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Observium_CE/mibs/mrv/NSTACK-MIB

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-- =======================================================================
-- File : nbstack.mib
-- Description : Private MIB for NBase Stackable Device
-- By : Vaisman Yakov
-- Version : $Revision: 10.6
-- Date : $Date: March 27, 2007
-- =======================================================================
--
--
-- Copyright (c) 1998 NBase Switch Communications. All Rights Reserved.
--
-- Reproduction of this document is authorized on condition that this
-- copyright notice is included. This NBase SNMP MIB Specification
-- embodies NBase's proprietary intellectual property. NBase
-- retains all title and ownership in the specification, including any
-- revisions.
--
-- It is NBase's intent to encourage the widespread use of this
-- specification in connection with the management of NBase's
-- p223roducts. NBase grants vendor, end-users, and other interested
-- parties a non-exclusive license to use this specification in
-- connection with the management of NBase's products.
--
-- This specification is supplied "AS IS," and NBase makes no
-- warranty, either express or implied, as to the use, operation,
-- condition, or performance of the specification.
--
-- NBase retains the right to change this MIB without notification.
--
NSTACK-MIB DEFINITIONS ::= BEGIN
IMPORTS
enterprises,
IpAddress,TimeTicks FROM RFC1155-SMI
OBJECT-TYPE FROM RFC-1212
DisplayString FROM SNMPv2-TC;
PortsBitmap ::= OCTET STRING
-- Set of ports. 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 least
-- significant bit represents the lowest numbered
-- port, and the most significant bit represents the
-- highest numbered port. Thus, each port of the
-- switch 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."
-- ************************************************************
-- NBase Object Identifier Definition
-- ************************************************************
nbase OBJECT IDENTIFIER ::= { enterprises 629 }
nbSwitchG1 OBJECT IDENTIFIER ::= { nbase 1 }
nbSwitchG1Il OBJECT IDENTIFIER ::= { nbSwitchG1 50}
nbsStackInfo OBJECT IDENTIFIER ::= { nbSwitchG1Il 4}
-- ************************************************************
-- ************************************************************
-- Objects in the Stack Information Group
-- *************************************************************
nbsStackSlotCapacity OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Max quantity of Slots possible in the Stack."
::= { nbsStackInfo 1 }
nbsStackSlotsTableSize OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Real size of Slots Table in the Stack."
::= { nbsStackInfo 2 }
nbsStackPortsCapacity OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Max quantity of Ports possible in the Stack ."
::= { nbsStackInfo 3 }
nbsStackSlotPortsCapacity OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Max quantity of Ports possible in the Slot ."
::= { nbsStackInfo 4 }
-- *************************************************************
-- Objects in the Slot Information Group
-- *************************************************************
nbsStackSlotTable OBJECT-TYPE
SYNTAX SEQUENCE OF NbsStackSlotEntry
ACCESS not-accessible
STATUS mandatory
DESCRIPTION
"Table of descriptive and status information about
the Slots."
::= { nbsStackInfo 5 }
nbsStackSlotEntry OBJECT-TYPE
SYNTAX NbsStackSlotEntry
ACCESS not-accessible
STATUS mandatory
DESCRIPTION
"An entry in the table, containing information
about a single Slot."
INDEX { nbsStackSlotIndex }
::= { nbsStackSlotTable 1 }
NbsStackSlotEntry ::=
SEQUENCE {
nbsStackSlotIndex
INTEGER,
nbsStackSlotType
INTEGER,
nbsStackSlotMgmtStatus
INTEGER,
nbsStackSlotPortsMaxNumber
INTEGER,
nbsStackSlotPortsNumber
INTEGER,
nbsStackSlotFirstPort
INTEGER,
nbsStackSlotOperStatus
INTEGER,
nbsStackSlotAdminStatus
INTEGER,
nbsStackSlotRedundantPSMode
INTEGER,
nbsStackSlotUplinkModulesNumber
INTEGER,
nbsStackSlotReset
INTEGER,
nbsStackSlotIp
IpAddress,
nbsStackSlotHwVers
INTEGER,
nbsStackSlotSwVers
INTEGER
}
nbsStackSlotIndex OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"This object identifies the Slot#
for which this entry contains information."
::= { nbsStackSlotEntry 1 }
nbsStackSlotType OBJECT-TYPE
SYNTAX INTEGER {
empty(1),
unknown(2),
standAlone(3),
universal(4),
eth20Ports10or100TP(5),
eth40Ports10TP(6),
eth10Ports100FO(7),
eth16Ports10or100TP(8),
eth4Ports1000FO(9),
agentSlot(10),
routingEngine(11),
eth8Ports10or100TP(12),
eth2Ports100FOMM(13),
eth2Ports100FOSM(14),
eth1Ports1000FOMM(15),
eth1Ports1000FOSM(16),
eth2Ports1000FOMM(17),
eth2Ports1000FOSM(18),
stackableSlotNoLink(19),
stackableSlotNH2025(20),
stackableSlotReserve1(21),
stackableSlotReserve2(22),
eth2Ports100FO(23),
eth2Ports1000FO(24),
eth4Ports100FOMM(25),
eth4Ports100FOSM(26),
eth4Ports100FO(27),
eth4Ports10or100TP(28),
eth4Ports100MTRJ(29),
eth8Ports100MTRJ(30),
eth4Ports100VF(31),
eth8Ports100VF(32),
ethGigaBitService(33),
eth4Ports100LC(34),
eth8Ports100LC(35),
eth2Ports10FL(36),
eth4Ports10FL(37),
eth1Port100or1000TP(38),
eth1Port1000FORED(39),
eth4Ports100TPand2Ports100FO(40),
eth4Ports100TPand1Port100FO(41),
eth0Ports100TPand2Ports100FO(42),
eth4Ports100TPand0Ports100FO(43),
eth1Ports1000MTRJ(44),
eth1StackPorts100or1000TP(45),
eth2PseudoMgmt10or100TP(46),
eth4Ports10HPNA(47),
eth8Ports10HPNA(48),
eth1Port1000AMP(49),
l3eth1Ports1000FO(50),
l3eth8Ports10or100TP(51),
l3eth4Ports100TPand1Port100FO(52),
l3eth8Ports100MTRJ(53),
l3eth4Ports100LC(54),
l3eth8Ports100LC(55),
l3eth2Ports10FL(56),
l3eth4Ports10FL(57),
l3eth4Ports100MTRJ(58),
l3eth0Ports100TPand2Ports100FO(59),
l3eth2Ports1000FO(60),
l3eth4Ports100FO(61),
l3eth4Ports100TPand0Ports100FO(62),
l3eth4Ports100VF(63),
l3eth8Ports100VF(64),
l3eth4Ports100TPand2Ports100FO(65),
l3eth1Port100or1000TP(66),
l3eth1Port1000FORED(67),
l3eth1Ports1000MTRJ(68),
l3eth1Port1000AMP(69),
l3eth4Ports10HPNA(70),
l3eth8Ports10HPNA(71),
l3eth2Ports10or100RC(72),
eth2Ports1000FOSM50Mcam16(73),
eth2Ports1000FOSM50Mcam32(74),
eth1Ports1000FOSM50Mcam16(75),
eth1Ports1000FOSM50Mcam32(76),
eth2Ports1000FOSM100Mcam16(77),
eth2Ports1000FOSM100Mcam32(78),
eth1Ports1000FOSM100Mcam16(79),
eth1Ports1000FOSM100Mcam32(80),
eth8singlePortsEoVL(81),
eth8singlePortsEoVN(82),
eth8singlePortsLEoVL(83),
eth8singlePortsLEoVN(84),
eth4PortsEoVand2Ports100FO(85),
eth4PortsEoVand2Ports10or100TP(86),
eth4singlePortsEoVL4PortsEoVN(87),
eth2Ports100FOPAL(88),
eth4PortsEoVand1Ports100FO(89),
eth4PortsEoVand1Ports10or100TP(90),
eth4PortsEoVand1Ports10or100TPand1Ports100FO(91),
l3eth8octalPortsEoVL(92),
l3eth1Port1000GBICSFP(93),
l3eth2Ports100FOPAL(94),
eth8octalPortsEoVSL(95),
l3eth8octalPortsEoVSL(96),
eth8octalPortsEoV7L(97),
l3eth8octalPortsEoV7L(98),
l3eth8PortVoice(99),
l3eth4PortVoice(100),
l3eth2PortVoiceand2PortsTPand1PortFO(101),
eth4Ports100TPand1PortSingleFO(102),
l3eth4Ports100TPand1PortSingleFO(103),
eth8octalPortsEoVL(104),
eth8singlePortsEoVED(105),
eth8singlePortsEoV4B(106),
l3eth1Port1000SFP(107),
eth1Port1000GERcam32(108),
eth1Port1000GERcam256(109),
eth1Port1000GERSFPcam32(110),
eth1Port1000GERSFPcam256(111),
eth1Port1000SFPcam32(112),
eth1Port1000SFPcam256(113),
eth6Ports100TPand2Ports100FO(114),
em2007eth1Port1000SFPcam32(115),
em2007eth1Port1000SFPcam256(116),
em2007eth8Ports10or100TP(117),
em2007eth8Ports100MTRJ(118),
em2007eth1Port1000GERSFPcam32(119),
eth6Ports100TPand1Ports100FO(120)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Slot Types:
1=empty - Slot is Empty;
2=unknown - Slot is of the Unknown type;
3=standAlone - Stand Alone Device;
4=universal - Slot including Uplink Modules of the different types;
5=eth20Ports10or100TP - Slot including 20 fast copper 10/100 MBps Ports;
6=eth40Ports10TP - Slot including 40 normal copper 10 MBps Ports;
7=eth10Ports100FO - Slot including 10 fast fibre optic 100 MBps Ports(Multi Mode);
8=eth16Ports10or100TP - Slot including 16 fast copper 10/100 MBps Ports;
9=eth4Ports1000FO - Slot including 4 GigaBit 1000 MBps Ports(Multi Mode);
10=agentSlot - Slot including CPU Card;
11=routingEngine - Slot including Routing Engine Card;
12=eth8Ports10or100TP - Slot including 8 fast copper 10/100 MBps Ports;
13=eth2Ports100FOMM - Slot including 2 fast fibre optic 100 MBps Ports(MM=Multi Mode);
14=eth2Ports100FOSM - Slot including 2 fast fibre optic 100 MBps Ports(SM=Single Mode);
15=eth1Ports1000FOMM - Slot including 1 GigaBit 1000 MBps Ports(MM=Multi Mode);
16=eth1Ports1000FOSM - Slot including 1 GigaBit 1000 MBps Ports(SM=Single Mode);
17=eth2Ports1000FOMM - Slot including 2 GigaBit 1000 MBps Ports(MM=Multi Mode);
18=eth2Ports1000FOSM - Slot including 2 GigaBit 1000 MBps Ports(SM=Single Mode);
19=stackableSlotNoLink - Slot including special Stackable Card with no Link;
20=stackableSlotNH2025 - Slot including special Stackable Card Linked with the NH2025 Device;
21=stackableSlotReserve1 - Slot including special Stackable Card (Reserve1 for the future purposes);
22=stackableSlotReserve2 - Slot including special Stackable Card (Reserve2 for the future purposes);
23=eth2Ports100FO - Slot including 2 fast fibre optic 100 MBps Ports(different configuration of the Multi Mode and/or Single Mode Ports);
24=eth2Ports1000FO - Slot including 2 GigaBit 1000 MBps Ports(different configuration of the Multi Mode and/or Single Mode Ports);
25=eth4Ports100FOMM - Slot including 4 fast fibre optic 100 MBps Ports(MM=Multi Mode);
26=eth4Ports100FOSM - Slot including 4 fast fibre optic 100 MBps Ports(SS=Single Mode);
27=eth4Ports100FO - Slot including 4 fast fibre optic 100 MBps Ports(different configuration of the Multi Mode and/or Single Mode Ports);
28=eth4Ports10or100TP - Slot including 4 fast copper 10/100 MBps Ports;
29=eth4Ports100MTRJ - Slot including 4 fast fibre optic 100 MBps MTRJ Ports;
30=eth8Ports100MTRJ - Slot including 8 fast fibre optic 100 MBps MTRJ Ports;
31=eth4Ports100VF - Slot including 4 fast fibre optic 100 MBps VF Ports;
32=eth8Ports100VF - Slot including 8 fast fibre optic 100 MBps VF Ports;
33=ethGigaBitService - Slot including special Giga Bit Service Card (for using Modules with >= 2 GigaBit Ports);
34=eth4Ports100LC - Slot including 4 fast fibre optic 100 MBps LC Ports;
35=eth8Ports100LC - Slot including 8 fast fibre optic 100 MBps LC Ports;
36=eth2Ports10FL - Slot including 2 slow fibre optic 10 MBps FL Ports;
37=eth4Ports10FL - Slot including 4 slow fibre optic 10 MBps FL Ports;
38=eth1Port100or1000TP - Slot including 1 GigaBit copper 100/1000 MBps TP Ports;
39=eth1Port1000FORED - Slot including 1 GigaBit fibre optic Redundant Port;
40=eth4Ports100TPand2Ports100FO - Slot including 4 copper 10/100 MBps TP + 2 fast FO 100 MBps Ports;
41=eth4Ports100TPand1Port100FO - Slot including 4 copper 10/100 MBps TP + 1 fast FO 100 MBps Ports;
42=eth0Ports100TPand2Ports100FO - Slot including 0 copper 10/100 MBps TP + 2 fast FO 100 MBps Ports;
43=eth4Ports100TPand0Ports100FO - Slot including 4 copper 10/100 MBps TP + 0 fast FO 100 MBps Ports;
44=eth1Ports1000MTRJ - Slot including 1 GigaBit MTRJ fibre optic 1000 MBps Port;
45=eth1StackPorts100or1000TP - Slot including 1 GigaBit TP copper 100/1000 MBps Port for Low Distances(<= 5m);
46=eth2PseudoMgmt10or100TP - Slot including 2 copper 10/100 MBps TP for the Pseudo Management purpouses;
47=eth4Ports10HPNA - Slot including 4 slow Home PNA 10 MBps half duplex Ports;
48=eth8Ports10HPNA - Slot including 8 slow Home PNA 10 MBps half duplex Ports;
49=eth1Port1000AMP - Slot including 1 GigaBit copper 1000 MBps AMP Ports;
50=l3eth1Ports1000FO - Slot including 1 GigaBit 1000 MBps Ports with Layer3 features support;
51=l3eth8Ports10or100TP - Slot including 8 fast copper 10/100 MBps Ports with Layer3 features support;
52=l3eth4Ports100TPand1Port100FO - Slot including 4 copper 10/100 MBps TP + 1 fast FO 100 MBps Ports with Layer3 features support;
53=l3eth8Ports100MTRJ - Slot including 8 fast fibre optic 100 MBps MTRJ Ports with Layer3 featuressupport;
54=l3eth4Ports100LC - Slot including 4 fast fibre optic 100 MBps LC Ports with Layer3 features support;
55=l3eth8Ports100LC - Slot including 8 fast fibre optic 100 MBps LC Ports with Layer3 features support;
56=l3eth2Ports10FL - Slot including 2 slow fibre optic 10 MBps FL Ports with Layer3 features support;
57=l3eth4Ports10FL - Slot including 4 slow fibre optic 10 MBps FL Ports with Layer3 features support;
58=l3eth4Ports100MTRJ - Slot including 4 fast fibre optic 100 MBps MTRJ Ports with Layer3 features support;
59=l3eth0Ports100TPand2Ports100FO - Slot including 0 copper 10/100 MBps TP + 2 fast FO 100 MBps Ports with Layer3 features support;
60=l3eth2Ports1000FO - Slot including 2 GigaBit 1000 MBps Ports(different configuration of the Multi Mod and/or Single Mode Ports) with Layer3 features support;
61=l3eth4Ports100FO - Slot including 4 fast fibre optic 100 MBps Ports(different configuration of the Multi Mode and/or Single Mode Ports) with Layer3 features support;
62=l3eth4Ports100TPand0Ports100FO - Slot including 4 copper 10/100 MBps TP + 0 fast FO 100 MBps Ports with Layer3 features support;
63=l3eth4Ports100VF - Slot including 4 fast fibre optic 100 MBps VF Ports with Layer3 features support;
64=l3eth8Ports100VF - Slot including 8 fast fibre optic 100 MBps VF Ports with Layer3 features support;
65=l3eth4Ports100TPand2Ports100FO - Slot including 4 copper 10/100 MBps TP + 2 fast FO 100 MBps Ports with Layer3 features support;
66=l3eth1Port100or1000TP - Slot including 1 GigaBit copper 100/1000 MBps TP Ports with Layer3 support;
67=l3eth1Port1000FORED - Slot including 1 GigaBit fibre optic Redundant Port with Layer3 features support;
68=l3eth1Ports1000MTRJ - Slot including 1 GigaBit MTRJ fibre optic 1000 MBps Port with Layer3 features support;
69=l3eth1Port1000AMP - Slot including 1 GigaBit copper 1000 MBps AMP Ports with Layer3 features support with Layer3 features support;
70=l3eth4Ports10HPNA - Slot including 4 slow Home PNA 10 MBps half duplex Ports with Layer3 features support;
71=l3eth8Ports10HPNA - Slot including 8 slow Home PNA 10 MBps half duplex Ports with Layer3 features support;
72=l3eth2Ports10or100RC - Slot including 2 copper 10/100 MBps TP for the Pseudo Management purpouses;
73=eth2Ports1000FOSM50Mcam16 - Slot including 2 GigaBit 1000 MBps Ports(SM=Single Mode);
74=eth2Ports1000FOSM50Mcam32 - Slot including 2 GigaBit 1000 MBps Ports(SM=Single Mode);
75=eth1Ports1000FOSM50Mcam16 - Slot including 1 GigaBit 1000 MBps Ports(SM=Single Mode);
76=eth1Ports1000FOSM50Mcam32 - Slot including 1 GigaBit 1000 MBps Ports(SM=Single Mode);
77=eth2Ports1000FOSM100Mcam16 - Slot including 2 GigaBit 1000 MBps Ports(SM=Single Mode);
78=eth2Ports1000FOSM100Mcam32 - Slot including 2 GigaBit 1000 MBps Ports(SM=Single Mode);
79=eth1Ports1000FOSM100Mcam16 - Slot including 1 GigaBit 1000 MBps Ports(SM=Single Mode);
80=eth1Ports1000FOSM100Mcam32 - Slot including 1 GigaBit 1000 MBps Ports(SM=Single Mode);
81=eth8singlePortsEoVL - Slot including 8 Ethernet over Single VDSL LT Ports;
82=eth8singlePortsEoVN - Slot including 8 Ethernet over Single VDSL NT Ports;
83=eth8singlePortsLEoVL - Slot including 8 Ethernet over Single VDSL LongReach LT Ports;
84=eth8singlePortsLEoVN - Slot including 8 Ethernet over Single VDSL LongReach NT Ports;
85=eth4PortsEoVand2Ports100FO - Slot including 4 Ethernet over VDSL LT Ports + 2 fast FO 100 MBps Ports;
86=eth4PortsEoVand2Ports10or100TP - Slot including 4 Ethernet over VDSL LT Ports + 2 Copper 10/100 MBps Ports;
87=eth4singlePortsEoVL4PortsEoVN - Slot including 4 Ethernet over Single VDSL LT Ports + 4 Ethernet over Single VDSL NT Ports;
88=eth2Ports100FOPAL - Slot including 2 fast fibre optic 100 MBps PassiveAirLink(PAL) Ports;
89=eth4PortsEoVand1Ports100FO - Slot including 4 Ethernet over VDSL LT Ports + 1 fast FO 100 MBps Ports;
90=eth4PortsEoVand1Ports10or100TP - Slot including 4 Ethernet over VDSL LT Ports + 1 Copper 10/100 MBps Ports;
91=eth4PortsEoVand1Ports10or100TPand1Ports100FO - Slot including 4 Ethernet over VDSL LT Ports + 1 Copper 10/100 MBps Ports + 1 fast FO 100 MBps Ports;
92=l3eth8octalPortsEoVL - Slot including 8 Ethernet over Octal VDSL LT Ports with Layer3 features support;
93=l3eth1Port1000GBICSFP - Slot including 1 GigaBit 1000 MBps Port with GBIC and SFP connectors;
94=l3eth2Ports100FOPAL - Slot including 2 fast fibre optic 100 MBps PassiveAirLink(PAL) Ports with Layer3 features support;
95=eth8octalPortsEoVSL - Slot including 8 Ethernet over Octal VDSL smart-phone compliant LT Ports;
96=l3eth8octalPortsEoVSL - Slot including 8 Ethernet over Octal VDSL smart-phone compliant LT Ports with Layer3 features support;
97=eth8octalPortsEoV7L - Slot including 8 Ethernet over Octal VDSL ETSI 997 compliant LT Ports;
98=l3eth8octalPortsEoV7L - Slot including 8 Ethernet over Octal VDSL ETSI 997 compliant LT Ports with Layer3 features support;
99=l3eth8PortVoice - Slot including 8 E1\T1 voice ports with Layer3 features support;
100=l3eth4PortVoice - Slot including 4 E1\T1 voice ports with Layer3 features support;
101=l3eth2PortVoiceand2PortsTPand1PortFO - Slot including 2 E1\T1 voice ports + 2 Copper 10/100 MBps Ports + 1 fast FO 100 MBps Port with Layer3 features support;
102=eth4Ports100TPand1PortSingleFO - Slot including 4 copper 10/100 MBps TP + 1 fast Single FO 100 MBps Ports;
103=l3eth4Ports100TPand1PortSingleFO - Slot including 4 copper 10/100 MBps TP + 1 fast Single FO 100 MBps Ports with Layer3 features support;
104=eth8octalPortsEoVL - Slot including 8 Ethernet over Octal VDSL LT Ports;
105=eth8singlePortsEoVED - Slot including 8 Ethernet over Single VDSL Extended Distanse LT Ports;
106=eth8singlePortsEoV4B - Slot including 8 Ethernet over 4 band Single VDSL LT Ports;
107=l3eth1Port1000SFP - Slot including 1 GigaBit 1000 MBps Port with SFP connector [OS Devices];
108=eth1Port1000GERcam32 - Slot including 1 GigaBit Redundant Port with cam=32 [OSM Devices];
109=eth1Port1000GERcam256- Slot including 1 GigaBit Redundant Port with cam>32 [OSM Devices];
110=eth1Port1000GERSFPcam32 - Slot including 1 GigaBit Redundant Port with SFP connectors and cam=32 [OSM Devices];
111=eth1Port1000GERSFPcam256- Slot including 1 GigaBit Redundant Port with SFP connectors and cam>32 [OSM Devices];
112=eth1Port1000SFPcam32 - Slot including 1 GigaBit 1000 MBps Port with SFP connector and cam=32 [OSM Devices];
113=eth1Port1000SFPcam256- Slot including 1 GigaBit 1000 MBps Port with SFP connector and cam>32 [OSM Devices];
114=eth6Ports100TPand2Ports100FO - Slot including 6 copper 10/100 MBps TP + 2 fast FO 100 MBps Ports;
115=em2007eth1Port1000SFPcam32 - Slot including 1 GigaBit 1000 MBps Port with SFP connector and cam=32 [OSM207 Device];
116=em2007eth1Port1000SFPcam256- Slot including 1 GigaBit 1000 MBps Port with SFP connector and cam>32 [OSM207 Device];
117=em2007eth8Ports10or100TP - Slot including 8 fast copper 10/100 MBps Ports [OSM207 Device];
118=em2007eth8Ports100MTRJ - Slot including 8 fast fibre optic 100 MBps MTRJ Ports [OSM207 Device];
119=em2007eth1Port1000GERSFPcam32 - Slot including 1 GigaBit Redundant Port with SFP connectors and cam=32 [OSM207 Device];
120=eth6Ports100TPand1Ports100FO - Slot including 6 copper 10/100 MBps TP + 1 fast FO 100 MBps Ports;"
::= { nbsStackSlotEntry 2 }
nbsStackSlotMgmtStatus OBJECT-TYPE
SYNTAX INTEGER {
master(1),
slave(2)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Slot Module Management Status:
master - Master Slot Module;
slave - Slave Slot Module."
::= { nbsStackSlotEntry 3 }
nbsStackSlotPortsMaxNumber OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"This object identifies the Maximum possible Ports Number in the Slot."
::= { nbsStackSlotEntry 4 }
nbsStackSlotPortsNumber OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"This object identifies the Real Ports Number in the Slot."
::= { nbsStackSlotEntry 5 }
nbsStackSlotFirstPort OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"This object identifies the number of the First Port
in the Slot, according to the Stack Ports Numeration."
::= { nbsStackSlotEntry 6 }
nbsStackSlotOperStatus OBJECT-TYPE
SYNTAX INTEGER {
switchedOff(1),
enabled(2),
disabled(3),
changing(4)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Slot Oper Status:
switchedOff - Slot is Switched-off;
enabled - Slot is enabled;
disabled - Slot is disabled;
changing - Slot is changing."
::= { nbsStackSlotEntry 7 }
nbsStackSlotAdminStatus OBJECT-TYPE
SYNTAX INTEGER {
enabled(1),
disabled(2)
}
ACCESS read-write
STATUS mandatory
DESCRIPTION
"Slot Admin Status:
enabled - Slot is enabled;
disabled - Slot is disabled."
::= { nbsStackSlotEntry 8 }
nbsStackSlotRedundantPSMode OBJECT-TYPE
SYNTAX INTEGER {
notConnected(1),
connected(2)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Slot Redundant Power Supply Module Status:
notConnected - Redundant Power Supply is not Existing;
connected - Redundant Power Supply is Existing."
::= { nbsStackSlotEntry 9 }
nbsStackSlotUplinkModulesNumber OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"This object identifies the number of the Uplink Modules
in the Slot."
::= { nbsStackSlotEntry 10 }
nbsStackSlotReset OBJECT-TYPE
SYNTAX INTEGER {
running(1),
reset(2)
}
ACCESS read-write
STATUS mandatory
DESCRIPTION
"This object is used to reset the corresponding Slot Module."
::= { nbsStackSlotEntry 11 }
nbsStackSlotIp OBJECT-TYPE
SYNTAX IpAddress
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Ip address of the slot (if it has it; if it hasn't - 0.0.0.0)."
::= { nbsStackSlotEntry 12 }
nbsStackSlotHwVers OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"This object holds the Software Version of the Slot Module."
::= { nbsStackSlotEntry 13 }
nbsStackSlotSwVers OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"This object holds the Hardware Version of the Slot Module."
::= { nbsStackSlotEntry 14 }
-- *************************************************************
-- Objects in the Uplink Information Group
-- *************************************************************
nbsStackSlotUplTable OBJECT-TYPE
SYNTAX SEQUENCE OF NbsStackSlotUplEntry
ACCESS not-accessible
STATUS mandatory
DESCRIPTION
"A table of Uplink Modules mounted on the corresponding Slot of the Switch."
::= { nbsStackInfo 6 }
nbsStackSlotUplEntry OBJECT-TYPE
SYNTAX NbsStackSlotUplEntry
ACCESS not-accessible
STATUS mandatory
DESCRIPTION
"Contains the information needed to identify the Uplink Module of the Slot."
INDEX { nbsStackSlotNumber,
nbsStackSlotUplNumber }
::= { nbsStackSlotUplTable 1 }
NbsStackSlotUplEntry ::=
SEQUENCE {
nbsStackSlotNumber
INTEGER,
nbsStackSlotUplNumber
INTEGER,
nbsStackSlotUplType
INTEGER,
nbsStackSlotUplSwVers
INTEGER,
nbsStackSlotUplHwVers
INTEGER,
nbsStackSlotUplNPorts
INTEGER,
nbsStackSlotUplFirstPort
INTEGER,
nbsStackSlotUplPortsMask
PortsBitmap,
nbsStackSlotUplStatus
INTEGER,
nbsStackSlotUplHwDescr
DisplayString,
nbsStackSlotUplSwDescr
DisplayString
}
nbsStackSlotNumber OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"The Slot # in the Device."
::= { nbsStackSlotUplEntry 1 }
nbsStackSlotUplNumber OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"The Uplink Module # in the
corresponding Slot in the Device."
::= { nbsStackSlotUplEntry 2 }
nbsStackSlotUplType OBJECT-TYPE
SYNTAX INTEGER {
uplAbsent(1),
uplUnknown(2),
upl1GigaMM(3),
upl1GigaSM(4),
upl2GigaMM(5),
upl2GigaSM(6),
upl1FO(7),
upl1TP(8),
upl2FOMM(9),
upl2FOSM(10),
upl4FOMM(11),
upl4FOSM(12),
upl8TP(13),
upl1ATM(14),
upl1FDDI(15),
uplStackModuleNoLink(16),
uplStackModuleNH2025(17),
uplStackModuleReserve1(18),
uplStackModuleReserve2(19),
upl4TP(20),
upl2FO(21),
upl2Giga(22),
upl4FO(23),
upl4MTRJ(24),
upl8MTRJ(25),
upl4VF(26),
upl8VF(27),
upl4LC(28),
upl8LC(29),
upl2FL(30),
upl4FL(31),
upl1GigaTP(32),
upl1GER(33),
upl4TP2FO(34),
upl4TP1FO(35),
upl0TP2FO(36),
upl4TP0FO(37),
upl1GigaMTRJ(38),
upl1GigaStackTP(39),
upl4Ports10HPNA(40),
upl8Ports10HPNA(41),
upl1Port1000AMP(42),
l3upl1Giga1000(43),
l3upl8TP(44),
l3upl4TP1FO(45),
l3upl8MTRJ(46),
l3upl4LC(47),
l3upl8LC(48),
l3upl2FL(49),
l3upl4FL(50),
l3upl4MTRJ(51),
l3upl0TP2FO(52),
l3upl2Giga(53),
l3upl4FO(54),
l3upl4TP0FO(55),
l3upl4VF(56),
l3upl8VF(57),
l3upl4TP2FO(58),
l3upl1Giga100or1000(59),
l3upl1GER(60),
l3upl1GigaMTRJ(61),
l3upl1Port1000AMP(62),
l3upl4Ports10HPNA(63),
l3upl8Ports10HPNA(64),
upl8singlePortsEoVL(65),
upl8singlePortsEoVN(66),
upl8singlePortsLEoVL(67),
upl8singlePortsLEoVN(68),
upl4PortsEoVand2FO(69),
upl4PortsEoVand2TP(70),
upl4singlePortsEoVL4PortsEoVN(71),
upl2Ports100FOPAL(72),
upl4PortsEoVand1Ports100FO(73),
upl4PortsEoVand1Ports10or100TP(74),
upl4PortsEoVand1Ports10or100TPand1Ports100FO(75),
l3upl8octalPortsEoVL(76),
l3upl1Port1000GBICSFP(77),
l3upl2Ports100FOPAL(78),
upl8octalPortsEoVSL(79),
upl8octalPortsEoV7L(80),
upl8octalPrtEoV7L(81),
l3upl8octalPortsEoV7L(82),
l3upl8PortVoice(83),
l3upl4PortVoice(84),
l3upl2PortVoiceand2PortsTPand1PortFO(85),
upl4TP1SingleFO(86),
l3upl4TP1SingleFO(87),
upl8octalPortsEoVL(88),
upl8singlePortsEoVED(89),
upl8singlePortsEoV4B(90),
upl9Ces(91),
upl9Ces4(92),
upl9kCes4(93),
upl9kCes(94)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Uplink Module Types:
1=uplAbsent - Uplink Module is Absent;
2=uplUnknown - Uplink Module of the Unknown type;
3=upl1GigaMM - Uplink Module including 1 GigaBit 1000 MBps Ports(MM=Multi Mode);
4=upl1GigaSM - Uplink Module including 1 GigaBit 1000 MBps Ports(SM=Single Mode);
5=upl2GigaMM - Uplink Module including 2 GigaBit 1000 MBps Ports(MM=Multi Mode);
6=upl2GigaSM - Uplink Module including 2 GigaBit 1000 MBps Ports(SM=Single Mode);
7=upl1FO - Uplink Module including 1 fast fibre optic 100 MBps Ports;
8=upl1TP - Uplink Module including 1 fast copper 10/100 MBps Ports;
9=upl2FOMM - Uplink Module including 2 fast fibre optic 100 MBps Ports(MM=Multi Mode);
10=upl2FOSM - Uplink Module including 2 fast fibre optic 100 MBps Ports(SM=Single Mode);
11=upl4FOMM - Uplink Module including 4 fast fibre optic 100 MBps Ports(MM=Multi Mode);
12=upl4FOSM - Uplink Module including 4 fast fibre optic 100 MBps Ports(SM=Single Mode);
13=upl8TP - Uplink Module including 8 fast copper 10/100 MBps Ports;
14=upl1ATM - Uplink Module including 1 ATM Port;
15=upl1FDDI - Uplink Module including 1 FDDI Port;
16=uplStackModuleNoLink - special Stacking Module with no Link;
17=uplStackModuleNH2025 - special Stacking Module Linked with the NH2025 Device;
18=uplStackModuleReserve1 - special Stacking Module (Reserve1 for the future purposes);
19=uplStackModuleReserve2 - special Stacking Module (Reserve2 for the future purposes);
20=upl4TP - Uplink Module including 4 fast copper 10/100 MBps Ports;
21=upl2FO - Uplink Module including 2 fast fibre optic 100 MBps Ports(different configuration of the Multi Mode and/or Single Mode Ports);
22=upl2Giga - Uplink Module including 2 GigaBit 1000 MBps Ports(different configuration of the Multi Mode and/or Single Mode Ports);
23=upl4FO - Uplink Module including 4 fast fibre optic 100 MBps Ports(different configuration of the Multi Mode and/or Single Mode Ports);
24=upl4MTRJ - Uplink Module including 4 fast fibre optic 100 MBps MTRJ Ports;
25=upl8MTRJ - Uplink Module including 8 fast fibre optic 100 MBps MTRJ Ports;
26=upl4VF - Uplink Module including 4 fast fibre optic 100 MBps VF Ports;
27=upl8VF - Uplink Module including 8 fast fibre optic 100 MBps VF Ports;
28=upl4LC - Uplink Module including 4 fast fibre optic 100 MBps LC Ports;
29=upl8LC - Uplink Module including 8 fast fibre optic 100 MBps LC Ports;
30=upl2FL - Uplink Module including 2 slow fibre optic 10 MBps FL Ports;
31=upl4FL - Uplink Module including 4 slow fibre optic 10 MBps FL Ports;
32=upl1GigaTP - Uplink Module including 1 GigaBit copper 100/1000 MBps TP Ports;
33=upl1GER - Uplink Module including 1 GigaBit fibre optic Redundant Port;
34=upl4TP2FO - Uplink Module including 4 copper 10/100 MBps TP + 2 fast FO 100 MBps Ports;
35=upl4TP1FO - Uplink Module including 4 copper 10/100 MBps TP + 1 fast FO 100 MBps Ports;
36=upl0TP2FO - Uplink Module including 0 copper 10/100 MBps TP + 2 fast FO 100 MBps Ports;
37=upl4TP0FO - Uplink Module including 4 copper 10/100 MBps TP + 0 fast FO 100 MBps Ports;
38=upl1GigaMTRJ - Uplink Module including 1 GigaBit MTRJ fibre optic 1000 MBps Port;
39=upl1GigaStackTP - Uplink Module including 1 GigaBit TP copper 1000 MBps Port for Low Distances(<= 5m);
40=upl4Ports10HPNA - Uplink Module including 4 slow Home PNA 10 MBps half duplex Ports;
41=upl8Ports10HPNA - Uplink Module including 8 slow Home PNA 10 MBps half duplex Ports;
42=upl1Port1000AMP - Uplink Module including 1 GigaBit copper 1000 MBps AMP Ports;
43=l3upl1Giga1000 - Uplink Module including 1 GigaBit 1000 MBps Ports with Layer3 features support;
44=l3upl8TP - Uplink Module including 8 fast copper 10/100 MBps Ports with Layer3 features support;
45=l3upl4TP1FO - Uplink Module including 4 copper 10/100 MBps TP + 1 fast FO 100 MBps Ports with Layer3 features support;
46=l3upl8MTRJ - Uplink Module including 8 fast fibre optic 100 MBps MTRJ Ports with Layer3 features support;
47=l3upl4LC - Uplink Module including 4 fast fibre optic 100 MBps LC Ports with Layer3 features support;
48=l3upl8LC - Uplink Module including 8 fast fibre optic 100 MBps LC Ports with Layer3 features support;
49=l3upl2FL - Uplink Module including 2 slow fibre optic 10 MBps FL Ports with Layer3 features support;
50=l3upl4FL - Uplink Module including 4 slow fibre optic 10 MBps FL Ports with Layer3 features support;
51=l3upl4MTRJ - Uplink Module including 4 fast fibre optic 100 MBps MTRJ Ports with Layer3 features support;
52=l3upl0TP2FO- Uplink Module including 0 copper 10/100 MBps TP + 2 fast FO 100 MBps Ports with Layer3 features support;
53=l3upl2Giga - Uplink Module including 2 GigaBit 1000 MBps Ports(different configuration of the Multi Mode and/or Single Mode Ports) with Layer3 features support;
54=l3upl4FO - Uplink Module including 4 fast fibre optic 100 MBps Ports(different configuration of the Multi Mode and/or Single Mode Ports) with Layer3 features support;
55=l3upl4TP0FO - Uplink Module including 4 copper 10/100 MBps TP + 0 fast FO 100 MBps Ports with Layer3 features support;
56=l3upl4VF - Uplink Module including 4 fast fibre optic 100 MBps VF Ports with Layer3 features support;
57=l3upl8VF - Uplink Module including 8 fast fibre optic 100 MBps VF Ports with Layer3 features support;
58=l3upl4TP2FO - Uplink Module including 4 copper 10/100 MBps TP + 2 fast FO 100 MBps Ports with Layer3 features support;
59=l3upl1Giga100or1000 - Uplink Module including 1 GigaBit copper 100/1000 MBps TP Ports with Layer3 features support;
60=l3upl1GER - Uplink Module including 1 GigaBit fibre optic Redundant Port with Layer3 features support;
61=l3upl1GigaMTRJ - Uplink Module including 1 GigaBit MTRJ fibre optic 1000 MBps Port with Layer3 features support;
62=l3upl1Port1000AMP - Uplink Module including 1 GigaBit copper 1000 MBps AMP Ports with Layer3 features support;
63=l3upl4Ports10HPNA - Uplink Module including 4 slow Home PNA 10 MBps half duplex Ports with Layer3 features support;
64=l3upl8Ports10HPNA - Uplink Module including 8 slow Home PNA 10 MBps half duplex Ports with Layer3 features support;
65=upl8singlePortsEoVL - Uplink Module including 8 Ethernet over Single VDSL LT Ports;
66=upl8singlePortsEoVN - Uplink Module including 8 Ethernet over Single VDSL NT Ports;
67=upl8singlePortsLEoVL - Uplink Module including 8 Ethernet over Single VDSL LongReach LT Ports;
68=upl8singlePortsLEoVN - Uplink Module including 8 Ethernet over Single VDSL LongReach NT Ports;
69=upl4PortsEoVand2FO - Uplink Module including 8 Ethernet over VDSL LT Ports + 2 fast FO 100 MBps Ports;
70=upl4PortsEoVand2TP - Uplink Module including 8 Ethernet over VDSL LT Ports + 2 Copper 10/100 MBps Ports;
71=upl4singlePortsEoVL4PortsEoVN - Uplink Module including 4 Ethernet over Single VDSL LT Ports + 4 Ethernet over VDSL NT Ports;
72=upl2Ports100FOPAL - Uplink Module including 2 fast fibre optic 100 MBps PassiveAirLink(PAL) Ports;
73=upl4PortsEoVand1Ports100FO - Uplink Module including 4 Ethernet over VDSL LT Ports + 1 fast FO 100 MBps Ports;
74=upl4PortsEoVand1Ports10or100TP - Uplink Module including 4 Ethernet over VDSL LT Ports + 1 Copper 10/100 MBps Ports;
75=upl4PortsEoVand1Ports10or100TPand1Ports100FO - Uplink Module including 4 Ethernet over VDSL LT Ports + 1 Copper 10/100 MBps Ports + 1 fast FO 100 MBps Ports;
76=l3upl8octalPortsEoVL - Uplink Module including 8 Ethernet over Octal VDSL LT Ports with Layer3 features support;
77=l3upl1Port1000GBICSFP - Uplink Module including 1 GigaBit 1000 MBps Port with GBIC and SFP connectors;
78=l3upl2Ports100FOPAL - Uplink Module including 2 fast fibre optic 100 MBps PassiveAirLink(PAL) Ports with Layer3 features support;
79=upl8octalPortsEoVSL - Uplink Module including 8 Ethernet over Octal VDSL smart-phone compliant LT Ports;
80=upl8octalPortsEoV7L - Uplink Module including 8 Ethernet over Octal VDSL smart-phone compliant LT Ports with Layer3 features support;
81=upl8octalPrtEoV7L - Uplink Module including 8 Ethernet over Octal VDSL ETSI 997 compliant LT Ports;
82=l3upl8octalPortsEoV7L - Uplink Module including 8 Ethernet over Octal VDSL ETSI 997 compliant LT Ports with Layer3 features support;
83=l3upl8PortVoice - Uplink Module including 8 E1\T1 voice ports with Layer3 features support;
84=l3upl4PortVoice - Uplink Module including 4 E1\T1 voice ports with Layer3 features support;
85=l3upl2PortVoiceand2PortsTPand1PortFO - Uplink Module including 2 E1\T1 voice ports + 2 Copper 10/100 MBps Ports + 1 fast FO 100 MBps Port with Layer3 features support;
86=upl4TP1SingleFO - Uplink Module including 4 copper 10/100 MBps TP + 1 fast Single FO 100 MBps Ports;
87=l3upl4TP1SingleFO - Uplink Module including 4 copper 10/100 MBps TP + 1 fast Single FO 100 MBps Ports with Layer3 features support;
88=upl8octalPortsEoVL - Uplink Module including 8 Ethernet over Octal VDSL LT Ports;
89=upl8singlePortsEoVED - Uplink Module including 8 Ethernet over Single VDSL Extended Distanse LT Ports;
90=upl8singlePortsEoV4B - Uplink Module including 8 Ethernet over 4 band Single VDSL LT Ports;
91=upl9Ces - TDM Uplink Module for OS9000/OS900 Device includuing 1 E1/T1 Port;
92=upl9Ces4 - TDM Uplink Module for OS9000/OS900 Device includuing 4 E1/T1 Ports;
93=upl9kCes4 - TDM Uplink Module for OS9000/OS900 Device includuing 4 E1/T1, 1 LAN and 1 WAN Ports;"
::= { nbsStackSlotUplEntry 3 }
nbsStackSlotUplSwVers OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"This object holds the Software Version of the Uplink Module."
::= { nbsStackSlotUplEntry 4 }
nbsStackSlotUplHwVers OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"This object holds the Hardware Version of the Uplink Module."
::= { nbsStackSlotUplEntry 5 }
nbsStackSlotUplNPorts OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Number of Ports in the current UpLink Module."
::= { nbsStackSlotUplEntry 6 }
nbsStackSlotUplFirstPort OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"This object identifies the number of the First Port
in the Uplink Module, according to the Stack Ports Numeration."
::= { nbsStackSlotUplEntry 7 }
nbsStackSlotUplPortsMask OBJECT-TYPE
SYNTAX PortsBitmap
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Contains the list of the ports in the Uplink Module.
The representation is a bit map.
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 least
significant bit represents the lowest numbered
port, and the most significant bit represents the
highest numbered port. Thus, each port of the
Uplink Module is represented by a single bit within the
value of this object. If that bit has a value of
<1> then that port is exists in the Uplink Module.
The port is not exists if its bit has a value of <0>."
::= { nbsStackSlotUplEntry 8 }
nbsStackSlotUplStatus OBJECT-TYPE
SYNTAX INTEGER {
up(1),
down(2)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Current status of the Uplink Module"
::= { nbsStackSlotUplEntry 9 }
nbsStackSlotUplHwDescr OBJECT-TYPE
SYNTAX DisplayString
ACCESS read-only
STATUS mandatory
DESCRIPTION
"A description of the Hardware Version of the Uplink Module."
::= { nbsStackSlotUplEntry 10 }
nbsStackSlotUplSwDescr OBJECT-TYPE
SYNTAX DisplayString
ACCESS read-only
STATUS mandatory
DESCRIPTION
"A description of the Software Version of the Uplink Module."
::= { nbsStackSlotUplEntry 11 }
-- *************************************************************
-- Objects in the Special Slot Table (GigaBit Redundant Modules)
-- *************************************************************
nbsStackSpecSlotTable OBJECT-TYPE
SYNTAX SEQUENCE OF NbsStackSpecSlotEntry
ACCESS not-accessible
STATUS mandatory
DESCRIPTION
"Table of descriptive and status information about
the Special Slots."
::= { nbsStackInfo 7 }
nbsStackSpecSlotEntry OBJECT-TYPE
SYNTAX NbsStackSpecSlotEntry
ACCESS not-accessible
STATUS mandatory
DESCRIPTION
"An entry in the table, containing information
about a single Special Slot."
INDEX { nbsStackSlotSpecNumber,
nbsStackSlotSpecUplNumber }
::= { nbsStackSpecSlotTable 1 }
NbsStackSpecSlotEntry ::=
SEQUENCE {
nbsStackSlotSpecNumber
INTEGER,
nbsStackSlotSpecUplNumber
INTEGER,
nbsStackSlotSpecUplRedundantMode
INTEGER,
nbsStackSlotSpecUplLeftLinkLed
INTEGER,
nbsStackSlotSpecUplLeftActivityLed
INTEGER,
nbsStackSlotSpecUplRightLinkLed
INTEGER,
nbsStackSlotSpecUplRightActivityLed
INTEGER,
nbsStackSlotSpecUplTestSemiAutoMode
INTEGER
}
nbsStackSlotSpecNumber OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"The Special Slot # in the Device."
::= { nbsStackSpecSlotEntry 1 }
nbsStackSlotSpecUplNumber OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"The Uplink Module # in the
corresponding Special Slot in the Device."
::= { nbsStackSpecSlotEntry 2 }
nbsStackSlotSpecUplRedundantMode OBJECT-TYPE
SYNTAX INTEGER {
other (1),
specialRedundant (2),
autoRedundant (3),
manualLeftRedundant (4),
manualRightRedundant (5),
regularRedundant (6),
masterLeftRedundant (7),
masterRightRedundant (8)
}
ACCESS read-write
STATUS mandatory
DESCRIPTION
"Special Slot Additional Status:
other=(1) - unknown Status or Module is not Valid;
Redundant Modes used for the OptiSwitch Devices family:
'specialRedundant'(2) - Both connectors of the
GigaBit Redundant Module are connected to the same 2
connectors of the other GigaBit Redundant Module.
Module provides automatic quick Redundancy;
'autoRedundant'(3) - Each connector of the GigaBit
Redundant Module is connected to a Single GigaBit
Ethernet Module. Module provides automatic quick Redundancy;
'manualLeftRedundant'(4) - Each connector of the GigaBit
Redundant Module is connected to a Single GigaBit
Ethernet Module. Left Connector will be forced and
Right Connector will not be connected in any case.
'manualRightRedundant'(5) - Each connector of the GigaBit
Redundant Module is connected to a Single GigaBit
Ethernet Module. Right Connector will be forced and
Left Connector will not be connected in any case.
'semiAutoRedundant'(6) - Each connector of the GigaBit
Redundant Module is connected to a Single GigaBit
Ethernet Module. Module provides automatic Redundancy
from Primary Left Connector to the Right connector.
The difference is that to force back the Primary Left
connection the Test Operation [nbsStackSlotSpecUplTestSemiAutoMode]
has to be performed;
Redundant Modes used for the OptiSwitch Master Devices family:
'regularRedundant'(6) - The same as 'specialRedundant'(2)
and 'autoRedundant'(3). Provides automatic quick Redundancy.
'masterLeftRedundant'(7) - Provides automatic quick
Redundancy. The difference is that the module will always
force the Left Connection even when right Connection is OK.
'masterRightRedundant'(8) - Provides automatic quick
Redundancy. The difference is that the module will always
force the Right Connection even when left Connection is OK."
::= { nbsStackSpecSlotEntry 3 }
nbsStackSlotSpecUplLeftLinkLed OBJECT-TYPE
SYNTAX INTEGER {
other (1),
up (2),
down (3)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Rx Activity ower Left Connector in the Module."
::= { nbsStackSpecSlotEntry 4 }
nbsStackSlotSpecUplLeftActivityLed OBJECT-TYPE
SYNTAX INTEGER {
other (1),
up (2),
down (3)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Tx Activity ower Left Connector in the Module."
::= { nbsStackSpecSlotEntry 5 }
nbsStackSlotSpecUplRightLinkLed OBJECT-TYPE
SYNTAX INTEGER {
other (1),
up (2),
down (3)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Rx Activity ower Right Connector in the Module."
::= { nbsStackSpecSlotEntry 6 }
nbsStackSlotSpecUplRightActivityLed OBJECT-TYPE
SYNTAX INTEGER {
other (1),
up (2),
down (3)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Tx Activity ower Right Connector in the Module."
::= { nbsStackSpecSlotEntry 7 }
nbsStackSlotSpecUplTestSemiAutoMode OBJECT-TYPE
SYNTAX INTEGER {
readyForTest (1),
startTest (2)
}
ACCESS read-write
STATUS mandatory
DESCRIPTION
"Used for the OptiSwitch Devices family to perform
Test Operation while Module is in 'semiAutoRedundant' Mode.
'readyForTest' (1) - used for SNMP GET operation only.
'startTest' (2) - used for SNMP SET operation to initiate the Test."
::= { nbsStackSpecSlotEntry 8 }
-- *************************************************************
-- Objects in the Multi Connectioned Ports Group
-- *************************************************************
nbsStackMultiConPortGroup OBJECT IDENTIFIER ::= { nbsStackInfo 10}
-- *************************************************************
-- Objects in the Multi Connectioned Ports Table
-- *************************************************************
nbsStackMultiConPortTable OBJECT-TYPE
SYNTAX SEQUENCE OF NbsStackMultiConPortEntry
ACCESS not-accessible
STATUS mandatory
DESCRIPTION
"Table of descriptive and status information about
the multi connectivity Ports."
::= { nbsStackMultiConPortGroup 5 }
nbsStackMultiConPortEntry OBJECT-TYPE
SYNTAX NbsStackMultiConPortEntry
ACCESS not-accessible
STATUS mandatory
DESCRIPTION
"An entry in the table, containing information
about a specific multi connectivity Port."
INDEX { nbsStackMultiConPortId }
::= { nbsStackMultiConPortTable 1 }
NbsStackMultiConPortEntry ::=
SEQUENCE {
nbsStackMultiConPortId
INTEGER,
nbsStackMultiConPortConnectorsNumber
INTEGER,
nbsStackMultiConPortForceMode
INTEGER,
nbsStackMultiConPortForcedConnector
INTEGER
}
nbsStackMultiConPortId OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"The Multi Connectivity Port Id in the Device.
The same as [ifIndex] in the MIB-II."
::= { nbsStackMultiConPortEntry 1 }
nbsStackMultiConPortConnectorsNumber OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"The real Number of Connectors in the corresponding
Multi Connectivity Port in the Device."
::= { nbsStackMultiConPortEntry 2 }
nbsStackMultiConPortForceMode OBJECT-TYPE
SYNTAX INTEGER {
other (1),
auto (2),
force (3)
}
ACCESS read-write
STATUS mandatory
DESCRIPTION
"The Active Connector Forcing mode:
other=(1) - Unknown mode;
auto=(2) - System will choose automatically which
Connector in the Multi Connectivity Port
will be forced;
force=(3) - User will choose manually which
Connector in the Multi Connectivity Port
will be forced. Number of Connector must be set
in the [nbsStackMultiConPortForcedConnector]"
::= { nbsStackMultiConPortEntry 3 }
nbsStackMultiConPortForcedConnector OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-write
STATUS mandatory
DESCRIPTION
"The Number of Connector that will be forced in the
corresponding Multi Connectivity Port in the Device.
(0 - in case of [nbsStackMultiConPortForceMode] = 'auto')"
::= { nbsStackMultiConPortEntry 4 }
-- *************************************************************
-- Objects in the Multi Connectioned Port Connectors Table
-- *************************************************************
nbsStackMultiConPortConnectorTable OBJECT-TYPE
SYNTAX SEQUENCE OF NbsStackMultiConPortConnectorEntry
ACCESS not-accessible
STATUS mandatory
DESCRIPTION
"Table of descriptive and status information about
the multi connectivity Ports."
::= { nbsStackMultiConPortGroup 7 }
nbsStackMultiConPortConnectorEntry OBJECT-TYPE
SYNTAX NbsStackMultiConPortConnectorEntry
ACCESS not-accessible
STATUS mandatory
DESCRIPTION
"An entry in the table, containing information
about a specific multi connectivity Port."
INDEX { nbsStackMultiConPortNumber,
nbsStackMultiConPortConnectorNumber }
::= { nbsStackMultiConPortConnectorTable 1 }
NbsStackMultiConPortConnectorEntry ::=
SEQUENCE {
nbsStackMultiConPortNumber
INTEGER,
nbsStackMultiConPortConnectorNumber
INTEGER,
nbsStackMultiConPortConnectorType
INTEGER,
nbsStackMultiConPortConnectorSubType
INTEGER,
nbsStackMultiConPortConnectorLinkStatus
INTEGER,
nbsStackMultiConPortConnectorRxLoss
INTEGER,
nbsStackMultiConPortConnectorTxFault
INTEGER
}
nbsStackMultiConPortNumber OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"The Multi Connectivity Port # in the Device."
::= { nbsStackMultiConPortConnectorEntry 1 }
nbsStackMultiConPortConnectorNumber OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"The Connector # in the
corresponding Multi Connectivity Port in the Device."
::= { nbsStackMultiConPortConnectorEntry 2 }
nbsStackMultiConPortConnectorType OBJECT-TYPE
SYNTAX INTEGER {
other (1),
static (2),
gbic (3),
sfp (4),
xfp (5),
xfpe (6)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Multi Connectivity Port Connector Types:
other=(1) - Unknown type of connector;
static=(2) - Not Changeable type of connector;
gbic=(3) - GBIC type of connector;
sfp=(4) - SFP type of connector;
xfp=(5) - XFP type of connector;
xfpe=(6) - XFP-E type of connector;"
::= { nbsStackMultiConPortConnectorEntry 3 }
nbsStackMultiConPortConnectorSubType OBJECT-TYPE
SYNTAX INTEGER {
other (1),
rj45 (2),
sc (3),
lc (4),
mtrj (5),
vf (6),
mu (7),
miniCoax (8),
mdiCx (9)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Multi Connectivity Port Connector Physical Sub Type:
other=(1) - Unknown or N/A Connector's connectivity Type;
rj45=(2) - Copper RJ45;
sc=(3) - Regular Fibre Optic [FO];
lc=(4) - LC;
mtrj=(5) - MTRJ;
vf=(6) - VF;
mu=(7) - MU;
miniCoax=(8) - MINICOAX;
mdiCx=(9) - MDICX"
::= { nbsStackMultiConPortConnectorEntry 4 }
nbsStackMultiConPortConnectorLinkStatus OBJECT-TYPE
SYNTAX INTEGER {
other (1),
notLinked (2),
linked (3),
errorState (4),
blocked (5)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Multi Connectivity Uplink Connector's Link Status:
other=(1) - Unknown connector's Link status;
notLinked=(2) - Connector's Link is down;
linked=(3) - Connector's Link is up;
errorState=(4) - Error Connector's Link status;
blocked=(5) - Connector's Link status is blocked;"
::= { nbsStackMultiConPortConnectorEntry 5 }
nbsStackMultiConPortConnectorRxLoss OBJECT-TYPE
SYNTAX INTEGER {
other (1),
ok (2),
loss (3)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Multi Connectivity Uplink Connector's Rx Loss Status:
other=(1) - Unknown connector's Rx Loss status;
ok=(2) - Connector's Rx Loss not exists;
loss=(3) - Connector's Rx Loss exists"
::= { nbsStackMultiConPortConnectorEntry 6 }
nbsStackMultiConPortConnectorTxFault OBJECT-TYPE
SYNTAX INTEGER {
other (1),
ok (2),
fault (3)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Multi Connectivity Uplink Connector's Link Status:
other=(1) - Unknown connector's Tx Fault status;
ok=(2) - Connector's Tx Fault not exists;
fault=(3) - Connector's Tx Fault exists"
::= { nbsStackMultiConPortConnectorEntry 7 }
-- *************************************************************
-- Objects in the Virtual Cable Diagnostics Group
-- *************************************************************
nbsStackVcdGroup OBJECT IDENTIFIER ::= { nbsStackInfo 12}
-- *************************************************************
-- Objects in the Ports Virtual Cable Diagnostics Table
-- *************************************************************
nbsStackVcdGenSupport OBJECT-TYPE
SYNTAX INTEGER {
notSupported (1),
supported (2)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Virtual Cable Diagnostics feature support (per Device)."
::= { nbsStackVcdGroup 1 }
nbsStackVcdPortTable OBJECT-TYPE
SYNTAX SEQUENCE OF NbsStackVcdPortEntry
ACCESS not-accessible
STATUS mandatory
DESCRIPTION
"Table of status information about
a Port's Virtual Cable Diagnostics."
::= { nbsStackVcdGroup 2 }
nbsStackVcdPortEntry OBJECT-TYPE
SYNTAX NbsStackVcdPortEntry
ACCESS not-accessible
STATUS mandatory
DESCRIPTION
"An entry in the table, containing status information
about a Port's Virtual Cable Diagnostics."
INDEX { nbsStackVcdPortId }
::= { nbsStackVcdPortTable 1 }
NbsStackVcdPortEntry ::=
SEQUENCE {
nbsStackVcdPortId
INTEGER,
nbsStackVcdPortTestRun
INTEGER,
nbsStackVcdPortPair12Distance
INTEGER,
nbsStackVcdPortPair12TestStatus
INTEGER,
nbsStackVcdPortPair36Distance
INTEGER,
nbsStackVcdPortPair36TestStatus
INTEGER,
nbsStackVcdPortPair45Distance
INTEGER,
nbsStackVcdPortPair45TestStatus
INTEGER,
nbsStackVcdPortPair78Distance
INTEGER,
nbsStackVcdPortPair78TestStatus
INTEGER,
nbsStackVcdPortSupport
INTEGER,
nbsStackVcdPortTestTime
TimeTicks
}
nbsStackVcdPortId OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"The Port Id supported VCD feature in the Device.
The same as [ifIndex] in the MIB-II."
::= { nbsStackVcdPortEntry 1 }
nbsStackVcdPortTestRun OBJECT-TYPE
SYNTAX INTEGER {
startVcdTest (1),
testIsRunning (2),
vcdTestCompletedOk (3),
vcdTestCompletedWithError (4),
vcdNotTested (5)
}
ACCESS read-write
STATUS mandatory
DESCRIPTION
"The Port VCD Test mode:
startVcdTest=(1) - used for SNMP SET operation
to run VCD Test;
testIsRunning=(2) - used for SNMP GET operation
to show that VCD Test is still
not completed;
vcdTestCompletedOk=(3)- used for SNMP GET operation
to show that VCD Test is already
completed with no Error.
vcdTestCompletedWithError=(4)- used for SNMP GET operation
to show that VCD Test is already
completed with some Error.
vcdNotTested=(5) - used for SNMP GET operation
to show that VCD Test has not yet been executed."
::= { nbsStackVcdPortEntry 2 }
nbsStackVcdPortPair12Distance OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"The distance [in CM] to the Problem found with help
of VCD test into the Pair of Wires 1 and 2."
::= { nbsStackVcdPortEntry 3 }
nbsStackVcdPortPair12TestStatus OBJECT-TYPE
SYNTAX INTEGER {
other (1),
good (2),
testFail (3),
impedanceMismatch (4),
openCable (5),
shortCable (6)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"The VCD Test result for Pair of Wires 1 and 2 :
other=(1) - unknown;
good=(2) - the Cable is OK (no problem found);
testFail=(3)- the VCD Test was failed for some reason;
impedanceMismatch=(3)- the VCD Test found the impedance
problems in the Wires;
openCable=(5)-the VCD Test found the break in the Wire;
openCable=(6)-the VCD Test found the short circuit in
the Wire."
::= { nbsStackVcdPortEntry 4 }
nbsStackVcdPortPair36Distance OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"The distance [in CM] to the Problem found with help
of VCD test into the Pair of Wires 3 and 6."
::= { nbsStackVcdPortEntry 5 }
nbsStackVcdPortPair36TestStatus OBJECT-TYPE
SYNTAX INTEGER {
other (1),
good (2),
testFail (3),
impedanceMismatch (4),
openCable (5),
shortCable (6)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"The VCD Test result for Pair of Wires 3 and 6 :
other=(1) - unknown;
good=(2) - the Cable is OK (no problem found);
testFail=(3)- the VCD Test was failed for some reason;
impedanceMismatch=(3)- the VCD Test found the impedance
problems in the Wires;
openCable=(5)-the VCD Test found the break in the Wire;
openCable=(6)-the VCD Test found the short circuit in
the Wire."
::= { nbsStackVcdPortEntry 6 }
nbsStackVcdPortPair45Distance OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"The distance [in CM] to the Problem found with help
of VCD test into the Pair of Wires 4 and 5."
::= { nbsStackVcdPortEntry 7 }
nbsStackVcdPortPair45TestStatus OBJECT-TYPE
SYNTAX INTEGER {
other (1),
good (2),
testFail (3),
impedanceMismatch (4),
openCable (5),
shortCable (6)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"The VCD Test result for Pair of Wires 4 and 5 :
other=(1) - unknown;
good=(2) - the Cable is OK (no problem found);
testFail=(3)- the VCD Test was failed for some reason;
impedanceMismatch=(3)- the VCD Test found the impedance
problems in the Wires;
openCable=(5)-the VCD Test found the break in the Wire;
openCable=(6)-the VCD Test found the short circuit in
the Wire."
::= { nbsStackVcdPortEntry 8 }
nbsStackVcdPortPair78Distance OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"The distance [in CM] to the Problem found with help
of VCD test into the Pair of Wires 7 and 8."
::= { nbsStackVcdPortEntry 9 }
nbsStackVcdPortPair78TestStatus OBJECT-TYPE
SYNTAX INTEGER {
other (1),
good (2),
testFail (3),
impedanceMismatch (4),
openCable (5),
shortCable (6)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"The VCD Test result for Pair of Wires 7 and 8 :
other=(1) - unknown;
good=(2) - the Cable is OK (no problem found);
testFail=(3)- the VCD Test was failed for some reason;
impedanceMismatch=(3)- the VCD Test found the impedance
problems in the Wires;
openCable=(5)-the VCD Test found the break in the Wire;
openCable=(6)-the VCD Test found the short circuit in
the Wire."
::= { nbsStackVcdPortEntry 10 }
nbsStackVcdPortSupport OBJECT-TYPE
SYNTAX INTEGER {
notSupported (1),
supported (2),
unknown (3)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Virtual Cable Diagnostics feature support (per Port)."
::= { nbsStackVcdPortEntry 11 }
nbsStackVcdPortTestTime OBJECT-TYPE
SYNTAX TimeTicks
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"The value of sysUpTime at the time of the last creation or
deletion of an entry in the ifTable. If the number of
entries has been unchanged since the last re-initialization
of the local network management subsystem, then this object
contains a zero value."
::= { nbsStackVcdPortEntry 12 }
------------------------------------------------------------------------------
-- TRAPS
------------------------------------------------------------------------------
specSlotLinkChanged TRAP-TYPE
ENTERPRISE nbsStackInfo
VARIABLES {
nbsStackSlotSpecNumber
}
DESCRIPTION
"The SNMP trap that is generated when
Link status was changed on the GER Module."
::= 22
END
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