GGSN supports this GPRS service mode for maintenance
purposes. Two modes are supported in GGSN, operational and
maintenance mode. 'inService' mode represents nominal
operation, and there will be no change in the way the GGSN
operates. 'maintenance' mode imposes restrictions, such as
some of the configurations allowed by the GGSN, and no new
PDPs will be accepted. 'maintenance' mode can be useful to
make some changes to the configuration of the GGSN without
affecting the existing PDPs.
'maintenance' mode gloablly applies to the GGSN, which means
the whole box will be put in maintenance mode. There also
exists APN level maintenance mode, which is defined in
CISCO-GPRS_ACC-PT-MIB, and charging maintenance mode which
is defined in CISCO-GPRS-CHARGING-MIB, which is out of
scope of this MIB.
Internally GGSN maintains three states (inService,
maintenance and outOfService ), which can be viewed with
cGgsnServiceModeStatus.
The SNMP entity generates notification when switching modes.
It uses the cGgsnInServiceNotif and cGgsnMaintenanceNotif
for this purpose.
Parsed from file CISCO-GGSN-MIB.mib
Module: CISCO-GGSN-MIB
GGSN supports this GPRS service mode for maintenance
purposes. Two modes are supported in GGSN, operational and
maintenance mode. 'inService' mode represents nominal
operation, and there will be no change in the way the GGSN
operates. 'maintenance' mode imposes restrictions, such as
some of the configurations allowed by the GGSN, and no new
PDPs will be accepted. 'maintenance' mode can be useful to
make some changes to the configuration of the GGSN without
affecting the existing PDPs.
'maintenance' mode gloablly applies to the GGSN, which means
the whole box will be put in maintenance mode. There also
exists APN level maintenance mode, which is defined in
CISCO-GPRS_ACC-PT-MIB, and charging maintenance mode which
is defined in CISCO-GPRS-CHARGING-MIB, which is out of
scope of this MIB.
Internally GGSN maintains three states (inService,
maintenance and outOfService ), which can be viewed with
cGgsnServiceModeStatus.
The SNMP entity generates notification when switching modes.
It uses the cGgsnInServiceNotif and cGgsnMaintenanceNotif
for this purpose.
GGSN supports this GPRS service mode for maintenance
purposes. Two modes are supported in GGSN, operational and
maintenance mode. 'inService' mode represents nominal
operation, and there will be no change in the way the GGSN
operates. 'maintenance' mode imposes restrictions, such as
some of the configurations allowed by the GGSN, and no new
PDPs will be accepted. 'maintenance' mode can be useful to
make some changes to the configuration of the GGSN without
affecting the existing PDPs.
'maintenance' mode gloablly applies to the GGSN, which means
the whole box will be put in maintenance mode. There also
exists APN level maintenance mode, which is defined in
CISCO-GPRS_ACC-PT-MIB, and charging maintenance mode which
is defined in CISCO-GPRS-CHARGING-MIB, which is out of
scope of this MIB.
Internally GGSN maintains three states (inService,
maintenance and outOfService ), which can be viewed with
cGgsnServiceModeStatus.
The SNMP entity generates notification when switching modes.
It uses the cGgsnInServiceNotif and cGgsnMaintenanceNotif
for this purpose.
Parsed from file CISCO-GGSN-MIB.my.txt
Company: None
Module: CISCO-GGSN-MIB
GGSN supports this GPRS service mode for maintenance
purposes. Two modes are supported in GGSN, operational and
maintenance mode. 'inService' mode represents nominal
operation, and there will be no change in the way the GGSN
operates. 'maintenance' mode imposes restrictions, such as
some of the configurations allowed by the GGSN, and no new
PDPs will be accepted. 'maintenance' mode can be useful to
make some changes to the configuration of the GGSN without
affecting the existing PDPs.
'maintenance' mode gloablly applies to the GGSN, which means
the whole box will be put in maintenance mode. There also
exists APN level maintenance mode, which is defined in
CISCO-GPRS_ACC-PT-MIB, and charging maintenance mode which
is defined in CISCO-GPRS-CHARGING-MIB, which is out of
scope of this MIB.
Internally GGSN maintains three states (inService,
maintenance and outOfService ), which can be viewed with
cGgsnServiceModeStatus.
The SNMP entity generates notification when switching modes.
It uses the cGgsnInServiceNotif and cGgsnMaintenanceNotif
for this purpose.
cGgsnServiceMode OBJECT-TYPE SYNTAX INTEGER { inService(1), maintenance(2) } MAX-ACCESS read-write STATUS current DESCRIPTION "GGSN supports this GPRS service mode for maintenance purposes. Two modes are supported in GGSN, operational and maintenance mode. 'inService' mode represents nominal operation, and there will be no change in the way the GGSN operates. 'maintenance' mode imposes restrictions, such as some of the configurations allowed by the GGSN, and no new PDPs will be accepted. 'maintenance' mode can be useful to make some changes to the configuration of the GGSN without affecting the existing PDPs. 'maintenance' mode gloablly applies to the GGSN, which means the whole box will be put in maintenance mode. There also exists APN level maintenance mode, which is defined in CISCO-GPRS_ACC-PT-MIB, and charging maintenance mode which is defined in CISCO-GPRS-CHARGING-MIB, which is out of scope of this MIB. Internally GGSN maintains three states (inService, maintenance and outOfService ), which can be viewed with cGgsnServiceModeStatus. The SNMP entity generates notification when switching modes. It uses the cGgsnInServiceNotif and cGgsnMaintenanceNotif for this purpose." DEFVAL { inService } ::= { cGgsnConfigurations 12 }
cGgsnServiceMode OBJECT-TYPE SYNTAX INTEGER { inService(1), maintenance(2) } ACCESS read-write STATUS mandatory DESCRIPTION "GGSN supports this GPRS service mode for maintenance purposes. Two modes are supported in GGSN, operational and maintenance mode. 'inService' mode represents nominal operation, and there will be no change in the way the GGSN operates. 'maintenance' mode imposes restrictions, such as some of the configurations allowed by the GGSN, and no new PDPs will be accepted. 'maintenance' mode can be useful to make some changes to the configuration of the GGSN without affecting the existing PDPs. 'maintenance' mode gloablly applies to the GGSN, which means the whole box will be put in maintenance mode. There also exists APN level maintenance mode, which is defined in CISCO-GPRS_ACC-PT-MIB, and charging maintenance mode which is defined in CISCO-GPRS-CHARGING-MIB, which is out of scope of this MIB. Internally GGSN maintains three states (inService, maintenance and outOfService ), which can be viewed with cGgsnServiceModeStatus. The SNMP entity generates notification when switching modes. It uses the cGgsnInServiceNotif and cGgsnMaintenanceNotif for this purpose." DEFVAL { inService } ::= { cGgsnConfigurations 12 }
Vendor: Cisco
Module: CISCO-GGSN-MIB
[Automatically extracted from oidview.com]
cGgsnServiceMode OBJECT-TYPE SYNTAX INTEGER { inService(1), maintenance(2) } MAX-ACCESS read-write STATUS current DESCRIPTION "GGSN supports this GPRS service mode for maintenance purposes. Two modes are supported in GGSN, operational and maintenance mode. 'inService' mode represents nominal operation, and there will be no change in the way the GGSN operates. 'maintenance' mode imposes restrictions, such as some of the configurations allowed by the GGSN, and no new PDPs will be accepted. 'maintenance' mode can be useful to make some changes to the configuration of the GGSN without affecting the existing PDPs. 'maintenance' mode gloablly applies to the GGSN, which means the whole box will be put in maintenance mode. There also exists APN level maintenance mode, which is defined in CISCO-GPRS_ACC-PT-MIB, and charging maintenance mode which is defined in CISCO-GPRS-CHARGING-MIB, which is out of scope of this MIB. Internally GGSN maintains three states (inService, maintenance and outOfService ), which can be viewed with cGgsnServiceModeStatus. The SNMP entity generates notification when switching modes. It uses the cGgsnInServiceNotif and cGgsnMaintenanceNotif for this purpose." DEFVAL { inService } ::= { cGgsnConfigurations 12 }
cGgsnServiceMode OBJECT-TYPE SYNTAX INTEGER { inService(1), maintenance(2) } MAX-ACCESS read-write STATUS current DESCRIPTION "GGSN supports this GPRS service mode for maintenance purposes. Two modes are supported in GGSN, operational and maintenance mode. 'inService' mode represents nominal operation, and there will be no change in the way the GGSN operates. 'maintenance' mode imposes restrictions, such as some of the configurations allowed by the GGSN, and no new PDPs will be accepted. 'maintenance' mode can be useful to make some changes to the configuration of the GGSN without affecting the existing PDPs. 'maintenance' mode gloablly applies to the GGSN, which means the whole box will be put in maintenance mode. There also exists APN level maintenance mode, which is defined in CISCO-GPRS_ACC-PT-MIB, and charging maintenance mode which is defined in CISCO-GPRS-CHARGING-MIB, which is out of scope of this MIB. Internally GGSN maintains three states (inService, maintenance and outOfService ), which can be viewed with cGgsnServiceModeStatus. The SNMP entity generates notification when switching modes. It uses the cGgsnInServiceNotif and cGgsnMaintenanceNotif for this purpose." DEFVAL { inService } ::= { cGgsnConfigurations 12 }
OID | Name | Sub children | Sub Nodes Total | Description |
---|---|---|---|---|
1.3.6.1.4.1.9.9.240.1.3.12.0 | cGgsnServiceMode | 0 | 0 | None |
OID | Name | Sub children | Sub Nodes Total | Description |
---|---|---|---|---|
1.3.6.1.4.1.9.9.240.1.3.1 | cGgsnDefaultIpAllocationMethod | 1 | 1 | Specifies the default method by which the GGSN obtains address leases for mobile user sessions. - 'disable', which indicates that… |
1.3.6.1.4.1.9.9.240.1.3.2 | cGgsnIdlePdpPurgeTimer | 1 | 1 | This object specifies the time that the GGSN waits before purging idle PDP contexts. A value '0' will disable the purge timer. |
1.3.6.1.4.1.9.9.240.1.3.3 | cGgsnIpDupProtectTable | 1 | 8 | This table contains the range of IP address used in the GPRS PLMN. These IP addresses are used to avoid IP address duplication in… |
1.3.6.1.4.1.9.9.240.1.3.4 | cGgsnDefaultAggregTable | 1 | 5 | This table contains the list of default aggregate routes configured on the GGSN. GGSN uses a static host route to forward user da… |
1.3.6.1.4.1.9.9.240.1.3.5 | cGgsnDefaultAaaAuthServerGroup | 1 | 1 | This object specifies the AAA radius server group that is used for authentication by all APN's on this GGSN. |
1.3.6.1.4.1.9.9.240.1.3.6 | cGgsnDefaultAaaAccServerGroup | 1 | 1 | This object specifies the AAA radius server group that is used for accounting by all APN's on this GGSN. |
1.3.6.1.4.1.9.9.240.1.3.7 | cGgsnPppVirtualTemplate | 1 | 1 | This object represents the virtual template interface used by PPP Type PDP's. |
1.3.6.1.4.1.9.9.240.1.3.8 | cGgsnPppRegenVirtualTemplate | 1 | 1 | This object represents the virtual template interface used for PPP Regeneration by the APN's on which PPP Regeneration is configu… |
1.3.6.1.4.1.9.9.240.1.3.9 | cGgsnPlmnIpAddrRangeTable | 1 | 8 | This table contains the range of IP addresses that belong to the PLMN nodes in a GPRS network. This range does not include addres… |
1.3.6.1.4.1.9.9.240.1.3.10 | cGgsnImsConfigurations | 2 | 18 | None |
1.3.6.1.4.1.9.9.240.1.3.11 | cGgsnMemoryThreshold | 1 | 1 | GGSN memory overload protection is a mechanism to prevent GGSN from completely running out of memory when GGSN is running near it… |
1.3.6.1.4.1.9.9.240.1.3.13 | cGgsnPlmnTable | 1 | 5 | Mobile Country Code (MCC) and Mobile Network Code (MNC) together identify a GPRS PLMN of an operator. PLMN Ids other than home PL… |
1.3.6.1.4.1.9.9.240.1.3.14 | cGgsnSessionTimeout | 1 | 1 | This object specifies the PDP context timeout value. The PDP context will be terminated after this timer expiry. The value presen… |
1.3.6.1.4.1.9.9.240.1.3.15 | cGgsnThruputIntervalOne | 1 | 1 | This object and cGgsnThruputIntervalTwo specifies the interval at which the data throughput needs to be collected per APN/SGSN. On… |
1.3.6.1.4.1.9.9.240.1.3.16 | cGgsnThruputIntervalTwo | 1 | 1 | This object specifies the time interval TWO for collecting the throughput per APN/SGSN. This object is same as cGgsnThruputInterv… |
1.3.6.1.4.1.9.9.240.1.3.17 | cGgsnCompliance3GppGgsn | 1 | 1 | This object specifies the compliance level for the particular GGSN version present in cGgsnVersion. This object can be used to se… |
1.3.6.1.4.1.9.9.240.1.3.18 | cGgsnCreateReqV1UpdExistPdp | 1 | 1 | This object is used for backward compatibility due to to implementation of CR 311. CR 311: The SGSN shall not send a Create PDP C… |
1.3.6.1.4.1.9.9.240.1.3.19 | cGgsnRadAttrSessTimeout | 1 | 1 | This object is used for enabling the session timeout feature on the global (router) level set using cGgsnSessionTimeout, APN leve… |
1.3.6.1.4.1.9.9.240.1.3.20 | cGgsnDownlinkVerifyMsDisable | 1 | 1 | This object enables the feature which will allow the GGSN to route IP packets beyond MS. This works only if a static route is add… |
1.3.6.1.4.1.9.9.240.1.3.21 | cGgsnSlbMode | 1 | 1 | GTP SLB can operate in two modes-dispatched and directed. - 'dispatched' mode: It forwards the create request without changing th… |
1.3.6.1.4.1.9.9.240.1.3.22 | cGgsnSlbNotif | 1 | 1 | This object is used to enable or disable the GGSN behavior of sending CAC failure notification to SLB, or session failure notific… |
1.3.6.1.4.1.9.9.240.1.3.23 | cGgsnSlbVserverTable | 1 | 7 | This table includes the different virtual servers (IP address of virtual servers) and the elements gives the interface to reach t… |
1.3.6.1.4.1.9.9.240.1.3.24 | cGgsnSlbNotifyCacFailure | 1 | 1 | This object is used to enable or disable the GGSN behavior of sending CAC failure notification to SLB. CAC fails on GGSN if eithe… |
1.3.6.1.4.1.9.9.240.1.3.25 | cGgsnSlbNotifySessionDeletion | 1 | 1 | This object is used to enable or disable the GGSN behavior of sending session deletion notification to SLB. If this object is set… |