active_port monitor - SNMP OIDs

MIBs list

OIDs - active_port monitor

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OID list for active port

tsm Admin Port Active Monitor
tsmAdminPortActiveMon 1.3.6.1.4.1.800.2.19.1.1.1.1.4 (defined in TSMEXT-MIB)
The configured active monitor participation of the port. 1 = yes. Participate in the active monitor selection process. 2 = no. Do NOT participate in the active monitor selection process.
tsm Operation Port Active Monitor
tsmOperPortActiveMon 1.3.6.1.4.1.800.2.19.1.2.1.1.4 (defined in TSMEXT-MIB)
The operational active monitor participation of the port. 1 = yes. Participate in the active monitor selection process. 2 = no. Do NOT participate in the active monitor selection process.
gm Auto Service Active Port
gmAutoServiceActivePort 1.3.6.1.4.1.800.2.2.10.14.1.12 (defined in XYLAN-VLAN-MIB)
Physical Port on the which the service is currently active.
ima Port Afa Active Minimum
imaPortAfaActMin 1.3.6.1.4.1.43.1.12.3.1.1.19.2.1.1.11 (defined in 3comab9300)
This object specifies the AFA kick-in period for the port.
ima Port Afa Active Rate
imaPortAfaActRate 1.3.6.1.4.1.43.1.12.3.1.1.19.2.1.1.13 (defined in 3comab9300)
This object specifies the AFA kick-in error rate for the port.
Cabletron ATM Physical Redundancy Active Port
ctATMPhyRedundActivePort 1.3.6.1.4.1.52.4.1.2.10.1.2.1.1.1.3 (defined in ctatm-config-mib)
The physical port number to be used as the active port. The primary port defaults as the active port if this object is not set. Rules: - This object can always be set when ctATMPhyRedundStatus (q.v.) is set to disable(2). - It cannot be set when ctATMPhyRedundStatus is set to enable(1), ctATMPhyRedundPrimaryRevert (q.v.) is set to automatic(1), and the primary port is deemed good (and therefore usable) by redundancy. Under these conditions, it is meaningless to attempt to manually set the Active Port, as Redundancy would simply reset the active port to the primary again immediately after the set takes place. - If the primary port has failed, or ctATMPhyRedundPrimaryRevert is set to manual(2), then this object can be set; however, the behaviour of redundancy as a result of the set will depend on the status of ctATMPhyRedundActivation (q.v.) and whether or not the port being set active is good. If RedundActivation is enabled, the set may be countermanded immediately if at any time the port being set is found to be bad (and therefore not usable by Redundancy) and another (good) redundant port is available. If RedundActivation is set to manual(2), then the set will take place, regardless of the status of the port being set. Naturally, if the primary port is restored, the behaviour of Redundancy will depend on whether RedundPrimaryRevert is automatic; if it is, the active port will immediately switch over; otherwise it will remain as-is. There is a precisely defined relationship between ctATMPhyRedundActivePort, ctATMPhyRedundStatus, ctATMPhyRedundPrimaryRevert, and ctATMPhyRedundActivation. If RedundStatus is disabled, then PrimaryRevert and RedundActivation have no functional meaning and ActivePort becomes the only means by which the redundant ports can be switched. Likewise, if RedundStatus is enabled and PrimaryRevert is automatic, a set of the ActivePort has no functional meaning for as long as the primary port is deemed usable by redundancy. If RedundStatus is enabled but PrimaryRevert is manual, the active port will only be changed through ActivePort or the exercise of RedundActivation. The line of precedence, therefore, fully depends upon the status of Redundancy; if RedundStatus is disabled, then precedence lies with ActivePort by virtue of the fact that there are no other competing methods to switch the active port among the redundant ports. If RedundStatus is enabled, however, PrimaryRevert (an active switching method) and RedundActivation (a passive switching method) have precedence over ActivePort; if PrimaryRevert is set to automatic, then the active port is immediately switched to the primary as soon as it's deemed usable by Redundancy; likewise, if RedundActivation is set to automatic, the currently active port will be switched immediately in the event of port failure. Clearly, then, ActivePort cannot guarantee a set for as long as any automatic part of Redundancy is enabled. This object is persistent.
Cabletron Front Panel Redundancy Active Port
ctFpRedundActivePort 1.3.6.1.4.1.52.4.1.5.5.1.7 (defined in ctron-frontpanel-mib)
Get/Set the front panel port you want to be active when front panel redundancy is enabled.
sfps L4 CDR Active Flow Source Protocol Port
sfpsL4CDRActiveFlowSourceProtocolPort 1.3.6.1.4.1.52.4.2.4.2.6.2.4.1.7 (defined in ctron-sfps-l4ss-mib)
If this is a Layer 4 flow, this value indicates the protocol port number of the source of the flow. Otherwise, this field is zero.
sfps L4 CDR Active Flow Destination Protocol Port
sfpsL4CDRActiveFlowDestProtocolPort 1.3.6.1.4.1.52.4.2.4.2.6.2.4.1.13 (defined in ctron-sfps-l4ss-mib)
If this is a Layer 4 flow, this value indicates the protocol port number of the destination of the flow. Otherwise, this field is zero.
wan Connection Active Physical Port
wanConnActivePhysPort 1.3.6.1.4.1.52.4.1.2.7.1.1.2.1.4 (defined in ctron-wan-mib)
The physical port that is currently active for this wan connection. The value of this object indicates the wanPhysPortIndex for the active port.
Repeater Port Group Source Address Active Users
rptrPortGrpSrcAddrActiveUsers 1.3.6.1.4.1.52.4.1.1.1.4.2.4.1.2 (defined in repeater-rev4-mib)
Returns the total number of active users seen by this port group.
Repeater Port Source Address Active Users
rptrPortSrcAddrActiveUsers 1.3.6.1.4.1.52.4.1.1.1.4.3.5.1.5 (defined in repeater-rev4-mib)
Returns the total number of active users seen by this port.
agent Interface Active Port No
agentInterfaceActivePortNo 1.3.6.1.4.1.14179.1.2.13.1.15 (defined in AIRESPACE-SWITCHING-MIB)
This is the currently active port for this interface.
ALTIGA Active Session Sub Entry Udp Port
alActiveSessionSubEntryUdpPort 1.3.6.1.4.1.3076.2.1.2.17.6.1.23 (defined in ALTIGA-SESSION-STATS-MIB)
The UDP destination port used by IPSec for this connection to permit access through a firewall.
ALTIGA Active Session Sub Entry Tcp Source Port
alActiveSessionSubEntryTcpSrcPort 1.3.6.1.4.1.3076.2.1.2.17.6.1.29 (defined in ALTIGA-SESSION-STATS-MIB)
The TCP Source port used by IKE/IPSec for this connection to permit access through a firewall.
ALTIGA Active Session Sub Entry Tcp Destination Port
alActiveSessionSubEntryTcpDstPort 1.3.6.1.4.1.3076.2.1.2.17.6.1.30 (defined in ALTIGA-SESSION-STATS-MIB)
The TCP Dest port used by IKE/IPSec for this connection to permit access through a firewall.
ALTIGA Active Session Sub Entry Udp Source Port
alActiveSessionSubEntryUdpSrcPort 1.3.6.1.4.1.3076.2.1.2.17.6.1.31 (defined in ALTIGA-SESSION-STATS-MIB)
The UDP Source port used by IPSec for this connection to permit access through a firewall.
ALTIGA Active Session Sub Entry Ike Udp Source Port
alActiveSessionSubEntryIkeUdpSrcPort 1.3.6.1.4.1.3076.2.1.2.17.6.1.32 (defined in ALTIGA-SESSION-STATS-MIB)
The UDP Source port used by IPSec/UDP for IKE Session.
ALTIGA Active Session Sub Entry Ike Udp Destination Port
alActiveSessionSubEntryIkeUdpDstPort 1.3.6.1.4.1.3076.2.1.2.17.6.1.33 (defined in ALTIGA-SESSION-STATS-MIB)
The UDP Source port used by IPSec/UDP for IKE Session.
CISCO CALL TRACKER TCP Active Local Tcp Port
ccttActiveLocalTcpPort 1.3.6.1.4.1.9.9.164.1.1.1.1.2 (defined in CISCO-CALL-TRACKER-TCP-MIB)
TCP port number for local endpoint of the call's TCP connection. This object has the same value as tcpConnLocalPort from TCP-MIB. REFERENCE "RFC 2012 TCP-MIB
CISCO CALL TRACKER TCP Active Remote Tcp Port
ccttActiveRemoteTcpPort 1.3.6.1.4.1.9.9.164.1.1.1.1.4 (defined in CISCO-CALL-TRACKER-TCP-MIB)
TCP port number for remote endpoint of the call's TCP connection. This object has the same value as tcpConnRemPort from TCP-MIB. REFERENCE "RFC 2012 TCP-MIB

MIBs list