DOT12-RPTR-MIB device MIB details by RFC
DOT12-RPTR-MIB file content
The SNMP protocol is used to for conveying information and commands between agents and managing entities. SNMP uses the User Datagram Protocol (UDP) as the transport protocol for passing data between managers and agents. The reasons for using UDP for SNMP are, firstly it has low overheads in comparison to TCP, which uses a 3-way hand shake for connection. Secondly, in congested networks, SNMP over TCP is a bad idea because TCP in order to maintain reliability will flood the network with retransmissions.
Management information (MIB) is represented as a collection of managed objects. These objects together form a virtual information base called MIB. An agent may implement many MIBs, but all agents must implement a particular MIB called MIB-II [16]. This standard defines variables for things such as interface statistics (interface speeds, MTU, octets sent, octets received, etc.) as well as various other things pertaining to the system itself (system location, system contact, etc.). The main goal of MIB-II is to provide general TCP/IP management information.
Use ActiveXperts Network Monitor 2024 to import vendor-specific MIB files, inclusing DOT12-RPTR-MIB.
Vendor: | RFC |
---|---|
Mib: | DOT12-RPTR-MIB [download] [view objects] |
Tool: | ActiveXperts Network Monitor 2024 [download] (ships with advanced SNMP/MIB tools) |
-- WinAgents MIB Extraction Wizard -- Extracted from rfc2266.txt 16.03.2005 20:21:46 DOT12-RPTR-MIB DEFINITIONS ::= BEGIN IMPORTS mib-2, Integer32, Counter32, Counter64, OBJECT-TYPE, MODULE-IDENTITY, NOTIFICATION-TYPE FROM SNMPv2-SMI MacAddress, TruthValue, TimeStamp FROM SNMPv2-TC MODULE-COMPLIANCE, OBJECT-GROUP, NOTIFICATION-GROUP FROM SNMPv2-CONF; vgRptrMIB MODULE-IDENTITY LAST-UPDATED "9705192256Z" -- May 19, 1997 ORGANIZATION "IETF 100VG-AnyLAN Working Group" CONTACT-INFO "WG E-mail: vgmib@hprnd.rose.hp.com Chair: Jeff Johnson Postal: RedBack Networks 2570 North First Street, Suite 410 San Jose, CA 95131 Tel: +1 408 571 2699 Fax: +1 408 571 2698 E-mail: jeff@redbacknetworks.com Editor: John Flick Postal: Hewlett Packard Company 8000 Foothills Blvd. M/S 5556 Roseville, CA 95747-5556 Tel: +1 916 785 4018 Fax: +1 916 785 3583 E-mail: johnf@hprnd.rose.hp.com" DESCRIPTION "This MIB module describes objects for managing IEEE 802.12 repeaters." ::= { mib-2 53 } vgRptrObjects OBJECT IDENTIFIER ::= { vgRptrMIB 1 } vgRptrBasic OBJECT IDENTIFIER ::= { vgRptrObjects 1 } vgRptrBasicRptr OBJECT IDENTIFIER ::= { vgRptrBasic 1 } vgRptrInfoTable OBJECT-TYPE SYNTAX SEQUENCE OF VgRptrInfoEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "A table of information about each 802.12 repeater in the managed system." ::= { vgRptrBasicRptr 1 } vgRptrInfoEntry OBJECT-TYPE SYNTAX VgRptrInfoEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "An entry in the table, containing information about a single repeater." INDEX { vgRptrInfoIndex } ::= { vgRptrInfoTable 1 } VgRptrInfoEntry ::= SEQUENCE { vgRptrInfoIndex Integer32, vgRptrInfoMACAddress MacAddress, vgRptrInfoCurrentFramingType INTEGER, vgRptrInfoDesiredFramingType INTEGER, vgRptrInfoFramingCapability INTEGER, vgRptrInfoTrainingVersion INTEGER, vgRptrInfoOperStatus INTEGER, vgRptrInfoReset INTEGER, vgRptrInfoLastChange TimeStamp } vgRptrInfoIndex OBJECT-TYPE SYNTAX Integer32 (1..2147483647) MAX-ACCESS not-accessible STATUS current DESCRIPTION "A unique identifier for the repeater for which this entry contains information. The numbering scheme for repeaters is implementation specific." REFERENCE "IEEE Standard 802.12-1995, 13.2.4.2.1, aRepeaterID." ::= { vgRptrInfoEntry 1 } vgRptrInfoMACAddress OBJECT-TYPE SYNTAX MacAddress MAX-ACCESS read-only STATUS current DESCRIPTION "The MAC address used by the repeater when it initiates training on the uplink port. Repeaters are allowed to train with an assigned MAC address or a null (all zeroes) MAC address." REFERENCE "IEEE Standard 802.12-1995, 13.2.4.2.1, aMACAddress." ::= { vgRptrInfoEntry 2 } vgRptrInfoCurrentFramingType OBJECT-TYPE SYNTAX INTEGER { frameType88023(1), frameType88025(2) } MAX-ACCESS read-only STATUS current DESCRIPTION "The type of framing (802.3 or 802.5) currently in use by the repeater." REFERENCE "IEEE Standard 802.12-1995, 13.2.4.2.1, aCurrentFramingType." ::= { vgRptrInfoEntry 3 } vgRptrInfoDesiredFramingType OBJECT-TYPE SYNTAX INTEGER { frameType88023(1), frameType88025(2) } MAX-ACCESS read-write STATUS current DESCRIPTION "The type of framing which will be used by the repeater after the next time it is reset. The value of this object should be preserved across repeater resets and power failures." REFERENCE "IEEE Standard 802.12-1995, 13.2.4.2.1, aDesiredFramingType." ::= { vgRptrInfoEntry 4 } vgRptrInfoFramingCapability OBJECT-TYPE SYNTAX INTEGER { frameType88023(1), frameType88025(2), frameTypeEither(3) } MAX-ACCESS read-only STATUS current DESCRIPTION "The type of framing this repeater is capable of supporting." REFERENCE "IEEE Standard 802.12-1995, 13.2.4.2.1, aFramingCapability." ::= { vgRptrInfoEntry 5 } vgRptrInfoTrainingVersion OBJECT-TYPE SYNTAX INTEGER (0..7) MAX-ACCESS read-only STATUS current DESCRIPTION "The highest version bits (vvv bits) supported by the repeater during training." REFERENCE "IEEE Standard 802.12-1995, 13.2.4.2.1, aRMACVersion." ::= { vgRptrInfoEntry 6 } vgRptrInfoOperStatus OBJECT-TYPE SYNTAX INTEGER { other(1), ok(2), generalFailure(3) } MAX-ACCESS read-only STATUS current DESCRIPTION "The vgRptrInfoOperStatus object indicates the operational state of the repeater." REFERENCE "IEEE Standard 802.12-1995, 13.2.4.2.1, aRepeaterHealthState." ::= { vgRptrInfoEntry 7 } vgRptrInfoReset OBJECT-TYPE SYNTAX INTEGER { noReset(1), reset(2) } MAX-ACCESS read-write STATUS current DESCRIPTION "Setting this object to reset(2) causes the repeater to transition to its initial state as specified in clause 12 [IEEE Std 802.12]. Setting this object to noReset(1) has no effect. The agent will always return the value noReset(1) when this object is read. After receiving a request to set this variable to reset(2), the agent is allowed to delay the reset for a short period. For example, the implementor may choose to delay the reset long enough to allow the SNMP response to be transmitted. In any event, the SNMP response must be transmitted. This action does not reset the management counters defined in this document nor does it affect the vgRptrPortAdminStatus parameters. Included in this action is the execution of a disruptive Self-Test with the following characteristics: 1) The nature of the tests is not specified. 2) The test resets the repeater but without affecting configurable management information about the repeater. 3) Packets received during the test may or may not be transferred. 4) The test does not interfere with management functions. After performing this self-test, the agent will update the repeater health information (including vgRptrInfoOperStatus), and send a vgRptrResetEvent." REFERENCE "IEEE Standard 802.12-1995, 13.2.4.2.2, acResetRepeater." ::= { vgRptrInfoEntry 8 } vgRptrInfoLastChange OBJECT-TYPE SYNTAX TimeStamp MAX-ACCESS read-only STATUS current DESCRIPTION "The value of sysUpTime when any of the following conditions occurred: 1) agent cold- or warm-started; 2) this instance of repeater was created (such as when a device or module was added to the system); 3) a change in the value of vgRptrInfoOperStatus; 4) ports were added or removed as members of the repeater; or 5) any of the counters associated with this repeater had a discontinuity." ::= { vgRptrInfoEntry 9 } vgRptrBasicGroup OBJECT IDENTIFIER ::= { vgRptrBasic 2 } vgRptrBasicGroupTable OBJECT-TYPE SYNTAX SEQUENCE OF VgRptrBasicGroupEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "A table containing information about groups of ports." ::= { vgRptrBasicGroup 1 } vgRptrBasicGroupEntry OBJECT-TYPE SYNTAX VgRptrBasicGroupEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "An entry in the vgRptrBasicGroupTable, containing information about a single group of ports." INDEX { vgRptrGroupIndex } ::= { vgRptrBasicGroupTable 1 } VgRptrBasicGroupEntry ::= SEQUENCE { vgRptrGroupIndex Integer32, vgRptrGroupObjectID OBJECT IDENTIFIER, vgRptrGroupOperStatus INTEGER, vgRptrGroupPortCapacity Integer32, vgRptrGroupCablesBundled INTEGER } vgRptrGroupIndex OBJECT-TYPE SYNTAX Integer32 (1..2146483647) MAX-ACCESS not-accessible STATUS current DESCRIPTION "This object identifies the group within the system for which this entry contains information. The numbering scheme for groups is implementation specific." REFERENCE "IEEE Standard 802.12-1995, 13.2.4.4.1, aGroupID." ::= { vgRptrBasicGroupEntry 1 } vgRptrGroupObjectID OBJECT-TYPE SYNTAX OBJECT IDENTIFIER MAX-ACCESS read-only STATUS current DESCRIPTION "The vendor's authoritative identification of the group. This value may be allocated within the SMI enterprises subtree (1.3.6.1.4.1) and provides a straight-forward and unambiguous means for determining what kind of group is being managed. For example, this object could take the value 1.3.6.1.4.1.4242.1.2.14 if vendor 'Flintstones, Inc.' was assigned the subtree 1.3.6.1.4.1.4242, and had assigned the identifier 1.3.6.1.4.1.4242.1.2.14 to its 'Wilma Flintstone 6-Port Plug-in Module.'" ::= { vgRptrBasicGroupEntry 2 } vgRptrGroupOperStatus OBJECT-TYPE SYNTAX INTEGER { other(1), operational(2), malfunctioning(3), notPresent(4), underTest(5), resetInProgress(6) } MAX-ACCESS read-only STATUS current DESCRIPTION "An object that indicates the operational status of the group. A status of notPresent(4) indicates that the group is temporarily or permanently physically and/or logically not a part of the system. It is an implementation-specific matter as to whether the agent effectively removes notPresent entries from the table. A status of operational(2) indicates that the group is functioning, and a status of malfunctioning(3) indicates that the group is malfunctioning in some way." ::= { vgRptrBasicGroupEntry 3 } vgRptrGroupPortCapacity OBJECT-TYPE SYNTAX Integer32 (1..2146483647) MAX-ACCESS read-only STATUS current DESCRIPTION "The vgRptrGroupPortCapacity is the number of ports that can be contained within the group. Valid range is 1-2147483647. Within each group, the ports are uniquely numbered in the range from 1 to vgRptrGroupPortCapacity. Some ports may not be present in the system, in which case the actual number of ports present will be less than the value of vgRptrGroupPortCapacity. The number of ports present is never greater than the value of vgRptrGroupPortCapacity. Note: In practice, this will generally be the number of ports on a module, card, or board, and the port numbers will correspond to numbers marked on the physical embodiment." REFERENCE "IEEE Standard 802.12-1995, 13.2.4.4.1, aGroupPortCapacity." ::= { vgRptrBasicGroupEntry 4 } vgRptrGroupCablesBundled OBJECT-TYPE SYNTAX INTEGER { someCablesBundled(1), noCablesBundled(2) } MAX-ACCESS read-write STATUS current DESCRIPTION "This object is used to indicate whether there are any four-pair UTP links connected to this group that are contained in a cable bundle with multiple four-pair groups (e.g. a 25-pair bundle). Bundled cable may only be used for repeater-to-end node links where the end node is not in promiscuous mode. When a broadcast or multicast packet is received from a port on this group that is not a promiscuous or cascaded port, the packet will be buffered completely before being repeated if this object is set to 'someCablesBundled(1)'. When this object is equal to 'noCablesBundled(2)', all packets received from ports on this group will be repeated as the frame is being received. Note that the value 'someCablesBundled(1)' will work in the vast majority of all installations, regardless of whether or not any cables are physically in a bundle, since packets received from promiscuous and cascaded ports automatically avoid the store and forward. The main situation in which 'noCablesBundled(2)' is beneficial is when there is a large amount of multicast traffic and the cables are not in a bundle. The value of this object should be preserved across repeater resets and power failures." REFERENCE "IEEE Standard 802.12-1995, 13.2.4.4.1, aGroupCablesBundled." ::= { vgRptrBasicGroupEntry 5 } vgRptrBasicPort OBJECT IDENTIFIER ::= { vgRptrBasic 3 } vgRptrBasicPortTable OBJECT-TYPE SYNTAX SEQUENCE OF VgRptrBasicPortEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "A table containing configuration and status information about 802.12 repeater ports in the system. The number of entries is independent of the number of repeaters in the managed system." ::= { vgRptrBasicPort 1 } vgRptrBasicPortEntry OBJECT-TYPE SYNTAX VgRptrBasicPortEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "An entry in the vgRptrBasicPortTable, containing information about a single port." INDEX { vgRptrGroupIndex, vgRptrPortIndex } ::= { vgRptrBasicPortTable 1 } VgRptrBasicPortEntry ::= SEQUENCE { vgRptrPortIndex Integer32, vgRptrPortType INTEGER, vgRptrPortAdminStatus INTEGER, vgRptrPortOperStatus INTEGER, vgRptrPortSupportedPromiscMode INTEGER, vgRptrPortSupportedCascadeMode INTEGER, vgRptrPortAllowedTrainType INTEGER, vgRptrPortLastTrainConfig OCTET STRING, vgRptrPortTrainingResult OCTET STRING, vgRptrPortPriorityEnable TruthValue, vgRptrPortRptrInfoIndex Integer32 } vgRptrPortIndex OBJECT-TYPE SYNTAX Integer32 (1..2147483647) MAX-ACCESS not-accessible STATUS current DESCRIPTION "This object identifies the port within the group for which this entry contains information. This identifies the port independently from the repeater it may be attached to. The numbering scheme for ports is implementation specific; however, this value can never be greater than vgRptrGroupPortCapacity for the associated group." REFERENCE "IEEE Standard 802.12-1995, 13.2.4.5.1, aPortID." ::= { vgRptrBasicPortEntry 1 } vgRptrPortType OBJECT-TYPE SYNTAX INTEGER { cascadeExternal(1), cascadeInternal(2), localExternal(3), localInternal(4) } MAX-ACCESS read-only STATUS current DESCRIPTION "Describes the type of port. One of the following: cascadeExternal - Port is an uplink with physical connections which are externally visible cascadeInternal - Port is an uplink with physical connections which are not externally visible, such as a connection to an internal backplane in a chassis localExternal - Port is a downlink or local port with externally visible connections localInternal - Port is a downlink or local port with connections which are not externally visible, such as a connection to an internal agent 'internal' is used to identify ports which place traffic into the repeater, but do not have any external connections. Note that both DTE and cascaded repeater downlinks are considered 'local' ports." REFERENCE "IEEE Standard 802.12-1995, 13.2.4.5.1, aPortType." ::= { vgRptrBasicPortEntry 2 } vgRptrPortAdminStatus OBJECT-TYPE SYNTAX INTEGER { enabled(1), disabled(2) } MAX-ACCESS read-write STATUS current DESCRIPTION "Port enable/disable function. Enabling a disabled port will cause training to be initiated by the training initiator (the slave mode device) on the link. Setting this object to disabled(2) disables the port. A disabled port neither transmits nor receives. Once disabled, a port must be explicitly enabled to restore operation. A port which is disabled when power is lost or when a reset is exerted shall remain disabled when normal operation resumes. The value of this object should be preserved across repeater resets and power failures." REFERENCE "IEEE Standard 802.12-1995, 13.2.4.5.1, aPortAdministrativeState." ::= { vgRptrBasicPortEntry 3 } vgRptrPortOperStatus OBJECT-TYPE SYNTAX INTEGER { active(1), inactive(2), training(3) } MAX-ACCESS read-only STATUS current DESCRIPTION "Current status for the port as specified by the PORT_META_STATE in the port process module of clause 12 [IEEE Std 802.12]. During initialization or any link warning conditions, vgRptrPortStatus will be 'inactive(2)'. When Training_Up is received by the repeater on a local port (or when Training_Down is received on a cascade port), vgRptrPortStatus will change to 'training(3)' and vgRptrTrainingResult can be monitored to see the detailed status regarding training. When 24 consecutive good FCS packets are exchanged and the configuration bits are OK, vgRptrPortStatus will change to 'active(1)'. A disabled port shall have a port status of 'inactive(2)'." REFERENCE "IEEE Standard 802.12, 13.2.4.5.1, aPortStatus." ::= { vgRptrBasicPortEntry 4 } vgRptrPortSupportedPromiscMode OBJECT-TYPE SYNTAX INTEGER { singleModeOnly(1), singleOrPromiscMode(2), promiscModeOnly(3) } MAX-ACCESS read-only STATUS current DESCRIPTION "This object describes whether the port hardware is capable of supporting promiscuous mode, single address mode (i.e., repeater filters unicasts not addressed to the end station attached to this port), or both. A port for which vgRptrPortType is equal to 'cascadeInternal' or 'cascadeExternal' will always have a value of 'promiscModeOnly' for this object." REFERENCE "IEEE Standard 802.12-1995, 13.2.4.5.1, aSupportedPromiscMode." ::= { vgRptrBasicPortEntry 5 } vgRptrPortSupportedCascadeMode OBJECT-TYPE SYNTAX INTEGER { endNodesOnly(1), endNodesOrRepeaters(2), cascadePort(3) } MAX-ACCESS read-only STATUS current DESCRIPTION "This object describes whether the port hardware is capable of supporting cascaded repeaters, end nodes, or both. A port for which vgRptrPortType is equal to 'cascadeInternal' or 'cascadeExternal' will always have a value of 'cascadePort' for this object." REFERENCE "IEEE Standard 802.12-1995, 13.2.4.5.1, aSupportedCascadeMode." ::= { vgRptrBasicPortEntry 6 } vgRptrPortAllowedTrainType OBJECT-TYPE SYNTAX INTEGER { allowEndNodesOnly(1), allowPromiscuousEndNodes(2), allowEndNodesOrRepeaters(3), allowAnything(4) } MAX-ACCESS read-write STATUS current DESCRIPTION "This security object is set by the network manager to configure what type of device is permitted to connect to the port. One of the following values: allowEndNodesOnly - only non- promiscuous end nodes permitted. allowPromiscuousEndNodes - promiscuous or non-promiscuous end nodes permitted allowEndNodesOrRepeaters - repeaters or non- promiscuous end nodes permitted allowAnything - repeaters, promiscuous or non-promiscuous end nodes permitted For a port for which vgRptrPortType is equal to 'cascadeInternal' or 'cascadeExternal', the corresponding instance of this object may not be set to 'allowEndNodesOnly' or 'allowPromiscuousEndNodes'. The agent must reject a SET of this object if the value includes no capabilities that are supported by this port's hardware, as defined by the values of the corresponding instances of vgRptrPortSupportedPromiscMode and vgRptrPortSupportedCascadeMode. Note that vgRptrPortSupportPromiscMode and vgRptrPortSupportedCascadeMode represent what the port hardware is capable of supporting. vgRptrPortAllowedTrainType is used for setting an administrative policy for a port. The actual set of training configurations that will be allowed to succeed on a port is the intersection of what the hardware will support and what is administratively allowed. The above requirement on what values may be set to this object says that the intersection of what is supported and what is allowed must be non-empty. In other words, it must not result in a situation in which nothing would be allowed to train on that port. However, a value can be set to this object as long as the combination of this object and what is supported by the hardware would still leave at least one configuration that could successfully train on the port. The value of this object should be preserved across repeater resets and power failures." REFERENCE "IEEE Standard 802.12-1995, 13.2.4.5.1, aAllowableTrainingType." ::= { vgRptrBasicPortEntry 7 } vgRptrPortLastTrainConfig OBJECT-TYPE SYNTAX OCTET STRING (SIZE(2)) MAX-ACCESS read-only STATUS current DESCRIPTION "This object is a 16 bit field. For local ports, this object contains the requested configuration field from the most recent error-free training request frame sent by the device connected to the port. For cascade ports, this object contains the responder's allowed configuration field from the most recent error-free training response frame received in response to training initiated by this repeater. The format of the current version of this field is described in section 3.2. Please refer to the most recent version of the IEEE 802.12 standard for the most up-to-date definition of the format of this object." REFERENCE "IEEE Standard 802.12-1995, 13.2.4.5.1, aLastTrainingConfig." ::= { vgRptrBasicPortEntry 8 } vgRptrPortTrainingResult OBJECT-TYPE SYNTAX OCTET STRING (SIZE(3)) MAX-ACCESS read-only STATUS current DESCRIPTION "This 18 bit field is used to indicate the result of training. It contains two bits which indicate if error-free training frames have been received, and it also contains the 16 bits of the allowed configuration field from the most recent error-free training response frame on the port. First Octet: Second and Third Octets: 7 6 5 4 3 2 1 0 +-+-+-+-+-+-+-+-+-----------------------------+ |0|0|0|0|0|0|V|G| allowed configuration field | +-+-+-+-+-+-+-+-+-----------------------------+ V: Valid: set when at least one error-free training frame has been received. Indicates the 16 training configuration bits in vgRptrPortLastTrainConfig and vgRptrPortTrainingResult contain valid information. This bit is cleared when vgRptrPortStatus transitions to the 'inactive' or 'training' state. G: LinkGood: indicates the link hardware is OK. Set if 24 consecutive error-free training packets have been exchanged. Cleared when a training packet with errors is received, or when vgRptrPortStatus transitions to the 'inactive' or 'training' state. The format of the current version of the allowed configuration field is described in section 3.2. Please refer to the most recent version of the IEEE 802.12 standard for the most up-to-date definition of the format of this field. If the port is in training, a management station can examine this object to see if any training packets have been passed successfully. If there have been any good training packets, the Valid bit will be set and the management station can examine the allowed configuration field to see if there is a duplicate address, configuration, or security problem. Note that on a repeater local port, this repeater generates the training response bits, while on a cascade port, the device at the upper end of the link originated the training response bits." REFERENCE "IEEE Standard 802.12-1995, 13.2.4.5.1, aTrainingResult." ::= { vgRptrBasicPortEntry 9 } vgRptrPortPriorityEnable OBJECT-TYPE SYNTAX TruthValue MAX-ACCESS read-write STATUS current DESCRIPTION "A configuration flag used to determine whether the repeater will service high priority requests received on the port as high priority or normal priority. When 'false', high priority requests on this port will be serviced as normal priority. The setting of this object has no effect on a cascade port. Also note that the setting of this object has no effect on a port connected to a cascaded repeater. In both of these cases, this setting is treated as always 'true'. The value 'false' only has an effect when the port is a localInternal or localExternal port connected to an end node. The value of this object should be preserved across repeater resets and power failures." REFERENCE "IEEE Standard 802.12-1995, 13.2.4.5.1, aPriorityEnable." ::= { vgRptrBasicPortEntry 10 } vgRptrPortRptrInfoIndex OBJECT-TYPE SYNTAX Integer32 (0..2147483647) MAX-ACCESS read-only STATUS current DESCRIPTION "This object identifies the repeater that this port is currently mapped to. The repeater identified by a particular value of this object is the same as that identified by the same value of vgRptrInfoIndex. A value of zero indicates that this port is not currently mapped to any repeater." ::= { vgRptrBasicPortEntry 11 } vgRptrMonitor OBJECT IDENTIFIER ::= { vgRptrObjects 2 } vgRptrMonRepeater OBJECT IDENTIFIER ::= { vgRptrMonitor 1 } vgRptrMonitorTable OBJECT-TYPE SYNTAX SEQUENCE OF VgRptrMonitorEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "A table of performance and error statistics for each repeater in the system. The instance of the vgRptrInfoLastChange associated with a repeater is used to indicate possible discontinuities of the counters in this table that are associated with the same repeater." ::= { vgRptrMonRepeater 1 } vgRptrMonitorEntry OBJECT-TYPE SYNTAX VgRptrMonitorEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "An entry in the table, containing statistics for a single repeater." INDEX { vgRptrInfoIndex } ::= { vgRptrMonitorTable 1 } VgRptrMonitorEntry ::= SEQUENCE { vgRptrMonTotalReadableFrames Counter32, vgRptrMonTotalReadableOctets Counter32, vgRptrMonReadableOctetRollovers Counter32, vgRptrMonHCTotalReadableOctets Counter64, vgRptrMonTotalErrors Counter32 } vgRptrMonTotalReadableFrames OBJECT-TYPE SYNTAX Counter32 MAX-ACCESS read-only STATUS current DESCRIPTION "The total number of good frames of valid frame length that have been received on all ports in this repeater. If an implementation cannot obtain a count of frames as seen by the repeater itself, this counter may be implemented as the summation of the values of the vgRptrPortReadableFrames counters for all of the ports in this repeater. This counter may experience a discontinuity when the value of the corresponding instance of vgRptrInfoLastChange changes." ::= { vgRptrMonitorEntry 1 } vgRptrMonTotalReadableOctets OBJECT-TYPE SYNTAX Counter32 MAX-ACCESS read-only STATUS current DESCRIPTION "The total number of octets contained in good frames that have been received on all ports in this repeater. If an implementation cannot obtain a count of octets as seen by the repeater itself, this counter may be implemented as the summation of the values of the vgRptrPortReadableOctets counters for all of the ports in this repeater. Note that this counter can roll over very quickly. A management station is advised to also poll the vgRptrReadableOctetRollovers object, or to use the 64-bit counter defined by vgRptrMonHCTotalReadableOctets instead of the two 32-bit counters. This two-counter mechanism is provided for those network management protocols that do not support 64-bit counters (e.g. SNMPv1). Note that retrieval of these two counters in the same PDU is NOT guaranteed to be atomic. This counter may experience a discontinuity when the value of the corresponding instance of vgRptrInfoLastChange changes." ::= { vgRptrMonitorEntry 2 } vgRptrMonReadableOctetRollovers OBJECT-TYPE SYNTAX Counter32 MAX-ACCESS read-only STATUS current DESCRIPTION "The total number of times that the associated instance of the vgRptrMonTotalReadableOctets counter has rolled over. This two-counter mechanism is provided for those network management protocols that do not support 64-bit counters (e.g. SNMPv1). Note that retrieval of these two counters in the same PDU is NOT guaranteed to be atomic. This counter may experience a discontinuity when the value of the corresponding instance of vgRptrInfoLastChange changes." ::= { vgRptrMonitorEntry 3 } vgRptrMonHCTotalReadableOctets OBJECT-TYPE SYNTAX Counter64 MAX-ACCESS read-only STATUS current DESCRIPTION "The total number of octets contained in good frames that have been received on all ports in this repeater. If an implementation cannot obtain a count of octets as seen by the repeater itself, this counter may be implemented as the summation of the values of the vgRptrPortHCReadableOctets counters for all of the ports in this repeater. This counter is a 64 bit version of vgRptrMonTotalReadableOctets. It should be used by Network Management protocols which support 64 bit counters (e.g. SNMPv2). This counter may experience a discontinuity when the value of the corresponding instance of vgRptrInfoLastChange changes." ::= { vgRptrMonitorEntry 4 } vgRptrMonTotalErrors OBJECT-TYPE SYNTAX Counter32 MAX-ACCESS read-only STATUS current DESCRIPTION "The total number of errors which have occurred on all of the ports in this repeater. If an implementation cannot obtain a count of these errors as seen by the repeater itself, this counter may be implemented as the summation of the values of the vgRptrPortIPMFrames, vgRptrPortOversizeFrames, and vgRptrPortDataErrorFrames counters for all of the ports in this repeater. This counter may experience a discontinuity when the value of the corresponding instance of vgRptrInfoLastChange changes." ::= { vgRptrMonitorEntry 5 } vgRptrMonGroup OBJECT IDENTIFIER ::= { vgRptrMonitor 2 } -- Currently unused vgRptrMonPort OBJECT IDENTIFIER ::= { vgRptrMonitor 3 } vgRptrMonPortTable OBJECT-TYPE SYNTAX SEQUENCE OF VgRptrMonPortEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "A table of performance and error statistics for the ports. The columnar object vgRptrPortLastChange is used to indicate possible discontinuities of counter type columnar objects in this table." ::= { vgRptrMonPort 1 } vgRptrMonPortEntry OBJECT-TYPE SYNTAX VgRptrMonPortEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "An entry in the vgRptrMonPortTable, containing performance and error statistics for a single port." INDEX { vgRptrGroupIndex, vgRptrPortIndex } ::= { vgRptrMonPortTable 1 } VgRptrMonPortEntry ::= SEQUENCE { vgRptrPortReadableFrames Counter32, vgRptrPortReadableOctets Counter32, vgRptrPortReadOctetRollovers Counter32, vgRptrPortHCReadableOctets Counter64, vgRptrPortUnreadableOctets Counter32, vgRptrPortUnreadOctetRollovers Counter32, vgRptrPortHCUnreadableOctets Counter64, vgRptrPortHighPriorityFrames Counter32, vgRptrPortHighPriorityOctets Counter32, vgRptrPortHighPriOctetRollovers Counter32, vgRptrPortHCHighPriorityOctets Counter64, vgRptrPortNormPriorityFrames Counter32, vgRptrPortNormPriorityOctets Counter32, vgRptrPortNormPriOctetRollovers Counter32, vgRptrPortHCNormPriorityOctets Counter64, vgRptrPortBroadcastFrames Counter32, vgRptrPortMulticastFrames Counter32, vgRptrPortNullAddressedFrames Counter32, vgRptrPortIPMFrames Counter32, vgRptrPortOversizeFrames Counter32, vgRptrPortDataErrorFrames Counter32, vgRptrPortPriorityPromotions Counter32, vgRptrPortTransitionToTrainings Counter32, vgRptrPortLastChange TimeStamp } vgRptrPortReadableFrames OBJECT-TYPE SYNTAX Counter32 MAX-ACCESS read-only STATUS current DESCRIPTION "This object is the number of good frames of valid frame length that have been received on this port. This counter is incremented by one for each frame received on the port which is not counted by any of the following error counters: vgRptrPortIPMFrames, vgRptrPortOversizeFrames, vgRptrPortNullAddressedFrames, or vgRptrPortDataErrorFrames. This counter may experience a discontinuity when the value of the corresponding instance of vgRptrPortLastChange changes." REFERENCE "IEEE Standard 802.12-1995, 13.2.4.5.1, aReadableFramesReceived." ::= { vgRptrMonPortEntry 1 } vgRptrPortReadableOctets OBJECT-TYPE SYNTAX Counter32 MAX-ACCESS read-only STATUS current DESCRIPTION "This object is a count of the number of octets contained in good frames that have been received on this port. This counter is incremented by OctetCount for each frame received on this port which has been determined to be a readable frame (i.e. each frame counted by vgRptrPortReadableFrames). Note that this counter can roll over very quickly. A management station is advised to also poll the vgRptrPortReadOctetRollovers object, or to use the 64-bit counter defined by vgRptrPortHCReadableOctets instead of the two 32-bit counters. This two-counter mechanism is provided for those network management protocols that do not support 64-bit counters (e.g. SNMPv1). Note that retrieval of these two counters in the same PDU is NOT guaranteed to be atomic. This counter may experience a discontinuity when the value of the corresponding instance of vgRptrPortLastChange changes." REFERENCE "IEEE Standard 802.12-1995, 13.2.4.5.1, aReadableOctetsReceived." ::= { vgRptrMonPortEntry 2 } vgRptrPortReadOctetRollovers OBJECT-TYPE SYNTAX Counter32 MAX-ACCESS read-only STATUS current DESCRIPTION "This object is a count of the number of times that the associated instance of the vgRptrPortReadableOctets counter has rolled over. This two-counter mechanism is provided for those network management protocols that do not support 64-bit counters (e.g. SNMPv1). Note that retrieval of these two counters in the same PDU is NOT guaranteed to be atomic. This counter may experience a discontinuity when the value of the corresponding instance of vgRptrPortLastChange changes." REFERENCE "IEEE Standard 802.12-1995, 13.2.4.5.1, aReadableOctetsReceived." ::= { vgRptrMonPortEntry 3 } vgRptrPortHCReadableOctets OBJECT-TYPE SYNTAX Counter64 MAX-ACCESS read-only STATUS current DESCRIPTION "This object is a count of the number of octets contained in good frames that have been received on this port. This counter is incremented by OctetCount for each frame received on this port which has been determined to be a readable frame (i.e. each frame counted by vgRptrPortReadableFrames). This counter is a 64 bit version of vgRptrPortReadableOctets. It should be used by Network Management protocols which support 64 bit counters (e.g. SNMPv2). This counter may experience a discontinuity when the value of the corresponding instance of vgRptrPortLastChange changes." REFERENCE "IEEE Standard 802.12-1995, 13.2.4.5.1, aReadableOctetsReceived." ::= { vgRptrMonPortEntry 4 } vgRptrPortUnreadableOctets OBJECT-TYPE SYNTAX Counter32 MAX-ACCESS read-only STATUS current DESCRIPTION "This object is a count of the number of octets contained in invalid frames that have been received on this port. This counter is incremented by OctetCount for each frame received on this port which is counted by vgRptrPortIPMFrames, vgRptrPortOversizeFrames, vgRptrPortNullAddressedFrames, or vgRptrPortDataErrorFrames. This counter can be combined with vgRptrPortReadableOctets to calculate network utilization. Note that this counter can roll over very quickly. A management station is advised to also poll the vgRptrPortUnreadOctetRollovers object, or to use the 64-bit counter defined by vgRptrPortHCUnreadableOctets instead of the two 32-bit counters. This two-counter mechanism is provided for those network management protocols that do not support 64-bit counters (e.g. SNMPv1). Note that retrieval of these two counters in the same PDU is NOT guaranteed to be atomic. This counter may experience a discontinuity when the value of the corresponding instance of vgRptrPortLastChange changes." REFERENCE "IEEE Standard 802.12-1995, 13.2.4.5.1, aOctetsInUnreadableFramesRcvd." ::= { vgRptrMonPortEntry 5 } vgRptrPortUnreadOctetRollovers OBJECT-TYPE SYNTAX Counter32 MAX-ACCESS read-only STATUS current DESCRIPTION "This object is a count of the number of times that the associated instance of the vgRptrPortUnreadableOctets counter has rolled over. This two-counter mechanism is provided for those network management protocols that do not support 64-bit counters (e.g. SNMPv1). Note that retrieval of these two counters in the same PDU is NOT guaranteed to be atomic. This counter may experience a discontinuity when the value of the corresponding instance of vgRptrPortLastChange changes." REFERENCE "IEEE Standard 802.12-1995, 13.2.4.5.1, aOctetsInUnreadableFramesRcvd." ::= { vgRptrMonPortEntry 6 } vgRptrPortHCUnreadableOctets OBJECT-TYPE SYNTAX Counter64 MAX-ACCESS read-only STATUS current DESCRIPTION "This object is a count of the number of octets contained in invalid frames that have been received on this port. This counter is incremented by OctetCount for each frame received on this port which is counted by vgRptrPortIPMFrames, vgRptrPortOversizeFrames, vgRptrPortNullAddressedFrames, or vgRptrPortDataErrorFrames. This counter can be combined with vgRptrPortHCReadableOctets to calculate network utilization. This counter is a 64 bit version of vgRptrPortUnreadableOctets. It should be used by Network Management protocols which support 64 bit counters (e.g. SNMPv2). This counter may experience a discontinuity when the value of the corresponding instance of vgRptrPortLastChange changes." REFERENCE "IEEE Standard 802.12-1995, 13.2.4.5.1, aOctetsInUnreadableFramesRcvd." ::= { vgRptrMonPortEntry 7 } vgRptrPortHighPriorityFrames OBJECT-TYPE SYNTAX Counter32 MAX-ACCESS read-only STATUS current DESCRIPTION "This object is a count of high priority frames that have been received on this port. This counter is incremented by one for each high priority frame received on this port. This counter includes both good and bad high priority frames, as well as high priority training frames. This counter does not include normal priority frames which were priority promoted. This counter may experience a discontinuity when the value of the corresponding instance of vgRptrPortLastChange changes." REFERENCE "IEEE Standard 802.12-1995, 13.2.4.5.1, aHighPriorityFramesReceived." ::= { vgRptrMonPortEntry 8 } vgRptrPortHighPriorityOctets OBJECT-TYPE SYNTAX Counter32 MAX-ACCESS read-only STATUS current DESCRIPTION "This object is a count of the number of octets contained in high priority frames that have been received on this port. This counter is incremented by OctetCount for each frame received on this port which is counted by vgRptrPortHighPriorityFrames. Note that this counter can roll over very quickly. A management station is advised to also poll the vgRptrPortHighPriOctetRollovers object, or to use the 64-bit counter defined by vgRptrPortHCHighPriorityOctets instead of the two 32-bit counters. This two-counter mechanism is provided for those network management protocols that do not support 64-bit counters (e.g. SNMPv1). Note that retrieval of these two counters in the same PDU is NOT guaranteed to be atomic. This counter may experience a discontinuity when the value of the corresponding instance of vgRptrPortLastChange changes." REFERENCE "IEEE Standard 802.12-1995, 13.2.4.5.1, aHighPriorityOctetsReceived." ::= { vgRptrMonPortEntry 9 } vgRptrPortHighPriOctetRollovers OBJECT-TYPE SYNTAX Counter32 MAX-ACCESS read-only STATUS current DESCRIPTION "This object is a count of the number of times that the associated instance of the vgRptrPortHighPriorityOctets counter has rolled over. This two-counter mechanism is provided for those network management protocols that do not support 64-bit counters (e.g. SNMPv1). Note that retrieval of these two counters in the same PDU is NOT guaranteed to be atomic. This counter may experience a discontinuity when the value of the corresponding instance of vgRptrPortLastChange changes." REFERENCE "IEEE Standard 802.12-1995, 13.2.4.5.1, aHighPriorityOctetsReceived." ::= { vgRptrMonPortEntry 10 } vgRptrPortHCHighPriorityOctets OBJECT-TYPE SYNTAX Counter64 MAX-ACCESS read-only STATUS current DESCRIPTION "This object is a count of the number of octets contained in high priority frames that have been received on this port. This counter is incremented by OctetCount for each frame received on this port which is counted by vgRptrPortHighPriorityFrames. This counter is a 64 bit version of vgRptrPortHighPriorityOctets. It should be used by Network Management protocols which support 64 bit counters (e.g. SNMPv2). This counter may experience a discontinuity when the value of the corresponding instance of vgRptrPortLastChange changes." REFERENCE "IEEE Standard 802.12-1995, 13.2.4.5.1, aHighPriorityOctetsReceived." ::= { vgRptrMonPortEntry 11 } vgRptrPortNormPriorityFrames OBJECT-TYPE SYNTAX Counter32 MAX-ACCESS read-only STATUS current DESCRIPTION "This object is a count of normal priority frames that have been received on this port. This counter is incremented by one for each normal priority frame received on this port. This counter includes both good and bad normal priority frames, as well as normal priority training frames and normal priority frames which were priority promoted. This counter may experience a discontinuity when the value of the corresponding instance of vgRptrPortLastChange changes." REFERENCE "IEEE Standard 802.12-1995, 13.2.4.5.1, aNormalPriorityFramesReceived." ::= { vgRptrMonPortEntry 12 } vgRptrPortNormPriorityOctets OBJECT-TYPE SYNTAX Counter32 MAX-ACCESS read-only STATUS current DESCRIPTION "This object is a count of the number of octets contained in normal priority frames that have been received on this port. This counter is incremented by OctetCount for each frame received on this port which is counted by vgRptrPortNormPriorityFrames. Note that this counter can roll over very quickly. A management station is advised to also poll the vgRptrPortNormPriOctetRollovers object, or to use the 64-bit counter defined by vgRptrPortHCNormPriorityOctets instead of the two 32-bit counters. This two-counter mechanism is provided for those network management protocols that do not support 64-bit counters (e.g. SNMPv1). Note that retrieval of these two counters in the same PDU is NOT guaranteed to be atomic. This counter may experience a discontinuity when the value of the corresponding instance of vgRptrPortLastChange changes." REFERENCE "IEEE Standard 802.12-1995, 13.2.4.5.1, aNormalPriorityOctetsReceived." ::= { vgRptrMonPortEntry 13 } vgRptrPortNormPriOctetRollovers OBJECT-TYPE SYNTAX Counter32 MAX-ACCESS read-only STATUS current DESCRIPTION "This object is a count of the number of times that the associated instance of the vgRptrPortNormPriorityOctets counter has rolled over. This two-counter mechanism is provided for those network management protocols that do not support 64-bit counters (e.g. SNMPv1). Note that retrieval of these two counters in the same PDU is NOT guaranteed to be atomic. This counter may experience a discontinuity when the value of the corresponding instance of vgRptrPortLastChange changes." REFERENCE "IEEE Standard 802.12-1995, 13.2.4.5.1, aNormalPriorityOctetsReceived." ::= { vgRptrMonPortEntry 14 } vgRptrPortHCNormPriorityOctets OBJECT-TYPE SYNTAX Counter64 MAX-ACCESS read-only STATUS current DESCRIPTION "This object is a count of the number of octets contained in normal priority frames that have been received on this port. This counter is incremented by OctetCount for each frame received on this port which is counted by vgRptrPortNormPriorityFrames. This counter is a 64 bit version of vgRptrPortNormPriorityOctets. It should be used by Network Management protocols which support 64 bit counters (e.g. SNMPv2). This counter may experience a discontinuity when the value of the corresponding instance of vgRptrPortLastChange changes." REFERENCE "IEEE Standard 802.12-1995, 13.2.4.5.1, aNormalPriorityOctetsReceived." ::= { vgRptrMonPortEntry 15 } vgRptrPortBroadcastFrames OBJECT-TYPE SYNTAX Counter32 MAX-ACCESS read-only STATUS current DESCRIPTION "This object is a count of broadcast packets that have been received on this port. This counter is incremented by one for each readable frame received on this port whose destination MAC address is the broadcast address. Frames counted by this counter are also counted by vgRptrPortReadableFrames. This counter may experience a discontinuity when the value of the corresponding instance of vgRptrPortLastChange changes." REFERENCE "IEEE Standard 802.12-1995, 13.2.4.5.1, aBroadcastFramesReceived." ::= { vgRptrMonPortEntry 16 } vgRptrPortMulticastFrames OBJECT-TYPE SYNTAX Counter32 MAX-ACCESS read-only STATUS current DESCRIPTION "This object is a count of multicast packets that have been received on this port. This counter is incremented by one for each readable frame received on this port whose destination MAC address has the group address bit set, but is not the broadcast address. Frames counted by this counter are also counted by vgRptrPortReadableFrames, but not by vgRptrPortBroadcastFrames. Note that when the value of the instance vgRptrInfoCurrentFramingType for the repeater that this port is associated with is equal to 'frameType88025', this count includes packets addressed to functional addresses. This counter may experience a discontinuity when the value of the corresponding instance of vgRptrPortLastChange changes." REFERENCE "IEEE Standard 802.12-1995, 13.2.4.5.1, aMulticastFramesReceived." ::= { vgRptrMonPortEntry 17 } vgRptrPortNullAddressedFrames OBJECT-TYPE SYNTAX Counter32 MAX-ACCESS read-only STATUS current DESCRIPTION "This object is a count of null addressed packets that have been received on this port. This counter is incremented by one for each frame received on this port with a destination MAC address consisting of all zero bits. Both void and training frames are included in this counter. This counter may experience a discontinuity when the value of the corresponding instance of vgRptrPortLastChange changes." REFERENCE "IEEE Standard 802.12-1995, 13.2.4.5.1, aNullAddressedFramesReceived." ::= { vgRptrMonPortEntry 18 } vgRptrPortIPMFrames OBJECT-TYPE SYNTAX Counter32 MAX-ACCESS read-only STATUS current DESCRIPTION "This object is a count of the number of frames that have been received on this port with an invalid packet marker and no PMI errors. A repeater will write an invalid packet marker to the end of a frame containing errors as it is forwarded through the repeater to the other ports. This counter is incremented by one for each frame received on this port which has had an invalid packet marker added to the end of the frame. This counter indicates problems occurring in the domain of other repeaters, as opposed to problems with cables or devices directly attached to this repeater. This counter may experience a discontinuity when the value of the corresponding instance of vgRptrPortLastChange changes." REFERENCE "IEEE Standard 802.12-1995, 13.2.4.5.1, aIPMFramesReceived." ::= { vgRptrMonPortEntry 19 } vgRptrPortOversizeFrames OBJECT-TYPE SYNTAX Counter32 MAX-ACCESS read-only STATUS current DESCRIPTION "This object is a count of oversize frames received on this port. This counter is incremented by one for each frame received on this port whose OctetCount is larger than the maximum legal frame size. The frame size which causes this counter to increment is dependent on the current value of vgRptrInfoCurrentFramingType for the repeater that the port is associated with. When vgRptrInfoCurrentFramingType is equal to frameType88023 this counter will increment for frames that are 1519 octets or larger. When vgRptrInfoCurrentFramingType is equal to frameType88025 this counter will increment for frames that are 4521 octets or larger. This counter may experience a discontinuity when the value of the corresponding instance of vgRptrPortLastChange changes." REFERENCE "IEEE Standard 802.12-1995, 13.2.4.5.1, aOversizeFramesReceived." ::= { vgRptrMonPortEntry 20 } vgRptrPortDataErrorFrames OBJECT-TYPE SYNTAX Counter32 MAX-ACCESS read-only STATUS current DESCRIPTION "This object is a count of errored frames received on this port. This counter is incremented by one for each frame received on this port with any of the following errors: bad FCS (with no IPM), PMI errors (excluding frames with an IPM error as the only PMI error), or undersize (with no IPM). Does not include packets counted by vgRptrPortIPMFrames, vgRptrPortOversizeFrames, or vgRptrPortNullAddressedFrames. This counter indicates problems with cables or devices directly connected to this repeater, while vgRptrPortIPMFrames indicates problems occurring in the domain of other repeaters. This counter may experience a discontinuity when the value of the corresponding instance of vgRptrPortLastChange changes." REFERENCE "IEEE Standard 802.12-1995, 13.2.4.5.1, aDataErrorFramesReceived." ::= { vgRptrMonPortEntry 21 } vgRptrPortPriorityPromotions OBJECT-TYPE SYNTAX Counter32 MAX-ACCESS read-only STATUS current DESCRIPTION "This counter is incremented by one each time the priority promotion timer has expired on this port and a normal priority frame is priority promoted. This counter may experience a discontinuity when the value of the corresponding instance of vgRptrPortLastChange changes." REFERENCE "IEEE Standard 802.12-1995, 13.2.4.5.1, aPriorityPromotions." ::= { vgRptrMonPortEntry 22 } vgRptrPortTransitionToTrainings OBJECT-TYPE SYNTAX Counter32 MAX-ACCESS read-only STATUS current DESCRIPTION "This counter is incremented by one each time the vgRptrPortStatus object for this port transitions into the 'training' state. This counter may experience a discontinuity when the value of the corresponding instance of vgRptrPortLastChange changes." REFERENCE "IEEE Standard 802.12-1995, 13.2.4.5.1, aTransitionsIntoTraining." ::= { vgRptrMonPortEntry 23 } vgRptrPortLastChange OBJECT-TYPE SYNTAX TimeStamp MAX-ACCESS read-only STATUS current DESCRIPTION "The value of sysUpTime when the last of the following occurred: 1) the agent cold- or warm-started; 2) the row for the port was created (such as when a device or module was added to the system); or 3) any condition that would cause one of the counters for the row to experience a discontinuity." ::= { vgRptrMonPortEntry 24 } vgRptrAddrTrack OBJECT IDENTIFIER ::= { vgRptrObjects 3 } vgRptrAddrTrackRptr OBJECT IDENTIFIER ::= { vgRptrAddrTrack 1 } -- Currently unused vgRptrAddrTrackGroup OBJECT IDENTIFIER ::= { vgRptrAddrTrack 2 } -- Currently unused vgRptrAddrTrackPort OBJECT IDENTIFIER ::= { vgRptrAddrTrack 3 } vgRptrAddrTrackTable OBJECT-TYPE SYNTAX SEQUENCE OF VgRptrAddrTrackEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "Table of address mapping information about the ports." ::= { vgRptrAddrTrackPort 1 } vgRptrAddrTrackEntry OBJECT-TYPE SYNTAX VgRptrAddrTrackEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "An entry in the table, containing address mapping information about a single port." INDEX { vgRptrGroupIndex, vgRptrPortIndex } ::= { vgRptrAddrTrackTable 1 } VgRptrAddrTrackEntry ::= SEQUENCE { vgRptrAddrLastTrainedAddress OCTET STRING, vgRptrAddrTrainedAddrChanges Counter32, vgRptrRptrDetectedDupAddress TruthValue, vgRptrMgrDetectedDupAddress TruthValue } vgRptrAddrLastTrainedAddress OBJECT-TYPE SYNTAX OCTET STRING (SIZE(0 | 6)) MAX-ACCESS read-only STATUS current DESCRIPTION "This object is the MAC address of the last station which succeeded in training on this port. A cascaded repeater may train using the null address. If no stations have succeeded in training on this port since the agent began monitoring the port activity, the agent shall return a string of length zero." REFERENCE "IEEE Standard 802.12-1995, 13.2.4.5.1, aLastTrainedAddress." ::= { vgRptrAddrTrackEntry 1 } vgRptrAddrTrainedAddrChanges OBJECT-TYPE SYNTAX Counter32 MAX-ACCESS read-only STATUS current DESCRIPTION "This counter is incremented by one for each time that the vgRptrAddrLastTrainedAddress object for this port changes." REFERENCE "IEEE Standard 802.12-1995, 13.2.4.5.1, aTrainedAddressChanges." ::= { vgRptrAddrTrackEntry 2 } vgRptrRptrDetectedDupAddress OBJECT-TYPE SYNTAX TruthValue MAX-ACCESS read-only STATUS current DESCRIPTION "This object is used to indicate that the repeater detected an error-free training frame on this port with a non-null source MAC address which matches the value of vgRptrAddrLastTrainedAddress of another active port in the same repeater. This is reset to 'false' when an error-free training frame is received with a non-null source MAC address which does not match vgRptrAddrLastTrainedAddress of another port which is active in the same repeater. For the cascade port, this object will be 'true' if the 'D' bit in the most recently received error-free training response frame was set, indicating the device at the other end of the link believes that this repeater's cascade port is using a duplicate address. This may be because the device at the other end of the link detected a duplicate address itself, or, if the other device is also a repeater, it could be because vgRptrMgrDetectedDupAddress was set to 'true' on the port that this repeater's cascade port is connected to." REFERENCE "IEEE Standard 802.12-1995, 13.2.4.5.1, aLocalRptrDetectedDupAddr." ::= { vgRptrAddrTrackEntry 3 } vgRptrMgrDetectedDupAddress OBJECT-TYPE SYNTAX TruthValue MAX-ACCESS read-write STATUS current DESCRIPTION "This object can be set by a management station when it detects that there is a duplicate MAC address. This object is OR'd with vgRptrRptrDetectedDupAddress to form the value of the 'D' bit in training response frames on this port. The purpose of this object is to provide a means for network management software to inform an end station that it is using a duplicate station address. Setting this object does not affect the current state of the link; the end station will not be informed of the duplicate address until it retrains for some reason. Note that regardless of its station address, the end station will not be able to train successfully until the network management software has set this object back to 'false'. Although this object exists on cascade ports, it does not perform any function since this repeater is the initiator of training on a cascade port." REFERENCE "IEEE Standard 802.12-1995, 13.2.4.5.1, aCentralMgmtDetectedDupAddr." ::= { vgRptrAddrTrackEntry 4 } vgRptrTraps OBJECT IDENTIFIER ::= { vgRptrMIB 2 } vgRptrTrapPrefix OBJECT IDENTIFIER ::= { vgRptrTraps 0 } vgRptrHealth NOTIFICATION-TYPE OBJECTS { vgRptrInfoOperStatus } STATUS current DESCRIPTION "A vgRptrHealth trap conveys information related to the operational state of a repeater. This trap is sent when the value of an instance of vgRptrInfoOperStatus changes. The vgRptrHealth trap is not sent as a result of powering up a repeater. The vgRptrHealth trap must contain the instance of the vgRptrInfoOperStatus object associated with the affected repeater. The agent must throttle the generation of consecutive vgRptrHealth traps so that there is at least a five-second gap between traps of this type. When traps are throttled, they are dropped, not queued for sending at a future time. (Note that 'generating' a trap means sending to all configured recipients.)" REFERENCE "IEEE 802.12, Layer Management, 13.2.4.2.3, nRepeaterHealth." ::= { vgRptrTrapPrefix 1 } vgRptrResetEvent NOTIFICATION-TYPE OBJECTS { vgRptrInfoOperStatus } STATUS current DESCRIPTION "A vgRptrResetEvent trap conveys information related to the operational state of a repeater. This trap is sent on completion of a repeater reset action. A repeater reset action is defined as a transition to its initial state as specified in clause 12 [IEEE Std 802.12] when triggered by a management command. The vgRptrResetEvent trap is not sent when the agent restarts and sends an SNMP coldStart or warmStart trap. The vgRptrResetEvent trap must contain the instance of the vgRptrInfoOperStatus object associated with the affected repeater. The agent must throttle the generation of consecutive vgRptrResetEvent traps so that there is at least a five-second gap between traps of this type. When traps are throttled, they are dropped, not queued for sending at a future time. (Note that 'generating' a trap means sending to all configured recipients.)" REFERENCE "IEEE 802.12, Layer Management, 13.2.4.2.3, nRepeaterReset." ::= { vgRptrTrapPrefix 2 } -- conformance information vgRptrConformance OBJECT IDENTIFIER ::= { vgRptrMIB 3 } vgRptrCompliances OBJECT IDENTIFIER ::= { vgRptrConformance 1 } vgRptrGroups OBJECT IDENTIFIER ::= { vgRptrConformance 2 } -- compliance statements vgRptrCompliance MODULE-COMPLIANCE STATUS current DESCRIPTION "The compliance statement for managed 802.12 repeaters." MODULE -- this module MANDATORY-GROUPS { vgRptrConfigGroup, vgRptrStatsGroup, vgRptrAddrGroup, vgRptrNotificationsGroup } GROUP vgRptrStats64Group DESCRIPTION "Implementation of this group is recommended for systems which can support Counter64." OBJECT vgRptrInfoDesiredFramingType MIN-ACCESS read-only DESCRIPTION "Write access to this object is not required in a repeater system that does not support configuration of framing types." MODULE SNMP-REPEATER-MIB GROUP snmpRptrGrpRptrAddrSearch DESCRIPTION "Implementation of this group is recommended for systems which have the necessary instrumentation to search all incoming data streams for a particular source MAC address." ::= { vgRptrCompliances 1 } -- units of conformance vgRptrConfigGroup OBJECT-GROUP OBJECTS { vgRptrInfoMACAddress, vgRptrInfoCurrentFramingType, vgRptrInfoDesiredFramingType, vgRptrInfoFramingCapability, vgRptrInfoTrainingVersion, vgRptrInfoOperStatus, vgRptrInfoReset, vgRptrInfoLastChange, vgRptrGroupObjectID, vgRptrGroupOperStatus, vgRptrGroupPortCapacity, vgRptrGroupCablesBundled, vgRptrPortType, vgRptrPortAdminStatus, vgRptrPortOperStatus, vgRptrPortSupportedPromiscMode, vgRptrPortSupportedCascadeMode, vgRptrPortAllowedTrainType, vgRptrPortLastTrainConfig, vgRptrPortTrainingResult, vgRptrPortPriorityEnable, vgRptrPortRptrInfoIndex } STATUS current DESCRIPTION "A collection of objects for managing the status and configuration of IEEE 802.12 repeaters." ::= { vgRptrGroups 1 } vgRptrStatsGroup OBJECT-GROUP OBJECTS { vgRptrMonTotalReadableFrames, vgRptrMonTotalReadableOctets, vgRptrMonReadableOctetRollovers, vgRptrMonTotalErrors, vgRptrPortReadableFrames, vgRptrPortReadableOctets, vgRptrPortReadOctetRollovers, vgRptrPortUnreadableOctets, vgRptrPortUnreadOctetRollovers, vgRptrPortHighPriorityFrames, vgRptrPortHighPriorityOctets, vgRptrPortHighPriOctetRollovers, vgRptrPortNormPriorityFrames, vgRptrPortNormPriorityOctets, vgRptrPortNormPriOctetRollovers, vgRptrPortBroadcastFrames, vgRptrPortMulticastFrames, vgRptrPortNullAddressedFrames, vgRptrPortIPMFrames, vgRptrPortOversizeFrames, vgRptrPortDataErrorFrames, vgRptrPortPriorityPromotions, vgRptrPortTransitionToTrainings, vgRptrPortLastChange } STATUS current DESCRIPTION "A collection of objects for providing statistics for IEEE 802.12 repeaters. Systems which support Counter64 should also implement vgRptrStats64Group." ::= { vgRptrGroups 2 } vgRptrStats64Group OBJECT-GROUP OBJECTS { vgRptrMonHCTotalReadableOctets, vgRptrPortHCReadableOctets, vgRptrPortHCUnreadableOctets, vgRptrPortHCHighPriorityOctets, vgRptrPortHCNormPriorityOctets } STATUS current DESCRIPTION "A collection of objects for providing statistics for IEEE 802.12 repeaters in a system that supports Counter64." ::= { vgRptrGroups 3 } vgRptrAddrGroup OBJECT-GROUP OBJECTS { vgRptrAddrLastTrainedAddress, vgRptrAddrTrainedAddrChanges, vgRptrRptrDetectedDupAddress, vgRptrMgrDetectedDupAddress } STATUS current DESCRIPTION "A collection of objects for tracking addresses on IEEE 802.12 repeaters." ::= { vgRptrGroups 4 } vgRptrNotificationsGroup NOTIFICATION-GROUP NOTIFICATIONS { vgRptrHealth, vgRptrResetEvent } STATUS current DESCRIPTION "A collection of notifications used to indicate 802.12 repeater general status changes." ::= { vgRptrGroups 5 } END