P-GW Service Configuration Mode Commands

The P-GW (PDN Gateway) Service Configuration Mode is used to create and manage the relationship between specified services used for either GTP or PMIP network traffic.

Mode

Exec > Global Configuration > Context Configuration > P-GW Service Configuration

configure > context context_name > pgw-service service_name

Entering the above command sequence results in the following prompt:

[context_name]host_name(config-pgw-service)# 

Important


The commands or keywords/variables that are available are dependent on platform type, product version, and installed license(s).



Important


For information on common commands available in this configuration mode, refer to the Common Commands chapter.


associate

Associates the P-GW service with specific pre-configured services and/or policies configured in the same context.

Product

P-GW

SAEGW

S-GW

Privilege

Administrator

Mode

Exec > Global Configuration > Context Configuration > P-GW Service Configuration

configure > context context_name > pgw-service service_name

Entering the above command sequence results in the following prompt:

[context_name]host_name(config-pgw-service)# 

Syntax

associate { egtp-service name [ lma-service name ] | emps-profile emps_profile_name | gtpc-load-control-profile  name  |  gtpc-overload-control-profile  name | ggsn-service name | lma-service name [ egtp-service name ] | peer-map map_name ] | qci-qos-mapping name } 
no associate { egtp-service | lma-service | emps-profile | peer-map | qci-qos-mapping } 

no

Removes the selected association from this service.

egtp-service name [ lma-service name ] | lma-service name [ egtp-service name ]

egtp-service name [ lma-service name ] : Specifies that the P-GW service is to be associated with an existing eGTP service within this context.

name must be an alphanumeric string of 1 through 63 characters and be an existing eGTP service.

Configure an associated LMA service name to support handoffs between PMIPv6 and GTP. name must be an alphanumeric string of 1 through 63 characters and be an existing LMA service.

lma-service name [ egtp-service name ] : Specifies that the P-GW service is to be associated with an existing LMA service within this context.

name must be an alphanumeric string of 1 through 63 characters and be an existing LMA service.

Configure an associated eGTP service name to support handoffs between PMIPv6 and GTP. name must be an alphanumeric string of 1 through 63 characters and be an existing eGTP service.

emps-profileemps_profile_name

Specifies that an eMPS profile is to be associated with an existing P-GW service in this context.

emps_profile_name must be a string of size 1 to 63 and treated as case insensitive.

gtpc-load-control-profile name

Specifies that a GTPC Load Control Profile is to be associated with an existing P-GW service in this context.

name must be an alphanumeric string from 1 to 64 characters in length.

gtpc-overload-control-profile name

Specifies that a GTPC Overload Control Profile is to be associated with an existing P-GW service in this context.

name must be an alphanumeric string from 1 to 64 characters in length.

ggsn-service name

Specifies that the P-GW service is to be associated with an existing GGSN service within this context.

name must be an alphanumeric string of 1 through 63 characters and be an existing GGSN service.

peer-map map_name

Specifies that the P-GW service is to be associated with an existing peer map within this context.

map_name must be an alphanumeric string of 1 through 63 characters and be an existing peer map.

Refer to the LTE Policy Configuration Mode Commands chapter for more information on peer map creation.

qci-qos-mapping name

Specifies that the P-GW service is to be associated with an existing QCI-QoS mapping configuration within this context.

name must be an alphanumeric string of 1 through 63 characters and be an existing QCI-QoS mapping configuration.

QCI-Qos mapping is typically configured in a AAA context. Refer to the QCI-QoS Mapping Configuration Mode Commands chapter for more information.


Important


If a GGSN service is associated with a P-GW service, then the GGSN service will use the QCI-QoS mapping tables specified in the qci-qos-mapping command and assigned to its associated P-GW service.


Usage Guidelines

Use this command to associate the P-GW service with other pre-configured services and/or policies configured in the same context.

Example

The following command associates this service with an eGTP service called egtp1 :
   associate egtp-service egtp1 

authorize-with-hss

This command enables or disables subscriber session authorization via a Home Subscriber Server (HSS) over an S6b Diameter interface. This feature is required to support the interworking of GGSN with P-GW and HA.

Product

P-GW

SAEGW

Privilege

Administrator

Mode

Exec > Global Configuration > Context Configuration > P-GW Service Configuration

configure > context context_name > pgw-service service_name

Entering the above command sequence results in the following prompt:

[context_name]host_name(config-pgw-service)# 

Syntax

authorize-with-hss [ egtp  [ report-ipv6-addr ] [ s2b ] [ s2a [ report-ipv6-addr ] ] [ s5-s8 ] | lma [ report-ipv6-addr | s6b-aaa-group aaa-group-name ] | report-ipv6-addr  | retain-mdn ] 
{ default | no } authorize-with-hss 

default

Disables the default authorization of subscriber over S6b interface. Resets the command to the default setting of "authorize locally" from an internal APN authorization configuration.

no

Disables the default authorization of subscriber over S6b interface. Resets the command to the default setting of "authorize locally" from an internal APN authorization configuration.

egtp

Enables S6b authorization for eGTP only.

s2a

Enables S6b authorization for eGTP S2a.

s2b

Enables S6b authorization for eGTP S2b.

s5-s8

Enables S6b authorization for eGTP S5S8.

lma

Enables S6b authorization for LMA only.

s6b-aaa-group aaa-group-name

AAA group specified for S6b authorization.

aaa-group-name must be an existing AAA group name expressed as an alphanumeric string of 1 through 63 characters.

report-ipv6-addr

Enables the IPv6 address reporting through Authorization-Authentication-Request (AAR) towards the S6b interface.

retain-mdn

Enables MDN/MSISDN value to be retained as negotiated during the call setup (retrieved from S6b interface or Create Session Request). MDN/MSISDN value is retained during the lifetime of call, including handoffs between P-GW and services like eHRPD/trusted/untrusted WiFi. As a result, all Rf records of a session have the same MDN/MSISDN values.

Disabled by default. If disabled, the MDN/MSISDN value received in the CS request is used and the S6b authorized MDN/MSISDN is lost during handoffs. As a result, different values of MDN/MSISDN are sent in the Rf records.


Important


This keyword is not applicable to GnGp handoff.


Usage Guidelines

Use this command to enable/disable the authorization support for subscriber over S6b interface, which is used between P-GW and the 3GPP AAA to exchange the information related to charging, GGSN discovery, etc.

Example

The following command enables MDN/MSISDN value retention as negotiated during the call setup (retrieved from S6b interface) for the lifetime of call:
   authorize-with-hss retain-mdn 

dcnr

Configures the Dual Connectivity with New Radio (DCNR) to support 5G Non Standalone (NSA).

Product

P-GW

Privilege

Administrator

Mode

Exec > Global Configuration > Context Configuration > P-GW Service Configuration

configure > context context_name > pgw-service service_name

Entering the above command sequence results in the following prompt:

[context_name]host_name(config-pgw-service)# 

Syntax

[ no ] dcnr 

no

Disables the DCNR configuration.

Usage Guidelines

Use this command to configure the DCNR for 5G NSA support.

dns-client

Specifies the DNS client context to use for sending DNS queries.

Product

P-GW

SAEGW

Privilege

Administrator

Mode

Exec > Global Configuration > Context Configuration > P-GW Service Configuration

configure > context context_name > pgw-service service_name

Entering the above command sequence results in the following prompt:

[context_name]host_name(config-pgw-service)# 

Syntax

dns-client context name 
{ default | no } dns-client context 

default

Returns the command to the default setting of targeting the DNS client in the context where the P-GW service resides.

no

Disables DNS queries.

context name

Specifies the name of the context where the DNS client is used for the resolution of PCSCF-FQDN received from S6b interface.

name must be an existing context expressed as an alphanumeric string of 1 through 79 characters.

Usage Guidelines

Use this command to specify the context where the DNS client resides to perform P-CSCF-FQDN resolution from the S6b interface.

Example

The following command identifies the egress1 context as the context where the DNS client resides:
   dns-client context egress1  

egtp

Configures handling of eGTP related procedures.

Product

P-GW

SAEGW

Privilege

Administrator

Mode

Exec > Global Configuration > Context Configuration > P-GW Service Configuration

configure > context context_name > pgw-service service_name

Entering the above command sequence results in the following prompt:

[context_name]host_name(config-pgw-service)# 

Syntax

egtp { bearer-req reject uli-mismatch apn-ambr-always-include bitrates-rounded-down-kbps | reject-cause | egtp change-notification-req rat-type eutran ignore-uli-with-rai-sai-cgi  { no-resource [ s6b-link-failure ] { s6b-retry-code } }  | cause-code temp-fail timeout sec retry retries create-session-rsp | gngp-modify-bearer-rsp-with-apn-ambr | modify-bearer-cmd-negotiate-qos |  modify-bearer-rsp { charging-fqdn-or-gw-addr | charging-id | msisdn }| overcharge-protection [ drop-all | transmit-all ] | s2b-ho-paa-mismatch { allow | reject } [ ims-only ] | sgw-restoration session-hold timeout seconds| suppress-ubr no-bitrate-change } 
default egtp { bearer-req reject uli-mismatch | cause-code temp-fail | modify-bearer-cmd-negotiate-qos | modify-bearer-rsp | gngp-modify-bearer-rsp-with-apn-ambr | overcharge-protection | sgw-restoration session-hold | reject-cause | egtp change-notification-req rat-type eutran ignore-uli-with-rai-sai-cgi  no-resource }  
no egtp { bearer-req reject uli-mismatch | apn-ambr-always-include bitrates-rounded-down-kbps | cause-code temp-fail  | gngp-modify-bearer-rsp-with-apn-ambr create-session-rsp | modify-bearer-cmd-negotiate-qos | modify-bearer-rsp | overcharge-protection | sgw-restoration session-hold| suppress-ubr no-bitrate-change | reject-cause  | egtp change-notification-req rat-type eutran ignore-uli-with-rai-sai-cgino-resource }  

default

Resets the command to the default setting.

no

Disables the configuration statement.

bearer-req reject uli-mismatch

Shows the Bearer Request reject options.

Sends Bearer response with CONTEXT_NOT_FOUND (CC 64) cause code if the ULI that is received in Bearer request does not match with the ULI of the existing session.

apn-ambr-always-include

Always includes APN-AMBR IE in Create Session Response.

bitrates-rounded-down-kbps

Bit rate granularity provided by different interfaces was not originally aligned in 3GPP specifications. For example, the PCRF provided bits per second on the Gx and the GTP utilized kilobits per second. Due to the conversion of bps to kbps, there were scenarios where the rounding off could have resulted in the incorrect allocation of MBR/GBR values.

When this keyword is disabled, a bitrate value sent on GTP interface will be rounded up if the conversion from bps (received from Gx) to kbps results in a fractional value. However, the enforcement of bitrate value (AMBR, MBR, GBR) values will remain the same. Once the value (in kbps) that is sent towards the Access side, it needs to be rounded up. Also, show subscribers pgw-only full all will show the APN-AMBR in terms of bps.

When enabled, the previous behavior of rounded-down kpbs bitrate (AMBR, MBR, BGR) values being sent towards the Access side is enforced. In addition, show subscribers pgw-only full all displays in terms of kpbs.

By default, this command is configured to use rounded-up bitrate values.

reject-cause { no-resource [ s6b-link-failure ] { s6b-retry-code } }

For S6b interface, it modifies the GTPv2 cause code from 92/0x5C (user authentication failure) to 73/0x49 (no resource available) when S6b server is unreachable due to no-connection or unstable connection and for Diameter server result codes—3002, 3004, 3005 and 5198.

reject-cause : Configures options for handling response with reject-cause.

no-resource : Configures handling for Create Session Response with cause code no-resource.

s6b-link-failure : Responds with no-resource for S6b server unreachability during authentication.

s6b-retry-code : Respond with no-resource for S6b diameter result-code(s) 3002, 3004, 3005, 5198.

cause-code temp-fail timeout sec retry retries

Enables eGTP Cause Code Handling when the P-GW receives a temporary failure response from peer (cause code 110). By default, this option is disabled.

When enabled, all transactions that were moved to pending queue because of temporary cause failure would be re-attempted after the temporary failure timer expires. After timer expiry, the P-GW informs PCRF about the transient failure. PCRF sends new Re-Auth-Request (RAR) and Create Bearer Request (CBR)/Modify Bearer Request (MBR)/Update Bearer Request (UBR) would succeed.

timeout sec : Specifies the time to wait (in seconds) before re-attempting the CBR/MBR/UBR.

sec must be an integer from 1 to 100.

retry retries : Specifies the maximum number of retries. The P-GW discards CBR/MBR/UBR after the maximum number of retries are exceeded.

retries must be an integer from 1 to 4.

create-session-rsp

Provides an option to include APN-AMBR in the Create Session Response.

gngp-modify-bearer-rsp-with-apn-ambr

Sends Modify Bearer Response with APN-AMBR only for GnGp Handoff. By default, this option is disabled.

modify-bearer-cmd-negotiate-qos

This configuration only impacts the P-GW QoS negotiation behavior when PCRF is unreachable or disabled, or event trigger is not registered while handling Modify Bearer Command. By default, this configuration is disabled.

When enabled, P-GW will always enforce previous QoS values, which is already applied. When disabled, the P-GW will always accept new QoS values (APN-AMBR/Def-EPS-Bearer-QoS) received in Modify Bearer Command.

modify-bearer-rsp { charging-fqdn-or-gw-addr | charging-id | msisdn }

Configures parameters in Modify Bearer Response messages from P-GW service. All parameters will be disabled by default.

  • charging-fqdn-or-gw-addr : Sends Modify Bearer Response with Charging FQDN or Charging Gateway address whichever is present.

  • charging-id : Sends Modify Bearer Response with Charging-ID.

  • msisdn : Sends Modify Bearer Response with MSISDN.

overcharge-protection [ drop-all | transmit-all ]

Configures overcharging protection by temporarily not charging during loss of radio coverage. By default, this configuration is disabled.

drop-all : Configures overcharging protection to drop all packets received in LORC.

transmit-all : Configures overcharging protection to send all packets received in LORC mode to S-GW.

s2b-ho-paa-mismatch { allow | reject } [ ims-only ]

This command configures the behavior of an S2B handover at P-GW when there is a PAA mismatch for a given APN with a different PAA for the same APN.

  • allow : Accepts a new call after clearing the existing LTE/S2B session when the P-GW receives a S2B handover request

  • reject : Rejects a new call after clearing the existing LTE/S2B session when the P-GW receives a S2B handover request with a different PAA for the same APN.

  • ims-only : Enable this behavior for an ims-only APN. By default, its applicable to all APNs when enabled.

sgw-restoration session-hold timeout seconds

Enables S-GW Restoration functionality and configure session hold timeout on a P-GW service. By default, S-GW Restoration is disabled.

seconds must be an integer from 1 to 3600.

Default: 0 (disabled).

On S-GW failure indication, P-GW shall check if S-GW Restoration feature is enabled or not. If enabled, P-GW shall maintain all the affected sessions for session-hold timeout. After session-hold timeout, P-GW shall clear all the sessions which are not recovered yet.

suppress-ubr no-bitrate-change

Enables the P-GW to suppress the Update Bearer Request (UBR) message UBR if the bit rate is the same after the round-off.

As the bit rate is expressed in bps on Gx and kbps on GTP, the P-GW does a round-off to convert a Gx request into a GTP request. When the P-GW receives a RAR from the PCRF with minimal bit rate changes (in bps), a UBR is sent, even if the same QoS (in kbps) is already set for the bearer. The UBR suppression feature enables the P-GW to suppress such a UBR where there is no update for any of the bearer parameters.

When the UBR has multiple bearer contexts, the bearer context for which the bit rate change is less than 1 kbps after round-off is suppressed. If other parameters, such as QCI, ARP, and TFT, that might trigger an UBR are changed and there is no change in bit rates after round-off, then UBR is not suppressed. Suppression of UBR is applicable for UBR triggered by CCA-I, RAR, and Modify Bearer Command.

Default: disabled. This means that the UBReq should be triggered even if the Gx and GTP bit-rates in kbps are same after round-off.

If the no option is used, it will disable this feature. That is, the UBReq should be triggered even if the Gx and GTP bit-rates in kbps are same after round-off.

There is no separate default keyword for this feature. Use the no option to revert to the default behavior.


Important


The UBR Suppression Feature is a licensed-controlled feature. Contact your Cisco account or service representative for detailed licensing requirements.


egtp change-notification-req rat-type eutran ignore-uli-with-rai-sai-cgi

Configure this parameter to ignore SAI/RAI/CGI in the Change Notification Request message under 4G CALL FLOW ( EUTRAN RAT type) for P-GW services.

Usage Guidelines

Use this command to configure the behavior of the P-GW/SAEGW for eGTP procedures.

Example

The following command sets the temporary failure timer to 30 seconds and 2 retries:
   egtp cause-code temp-fail timeout 30 retry 2 
The following command configures the P-GW to accept new QoS values from the modify bearer command while the PCRF is not reachable:
   egtp modify-bearer-cmd-negotiate-qos 
The following command enables S-GW restoration functionality and configures session hold timeout on a P-GW service:
   sgw-restoration session-hold timeout seconds 

fqdn

Configures a Fully Qualified Domain Name for this P-GW service used in messages between the P-GW and a 3GPP AAA server over the S6b interface.

Product

P-GW

SAEGW

Privilege

Administrator

Mode

Exec > Global Configuration > Context Configuration > P-GW Service Configuration

configure > context context_name > pgw-service service_name

Entering the above command sequence results in the following prompt:

[context_name]host_name(config-pgw-service)# 

Syntax

fqdn host domain_name realm realm_name 
{ default | no } fqdn 

default

Returns the command to the default setting of "null".

no

Removes the configured FQDN from this service configuration.

host domain_name

Specifies the domain name of the P-GW service.

domain_name must be an alphanumeric string of 1 through 255 characters.

realm realm_name

Specifies the realm name of the P-GW service.

realm_name must be an alphanumeric string of 1 through 255 characters.

Usage Guidelines

Use this command to identify the P-GW service using an FQDN required when sending messages over the S6b interface to a 3GPP AAA server.


Important


In order to properly interact with other nodes in the network, the FQDN should be less than or equal to 96 alphanumeric characters.


Topology Matching (eHRPD only)

You may specify which P-GW you wish an HSGW interface to connect with by enabling topology matching within the FQDNs for both the HSGW service and P-GW service. Topology matching selects geographically closer nodes and reduces backhaul traffic for a specified interface.

The following optional keywords enable or disable topology matching when added to the beginning of an FQDN:
  • topon. interface_name .

    Beginning an FQDN with topon initiates topology matching with available HSGWs in the network. Once this feature is enabled, the rest of the FQDN is processed from right to left until a matching regional designator is found on a corresponding HSGW FQDN.

  • topoff. interface_name .

    By default, topology matching is disabled. If you enable topology matching for any interfaces within a node, however, all interfaces not using this feature should be designated with topoff .

Example

The following command configures the FQDN for this P-GW service as 123abc.all.com with a realm name of all.com :
fqdn host 123abc.all.com realm all.com 
The following command configures this P-GW service with an FQDN that enables topology matching:
fqdn host topon.interface_name.pgw01.bos.ma.node.epc .mnc<value>.mcc<value>.3gppnetwork.org realm node.epc.mnc.mcc.3gppnetwork.org 

Important


The associated HSGW service must have a corresponding FQDN similar to the following:
topon.interface_name.hsgw01.bos.ma.node.epc.mncvalue.mccvalue.3gppnetwork.org 

gtpc handle-collision upc nrupc

This command helps in enabling or disabling collision handling between SGSN initiated UPC and NRUPC request.

Product

P-GW

Privilege

Security Administrator, Administrator

Mode

Exec > Global Configuration > Context Configuration >P-GW Service Configuration

configure > context context_name > pgw-service service_name

Entering the above command sequence results in the following prompt:

[context_name]host_name(config-pgw-service)# 

Syntax

[ no | default ] gtpc handle-collision upc nrupc 

no

Disables collision handling between SGSN initiated UPC and NRUPC request.

default

Sets default collision handling behavior between SGSN initiated UPC and NRUPC request. By default, collision handling is enabled.

handle-collision upc nrupc

Enables/Disables collision handling between SGSN initiated UPC and network requested UPC. By default, collision handling is enabled.

Usage Guidelines

This command is used to enable or disable collision handling between SGSN initiated UPC and NRUPC request.

Example

The following example disables collision handling between SGSN initiated UPC and NRUPC request.
no gtpc handle-collision upc nrupc 

gx-li

Refer to the Lawful Intercept Configuration Guide for a description of this command.

map-initial-setup-auth-fail-to-gtp-cause-user-auth-fail

Maps Gx cause code (5xxx) to access side GTP cause code Auth-failure(92) in Create Session Response message.

Product

P-GW

SAEGW

Privilege

P-GW

SAEGW

Mode

Exec > Global Configuration > Context Configuration > P-GW Service Configuration

configure > context context_name > pgw-service service_name

Entering the above command sequence results in the following prompt:

[context_name]host_name(config-pgw-service)# 

Syntax

[ default | no ] map-initial-setup-auth-fail-to-gtp-cause-user-auth-fail 

default

Maps Gx cause code (5xxx) to access side GTP cause code No-Resource(73) in Create Session Response message.

no

Maps Gx cause code (5xxx) to access side GTP cause code No-Resource(73) in Create Session Response message.

Usage Guidelines

When Create Session Request message arrives at P-GW, CCR-I is sent to PCRF and PCRF rejects calls with 5xxx cause code in CCA-I. In this case, Create Session Response is sent with failure indicated by GTP cause code. Use this command to control which GTP cause code is sent, "No Resources Available" or "User Authentication Failed", in Create Session Response message for this scenario. By default, "No Resources Available" is sent for this case; however, enabling this command sends "User Authentication Failed" cause code in Create Session Response.

Example

The following command maps Gx cause code (5xxx) to access side GTP cause code Auth-failure(92) in Create Session Response message:
   map-initial-setup-auth-fail-to-gtp-cause-user-auth-fail 

message-timestamp-drift

Allows drift time configuration to take care of NTP drift issues.

Product

P-GW

SAEGW

Privilege

Administrator

Mode

Exec > Global Configuration > Context Configuration > P-GW Service Configuration

configure > context context_name > pgw-service service_name

Entering the above command sequence results in the following prompt:

[context_name]host_name(config-pgw-service)# 

Syntax

message-timestamp-drift  time_in_seconds  
{  default | no } message-timestamp-drift   

default

Sets drift time to 180 seconds.

If P-GW detects drift less than 180 seconds, it will check for condition "MWT + ReceivedTimeStamp (time from MME) > CurrentTimeStampAtPGW", and based on that P-GW will reject the call. If this condition is not met, it will transparently forward MWT and timestamp to AAA/Gx/Gy interfaces.

no

Disables message timestamp drift. MWT and received timestamp will not be passed on to all AAA/Gx/Gy interfaces.

message-timestamp-drift time_in_seconds

Configures the drift time from the message timestamp, in seconds, up to which P-GW will consider processing the message timestamp and max-wait-time (MWT) IEs.

If the create-time from MME is off from the currenttime by configured-drift-duration, then this could lead to a high NTP drift and session uniqueness falls back to using currenttime toward Diameter servers.

If the timestamp received in CSReq is significantly off (more than configured drift), then P-GW will not take action based on MWT and received timestamp and will transparently pass it to all AAA/Gx/Gy interfaces.

When received drift is less than configured limit, P-GW will reject the call if "MWT + ReceivedTimeStamp > CurrentTimeStampAtPGW" condition is met. Otherwise, P-GW will forward the timestamp and MWT to AAA/Gx/Gy interfaces.

time_in_seconds must be an integer from 0 to 1000.

Default: 180

Usage Guidelines

When the MME is reselected by the UE or when the MME reselects a different P-GW during timeout scenarios, it is possible that the old PDN connection request is still being processed in the network and the session created by the new PDN connection request is overwritten by the stale procedure.

IEs TimeStamp and MWT (MaxWaitTime) have been added in CSReq and forwarded on S6b/Gx/Gy interfaces in order to maintain session uniqueness at P-GW.


Important


Drift time configuration under P-GW service shall be used by the associated LMA service.


Example Scenario

In the following scenario, stale session won't be present on P-GW.

The P-GW is still processing the session creation but the S-GW times out due to timer configurations and notifies the MME with Create Session Failure (Cause #100: Remote Peer Not Responding). MME reselects an alternate P-GW in this case, but the original P-GW still continues to process the session. In certain scenarios, the original P-GW can overwrite the Gx session on the PCRF that is created by the newly selected P-GW. In this case, the new P-GW session is the valid session and original P-GW session is invalid as far as the UE, MME, and S-GW are concerned. The same can occur with the AAA session as well based on timing. This results in PCRF having invalid session information and the user plane works fine anchored on the second P-GW, but the Rx and Gx signaling fails as this terminates via original P-GW.

This results in VoLTE calls failing after SIP signaling between UE and P-CSCF.

To solve the problem, TimeStamp and MWT IE have been incorporated to be transmitted from MME and shared across the network nodes.

Example

The following command sets drift time to 200 seconds.
   message-timestamp-drift 200 

newcall

Configures the P-GW to accept or reject requests for a static IP address if the address is already in use by another session.

Product

P-GW

SAEGW

SaMOG

Privilege

Administrator

Mode

Exec > Global Configuration > Context Configuration > P-GW Service Configuration

configure > context context_name > pgw-service service_name

Entering the above command sequence results in the following prompt:

[context_name]host_name(config-pgw-service)# 

Syntax

newcall { duplicate-subscriber-requested-address  | duplicate-subscriber-requested-v6-address } { accept | reject } 
no newcall { duplicate-subscriber-requested-address  | duplicate-subscriber-requested-v6-address }  

no

Returns the command to the default setting of "reject".

duplicate-subscriber-requested-address

Configures how duplicate sessions with same IPv4 address request are handled.

duplicate-subscriber-requested-v6-address

Configures how duplicate sessions with same IPv6 address request are handled.

accept | reject

Default: reject

accept : Specifies that the old session with the requested address will be ended to accept the new session with the same address.

reject : Specifies that the new session requesting the same address will be rejected.

Usage Guidelines

Use this command to configure the behavior of the P-GW service when receiving requests for static IP or IPv6 address already in use by other sessions.


Important


This command is only applicable to sessions using services supporting duplicate address abort. These services include HA, GGSN, and P-GW.


Example

The following command allows for the acceptance of requests for static IP addresses already in use by other sessions:
   newcall duplicate-subscriber-requested-address accept 

pcscf-restoration

Configures the mechanism to support P-CSCF restoration when a failure is detected. The P-CSCF restoration procedures were standardized to minimize the time a UE is unreachable for terminating calls after a P-CSCF failure.

Product

P-GW

SAEGW

Privilege

Administrator, Security Administrator

Mode

Exec > Global Configuration > Context Configuration > P-GW Service Configuration

configure > context context_name > pgw-service service_name

Entering the above command sequence results in the following prompt:

[context_name]host_name(config-pgw-service)# 

Syntax

pcscf-restoration { hss-solution | custom-hss-solution }  
[ no ] pcscf-restoration emergency-pdn 
[ no ] pcscf-restoration s6b-reauth 
default pcscf-restoration  

hss-solution

Enables the Release 12-based HSS solution for P-CSCF restoration.


Important


This keyword must be configured on a separate command line from emergency-pdn .


custom-hss-solution

Enables private extension-based HSS solution for P-CSCF restoration.

This is the default setting.


Important


This keyword must be configured on a separate command line from emergency-pdn .


emergency-pdn

Enables P-CSCF Restoration for Emergency PDNs.

By default, this functionality is disabled.


Important


This keyword is license dependent. For more information, contact your Cisco account representative.


s6b-reauth

Enables Re-Auth after S6b triggered P-CSCF Restoration of WLAN. Only applicable for S2a and S2b. By default, Re-Auth will be performed for P-CSCF restoration extension on S6b.

By default, this functionality is disabled.


Important


This keyword is license dependent. For more information, contact your Cisco account representative.


default

Returns P-CSCF Restoration to the following:

  • custom-hss-solution : Enables private extension-based HSS solution for P-CSCF restoration.

  • emergency-pdn : P-CSCF Restoration is disabled for Emergency PDNs and Private Extn mechanism will be used for P-CSCF Restoration.

  • s6b-reauth : Re-Auth will be performed for P-CSCF restoration extension on S6b.

no

Disables P-CSCF Restoration for the following:

  • emergency-pdn : Disables P-CSCF restoration for Emergency PDNs.

  • s6b-reauth : Disables Re-Auth after P-CSCF restoration extension on S6b.

Usage Guidelines

Use this command to enable/disable the standards-based mechanism for P-CSCF failure detection. This command enables operators to ensure a failed P-CSCF address is not provided to the IMS client. Prior to StarOS release18.2, P-CSCF restoration was supported by using the Private Extn IE. In StarOS releases 18.2 and later, the failure detection mechanism can be configured as standards-based. By default this feature is disabled; therefore, the Private Extn mechanism will be used for P-CSCF restoration.

In compliance with 3GPP standard Release 13, extended P-CSCF Restoration procedures were added in StarOS release 21.0. For more information on this functionality, refer to the HSS and PCRF Based P-CSCF Restoration Support chapter in the P-GW Administration Guide or SAEGW Administration Guide.

Example

This example configures P-CSCF restoration to custom-hss-solution :
   pcscf-restoration custom-hss-solution 

plmn id

Configures Public Land Mobile Network (PLMN) identifiers used to determine if a mobile station is visiting, roaming, or belongs to a network. Up to 512 PLMN IDs can be configured for each P-GW service.

Product

P-GW

SAEGW

Privilege

Administrator

Mode

Exec > Global Configuration > Context Configuration > P-GW Service Configuration

configure > context context_name > pgw-service service_name

Entering the above command sequence results in the following prompt:

[context_name]host_name(config-pgw-service)# 

Syntax

plmn id mcc mcc_value [ mnc mnc_value ] [ primary ] 
no plmn id mcc mcc_value [ mnc mnc_value ] 

no

Removes a previously configured PLMN identifier for the P-GW service.

mcc mcc_value

Specifies the mobile country code (MCC) portion of the PLMN identifier.

mcc_value is the PLMN MCC identifier and must be an integer from 100 through 999.

mnc mnc_value

Specifies the mobile network code (MNC) portion of the PLMN identifier.

mnc_value is the PLMN MNC identifier and can be configured to a 2- or 3-digit integer from 00 through 999.

primary

When multiple PLMN IDs are configured, the primary keyword can be used to designate one of the PLMN IDs to be used for the AAA attribute.

Usage Guidelines

The PLMN identifier is used to aid the P-GW service in the determination of whether or not a mobile station is visiting, roaming, or home. Multiple P-GW services can be configured with the same PLMN identifier. Up to 512 PLMN IDs can be configured for each P-GW Service.


Important


The number of supported PLMN IDs was increased from 5 to 512 in StarOS Release 17.1. In addition, the MNC portion of the PLMN ID became optional.


If the MNC portion of a PLMN ID is not specified, home PLMN qualification will be done based solely on the MCC value and the MNC portion will be ignored for these particular MCCs.

Example

The following command configures the PLMN identifier with an MCC of 462 and MNC of 02 :
   plmn id mcc 462 mnc 02 

reporting-action

Configures reporting of events.

Product

P-GW

Privilege

Security Administrator, Administrator

Mode

Exec > Global Configuration > Context Configuration > P-GW Service Configuration

configure > context context_name > pgw-service pgw_service_name

Entering the above command sequence results in the following prompt:

[local]host_name(config-pgw-service)# 

Syntax

[ no ] reporting-action event-record  

no

Disables RTT record generation for this P-GW service.

event-record

Configures event records.

Usage

Use this command to configure the reporting of events for the P-GW service.

Example

The following command configures the reporting of event records:
reporting-action event-record 

session-delete-delay

Configures a delay in terminating a session.

Product

P-GW

SAEGW

Privilege

Administrator

Mode

Exec > Global Configuration > Context Configuration > P-GW Service Configuration

configure > context context_name > pgw-service service_name

Entering the above command sequence results in the following prompt:

[context_name]host_name(config-pgw-service)# 

Syntax

session-delete-delay timeout [ msec ] 
{ default | no } session-delete-delay timeout 

default

Resets the command to the default setting of 10000 milliseconds.

no

Disables the feature.

timeout msec

Default: 10000

Specifies the time to retain the session (in milliseconds) before terminating it.

msec must be an integer from 1000 to 60000.

Usage Guidelines

Use this command to set a delay to provide session continuity in break-before-make scenarios.

Example

The following command sets the session delete delay to the default setting of 10,000 milliseconds:
   session-delete-delay timeout 

setup-timeout

Configures the maximum amount of time the P-GW service takes for creating a session.

Product

P-GW

Privilege

Security Administrator, Administrator

Mode

Exec > Global Configuration > Context Configuration > P-GW Service Configuration

configure > context context_name > pgw-service service_name

Entering the above command sequence results in the following prompt:

[context_name]host_name(config-pgw-service)# 

Syntax

setup-timeout setup_time 
default setup-timeout 

default

Configures the default guard timer value for session creation.


Important


This keyword is introduced in Release 18.0 as part of Configurable Guard Timer on Create Session Request Processing feature. Prior to Release 18.0, on receiving a Create Session Request, the P-GW service started with a hardcoded setup timer value of 60 seconds.


setup-time

Default: 60

Specifies the maximum amount of time taken by P-GW for service creation.

setup_time is measured in seconds and can be configured to an integer from 1 through 120.

Important


This variable is introduced in Release 18.0 as part of Configurable Guard Timer on Create Session Request Processing feature. The guard session setup timeout value has been made configurable from 1 to 120 seconds. If a Create Session Request is received and setup timeout is configured, the timer starts with the configured value. If the setup timeout is not configured, the timer starts with the default value of 60 seconds.


Usage Guidelines

Use this command to limit the amount of time allowed for creating a session. If a "Create Session Request" is received and the setup-timeout is configured, the timer starts with the configured value. If the setup timeout is not configured, the timer starts with the default value of 60 seconds.

Example

The following command allows a maximum of 120 seconds for creating a session:
   setup-timeout 120