ctron-ip-router-mib

ctron-ip-router-mib Download

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OID list for ctron-ip-router-mib

nwIpMibRevText
Indicates the current revision level of the IP MIB in textual format.
nwIpSysRouterId
The IP Address used to uniquely identify the host (device) running IP Routing Services. The value of nwIpSysRouterId is equal to the highest IP Address in the IP Address Table.
nwIpSysAdminStatus
Sets the administrative state of IP Routing Services system-wide. Enabled(3) causes IP Routing Services to become active on all router ports configured and enabled for IP Routing Services. Disabled(2) causes IP Routing Services to become inactive system-w ...
nwIpSysOperStatus
Indicates the operating condition of IP Routing Services, system-wide. The value of nwIpSysOperStatus indicates any problem with your IP Routing Services configuration. A value of 6 indicates that regardless of the value of nwIpSysAdminStatus,IP Routing S ...
nwIpSysAdminReset
Resets IP Routing Services, system-wide. Reset (2) forces a restart of IP Routing Services without a graceful shutdown on any active router ports, without affecting any other routing services.
nwIpSysOperationalTime
Indicates the elapsed time, in hundredths of a second, that nwIpSysOperStatus has been in its current administrative state.
nwIpSysVersion
Indicates the current revision level of the IP Routing Services firmware, in textual format.
nwIpFwdCtrAdminStatus
Sets the administrative state of the aggregate (system-wide) IP packet and byte counters. Enabled (3) causes these counters to become active. Disabled (2) causes these counters to become inactive.
nwIpFwdCtrReset
Resets the aggregate (system-wide) IP packet and byte counters. Reset (2) resets the IP aggregate counters to 0. nwIpFwdCtrOperationalTime is also reset to 0.
nwIpFwdCtrOperationalTime
Indicates the elapsed time, in hundredths of a second, that nwIpFwdCtrAdminStatus has been in the current state.
nwIpFwdCtrInPkts
Indicates the total number of IP packets that have been received, system-wide, during nwIpFwdCtrOperationalTime.
nwIpFwdCtrOutPkts
Indicates the total number of IP packets that have been transmitted, system-wide, during nwIpFwdCtrOperationalTime.
nwIpFwdCtrFwdPkts
Indicates the total number of IP packets that have been forwarded, system-wide, during nwIpFwdCtrOperationalTime.
nwIpFwdCtrFilteredPkts
Indicates the total number of IP packets that have been administratively filtered, system-wide, during nwIpFwdCtrOperationalTime.
nwIpFwdCtrDiscardPkts
Indicates the total number of IP packets that have been discarded, system-wide, during nwIpFwdCtrOperationalTime.
nwIpFwdCtrAddrErrPkts
Indicates the total number of IP packets that have been discarded, system-wide, during nwIpFwdCtrOperationalTime, because of addressing errors in the IP header.
nwIpFwdCtrLenErrPkts
Indicates the total number of IP packets that have been discarded, system-wide, during nwIpFwdCtrOperationalTime, because an invalid packet length is contained in the IP header.
nwIpFwdCtrHdrErrPkts
Indicates the total number of IP packets that have been discarded, system-wide, during nwIpFwdCtrOperationalTime, because of an invalid IP header.
nwIpFwdCtrInBytes
Indicates the total number of bytes in the IP packets that have been received, system-wide, during nwIpFwdCtrOperationalTime.
nwIpFwdCtrOutBytes
Indicates the total number of bytes in the IP packets that have been transmitted, system-wide, during nwIpFwdOperationalTime.
nwIpFwdCtrFwdBytes
Indicates the total number of bytes in the IP packets that have been forwarded, system-wide, during nwIpFwdCtrOperationalTime.
nwIpFwdCtrFilteredBytes
Indicates the total number of bytes in the IP packets that have been administratively filtered, system-wide, during nwIpFwdCtrOperationalTime.
nwIpFwdCtrDiscardBytes
Indicates the total number of bytes in the IP packets that have been discarded, system-wide, during nwIpFwdCtrOperationalTime.
nwIpFwdCtrHostInPkts
Indicates the total number of IP packets that have been successfully delivered to the local host, during nwIpFwdCtrOperationalTime.
nwIpFwdCtrHostOutPkts
Indicates the total number of IP packets that have been forwarded by the local host, during nwIpFwdCtrOperationalTime.
nwIpFwdCtrHostDiscardPkts
Indicates the total number of IP packets that have been discarded by the local host, during nwIpFwdCtrOperationalTime.
nwIpFwdCtrHostInBytes
Indicates the total number of IP packets that have been received by the local host, during nwIpFwdCtrOperationalTime.
nwIpFwdCtrHostOutBytes
Indicates the total number of IP packets that have been transmitted by the local host, during nwIpFwdCtrOperationalTime.
nwIpFwdCtrHostDiscardBytes
Indicates the total number of bytes in the IP packets that have been discarded by the local host, during nwIpFwdCtrOperationalTime, due to a lack of host resources.
nwIpFwdIfTable
This table contains an entry for each router port. This table is indexed by nwIpFwdIfIndex, which indicates the value of MIB 2 ifindex which identifies the router port for which each entry exists.
nwIpFwdIfEntry
Each entry specifies the IP Routing Services configuration for the router port for which the entry exists.
nwIpFwdIfIndex
Indicates the value of MIB 2 ifindex, which identifies the router port.
nwIpFwdIfAdminStatus
Sets the administrative state of IP Routing Services on the router port for which the entry exists. Enabled (3) causes IP Routing Services to become active. Disabled (2) causes it to become inactive.
nwIpFwdIfOperStatus
Indicates the current operating condition of IP Routing Services on the router port for which the entry exists. The value of nwIpFwdIfOperStatus indicates any problem with the configuration of IP routing Services on the router port. A value of 6 indicates ...
nwIpFwdIfOperationalTime
Indicates the elapsed time, in hundredths of a second, that nwIpFwdIfOperStatus has been in its current state.
nwIpFwdIfControl
This object does not apply to this protocol. It is a common object, inherited from the MIB framework used to provide a common management interface to all the Cabletron Routing Services protocol-specific MIBs. Setting this object has no effect.
nwIpFwdIfMtu
Specifies the Maximum Transmission Unit (MTU) for IP packets on the router port for which the entry exists. This includes the IP header and data, but does not include framing.
nwIpFwdIfForwarding
Controls forwarding of IP packets on the router port for which the entry exists. Enabled (3) causes IP packets to be forwarded. Disabled (2) prevents IP packets from being forwarded.
nwIpFwdIfFrameType
Specifies the framing type for IP packets forwarded on the router port for which the entry exists.
nwIpFwdIfAclIdentifier
Specifies the Access Control ID of the access control list in effect for the IP packets being routed on the router port for which the entry exists. A value of 0 indicates that no access control list is in effect.
nwIpFwdIfAclStatus
Controls the operation of any access control list configured for IP traffic for the IP packets being routed on the router port for which the entry exists. Enabled (3) applies the access control list, indicated by nwIpFwdIfAclIdentifier to all IP traffic b ...
nwIpFwdIfCacheControl
Controls IP Address caching on the router port for which the entry exists. IP Address caching speeds-up the switching process. When IP Addresses caching is enabled, IP Addresses used for address validation, filtering, and forwarding are stored in the cach ...
nwIpFwdIfCacheEntries
Indicates the number of entries in the IP Address cache on the router port for which the entry exists.
nwIpFwdIfCacheHits
Indicates the number of times entries in the IP Address Cache have been used to provide the IP Address required to validate, filter, or forward an IP packet on the router port.
nwIpFwdIfCacheMisses
Indicates the number of times the IP Address required to validate, filter, or forward an IP packet on the router port was not found in the IP Address cache.
nwIpAddressTable
This table contains an entry for each IP Address assigned to each router port.
nwIpAddrEntry
Each entry specifies the IP addressing information for the logical IP network for which the entry exists.
nwIpAddrIfIndex
Indicates the value of MIB 2 ifindex, which identifies the router port for which the entry exists.
nwIpAddrIfAddress
This is the IP Address assigned to the logical IP network for which the entry exist. As multiple IP Addresses may be assigned to a single router port, all addresses assigned to the port must be of the same subnet.
nwIpAddrIfControl
Set this object to add or delete this entry from the table.
nwIpAddrIfAddrType
Specifies whether the IP address, nwIpAddrIfAddress, is the primary, workgroup or secondary IP address for the IP router port for which the entry exists. A primary or workgroup address must be specified before a router port can be enabled.
nwIpAddrIfMask
Specifies the Subnet Mask for the logical IP network for which the entry exists.
nwIpAddrIfBcastAddr
Specifies the IP broadcast address type for the logical IP network for which the entry exists. A router port may be configured to send IP broadcasts using the all-ones-based format or the all-zeros-based format. nwIpAddrIfBcastAddr determines the value of ...
nwIpFwdIfCtrTable
This table contains an entry for each router port configured and enabled for IP Routing Services.
nwIpFwdIfCtrEntry
Each entry indicates the packet and byte count of IP packets on the router port for which the entry exists.
nwIpFwdIfCtrIfIndex
Indicates the value of MIB 2 ifindex, which identifies the router port for which the entry exists.
nwIpFwdIfCtrAdminStatus
Sets the administrative state of the per-port IP packet and byte counters on the router port for which the entry exists. Enabled (3) causes these counters to become active. Disabled (2) causes these counters to become inactive.
nwIpFwdIfCtrReset
Resets the per-port IP packet and byte counters on the router port for which the entry exists. Reset (2) resets the counters to 0. nwIpFwdIfCtrOperationalTime is also reset to 0.
nwIpFwdIfCtrOperationalTime
Indicates the elapsed time, in hundredths of a second, that the per-port IP packet and byte counters have been active on the router port for which the entry exists.
nwIpFwdIfCtrInPkts
Indicates the total number of IP packets that have been received, during nwIpFwdIfCtrOperationaltime, on the router port for which the entry exists.
nwIpFwdIfCtrOutPkts
Indicates the total number of IP packets that have been transmitted, during nwIpFwdIfCtrOperationalTime, on the router port for which the entry exists.
nwIpFwdIfCtrFwdPkts
Indicates the total number of IP packets that have been forwarded during nwIpFwdIfCtrOperationalTime, on the router port for which the entry exists.
nwIpFwdIfCtrFilteredPkts
Indicates the total number of IP packets that have been administratively filtered, during nwIpFwdIfCtrOperationalTime, on the IP router port for which this entry exists.
nwIpFwdIfCtrDiscardPkts
Indicates the total number of IP packets that have been discarded (dropped), during nwIpFwdIfCtrOperationalTime, on the router port for which the entry exists.
nwIpFwdIfCtrAddrErrPkts
Indicates the total number of IP packets that have been discarded, because of addressing errors in the IP header, during nwIpFwdIfCtrOperationalTime, on the router port for which the entry exists.
nwIpFwdIfCtrLenErrPkts
Indicates the total number of IP packets that have been discarded, because an invalid packet length was contained in the IP header, during nwIpFwdIfCtrOperationalTime, on the router port for which the entry exists.
nwIpFwdIfCtrHdrErrPkts
Indicates the total number of IP packets that have been discarded, because of an invalid IP header, during nwIpFwdIfCtrOperationalTime, on the router port for which the entry exists.
nwIpFwdIfCtrInBytes
Indicates the total number of bytes in the IP packets that have been received, during nwIpFwdIfCtrOperationalTime, on the router port for which the entry exists.
nwIpFwdIfCtrOutBytes
Indicates the total number of bytes in the IP packets that have been transmitted, during nwIpFwdIfCtrOperationalTime, on the router port for which the entry exists.
nwIpFwdIfCtrFwdBytes
Indicates the total number of bytes in the IP packets that have been forwarded, on the router port for which the entry exists, during nwIpFwdIfCtrOperationalTime.
nwIpFwdIfCtrFilteredBytes
Indicates the total number of bytes in the IP packets that have been administratively filtered, during nwIpFwdIfCtrOperationalTime, on the IP router port for which the entry exists.
nwIpFwdIfCtrDiscardBytes
Indicates the total number of bytes in the IP packets that have been discarded, during nwIpFwdIfCtrOperationalTime, on the router port for which the entry exists.
nwIpFwdIfCtrHostInPkts
Indicates the total number of IP packets that have been successfully delivered to the local host, that were received on the router port for which the entry exists, during nwIpFwdIfCtrOperationalTime.
nwIpFwdIfCtrHostOutPkts
Indicates the total number of IP packets that have been transmitted by the local host, during nwIpFwdIfCtrOperationalTime, on the router port for which the entry exists.
nwIpFwdIfCtrHostDiscardPkts
Indicates the total number of IP packets discarded by the local host due to a lack of host resources, that were received on the router port for which the entry exists, during nwIpFwdIfCtrOperationalTime.
nwIpFwdIfCtrHostInBytes
Indicates the total number of bytes in the IP packets that have been successfully delivered to the local host, that were received on the router port for which the entry exists, during nwIpFwdIfCtrOperationalTime.
nwIpFwdIfCtrHostOutBytes
Indicates the total number of bytes in the IP packets that have been transmitted by the local host, during nwIpFwdIfCtrOperationalTime, on the router port for which the entry exists.
nwIpFwdIfCtrHostDiscardBytes
Indicates the total number of bytes in the IP packets that have been discarded by the local host due to a lack of host resources, that were received on the router port for which the entry exists, during nwIpFwdIfCtrOperationalTime.
nwIpRipAdminStatus
Sets the administrative state of the RIP routing protocol system-wide. Enabled (3) causes RIP to become active on all router ports configured and enabled for IP Routing Services. Disabled (2) causes RIP to become inactive.
nwIpRipOperStatus
Indicates the current operating condition of the RIP routing protocol system-wide. The value of nwIpRipOperStatus indicates any problem with your RIP configuration. A value of 6 indicates that regardless of the value of nwIpRipAdminStatus, RIP is not oper ...
nwIpRipAdminReset
Resets the RIP routing protocol. Reset (2) forces a system-wide restart of the protocol system-wide without a graceful shutdown on any active router ports.
nwIpRipOperationalTime
Indicates the elapsed time, in hundredths of a second, that nwIpRipOperStatus, has been in its current state.
nwIpRipVersion
Indicates the current revision level of the RIP routing protocol firmware, in textual format.
nwIpRipStackSize
Specifies the stack size of the RIP routing protocol thread. In order for a change of this value to take effect, the protocol (nwIpRipAdminReset), IP Routing Services (nwIpSysAdminReset), or the device running Routing Services must be reset.
nwIpRipThreadPriority
Specifies the run-time execution priority of the RIP routing protocol thread. In order for a change of this value to take effect, RIP (nwIpRipAdminReset), IP Routing Services (nwIpAdminReset), or the device running Routing Services must be reset.
nwIpRipDatabaseThreshold
Specifies the run-time maximum number of RIP entries that can be held in the RIP route table.
nwIpRipAgeOut
Specifies the amount of time, in seconds, that an inactive route table entry will be allowed to remain in the RIP route table before it is aged-out.
nwIpRipHoldDown
Specifies the amount of time (in seconds) to wait before removing an entry from the route table, after receiving an update indicating that the destination has become unreachable. All routers exchanging RIP routing protocol information must have the same h ...
nwIpRipCtrAdminStatus
Sets the administrative state of the aggregate (system-wide) RIP routing protocol packet and byte counters. Enabled (3) causes these counters to become active. Disabled (2) causes these counters to become inactive.
nwIpRipCtrReset
Resets the aggregate (system-wide) RIP routing protocol packet and byte counters. Reset (2) resets the RIP aggregate counters to 0. nwIpRipCtrOperationalTime is also reset to 0.
nwIpRipCtrOperationalTime
Indicates the elapsed time, in hundredths of a second, that nwIpRipCtrAdminStatus has been in the current state.
nwIpRipCtrInPkts
Indicates the total number of RIP packets that have been received, system-wide, during nwIpRipCtrOperationalTime.
nwIpRipCtrOutPkts
Indicates the total number of RIP packets that have been transmitted, system-wide, during nwIpRipCtrOperationalTime.
nwIpRipCtrFilteredPkts
Indicates the total number of RIP packets that have been administratively filtered, system-wide, during nwIpRipCtrOperationalTime.
nwIpRipCtrDiscardPkts
Indicates the total number of RIP packets that have been discarded, system-wide, during nwIpRipCtrOperationalTime.
nwIpRipCtrInBytes
Indicates the total number of bytes in the RIP packets that have been received, system-wide, during nwIpRipCtrOperationalTime.
nwIpRipCtrOutBytes
Indicates the total number of bytes in the RIP packets that have been transmitted, system-wide, during nwIpRipCtrOperationalTime.
nwIpRipCtrFilteredBytes
Indicates the total number of bytes in the RIP packets that have been administratively filtered, system-wide, during nwIpRipCtrOperationalTime.
nwIpRipCtrDiscardBytes
Indicates the total number of bytes in the RIP packets that have been discarded, system-wide, during nwIpRipCtrOperationalTime.
nwIpRipIfTable
This table contains an entry for each router port. Each entry can contain different values, allowing the routing protocol configuration to vary from router port to router port. This table is indexed by nwIpRipIfIndex, which indicates the value of MIB 2 if ...
nwIpRipIfEntry
Each entry contains the RIP routing protocol configuration for the router port for which the entry exists.
nwIpRipIfIndex
Indicates the value of MIB 2 ifindex, which identifies the router port for which the entry exists.
nwIpRipIfAdminStatus
Sets the administrative state of the RIP routing protocol on the router port for which the entry exists. Enabled (3) causes RIP to become active on the router port. Disabled (2) causes RIP to become inactive on the router port.
nwIpRipIfOperStatus
Indicates the current operating condition of the RIP routing protocol on the router port for which the entry exists. The value of nwIpRipIfOperStatus indicates any problem with your RIP configuration on the router port. A value of 6 indicates that regardl ...
nwIpRipIfOperationalTime
Indicates the elapsed time, in hundredths of a second, nwIpRipIfOperStatus, has been in its current state.
nwIpRipIfVersion
Indicates the revision level of the RIP routing protocol firmware on the router port for which the entry exists, in textual format.
nwIpRipIfAdvertisement
Sets the interval, in seconds, at which RIP advertises the RIP route table on the router port for which the entry exists.
nwIpRipIfFloodDelay
Sets the length of time, in seconds, that the RIP routing protocol should wait after discovering that a directly connected route has gone down, before flooding updates (triggered updates) on the router port for which the entry exists. A value of 0 specifi ...
nwIpRipIfRequestDelay
Sets the length of time, in hundredths of a second, that the RIP routing protocol should wait after receiving a route request packet, before sending a response on the router port for which the entry exists. A value of 0 specifies that if a route request p ...
nwIpRipIfPriority
This object does not apply to this protocol. It is a common object, inherited from the MIB framework used to provide a common management interface to all the Cabletron Routing Services protocol-specific MIBs. Setting this object has no effect.
nwIpRipIfHelloTimer
This object does not apply to this protocol. It is a common object, inherited from the MIB framework used to provide a common management interfaced to all the Cabletron Routing Services protocol-specific MIBs. Setting this object has no effect.
nwIpRipIfSplitHorizon
Sets the operating condition of Split Horizon on the router port for which the entry exists. When Split Horizon is enabled, the RIP routing protocol keeps track of which router port route information is received on, and prevents information about a route ...
nwIpRipIfPoisonReverse
Sets the operating condition of Poison Reverse on the router port for which the entry exists. When Poison Reverse is enabled, the RIP routing protocol advertises any downed route as unreachable during the period of time that it must wait before removing t ...
nwIpRipIfSnooping
Controls the operation of RIP Snooping on the router port. When RIP Snooping is enabled the RIP routing protocol operates in passive mode so that it receives route information, builds and maintains a route table, but does not advertise the route table or ...
nwIpRipIfType
Indicates whether the directly connected network segment does or does not support broadcast media access. If broadcast media access is supported, RIP advertisements are sent out one broadcast packet per router port. If broadcast media is not supported, RI ...
nwIpRipIfXmitCost
This object does not apply to this protocol. It is a common object, inherited from the MIB framework used to provide a common management interface to all the Cabletron Routing Services protocol-specific MIBs. Setting this object has no effect.
nwIpRipIfAclIdentifier
Specifies the Access Control ID of the access control list in effect for RIP routing protocol packets on the router port for which the entry exists. A value of 0 indicates that there is no access control list in effect for RIP routing protocol packets on ...
nwIpRipIfAclStatus
Controls the operation of the access control list identified by nwIpRipIfAclIdentifier. Enabled (3) applies the access control list to all RIP routing protocol packet traffic on the router port for which the entry exists. Disabled (2) prevents the access ...
nwIpRipIfCtrTable
This table contains an entry for each router port.This table is indexed by nwIpRipIfCtrIfIndex which indicates the value of MIB 2 ifindex, which identifies the router port for which the entry exists.
nwIpRipIfCtrEntry
Each entry indicates the current packet and byte count of RIP routing protocol packets on the router port for which the entry exists.
nwIpRipIfCtrIfIndex
Indicates the value of MIB 2 ifindex, which identifies the router port for which the entry exists.
nwIpRipIfCtrAdminStatus
Sets the administrative state of the RIP packet and byte counters on the router port for which this entry exists. Enabled (3) causes these counters to become active. Disabled (2) causes these counters to become inactive.
nwIpRipIfCtrReset
Resets the per-port RIP packet and byte counters on the router port for which this entry exists. Reset (2) resets the counters to 0. nwIpRipIfCtrOperationalTime is also reset to 0.
nwIpRipIfCtrOperationalTime
Indicates the elapsed time, in hundredths of a second, that nwIpRipIfCtrAdminStatus has been in the current state.
nwIpRipIfCtrInPkts
Indicates the total number of RIP routing protocol packets that have been received, during nwIpRipIfCtrOperationalTime, on the router port for which the entry exists.
nwIpRipIfCtrOutPkts
Indicates the total number of RIP packets that have been transmitted, during nwIpRipIfCtrOperationalTime, on the router port for which the entry exists.
nwIpRipIfCtrFilteredPkts
Indicates the total number of RIP packets that have been administratively filtered during nwIpRipIfCtrOperationalTime, on the router port for which the entry exists.
nwIpRipIfCtrDiscardPkts
Indicates the total number of RIP routing protocol packets that have been discarded, during nwIpRipIfCtrOperationalTime. that were received through the router port for which the entry exists.
nwIpRipIfCtrInBytes
Indicates the total number of bytes in the RIP routing protocol packets that have been received, during nwIpRipIfCtrOperationalTime, on the router port for which this entry exists.
nwIpRipIfCtrOutBytes
Indicates the total number of bytes in the RIP routing protocol packets that have been transmitted, during nwIpRipIfCtrOperationalTime, on the router port for which the entry exists.
nwIpRipIfCtrFilteredBytes
Indicates the total number of bytes in the RIP routing protocol packets that have been administratively filtered, during nwIpRipIfCtrOperationalTime, on the router port for which the entry exists.
nwIpRipIfCtrDiscardBytes
Indicates the total number of bytes in the RIP routing protocol packets that have been discarded during nwIpRipIfCtrOperationalTime, that were received on the router port for which the entry exists.
nwIpRipRouteTable
This table contains the RIP route table. This table contains an entry for each route learned through the RIP routing protocol. Only the best routes from this table are added to the IP forwarding table to be used for packet switching.
nwIpRipRouteEntry
Each entry describes the RIP route to the destination network for which the entry exists.
nwIpRipRtNetId
This is the primary index into the RIP route table. This number indicates the IP Address of the destination for which the entry exists.
nwIpRipRtIfIndex
This is a secondary index into IP-RIP route table. This number corresponds to the value of MIB 2 ifindex, which identifies the router port for which the entry exists.
nwIpRipRtSrcNode
This is a secondary index into the RIP route table. This number indicates the IP Address of the source router from which this route was learned. A value of 0.0.0.0 indicates that the source is on the network segment directly connected to the router port, ...
nwIpRipRtMask
Indicates the Subnet Mask of the IP Address for which the entry exists.
nwIpRipRtHops
Indicates the number of hops required to reach the destination for which the entry exists.
nwIpRipRtAge
Indicates the amount of time, in seconds, since an update has been received for the route for which the entry exists.
nwIpRipRtType
Indicates whether the destination network is directly connected through the router port specified by nwIpRipRtIfIndex, or is indirectly connected through another router, specified by nwIpRipRtSrcNode.
nwIpRipRtFlags
Specifies properties of the RIP route. The bit mask is as follows: source-changed (1), best-source (2), local net (4), net-down (8), update-fib-only (16).
nwIpOspfAdminStatus
Sets the administrative state of the OSPF routing protocol. enabled(3) causes OSPF to become active on any IP configured router ports. disabled(2) causes OSPF to perform a graceful shutdown on any active IP configured router ports.
nwIpOspfOperStatus
Indicates the current operating condition of OSPF.
nwIpOspfAdminReset
Resets OSPF. reset(2) will force a restart of OSPF on any active IP router ports, configured for OSPF, without a graceful shutdown, without affecting any other routing services.
nwIpOspfOperationalTime
Indicates the amount of time (#of time ticks) that OSPF has been in its current operational state.
nwIpOspfVersion
Indicates the current Cabletron revision level of OSPF in textual format, not the OSPF version supported.
nwIpOspfStackSize
Specifies the stack size for the OSPF thread. In order for a change of this value to take effect, OSPF (nwIpOspfAdminStatus), IP (nwIpSysAdminStatus), or the device itself must be reset.
nwIpOspfThreadPriority
Specifies the run-time execution priority of the OSPF protocol thread. In order for a change of this value to take effect, OSPF or the IP routing services, or the device must be reset.
nwIpOspfCtrAdminStatus
Sets the operating condition of the aggregate (device-wide) OSPF packet and byte counters. enable (3) causes these counters to become active on any router ports running OSPF. disabled (2) cause these counters to become inactive on any router port running ...
nwIpOspfCtrReset
Resets the aggregate (device-wide) OSPF packet and byte counters. reset(2) resets the aggregate OSPF counters to 0 and nwIpOspfCtrOperationalTime to 0.
nwIpOspfCtrOperationalTime
Indicates the amount of time (# of time ticks) that the aggregate OSPF packet and byte counters have been active.
nwIpOspfCtrInPkts
Indicates the total number of OSPF packets that have been received, device-wide, during nwIpOspfCtrOperationalTime.
nwIpOspfCtrOutPkts
Indicates the total number of OSPF packets that have been transmitted, device-wide, during nwIpOspfCtr- Operational-Time.
nwIpOspfCtrFilteredPkts
Indicates the total number of OSPF packets that have been administratively filtered, device-wide, during nwIpOspfCtrOperationalTime.
nwIpOspfCtrDiscardPkts
Indicates the total number of OSPF packets that have been discarded, device-wide, during nwIpOspfCtrOperationalTime.
nwIpOspfCtrInBytes
Indicates the total number of bytes in the OSFP packets that have been received, device-wide, during nwIpOspfCtrOperationalTime.
nwIpOspfCtrOutBytes
Indicates the total number of bytes in the OSPF packets that have been transmitted, device-wide, during nwIpOspfCtrOperationalTime.
nwIpOspfCtrFilteredBytes
Indicates the total number of bytes in the OSPF packets that have been administratively filtered, device-wide, during nwIpOspfCtrOperationalTime.
nwIpOspfCtrDiscardBytes
Indicates the total number of bytes in the OSPF packets that have been discarded, during nwIpOspfCtrOperationalTime.
nwIpOspfIfTable
This table contains the OSPF configuration information for each IP router port
nwIpOspfIfEntry
Each entry specifies the OSPF configuration information for the IP router port for which the entry exists.
nwIpOspfIfIndex
This is the primary index into the OSPF interface table. This number corresponds to the index into the MIB-2 Interface Table which describes the router port for which the entry exists.
nwIpOspfIfAdminStatus
Sets the administrative state of OSPF on the IP router port for which the entry exists. enabled(3) causes OSPF to become active on the router port. disabled(2) causes OSPF to become inactive on the router port.
nwIpOspfIfOperStatus
Sets the administrative state of OSPF on the IP router port for which the entry exists. enabled(3) causes OSPF to become active on the router port. disabled(2) causes OSPF to become inactive on the router port.
nwIpOspfIfOperationalTime
Indicates the elapsed time, in hundredths of a second, that nwIpOspfIfAdminStatus has been in its current state.
nwIpOspfIfVersion
Indicates the OSPF protocol revision level supported on the router port.
nwIpOspfIfSnooping
Controls the operation of OSPF Snooping on the IP router port for which the entry exists.OSPF Snooping is operating OSPF in passive mode, so it receives route information, builds and maintains a route information table, but does not advertise. enable (3) ...
nwIpOspfIfType
Specifies whether the attached network segment does or does not support broadcast media access. bma (2) indicates that route advertisements can be sent as broadcasts. nbma (3) indicates that route advertisements must be addresses directly to each neighbor ...
nwIpOspfIfAclIdentifier
Specifies the Access Control List ID of the access control list applied to OSPF traffic on the IP router port for which the entry exists. A value of 0 indicates that no Access List applies.
nwIpOspfIfAclStatus
Controls the operation of the access list configured for OSPF traffic on the IP router port for which the entry exists. enabled(3) causes the access list to be applied. disabled(2) causes the access list not to be applied.
nwIpOspfIfCtrTable
This table contains the OSPF packet and byte counter for each configured OSPF router port.
nwIpOspfIfCtrEntry
Each entry specifies the OSPF packet and byte counter for for the router for which the entry exists.
nwIpOspfIfCtrIfIndex
This is the primary index into the OSPF interface counter table. This number corresponds to the index into the MIB-2 Interface Table which describes the router port for which the entry exists.
nwIpOspfIfCtrAdminStatus
Sets the administrative state of the OSPF packet and byte counters on the IP router port for which the entry exists. enabled(3) causes these counters to become active on the router port. disabled(2) turns these counters off.
nwIpOspfIfCtrReset
Resets the OSPF packet and byte counters on the router port for which the entry exists. reset (2) resets the interface-specific counters to 0 and nwIpOspfIfCtrOperationalTime to 0.
nwIpOspfIfCtrOperationalTime
Indicates the amount of time (# of time ticks) that the interface-specific OSPF packet and byte counters have been active on the router port for which the entry exists.
nwIpOspfIfCtrInPkts
Indicates the total number of OSPF packets that have been received, on the router port for which the entry exists, during nwIpOspfIfCtrOperationalTime.
nwIpOspfIfCtrOutPkts
Indicates the total number of OSPF packets that have been transmitted, on the router port for which the entry exists, during nwIpOspfIfCtrOperationalTime.
nwIpOspfIfCtrFilteredPkts
Indicates the total number of OSPF packets that have been administratively filtered, on the router port for which the entry exists, during nwIpOspfIfCtrOperationalTime.
nwIpOspfIfCtrDiscardPkts
Indicates the total number of OSPF packets that have been discarded, on the router port for which the entry exists, during nwIpOspfIfCtrOperationalTime.
nwIpOspfIfCtrInBytes
Indicates the total number of bytes in the OSPF packets that have been received, on the router port for which the entry exists, during nwIpOspfIfCtrOperationalTime.
nwIpOspfIfCtrOutBytes
Indicates the total number of bytes in the OSPF packets that have been transmitted, on the router port for which the entry exists, during nwIpOspfIfCtrOperationalTime.
nwIpOspfIfCtrFilteredBytes
Indicates the total number of bytes in the OSPF packets that have been administratively filtered, on the router port for which the entry exists, during nwIpOspfIfCtrOperationalTime
nwIpOspfIfCtrDiscardBytes
Indicates the total number of bytes in the OSPF packets that have been discarded, on the router port for which the entry exists, during nwIpOspfIfCtrOperationalTime.
nwIpRipRoutePriority
Specifies the route priority assigned to routes learned by the RIP routing protocol.
nwIpOSPFRoutePriority
Specifies the route priority assigned to routes learned by the OSPF routing protocol.
nwIpStaticRoutePriority
Specifies the route priority assigned to routes learned by statically configured routes..
nwIpOspfForward
The total number of valid Cabletron IP OSPF FIB entries to include static, dynamic, RIP and BGP4 type routes.
nwIpOspfLeakAllStaticRoutes
Add all static routes in the IP FIB to the Cabletron IP OSPF FIB for advertisement in OSPF routing protocol announcements.
nwIpOspfLeakAllRipRoutes
Add all RIP routes in the IP FIB to the Cabletron IP OSPF FIB for advertisement in OSPF routing protocol announcements.
nwIpOspfLeakAllBgp4Routes
Add all BGP4 routes in the IP FIB to the Cabletron IP OSPF FIB for advertisement in OSPF routing protocol announcements.
nwIpOspfStaticTable
A table of statically configured entries in the Cabletron IP OSPF FIB.
nwIpOspfStaticEntry
A list of information for each static entry in the Cabletron IP OSPF FIB.
nwIpOspfStaticDest
The network Address of a static route leaked from the IP FIB into the Cabletron IP OSPF FIB.
nwIpOspfStaticForwardMask
The network mask of a static route leaked from the IP FIB into the Cabletron IP OSPF FIB.
nwIpOspfStaticNextHop
The next hop address of a static route leaked from the IP FIB into the Cabletron IP OSPF FIB. A value of 0.0.0.0 indicates that packets for the external destination should be forwarded to the advertising router.
nwIpOspfStaticMetric
The Cabletron IP OSPF advertised cost of reaching the leaked static route.
nwIpOspfStaticMetricType
The Cabletron IP OSPF metric type to be advertised using OSPF: Autonomous System External type 1 (1) or Autonomous System External type 2 (2).
nwIpOspfStaticStatus
By setting this OID to inactive for a particular static route, the static route will be added to the IP OSPF FIB but not advertised. Setting this OID to active for a particular static route, the static route will be advertised by the OSPF router. By setti ...
nwIpHostsTimeToLive
Indicates the amount of time (number of minutes) that an entry can remain in the ARP cache.
nwIpHostsRetryCount
Indicates the maximum number of times IP Routing Services will retry each attempt to resolve a host address.
nwIpHostCtlTable
This table contains the control information for maintaining a cache of IP host addresses on each router port. Note that the of actual entries are maintained by the IP Address Translation Table (Net-to-Media) of MIB 2.
nwIpHostCtlEntry
Each entry contains the control information for maintaining the cache on each router port.
nwIpHostCtlIfIndex
Indicates the value of MIB 2 ifindex, which identifies the router port for which the entry exists.
nwIpHostCtlAdminStatus
This object does not apply to this protocol. It is a common object, inherited from the MIB framework used to provide a common management interface to all the Cabletron Routing Services protocol specific MIBS. Setting this object has no effect.
nwIpHostCtlOperStatus
Indicates the current operating condition of the IP Host Address cache on the router port for which the entry exists.
nwIpHostCtlOperationalTime
Indicates the elapsed time, in hundredths of a second, that nwIpHostCtlOperStatus has been in the current state.
nwIpHostCtlProtocol
Controls the operation of the ARP protocol on the router port for which the entry exists.
nwIpHostCtlSnooping
Controls ARP Snooping on the router port for which the entry exists. Given the ARP protocol is enabled, nwIpHostCtlProtocol=3, setting nwIpHostCtlIfSnooping to enabled (3) turns on ARP Snooping. When ARP Snooping is enabled the source IP and physical addr ...
nwIpHostCtlProxy
Controls the operations of Proxy ARP on the router port for which the entry exists. Given the ARP protocol is enabled, nwIpHostCtlProtocol=3, setting nwIpHostCtlProxy to enabled (3) turns on Proxy ARP. When Proxy ARP is enabled on a router port, and an AR ...
nwIpHostCtlCacheMax
Indicates the maximum number of entry slots the cache can consist of. nwIpHostCtlCacheMax cannot be set to less than 16. Setting this value does not allocate any memory for the cache.
nwIpHostCtlCacheSize
Indicates the current number of entry slots in the cache. The cache automatically resizes to accommodate all entries up to the maximum number of entries set by nwIpHostCtlCacheMax.
nwIpHostCtlNumStatics
Indicates the total number of static entries in the cache on the router port for which the entry exists. Static entries remain in the cache until they are administratively removed.
nwIpHostCtlNumDynamics
Indicates the number of dynamic entries in the cache on the router port for which the entry exists. Dynamic entries area added and aged out by the ARP protocol.
nwIpHostCtlCacheHits
Indicates the number of times an entry in the cache has been used to successfully provide the physical address required to forward an IP packet on the router port for which the entry exists.
nwIpHostCtlCacheMisses
Indicates the number of times the physical address required to forward an IP packet has not been found in the cache on the router port for which the entry exists.
nwIpHostMapTable
The Ip Address translation table used for mapping an IP address to physical address, framing, port and circuit identifier, if applicable.
nwIpHostMapEntry
Each entry contains one IpAddress to 'physical' address equivalence, including a circuit identifier if applicable. Also provided is the framing and port number required to converse with this host.
nwIpHostMapIfIndex
This is the primary (major) index into the HostMap table. This number corresponds to the index into the MIB-2 Interfaces Group which describes the IP router port for which the entry exists.
nwIpHostMapIpAddr
The IpAddress corresponding to the media-dependent 'physical' address and circuit identifier (if applic).
nwIpHostMapPhysAddr
The media-dependent 'physical' address. The value of this object is 0 for entries indicating native-wan(8) framing.
nwIpHostMapType
Setting this object to the value invalid(2) has the effect of invalidating the corresponding entry in the nwIpHostMapTable. That is, it effectively dissasociates the circuit identified with said entry from the mapping identified with said entry. It is an ...
nwIpHostMapCircuitID
The identifier for the virtual circuit present on the interface. On an interface configured for Frame Relay, this number is the DLCI for the IP Address at the end of the circuit. For non-WAN interfaces, the value of this object is zero.
nwIpHostMapFraming
Specifies the framing type required to converse with the host for which this entry exists.
nwIpHostMapPortNumber
The unique value for the logical port number. It's value ranges between 1 and a maximum value which is dependent on both the number of interfaces in the system and the number of circuits present on interfaces which are of WAN type.
nwIpAclValidEntries
Indicates the number of valid entries that exist in the access control list table.
nwIpAclTable
This table contains the access control list information for IP traffic. This table contains entries, each of which allows packet forwarding between source/destination pairs to be permitted or denied. The list is identified by the Access Control List ID. E ...
nwIpAclEntry
Each entry contains IP source/destination access information.
nwIpAclIdentifier
This is the primary (major) index into the IP access control list table. This value identifies the access control list by a unique identifier arbitrarily assigned by the user. All entries that have the same value for nwIpAclIdentifier belong to the same a ...
nwIpAclSequence
This is the secondary (minor) index into the IP access control list table. This number corresponds to a sequence number used to order multiple entries within the same access control list.
nwIpAclPermission
Specifies whether access is allowed or denied between the source and destination address pair. Note that source and destination are interchangeable when bi-directional control is selected. To remove an existing entry set nwIpAclPermission to invalid (2). ...
nwIpAclMatches
Indicates the number of matches on this entry that have resulted in the permit/deny access restriction being applied as part of the forwarding process.
nwIpAclDestAddress
Specifies the destination IP address used to compare for matches on the access control list.
nwIpAclDestMask
Specifies the mask to be applied to the destination address to determine the portion of the address used to compare for matches on the access control list. Only bits that are matching are used in the comparison. This allows for wild-carding and partial ma ...
nwIpAclSrcAddress
Specifies the source address used to compare for matches on the access control list.
nwIpAclSrcMask
Specifies the mask to be applied to the source address to determine the portion of the address to be used to compare for matches on the access control list. Only bits that are matching are used in the comparison. This allows for wild-carding and partial m ...
nwIpAclProtocol
Specifies the IP protocols checked to compare for matches on the access control list.
nwIpAclPortNumber
Specifies the port number used to compare for matches on the access control list. nwIpAclPortNumber only applies if nwIpAclProtocol is equal to 4 or 5, UDP or TCP nwIpAclPortNumber ranges from 0 to 65536. The value 0 is a wildcard which matches any port.
nwIpRedirectTable
This table contains an entry for each UDP port configured for UDP broadcast redirection.
nwIpRedirectEntry
Each entry contains the UDP port number of and IP Address to which UDP packets received as LAN broadcasts, should be redirected.
nwIpRedirectPort
This is the primary index into the UDP redirector table, identifying the UDP port number of the packets that will be redirected.
nwIpRedirectAddress
Sets the IP address to which the UDP broadcast packets matching the UDP redirect port value (nwIpRedirectPort) will be forwarded.
nwIpRedirectType
Set this object to enable or disable the redirector feature for the UDP port specified by nwIpRedirectAddress.
nwIpRedirectCount
Indicates how many UDP broadcast packets have been redirected, as specified by this entry.
nwIpEventAdminStatus
Sets the administrative state of IP event logging. enabled(3) causes the event log to become active. disabled(2) causes the event log to become inactive.
nwIpEventMaxEntries
Sets the administrative state of IP event logging. Enabled (3) causes the event log to become active. Disabled (2) causes the event log to become inactive.
nwIpEventTraceAll
Enabled (3) allows logging of all event types on all router ports for all protocols and components. Disabled (2) causes the filter table to specify which events to log.
nwIpEventFilterTable
This table contains an entry for each event filter configured for IP Routing Services events.
nwIpEventFilterEntry
Each entry describes an event filter which defines a particular type of event to be logged to the event log. The value of nwIpEventProtocol indicates the value used in either the nwRtgProtocolTable or the nwComponentTable in the Cabletron Routing Services ...
nwIpEventFltrProtocol
Indicates the value of the Cabletron Routing Services MIB nwRtgProtocolInstance or nwComponentRtgInstance which identifies the protocol involved in the event for which the event filter exists.
nwIpEventFltrIfNum
Specifies the router port involved in the event for which the event filter exists.
nwIpEventFltrControl
Set this value to 3 to add the entry to the event filter table. Set this value to 2 to remove the entry from the event filter table.
nwIpEventFltrType
This 6 bit mask specifies the types of events to be logged. By default all 6 bits are set to 1, indicating that all types of events are to be logged. Setting any bit to 0 removes an event type from this field and prevents that type of event from being log ...
nwIpEventFltrSeverity
Specifies the level of severity an event must meet in order to be logged. Controls the amount of event logging by ignoring events of a lower priority than specified by this filter value. `Highmed' ignores only events of the lowest severity. `Highlow' logs ...
nwIpEventFltrAction
Specifies how the events are to be logged. Logging to the `log' stores the events in the event log table (nwIpEventFltrAction). Logging to `trap' sends events out through the trap mechanism.
nwIpEventTable
This table contains an entry for each event that has been logged.
nwIpEventEntry
Each entry contains the information about an event that has been logged to the event table.
nwIpEventNumber
An ordinal value assigned to the event for which the log entry exists. nwIpEventNumber is assigned so that each event in the event log can be uniquely identified by the value of nwIpEventNumber.
nwIpEventTime
Indicates the time at which the event was logged to the event log.
nwIpEventType
Indicates the type of event that was logged.
nwIpEventSeverity
Indicates the severity that was assigned to the event.
nwIpEventProtocol
Indicates the value of the Cabletron Routing Services MIB nwRtgProtocolInstance or nwComponentInstance which indentifies the protocol or component that was involved in the event.
nwIpEventIfNum
Indicates the router port that was involved in the event.
nwIpEventTextString
Contains the actual text string that was logged.
nwIpWgDefTable
This table has an entry for each workgroup subnet definition. It is indexed by and arbitrary integer indentifier.
nwIpWgDefEntry
Each entry specifies the configuration and status of an individual work group.
nwIpWgDefIdentifier
An index into the definition table, unique to each entry, arbitrarily assigned by the user.
nwIpWgDefHostAddress
The IP address of the IP router host which applies to every interface included in the workgroup.
nwIpWgDefSubnetMask
The subnet mask for the IP address above, thereby defining the subnet which applies to every interface included in the workgroup.
nwIpWgDefSecurity
A security level which applies to this workgroup as a whole. Security applies in conjunction with the range table below, which locks hosts to interfaces and/or physical address. Packets are filtered out if security is violated. For a high (4) security wor ...
nwIpWgDefFastPath
Enabled (3) provides a fast path for packets through the router when both source and destination are within this workgroup - done mostly by skipping IP header validation.
nwIpWgDefRowStatus
This status instance does not support `createAndGo.' A row entry should be created by a set of `createAndWait' which brings the status to `notReady.' The missing row info may then be supplied by setting nwIpWgDefHostAddr and nwIpWgDefSubnetMask. If defaul ...
nwIpWgDefOperStatus
The operational status of this workgroup definition entry. It will be `disabled' if this entry's row status is not active. It will be `subnetConflict' if there is a conflict with an existing active entry in this workgroup definition table.
nwIpWgDefNumActiveIntf
The number of interfaces (ports) in this workgroup which have an operational status nwIpWgIfOperStatus of `OK' in the IP Work Group Interface table below.
nwIpWgDefNumTotalIntf
The number of interfaces (ports) in this workgroup which have an administrative status nwIpWgIfRowStatus of `active' in the IP Work Group Interface table below.
nwIpWgIfTable
This table contains an entry for each port in a workgroup. It is indexed by the workgroup identifier and the MIB-II interface indentifier.
nwIpWgIfEntry
Each entry specifies the association of a router port to a defined workgroup.
nwIpWgIfDefIdent
The workgroup identifier. This is the primary index into the IP Work Group Interface Table, matching the index into the Definition Table above.
nwIpWgIfIfIndex
The interface number. This is the secondary index into the IP Work Group Interface Table, matching the primary index into the MIB-2 IfTable which describes the router port.
nwIpWgIfNumActiveHosts
The number of hosts known to be active on this interface in this workgroup. These hosts are visible in the IP Work Group Host Table below. Hosts age out and become inactive in approximately 10 minutes if not rediscovered thrugh ARP.
nwIpWgIfNumKnownHosts
The number of hosts seen on this interface in this workgroup since this interface entry was last activated.
nwIpWgIfRowStatus
This status instance supports `createAndGo' semantics to create an active entry.
nwIpWgIfOperStatus
The operational status of this interface (port) entry. It will be `disabled' if this entry's row status is not active. It will be `workgroupInvalid' if either there is no workgroup defined for this entry's nwIpWgIfDefIdent or if the operational status for ...
nwIpWgRngTable
This table locks ranges of IP hosts (addresses) to ports. Entries in this table represent explicit permissions. The host(s) represented by a range entry may exchange packets with this router if it (they) match the port specified in the entry. Optionally p ...
nwIpWgRngEntry
Each entry configures a range of host IP addresses to be associated with a given interface ( port ). If the range consists of a single host address the entry may optionally specify a physical address. The entry is indexed by the range and the port. Ranges ...
nwIpWgRngBegHostAddr
The beginning (lower) IP address of the address range. This is the primary index into the IP Work Group Range Table.
nwIpWgRngEndHostAddr
The ending (higher) IP address of the address range. This is the secondary index of the IP Work Group Range Table.
nwIpWgRngIfIndex
The interface number. This is the tertiary index into the IP Work Group Interface Table, matching the primary index into the MIB-2 IfTable which describes the router port.
nwIpWgRngPhysAddr
The physical address of the host with the IP address given in the nwIpWgRngBegHostAddr for this conceptual row entry. Only single host range entry in which nwIpWgRngEndHostAddr is the same as nwIpWgRngBegHostAddr may set a physical address.
nwIpWgRngRowStatus
This status instance supports `createAndGo' semantics to create an active entry.
nwIpWgRngOperStatus
The operational status of this range table entry. It will be `disabled' if this entry's row status is not active. It will be `workgroupInvalid' if either there is no workgroup or if the operational status for the workgroup in the definition table associat ...
nwIpWgHostTable
A read only status table for hosts in workgroups. It has the information similar to a net-to-media table.
nwIpWgHostEntry
Each entry shows a workgroup host. Entry is indexed by IP address and interface (port). It gives the workgroup and the physical address found for the host.
nwIpWgHostHostAddr
The host IP address. This is the primary index to the IP Work Group Host Table.
nwIpWgHostIfIndex
The interface (port) number. This is the secondary index to the IP Work Group Host Table, matching the primary index to the MIB-2 IfTable which describes the router port.
nwIpWgHostDefIdent
The workgroup identifier. This corresponds to the primary index into the IP Work Group Interface Table.
nwIpWgHostPhysAddr
The physical address of the host with the IP address given in the nwIpWgHostHostAddr for this conceptual row entry.
nwIpWgHostStatus
This status of the host with respect to the workgroup. The host may be `unknown' if ARP has not discovered on which port it resides. The status of `invalid-multiple' means the same host IP address was later found duplicated on another port. The status of ...

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