G13 0Granted Qos (I5):Flow direction :1 Flow ID :3Qos Attribute Set ID :1Flow Profile ID :0 Traffic Class :1Peak Rate :10 Bucket Size :1Token Rate :10 Maximum Latency :2Max IP Packet Loss Rate :3Packet Size :5 Delay Variance Sensitive :1IP Quality of Service (I1) 0Airlink Quality of Service (I4) 0R-P Session ID (Y2) 2show cdma pdsn accounting session flow
To display the accounting information for a specific flow that is associated with the session identified by the msid, use the show cdma pdsn accounting session flow command in privileged EXEC mode.
show cdma pdsn accounting session msid flow {mn-ip-address IP_address}
Syntax Description
msid
The ID number of the mobile subscriber.
mn-ip-address ip_address
Specifies the IP addresses assigned to the mobile numbers in each session.
Defaults
No default keywords or arguments.
Command Modes
Privileged EXEC
Command History
Usage Guidelines
The counter names appear in abbreviated format.
Examples
The following example shows output from the show cdma pdsn accounting session flow command:
PDSN-6500#show cdma pdsn accounting session 00000000004 flowmn-ip-address 6.0.0.14UDR for flowMobile Node IP address 6.0.0.14B - B1:6.0.0.14 B2:mwt10-sip-user1C - ' 'C2:40D - D1:0.0.0.0F - F11:01 F12:00 F13:00G - G1:0 G2:0 G4:1023906826Packets- in:0 out:0PDSN-6500#show cdma pdsn accounting session flow user
To display accounting information for a flow with username that is associated with the session identified by the msid, use the show cdma pdsn accounting session flow user command in privileged EXEC mode.
show cdma pdsn accounting session msid flow user username
Syntax Description
Defaults
No default keywords or arguments.
Command Modes
Privileged EXEC
Command History
Examples
The following example shows output from the show cdma pdsn accounting session flow user command:
router#show cdma pdsn accounting session 123451234512357 flow usermwts-mip-p1-user121@ispxyz.comUDR for flowMobile Node IP address 15.0.0.3B - B1:15.0.0.3 B2:mwts-mip-p1-user121@ispxyz.comC - ' 'C2:36D - D1:0.0.0.0F - F11:02 F12:01 F13:00G - G1:0 G2:0 G4:1023906326Packets- in:0 out:0router#show cdma pdsn ahdlc
To display AHDLC engine information, use the show cdma pdsn ahdlc command in privileged EXEC mode.
show cdma pdsn ahdlc slot_number channel [channel_id]
Syntax Description
Defaults
No default keywords or arguments.
Command Modes
Privileged EXEC
Command History
12.2(2)XC
This command was introduced.
12.2(8)BY
The possible values for channel ID were extended to 20000.
12.4(15)xx
The possible values for channel ID were extended to 75000.
Examples
The following example shows output from the show cdma pdsn ahdlc command:
Router# show cdma pdsn ahdlc 0 channelCh id State Framing ACCM Deframing ACCM FCS size12 OPENED 00000000 00000000 1613 OPENED 00000000 00000000 1614 OPENED 00000000 00000000 16Router# show cdma pdsn ahdlc 0 channel 12Channel id = 12 State = OPENED Framing ACCM = 00000000Deframing ACCM = 00000000 FCS size = 16Framing input 153 bytes 7 paksFraming output 242 bytes 7 paks 0 errorsDeframing input 181 bytes 9 paksDeframing output 121 bytes 5 paks 0 errors0 Bad FCS 0 Escaped endshow cdma pdsn cac
To display various call admission control parameters and their status, use the show cdma pdsn cac command in Privileged EXEC mode.
Syntax Description
There are no keywords or arguments for this command.
Defaults
There are no default values.
Command Modes
Privileged EXEC
Command History
Usage Guidelines
Examples
Here is an example of the show cdma pdsn cac command:
router# show cdma pdsn cac
Total configured bandwidth 180000 b
Allocated bandwidth 0 b
Available bandwidth 180000 b
CPU Current 0 Threshold 90
Memory Processor Current 0 Threshold 90
IO Current 0 Threshold 90
show cdma pdsn cluster controller
To display configuration and statistics for the PDSN cluster controller, use the show cdma pdsn cluster controller command in privileged EXEC mode.
show cdma pdsn cluster controller {closed rp | configuration | member | queueing | session | statistics}
Syntax Description
Defaults
No default keywords or arguments.
Command Modes
Privileged EXEC
Command History
Examples
The following example shows output from the show cdma pdsn cluster controller command:
Router# show cdma pdsn cluster controller sessionshow cdma pdsn cluster controller configuration
To display the IP addresses of the members that registered with a specific controller, use the show cdma pdsn cluster controller configuration command in privileged EXEC mode.
show cdma pdsn cluster controller configuration
Syntax Description
There are no arguments or keywords for this command.
Defaults
No default keywords or arguments.
Command Modes
Privileged EXEC
Command History
Examples
The following example shows output from the show cdma pdsn cluster controller configuration command:
Router# show cdma pdsn cluster controller configurationsh cdma pdsn cluster controller configcluster interface FastEthernet0/0no R-P signaling proxytimeout to seek member = 10 secondswindow to seek member is 2 timeouts in a row if no reply (afterwards the member is declared offline)this PDSN cluster controller is configuredcontroller redundancy:database in-sync or no need to syncgroup: sit_cluster1show cdma pdsn cluster controller member
To display detailed information about a specific cluster controller member, use the show cdma pdsn cluster controller member command in privileged EXEC mode.
show cdma pdsn cluster controller member ipaddr [session | load | prohibited]
Syntax Description
Defaults
No default keywords or arguments.
Command Modes
Privileged EXEC
Command History
12.2(8)BY
This command was introduced.
12.3(8)XW
The session keyword was added.
Examples
The following example shows output from the show cdma pdsn cluster controller member command:
Router# show cdma pdsn cluster controller member 1.2.3.4 sessionSession Rec ID: 00000100003 Member-Ack received: TRUE Age: 24 secsSession Rec ID: 00000100004 Member-Ack received: TRUE Age: 24 secsSession Rec ID: 00000100005 Member-Ack received: TRUE Age: 24 secsshow cdma pdsn cluster controller session
To display session count, or count by age, or one or a few oldest session records, or a session records corresponding to the IMSI entered and a few session records that arrived afterwards, use the show cdma pdsn cluster controller session command in privileged EXEC mode.
show cdma pdsn cluster controller session {count [age days] | oldest [more 1-20 records] | imsi BCDs [more 1-20 records]}
Syntax Description
Defaults
No default keywords or arguments.
Command Modes
Privileged EXEC
Command History
Examples
The following example shows output from the show cdma pdsn cluster controller session command:
Router# show cdma pdsn clu contr session imsi 00000000007IMSI Member IPv4 Addr Age [days] Anchor changes----------------------------------------------------------------00000000007 10.0.0.50----------------------------------------------------------------Router# show cdma pdsn clu contr session count10 session recordsRouter# show cdma pdsn clu contr session oldestIMSI Member IPv4 Addr Age [days] Anchor changes----------------------------------------------------------------00000000002 10.0.0.50----------------------------------------------------------------show cdma pdsn cluster controller statistics
To display the IP addresses of the members that registered with a specific controller, and to include new information that displays RRQ's forwarded from the controller for which there was no Session-Up/ Session-Down message received from the member, use the show cdma pdsn cluster controller statistics command in privileged EXEC mode.
show cdma pdsn cluster controller statistics
Syntax Description
There are no arguments or keywords for this command.
Defaults
No default keywords or arguments.
Command Modes
Privileged EXEC
Command History
Examples
The following example shows output from the show cdma pdsn controller statistics command:
Router# show cdma pdsn cluster controller statisticsSample Output:Controller-Member Interface:Cluster Reg Request rcvd 12, accepted 3, discarded 9Cluster Reg Request sent 0Cluster Reg Reply rcvd 0, accepted 0, discarded 0Cluster Reg message errors:Reg Request rcvd: Authentication failed 0, ID mismatch 9Unrecognized extension 0, Unrecognized application type 0Unrecognized data type 0Reg Reply rcvd: Authentication failed 0, ID mismatch 0Unrecognized extension 0Reg Req not sent: Interface cdma-Ix not configured 0Invalid Reg message type 0Controller seek requests rcvd 3, replies sent 3Member seek requests sent 0, replies rcvd 0Member state transition msgs rcvd 0, replies sent 0ready 0, Administratively prohibited 0Total A11 Reg Requests forwarded 0A11 Reg Requests orig forwarded 0, retry forwarded 0Session-Up from member 0, Session-Down from member 0No Acknowledgement from member 0Controller Redundancy Interface:Update rcvd 0 sent 6 orig sent 3 fail 0UpdateAck rcvd 1 sent 0DownloadReq rcvd 0 sent 11 orig sent 10 fail 0DownloadReply rcvd 11 sent 0 orig sent 0 fail 0 drop 0DownloadAck rcvd 0 sent 11 drop 0Errors: Authentication failed 0 ID mismatch 0Ignored due to no redundancy configuration 0show cdma pdsn cluster member
To display configuration and statistics for the PDSN cluster member, including information about RRQs forwarded to the controller member, use the show cdma pdsn cluster member command in privileged EXEC mode.
show cdma pdsn cluster member {configuration | queueing | statistics}
Syntax Description
Defaults
No default keywords or arguments.
Command Modes
Privileged EXEC
Command History
Examples
The following example shows output from the show cdma pdsn cluster member command:
Router# show cdma pdsn cluster member statisticsSample Output:Controller-Member Interface:Cluster Reg Request rcvd 10, accepted 10, discarded 0Cluster Reg Request sent 23Cluster Reg Reply rcvd 11, accepted 11, discarded 0Cluster Reg message errors:Reg Request rcvd: Authentication failed 0, ID mismatch 0Unrecognized extension 0, Unrecognized application type 0Unrecognized data type 0Reg Reply rcvd: Authentication failed 0, ID mismatch 0Unrecognized extension 0Reg Req not sent: Interface cdma-Ix not configured 0Invalid Reg message type 0Controller seek requests rcvd 10, replies sent 10Member seek requests sent 23, replies rcvd 11Member state transition msgs sent 0, replies rcvd 0ready 0, Administratively prohibited 0Session-Up msg sent 0, Session-Down msg sent 0Session-Up msg Ack rcvd 0, Session-Down msg Ack rcvd 0Controller seek not replied in sequence 0Member state not replied in sequence 0show cdma pdsn flow
To display flow-based summary of active sessions, and the flows and IP addresses assigned to the mobile numbers in each session, use the show cdma pdsn flow command in privileged EXEC mode.
show cdma pdsn flow {mn-ip-address ip_address | mn-ipv6-address address | prepaid | msid string | service-type | user string}
Syntax Description
Defaults
No default keywords or arguments.
Command Modes
Privileged EXEC
Command History
12.2(8)BY
This command was introduced.
12.3(14)YX
mn-ipv6-address output was introduced.
Examples
The following example shows output from the show cdma pdsn flow command:
Router# show cdma pdsn flowMSID NAI Type MN IP Address St100000000000099 sim1 Simple 100.4.1.1 ACT200000000000047 sim1 Simple 100.4.1.2 ACT100000000000100 sim1 Simple 100.4.1.40 ACT200000000000048 sim1 Simple 100.4.1.3 ACT100000000000101 sim1 Simple 100.4.1.5 ACT200000000000049 sim1 Simple 100.4.1.4 ACT100000000000102 sim1 Simple 100.4.1.6 ACT200000000000050 sim1 Simple 100.4.1.7 ACT100000000000103 sim1 Simple 100.4.1.9 ACT200000000000051 sim1 Simple 100.4.1.8 ACT100000000000104 sim1 Simple 100.4.1.11 ACT200000000000052 sim1 Simple 100.4.1.10 ACT100000000000105 sim1 Simple 100.4.1.12 ACT200000000000053 sim1 Simple 100.4.1.13 ACT300000000000008 sim1 Simple 100.4.1.14 ACT100000000000106 sim1 Simple 100.4.1.15 ACT200000000000054 sim1 Simple 100.4.1.16 ACT300000000000009 sim1 Simple 100.4.1.17 ACT100000000000107 sim1 Simple 100.4.1.19 ACT200000000000055 sim1 Simple 100.4.1.18 ACT100000000000122 sim1 Simple 100.4.1.21 ACT200000000000070 sim1 Simple 100.4.1.20 ACT300000000000025 sim1 Simple 100.4.1.22 ACT100000000000123 sim1 Simple 100.4.1.24 ACT200000000000071 sim1 Simple 100.4.1.23 ACT300000000000026 sim1 Simple 100.4.1.25 ACT100000000000124 sim1 Simple 100.4.1.26 ACT200000000000072 sim1 Simple 100.4.1.27 ACT300000000000027 sim1 Simple 100.4.1.28 ACT100000000000125 sim1 Simple 100.4.1.29 ACT200000000000073 sim1 Simple 100.4.1.30 ACT300000000000028 sim1 Simple 100.4.1.31 ACT100000000000126 sim1 Simple 100.4.1.33 ACT200000000000074 sim1 Simple 100.4.1.32 ACT300000000000029 sim1 Simple 100.4.1.34 ACT100000000000127 sim1 Simple 100.4.1.36 ACT200000000000075 sim1 Simple 100.4.1.35 ACT300000000000030 sim1 Simple 100.4.1.37 ACT100000000000128 sim1 Simple 100.4.1.39 ACT200000000000076 sim1 Simple 100.4.1.38 ACT300000000000101 sim1 Simple 100.4.1.41 ACT100000000000199 sim1 Simple 100.4.1.43 ACT200000000000147 sim1 Simple 100.4.1.42 ACT300000000000102 sim1 Simple 100.4.1.44 ACT100000000000200 sim1 Simple 100.4.1.46 ACT--More--A new option, mn-ipv6-address, is added in Release 3.0:
show cdma pdsn flow mn-ipv6-address ?X:X:X:X::X MN IPv6 addresspdsn2#$n flow mn-ipv6-address 2001:420:10:0:211:20FF:FE43:61CMSID NAI Type MN IP Address St00000000000101 mwts-uc1-np-user1 Simple-ipv6001:420:10:0:211:20FF:FE43:61C ACTshow cdma pdsn flow service
To display flow-based information for a specified service type in each session, use the show cdma pdsn flow service command in privileged EXEC mode.
show cdma pdsn flow service {mobile | proxy-mobile | simple | simple-ipv6}
Syntax Description
mobile
Specifies mobile service type.
proxy-mobile
Specifies the proxy-mobile service type.
simple
Specifies the simple service type.
simple-ipv6
Specifies the simple-IPv6 service type.
Defaults
No default keywords or arguments.
Command Modes
Privileged EXEC
Command History
12.2(8)BY
This command was introduced.
12.3(14)YX
simple-ipv6 output was introduced.
Examples
The following example shows output from the show cdma pdsn flow service simple-ipv6 command:
Router# show cdma pdsn flow service simple-ipv6MSID NAI Type MN IPAddress St00000000000101 mwts-uc1-np-user1 Simple-ipv62001:420:10:0:211:20FF:FE43:61C ACTshow cdma pdsn pcf
To display information about PCFs that have R-P tunnels to the PDSN, use the show cdma pdsn pcf command in privileged EXEC mode.
show cdma pdsn pcf {brief | ip_addr | secure}
Syntax Description
brief
Displays information about all PCFs with connected sessions.
ip_addr
Displays detailed PCF information by IP address.
secure
Displays the security associations for all PCFs on this PDSN.
Defaults
No default behavior or values.
Command Modes
Privileged EXEC
Command History
Examples
The following example shows output of the show cdma pdsn pcf command with the keyword brief specified, with an IP address specified, and with the keyword secure specified:
router# show cdma pdsn pcf briefPCF IP Address Sessions Pkts In Pkts Out Bytes In Bytes Out4.0.0.1 1 14 275 23 936Table 5 describes the fields shown in the output of the brief version of the command.
router# show cdma pdsn pcf 13.1.102.11PCF 13.1.102.11 has 1 sessionReceived 6 pkts (181 bytes), sent 12 pkts (504 bytes)PCF Session ID 2, Mobile Station ID IMSI 000000000000001A10 connection age 00:01:04A10 registration lifetime 65535 sec, time since last registration 28 secTable 6 describes the fields shown in the output of the command when an IP address is specified.
Router# show cdma pdsn pcf secureSecurity Associations (algorithm, replay protection, key):default:spi 300, Timestamp +/- 60, key ascii foo4.0.0.1:spi 100, Timestamp +/- 60, key ascii testspi 200, Timestamp +/- 60, key ascii foo4.0.0.2:spi 100, Timestamp +/- 0, key ascii testspi 400, Timestamp +/- 0, key hex 123456789012345678901234567890124.0.0.3:spi inbound 100 outbound 200, Timestamp +/- 0, key ascii testTable 7 describes the fields shown in the output of the command when the keyword secure is specified.
Here is show outpt for PDSN Release 4.0:
router# show cdma pdsn pcf briefPCF IP Address Sessions SFlows Pkts In Pkts Out Bytes In Bytes Out1.1.1.1 1 3 9 12 183 526router# show cdma pdsn pcfPCF 1.1.1.2 has 1 session, 3 service flows, 1 old session, 2 old service flows,Received 0 pkts (0 bytes), sent 0 pkts (0 bytes)PCF Session ID 1, Mobile Station ID IMSI 123456789012346A10 connection age 00:02:19A10 registration lifetime 1800 sec, time since last registration 4 secshow cdma pdsn qos local profile
To display the locally configured subscriber qos profile, use the show cdma pdsn qos local profile command in Privileged EXEC mode.
show cdma pdsn qos local profile
Syntax Description
There are no keywords or arguments for this command.
Defaults
There are no default values.
Command Modes
Privileged EXEC
Command History
Usage Guidelines
Examples
Here is an example of the show cdma pdsn qos local profile command:
router# PDSN#show cdma pdsn qos ?local CDMA PDSN local qos informationPDSN#show cdma pdsn qos local ?profile CDMA PDSN local qos profile informationPDSN#show cdma pdsn qos local profile ?| Output modifiers<cr>PDSN#show cdma pdsn qos local profileCDMA PDSN LOCAL QOS PROFILEQoS subscriber profileMax Aggregate Bandwidth : 8000Inter User Priority : 4321Maximum Flow Priority : 4Number of persistent TFT : 10Total link flow : 2Service Option : 59Service Option : 61Flow-profileForward flow-id : 1Reverse flow-id : 2Bi-direction flow-id : 3DSCPAllowed-class AFMax-selector class 4show cdma pdsn redundancy
To show whether or not the PDSN redundancy feature is enabled or not, use the show cdma pdsn redundancy command in Privileged EXEC mode.
Syntax Description
This command has no keywords or arguments.
Defaults
No default keywords or arguments.
Command Modes
Privileged EXEC
Command History
12.3(14)YX
This command was introduced.
12.4xx
Added details of number of TFTs synced to standby.
Examples
The following example illustrates the output for the show cdma pdsn redundancy command:
router# show cdma pdsn redundancyCDMA PDSN Redundancy is enabledCDMA PDSN Session Redundancy system statusPDSN state = ACTIVEPDSN-peer state = STANDBY HOTCDMA PDSN Session Redundancy StatisticsLast clearing of cumulative counters neverSynced to standby Currentsince peer up ConnectedSessions 1 2SIP Flows 0 0MIP Flows 1 0PMIP Flows 0 0Here is show output for the TFT sync information:
router# show cdma pdsn redundancyCDMA PDSN Redundancy is enabledCDMA PDSN Session Redundancy system statusPDSN state = ACTIVEPDSN-peer state = STANDBY HOTCDMA PDSN Session Redundancy StatisticsLast clearing of cumulative counters neverSynced to standby Currentsince peer up ConnectedSessions 0 0SIP Flows 0 0MIP Flows 0 0PMIP Flows 0 0TFT 0 0show cdma pdsn redundancy statistics
To display a variety of information about the sessions and the associated flows that have been/are synchronized to/from the standby/active, use show cdma pdsn redundancy statistics command in privileged EXEC mode.
show cdma pdsn redundancy statistics
Syntax Description
This command has no keywords or arguments.
Defaults
No default keywords or arguments.
Command Modes
Privileged EXEC
Command History
12.2(2)XC
This command was introduced.
12.3(8)XW
Prepaid output was included in examples.
Usage Guidelines
show cdma pdsn redundancy statistics will be hidden until service internal is configured.
Examples
The following output is displayed with the show cdma pdsn redundancy statistics command:
Router# show cdma pdsn redundancy statisticsLast clearing of cumulative counters neverNumber of messages sent to standby:Session EventsUp 6, Down 6, Reregistration 1Handoff 5, PPP renegotiation 0Flow EventsSimple IP Up 6, Down 6Mobile IP Up 0, Down 0Proxy Mobile IP Up 0, Down 0Accouting EventsUpdate 0, Flow Start 7, Stop 4Active to Dormant 4, Dormant to Active 1IPFlow Update 0, Start 0, Stop 0TFT EventsTFT Create 0, Update 0show cdma pdsn resource
To display AHDLC resources allocated in resource manager, use the show cdma pdsn resource command in privileged EXEC mode.
show cdma pdsn resource [slot_number [ahdlc-channel [channel_id]]]
Syntax Description
slot_number
(Optional) Slot number of the AHDLC of interest.
ahdlc-channel [channel_id]
(Optional) Channel on the AHDLC. If no channel is specified, information for all channels is displayed.
Defaults
The c6500-c5 image supports 8000 sessions and the c6500-c6 image supports 20000 sessions.
Command Modes
Privileged EXEC
Command History
12.2(2)XC
This command was introduced.
12.2(8)BY
The possible values for channel ID was extended to 20000.
Examples
The following example shows output from the show cdma pdsn resource command:
Router# show cdma pdsn resourceResource allocated/available in the resource managerslot 0:AHDLC Engine Type:CDMA HDLC ENGINEEngine is ENABLEDtotal channels:16000, available channels:16000Router#show cdma pdsn resource 0 ahdlc-channel 0AHDLC Channel 0 State CLOSEDshow cdma pdsn session
To display the session information on the PDSN, use the show cdma pdsn session command in privileged EXEC mode.
show cdma pdsn session [brief | always-on | dormant | mn-ip-address address | mn-ipv6-address address | msid number | user nai | prepaid] {qos | tft | detail}
Syntax Description
Defaults
No default behavior or values.
Command Modes
Privileged EXEC
Command History
Examples
The following example shows output of the show cdma pdsn session command:
Router#show cdma pdsn sessionMobile Station ID IMSI 00000000001PCF IP Address 13.1.102.11, ID local 31994, remote 18555Session ID local 2, remote 17, state establishedA10 connection time 00:00:07, registration lifetime 65535 secNumber of successful A11 re-registrations 0Remaining session lifetime INFINITECurrent Access network ID 000D-010A-6ALast airlink record received is Active Start, airlink is activeGRE sequence number transmit 7, receive 0Using interface Virtual-Access2.1, status ACTUsing AHDLC engine on slot 0, channel ID 0Service Option UndefinedPolicier Upstream CIR(bps) 8000,Normal Burst(bytes) 4000,Excess Burst(bytes) 8000Downstream CIR(bps) 8000,Normal Burst(bytes) 4000,Excess Burst(bytes) 8000This session has 1 flowFlow service Simple, NAI nai-qos1Mobile Node IP address 11.2.1.1Packets in 0, bytes in 0Packets out 0, bytes out 0Quota Details of Prepaid Service based on Volume:Quota Id : 257Allocated: 50000 bytesThreshold: 40000 bytesConsumed : 20000 bytesQuota Details of Prepaid Service based on Duration:Quota Id : 4522002Allocated: 60 secThreshold: 45 secConsumed : 41 secQos Allowed Diffserv class A,E,OMax Class Selection Marking 40Reverse Tunneling Marking 26Cisco PDSN Release 3.0 adds the following Simple IPV6 information:
Router#show cdma pdsn sessionMobile Station ID IMSI 00000000000101PCF IP Address 4.0.0.1, PCF Session ID 1A10 connection time 00:03:55, registration lifetime 65535 secNumber of successful A11 re-registrations 0Remaining session lifetime INFINITEAlways-On not enabled for the userCurrent Access network ID 0004-0000-01Last airlink record received is Active Start, airlink is activeGRE protocol type is 0x8881GRE sequence number transmit 11, receive 0Using interface Virtual-Access2.1, status OPNUsing AHDLC engine on slot 0, channel ID 5Service Option UndefinedThis session has 1 flowFlow service Simple-ipv6, NAI mwts-uc1-np-user1Mobile Node IPv6 address 2001:420:10:0:211:20FF:FE43:61CIPv6 Packets in 0, bytes in 0IPv6 Packets out 0, bytes out 0router#This example shows the PDSN 3.5 session related subscriber QoS profile and policing details:
Router#show cdma pdsn sessionMobile Station ID IMSI 123456789123457PCF IP Address 5.1.1.46, PCF Session ID 1A10 connection time 119:19:10, registration lifetime 1800 secNumber of successful A11 re-registrations 357Remaining session lifetime 650 secAlways-On not enabled for the userCurrent Access network ID 0005-0101-2ELast airlink record received is Unknown, airlink is activeGRE protocol type is 0x8881GRE sequence number transmit 9, receive 7Using interface Virtual-Access2.1, status OPNUsing AHDLC engine on slot 0, channel ID 4381Service Option Ev-DOPolice Downstream CIR(bps) 8000,Normal Burst(bytes) 1500, Excess Burst(bytes) 3000Packets Conformed 0 Exceeded 0 Dropped packets 0This session has 1 flowSession Airlink State ActiveQoS Parameters:Max Aggregate Bandwidth: 8000Home Area : 10Inter User Priority : 15Flow service Simple, NAI NAI gSIP1@xxx.comMobile Node IP address 32.1.35.203Packets in 0, bytes in 0Packets out 0, bytes outCisco PDSN 4.0 Release adds support for QoS and Policing session information:
Mobile Station ID IMSI 123456789012346PCF IP Address 1.1.1.1, PCF Session ID 1Qos subscriber profileMax Aggregate Bandwidth: 18000Inter User Priority: 1000Maximum Flow Priority: 120980Number Of Persistent Tft : 34567Total link flow:385875991Forward profile-id:131Reverse profile-id:13Reverse profile-id:123Bidirectional profile-id:13PDSN#show cdma pdsn ?accounting accounting informationahdlc AHDLC informationcac Call Admission Control ----> New CLIcluster PDSN cluster controller or member configuration, statistics, dataflow CDMA PDSN flow informationpcf PCF informationqos CDMA PDSN Qos information ----> Newredundancy CDMA PDSN redundancy informationresource CDMA PDSN ahdlc and compression resourceselection CDMA PDSN selection informationsession CDMA PDSN session informationstatistics CDMA PDSN statistics information| Output modifiers<cr>PDSN#show cdma pdsn qos ?local CDMA PDSN local qos informationPDSN#show cdma pdsn qos local ?profile CDMA PDSN local qos profile informationPDSN#show cdma pdsn qos local profile ?| Output modifiers<cr>PDSN#show cdma pdsn qos local profileCDMA PDSN LOCAL QOS PROFILEQoS subscriber profileMax Aggregate Bandwidth : 8000Inter User Priority : 4321Maximum Flow Priority : 4Number of persistent TFT : 10Total link flow : 2Service Option : 59Service Option : 61Flow-profileForward flow-id : 1Reverse flow-id : 2Bi-direction flow-id : 3DSCPAllowed-class AFMax-selector class 4Here is another example of the PDSN 4.0 show cdma pdsn session command:
router# show cdma pdsn sessionMobile Station ID IMSI 09884708942PCF IP Address 2.2.2.4, PCF Session ID 1A10 connection time 04:30:12, registration lifetime 65535 secNumber of successful A11 re-registrations 0Remaining session lifetime INFINITEAlways-On not enabled for the userCurrent Access network ID 0002-0202-04Last airlink record received is Connection Setup, airlink is activeGRE protocol type is 0x8881GRE sequence number transmit 12, receive 0Using interface Virtual-Access2.1, status OPNUsing AHDLC engine on slot 0, channel ID 1Service Option EV-DO Flow Discrimination 0 DSCP Included 0Flow Count forward 7 reverse 7Police Downstream CIR(bps) 18000,Normal Burst(bytes) 3375, Excess Burst(bytes) 6750Packets Conformed 0 Exceeded 0 Dropped packets 0This session has 1 flowThis session has 1 service flowSession Airlink State SetupThis session has 0 TFTsQos subscriber profileMax Aggregate Bandwidth : 18000Inter User Priority : 1000Maximum Flow Priority : 120980Forward profile-id : 4660Forward profile-id : 9097Forward profile-id : 14454Reverse profile-id : 6295Reverse profile-id : 17185Bidirectional profile-id : 22136Bidirectional profile-id : 26505Flow service Simple, NAI userMobile Node IP address 4.4.4.1Packets in 0, bytes in 0Packets out 0, bytes out 0Here is another example with information about service flows and session details:
router#show cdm pds session service-flowsMobile Station ID IMSI 09884708942PCF IP Address 2.2.2.4, PCF Session ID 1GRE protocol type is 0x8881GRE sequence number transmit 17, receive 0Using interface Virtual-Access2.1Using AHDLC engine on slot 0, channel ID 1Service Option EV-DO Flow Discrimination 0 DSCP Included 0Flow Count forward 0 reverse 0This session has 1 flowThis session has 1 service flowService Flow PCF IP Address 2.2.2.4 SR ID 0x2Service Option 0x40 Flow Discrimination 0 DSCP Included 0Flow Count forward 2 reverse 2GRE protocol type is 0x8881, key 2GRE sequence number transmit 0, receive 0Using AHDLC engine on slot 0, channel ID 0show cdma pdsn session detailMobile Station ID IMSI 09884708942PCF IP Address 2.2.2.4, PCF Session ID 1A10 connection time 03:15:31, registration lifetime 65535 secNumber of successful A11 re-registrations 0Remaining session lifetime INFINITEAlways-On not enabled for the userCurrent Access network ID 0002-0202-04Last airlink record received is Connection Setup, airlink is activeGRE protocol type is 0x8881GRE sequence number transmit 12, receive 0Using interface Virtual-Access2.1, status OPNUsing AHDLC engine on slot 0, channel ID 13Service Option EV-DO Flow Discrimination 0 DSCP Included 0Flow Count forward 0 reverse 0Police Downstream CIR(bps) 18000,Normal Burst(bytes) 3375, Excess Burst(bytes) 6750Packets Conformed 0 Exceeded 0 Dropped packets 0This session has 1 flowThis session has 1 service flowSession Airlink State SetupThis session has 0 TFTsQos subscriber profileMax Aggregate Bandwidth : 18000Inter User Priority : 1000Maximum Flow Priority : 120980Forward profile-id : 4660Forward profile-id : 9097Forward profile-id : 14454Reverse profile-id : 6295Reverse profile-id : 17185Bidirectional profile-id : 22136Bidirectional profile-id : 26505Flow service Simple, NAI userMobile Node IP address 4.4.4.1Packets in 0, bytes in 0Packets out 0, bytes out 0Service Flow PCF IP Address 2.2.2.4 SR ID 0x2Service Option 0x40 Flow Discrimination 0 DSCP Included 0Flow Count forward 2 reverse 2GRE protocol type is 0x8881, key 2GRE sequence number transmit 0, receive 0Using AHDLC engine on slot 0, channel ID 12Forward QoS InfosSRID 0x2 FlowID 0x1 Dscp 0x0 State ActiveRequested Qos Info: Len 14 Info:03000120000A0001000A02180580Packets out 0, bytes out 0Last airlink record received is Unknown, airlink is inactiveSRID 0x2 FlowID 0x2 Dscp 0x0 State ActiveRequested Qos Info: Len 14 Info:03000120000A0001000A02180580Packets out 0, bytes out 0Last airlink record received is Unknown, airlink is inactiveReverse QoS InfosSRID 0x2 FlowID 0x1 State ActiveRequested Qos Info: Len 14 Info:03000120000A0001000A02180580Packets in 0, bytes in 0Last airlink record received is Unknown, airlink is inactiveSRID 0x2 FlowID 0x2 State ActiveRequested Qos Info: Len 14 Info:03000120000A0001000A02180580Packets in 0, bytes in 0Last airlink record received is Unknown, airlink is inactiveTFTIP Address 4.4.4.1Number of Packet Filters Forward 0, Reverse 1Reverse Packet FiltersPacket Filter 1Flow Id 0x2, Precedence 2, PF Type 0Source Ip 4.4.4.1 Mask 255.255.255.0Qos per flow : userMax Aggregate Bandwidth : 18000Inter User Priority : 1000Maximum Flow Priority : 120980Number of Persistent Tft : 34567Qos Allowed Diffserv class EFMax Class Selection Marking AF12Reverse Tunneling Marking AF12Forward profile-id : 4660Forward profile-id : 9097Forward profile-id : 14454Reverse profile-id : 6295Reverse profile-id : 17185Bidirectional profile-id : 22136Bidirectional profile-id : 26505Here is an example of the brief keyword:
show cdma pdsn session briefMSID PCF IP Address PSI Age St SFlows Flows Interface123455432112346 5.1.1.76 1 308:48:00 OPN 1 3 Virtual-Access2.2Here is an example of the show cdma pdsn session tft command:
Mobile Station ID IMSI 123456789011122PCF IP Address 10.1.1.1, PCF Session ID 1This session has 1 flowThis session has 1 TftTFT IP Address 3.1.1.1Number of Packet Filters Forward 2, Reverse 1Forward Packet FiltersPacket Filter 1Flow Id 10, Precedence 255, PF Type 0Source Port 125Packet Filter 2Flow Id 10, Precedence 255, PF Type 0Source Port 125Reverse Packet FiltersPacket Filter 1Flow Id 10, Precedence 10, PF Type 0Source Port 125Mobile Station ID IMSI 123456789011123PCF IP Address 10.1.1.1, PCF Session ID 2This session has 1 flowThis session has 1 TftTFT IP Address 3.1.1.2Number of Packet Filters Forward 2, Reverse 3Forward Packet FiltersPacket Filter 1Flow Id 2, Precedence 2, PF Type 0Source Ip 5.5.5.5 Mask 255.255.255.0Packet Filter 2Flow Id 5, Precedence 5, PF Type 0Source Ip 1.1.1.1 Mask 255.255.255.0Reverse Packet FiltersPacket Filter 1Flow Id 10, Precedence 255, PF Type 0Source Port 125Packet Filter 2Flow Id 10, Precedence 255, PF Type 0Source Port 125Packet Filter 3Flow Id 10, Precedence 255, PF Type 0Source Port 125router# show cdma pdsn sessionMobile Station ID IMSI 09884708942PCF IP Address 2.2.2.4, PCF Session ID 1A10 connection time 04:30:12, registration lifetime 65535 secNumber of successful A11 re-registrations 0Remaining session lifetime INFINITEAlways-On not enabled for the userCurrent Access network ID 0002-0202-04Last airlink record received is Connection Setup, airlink is activeGRE protocol type is 0x8881GRE sequence number transmit 12, receive 0Using interface Virtual-Access2.1, status OPNUsing AHDLC engine on slot 0, channel ID 1Service Option EV-DO Flow Discrimination 0 DSCP Included 0Flow Count forward 7 reverse 7Police Downstream CIR(bps) 18000,Normal Burst(bytes) 3375, Excess Burst(bytes) 6750Packets Conformed 0 Exceeded 0 Dropped packets 0This session has 1 flowThis session has 1 service flowSession Airlink State SetupThis session has 0 TFTsQos subscriber profileMax Aggregate Bandwidth : 18000Inter User Priority : 1000Maximum Flow Priority : 120980Forward profile-id : 4660Forward profile-id : 9097Forward profile-id : 14454Reverse profile-id : 6295Reverse profile-id : 17185Bidirectional profile-id : 22136Bidirectional profile-id : 26505Flow service Simple, NAI userMobile Node IP address 4.4.4.1Packets in 0, bytes in 0Packets out 0, bytes out 0Here is an example from the Cisco PDSN 4.1 Release that displays changes for Served MDN, DNS, and VRF Sub-interfacing:
Served MDN
PDSN#show cdma pdsn sessionMobile Station ID IMSI 00000000021PCF IP Address 4.0.0.1, PCF Session ID 20A10 connection time 00:01:07, registration lifetime 65535 secNumber of successful A11 re-registrations 0Remaining session lifetime INFINITEAlways-On not enabled for the userCurrent Access network ID 0004-0000-01Last airlink record received is Active Start, airlink is activeGRE sequence number transmit 13, receive 10Using interface Virtual-Access2.2, status OPNUsing AHDLC engine on slot 0, channel ID 5Service Option UndefinedThis session has 1 flowFlow service Simple, NAI mwts-uc1-p1-user1Mobile Node IP address 11.0.0.1Packets in 0, bytes in 0Packets out 0, bytes out 0Served-MDN test-mdnDNS
PDSN#show cdma pdsn sessionMobile Station ID IMSI 00000000021PCF IP Address 4.0.0.1, PCF Session ID 20A10 connection time 00:01:07, registration lifetime 65535 secNumber of successful A11 re-registrations 0Remaining session lifetime INFINITEAlways-On not enabled for the userCurrent Access network ID 0004-0000-01Last airlink record received is Active Start, airlink is activeGRE sequence number transmit 13, receive 10Using interface Virtual-Access2.2, status OPNUsing AHDLC engine on slot 0, channel ID 5Service Option UndefinedThis session has 1 flowFlow service Simple, NAI mwts-uc1-p1-user1Mobile Node IP address 11.0.0.1Packets in 0, bytes in 0Packets out 0, bytes out 0DNS IP AddressPrimary - 1.1.1.1Secondary - 2.2.2.2VRF Sub-Interfacing
PDSN#show cdma pdsn sessionMobile Station ID IMSI 00000000021PCF IP Address 4.0.0.1, PCF Session ID 20A10 connection time 00:01:07, registration lifetime 65535 secNumber of successful A11 re-registrations 0Remaining session lifetime INFINITEAlways-On not enabled for the userCurrent Access network ID 0004-0000-01Last airlink record received is Active Start, airlink is activeGRE sequence number transmit 13, receive 10Using interface Virtual-Access2.2, status OPNUsing AHDLC engine on slot 0, channel ID 5Service Option UndefinedThis session has 1 flowFlow service Simple, NAI mwts-uc1-p1-user1Mobile Node IP address 11.0.0.1Packets in 0, bytes in 0Packets out 0, bytes out 0vrf test-pdsnshow cdma pdsn session output changes are also reflected in show cdma pdsn session detail command output.
show cdma pdsn statistics
To display VPDN, PPP, RP interface, Closed-RP interface and error statistics for the PDSN, use the show cdma pdsn statistics command in privileged EXEC mode.
show cdma pdsn statistics [ahdlc | rp [pcf ip address] | closed-rp [pcf ip address] | error] [ppp [pcf ip address] [radius disconnect]]
Syntax Description
Defaults
No default behavior or values.
Command Modes
Privileged EXEC
Command History
Examples
The following example shows output of the show cdma pdsn statistics command:
router# show cdma pdsn statisticsrouter#show cdma pdsn statistics ?ahdlc AHDLC informationppp CDMA PDSN ppp statisticsprepaid CDMA PDSN prepaid statisticsqos CDMA PDSN QOS statisticsradius CDMA PDSN traffic statisticsrp CDMA PDSN RP statisticstft CDMA PDSN TFT statistics <--- new| Output modifiers<cr>router#RP Interface:Reg Request rcvd 23, accepted 22, denied 1, discarded 0Initial Reg Request accepted 4, denied 0Re-registration requests accepted 14, denied 0De-registration accepted 4, denied 0Error: Unspecified 23, Administratively prohibited 0Resource unavailable 4, Authentication failed 4Identification mismatch 2, Poorly formed requests 2Unknown PDSN 2, Reverse tunnel mandatory 22Reverse tunnel unavailable 1, Bad CVSE 0Update sent 2, accepted 2, denied 0, not acked 0Initial Update sent 2, retransmissions 0Acknowledge received 2, discarded 0Update reason lifetime expiry 1, PPP termination 0, other 1Error: Unspecified 23 Administratively prohibited 0Authentication failed 4, Identification mismatch 4Poorly formed request 2PPP:Current Connections 0Connection requests 4, success 4, failure 0Failure reason LCP 0, authentication 0, IPCP 3Connection enters stage LCP 4, Auth 4, IPCP 7Renegotiation total 0, by PDSN 0, by Mobile N
