show aaa servers sg
To display counters (information about the number of packets sent to and received from authentication, authorization, and accounting [AAA] servers) for all the servers that are members of a specific server group, use the show aaa servers sg command in privileged EXEC mode.
show aaa servers sg sg-name
Syntax Description
sg-name |
Name of the server group for which you want to display counters for each server in the group. |
Defaults
No default behavior or values.
Command Modes
Privileged EXEC
Command History
|
|
12.4(9)XG |
This command was introduced. |
12.4(15)XQ |
This command was integrated into Cisco IOS Release 12.4(15)XQ. |
12.4(24)T |
This command was integrated into Cisco IOS Release 12.4(24)T. |
Usage Guidelines
Use the show aaa servers sg command to display counters for all the servers in a specified server group.
The command displays information about packets sent and received for all AAA transaction types.
Examples
The following example displays information about each RADIUS servers that are a member of the "group1" server group:
router# show aaa servers sg group1
RADIUS: id 3, priority 0, host 1.1.1.1, auth-port 1645, acct-port 1646
State: current UP, duration 159574s, previous duration 0s
Dead: total time 0s, count 0
Authen: request 0, timeouts 0
Response: unexpected 0, server error 0, incorrect 0, time 0ms
Transaction: success 0, failure 0
Author: request 0, timeouts 0
Response: unexpected 0, server error 0, incorrect 0, time 0ms
Transaction: success 0, failure 0
Account: request 0, timeouts 0
Response: unexpected 0, server error 0, incorrect 0, time 0ms
Transaction: success 0, failure 0
Elapsed time since counters last cleared: 1d20h19m
RADIUS: id 4, priority 0, host 2.2.2.2, auth-port 1645, acct-port 1646
State: current UP, duration 159574s, previous duration 0s
Dead: total time 0s, count 0
Authen: request 0, timeouts 0
Response: unexpected 0, server error 0, incorrect 0, time 0ms
Transaction: success 0, failure 0
Author: request 0, timeouts 0
Response: unexpected 0, server error 0, incorrect 0, time 0ms
Transaction: success 0, failure 0
Account: request 0, timeouts 0
Response: unexpected 0, server error 0, incorrect 0, time 0ms
Transaction: success 0, failure 0
Elapsed time since counters last cleared: 1d20h19m
RADIUS: id 5, priority 0, host 3.3.3.3, auth-port 1645, acct-port 1646
State: current UP, duration 159575s, previous duration 0s
Dead: total time 0s, count 0
Authen: request 0, timeouts 0
Response: unexpected 0, server error 0, incorrect 0, time 0ms
Transaction: success 0, failure 0
Author: request 0, timeouts 0
Response: unexpected 0, server error 0, incorrect 0, time 0ms
Transaction: success 0, failure 0
Account: request 0, timeouts 0
Response: unexpected 0, server error 0, incorrect 0, time 0ms
Transaction: success 0, failure 0
Elapsed time since counters last cleared: 1d20h19m
Table 3 describes the fields shown in the display.
Table 3 show aaa servers sg Field Descriptions
|
|
id |
An identifier that uniquely identifies the server on the router. |
priority |
The priority by which the server will be tried within the server group. |
host |
The IP address of the AAA server. |
auth-port |
The port on the AAA server that is used for authentication and authorization requests. |
acct-port |
The port on the AAA server that is used for accounting requests. |
State |
Indicates the assumed state of the AAA server. The following states are possible: •UP—Indicates that the server is currently considered alive and attempts will be made to communicate with it. •DEAD—Indicates that the server is currently presumed dead and, in the case of failovers, this server will be skipped unless it is the last server in the group. •duration—Is the amount of time the server is assumed to be in the current state, either UP or DEAD. •previous duration—Is the amount of time the server was considered to be in the previous state. |
Dead |
Indicates the number of times that this server has been marked dead, and the cumulative amount of time, in seconds, that it spent in that state. |
Authen |
Provides information about authentication packets that were sent to and received from a server, and authentication transactions that were successful or that failed. The following information may be reported in this field: •request—Number of authentication requests that were sent to the AAA server. •timeouts—Number of timeouts (no responses) that were observed, when a transmission was sent to this server. •Response—Provides statistics about responses that were observed from the server and includes the following reports: –unexpected—Number of unexpected responses. A response is considered unexpected when it is received after the timeout period for the packet has expired. This may happen if the link to the server is severely congested, for example. An unexpected response can also be produced when a server generates a response for no apparent reason. –server error—Number of server errors. This category is a catchall for error packets that do not any of the previous categories. –incorrect—Number of incorrect responses. A response is considered incorrect if it is of the wrong format expected by the protocol. This frequently happens when an incorrect server key is configured on the router. •Transaction—These fields provide information about AAA transactions related to the server. A transaction is defined as a request for authentication, authorization, or accounting information that is sent by the AAA module, or by an AAA client (such as PPP) to an AAA protocol (RADIUS or TACACS+), which may involve multiple packet transmissions and retransmissions. Transactions may require packet retransmissions to one or more servers in a single server group, to verify success or failure. Success or failure is reported to AAA by the RADIUS and TACACS+ protocols, as follows –success—Incremented when a transaction is successful. –failure—Incremented when a transaction fails (for example, packet retransmissions to another server in the server group failed due to failover or did not succeed. (A negative response to an Access Request, such as Access Reject, is considered to be a successful transaction). |
Author |
The fields in this category are similar to those in the Authen fields. An important difference, however, is that because authorization information is carried in authentication packets for the RADIUS protocol, these fields are not incremented when using RADIUS. |
Account |
The fields in this category are similar to those in the Authen fields, but provide accounting transaction and packet statistics. |
Elapsed time since counters last cleared |
Displays the amount of time in days, hours, and minutes, that has passed since the counters were last cleared. |
Related Commands
|
|
clear aaa counters server sg |
Clears and resets the counters to zero for all servers in a specific server group. |
show data-store
To display the status of the Persistent Storage Device (PSD) client and PSD server-related information, use the show data-store command in privileged EXEC mode.
show data-store
Syntax Description
This command has no arguments or keywords.
Defaults
No default behavior or values.
Command Modes
Privileged EXEC
Command History
|
|
12.3(14)YU |
This command was introduced. |
12.4(2)XB |
This command was integrated into Cisco IOS Release 12.4(2)XB. |
12.4(15)T |
This command was integrated into Cisco IOS Release 12.4(15)T. |
Usage Guidelines
Use the show data-store command to display the status of the PSD client and PSD server information.
Examples
The following is sample output of the show data-store command:
---------------------------------------------------------------------------
Server Retrieve Link Current Operating Disk Data
IP address Only State Status Mode State Present
----------------------------------------------------------------------------
172.17.17.17 YES DOWN IDLE - AVAILABLE YES
192.10.5.1 NO UP IDLE STANDBY AVAILABLE NO
----------------------------------------------------------------------------
Table 4 describes the fields shown in the display.
Table 4 show data-store Field Descriptions
|
|
Server IP Address |
IP address of the PSD. |
Retrieve Only |
Whether or not the PSD is a "retrieve-only" PSD. Possible values are YES or NO. |
Link State |
Status of link between the GGSN and PSD. Possible values are UP or DOWN. |
Current Status |
Whether or not activity is occurring on the link. Possible values are: •IDLE—PSD server is available. When a PSD moves from a Writing to Idle state, the pending write requests are copied and sent to the active charging gateway. •WRITING—G-CDRs are in the process of being backed up to the PSD. Once the PSD disk state is full, the PSD moves to an Idle state. •RETRIEVING—G-CDRs are being retrieved and forwarded to the active charging gateway. Once all records are retrieved, the PSD state moves to idle. |
Operating Mode |
Operational state of the PSD. Possible values are: •UNDEFINED—PSD is configured on the GGSN but no connection established. •STANDBY—PSD is configured and connection is established, but the PSD is in Standby mode (no writing or retrieving activity is occurring). •ACTIVE—G-CDRs are being backed up to the PSD. In this state, aggregation characteristics and throttles that normally apply to the charging gateways are applied to the PSD. |
Disk State |
Whether or not disk space is available on the PSD. Possible values are AVAILABLE or FULL. |
Data Present |
Whether or not data currently exists on a disk. Possible values are YES or NO. |
Auto retrieval |
Whether or not the auto-retrieval feature has been configured for a PSD server group. |
Client |
PSD client. |
Related Commands
|
|
auto-retrieve |
Configures the GGSN to automatically initiate a retrieval of G-CDRs from PSDs defined in a PSD server group. |
clear data-store statistics |
Clears PSD-related statistics. |
data-store |
Configures a PSD server group on the GGSN to use for GGSN-to-PSD communication. |
show data-store statistics |
Displays PSD client statistics. |
show data-store statistics
To display statistics related to the Persistent Storage Device (PSD) client, including the number of requests sent and DRT responses received, use the show data-store statistics command in privileged EXEC mode.
show data-store statistics
Syntax Description
This command has no arguments or keywords.
Defaults
No default behavior or values.
Command Modes
Privileged EXEC
Command History
|
|
12.3(14)YU |
This command was introduced. |
12.4(2)XB |
This command was integrated into Cisco IOS Release 12.4(2)XB. |
12.4(15)T |
This command was integrated into Cisco IOS Release 12.4(15)T. |
Usage Guidelines
Use the show data-store statistics command to display statistics related to the PSD client (for example, number of Read/Write requests sent and responses received).
Examples
The following is sample output of the show data-store command:
router# show data-store statistics
FIFO Write. . . . . . . . . . . . . . . . . . . . = 0
FIFO Read . . . . . . . . . . . . . . . . . . . . = 12
FIFO Read/Write retransmissions . . . . . . . . . = 12
Retrieved msgs forwarded. . . . . . . . . . . . . = 8
Disk full transitions. . . . . . . . . . . . . . = 0
Table 5 describes the fields shown in the display.
Table 5 show data-store statistics Field Descriptions
|
|
Requests sent: FIFO Write |
First-in, first-our Write requests sent. |
Requests sent: FIFO Read |
First-in, first-our Read requests sent. |
Requests sent: FIFO Read/Write retransmissions |
First-in, first-our Read/Write requests sent. |
DRT Responses rcvd: Retrieved msgs forwarded |
|
DRT Responses rcvd:Disc full transitions |
|
Related Commands
|
|
auto-retrieve |
Configures the GGSN to automatically initiate a retrieval of G-CDRs from PSDs defined in a PSD server group. |
clear data-store statistics |
Clears PSD-related statistics. |
data-store |
Configures a PSD server group on the GGSN to use for GGSN-to-PSD communication. |
show data-store |
Displays the status of the PSD client and PSD server-related information. |
show diameter peer
To display information about the state of a Diameter peer, including various counters, use the show diameter peer command in privilege EXEC mode.
show diameter peer [name | all]
Syntax Description
name |
Name of the Diameter peer for which you want to display state information. |
all |
Displays information for all Diameter peers. |
Defaults
No default behavior or values.
Command Modes
Privilege EXEC
Command History
|
|
12.3(14)YQ |
This command was introduced. |
12.3(14)YU |
This command was integrated into Cisco IOS Release 12.3(14)YU. |
12.4(2)XB |
This command was integrated into Cisco IOS Release 12.4(2)XB. |
Examples
The following configuration example displays information about the state of Diameter peer "peerA":
Peer information for peerA
---------------------------------------
Peer transport protocol :TCP
Peer listening port :3688
Peer security protocol :IPSEC
Peer connection timer value :30 seconds
Peer watch dog timer value :35 seconds.
Peer connection status :UP.
Table 18 describes the fields shown in the display.
Table 6 show diameter peer Field Descriptions
|
|
Peer Name |
Name of the Diameter peer. |
Peer Type |
Type of Diameter peer. Possible values are Server and Client. |
Peer transport protocol |
Transport protocol used to connect to peer. |
Peer listening port |
Port being used listen for peer communication. |
Peer security protocol |
Security protocol being used for peer-to-peer communication. Possible value is IPSEC. |
Peer connection timer |
Timeout period for attempting to connect to the peer after a connection has been dropped. |
Peer watch dog timer |
Maximum period of time this node will wait for the Diameter peer to respond to a watchdog packet. |
Peer vrf name |
Name of VRF associated with the Diameter peer. |
Peer connection status |
Status of the connection to the peer. Possible values are UP or DOWN. |
show ggsn csg
To display the parameters configured for a Content Services Group (CSG) group or the number of path and quota management messages sent and received by a quota server, use the show ggsn csg command in privilege EXEC mode.
show ggsn csg [parameters | statistics]
Syntax Description
parameters |
Displays the parameters configured for a CSG group. |
statistics |
Displays the number of path and quota management messages sent and received by a quota server. |
Defaults
No default behavior or values.
Command Modes
Privilege EXEC
Command History
|
|
12.3(14)YQ |
This command was introduced. |
12.3(14)YU |
This command was integrated into Cisco IOS Release 12.3(14)YU. |
12.4(2)XB |
This command was integrated into Cisco IOS Release 12.4(2)XB. |
Examples
Example 1 displays the parameters used by the CSG group. Example 2 displays the number of path and management messages sent and received by the quota server.
Example 1
ggsn1#show ggsn csg parameters
virtual/alias address:5.5.5.14
Peal addresses: 5.1.1.1 5.1.1.2
Active real's address:5.1.1.2
Example 2
ggsn1#show ggsn csg statistics
GGSN CSG path statistics:
Outbound byte count: 1344
GGSN CSG path msg statistics:
Related Commands
|
|
ggsn csg-group |
Configures a CSG group on the GGSN for quota server-to-CSG communication. |
port |
Configures the port number on which the CSG listens for quota server traffic. |
real-address |
Configures the IP address of a real CSG for source checking on inbound messages from a CSG. |
virtual-address |
Configures a virtual IP address to which the quota server will send all requests. |
show ggsn quota-server
To display quota server parameters or quota server-related statistics, use the show ggsn quota-server command in privilege EXEC mode.
show ggsn quota-server [parameters | statistics]
Syntax Description
parameters |
Displays the quota server configuration. |
statistics |
Displays quota server-related message and error counts. |
Defaults
No default behavior or values.
Command Modes
Privilege EXEC
Command History
|
|
12.3(14)YQ |
This command was introduced. |
12.3(14)YU |
This command was integrated into Cisco IOS Release 12.3(14)YU. |
12.4(2)XB |
This command was integrated into Cisco IOS Release 12.4(2)XB. |
Usage Guidelines
Use the show ggsn quota-server command to display the quota server configuration or quota server-related statistics on messages and error counts.
Quota server-related statistics can be cleared using the clear ggsn quota-server statistics command.
Examples
Example 1 displays the quota server configuration on a GGSN. Example 2 displays quota server-related statistics.
Example 1
ggsn1#show ggsn quota-server parameters
GGSN Quota Server parameters:
Example 2
ggsn1#show ggsn quota-server statistics
GGSN Quota Server statistics
Quota management statistics:
Overall path management statistics:
Negative responses rcvd:0
Bad source address msgs:0
Mandatory TLV incorrect:2
Related Commands
|
|
clear ggsn quota-server statistics |
Clears the quota server-related statistics displayed using the show ggsn quota-server statistics command. |
csg-group |
Associates the quota server to a CSG group that is to be used for quota server-to-CSG communication. |
echo-interval |
Specifies the number of seconds that the quota server waits before sending an echo-request message to the CSG. |
ggsn quota-server |
Configures the quota server process that interfaces with the CSG for enhanced service-aware billing. |
interface |
Specifies the logical interface, by name, that the quota server will use to communicate with the CSG. |
n3-requests |
Specifies the maximum number of times that the quota server attempts to send a signaling request to the CSG. |
t3-response |
Specifies the initial time that the quota server waits before resending a signaling request message when a response to a request has not been received. |
.
show gprs
To display statistics for a gateway GPRS support node (GGSN), use the show gprs command in privileged EXEC mode.
show gprs
Syntax Description
access-point-index |
Index number of an access point. Statistics for that access point are shown. |
all |
Statistics for all access points on the GGSN are shown. |
Defaults
No default behavior or values.
Command Modes
Privileged EXEC
Command History
|
|
12.4(15)XQ |
This command was introduced. |
12.4(24)T |
This command was integrated into Cisco IOS Release 12.4(24)T. |
Usage Guidelines
Use the show gprs command to display statistics collected for the GGSN during the interval defined using the gprs interval global configuration command.
Examples
The following example displays statistics for the GGSN:
Collection interval - 3 min, Last collected at - 1 min back
upstream data volume in octets: 0
downstream data volume in octets: 0
upstream packet count: 0
downstream packet count: 0
Collection interval - 4 min, Last collected at - 2 min back
upstream data volume in octets: 0
downstream data volume in octets: 0
upstream packet count: 0
downstream packet count: 0
Router#
Related Commands
|
|
gprs interval |
Configures the interval at which the GGSN collects data for APNs. |
show gprs access-point
To display information about access points on the gateway GPRS support node (GGSN), use the show gprs access-point command in privileged EXEC mode.
show gprs access-point {access-point-index [address-allocation] | all}
Syntax Description
access-point-index |
Integer (from 1 to 65535) that identifies a GGSN access point. Information about that access point is shown. |
address-allocation |
Tunnel ID (TID) and dynamically allocated mobile station (MS) addresses (by either a DHCP or RADIUS server) are shown for packet data protocol (PDP) contexts on the specified access point. |
all |
Information about all access points on the GGSN is shown. |
Defaults
No default behavior or values.
Command Modes
Privileged EXEC
Command History
|
|
12.1(1)GA |
This command was introduced. |
12.1(5)T |
This command was integrated into Cisco IOS Release 12.1(5)T. |
12.2(4)MX |
This command was integrated into Cisco IOS Release 12.2(4)MX. •The following output fields were added to the display: –accounting –aggregate –apn_accounting_server_group –apn_authentication_server_group –apn-type –apn_username –apn_password –Block Roamer Mode –GPRS vaccess interface –VPN –wait_accounting •The following output fields were removed from the display: –apn_charging_gw –apn_backup_charging_gw –apn_radius_server •Several output field results were changed from binary 0 and 1 to Yes and No. •The following output fields were added to the all version of this command: –Access-type –ppp-regeneration (max-session, setup time) –VRF Name |
12.2(8)YD |
This command was integrated into Cisco IOS Release 12.2(8)YD and the Block Roamer Mode output field was changed to Block Foreign-MS Mode output field. |
12.2(8)YW |
This command was integrated into Cisco IOS Release 12.2(8)YW. •The following output fields were added to the display: –input ACL –output ACL –backup –RADIUS attribute suppress MSISDN –RADIUS attribute suppress IMSI –RADIUS attribute suppress SGSN Address –RADIUS attribute suppress QoS •The format of the apn_username: , apn_password: display fields was changed to apn_username: apn_password:. |
12.3(2)XB |
This command was integrated into Cisco IOS Release 12.3(2)XB. |
12.3(8)XU |
This command was integrated into Cisco IOS Release 12.3(2)XU. The following fields were added to the display: •cac policy •idle timeout •input bandwidth pool •input service-policy •output bandwidth pool •Service Mode •session timeout |
12.3(8)XU2 |
This command was integrated into Cisco IOS Release 12.3(2)XU2 and the single pdp-session field was the display. |
12.3(11)YJ |
This command was integrated into Cisco IOS Release 12.3(11)YJ. |
12.3(14)YQ |
This command was integrated into Cisco IOS Release 12.3(14)YQ. |
12.3(14)YU |
This command was integrated into Cisco IOS Release 12.3(14)YU and the following field was added to the display: •apn_type: Virtual pre-authenticate |
12.4(2)XB |
This command was integrated into Cisco IOS Release 12.4(2)XB and the following field was added to the display: •P-CSCF group name |
12.4(9)XG |
This command was integrated into Cisco IOS Release 12.4(9)XG and the following fields were added to the show gprs access-point access-point-index display: •IPV6 enable •IPV6 base template •IPV6 uplink access list •IPV6 downline access list •IPV6 dynamic_address_pool •IPV6 local prefix pool •IPV6 primary dns •IPV6secondary dns |
12.4(15)XQ |
This command was integrated into Cisco IOS Release 12.4(15)XQ and the following field was added to the display: •Delete PDP upon update failure •Interim periodic accounting |
Usage Guidelines
Use the access-point-index argument to specify a particular access point number for which you want to obtain information.
Use the address-allocation keyword to obtain information about dynamically allocated MS addresses and lease terms per access point.
Use the all keyword to obtain information about all access points in an abbreviated format.
Examples
Example 1
The following is sample output from the show gprs access-point command for access point 1, which is a real access point:
Router# show gprs access-point 1
apn_index 1 apn_name = gprs.corporate.com
interim accounting: Disable
interim periodic: Disable
interim periodic accounting:
input ACL: None, output ACL: None
dynamic_address_pool: dhcp-proxy-client
apn_dhcp_server: 10.99.100.5 backup: 10.99.100.4
apn_dhcp_gateway_addr: 10.27.1.1
apn_authentication_server_group: abc
apn_accounting_server_group: abc1
apn_username: apn_password:
deactivate_pdp_context_on violation: Yes
Block Foreign-MS Mode: Disable
VPN: Disable (VRF Name : None)
GPRS vaccess interface: Virtual-Access2
RADIUS attribute suppress MSISDN: Disabled
RADIUS attribute suppress IMSI: Disabled
RADIUS attribute suppress SGSN Address: Disabled
RADIUS attribute suppress QoS: Disabled
number of ip_address_allocated 0
Verify mobile source addr: enable
Verify mobile destination addr: enable
Mobile-to-mobile: destination 1.1.1.1
Total number of PDP in this APN :0
Service Mode: Operational
input bandwidth pool: pool1
output bandwidth pool: pool2
input service-policy: pdp-class-pdp
single pdp-session: Mandatory
P-CSCF group name: GroupA
Delete PDP upon update failure
IPv6 uplink access list: NONE
IPV6 downlink access list : NONE
IPV6 dynamic_address_pool : local
IPV6 local prefix pool : localv6
IPV6 primary dns : 2001:1:2:3::123
IPV6 secondary dns: 3001:1:2:3::123
DHCP address release sent by GGSN 0
Table 7 describes the fields show in the example.
Table 7 show gprs access-point Field Descriptions
|
|
apn_index |
Number assigned to the access point. |
apn_name |
Access point name. |
apn_mode |
Current setting for the access-mode command: •Transparent—Users are allowed access without authorization or authentication. •Non-transparent—Users must be authenticated by the GGSN acting as a proxy for the authentication. |
apn-type |
Current setting for the access-type command: •Real—APN type that corresponds to a physical interface to an external network on the GGSN. •Virtual—APN type that is not associated with any specific physical target network. •Virtual pre-authenticate—Pre-authentication-based APN type that uses AAA-based user profiles to return the target APN to which the Create PDP Context request is next routed. |
charging service mode |
Indicates whether the charging functions of a GGSN are in operational or maintenance mode. |
Delete PDP upon update failure |
Current setting for the gtp update qos-fail delete command: •Enabled—The GGSN deletes a PDP context if a GGSN-initiated QoS update fails. •Disabled—The GGSN does not delete a PDP context if a GGSN-initiated QoS update fails. |
accounting |
Current status of accounting services at the APN: •Enable—Accounting services are enabled at the APN. This is the default for non-transparent access APNs. •Disable—Accounting services are disabled at the APN. This is the default for transparent access APNs. You can configure an APN for accounting services by using the aaa-accounting command in access point configuration mode. |
interim accounting |
Indicates whether the ability to send interim accounting records to an accounting server after a routing area update or QoS change has been made is configured by using the aaa-accounting interim update command. The possible values are enabled or disabled. |
interim periodic |
Indicates the time interval at which the periodic accounting records are sent by the GGSN. The possible values are Disabled' and Enabled (with periodic interval value in minutes) or Enabled with (use Attribute 85). |
wait_accounting |
Current status of RADIUS accounting response message waiting at the APN: •Enable—GGSN waits for an accounting response message from the RADIUS server before sending an Activate PDP Context request to the SGSN. •Disable—GGSN sends an Activate PDP Context request to the SGSN after sending an accounting request to the RADIUS server. The GGSN does not wait for a RADIUS accounting response. You can configure RADIUS accounting response message waiting by using the gprs gtp response-message wait-accounting command in global configuration mode, or the response-message wait-accounting command in access point configuration mode. |
input ACL |
IP access list for inbound packets (Gi to Gn interfaces). |
output ACL |
IP access list for outbound packets (Gn to Gi interfaces). |
dynamic_address_pool |
Current setting for the ip-address-pool command. |
apn_dhcp_server |
IP address of the DHCP server, if configured. |
backup |
IP address of the backup DHCP server, if configured. |
apn_dhcp_gateway_addr |
IP address of the DHCP gateway, if an address has been configured. |
apn_authentication_server_group |
Name of the AAA server group that is providing authentication services. |
apn_accounting_server_group |
Name of the AAA server group that is providing accounting services. |
apn_username |
Username specified in the anonymous user command. If the anonymous user command is not configured, this field will be blank. |
apn_password |
Password specified in the anonymous user command. If the anonymous user command is not configured, this field will be blank. |
subscribe_required |
Current setting for the subscription-required command: •No—No subscription is required. •Yes—Subscription is required for access point users. The GGSN looks for the "subscription verified" selection mode in the Create PDP Context request to establish the session. |
deactivate_pdp_context_on violation |
Current setting for the access-violation command: •No—User packets are discarded. •Yes—Mobile sessions are terminated when there is an access violation. |
Block Foreign-MS Mode |
Current setting for the block-foreign-ms command: •Enable—Blocking for foreign MSs is configured. •Disable—Blocking for foreign MSs is not configured. |
VPN |
Indicates whether a Virtual Private Network (VPN) is enabled or disabled at the access point. Note VRF is not supported for IPv6 PDPs. Therefore, if the ipv6 command is configured on an APN on which VRF is enabled, the IPv4 PDPs are routed in VRF, but the IPv6 PDPs are routed in the global routing table. |
GPRS vaccess interface |
Name of the virtual access interface associated with the VPN. If no VPN is configured at the access point, the name of the virtual access interface for the GGSN virtual template is shown, which is always Virtual-Access1. |
RADIUS attribute suppress MSISDN |
Current setting for the msisdn suppression command: •Enabled—GGSN overrides or suppresses the Mobile Subscriber ISDN (MSISDN) number in its RADIUS authentication. •Disabled—GGSN does not override or suppress the MSISDN number in its RADIUS authentication. |
RADIUS attribute suppress IMSI |
Current setting for the radius attribute suppress imsi command: •Enabled—GGSN suppresses the 3GPP-IMSI number in its authentication and accounting requests to a RADIUS server. •Disabled—GGSN does not suppress the 3GPP-IMSI number in its authentication and accounting requests to a RADIUS server. |
RADIUS attribute suppress SGSN Address |
Current setting for the radius attribute suppress sgsn-address command: •Enabled—GGSN suppresses the 3rd Generation Partnership Program (3GPP) Vendor-Specific Attribute (VSA) 3GPP-SGSN-Address subattribute in its RADIUS authentication and accounting requests. •Disabled—GGSN does not suppress the 3GPP VSA 3GPP-SGSN-Address subattribute in its RADIUS authentication and accounting requests. |
RADIUS attribute suppress QoS |
Current setting for the radius attribute suppress qos command: •Enabled—GGSN suppresses the 3GPP VSA 3GPP-QoS-Profile subattribute in its RADIUS authentication and accounting requests. •Disabled—GGSN does not suppress the 3GPP VSA 3GPP-QoS-Profile subattribute in its RADIUS authentication and accounting requests. |
number of ip_address_allocated |
Number of IP addresses allocated to MS users. |
session timeout |
Amount of time that the GGSN waits before purging mobile sessions for the access point configured by using the gtp pdp-context timeout session command in access point configuration mode. |
idle_timeout |
Number of seconds the GGSN allows a PDP context to be idle before terminating the context as configured by using the gprs gtp pdp-context timeout idle global configuration command. |
Verify mobile source addr |
Current setting for the security verify source command: •Enabled—GGSN verifies the source IP address of upstream Transport Protocol Data Unit (TPDUs) against addresses previously assigned to MSs. •Disabled—GGSN does not verify the source IP address of upstream TPDUs against addresses previously assigned to MSs. |
Verify mobile destination addr |
Current setting for the security verify destination command: •Enabled—GGSN verifies the destination address of upstream TPDUs against the global list of Public Land Mobile Network (PLMN) addresses specified using the gprs plmn ip address command. •Disabled—GGSN does not verify the destination address of upstream TPDUs against the global list of PLMN addresses specified using the gprs plmn ip address command. |
Mobile-to-Mobile |
Current setting for the redirect intermobile ip command. |
Total number of PDP in this APN |
Number of active PDP contexts for this access point. |
aggregate |
Route aggregation configuration information on the GGSN. The output display includes the "In APN" field for configuration information for the access point, and the "In global" field for global configuration on the GGSN. The output field may contain the following information: •IP network address and mask for which PDP requests on the access point will be collectively routed over the virtual template interface on the GGSN. IP address and mask information appears if an aggregate range has been configured on the GGSN. •auto—Indicates that the GGSN uses the allocated IP mask from the DHCP (IPv4 PDPs) or RADIUS server to perform route aggregation on the APN. The keyword auto appears when the APN has been configured with the aggregate auto command in access point configuration mode. This value applies only to the APN. •Disable—Indicates that route aggregation is not configured at either the APN or global level. |
primary dns |
IP address of the primary DNS to be sent in Create PDP Context responses at the access point. |
secondary dns |
IP address of the secondary (backup) DNS to be sent in Create PDP Context responses at the access point |
primary nbns |
IP address of the primary NetBIOS Name Service (NBNS) to be sent in Create PDP Context responses at the access point. |
secondary nbns |
IP address of the secondary (backup) NBNS to be sent in Create PDP Context response at the access point. |
Service Mode |
Indicates whether a GGSN is in operational mode or maintenance mode. |
cac policy |
Name of the CAC maximum QoS policy applied to the APN, if any. |
input bandwidth pool |
Name of the bandwidth pool, if any, applied to the output (Gn) interface in the downlink direction. |
output bandwidth pool |
Name of the bandwidth pool, if any, applied to the output (Gi) interface in the uplink direction. |
input service-policy |
Service policy attached to the APN using the service-policy access point configuration command. |
single pdp-session |
Whether the GGSN has been configured to delete the primary PDP context, and any associated secondary PDP contexts, of a hanging PDP session upon receiving a new Create PDP Context request from the same MS that shares the same IP address of the hanging PDP context. Possible values are: •Enabled—The feature is enabled on the APN and applies to all users for whom the "gtp-pdp-session=single-session" Cisco VSA has been defined in their RADIUS user profile. •Disabled—The feature is disabled on the access point and does not apply to any user regardless of the RADIUS user profile configuration. •Mandatory—The feature is enabled on the APN and applies to all users on that APN regardless of the RADIUS user profile configuration. |
P-CSCF group name |
Name of the P-CSCF server group(s) used by this APN for P-CSCF Discovery. |
IPV6 enable |
Current setting for the ipv6 command: •Enabled—Access point is configured to allow both IPv4 and IPv6 PDP contexts. •Exclusive—Access point is configured to allow only IPv6 PDP contexts. |
IPV6 base template |
Virtual template interface, which contains IPv6 routing advertisements (RAs) parameters, for an APN to copy to create virtual subinterfaces for IPv6 PDP contexts. |
IPV6 uplink access list |
IPv6 access list for inbound packets. |
IPV6 downlink access list |
IPv6 access list for outbound packets. |
IPV6 dynamic_address_pool |
Current setting for the ipv6 ipv6-address-pool command. |
IPV6 local prefix pool |
Local IPv6 prefix pool. |
IPV6 primary dns |
IPv6 address of the primary IPv6 DNS to be sent in Create PDP Context responses at the access point. |
IPV6 secondary dns |
IPv6 address of the secondary (backup) IPv6 DNS to be sent in Create PDP Context responses at the access point |
VRF name |
Name assigned to the VPN Routing and Forwarding instance. A value of None appears when VRF is not enabled at the access point. |
Example 2
The following is sample output from the show gprs access-point address-allocation command:
router# show gprs access-point 8 address-allocation
1111111100000099 10.88.105.227
1111111100000191 10.88.105.7
1111111100000192 10.88.105.70
1111111100000297 10.88.106.162
1111111100000298 10.88.106.169
1111111100000299 10.88.106.161
1111111100000391 10.88.106.150
1111111100000392 10.88.106.25
1111111100000442 10.88.106.196
1111111100000443 10.88.106.197
1111111100000886 10.88.108.153
1111111100000887 10.88.108.158
2222222200000000 10.88.111.255
Table 8 describes the fields show in the display.
Table 8 show gprs access-point address-allocation Field Descriptions
|
|
TID |
Tunnel ID for the Create PDP Context request on the APN. |
PDP_ADDRESS |
IP address assigned to the Create PDP Context request on the APN. |
Example 3
The following is sample output of the show gprs access-point all command:
router# show gprs access-point all
There are 3 Access-Points configured
Index Mode Access-type AccessPointName VRF Name
-----------------------------------------------------------------------
1 transparent Real corporate_1.com corporate_1.com
ppp-regeneration (max-session: 10000, setup-time: 60)
-----------------------------------------------------------------------
2 non-transparent Real corporate_2.com
-----------------------------------------------------------------------
3 transparent Virtual corporate_3.com
-----------------------------------------------------------------------
Table 9 describes the fields show in the display.
Table 9 show gprs access-point all Field Descriptions
|
|
Index |
Integer assigned to the access point in the GGSN configuration. The index number is used to reference an APN in GGSN commands. |
Mode |
Authorization configured on the access point. The possible values are: •transparent—Users who access the PDN through the access point associated with the current virtual template are allowed access without authorization or authentication. •non-transparent—Users who access the PDN through the current virtual template must be authenticated by the GGSN acting as a proxy for the authentication. |
Access-type |
Type of access point. The possible values are: •Real—APN type that corresponds to an external physical network on the GGSN. This is the default value. •Virtual—APN type that is not associated with any specific physical target network on the GGSN. Virtual APNs are used to simply HLR provisioning in the PLMN. |
AccessPointName |
Access point network ID, which is commonly an Internet domain name. |
VRF Name |
Name of the VPN routing and forwarding instance associated with the APN. |
ppp-regeneration (max-session, setup-time) |
PPP regeneration session parameters configured at the access point: •max-session—Maximum number of PPP regenerated sessions allowed at the access point. •setup-time—Maximum amount of time (between 1 and 65535 seconds) within which a PPP regenerated session must be established. |
Related Commands
|
|
access-point |
Specifies an access point number and enters access point configuration mode. |
show gprs access-point statistics
To display data volume and packet data protocol (PDP) activation and deactivation statistics for access points on the gateway GPRS support node (GGSN), use the show gprs access-point statistics command in privileged EXEC mode.
To display data volume and PDP activation and deactivation statistics for access points on the gateway GPRS support node (GGSN), use the show gprs access-point statistics command in privileged EXEC mode.
show gprs access-point statistics {access-point-index | all}
Syntax Description
access-point-index |
Index number of an access point. Statistics for that access point are shown. |
all |
Statistics for all access points on the GGSN are shown. |
Defaults
No default behavior or values.
Command Modes
Privileged EXEC
Command History
|
|
12.2(4)MX |
This command was introduced. |
12.2(8)YD |
This command was integrated into Cisco IOS Release 12.2(8)YD. |
12.2(8)YW |
This command was integrated into Cisco IOS Release 12.2(8)YW. |
12.3(2)XB |
This command was integrated into Cisco IOS Release 12.3(2)XB. |
12.3(8)XU |
This command was integrated into Cisco IOS Release 12.3(8)XU and the following new output fields were added: •DHCP address requests sent by GGSN •DHCP address requests successful •DHCP address release sent by GGSN •downstream packet count •upstream packet count |
12.3(11)YJ |
This command was integrated into Cisco IOS Release 12.3(11)YJ. |
12.3(14)YQ |
This command was integrated into Cisco IOS Release 12.3(14)YQ. |
12.3(14)YU |
This command was integrated into Cisco IOS Release 12.3(14)YU. |
12.4(2)XB |
This command was integrated into Cisco IOS Release 12.4(2)XB. |
12.4(9)XG |
This command was integrated into Cisco IOS Release 12.4(9)XG and the following IPv6-related fields were added to the show gprs access-point statistics access-point-index command display: •ms init ipv6 pdp activation •successful ms init ipv6 pdp activation •dynamic ipv6 PDP activation •successful dynamic ipv6 activation •ms init ipv6 pdp deactivation •successful ms init ipv6 pdp deactivation •ggsn init ipv6 pdp deactivation •successful ggsn init ipv6 pdp deactivation •network init ipv6 pdp deactivation •successful network init ipv6 pdp deactivation •upstream ipv6 data bytes •upstream ipv6 data pak •downstream ipv6 data bytes •downstream ipv6 pak |
12.4(15)XQ |
This command was integrated into Cisco IOS Relesae 12.4(15)XQ and the following fields were added to the display: •PDP update initiated by GGSN •Successful PDP update initiated by GGSN •Total number of successful COA requests •Number of times direct tunnel enabled |
Usage Guidelines
Use the show gprs access-point statistics command to display data volume and PDP activation and deactivation statistics for access points on the GGSN.
Use the access-point-index argument to specify a particular access point number for which you want to obtain information.
Use the all keyword to obtain information about all access points in an abbreviated format.
Examples
The following example displays PDP context activation and deactivation statistics for all access points on the GGSN:
router# show gprs access-point statistics 3
PDP activation initiated by MS: 11
PDP update initiated by GGSN 0
Successful PDP update initiated by GGSN 0
Successful PDP activation initiated by MS: 8
*Dynamic PDP activation initiated by MS: 11
Successful dynamic activation initiated by MS: 8
PDP deactivation initiated by MS: 0
Successful PDP deactivation initiated by MS: 0
Network initiated PDP activation: 0
Successful network initiated PDP activation: 0
PDP deactivation initiated by GGSN: 4
Successful PDP deactivation initiated by GGSN: 3
upstream data volume in octets: 0
*downstream data volume in octets: 0
downstream packet count: 0
*DHCP address requests sent by GGSN: 0
*DHCP address requests successful: 0
*DHCP address release sent by GGSN: 0
ms init ipv6 pdp activation 11
successful ms init ipv6 pdp activation 8
dynamic ipv6 pdp activation 11
successful dynamic v6 pdp activation 8
ms init ipv6 pdp deactivation 0
successful ms init v6 pdp deactivation 0
ggsn init ipv6 pdp deactivation 4
successful ggsn init v6 pdp deactivation 3
network init ipv6 pdp deactivation 0
successful network init ipv6 pdp deactivation 0
upstream ipv6 data bytes 192
downstream ipv6 data bytes 3552
downstream ipv6 data pak 48
Total number of successful COA requests 0
Number of times direct tunnel enabled 0
Table 10 show gprs access-point statistics Field Descriptions
|
|
active PDP |
Number of IPv4 PDP contexts that are currently established on the GGSN. |
downstream data volume in octets |
Number of bytes of data received by the GGSN from the PDN, or network. |
downstream packet count |
Downstream traffic byte counts. |
DHCP address release sent by GGSN |
Number of DHCP release packets sent by a DHCP server to the GGSN. |
DHCP address requests sent by GGSN |
Number of DHCP request packets sent to a DHCP server by the GGSN. |
DHCP address requests successful |
Number of DHCP requests that were successful. |
Dest addr violation |
Number of IPv4 packets (and bytes) dropped by the GGSN because of a source address violation. This field displays only when the security verify destination command is configured. This field does not apply to APNs using VRF. In addition, verification of destination addresses does not apply to GTP-PPP regeneration or GTP-PPP with L2TP. |
Dynamic PDP activation initiated by MS |
Number of Create PDP Context Request messages received by the GGSN from an MS without a PDP address. (Duplicate requests are not counted.) |
downstream ipv6 data bytes |
Number of bytes of IPv6 data received by the GGSN from the PDN, or network. |
downstream ipv6 pak |
Downstream IPv6 traffic byte counts. |
dynamic ipv6 PDP activation |
Number of IPv6 Create PDP Context requests received by the GGSN from an MS requesting dynamic IPv6 address allocation. |
ggsn init ipv6 pdp deactivation |
Number of IPv6 PDP context deactivation requests initiated by the GGSN. |
upstream ipv6 data bytes |
Number of bytes of IPv6 data received by the GGSN from the SGSN. |
upstream ipv6 data pak |
Upstream IPv6 traffic byte counts. |
ms init ipv6 pdp activation |
Number of IPv6 Create PDP Context requests received by the GGSN that were initiated by the MS. |
ms init ipv6 pdp deactivation |
Number of IPv6 Delete PDP Context requests received by the GGSN that were initiated by the MS. |
Number of times direct tunnel enabled |
Number of direct tunnel PDPs established. |
network init ipv6 pdp deactivation |
Number of IPv6 Create PDP Context Request messages received by the GGSN that were network-initiated. |
successful dynamic ipv6 activation |
Number of successful IPv6 PDP context creations initiated by mobile user that used dynamic ipv6 address allocation. |
successful ggsn init ipv6 pdp deactivation |
Number of IPv6 PDP contexts that were successfully deactivated by a GGSN-initiated request. |
successful ms init ipv6 pdp activation |
Number of successful IPv6 PDP context creations initiated by a SGSN-initiated request. |
successful ms init ipv6 pdp deactivation |
Number of IPv6 PDP contexts that were successfully deactivated by a SGSN-initiated request. |
successful network init ipv6 pdp activation |
Number of IPv6 PDP contexts that were successfully activated by a network-initiated request. |
successful network init ipv6 pdp deactivation |
Number of IPv6 PDP contexts that were successfully deactivated by a network-initiated request. |
Network initiated PDP activation |
Number of Create PDP Context Request messages received by the GGSN from network initiation. |
PDP activation initiated by MS |
Number of Create PDP Context Request messages received by the GGSN from an SGSN. (Duplicate requests are not counted.) |
PDP deactivation initiated by GGSN |
Number of Delete PDP Context Request messages sent by the GGSN to an SGSN. |
PDP deactivation initiated by MS |
Number of Delete PDP Context Request messages received by the GGSN from an SGSN. (Duplicate messages are not counted.) |
PDP update initiated by GGSN |
Number of Update PDP Context Requests that were initiated by the GGSN. |
ppp-regeneration (max-session, setup-time) |
PPP regeneration session parameters configured at the access point: max-session—Maximum number of PPP regenerated sessions allowed at the access point. setup-time—Maximum amount of time (between 1 and 65535 seconds) within which a PPP regenerated session must be established. |
Redirected mobile-to-mobile traffic |
Number of IPv4 packets (and bytes) dropped at the APN from which they exit because mobile-to-mobile traffic has been redirected. This field displays only when the redirect intermobile ip command is configured. |
Src addr violation |
Number of IPv4 packets (and bytes) dropped because of source address violation. This field displays only when the security verify source command is configured. |
Successful dynamic activation initiated by MS |
Number of Create PDP Context Response messages sent by the GGSN with a cause value of "GTP_RES_REQACCEPTED", indicating that the PDP address has been dynamically assigned. |
Successful network initiated PDP activation |
Number of PDP contexts activated on the GGSN that were initiated by the network. |
Successful PDP activation initiated by MS |
Number of Create PDP Context Response messages sent by the GGSN with a cause value of "GTP_RES_REQACCEPTED." |
Successful PDP deactivation initiated by GGSN |
Number of Delete PDP Context Response messages received by the GGSN from an SGSN. |
Successful PDP deactivation initiated by MS |
Number of Delete PDP Context Response messages sent by the GGSN to an SGSN with a cause value of "GTP_RES_REQACCEPTED". |
Successful PDP update initiated by GGSN |
Number of Update PDP Context Requests initiated by the GGSN that were successful. |
Total number of successful CoA requests |
Number of CoA requests, containing new QoS, that were successful. |
upstream data volume in octets |
Number of bytes of data received by the GGSN from the SGSN. |
upstream packet count |
Upstream traffic byte counts. |
Related Commands
|
|
clear gprs access-point statistics |
Clears statistics counters for a specific access point or for all access points on the GGSN. |
show gprs access-point |
Displays information about access points on the GGSN. |
show gprs access-point throughput statistics
To display throughput statistics for access points on a gateway GPRS support node (GGSN), use the show gprs access-point throughput statistics command in privileged EXEC mode.
show gprs access-point throughput statistics {access-point-index | all}
Syntax Description
access-point-index |
Index number of an access point. Statistics for that access point are shown. |
all |
Statistics for all access points on the GGSN are shown. |
Defaults
No default behavior or values.
Command Modes
Privileged EXEC
Command History
|
|
12.3(8)XU |
This command was introduced. |
12.3(11)YJ |
This command was integrated into Cisco IOS Release 12.3(11)YJ. |
12.3(14)YQ |
This command was integrated into Cisco IOS Release 12.3(14)YQ. |
12.3(14)YU |
This command was integrated into Cisco IOS Release 12.3(14)YU. |
12.4(2)XB |
This command was integrated into Cisco IOS Release 12.4(2)XB. |
Usage Guidelines
Use the show gprs access-point throughput statistics command to display throughput statistics for access points on the GGSN.
Use the access-point-index argument to specify a particular access point number for which you want to obtain information.
Use the all keyword to obtain information about all access points in an abbreviated format.
Examples
The following example displays throughput statistics for access point 1:
GGSN# show gprs access-point throughput statistics 1
Collection interval - 1 min, Last collected at - 1 min back
upstream data volume in octets: 0
downstream data volume in octets: 0
downstream packet count: 0
Collection interval - 2 min, Last collected at - 2 min back
upstream data volume in octets: 0
downstream data volume in octets: 0
downstream packet count: 0
Related Commands
|
|
clear gprs access-point statistics |
Clears statistics counters for a specific access point or for all access points on the GGSN. |
gprs throughput interval |
Configures the interval at which the GGSN collects throughput data for APNs. |
show gprs access-point |
Displays information about access points on the GGSN. |
show gprs bandwidth-pool status
To display a list of configured CAC bandwidth pools, along with their status, use the show gprs bandwidth-pool status command in privileged EXEC mode.
show gprs bandwidth-pool status pool-name
Syntax Description
This command has no arguments or keywords.
Defaults
No default behavior or values.
Command Modes
Privileged EXEC
Command History
|
|
12.3(8)XU |
This command was introduced. |
12.3(11)YJ |
This command was integrated into Cisco IOS Release 12.3(11)YJ. |
12.3(14)YQ |
This command was integrated into Cisco IOS Release 12.3(14)YQ. |
12.3(14)YU |
This command was integrated into Cisco IOS Release 12.3(14)YU. |
12.4(2)XB |
This command was integrated into Cisco IOS Release 12.4(2)XB. |
Usage Guidelines
Use the show gprs bandwidth-pool status command to display a list of configured bandwidth pools and their status.
Examples
The following is sample output of the show gprs bandwidth-pool status command:
GGSN#show gprs bandwith-pool status bwpool1
=====================================================================
conversational Total BW:400000 Available BW:400000
streaming Total BW:300000 Available BW:300000
interactive Total BW:200000 Available BW:200000
background Total BW:100000 Available BW:100000
Table 8 describes the fields shown in the display.
Table 11 show gprs bandwidth-pool status Field Descriptions
|
|
BW Name |
Name of the bandwidth pool as defined using the gprs bandwidth-pool global configuration command and each sub traffic class -based pools defined using the traffic-class bandwidth pool configuration command. |
Total BW |
Total amount of bandwidth, in kilobits per second, allocated to a bandwidth pool using the bandwidth bandwidth pool configuration command. Also, the total bandwidth allocated to a sub traffic class-based pool, defined as a percentage or absolute value using the traffic-class bandwidth pool configuration command. |
Available BW |
Remaining amount of bandwidth, in kilobits per second, for a bandwidth pool and the remaining available bandwidth (in percentage or absolute value) for each sub traffic class-based pool. |
conversational |
Amount of the bandwidth pool bandwidth, in kilobits per second or as a percentage, allocated to the Conversational traffic class and the bandwidth currently available. |
streaming |
Amount of the bandwidth pool bandwidth, in kilobits per second or as a percentage, allocated to the Streaming traffic class and the bandwidth currently available. |
interactive |
Amount of the bandwidth pool bandwidth, in kilobits per second or as a percentage, allocated to the Interactive traffic class and the bandwidth currently available. |
background |
Amount of the bandwidth pool bandwidth, in kilobits per second or as a percentage, allocated to the Background traffic class and the bandwidth currently available. |
Related Commands
|
|
bandwidth |
Defines the total bandwidth, in kilobits per second, for a bandwidth pool. |
bandwidth-pool |
Applies a bandwidth pool to an APN. |
gprs qos bandwidth-pool |
Creates or modifies a bandwidth pool. |
traffic-class |
Allocates bandwidth pool bandwidth to a specific traffic class. |
show gprs charging parameters
To display information about the current gateway GPRS support note (GGSN) charging configuration, use the show gprs charging parameters command in privileged EXEC mode.
show gprs charging parameters
Syntax Description
This command has no arguments or keywords.
Defaults
No default behavior or values.
Command Modes
Privileged EXEC
Command History
|
|
12.1(1)GA |
This command was introduced. |
12.1(5)T |
This command was integrated into Cisco IOS Release 12.1(5)T. |
12.2(4)MX |
This command was integrated into Cisco IOS Release 12.2(4)MX. The following output fields were added to the display: •Charging CDR Option Local Record Sequence Number •Charging CDR Option No Partial CDR Generation •Charging CDR Option Node ID •Charging CDR Option Packet Count •Charging Change Condition Limit •Charging Send Buffer Size •Charging GTP' Port Number •Charging MCC Code •Charging MNC Code •Charging Roamers CDR Only •Charging HPLMN Matching Criteria •Charging SGSN Limit The following output fields were removed from the display: •Charging MCC Code •Charging MNC Code •Charging HPLMN Matching Criteria |
12.2(8)YD |
This command was integrated into Cisco IOS Release 12.2(8)YD. |
12.2(8)YW |
This command was integrated into the Cisco IOS Release 12.2(8)YW. •The Charging Path Protocol field was changed from binary 0 and 1 to udp and tcp. •The Charging qos-info output field was changed to Charging release. •The following output fields were added to the display: –Charging Time Limit –Charging qos-info –Charging Transfer Format. –GTP' use short header |
12.3(2)XB |
This command was integrated into Cisco IOS Release 12.3(2)XB. |
12.3(8)XU |
This command was integrated into Cisco IOS Release 12.3(8)XU and the following fields were added to the display: •Access Point Name •ChCh Selection Mode •Default Tertiary Charging Gateway Address •Dynamic Address •External Charging ID •PDP Type •Served PDP Address •Service Mode •SGSN PLMN ID |
12.3(11)YJ |
This command was integrated into Cisco IOS Release 12.3(11)YJ. |
12.3(14)YQ |
This command was integrated into Cisco IOS Release 12.3(14)YQ. |
12.3(14)YU |
This command was integrated into the Cisco IOS Release 12.3(14)YU and the following fields were added to the display: •Access Point Name Virtual •Camel Charging Info •IMEISV •MS Time Zone •Radio Access Technology •User Location Information |
12.4(2)XB |
This command was integrated into Cisco IOS Release 12.4(2)XB. |
12.4(9)XG |
This command was integrated into Cisco IOS Release 12.4(9)XG. |
12.4(15)XQ |
This command was integrated into Cisco IOS Release 12.4(15)XQ and the following fields were added to the display: •GGSN's iSCSI profile •Charging Source Interface |
Usage Guidelines
Use the show gprs charging parameters command to display the currently active charging parameters for the GGSN.
Examples
The following is sample output of the show gprs charging parameters command:
Router# show gprs charging parameters
GPRS Charging Protocol Parameters
=================================
* Default Charging Gateway Address: <172.17.1.2>
* Default Backup Charging Gateway Address: UNDEFINED.
* Default Tertiary Charging Gateway Address:UNDEFINED.
* Backup data store (PSD) Address: UNDEFINED
* Retrieve only data store (PSD) Address UNDEFINED
* GGSN's iSCSI profile: TARGET_LINUX
* Current Active Charging Gateway Address: <172.17.1.2>
* Current Backup Charging Gateway Address: UNDEFINED.
* Charging Server Switch-Over Timer: <60> seconds.
* Charging Path Protocol: udp
* GTP' use short header: DISABLED
* Charging Message Options:
- Packet Transfer Command IE: DISABLED.
- Number Responded: DISABLED.
* Charging MAP DATA TOS: <3>
* Charging Transfer Interval: <105> seconds.
* Charging Transfer Threshold: <1048576> bytes.
* Charging CDR Aggregation Limit: <255> CDRs per msg.
* Charging Packet Queue Size: <128> messages.
* Charging Gateway Path Request Timer: <0> Minutes.
* Charging Change Condition Limit: <5>
* Charging SGSN Limit: DISABLED.
* Charging Time Limit: <0>
* Charging Send Buffer Size: <1460>
* Charging Port Number: <3386>
* Charging Roamers CDR Only: DISABLED.
- Local Record Sequence Number: DISABLED.
- APN Selection Mode: DISABLED.
- ChCh Selection Mode: DISABLED.
- Radio Access Type - RAT: DISABLED.
- User Location Information: ENABLED.
- CAMEL Charging Info: ENABLED.
- SGSN PLMN ID: DISABLED.
- Dynamic Address: ENABLED.
- Served PDP Address: ENABLED.
- Access Point Name: ENABLED.
- Network Initiated PDP: ENABLED.
- No Partial CDR Generation: DISABLED.
- Packet Count: DISABLED.
- Served MSISDN: DISABLED.
- Private Echo: DISABLED.
* Charging Tariff Time Changes:
* Charging Service Mode: OPERATIONAL
* Charging Source Interface loopbackX
* Backup data store (PSD) Address: 172.28.28.28
* Retrieve only data store (PSD) Address 192.13.13.13
Table 12 describes the fields shown in the display.
Table 12 show gprs charging parameters Field Descriptions
|
|
Backup data store (PSD) Address |
IP address of the local Persistent Storage Device (PSD) to which G-CDRs are backed up if a charging gateway is unavailable. |
Charging CDR Aggregation Limit |
Maximum number of CDRs that the GGSN aggregates in a charging data transfer message to the charging gateway. You can configure this limit using the gprs charging cdr-aggregation-limit command. |
Charging CDR Option: Access Point Name Charging CDR Option: Access Point Name Virtual |
Status indicating if the GGSN provides the APN or virtual APN parameter in G-CDRs. Possible values are enabled or disabled. You can enable the GGSN to provide the APN or virtual PAN parameter in G-CDRs using the gprs charging cdr-option apn and gprs charging cdr-option apn virtual commands. |
Charging CDR Option: APN Selection Mode |
Status indicating if the GGSN provides the reason code for APN selection in G-CDRs. The possible values are enabled or disabled. You can enable the GGSN to provide the APN selection mode in G-CDRs using the gprs charging cdr-option apn-selection-mode command. |
Charging CDR Option: CAMEL Charging Info |
Status indicating if the GGSN includes a copy of the tag and length of the Customized Application for Mobile Enhanced Logic (CAMEL) from the S-CDR in G-CDRs. You can enable the GGSN to include a copy of the tag and length of the CAMEL in G-CDRs using the gprs charging cdr-option camel-charge-info command. |
Charging CDR Option: ChCh Selection Mode |
Status indicating if the GGSN includes the charging characteristics selection mode parameter in G-CDRs. Possible values are enabled or disabled. |
Charging CDR Option: Dynamic Address |
Status indicating if the GGSN includes the dynamic address flag parameter in G-CDRs. Possible values are enabled or disabled. You can enable the GGSN to provide the APN parameter in G-CDRs using the gprs charging cdr-option dynamic-address command. |
Charging CDR Option: IMEISV |
Status indicating if the GGSN includes the International Mobile Equipment Identity IMEI software version (IMEISIV) in G-CDRs. You can enable the GGSN to include the IMEISIV IE in G-CDRs using the gprs charging cdr-option imeisv command. |
Charging CDR Option: Local Record Sequence Number |
Status indicating if the GGSN uses the local record sequence field in G-CDRs. The possible values are enabled or disabled. You can enable the GGSN to use the local record sequence field in G-CDRs using the gprs charging cdr-option local-record-sequence-number command. |
Charging CDR Option: MS Time Zone |
Status indicating if the GGSN includes the MS time zone (MSTZ) in G-CDRs. You can enable the GGSN to provide MSTZ in G-CDRs using the gprs charging cdr-option ms-time-zone command. |
Charging CDR Option: Network Initiated PDP |
Status indicating if the GGSN includes the NIP parameter in G-CDRs. The possible values are enabled or disabled. You can enable the GGSN to use the local record sequence field in G-CDRs using the gprs charging cdr-option nip command. |
Charging CDR Option: No Partial CDR Generation |
Status indicating if the GGSN can create partial CDRs. The possible values are enabled or disabled. You can disable partial CDR generation by the GGSN using the gprs charging cdr-option no-partial-cdr-generation command. |
Charging CDR Option: Node ID |
Status indicating if the GGSN specifies the name of the node that generated the CDR in the node ID field of the G-CDR. The possible values are enabled or disabled. You can enable the GGSN to use the node ID field in G-CDRs using the gprs charging cdr-option node-id command. |
Charging CDR Option: Packet Count |
Status indicating if the GGSN provides uplink and downlink packet counts in the optional record extension field of a G-CDR. The possible values are ON or OFF. You can enable the GGSN to provide packet counts using the gprs charging cdr-option packet-count command. |
Charging CDR Option: PDP Type |
Status indicating if the GGSN includes the PDP type parameter in G-CDRs. The possible values are enabled or disabled. You can enable the GGSN to provide packet counts using the gprs charging cdr-option pdp-type command. |
Charging CDR Option: Private Echo |
Status indicating if the GGSN uses private echo signaling for flow control. The possible values are enabled or disabled. You can enable private echo signaling using the gprs charging flow-control private-echo command. |
Charging CDR Option: Radio Access Type-RAT |
Status indicating if the GGSN includes the radio access technology (RAT) IE in G-CDRs. You can enable the GGSN to provide the RAT IE in G-CDRs using the gprs charging cdr-option rat-type command. |
Charging CDR Option: Served MSISDN |
Status indicating if the GGSN provides the mobile station integrated services digital network number from the Create PDP Context request in a G-CDR. The possible values are enabled or disabled. You can enable the GGSN to provide the MSISDN number using the gprs charging cdr-option served-msisdn command. |
Charging CDR Option: Served PDP Address |
Status indicating if the GGSN provides the PDP address from the Create PDP Context request in a G-CDR. Possible values are enabled or disabled. You can enable this feature using the gprs charging cdr-option pdp-address command. |
Charging CDR Option: SGSN PLMN ID |
Status indicating if the GGSN includes the SGSN PLMN identifier in G-CDRs. The possible values are enabled or disabled. You can enable the GGSN to include the SGSN PLMN identifier using the gprs charging cdr-option sgsn-plmn command. |
Charging CDR Option: User Location Information |
Status indicating if the GGSN includes the user location information (ULI) IE in G-CDRs. You can configure the GGSN to include the ULI IE in G-CDRs using the gprs charging cdr-option user-loc-info command. |
Charging Change Condition Limit |
Maximum number of charging containers in each G-CDR. You can configure the change condition limit using the gprs charging container change-limit command. |
Charging Gateway Path Request Timer |
Number of minutes that the GGSN waits before trying to establish the TCP path to the charging gateway when TCP is the specified path protocol. You can configure the path request timer using the gprs charging cg-path-requests command. |
Charging Gateway Priority Switchover |
Whether or not the GGSN switches over to a charging gateway of higher priority when that gateway becomes active. The possible values are ENABLED (the GGSN switches over to a charging gateway of higher priority when that gateway becomes active) or DISABLED (the GGSN does not switch over to gateways of higher priority when such a gateway becomes active). You can enable the GGSN to switch over to a higher priority charging gateway using the gprs charging switchover priority command. |
Charging MAP DATA TOS |
Type of service (ToS) priority currently configured for GGSN charging packets. Value (between 0 and 5) is set in the precedence bits of the IP header of charging packets. You can configure the ToS mapping using the gprs charging map data tos command. |
Charging Message Options: Number Responded |
Status indicating if the GGSN uses the Number of Requests Responded field instead of the Length field in the Requests Responded IE of Data Record Transfer Response messages. The possible values are enabled or disabled. You can enable the GGSN to use the Number of Requests Responded field using the gprs charging message transfer-response number-responded command. |
Charging Message Options: Packet Transfer Command IE |
Status indicating if the GGSN includes the Packet Transfer Command IE in the Data Record Transfer Request messages. The possible values are enabled or disabled. You can enable the GGSN to include the Packet Transfer Command IE in the Data Record Transfer Request messages using the gprs charging message transfer-request command-ie command. |
Charging Message Options: Send Possibly Duplicated CDR |
Status indicating if the GGSN retransmits Data Record Transfer Request messages (sent to a previously active charging gateway) with the value of the Packet Transfer Request IE set to Send Possibly Duplicate Data Record Packet (2). The possible values are enabled or disabled. To configure the GGSN to retransmit Data Record Transfer Request messages with the value of the Packet Transfer Request IE set to 2, use the gprs charging message transfer-request possibly-duplicate command. |
Charging Message Options: Transfer Request |
Whether the GGSN includes the Packet Transfer Command IE in the Data Record Transfer Response messages. The possible values are ENABLED (the GGSN includes the Packet Transfer Command IE) or DISABLED (the GGSN does not include the IE). |
Charging Messages Options: Transfer Response |
Whether the GGSN is using the Number of Requests Responded field instead or the Length field in the Requests Responded IE of Data Record Transfer Response messages. The possible values are ENABLED (the GGSN uses the Number of Requests Responded field) or DISABLED (the GGSN uses the Length field). |
Charging Packet Queue Size |
Maximum number of unacknowledged charging data transfer requests that the GGSN maintains in its queue. You can configure the maximum queue size using the gprs charging packet-queue-size command. |
Charging Path Protocol |
Protocol in use between the GGSN and the charging gateway. The possible values are udp or tcp. You can configure the charging path protocol using the gprs charging path-protocol command. |
Charging Port Number |
Destination port of the charging gateway. You can configure the destination port using the gprs charging port command. |
Charging release |
Charging release with which the GGSN is to comply when presenting G-CDRs. Possible values are 98, 99, 4, or 5. You can configure the charging release using the gprs charging release command. |
Charging Roamers CDR Only |
Status of the charging for roamers feature on the GGSN. The possible values are enabled or disabled. You can configure the GGSN to support creation of CDRs for roaming subscribers using the gprs charging roamers command. |
Charging Send Buffer Size |
Size (in bytes) of the buffer that contains the GTP' PDU and signaling messages on the GGSN. You can configure the buffer size using the gprs charging send-buffer command. |
Charging Server Switch-Over Timer |
Amount of time (in seconds) that the GGSN waits before sending charging data to the backup charging gateway, after the active charging gateway fails. You can configure this period of time using the gprs charging server-switch-timer command. |
Charging SGSN Limit |
Maximum number of SGSN changes that can occur before the GGSN closes a G-CDR for a particular PDP context. |
Charging Source Interface |
Loopback interface being used for charging traffic. |
Charging Tariff Time Changes |
Time of day when GGSN charging tariffs change. You can configure this time using the gprs charging tariff-time command. |
Charging Transfer Interval |
Amount of time (in seconds) that the GGSN waits before checking and sending any closed CDRs to the charging gateway. You can configure this period of time using the gprs charging transfer interval command. |
Charging Transfer Threshold |
Maximum size (in bytes) that the GGSN maintains in a charging container before closing it and updating the CDR. You can configure the container volume using the gprs charging container volume-threshold command. |
Current Active Charging Gateway Address |
IP address of the charging gateway to which the GGSN is currently sending charging data. You can configure the primary charging gateway using the gprs default charging-gateway command. |
Current Backup Charging Gateway Address |
IP address of the backup charging gateway to which the GGSN will send charging data if the current active charging gateway becomes unavailable. You can configure the backup charging gateway using the gprs default charging-gateway command. |
Default Backup Charging Gateway Address |
IP address of the default secondary (backup) charging gateway. You can configure the default backup charging gateway using the gprs default charging-gateway command. |
Default Tertiary Charging Gateway Address |
IP address of the default tertiary (backup) charging gateway. You can configure the default backup charging gateway using the gprs default charging-gateway command. |
Default Charging Gateway Address |
IP address of the default primary charging gateway. You can configure the default primary charging gateway using the gprs default charging-gateway command. |
GGSN's iSCSI profile |
Name of the iSCSI target interface profile configured on the GGSN. |
GTP' use short header |
Whether the GGSN is using the GTP short header (6-byte header). The possible values are ENABLED (the GGSN is using the GTP short header) or DISABLED (the GGSN is using the GTP long header). You can configure the GGSN to use the GTP short header using the gprs charging header short command. |
Retrieve only data store (PSD) Address |
IP address of the remote Persistent Storage Device (PSD) from which G-CDRs are only retrieved. |
Related Commands
|
|
show gprs charging statistics |
Displays cumulative charging statistics for the GGSN. |
show gprs charging statistics
To display cumulative charging statistics for the gateway GPRS support node (GGSN), use the show gprs charging statistics command in privileged EXEC mode.
show gprs charging statistics
Syntax Description
This command has no arguments or keywords.
Defaults
No default behavior or values.
Command Modes
Privileged EXEC
Command History
|
|
12.1(1)GA |
This command was introduced. |
12.1(5)T |
This command was integrated into Cisco IOS Release 12.1(5)T. |
12.2(4)MX |
This command was integrated into Cisco IOS Release 12.2(4)MX, and the statistics were changed to be cumulative since the last restart of the GGSN and the keyword options were removed. |
12.2(8)YD |
This command was integrated into Cisco IOS Release 12.2(8)YD. |
12.2(8)YW |
This command was integrated into Cisco IOS Release 12.2(8)YW. |
12.3(2)XB |
This command was integrated into Cisco IOS Release 12.3(2)XB. |
12.3(8)XU |
This command was integrated into Cisco IOS Release 12.3(8)XU. |
12.3(11)YJ |
This command was integrated into Cisco IOS Release 12.3(11)YJ. |
12.3(14)YQ |
This command was integrated into Cisco IOS Release 12.3(14)YQ. |
12.3(14)YU |
This command was integrated into Cisco IOS Release 12.3(14)YU. |
12.4(2)XB |
This command was integrated into Cisco IOS Release 12.4(2)XB. |
Usage Guidelines
Use the show gprs charging statistics command to display cumulative charging statistics since the last restart of the GGSN.
Examples
The following is sample output of the show gprs charging statistics command:
router# show gprs charging statistics all
GPRS Charging Protocol Statistics
=================================
* Total Number of CDRs for Charging: <200>
* Total Number of Containers for Charging: <104>
* Total Number of CDR_Output_Msgs sent: <22>
-- Charging Gateway Statistics --
* Charging Gateway Down Count: <1>
* Last Charging Gateway Down Time = 2001/11/29 15:23:0
Table 10 describes the fields shown in the display.
Table 13 show gprs charging statistics Field Descriptions
|
|
Total Number of CDRs for Charging |
Cumulative number of open and closed G-CDRs on the GGSN since the last startup of the GGSN. |
Total Number of Containers for Charging |
Cumulative number of all open and closed charging containers for all G-CDRs on the GGSN since the last startup of the GGSN. |
Total Number of CDR_Output_Msgs sent |
Cumulative number of G-CDR output messages that the GGSN sent to the charging gateway and received acknowledgment for since the last startup of the GGSN. |
Charging Gateway Down Count |
Number of times that the charging gateway has transitioned its state (from up or unknown, to down) since the last startup of the GGSN. |
Last Charging Gateway Down Time |
Recorded system time when the charging gateway was last in a down state. This statistics only appears if a charging gateway has been down. |
.
Related Commands
|
|
show gprs charging parameters |
Displays information about the current GGSN charging configuration. |
show gprs charging status |
Displays current charging statistics for the GGSN. |
show gprs charging status
To display current charging statistics for the gateway GPRS support node (GGSN), use the show gprs charging status command in privileged EXEC mode.
show gprs charging status {tid tunnel_id | access-point access-point-index | all}
Syntax Description
tid tunnel_id |
Specifies a tunnel ID for which you want to display charging statistics. |
access-point access-point-index |
Specifies the index of the access point for which you want to display charging statistics. |
all |
Requests display of all charging statistics. |
Defaults
No default behavior or values.
Command Modes
Privileged EXEC
Command History
|
|
12.2(4)MX |
This command was introduced. |
12.2(8)YD |
This command was integrated into Cisco IOS Release 12.2(8)YD and the Number of partial CDRs output field was changed to the Number of closed CDRs buffered. |
12.2(8)YW |
This command was integrated into Cisco IOS Release 12.2(8)YW. |
12.3(2)XB |
This command was integrated into Cisco IOS Release 12.3(2)XB and the sgsn_plmn_id field was added to the display. |
12.3(8)XU |
This command was integrated into Cisco IOS Release 12.3(8)XU. |
12.3(11)YJ |
This command was integrated into Cisco IOS Release 12.3(11)YJ. |
12.3(14)YQ |
This command was integrated into Cisco IOS Release 12.3(14)YQ. |
12.3(14)YU |
This command was integrated into Cisco IOS Release 12.3(14)YU. |
12.4(2)XB |
This command was integrated into Cisco IOS Release 12.4(2)XB. |
Usage Guidelines
Use the show gprs charging status command to display current charging statistics for the GGSN since the last G-CDR was sent.
Examples
Example 1
The following is sample output of the show gprs charging status tid command:
router# show gprs charging status tid 1102334415151515
GPRS Charging Protocol Status for TID
=========================================
* Number of closed CDRs buffered: <0>
* Number of Containers: <0>
** Detail fields of CDR entry **
==========================
- served_imsi = 0x112 3344151515F5
- sgsn_plmn_id = 0x21F354
- ggsn_address = 10.10.10.1
- SGSN change list (total=[1]): [4.4.4.4]
- apn = www.gprs_companya.fr
- pdp_type: - pdp_type_org = 1
- pdp_type.chrg_data_vol_list:
- rec_opening_time = 2003/5/9 10:2:12 <tz_offset:0>
- duration = 0 - cause_rec_closing = 0
Table 11 describes the fields shown in the display.
Table 14 show gprs charging status tid Field Descriptions
|
|
Number of CDRs |
Number of currently open and closed G-CDRs on the GGSN for the specified TID, since the last G-CDR was successfully sent to the charging gateway. |
Number of closed CDRs buffered |
Number of currently closed G-CDRs that the GGSN has not yet sent to the charging gateway for the specified TID. |
Number of Containers |
Number of all currently open and closed charging containers for the specified TID, since the last G-CDR was successfully sent to the charging gateway. |
Example 2
The following is sample output of the show gprs charging status access-point command:
router# show gprs charging status access-point 1
GPRS Charging Protocol Status for APN
=========================================
* Number of closed CDRs buffered: <0>
* Number of Containers: <0>
Table 12 describes the fields shown in the display.
Table 15 show gprs charging status access-point Field Descriptions
|
|
Number of CDRs |
Number of currently open and closed G-CDRs on the GGSN for the specified access point, since the last G-CDR was successfully sent to the charging gateway. |
Number of closed CDRs buffered |
Number of currently closed G-CDRs that the GGSN has not yet sent to the charging gateway for the specified access point. |
Number of Containers |
Number of all currently open and closed charging containers for the specified access point, since the last G-CDR was successfully sent to the charging gateway. |
Example 3
The following is sample output of the show gprs charging status all command:
router# show gprs charging status all
GPRS Charging Protocol Status
=================================
* Number of closed CDRs buffered: <0>
* Number of Containers buffered: <0>
* Number of pending unack. CDR_Output_Msgs: <1>
Table 13 describes the fields shown in the display.
Table 16 show gprs charging status Field Descriptions
|
|
Number of APNs |
Number of access points for which charging data has currently been collected. This statistic appears in the all version of this command only. |
Number of CDRs |
Number of currently open and closed G-CDRs on the GGSN since the last G-CDR was successfully sent to the charging gateway. For the tid and access-point versions of this command, this is the number of currently open and closed G-CDRs for the specified TID or access point. |
Number of closed CDRs buffered |
Number of currently closed G-CDRs that the GGSN has not yet sent to the charging gateway. For the tid and access-point versions of this command, this is the number of currently closed G-CDRs for the specified TID or access-point that have not yet been sent to the charging gateway. |
Number of Containers buffered |
Number of all currently open and closed charging containers since the last G-CDR was successfully sent to the charging gateway. |
Number of pending unack. CDR_Output_Msgs |
Number of G-CDR output messages sent by the GGSN that are not acknowledged by the charging gateway. |
Related Commands
|
|
show gprs charging parameters |
Displays information about the current GGSN charging configuration. |
show gprs charging statistics |
Displays cumulative charging statistics for the GGSN. |
show gprs gtp ms
To display the currently active MSs on the gateway GPRS support node (GGSN), use the show gprs gtp ms command in privileged EXEC mode.
show gprs gtp ms {imsi imsi| access-point access-point-index | all}
Syntax Description
imsi imsi |
Displays MSs by International Mobile Subscriber Identity (IMSI). The IMSI can be up to 15 numeric digits. You can obtain the IMSI from the output for the show gprs gtp ms all command or the show gprs gtp pdp-context tid command. |
access-point access-point-index |
Displays MSs by access point. |
all |
Displays all MSs. |
Defaults
No default behavior or values.
Command Modes
Privileged EXEC
Command History
|
|
12.2(8)YW |
This command was introduced. |
12.3(2)XB |
This command was integrated into Cisco IOS Release 12.3(2)XB. •The MS Addr field was updated to reflect the virtual interface identifier for PPP PDP contexts and the status of PPP PDP with L2TP contexts. •The SGSN MCC/MNC field was added |
12.3(8)XU |
This command was integrated into Cisco IOS Release 12.3(8)XU. |
12.3(11)YJ |
This command was integrated into Cisco IOS Release 12.3(11)YJ. |
12.3(14)YQ |
This command was integrated into Cisco IOS Release 12.3(14)YQ. |
12.3(14)YU |
This command was integrated into Cisco IOS Release 12.3(14)YU. |
12.4(2)XB |
This command was integrated into Cisco IOS Release 12.4(2)XB. |
Usage Guidelines
Use the show gprs gtp ms command to display information about the mobile stations that are currently active on the GGSN. You can display the MS information according to access-point or IMSI. You can also display information for all MSs.
Examples
The following example displays information for all MSs:
router# show gprs gtp ms all
IMSI SGSN MCCMNC MS ADDRESS APN
112233445565437 12345 10.3.0.1 gprsa.apn.com
223456788765437 67891 10.2.0.1 (Vi5) gprsb.apn.com
The following example displays information for all MSs on access-point 1:
router# show gprs gtp ms access-point 1
IMSI SGSN MCCMNC MS ADDRESS APN
112233445565437 12345 10.3.0.1 gprsa.apn.com
The following example displays information for all MSs on IMSI 110406080002045:
router# show gprs gtp ms imsi 110406080002045
IMSI SGSN MCCMNC MS ADDRESS APN
110406080002045 12345 10.10.10.2 gprsc.apn.com
Table 14 describes the fields shown in the display.
Table 17 show gprs gtp ms Field Descriptions
|
|
IMSI |
International mobile subscriber identity for the MSs. |
MS ADDRESS |
The IP address for the MSs. Note For PPP PDP contexts, this field will also display the virtual interface identifier. For PPP PDP with L2TP contexts, this field will also display the state of the PDP context. Possible states are Pending, Forwarded, or Terminating. |
APN |
Access point name. |
number of pdp |
Number of PDP contexts on the MSs. |
reference count |
Internal data structure field. It is used only for internal troubleshooting purposes. |
SGSN MCCMNC |
MCC/MNC of the SGSN. |
Related Commands
|
|
show gprs gtp pdp-context |
Displays a list of the currently active PDP contexts (mobile sessions). |
show gprs gtp status |
Displays information about the current status of the GTP on the GGSN (such as activated PDP contexts, throughput, and QoS statistics). |
show gprs gtp parameters
To display information about the current GPRS Tunneling Protocol (GTP) configuration on the gateway GPRS support node (GGSN), use the show gprs gtp parameters command in privileged EXEC mode.
show gprs gtp parameters
Syntax Description
This command has no arguments or keywords.
Defaults
No default behavior or values.
Command Modes
Privileged EXEC
Command History
|
|
12.1(1)GA |
This command was introduced. |
12.1(5)T |
This command was integrated into Cisco IOS Release 12.1(5)T. |
12.2(4)MX |
This command was integrated into Cisco IOS Release 12.2(4)MX. The following output fields were added to the display: •Charging MCC Code •Charging MNC Code •Charging HPLMN Matching Criteria •GTP dynamic echo-timer minimum •GTP dynamic echo-timer smooth factor The following output field was removed: •GTP max hold time for old sgsn PDUs T3_tunnel |
12.2(8)YD |
This command was integrated into Cisco IOS Release 12.2(8)YD and the following output field was removed from the display: •GPRS HPLMN Matching Criteria |
12.2(8)YW |
This command was integrated into Cisco IOS Release 12.2(8)YW. |
12.3(2)XB |
This command was integrated into Cisco IOS Release 12.3(2)XB. |
12.3(8)XU |
This command was integrated into Cisco IOS Release 12.3(8)XU and the following output fields were removed from the display: •GPRS MCC Code •GPRS MNC Code |
12.3(11)YJ |
This command was integrated into Cisco IOS Release 12.3(11)YJ. |
12.3(14)YQ |
This command was integrated into Cisco IOS Release 12.3(14)YQ. |
12.3(14)YU |
This command was integrated into Cisco IOS Release 12.3(14)YU. |
Usage Guidelines
Use the show gprs gtp parameters command to display the current GTP parameters configured on the GGSN.
Examples
The following is sample output of the show gprs gtp parameters command:
router# show gprs gtp parameters
GTP path echo interval = 60
GTP signal max wait time T3_response = 1
GTP max retry N3_request = 5
GTP dynamic echo-timer minimum = 5
GTP dynamic echo-timer smooth factor = 2
GTP buffer size for receiving N3_buffer = 8192
GTP max pdp context = 45000
Table 15 describes the fields shown in the display.
.
Table 18 show gprs gtp parameters Field Descriptions
|
|
GTP buffer size for receiving N3_buffer |
Current size of the receive buffer (in bytes) that the GGSN uses to receive GTP signaling messages and packets sent through the tunneling protocol. You can configure the N3 buffer using the gprs gtp n3-buffer-size command. |
GTP dynamic echo-timer minimum |
Current minimum time period (in seconds) used by the dynamic echo timer. You can configure the minimum value using the gprs gtp echo-timer dynamic minimum command. |
GTP dynamic echo-timer smooth factor |
Current multiplier used by the GGSN to calculate the T-dynamic for the dynamic echo timer. You can configure the smooth factor using the gprs gtp echo-timer dynamic smooth-factor command. |
GTP max pdp context |
Current maximum number of PDP contexts (mobile sessions) that can be activated on the GGSN. You can configure the maximum number of PDP context requests using the gprs maximum-pdp-context-allowed command. |
GTP max retry N3_request |
Maximum number of times that the GGSN attempts to send a signaling request to an SGSN. You can configure the maximum number of signaling requests made by the GGSN using the gprs gtp n3-requests command. |
GTP path echo interval |
Interval, in seconds, that the GGSN waits before sending an echo-request message to the SGSN. You can configure the path echo interval using the gprs gtp path-echo-interval command. |
GTP signal max wait time T3_response |
Interval, in seconds, that the GGSN waits before responding to a signaling request message. You can configure the maximum interval using the gprs gtp t3-response command. |
Related Commands
|
|
show gprs gtp statistics |
Displays the current GTP statistics for the GGSN (such as IE, GTP signaling, and GTP PDU statistics). |
show gprs gtp status |
Displays information about the current status of the GTP on the GGSN (such as activated PDP contexts, throughput, and QoS statistics). |
show gprs gtp path
To display information about one or more GTP paths between the gateway GPRS support node (GGSN) and other GPRS/UMTS devices, use the show gprs gtp path command in privileged EXEC mode.
show gprs gtp path {all | remote-address ip-address [remote-port remote-port] | version gtp-version}
Syntax Description
all |
Displays information for all GTP paths. |
remote-address ip-address |
Displays GTP path information for a specified remote IP address. Optionally, displays GTP path information for a specified remote IP address and port number. |
remote-port remote_port_num |
(Optional) Displays GTP path information for a specified remote IP address and port number. |
version gtp-version |
Displays the of GTP paths by the GTP version (0 or 1). |
Defaults
No default behavior or values.
Command Modes
Privileged EXEC
Command History
|
|
12.3(8)XU |
This command was introduced. |
12.3(11)YJ |
This command was integrated into Cisco IOS Release 12.3(11)YJ. |
12.3(14)YQ |
This command was integrated into Cisco IOS Release 12.3(14)YQ. |
12.3(14)YU |
This command was integrated into Cisco IOS Release 12.3(14)YU. |
12.4(2)XB |
This command was integrated into Cisco IOS Release 12.4(2)XB. |
12.4(9)XG |
This command was integrated into Cisco IOS Release 12.4(9)XG. |
12.4(15)XQ |
This command was integrated into Cisco IOS Release 12.4(15)XQ. |
Usage Guidelines
Use the show gprs gtp path command to display information for one or more GTP paths from the GGSN.
Examples
Example 1
The following example shows the output for all GTP paths on the GGSN:
GGSN# show gprs gtp path all
Local address Remote address GTP version Dynamic echo
33.33.33.1(3386) 11.0.0.1(3386) 0 Disabled
Collection interval - 5 min, Last collected at - 3 min back
upstream data volume in octets: 480
downstream data volume in octets: 0
downstream packet count: 0
Collection interval - 10 min, Last collected at - 8 min back
upstream data volume in octets: 120
downstream data volume in octets: 0
downstream packet count: 0
Table 22 describes the fields shown in the display.
Table 19 show gprs gtp path Field Descriptions
|
|
Total number of path |
Total number of GTP paths currently established. |
Local address |
IP address and port number for the local end of the GTP path. |
Remote address |
IP address and port number for the remote end of the GTP path, such as the address of the SGSN. |
GTP version |
Version of the GTP protocol (version 0 or 1) supported by the path. |
Dynamic echo timer |
Current setting (in seconds) for the dynamic echo timer. "Disabled" appears when the dynamic echo timer is not in use. |
show gprs gtp path statistics history
To display statistics (such as the local address and remote port of the path, the GTP version, and the time that the path was deleted) for GTP path entries stored in history, use the show gprs gtp path statistics history command in privileged EXEC mode.
show gprs gtp path statistics history number
Syntax Description
number |
Number of path entries for which to display statistics. |
Command Modes
Privileged EXEC
Command History
|
|
12.4(9)XG |
This command was introduced. |
12.4(15)XQ |
This command was integrated into Cisco IOS Release 12.4(15)XQand the following fields were added to the display: •Total Update requests sent •Total Update responses rcvd •Number of times DT enabled |
12.4(24)T |
This command was integrated into Cisco IOS Release 12.4(24)T. |
Usage Guidelines
Use the show gprs gtp path statistics history command to display statistics for the path entries stored in the path history table. The statistics includes information such as the local address, remote address, GTP version of the path, and the time at which the path was deleted.
The first group of statistics in the list are those of the most recently-deleted path.
The maximum number of path entries stored in the history table is configured by using the gprs gtp path history global configuration command.
Examples
The following is sample output from the show gprs gtp path statistics history command:
Router#show gprs gtp path statistics history
Path: IP address: 172.21.21.21, Remote port: 2152
GPRS GTP Path Statistics:
Unexpected Data Message 0 Received PDU message 0
Total Data dropped 0 Sent PDU message 0
Received PDU bytes 0 Number of short messages 0
Sent PDU bytes 0 Number of unknown message 0
Unexpected signaling message 0 Roaming trusted PDPs 0
Roaming non-trusted PDPs 0 Non-roaming PDPs 0
Source Violations 0 Unsupported extension hdr recd 0
Path failures 0 Path fail due to local delete 0
Total packets dropped 0 Signaling messages dropped 0
Signaling msg received 2 Signaling msg sent 3
Number of PDPs created 0 Number of PDPs deleted 0
Number of PPP PDPs created 0 Number of PPP PDPs deleted 0
Single PDP cleared 0 Creates received as update 0
Local delete: version upgrade 0 Local delete due to no sgsn 0
Local delete: version fallback 0 Create collide with delete 0
Version changes 0 Retransmit for create 0
IPv6 PDP activation rejected 0 IPv6 PDPs created 0
IPv6 PDPs deleted 0 IPv6 signaling msg rcvd 0
IPv6 signaling msg sent 0 IPv6 pdus received 0
IPv6 pdus sent 0 IPv6 bytes received 0
IPv6 bytes sent 0 Total update requests sent 0
Total update responses rcvd 0 Number of times DT enabled 0
Path: IP address: 172.21.21.21, Remote port: 2123
GPRS GTP Path Statistics:
Unexpected Data Message 0 Received PDU message 0
Total Data dropped 0 Sent PDU message 0
Received PDU bytes 0 Number of short messages 0
Sent PDU bytes 0 Number of unknown message 0
Unexpected signaling message 0 Roaming trusted PDPs 0
Roaming non-trusted PDPs 0 Non-roaming PDPs 0
Source Violations 0 Unsupported extension hdr recd 0
Path failures 0 Path fail due to local delete 0
Total packets dropped 0 Signaling messages dropped 0
Signaling msg received 6 Signaling msg sent 12
Number of PDPs created 0 Number of PDPs deleted 0
Number of PPP PDPs created 0 Number of PPP PDPs deleted 0
Single PDP cleared 0 Creates received as update 0
Local delete: version upgrade 0 Local delete due to no sgsn 0
Local delete: version fallback 0 Create collide with delete 0
Version changes 0 Retransmit for create 3
IPv6 PDP activation rejected 0 IPv6 PDPs created 0
IPv6 PDPs deleted 0 IPv6 signaling msg rcvd 0
IPv6 signaling msg sent 0 IPv6 pdus received 0
IPv6 pdus sent 0 IPv6 bytes received 0
IPv6 bytes sent 0 Total update requests sent 0
Total update responses rcvd 0 Number of times DT enabled 0
Path: IP address: 172.10.1.1, Remote port: 2152
GPRS GTP Path Statistics:
Unexpected Data Message 0 Received PDU message 0
Total Data dropped 0 Sent PDU message 0
Received PDU bytes 0 Number of short messages 0
Sent PDU bytes 0 Number of unknown message 0
Unexpected signaling message 0 Roaming trusted PDPs 0
Roaming non-trusted PDPs 0 Non-roaming PDPs 0
Source Violations 0 Unsupported extension hdr recd 0
Path failures 0 Path fail due to local delete 0
Total packets dropped 0 Signaling messages dropped 0
Signaling msg received 1 Signaling msg sent 2
Number of PDPs created 1 Number of PDPs deleted 1
Number of PPP PDPs created 0 Number of PPP PDPs deleted 0
Single PDP cleared 0 Creates received as update 0
Local delete: version upgrade 0 Local delete due to no sgsn 0
Local delete: version fallback 0 Create collide with delete 0
Version changes 0 Retransmit for create 0
IPv6 PDP activation rejected 0 IPv6 PDPs created 0
IPv6 PDPs deleted 0 IPv6 signaling msg rcvd 0
IPv6 signaling msg sent 0 IPv6 pdus received 0
IPv6 pdus sent 0 IPv6 bytes received 0
IPv6 bytes sent 0 Total update requests sent 0
Total update responses rcvd 0 Number of times DT enabled 0
Path: IP address: 172.10.1.1, Remote port: 2123
GPRS GTP Path Statistics:
Unexpected Data Message 0 Received PDU message 0
Total Data dropped 0 Sent PDU message 0
Received PDU bytes 0 Number of short messages 0
Sent PDU bytes 0 Number of unknown message 0
Unexpected signaling message 0 Roaming trusted PDPs 0
Roaming non-trusted PDPs 0 Non-roaming PDPs 0
Source Violations 0 Unsupported extension hdr recd 0
Path failures 0 Path fail due to local delete 0
Total packets dropped 0 Signaling messages dropped 0
Signaling msg received 0 Signaling msg sent 0
Number of PDPs created 0 Number of PDPs deleted 0
Number of PPP PDPs created 0 Number of PPP PDPs deleted 0
Single PDP cleared 0 Creates received as update 0
Local delete: version upgrade 0 Local delete due to no sgsn 0
Local delete: version fallback 0 Create collide with delete 0
Version changes 0 Retransmit for create 0
IPv6 PDP activation rejected 0 IPv6 PDPs created 0
IPv6 PDPs deleted 0 IPv6 signaling msg rcvd 0
IPv6 signaling msg sent 0 IPv6 pdus received 0
IPv6 pdus sent 0 IPv6 bytes received 0
IPv6 bytes sent 0 Total update requests sent 0
Total update responses rcvd 0 Number of times DT enabled 0
Table 20 describes the fields shown in the display.
Table 20 show gprs gtp path statistics history Command Field Descriptions
|
|
Creates collide with delete |
Number of create PDP context requests that collided with a delete PDP context request. |
Creates received as update |
Number of create PDP context requests received as an update PDP context request. |
IPv6 bytes received |
Number of IPv6 bytes received. |
IPv6 bytes sent |
Number of IPv6 bytes sent. |
IPv6 PDP activation rejected |
Number of activate IPv6 PDP context request rejected. |
IPv6 PDPs created |
Number of IPv6 PDP contexts created. |
IPv6 PDPs deleted |
Number of IPv6 PDP contexts deleted. |
IPv6 pdus received |
Number of IPv6 PDUs received. |
IPv6 pdus sent |
Number of IPv6 PDUs sent. |
IPv6 signaling msg rcvd |
Number of IPv6 signaling messages received. |
IPv6 signaling msg sent |
Number of IPv6 signaling messages sent. |
Local delete due to no sgsn |
Number of PDPs deleted locally because of no SGSN. |
Local delete: version fallback |
Number of PDPs deleted because of a version fallback. |
Local delete: version upgrade |
Number of PDPs deleted because of a version upgrade. |
Non-roaming PDPs |
Number of non-roaming PDPs. |
Number of PDPs created |
Number of IPv4 PDP contexts created. |
Number of PDPs deleted |
Number of IPv4 PDP contexts deleted. |
Number of PPP PDPs created |
Number of PPP PDP contexts created. |
Number of PPP PDPs deleted |
Number of PPP PDP contexts deleted. |
Number of short messages |
Number of GTP messages received which are too short. |
Number of times DT enabled |
Number of times direct tunnel was enabled for a PDP context. |
Number of unknown messages |
Number of unknown GTP messages received. |
Path failures |
Number of path failures. |
Path fail due to local delete |
Number of path failure due to a local delete PDP context request. |
Received PDU bytes |
Number of IPv4 PDU bytes transmitted. |
Received PDU message |
Number of IPv4 PDU messages received. |
Retransmit for create |
Number of retransmitted create PDP context requests received. |
Roaming non-trusted PDPs |
Number of roaming PDPs not in a trusted PLMN. |
Roaming trusted PDPs |
Number of roaming PDPs in a trusted PLMN. |
Sent PDU bytes |
Number of IPv4 PDU bytes transmitted. |
Sent PDU message |
Number of IPv4 PDU messages transmitted. |
Signaling messages dropped |
Number of GTP signaling messages dropped. |
Signaling msg received |
Number of signaling messages received. |
Signaling msg sent |
Number of signaling messages sent. |
Single PDP cleared |
Number of hanging single PDP contexts cleared on the GGSN. |
Source Violations |
Number of PDPs terminated due to an access violation. |
Total Data dropped |
Total data dropped. |
Total Update requests sent |
Total number of GGSN-initiated Update PDP Context Requests sent. |
Total Update responses rcvd |
Total number responses to GGSN-initiated Update PDP Context Requests. |
Total packets dropped |
Total number of packets dropped. |
Unexpected Data Message |
Number of GTP PDUs received for nonexistent PDP contexts. |
Unexpected signaling message |
Number of unexpected GTP signaling messages received. |
Unsupported extension hdr recd |
Number of create PDP context requests received with unsupported extension headers when GGSN comprehension is required. |
Version changes |
Number of GTP version changes that have occurred on the SGSN path |
Related Commands
|
|
gprs gtp path history |
Configures the maximum number of path entries for which the GGSN stores statistics after the path is deleted. |
show gprs gtp path statistics remote-address |
Displays the statistics for a specific GTP path. |
show gprs gtp path statistics remote-address
To display statistics for a specific path, use the show gprs gtp path statistics remote-address command in privileged EXEC mode.
show gprs gtp path statistics remote-address ip-address [remote-port port-num]
Syntax Description
remote-address ip-address |
IP address of the SGSN for which you want to view path details. |
remote-port port-num |
Port number on the SGSN of the entry for which you want to view details. |
Command Modes
Privileged EXEC
Command History
|
|
12.4(9)XG |
This command was introduced. |
12.4(9)XG2 |
This command was integrated into Cisco IOS Release 12.4(9)XG2 and the following fields were added to the display: •Local delete: no req to sgsn •Local delete: no wait sgsn |
12.4(15)XQ |
This command was integrated into Cisco IOS Release 12.4(15)XQ and the following fields were added to the display: •Number of time DT enabled •Total Update requests sent •Total Update responses rcvd |
12.4(24)T |
This command was integrated into Cisco IOS Release 12.4(24)T. |
Usage Guidelines
Use the show gprs gtp path statistics remote-address command to display statistics for a specific GTP path. These details include the local address and remote address of the path, the GTP version used, and the time at which the path was deleted.
If a remote port is not specified, statistics for all entries of the path are displayed.
If the path specified does not currently exist, the statistics stored in the path history table will be searched and displayed if the entry exists in history.
Examples
The following is sample output from the show gprs gtp path statistics remote-address command:
router#show gprs gtp path statistics remote-address 172.10.10.10
Path: IP address: 172.10.10.10, Remote port: 2123
GPRS GTP Path Statistics:
Unexpected Data Message 0 Received PDU message 0
Total Data dropped 0 Sent PDU message 0
Received PDU bytes 0 Number of short messages 0
Sent PDU bytes 0 Number of unknown message 0
Unexpected signaling message 0 Roaming trusted PDPs 0
Roaming non-trusted PDPs 0 Non-roaming PDPs 0
Source Violations 0 Unsupported extension hdr recd 0
Path failures 0 Path fail due to local delete 0
Total packets dropped 0 Signaling messages dropped 0
Signaling msg received 26504 Signaling msg sent 26504
Number of PDPs created 26504 Number of PDPs deleted 35
Number of PPP PDPs created 0 Number of PPP PDPs deleted 0
Number of times DT enabled 0 Single PDP cleared 0
Creates received as update 0 Local delete: version upgrade 0
Local delete due to no sgsn 0 Local delete: version fallback 0
Create collide with delete 0 Local delete: no wait sgsn 0
Local delete: no req to sgsn 0 Version changes 0
Retransmit for create 0 IPv6 PDP activation rejected 0
IPv6 PDPs created 0 IPv6 PDPs deleted 0
IPv6 signaling msg rcvd 0 IPv6 signaling msg sent 0
IPv6 pdus received 0 IPv6 pdus sent 0
IPv6 bytes received 0 IPv6 bytes sent 0
Total Update requests sent 2 Total Update responses rcvd 1
Path: IP address: 10.102.5.92, Remote port: 2152
GPRS GTP Path Statistics:
Unexpected Data Message 0 Received PDU message 0
Total Data dropped 0 Sent PDU message 0
Received PDU bytes 0 Number of short messages 0
Sent PDU bytes 0 Number of unknown message 0
Unexpected signaling message 0 Roaming trusted PDPs 0
Roaming non-trusted PDPs 0 Non-roaming PDPs 0
Source Violations 0 Unsupported extension hdr recd 0
Path failures 0 Path fail due to local delete 0
Total packets dropped 0 Signaling messages dropped 0
Signaling msg received 26504 Signaling msg sent 26504
Number of PDPs created 26504 Number of PDPs deleted 35
Number of PPP PDPs created 0 Number of PPP PDPs deleted 0
Number of times DT enabled 0 Single PDP cleared 0
Creates received as update 0 Local delete: version upgrade 0
Local delete due to no sgsn 0 Local delete: version fallback 0
Create collide with delete 0 Local delete: no wait sgsn 0
Local delete: no req to sgsn 0 Version changes 0
Retransmit for create 0 IPv6 PDP activation rejected 0
IPv6 PDPs created 0 IPv6 PDPs deleted 0
IPv6 signaling msg rcvd 0 IPv6 signaling msg sent 0
IPv6 pdus received 0 IPv6 pdus sent 0
IPv6 bytes received 0 IPv6 bytes sent 0
Total Update requests sent 2 Total Update responses rcvd 1
Table 21 describes the fields shown in the display.
Table 21 show gprs gtp path statistics remote-address Command Field Descriptions
|
|
Creates collide with delete |
Number of create PDP context requests that collided with a delete PDP context request. |
Creates received as update |
Number of create PDP context requests received as an update PDP context request. |
IPv6 bytes received |
Number of IPv6 bytes received. |
IPv6 bytes sent |
Number of IPv6 bytes sent. |
IPv6 PDP activation rejected |
Number of activate IPv6 PDP context request rejected. |
IPv6 PDPs created |
Number of IPv6 PDP contexts created. |
IPv6 PDPs deleted |
Number of IPv6 PDP contexts deleted. |
IPv6 pdus received |
Number of IPv6 PDUs received. |
IPv6 pdus sent |
Number of IPv6 PDUs sent. |
IPv6 signaling msg rcvd |
Number of IPv6 signaling messages received. |
IPv6 signaling msg sent |
Number of IPv6 signaling messages sent. |
Local delete due to no sgsn |
Number of PDPs deleted locally because of no SGSN. |
Local delete: version fallback |
Number of PDPs deleted because of a version fallback. |
Local delete: version upgrade |
Number of PDPs deleted because of a version upgrade. |
Local delete: no req to sgsn |
Number of PDPs deleted when the GGSN is configured to delete PDP contexts locally without sending a delete PDP context request to the SGSN. |
Local delete: no wait sgsn |
Number of PDPs deleted when the GGSN is configured to not wait for the SGSN to respond to its delete PDP context request before deleting the PDP context. |
Non-roaming PDPs |
Number of non-roaming PDPs. |
Number of times DT enabled |
Number of direct tunnel PDP contexts created. |
Number of PDPs created |
Number of IPv4 PDP contexts created. |
Number of PDPs deleted |
Number of IPv4 PDP contexts deleted. |
Number of PPP PDPs created |
Number of PPP PDP contexts created. |
Number of PPP PDPs deleted |
Number of PPP PDP contexts deleted. |
Number of short messages |
Number of GTP messages received which are too short. |
Number of unknown messages |
Number of unknown GTP messages received. |
Path failures |
Number of path failures. |
Path fail due to local delete |
Number of path failure due to a local delete PDP context request. |
Received PDU bytes |
Number of IPv4 PDU bytes transmitted. |
Received PDU message |
Number of IPv4 PDU messages received. |
Retransmit for create |
Number of retransmitted create PDP context requests received. |
Roaming non-trusted PDPs |
Number of roaming PDPs not in a trusted PLMN. |
Roaming trusted PDPs |
Number of roaming PDPs in a trusted PLMN. |
Sent PDU bytes |
Number of IPv4 PDU bytes transmitted. |
Sent PDU message |
Number of IPv4 PDU messages transmitted. |
Signaling messages dropped |
Number of GTP signaling message dropped. |
Signaling msg received |
Number of signaling messages received. |
Signaling msg sent |
Number of signaling messages sent. |
Single PDP cleared |
Number of hanging single PDP contexts cleared on the GGSN. |
Source Violations |
Number of PDPs terminated due to a access violation. |
Total Data dropped |
Total data dropped. |
Total packets dropped |
Total number of packets dropped. |
Total Update requests sent |
Total number of GGSN-initiated Update PDP Context Requests sent. |
Total Update responses rcvd |
Total number responses to GGSN-initiated Update PDP Context Requests. |
Unexpected Data Message |
Number of GTP PDUs received for nonexistent PDP contexts. |
Unexpected signaling message |
Number of unexpected GTP signaling messages received. |
Unsupported extension hdr recd |
Number of create PDP context requests received with unsupported extension headers when GGSN comprehension is required. |
Version changes |
Number of GTP version changes that have occurred on the SGSN path. |
Related Commands
|
|
gprs gtp path history |
Configures the maximum number of path entries for which the GGSN stores statistics after the path is deleted. |
show gprs gtp path statistics history |
Displays summary of the counters for past GTP path entries stored in history. |
show gprs gtp path throughput
To display throughput information for one or more GTP paths between a gateway GPRS support node (GGSN) and other GPRS/UMTS devices, use the show gprs gtp path throughput command in privileged EXEC mode.
show gprs gtp path throughput {all | remote-address ip-address [remote-port remote-port] | version gtp-version}
Syntax Description
all |
Displays information for all GTP paths. |
remote-address ip-address |
Displays GTP path throughput information for a specified remote IP address. Optionally, displays GTP path throughput information for a specified remote IP address and port number. |
remote-port remote_port_num |
(Optional) Displays GTP path throughput information for a specified remote IP address and port number. |
version gtp-version |
Displays the throughput of GTP paths by the GTP version (0 or 1). |
Defaults
No default behavior or values.
Command Modes
Privileged EXEC
Command History
|
|
12.3(8)XU |
This command was introduced. |
12.3(11)YJ |
This command was integrated into Cisco IOS Release 12.3(11)YJ. |
12.3(14)YQ |
This command was integrated into Cisco IOS Release 12.3(14)YQ. |
12.3(14)YU |
This command was integrated into Cisco IOS Release 12.3(14)YU. |
12.4(2)XB |
This command was integrated into Cisco IOS Release 12.4(2)XB. |
Usage Guidelines
Use the show gprs gtp path throughput command to display throughput information for one or more GTP paths from the GGSN.
Examples
Example 1
The following example shows the output for all GTP paths on the GGSN:
GGSN# show gprs gtp path throughput all
Local address Remote address GTP version Dynamic echo
33.33.33.1(3386) 11.0.0.1(3386) 0 Disabled
Collection interval - 5 min, Last collected at - 3 min back
upstream data volume in octets: 480
downstream data volume in octets: 0
downstream packet count: 0
Collection interval - 10 min, Last collected at - 8 min back
upstream data volume in octets: 120
downstream data volume in octets: 0
downstream packet count: 0
Table 17 describes the fields shown in the display.
Table 22 show gprs gtp path throughput Field Descriptions
|
|
Total number of path |
Total number of GTP paths currently established. |
Local address |
IP address and port number for the local end of the GTP path. |
Remote address |
IP address and port number for the remote end of the GTP path, such as the address of the SGSN. |
GTP version |
Version of the GTP protocol (version 0 or 1) supported by the path. |
Dynamic echo timer |
Current setting (in seconds) for the dynamic echo timer. "Disabled" appears when the dynamic echo timer is not in use. |
show gprs gtp pdp-context
To display a list of the currently active PDP contexts (mobile sessions), use the show gprs gtp pdp-context command in privileged EXEC mode.
show gprs gtp pdp-context {tid tunnel_id [service [all | id id_string]] | ms-address ip_address [access-point access-point-index] | imsi imsi [nsapi nsapi [tft]] | path ip-address [remote-port-num] | access-point access-point-index | pdp-type {ip | ppp} | qos-umts-class {background | conversational | interactive | streaming} | qos-precedence {low | normal | high} | qos-delay {class1 | class2 | class3 | classbesteffort} | version gtp-version} | msisdn [msisdn] | all}
Syntax Description
tid tunnel_id [service [all | id id_string]] |
Displays PDP contexts by tunnel ID. This value corresponds to the IMSI plus NSAPI and can be up to 16 numeric digits. Optionally, displays the service category in a PDP context. |
ms-address ip_address |
Displays PDP contexts for the specified mobile station IP address (in dotted-decimal format). |
apn-index access-point-index |
(Optional) Displays PDP contexts for the specified mobile station IP address at a particular access point. This option is required to display mobile stations that are accessing a private VPN. |
imsi imsi |
Displays PDP contexts by International Mobile Subscriber Identity (IMSI). The IMSI value can be up to 15 numeric digits. |
nsapi nsapi [tft] |
(Optional) Displays a particular PDP context by Network Service Access Point Identifier (NSAPI) for the specified IMSI. Optionally, displays the traffic flow template (TFT) filters associated with the NSAPI. |
path ip-address [remote_port_num] |
Displays PDP contexts by path. Optionally, displays PDP contexts by remote IP address and port number. |
access-point access-point-index |
Displays PDP contexts by access point. Possible values are 1 to 65535. |
pdp-type {ip | ppp} |
Displays PDP contexts that are transmitted using either IP or PPP. |
qos-umts-class |
Displays PDPs by UMTS QoS traffic class. You can specify the following traffic classes: background, conversational, interactive, and streaming. This option is available when UMTS QoS is enabled. |
qos-precedence |
Displays PDP contexts for a specified GPRS QoS precedence type. You can specify the following precedence types: low, normal, and high. This option is available when GPRS QoS canonical QoS is enabled. |
qos-delay |
Displays PDP contexts for a specified GPRS quality of service delay class type. You can specify the following delay class types: class1, class2, class3, and classbesteffort. This option is available when GPRS QoS delayed-based QoS is enabled. |
version gtp-version |
Displays PDP contexts by GTP version. The possible values are 0 or 1. |
msisdn [msisdn] |
Displays all PDP contexts with MSISDN information. Optionally, displays particular PDPs filtered by the longest prefix match of the specified MSISDN. |
all |
Displays all PDP contexts. |
Defaults
No default behavior or values.
Command Modes
Privileged EXEC
Command History
|
|
12.1(1)GA |
This command was introduced. |
12.1(5)T |
This command was integrated into Cisco IOS Release 12.1(5)T. |
12.2(1) |
The MS International PSTN/ISDN Number (MSISDN) field was added to the output display. |
12.2(4)MX |
This command was integrated into Cisco IOS Release 12.2(4)MX. •The pdp-type ppp and qos-delay options were added to the command. •The following fields were added to the output display of the tid version of this command: –cef_down_byte –cef_down_pkt –cef_drop –cef_up_byte –cef_up_pkt –gtp pdp idle time •The Network Init Information section was added to the output display of the tid version of this command with the following new fields: –Buf.Bytes –MNRG Flag –NIP State –PDU Discard Flag –SGSN Addr •The following fields were removed from the output display of the tid version of this command: –fast_up_pkt –fast_up_byte –fast_down_pkt –fast_down_byte –fast_drop •The "dynamic?" and "Dynamic" fields were removed from the output display of the all and tid versions of this command, and were replaced by the Source field. |
12.2(8)YD |
This command was integrated into Cisco IOS Release 12.2(8)YD and the following fields were added to the output display of the tid version of this command: •primary dns •secondary dns •primary nbns •secondary nbns |
12.2(8)YW |
This command was integrated into the 12.2(8)YW. •The the option of displaying PDP contexts by remote IP address and port number was added. •The delay Qos class(req.) output field was added to the display of the tid version of this command when the mapping of GPRS QoS categories to delay QoS classes is enabled. •The ms-address, imsi, qos-umts-class and version options were added to the command. •The ggsn_addr_signal field was changed to the sgsn_addr_data in the output display of the tid version of this command. •The following fields were added to the output display of the tid version of this command: –control teid local –control teid remote –data teid local –data teid remote –primary pdp –nsapi |
12.3(2)XB |
This command was integrated into Cisco IOS Release 12.3(2)XB and the MS Addr field updated to reflect the virtual interface identifier for PPP PDP and PPP Regen contexts and the status of PPP PDP with L2TP contexts. |
12.3(8)XU |
This command was integrated into Cisco IOS Release 12.3(8)XU. •The following fields were added to the output display of the tid version of this command: –charging characteristics –charging characteristics received –Framed_route –idle timeout –mask –roamer –session timeout –visitor •The gtp pdp idle time field were removed from the output display of the tid version of this command. •An overflow indicator (+) was added to the following fields of the output display of the tid version of this command: –cef_down_pkt –cef_up_pkt –rcv_pkt_count –send_pkt_count |
12.3(8)XU2 |
This command was integrated into Cisco IOS Release 12.3(8)XU2 and the single pdp-session field was added to the output display of the tid version of this command. |
12.3(11)YJ |
This command was integrated into Cisco IOS Release 12.3(11)YJ. |
12.3(14)YQ |
This command was integrated into the Cisco IOS Release 12.3(14)YQ. •The option of display the service category in a PDP context was added was added. •The following fields were added to the tid version of this command when the service keyword option is specified: –Diameter Credit Control –Current Billing Status –Reason to convert to postpaid –DCCA profile name and Source –Rule base id and Source –ServiceID –State –Quota(octets) –Time –flags –Last pushed quota - Tariff Time Change - Time Quota - Volume Quota - Validity Time - Quota ConsumptionTime - Quota Holding time - Time Quota Threshold - Volume Quota Threshold - Trigger Flags –Last received quota - Tariff_time_change - Time_quota - Volume_quota - Validity_time - Quota ConsumptionTime - Quota Holding_Time - Time Quota Threshold - Volume Quota Threshold - Trigger Flags |
12.3(14)YU |
This command was integrated into the Cisco IOS Release 12.3(14)YU and the msisdn [msisdn] keyword option was added. Additionally, the QoS for charging field was removed from the show gprs gtp pdp-context tid command display and when a PDP is created via a virtual APN, the following field has been added to the show gprs gtp pdp-context tid command display: •virtual-apn: virtual-apn-name |
12.4(2)XB |
This command was integrated into Cisco IOS Release 12.4(2)XB. |
Usage Guidelines
Use the show gprs gtp pdp-context command to display the currently active PDP contexts on the GGSN. You can display PDP contexts by tunnel ID, by IMSI, by access point, by PDP type, and by GPRS QoS precedence, UMTS QoS traffic class, or you can display all PDP contexts.
Several versions of the show gprs gtp pdp-context command display similar output. The examples provided show these two different types of output.
Interpreting the Effective Bandwidth
Example 2 provides sample output from the show gprs gtp pdp-context tid command, which includes the field called effective bandwidth (in bps). The effective bandwidth is determined according to the GPRS QoS canonical QoS class (premium, normal, or best effort) for the PDP context; it does not represent the actual bandwidth in use by the PDP context. The potential number of supported PDP contexts for that class of QoS can then be calculated according to the total amount of bandwidth (GSN resource) available to the GGSN.
For more information about GPRS QoS canonical QoS and resources on the GGSN, see the "Configuring QoS on the GGSN" chapter in the Cisco IOS Mobile Wireless Configuration Guide.
Examples
Example 1
The following is sample output of the show gprs gtp pdp-context all command:
router# show gprs gtp pdp-context all
TID MS Addr Source SGSN Addr APN
1234567890123456 10.11.1.1 Radius 10.4.4.11 www.pdn1.com
2345678901234567 Forwarded (Vi5) IPCP 10.4.4.11 www.pdn2.com
3456789012345678 10.21.1.1 (Vi7) IPCP 10.1.4.11 www.pdn3.com
4567890123456789 10.31.1.1 (Vi9) IPCP 10.1.4.11 www.pdn4.com
5678901234567890 10.41.1.1 Static 10.4.4.11 www.pdn5.com
Note The same output fields shown in Example 1 also appear when you use the access-point, path, pdp-type, qos-delay, or qos-precedence keyword options of the show gprs gtp pdp-context command.
Table 18 describes the fields shown in the display.
Table 23 show gprs gtp pdp-context all Field Descriptions
|
|
APN |
Access point name where the PDP context is active. |
MS Addr |
IP address of the mobile station. Note For PPP PDP and PPP Regen contexts, this field will also display the virtual interface identifier. For PPP PDP with L2TP contexts, this field will also display the state of the PDP context. Possible states are Pending, Forwarded, or Terminating. |
SGSN Addr |
IP address of the SGSN that is processing the packets. |
Source |
Source of IP addressing for the MS. The possible values are: •DHCP—Dynamic address allocation using DHCP. •IPCP—Dynamic address allocation for PPP PDP types, or for IP PDP types with PPP regeneration, using PPP IP Control Protocol. •Local—Dynamic address allocation using a local pool. •Pending—Waiting for dynamic address allocation. Dynamic address source is unknown. •Radius—Dynamic address allocation using RADIUS. •Static—IP address is not dynamically assigned. |
TID |
Tunnel ID for the PDP context. |
Example 2
The following is sample output from the show gprs gtp pdp-context tid command for a PDP context
created by GTP version 1 and GPRS QoS canonical QoS is configured:
router#show gprs gtp pdp-context tid 1111111111111111
TID MS Addr Source SGSN Addr APN
1111111111111111 10.1.1.1 Radius 10.8.8.1 dns.com
current time :Mar 18 2002 11:24:36
user_name (IMSI):1111111111111111 MS address:10.1.1.1
MS International PSTN/ISDN Number (MSISDN):ABC
sgsn_addr_signal:10.8.8.1 sgsn_addr_data:10.8.0.1
control teid local: 0x63493E0C
control teid remove: 0x00000121
data teid local: 0x63483E10
data teid remote: 0x00000121
signal_sequence: 0 seq_tpdu_up: 0
upstream_signal_flow: 1 upstream_data_flow: 2
downstream_signal_flow:14 downstream_data_flow:12
pdp_create_time: Mar 18 2002 09:58:39
last_access_time: Mar 18 2002 09:58:39
mnrgflag: 0 tos mask map:00
gprs qos_req:091101 canonical Qos class(req.):01
gprs qos_neg:25131F canonical Qos class(neg.):01
rcv_pkt_count: 0 rcv_byte_count: 0
send_pkt_count: 0 send_byte_count: 0
cef_up_pkt: 0 cef_up_byte: 0
cef_down_pkt: 0 cef_down_byte: 0
cef_drop: 0 out-sequence pkt: 0
Src addr violation: 2 paks, 1024 bytes
Dest addr violation: 2 paks, 1024 bytes
Redirected mobile-to-mobile traffic: 2 paks, 1024 bytes
charging characteristics: 0
charging characteristics received: 0
Framed_route 5.5.5.0 mask 255.255.255.0
single pdp-session: Enabled
absolute session start time: NOT SET
virtual apn: pre-auth-virtual
** Network Init Information **
MNRG Flag: 0 PDU Discard Flag: 0
SGSN Addr: 172.16.44.1 NIP State: NIP_STATE_WAIT_PDP_ACTIVATION
Table 19 describes the fields shown in the display.
Note The Network Init Information section of the output appears only while network-initiated PDP contexts are being processed by the GGSN.
Note The same output fields shown in Example 2 also appear when you use the imsi keyword option of the show gprs gtp pdp-context command.
Note If the PDP context is created via a virtual APN, the "virtual-apn: virtual-apn name" field displays.
Table 19 describes the fields shown in the display.
Table 24 show gprs gtp pdp-context tid Field Descriptions
|
|
APN |
Access point name where the PDP context is active. |
canonical Qos class (neg.) |
Negotiated canonical quality of service class for the PDP context, with the following values: •01—Best effort •02—Normal •03—Premium This field displays when GPRS QoS canonical QoS is enabled on the GGSN. |
canonical Qos class (req.) |
Requested GPRS canonical QoS class by the PDP context, with the following values: •01—Best effort •02—Normal •03—Premium This field displays when GPRS QoS canonical QoS is enabled on the GGSN. |
cef_down_byte |
Total number of G-PDU bytes CEF switched on the downlink, from the GGSN to the SGSN. |
cef_down_pkt |
Total number of G-PDU packets CEF switched on the downlink, from the GGSN to the SGSN. The plus (+) sign is an overflow indicator. |
cef_drop |
Total number of G-PDU packets dropped during CEF switching. |
cef_up_byte |
Total number of G-PDU bytes CEF switched on the uplink, from the SGSN to the GGSN. |
cef_up_pkt |
Total number of G-PDU packets CEF switched on the uplink, from the SGSN to the GGSN. The plus (+) sign is an overflow indicator. |
charging characteristics |
Number of the charging profile selected for the PDP context. |
charging characteristics received |
Charging characteristics IE received from the SGSN. The value of the charging characteristics received field is the decimal value of the two octets, with the first octet being the more significant byte than the second. The profile index, which is used to select the charging profile, is the integer obtained by dividing the charging characteristics received value by 256. |
charging_id |
Unique 4-octet value generated by the GGSN for the PDP context. The value 0 is reserved. |
control teid local |
Uplink tunnel endpoint identifier (TEID) chosen by the GGSN for control plane messages. This field displays for PDP contexts created with GTP version 1. |
control teid remote |
Downlink TEID chosen by the SGSN for control plane messages. This field displays for PDP contexts created with GTP version 1. |
current time |
Date and time of the show command output. |
data teid local |
Uplink TEID chosen by the GGSN for G-PDUs. This field displays for PDP contexts created with GTP version 1. |
data teid remote |
Downlink TEID chosen by the SGSN for PDUs. This field displays for PDP contexts created with GTP version 1. |
Dest addr violation |
Number of packets (and bytes) dropped by the GGSN because of a source address violation. This field displays only when the security verify destination command is configured. Note This field does not apply to APNs using VRF. In addition, verification of destination addresses does not apply to GTP-PPP regeneration or GTP-PPP with L2TP. |
downstream_data_flow |
Flow label of downlink G-PDUs. |
downstream_signal_flow |
Flow label of downlink signaling messages. |
effective bandwidth |
Estimated number of bits per second allocated by the GGSN for this PDP context. The effective bandwidth is determined according to the QoS class (premium, normal, or best effort) for the PDP context. The potential number of supported PDP contexts for that class of QoS can be calculated according to the total amount of bandwidth (GSN resource) available to the GGSN. This field displays when canonical QoS is enabled on the GGSN. Note The effective bandwidth does not represent actual bandwidth usage. |
Framed_route |
Framed-Route, attribute 22, for the PDP context, downloaded from the RADIUS server during authentication and authorization. |
gprs qos_neg |
Negotiated quality of service for the PDP context. The field is in the format vwxyzz, which represents the following QoS classes (as defined in the GSM specifications for quality of service profiles): •v—Delay class •w—Reliability class •x—Peak throughput class •y—Precedence class •zz—Mean throughput class Note To determine the GPRS QoS attributes shown in this output, you must convert the value to binary and interpret the values to find the corresponding class attributes. Some of the bits represent "don't care" bits and are not interpreted as part of the final value. For more information about how to interpret this value, see the "Interpreting the Requested and Negotiated GPRS QoS" section of the "Configuring QoS" chapter in the Cisco IOS Mobile Wireless Configuration Guide. |
gprs qos_req |
Requested quality of service by the PDP context. The field is in the format vwxyzz, which represents the following QoS classes (as defined in the GSM specifications for GPRS QoS profiles): •v—Delay class •w—Reliability class •x—Peak throughput class •y—Precedence class •zz—Mean throughput class Note See the Note in the description of the gprs qos_neg output field above. |
idle timeout |
Number of seconds the GGSN waits before purging idle PDP contexts. |
last_access_time |
Time when the PDP context for this TID was last accessed. The date format is MMM DD YYYY. The time format is hours:minutes:seconds. When a signaling packet or data packet for a PDP context arrives on the GGSN, the last_access_time is reset to the current date and time. If the last_access_time exceeds the purge timer for idle PDP contexts, then the PDP context is purged by the GGSN. |
mask |
Framed-Route subnet. |
mnrgflag |
Mobile not reachable flag, with the following values: •0—flag is off. •1—flag is on, indicating that the MS is not reachable |
MS_ADDR and MS Address |
IP address of the mobile station. Note For PPP PDP and PPP Regen contexts, this field will also display the virtual interface identifier. For PPP PDP with L2TP contexts, this field will also display the state of the PDP context. Possible states are Pending, Forwarded, or Terminating. |
MS International PSTN/ISDN Number (MSISDN) |
Integrated Services Digital Network (ISDN) number of the mobile station. |
nsapi |
Network Service Access Point Identifier (NSAPI). This field displays for PDP contexts created with GTP version 1. |
ntwk_init_pdp |
Network initiated PDP context indicator, with the following values: •0—Not a network initiated PDP context. This indicates a mobile initiated PDP context. •1—Network initiated PDP context |
out-sequence pkt |
|
pdp_create_time |
Time when the PDP context for this TID was created. The date format is MMM DD YYYY. The time format is hours:minutes:seconds. |
pdp reference count |
Number of subsystems on the GGSN that are aware of the PDP context. For example, if both the charging and GTP subsystems are aware of the PDP context, then the pdp reference counter shows a value of 2. |
primary dns |
IP address of the primary DNS server. |
primary nbns |
IP address of the primary NetBIOS Name Service (NBNS). |
primary pdp |
Whether the PDP is primary or secondary. Possible values are Y (PDP is primary) or N (PDP is secondary). This field displays for PDP contexts created with GTP version 1. |
RAupdate_flow |
Flow Label Data II information element in GTP header. This IE contains the flow label for data transmission between old and new SGSNs for a particular PDP context. This IE is requested by the new SGSN. |
rcv_byte_count |
Total number of G-PDU bytes received. For the GGSN, this is the total byte count on the uplink. |
rcv_pkt_count |
Total packet count of received G-PDUs. For the GGSN, this is the total byte count on the uplink. The plus (+) sign is an overflow indicator. |
Redirected mobile-to-mobile traffic |
Number of packets (and bytes) dropped at the APN from which they exit because mobile-to-mobile traffic has been redirected. This field displays only when the redirect intermobile ip command is configured. |
roamer |
Whether the PDP context is that of a roaming mobile subscriber (subscriber whose SGSN PLMN ID differs from the GGSN's). The possible values are yes or no. |
secondary dns |
IP address of the secondary DNS server. |
secondary nbns |
IP address of the secondary NBNS. |
send_byte_count |
Total number of G-PDU bytes sent by the GSN (GGSN or SGSN D-node). |
send_pkt_count |
Total number of G-PDU packets sent by the GSN (GGSN or SGSN D-node). The plus (+) sign is an overflow indicator. |
seq_tpdu_down |
Last sequence number used in the downlink T-PDU. This number wraps to 0 after 65535. |
seq_tpdu_up |
Last sequence number used in the uplink T-PDU. This number wraps to 0 after 65535. |
session timeout |
Number of seconds that the GGSN allows a session to remain active before purging all PDP contexts with the same IMSI or MS address. |
sgsn_addr_signal |
IP address of the SGSN that is processing the packets. |
sgsn_addr_data |
IP address of the SGSN that is processing tunnel packet data units (TPDUs). |
signal_sequence |
Last sequence number used in the GTP signaling message. |
single PDP-session |
Whether the GGSN has been configured to delete the primary PDP context, and any associated secondary PDP contexts, of a hanging PDP session upon receiving a new create request from the same MS that shares the same IP address of the hanging PDP context. |
Source |
Source of IP addressing for the MS. The possible values are: •DHCP—Dynamic address allocation using DHCP. •IPCP—Dynamic address allocation for PPP PDP types, or for IP PDP types with PPP regeneration, using PPP IP Control Protocol. •Local—Dynamic address allocation using a local pool. •Pending—Waiting for dynamic address allocation. Dynamic address source is unknown. •Radius—Dynamic address allocation using RADIUS. •Static—IP address is not dynamically assigned. |
Src addr violation |
Number of packets (and bytes) dropped because of source address violation. This field displays only when the security verify source command is configured. |
TID |
Tunnel ID for the PDP context. |
tos mask map |
ToS value in IP header of this PDP context. |
umts qos_req |
Requested UMTS quality of service by the PDP context. This field displays when UMTS QoS is enabled on the GGSN. |
umts qos_neg |
Negotiated UMTS quality of service for the PDP context. This field displays when UMTS QoS is enabled on the GGSN. |
upstream_data_flow |
Flow label of uplink G-PDUs. |
upstream_signal_flow |
Flow label of uplink signaling messages. |
user_name (IMSI) |
International mobile subscriber identity for the PDP context. |
virtual APN |
Virtual access point name where the PDP context is active. |
visitor |
Whether the PDP context is that of a visiting mobile subscriber (subscriber whose IMSI contains a foreign PLMN ID).). The possible values are yes or no. |
Table 20 describes the fields shown in the Network Init Information section of the output.
Table 25 show gprs gtp pdp-context tid Network Init Information Field Descriptions
|
|
Buf.Bytes |
Number of bytes currently buffered for this network-initiated PDP context. |
last_access_time |
Time when the PDP context for this TID was last accessed. The date format is MMM DD YYYY. The time format is hours:minutes:seconds. When a signaling packet or data packet for a PDP context arrives on the GGSN, the last_access_time is reset to the current date and time. If the last_access_time exceeds the purge timer for idle PDP contexts, then the PDP context is purged by the GGSN. |
MNRG Flag |
Mobile not reachable flag, with the following values: •0—flag is off. •1—flag is on, indicating that the MS is not reachable |
NIP State |
State information for the network initiated PDP process on the GGSN. |
PDU Discard Flag |
Discarded PDU indicator for a network initiated PDP context, with the following values: •0—PDUs are not discarded. This indicates that PDUs for a network initiated PDP context are being sent to the SGSN. •1—PDUs are being discarded by the GGSN. PDUs are discarded by the GGSN when a network initiated PDP context procedure is unsuccessful. This occurs when the SGSN sends a rejection of the PDP context request to the GGSN with a Cause value of either "MS Refuses" or "MS is not GPRS Responding."
When the flag is set to 1, the GGSN ignores PDUs destined for that MS for the specified PDU discard period. The default period is 300 seconds (5 minutes). You can configure the PDU discard time using the gprs ntwk-init-pdp pdu-discard-period command. |
SGSN Addr |
IP address of the SGSN that is associated with the network-initiated procedure for this PDP context (used for paging). |
Example 3
The following is sample output from the show gprs gtp pdp-context tid service id command:
ggsn1#show gprs gtp pdp tid 1111000000000050 service id 1
Diameter Credit Control:Enabled
Current Billing status:Prepaid
Reason to convert to postpaid:N/A
DCCA profile name:1, Source:charging profile
Rule base id:ABC, Source:AAA server
ServiceID State Quota(octets) Time flags
1 AUTHORIZED 80000 6000 SGSN:
Tariff Time Change: 1110585600 Time Quota: 6000
Volume Quota: 80000 Validity Time: 500
Quota ConsumptionTime: 45 Quota Holding time: 35
Time Quota Threshold: 4000 Volume Quota Threshold:50000
Tariff_time_change: 1110585600 Time_quota: 6000
Volume quota: 80000 Validity_time: 500
Quota ConsumptionTime: 45 Quota Holding_Time: 35
Time Quota Threshold: 4000 Volume Quota Threshold:50000
Example 4
The following is sample output from the show gprs gtp pdp-context msisdn command:
ggsn1#show gprs gtp pdp-context msisdn
TID MS Addr Source SGSN Addr MSISDN APN
2123456708000010 55.10.0.2 LOCAL 10.1.1.70 408525823010 ippdpl
2123456809000010 55.10.0.3 LOCAL 10.1.1.70 408525823011 ippdpl
2123456707000010 55.10.0.4 LOCAL 10.1.1.70 408525823110 ippdpl
2123456789990010 55.10.0.5 LOCAL 10.1.1.70 408525823210 ippdpl
Note All PDP contexts are displayed
The following is sample output from the show gprs gtp pdp-context msisdn command with an msisdn specified:
ggsn1#show gprs gtp pdp-context msisdn 4085258230
TID MS Addr Source SGSN Addr MSISDN APN
2123456708000010 55.10.0.2 LOCAL 10.1.1.70 408525823010 ippdpl
2123456809000010 55.10.0.3 LOCAL 10.1.1.70 408525823011 ippdpl
Note All PDP contexts whose MSISDN matches the prefix 4085258230 are displayed
Table 21 describes the fields shown in the display.
Table 26 show gprs gtp pdp-context msisdn Field Descriptions
|
|
TID |
Tunnel ID for the PDP context request on the APN. |
MS Addr |
The IP address for the MS. |
Source |
Source of IP addressing for the MS. The possible values are: •DHCP—Dynamic address allocation using DHCP. •IPCP—Dynamic address allocation for PPP PDP types, or for IP PDP types with PPP regeneration, using PPP IP Control Protocol. •Local—Dynamic address allocation using a local pool. •Pending—Waiting for dynamic address allocation. Dynamic address source is unknown. •Radius—Dynamic address allocation using RADIUS. •Static—IP address is not dynamically assigned. |
SGSN Addr |
IP address of the SGSN that is processing the packets. |
MSISDN |
Integrated Services Digital Network (ISDN) number of the mobile station. |
APN |
Access point name. |
Related Commands
|
|
show gprs access-point |
Displays information about access points on the GGSN. |
show gprs gtp status |
Displays information about the current status of the GTP on the GGSN (such as activated PDP contexts, throughput, and QoS statistics). |
show gprs gtp statistics
To display the current GPRS tunneling protocol (GTP) statistics for the gateway GPRS support node (GGSN) (such as IE, GTP signaling, and GTP PDU statistics), use the show gprs gtp statistics command in privileged EXEC mode.
show gprs gtp statistics
Syntax Description
This command has no arguments or keywords.
Defaults
No default behavior or values.
Command Modes
Privileged EXEC
Command History
|
|
12.1(1)GA |
This command was introduced. |
12.1(2)GB |
This command was integrated into Cisco IOS Release 12.1(2)GB and the following fields were added to the output display: •total created_pdp •total deleted_pdp |
12.1(5)T |
This command was integrated into Cisco IOS Release 12.1(5)T. |
12.2(4)MX |
This command was integrated into Cisco IOS Release 12.2(4)MX, and the following fields were added to the output display: •ntwk_init_pdp_act_rej •ppp_regen_pending •ppp_regen_pending_peak •ppp_regen_total_drop •ppp_regen_no_resource •total created_ppp_pdp •total ntwkInit created pdp |
12.2(8)YD |
This command was integrated into Cisco IOS Release 12.2(8)YD. |
12.2(8)YW |
This command was integrated into the Cisco IOS Release 12.2(8)YW and the following fields were added to the output display: •tft_semantic_error •tft_syntactic_error •packet_filter_semantic_error •packet_filter_syntactic_error •total deleted_ppp_pdp |
12.3(2)XB |
This command was integrated into Cisco IOS Release 12.3(2)XB. |
12.3(8)XU |
This command was integrated into Cisco IOS Release 12.3(8)XU and the following fields were added to the output display: •insert_download_route_fail •network_behind_ms APNs •pdp_wo_tft_exist •save_download_route_fail •total_download_route •total_insert_download_route •unsupported_comp_exthdr |
12.3(8)XU2 |
This command was integrated into Cisco IOS Release 12.3(8)XU2 and the single pdp-session cleared output field was added. |
12.3(11)YJ |
This command was integrated into Cisco IOS Release 12.3(11)YJ. |
12.3(14)YQ |
This command was integrated into Cisco IOS Release 12.3(14)YQ. |
12.3(14)YU |
This command was integrated into Cisco IOS Release 12.3(14)YU. |
12.4(2)XB |
This command was integrated into Cisco IOS Release 12.4(2)XB and the following fields were added to the output display: •create_as_update •create_collide_with_delete •no_sgsn_local_del_pdp •path_fail_local_del_pdp •rcv_retransmit_create_req •version_changes •ver_upgrade_local_del •ver_faillback_local_del |
12.4(9)XG |
This command was integrated into Cisco IOS Release 12.4(9)XG and the following IPv6-related fields were added to the display: •created ipv6 pdp •created ipv6 pdpmcb •deleted ipv6 pdp •deleted ipv6 pdpmcb •rejected ipv6 pdp •rcvd ipv6 data bytes •rcvd ipv6 pdu •rcvd ipv6 signal msg •sent ipv6 data bytes •sent ipv6 pdu •sent ipv6 signal msg |
12.4(9)XG2 |
This command was integrated into Cisco IOS Release 12.4(9)XG2 and the following fields were added to the display: •no_req_sgsn_local_del_pdp •no_wait_sgsn_local_del_pdp |
12.4(15)XQ |
This command was integrated into Cisco IOS Release 12.4(15)XQ and the following fields were added to the display: •Number of times DT enabled •total COA msg received •total COA msgs discarded •total COA triggered update •total EI rcvd on DT PDPs •total error indication sent •total error indication rcvd •total error indication rcvd DT PDPs •total update responses rcv •total update fail DT pdps |
Usage Guidelines
Use the show gprs gtp statistics command to display the GTP statistics for the GGSN. The counter values displayed by this command represent totals accumulated since the last time the statistical counters were cleared using the clear gprs gtp statistics command.
Examples
The following is sample output of the show gprs gtp statistics command:
router# show gprs gtp statistics
GPRS GTP Statistics:
version_not_support 0 msg_too_short 0
unknown_msg 0 unexpected_sig_msg 0
unexpected_data_msg 0 unsupported_comp_exthdr 0
mandatory_ie_missing 0 mandatory_ie_incorrect 0
optional_ie_invalid 0 ie_unknown 0
ie_out_of_order 0 ie_unexpected 2
ie_duplicated 0 optional_ie_incorrect 0
pdp_activation_rejected 1 tft_semantic_error 0
tft_syntactic_error pkt_ftr_semantic_error 0
pkt_ftr_syntactic_error 0 pdp_wo_tft_exist 0
non_existent 1 path_failure 0
total_dropped 0 signalling_msg_dropped 0
data_msg_dropped 0 no_resource 0
get_pak_buffer_failure 0 rcv_signalling_msg 11
snd_signalling_msg 11 rcv_pdu_msg 53
snd_pdu_msg 79 rcv_pdu_bytes 865
snd_pdu_bytes 3319 total created_pdp 4
total deleted_pdp 3 total created_ppp_pdp 3
total deleted_ppp_pdp 3 ppp_regen_pending 0
ppp_regen_pending_peak 0 ppp_regen_total_drop 0
ppp_regen_no_resource 0 ntwk_init_pdp_act_rej 0
total ntwkInit created pdp 0 single pdp-session cleared 0
total ntwkInit update pdp 2 total update responses rcv 2
total COA msg received 2 total COA msgs discarded 0
total COA triggered update 2 total err indications rcvd 0
total err indications sent 0 Number of times DT enabled 0
total EI rcvd on DT PDPs 0 total update fail DT pdps 0
created ipv6 pdp 0 rejected ipv6 pdp 0
deleted ipv6 pdp 0 created ipv6 pdpmcb 0
deleted ipv6 pdpmcb 0
rcvd ipv6 pdu 0 sent ipv6 pdu 10
rcvd ipv6 data bytes 0 sent ipv6 data bytes 1000
GPRS Network behind mobile Statistics:
network_behind_ms APNs 1 total_download_route 0
save_download_route_fail 0 insert_download_route_fail 0
total_insert_download_route 0
Debug info:
path_fail_local_del_pdp 0 ver_upgrade_local_del 0
no_sgsn_local_del_pdp 0 ver_fallback_local_del 0
no_wait_sgsn_local_del_pdp 0 no_req_sgsn_local_del_pdp 0
create_collide_with_delete 0 version_changes 0
rcv_retransmit_create_req 0 create_as_update 0
router#show gprs gtp statistics | in DT
total err indications sent 0 Number of times DT enabled 0
total EI rcvd on DT PDPs 0 total update fail DT pdps 0
Table 27 describes the fields shown in the display:
Table 27 show gprs gtp statistics Field Descriptions
|
|
created ipv6 pdp |
Number of IPv6 PDP contexts created since system startup. |
created ipv6 pdpmcb |
|
data_msg_dropped |
Number of GTP PDUs dropped. |
Debug info: create_as_update |
Number of create PDP context requests treated as update. |
Debug info: create_collide_with_delete |
Number of create PDP context requests that collided with delete PDP context requests. |
Debug info: no_sgsn_local_del_pdp |
Number of PDPs deletes because an SGSN could not be found. |
Debug info: path_fail_local_del_pdp |
Number of PDPs deletes because a path failure occurred. |
Debug info: rcv_retransmit_create_req |
Number of create PDP context requests for which retransmit requests were received. |
Debug info: ver_faillback_local_del |
Number of PDP deletes due to version fallback. |
Debug info: ver_upgrade_local_del |
Number of PDP deletes due to version upgrade |
Debug info: verson_changes |
Number of PDPs locally deleted due to change in version. |
deleted ipv6 pdp |
Number of IPv6 PDP contexts deleted since system startup. |
deleted ipv6 pdpmcb |
|
get_pak_buffer_failure |
Number of times the GGSN has failed to obtain a GTP packet. |
ie_duplicated |
Number of GTP messages received with a duplicated information element. |
ie_out_of_order |
Number of GTP messages received with an information element (IE) out of order. |
ie_unexpected |
Number of GTP messages received with an information element that not expected in the GTP message, but is defined in GTP. GTP messages with unexpected IEs are processed as if the IE was not present. |
ie_unknown |
Number of GTP messages received with an information element of an unknown type. |
insert_download_route_fail |
Number of routes downloaded from the RADIUS server that failed to be inserted into the routing table because they conflicted with others. |
mandatory_ie_incorrect |
Number of GTP messages received with an incorrect mandatory information element—for example, with an information element that has an incorrect length. |
mandatory_ie_missing |
Number of GTP messages received with a missing mandatory information element. |
msg_too_short |
Number of GTP messages received that are too short to hold the GTP header for the supported GTP version. |
network_behind_ms APNs |
Number of APNs configured to support routing behind the MS. |
no_resource |
Number of times a resource was not available for transmitting GTP messages. For example, the router may be out of memory. |
no_req_sgsn_local_del_pdp |
Number of PDPs contexts deleted locally without the GGSN sending a delete PDP context request to the SGSN.1 |
no_sgsn_local_del_pdp |
Number of PDPs deleted locally because of no SGSN. |
no_wait_sgsn_local_del_pdp |
Number of PDPs contexts without waiting for a response from the SGSN.1 |
non-existent |
Number of create/update PDP requests received on non-existing PDP contexts. |
ntwk_init_pdp_act_rej |
Number of rejected PDP context requests that were initiated by the network (PDN). |
Number of times DT enabled |
|
optional_ie_incorrect |
Number of GTP messages received with an optional IE that is incorrect, which prevents the GGSN from processing the GTP message correctly. |
optional_ie_invalid |
Number of GTP messages received with an information element that contains a value that is not within the defined range for that IE. GTP messages with invalid optional IEs are processed as if the IE was not present. |
packet_filter_semantic_error |
Number of GTP messages received with an IE element with packet filter semantic errors. A semantic error is when the defined format of the information element (IE) is valid but the content of the IE is inconsistent or invalid. |
packet_filter_syntactic_error |
Number of GTP messages received with an IE element with packet filter syntactic errors. A syntactic error is when the coding of the IE is invalid. |
path_failure |
Number of path failures on the GPRS Support Node (GSN). |
pdp_activation_rejected |
Number of times a request to activate a PDP context was rejected. |
pdp_wo_tft_exist |
Number of Create PDP Context requests received without traffic flow template information element. |
ppp_regen_no_resource |
Total number of rejected responses to create PDP context and delete PDP context requests due to unavailable resource on the GGSN for PPP regeneration. |
ppp_regen_pending |
Number of pending PPP regeneration sessions. |
ppp_regen_pending_peak |
Maximum number of pending PPP regeneration sessions since the statistic was cleared. |
ppp_regen_total_drop |
Total number of create PDP context and delete PDP context requests that were dropped due to the threshold limit being reached for maximum number of PPP regeneration sessions allowed on the GGSN. |
rcvd ipv6 data bytes |
Number of bytes received in IPv6 PDUs. |
rcvd ipv6 pdu |
Number of IPv6 PDU messages received. |
rcvd ipv6 signal msg |
Number of IPv6 GTP signaling messages received. |
rcv_pdu_bytes |
Number of bytes received in PDUs. |
rcv_pdu_msg |
Number of PDU messages received. |
rcv_signaling_msg |
Number of GTP signaling messages received. |
rejected ipv6 pdp |
Number of IPv6 PDP context rejected since system startup. |
save_download_route_fail |
Number of times a downloaded route could not be saved because there was not enough memory. |
sent ipv6 data bytes |
Number of IPv6 PDU bytes sent. |
sent ipv6 pdu |
Number of IPv6 PDU messages sent. |
sent ipv6 signal msg |
Number of IPv6 GTP signaling messages sent. |
signalling_msg_dropped |
Number of GTP signaling messages dropped. |
single pdp-session cleared |
Number of hanging single PDP contexts cleared on the GGSN. |
snd_pdu_bytes |
Number of PDU bytes sent. |
snd_pdu_msg |
Number of PDU messages sent. |
snd_signalling_msg |
Number of GTP signaling messages sent. |
tft_semantic_error |
Number of GTP messages received with an IE element with traffic flow template (TFT) semantic errors. A semantic error is when the defined format of the information element (IE) is valid but the content of the IE is inconsistent or invalid. |
tft_syntactic_error |
Number of GTP messages received with an IE element with TFT syntactic errors. A syntactic error is when the coding of the IE is invalid. |
total COA msg received |
Number of CoA messages received on the GGSN. |
total COA msg discarded |
Number of CoA messages discarded because of error. |
total COA triggered deleted |
Number of Delete PDP Context Requests initiated because of a COA trigger. |
total COA triggered update |
Number of Update PDP Context Requests initiated because of a COA trigger. |
total created DT PDPs |
Number of direct tunnel PDP contexts established. |
total created_pdp |
Number of PDP contexts created since system startup (supports Special Mobile Group (SMG)-28 standards level and later) |
total created_ppp_pdp |
Number of PDP contexts created for PPP PDP PDU types. |
total deleted_pdp |
Number of PDP contexts deleted since system startup (supports SMG-28 standards level and later) |
total deleted_ppp_pdp |
Number of PDP contexts created for PPP PDP PDU types deleted since system startup. |
total_download_route |
Number of routes downloaded from the RADIUS server. |
total_dropped |
Number of GTP messages dropped. |
total EI rcvd on DT PDPs |
Number of error indications sent from the RNC received on the GGSN for direct tunnel PDPs. |
total error indication rcvd |
Number of error indications received on the GGSN. |
total error indication sent |
Number of error indications sent. |
total_insert_download_route |
Total number of routes downloaded from the RADIUS server that have been inserted into the routing table by the GGSN. |
total ntwkInit created pdp |
Number of PDP context requests activated by the GGSN that were initiated by the network (PDN). |
total netwkInit update pdp |
Number of Update PDP Context Requests sent by the GGSN. |
total update fail DT PDPs |
Number of direct tunnel PDP contexts deleted because a successful Update PDP Context Response was not received. |
total update responses rcv |
Number of update request responses received. |
unexpected_data_msg |
Number of GTP PDUs received for nonexistent PDP contexts. |
unexpected_sig_msg |
Number of unexpected GTP signaling messages received—for example, a message received on the wrong end of the tunnel or a response message received for a request that was not sent by the GGSN. |
unknown_msg |
Number of unknown GTP messages received. |
unsupported_comp_exthdr |
Number of Create PDP Context requests received with unsupported extension headers when GGSN comprehension is required. |
version_not_support |
Number of GTP messages received from devices running an unsupported version of the GTP. |
Related Commands
|
|
clear gprs gtp statistics |
Clears the current GGSN GTP statistics. |
clear gprs statistics all |
Clears all GGSN counters and statistics (both global and per-APN). |
show gprs gtp path statistics |
Display information about one or more GTP paths between the GGSN and other GPRS/UMTS devices. |
show gprs gtp status
To display information about the current status of the GPRS Tunneling Protocol (GTP) on the gateway GPRS support node (GGSN) (such as activated PDP contexts, throughput, and QoS statistics), use the show gprs gtp status command in privileged EXEC mode.
show gprs gtp status
Syntax DescriptionDescription
This command has no arguments or keywords.
Defaults
No default behavior or values.
Command Modes
Privileged EXEC
Command History
|
|
12.1(1)GA |
This command was introduced. |
12.1(5)T |
This command was integrated into Cisco IOS Release 12.1(5)T. |
12.2(4)MX |
This command was integrated into Cisco IOS Release 12.2(4)MX, and the following output fields were added: •activated_ppp_pdp •activated_ppp_regen_pdp •ntwk_init_pdp •qos_delay1_pdp •qos_delay2_pdp •qos_delay3_pdp •qos_delaybesteffort_pdp |
12.2(8)YD |
This command was integrated into Cisco IOS Release 12.2(8)YD. |
12.2(8)YW |
This command was integrated into the Cisco IOS Release 12.2(8)YW and the following output fields were added: •activated gtpv0 pdp •activated gtpv1 pdp •activated ms |
12.3(2)XB |
This command was integrated into Cisco IOS Release 12.3(2)XB. |
12.3(8)XU |
This command was integrated into Cisco IOS Release 12.3(8)XU and the QoS information was removed. |
12.3(11)YJ |
This command was integrated into Cisco IOS Release 12.3(11)YJ. |
12.3(14)YQ |
This command was integrated into Cisco IOS Release 12.3(14)YQ and the following output fields were added to YQ1: •Prepaid PDPs •Postpaid PDPs |
12.3(14)YU |
This command was integrated into Cisco IOS Release 12.3(14)YU. |
12.4(2)XB |
This command was integrated into Cisco IOS Release 12.4(2)XB. |
12.4(9)XG |
This command was integrated into Cisco IOS Release 12.4(9)XG and the following fields were added to the output display: •activated ipv6 ms •activated gtpv0 ipv6 pdp •activated gtpv1 ipv6 pdp •gtp ipv6 swidbs |
12.4(15)XQ |
This command was integrated into Cisco IOS Release 12.4(15)XQ and the following field was added to the display: •gtp direct tunnel PDPs •gtp's va swidbs |
Usage Guidelines
Use the show gprs gtp status command to display information about the status of GTP running on the GGSN.
Examples
The following example shows output from the show gprs gtp status command:
router#show gprs gtp status
activated gtpv0 pdp 2
activated gtpv1 pdp 7
activated ms 9
activated ipv6 ms 2
activated gtpv0 v6 pdp 1
activated gtpv1 v6 pdp 1
activated ppp regen pdp 1
activated ppp pdp 2
gtp's va hwidbs 2
gtp's va swidbs 1
gtp ipv6 swidbs 2
gtp direct tunnel PDPs 7
Service-aware Status:
Prepaid PDPs 0
Postpaid PDPs 0
router#
Table 28 describes the fields shown in the display.
Table 28 show gprs gtp status Field Descriptions
|
|
activated gtpv0 pdp |
Number of IPv4 PDP contexts created with GTP version 0. |
activated gtpv0 ipv6 pdp |
Number of IPv6 PDP contexts created with GTP version 0. |
activated gtpv1 pdp |
Number of IPv4 PDP contexts created with GTP version 1. |
activated gtpv1 ipv6 pdp |
Number of IPv6 PDP contexts created with GTP version 1. |
activated ipv6 ms |
Number of active IPv6 mobile stations (MS). |
activated ms |
Number of active IPv4 MSs. |
activated_ppp_pdp |
Number of point-to-point protocol IPv4 PDP contexts currently active. |
activated_ppp_regen_pdp |
Number of IPv4 point-to-point protocol PDP contexts created on the GGSN. |
gtp direct tunnel PDPs |
Number of direct tunnel PDPs currently active. |
gtp ipv6 swidb |
Number of virtual access created for IPv6 PDP contexts. |
gtp's ppp va hwidbs |
Number of virtual access created for IPv4 PPP PDP contexts. |
gtp's va swidbs |
Number of virtual access created for |
ntwk_init_pdp |
Current number of active IPv4 PDP contexts that are initiated by the network to an MS. |
Prepaid PDPs |
Current number of active prepaid IPv4 PDP contexts. |
Postpaid PDPs |
Current number of active postpaid IPv4 PDP contexts. |
Related Commands
|
|
show gprs gtp statistics |
Displays the current GTP statistics for the GGSN. |
show gprs memory threshold statistics
To display information about the number of PDP contexts that have been deleted or the number of Create PDP Context requests that have been rejected because of the memory threshold has been exceeded, use the show gprs memory threshold statistics command in privileged EXEC mode:
show gprs memory threshold statistics
Syntax DescriptionDescription
This command has no arguments or keywords.
Defaults
No default behavior or values.
Command Modes
Privileged EXEC
Command History
|
|
12.3(8)XU |
This command was introduced. |
12.3(11)YJ |
This command was integrated into Cisco IOS Release 12.3(11)YJ. |
12.3(14)YQ |
This command was integrated into Cisco IOS Release 12.3(14)YQ. |
12.3(14)YU |
This command was integrated into Cisco IOS Release 12.3(14)YU. |
12.4(2)XB |
This command was integrated into Cisco IOS Release 12.4(2)XB. |
Usage Guidelines
Use the show gprs memory threshold statistics command to obtain information about the number of PDP contexts that have been deleted or the number of Create PDP Context requests that have been rejected because the memory threshold has been exceeded.
Examples
The following example shows output from the show gprs memory threshold statistics command:
GGSN# show gprs memory threshold statistics
Memory Threshold Statistics
==================================================
GGSN memory threshold status :NOT IN THRESHOLD
Number of times reached : 0
Number of PDPs rejected : 0
Number of PDPs dropped due to
Time when last memory threshold was reached :NEVER
Table 24 describes the fields shown in the display.
Table 29 show gprs memory threshold statistics Field Descriptions
|
|
GGSN memory threshold status |
Current status of the GGSN memory threshold. Possible values are "in threshold" and "not in threshold." |
Number of times reached |
Number of times the GGSN memory threshold has been reached since last startup. |
Number of PDPs rejected |
Number of Create PDP Contexts rejected because the GGSN exceeded its memory threshold. |
Number of PDPs dropped due to: duration limit |
Number of existing PDP contexts dropped while in memory threshold because of the generation of a CDR with the duration limt trigger configured using the limit duration charging profile configuration command. |
Number of PDPs dropped due to: volume limit |
Number of existing PDP contexts dropped while in memory threshold because of the generation of a CDR with the volume limit trigger configured using the limit volume charging profile configuration command. |
Number of PDPs dropped due to: update request |
Number of existing PDP contexts dropped while in memory threshold because of a PDP context update message. |
Time when the last memory threshold was reached |
Last time the GGSN memory threshold was exceeded. |
show gprs ms-address exclude-range
To display the IP address range(s) configured on the gateway GPRS support node (GGSN) for the GPRS/UMTS network, use the show gprs ms-address exclude-range command in privileged EXEC mode.
show gprs ms-address exclude-range
Syntax Description
This command has no arguments or keywords.
Defaults
No default behavior or values.
Command Modes
Privileged EXEC
Command History
|
|
12.2(4)MX |
This command was introduced. |
12.2(8)YD |
This command was integrated into Cisco IOS Release 12.2(8)YD. |
12.2(8)YW |
This command was integrated into Cisco IOS Release 12.2(8)YW |
12.3(2)XB |
This command was integrated into Cisco IOS Release 12.3(2)XB. |
12.3(8)XU |
This command was integrated into Cisco IOS Release 12.3(8)XU. |
12.3(11)YJ |
This command was integrated into Cisco IOS Release 12.3(11)YJ. |
12.3(14)YQ |
This command was integrated into Cisco IOS Release 12.3(14)YQ. |
12.3(14)YU |
This command was integrated into Cisco IOS Release 12.3(14)YU. |
12.4(2)XB |
This command was integrated into Cisco IOS Release 12.4(2)XB. |
Usage Guidelines
Use the show gprs ms-address exclude-range command to display the IP address range(s) configured on the GGSN for the GPRS network.
IP addresses are 32-bit values.
Examples
The following is sample output of the show gprs ms-address exclude-range command:
router# show gprs ms-address exclude-range
Table 25 describes the fields shown in the display.
Table 30 show gprs ms-address exclude-range Field Descriptions
|
|
Start IP |
IP address at the beginning of the range. |
End IP |
IP address at the end of the range. |
Related Commands
|
|
gprs ms-address exclude-range |
Specifies the IP address range(s) used by the GPRS network and thereby excluded from the mobile station (MS) IP address range. |
show gprs pcscf
To display a summary of the P-CSCF server group(s) configured on the GGSN for P-CSCF Discovery, use the show gprs pcscf command in privileged EXEC mode.
show gprs pcscf
Syntax Description
This command has no arguments or keywords.
Defaults
No default behavior or values.
Command Modes
Privileged EXEC
Command History
|
|
12.4(2)XB |
This command was introduced. |
12.4(9)XG |
This command was integrated into Cisco IOS Release 12.4(9)XG and the command has been modified to display IPv6 servers that are a part of a P-CSCF server group. |
12.4(15)XQ |
This command was integrated into Cisco IOS Release 12.4(15)XQ. |
Usage Guidelines
Use the show gprs pcscf command to display a summary of the P-CSCF server group(s) configured on the GGSN.
Examples
The following example shows the output for the show gprs pcscf command:
List of IP addresses in the group:
List of IP addresses in the group:
List of IP addresses in the group:
Related Commands
|
|
gprs pcscf |
Configures a P-CSCF server group on the GGSN and enters P-CSCF group configuration mode. |
pcscf |
Assigns a P-CSCF server group to an APN. |
server |
Specifies the IP address of a P-CSCF server you want to include in the P-CSCF server group. |
show gprs access-point |
Displays information about access points on the GGSN. |
show gprs plmn
To display the mobile country code (MCC) and mobile network code (MNC) of the home and trusted PLMNs, use the show gprs plmn command in privileged EXEC mode.
show gprs plmn
Syntax Description
This command has no arguments or keywords.
Defaults
No default behavior or values.
Command Modes
Privileged EXEC
Command History
|
|
12.3(8)XU |
This command was introduced. |
12.3(11)YJ |
This command was integrated into Cisco IOS Release 12.3(11)YJ. |
12.3(14)YQ |
This command was integrated into Cisco IOS Release 12.3(14)YQ. |
12.3(14)YU |
This command was integrated into Cisco IOS Release 12.3(14)YU. |
12.4(2)XB |
This command was integrated into Cisco IOS Release 12.4(2)XB. |
Usage Guidelines
Use the show gprs plmn command to display the configured MCCs and MNCs of the home and trusted PLMNs.
Examples
The following is sample output of the show gprs plmn ip address command:
Related Commands
|
|
gprs mcc mnc |
Configure MCC and MNC that the GGSN uses to determine if a Create PDP Context request is from a roamer. |
show gprs plmn ip address
To display the IP address range(s) configured for a PLMN, use the show gprs plmn ip address command in privileged EXEC mode.
show gprs plmn ip address
Syntax Description
This command has no arguments or keywords.
Defaults
No default behavior or values.
Command Modes
Privileged EXEC
Command History
|
|
12.2(8)YW |
This command was introduced. |
12.3(2)XB |
This command was integrated into Cisco IOS Release 12.3(2)XB. |
12.3(8)XU |
This command was integrated into Cisco IOS Release 12.3(8)XU. |
12.3(11)YJ |
This command was integrated into Cisco IOS Release 12.3(11)YJ. |
12.3(14)YQ |
This command was integrated into Cisco IOS Release 12.3(14)YQ. |
12.3(14)YU |
This command was integrated into Cisco IOS Release 12.3(14)YU. |
12.4(2)XB |
This command was integrated into Cisco IOS Release 12.4(2)XB. |
Usage Guidelines
Use the show gprs plmn ip address command to display the IP address range(s) configured for a PLMN.
IP addresses are 32-bit values.
Examples
The following is sample output of the show gprs plmn ip address command:
router# show gprs plmn ip address
PLMN Start IP End IP Range Type
Table 25 describes the fields shown in the display.
Table 31 show gprs plmn ip address Field Descriptions
|
|
PLMN Start IP |
IP address at the beginning of the range. |
End IP |
IP address at the end of the range. |
Related Commands
|
|
gprs plmn ip address |
Specifies the PLMN IP address range(s) used by the GGSN. |
show gprs qos status
To display the number of PDP contexts currently active on the gateway GPRS support node (GGSN) for a particular QoS class, use the show gprs qos status command in privileged EXEC mode.
show gprs qos status
Syntax Description
This command has no arguments or keywords.
Defaults
No default behavior or values.
Command Modes
Privileged EXEC
Command History
|
|
12.2(8)YW |
This command was introduced. |
12.3(2)XB |
This command was integrated into Cisco IOS Release 12.3(2)XB. |
12.3(8)XU |
This command was integrated into Cisco IOS Release 12.3(8)XU. |
12.3(11)YJ |
This command was integrated into Cisco IOS Release 12.3(11)YJ. |
12.3(14)YQ |
This command was integrated into Cisco IOS Release 12.3(14)YQ. |
12.3(14)YU |
This command was integrated into Cisco IOS Release 12.3(14)YU. |
12.4(2)XB |
This command was integrated into Cisco IOS Release 12.4(2)XB. |
Usage Guidelines
Use the show gprs qos status command to display the number of PDP contexts currently active on the GGSN for a particular QoS class.
Examples
Example 1
The following example shows output from the show gprs qos status command for UMTS QoS:
router# show gprs qos status
conversational_pdp 100 streaming_pdp 150
interactive_pdp 1345 background_pdp 2000
Table 27 describes the fields shown in the display.
Table 32 show gprs qos status Field Descriptions
|
|
type |
Type of QoS. Possible QoS types are: •Canonical—Configured using the gprs qos map canonical-qos command. •Delay—Configured using the gprs qos map delay command. •UMTS—Configured using the gprs qos map umts command. •None—No QoS is configured on the GGSN. |
conversational_pdp |
Current number of PDP contexts that have a conversational UMTS QoS traffic class. |
streaming_pdp |
Current number of PDP contexts that have a streaming UMTS QoS traffic class. |
interactive_pdp |
Current number of PDP contexts that have a interactive UMTS QoS traffic class. |
background_pdp |
Current number of PDP contexts that have a background UMTS QoS traffic class. |
Example 2
The following example displays output from the show gprs qos status command for canonical QoS:
router# show gprs qos status
gsn_used_bandwidth:1110.000 total gsn_resource:1048576
mean_throughput_premium:0.000
mean_throughput_normal:1110.000 mean_throughput_besteffort 0.000
qos_high_pdp:0 qos_normal_pdp:1
qos_low_pdp :0 qos_premium mean-throughput-deviation 0.100
Table 28 describes the fields shown in the display.
Table 33 show gprs qos status Field Descriptions
|
|
gsn_used_bandwidth |
Currently used bandwidth, in bits per second. Represents the cumulative bandwidth for all active PDP context requests currently using canonical QoS. This field only appears when canonical QoS is enabled. |
mean_throughput_besteffort |
Total mean throughput for best effort QoS users, in bits per second. Represents the cumulative throughput for all active PDP context requests classified in the best effort canonical QoS class. This field only appears when canonical QoS is enabled. |
mean_throughput_normal |
Total mean throughput for normal QoS users, in bits per second. Represents the cumulative throughput for all active PDP context requests classified in the normal canonical QoS class. This field only appears when canonical QoS is enabled. |
mean_throughput_premium: |
Total mean throughput for premium QoS users, in bits per second. Represents the cumulative throughput for all active PDP context requests classified in the premium canonical QoS class. This field only appears when canonical QoS is enabled. |
qos_high_pdp |
Current number of active PDP contexts that are classified in the premium canonical QoS class. This field only appears when canonical QoS is enabled. |
qos_low_pdp |
Current number of PDP contexts that are classified in the best effort canonical QoS class. This field only appears when canonical QoS is enabled. |
qos_normal_pdp |
Current number of PDP contexts that are classified in the normal canonical QoS class. This field only appears when canonical QoS is enabled. |
qos_premium mean-throughput-deviation |
Current mean throughput deviation for QoS. This field only appears when canonical QoS is enabled. |
total gsn_resource |
Currently available GSN resources. This field only appears when canonical QoS is enabled. |
type |
Type of QoS. Possible QoS types are: •Canonical—Configured using the gprs qos map canonical-qos command. •Delay—Configured using the gprs qos map delay command. •UMTS—Configured using the gprs qos map umts command. •None—No QoS is configured on the GGSN. |
Example 3
The following example displays output from the show gprs qos status command for delay QoS:
router# show gprs qos status
qos_delay1_pdp:0 qos_delay2_pdp: 0
qos_delay3_pdp:0 qos_delaybesteffort_pdp 0
Table 29 describes the fields shown in the display.
Table 34 show gprs qos status Field Descriptions
|
|
type |
Type of QoS. Possible QoS types are: •Canonical—Configured using the gprs qos map canonical-qos command. •Delay—Configured using the gprs qos map delay command. •UMTS—Configured using the gprs qos map umts command. •None—No QoS is configured on the GGSN. |
qos_delay1_pdp |
Current number of active PDP contexts that are classified in the class 1 delay QoS class. This field only appears when delay QoS is enabled. |
qos_delay2_pdp |
Current number of active PDP contexts that are classified in the class 2 delay QoS class. This field only appears when delay QoS is enabled. |
qos_delay3_pdp |
Current number of active PDP contexts that are classifed in the class 3 delay QoS class. This field only appears when delay QoS is enabled. |
qos_delaybesteffort_pdp |
Current number of active PDP contexts that are classified in the best effort delay QoS class. This field only appears when delay QoS is enabled. |
Example 4
The following example shows output from the show gprs qos status command when no QoS has been configured on the GGSN:
router# show gprs qos status
Related Commands
|
|
gprs qos map canonical-qos |
Enables mapping of GPRS QoS categories to a canonical QoS method that includes best-effort, normal, and premium QoS classes. |
gprs qos map delay |
Enables Delay QoS on the GGSN. |
gprs qos map umts |
Enables UMTS QoS on the GGSN. |
show gprs redundancy
To display statistics related to GTP-SR, use the show gprs redundancy command in privileged EXEC mode.
show gprs redundancy [statistics]
Syntax Description
statistics |
Displays GTP-SR statistics. |
Defaults
No default behavior or values.
Command Modes
Privileged EXEC
Command History
|
|
12.3(11)YJ |
This command was introduced. |
12.3(14)YQ |
This command was integrated into Cisco IOS Release 12.3(14)YQ. |
12.3(14)YU |
This command was integrated into Cisco IOS Release 12.3(14)YU. |
12.4(2)XB |
This command was integrated into Cisco IOS Release 12.4(2)XB. |
Usage Guidelines
Use the show gprs redundancy command to display GTP-SR related event queues and/or statistics.
Examples
The following example shows the output for the show gprs redundancy statistics command:
GGSN#show gprs redundancy statistics
tb10-7600-5-2#show gprs redundancy statistics
GPRS Redundancy Statistics
CheckPointed-From-Active Statistics
Total Number of Messages: 9
Number of Context Setup messages: 0
Number of Context Modify messages: 0
Number of Context Remove messages: 0
Number of Path Setup messages: 0
Number of Path Modify messages: 0
Number of Path Remove messages: 0
Number of CGF Ready messages: 1
Number of CGF Modify messages: 0
Number of CGF Remove messages: 0
Number of Internal State messages: 8
The following example shows the output for the show gprs redundancy command:
GGSN#show gprs redundancy
GPRS redundancy is enabled and Unit-Status is Standby
Redundancy Transport Infrastructure status
Redundancy Infrastructure state: STANDBY HOT
Peer Redundancy Infrastructure state: ACTIVE
GGSN Redundancy system up since: 00:01:16 UTC Mar 1 2002
Time of last switchover: never
Total Number of Switchovers: 0
GPRS Redundancy Statistics
CheckPointed-From-Active Statistics
Total Number of Messages: 9
Number of Context Setup messages: 0
Number of Context Modify messages: 0
Number of Context Remove messages: 0
Number of Path Setup messages: 0
Number of Path Modify messages: 0
Number of Path Remove messages: 0
Number of CGF Ready messages: 1
Number of CGF Modify messages: 0
Number of CGF Remove messages: 0
Number of Internal State messages: 8
Table 30 describes the fields shown in the display.
Table 35 show gprs redundancy Field Descriptions
|
|
Redundancy Transport Infrastructure state |
Current state of the local redundancy infrastructure. |
Peer Redundancy Infrastructure state |
Current state of the redundancy infrastructure on the peer GGSN. Possible values are ACTIVE or STANDBY. |
GGSN Redundancy system up since |
Time at which the GTP-SR system was established. |
Time of last switchover |
Time the last switchover occurred. |
Total Number of Switchovers |
Total number of times a switchover has occurred since GTP-SR system has been up. |
Last cleared |
Time GTP-SR statistics were last cleared. |
Total number of Messages |
Total number of GTP-SR related messages received. |
Number of Context Setup messages |
Number of Create PDP Context messages received. |
Number of Context Modify messages |
Number of modify PDP context messages received. |
Number of Context Remove messages |
Number of delete PDP context messages received. |
Number of Path Setup messages |
Number of SGSN-to-GGSN path setup messages received. |
Number of Path Modify messages |
Number of SGSN-to-GGSN path modify messages received. |
Number of Path Remove messages |
Number of SGSN-to-GGSN path deletion messages received. |
Number of CGF Ready messages |
Number of GGSN-to-CG functionality ready messages received. |
Number of CGF Modify messages |
Number of GGSN-to-CG path change messages received. |
Number of CGF Remove messages |
Number of GGSN-to-CG path deletion messages received. |
Number of Internal State messages |
Number of internal state messages. |
Related Commands
|
|
clear gprs redundancy statistics |
Clears statistics related to GTP-SR. |
gprs redundancy |
Enables GTP-SR on a GGSN. |
gprs redundancy charging sync-window cdr rec-seqnum |
Configures the window size used to determine when the CDR record sequence number needs to be synchronized to the Standby GGSN. |
gprs redundancy charging sync-window gtpp seqnum |
Configures the window size used to determine when the GTP' sequence number needs to be synchronized to the Standby GGSN. |
show gprs service-aware statistics
To view statistics related to the service-aware features of the gateway GPRS support node (GGSN), such as packets sent to, and received from, the Diameter server or CSG, use the show gprs service-aware statistics command in privileged EXEC mode:
show gprs service-aware statistics
Syntax Description
This command has no arguments or keywords.
Defaults
No default behavior or values.
Command Modes
Privilege EXEC
Command History
|
|
12.3(14)YQ |
This command was introduced. |
12.3(14)YU |
This command was integrated into Cisco IOS Release 12.3(14)YU. |
12.4(2)XB |
This command was integrated into Cisco IOS Release 12.4(2)XB. |
Usage Guidelines
Use the show gprs service-aware statistics command to display the statistics related to service-aware features for the GGSN.
The counter values displayed by this command represent totals accumulated since the last time the statistical counters were cleared using the clear gprs service-aware statistics command.
Examples
The following is sample output of the show gprs service-aware statistics command:
router#show gprs service-aware statistics
GGSN service-aware statistics:
total_ggsn_event 4 total_ggsn_failure 0
total_csg_event 23999 total_csg_failure 0
total_dcca_event 23996 total_dcca_failure 5
total_category_created 23996 total_category_deleted 4
total_sync_object_created 6000 total_sync_object_deleted 6000
category_fsm_return_error 0 total_quota_push_ack 23995
total_service_auth 0 total_service_reauth 0
total_service_stop 4 total_quota_return 0
total_quota_granted 23995 total_terminate_category 0
total_blacklisted_category 1 total_unknown_category 0
total_RAR_event 0 total_rating_change 0
total_delete_pdp 0 total_convert_to_postpaid 0
report_final_convert_to_postpaid 0 total_send_dummy_quota 0
category_wait_csg_timeout 0 sync_timeout_ser_stop 1
sync_timeout_qr 0 sync_timeout_other 0
GGSN service-aware pdp session statistics:
total_prepaid_users 5994 total_postpaid_users 10
reject_due_to_dcca_failure 0 reject_due_to_csg_failure 0
reject_due_to_other_reason 0
Table 31 describes the fields shown in the display.
Table 36 show gprs service-aware statistics Field Descriptions
|
|
num service aware apn |
Number of APNS that are service-aware (i.e., for which credit-control will be performed using a Diameter server). |
total_ggsn_event |
Number of PDP-level events received, such as GTP update event or sending an accounting-stop message. |
total_ggsn_failure |
Number of internal failures associated with creating, accessing, or manipulating various category-related dtat structures. |
total_csg_event |
Number of CSG-related events received by various categories, such as Quota Push Ack, Service-Auth, or Service-Reauth. |
total_csg_failure |
Number of CSG-related errors received, such as GTP' NACK. |
total_dcca_event |
Number of DCCA-server related events received by various categories, such as Quota Grants, Blacklists, or Authorization Denied. |
total_dcca_failure |
Number of times the DCCA server has not responded during a specified time period. |
total_category_created |
Number of categories created across all PDP contexts. |
total_category_deleted |
Number of categories deleted across all PDP contexts. |
total_sync_object_created |
Number of sync objects created, to which to send multiple messages associated with an event. |
total_sync_object_deleted |
Number of sync objects deleted. A sync object is required when a DCCA procdure such as Quota-Push needs to be performed for multiple categories in a single CCR/CCA. |
category_fsm_return_error |
Number of internal erros while executing the category state machine. |
total_quota_push_ack |
Number of Quota Push acknowledgements received from the CSG. |
total_service_auth |
Number of Service-Auth requests received from the CSG. |
total_service_reauth |
Number of Service-Reauth requests received from the CSG. |
total_service_stop |
Number of Service-Stop responses received from the CSG. |
total_quota_return |
Number of Quota-Return messages received from the CSG. |
total_quota_granted |
Number of times quota has been granted by the DCCA server for various categories. |
total_terminate_category |
Number of times the DCCA server has terminated the service because authorization was denied or the user's credit was exhausted. |
total_blacklisted_category |
Number of times the DCCA server blacklisted a category. |
total_unknown_category |
Number of times the DCCA server has responded with a DIAMETER_RATING_FAILED message. |
total_RAR_event |
Number of times an update PDP context request has been received by category. |
total_rating_change |
Number of times an update PDP context event has been received by category. |
total_delete_pdp |
Not currently used. |
total_convert_to_postpaid |
Number of times a CC session has been converted to postpaid session because of an unresponsive DCCA server. |
report_final_convert_to_postpaid |
Number of times a session was converted to a postpaid session because of an invalid answer from the DCCA server. |
total_send_dummy_quota |
Number of times dummy quota has been granted because of a slow DCCA server (for example, a server that didn't respond in the required Tx time interval). |
category_wait_csg_timeout |
Number of times a category timeout occurred on service stop. |
sync_timeout_ser_stop |
Sync_object timeout on service stop. |
sync_timeout_qr |
Sync_object timeout on quota return. |
sync_timeout_other |
Sync_object timeout on other reasons. |
total_prepaid_users |
Number of service-aware users treated as pre-paid users. |
total_postpaid_users |
Number of service-aware users treated as post-paid users. |
reject_due_to_dcca_failure |
Number of times a PDP context has been rejected because of a failure to communicate with a DCCA server. |
reject_due_to_csg_failure |
Number of times a PDP context has been rejected because of a failure to communicate with a CSG server. |
reject_due_to_other_reason |
Number of times a PDP contect has been rejected for other reasons. |
Related Commands
|
|
clear gprs service-aware statistics |
Displays information about access points on the GGSN. |
show gprs slb detail
To display all Cisco IOS SLB-related information, such as operation mode, virtual server addresses, SLB notifications, and statistics, use the show gprs slb detail command in privileged EXEC mode.
show gprs slb detail
Syntax Description
This command has no arguments or keywords.
Defaults
No default behavior or values.
Command Modes
Privileged EXEC
Command History
|
|
12.3(8)XU |
This command was introduced. |
12.3(11)YJ |
This command was integrated into Cisco IOS Release 12.3(11)YJ. |
12.3(14)YQ |
This command was integrated into Cisco IOS Release 12.3(14)YQ. |
12.3(14)YU |
This command was integrated into Cisco IOS Release 12.3(14)YU and the Subscriber exit field was added to the output. |
12.4(2)XB |
This command was integrated into Cisco IOS Release 12.4(2)XB and the following fields were removed from the display: •SLB Notifications sent –CAC failure –Subscriber ext The following fields were added to the SLB Statistics section of the display: •CAC-failure notifications sent •Session-deletion notifications sent •PDP status notifications sent •PDP status negative response sent •PDP status requests received |
Usage Guidelines
Use the show gprs slb detail command to display to all Cisco IOS SLB-related information, including statistics associated with GTP SLB sticky database support.
Examples
The following example shows the output for the show gprs slb detail command:
GGSN#show gprs slb detail
SLB Operation Mode:dispatched
CAC-failure notifications sent: 0
Session-deletion notifications sent: 0
PDP status notifications sent: 0
PDP status negative response sent: 0
PDP status requests received: 0
Table 32 describes the fields shown in the display.
Table 37 show gprs slb detail Field Descriptions
|
|
CAC-failure notifications sent |
Number of times the GGSN has notified the Cisco IOS SLB that a Call Admission Control (CAC) or canonical QoS failure has occurred. |
PPP status negative response sent |
Number of responses sent to the IOS SLB after the sticky object idle timer has expired that indicate that the PDP context associated with the sticky object has ended. |
PPP status notifications sent |
Number of status notifications sent to the IOS SLB after the idle timer on associated sticky object has expired that indicate whether a PDP context is active or has ended. |
PPP status requests received |
Number of IOS SLB requests received by the GGSN. |
Session-deletion notifications sent |
Number of times the GGSN has notified the Cisco IOS SLB that the last PDP context associated with an IMSI has been deleted. |
SLB Operation Mode: |
Mode of operation in which the Cisco IOS SLB is functioning. Possible values are dispatched and directed. |
SLB vservers |
IP addresses of the virtual servers to be notified by the GGSN when the specific type of condition defined using the gprs slb notify command occurs. |
Related Commands
|
|
clear gprs slb statistics |
Clears Cisco IOS SLB statistics. |
gprs slb mode |
Defines the Cisco IOS SLB operation mode. |
gprs slb notify |
Enables the GGSN to notify the Cisco IOS SLB when a specific type of condition occurs. |
gprs slb vserver |
Configures the Cisco IOS SLB virtual servers to be notified by the GGSN when the specific type of condition defined using the gprs slb notify command occurs. |
show gprs slb mode |
Displays the Cisco IOS SLB mode of operation. |
show gprs slb statistics |
Displays Cisco IOS SLB statistics. |
show gprs slb vservers |
Displays the list of defined Cisco IOS SLB virtual servers. |
show gprs slb mode
To display the Cisco IOS SLB mode of operation defined on the gateway GPRS support node (GGSN), use the show gprs slb mode command in privileged EXEC mode.
show gprs slb mode
Syntax Description
This command has no arguments or keywords.
Defaults
No default behavior or values.
Command Modes
Privileged EXEC
Command History
|
|
12.3(8)XU |
This command was introduced. |
12.3(11)YJ |
This command was integrated into Cisco IOS Release 12.3(11)YJ. |
12.3(14)YQ |
This command was integrated into Cisco IOS Release 12.3(14)YQ. |
12.3(14)YU |
This command was integrated into Cisco IOS Release 12.3(14)YU. |
12.4(2)XB |
This command was integrated into Cisco IOS Release 12.4(2)XB. |
Usage Guidelines
Use the show gprs slb mode command to display the Cisco IOS SLB operation mode defined on the GGSN.
Examples
The following example shows that the Cisco IOS SLB operation mode is defi ned as dispatch mode:
SLB Operation Mode:dispatched
Related Commands
|
|
clear gprs slb statistics |
Clears Cisco IOS SLB statistics. |
gprs slb mode |
Defines the Cisco IOS SLB operation mode. |
gprs slb notify |
Enables the GGSN to provide feedback to the Cisco IOS SLB when a specific condition occurs. |
gprs slb vserver |
Configures the Cisco IOS SLB virtual servers to be notified by the GGSN when the specific type of condition defined by the gprs slb notify command occurs. |
show gprs slb detail |
Displays Cisco IOS SLB related information, such as the operation mode, virtual servers addresses, and statistics. |
show gprs slb statistics |
Displays Cisco IOS SLB statistics. |
show gprs slb vservers |
Displays the list of defined Cisco IOS SLB virtual servers. |
show gprs slb statistics
To display Cisco IOS SLB statistics, use the show gprs slb mode command in privileged EXEC mode.
show gprs slb statistics
Syntax Description
This command has no arguments or keywords.
Defaults
No default behavior or values.
Command Modes
Privileged EXEC
Command History
|
|
12.3(8)XU |
This command was introduced. |
12.3(11)YJ |
This command was integrated into Cisco IOS Release 12.3(11)YJ. |
12.3(14)YQ |
This command was integrated into Cisco IOS Release 12.3(14)YQ. |
12.3(14)YU |
This command was integrated into the Cisco IOS Release 12.3(14)YU and the Subscriber exit field was added to the output. |
12.4(2)XB |
This command was integrated into Cisco IOS Release 12.4(2)XB and the following fields were removed from the display: •SLB Notifications sent –CAC failure –Subscriber exit The following fields were added to the SLB Statistics section of the display: •CAC-failure notifications sent •Session-deletion notifications sent •PDP status notifications sent •PDP status negative response sent •PDP status requests received |
Usage Guidelines
Use the show gprs slb statistics command to display IOS SLB statistics, including statistics associated with GTP SLB sticky database support.
Examples
The following example displays IOS SLB-related statistics on the GGSN:
GGSN#show gprs slb statistics
CAC-failure notifications sent: 0
Session-deletion notifications sent: 0
PDP status notifications sent: 0
PDP status negative response sent: 0
PDP status requests received: 0
Table 33 describes the fields shown in the display.
Table 38 show gprs slb statistics Field Descriptions
|
|
CAC-failure notifications sent |
Number of times the GGSN has notified the Cisco IOS SLB that a Call Admission Control (CAC) or canonical QoS failure has occurred. |
PPP status negative response sent |
Number of responses sent to the IOS SLB after the sticky object idle timer has expired that indicate that the PDP context associated with the sticky object has ended. |
PPP status notifications sent |
Number of status notifications sent to the IOS SLB after the idle timer on associated sticky object has expired that indicate whether a PDP context is active or has ended. |
PPP status requests received |
Number of IOS SLB requests received by the GGSN. |
Session-deletion notifications sent |
Number of times the GGSN has notified the IOS SLB that the last PDP context associated with an IMSI has been deleted. |
Related Commands
|
|
clear gprs slb statistics |
Clears Cisco IOS SLB statistics. |
gprs slb mode |
Defines the Cisco IOS SLB operation mode. |
gprs slb notify |
Enables the GGSN to notify the Cisco IOS SLB when a specific type of condition occurs. |
gprs slb vserver |
Configures the Cisco IOS SLB virtual servers to be notified by the GGSN when the specific type of condition defined using the gprs slb notify command occurs. |
show gprs slb detail |
Displays Cisco IOS SLB related information, such as the operation mode, virtual servers addresses, and statistics. |
show gprs slb mode |
Displays the Cisco IOS SLB mode of operation defined on the GGSN. |
show gprs slb vservers |
Displays the list of defined Cisco IOS SLB virtual servers. |
show gprs slb vservers
To display a list of Cisco IOS SLB virtual servers to be notified by the gateway GPRS support node (GGSN) when the specific type of condition defined using the gprs slb notify command occurs, use the show gprs slb vservers command in privileged EXEC mode.
show gprs slb vservers
Syntax Description
This command has no arguments or keywords.
Defaults
No default behavior or values.
Command Modes
Privileged EXEC
Command History
|
|
12.3(8)XU |
This command was introduced. |
12.3(11)YJ |
This command was integrated into Cisco IOS Release 12.3(11)YJ. |
12.3(14)YQ |
This command was integrated into Cisco IOS Release 12.3(14)YQ. |
12.3(14)YU |
This command was integrated into Cisco IOS Release 12.3(14)YU. |
12.4(2)XB |
This command was integrated into Cisco IOS Release 12.4(2)XB. |
Usage Guidelines
Use the show gprs slb vservers command to display a list of Cisco IOS SLB virtual servers to be used for GGSN-SLB messaging.
Examples
The following example shows a list of virtual servers that were defined using the gprs slb vservers global configuration command:
GGSN#show gprs slb vservers
Related Commands
|
|
clear gprs slb statistics |
Clears Cisco IOS SLB statistics. |
gprs slb mode |
Defines the Cisco IOS SLB operation mode. |
gprs slb notify |
Enables the GGSN to notify the Cisco IOS SLB when a specific type of condition occurs. |
gprs slb vserver |
Configures the Cisco IOS SLB virtual servers to be notified by the GGSN when the specific type of condition defined by the gprs slb notify command occurs. |
show gprs slb detail |
Displays Cisco IOS SLB related information, such as the operation mode, virtual servers addresses, and statistics. |
show gprs slb mode |
Displays the Cisco IOS SLB mode of operation defined on the GGSN. |
show gprs slb statistics |
Displays Cisco IOS SLB statistics. |
show gprs service-mode
To display the current service mode of the gateway GPRS support node (GGSN) and the last time the service mode was changed, issue the show gprs service-mode command in privileged EXEC mode.
show gprs service-mode
Syntax Description
This command has no arguments or keywords.
Defaults
No default behavior or values.
Command Modes
Privileged EXEC
Command History
|
|
12.3(8)XU |
This command was introduced. |
12.3(11)YJ |
This command was integrated into Cisco IOS Release 12.3(11)YJ. |
12.3(14)YQ |
This command was integrated into Cisco IOS Release 12.3(14)YQ. |
12.3(14)YU |
This command was integrated into Cisco IOS Release 12.3(14)YU. |
12.4(2)XB |
This command was integrated into Cisco IOS Release 12.4(2)XB. |
Usage Guidelines
Use the show gprs service-mode command to display the current service mode of a GGSN and the last time the service mode was changed.
Examples
Example 1
The following example shows output from the show gprs service-mode command when no service-mode change has occurred:
GGSN# show gprs service-mode
Example 2
The following example shows output from the show gprs service-mode command when a service-mode change has occurred:
GGSN# show gprs service-mode
Service mode:maintenance last change at: 23:49:21 UTC Mon January 20, 2004
Related Commands
|
|
gprs charging service-mode |
Configures the service-mode state of a GGSN's charging functions. |
gprs service-mode |
Configures the service-mode state of a GGSN. |
service-mode |
Configures the service-mode state of an APN. |
show gprs umts-qos map traffic-class
To display UMTS QoS mapping information, use the show gprs umts-qos map traffic-class command in privileged EXEC mode.
show gprs umts-qos map traffic-class {all | signalling | conversational | streaming | interactive | background}
Syntax Description
all |
Displays information for all UMTS QoS traffic classes. |
signalling |
Displays information for the UMTS QoS traffic class signalling. |
conversational |
Displays information for the UMTS QoS traffic class conversational. |
streaming |
Displays information for the UMTS QoS traffic class streaming. |
interactive |
Displays information for the UMTS QoS traffic class interactive. |
background |
Displays information for the UMTS QoS traffic class background. |
Defaults
No default behavior or values.
Command Modes
Privileged EXEC
Command History
|
|
12.2(8)YW |
This command was introduced. |
12.3(2)XB |
This command was integrated into Cisco IOS Release 12.3(2)XB. |
12.3(8)XU |
This command was integrated into Cisco IOS Release 12.3(8)XU. |
12.3(11)YJ |
This command was integrated into Cisco IOS Release 12.3(11)YJ. |
12.3(14)YQ |
This command was integrated into Cisco IOS Release 12.3(14)YQ. |
12.3(14)YU |
This command was integrated into Cisco IOS Release 12.3(14)YU. |
12.4(2)XB |
This command was integrated into Cisco IOS Release 12.4(2)XB. |
Usage Guidelines
Use the show gprs umts-qos map traffic-class command to display information about UMTS QoS mapping.
Examples
The following example shows output from the show gprs umts-qos map traffic-class command for all UMTS QoS traffic classes:
router# show gprs umts-qos map traffic-class all
Traffic Class Diffserv PHB Group Diffserv Code Point
signaling Signaling Class 40
conversational EF Class 46
streaming AF2 Class 18,20,22
interactive AF3 Class 26,28,30
Table 34 describes the fields shown in the display.
Table 39 show gprs umts-qos map traffic-class Field Descriptions
|
|
Traffic Class |
Type of UMTS QoS traffic class as specified in the gprs umts-qos map traffic-class command. The UMTS QoS traffic classes are: •signaling •conversational •streaming •interactive •background |
Diffserv PHB Group |
Type of DiffServ PHB group as specified in the gprs umts-qos map diffserv-phb command. Possible DiffServ PHB groups are: •signalling-class •ef-class •af1-class •af2-class •af3-class •af4-class •best-effort |
Diffserv Code Point |
Number of DSCPs as specified in the gprs umts-qos map diffserv-phb command. |
Related Commands
|
|
gprs umts-qos map traffic-class |
Specifies a QoS mapping from the UMTS traffic classes to a differentiated services (DiffServ) per-hop behavior (PHB) group |
gprs umts-qos map diffserv-phb |
Assigns a differentiated services code point (DSCP) to a DiffServ PHB group. |
show gprs umts-qos police pdp-context tid
To display policing statistics for a PDP context, use the show gprs umts-qos police pdp tid command in privileged EXEC mode.
show gprs umts-qos police pdp-context tid tid
Syntax Description
tid |
Specifies the tunnel ID for which you want to display policing statistics. |
Defaults
No default behavior or values.
Command Modes
Privileged EXEC
Command History
|
|
12.3(8)XU |
This command was introduced. |
12.3(11)YJ |
This command was integrated into Cisco IOS Release 12.3(11)YJ. |
12.3(14)YQ |
This command was integrated into Cisco IOS Release 12.3(14)YQ. |
12.3(14)YU |
This command was integrated into Cisco IOS Release 12.3(14)YU. |
12.4(2)XB |
This command was integrated into Cisco IOS Release 12.4(2)XB. |
Usage Guidelines
Use the show gprs umts-qos police pdp-context tid command to display policing information for a PDP context.
Examples
The following example shows output from the show gprs umts-qos police pdp-context tid command for a PDP context:
GGSN#sh gprs umts-qos police pdp-context tid 1203000000000010
DOWNLINK POLICING STATISTICS
rate 5184000 , bc 1500 bytes
peak-rate 7424000, be 1800 bytes
conformed 2 packets, 200 bytes; actions:
exceeded 0 packets, 0 bytes; actions:
violated 0 packets, 0 bytes; actions:
Flow id:Identifier used in communication with IOS QoS regarding a
rate :Average rate in bits per second.
bc :Normal burst size in bytes
peak-rate :peak rate in bits per second
be :Excess burst size in bytes.
Related Commands
|
|
police rate |
Configures traffic policing using the police rate. |
service-policy |
Attaches a service policy to an APN, to be used as the service policy for PDP flows of that APN. |
show gprs umts-qos profile pdp tid
To display requested and negotiated QoS information for a PDP context, use the show gprs umts-qos profile pdp tid command in privileged EXEC mode.
show gprs umts-qos profile pdp tid tid
Syntax Description
tid |
Specifies the tunnel ID for which you want to display policing statistics. |
Defaults
No default behavior or values.
Command Modes
Privileged EXEC
Command History
|
|
12.3(8)XU |
This command was introduced. |
12.3(11)YJ |
This command was integrated into Cisco IOS Release 12.3(11)YJ. |
12.3(14)YQ |
This command was integrated into Cisco IOS Release 12.3(14)YQ. |
12.3(14)YU |
This command was integrated into Cisco IOS Release 12.3(14)YU. |
12.4(2)XB |
This command was integrated into Cisco IOS Release 12.4(2)XB. |
Usage Guidelines
Use the show gprs umts-qos profile pdp tid command to display requested and negotiated QoS information for a PDP context.
Examples
The following example shows output from the show gprs umts-qos profile pdp tid command for R97/R98 QoS:
show gprs umts-qos profile pdp tid 1203000000000010
Requested QoS Profile Negotiated QoS Profile
================= =================
Delay Class:2 Delay Class:2
Reliability:1 Reliability:1
Peak Throughput:1 Peak Throughput:1
Precedence:1 Precedence:1
Mean Throughput:1 Mean Throughtput:1
The following example shows output from the show gprs umts-qos profile pdp tid command for R99 QoS:
Requested QoS Profile Negotiated QoS Profile
================ =================
Allocation/Retention:1 Allocaion/Retention:1
Delay Class:2 Delay Class:2
Reliability:1 Reliability:1
Peak Throughput:1 Peak Throughput:1
Precedence:1 Precedence:1
Mean Throughput:1 Mean Throughtput:1
Traffic Class:conversational Traffic Class:conversational
Delivery Order:2 Delivery Order:2
Delivery of Err:2 Delivery of Err:2
Max SDU Size(bytes):1520 Max SDU Size(bytes):1520
MBR for Uplink(kbps):20 MBR for Uplink(kbps):20
MBR for Downlink(kbps):20 MBR for Downlink(kbps):20
Residual BER:1 Residual BER:1
SDU Error Ratio:1*10^-2 SDU Error Ratio:1*10^-2
Transfer Delay(ms):10 Transfer Delay(ms):10
Handling Priority:1 Handling Priority:1
GBR for Uplink(kbps):10 GBR for Uplink(kbps):10
GBR for Downlink(kbps):5 GBR for Downlink(kbps):5
Source Statistics Des:Speech Source Statistics Des:Speech
show ip iscsi name
To display the name of an iSCSI initiator, use the show ip iscsi name command in privileged EXEC mode.
show ip iscsi name
Syntax DescriptionDescription
This command has no arguments or keywords.
Defaults
No default behavior or values.
Command Modes
Privileged EXEC
Command History
|
|
12.4(15)XQ |
This command was introduced. |
12.4(24)T |
This command was integrated into Cisco IOS Release 12.4(24)T. |
Usage Guidelines
Use the show ip iscsi name command to display the name of an iSCSI initiator.
Examples
The following example shows output from the show ip iscsi session command:
Router#show ip iscsi name
iSCSI initiator name: iqn.1987-07.com.cisco:wtbg-sup-09-3
Router#
Related Commands
|
|
show ip iscsi session |
Displays information about the iSCSI sessions on the GGSN. |
show ip iscsi target |
Displays information about iSCSI targets. |
show ip iscsi session
To display the status of iSCSI sessions on the GGSN, use the show ip iscsi session command in privileged EXEC mode.
show ip iscsi session [session_id] [detail]
Syntax Description
session_id |
(Optional) Identification number of the session. |
detail |
(Optional) Displays detailed information about the iSCSI session. |
Syntax Description
No default behavior or values.
Command Modes
Privileged EXEC
Command History
|
|
12.4(15)XQ |
This command was introduced. |
12.4(24)T |
This command was integrated into Cisco IOS Release 12.4(24)T. |
Usage Guidelines
Use the show ip iscsi session command to display iSCSI sessions.
Examples
The following example shows output from the show ip iscsi session command:
Router#show ip iscsi session 12
ID TARGET STATE CONNECTIONS
--------------------------------------------------------------
12 LINUX Logged In 1
Router#show ip iscsi session
ID TARGET STATE CONNECTIONS
--------------------------------------------------------------
12 LINUX Logged In 1
Router#show ip iscsi session detail
ID: 12
Profile: LINUX
State: Logged In
Connections: 1
First Burst Length: 16384
Max Burst Length: 16384
Max Recv Data Segment: 32768
Max Xmit Data Segment: 8192
Initial R2T: Yes
Immediate data: Yes
Data PDU in order: Yes
Data PDU in order: Yes
Router#show ip iscsi session 12 detail
ID: 12
Profile: LINUX
State: Logged In
Connections: 1
First Burst Length: 16384
Max Burst Length: 16384
Max Recv Data Segment: 32768
Max Xmit Data Segment: 8192
Initial R2T: Yes
Immediate data: Yes
Data PDU in order: Yes
Data PDU in order: Yes
Router#
show ip iscsi stats
To display iSCSI statistics, use the show ip iscsi stats command in privileged EXEC mode.
show ip iscsi stats [detail]
Syntax Description
detail |
(Optional) Displays detailed information about the iSCSI statistics. |
Defaults
No default behavior or values.
Command Modes
Privileged EXEC
Command History
|
|
12.4(15)XQ |
This command was introduced. |
12.4(24)T |
This command was integrated into Cisco IOS Release 12.4(24)T. |
Usage Guidelines
Use the show ip iscsi stats command to display iSCSI statistics.
Examples
The following example shows output from the show ip iscsi stats command:
Router#show ip iscsi stats
iSCSI Stats:
Login Requests - 2, Login Responses - 2
Logout Requests - 0, Logout Responses - 0
Login Timeouts - 0, Logout Timeouts - 0
SCSI Commands - 27, SCSI Responses - 27
Data In PDUs - 25, Data Out PDUs - 0
Immed Data - 1, Unsolicited Data - 0
NOP Ins - 35, NOP Outs - 35
Async Requests - 0, Async Req Logout - 0
Async Drop Conn - 0, Async Drop Conns - 0
R2t Requests - 0, Rejects - 0
System Stats:
TX Queue Overflow - 0, RX Queue Overflow - 0
Connection Resets - 0, Tasks aborted - 0
SCSI Stats:
Total Requests - 27
Test Unit Ready Requests - 1, Test Unit Ready Failures - 0
Report Luns Requests - 1, Report Luns Failures - 0
Lun Inquiry Requests - 5, Lun Inquiry Failures - 0
Read Capacity Requests - 5, Read Capacity Failures - 0
Read Requests - 14, Read Failures - 0
Write Requests - 1, Write Failures - 0
Blocks Read- 49, Blocks Written - 8
Router#show ip iscsi stats detail
iSCSI Stats:
Login Requests - 2, Login Responses - 2
Logout Requests - 0, Logout Responses - 0
Login Timeouts - 0, Logout Timeouts - 0
SCSI Commands - 27, SCSI Responses - 27
Data In PDUs - 25, Data Out PDUs - 0
Immed Data - 1, Unsolicited Data - 0
NOP Ins - 36, NOP Outs - 36
Async Requests - 0, Async Req Logout - 0
Async Drop Conn - 0, Async Drop Conns - 0
R2t Requests - 0, Rejects - 0
System Stats:
TX Queue Overflow - 0, RX Queue Overflow - 0
Connection Resets - 0, Tasks aborted - 0
SCSI Stats:
Total Requests - 27
Test Unit Ready Requests - 1, Test Unit Ready Failures - 0
Report Luns Requests - 1, Report Luns Failures - 0
Lun Inquiry Requests - 5, Lun Inquiry Failures - 0
Read Capacity Requests - 5, Read Capacity Failures - 0
Read Requests - 14, Read Failures - 0
Write Requests - 1, Write Failures - 0
Blocks Read- 49, Blocks Written - 8
Related Commands
|
|
clear ip iscsi stats |
Clears iSCSI statistics. |
show ip iscsi target
To display details about an iSCSI target, use the show ip iscsi target command in privileged EXEC mode.
show ip iscsi target
Syntax DescriptionDescription
This command has no arguments or keywords.
Defaults
No default behavior or values.
Command Modes
Privileged EXEC
Command History
|
|
12.4(15)XQ |
This command was introduced. |
12.4(24)T |
This command was integrated into Cisco IOS Release 12.4(24)T. |
Usage Guidelines
Use the show ip iscsi target command to display information about an iSCSI target.
Examples
The following example shows output from the
show ip iscsi target command:
Router#show ip iscsi target
Target Profile= TARGET_LINUX IN_USE
Target: name= iqn.2002-10.edu.unh.iol.iscsi.draft20-target:1
Target: ip= 10.76.43.233, port= 3260, portal group= 0
vrf= , sync read offset= 100, batch write= 100
write interval= 5 sec, file size= 100 MB #
Related Commands
|
|
show ip iscsi session |
Displays iSCSI sessions. |
show ip iscsi stats |
Display iSCSI statistics. |
show policy-map apn
To display statistical and configuration information for all input and output policies attached to an APN, use the show policy-map apn command in privileged EXEC mode.
show policy-map apn access-point-index
Syntax Description
access-point-index |
Integer (from 1 to 65535) that identifies an access point. Information about that access point is shown. |
Defaults
No default behavior or values.
Command Modes
Privileged EXEC
Command History
|
|
12.3(8)XU |
This command was introduced. |
12.3(11)YJ |
This command was integrated into Cisco IOS Release 12.3(11)YJ. |
12.3(14)YQ |
This command was integrated into Cisco IOS Release 12.3(14)YQ. |
12.3(14)YU |
This command was integrated into Cisco IOS Release 12.3(14)YU. |
12.4(2)XB |
This command was integrated into Cisco IOS Release 12.4(2)XB. |
Usage Guidelines
Use the show policy-map apn command to display statistical and configuration information for all input and output policies attached to an APN.
Examples
This section provides sample outputs of the show policy-map apn command. The output you see might vary slightly from the ones shown below.
Example 1: Non Flow-Based Policing
The example provides sample output of the show policy-map apn command for non flow-based policing for access point 1, to which a service policy called "policy-non-flow" is attached (configured as shown below).
! Configures a class map with dscp based classification
class-map match-all class-dscp
! Configures a policy with this class map
policy-map policy-nonflow
exceed-action set-dscp-transmit 15
! Attaches the policy to an APN
gprs access-point-list gprs
service-policy input policy-nonflow
GGSN#show policy-map apn 1
Service-policy input:policy-nonflow
Class-map:class-dscp (match-all)
30 second offered rate 0 bps, drop rate 0 bps
rate 8000 bps, burst 1000 bytes
peak-rate 10000 bps, peak-burst 1400 bytes
conformed 3 packets, 300 bytes; actions:
exceeded 0 packets, 0 bytes; actions:
violated 0 packets, 0 bytes; actions:
conformed 0 bps, exceed 0 bps, violate 0 bps
Class-map:class-default (match-any)
30 second offered rate 0 bps, drop rate 0 bps
With the above configuration, the show gprs umts-qos police pdp-context tid command does not display any information for the configuration is not per-PDP based.
GGSN#show gprs umts-qos police pdp-context tid 1203000000000010
No Policing Statistics Available
Example 2: Flow-Based Policing
The example provides sample output of the show policy-map apn command for flow-based policing for access point 1, to which a service policy called "policy-non-flow" is attached (configured as shown below).
! Configures a class map with flow based classification.
class-map match-all class-pdp
! Configures a policy-map and attch this class map into it.
conform-action set-dscp-transmit 15
exceed-action set-dscp-transmit 15
!
Note With non flow-based policing, the police rate is not provided using the police rate command but is taken dynamically from the configure maximum and guaranteed bit rates.
! Attaches the policy-map to the apn.
gprs access-point-list gprs
service-policy input policy-gprs
GGSN#show policy-map apn 1
Service-policy input:policy-gprs
Class-map:class-pdp (match-all)
30 second offered rate 0 bps, drop rate 0 bps
peak-rate pdp, be 1800 bytes
conformed 0 packets, 0 bytes; actions:
exceeded 0 packets, 0 bytes; actions:
violated 0 packets, 0 bytes; actions:
Class-map:class-default (match-any)
30 second offered rate 0 bps, drop rate 0 bps
The show policy-map command displays the aggregated traffic count. To display the policing counters, issues the show gprs umts-qos police pdp-context tid command:
GGSN#show gprs umts-qos police pdp-context tid 1203000000000010
DOWNLINK POLICING STATISTICS
rate 5184000 , bc 1500 bytes
peak-rate 7424000, be 1800 bytes
conformed 2 packets, 200 bytes; actions:
exceeded 0 packets, 0 bytes; actions:
violated 0 packets, 0 bytes; actions:
Example 3: Flow and DSCP-Based Policing
In the following example, a policy map is created with both flow-based and DSCP-based classication. In this configuration, per-PDP policing occurs when both conditions are met. For example, if a packet is received by the GGSN for a PDP with a different DSCP value than the one configured in the class-map, policing does not occur.
! Configures a class map with match flow + DSCP based classification.
class-map match-all class-flow-dscp
! Configure a policy-map with this class map
policy-map policy-flow-dscp
exceed-action set-dscp-transmit 15
! Attaches the policy to an apn.
gprs access-point-list gprs
service-policy input policy-flow-dscp
Note Data with DSCP value 0 has been processed.
GGSN#show policy-map apn 1
Service-policy input:policy-flow-dscp
Class-map:class-flow-dscp (match-all)
30 second offered rate 0 bps, drop rate 0 bps
peak-rate pdp, be 1800 bytes
conformed 0 packets, 0 bytes; actions:
exceeded 0 packets, 0 bytes; actions:
violated 0 packets, 0 bytes; actions:
Class-map:class-default (match-any)
30 second offered rate 0 bps, drop rate 0 bps
GGSN#show gprs umts-qos police pdp-context tid 1203000000000010
DOWNLINK POLICING STATISTICS
rate 5184000 , bc 1500 bytes
peak-rate 7424000, be 1800 bytes
conformed 3 packets, 342 bytes; actions:
exceeded 0 packets, 0 bytes; actions:
violated 0 packets, 0 bytes; actions:
A packet with a different DSCP value does not get policed.
Related Commands
|
|
match flow |
Specifies PDP flows as the match criterion in a class map. |
police rate |
Configures traffic policing using the police rate. |
service-policy |
Attaches a service policy to an APN, to be used as the service policy for PDP flows of that APN. |
show gprs umts-qos police pdp-context tid |
Displays policing statistics for a PDP context. |
show record-storage-module stats
To display current record storage module (RSM) statistics, use the show record-storage-module stats command in privileged EXEC mode.
show record-storage-module stats
Syntax DescriptionDescription
This command has no arguments or keywords.
Defaults
No default behavior or values.
Command Modes
Privileged EXEC
Command History
|
|
12.4(15)XQ |
This command was introduced. |
12.4(24)T |
This command was integrated into Cisco IOS Release 12.4(24)T. |
Usage Guidelines
Use the show record-storage-module stats command to display RSM statistics.
Examples
The following example shows output from the show record-storage-module stats command:
Router#show record-storage-module stats
RSM Appl Stats:
requests:
open= 1, read= 0, write= 0
ping= 0, close= 0
request fail:
open= 0, read= 0, write= 0
ping= 0, close= 0 | ta
alloc fail:
appl info= 0, appl msg= 0, appl req= 0,
data buffer= 0, drive= 0
RSM Clear:
Related Commands
|
|
clear record-storage-module stats |
Clears current RSM-related statistics. |
show record-storage-module target-info
To display the number of record storage module (RSM) disks available their current status, use the show record-storage-module target-info command in privileged EXEC mode.
show record-storage-module target-info [all | target-profile profile_name] [detail]
Syntax Description
all |
Displays statistics for all targets for which there are profiles. |
target-profile profile_name |
Displays statistics for a specific profile. |
detail |
Displays detailed information about the RSM drives. |
Defaults
No default behavior or values.
Command Modes
Privileged EXEC
Command History
|
|
12.4(15)XQ |
This command was introduced. |
12.4(24)T |
This command was integrated into Cisco IOS Release 12.4(24)T. |
Usage Guidelines
Use the show record-storage-module target-info command to display RSM statistics by profile.
Examples
The following example shows output from the show record-storage-module target-info command:
Router#show record-storage-module target-info all detail
Target profile = TARGET_LINUX
Application name = GGSN, Target State = Active, Disk = Usable
Application id = 2, iSCSI handle = 2
Number of drives = 5, Read drive = sda3, Write drive = sda3
Descriptors: read = -1, write = -1, master = -1
Current File: bytes written = 0, bytes read = 0
Read: dir = 1, file = 1, offset = 62675
Salvage file = 0, CRC = 0x91C816C0
Reason = Unexpected IFS error (Invalid DOS media or no media in slot)
Reason = Unexpected IFS error (Invalid DOS media or no media in slot)
Reason = Unexpected IFS error (Invalid DOS media or no media in slot)
Reason = Unexpected IFS error (Invalid DOS media or no media in slot)
show tech-support
To display GPRS/UMTS protocol-specific information about the router when reporting a problem, use the show tech-support command in privileged EXEC mode and specify the ggsn keyword option.
show tech-support [ ggsn]
Syntax Description
ggsn |
(Optional) Displays show command output specific to GPRS/UMTS. |
Defaults
No default behavior or values.
Command Modes
Privileged EXEC
Command History
|
|
11.2 |
This command was introduced. |
12.3(8)XU |
This command was integrated into Cisco IOS Release 12.3(8)XU and the ggsn keyword option was added. |
12.3(11)YJ |
This command was integrated into Cisco IOS Release 12.3(11)YJ. |
12.3(14)YQ |
This command was integrated into Cisco IOS Release 12.3(14)YQ. |
12.3(14)YU |
This command was integrated into Cisco IOS Release 12.3(14)YU. |
12.4(2)XB |
This command was integrated into Cisco IOS Release 12.4(2)XB. |
Usage Guidelines
The output of show tech-support ggsn includes the ggsn-specific output displayed by the following commands:
•show gprs charging parameters
•show gprs charging statistics
•show gprs charging status all
•show gprs gtp parameters
•show gprs gtp statistics
•show gprs gtp status
•show gprs memory threshold statistics
•show gprs qos status
•show running-config
•show version
Examples
The following example shows the output of the show tech-support ggsn command:
GGSN# show tech-support ggsn
------------------ show version ------------------
Cisco IOS Software, 7200 Software (C7200-G8IS-M), Experimental Version
12.3(20040128:223808) [r50 104]
Copyright (c) 1986-2004 by Cisco Systems, Inc.
Compiled Sun 01-Feb-04 05:22 by user
ROM: System Bootstrap, Version 12.2(4r)B2, RELEASE SOFTWARE (fc2)
BOOTLDR: 7200 Software (C7200-KBOOT-M), Version 12.1(8a)E, EARLY DEPLOYMENT RELEASE
SOFTWARE (fc1)
ggsn uptime is 1 day, 21 hours, 4 minutes
System returned to ROM by reload at 19:48:49 EST Fri Jan 30 2004
System image file is "tftp://9.1.0.1/gota/c7200-g8is-mz"
Last reload reason: Reload command
Cisco 7206VXR (NPE400) processor (revision A) with 491520K/32768K bytes of memory.
Processor board ID 29550562
R7000 CPU at 350MHz, Implementation 39, Rev 3.3, 256KB L2, 4096KB L3 Cache
6 slot VXR midplane, Version 2.7
PCI bus mb0_mb1 has 600 bandwidth points
PCI bus mb2 has 40 bandwidth points
3 FastEthernet interfaces
46976K bytes of ATA PCMCIA card at slot 0 (Sector size 512 bytes).
8192K bytes of Flash internal SIMM (Sector size 256K).
Configuration register is 0x0
------------------ show running-config ------------------
Building configuration...
Current configuration : 6770 bytes
service timestamps debug datetime msec
service timestamps log datetime msec
no service password-encryption
service udp-small-servers
service tcp-small-servers
enable secret 5 <removed>
enable password <removed>
aaa group server radius mwg
aaa group server radius list1
server 10.76.82.75 auth-port 1645 acct-port 1646
aaa authentication ppp default local
aaa authentication ppp list1 local
aaa authorization network default local
aaa authorization network list1 local
aaa authorization configuration list1 group radius
aaa accounting update periodic 10
aaa accounting network default start-stop group radius
aaa accounting network list1 start-stop group radius
ip host PAGENT-SECURITY-V3 39.26.7.9 17.99.0.0
network 100.0.0.0 255.0.0.0
ip address-pool dhcp-proxy-client
description to handle vrf traffic from APN1 on GGSN MWAM 1
tunnel destination 20.20.120.20
tunnel destination 13.1.101.1
tunnel destination 13.1.102.1
ip address 100.0.0.1 255.255.255.255
ip address 33.44.55.66 255.255.0.0
ip address 35.0.0.1 255.0.0.0
description interface for ggsn mwam 1
ip address 20.20.120.21 255.255.255.255
interface FastEthernet0/0
ip address 9.3.66.3 255.255.0.0
interface FastEthernet0/1
ip address 20.20.51.31 255.255.255.0
interface FastEthernet1/0
ip address 1.1.1.1 255.255.255.0
ip address 10.3.12.1 255.255.0.0
ip address 11.3.12.1 255.255.0.0
ip address 12.3.12.1 255.255.0.0
ip address 10.10.10.2 255.255.255.0
interface Virtual-Template1
ip address 72.72.72.1 255.255.0.0
interface Virtual-Template2
no peer default ip address
interface Virtual-Template3
description VT for PPP and PPP L2TP
peer default ip address pool mypool
ip local pool pdsn-pool 6.6.10.1 6.6.10.255
ip local pool pdsn-pool 6.6.11.1 6.6.26.255
ip local pool pdsn-pool 6.6.27.1 6.6.42.255
ip local pool pdsn-pool 6.6.43.1 6.6.58.255
ip local pool pdsn-pool 6.6.59.1 6.6.64.255
ip local pool pdsn-pool 6.6.65.1 6.6.80.255
ip local pool pdsn-pool 55.55.10.1 55.55.25.253
ip local pool ha-pool 24.24.1.1 24.24.16.255
ip local pool mypool 85.0.0.0 85.0.0.255
ip local pool mypool 85.1.0.0 85.1.255.255
ip local pool mypool 85.2.0.0 85.2.255.255
ip local pool mypool 85.3.0.0 85.3.255.255
ip local pool pooltest 180.180.1.1 180.180.1.10
ip default-gateway 9.15.0.1
ip route 7.7.7.1 255.255.255.255 Ethernet2/3
ip route 9.1.0.1 255.255.255.255 9.3.0.1
ip route 9.100.0.1 255.255.255.255 9.15.0.1
ip route 20.20.120.20 255.255.255.255 FastEthernet0/1
access-list 112 deny tcp any any
access-list 120 permit ip any host 10.1.102.1
access-list 150 permit icmp any 60.0.0.0 0.0.0.255
access-list 150 permit icmp 60.0.0.0 0.0.0.255 any
dialer-list 1 protocol ip permit
gprs maximum-pdp-context-allowed 45000
access-point-name gprs.cisco.com
aaa-group authentication list1
aggregate 1.1.0.0 255.255.0.0
access-violation deactivate-pdp-context
access-point-name ppp.com
gprs gtp path-echo-interval 0
gprs gtp ip udp ignore checksum
gprs gtp ppp-regeneration vtemplate 2
gprs default ip-address-pool radius-client
gprs default charging-gateway 12.3.11.1 13.3.11.1
gprs default map-converting-gsn 10.3.11.1
gprs charging server-switch-timer 0
gprs charging cdr-aggregation-limit 1
radius-server host 10.76.82.75 auth-port 1645 acct-port 1646
radius-server key <removed>
mgcp modem passthrough voip mode ca
no mgcp timer receive-rtcp
alias exec pdp sh gprs gtp pdp all
alias exec pdptid show gprs gtp pdp tid
alias exec pdptid1 show gprs gtp pdp tid 1111111111111111
alias exec pdptid2 show gprs gtp pdp tid 2222222222222222
alias exec pdpclear clear gprs gtp pdp all
login authentication console
no scheduler max-task-time
------------------ show gprs gtp status ------------------
activated ppp regen pdp 0
------------------ show gprs gtp parameters ------------------
GTP path echo interval = 0
GTP signal max wait time T3_response = 1
GTP max retry N3_request = 5
GTP dynamic echo-timer minimum = 5
GTP dynamic echo-timer smooth factor = 2
GTP buffer size for receiving N3_buffer = 8192
GTP max pdp context = 45000
------------------ show gprs gtp statistics ------------------
GGSN# show gprs gtp statistics
version_not_support 0 msg_too_short 0
unknown_msg 0 unexpected_sig_msg 0
unexpected_data_msg 0 unsupported_comp_exthdr 0
mandatory_ie_missing 0 mandatory_ie_incorrect 0
optional_ie_invalid 0 ie_unknown 0
ie_out_of_order 0 ie_unexpected 0
ie_duplicated 0 optional_ie_incorrect 0
pdp_activation_rejected 2 tft_semantic_error 0
tft_syntactic_error 0 pkt_ftr_semantic_error 0
pkt_ftr_syntactic_error 0 non_existent 0
path_failure 0 total_dropped 0
signalling_msg_dropped 0 data_msg_dropped 0
no_resource 0 get_pak_buffer_failure 0
rcv_signalling_msg 7 snd_signalling_msg 7
rcv_pdu_msg 0 snd_pdu_msg 0
rcv_pdu_bytes 0 snd_pdu_bytes 0
total created_pdp 3 total deleted_pdp 2
total created_ppp_pdp 0 total deleted_ppp_pdp 0
ppp_regen_pending 0 ppp_regen_pending_peak 0
ppp_regen_total_drop 0 ppp_regen_no_resource 0
ntwk_init_pdp_act_rej 0 total ntwkInit created pdp 0
GPRS Network behind mobile Statistics:
network_behind_ms APNs 1 total_download_route 5
save_download_route_fail 0 insert_download_route_fail 2
total_insert_download_route 3
------------------ show gprs charging status all ------------------
GPRS Charging Protocol Status
=================================
* Number of closed CDRs buffered: <0>
* Number of Containers buffered: <0>
* Number of pending unack. CDR_Output_Msgs: <0>
------------------ show gprs charging parameters ------------------
GPRS Charging Protocol Parameters
=================================
* Default Charging Gateway Address: <12.3.11.1>
* Default Backup Charging Gateway Address: <13.3.11.1>
* Default Tertiary Charging Gateway Address: UNDEFINED.
* Current Active Charging Gateway Address: <12.3.11.1>
* Current Backup Charging Gateway Address: <13.3.11.1>
* Charging Server Switch-Over Timer: <0> seconds.
* Charging Path Protocol: udp
* GTP' use short header: DISABLED
* Charging Message Options:
- Packet Transfer Command IE: DISABLED.
- Number Responded: DISABLED.
* Charging MAP DATA TOS: <3>
* Charging Transfer Interval: <105> seconds.
* Charging Transfer Threshold: <1048576> bytes.
* Charging CDR Aggregation Limit: <1> CDRs per msg.
* Charging Packet Queue Size: <128> messages.
* Charging Gateway Path Request Timer: <0> Minutes.
* Charging Change Condition Limit: <5>
* Charging SGSN Limit: DISABLED.
* Charging Time Limit: <0>
* Charging Send Buffer Size: <1460>
* Charging Port Number: <3386>
* Charging Roamers CDR Only: DISABLED.
- Local Record Sequence Number: DISABLED.
- APN Selection Mode: DISABLED.
- ChCh Selection Mode: DISABLED.
- IMS Signaling Context: DISABLED.
- External Charging ID: DISABLED.
- SGSN PLMN ID: DISABLED.
- Dynamic Address: ENABLED.
- Served PDP Address: ENABLED.
- Access Point Name: ENABLED.
- Network Initiated PDP: ENABLED.
- No Partial CDR Generation: DISABLED.
- Packet Count: DISABLED.
- Served MSISDN: DISABLED.
- Private Echo: DISABLED.
* Charging Tariff Time Changes:
* Charging Service Mode: OPERATIONAL
------------------ show gprs charging statistics ------------------
GPRS Charging Protocol Statistics
=================================
* Total Number of CDRs for Charging: <0>
* Total Number of Containers for Charging: <0>
* Total Number of CDR_Output_Msgs sent: <0>
-- Charging Gateway Statistics --
* Charging Gateway Down Count: <0>
------------------ show gprs qos status ------------------
conversational_pdp 0 streaming_pdp 0
interactive_pdp 0 background_pdp 0
------------------ show gprs memory threshold statistics --
Memory Threshold Statistics
==================================================
GGSN memory threshold status :NOT IN THRESHOLD
Number of times reached : 0
Number of PDPs rejected : 0
Number of PDPs dropped due to
Time when last memory threshold was reached :NEVER
source interface
To configure the interface to use to connect to a Diameter peer, use the source interface command in Diameter peer configuration mode. To remove the interface configuration, use the no form of this command
source interface interface_name
no source interface
Syntax Description
interface_name |
Name of the interface that the GGSN will use to communicate a Diameter peer. |
Defaults
No default behavior or values.
Command Modes
Diameter peer configuration
Command History
|
|
12.3(14)YQ |
This command was introduced. |
12.3(14)YU |
This command was integrated into Cisco IOS Release 12.3(14)YU. |
12.4(2)XB |
This command was integrated into Cisco IOS Release 12.4(2)XB. |
Usage Guidelines
Use the source interface command to specify the interface to use for a Diameter peer-to-peer connection. The DCCA client process on the GGSN will use this source address and port to initiate the TCP connection to the peer.
Examples
The following configuration example fastEthernet0 as the source interface to use for the peer-to-peer connection:
source interface fastEthernet0
Related Commands
|
|
address ipv4 |
Configures the IP address of the Diameter peer host. |
destination host |
Configures the Fully Qualified Domain Name (FQDN) of the Diameter peer |
destination realm |
Configures the destination realm (domain name) in which the Diameter host is located. |
diameter peer |
Defines the Diameter peer (server) and enters diameter peer configuration mode. |
ip vrf forwarding |
Defines the VRF associated with the Diameter peer. |
security |
Configures the security protocol to use for the Diameter peer-to-peer connection. |
timer |
Configures Diameter base protocol timers for peer-to-peer communication. |
transport |
Configures the transport protocol to use to connect with the Diameter peer. |
.
subscription-required
To specify that the gateway GPRS support node (GGSN) checks the value of the selection mode in a PDP context request to determine if a subscription is required to access a PDN through a particular access point, use the subscription-required command in access-point configuration mode. To specify that no subscription is required, use the no form of this command.
subscription-required
no subscription-required
Syntax Description
This command has no arguments or keywords.
Defaults
No subscription is required
Command Modes
Access-point configuration.
Command History
|
|
12.1(1)GA |
This command was introduced. |
12.1(5)T |
This command was integrated into Cisco IOS Release 12.1(5)T. |
12.2(4)MX |
This command was integrated into Cisco IOS Release 12.2(4)MX. |
12.2(8)YD |
This command was integrated into Cisco IOS Release 12.2(8)YD. |
12.2(8)YW |
This command was integrated into Cisco IOS Release 12.2(8)YW |
12.3(2)XB |
This command was integrated into Cisco IOS Release 12.3(2)XB. |
12.3(8)XU |
This command was integrated into Cisco IOS Release 12.3(8)XU. |
12.3(11)YJ |
This command was integrated into Cisco IOS Release 12.3(11)YJ. |
12.3(14)YQ |
This command was integrated into Cisco IOS Release 12.3(14)YQ. |
12.3(14)YU |
This command was integrated into Cisco IOS Release 12.3(14)YU. |
12.4(2)XB |
This command was integrated into Cisco IOS Release 12.4(2)XB. |
Usage Guidelines
Use the subscription-required command to specify that the GGSN checks the value of the selection mode in a PDP context request to determine if a subscription is required for user access to PDNs through the current access point. When you configure the subscription-required command at the APN, the GGSN looks for the "subscription verified" selection mode in the PDP context request to establish the session. If the GGSN finds that the selection mode is designated as subscription not verified in the PDP context request, then the GGSN rejects the PDP context request.
The subscription must be set up by the service provider, and subscription information must be passed with the mobile user's PDP context requests.
Examples
The following example specifies that the GGSN checks for subscription verification in the selection mode before establishing a session at the access-point:
access-point-name gprs.somewhere.com
dhcp-gateway-address 10.88.0.1
t3-response
To specify the initial time that the quota server waits before resending a signaling request message when a response to a request has not been received, use the t3-response command in quota server configuration mode. To return to the default value, use the no form of this command
t3-response response-interval
no t3-response
Syntax Description
response-interval |
Value between 1 and 65535 that specifies the length of the T3 response interval, in seconds. |
Defaults
1 second.
Command Modes
Quota server configuration
Command History
|
|
12.3(14)YQ |
This command was introduced. |
12.3(14)YU |
This command was integrated into Cisco IOS Release 12.3(14)YU. |
12.4(2)XB |
This command was integrated into Cisco IOS Release 12.4(2)XB. |
Usage Guidelines
The t3-response command is used by the GGSN to process delete PDP context requests and to perform the default method of echo timing.
For delete PDP context requests, the t3-response command is used to specify how long the quota server waits before sending a retry of the delete PDP context request when a response is not received from the CSG, until the n3-requests limit is reached.
Examples
The following example configures a T3 interval response interval of 524 seconds:
Related Commands
|
|
clear ggsn quota-server statistics |
Clears the quota server-related statistics displayed using the show ggsn quota-server statistics command. |
csg-group |
Associates the quota server to a CSG group that is to be used for quota server-to-CSG communication. |
echo-interval |
Specifies the number of seconds that the quota server waits before sending an echo-request message to the CSG. |
ggsn quota-server |
Configures the quota server process that interfaces with the CSG for enhanced service-aware billing. |
interface |
Specifies the logical interface, by name, that the quota server will use to communicate with the CSG. |
n3-requests |
Specifies the maximum number of times that the quota server attempts to send a signaling request to the CSG. |
show ggsn quota-server |
Displays quota server parameters or statistics about the message and error counts. |
.
tariff-time
To specify that a charging profile use the tariff changes configured using the gprs charging tariff-time global configuration command, use the tariff-time command in charging profile configuration mode. To return to the default value, use the no form of this command.
tariff-time
no tariff-time
Syntax Description
This command has no arguments or keywords.
Defaults
No tariff-time changes
Command Modes
Charging profile configuration.
Command History
|
|
12.3(8)XU |
This command was introduced. |
12.3(11)YJ |
This command was integrated into Cisco IOS Release 12.3(11)YJ. |
12.3(14)YQ |
This command was integrated into Cisco IOS Release 12.3(14)YQ. |
12.3(14)YU |
This command was integrated into Cisco IOS Release 12.3(14)YU. |
12.4(2)XB |
This command was integrated into Cisco IOS Release 12.4(2)XB. |
Usage Guidelines
Use the tariff-time charging profile configuration command to specify that the time configured for tariff changes on the GGSN (using the gprs charging tariff-time global configuration command) apply to a charging profile created using the gprs charging profile global configuration or charging profile access-point configuration commands.
Examples
The following example specifies that tariff-changes apply to a charging profile:
Related Commands
|
|
category |
Identifies the subscriber category to which a charging profile applies.s |
cdr suppression |
Specifies that CDRs be suppressed as a charging characteristic in a charging profile. |
charging profile |
Associates a default charging profile to an access point. |
content dcca profile |
Defines a DCCA client profile in a GGSN charging profile. |
content postpaid time |
Specifies as a trigger condition for postpaid users in a charging profile, the time duration limit that when exceeded causes the GGSN to collect upstream and downstream traffic byte counts and close and update the G-CDR for a particular PDP context. |
content postpaid validity |
Specifies as a trigger condition in a charging profile, the amount of time quota granted to a postpaid user is valid. |
content postpaid volume |
Specifies as a trigger condition for postpaid users in a charging profile, the maximum number of bytes that the GGSN maintains across all containers for a particular PDP context before closing and updating the G-CDR. |
content rulebase |
Associates a default rule-base ID with a charging profile. |
description |
Specifies the name or a brief description of a charging profile. |
gprs charging characteristics reject |
Specifies that Create PDP Context requests for which no charging profile can be selected be rejected by the GGSN. |
gprs charging container time-trigger |
Specifies a global time limit, that when exceeded by a PDP context causes the GGSN to close and update the G-CDR for that particular PDP context. |
gprs charging profile |
Creates a new charging profile (or modifies an existing one), and enters charging profile configuration mode. |
limit duration |
Specifies as a trigger condition in a charging profile, the time duration limit that when exceeded causes the GGSN to collect upstream and downstream traffic byte counts and close and update the G-CDR for a particular PDP context. |
limit sgsn-change |
Specifies as a trigger condition in a charging profile, the maximum number of SGSN changes that can occur before closing and updating the G-CDR for a particular PDP context. |
limit volume |
Specifies as a trigger condition in a charging profile, the maximum number of bytes that the GGSN maintains across all containers for a particular PDP context before closing and updating the G-CDR. |
..
timer
To configure Diameter base protocol timers for peer-to-peer communication, use the timer command in Diameter peer configuration mode. To remove the timer configurations, use the no form of this command
timer {connection | transaction | watchdog} seconds
no timer {connection | transaction | watchdog}
Syntax Description
connection |
Sets the maximum amount of time the GGSN attempts to reconnect to a Diameter peer after a connection to the peer has been brought down due to a transport failure. A value of 0 configures the GGSN to not try to reconnect. |
transaction |
Sets the maximum amount of time the GGSN waits for a Diameter peer to respond before trying another peer. |
watchdog |
Sets the maximum amount of time the GGSN waits for a Diameter peer to respond to a watchdog packet. When the watchdog timer expires, a DWR is sent to the Diameter peer and the watchdog timer is reset. If a DWA is not received before the next expiration of the watchdog timer, a transport failure to the Diameter peer has occurred. |
seconds |
Maximum amount of time, in seconds, of the timer. Valid range, in seconds, is 1 to 1000. |
Defaults
30 seconds.
Command Modes
Diameter peer configuration
Command History
|
|
12.3(14)YQ |
This command was introduced. |
12.3(14)YU |
This command was integrated into Cisco IOS Release 12.3(14)YU. |
12.4(2)XB |
This command was integrated into Cisco IOS Release 12.4(2)XB. |
Usage Guidelines
Use the timer Diameter peer configuration command to configure Diameter base timers for a Diameter node.
When configuring timers, note that the value for the transaction timer, should be larger than the TX-timeout value, and, on the SGSN, the values configured for the number GTP N3 requests and T3 retransmissions must be larger than the sum of all possible server timers (RADIUS, DCCA, and CSG). Specifically, the SGSN N3*T3 must be greater than 2 x RADIUS timeout + N x DCCA timeout + CSG timeout where:
•2 is for both authentication and accounting.
•N is for the number of diameter servers configured in the server group.
Examples
The following example configures the frequency of connection attempts with a Diameter peer to 120 seconds.
source interface fastEthernet0
Related Commands
|
|
address ipv4 |
Configures the IP address of the Diameter peer host. |
destination host |
Configures the Fully Qualified Domain Name (FQDN) of the Diameter peer |
destination realm |
Configures the destination realm (domain name) in which the Diameter host is located. |
diameter peer |
Defines the Diameter peer (server) and enters diameter peer configuration mode. |
ip vrf forwarding |
Defines the VRF associated with the Diameter peer. |
security |
Configures the security protocol to use for the Diameter peer-to-peer connection. |
source interface |
Configures the interface to use to connect to the Diameter peer. |
transport |
Configures the transport protocol to use to connect with the Diameter peer. |
.
traffic-class
To allocate bandwidth from a bandwidth pool to a specific traffic class, use the traffic-class command in bandwidth pool configuration mode. To return to the default value, use the no form of this command.
traffic-class traffic-class-name [percent] value
no traffic-class traffic-class-name [percent] value
Syntax Description
traffic-class-name |
Specifies the traffic class for which you are allocating bandwidth. Valid values are conversational, streaming, interactive, or background. |
percent |
(Optional) Specifies that the bandwidth be allocated as a percentage rather than absolute value. |
value |
Specifies the bandwith in either a percentage (1 to 100% when used with the optional percent keyword), or absolute value in kilobits per second (0 to 4292967295). Note that the same unit (percentage or absolute value) must be used for all traffic classes. |
Defaults
No bandwidth reservation is configured for any of the traffic classes, therefore, all PDPs are accepted.
Command Modes
Bandwidth pool configuration
Command History
|
|
12.3(8)XU |
This command was introduced. |
12.3(11)YJ |
This command was integrated into Cisco IOS Release 12.3(11)YJ. |
12.3(14)YQ |
This command was integrated into Cisco IOS Release 12.3(14)YQ. |
12.3(14)YU |
This command was integrated into Cisco IOS Release 12.3(14)YU. |
12.4(2)XB |
This command was integrated into Cisco IOS Release 12.4(2)XB. |
Usage Guidelines
Use the traffic-class bandwidth pool configuration command to allocate bandwidth to a specific traffic class.
Note Before allocating the bandwidth in a bandwidth pool to a specific traffic class, the pool must be created using the gprs qos bandwidth-pool global configuration command.
The bandwidth can be allocated as a percentage or absolute value, however, the bandwidth unit must be consistent for all traffic classes (percentage and absolute value cannot be mixed within the same bandwidth pool).
If a traffic class is configured with 0 (absolute value) as the allocated bandwidth, the total bandwidth available for that traffic class is 0 kbps. Therefore, if a Create PDP Context request with that traffic class is received, it is rejected by the GGSN.
Note Bandwidth reservation can be configured for real-time (conversational and streaming) and non real-time (interactive and background) class PDPs, however, bandwidth checking is performed only for real-time PDP contexts. All Create PDP Context requests for non real-time PDPs are allowed.
Examples
The following example reserves 15% of the total available bandwidth to the Background class of PDPs:
traffic-class background percent 15%
Related Commands
|
|
bandwidth |
Defines the total bandwidth, in kilobits per second, for a bandwidth pool. Valid values are 1 to 4292967295. |
bandwidth-pool |
Applies a bandwidth pool to an APN. |
gprs qos bandwidth-pool |
Creates or modifies a bandwidth pool. |
traffic-class |
Allocates bandwidth pool bandwidth to a specific traffic class. |
transport
To configure the transport protocol to use to connect with a Diameter peer, use the transport command in Diameter peer configuration mode. To remove the configuration, use the no form of this command
transport {tcp | sctp} port port-number
no transport
Syntax Description
tcp |
Defines TCP as the transport protocol to use to connect to the Diameter peer. |
sctp |
Defines SCTP as the transport protocol to use to connect to the Diameter peer. Note SCTP is not supported as the transport protocol in GGSN Release 5.2. |
port port-number |
Port on the Diameter peer to use for peer-to-peer connection. The default is 3868. |
Defaults
No default behavior or values.
Command Modes
Diameter peer configuration
Command History
|
|
12.3(14)YQ |
This command was introduced. |
12.3(14)YU |
This command was integrated into Cisco IOS Release 12.3(14)YU. |
12.4(2)XB |
This command was integrated into Cisco IOS Release 12.4(2)XB. |
Usage Guidelines
Use the transport command to define the protocol to use to connect to a Diameter peer.
When the no form of this command is issued, all session that are bound to the peer cannot use the connection any longer. If there are any pending messages in the connection queue, the applications that sent the messages will be notified so that they can try alternate peers.
Examples
The following configuration example configures TCP as the transport protocol between Diameter peers and port 4000 as the port to use for peer-to-peer communication:
Related Commands
|
|
address ipv4 |
Configures the IP address of the Diameter peer host. |
destination host |
Configures the Fully Qualified Domain Name (FQDN) of the Diameter peer |
destination realm |
Configures the destination realm (domain name) in which the Diameter host is located. |
diameter peer |
Defines the Diameter peer (server) and enters diameter peer configuration mode. |
ip vrf forwarding |
Defines the VRF associated with the Diameter peer. |
security |
Configures the security protocol to use for the Diameter peer-to-peer connection. |
source interface |
Configures the interface to use to connect to the Diameter peer. |
timer |
Configures Diameter base protocol timers for peer-to-peer communication. |
.
trigger
To configure a condition that, when it occurs, triggers a DCCA client to request quota-reauthorization for a service-aware prepaid PDP context, use the trigger command in DCCA profile configuration mode. To remove the configuration, use the no form of this command.
trigger {sgsn-change | qos-change | rat | plmn-id}
no trigger {sgsn-change | qos-change | rat | plmn-id}
Syntax Description
sgsn-change |
Configures the DCCA client to request quota-reauthorization if SGSN changes occur. |
qos-change |
Configures the DCCA client to request quota-reauthorization if a QoS changes should occur. |
rat |
Configures a radio access technology (RAT) change change to trigger a quota-reauthorization request. The RAT indicates whether the SGSN serves the user equipment (UE) UMTS or GSM/EDGE RAN (GERAN). |
plmn-id |
Configures a public land mobile network (PLMN) ID change change to trigger a quota-reauthorization request. |
Defaults
No default behavior or values.
Command Modes
DCCA profile configuration
Command History
|
|
12.3(14)YQ |
This command was introduced. |
12.3(14)YU |
This command was integrated into Cisco IOS Release 12.3(14)YU. |
12.4(2)XB |
This command was integrated into Cisco IOS Release 12.4(2)XB. |
12.4(9)XG |
This command was integrated into Cisco IOS Release 12.4(9)XG and the rat and plmn-id keyword options were added. |
12.4(15)XQ |
This command was integrated into Cisco IOS Release 12.4(15)XQ. |
Usage Guidelines
Use the trigger command to configure changes that trigger the GGSN to request quota reauthorization for service-aware prepaid PDP contexts.
Modifying this command will not affect existing PDP contexts using a DCCA client.
Note This command is not supported by a vendor-specific DCCA client.
Examples
The following configuration example configures serveral conditions in a DCCA profile, "dcca-profile1" for prepaid PDP contexts, that when the condition occurs, triggers quota reauthorization:
gprs dcca profile dcca-profile1
destination-realm cisco.com
Related Commands .
|
|
authorization |
Defines a method of authorization (AAA method list), in the DCCA client profile, that specifies the Diameter server groups. |
ccfh |
Configures the Credit Control Failure Handling (CCFH) AVP locally to use for a credit-control session when the Credit Control Answer (CCA) sent by the DCCA server does not contain CCFH value. |
content dcca profile |
Defines the DCCA client profile in a GGSN charging profile. |
destination-realm |
Configures the destination realm to be sent in CCR initial requests to a DCCA server. |
gprs dcca profile |
Defines a DCCA client profile on the GGSN and enters DCCA client profile configuration mode. |
session-failover |
Configures Credit Control Session Failover (CCSF) AVP support when a credit control answer (CCA) message from the DCCA server does not contain a value for the CCSF AVP. |
tx-timeout |
Configures a TX timeout value used by the DCCA client to monitor the communication of Credit Control Requests (CCRs) with a Diameter server. |
tx-timeout
To configure a TX timeout value used by the DCCA client to monitor the communication of Credit Control Requests (CCRs) with a Diameter server, use the tx-timeout command in DCCA client profile configuration mode. To return to the default values, use the no form of this command
tx-timeout value
no tx-timeout
Syntax Description
value |
Amount of time, in seconds, a CRR can wait for a response from the Diameter sever before the DCCA client takes action. Valid range is 0 to 1000 seconds. |
Defaults
10 seconds.
Command Modes
DCCA client profile configuration
Command History
|
|
12.3(14)YQ |
This command was introduced. |
12.3(14)YU |
This command was integrated into Cisco IOS Release 12.3(14)YU. |
12.4(2)XB |
This command was integrated into Cisco IOS Release 12.4(2)XB. |
Usage Guidelines
Typically, the Diameter base detects transport failures that occur with a Diameter server. For prepaid services, the time it takes for a response from the network is crucial, therefore the DCCA client can be configured to react faster than the Diameter base if necessary.
The Tx timer is used by the DCCA client to supervise the communication with the Diameter server. The timer is started with each initial and updated CCR. If the time configured for the timer elapses, the DCCA client takes an action on the PDP context depending on the current value of the Credit Control Fault Handling (CCFH) AVP for the credit control (CC) session.
When a response to all pending CCRs is received, the Tx timer is stopped.
Examples
The following configuration example sets the Tx time for a DCCA client to 25 seconds:
gprs dcca profile dcca-profile1
authorization dcca-method
Related Commands
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authorization |
Defines a method of authorization (AAA method list), in the DCCA client profile, that specifies the Diameter server groups. |
ccfh |
Configures the Credit Control Failure Handling (CCFH) AVP locally to use for a credit-control session when the Credit Control Answer (CCA) sent by the DCCA server does not contain CCFH value. |
content dcca profile |
Defines the DCCA client profile in a GGSN charging profile. |
gprs dcca profile |
Defines a DCCA client profile on the GGSN and enters DCCA client profile configuration mode. |
session-failover |
Configures Credit Control Session Failover (CCSF) AVP support when a credit control answer (CCA) message from the DCCA server does not contain a value for the CCSF AVP |
virtual-address
To configure a virtual IP address to which a quota server sends all CSG requests, use the virtual-address command in CSG group configuration mode. To deconfigure the virtual IP address, use the no form of this command
virtual-address ip-address
no virtual-address ip-address
Syntax Description
ip-address |
Virtual IP address of the CSG group. |
Defaults
No default behavior or values.
Command Modes
CSG group configuration
Command History
|
|
12.3(14)YQ |
This command was introduced. |
12.3(14)YU |
This command was integrated into Cisco IOS Release 12.3(14)YU. |
12.4(2)XB |
This command was integrated into Cisco IOS Release 12.4(2)XB. |
Usage Guidelines
Use the virtual-address to configure the virtual IP address of a CSG group.
The virtual IP address is the address to which the quota server will send all requests, and is required before a path between the quota server and the CSG can come up.
Caution
Issuing the
no form of this command will bring down a quota server-to-CSG path if is up.
Examples
The following configuration example configures CSG group csg1 to use the virtual IP address 5.5.5.14:
Related Commands
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ggsn csg-group |
Configures a CSG group on the GGSN for quota server-to-CSG communication. |
port |
Configures the port number on which the CSG listens for quota server traffic. |
real-address |
Configures the IP address of a real CSG for source checking on inbound messages from a CSG. |
show ggsn csg |
Displays the parameters used by the CSG group or the number of path and quota management messages sent and received by the quota server. |
vrf
To configure VPN routing and forwarding (VRF) at a gateway GPRS support node (GGSN) access point and associate an access point with a particular VRF instance, use the vrf command in access-point configuration mode.
vrf vrf-name
Syntax Description
vrf-name |
Name of the corresponding VRF instance with which the access point is associated. |
Defaults
No default behavior or values.
Command Modes
Access-point configuration
Command History
|
|
12.2(4)MX |
This command was introduced. |
12.2(8)YD |
This command was integrated into Cisco IOS Release 12.2(8)YD. |
12.2(8)YW |
This command was integrated into Cisco IOS Release 12.2(8)YW |
12.3(2)XB |
This command was integrated into Cisco IOS Release 12.3(2)XB. |
12.3(8)XU |
This command was integrated into Cisco IOS Release 12.3(8)XU. |
12.3(11)YJ |
This command was integrated into Cisco IOS Release 12.3(11)YJ. |
12.3(14)YQ |
This command was integrated into Cisco IOS Release 12.3(14)YQ. |
12.3(14)YU |
This command was integrated into Cisco IOS Release 12.3(14)YU. |
12.4(2)XB |
This command was integrated into Cisco IOS Release 12.4(2)XB. |
Usage Guidelines
Use the vrf command to configure VRF at a GGSN access point and associate an access point with a particular VRF instance.
Note With GGSN Release 5.0 and later, you can assign mutliple APNs to the same VRF.
Note Multiple VRFs can be associated with the same VRF instance.
The vrf-name should match the name configured in an ip vrf global configuration command, and also the ip vrf forwarding command at the Gi interface.
To support VRF, you must also enable Cisco Express Forwarding (CEF) switching on the router using the ip cef global configuration command.
If you are also configuring DHCP services at the APN, then you must also configure the dhcp-server ip-address vrf command.
Note Memory constraints might occur if you define a large number of access points to support VRF.
Note VRF is not supported on the Catalyst 6500/Cisco 7600 Supervisor / MSFC2. Therefore, to support VRF on the Catalyst 6500/Cisco 7600 platform, you must tunnel VRF encapsulated traffic through the Supervisor / MSFC2 via a GRE tunnel. For more information, see the Cisco GGSN Release 5.1 Configuration Guide.
Examples
The following example shows a VRF configuration for vpn3 (without tunneling) using the ip vrf global configuration command. Because the ip vrf command establishes both VRF and CEF routing tables, notice that ip cef also is configured at the global configuration level to enable CEF switching at all of the interfaces.
The following other configuration elements must also associate the same VRF named vpn3:
•FastEthernet0/0 is configured as the Gi interface using the ip vrf forwarding interface configuration command.
•Access-point 2 implements VRF using the vrf command access-point configuration command.
The DHCP server at access-point 2 also is configured to support VRF. Notice that access-point 1 uses the same DHCP server, but is not supporting the VRF address space. The IP addresses for access-point 1 will apply to the global routing table:
aaa group server radius foo
aaa authentication ppp foo group foo
aaa authorization network default group radius
aaa accounting exec default start-stop group foo
ip address 10.30.30.30 255.255.255.255
ip address 10.27.27.27 255.255.255.255
interface FastEthernet0/0
ip address 10.50.0.1 255.255.0.0
interface FastEthernet1/0
ip address 10.70.0.1 255.255.0.0
ip address 10.8.0.1 255.255.255.0
interface Virtual-Template1
gprs access-point-list gprs
ip route 10.10.0.1 255.255.255.255 Virtual-Template1
ip route vrf vpn3 10.100.0.5 255.255.255.0 fa0/0 10.50.0.2
ip route 10.200.0.5 255.255.255.0 fa1/0 10.70.0.2
gprs access-point-list gprs
access-point-name gprs.pdn.com
ip-address-pool dhcp-proxy-client
dhcp-gateway-address 10.30.30.30
network-request-activation
access-point-name gprs.pdn2.com
access-mode non-transparent
ip-address-pool dhcp-proxy-client
dhcp-server 10.100.0.5 10.100.0.6 vrf
dhcp-gateway-address 10.27.27.27
aaa-group authentication foo
gprs default ip-address-pool dhcp-proxy-client
gprs gtp ip udp ignore checksum
radius-server host 10.2.3.4 auth-port 1645 acct-port 1646 non-standard
radius-server host 10.6.7.8 auth-port 1645 acct-port 1646 non-standard
radius-server key ggsntel
Related Commands
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dhcp-server |
Specifies a primary (and backup) DHCP server to allocate IP addresses to MS users entering a particular PDN access point. |
ip cef |
Enables CEF on the RP card. |
ip vrf |
Configures a VRF routing table. |
ip vrf forwarding |
Associates a VRF with an interface or subinterface. |
rd |
Creates routing and forwarding tables for a VRF and and specifies the default route distinguisher for a VPN. |