PDN-HEADER-MIB DEFINITIONS ::= BEGIN IMPORTS enterprises FROM RFC1155-SMI; -- -- Copyright (C) 1994-2001, Paradyne. All rights reserved. -- -- Title: Paradyne Top Level Enterprise Definitions -- -- -- ========================================================= -- PdnHeader, Version 4.6, 03/17/2002 -- ========================================================= -- -- This file may be freely copied and distributed as -- long as no changes are made to it. -- pdyn OBJECT IDENTIFIER ::= { enterprises 1795 } pdn-products OBJECT IDENTIFIER ::= { pdyn 1 } pdn-mgmt OBJECT IDENTIFIER ::= { pdyn 2 } -- -- The NMS/pdnP products subtrees are used for enterprise OIDs -- -- ========== NMS products ========== paradyneNMS-products OBJECT IDENTIFIER ::= { pdn-products 13 } -- nms-6800-products OBJECT IDENTIFIER ::= { paradyneNMS-products } nms-6700-products OBJECT IDENTIFIER ::= { paradyneNMS-products 2 } nms-dce-products OBJECT IDENTIFIER ::= { paradyneNMS-products 3 } nms-gem-products OBJECT IDENTIFIER ::= { paradyneNMS-products 4 } gem-aac-341 OBJECT IDENTIFIER ::= { nms-gem-products 1 } nms-logical-products OBJECT IDENTIFIER ::= { paradyneNMS-products 5 } iso-physical OBJECT IDENTIFIER ::= { nms-logical-products 1 } iso-link OBJECT IDENTIFIER ::= { nms-logical-products 2 } iso-network OBJECT IDENTIFIER ::= { nms-logical-products 3 } access-router OBJECT IDENTIFIER ::= { iso-network 1 } iso-transport OBJECT IDENTIFIER ::= { nms-logical-products 4 } iso-session OBJECT IDENTIFIER ::= { nms-logical-products 5 } iso-presentation OBJECT IDENTIFIER ::= { nms-logical-products 6 } iso-application OBJECT IDENTIFIER ::= { nms-logical-products 7 } chassis-manager OBJECT IDENTIFIER ::= { iso-application 1 } -- ========== PDN products ========== paradyne-products OBJECT IDENTIFIER ::= { pdn-products 14 } pdn-cellRelay-products OBJECT IDENTIFIER ::= { paradyne-products 1 } -- 3000/9000/7000 Series pdn-snmp-products OBJECT IDENTIFIER ::= { paradyne-products 2 } csu OBJECT IDENTIFIER ::= { pdn-snmp-products 1 } t1-3150 OBJECT IDENTIFIER ::= { csu 1 } t1-3151 OBJECT IDENTIFIER ::= { csu 2 } dsu-csu OBJECT IDENTIFIER ::= { pdn-snmp-products 2 } t1-3160 OBJECT IDENTIFIER ::= { dsu-csu 1 } t1-3164 OBJECT IDENTIFIER ::= { dsu-csu 2 } t1-3165 OBJECT IDENTIFIER ::= { dsu-csu 3 } t1-3161 OBJECT IDENTIFIER ::= { dsu-csu 4 } e1-3172 OBJECT IDENTIFIER ::= { dsu-csu 5 } e1-3174 OBJECT IDENTIFIER ::= { dsu-csu 6 } t1-3162 OBJECT IDENTIFIER ::= { dsu-csu 7 } t1-3166 OBJECT IDENTIFIER ::= { dsu-csu 8 } ntu OBJECT IDENTIFIER ::= { pdn-snmp-products 3 } e1-3350 OBJECT IDENTIFIER ::= { ntu 1 } e1-3360 OBJECT IDENTIFIER ::= { ntu 2 } e1-3364 OBJECT IDENTIFIER ::= { ntu 3 } e1-3365 OBJECT IDENTIFIER ::= { ntu 4 } dev9XXX OBJECT IDENTIFIER ::= { pdn-snmp-products 4 } fr-96XX OBJECT IDENTIFIER ::= { dev9XXX 1 } fr-9620 OBJECT IDENTIFIER ::= { fr-96XX 1 } fr-2slot OBJECT IDENTIFIER ::= { fr-96XX 2 } fr-naf OBJECT IDENTIFIER ::= { fr-96XX 3 } fr-nac OBJECT IDENTIFIER ::= { fr-96XX 4 } fr-9624 OBJECT IDENTIFIER ::= { fr-96XX 5 } fr-9626 OBJECT IDENTIFIER ::= { fr-96XX 6 } fr-9623 OBJECT IDENTIFIER ::= { fr-96XX 7 } fr-9624-OS OBJECT IDENTIFIER ::= { fr-96XX 8 } bonaire OBJECT IDENTIFIER ::= { dev9XXX 2 } bonaire-1slot OBJECT IDENTIFIER ::= { bonaire 1 } bonaire-2slot OBJECT IDENTIFIER ::= { bonaire 2 } bonaire-naf OBJECT IDENTIFIER ::= { bonaire 3 } bonaire-nac OBJECT IDENTIFIER ::= { bonaire 4 } t1-916X OBJECT IDENTIFIER ::= { dev9XXX 3 } t1-1slot OBJECT IDENTIFIER ::= { t1-916X 1 } t1-9162 OBJECT IDENTIFIER ::= { t1-916X 2 } t1-9165 OBJECT IDENTIFIER ::= { t1-916X 3 } t1-nac OBJECT IDENTIFIER ::= { t1-916X 4 } t1-9262 OBJECT IDENTIFIER ::= { t1-916X 5 } t1-9265 OBJECT IDENTIFIER ::= { t1-916X 6 } t1-9161 OBJECT IDENTIFIER ::= { t1-916X 7 } t1-9261 OBJECT IDENTIFIER ::= { t1-916X 8 } t1fr-912X OBJECT IDENTIFIER ::= { dev9XXX 4 } t1fr-9121 OBJECT IDENTIFIER ::= { t1fr-912X 1 } t1fr-2slot OBJECT IDENTIFIER ::= { t1fr-912X 2 } t1fr-naf OBJECT IDENTIFIER ::= { t1fr-912X 3 } t1fr-nac OBJECT IDENTIFIER ::= { t1fr-912X 4 } t1fr-9124 OBJECT IDENTIFIER ::= { t1fr-912X 5 } t1fr-9124-NNI OBJECT IDENTIFIER ::= { t1fr-912X 6 } t1fr-9126 OBJECT IDENTIFIER ::= { t1fr-912X 7 } t1fr-9128 OBJECT IDENTIFIER ::= { t1fr-912X 8 } t1fr-9124-II OBJECT IDENTIFIER ::= { t1fr-912X 9 } t1fr-9124-L OBJECT IDENTIFIER ::= { t1fr-912X 10 } t1fr-9123 OBJECT IDENTIFIER ::= { t1fr-912X 11 } t1fr-9124-OS OBJECT IDENTIFIER ::= { t1fr-912X 12 } atm-95XX OBJECT IDENTIFIER ::= { dev9XXX 5 } atm-9580 OBJECT IDENTIFIER ::= { atm-95XX 1 } atm-9520-ilm OBJECT IDENTIFIER ::= { atm-95XX 2 } atm-9520 OBJECT IDENTIFIER ::= { atm-95XX 3 } msa-919X OBJECT IDENTIFIER ::= { dev9XXX 6 } msa-9192 OBJECT IDENTIFIER ::= { msa-919X 1 } msa-9195 OBJECT IDENTIFIER ::= { msa-919X 2 } msa-9292 OBJECT IDENTIFIER ::= { msa-919X 3 } msa-9295 OBJECT IDENTIFIER ::= { msa-919X 4 } int-98XX OBJECT IDENTIFIER ::= { dev9XXX 7 } int-9820 OBJECT IDENTIFIER ::= { int-98XX 1 } int-9820-C OBJECT IDENTIFIER ::= { int-98XX 2 } int-9820-8M OBJECT IDENTIFIER ::= { int-98XX 3 } int-9820-45M OBJECT IDENTIFIER ::= { int-98XX 4 } nni-9XXX OBJECT IDENTIFIER ::= { dev9XXX 8 } nni-9110 OBJECT IDENTIFIER ::= { nni-9XXX 1 } msdsl-9XXX OBJECT IDENTIFIER ::= { dev9XXX 9 } msdsl-9723 OBJECT IDENTIFIER ::= { msdsl-9XXX 1 } msdsl-9783 OBJECT IDENTIFIER ::= { msdsl-9XXX 2 } msdsl-9720 OBJECT IDENTIFIER ::= { msdsl-9XXX 3 } msdsl-9788 OBJECT IDENTIFIER ::= { msdsl-9XXX 4 } isdn-9XXX OBJECT IDENTIFIER ::= { dev9XXX 10 } isdn-9664 OBJECT IDENTIFIER ::= { isdn-9XXX 1 } rtr-9XXX OBJECT IDENTIFIER ::= { dev9XXX 11 } rtr-9783 OBJECT IDENTIFIER ::= { rtr-9XXX 1 } rtr-9729 OBJECT IDENTIFIER ::= { rtr-9XXX 2 } rtr-9788 OBJECT IDENTIFIER ::= { rtr-9XXX 3 } t1-7XXX OBJECT IDENTIFIER ::= { dev9XXX 12 } t1-7123 OBJECT IDENTIFIER ::= { t1-7XXX 1 } dev7XXX OBJECT IDENTIFIER ::= { pdn-snmp-products 5 } dds-76XX OBJECT IDENTIFIER ::= { dev7XXX 1 } dds-7610 OBJECT IDENTIFIER ::= { dds-76XX 1 } dds-7612 OBJECT IDENTIFIER ::= { dds-76XX 2 } dds-7613 OBJECT IDENTIFIER ::= { dds-76XX 3 } t1-71XX OBJECT IDENTIFIER ::= { dev7XXX 2 } t1-7110 OBJECT IDENTIFIER ::= { t1-71XX 1 } t1-7112 OBJECT IDENTIFIER ::= { t1-71XX 2 } -- 3600 Series pdn-36xx-products OBJECT IDENTIFIER ::= { paradyne-products 3 } -- ACCULINK Access Controller pdn-aac-products OBJECT IDENTIFIER ::= { paradyne-products 4 } aac-34 OBJECT IDENTIFIER ::= { pdn-aac-products 1 } aac-34X OBJECT IDENTIFIER ::= { pdn-aac-products 2 } aac-FL OBJECT IDENTIFIER ::= { aac-34X 1 } aac-UE OBJECT IDENTIFIER ::= { aac-34X 2 } aac-FP OBJECT IDENTIFIER ::= { aac-34X 3 } aac-300 OBJECT IDENTIFIER ::= { aac-34X 4 } aac-cards OBJECT IDENTIFIER ::= { pdn-aac-products 3 } aac-frs OBJECT IDENTIFIER ::= { aac-cards 1 } aac-ipc OBJECT IDENTIFIER ::= { aac-cards 2 } aac-atm OBJECT IDENTIFIER ::= { aac-cards 3 } aac-4X OBJECT IDENTIFIER ::= { pdn-aac-products 4 } aac-4XFL OBJECT IDENTIFIER ::= { aac-4X 1 } aac-4XUE OBJECT IDENTIFIER ::= { aac-4X 2 } aac-4XFP OBJECT IDENTIFIER ::= { aac-4X 3 } aac-4X300 OBJECT IDENTIFIER ::= { aac-4X 4 } -- Common pdn-common-products OBJECT IDENTIFIER ::= { paradyne-products 5 } pdn-testOIDs OBJECT IDENTIFIER ::= { pdn-common-products 1 } pdnLoopbackTest OBJECT IDENTIFIER ::= { pdn-testOIDs 1 } pdnBertTest OBJECT IDENTIFIER ::= { pdn-testOIDs 2 } pdnPingTest OBJECT IDENTIFIER ::= { pdn-testOIDs 3 } pdnTraceRouteTest OBJECT IDENTIFIER ::= { pdn-testOIDs 4 } pdnBlertTest OBJECT IDENTIFIER ::= { pdn-testOIDs 5 } -- Eagle pdn-eagle-products OBJECT IDENTIFIER ::= { paradyne-products 6 } -- Access Router pdn-ar-products OBJECT IDENTIFIER ::= { paradyne-products 7 } ar-541 OBJECT IDENTIFIER ::= { pdn-ar-products 1 } ar-611 OBJECT IDENTIFIER ::= { pdn-ar-products 2 } ar-621 OBJECT IDENTIFIER ::= { pdn-ar-products 3 } ar-641 OBJECT IDENTIFIER ::= { pdn-ar-products 4 } ar-712 OBJECT IDENTIFIER ::= { pdn-ar-products 5 } ar-722 OBJECT IDENTIFIER ::= { pdn-ar-products 6 } ar-928 OBJECT IDENTIFIER ::= { pdn-ar-products 7 } ar-711 OBJECT IDENTIFIER ::= { pdn-ar-products 8 } -- Access Server pdn-as-products OBJECT IDENTIFIER ::= { paradyne-products 8 } as-4 OBJECT IDENTIFIER ::= { pdn-as-products 1 } as-8 OBJECT IDENTIFIER ::= { pdn-as-products 2 } as-24 OBJECT IDENTIFIER ::= { pdn-as-products 3 } -- xDSL pdn-xdsl-products OBJECT IDENTIFIER ::= { paradyne-products 9 } xdsl-5100 OBJECT IDENTIFIER ::= { pdn-xdsl-products 1 } xdsl-unused1 OBJECT IDENTIFIER ::= { pdn-xdsl-products 2 } xdsl-8800-old OBJECT IDENTIFIER ::= { pdn-xdsl-products 3 } xdsl-unused2 OBJECT IDENTIFIER ::= { pdn-xdsl-products 4 } xdsl-8600-old OBJECT IDENTIFIER ::= { pdn-xdsl-products 5 } xdsl-ipc OBJECT IDENTIFIER ::= { pdn-xdsl-products 6 } xdsl-8100 OBJECT IDENTIFIER ::= { xdsl-ipc 1 } xdsl-8200 OBJECT IDENTIFIER ::= { xdsl-ipc 2 } xdsl-chassis OBJECT IDENTIFIER ::= { pdn-xdsl-products 8 } xdsl-8600 OBJECT IDENTIFIER ::= { xdsl-chassis 1 } xdsl-8800 OBJECT IDENTIFIER ::= { xdsl-chassis 2 } xdsl-8610 OBJECT IDENTIFIER ::= { xdsl-chassis 3 } xdsl-8810 OBJECT IDENTIFIER ::= { xdsl-chassis 4 } xdsl-8820 OBJECT IDENTIFIER ::= { xdsl-chassis 5 } xdsl-8610-X OBJECT IDENTIFIER ::= { xdsl-chassis 6 } xdsl-8810-X OBJECT IDENTIFIER ::= { xdsl-chassis 7 } xdsl-8820-X OBJECT IDENTIFIER ::= { xdsl-chassis 8 } xdsl-8620 OBJECT IDENTIFIER ::= { xdsl-chassis 9 } xdsl-remote OBJECT IDENTIFIER ::= { pdn-xdsl-products 9 } xdsl-5446 OBJECT IDENTIFIER ::= { xdsl-remote 1 } xdsl-7914 OBJECT IDENTIFIER ::= { xdsl-remote 2 } xdsl-5246 OBJECT IDENTIFIER ::= { xdsl-remote 3 } xdsl-5216 OBJECT IDENTIFIER ::= { xdsl-remote 4 } xdsl-5170 OBJECT IDENTIFIER ::= { xdsl-remote 5 } xdsl-5171 OBJECT IDENTIFIER ::= { xdsl-remote 6 } xdsl-5546 OBJECT IDENTIFIER ::= { xdsl-remote 7 } xdsl-5620 OBJECT IDENTIFIER ::= { xdsl-remote 8 } xdsl-6310 OBJECT IDENTIFIER ::= { xdsl-remote 9 } xdsl-7975 OBJECT IDENTIFIER ::= { xdsl-remote 10 } xdsl-7976 OBJECT IDENTIFIER ::= { xdsl-remote 11 } xdsl-7974 OBJECT IDENTIFIER ::= { xdsl-remote 12 } xdsl-7986 OBJECT IDENTIFIER ::= { xdsl-remote 13 } xdsl-7985 OBJECT IDENTIFIER ::= { xdsl-remote 14 } xdsl-7984 OBJECT IDENTIFIER ::= { xdsl-remote 15 } xdsl-6341 OBJECT IDENTIFIER ::= { xdsl-remote 16 } xdsl-6342 OBJECT IDENTIFIER ::= { xdsl-remote 17 } xdsl-6331 OBJECT IDENTIFIER ::= { xdsl-remote 18 } xdsl-6332 OBJECT IDENTIFIER ::= { xdsl-remote 19 } xdsl-6371 OBJECT IDENTIFIER ::= { xdsl-remote 20 } xdsl-6372 OBJECT IDENTIFIER ::= { xdsl-remote 21 } xdsl-6321 OBJECT IDENTIFIER ::= { xdsl-remote 23 } xdsl-6322 OBJECT IDENTIFIER ::= { xdsl-remote 24 } xdsl-6341R2 OBJECT IDENTIFIER ::= { xdsl-remote 25 } xdsl-6342R2 OBJECT IDENTIFIER ::= { xdsl-remote 26 } xdsl-6331R2 OBJECT IDENTIFIER ::= { xdsl-remote 27 } xdsl-6332R2 OBJECT IDENTIFIER ::= { xdsl-remote 28 } xdsl-6371R2 OBJECT IDENTIFIER ::= { xdsl-remote 29 } xdsl-6372R2 OBJECT IDENTIFIER ::= { xdsl-remote 30 } xdsl-6321R2 OBJECT IDENTIFIER ::= { xdsl-remote 31 } xdsl-6322R2 OBJECT IDENTIFIER ::= { xdsl-remote 32 } xdsl-6328 OBJECT IDENTIFIER ::= { xdsl-remote 33 } -- unused xdsl-6329 OBJECT IDENTIFIER ::= { xdsl-remote 34 } -- unused xdsl-6301R2 OBJECT IDENTIFIER ::= { xdsl-remote 35 } xdsl-6302R2 OBJECT IDENTIFIER ::= { xdsl-remote 36 } xdsl-6350 OBJECT IDENTIFIER ::= { xdsl-remote 38 } xdsl-6351 OBJECT IDENTIFIER ::= { xdsl-remote 39 } xdsl-6385 OBJECT IDENTIFIER ::= { xdsl-remote 40 } xdsl-7994 OBJECT IDENTIFIER ::= { xdsl-remote 41 } xdsl-7995 OBJECT IDENTIFIER ::= { xdsl-remote 42 } xdsl-7996 OBJECT IDENTIFIER ::= { xdsl-remote 43 } xdsl-cards OBJECT IDENTIFIER ::= { pdn-xdsl-products 10 } card-mcc OBJECT IDENTIFIER ::= { xdsl-cards 1 } card-adsl OBJECT IDENTIFIER ::= { xdsl-cards 2 } -- unused card-radsl OBJECT IDENTIFIER ::= { xdsl-cards 3 } card-sdsl OBJECT IDENTIFIER ::= { xdsl-cards 4 } -- unused card-vdsl OBJECT IDENTIFIER ::= { xdsl-cards 5 } -- unused card-8774 OBJECT IDENTIFIER ::= { xdsl-cards 6 } card-8540 OBJECT IDENTIFIER ::= { xdsl-cards 7 } card-8775 OBJECT IDENTIFIER ::= { xdsl-cards 8 } card-8776 OBJECT IDENTIFIER ::= { xdsl-cards 9 } card-8786 OBJECT IDENTIFIER ::= { xdsl-cards 10 } card-8946 OBJECT IDENTIFIER ::= { xdsl-cards 11 } card-8510 OBJECT IDENTIFIER ::= { xdsl-cards 12 } card-8310 OBJECT IDENTIFIER ::= { xdsl-cards 13 } card-e1-sdsl OBJECT IDENTIFIER ::= { xdsl-cards 14 } card-mcc2 OBJECT IDENTIFIER ::= { xdsl-cards 15 } card-8785 OBJECT IDENTIFIER ::= { xdsl-cards 16 } card-8784 OBJECT IDENTIFIER ::= { xdsl-cards 17 } card-8312 OBJECT IDENTIFIER ::= { xdsl-cards 18 } card-8344 OBJECT IDENTIFIER ::= { xdsl-cards 19 } card-mcc-plus OBJECT IDENTIFIER ::= { xdsl-cards 20 } card-mcp OBJECT IDENTIFIER ::= { xdsl-cards 21 } card-8334 OBJECT IDENTIFIER ::= { xdsl-cards 22 } card-xxxx OBJECT IDENTIFIER ::= { xdsl-cards 23 } card-8343 OBJECT IDENTIFIER ::= { xdsl-cards 24 } card-8333 OBJECT IDENTIFIER ::= { xdsl-cards 25 } card-8719 OBJECT IDENTIFIER ::= { xdsl-cards 26 } card-8747 OBJECT IDENTIFIER ::= { xdsl-cards 27 } card-8777 OBJECT IDENTIFIER ::= { xdsl-cards 28 } card-8779 OBJECT IDENTIFIER ::= { xdsl-cards 29 } card-8021 OBJECT IDENTIFIER ::= { xdsl-cards 30 } card-8022 OBJECT IDENTIFIER ::= { xdsl-cards 31 } card-8373 OBJECT IDENTIFIER ::= { xdsl-cards 32 } card-8374 OBJECT IDENTIFIER ::= { xdsl-cards 33 } card-8323 OBJECT IDENTIFIER ::= { xdsl-cards 34 } card-8324 OBJECT IDENTIFIER ::= { xdsl-cards 35 } card-8023 OBJECT IDENTIFIER ::= { xdsl-cards 36 } card-8024 OBJECT IDENTIFIER ::= { xdsl-cards 37 } card-8335 OBJECT IDENTIFIER ::= { xdsl-cards 38 } card-8365 OBJECT IDENTIFIER ::= { xdsl-cards 39 } card-83xx OBJECT IDENTIFIER ::= { xdsl-cards 40 } card-8314 OBJECT IDENTIFIER ::= { xdsl-cards 41 } card-8328 OBJECT IDENTIFIER ::= { xdsl-cards 42 } card-8329 OBJECT IDENTIFIER ::= { xdsl-cards 43 } card-8303 OBJECT IDENTIFIER ::= { xdsl-cards 44 } card-8304 OBJECT IDENTIFIER ::= { xdsl-cards 45 } card-8025 OBJECT IDENTIFIER ::= { xdsl-cards 46 } card-8026 OBJECT IDENTIFIER ::= { xdsl-cards 47 } card-8027 OBJECT IDENTIFIER ::= { xdsl-cards 48 } card-8028 OBJECT IDENTIFIER ::= { xdsl-cards 49 } card-8379 OBJECT IDENTIFIER ::= { xdsl-cards 50 } card-8312-ReachDSL OBJECT IDENTIFIER ::= { xdsl-cards 51 } card-8314-ReachDSL OBJECT IDENTIFIER ::= { xdsl-cards 52 } card-8385 OBJECT IDENTIFIER ::= { xdsl-cards 53 } card-8395 OBJECT IDENTIFIER ::= { xdsl-cards 54 } card-8396 OBJECT IDENTIFIER ::= { xdsl-cards 55 } card-8797 OBJECT IDENTIFIER ::= { xdsl-cards 56 } card-8799 OBJECT IDENTIFIER ::= { xdsl-cards 57 } card-8355 OBJECT IDENTIFIER ::= { xdsl-cards 58 } xdsl-ports OBJECT IDENTIFIER ::= { pdn-xdsl-products 11 } port-dsl OBJECT IDENTIFIER ::= { xdsl-ports 1 } port-mvl OBJECT IDENTIFIER ::= { xdsl-ports 2 } port-eth10 OBJECT IDENTIFIER ::= { xdsl-ports 3 } port-eth100 OBJECT IDENTIFIER ::= { xdsl-ports 4 } port-oc3 OBJECT IDENTIFIER ::= { xdsl-ports 5 } port-ds3 OBJECT IDENTIFIER ::= { xdsl-ports 6 } port-sar OBJECT IDENTIFIER ::= { xdsl-ports 7 } port-hdlc OBJECT IDENTIFIER ::= { xdsl-ports 8 } port-e3 OBJECT IDENTIFIER ::= { xdsl-ports 9 } port-ds1 OBJECT IDENTIFIER ::= { xdsl-ports 10 } port-e1 OBJECT IDENTIFIER ::= { xdsl-ports 11 } port-ima OBJECT IDENTIFIER ::= { xdsl-ports 12 } port-reachDsl OBJECT IDENTIFIER ::= { xdsl-ports 13 } port-reachDslV3 OBJECT IDENTIFIER ::= { xdsl-ports 14 } xdsl-slots OBJECT IDENTIFIER ::= { pdn-xdsl-products 12 } slot-std OBJECT IDENTIFIER ::= { xdsl-slots 1 } xdsl-components OBJECT IDENTIFIER ::= { pdn-xdsl-products 13 } comp-powerA OBJECT IDENTIFIER ::= { xdsl-components 1 } comp-powerB OBJECT IDENTIFIER ::= { xdsl-components 2 } comp-fan OBJECT IDENTIFIER ::= { xdsl-components 3 } comp-mgmt OBJECT IDENTIFIER ::= { xdsl-components 4 } comp-atm OBJECT IDENTIFIER ::= { xdsl-components 5 } -- Compression pdn-comp-products OBJECT IDENTIFIER ::= { paradyne-products 10 } comp-9028 OBJECT IDENTIFIER ::= { pdn-comp-products 1 } -- PTC pdn-ptc-products OBJECT IDENTIFIER ::= { paradyne-products 11 } xdsl-xdsl OBJECT IDENTIFIER ::= { pdn-ptc-products 1 } -- DSL Router Endpoint (not used?) pdnDslEndpoint OBJECT IDENTIFIER ::= { paradyne-products 12 } -- (reserved) reserved13 OBJECT IDENTIFIER ::= { paradyne-products 13 } reserved14 OBJECT IDENTIFIER ::= { paradyne-products 14 } -- CellSaver pdn-cellsaver OBJECT IDENTIFIER ::= { paradyne-products 15 } cellsaver-9510 OBJECT IDENTIFIER ::= { pdn-cellsaver 1 } cellsaver-9550 OBJECT IDENTIFIER ::= { pdn-cellsaver 2 } -- Cornet pdn-cornet OBJECT IDENTIFIER ::= { paradyne-products 16 } cornet-xxxx OBJECT IDENTIFIER ::= { pdn-cornet 1 } -- ubiquiti pdn-ubiquiti OBJECT IDENTIFIER ::= { paradyne-products 17 } ubiquiti-ip OBJECT IDENTIFIER ::= { pdn-ubiquiti 1 } ubiquiti-sdp OBJECT IDENTIFIER ::= { ubiquiti-ip 1 } sdp-adsl OBJECT IDENTIFIER ::= { ubiquiti-sdp 1 } sdp-reach OBJECT IDENTIFIER ::= { ubiquiti-sdp 2 } ubiquiti-adp OBJECT IDENTIFIER ::= { ubiquiti-ip 2 } adp-adsl OBJECT IDENTIFIER ::= { ubiquiti-adp 1 } adp-reach OBJECT IDENTIFIER ::= { ubiquiti-adp 2 } ubiquiti-lpe OBJECT IDENTIFIER ::= { ubiquiti-ip 3 } lpe-adsl OBJECT IDENTIFIER ::= { ubiquiti-lpe 1 } lpe-reach OBJECT IDENTIFIER ::= { ubiquiti-lpe 2 } ubiquiti-atm OBJECT IDENTIFIER ::= { pdn-ubiquiti 2 } -- -- The NMS/pdn mgmt subtrees are used for MIB objects -- -- ========== NMS mgmt ========== paradyneNMS OBJECT IDENTIFIER ::= { pdn-mgmt 23 } -- nms-6800 OBJECT IDENTIFIER ::= { paradyneNMS 1 thru 4} nms-6700 OBJECT IDENTIFIER ::= { paradyneNMS 5 } -- ========== pdn mgmt ========== paradyne OBJECT IDENTIFIER ::= { pdn-mgmt 24 } pdn-cellRelay OBJECT IDENTIFIER ::= { paradyne 1 } pdn-common OBJECT IDENTIFIER ::= { paradyne 2 } pdn-frontPanel OBJECT IDENTIFIER ::= { pdn-common 1 } pdn-chassis OBJECT IDENTIFIER ::= { pdn-common 2 } -- unused pdn-callDir OBJECT IDENTIFIER ::= { pdn-common 3 } pdn-devStatus OBJECT IDENTIFIER ::= { pdn-common 4 } pdn-devID OBJECT IDENTIFIER ::= { pdn-common 5 } pdn-interfaces OBJECT IDENTIFIER ::= { pdn-common 6 } -- ifMap OBJECT IDENTIFIER ::= { pdn-interfaces 1 } -- dds OBJECT IDENTIFIER ::= { pdn-interfaces 2 } -- portUsage OBJECT IDENTIFIER ::= { pdn-interfaces 3 } -- voice OBJECT IDENTIFIER ::= { pdn-interfaces 4 } ent-ds1 OBJECT IDENTIFIER ::= { pdn-interfaces 5 } -- devDS1Tests OBJECT IDENTIFIER ::= { ent-ds1 1 } -- ds1PerfStats OBJECT IDENTIFIER ::= { ent-ds1 4 } syncPort OBJECT IDENTIFIER ::= { pdn-interfaces 6 } -- syncDataPortConfigTbl OBJECT IDENTIFIER ::= { syncPort 1 } -- devSyncPortTest OBJECT IDENTIFIER ::= { syncPort 2 } -- edlPerfStats OBJECT IDENTIFIER ::= { syncPort 4 } crossConnect OBJECT IDENTIFIER ::= { pdn-interfaces 7 } -- devDs1FracTable OBJECT IDENTIFIER ::= { crossConnect 1 } -- devSyncDataPortAssignTbl OBJECT IDENTIFIER ::= { crossConnect 2 } -- pvcXconnect OBJECT IDENTIFIER ::= { crossConnect 3 } xdsl OBJECT IDENTIFIER ::= { pdn-interfaces 8 } -- xdsl OBJECT IDENTIFIER ::= { xdsl 1 } -- dhcp OBJECT IDENTIFIER ::= { xdsl 2 } -- pdsl OBJECT IDENTIFIER ::= { xdsl 3 } pdnFrameRelay OBJECT IDENTIFIER ::= { pdn-interfaces 9 } -- frame-relay-clear-stat OBJECT IDENTIFIER ::= { pdnFrameRelay 1 } -- frNetDcp OBJECT IDENTIFIER ::= { pdnFrameRelay 2 } -- devPVCTest OBJECT IDENTIFIER ::= { pdnFrameRelay 3 } -- ocuPort OBJECT IDENTIFIER ::= { pdn-interfaces 10 } pdnAtm OBJECT IDENTIFIER ::= { pdn-interfaces 11 } -- devAtmSlv OBJECT IDENTIFIER ::= { pdnAtm 1 } -- devAtmPVCTest OBJECT IDENTIFIER ::= { pdnAtm 2 } -- devAtmStatsMIB OBJECT IDENTIFIER ::= { pdnAtm 3 } -- devAtmSCM OBJECT IDENTIFIER ::= { pdnAtm 4 } -- pdnAtmExtMIB OBJECT IDENTIFIER ::= { pdnAtm 5 } -- pdnAtmM4ExtMIB OBJECT IDENTIFIER ::= { pdnAtm 6 } pdnIfExt OBJECT IDENTIFIER ::= { pdn-interfaces 12 } -- pdnIfExtConfig OBJECT IDENTIFIER ::= { pdnIfExt 1 } -- pdnIfExtTestConfig OBJECT IDENTIFIER ::= { pdnIfExt 2 } -- pdnIfExtEncapConfig OBJECT IDENTIFIER ::= { pdnIfExt 3 } pdnSonetMIB OBJECT IDENTIFIER ::= { pdn-interfaces 13 } pdnDs3MIB OBJECT IDENTIFIER ::= { pdn-interfaces 14 } pdnmsdsl OBJECT IDENTIFIER ::= { pdn-interfaces 15 } -- pdnShdsl OBJECT IDENTIFIER ::= { pdnmsdsl 1 } pdnIsdn OBJECT IDENTIFIER ::= { pdn-interfaces 16 } pdnMgmtLink OBJECT IDENTIFIER ::= { pdn-interfaces 17 } pdnDiagPortal OBJECT IDENTIFIER ::= { pdn-interfaces 18 } -- pdnSpectrumMgmt OBJECT IDENTIFIER ::= { pdn-interfaces 19 } pdnReachDSL OBJECT IDENTIFIER ::= { pdn-interfaces 20 } pdn-devConfig OBJECT IDENTIFIER ::= { pdn-common 7 } pdn-security OBJECT IDENTIFIER ::= { pdn-common 8 } pdn-traps OBJECT IDENTIFIER ::= { pdn-common 9 } -- pdn-control OBJECT IDENTIFIER ::= { pdn-common 10 } pdn-ipInjection OBJECT IDENTIFIER ::= { pdn-common 11 } pdn-ip OBJECT IDENTIFIER ::= { pdn-common 12 } pdn-rmon OBJECT IDENTIFIER ::= { pdn-common 13 } pdn-fileXfer OBJECT IDENTIFIER ::= { pdn-common 14 } pdn-feature OBJECT IDENTIFIER ::= { pdn-common 15 } pdn-diagnostics OBJECT IDENTIFIER ::= { pdn-common 16 } -- diagTestMIBObjects OBJECT IDENTIFIER ::= { pdn-diagnostics 1 } -- diagTestMIBTraps OBJECT IDENTIFIER ::= { pdn-diagnostics 2 } pdn-dns OBJECT IDENTIFIER ::= { pdn-common 17 } -- pdnDNSMIBObjects OBJECT IDENTIFIER ::= { pdn-dns 1 } -- pdnDNSMIBTraps OBJECT IDENTIFIER ::= { pdn-dns 2 } pdn-ether OBJECT IDENTIFIER ::= { pdn-common 18 } -- pdnPortConfigMIBObjects OBJECT IDENTIFIER ::= { pdn-ether 1 } -- pdnPortConfigMIBTraps OBJECT IDENTIFIER ::= { pdn-ether 2 } pdn-socket OBJECT IDENTIFIER ::= { pdn-common 19 } -- devSocketStatsMIBObjects OBJECT IDENTIFIER ::= { pdn-socket 1 } -- devSocketStatsMIBTraps OBJECT IDENTIFIER ::= { pdn-socket 2 } pdn-time OBJECT IDENTIFIER ::= { pdn-common 20 } -- devTimeMIBObjects OBJECT IDENTIFIER ::= { pdn-time 1 } -- devTimeMIBTraps OBJECT IDENTIFIER ::= { pdn-time 2 } pdn-bridge OBJECT IDENTIFIER ::= { pdn-common 21 } -- pdnBridgeGenericMIBObjects OBJECT IDENTIFIER ::= { pdn-bridge 1 } -- pdnBridgeMIBTraps OBJECT IDENTIFIER ::= { pdn-bridge 2 } pdn-domain OBJECT IDENTIFIER ::= { pdn-common 22 } -- pdnDomainMIBObjects OBJECT IDENTIFIER ::= { pdn-domain 1 } -- pdnDomainMIBTraps OBJECT IDENTIFIER ::= { pdn-domain 2 } pdn-filter OBJECT IDENTIFIER ::= { pdn-common 23 } -- sysDevFilterMIBObjects OBJECT IDENTIFIER ::= { pdn-filter 1 } -- sysDevFilterMIBTraps OBJECT IDENTIFIER ::= { pdn-filter 2 } pdn-dslam OBJECT IDENTIFIER ::= { pdn-common 24 } -- sysDevDslamMIBObjects OBJECT IDENTIFIER ::= { pdn-dslam 1 } -- sysDevDslamMIBTraps OBJECT IDENTIFIER ::= { pdn-dslam 2 } pdn-radius OBJECT IDENTIFIER ::= { pdn-common 25 } -- sysDevRadiusMIBObjects OBJECT IDENTIFIER ::= { pdn-radius 1 } -- sysDevRadiusMIBTraps OBJECT IDENTIFIER ::= { pdn-radius 2 } pdn-inet OBJECT IDENTIFIER ::= { pdn-common 26 } -- pdnInetMIBObjects OBJECT IDENTIFIER ::= { pdn-inet 1 } -- pdnInetMIBTraps OBJECT IDENTIFIER ::= { pdn-inet 2 } pdn-arp OBJECT IDENTIFIER ::= { pdn-common 27 } -- pdnNetToMediaGenericMIBObjects OBJECT IDENTIFIER ::= { pdn-arp 1 } -- pdnNetToMediaMIBTraps OBJECT IDENTIFIER ::= { pdn-arp 2 } pdn-devStats OBJECT IDENTIFIER ::= { pdn-common 28 } -- devStatsMIBObjects OBJECT IDENTIFIER ::= { pdn-devStats 1 } -- devStatsMIBTraps OBJECT IDENTIFIER ::= { pdn-devStats 2 } pdn-dhcp OBJECT IDENTIFIER ::= { pdn-common 29 } pdn-nat OBJECT IDENTIFIER ::= { pdn-common 30 } pdn-syslog OBJECT IDENTIFIER ::= { pdn-common 31 } pdn-dialControl OBJECT IDENTIFIER ::= { pdn-common 32 } pdn-devNetTiming OBJECT IDENTIFIER ::= { pdn-common 33 } -- pdnDevNetTimingMIB OBJECT IDENTIFIER ::= { pdn-devTiming 1 } -- pdnDevNetTimingMIBObjects OBJECT IDENTIFIER ::= { pdnDevNetTimingMIB 1 } -- pdnDevNetTimingMIBTraps OBJECT IDENTIFIER ::= { pdnDevNetTimingMIB 2 } -- pdnDevNetTimingMIBConformance OBJECT IDENTIFIER ::= { pdnDevNetTimingMIB 3 } pdnIPSec OBJECT IDENTIFIER ::= { pdn-common 34 } mpeEntitySensor OBJECT IDENTIFIER ::= { pdn-common 35 } pdn-snmp OBJECT IDENTIFIER ::= { paradyne 3 } ent-9XXX OBJECT IDENTIFIER ::= { pdn-snmp 1 } ent-96XX OBJECT IDENTIFIER ::= { ent-9XXX 1 } -- unused ent-bonaire OBJECT IDENTIFIER ::= { ent-9XXX 2 } -- unused ent-91XX OBJECT IDENTIFIER ::= { ent-9XXX 3 } -- unused pdn-36xx OBJECT IDENTIFIER ::= { paradyne 4 } -- unused pdn-aac OBJECT IDENTIFIER ::= { paradyne 5 } -- unused pdn-eagle OBJECT IDENTIFIER ::= { paradyne 6 } -- unused pdn-ar OBJECT IDENTIFIER ::= { paradyne 7 } -- unused pdn-as OBJECT IDENTIFIER ::= { paradyne 8 } -- unused pdn-xdsl OBJECT IDENTIFIER ::= { paradyne 9 } ent-5100 OBJECT IDENTIFIER ::= { pdn-xdsl 1 } -- xdslIfConfigMIBObjects OBJECT IDENTIFIER ::= { pdn-xdsl 2 } ent-8800 OBJECT IDENTIFIER ::= { pdn-xdsl 3 } -- sysDevStats OBJECT IDENTIFIER ::= { ent-8800 1 } -- sysDevConfig OBJECT IDENTIFIER ::= { ent-8800 2 } -- sysDevFilter OBJECT IDENTIFIER ::= { ent-8800 3 } -- diagTests OBJECT IDENTIFIER ::= { ent-8800 4 } -- pdnDot1dBridge OBJECT IDENTIFIER ::= { ent-8800 5 } -- pdnDomain OBJECT IDENTIFIER ::= { ent-8800 6 } -- sysDevRadiusAuth OBJECT IDENTIFIER ::= { ent-8800 7 } -- sysDevUserAccount OBJECT IDENTIFIER ::= { ent-8800 8 } -- xdslIfConfigMIBTraps OBJECT IDENTIFIER ::= { pdn-xdsl 4 } ent-8600 OBJECT IDENTIFIER ::= { pdn-xdsl 5 } -- unused pdn-sle OBJECT IDENTIFIER ::= { pdn-xdsl 6 } pdn-comp OBJECT IDENTIFIER ::= { paradyne 10 } ent-9028 OBJECT IDENTIFIER ::= { pdn-comp 1 } -- unused pdn-ptc OBJECT IDENTIFIER ::= { paradyne 11 } ent-ptc OBJECT IDENTIFIER ::= { pdn-ptc 1 } -- unused pdn-mpe OBJECT IDENTIFIER ::= { paradyne 12 } mpe-mib2 OBJECT IDENTIFIER ::= { pdn-mpe 4 } -- mpeMib2MIBObjects OBJECT IDENTIFIER ::= { mpe-mib2 1 } -- mpeMib2MIBTraps OBJECT IDENTIFIER ::= { mpe-mib2 2 } mpe-devHealth OBJECT IDENTIFIER ::= { pdn-mpe 7 } -- mpeDevHealthAndStatusMIBObjects OBJECT IDENTIFIER ::= { mpe-devHealth 1 } -- mpeDevHealthAndStatusMIBTraps OBJECT IDENTIFIER ::= { mpe-devHealth 2 } -- mpeDevControl OBJECT IDENTIFIER ::= { pdn-mpe 10 } -- mpeDevControlMIBObjects OBJECT IDENTIFIER ::= { mpe-devControl 1 } -- mpeDevControlMIBTraps OBJECT IDENTIFIER ::= { mpe-devControl 2 } mpe-bridge OBJECT IDENTIFIER ::= { pdn-mpe 21 } -- mpePdnBridgeGenericMIBObjects OBJECT IDENTIFIER ::= { mpe-bridge 1 } -- mpePdnBridgeMIBTraps OBJECT IDENTIFIER ::= { mpe-bridge 2 } mpe-domain OBJECT IDENTIFIER ::= { pdn-mpe 22 } -- mpePdnDomainMIBObjects OBJECT IDENTIFIER ::= { mpe-domain 1 } -- mpePdnDomainMIBTraps OBJECT IDENTIFIER ::= { mpe-domain 2 } mpe-filter OBJECT IDENTIFIER ::= { pdn-mpe 23 } -- mpeSysDevFilterMIBObjects OBJECT IDENTIFIER ::= { mpe-filter 1 } -- mpeSysDevFilterMIBTraps OBJECT IDENTIFIER ::= { mpe-filter 2 } mpe-dslam OBJECT IDENTIFIER ::= { pdn-mpe 24 } -- mpeSysDevDslamMIBObjects OBJECT IDENTIFIER ::= { mpe-dslam 1 } -- mpeSysDevDslamMIBTraps OBJECT IDENTIFIER ::= { mpe-dslam 2 } mpe-arp OBJECT IDENTIFIER ::= { pdn-mpe 27 } -- mpePdnNetToMediaGenericMIBObjects OBJECT IDENTIFIER ::= { mpe-arp 1 } -- mpePdnNetToMediaGenericMIBTraps OBJECT IDENTIFIER ::= { mpe-arp 2 } mpe-devStats OBJECT IDENTIFIER ::= { pdn-mpe 28 } -- mpeDevStatsMIBObjects OBJECT IDENTIFIER ::= { mpe-devStats 1 } -- mpeDevStatsMIBTraps OBJECT IDENTIFIER ::= { mpe-devStats 2 } mpe-devConfig OBJECT IDENTIFIER ::= { pdn-mpe 29 } -- mpeDevConfigMIB OBJECT IDENTIFIER ::= { mpe-devConfig 1 } -- mpeDevConfigMIBObjects OBJECT IDENTIFIER ::= { mpeDevConfigMIB 1 } -- mpeDevConfigMIBTraps OBJECT IDENTIFIER ::= { mpeDevConfigMIB 2 } -- mpeDevConfigMIBConformance OBJECT IDENTIFIER ::= { mpeDevConfigMIB 3 } mpe-atm OBJECT IDENTIFIER ::= { pdn-mpe 30 } -- mpeAtmConfMIB OBJECT IDENTIFIER ::= { mpe-atm 1 } -- mpeAtmConfMIBObjects OBJECT IDENTIFIER ::= { mpeAtmConfMIB 1 } -- mpeAtmConfMIBTraps OBJECT IDENTIFIER ::= { mpeAtmConfMIB 2 } -- mpeAtmConfMIBConformance OBJECT IDENTIFIER ::= { mpeAtmConfMIB 3 } pdn-experimental OBJECT IDENTIFIER ::= { paradyne 13 } pdn-ietf-drafts OBJECT IDENTIFIER ::= { paradyne 14 } -- draft-ietf-frnetmib-frsi-00 OBJECT IDENTIFER ::= { pdn-ietf-drafts 1 } cellsaver-mibs OBJECT IDENTIFIER ::= { paradyne 15 } -- cellsaver-common OBJECT IDENTIFER ::= { cellsaver-mibs 1 } -- mib-9510 OBJECT IDENTIFER ::= { cellsaver-mibs 2 } -- mib-9550 OBJECT IDENTIFER ::= { cellsaver-mibs 3 } cornet-mibs OBJECT IDENTIFIER ::= { paradyne 16 } -- cornet-common OBJECT IDENTIFER ::= { cornet-mibs 1 } -- mib-xxxx OBJECT IDENTIFER ::= { cornet-mibs 2 } ubiquiti-mibs OBJECT IDENTIFIER ::= { paradyne 17 } -- ubiquiti-common OBJECT IDENTIFER ::= { ubiquiti-mibs 1 } -- mib-xxxx OBJECT IDENTIFER ::= { ubiquiti-mibs 2 } END PDN-TC DEFINITIONS ::= BEGIN -- Copyright (C) 1999 Paradyne Corporation. -- Enterprise Textual Convention MIB -- Version : 0.1 DRAFT -- Last Updated Wayne Jadoo 10/7/1999 -- Last Updated Wayne Jadoo 10/4/1999 -- Last Update Wayne Jadoo 09/28/1999 -- Last Updated Wayne Jadoo 09/27/1999 -- Last Updated : Wayne Jadoo 08/31/99 -- The textual Conversion MIB contains the definitions of objects that are used -- for defining objects in other MIBs. This file can be imported by the other -- MIBs in order to use the pre-defined objects. Textual conventions for new -- objects can be added to this file. -- History -- 08/25/1999 Wayne Jadoo -- Initial Version. -- 09/27/1999 Wayne Jadoo -- Commented out textual conventions so -- to be compatible to SNMP-V1 -- 09/28/99 Wayne Jadoo -- Added TC for TAddress , MacAddress and TruthValue -- 10/04/99 Wayne Jadoo -- Removed TC for Tadddress, MacAddress and TruthValue -- DateAndTime and SnmpAdminString and moved to rfc1901v1.mi -- Wayne Jadoo 10/7/99 -- Imported PDN-HEADER-HEADER mib -- and added TC for SnmpAdminString. -- Kevin Baughman 10/27/99 -- Converted back to smiv2 -- Rajesh Raghavan 9/21/2000 -- Added TC for TimeOfDay -- IMPORTS TEXTUAL-CONVENTION, DisplayString FROM SNMPv2-TC enterprises FROM RFC1155-SMI; -- Not having an object defined causes errors for HP OpenView pdyn OBJECT IDENTIFIER ::= { enterprises 1795 } -- ========================================================== VnidMode ::= TEXTUAL-CONVENTION STATUS current DESCRIPTION "This object describes the configuration mode for VNIDs and ports. " SYNTAX INTEGER { implicit(1), explicit(2), notagging(3) } ClientState ::= TEXTUAL-CONVENTION STATUS current DESCRIPTION " The configuration type for a client." SYNTAX INTEGER { static(1), dynamic(2)} VnidTaggingState ::= TEXTUAL-CONVENTION STATUS current DESCRIPTION " This object indicates whether VNID tagging is activated or de-activated." SYNTAX INTEGER { enabled(1), disabled(2)} VnidRange ::= TEXTUAL-CONVENTION STATUS current DESCRIPTION " The valid range for VNID IDs" SYNTAX INTEGER ( 2..4000 ) SwitchState ::= TEXTUAL-CONVENTION STATUS current DESCRIPTION " This object indicates whether an object state is in the enabled or disabled state " SYNTAX INTEGER { enabled(1), disabled(2)} ResetStates ::= TEXTUAL-CONVENTION STATUS current DESCRIPTION "This object defines the enumerations of values that can be applied to the reset object" SYNTAX INTEGER { noOp(1), reset (2), resetToFactoryDefaults(3) } ResultTypes ::= TEXTUAL-CONVENTION STATUS current DESCRIPTION "This object defines the enumerations for the result of an operation " SYNTAX INTEGER { none(1), success(2), failure(3), inProgress(4) } InitiatorTypes ::= TEXTUAL-CONVENTION STATUS current DESCRIPTION "This object defines the enumerations for the result of an operation " SYNTAX INTEGER { noop(1), telnet(2), console(3), snmp(4) } NTPMode ::= TEXTUAL-CONVENTION STATUS current DESCRIPTION "This object describes the mode NTP will operate in" SYNTAX INTEGER { unicast(1), broadcast(2) } DNSServerType ::= TEXTUAL-CONVENTION STATUS current DESCRIPTION "This object describes the DNS server Type" SYNTAX INTEGER { primary(1), secondary(2) } MibOidType ::= TEXTUAL-CONVENTION STATUS current DESCRIPTION "This Object describes the type of a mib object Scalar - Single Instance Object Table - Multi-instance Object Mib - A Mib. Section - A Section Within A MIB" SYNTAX INTEGER { scalar (1), table (2), mib (3), section (4) } SocketType ::= TEXTUAL-CONVENTION STATUS current DESCRIPTION "This object describes the type of socket" SYNTAX INTEGER { unknown(1), stream(2), datagram(3), rawProtocol(4), reliableMessageDelivery(5), sequencedPacket(6) } SocketFamily ::= TEXTUAL-CONVENTION STATUS current DESCRIPTION "This object describes the socket Family" SYNTAX INTEGER { unknown(1), unix(2), darpaInternet(3), darpaIMP(4), pUP(5), cHAOSFamily(6), xeroxNovell(7), nBS(8), eCMA(9), dATAKIT(10), cCITT(11), sNA(12), dECnet(13), directDataLinkInterface(14), dECLAT(15), nSCHyperChannel(16), appleTalk(17), netqorkInterfaceTap(18), iEEE8020ISO8802(19), oSI(20), x25(21), oSIAFI47IDI4(22), uSGovermentOSI(23) } SocketState ::= TEXTUAL-CONVENTION STATUS current DESCRIPTION "This object describes the state of a stream socket" SYNTAX INTEGER { closed (1), listen (2), sYNSent(3), sYNRCVD(4), established(5), closeWait(6), fINWait(7), closing(8), lastAck(9), fINWait2(10), timeWait(11) } DomainName ::= TEXTUAL-CONVENTION STATUS current DESCRIPTION "The domain name space is a tree structure. Each node and leaf on the tree corresponds to a resource set (which may be empty). The domain system makes no distinctions between the uses of the interior nodes and leaves, and this memo uses the term 'node' to refer to both. Each node has a label, which is zero to 63 octets in length. Brother nodes may not have the same label, although the same label can be used for nodes which are not brothers. One label is reserved, and that is the null (i.e., zero length) label used for the root. The domain name of a node is the list of the labels on the path from the node to the root of the tree. By convention, the labels that compose a domain name are printed or read left to right, from the most specific (lowest, farthest from the root) to the least specific (highest, closest to the root). Internally, programs that manipulate domain names should represent them as sequences of labels, where each label is a length octet followed by an octet string. Because all domain names end at the root, which has a null string for a label, these internal representations can use a length byte of zero to terminate a domain name. By convention, domain names can be stored with arbitrary case, but domain name comparisons for all present domain functions are done in a case-insensitive manner, assuming an ASCII character set, and a high order zero bit. This means that you are free to create a node with label 'A' or a node with label 'a', but not both as brothers; you could refer to either using 'a' or 'A'. When you receive a domain name or label, you should preserve its case. The rationale for this choice is that we may someday need to add full binary domain names for new services; existing services would not be changed. When a user needs to type a domain name, the length of each label is omitted and the labels are separated by dots ('.'). Since a complete domain name ends with the root label, this leads to a printed form which ends in a dot. We use this property to distinguish between: character string which represents a complete domain name (often called 'absolute'). For example, 'poneria.ISI.EDU.' - a character string that represents the starting labels of a domain name which is incomplete, and should be completed by local software using knowledge of the local domain (often called 'relative'). For example, 'poneria' used in the ISI.EDU domain. Relative names are either taken relative to a well known origin, or to a list of domains used as a search list. Relative names appear mostly at the user interface, where their interpretation varies from implementation to implementation, and in master files, where they are relative to a single origin domain name. The most common interpretation uses the root '.' as either the single origin or as one of the members of the search list, so a multi-label relative name is often one where the trailing dot has been omitted to save typing. To simplify implementations, the total number of octets that represent a domain name (i.e., the sum of all label octets and label lengths) is limited to 255. A domain is identified by a domain name, and consists of that part of the domain name space that is at or below the domain name which specifies the domain. A domain is a subdomain of another domain if it is contained within that domain. This relationship can be tested by seeing if the subdomain's name ends with the containing domain's name. For example, A.B.C.D is a subdomain of B.C.D, C.D, D, and '.' " SYNTAX DisplayString (SIZE (1..64)) SnmpAdminString ::= TEXTUAL-CONVENTION DISPLAY-HINT "255a" STATUS current DESCRIPTION "An octet string containing administrative information, preferably in human-readable form. To facilitate internationalization, this information is represented using the ISO/IEC IS 10646-1 character set, encoded as an octet string using the UTF-8 transformation format described in [RFC2044]. Since additional code points are added by amendments to the 10646 standard from time to time, implementations must be prepared to encounter any code point from 0x00000000 to 0x7fffffff. The use of control codes should be avoided. When it is necessary to represent a newline, the control code sequence CR LF should be used. The use of leading or trailing white space should be avoided. For code points not directly supported by user interface hardware or software, an alternative means of entry and display, such as hexadecimal, may be provided. For information encoded in 7-bit US-ASCII, the UTF-8 encoding is identical to the US-ASCII encoding. Note that when this TC is used for an object that is used or envisioned to be used as an index, then a SIZE restriction must be specified so that the number of sub-identifiers for any object instance does not exceed the limit of 128, as defined by [RFC1905]. " SYNTAX OCTET STRING (SIZE (0..255)) InetAddressType ::= TEXTUAL-CONVENTION STATUS current DESCRIPTION "This object describes the type of address configured for a interface" SYNTAX INTEGER { primary (1), secondary (2) } ManagementType ::= TEXTUAL-CONVENTION STATUS current DESCRIPTION "This object is used to specify the type of management. This can be either Inband Management or OutBand Management." SYNTAX INTEGER { inband (1), outband (2) } IdslClockMode ::= TEXTUAL-CONVENTION STATUS current DESCRIPTION "This object indicates the network clock mode set for the secondary network clock. IDSL portcards with a port configured as an NT will be set to portCardDriveClockOnboard(4), both driving the backplane and using the clock for the other Local Timing transceivers on the card. Port cards with only LT ports configured will receive a clock from the backplane using portCardSinkClock(2). portCardDriveClock(3) will drive the backplane alone." SYNTAX INTEGER { triState(1), portCardSinkClock(2), portCardDriveClock(3), portCardDriveClockOnboard(4) } TimeOfDay ::= TEXTUAL-CONVENTION DISPLAY-HINT "1d:1d" STATUS current DESCRIPTION "A time of day specification field octets contents range ----- ------ -------- ----- 1 1 hour 0..23 2 2 minutes 0..59" SYNTAX OCTET STRING(SIZE(2)) DayOfWeek ::= TEXTUAL-CONVENTION STATUS current DESCRIPTION "This object indicates the day of the week, with an additional option 'Daily' to work with interfaces that use this convention to schedule events." SYNTAX INTEGER { sunday(1), monday(2), tuesday(3), wednesday(4), thursday(5), friday(6), saturday(7), daily(8) } END PDN-SLE-TC DEFINITIONS ::= BEGIN -- Copyright (C) 1999 Paradyne Corporation. -- Enterprise Textual Convention MIB -- Version : 0.1 DRAFT -- Last Updated Wayne Jadoo 03/07/2000 -- Last Updated Wayne Jadoo 03/03/2000 -- Last Updated Wayne Jadoo 01/13/2000 -- Last Updated Wayne Jadoo 12/20/1999 -- Last Updated Wayne Jadoo 10/7/1999 -- Last Updated Wayne Jadoo 10/4/1999 -- Last Update Wayne Jadoo 09/28/1999 -- Last Updated Wayne Jadoo 09/27/1999 -- Last Updated : Wayne Jadoo 08/31/99 -- The textual Conversion MIB contains the definitions of objects that are used -- for defining objects in other MIBs. This file can be imported by the other -- MIBs in order to use the pre-defined objects. Textual conventions for new -- objects can be added to this file. -- History -- 08/25/1999 Wayne Jadoo -- Initial Version. -- 09/27/1999 Wayne Jadoo -- Commented out textual conventions so -- to be compatible to SNMP-V1 -- 09/28/99 Wayne Jadoo -- Added TC for TAddress , MacAddress and TruthValue -- 10/04/99 Wayne Jadoo -- Removed TC for Tadddress, MacAddress and TruthValue -- DateAndTime and SnmpAdminString and moved to rfc1901v1.mi -- Wayne Jadoo 10/7/99 -- Imported PDN-HEADER-HEADER mib -- and added TC for SnmpAdminString. -- Kevin Baughman 10/27/99 -- Converted back to smiv2 -- Wayne Jadoo 12/20/99 -- Added Textual Convention for Bit32 -- -- Wayne Jadoo 1/13/00 -- Added TC ManagementType for Inband/OutBand Management. -- Wayne Jadoo 03-03-2000 -- Added resetToFactoryDefaults as an enumeration of ResetStates -- Changed internal/external to inband/outband for ManagementType. -- Wayne Jadoo 03-07-00 -- Fix spelling mistakes for InitiatorTypes and -- NTPMode TC. IMPORTS TEXTUAL-CONVENTION, DisplayString FROM SNMPv2-TC enterprises FROM RFC1155-SMI; -- Not having an object defined causes errors for HP OpenView pdyn OBJECT IDENTIFIER ::= { enterprises 1795 } -- ========================================================== VnidMode ::= TEXTUAL-CONVENTION STATUS current DESCRIPTION "This object describes the configuration mode for VNIDs and ports. " SYNTAX INTEGER { implicit(1), explicit(2), notagging(3) } ClientState ::= TEXTUAL-CONVENTION STATUS current DESCRIPTION " The configuration type for a client." SYNTAX INTEGER { static(1), dynamic(2)} VnidTaggingState ::= TEXTUAL-CONVENTION STATUS current DESCRIPTION " This object indicates whether VNID tagging is activated or de-activated." SYNTAX INTEGER { enabled(1), disabled(2)} VnidRange ::= TEXTUAL-CONVENTION STATUS current DESCRIPTION " The valid range for VNID IDs" SYNTAX INTEGER ( 2..4000 ) SwitchState ::= TEXTUAL-CONVENTION STATUS current DESCRIPTION " This object indicates whether an object state is in the enabled or disabled state " SYNTAX INTEGER { enabled(1), disabled(2)} ResetStates ::= TEXTUAL-CONVENTION STATUS current DESCRIPTION "This object defines the enumerations of values that can be applied to the reset object" SYNTAX INTEGER { noOp(1), reset(2), resetToFactoryDefaults(3) } ResultTypes ::= TEXTUAL-CONVENTION STATUS current DESCRIPTION "This object defines the enumerations for the result of an operation " SYNTAX INTEGER { none(1), success(2), failure(3), inProgress(4) } InitiatorTypes ::= TEXTUAL-CONVENTION STATUS current DESCRIPTION "This object defines the enumerations for the result of an operation " SYNTAX INTEGER { noop(1), telnet(2), console(3), snmp(4) } NTPMode ::= TEXTUAL-CONVENTION STATUS current DESCRIPTION "This object describes the mode NTP will operate in" SYNTAX INTEGER { unicast(1), broadcast(2) } DNSServerType ::= TEXTUAL-CONVENTION STATUS current DESCRIPTION "This object describes the DNS server Type" SYNTAX INTEGER { primary(1), secondary(2) } MibOidType ::= TEXTUAL-CONVENTION STATUS current DESCRIPTION "This Object describes the type of a mib object Scalar - Single Instance Object Table - Multi-instance Object Mib - A Mib. Section - A Section Within A MIB" SYNTAX INTEGER { scalar (1), table (2), mib (3), section (4) } SocketType ::= TEXTUAL-CONVENTION STATUS current DESCRIPTION "This object describes the type of socket" SYNTAX INTEGER { unknown(1), stream(2), datagram(3), rawProtocol(4), reliableMessageDelivery(5), sequencedPacket(6) } SocketFamily ::= TEXTUAL-CONVENTION STATUS current DESCRIPTION "This object describes the socket Family" SYNTAX INTEGER { unknown(1), unix(2), darpaInternet(3), darpaIMP(4), pUP(5), cHAOSFamily(6), xeroxNovell(7), nBS(8), eCMA(9), dATAKIT(10), cCITT(11), sNA(12), dECnet(13), directDataLinkInterface(14), dECLAT(15), nSCHyperChannel(16), appleTalk(17), netqorkInterfaceTap(18), iEEE8020ISO8802(19), oSI(20), x25(21), oSIAFI47IDI4(22), uSGovermentOSI(23) } SocketState ::= TEXTUAL-CONVENTION STATUS current DESCRIPTION "This object describes the state of a stream socket" SYNTAX INTEGER { closed (1), listen (2), sYNSent(3), sYNRCVD(4), established(5), closeWait(6), fINWait(7), closing(8), lastAck(9), fINWait2(10), timeWait(11) } DomainName ::= TEXTUAL-CONVENTION STATUS current DESCRIPTION "The domain name space is a tree structure. Each node and leaf on the tree corresponds to a resource set (which may be empty). The domain system makes no distinctions between the uses of the interior nodes and leaves, and this memo uses the term 'node' to refer to both. Each node has a label, which is zero to 63 octets in length. Brother nodes may not have the same label, although the same label can be used for nodes which are not brothers. One label is reserved, and that is the null (i.e., zero length) label used for the root. The domain name of a node is the list of the labels on the path from the node to the root of the tree. By convention, the labels that compose a domain name are printed or read left to right, from the most specific (lowest, farthest from the root) to the least specific (highest, closest to the root). Internally, programs that manipulate domain names should represent them as sequences of labels, where each label is a length octet followed by an octet string. Because all domain names end at the root, which has a null string for a label, these internal representations can use a length byte of zero to terminate a domain name. By convention, domain names can be stored with arbitrary case, but domain name comparisons for all present domain functions are done in a case-insensitive manner, assuming an ASCII character set, and a high order zero bit. This means that you are free to create a node with label 'A' or a node with label 'a', but not both as brothers; you could refer to either using 'a' or 'A'. When you receive a domain name or label, you should preserve its case. The rationale for this choice is that we may someday need to add full binary domain names for new services; existing services would not be changed. When a user needs to type a domain name, the length of each label is omitted and the labels are separated by dots ('.'). Since a complete domain name ends with the root label, this leads to a printed form which ends in a dot. We use this property to distinguish between: character string which represents a complete domain name (often called 'absolute'). For example, 'poneria.ISI.EDU.' - a character string that represents the starting labels of a domain name which is incomplete, and should be completed by local software using knowledge of the local domain (often called 'relative'). For example, 'poneria' used in the ISI.EDU domain. Relative names are either taken relative to a well known origin, or to a list of domains used as a search list. Relative names appear mostly at the user interface, where their interpretation varies from implementation to implementation, and in master files, where they are relative to a single origin domain name. The most common interpretation uses the root '.' as either the single origin or as one of the members of the search list, so a multi-label relative name is often one where the trailing dot has been omitted to save typing. To simplify implementations, the total number of octets that represent a domain name (i.e., the sum of all label octets and label lengths) is limited to 255. A domain is identified by a domain name, and consists of that part of the domain name space that is at or below the domain name which specifies the domain. A domain is a subdomain of another domain if it is contained within that domain. This relationship can be tested by seeing if the subdomain's name ends with the containing domain's name. For example, A.B.C.D is a subdomain of B.C.D, C.D, D, and '.' " SYNTAX DisplayString (SIZE (1..64)) SnmpAdminString ::= TEXTUAL-CONVENTION DISPLAY-HINT "255a" STATUS current DESCRIPTION "An octet string containing administrative information, preferably in human-readable form. To facilitate internationalization, this information is represented using the ISO/IEC IS 10646-1 character set, encoded as an octet string using the UTF-8 transformation format described in [RFC2044]. Since additional code points are added by amendments to the 10646 standard from time to time, implementations must be prepared to encounter any code point from 0x00000000 to 0x7fffffff. The use of control codes should be avoided. When it is necessary to represent a newline, the control code sequence CR LF should be used. The use of leading or trailing white space should be avoided. For code points not directly supported by user interface hardware or software, an alternative means of entry and display, such as hexadecimal, may be provided. For information encoded in 7-bit US-ASCII, the UTF-8 encoding is identical to the US-ASCII encoding. Note that when this TC is used for an object that is used or envisioned to be used as an index, then a SIZE restriction must be specified so that the number of sub-identifiers for any object instance does not exceed the limit of 128, as defined by [RFC1905]. " SYNTAX OCTET STRING (SIZE (0..255)) Bit32 ::= TEXTUAL-CONVENTION STATUS current DESCRIPTION "This object is used for displaying more than one type of information. When a bit is set, a specific type of information is available. Multiple bits can be set to indicate more than one type of information. Bits are numbered by their position, starting at zero. Position zero is the high order (or left-most) bit in the first octet of the string. Position 7 is the low order (or right-most) bit of the first octet of the string. Position 8 is the high order bit in the second octet of the string, and so on." SYNTAX INTEGER ManagementType ::= TEXTUAL-CONVENTION STATUS current DESCRIPTION "This object is used to specify the type of management. This can be either Inband Management or OutBand Management." SYNTAX INTEGER { inband (1), outband (2) } END HOT-BRIDGE-MIB DEFINITIONS ::= BEGIN -- Version : 2.0 -- Enterprise Bridge MIB -- Copyright (C) 1997 Paradyne Corporation. -- Author : Surajit Dey -- -- Last Changed : 2/3/1998 -- Last Changed : 10/28/1998 Rajesh Gowda -- History -- 12/11/1997 - S. Dey -- -- Initial Version. -- Changed standard MIB - RFC 1493 - added VNID Id -- for indexing all tables. -- -- 12/15/1997 - S. Dey -- -- Modified as per review meeting on 12/15/97. -- -- 12/17/1997 - S. Dey -- -- Modified as per review comments by MIB Working Group. -- Replaced all dot1d names by pdnDot1d. -- Changed description of port table for physical port#. -- -- 1/7/1998 - S. Dey -- -- Changed pdnDot1dTpFdbPort to pdnDot1dTpFdbIfIndex in -- pdnDot1dTpFdbTable, pdnDot1dTpPort to pdnDot1dTpPortIfIndex -- in pdnDot1dTpPortTable and pdnDot1dStaticReceivePort to -- pdnDot1dStaticReceiveIfIndex in pdnDot1dStaticTable. -- -- 1/8/1998 - S. Dey -- -- Deleted pdnDot1dBasePort in pdnDot1dBasePortTable. -- -- 1/15/1998 - S. Dey -- -- Added comments from MIB WG meeting. Changed MIB name from -- ATLANTIS-BRIDGE... to HOT-BRIDGE.... -- -- 1/19/1998 - S. Dey -- Corrected a typo in pdnDot1dTpLearnedEntryDiscards description. -- -- 2/3/1998 - S. Dey -- Reversed Vnid id and mac address order for indexing -- Forwarding Database and Static Filtering Table. -- -- 10/28/1998 - Rajesh Gowda -- Changed all instances of the name VLAN (virtual LAN) -- to VNID (virtual network ID) IMPORTS Counter FROM RFC1155-SMI OBJECT-TYPE FROM RFC-1212 ent-8800 FROM PDN-HEADER-MIB; -- All representations of MAC addresses in this MIB Module -- use, as a textual convention (i.e. this convention does -- not affect their encoding), the data type: MacAddress ::= OCTET STRING (SIZE (6)) -- a 6 octet address in the "canonical" order. pdnDot1dBridge OBJECT IDENTIFIER ::= { ent-8800 5 } -- groups in the Bridge MIB pdnDot1dBase OBJECT IDENTIFIER ::= { pdnDot1dBridge 1 } -- separately documented pdnDot1dTp OBJECT IDENTIFIER ::= { pdnDot1dBridge 2 } pdnDot1dStatic OBJECT IDENTIFIER ::= { pdnDot1dBridge 3 } -- the pdnDot1dBase group pdnDot1dBaseBridgeAddress OBJECT-TYPE SYNTAX MacAddress ACCESS read-only STATUS mandatory DESCRIPTION "The MAC address used by this bridge when it must be referred to in a unique fashion. It is recommended that this be the numerically smallest MAC address of all ports that belong to this bridge. However it is only required to be unique." ::= { pdnDot1dBase 1 } pdnDot1dBaseNumPorts OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The number of ports controlled by this bridging entity." ::= { pdnDot1dBase 2 } pdnDot1dBaseType OBJECT-TYPE SYNTAX INTEGER { unknown(1), transparent-only(2), sourceroute-only(3), srt(4) } ACCESS read-only STATUS mandatory DESCRIPTION "Indicates what type of bridging this bridge can perform." ::= { pdnDot1dBase 3 } -- The Generic Bridge Port Table pdnDot1dBasePortTable OBJECT-TYPE SYNTAX SEQUENCE OF PdnDot1dBasePortEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "A table that contains generic information about every port that is associated with this bridge." ::= { pdnDot1dBase 4 } pdnDot1dBasePortEntry OBJECT-TYPE SYNTAX PdnDot1dBasePortEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "A list of information for each port of the bridge." INDEX { pdnDot1dBaseVnidId, pdnDot1dBasePortIfIndex } ::= { pdnDot1dBasePortTable 1 } PdnDot1dBasePortEntry ::= SEQUENCE { pdnDot1dBaseVnidId INTEGER, pdnDot1dBasePortIfIndex INTEGER, pdnDot1dBasePortCircuit OBJECT IDENTIFIER, pdnDot1dBasePortDelayExceededDiscards Counter, pdnDot1dBasePortMtuExceededDiscards Counter } pdnDot1dBaseVnidId OBJECT-TYPE SYNTAX INTEGER (1..4094) ACCESS read-only STATUS mandatory DESCRIPTION "The VNID Id number of the VNID for which this entry contains bridge management information." ::= { pdnDot1dBasePortEntry 1 } pdnDot1dBasePortIfIndex OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The value of the instance of the ifIndex object, defined in MIB-II, for the interface corresponding to this port." ::= { pdnDot1dBasePortEntry 2 } pdnDot1dBasePortCircuit OBJECT-TYPE SYNTAX OBJECT IDENTIFIER ACCESS read-only STATUS mandatory DESCRIPTION "For a port which (potentially) has the same value of pdnDot1dBasePortIfIndex as another port on the same bridge, this object contains the name of an object instance unique to this port. For example, in the case where multiple ports correspond one- to-one with multiple X.25 virtual circuits, this value might identify an (e.g., the first) object instance associated with the X.25 virtual circuit corresponding to this port." ::= { pdnDot1dBasePortEntry 3 } pdnDot1dBasePortDelayExceededDiscards OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The number of frames discarded by this port due to excessive transit delay through the bridge. It is incremented by both transparent and source route bridges." ::= { pdnDot1dBasePortEntry 4 } pdnDot1dBasePortMtuExceededDiscards OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The number of frames discarded by this port due to an excessive size. It is incremented by both transparent and source route bridges." ::= { pdnDot1dBasePortEntry 5 } -- the pdnDot1dTp group pdnDot1dTpLearnedEntryDiscards OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The total number of Forwarding Database entries, which have been or would have been learned, but have been discarded due to a lack of space to store them in the Forwarding Database. If this counter is increasing, it indicates that the Forwarding Database is regularly becoming full (a condition which has unpleasant performance effects on the subnetwork). If this counter has a significant value but is not presently increasing, it indicates that the problem has been occurring but is not persistent." ::= { pdnDot1dTp 1 } pdnDot1dTpAgingTime OBJECT-TYPE SYNTAX INTEGER (10..1000000) ACCESS read-write STATUS mandatory DESCRIPTION "The timeout period in seconds for aging out dynamically learned forwarding information. 802.1D-1990 recommends a default of 300 seconds." ::= { pdnDot1dTp 2 } -- The Forwarding Database for Transparent Bridges pdnDot1dTpFdbTable OBJECT-TYPE SYNTAX SEQUENCE OF PdnDot1dTpFdbEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "A table that contains information about unicast entries for which the bridge has forwarding and/or filtering information. This information is used by the transparent bridging function in determining how to propagate a received frame." ::= { pdnDot1dTp 3 } pdnDot1dTpFdbEntry OBJECT-TYPE SYNTAX PdnDot1dTpFdbEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "Information about a specific unicast MAC address for which the bridge has some forwarding and/or filtering information." INDEX { pdnDot1dTpFdbAddress, pdnDot1dTpFdbVnidId } ::= { pdnDot1dTpFdbTable 1 } PdnDot1dTpFdbEntry ::= SEQUENCE { pdnDot1dTpFdbAddress MacAddress, pdnDot1dTpFdbVnidId INTEGER, pdnDot1dTpFdbIfIndex INTEGER, pdnDot1dTpFdbStatus INTEGER } pdnDot1dTpFdbAddress OBJECT-TYPE SYNTAX MacAddress ACCESS read-only STATUS mandatory DESCRIPTION "A unicast MAC address for which the bridge has forwarding and/or filtering information." ::= { pdnDot1dTpFdbEntry 1 } pdnDot1dTpFdbVnidId OBJECT-TYPE SYNTAX INTEGER (1..4094) ACCESS read-only STATUS mandatory DESCRIPTION "The VNID Id number of the virtual network for which the bridge has forwarding and/or filtering information." ::= { pdnDot1dTpFdbEntry 2 } pdnDot1dTpFdbIfIndex OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Either the value '0', or the ifIndex of the port on which a frame having a source address equal to the value of the corresponding instance of pdnDot1dTpFdbAddress has been seen. A value of '0' indicates that the port number has not been learned but that the bridge does have some forwarding/filtering information about this address (e.g. in the pdnDot1dStaticTable). Implementors are encouraged to assign the ifIndex value to this object whenever it is learned even for addresses for which the corresponding value of pdnDot1dTpFdbStatus is not equal to '3' which is learned." ::= { pdnDot1dTpFdbEntry 3 } pdnDot1dTpFdbStatus OBJECT-TYPE SYNTAX INTEGER { other(1), invalid(2), learned(3), self(4), mgmt(5) } ACCESS read-only STATUS mandatory DESCRIPTION "The status of this entry. The meanings of the values are: other(1) : none of the following. This would include the case where some other MIB object (not the corresponding instance of pdnDot1dTpFdbPort, nor an entry in the pdnDot1dStaticTable) is being used to determine if and how frames addressed to the value of the corresponding instance of pdnDot1dTpFdbAddress are being forwarded. invalid(2) : this entry is not longer valid (e.g., it was learned but has since aged-out), but has not yet been flushed from the table. learned(3) : the value of the corresponding instance of pdnDot1dTpFdbPort was learned, and is being used. self(4) : the value of the corresponding instance of pdnDot1dTpFdbAddress represents one of the bridge's addresses. The corresponding instance of pdnDot1dTpFdbPort indicates which of the bridge's ports has this address. mgmt(5) : the value of the corresponding instance of pdnDot1dTpFdbAddress is also the value of an existing instance of pdnDot1dStaticAddress." ::= { pdnDot1dTpFdbEntry 4 } -- Port Table for Transparent Bridges pdnDot1dTpPortTable OBJECT-TYPE SYNTAX SEQUENCE OF PdnDot1dTpPortEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "A table that contains information about every port that is associated with this transparent bridge." ::= { pdnDot1dTp 4 } pdnDot1dTpPortEntry OBJECT-TYPE SYNTAX PdnDot1dTpPortEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "A list of information for each port of a transparent bridge." INDEX { pdnDot1dTpPortVnidId, pdnDot1dTpPortIfIndex } ::= { pdnDot1dTpPortTable 1 } PdnDot1dTpPortEntry ::= SEQUENCE { pdnDot1dTpPortVnidId INTEGER, pdnDot1dTpPortIfIndex INTEGER, pdnDot1dTpPortMaxInfo INTEGER, pdnDot1dTpPortInFrames Counter, pdnDot1dTpPortOutFrames Counter, pdnDot1dTpPortInDiscards Counter } pdnDot1dTpPortVnidId OBJECT-TYPE SYNTAX INTEGER (1..4094) ACCESS read-only STATUS mandatory DESCRIPTION "The VNID Id number of the virtual network for which this entry contains Transparent bridging management information." ::= { pdnDot1dTpPortEntry 1 } pdnDot1dTpPortIfIndex OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The ifIndex of the port for which this entry contains Transparent bridging management information." ::= { pdnDot1dTpPortEntry 2 } -- It would be nice if we could use ifMtu as the size of the -- largest INFO field, but we can't because ifMtu is defined -- to be the size that the (inter-)network layer can use which -- can differ from the MAC layer (especially if several layers -- of encapsulation are used). pdnDot1dTpPortMaxInfo OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The maximum size of the INFO (non-MAC) field that this port will receive or transmit." ::= { pdnDot1dTpPortEntry 3 } pdnDot1dTpPortInFrames OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The number of frames that have been received by this port from its segment. Note that a frame received on the interface corresponding to this port is only counted by this object if and only if it is for a protocol being processed by the local bridging function, including bridge management frames." ::= { pdnDot1dTpPortEntry 4 } pdnDot1dTpPortOutFrames OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The number of frames that have been transmitted by this port to its segment. Note that a frame transmitted on the interface corresponding to this port is only counted by this object if and only if it is for a protocol being processed by the local bridging function, including bridge management frames." ::= { pdnDot1dTpPortEntry 5 } pdnDot1dTpPortInDiscards OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "Count of frames received which were discarded (i.e., filtered) by the Forwarding Process." ::= { pdnDot1dTpPortEntry 6 } -- The Static (Destination-Address Filtering) Database pdnDot1dStaticTable OBJECT-TYPE SYNTAX SEQUENCE OF PdnDot1dStaticEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "A table containing filtering information configured into the bridge by (local or network) management specifying the set of ports to which frames received from specific VNIDs and ports and containing specific destination addresses are allowed to be forwarded. The value of zero in this table as the port number from which frames with a specific destination address are received, is used to specify all ports for which there is no specific entry in this table for that particular VNID Id and destination address. Entries are valid for unicast and for group/broadcast addresses." ::= { pdnDot1dStatic 1 } pdnDot1dStaticEntry OBJECT-TYPE SYNTAX PdnDot1dStaticEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "Filtering information configured into the bridge by (local or network) management specifying the set of ports to which frames received from a specific VNID and port and containing a specific destination address are allowed to be forwarded." INDEX { pdnDot1dStaticAddress, pdnDot1dStaticVnidId, pdnDot1dStaticReceiveIfIndex } ::= { pdnDot1dStaticTable 1 } PdnDot1dStaticEntry ::= SEQUENCE { pdnDot1dStaticAddress MacAddress, pdnDot1dStaticVnidId INTEGER, pdnDot1dStaticReceiveIfIndex INTEGER, pdnDot1dStaticAllowedToGoTo OCTET STRING, pdnDot1dStaticStatus INTEGER } pdnDot1dStaticAddress OBJECT-TYPE SYNTAX MacAddress ACCESS read-write STATUS mandatory DESCRIPTION "The destination MAC address in a frame to which this entry's filtering information applies. This object can take the value of a unicast address, a group address or the broadcast address." ::= { pdnDot1dStaticEntry 1 } pdnDot1dStaticVnidId OBJECT-TYPE SYNTAX INTEGER (1..4094) ACCESS read-write STATUS mandatory DESCRIPTION "The VNID Id number in a frame to which this entry's filtering information applies." ::= { pdnDot1dStaticEntry 2 } pdnDot1dStaticReceiveIfIndex OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "Either the value '0', or the ifIndex of the port from which a frame must be received in order for this entry's filtering information to apply. A value of zero indicates that this entry applies on all ports of the bridge for which there is no other applicable entry." ::= { pdnDot1dStaticEntry 3 } pdnDot1dStaticAllowedToGoTo OBJECT-TYPE SYNTAX OCTET STRING ACCESS read-write STATUS mandatory DESCRIPTION "The set of ports to which frames received from a specific VNID and port and destined for a specific MAC address, are allowed to be forwarded. Each octet within the value of this object specifies a set of eight ports, with the first octet specifying ports 1 through 8, the second octet specifying ports 9 through 16, etc. Within each octet, the most significant bit represents the lowest numbered port, and the least significant bit represents the highest numbered port. Thus, each port of the bridge is represented by a single bit within the value of this object. If that bit has a value of '1' then that port is included in the set of ports; the port is not included if its bit has a value of '0'. (Note that the setting of the bit corresponding to the port from which a frame is received is irrelevant.) The default value of this object is a string of ones of appropriate length." ::= { pdnDot1dStaticEntry 4 } pdnDot1dStaticStatus OBJECT-TYPE SYNTAX INTEGER { other(1), invalid(2), permanent(3), deleteOnReset(4), deleteOnTimeout(5) } ACCESS read-write STATUS mandatory DESCRIPTION "This object indicates the status of this entry. The default value is permanent(3). other(1) - this entry is currently in use but the conditions under which it will remain so are different from each of the following values. invalid(2) - writing this value to the object removes the corresponding entry. permanent(3) - this entry is currently in use and will remain so after the next reset of the bridge. deleteOnReset(4) - this entry is currently in use and will remain so until the next reset of the bridge. deleteOnTimeout(5) - this entry is currently in use and will remain so until it is aged out." ::= { pdnDot1dStaticEntry 5 } END HOTWIRE-DHCP-RELAY-AGENT-MIB DEFINITIONS ::= BEGIN -- Version : 2.0 -- -- Last Updated : 04/14/1999 Rajesh Gowda -- Last Updated : 02/04/1998 Mark Steffen -- Last Updated : 11/07/1997 Gene Zhu -- Last Updated : 08/25/1997 Sachin Kamat -- Author : Sachin Kamat -- -- History -- 08/25/1997 -- -- 1. dhcpRelayAgentConfigPortDefaultConfigIndex object is now part of -- table dhcpRelayAgentConfigPortTable and this table is indexed -- using ifIndex of DSL port. These changes are due to -- new requirements for DHCP relay agent. -- -- 11/07/1997 -- -- 1. Added remoteHostRouteInjectFail trap. -- -- 02/04/1998 -- -- 1. Added dhcpRelayAgentConfigDhcpServer2Address and -- dhcpRelayAgentConfigAuthServer2Address objects. -- -- 04/14/1999 -- -- 1. Added a new trap -- DhcpClientHostTableFull IMPORTS OBJECT-TYPE FROM RFC-1212 TRAP-TYPE FROM RFC-1215 ifIndex, DisplayString FROM RFC1213-MIB IpAddress FROM RFC1155-SMI xdsl FROM PDN-HEADER-MIB; xdslDhcpRelayAgent OBJECT IDENTIFIER ::= { xdsl 2 } -- -- The Hotwire DHCP relay agent MIB is written as a enterprise -- MIB to configure the DHCP relay agent from an SNMP manager. -- This MIB will also help the SNMP manager to read the DHCP -- relay agent configuration on the individual xDSL cards. -- dhcpRelayAgentConfigTable OBJECT-TYPE SYNTAX SEQUENCE OF DhcpRelayAgentConfigEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "A table containing variables which facilitate the configuration of DHCP relay agent." ::= { xdslDhcpRelayAgent 1 } dhcpRelayAgentConfigEntry OBJECT-TYPE SYNTAX DhcpRelayAgentConfigEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "Management information about configuring DHCP relay agent." INDEX { dhcpRelayAgentConfigIndex } ::= { dhcpRelayAgentConfigTable 1 } DhcpRelayAgentConfigEntry ::= SEQUENCE { dhcpRelayAgentConfigIndex INTEGER, dhcpRelayAgentConfigIspAddress IpAddress, dhcpRelayAgentConfigIspName DisplayString, dhcpRelayAgentConfigDhcpServerAddress IpAddress, dhcpRelayAgentConfigAuthServerAddress IpAddress, dhcpRelayAgentConfigAuthType INTEGER, dhcpRelayAgentConfigRadiusSecret DisplayString, dhcpRelayAgentConfigAction INTEGER, dhcpRelayAgentConfigDhcpServer2Address IpAddress, dhcpRelayAgentConfigAuthServer2Address IpAddress } dhcpRelayAgentConfigIndex OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "This is the index of the table, which starts at 1 and uniquely identifies the entry in the DHCP Relay agent table. 0 is invalid index and maximum value is 16. This number is based upon maximum number of ISP that can be configured per xdsl card. " ::= { dhcpRelayAgentConfigEntry 1 } dhcpRelayAgentConfigIspAddress OBJECT-TYPE SYNTAX IpAddress ACCESS read-write STATUS mandatory DESCRIPTION "This object corresponds to the IP address corresponding to the service domain IP address of the ISP configured at the e1a interface on a xdsl card. This must be unique value in the table. " ::= { dhcpRelayAgentConfigEntry 2 } dhcpRelayAgentConfigIspName OBJECT-TYPE SYNTAX DisplayString ACCESS read-write STATUS mandatory DESCRIPTION "This object is the fully qualified domain name of the ISP. eg. aol.com or prodigy.com. The maximum size is limited to 32 characters. This should be unique for the ISP configured. " ::= { dhcpRelayAgentConfigEntry 3 } dhcpRelayAgentConfigDhcpServerAddress OBJECT-TYPE SYNTAX IpAddress ACCESS read-write STATUS mandatory DESCRIPTION "This object is the IP Address corresponding to the DHCP server to which the relay agent will send and receive packets. " ::= { dhcpRelayAgentConfigEntry 4 } dhcpRelayAgentConfigAuthServerAddress OBJECT-TYPE SYNTAX IpAddress ACCESS read-write STATUS mandatory DESCRIPTION "This object is the IP Address corresponding to the Authentication server to which the relay agent will send and receive packets. " ::= { dhcpRelayAgentConfigEntry 5 } dhcpRelayAgentConfigAuthType OBJECT-TYPE SYNTAX INTEGER { radius(1),xtacacs(2),none(3),dhcp(4), dhcpRadius(5),dhcpXtacacs(6) } ACCESS read-write STATUS mandatory DESCRIPTION "This object is the type of authentication selected for the validating the DHCP packets. The last two enums are combinations of dhcp authentication with radius/xtacacs authentication. " ::= { dhcpRelayAgentConfigEntry 6 } dhcpRelayAgentConfigRadiusSecret OBJECT-TYPE SYNTAX DisplayString ACCESS read-write STATUS mandatory DESCRIPTION "This object is the radius secret string that is used only when the dhcpRelayAgentConfigAuthType is radius(1) or dhcpRadius(5). This string is used by radius protocol to encrypt the radius messages. The maximum size of this field is 16 charaters. If radius secret string is not used an empty string should be returned. " ::= { dhcpRelayAgentConfigEntry 7 } dhcpRelayAgentConfigAction OBJECT-TYPE SYNTAX INTEGER { noop(1),add(2),delete(3) } ACCESS read-write STATUS mandatory DESCRIPTION "This object is used to add/delete a row in the DHCP configuration table. It is an implimenation- specific matter as to whether agent removes an invalidated entry.When this object is read noop(1) will be returned. " ::= { dhcpRelayAgentConfigEntry 8 } dhcpRelayAgentConfigDhcpServer2Address OBJECT-TYPE SYNTAX IpAddress ACCESS read-write STATUS mandatory DESCRIPTION "This object is the IP Address corresponding to the second DHCP server to which the relay agent will send and receive packets. " ::= { dhcpRelayAgentConfigEntry 9 } dhcpRelayAgentConfigAuthServer2Address OBJECT-TYPE SYNTAX IpAddress ACCESS read-write STATUS mandatory DESCRIPTION "This object is the IP Address corresponding to the second Authentication server to which the relay agent will send and receive packets. " ::= { dhcpRelayAgentConfigEntry 10 } dhcpRelayAgentConfigPortTable OBJECT-TYPE SYNTAX SEQUENCE OF DhcpRelayAgentConfigPortEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "A table containing variables which facilitate the configuration of DHCP relay agent per DSL port related information" ::= { xdslDhcpRelayAgent 2 } dhcpRelayAgentConfigPortEntry OBJECT-TYPE SYNTAX DhcpRelayAgentConfigPortEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "Management information about configuring DHCP relay agent." INDEX { dhcpRelayAgentConfigPortIndex } ::= { dhcpRelayAgentConfigPortTable 1 } DhcpRelayAgentConfigPortEntry ::= SEQUENCE { dhcpRelayAgentConfigPortIndex INTEGER, dhcpRelayAgentConfigPortDefaultConfigIndex INTEGER } dhcpRelayAgentConfigPortIndex OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The value of this object corresponds directly to each xDSL interface as described in ifTable. " ::= { dhcpRelayAgentConfigPortEntry 1 } dhcpRelayAgentConfigPortDefaultConfigIndex OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "This object contains the value of dhcpRelayAgentConfigIndex which is used as the default ISP for the DSL port. If default ISP is not configured, then this will have a value of 0. " ::= { dhcpRelayAgentConfigPortEntry 2 } dhcpRelayAgentDefaultRetryCount OBJECT-TYPE SYNTAX INTEGER (1..3) ACCESS read-write STATUS mandatory DESCRIPTION "This is the maximum retries the DHCP relay agent will attempt when transmitting a packet. The default value is 2. " ::= { xdslDhcpRelayAgent 3} dhcpRelayAgentDefaultTimeOut OBJECT-TYPE SYNTAX INTEGER (1..15) ACCESS read-write STATUS mandatory DESCRIPTION "This is the maximum time in seconds the dhcp relay agent will wait before a packet retransmit. The default value is 5 sec. " ::= { xdslDhcpRelayAgent 4} dhcpRelayAgentFilterSecurity OBJECT-TYPE SYNTAX INTEGER { enable(1),disable(2) } ACCESS read-write STATUS mandatory DESCRIPTION "This object will enable or disable the filter based security for dhcp relay agent. " ::= { xdslDhcpRelayAgent 5} -- Traps related to the Hotwire Dhcp relay agent MIB remoteHostRouteDeleteFail TRAP-TYPE ENTERPRISE xdslDhcpRelayAgent VARIABLES { ifIndex } DESCRIPTION "This trap indicates that the host route in the end point could not be deleted. This trap is of 'warning' class. " ::= 10 dhcpFilterbasedSecurityFail TRAP-TYPE ENTERPRISE xdslDhcpRelayAgent VARIABLES { ifIndex } DESCRIPTION "This trap indicates that the filter based security for a host could not be enabled due to maximum number filters rules that can be configured for a xDSL card's interface has already reached. " ::= 11 remoteHostRouteInjectFail TRAP-TYPE ENTERPRISE xdslDhcpRelayAgent VARIABLES { ifIndex } DESCRIPTION "This trap indicates that the host route in the end point could not be injected. This trap is of 'warning' class. " ::= 12 dhcpClientHostTableFull TRAP-TYPE ENTERPRISE xdslDhcpRelayAgent VARIABLES { ifIndex } DESCRIPTION "This trap indicates that no more entries can be added to the client VNID table . This trap is of 'warning' class. " ::= 13 END HOT-DOMAIN-MIB DEFINITIONS ::= BEGIN -- Version : 1.2 -- Enterprise Domain MIB -- Copyright (C) 1998 Paradyne Corporation. -- Author : Surajit Dey -- -- Last Changed : 10/20/1999 Wayne Jadoo -- Last Changed : 1/15/1998 S. Dey -- Last Changed : 10/28/1998 Rajesh Gowda -- History -- 12/17/1997 - S. Dey. -- -- Initial Version. -- -- 12/19/1997 - S. Dey. -- Included changes as per review meeting on 12/18. -- Changed VNID Id from read-only to read-write. -- Added domain name in pdnCardConfigTable. -- Added a new object to set VNID Id (index) of pdnCardConfigTable. -- Added new object for mode in pdnPortConfigTable. -- Added new objects in pdnClientConfigTable for -- Lease time, Lease remaining time and MAC address of client. -- -- 1/5/1998 - S. Dey -- Changed the name of index from pdnPortConfigPort to pdnPortConfigIfIndex -- in pdnPortConfigTable. -- -- 1/7/1998 - S. Dey -- Changed pdnClientconfigPort to pdnClientconfigIfIndex in -- pdnClientconfigTable. -- -- 1/15/98 - S. Dey -- Added comments from MIB WG meeting. Changed MIB name from -- ATLANTIS-BRIDGE... to HOT-BRIDGE.... -- -- 5/19/98 - Rajesh Gowda -- Added new group pdnCardGeneralParams -- -- 10/29/98 - Rajesh Gowda -- 1. Added an object to pdnClientConfigTable -- a. pdnClientConfigSubnetMask -- 2. Changed all instances of the name VLAN (virtual LAN) -- to VNID (virtual network ID) -- -- 10/20/99 Wayne Jadoo -- removed the mib-2 import and -- imported ent-8800 from PDN-HEADER-MIB IMPORTS IpAddress FROM RFC1155-SMI DisplayString FROM RFC1213-MIB OBJECT-TYPE FROM RFC-1212 ent-8800 FROM PDN-HEADER-MIB; -- A 6 octet address in the "canonical" order MacAddress ::= OCTET STRING (SIZE (6)) pdnDomain OBJECT IDENTIFIER ::= { ent-8800 6 } -- groups for Domain MIB pdnCardConfig OBJECT IDENTIFIER ::= { pdnDomain 1 } pdnPortConfig OBJECT IDENTIFIER ::= { pdnDomain 2 } pdnClientConfig OBJECT IDENTIFIER ::= { pdnDomain 3 } pdnCardGeneralParams OBJECT IDENTIFIER ::= { pdnDomain 4 } -- CardTable group -- The Card Configuration Table pdnCardConfigTable OBJECT-TYPE SYNTAX SEQUENCE OF PdnCardConfigEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "A table that contains information about Mux Forwarding, IP Filtering, IP Scoping and domain name for each VNID." ::= { pdnCardConfig 1 } pdnCardConfigEntry OBJECT-TYPE SYNTAX PdnCardConfigEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "A list of configuration information for each VNID." INDEX { pdnCardConfigVnidId } ::= { pdnCardConfigTable 1 } PdnCardConfigEntry ::= SEQUENCE { pdnCardConfigVnidId INTEGER, pdnCardConfigDomainName DisplayString, pdnCardConfigMuxFwd INTEGER, pdnCardConfigIPFiltering INTEGER, pdnCardConfigIPScoping INTEGER, pdnCardConfigDbUpdate INTEGER } pdnCardConfigVnidId OBJECT-TYPE SYNTAX INTEGER (1..4096) -- VNID Id range 1..4094, null=4096 ACCESS read-write STATUS mandatory DESCRIPTION "The VNID Id number of the virtual network for which this entry contains management information. 'null' is used to create a new entry for MIB browsers which cannot create new entry but can only edit existing entry." ::= { pdnCardConfigEntry 1 } pdnCardConfigDomainName OBJECT-TYPE SYNTAX DisplayString ACCESS read-write STATUS mandatory DESCRIPTION "The Domain name of the ISP for this VNID." ::= { pdnCardConfigEntry 2 } pdnCardConfigMuxFwd OBJECT-TYPE SYNTAX INTEGER { enable (1), disable (2) } ACCESS read-write STATUS mandatory DESCRIPTION "This object shows if Mux Forwarding has been enabled or disabled by the user." ::= { pdnCardConfigEntry 3 } pdnCardConfigIPFiltering OBJECT-TYPE SYNTAX INTEGER { enable (1), disable (2) } ACCESS read-write STATUS mandatory DESCRIPTION "This object shows if IP Filtering has been enabled or disabled by the user." ::= { pdnCardConfigEntry 4 } pdnCardConfigIPScoping OBJECT-TYPE SYNTAX INTEGER { enable (1), disable (2) } ACCESS read-write STATUS mandatory DESCRIPTION "This object shows if IP Scoping has been enabled or disabled by the user." ::= { pdnCardConfigEntry 5 } -- -- pdnCardConfigDbUpdate object has been added to facilitate -- setting of the index of this table (VNID Id). -- When "nop" is used in set PDU, no setting is done and "nop" is -- returned in the response PDU. -- When a new VNID needs to be added, the value will be set to -- "update" in the set PDU. -- When a VNID entry needs to be deleted, "delete" will be used in -- the set PDU. -- -- NOTE: The set PDU for the object pdnCardConfigDbUpdate must -- be sent after all other set PDU's have been sent for this table. -- pdnCardConfigDbUpdate OBJECT-TYPE SYNTAX INTEGER { nop (1), update (2), delete (3) } ACCESS read-write STATUS mandatory DESCRIPTION "This object is used to control the setting of the objects in this table. When 'nop' is received, no objects are set. When 'update' is received, all objects in this table for which set PDU have been received prior to this set PDU will be set and a new entry will be created if the index does not exist. When 'delete' is received, the entry with the index value will be deleted." ::= { pdnCardConfigEntry 6 } -- pdnPortConfig group -- The Port Configuration Table pdnPortConfigTable OBJECT-TYPE SYNTAX SEQUENCE OF PdnPortConfigEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "A table that contains VNID configuration information for each port." ::= { pdnPortConfig 1 } pdnPortConfigEntry OBJECT-TYPE SYNTAX PdnPortConfigEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "A list of configuration information for each port." INDEX { pdnPortConfigVNID, pdnPortConfigIfIndex } ::= { pdnPortConfigTable 1 } PdnPortConfigEntry ::= SEQUENCE { pdnPortConfigVNID INTEGER, pdnPortConfigIfIndex INTEGER, pdnPortConfigCfg INTEGER, pdnPortConfigDefNHR IpAddress, pdnPortConfigMode INTEGER } pdnPortConfigVNID OBJECT-TYPE SYNTAX INTEGER (1..4094) ACCESS read-only STATUS mandatory DESCRIPTION "The VNID Id number of the virtual network for which this entry contains management information." ::= { pdnPortConfigEntry 1 } pdnPortConfigIfIndex OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The value of the instance of the ifIndex object, defined in MIB-II, for the interface corresponding to this port." ::= { pdnPortConfigEntry 2 } pdnPortConfigCfg OBJECT-TYPE SYNTAX INTEGER { activate (1), de-activate (2) } ACCESS read-write STATUS mandatory DESCRIPTION "This object shows if this VNID has been made active or de-active for this port by the user." ::= { pdnPortConfigEntry 3 } pdnPortConfigDefNHR OBJECT-TYPE SYNTAX IpAddress ACCESS read-write STATUS mandatory DESCRIPTION "The Default Next Hop Router address for the specified VNID and port." ::= { pdnPortConfigEntry 4 } pdnPortConfigMode OBJECT-TYPE SYNTAX INTEGER { implicit (1), explicit (2), no-tagging (3)} ACCESS read-write STATUS mandatory DESCRIPTION "This object shows the configuration mode for this VNID and for this port." ::= { pdnPortConfigEntry 5 } -- pdnClientConfig group -- The Client Configuration Table pdnClientConfigTable OBJECT-TYPE SYNTAX SEQUENCE OF PdnClientConfigEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "A table that contains configuration information for each client." ::= { pdnClientConfig 1 } pdnClientConfigEntry OBJECT-TYPE SYNTAX PdnClientConfigEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "A list of configuration information for each client." INDEX { pdnClientConfigIfIndex, pdnClientConfigClientIndex } ::= { pdnClientConfigTable 1 } PdnClientConfigEntry ::= SEQUENCE { pdnClientConfigIfIndex INTEGER, pdnClientConfigClientIndex INTEGER, pdnClientConfigAddr IpAddress, pdnClientConfigNHR IpAddress, pdnClientConfigVnidId INTEGER, pdnClientConfigType INTEGER, pdnClientConfigLeaseTime INTEGER, pdnClientConfigLeaseRemainTime INTEGER, pdnClientConfigMacAddr MacAddress, pdnClientConfigSubnetMask IpAddress } pdnClientConfigIfIndex OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The ifIndex of the port for which this entry contains management information." ::= { pdnClientConfigEntry 1 } pdnClientConfigClientIndex OBJECT-TYPE SYNTAX INTEGER (1..32) ACCESS read-only STATUS mandatory DESCRIPTION "The Client index of the Client for which this entry contains management information." ::= { pdnClientConfigEntry 2 } pdnClientConfigAddr OBJECT-TYPE SYNTAX IpAddress ACCESS read-write STATUS mandatory DESCRIPTION "The IP address of the client specified by the client id." ::= { pdnClientConfigEntry 3 } pdnClientConfigNHR OBJECT-TYPE SYNTAX IpAddress ACCESS read-write STATUS mandatory DESCRIPTION "The Next Hop Router address for the client specified by the client index." ::= { pdnClientConfigEntry 4 } pdnClientConfigVnidId OBJECT-TYPE SYNTAX INTEGER (1..4094) ACCESS read-only STATUS mandatory DESCRIPTION "The VNID Id number of the Client for which this client is configured." ::= { pdnClientConfigEntry 5 } pdnClientConfigType OBJECT-TYPE SYNTAX INTEGER { static (1), dynamic (2) } ACCESS read-only STATUS mandatory DESCRIPTION "The Configuration type of this entry - Static or Dynamic." ::= { pdnClientConfigEntry 6 } pdnClientConfigLeaseTime OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The Lease Time in seconds for this client." ::= { pdnClientConfigEntry 7 } pdnClientConfigLeaseRemainTime OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The Lease Remaining Time in seconds for this client." ::= { pdnClientConfigEntry 8 } pdnClientConfigMacAddr OBJECT-TYPE SYNTAX MacAddress ACCESS read-only STATUS mandatory DESCRIPTION "The MAC Address of the client." ::= { pdnClientConfigEntry 9 } pdnClientConfigSubnetMask OBJECT-TYPE SYNTAX IpAddress ACCESS read-only STATUS mandatory DESCRIPTION "The subnet mask of the client." ::= { pdnClientConfigEntry 10 } -- pdnCardGeneralParams group -- This group reflect the status of VNID tagging. pdnCardGeneralParamsVNIDMode OBJECT-TYPE SYNTAX INTEGER { enable (1), disable (2) } ACCESS read-write STATUS mandatory DESCRIPTION "The state of VNID tagging on the card." ::= { pdnCardGeneralParams 1 } END HOTWIRE-SYSTEM-MIB DEFINITIONS ::= BEGIN -- Version : 1.4 -- Last Updated : Wayne Jadoo 10/20/99 -- Last Updated : Rajesh Gowda 04/14/99 -- Last Updated : Rajesh Gowda 10/28/98 -- Created by : Prakash Easwar IMPORTS IpAddress, Counter FROM RFC1155-SMI OBJECT-TYPE FROM RFC-1212 TRAP-TYPE FROM RFC-1215 ifIndex, sysObjectID FROM RFC1213-MIB devSelfTestResults FROM PDN-HEALTHANDSTATUS-MIB ent-8800 FROM PDN-HEADER-MIB pdnClientConfigSubnetMask FROM HOT-DOMAIN-MIB; -- The Hotwire System MIB. This MIB is written specifically to -- configure, get statistics and do diagnostic tests on the -- device as a whole. -- History -- 9/3/96 -- 1. Added a new trap "EthernetStreamingOver" -- 2. Changed the description of the "EthernetStreaming". -- trap. -- 3. Changed the trap numbers so that they are unique -- across all the Hotwire MIBS. -- 4. Added an authentication failure trap for telnet and -- vt-100 based auth failures. -- 9/12/96 -- 1. Renamed object clearPowerSourceSwitchOverAlarm to -- enableRedundantPowerSourceFailureAlarm. Changed the -- semantics of this object. (change in requirements) -- 2. Renamed the powerSourceSwitchOver trap to -- redundantPowerSourceFailureTrap. Changed the -- description of this trap. (change in requirements) -- 3. Added a new Trap redundantPowerSourceDetected trap -- to compliment the redundantPowerSourceFailure trap. -- 4. Renamed the ethernetStreaming trap to -- ethernetJabber. Changed the description of this trap. -- Jabber is standard ethernet terminology. -- 5. Renamed the ethernetStreamingOver trap to -- ethernetJabberClear. Changed the description of this -- trap. Jabber is standard ethernet terminology. -- 9/27/96 -- 1. Added a device failure trap. The definition of a -- "device failure" on the device requires that this trap -- be sent. -- 2. Changed the following Traps to return the ifIndex as -- a varbind. (This helps indicate which interface -- is responsible for sending the Trap). -- a) ethernetJabber -- b) ethernetJabberClear -- c) ethernetJumbos -- d) ethernetRunts -- 3. Added a new object to the logicalEntityTable. This was -- required so that the logical entities could be uniquely -- identified. -- 4. Changed the varbinds for the CCN trap. This was done as -- a result of 3. -- 5. Added the in-range and out-range filter comparison types to the -- sysDevIpConfigSrcCompType and sysDevIpConfigSrcCompType as -- the device will be supporting these filter comparison types for the -- first release. -- 6. Added four new object to the sysDevIpFilterConfigTable to -- support (5) above. -- sysDevIpConfigFilterSrcPortNum -- sysDevIpConfigFilterMaxSrcPortNum -- sysDevIpConfigFilterDestPortNum -- sysDevIpConfigFilterMaxDestPortNum -- 10/6/96 -- 1. Changed top-level oids to represent the "New Paradyne" -- textual conventions -- 2. Made minor modifications for compilation purposes -- 10/28/96 -- 1. Added a new object logicalEntityDescr to the LogicalEntityTable -- 2. added SIZE to objects with OCTET STRING syntax -- 3. Changed the interesting variable for the "slot poll falure" and -- "new card detected" traps to "logicalEntityParentRelPos". This was -- done because this is what uniquely identifies a logical entity -- within a device. -- 4. changed the enterprise for traps to the MIB OID in which they -- are defined. This was decided in a MWG meeting -- 11/4/96 -- 1. Replaced "OCTET STRING" with DisplayString as all the objects -- with the OCTET STRING syntax are printable. -- 11/11/96 -- 1. Added a SelftestFailure Trap to this MIB. It is a requirement -- to send this trap. -- 2. Changed the size of the following objects of type DisplayString -- sysDevIpConfigFilterName -- sysDevIpBindingFilterName -- This was done to be consistent with the UI. -- 1/6/97 -- 1. Changed the description of the selfTestFailureTrap -- 1/7/97 -- 1. changed object names which have "tonga" in it to names -- which have "sys" in it. -- 1/8/97 -- 1. changed top level oid name "ent-tonga" to "ent-8500" -- 1/28/97 -- 1. changed top level oid name "ent-tonga" to "ent-8800" -- 1/31/97 -- 1. changed the description of the following objects -- logicalEntityIndex -- logicalEntityReadOnlyCommunity -- logicalEntityReadWriteCommunity -- logicalEntityResetToDefault -- logicalEntityIpAddress -- logicalEntitySubnetMask -- sysDevIpBindingFilterAction -- 4/8/97 -- 1. Replaced the table sysDevIpFilterStatsTable by two scalar -- objects -- a. sysDevIpInputPacketsFiltered -- b. sysDevIpOutputPacketsFiltered -- 2. Replaced the traps -- redundantPowerSourceFailure -- redundantPowerSourceDetected -- with the following traps -- powerSourceAFailure -- powerSourceAOperational -- powerSourceBFailure -- powerSourceBOperational -- 3. Replaced the following object -- enablePowerSourceSwitchOverAlarm -- by the following -- enablePowerSourceFailureAlarm -- -- 4/18/97 -- 1. Changed all instances of mcac, MCAC to mcc -- -- 7/1/97 -- 1. Added a new enum to the following object -- sysDevIpBindingFilterType -- 2. Added a new table -- sysDevIpFilterStatsTable -- to the following group -- sysDevFilter -- 3. Added a new object -- sysDevIpConfigRuleType -- to the table -- sysDevIpFilterConfigTable -- 4. Added a new object -- sysDevIpBindingDefaultFilterAction -- to the table -- sysDevIpFilterBindingTable -- -- 11/14/97 -- 1. Modified the DESCRIPTION field of the -- logicalEntityReadOnlyCommunity object to use -- the phrase "Hotwire" rather than "Hot-Wire" -- (for legal reasons). -- -- 07/29/98 rgowda -- 1. Added a new trap -- nonIpConservativeCardDetected -- -- 10/28/98 rgowda -- 1. Added the following two groups -- a. sysDevRadiusAuth (Info about all Radius Servers) -- b. sysDevUserAccount (Info about all login user accounts) -- -- 2. Added the following objects to sysDevIpFilterConfigTable -- a. sysDevIpConfigFilterProtocolTypeUdp -- b. sysDevIpConfigFilterProtocolTypeTcp -- c. sysDevIpConfigFilterProtocolTypeIcmp -- -- 3. Added a table/columnar object sNsysDevIpFilterBindingTable -- for service Node Filter Bindings. -- -- 4. More enumerations to accessMode object -- telnetLocal (3), -- telnetRemote (4), -- vt100TerminalLocal (5), -- vt100TerminalRemote (6) -- -- 04/14/99 rgowda -- 1. Added the object sysDevUserAccountAccessPartition -- into sysDevUserAccount group -- 2. Added 3 new traps -- - dhcpAddressInStaticSubnet (19) -- - nonSupportedMCC (20) -- - nonSupportedChassis (21) -- -- 10/120/99 Wayne Jadoo -- Made appropriate changes to use the -- pdn_Header mib file and did some minor -- clean-up. Also included the devSelfTestResults -- FROM PDN-HEALTHANDSTATUS-MIB -- -- textual conventions DisplayString ::= OCTET STRING -- This data type is used to model textual information -- taken from the NVT ASCII character set. By convention, -- objects with this syntax are declared as having -- SIZE (0..255) --thenewpdn OBJECT IDENTIFIER ::= { enterprises 1795 } --thenewpdn-mgmt OBJECT IDENTIFIER ::= { thenewpdn 2 } --paradyne OBJECT IDENTIFIER ::= { thenewpdn-mgmt 24 } --pdn-xdsl OBJECT IDENTIFIER ::= { paradyne 9 } --ent-8800 OBJECT IDENTIFIER ::= { pdn-xdsl 3 } -- groups in this mib sysDevStats OBJECT IDENTIFIER ::= { ent-8800 1 } sysDevConfig OBJECT IDENTIFIER ::= { ent-8800 2 } sysDevFilter OBJECT IDENTIFIER ::= { ent-8800 3 } sysDevRadiusAuth OBJECT IDENTIFIER ::= { ent-8800 7 } sysDevUserAccount OBJECT IDENTIFIER ::= { ent-8800 8 } -- The statistics group. The implementation of this group -- is mandatory. authTable OBJECT-TYPE SYNTAX SEQUENCE OF AuthTableEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "This table is used to keep track of authentication failures" ::= { sysDevStats 1 } authTableEntry OBJECT-TYPE SYNTAX AuthTableEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "This object corresponds to an entry in the authentication table." INDEX { accessMode } ::= { authTable 1 } AuthTableEntry ::= SEQUENCE { accessMode INTEGER, authFailureCount Counter } accessMode OBJECT-TYPE SYNTAX INTEGER { telnet (1), vt100Terminal (2), telnetLocal (3), telnetRemote (4), vt100TerminalLocal (5), vt100TerminalRemote (6) } ACCESS read-only STATUS mandatory DESCRIPTION "This object tells us how an authentication failure was caused, either by telnet or by using a vt-100 terminal. SNMP based authentication failures are accounted for in MIB-II. Enums 1 and 2 are obsolete. Remote corresponds to access denied by RADIUS Server, Local corresponds to access denied locally by the device . telnet (1) = telnet access cannot be authenticated by the DSLAM/RADIUS vt100Terminal (2) = Console access cannot be authenticated by the DSLAM/RADISU telnetLocal (3) = telnet access cannot be authenticated by the DSLAM telnetRemote (4) = telnet access cannot be authenticated by the RADIUS vt100TerminalLocal (5) = console access cannot be authenticated by the DSLAM vt100TerminalRemote (6) = console access cannot be authenticated by the RADIUS" ::= { authTableEntry 1 } authFailureCount OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "This object corresponds to the number of authentication failures since sysUpTime was reset." ::= { authTableEntry 2 } -- The configuration group. The implementation of this group -- is optional. enablePowerSourceFailureAlarm OBJECT-TYPE SYNTAX INTEGER { disable (1), enable (2) } ACCESS read-write STATUS mandatory DESCRIPTION "This objects corresponds to enabling/disabling the power source failure alarm - for both A and B power sources This object is for the MCC only. The default value of this object should be 1." ::= {sysDevConfig 1 } devIfTable OBJECT-TYPE SYNTAX SEQUENCE OF DevIfTableEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "This table is used to configure information for a particular interface" ::= {sysDevConfig 2 } devIfTableEntry OBJECT-TYPE SYNTAX DevIfTableEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "This object corresponds to an entry in the DevifTable " INDEX { devIfIndex } ::= { devIfTable 1 } DevIfTableEntry ::= SEQUENCE { devIfIndex INTEGER, devPacketDiscardPolicy INTEGER, devLinkIntegrity INTEGER } devIfIndex OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "This object corresponds directly to the ifIndex value in the ifTable" ::= { devIfTableEntry 1 } devPacketDiscardPolicy OBJECT-TYPE SYNTAX INTEGER { mrrp (1), lrrp (2) } ACCESS read-write STATUS mandatory DESCRIPTION "This object corresponds to the policy for packet discards during periods of congestion : mrrp - most recently received packets are discarded. lrrp - least recently received packets are discarded. The default value of this object should be 2" ::= { devIfTableEntry 2 } devLinkIntegrity OBJECT-TYPE SYNTAX INTEGER { enable (1), disable (2), none (3) } ACCESS read-write STATUS mandatory DESCRIPTION "This object corresponds to the enabling or disabling of the ethernet link integrity : enable - enable link integrity disable - disable link integrity none - for interfaces that do not support link integrity The default value of this object should be 1" ::= { devIfTableEntry 3 } communityTrapAddressInfoTable OBJECT-TYPE SYNTAX SEQUENCE OF CommunityTrapAddressInfoTableEntry ACCESS not-accessible STATUS mandatory DE