-- automatically generated by mosy 7.1 -- Version 1.0 -- -- Modified 6/13/96 by Hewlett Packard so can be loaded with SNMPv2. -- The TimeStamp definition is conflicting -- DOT12-RPTR-MIB DEFINITIONS ::= BEGIN IMPORTS TRAP-TYPE FROM RFC-1215 DisplayString FROM RFC1213-MIB OBJECT-TYPE FROM RFC-1212 Counter, enterprises FROM RFC1155-SMI; MacAddress ::= OCTET STRING (SIZE (6)) -- a 6 octet address in the "canonical" -- order defined by IEEE 802.1a, i.e., -- as if it were transmitted least -- significant bit first. -- TimeStamp ::= INTEGER TruthValue ::= INTEGER {true(1), false(2)} -- created from vgRptrMIB (9501200000Z) vendor OBJECT IDENTIFIER ::= { enterprises 295 } vgRptrMIB OBJECT IDENTIFIER ::= { vendor 4 } vgRptrObjects OBJECT IDENTIFIER ::= { vgRptrMIB 1 } vgRptrBasic OBJECT IDENTIFIER ::= { vgRptrObjects 1 } vgRptrBasicRptr OBJECT IDENTIFIER ::= { vgRptrBasic 1 } vgRptrMACAddress OBJECT-TYPE SYNTAX MacAddress ACCESS read-only STATUS mandatory 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." ::= { vgRptrBasicRptr 1 } vgRptrCurrentFramingType OBJECT-TYPE SYNTAX INTEGER { frameType88023(1), frameType88025(2) } ACCESS read-only STATUS mandatory DESCRIPTION "The type of framing (802.3 or 802.5) currently in use by the repeater." ::= { vgRptrBasicRptr 2 } vgRptrDesiredFramingType OBJECT-TYPE SYNTAX INTEGER { frameType88023(1), frameType88025(2) } ACCESS read-write STATUS mandatory 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" ::= { vgRptrBasicRptr 3 } vgRptrFramingCapability OBJECT-TYPE SYNTAX INTEGER { frameType88023(1), frameType88025(2), frameTypeEither(3) } ACCESS read-only STATUS mandatory DESCRIPTION "The type of framing this repeater is capable of supporting." ::= { vgRptrBasicRptr 4 } vgRptrTrainingVersion OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The highest version bits (vvv bits) supported by the repeater during training." ::= { vgRptrBasicRptr 5 } vgRptrGroupCapacity OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The vgRptrGroupCapacity is the number of groups that can be contained within the repeater. Within each managed repeater, the groups are uniquely numbered in the range from 1 to vgRptrGroupCapacity. Some groups may not be present in the repeater, in which case the actual number of groups present will be less than vgRptrGroupCapacity. The number of groups present is never greater than vgRptrGroupCapacity." ::= { vgRptrBasicRptr 6 } vgRptrHealthState OBJECT-TYPE SYNTAX INTEGER { other(1), ok(2), rptrFailure(3), groupFailure(4), portFailure(5), generalFailure(6) } ACCESS read-only STATUS mandatory DESCRIPTION "The vgRptrHealthState object indicates the operational state of the repeater. The vgRptrHealthText may be consulted for more specific information about the state of the repeater's health. In the case of multiple kinds of failures (e.g., repeater failure and port failure), the value of this attribute shall reflect the highest priority failure in the following order, listed highest priority first: rptrFailure(3) groupFailure(4) portFailure(5) generalFailure(6)." ::= { vgRptrBasicRptr 7 } vgRptrHealthText OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "The health text object is a text string that provides information relevant to the operational state of the repeater. Agents may use this string to provide detailed information on current failures, including how they were detected, and/or instructions for problem resolution. The contents are agent specific." ::= { vgRptrBasicRptr 8 } vgRptrReset OBJECT-TYPE SYNTAX INTEGER { noReset(1), reset(2) } ACCESS read-write STATUS mandatory DESCRIPTION "Setting this object to reset(2) causes the repeater to transition to its initial state as specified in clause 12 [IEEE Draft 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." ::= { vgRptrBasicRptr 9 } vgRptrNonDisruptTest OBJECT-TYPE SYNTAX INTEGER { noSelfTest(1), selfTest(2) } ACCESS read-write STATUS mandatory DESCRIPTION "Setting this object to selfTest(2) causes the repeater to perform an agent-specific, non-disruptive self-test that has the following characteristics: 1) The nature of the tests is not specified. 2) The test does not change the state of the repeater or management information about the repeater. 3) The test does not inject packets onto any segment. 4) The test does not prevent the transfer of any packets. 5) The test does not interfere with management functions. After performing this test, the agent will update the repeater health information (including vgRptrHealthState and vgRptrHealthText) and send a vgRptrHealth. Note that this definition allows returning an 'okay' result after doing a trivial test. Setting this object to noSelfTest(1) has no effect. The agent will always return the value noSelfTest(1) when this object is read." ::= { vgRptrBasicRptr 10 } vgRptrBasicGroup OBJECT IDENTIFIER ::= { vgRptrBasic 2 } vgRptrBasicGroupTable OBJECT-TYPE SYNTAX SEQUENCE OF VgRptrBasicGroupEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "A table containing information about groups of ports." ::= { vgRptrBasicGroup 1 } vgRptrBasicGroupEntry OBJECT-TYPE SYNTAX VgRptrBasicGroupEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "An entry in the vgRptrBasicGroupTable, containing information about a single group of ports." INDEX { vgRptrGroupIndex } ::= { vgRptrBasicGroupTable 1 } VgRptrBasicGroupEntry ::= SEQUENCE { vgRptrGroupIndex INTEGER, vgRptrGroupDescr DisplayString, vgRptrGroupObjectID OBJECT IDENTIFIER, vgRptrGroupOperStatus INTEGER, vgRptrGroupLastOperStatusChange INTEGER, --TimeStamp, vgRptrGroupPortCapacity INTEGER, vgRptrGroupCablesBundled INTEGER } vgRptrGroupIndex OBJECT-TYPE SYNTAX INTEGER ACCESS not-accessible STATUS mandatory DESCRIPTION "This object identifies the group within the repeater for which this entry contains information. This value is never greater than vgRptrGroupCapacity." ::= { vgRptrBasicGroupEntry 1 } vgRptrGroupDescr OBJECT-TYPE SYNTAX DisplayString ACCESS read-only STATUS mandatory DESCRIPTION "A textual description of the group. This value should include the full name and version identification of the group's hardware type and indicate how the group is differentiated from other types of groups in the repeater. 'Plug-in Module, Rev A' or 'Barney Rubble 100BaseVG 4-port socket Version 2.1' are examples of valid group descriptions. It is mandatory that this only contain printable ASCII characters." ::= { vgRptrBasicGroupEntry 2 } vgRptrGroupObjectID OBJECT-TYPE SYNTAX OBJECT IDENTIFIER ACCESS read-only STATUS mandatory 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 3 } vgRptrGroupOperStatus OBJECT-TYPE SYNTAX INTEGER { other(1), operational(2), malfunctioning(3), notPresent(4), underTest(5), resetInProgress(6) } ACCESS read-only STATUS mandatory 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 repeater. 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 4 } vgRptrGroupLastOperStatusChange OBJECT-TYPE --SYNTAX TimeStamp SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "An object that contains the value of sysUpTime at the time that the value of the vgRptrGroupOperStatus object for this group last changed. A value of zero indicates that the group's operational status has not changed since the agent last restarted." ::= { vgRptrBasicGroupEntry 5 } vgRptrGroupPortCapacity OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The vgRptrGroupPortCapacity is the number of ports that can be contained within the group. Valid range is 1-1024. Within each group, the ports are uniquely numbered in the range from 1 to vgRptrGroupPortCapacity. Some ports may not be present in a given group instance, in which case the actual number of ports present is less than vgRptrGroupPortCapacity. The number of ports present is never greater than vgRptrGroupPortCapacity." ::= { vgRptrBasicGroupEntry 6 } vgRptrGroupCablesBundled OBJECT-TYPE SYNTAX INTEGER { someCablesBundled(1), noCablesBundled(2) } ACCESS read-write STATUS mandatory DESCRIPTION "This configuration flag is used to select either bundled or unbundled cabling. When this flag is 'someCablesBundled(1)' and the port is not promiscuous or cascaded, frames received from ports on this group and destined to go out multiple ports on this group will be buffered completely before being repeated out ports on this group. When this flag is 'noCablesBundled(2)' or the port is promiscuous or cascaded, these frames will be repeated out ports on this group 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 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." ::= { vgRptrBasicGroupEntry 7 } vgRptrBasicPort OBJECT IDENTIFIER ::= { vgRptrBasic 3 } vgRptrBasicPortTable OBJECT-TYPE SYNTAX SEQUENCE OF VgRptrBasicPortEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "A table containing information about ports." ::= { vgRptrBasicPort 1 } vgRptrBasicPortEntry OBJECT-TYPE SYNTAX VgRptrBasicPortEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "An entry in the vgRptrBasicPortTable, containing information about a single port." INDEX { vgRptrGroupIndex, vgRptrPortIndex } ::= { vgRptrBasicPortTable 1 } VgRptrBasicPortEntry ::= SEQUENCE { vgRptrPortIndex INTEGER, vgRptrPortType INTEGER, vgRptrPortAdminStatus INTEGER, vgRptrPortStatus INTEGER, vgRptrPortSupportedPromiscMode INTEGER, vgRptrPortSupportedCascadeMode INTEGER, vgRptrPortAllowedTrainType INTEGER, vgRptrPortLastTrainConfig OCTET STRING, vgRptrPortTrainingResult OCTET STRING, vgRptrPortPriorityEnable TruthValue, vgRptrPortMediaType INTEGER } vgRptrPortIndex OBJECT-TYPE SYNTAX INTEGER ACCESS not-accessible STATUS mandatory DESCRIPTION "This object identifies the port within the group for which this entry contains information. This value can never be greater than vgRptrGroupPortCapacity for the associated group." ::= { vgRptrBasicPortEntry 1 } vgRptrPortType OBJECT-TYPE SYNTAX INTEGER { cascadeExternal(1), cascadeInternal(2), localExternal(3), localInternal(4) } ACCESS read-only STATUS mandatory 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." ::= { vgRptrBasicPortEntry 2 } vgRptrPortAdminStatus OBJECT-TYPE SYNTAX INTEGER { enabled(1), disabled(2) } ACCESS read-write STATUS mandatory DESCRIPTION "Port enable/disable function. Enabling a disabled port will cause training to be initiated. 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." ::= { vgRptrBasicPortEntry 3 } vgRptrPortStatus OBJECT-TYPE SYNTAX INTEGER { active(1), inactive(2), training(3) } ACCESS read-only STATUS mandatory DESCRIPTION "Current status for the port as specified by the PORT_META_STATE in the port process module of clause 12 [IEEE Draft 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 received and the configuration bits are OK, vgRptrPortStatus will change to 'active(1)'. A disabled port shall have a port status of 'inactive(2)'." ::= { vgRptrBasicPortEntry 4 } vgRptrPortSupportedPromiscMode OBJECT-TYPE SYNTAX INTEGER { singleModeOnly(1), singleOrPromiscMode(2), promiscModeOnly(3) } ACCESS read-only STATUS mandatory 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." ::= { vgRptrBasicPortEntry 5 } vgRptrPortSupportedCascadeMode OBJECT-TYPE SYNTAX INTEGER { endNodesOnly(1), endNodesOrRepeaters(2), cascadePort(3) } ACCESS read-only STATUS mandatory 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." ::= { vgRptrBasicPortEntry 6 } vgRptrPortAllowedTrainType OBJECT-TYPE SYNTAX INTEGER { allowEndNodesOnly(1), allowPromiscuousEndNodes(2), allowEndNodesOrRepeaters(3), allowAnything(4) } ACCESS read-write STATUS mandatory 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'." ::= { vgRptrBasicPortEntry 7 } vgRptrPortLastTrainConfig OBJECT-TYPE SYNTAX OCTET STRING ACCESS read-only STATUS mandatory DESCRIPTION "This 16 bit field contains the most recent training configuration requested in an error-free training frame sent by the end node connected to the port. For cascade ports, this is the responder's configuration field from the most recent error-free training response frame received in response to training initiated by this repeater." ::= { vgRptrBasicPortEntry 8 } vgRptrPortTrainingResult OBJECT-TYPE SYNTAX OCTET STRING ACCESS read-only STATUS mandatory 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 most recent valid training response frame on the port." ::= { vgRptrBasicPortEntry 9 } vgRptrPortPriorityEnable OBJECT-TYPE SYNTAX TruthValue ACCESS read-write STATUS mandatory 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 value of this object should be preserved across repeater resets and power failures. The setting of this object has no effect on a cascade port." ::= { vgRptrBasicPortEntry 10 } vgRptrPortMediaType OBJECT-TYPE SYNTAX INTEGER { other(1), unknown(2), pmdMissing(3), utp4(4), stp2(5), fibre(6) } ACCESS read-only STATUS mandatory DESCRIPTION "The type of physical media in use. One of the following values: other undefined unknown true state not known pmdMissing PMD device not attached utp4 4-pair unshielded twisted pair stp2 2-pair shielded twisted pair fibre 802.12 fibre optic cabling This object may be 'unknown' if the implementation is not capable of identifying the PMD media type, or whether or not the PMD is even present." ::= { vgRptrBasicPortEntry 11 } vgRptrMonitor OBJECT IDENTIFIER ::= { vgRptrObjects 2 } vgRptrMonRepeater OBJECT IDENTIFIER ::= { vgRptrMonitor 1 } vgRptrMonGroup OBJECT IDENTIFIER ::= { vgRptrMonitor 2 } vgRptrMonPort OBJECT IDENTIFIER ::= { vgRptrMonitor 3 } vgRptrMonPortTable OBJECT-TYPE SYNTAX SEQUENCE OF VgRptrMonPortEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "A table of performance and error statistics for the ports." ::= { vgRptrMonPort 1 } vgRptrMonPortEntry OBJECT-TYPE SYNTAX VgRptrMonPortEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "An entry in the vgRptrMonPortTable, containing performance and error statistics for a single port." INDEX { vgRptrGroupIndex, vgRptrPortIndex } ::= { vgRptrMonPortTable 1 } VgRptrMonPortEntry ::= SEQUENCE { vgRptrPortReadableFrames Counter, vgRptrPortReadableOctets Counter, vgRptrPortUnreadableOctets Counter, vgRptrPortHighPriorityFrames Counter, vgRptrPortHighPriorityOctets Counter, vgRptrPortNormPriorityFrames Counter, vgRptrPortNormPriorityOctets Counter, vgRptrPortBroadcastFrames Counter, vgRptrPortMulticastFrames Counter, vgRptrPortNullAddressedFrames Counter, vgRptrPortIPMFrames Counter, vgRptrPortOversizeFrames Counter, vgRptrPortDataErrorFrames Counter, vgRptrPortPriorityPromotions Counter, vgRptrPortTransitionToTrainings Counter } vgRptrPortReadableFrames OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory 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." ::= { vgRptrMonPortEntry 1 } vgRptrPortReadableOctets OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory 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 will roll over very quickly. It is provided for backward compatibility for Network Management protocols that do not support 64 bit counters (e.g. SNMP version 1)." ::= { vgRptrMonPortEntry 2 } vgRptrPortUnreadableOctets OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory 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 will roll over very quickly. It is provided for backward compatibility for Network Management protocols that do not support 64 bit counters (e.g. SNMP version 1)." ::= { vgRptrMonPortEntry 3 } vgRptrPortHighPriorityFrames OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory 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." ::= { vgRptrMonPortEntry 4 } vgRptrPortHighPriorityOctets OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory 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 will roll over very quickly. It is provided for backward compatibility for Network Management protocols that do not support 64 bit counters (e.g. SNMP version 1)." ::= { vgRptrMonPortEntry 5 } vgRptrPortNormPriorityFrames OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory 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." ::= { vgRptrMonPortEntry 6 } vgRptrPortNormPriorityOctets OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory 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 will roll over very quickly. It is provided for backward compatibility for Network Management protocols that do not support 64 bit counters (e.g. SNMP version 1)." ::= { vgRptrMonPortEntry 7 } vgRptrPortBroadcastFrames OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory 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." ::= { vgRptrMonPortEntry 8 } vgRptrPortMulticastFrames OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory 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" ::= { vgRptrMonPortEntry 9 } vgRptrPortNullAddressedFrames OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory 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." ::= { vgRptrMonPortEntry 10 } vgRptrPortIPMFrames OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory 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 with remote cable segments, as opposed to problems with cables directly attached to this repeater." ::= { vgRptrMonPortEntry 11 } vgRptrPortOversizeFrames OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory 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 vgRptrCurrentFramingType. When vgRptrCurrentFramingType is equal to frameType88023 this counter will increment for frames that are 1519 octets or larger. When vgRptrCurrentFramingType is equal to frameType88025 this counter will increment for frames that are 4521 octets or larger." ::= { vgRptrMonPortEntry 12 } vgRptrPortDataErrorFrames OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory 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 the cable directly attached to this repeater, while vgRptrPortIPMFrames indicates problems with remote cables attached to other repeaters." ::= { vgRptrMonPortEntry 13 } vgRptrPortPriorityPromotions OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory 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." ::= { vgRptrMonPortEntry 14 } vgRptrPortTransitionToTrainings OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "This counter is incremented by one each time the vgRptrPortStatus object for this port transitions into the 'training' state." ::= { vgRptrMonPortEntry 15 } vgRptrAddrTrack OBJECT IDENTIFIER ::= { vgRptrObjects 3 } vgRptrAddrTrackRptr OBJECT IDENTIFIER ::= { vgRptrAddrTrack 1 } vgRptrAddrSearch OBJECT IDENTIFIER ::= { vgRptrAddrTrackRptr 1 } vgRptrSearchAddress OBJECT-TYPE SYNTAX MacAddress ACCESS read-write STATUS mandatory DESCRIPTION "This object is used to search for a specified MAC address. When this object is set, an address search begins. This starts by initializing vgRptrSearchState to 'none'. When a valid frame is received with a source MAC address which matches the current value of vgRptrSearchAddress, the agent will update vgRptrSearchState, vgRptrSearchGroup, and vgRptrSearchPort to reflect the current status of the search, and the group and port from which the frame was received. This capability can be used by a management application to draw a topologically correct map of a network which includes cascaded repeaters." ::= { vgRptrAddrSearch 1 } vgRptrSearchState OBJECT-TYPE SYNTAX INTEGER { none(1), single(2), multiple(3) } ACCESS read-only STATUS mandatory DESCRIPTION "The current state of the MAC address search objects on this repeater. This object is initialized to 'none' whenever vgRptrSearchAddress is set. If the agent detects the address on exactly one port, it will set this object to 'single', and set vgRptrSearchGroup and vgRptrSearchPort to reflect the group and port on which the address was heard. If the agent detects the address on more than one port, it will set this object to 'many'." ::= { vgRptrAddrSearch 2 } vgRptrSearchGroup OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The group from which an error-free frame from vgRptrSearchAddress has been received. The value of vgRptrSearchGroup is undefined when vgRptrSearchState is equal to 'none' or 'multiple'." ::= { vgRptrAddrSearch 3 } vgRptrSearchPort OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The port from which an error-free frame from vgRptrSearchAddress has been received. The value of vgRptrSearchPort is undefined when vgRptrSearchState is equal to 'none' or 'multiple'." ::= { vgRptrAddrSearch 4 } vgRptrAddrTrackGroup OBJECT IDENTIFIER ::= { vgRptrAddrTrack 2 } vgRptrAddrTrackPort OBJECT IDENTIFIER ::= { vgRptrAddrTrack 3 } vgRptrAddrTrackTable OBJECT-TYPE SYNTAX SEQUENCE OF VgRptrAddrTrackEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "Table of address mapping information about the ports." ::= { vgRptrAddrTrackPort 1 } vgRptrAddrTrackEntry OBJECT-TYPE SYNTAX VgRptrAddrTrackEntry ACCESS not-accessible STATUS mandatory 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 Counter, vgRptrRptrDetectedDupAddress TruthValue, vgRptrMgrDetectedDupAddress TruthValue } vgRptrAddrLastTrainedAddress OBJECT-TYPE SYNTAX OCTET STRING ACCESS read-only STATUS mandatory 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." ::= { vgRptrAddrTrackEntry 1 } vgRptrAddrTrainedAddrChanges OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "This counter is incremented by one for each time that the vgRptrAddrLastTrainedAddress object for this port changes." ::= { vgRptrAddrTrackEntry 2 } vgRptrRptrDetectedDupAddress OBJECT-TYPE SYNTAX TruthValue ACCESS read-only STATUS mandatory DESCRIPTION "This object is used to indicate that the repeater detected an error-free training frame on this port with a source MAC address which matches the value of vgRptrAddrLastTrainedAddress of another active port. This is reset to 'false' when an error-free training frame is received with a source MAC address which does not match vgRptrAddrLastTrainedAddress of another port which is active. 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." ::= { vgRptrAddrTrackEntry 3 } vgRptrMgrDetectedDupAddress OBJECT-TYPE SYNTAX TruthValue ACCESS read-write STATUS mandatory 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." ::= { vgRptrAddrTrackEntry 4 } vgRptrTraps OBJECT IDENTIFIER ::= { vgRptrMIB 2 } vgRptrTrapPrefix OBJECT IDENTIFIER ::= { vgRptrTraps 0 } vgRptrHealth TRAP-TYPE ENTERPRISE { vgRptrTrapPrefix } VARIABLES { vgRptrHealthState } DESCRIPTION "A vgRptrHealth trap conveys information related to the operational state of the repeater. This trap is sent either when the value of vgRptrHealthState changes, or upon completion of a non-disruptive test. The vgRptrHealth trap is not sent as a result of powering up a repeater. The vgRptrHealth trap must contain the vgRptrHealthState object. The agent may optionally include the vgRptrHealthText object in the varBind list. See the vgRptrHealthState and vgRptrHealthText objects for descriptions of the information that is sent. 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.)" ::= 1 vgRptrGroupChange TRAP-TYPE ENTERPRISE { vgRptrTrapPrefix } VARIABLES { vgRptrGroupIndex } DESCRIPTION "This trap is sent when a change occurs in the group structure of a repeater. This occurs only when a group is logically or physically removed from or added to a repeater. The vgRptrGroupChange trap is not sent when powering up a repeater. The varBind list contains the identifier of the group that was removed or added. The agent must throttle the generation of consecutive vgRptrGroupChange 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.)" ::= 2 vgRptrResetEvent TRAP-TYPE ENTERPRISE { vgRptrTrapPrefix } VARIABLES { vgRptrHealthState } DESCRIPTION "A vgRptrResetEvent trap conveys information related to the operational state of the 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 Draft 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. However, it is recommended that an 802.12 repeater agent send the vgRptrHealthState object as an optional object with its coldStart and warmStart trap PDUs. The vgRptrResetEvent trap must contain the vgRptrHealthState object. The agent may optionally include the vgRptrHealthText object in the varBind list. See the vgRptrHealthState and vgRptrHealthText objects for descriptions of the information that is sent. 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.)" ::= 3 vgRptrConformance OBJECT IDENTIFIER ::= { vgRptrMIB 3 } vgRptrCompliances OBJECT IDENTIFIER ::= { vgRptrConformance 1 } vgRptrGroups OBJECT IDENTIFIER ::= { vgRptrConformance 2 } vgRptrCompliance OBJECT IDENTIFIER ::= { vgRptrCompliances 1 } vgRptrBasicCapabilityGroup OBJECT IDENTIFIER ::= { vgRptrGroups 1 } vgRptrBasicCounterGroup OBJECT IDENTIFIER ::= { vgRptrGroups 2 } vgRptrExpandedGroup OBJECT IDENTIFIER ::= { vgRptrGroups 3 } END