--MibName=cpqNic
-- ****************************************************************************
-- ****************************************************************************
--
--                  Network Interface Card Information
--         Management Information Base for SNMP Network Management
--
--
--      Copyright 1998,2004 Hewlett-Packard Development Company, L.P.
--
--      Hewlett-Packard Company shall not be liable for technical or
--      editorial errors or omissions contained herein. The information in
--      this document is provided "as is" without warranty of any kind and
--      is subject to change without notice. The warranties for HP products
--      are set forth in the express limited warranty statements
--      accompanying such products. Nothing herein should be construed as
--      constituting an additional warranty.
--
--      Confidential computer software. Valid license from HP required for
--      possession, use or copying. Consistent with FAR 12.211 and 12.212,
--      Commercial Computer Software, Computer Software Documentation, and
--      Technical Data for Commercial Items are licensed to the U.S.
--      Government under vendor's standard commercial license.
--
--      Refer to the READMIB.RDM file for more information about the
--      organization of the information in the Compaq Enterprise.
--
--      The Compaq Enterprise number is 232.
--      The ASN.1 prefix to, and including the Compaq Enterprise is:
--           1.3.6.1.4.1.232
--
--      The NIC MIB provides Network Interface Card information.
--
-- ****************************************************************************


CPQNIC-MIB DEFINITIONS ::= BEGIN

    IMPORTS
        compaq                  FROM CPQHOST-MIB
        Counter                 FROM RFC1155-SMI
        Gauge                   FROM RFC1155-SMI
        TimeTicks               FROM RFC1155-SMI
        DisplayString           FROM RFC1213-MIB
        OBJECT-TYPE             FROM RFC-1212
        TRAP-TYPE               FROM RFC-1215
        sysName                 FROM RFC1213-MIB
        ipAdEntAddr             FROM RFC1213-MIB
        cpqHoTrapFlags          FROM CPQHOST-MIB
        cpqSiServerSystemId     FROM CPQSINFO-MIB
        cpqSePciSlotBoardName   FROM CPQSTDEQ-MIB;

  compaq              OBJECT IDENTIFIER ::= { enterprises 232 }
    cpqNic              OBJECT IDENTIFIER ::= { compaq 18 }
    cpqNicMibRev        OBJECT IDENTIFIER ::= { cpqNic 1 }
    cpqNicComponent     OBJECT IDENTIFIER ::= { cpqNic 2 }

    cpqNicInterface     OBJECT IDENTIFIER ::= { cpqNicComponent 1 }
    cpqNicIfLogMap      OBJECT IDENTIFIER ::= { cpqNicComponent 2 }
    cpqNicIfPhysAdapter OBJECT IDENTIFIER ::= { cpqNicComponent 3 }
    cpqNicOsCommon      OBJECT IDENTIFIER ::= { cpqNicInterface 4 }
    cpqNicIfVlanMap     OBJECT IDENTIFIER ::= { cpqNicComponent 4 }
    cpqNicVirusThrottle OBJECT IDENTIFIER ::= { cpqNicComponent 5 }

-- ****************************************************************************
--   NIC Information MIB Revision
--   ================================
--
-- The compaq enterprise               (1.3.6.1.4.1.232)
--      cpqNic Group                   (1.3.6.1.4.1.232.18)
--       cpqNicMibRev Group            (1.3.6.1.4.1.232.18.1)
--
--      Implementation of the cpqNicMibRev group is mandatory for all agents
--      supporting the NIC MIB.
--
--      An SNMP Agent conforming to this document will return a
--      cpqNicMibRevMajor of one (1) and a cpqNicMibRevMinor of twelve (12).
--
--
-- ****************************************************************************

    cpqNicMibRevMajor OBJECT-TYPE
        SYNTAX  INTEGER (1..65535)
        ACCESS  read-only
        STATUS  mandatory
        DESCRIPTION
            "The Major Revision level of the MIB.

            A change in the major revision level represents a major change
            in the architecture of the MIB.  A change in the major revision
            level may indicate a significant change in the information
            supported and/or the meaning of the supported information.
            Correct interpretation of data may require a MIB document with
            the same major revision level."
        ::= { cpqNicMibRev 1 }

    cpqNicMibRevMinor OBJECT-TYPE
        SYNTAX  INTEGER (0..65535)
        ACCESS  read-only
        STATUS  mandatory
        DESCRIPTION
            "The Minor Revision level of the MIB.

            A change in the minor revision level may represent some minor
            additional support, no changes to any pre-existing information
            has occurred."
        ::= { cpqNicMibRev 2 }

    cpqNicMibCondition OBJECT-TYPE
        SYNTAX  INTEGER {
            unknown(1),
            ok(2),              -- default state
            degraded(3),
            failed(4)
            }
        ACCESS  read-only
        STATUS  mandatory
        DESCRIPTION
            "The overall condition.

             This object represents the overall status of the
             system represented by this MIB."
        ::= { cpqNicMibRev 3 }

-- ****************************************************************************
--   NIC OS Common
--   ==============
--
-- The compaq enterprise               (1.3.6.1.4.1.232)
--      cpqNic Group                   (1.3.6.1.4.1.232.18)
--       cpqNicComponent Group         (1.3.6.1.4.1.232.18.2)
--        cpqNicInterface Group        (1.3.6.1.4.1.232.18.2.1)
--         cpqNicOsCommon Group        (1.3.6.1.4.1.232.18.2.1.4)
--
--
--  Implementation of the cpqNicOsCommon group is mandatory for all
--  agents that support the NIC MIB.
--
-- ****************************************************************************

    cpqNicOsCommonPollFreq OBJECT-TYPE
        SYNTAX  INTEGER (0..65535)
        ACCESS  read-write
        STATUS  mandatory
        DESCRIPTION
            "The Insight Agent's polling frequency.

            The frequency, in seconds, at which the Insight Agent requests
            information from the device driver.  A frequency of zero (0)
            indicates that the Insight Agent retrieves the information upon
            request of a management station, it does not poll the device
            driver at a specific interval.

            If the poll frequency is zero (0) all attempts to write to this
            object will fail.  If the poll frequency is non-zero,
            setting this value will change the polling frequency of the
            Insight Agent.  Setting the poll frequency to zero (0) will
            always fail.  An agent may choose to fail any request to change
            the poll frequency to a value that would severely impact system
            performance."
        ::= { cpqNicOsCommon 1 }

-- ****************************************************************************
--   NIC OS Common Module Table
--   ===========================
--
-- The compaq enterprise               (1.3.6.1.4.1.232)
--      cpqNic Group                   (1.3.6.1.4.1.232.18)
--       cpqNicComponent Group         (1.3.6.1.4.1.232.18.2)
--        cpqNicInterface Group        (1.3.6.1.4.1.232.18.2.1)
--         cpqNicOsCommon Group        (1.3.6.1.4.1.232.18.2.1.4)
--          cpqNicOsCommonModuleTable  (1.3.6.1.4.1.232.18.2.1.4.2) deprecated
--
-- ****************************************************************************

    cpqNicOsCommonModuleTable OBJECT-TYPE
        SYNTAX  SEQUENCE OF CpqNicOsCommonModuleEntry
        ACCESS  not-accessible
        STATUS  deprecated
        DESCRIPTION
            "A table of software modules that provide an interface to the
            device this MIB describes."
        ::= { cpqNicOsCommon 2 }

    cpqNicOsCommonModuleEntry OBJECT-TYPE
        SYNTAX  CpqNicOsCommonModuleEntry
        ACCESS  not-accessible
        STATUS  deprecated
        DESCRIPTION
            "A description of a software module that provides an interface
            to the device this MIB describes."
        INDEX   { cpqNicOsCommonModuleIndex }
        ::= { cpqNicOsCommonModuleTable 1 }

        CpqNicOsCommonModuleEntry ::= SEQUENCE {
            cpqNicOsCommonModuleIndex       INTEGER,
            cpqNicOsCommonModuleName        DisplayString,
            cpqNicOsCommonModuleVersion     DisplayString,
            cpqNicOsCommonModuleDate        OCTET STRING,
            cpqNicOsCommonModulePurpose     DisplayString
        }

    cpqNicOsCommonModuleIndex OBJECT-TYPE
        SYNTAX  INTEGER (0..255)
        ACCESS  read-only
        STATUS  deprecated
        DESCRIPTION
            "A unique index for this module description."
        ::= { cpqNicOsCommonModuleEntry 1 }

    cpqNicOsCommonModuleName OBJECT-TYPE
        SYNTAX  DisplayString (SIZE (0..255))
        ACCESS  read-only
        STATUS  deprecated
        DESCRIPTION
            "The module name."
        ::= { cpqNicOsCommonModuleEntry 2 }

    cpqNicOsCommonModuleVersion OBJECT-TYPE
        SYNTAX  DisplayString (SIZE (0..5))
        ACCESS  read-only
        STATUS  deprecated
        DESCRIPTION
            "The module version in XX.YY format.

            Where XX is the major version number and YY is the minor version
            number.  This field will be null (size 0) string if the agent
            cannot provide the module version."
        ::= { cpqNicOsCommonModuleEntry 3 }

    cpqNicOsCommonModuleDate OBJECT-TYPE
        SYNTAX  OCTET STRING (SIZE (7))
        ACCESS  read-only
        STATUS  deprecated
        DESCRIPTION
            "The module date.

             field  octets  contents                  range
             =====  ======  =======                  =====
               1      1-2   year                      0..65536
               2       3    month                     1..12
               3       4    day                       1..31
               4       5    hour                      0..23
               5       6    minute                    0..59
               6       7    second                    0..60
                            (use 60 for leap-second)


            This field will be set to year = 0 if the agent cannot provide
            the module date.  The hour, minute, and second field will be set
            to zero (0) if they are not relevant.  The year field is set
            with the most significant octet first."
        ::= { cpqNicOsCommonModuleEntry 4 }

    cpqNicOsCommonModulePurpose OBJECT-TYPE
        SYNTAX  DisplayString (SIZE (0..255))
        ACCESS  read-only
        STATUS  deprecated
        DESCRIPTION
            "The purpose of the module described in this entry."
        ::= { cpqNicOsCommonModuleEntry 5 }

-- ****************************************************************************
--   NIC Interface Logical Map Table
--   ====================================
--
-- The compaq enterprise               (1.3.6.1.4.1.232)
--      cpqNic Group                   (1.3.6.1.4.1.232.18)
--       cpqNicComponent Group         (1.3.6.1.4.1.232.18.2)
--        cpqNicIfLogMap Group         (1.3.6.1.4.1.232.18.2.2)
--         cpqNicIfLogMapTable         (1.3.6.1.4.1.232.18.2.2.1)
--
--
--  The cpqNicIfLogMap group contains information to map interface numbers
--  in the MIB-II interface group to the logical interface adapters that
--  implement the interface.
--
--  A logical interface adapter consists of one or more physical adapters and
--  can implement a redundant solution where one of the physical adapters
--  may fail and another can assume responsibility for network traffic.
--  A logical adapter consisting of multiple adapters may also aggregate
--  network traffic in order to increase bandwidth.
--
--  Implementation of the cpqNicIfLogMap group is mandatory for all agents
--  that support the NIC MIB.
--
-- ****************************************************************************

    cpqNicIfLogMapTable OBJECT-TYPE
        SYNTAX  SEQUENCE OF CpqNicIfLogMapEntry
        ACCESS  not-accessible
        STATUS  mandatory
        DESCRIPTION
            "A table of interface to logical hardware mappings."
        ::= { cpqNicIfLogMap 1 }

    cpqNicIfLogMapEntry OBJECT-TYPE
        SYNTAX  CpqNicIfLogMapEntry
        ACCESS  not-accessible
        STATUS  mandatory
        DESCRIPTION
            "A mapping of an interface table entry to logical hardware."
        INDEX   { cpqNicIfLogMapIndex }
        ::= { cpqNicIfLogMapTable 1 }

    CpqNicIfLogMapEntry ::= SEQUENCE {
        cpqNicIfLogMapIndex               INTEGER,
        cpqNicIfLogMapIfNumber            OCTET STRING,
        cpqNicIfLogMapDescription         DisplayString,
        cpqNicIfLogMapGroupType           INTEGER,
        cpqNicIfLogMapAdapterCount        INTEGER,
        cpqNicIfLogMapAdapterOKCount      INTEGER,
        cpqNicIfLogMapPhysicalAdapters    OCTET STRING,
        cpqNicIfLogMapMACAddress          OCTET STRING,
        cpqNicIfLogMapSwitchoverMode      INTEGER,
        cpqNicIfLogMapCondition           INTEGER,
        cpqNicIfLogMapStatus              INTEGER,
        cpqNicIfLogMapNumSwitchovers      Counter,
        cpqNicIfLogMapHwLocation          DisplayString,
        cpqNicIfLogMapSpeed               Gauge,
        cpqNicIfLogMapVlanCount           INTEGER,
        cpqNicIfLogMapVlans               OCTET STRING,
        cpqNicIfLogMapLastChange          TimeTicks,
        cpqNicIfLogMapAdvancedTeaming     INTEGER,
        cpqNicIfLogMapSpeedMbps           Gauge
    }

    cpqNicIfLogMapIndex OBJECT-TYPE
        SYNTAX  INTEGER (0..65535)
        ACCESS  read-only
        STATUS  mandatory
        DESCRIPTION
            "An index that uniquely specifies this entry."
        ::= { cpqNicIfLogMapEntry 1 }


    cpqNicIfLogMapIfNumber OBJECT-TYPE
        SYNTAX  OCTET STRING
        ACCESS  read-only
        STATUS  mandatory
        DESCRIPTION
            "An OCTET STRING representing an array of MIB II Interface
             Numbers implemented by this logical adapter. Each entry is
             a 32-bit value, represented by 4 octets in LSB...MSB
             (Little-Endian) order.

             There may be 0 or more Interface Numbers on a particular
             logical adapter, depending on the operating system's
             assignment of Interface Numbers.  There is an interface
             number field in the cpqNicIfPhysAdapterTable which may
             contain one or more interface numbers.  For logical
             adapters with one Physical Adapter, the same Interface
             Number(s) may appear in both tables."
        ::= { cpqNicIfLogMapEntry 2 }

    cpqNicIfLogMapDescription OBJECT-TYPE
        SYNTAX  DisplayString (SIZE (0..255))
        ACCESS  read-only
        STATUS  mandatory
        DESCRIPTION
            "Description of the logical adapter. This string
             is NULL terminated."
        ::= { cpqNicIfLogMapEntry 3 }

    cpqNicIfLogMapGroupType OBJECT-TYPE
        SYNTAX  INTEGER
        {
            unknown(1),
            none(2),
            redundantPair(3),
            nft(4),
            alb(5),
            fec(6),
            gec(7),
            ad(8),
            slb(9),
            tlb(10)
        }
        ACCESS  read-only
        STATUS  mandatory
        DESCRIPTION
            "The type of Fault Tolerance supplied by this logical adapter.

             The following types of Fault Tolerance are supported:

             unknown(1)
               Indicates that the instrument agent does not recognize the
               controller.  You may need to upgrade the instrument agent.

             none(2)
               Indicates the logical adapter is not fault tolerant.
               There is a single physical adapter associated with the
               logical adapter.

             redundantPair(3)
               Indicates that the logical adapter has two adapters associated
               with it.  One adapter is active and the other adapter is a
               hot standby.  No longer used.

             nft(4)
               Network Fault Tolerance.  The logical adapter has two or more
               adapters associated with it.  One adapter is active on the
               network and the other(s) are hot standby(s).

             alb(5)
               Adaptive Load Balancing. Indicates that the logical adapter has
               more than one physical adapter associated with it.  One adapter
               transmits and receives, while the others only transmit.  If the
               receiving adapter fails, one of the other adapters assumes this
               role.  No longer used.

             fec(6)
               Fast EtherChannel.  This allows all physical adapters
               associated with the logical adapter to both receive and
               transmit.  This requires a switch that cooperates with
               the adapters.  If any adapter fails, the load is spread
               among the remaining adapters.  No longer used.

             gec(7)
               Gigabit EtherChannel.  This allows all physical adapters
               associated with the logical adapter to both receive and
               transmit.  This requires a gigabit switch that cooperates
               with the adapters.  If any adapter fails, the load is
               spread among the remaining adapters.  No longer used.

             ad(8)
               IEEE802.3ad Link Aggregation.  This allows all physical
               adapters associated with the logical adapter to both receive
               and transmit.  This requires a switch that cooperates with
               the adapters.  If any adapter fails, the load is spread
               among the remaining adapters.  No longer used.

             slb(9)
               Switch-assisted load balancing.  This allows all physical
               adapters associated with the logical adapter to both receive
               and transmit.  This requires a switch that cooperates with
               the adapters.  If any adapter fails, the load is spread
               among the remaining adapters.  Aggregates fec, gec, and ad.

             tlb(10)
               Transmit Load Balancing. Indicates that the logical adapter has
               more than one physical adapter associated with it.  One adapter
               transmits and receives, while the others only transmit.  If the
               receiving adapter fails, one of the other adapters assumes this
               role.  Formerly alb."

        ::= { cpqNicIfLogMapEntry 4 }

    cpqNicIfLogMapAdapterCount OBJECT-TYPE
        SYNTAX  INTEGER (0..16)
        ACCESS  read-only
        STATUS  mandatory
        DESCRIPTION
            "The number of physical adapters associated with this logical
             adapter."
        ::= { cpqNicIfLogMapEntry 5 }


    cpqNicIfLogMapAdapterOKCount OBJECT-TYPE
        SYNTAX  INTEGER (0..16)
        ACCESS  read-only
        STATUS  mandatory
        DESCRIPTION
            "The number of physical adapters associated with this logical
             adapter that have an OK condition."
        ::= { cpqNicIfLogMapEntry 6 }


   cpqNicIfLogMapPhysicalAdapters OBJECT-TYPE
        SYNTAX  OCTET STRING (SIZE (0..16))
        ACCESS  read-only
        STATUS  mandatory
        DESCRIPTION
            "An array of octets corresponding to the indices in the
             cpqNicIfPhysAdapterTable of the physical adapters
             associated with this logical adapter.  The number
             of octets is equal to cpqNicIfLogMapAdapterCount."
        ::= { cpqNicIfLogMapEntry 7 }

   cpqNicIfLogMapMACAddress OBJECT-TYPE
        SYNTAX  OCTET STRING (SIZE (0..6))
        ACCESS  read-only
        STATUS  mandatory
        DESCRIPTION
            "The MAC (physical) address that the logical adapter
             presents to the network."
        ::= { cpqNicIfLogMapEntry 8 }


    cpqNicIfLogMapSwitchoverMode OBJECT-TYPE
        SYNTAX  INTEGER
        {
            unknown(1),
            none(2),
            manual(3),
            switchOnFail(4),
            preferredPrimary(5),
            auto(6),
            preferenceOrder(7)
        }
        ACCESS  read-only
        STATUS  mandatory
        DESCRIPTION
            "The algorithm used to determine when to switch network traffic
             from one adapter to another.

             The following algorithms are supported:

             unknown(1)
               Indicates that the instrument agent does not recognize the
               controller.  You may need to upgrade the instrument agent.

             none(2)
               Indicates the logical adapter is not fault tolerant.  There
               is a single physical adapter associated with the logical adapter.

             manual(3)
               Indicates that the logical adapter has more than one physical
               adapter associated with it.  In order to switch from the active
               adapter to a standby adapter, user action is required.

             switchOnFail(4)
               Indicates that the logical adapter has more than one physical
               adapter associated with it.  If a failure of the active adapter
               is detected, network traffic will automatically switch to a
               standby adapter.  The standby adapter will remain active until
               some action (manual switch, system restart) restores the
               primary adapter to active.

             preferredPrimary(5)
               Indicates that the logical adapter has more than one physical
               adapter associated with it.  If a failure of the active adapter
               is detected, network traffic will automatically switch to a
               standby adapter.  If the original primary adapter recovers from
               the failure, it will automatically become active again.

             auto(6)
               Indicates that the logical adapter is not in manual failover
               mode.

             preferenceOrder(7)
               Indicates that the logical adapter has more than one physical
               adapter associated with it. When a failure of the active adapter
               is detected, network traffic automatically switchs to one
               standby adapter. The relative priority of adapters are used to
               select the new primary adapter."
        ::= { cpqNicIfLogMapEntry 9 }


    cpqNicIfLogMapCondition OBJECT-TYPE
        SYNTAX  INTEGER
        {
            other(1),    -- default
            ok(2),
            degraded(3),
            failed(4)
        }
        ACCESS  read-only
        STATUS  mandatory
        DESCRIPTION
            "The condition of this interface. This value represents the
             overall condition of the logical adapter group.

             This value is driven by the cpqNicIfLogMapStatus object
             as follows:

             other(1)
               Indicates that the value of the Logical Map Status
               is unknown(1).

             ok(2)
               Indicates that the value of the Logical Map Status is
               ok(2).

             degraded(3)
               Indicates that the value of the Logical Map Status is
               either primaryFailed(3) or standbyFailed(4).
               The Logical adapter still functions in this state,
               but performance and redundancy are degraded.

             failed(4)
               Indicates that the value of the Logical Map Status is
               groupFailed(5).  This indicates that all the adapters
               in the logical group have failed and no network traffic
               is occurring."
        ::= { cpqNicIfLogMapEntry 10 }

    cpqNicIfLogMapStatus OBJECT-TYPE
        SYNTAX  INTEGER
        {
            unknown(1),
            ok(2),
            primaryFailed(3),
            standbyFailed(4),
            groupFailed(5),
            redundancyReduced(6),
            redundancyLost(7)
        }
        ACCESS  read-only
        STATUS  mandatory
        DESCRIPTION
            "The status of the logical group.

             The following values are valid for the logical group status:

             unknown(1)
               The instrument agent may not support this value.  You may
               need to load a new instrument agent.

             ok(2)
               The adapter group is functioning properly.

             primaryFailed(3)
               The adapter specified as primary in the group has failed.
               the group is still functioning and one of the standby
               adapters has assumed the role of primary.  Depending on
               the number of adapters in the group, redundancy may be
               lost.

             standbyFailed(4)
               An adapter specified as standby or secondary in the
               group has failed.  the group is still functioning and
               one of the standby adapters has assumed the role of
               primary.  Depending on the number of adapters in the
               group, redundancy may be lost.

             groupFailed(5)
               All adapters in the group have failed.  Network connectivity
               has been lost for the group.  This status will be returned
               for logical groups with a single physical adapter that
               has failed.

             redundancyReduced(6)
               Atleast one adapter in the team has failed but there are
               more than one adapter available.
               
             redundancyLost(7)
               Only one adapter in the team is functioning properly. If this
               adapter fails, the team will go to failed status."
        ::= { cpqNicIfLogMapEntry 11 }

    cpqNicIfLogMapNumSwitchovers OBJECT-TYPE
        SYNTAX  Counter
        ACCESS  read-only
        STATUS  mandatory
        DESCRIPTION
            "The number of times a fault tolerant switchover has
             occurred.  Switchovers occur because the primary adapter
             fails."
        ::= { cpqNicIfLogMapEntry 12 }

    cpqNicIfLogMapHwLocation OBJECT-TYPE
        SYNTAX  DisplayString (SIZE (0..255))
        ACCESS  read-only
        STATUS  optional
        DESCRIPTION
            "A text description of the hardware location, on complex
             multi SBB hardware only, for the adapters.
             A NULL string indicates that the hardware location could not
             be determined or is irrelevant."
        ::= { cpqNicIfLogMapEntry 13 }

    cpqNicIfLogMapOverallCondition OBJECT-TYPE
        SYNTAX  INTEGER
        {
            other(1),
            ok(2),
            degraded(3),
            failed(4)
        }
        ACCESS  read-only
        STATUS  mandatory
        DESCRIPTION
            "The overall condition of all interfaces.  This object
             is the worst case of any individual interface.  For
             example, if there is one degraded interface, this variable
             will have a value of degraded(3).  If there is one failed
             interface, this variable will have a value of failed(4)."
        ::= { cpqNicIfLogMap 2 }

    cpqNicIfLogMapSpeed OBJECT-TYPE
        SYNTAX  Gauge
        ACCESS  read-only
        STATUS  mandatory
        DESCRIPTION
            "An estimate of the interface's current bandwidth
             in bits per second. For interfaces which do not
             vary in bandwidth or for those where no accurate
             estimation can be made, this object should contain
             the nominal bandwidth."
        ::= { cpqNicIfLogMapEntry 14 }


   cpqNicIfLogMapVlanCount OBJECT-TYPE
        SYNTAX  INTEGER (0..64)
        ACCESS  read-only
        STATUS  mandatory
        DESCRIPTION
            "The number of VLANs associated with this logical
             adapter."
        ::= { cpqNicIfLogMapEntry 15 }


   cpqNicIfLogMapVlans OBJECT-TYPE
        SYNTAX  OCTET STRING (SIZE (0..64))
        ACCESS  read-only
        STATUS  mandatory
        DESCRIPTION
            "An array of octets corresponding to the indices in the
             cpqNicIfVlanMapTable of the VLANs associated with this
             logical adapter.  The number of octets is equal to
             cpqNicIfLogMapVlanCount."
        ::= { cpqNicIfLogMapEntry 16 }

   cpqNicIfLogMapLastChange OBJECT-TYPE
        SYNTAX  TimeTicks
        ACCESS  read-only
        STATUS  mandatory
        DESCRIPTION
            "The time the underlying link associated with this
             interface changed its status from either link up to
             link down or link down to link up."
       ::= { cpqNicIfLogMapEntry 17 }

  cpqNicIfLogMapAdvancedTeaming OBJECT-TYPE
        SYNTAX  INTEGER
        ACCESS  read-only
        STATUS  mandatory
        DESCRIPTION
          "This bitmap indicates the advanced features being used by the
          logical adapter (team).
          cpqNicIfLogMapAdvancedTeaming AND 1 is 1, Active Path Failover is
          enabled.
          cpqNicIfLogMapAdvancedTeaming AND 2 is 2, Fast Path Failover is
          enabled.
          cpqNicIfLogMapAdvancedTeaming AND 4 is 4, Static dual channel is
          enabled.
          cpqNicIfLogMapAdvancedTeaming AND 8 is 8, Dynamic dual channel is
          enabled.
	        cpqNicIfLogMapAdvancedTeaming AND 16 is 16, Router Path Failover is
          enabled.	"
        ::= { cpqNicIfLogMapEntry 18 }

    cpqNicIfLogMapSpeedMbps OBJECT-TYPE
        SYNTAX  Gauge
        ACCESS  read-only
        STATUS  optional
        DESCRIPTION
            "An estimate of the interface's current bandwidth
             in Megabits per second. For interfaces which do not
             vary in bandwidth or for those where no accurate
             estimation can be made, this object should contain
             the nominal bandwidth."
        ::= { cpqNicIfLogMapEntry 19 }


-- ****************************************************************************
--   Physical Network Adapter Table
--   ====================================
--
-- The compaq enterprise               (1.3.6.1.4.1.232)
--      cpqNic Group                   (1.3.6.1.4.1.232.18)
--       cpqNicComponent Group         (1.3.6.1.4.1.232.18.2)
--        cpqNicIfPhysAdapter Group    (1.3.6.1.4.1.232.18.2.3)
--         cpqNicIfPhysAdapterTable    (1.3.6.1.4.1.232.18.2.3.1)
--
--
--  The cpqNicIfPhysAdapter group contains information to map physical adapters
--  to the logical adapters that implement the interface.
--
--  Implementation of the cpqNicIfPhysAdapter group is mandatory for all agents
--  that support the NIC MIB.
--
-- ****************************************************************************

    cpqNicIfPhysAdapterTable OBJECT-TYPE
        SYNTAX  SEQUENCE OF CpqNicIfPhysAdapterEntry
        ACCESS  not-accessible
        STATUS  mandatory
        DESCRIPTION
            "A table of physical adapters."
        ::= { cpqNicIfPhysAdapter 1 }

    cpqNicIfPhysAdapterEntry OBJECT-TYPE
        SYNTAX  CpqNicIfPhysAdapterEntry
        ACCESS  not-accessible
        STATUS  mandatory
        DESCRIPTION
            "A physical adapter table entry."
        INDEX   { cpqNicIfPhysAdapterIndex }
        ::= { cpqNicIfPhysAdapterTable 1 }

    CpqNicIfPhysAdapterEntry ::= SEQUENCE {
        cpqNicIfPhysAdapterIndex                     INTEGER,
        cpqNicIfPhysAdapterIfNumber                  OCTET STRING,
        cpqNicIfPhysAdapterRole                      INTEGER,
        cpqNicIfPhysAdapterMACAddress                OCTET STRING,
        cpqNicIfPhysAdapterSlot                      INTEGER,
        cpqNicIfPhysAdapterIoAddr                    INTEGER,
        cpqNicIfPhysAdapterIrq                       INTEGER,
        cpqNicIfPhysAdapterDma                       INTEGER,
        cpqNicIfPhysAdapterMemAddr                   INTEGER,
        cpqNicIfPhysAdapterPort                      INTEGER,
        cpqNicIfPhysAdapterDuplexState               INTEGER,
        cpqNicIfPhysAdapterCondition                 INTEGER,
        cpqNicIfPhysAdapterState                     INTEGER,
        cpqNicIfPhysAdapterStatus                    INTEGER,
        cpqNicIfPhysAdapterStatsValid                INTEGER,
        cpqNicIfPhysAdapterGoodTransmits             Counter,
        cpqNicIfPhysAdapterGoodReceives              Counter,
        cpqNicIfPhysAdapterBadTransmits              Counter,
        cpqNicIfPhysAdapterBadReceives               Counter,
        cpqNicIfPhysAdapterAlignmentErrors           Counter,
        cpqNicIfPhysAdapterFCSErrors                 Counter,
        cpqNicIfPhysAdapterSingleCollisionFrames     Counter,
        cpqNicIfPhysAdapterMultipleCollisionFrames   Counter,
        cpqNicIfPhysAdapterDeferredTransmissions     Counter,
        cpqNicIfPhysAdapterLateCollisions            Counter,
        cpqNicIfPhysAdapterExcessiveCollisions       Counter,
        cpqNicIfPhysAdapterInternalMacTransmitErrors Counter,
        cpqNicIfPhysAdapterCarrierSenseErrors        Counter,
        cpqNicIfPhysAdapterFrameTooLongs             Counter,
        cpqNicIfPhysAdapterInternalMacReceiveErrors  Counter,
        cpqNicIfPhysAdapterHwLocation                DisplayString,
        cpqNicIfPhysAdapterPartNumber                DisplayString,
        cpqNicIfPhysAdapterSpeed                     Gauge,
        cpqNicIfPhysAdapterConfSpeedDuplex           INTEGER,
        cpqNicIfPhysAdapterAggregationGID            INTEGER,
        cpqNicIfPhysAdapterSpeedMbps                   Gauge,
        cpqNicIfPhysAdapterInOctets                  Counter,
        cpqNicIfPhysAdapterOutOctets                 Counter,
				cpqNicIfPhysAdapterName                      DisplayString

    }

    cpqNicIfPhysAdapterIndex OBJECT-TYPE
        SYNTAX  INTEGER (0..65535)
        ACCESS  read-only
        STATUS  mandatory
        DESCRIPTION
            "An index that uniquely specifies this entry."
        ::= { cpqNicIfPhysAdapterEntry 1 }

    cpqNicIfPhysAdapterIfNumber OBJECT-TYPE
        SYNTAX  OCTET STRING
        ACCESS  read-only
        STATUS  mandatory
        DESCRIPTION
            "An OCTET STRING representing an array of MIB II Interface
             Numbers implemented by this physical adapter. Each entry is
             a 32-bit value, represented by 4 octets in LSB...MSB
             (Little-Endian) order.

             There may be 0 or more Interface Numbers on a particular
             physical adapter, depending on the operating system's
             assignment of Interface Numbers.  There is also an Interface
             Number field in the cpqNicIfLogMapTable which may
             contain one or more Interface Numbers.  For logical
             adapters with one Physical Adapter, the same Interface
             Number(s) appear in both tables."
        ::= { cpqNicIfPhysAdapterEntry 2 }

    cpqNicIfPhysAdapterRole OBJECT-TYPE
        SYNTAX  INTEGER
        {
            unknown(1),
            primary(2),
            secondary(3),
            member(4),
            txRx(5),
            tx(6),
            standby(7),
            none(8),
            notApplicable(255)
        }
        ACCESS  read-only
        STATUS  mandatory
        DESCRIPTION
            "The role this physical adapter has in the logical group.

             The following values are valid:

             unknown(1)
               The role of the adapter could not be determined.  This
               indicates a problem with the instrument agent.  A new
               agent may need to be installed.

             primary(2)
               The adapter is the primary adapter in the group, or the
               group consists of a single adapter.  The primary adapter
               in a Single Pair or NFT group handles all the network
               traffic unless it fails.  The primary adapter in an ALB
               group receives all traffic.  The physical address of
               this adapter is the default address of the group.  In
               a FEC group, an arbitrary adapter is designated as
               primary, but all adapters are equal and participate
               fully on the network.

             secondary(3)
               In Single Pair and NFT groups, this adapter functions as a
               hot standby.  No network traffic is handled by this adapter
               other than periodic test packets.
               In an ALB group, this adapter is in a secondary role and
               transmits packets to increase bandwidth.
               In an FEC group, this adapter participates fully in network
               traffic.

             member(4)
               The adapter is a member of a Switch Assisted Load
               Balancing Team.  The adapter participates fully in network
               traffic.
               
             TxRx(5)
               The adapter can transmit and receive.
               
             Tx(6)
               The adapter can only transmit.

             standby(7)
               The adapter does not transmit or receive. It can go to TxRx or
               Tx when required.

             none(8)
               The adapter is not in use.

             notApplicable(255)
                The physical adapter is not a member of any group."

        ::= { cpqNicIfPhysAdapterEntry 3 }

    cpqNicIfPhysAdapterMACAddress OBJECT-TYPE
        SYNTAX  OCTET STRING (SIZE (6))
        ACCESS  read-only
        STATUS  mandatory
        DESCRIPTION
            "The physical (MAC) address of the adapter.  In
             some configurations this may be a null length
             octet string."
        ::= { cpqNicIfPhysAdapterEntry 4 }

    cpqNicIfPhysAdapterSlot OBJECT-TYPE
        SYNTAX  INTEGER
        ACCESS  read-only
        STATUS  mandatory
        DESCRIPTION
            "The number of the slot containing the physical hardware
             that implements this interface.  The number zero (0)
             indicates an embedded interface (on the system board).
             A value of -1 indicates an interface whose slot is unknown.
             Values may be unknown if the physical hardware has not
             been configured using the System Configuration Utility."
        ::= { cpqNicIfPhysAdapterEntry 5 }

    cpqNicIfPhysAdapterIoAddr OBJECT-TYPE
        SYNTAX  INTEGER
        ACCESS  read-only
        STATUS  mandatory
        DESCRIPTION
            "The base I/O address of the physical adapter.  The number
             zero (0) indicates that the device does not use I/O mapped
             addresses or this information is unavailable."
        ::= { cpqNicIfPhysAdapterEntry 6 }

    cpqNicIfPhysAdapterIrq OBJECT-TYPE
        SYNTAX  INTEGER (0..255)
        ACCESS  read-only
        STATUS  mandatory
        DESCRIPTION
            "The number of the IRQ (interrupt) used for this physical
             hardware interface.  The number zero (0) indicates that
             this device does not use an IRQ or this information is
             unavailable."
        ::= { cpqNicIfPhysAdapterEntry 7 }

    cpqNicIfPhysAdapterDma OBJECT-TYPE
        SYNTAX  INTEGER
        ACCESS  read-only
        STATUS  mandatory
        DESCRIPTION
            "The number of the DMA channel used for this physical hardware
             interface.  The number -1 indicates that this device does not
             use a DMA channel or this information is unavailable."
        ::= { cpqNicIfPhysAdapterEntry 8 }

    cpqNicIfPhysAdapterMemAddr OBJECT-TYPE
        SYNTAX  INTEGER
        ACCESS  read-only
        STATUS  mandatory
        DESCRIPTION
            "The base memory address used by this physical hardware
             interface.  The number zero (0) indicates that this
             device does not use system memory or this information
             is unavailable."
        ::= { cpqNicIfPhysAdapterEntry 9 }

    cpqNicIfPhysAdapterPort OBJECT-TYPE
        SYNTAX  INTEGER
        ACCESS  read-only
        STATUS  mandatory
        DESCRIPTION
            "The port number of the interface for multi-port NICs.
            A port number of -1 indicates that the port could not
            be determined."
        ::= { cpqNicIfPhysAdapterEntry 10 }

    cpqNicIfPhysAdapterDuplexState OBJECT-TYPE
        SYNTAX  INTEGER
        {
            unknown(1), -- default
            half(2),
            full(3)
        }
        ACCESS  read-only
        STATUS  mandatory
        DESCRIPTION
            "This variable describes the current duplex state of the
             adapter.  A value of unknown indicates that the duplex
             state could not be determined."
        ::= { cpqNicIfPhysAdapterEntry 11 }

    cpqNicIfPhysAdapterCondition OBJECT-TYPE
        SYNTAX  INTEGER
        {
            other(1),    -- default
            ok(2),
            degraded(3),
            failed(4)
        }
        ACCESS  read-only
        STATUS  mandatory
        DESCRIPTION
            "The condition of this physical adapter.

             This value is driven by the cpqNicIfPhysAdapterStatus object
             as follows:

             other(1)
               Indicates that the value of the Physical Adapter
               Status is unknown(1).

             ok(2)
               Indicates that the value of the Physical Adapter
               Status is ok(2).

             degraded(3)
               Defined for all condition variables, but is
               not applicable for single adapters.

             failed(4)
               Indicates that the value of the Physical Adapter
               Status is linkFailure(4)."
        ::= { cpqNicIfPhysAdapterEntry 12 }

    cpqNicIfPhysAdapterState OBJECT-TYPE
        SYNTAX  INTEGER
        {
            unknown(1),    -- default
            active(2),
            standby(3),
            failed(4)
        }
        ACCESS  read-only
        STATUS  mandatory
        DESCRIPTION
            "The fault tolerant state of this adapter.  Although
             this value is valid for adapters that are not
             part of a fault tolerant group, it only provides
             additional information when the adapter participates in
             a group.

             The following values are valid:

             unknown(1)
               The fault tolerant state could not be determined.  The
               instrument agent may need to be upgraded.

             active(2)
               The adapter is actively participating in the network.
               This state is displayed for adapters that are not part
               of a fault tolerant group and for adapters in a fault
               tolerant group that are not in the standby state.

             standby(3)
               The adapter is ready to assume network activity in case
               of a failure of the active adapter.

             failed(4)
               The adapter has failed and cannot participate on the
               network."
        ::= { cpqNicIfPhysAdapterEntry 13 }


    cpqNicIfPhysAdapterStatus OBJECT-TYPE
        SYNTAX  INTEGER
        {
            unknown(1),    -- default
            ok(2),
            generalFailure(3),
            linkFailure(4)
        }
        ACCESS  read-only
        STATUS  mandatory
        DESCRIPTION
            "The physical adapter status.

             The following values are valid:

             unknown(1)
               The instrument agent was not able to determine the status
               of the adapter.  The instrument agent may need to be
               upgraded.

             ok(2)
               The physical adapter is operating properly.

             generalFailure(3)
               The physical adapter has failed.

             linkFailure(4)
               The physical adapter has lost link.  Check the
               cable connections to this adapter."
        ::= { cpqNicIfPhysAdapterEntry 14 }


    cpqNicIfPhysAdapterStatsValid OBJECT-TYPE
        SYNTAX  INTEGER
        {
            true(1),
            false(2)
        }
        ACCESS  read-only
        STATUS  mandatory
        DESCRIPTION
            "This value indicates whether the following statistics
             in the table are accurate.  Some adapters may not be
             able to report the statistics accurately, and the
             statistics should not be reported for these adapters.

             The following values are valid:

             true(1)
               The statistics are accurate.

             false(2)
               The statistics are not accurate and should not
               be used."
        ::= { cpqNicIfPhysAdapterEntry 15 }


    cpqNicIfPhysAdapterGoodTransmits   OBJECT-TYPE
       SYNTAX    Counter
       ACCESS    read-only
       STATUS    mandatory
       DESCRIPTION
           "A count of frames successfully transmitted
            by the physical adapter."
       ::= { cpqNicIfPhysAdapterEntry 16 }



    cpqNicIfPhysAdapterGoodReceives   OBJECT-TYPE
       SYNTAX    Counter
       ACCESS    read-only
       STATUS    mandatory
       DESCRIPTION
           "A count of frames successfully received by the
            physical adapter."
       ::= { cpqNicIfPhysAdapterEntry 17 }



    cpqNicIfPhysAdapterBadTransmits   OBJECT-TYPE
       SYNTAX    Counter
       ACCESS    read-only
       STATUS    mandatory
       DESCRIPTION
           "A count of frames that were not transmitted by
            the adapter because of an error.  This counter is the
            sum of MIB items cpqNicIfPhysAdapterDeferredTransmissions
            cpqNicIfPhysAdapterLateCollisions,
            cpqNicIfPhysAdapterExcessiveCollisions,
            cpqNicIfPhysAdapterCarrierSenseErrors, and
            cpqNicIfPhysAdapterInternalMacTransmitErrors.

            If this counter increments frequently, check the
            more detailed error statistics and take appropriate
            action."
       ::= { cpqNicIfPhysAdapterEntry 18 }



    cpqNicIfPhysAdapterBadReceives   OBJECT-TYPE
       SYNTAX    Counter
       ACCESS    read-only
       STATUS    mandatory
       DESCRIPTION
           "A count of frames that were received by the adapter
            but which had an error.  This counter is the sum of
            mib items cpqNicIfPhysAdapterAlignmentErrors,
            cpqNicIfPhysAdapterFCSErrors,
            cpqNicIfPhysAdapterFrameTooLongs, and
            cpqNicIfPhysAdapterInternalMacReceiveErrors.

            If this counter increments frequently, check the
            more detailed error statistics and take appropriate
            action."
       ::= { cpqNicIfPhysAdapterEntry 19 }


    cpqNicIfPhysAdapterAlignmentErrors   OBJECT-TYPE
       SYNTAX    Counter
       ACCESS    read-only
       STATUS    mandatory
       DESCRIPTION
           "A count of frames received on a particular
            interface that are not an integral number of
            octets in length and do not pass the FCS check.
            The alignment of a frame is checked by the
            receiver after the packet has failed the
            Cyclical Redundancy Check (CRC). Misaligned
            packets do not end on an 8-bit boundary.
            All packets contain a set number of bytes
            and must end after a defined number of bytes.
            Packets that do not end on a byte boundary
            fail the alignment check.

            Faulty components may be the cause of alignment
            errors. Check the following:

            Segment too long: Nodes at the far end of the
            cabling system transmit, unaware that a station
            at the other end has already gained control of
            the medium by transmitting the first 64 bytes
            of a frame.

            Failing cable: Packet data traveling through
            shorted or damaged cabling may become corrupt
            before reaching the destination station.

            Segment not grounded properly: Improper grounding
            of a segment may allow ground-induced noise to
            corrupt data flow.

            Improper termination: If a cable segment is not
            properly terminated, allowing the signal to be
            absorbed upon reaching the end of the segment,
            a partial signal will bounce back and collide
            with existing signals.

            Noisy cable: Interference or noise produced by
            motors or other devices can distort the signals
            and cause CRC/Alignment errors.

            Deaf/partially deaf node: A faulty station that
            cannot hear the activity is considered a deaf node.
            If you suspect a deaf node, replace the NIC.

            Failing repeater, transceiver, or controller:
            Repeaters, transceivers, and controllers can
            disrupt the network signal, transmit erroneous
            signals on the wire, or ignore incoming packets.
            Perform the following steps:

            1.  If your NIC is continuously transmitting,
                it causes erroneous signals, or 'jabber'.
                Replace a jabbering transmitter to ensure
                proper network performance.

            2.  Check your hub or switch. This component
                may be at fault.  Use the diagnostics from
                the component manufacturer to help you
                determine if a problem exists."
       ::= { cpqNicIfPhysAdapterEntry 20 }


    cpqNicIfPhysAdapterFCSErrors   OBJECT-TYPE
        SYNTAX    Counter
        ACCESS    read-only
        STATUS    mandatory
        DESCRIPTION
            "A count of frames received on a particular
             interface that are an integral number of octets
             in length but do not pass the FCS check.


             Faulty components may be the cause of FCS
             errors. Check the following:

             Segment too long: Nodes at the far end of the
             cabling system transmit, unaware that a station
             at the other end has already gained control of
             the medium by transmitting the first 64 bytes
             of a frame.

             Failing cable: Packet data traveling through
             shorted or damaged cabling may become corrupt
             before reaching the destination station.

             Segment not grounded properly: Improper grounding
             of a segment may allow ground-induced noise to
             corrupt data flow.

             Improper termination: If a cable segment is not
             properly terminated, allowing the signal to be
             absorbed upon reaching the end of the segment,
             a partial signal will bounce back and collide
             with existing signals.

             Noisy cable: Interference or noise produced by
             motors or other devices can distort the signals
             and cause CRC/Alignment errors.

             Deaf/partially deaf node: A faulty station that
             cannot hear the activity is considered a deaf node.
             If you suspect a deaf node, replace the NIC.

             Failing repeater, transceiver, or controller:
             Repeaters, transceivers, and controllers can
             disrupt the network signal, transmit erroneous
             signals on the wire, or ignore incoming packets.
             Perform the following steps:

             1.  If your NIC is continuously transmitting,
                 it causes erroneous signals, or 'jabber'.
                 Replace a jabbering transmitter to ensure
                 proper network performance.

             2.  Check your hub or switch. This component
                 may be at fault.  Use the diagnostics from
                 the component manufacturer to help you
                 determine if a problem exists."
        ::= { cpqNicIfPhysAdapterEntry 21 }


    cpqNicIfPhysAdapterSingleCollisionFrames   OBJECT-TYPE
        SYNTAX    Counter
        ACCESS    read-only
        STATUS    mandatory
        DESCRIPTION
            "The number of single collision packets:
             This counter contains the number of packets
             that are involved in a single collision and
             are subsequently transmitted successfully.

             These errors show that the network has light
             to moderate traffic.  If single collisions
             become more frequent, the count for multiple
             collisions escalates."
        ::= { cpqNicIfPhysAdapterEntry 22 }


    cpqNicIfPhysAdapterMultipleCollisionFrames   OBJECT-TYPE
        SYNTAX    Counter
        ACCESS    read-only
        STATUS    mandatory
        DESCRIPTION
            "The number of multiple collision packets:
             This counter contains the number of packets
             that are involved in multiple collisions and
             are subsequently transmitted successfully.

             These errors mean that the network is experiencing
             moderate to heavy traffic.  If multiple collisions
             become more frequent, the count for excessive
             collisions escalates."
        ::= { cpqNicIfPhysAdapterEntry 23 }


    cpqNicIfPhysAdapterDeferredTransmissions   OBJECT-TYPE
        SYNTAX    Counter
        ACCESS    read-only
        STATUS    mandatory
        DESCRIPTION
            "The number of packets deferred before transmission:
             This counter contains the number of packets whose
             transmission was delayed on its first attempt
             because the medium was busy.  Packets involved
             in any collisions are not counted.  Frames
             that wait before transmission are counted.
             This statistic will be incremented often during
             normal operation on a busy network.

             Deferred transmissions occur when the network
             is extremely busy; so busy that the NIC did
             not try to transmit.  High counts of multiple
             collisions and excessive collisions also occur.

             Deferred transmissions indicate that this segment
             of the LAN is overcrowded.  Reduce the traffic
             by reorganizing the LAN.  For example, if you
             have 100 stations on one Ethernet bus, break it
             into two Ethernet segments by adding a NIC to
             your server.  In this way you can balance the
             load by putting 50 stations on one segment and
             50 on the other.  If a few isolated stations
             create the traffic, put them on a separate segment."
        ::= { cpqNicIfPhysAdapterEntry 24 }


    cpqNicIfPhysAdapterLateCollisions   OBJECT-TYPE
        SYNTAX    Counter
        ACCESS    read-only
        STATUS    mandatory
        DESCRIPTION
            "Late collisions may be a symptom of cabling
             problems.  A late collision is one that occurred
             64 bytes or more into the packet.

             Late collisions may be an indication that a
             segment is longer than allowed by the wiring
             specifications.

             A station will believe it has control of the
             cable segment if it has already transmitted 64
             bytes.  If another node at the far end of the
             segment has not yet seen the packet, and transmits,
             this packet will collide with the first
             transmission after the first 64 bytes have been
             sent.  Ensure that your segment length does not
             exceed the maximum length allowed.

             Because the location of cabling problems can be very
             difficult to detect on an Ethernet network, you may
             want to 'shorten' an Ethernet segment (remove portions
             of the network to isolate problems) until the problems
             are no longer seen, and then expand the network until
             the problem recurs.

             If this counter increments quickly in a short
             period of time, it may mean that the network
             card is running in half duplex mode, but your
             hub or switch port is configured for full duplex
             mode.  Compare your network card's configuration
             with the port's configuration.

             Late collisions are also included in other
             collision-related statistics."
        ::= { cpqNicIfPhysAdapterEntry 25 }


    cpqNicIfPhysAdapterExcessiveCollisions   OBJECT-TYPE
        SYNTAX    Counter
        ACCESS    read-only
        STATUS    mandatory
        DESCRIPTION
            "The number of packets aborted during transmission
             due to excessive collisions: This counter contains
             the number of packets that, due to excessive
             collisions, are not transmitted successfully.
             A station may attempt to transmit up to 16 times
             before it must abort the attempt.  Once the abort
             occurs, this counter increments.

             If you see an increase in deferred transmissions
             as well as excessive collisions, the network is
             extremely busy and this segment of the LAN is
             overcrowded.  Reduce the traffic by reorganizing
             your LAN or adding a NIC to the server.  For example,
             if you have 100 stations on one Ethernet bus, break
             it into two Ethernet buses by adding a NIC to your
             server.   In this way you can balance the load by
             putting 50 stations on one bus and 50 on the other.
             If there are a few isolated stations creating the
             traffic, try placing them on a separate bus.

             Faulty components may be the cause of excessive
             collisions. Check the following:

             Segment too long: Nodes at the far end of the
             cabling system transmit, unaware that a station
             at the other end has already gained control of
             the medium by transmitting the first 64 bytes
             of a frame.

             Failing cable: Packet data traveling through
             shorted or damaged cabling may become corrupt
             before reaching the destination station.

             Segment not grounded properly: Improper grounding
             of a segment may allow ground-induced noise to
             corrupt data flow.

             Improper termination: If a cable segment is not
             properly terminated, allowing the signal to be
             absorbed upon reaching the end of the segment,
             a partial signal will bounce back and collide
             with existing signals.

             Noisy cable: Interference or noise produced by
             motors or other devices can distort the signals
             and cause CRC/Alignment errors.

             Deaf/partially deaf node: A faulty station that
             cannot hear the activity is considered a deaf node.
             If you suspect a deaf node, replace the NIC.

             Failing repeater, transceiver, or controller:
             Repeaters, transceivers, and controllers can
             disrupt the network signal, transmit erroneous
             signals on the wire, or ignore incoming packets.
             Perform the following steps:

             1.  If your NIC is continuously transmitting,
                 it causes erroneous signals, or 'jabber.'
                 Replace a jabbering transmitter to ensure
                 proper network performance.

             2.  Check your hub or switch. This component
                 may be at fault.  Use the diagnostics from
                 the component manufacturer to help you
                 determine if a problem exists."
        ::= { cpqNicIfPhysAdapterEntry 26 }


    cpqNicIfPhysAdapterInternalMacTransmitErrors   OBJECT-TYPE
        SYNTAX    Counter
        ACCESS    read-only
        STATUS    mandatory
        DESCRIPTION
            "A count of frames for which transmission on a
             particular interface fails due to an internal
             MAC sublayer transmit error. A frame is only
             counted by an instance of this object if it is
             not counted by the corresponding instance of
             either the cpqNicIfPhysAdapterLateCollisions object,
             the cpqNicIfPhysAdapterExcessiveCollisions object,
             or the cpqNicIfPhysAdapterCarrierSenseErrors object.

             The precise meaning of the count represented by
             an instance of this object is implementation-
             specific.  In particular, an instance of this
             object may represent a count of transmission
             errors on a particular interface that are not
             otherwise counted."
        ::= { cpqNicIfPhysAdapterEntry 27 }


    cpqNicIfPhysAdapterCarrierSenseErrors   OBJECT-TYPE
        SYNTAX    Counter
        ACCESS    read-only
        STATUS    mandatory
        DESCRIPTION
            "The number of packets transmitted with carrier
             sense errors:  This counter contains the number
             of times that the carrier sense signal from the
             physical layer interface was not asserted or was
             de-asserted during transmission of a packet without
             collision.

             The carrier sense signal is an ongoing activity
             of a data station to detect whether or not another
             station is transmitting.  Carrier sense errors
             are detected when a station transmits a frame and
             does not detect its own signal on the wire.

             If you receive carrier sense errors, check the
             following:

             Failing cable: Packet data traveling through
             shorted or damaged cabling may cause a signal loss.
             Ensure that your cable is working and plugged in
             properly.

             Segment not grounded properly: Improper grounding
             of a segment may allow ground-induced noise to
             interrupt the signal.  Ensure that you have
             properly grounded all segments.

             Noisy cable: Interference or noise produced by
             motors or other devices can interrupt the signals.

             Deaf/partially deaf node: A faulty station that
             cannot hear the activity is considered a deaf node.
             If you suspect a deaf node, the network interface
             card should be replaced.

             Failing hub, switch, or controller: Repeaters,
             switches and controllers can disrupt the network
             signal, transmit erroneous signals on the wire,
             or ignore incoming packets.  Perform the following
             steps:

             1.  Swap out the adapter, adapter cable, and
                 adapter attachment point, one at a time.
                 If you find a faulty component, replace it.

             2.  If none of the items listed above help you
                 isolate the problem, you may need to replace
                 the switch or hub.  Use a network analyzer
                 to isolate the problem area."
        ::= { cpqNicIfPhysAdapterEntry 28 }

    cpqNicIfPhysAdapterFrameTooLongs   OBJECT-TYPE
        SYNTAX    Counter
        ACCESS    read-only
        STATUS    mandatory
        DESCRIPTION
            "A count of frames received on a particular
             interface that exceed the maximum permitted
             frame size."
        ::= { cpqNicIfPhysAdapterEntry 29 }



    cpqNicIfPhysAdapterInternalMacReceiveErrors   OBJECT-TYPE
        SYNTAX    Counter
        ACCESS    read-only
        STATUS    mandatory
        DESCRIPTION
            "A count of frames for which reception on a
             particular interface fails due to an internal
             MAC sublayer receive error. A frame is only
             counted by an instance of this object if it is
             not counted by the corresponding instance of
             either the cpqNicIfPhysAdapterStatsFrameTooLongs
             object, the cpqNicIfPhysAdapterStatsAlignmentErrors
             object, or the cpqNicIfPhysAdapterStatsFCSErrors
             object.

             The precise meaning of the count represented by
             an instance of this object is implementation-
             specific.  In particular, an instance of this
             object may represent a count of receive errors
             on a particular interface that are not
             otherwise counted."
        ::= { cpqNicIfPhysAdapterEntry 30 }

    cpqNicIfPhysAdapterHwLocation OBJECT-TYPE
        SYNTAX  DisplayString (SIZE (0..255))
        ACCESS  read-only
        STATUS  optional
        DESCRIPTION
            "A text description of the hardware location, on complex
             multi SBB hardware only, for the physical adapter.
             A NULL string indicates that the hardware location could not
             be determined or is irrelevant."
        ::= { cpqNicIfPhysAdapterEntry 31 }

    cpqNicIfPhysAdapterPartNumber OBJECT-TYPE
        SYNTAX  DisplayString (SIZE (0..255))
        ACCESS  read-only
        STATUS  mandatory
        DESCRIPTION
            "A text description of the hardware part number."
        ::= { cpqNicIfPhysAdapterEntry 32 }

    cpqNicIfPhysAdapterSpeed OBJECT-TYPE
        SYNTAX  Gauge
        ACCESS  read-only
        STATUS  mandatory
        DESCRIPTION
            "An estimate of the interface's current bandwidth
             in bits per second.  For interfaces which do not
             vary in bandwidth or for those where no accurate
             estimation can be made, this object should contain
             the nominal bandwidth."
        ::= { cpqNicIfPhysAdapterEntry 33 }

    cpqNicIfPhysAdapterConfSpeedDuplex OBJECT-TYPE
        SYNTAX  INTEGER
        {
            other(1),
            autoAuto(2),
            ethernetHalf(3),
            ethernetFull(4),
            fastEthernetHalf(5),
            fastEthernetFull(6),
            gigEthernetFull(8)
        }
        ACCESS  read-only
        STATUS  mandatory
        DESCRIPTION
            "The physical adapter configured speed and duplex.

             The following values are valid:

             other(1)
               The configured speed and duplex are unknown.

             autoAuto(2)
               Auto negotiate both speed and duplex.

             ethernetHalf(3),  ethernetFull(4), fastEthernetHalf(5),
             fastEthernetFull(6), gigEthernetFull(8)
               Speed and duplex forced to the given value."
        ::= { cpqNicIfPhysAdapterEntry 34 }

    cpqNicIfPhysAdapterAggregationGID OBJECT-TYPE
        SYNTAX  INTEGER
        ACCESS  read-only
        STATUS  mandatory
        DESCRIPTION
            "Aggregation group number of the adapter. A value of -1 means the
            Aggregation group number could not be determined or not present."
        ::= { cpqNicIfPhysAdapterEntry 35 }

    cpqNicIfPhysAdapterSpeedMbps OBJECT-TYPE
        SYNTAX  Gauge
        ACCESS  read-only
        STATUS  optional
        DESCRIPTION
            "An estimate of the interface's current bandwidth
             in Megabits per second.  For interfaces which do not
             vary in bandwidth or for those where no accurate
             estimation can be made, this object should contain
             the nominal bandwidth."
        ::= { cpqNicIfPhysAdapterEntry 36 }

    cpqNicIfPhysAdapterInOctets OBJECT-TYPE
        SYNTAX    Counter
        ACCESS    read-only
        STATUS    optional
        DESCRIPTION
            "A count of Octets Received on the physical adapter.
             This includes traffic generated due to different protocols
             like TCP/IP, DECNET etc"
        ::= { cpqNicIfPhysAdapterEntry 37 }

    cpqNicIfPhysAdapterOutOctets OBJECT-TYPE
        SYNTAX    Counter
        ACCESS    read-only
        STATUS    optional
        DESCRIPTION
            "A count of Octets Sent on the physical adapter.
             This includes traffic generated due to different protocols
             like TCP/IP, DECNET etc"
        ::= { cpqNicIfPhysAdapterEntry 38 }

	cpqNicIfPhysAdapterName OBJECT-TYPE
        SYNTAX  DisplayString (SIZE (0..255))
        ACCESS  read-only
        STATUS  optional
        DESCRIPTION
            "Name of the physical adapter. This string
             is NULL terminated."
        ::= { cpqNicIfPhysAdapterEntry 39 }




-- ****************************************************************************
--   Physical Adapter Base Memory
--   ============================
--
-- The compaq enterprise                  (1.3.6.1.4.1.232)
--      cpqNic Group                      (1.3.6.1.4.1.232.18)
--       cpqNicComponent Group            (1.3.6.1.4.1.232.18.2)
--        cpqNicIfPhysAdapter Group       (1.3.6.1.4.1.232.18.2.3)
--          cpqNicPhyAdapBaseMemTable   (1.3.6.1.4.1.232.18.2.3.2)
--
--
--  Implementation of the cpqNicPhysAdapBaseMemTable table is optional for all
--  agents that support the NIC MIB.
--
-- ****************************************************************************

    cpqNicPhyAdapBaseMemTable OBJECT-TYPE
        SYNTAX  SEQUENCE OF CpqNicPhyAdapBaseMemEntry
        ACCESS  not-accessible
        STATUS  optional
        DESCRIPTION
            "A table of base memory used by a physical adapter."
        ::= { cpqNicIfPhysAdapter 2 }

    cpqNicPhyAdapBaseMemEntry OBJECT-TYPE
        SYNTAX  CpqNicPhyAdapBaseMemEntry
        ACCESS  not-accessible
        STATUS  optional
        DESCRIPTION
            "A base memory table entry."
        INDEX   { cpqNicPhyAdapBaseMemIndex }
        ::= { cpqNicPhyAdapBaseMemTable 1 }

        CpqNicPhyAdapBaseMemEntry ::= SEQUENCE {
            cpqNicPhyAdapBaseMemIndex   INTEGER,
            cpqNicPhyAdapBaseMemIfIndex INTEGER,
            cpqNicPhyAdapBaseMemAddr    INTEGER
        }

    cpqNicPhyAdapBaseMemIndex OBJECT-TYPE
        SYNTAX  INTEGER (0..65535)
        ACCESS  read-only
        STATUS  optional
        DESCRIPTION
            "An index that uniquely specifies this entry."
        ::= { cpqNicPhyAdapBaseMemEntry 1 }

    cpqNicPhyAdapBaseMemIfIndex OBJECT-TYPE
        SYNTAX  INTEGER
        ACCESS  read-only
        STATUS  optional
        DESCRIPTION
            "An index ifTable.  This identifies the physical adapter
            interface this Base memory address is associated with."
        ::= { cpqNicPhyAdapBaseMemEntry 2 }

    cpqNicPhyAdapBaseMemAddr OBJECT-TYPE
        SYNTAX  INTEGER
        ACCESS  read-only
        STATUS  optional
        DESCRIPTION
            "A base memory address used by the physical hardware
             interface associated."
        ::= { cpqNicPhyAdapBaseMemEntry 3 }


-- ****************************************************************************
--   NIC VLAN Map Table
--   ====================================
--
-- The compaq enterprise               (1.3.6.1.4.1.232)
--      cpqNic Group                   (1.3.6.1.4.1.232.18)
--       cpqNicComponent Group         (1.3.6.1.4.1.232.18.2)
--        cpqNicIfVlanMap Group        (1.3.6.1.4.1.232.18.2.4)
--         cpqNicIfVlanMapTable        (1.3.6.1.4.1.232.18.2.4.1)
--
--
--  The cpqNicIfVlanMap group contains information to map VLANS to respective
--  logical interface adapters and MIB-II interfaces.
--
--  Implementation of the cpqNicIfVlanMap group is mandatory for all agents
--  that support the NIC MIB.
--
-- ****************************************************************************

    cpqNicIfVlanMapTable OBJECT-TYPE
        SYNTAX  SEQUENCE OF CpqNicIfVlanMapEntry
        ACCESS  not-accessible
        STATUS  mandatory
        DESCRIPTION
            "A table of interface to VLAN mappings."
        ::= { cpqNicIfVlanMap 1 }

    cpqNicIfVlanMapEntry OBJECT-TYPE
        SYNTAX  CpqNicIfVlanMapEntry
        ACCESS  not-accessible
        STATUS  mandatory
        DESCRIPTION
            "A mapping of an interface table entry to VLANs."
        INDEX   { cpqNicIfVlanMapIndex }
        ::= { cpqNicIfVlanMapTable 1 }

    CpqNicIfVlanMapEntry ::= SEQUENCE {
        cpqNicIfVlanMapIndex              INTEGER,
        cpqNicIfVlanMapLogIndex           INTEGER,
        cpqNicIfVlanMapIfIndex            INTEGER,
        cpqNicIfVlanMapVlanId             INTEGER,
        cpqNicIfVlanMapVlanName           DisplayString
    }

    cpqNicIfVlanMapIndex OBJECT-TYPE
        SYNTAX  INTEGER (0..65535)
        ACCESS  read-only
        STATUS  mandatory
        DESCRIPTION
            "An index that uniquely specifies this entry."
        ::= { cpqNicIfVlanMapEntry 1 }


    cpqNicIfVlanMapLogIndex OBJECT-TYPE
        SYNTAX  INTEGER (0..65535)
        ACCESS  read-only
        STATUS  mandatory
        DESCRIPTION
            "An index into the logical map table.  This identifies the
             logical adapter this VLAN is associated with."
        ::= { cpqNicIfVlanMapEntry 2 }

    cpqNicIfVlanMapIfIndex OBJECT-TYPE
        SYNTAX  INTEGER
        ACCESS  read-only
        STATUS  mandatory
        DESCRIPTION
            "An index ifTable.  This identifies the MIB-II interface
             this VLAN is associated with."
        ::= { cpqNicIfVlanMapEntry 3 }

    cpqNicIfVlanMapVlanId OBJECT-TYPE
        SYNTAX  INTEGER (1..4094)
        ACCESS  read-only
        STATUS  mandatory
        DESCRIPTION
            "The ID of this VLAN."
        ::= { cpqNicIfVlanMapEntry 4 }

    cpqNicIfVlanMapVlanName OBJECT-TYPE
        SYNTAX  DisplayString (SIZE (0..256))
        ACCESS  read-only
        STATUS  mandatory
        DESCRIPTION
            "The name of this VLAN."
        ::= { cpqNicIfVlanMapEntry 5 }



-- ****************************************************************************
--   NIC Virus Throttle Table
--   ====================================
--
-- The compaq enterprise               (1.3.6.1.4.1.232)
--      cpqNic Group                   (1.3.6.1.4.1.232.18)
--       cpqNicComponent Group         (1.3.6.1.4.1.232.18.2)
--        cpqNicVirusThrottle          (1.3.6.1.4.1.232.18.2.5)
--
--  The cpqNicVirusThrottle table contains information pertaining to the
--  Virus Throttle Filter Driver.  The Virus Throttle Filter Driver detects
--  virus like activity and attempts to minimize potential damage according
--  to its configuration parameters.  Refer to the Virus Throttle Filter
--  Driver configuration utility for more information.
--
--  Implementation of the cpqNicIfVlanMap group is mandatory for all agents
--  that support the NIC MIB.
--
-- ****************************************************************************

    cpqNicVtInstalled OBJECT-TYPE
        SYNTAX  INTEGER
        {
         notInstalled(1),
            installed(2)
        }
        ACCESS  read-only
        STATUS  mandatory
        DESCRIPTION
            "Indicates installation status of Virus Throttle Filter Driver"
        ::= { cpqNicVirusThrottle 1 }

   cpqNicVtLicensed OBJECT-TYPE
        SYNTAX  INTEGER
        {
         notLicensed(1),
            licensed(2)
        }
        ACCESS  read-only
        STATUS  mandatory
        DESCRIPTION
            "Indicates license status of Virus Throttle Filter Driver"
        ::= { cpqNicVirusThrottle 2 }

   cpqNicVtVirusActivity OBJECT-TYPE
        SYNTAX  INTEGER
        {
         notDetected(1),
            detected(2)
        }
        ACCESS  read-only
        STATUS  mandatory
        DESCRIPTION
            "Indicates virus activity detection status of Virus Throttle Filter Driver"
        ::= { cpqNicVirusThrottle 3 }



-- ****************************************************************************
--  NIC MIB Trap Definitions
--  =========================
--
--  The SNMP trap messages must not be bigger than 484 octets (bytes).
--
--  Trap support in an SNMP agent implementation is optional.  An SNMP
--  agent implementation may support all, some, or none of the traps.
--  If traps are supported, The user should be provided with the option of
--  disabling traps.
--
-- **************************************************************************

-- Deprecated in 5.30 - use 18005
    cpqNicConnectivityRestored TRAP-TYPE
        ENTERPRISE compaq
        VARIABLES { sysName, cpqHoTrapFlags, cpqNicIfPhysAdapterSlot,
                    cpqNicIfPhysAdapterPort }
        DESCRIPTION
            "This trap will be sent any time connectivity is restored
             to a logical adapter.  This occurs when the physical
             adapter in a single adapter configuration returns to
             the OK condition or at least one physical adapter
             in a logical adapter group returns to the OK condition.

             This can be caused by replacement of a faulty cable
             or re-attaching a cable that was unplugged.

             User Action: None required."

             --#TYPE "NIC Status Trap (18001)"
             --#SUMMARY "Connectivity is restored for adapter in slot %d, port %d."
             --#ARGUMENTS {2, 3}
             --#SEVERITY INFORMATIONAL
             --#TIMEINDEX 18
             --#STATE OPERATIONAL
        ::= 18001

-- Deprecated in 5.30 - use 18006
    cpqNicConnectivityLost TRAP-TYPE
        ENTERPRISE compaq
        VARIABLES { sysName, cpqHoTrapFlags, cpqNicIfPhysAdapterSlot,
                    cpqNicIfPhysAdapterPort }
        DESCRIPTION
            "This trap will be sent any time the status of a logical
             adapter changes to the Failed condition.  This occurs
             when the adapter in a single adapter configuration fails,
             or when the last adapter in a redundant configuration fails.

             This can be caused by loss of link due to a cable being
             removed from the adapter or the Hub or Switch.  Internal
             adapter, Hub, or Switch failures can also cause this
             condition.

             User Action: Check the cables to the adapter and the Hub or
             Switch.  If no cable problems are found, the adapter, Hub,
             or Switch may need replacement."

             --#TYPE "NIC Status Trap (18002)"
             --#SUMMARY "Connectivity lost for adapter in slot %d, port %d."
             --#ARGUMENTS {2, 3}
             --#SEVERITY MAJOR
             --#TIMEINDEX 99
             --#STATE DEGRADED
        ::= 18002

-- Deprecated in 5.30 - use 18007
    cpqNicRedundancyIncreased TRAP-TYPE
        ENTERPRISE compaq
        VARIABLES { sysName, cpqHoTrapFlags, cpqNicIfPhysAdapterSlot,
                    cpqNicIfPhysAdapterPort, cpqNicIfLogMapAdapterOKCount}
        DESCRIPTION
            "This trap will be sent any time a previously failed physical
             adapter in a connected logical adapter group returns to the OK
             condition.  This trap is not sent when a logical adapter
             group has connectivity restored from a Failed condition.  The
             cpqNicConnectivityRestored trap is sent instead.

             This can be caused by replacement of a faulty cable
             or re-attaching a cable that was unplugged.


             User Action:  None required."

             --#TYPE "NIC Status Trap (18003)"
             --#SUMMARY "Redundancy increased by adapter in slot %d, port %d."
             --#ARGUMENTS {2, 3}
             --#SEVERITY INFORMATIONAL
             --#TIMEINDEX 99
             --#STATE OPERATIONAL
        ::= 18003

-- Deprecated in 5.30 - use 18008
    cpqNicRedundancyReduced TRAP-TYPE
        ENTERPRISE compaq
        VARIABLES { sysName, cpqHoTrapFlags, cpqNicIfPhysAdapterSlot,
                    cpqNicIfPhysAdapterPort, cpqNicIfLogMapAdapterOKCount}
        DESCRIPTION
            "This trap will be sent any time a physical adapter in a
             logical adapter group changes to the Failed condition, but
             at least one physical adapter remains in the OK condition..

             This can be caused by loss of link due to a cable being
             removed from the adapter or the Hub or Switch.  Internal
             adapter, Hub, or Switch failures can also cause this
             condition.

             User Action: Check the cables to the adapter and the Hub or
             Switch.  If no cable problems are found, the adapter, Hub,
             or Switch may need replacement."

             --#TYPE "NIC Status Trap (18004)"
             --#SUMMARY "Redundancy decreased by adapter in slot %d, port %d."
             --#ARGUMENTS {2, 3}
             --#SEVERITY MAJOR
             --#TIMEINDEX 99
             --#STATE DEGRADED
        ::= 18004

-- New in 5.30
    cpqNic2ConnectivityRestored TRAP-TYPE
        ENTERPRISE compaq
        VARIABLES { sysName, cpqHoTrapFlags, cpqNicIfPhysAdapterSlot,
                    cpqNicIfPhysAdapterPort, cpqSiServerSystemId,
                    cpqNicIfPhysAdapterStatus, cpqSePciSlotBoardName,
                    cpqNicIfPhysAdapterPartNumber, ipAdEntAddr }
        DESCRIPTION
            "This trap will be sent any time connectivity is restored
             to a logical adapter.  This occurs when the physical
             adapter in a single adapter configuration returns to
             the OK condition or at least one physical adapter
             in a logical adapter group returns to the OK condition.

             This can be caused by replacement of a faulty cable
             or re-attaching a cable that was unplugged.

             User Action: None required."

             --#TYPE "NIC Connectivity Restored Trap (18005)"
             --#SUMMARY "Connectivity is restored for adapter in slot %d, port %d."
             --#ARGUMENTS {2, 3}
             --#SEVERITY INFORMATIONAL
             --#TIMEINDEX 18
             --#STATE OPERATIONAL
        ::= 18005

-- New in 5.30
    cpqNic2ConnectivityLost TRAP-TYPE
        ENTERPRISE compaq
        VARIABLES { sysName, cpqHoTrapFlags, cpqNicIfPhysAdapterSlot,
                    cpqNicIfPhysAdapterPort, cpqSiServerSystemId,
                    cpqNicIfPhysAdapterStatus, cpqSePciSlotBoardName,
                    cpqNicIfPhysAdapterPartNumber, ipAdEntAddr }
        DESCRIPTION
            "This trap will be sent any time the status of a logical
             adapter changes to the Failed condition.  This occurs
             when the adapter in a single adapter configuration fails,
             or when the last adapter in a redundant configuration fails.

             This can be caused by loss of link due to a cable being
             removed from the adapter or the Hub or Switch.  Internal
             adapter, Hub, or Switch failures can also cause this
             condition.

             User Action: Check the cables to the adapter and the Hub or
             Switch.  If no cable problems are found, the adapter, Hub,
             or Switch may need replacement."

             --#TYPE "NIC Connectivity Lost Trap (18006)"
             --#SUMMARY "Connectivity lost for adapter in slot %d, port %d."
             --#ARGUMENTS {2, 3}
             --#SEVERITY MAJOR
             --#TIMEINDEX 18
             --#STATE NONOPERATIONAL
        ::= 18006

-- New in 5.30
    cpqNic2RedundancyIncreased TRAP-TYPE
        ENTERPRISE compaq
        VARIABLES { sysName, cpqHoTrapFlags, cpqNicIfPhysAdapterSlot,
                    cpqNicIfPhysAdapterPort, cpqSiServerSystemId,
                    cpqNicIfPhysAdapterStatus, cpqSePciSlotBoardName,
                    cpqNicIfPhysAdapterPartNumber, ipAdEntAddr,
                    cpqNicIfLogMapAdapterOKCount }
        DESCRIPTION
            "This trap will be sent any time a previously failed physical
             adapter in a connected logical adapter group returns to the OK
             condition.  This trap is not sent when a logical adapter
             group has connectivity restored from a Failed condition.  The
             cpqNicConnectivityRestored trap is sent instead.

             This can be caused by replacement of a faulty cable
             or re-attaching a cable that was unplugged.


             User Action:  None required."

             --#TYPE "NIC Redundancy Increased Trap (18007)"
             --#SUMMARY "Redundancy increased by adapter in slot %d, port %d."
             --#ARGUMENTS {2, 3}
             --#SEVERITY INFORMATIONAL
             --#TIMEINDEX 99
             --#STATE OPERATIONAL
        ::= 18007

-- New in 5.30
    cpqNic2RedundancyReduced TRAP-TYPE
        ENTERPRISE compaq
        VARIABLES { sysName, cpqHoTrapFlags, cpqNicIfPhysAdapterSlot,
                    cpqNicIfPhysAdapterPort, cpqSiServerSystemId,
                    cpqNicIfPhysAdapterStatus, cpqSePciSlotBoardName,
                    cpqNicIfPhysAdapterPartNumber, ipAdEntAddr,
                    cpqNicIfLogMapAdapterOKCount }
        DESCRIPTION
            "This trap will be sent any time a physical adapter in a
             logical adapter group changes to the Failed condition, but
             at least one physical adapter remains in the OK condition..

             This can be caused by loss of link due to a cable being
             removed from the adapter or the Hub or Switch.  Internal
             adapter, Hub, or Switch failures can also cause this
             condition.

             User Action: Check the cables to the adapter and the Hub or
             Switch.  If no cable problems are found, the adapter, Hub,
             or Switch may need replacement."

             --#TYPE "NIC Redundancy Reduced Trap (18008)"
             --#SUMMARY "Redundancy decreased by adapter in slot %d, port %d."
             --#ARGUMENTS {2, 3}
             --#SEVERITY MAJOR
             --#TIMEINDEX 99
             --#STATE DEGRADED
        ::= 18008


-- New in 7.20
    cpqNicVirusLikeActivityDetected TRAP-TYPE
        ENTERPRISE compaq
        VARIABLES { sysName, cpqHoTrapFlags,
                    cpqSiServerSystemId }
        DESCRIPTION
         "This trap will be sent when the Virus Throttle Filter
          Driver detects virus like activity.

          User Action:  The system reporting this trap requires
          immediate attention."

             --#TYPE "NIC Virus-like Activity Detected Trap (18009)"
             --#SUMMARY "Virus-like activity detected"
             --#SEVERITY MAJOR
             --#TIMEINDEX 99
             --#STATE DEGRADED
        ::= 18009

-- New in 7.20
    cpqNicVirusLikeActivityStopped TRAP-TYPE
        ENTERPRISE compaq
        VARIABLES { sysName, cpqHoTrapFlags,
                    cpqSiServerSystemId }
        DESCRIPTION
         "This trap will be sent when the Virus Throttle Filter
          Driver no longer detects virus like activity.

          User Action:  None required."

             --#TYPE "NIC Virus-like Activity No Longer Detected Trap (18010)"
             --#SUMMARY "Virus-like activity no longer detected"
             --#SEVERITY INFORMATIONAL
             --#TIMEINDEX 99
             --#STATE OPERATIONAL
        ::= 18010



END

