-- ============================================================================ -- Copyright (C) 2015 by HUAWEI TECHNOLOGIES. All rights reserved. -- Description: This MIB is used for Metallic line test(MELT).Melt test is a -- common line status test method,used to test whether the copper -- twisted pair from the service board to the phone set is normal. -- Common MELT operations include starting a MELT test, querying -- the test result, querying the calibration data, and starting -- and stopping a searching tone test. -- Reference: -- Version: V3.45 -- ============================================================================ HUAWEI-COMMTEST-MIB DEFINITIONS ::= BEGIN IMPORTS huaweiUtility FROM HUAWEI-MIB ifIndex FROM IF-MIB Unsigned32, Gauge32, BITS, Counter64, Integer32, OBJECT-TYPE, MODULE-IDENTITY, NOTIFICATION-TYPE FROM SNMPv2-SMI RowStatus, DateAndTime, TruthValue FROM SNMPv2-TC TimeTicks FROM SNMPv2-SMI hwFrameIndex,hwSlotIndex FROM HUAWEI-DEVICE-MIB hwTrapSN FROM HUAWEI-SNMP-NOTIFICATION-MIB; hwTestCommon MODULE-IDENTITY LAST-UPDATED "201503251500Z" ORGANIZATION "Huawei Technologies Co.,Ltd." CONTACT-INFO "Huawei Industrial Base Bantian, Longgang Shenzhen 518129 People's Republic of China Website: http://www.huawei.com Email: support@huawei.com " DESCRIPTION "This MIB is used for Metallic line test(MELT).Melt test is a common line status test method,used to test whether the copper twisted pair from the service board to the phone set is normal. Common MELT operations include starting a MELT test, querying the test result, querying the calibration data, and starting and stopping a searching tone test. " -- Revision history REVISION "201503251500Z" DESCRIPTION "V3.45, Modified the description of the leaf hwONTPotsTestItem" REVISION "201501201200Z" DESCRIPTION "V3.44, Modified the values of the following leaves: hwBoardMeltChipStateCheckDCVolUpperLimit hwBoardMeltChipStateCheckDCVolLowerLimit" REVISION "201412121200Z" DESCRIPTION "V3.43, Modified the description of the leaf hwLoopLineTestConclusion" REVISION "201411041435Z" DESCRIPTION "V3.42, 1. Added enum(meltChipFaulty (11) and meltChipCheckInProcess(12)) into hwLoopLineTestStatus 2. Added hwLoopLineTestMeltChipStateTable. Added the following leaves into hwLoopLineTestMeltChipStateTable: hwBoardMeltChipStateCheckConfig hwBoardMeltChipStateCheckResult hwPortMeltChipStateList hwBoardMeltChipStateCheckDCVolUpperLimit hwBoardMeltChipStateCheckDCVolLowerLimit 3. Added hwMeltChipStateCheck table. Added the following leaves into hwMeltChipStateCheck table: hwMeltChipStateCheckConfig hwMeltChipStateCheckTime hwMeltChipStateCheckDCVolUpperLimit hwMeltChipStateCheckDCVolLowerLimit 4. Added hwTestMeltChipID into hwTestCommonTrapVbOids: 5. Added the following leaves into hwTestCommonAlarmTrapsOIDs: hwTestMeltChipFaultAlarmTrap hwTestMeltChipRecoveryAlarmTrap 6. Added hwTestMeltChipStateCheckResultTrap into hwTestCommonGeneralTrapsOIDs" REVISION "201406041040Z" DESCRIPTION "V3.41, Modified the syntax for OMSYS" REVISION "201404091000Z" DESCRIPTION "V3.40, Cleared tab" REVISION "201403161600Z" DESCRIPTION "V3.39, Modified the default value of the leaf hwLoopLineTestBusyProcFlag" REVISION "201309161600Z" DESCRIPTION "V3.38, Added the following leaves into hwONTPotsTestOprTable: hwONTPotsTestLoopDCAGVoltCompensativeValue hwONTPotsTestLoopDCBGVoltCompensativeValue hwONTPotsTestLoopDCABVoltCompensativeValue hwONTPotsTestLoopACAGVoltCompensativeValue hwONTPotsTestLoopACBGVoltCompensativeValue hwONTPotsTestLoopACABVoltCompensativeValue hwONTPotsTestLoopResistanceAGCompensativeValue hwONTPotsTestLoopResistanceBGCompensativeValue hwONTPotsTestLoopResistanceABCompensativeValue " REVISION "201204150900Z" DESCRIPTION "V3.37, Added an enum into hwLoopLineTestStatus Delete unnecessary en dashes " REVISION "201203220900Z" DESCRIPTION "V3.36, Added the following leaves into hwLoopLineTestSysConfigPara: hwLoopLineTestSysConfigSigCapUpperLimit hwLoopLineTestSysConfigSigCapLowerLimit hwLoopLineTestSysConfigSigResistance " REVISION "201203210900Z" DESCRIPTION "V3.35, Modified the string length and description of hwLoopLineTestMeltChip. Added the following leaves into hwLoopLineTestOprTable: hwLoopLineTestCapterminal hwLoopLineTestCapterminalFlag. Added the following leaves into hwLoopLineTestSysConfigPara: hwLoopLineTestSysConfigCableFactor " REVISION "201105051900Z" DESCRIPTION "V3.34, Modified the definitions of hwLoopLineTestOprTable and hwTestCommonMeltTestResultTrap. Added following leaves into hwLoopLineTestOprTable: hwLoopLineTestCtrLV hwLoopLineTestCtrLVFlag hwLoopLineTestCtrHV hwLoopLineTestCtrHVFlag hwLoopLineTestCtrAc hwLoopLineTestCtrAcFlag hwLoopLineTestRtgSer hwLoopLineTestRtgSerFlag hwLoopLineTestRrgSer hwLoopLineTestRrgSerFlag hwLoopLineTestRtrSer hwLoopLineTestRtrSerFlag hwLoopLineTestUtgAcAdmit hwLoopLineTestUtgAcAdmitFlag hwLoopLineTestUrgAcAdmit hwLoopLineTestUrgAcAdmitFlag hwLoopLineTestUtrAcAdmit hwLoopLineTestUtrAcAdmitFlag Add enums into leaf hwLoopLineTestMoreDataFlag in hwTestCommonMeltTestResultTrap. " -- Revision history REVISION "201104300900Z" DESCRIPTION "V3.33, Added following leaves into hwLoopLineTestOprTable: hwONTPotsTestLoopDCABVoltValue hwONTPotsTestLoopACABVoltValue hwONTPotsTestLoopAGCapacitanceValue hwONTPotsTestLoopBGCapacitanceValue hwONTPotsTestLoopABCapacitanceValue Added the following trap nodes into hwTestOntPotsTestResultTrap: hwONTPotsTestLoopDCABVoltValue hwONTPotsTestLoopACABVoltValue hwONTPotsTestLoopAGCapacitanceValue hwONTPotsTestLoopBGCapacitanceValue hwONTPotsTestLoopABCapacitanceValue Modified the leaves's description of hwONTPotsTestOprTable: hwONTPotsTestLoopDCAGVoltValue hwONTPotsTestLoopDCBGVoltValue hwONTPotsTestLoopACAGVoltValue hwONTPotsTestLoopACBGVoltValue hwONTPotsTestLoopResistanceAGValue hwONTPotsTestLoopResistanceBGValue hwONTPotsTestLoopResistanceABValue " -- Revision history REVISION "201103060900Z" DESCRIPTION "V3.32, Modified the definition of the table hwLoopLineTestOprTable. Added following leaves into hwLoopLineTestOprTable: hwLoopLineTestLRFlag hwLoopLineTestDcCurrent hwLoopLineTestAcCurrent hwLoopLineTestConductance hwLoopLineTestSusceptance hwLoopLineTestAcfrequencyA hwLoopLineTestAcfrequencyB hwLoopLineTestRABH hwLoopLineTestRABHFlag hwLoopLineTestCapABH hwLoopLineTestCapABHFlag hwLoopLineTestGtrH hwLoopLineTestGtrHFlag hwLoopLineTestBtrH hwLoopLineTestBtrHFlag hwLoopLineTestABDcCurrent hwLoopLineTestABDcCurrentFlag hwLoopLineTestBADcCurrent hwLoopLineTestBADcCurrentFlag hwLoopLineTestABAcCurrent hwLoopLineTestABAcCurrentFlag hwLoopLineTestBAAcCurrent hwLoopLineTestBAAcCurrentFlag hwLoopLineTestCSfrequencyForTest hwLoopLineTestCSfrequencyForTestFlag hwLoopLineTestImpedanceForTest hwLoopLineTestImpedanceForTestFlag hwLoopLineTestMaxVForSignature hwLoopLineTestMaxVForSignatureFlag hwLoopLineTestAGMaxVForTest hwLoopLineTestAGMaxVForTestFlag hwLoopLineTestAGMinVForTest hwLoopLineTestAGMinVForTestFlag hwLoopLineBGMaxVForTest hwLoopLineTestBGMaxVForTestFlag hwLoopLineTestBGMinVForTest hwLoopLineTestBGMinVForTestFlag hwLoopLineTestABMaxVForTest hwLoopLineTestABMaxVForTestFlag hwLoopLineTestABMinVForTest hwLoopLineTestABMinVForTestFlag hwLoopLineTestAGMaxCForTest hwLoopLineTestAGMaxCForTestFlag hwLoopLineTestAGMinCForTest hwLoopLineTestAGMinCForTestFlag hwLoopLineTestBGMaxCForTest hwLoopLineTestBGMaxCForTestFlag hwLoopLineTestBGMinCForTest hwLoopLineTestBGMinCForTestFlag hwLoopLineTestABMaxCForTest hwLoopLineTestABMaxCForTestFlag hwLoopLineTestABMaxNegCForTest hwLoopLineTestMaxNegCForTestFlag hwLoopLineTestMaxNegCForTestFlag hwLoopLineTestLineALength hwLoopLineTestLineBLength hwLoopLineTestTermimalConcusion hwLoopLineTestMoreDataFlag Add an enum notsupport(3) into following leaves: hwLoopLineTestACAGFlag hwLoopLineTestACBGFlag hwLoopLineTestACABFlag hwLoopLineTestDCAGFlag hwLoopLineTestDCBGFlag hwLoopLineTestDCABFlag hwLoopLineTestRAGFlag hwLoopLineTestRBGFlag hwLoopLineTestRABFlag hwLoopLineTestRABPoleFlag hwLoopLineTestRABResPoleFlag hwLoopLineTestCapAGFlag hwLoopLineTestCapBGFlag hwLoopLineTestCapABFlag hwLoopLineTestRbattipFlag hwLoopLineTestRbatringFlag hwLoopLineTestRringFlag hwLoopLineTestCsigFlag hwLoopLineTestUtgAcFreqFlag hwLoopLineTestUrgAcFreqFlag hwLoopLineTestUtrAcFreqFlag hwLoopLineTestItipAcFlag hwLoopLineTestIringAcFlag hwLoopLineTestItipDcFlag hwLoopLineTestIringDcFlag hwLoopLineTestGtgFlag hwLoopLineTestBtgFlag hwLoopLineTestGrgFlag hwLoopLineTestBrgFlag hwLoopLineTestGtrFlag hwLoopLineTestBtrFlag Add enums into leave hwLoopLineTestConclusion in hwLoopLineTestOprTable: abRFaultId(91) aRFaultId(92) bRFaultId(93) abLeakId(94) aLeakId(95) bLeakId(96) abFvacLevelH(97) aFvacLevelH(98) bFvacLevelH(99) abFvacLevelI(100) aFvacLevelI(101) bFvacLevelI(102) abFvacLevelO(103) aFvacLevelO(104) bFvacLevelO(105) abFvDcLevelH(106) aFvDcLevelH(107) bFvDcLevelH(108) abFvDcLevelI(109) aFvDcLevelI(110) bFvDcLevelI(111) abFvDcLevelO(112) aFvDcLevelO(113) bFvDcLevelO(114) fesIdPPA(115) fesIdPPAInv(116) fesId2PPA(117) fesId2PPAInv(118) etsiXdslSignature(119) fetIdEr(120) abreak(121) bbreak(122) abreakInMDF(123) bbreakInMDF(124) abreakOutMDF(125) bbreakOutMDF(126) Added the following trap nodes into hwLoopLineTestTrap: hwLoopLineTestMSocket hwLoopLineTestPPAResult hwLoopLineTestMoreDataFlag Added following leaves into hwSearchingToneOprTable: hwSearchingToneBusyProcFlag " -- Revision history REVISION "201012240900Z" DESCRIPTION "V3.31, Modify the value of hwONTPotsTestSubscriberLineTestResult. " REVISION "201012220900Z" DESCRIPTION "V3.30, Modified the description of MIB. " REVISION "201011230900Z" DESCRIPTION "V3.29, Added hwONTPotsTestSubscriberLineTestResult into hwONTPotsTestOprTable. Modified the definition of the trap node hwTestOntPotsTestResultTrap. " REVISION "201011090900Z" DESCRIPTION "V3.28, Added hwWettingCurrentOprTable. Added following leaves into hwWettingCurrentOprTable: hwWettingCurrentOprStatus hwWettingCurrentOprWorkingVoltage hwWettingCurrentOprMaximumVoltage hwWettingCurrentOprSlope. Modified the description of MIB. " REVISION "201010100900Z" DESCRIPTION "V3.27, Modified the description of MIB. " REVISION "201008110900Z" DESCRIPTION "V3.26, Modified the definition of the trap node,include: hwLoopLineTestTrap. Added following leaves into hwLoopLineTestOprTable: hwLoopLineTestIfIndex hwLoopLineTestRequestID. " REVISION "201008100900Z" DESCRIPTION "V3.25, Delete hwONTPotsTestMLTResult note of the trap node: hwTestOntPotsTestResultTrap. Modify the leaves's description of the table hwONTPotsTestOprTable. Added an enum inverseexist(3) in leaf hwLoopLineTestPPAResult. " REVISION "201007290900Z" DESCRIPTION "V3.24, Added hwPortTestingListOprTable. Modified the description of MIB. " REVISION "201007070900Z" DESCRIPTION "V3.23, Modified the name of hwTestCommonStartupMeltTestResultTrap to hwTestCommonMeltTestFaileTrap. Modified the description of MIB. Added hwTestCommonRequestID, ifIndex, hwONTPotsTestONTIndex, hwONTPotsTestONTPstnPortIndex, and hwONTPotsTestItem to hwTestOntPotsTestResultTrap. Added following leaves into hwLoopLineTestOprTable: hwLoopLineTestPPAResultFlag hwLoopLineTestUtgAcFreqFlag hwLoopLineTestUrgAcFreqFlag hwLoopLineTestUtrAcFreqFlag hwLoopLineTestItipAcFlag hwLoopLineTestIringAcFlag hwLoopLineTestItipDcFlag hwLoopLineTestIringDcFlag hwLoopLineTestGtgFlag hwLoopLineTestBtgFlag hwLoopLineTestGrgFlag hwLoopLineTestBrgFlag hwLoopLineTestGtrFlag hwLoopLineTestBtrFlag hwLoopLineTestSIGNFlag hwLoopLineTestACFEMFlag hwLoopLineTestDCFEMFlag hwLoopLineTestONHKFlag hwLoopLineTestOPENFlag hwLoopLineTestSHORTFlag hwLoopLineTestROHFlag hwLoopLineTestUtgDcUpFlag hwLoopLineTestUtgDcDownFlag hwLoopLineTestUrgDcUpFlag hwLoopLineTestUrgDcDownFlag hwLoopLineTestUtrPosFlag hwLoopLineTestUtrNegFlag hwLoopLineTestItgDcUpFlag hwLoopLineTestItgDcDownFlag hwLoopLineTestIrgDcUpFlag hwLoopLineTestIrgDcDownFlag hwLoopLineTestItrPosFlag hwLoopLineTestItrNegFlag hwLoopLineTestRingerFlag. Modified the name of hwSearchingToneTimeout to hwSearchingToneDurationTime. Modified the range of hwSearchingToneDurationTime to 1-54000. Modified the default value of hwSearchingToneDurationTime to 9000. Modified the unit of hwSearchingToneDurationTime to 0.1s. Added hwSearchingToneRemainingTime to hwSearchingToneOprTable. " REVISION "201006220900Z" DESCRIPTION "V3.22, Modified the description of hwLoopLineTestRinger. " REVISION "201004200900Z" DESCRIPTION "V3.21, Modified the size list of hwLoopLineTestMeltFactory. " REVISION "201004150900Z" DESCRIPTION "V3.20, Added following leaves into hwLoopLineTestOprTable: hwLoopLineTestSNMPRab hwLoopLineTestSNMPRabFlag hwLoopLineTestSNMPRba hwLoopLineTestSNMPRbaFlag. " REVISION "201004010900Z" DESCRIPTION "V3.19, Modified the syntax error." REVISION "201003090900Z" DESCRIPTION "V3.18, Added following leaves into hwLoopLineTestOprTable: hwLoopLineTestRABPole hwLoopLineTestACAGFlag hwLoopLineTestACBGFlag hwLoopLineTestACABFlag hwLoopLineTestDCAGFlag hwLoopLineTestDCBGFlag hwLoopLineTestDCABFlag hwLoopLineTestRAGFlag hwLoopLineTestRBGFlag hwLoopLineTestRABFlag hwLoopLineTestItrPosFlag hwLoopLineTestItrNegFlag hwLoopLineTestCapAGFlag hwLoopLineTestCapBGFlag hwLoopLineTestCapABFlag hwLoopLineTestRbattipFlag hwLoopLineTestRbatringFlag hwLoopLineTestRringFlag hwLoopLineTestCsigFlag hwLoopLineTestPPAResFlag hwLoopLineTestVzenerFlag hwLoopLineTestRzenerFlag. " REVISION "201002080900Z" DESCRIPTION "V3.17, modified the definitions of hwTestCommonMeltTestResultTrap and hwTestCommonStartupMeltTestResultTrap." REVISION "201001210900Z" DESCRIPTION "V3.16, Added hwONTPotsTestOprTable for ONT POTS test. Added the definition of the trap node:hwTestOntPotsTestResultTrap,include: hwONTPotsTestMLTResult, hwONTPotsTestHazardousVoltResult, hwONTPotsTestEMFResult, hwONTPotsTestResistacneResult, hwONTPotsTestOffHookResult, hwONTPotsTestRingerResult, hwONTPotsTestNT1DCSignalResult, hwONTPotsTestSelfTestResult, hwONTPotsTestDrawDialToneResult, hwONTPotsTestBreakDialToneResult, hwONTPotsTestQuietEnergyResult, hwONTPotsTestDialToneEnergyResult, hwONTPotsTestLoopDCAGVoltResult, hwONTPotsTestLoopDCBGVoltResult, hwONTPotsTestLoopACAGVoltResult, hwONTPotsTestLoopACBGVoltResult, hwONTPotsTestLoopResistanceAGResult, hwONTPotsTestLoopResistanceBGResult, hwONTPotsTestLoopResistanceABResult, hwONTPotsTestLoopRingerLoadTestResult, hwONTPotsTestDrawDialToneTimeValue, hwONTPotsTestBreakDialToneTimeValue, hwONTPotsTestQuietEnergyValue, hwONTPotsTestDialToneEnergyValue, hwONTPotsTestLoopDCAGVoltValue, hwONTPotsTestLoopDCBGVoltValue, hwONTPotsTestLoopACAGVoltValue, hwONTPotsTestLoopACBGVoltValue, hwONTPotsTestLoopResistanceAGValue, hwONTPotsTestLoopResistanceBGValue, hwONTPotsTestLoopResistanceABValue, hwONTPotsTestLoopRingerLoadTestValue. " REVISION "201001120900Z" DESCRIPTION "V3.15, Added definitions of hwTestCommonMeltTestResultTrap and hwTestCommonStartupMeltTestResultTrap." REVISION "200912130900Z" DESCRIPTION "V3.14, Added hwLoopLineTestMeltVerTable for getting MELT chipset information. Added hwLoopLineTestCalibrationTable for getting calibraton of MELT. Added hwLoopLineTestOprMeasuredFreq for setting MELT with aggregate frequency. Added hwSearchingToneTimeOut for setting timeout value of searchingtone. Added hwLoopLineTestSysConfigPara for reverse polarity of A wire and B wire. Added hwLoopLineTestSysConfigConvertAB in hwLoopLineTestSysConfigPara for setting MELT parameters. " REVISION "200912070900Z" DESCRIPTION "V3.13, Added following leaves into hwLoopLineTestOprTable: hwLoopLineTestBtssPowerProcFlag hwLoopLineTestImpedance hwLoopLineTestImpedanceAB hwLoopLineTestImpedanceBA hwLoopLineTestImpedanceAG hwLoopLineTestImpedanceBG hwLoopLineTestCurrent hwLoopLineTestACCurrentAG hwLoopLineTestACCurrentBG hwLoopLineTestACCurrentAB hwLoopLineTestDCCurrentAG hwLoopLineTestDCCurrentBG hwLoopLineTestDCCurrentAB hwLoopLineTestLoopCurrent hwLoopLineTestLC hwLoopLineTestNoise hwLoopLineTestN hwLoopLineTestPPA hwLoopLineTestPPAResult hwLoopLineTestDeferredTime hwLoopLineTestTimeoutProc hwLoopLineTestReverse hwLoopLineTestUtgAcFreq hwLoopLineTestUrgAcFreq hwLoopLineTestUtrAcFreq hwLoopLineTestItipAc hwLoopLineTestIringAc hwLoopLineTestItipDc hwLoopLineTestIringDc hwLoopLineTestRbattip hwLoopLineTestRbatring hwLoopLineTestRring hwLoopLineTestCsig hwLoopLineTestVzener hwLoopLineTestRzener hwLoopLineTestGtg hwLoopLineTestBtg hwLoopLineTestGrg hwLoopLineTestBrg hwLoopLineTestGtr hwLoopLineTestBtr hwLoopLineTestSIGN hwLoopLineTestACFEM hwLoopLineTestDCFEM hwLoopLineTestONHK hwLoopLineTestOPEN hwLoopLineTestSHORT hwLoopLineTestROH hwLoopLineTestUtgDcUp hwLoopLineTestUtgDcDown hwLoopLineTestUrgDcUp hwLoopLineTestUrgDcDown hwLoopLineTestUtrPos hwLoopLineTestUtrNeg hwLoopLineTestItgDcUp hwLoopLineTestItgDcDown hwLoopLineTestIrgDcUp hwLoopLineTestIrgDcDown hwLoopLineTestItrPos hwLoopLineTestItrNeg hwLoopLineTestRinger hwLoopLineTestPPARes hwLoopLineTestStartTime hwLoopLineTestEndTime. Added hwMeterTestBusyFlag to hwMeterTestOprTable. Added hwMeterTestBusyFlag to hwMeterTestOprTable. Added hwTestBoardDiagnoseTestCapacitance to hwTestBoardDiagnoseTestOprTable. Added hwSearchingToneOprTable. " REVISION "200304280900Z" DESCRIPTION "V3.00, Removed Chinese description. " REVISION "200303080900Z" DESCRIPTION "V2.00, Corrected the SYNTAX. " REVISION "200301280900Z" DESCRIPTION "V1.00, initial version." ::= { hwTest 1 } hwTest OBJECT IDENTIFIER ::= { huaweiUtility 21 } hwTestCommonMib OBJECT IDENTIFIER ::= { hwTestCommon 1 } hwTestCommonMIBObjects OBJECT IDENTIFIER ::= { hwTestCommonMib 1 } hwTestGroupOprTable OBJECT-TYPE SYNTAX SEQUENCE OF HwTestGroupOprEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "Table of the test group: It provides the number of the test group to which a shelf of the device corresponds. It is uniquely identified by the number of the test group. Multiple shelves can share a test board. A test group corresponds to a test board. The number of a test group is the same as the number of the shelf that houses the test board to which the test group corresponds. The index of this table is hwTestGroupNo. " ::= { hwTestCommonMIBObjects 1 } hwTestGroupOprEntry OBJECT-TYPE SYNTAX HwTestGroupOprEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "Table of the test group: It provides the number of the test group to which a shelf of the device corresponds. It is uniquely identified by the number of the test group. Multiple shelves can share a test board. A test group corresponds to a test board. The number of a test group is the same as the number of the shelf that houses the test board to which the test group corresponds. The index of this entry is hwTestGroupNo. " INDEX { hwTestGroupNo } ::= { hwTestGroupOprTable 1 } HwTestGroupOprEntry ::= SEQUENCE { hwTestGroupNo Integer32, hwTestBoardIfIndex Integer32, hwTestGroupAssistIfIndex Integer32, hwTestGroupAssistTelNo OCTET STRING, hwTestGroupRowStatus RowStatus } hwTestGroupNo OBJECT-TYPE SYNTAX Integer32 (0..240) MAX-ACCESS not-accessible STATUS current DESCRIPTION "Test group number. The MD5500 supports the number that ranges from 0 to 240. The MA5100 supports the number that ranges from 0 to 4. The MA5300 supports the number that ranges from 0 to 63. " ::= { hwTestGroupOprEntry 1 } hwTestBoardIfIndex OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS read-create STATUS current DESCRIPTION "Test board IfIndex." ::= { hwTestGroupOprEntry 2 } hwTestGroupAssistIfIndex OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS read-create STATUS current DESCRIPTION "TestGroupAssist port IfIndex." ::= { hwTestGroupOprEntry 3 } hwTestGroupAssistTelNo OBJECT-TYPE SYNTAX OCTET STRING (SIZE (0..16)) MAX-ACCESS read-create STATUS current DESCRIPTION "Assistant telephone number. The maximum length is 16 Octets." ::= { hwTestGroupOprEntry 4 } hwTestGroupRowStatus OBJECT-TYPE SYNTAX RowStatus MAX-ACCESS read-create STATUS current DESCRIPTION "Present operation status of a row. Options: 1. active(1), -the present operation status of the row is active 2. notInService(2), -the present operation status of the row is notInService 3. notReady(3), -the present operation status of the row is notReady 4. createAndGo(4), -the present operation status of the row is createAndGo 5. createAndWait(5), -the present operation status of the row is createAndWait 6. destroy(6) -the present operation status of the row is destroy " ::= { hwTestGroupOprEntry 5 } hwLoopLineTestOprTable OBJECT-TYPE SYNTAX SEQUENCE OF HwLoopLineTestOprEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "This table is used for enabling a subscriber line test and obtaining the test result after a test is complete. The subscriber line test function can be used for obtaining the performance information about a subscriber line, such as capacity and resistance. Users can learn about the conditions of the line by comparing such information with standard data. The index of this table is ifindex. " ::= { hwTestCommonMIBObjects 2 } -- 1.3.6.1.4.1.2011.6.21.1.1.1.2.1 hwLoopLineTestOprEntry OBJECT-TYPE SYNTAX HwLoopLineTestOprEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "This table is used for enabling a subscriber line test and obtaining the test result after a test is complete. The subscriber line test function can be used for obtaining the performance information about a subscriber line, such as capacity and resistance. Users can learn about the conditions of the line by comparing such information with standard data. The index of this entry is ifindex. " INDEX { ifIndex } ::= { hwLoopLineTestOprTable 1 } HwLoopLineTestOprEntry ::= SEQUENCE { hwLoopLineTestOprType INTEGER, hwLoopLineTestVoltage INTEGER, hwLoopLineTestResistance INTEGER, hwLoopLineTestCapacitance INTEGER, hwLoopLineTestLoopResistance INTEGER, hwLoopLineTestPoleResistance INTEGER, hwLoopLineTestBusyProcFlag INTEGER, hwLoopLineTestStatus INTEGER, hwLoopLineTestConclusion INTEGER, hwLoopLineTestACAG Integer32, hwLoopLineTestACBG Integer32, hwLoopLineTestACAB Integer32, hwLoopLineTestDCAG Integer32, hwLoopLineTestDCBG Integer32, hwLoopLineTestDCAB Integer32, hwLoopLineTestRAG Integer32, hwLoopLineTestRBG Integer32, hwLoopLineTestRAB Integer32, hwLoopLineTestCapAG Integer32, hwLoopLineTestCapBG Integer32, hwLoopLineTestCapAB Integer32, hwLoopLineTestLR Integer32, hwLoopLineTestRABResPole Integer32, hwLoopLineTestMSocket INTEGER, hwLoopLineTestBtssPowerProcFlag INTEGER, hwLoopLineTestImpedance INTEGER, hwLoopLineTestImpedanceAB Integer32, hwLoopLineTestImpedanceBA Integer32, hwLoopLineTestImpedanceAG Integer32, hwLoopLineTestImpedanceBG Integer32, hwLoopLineTestCurrent INTEGER, hwLoopLineTestACCurrentAG Integer32, hwLoopLineTestACCurrentBG Integer32, hwLoopLineTestACCurrentAB Integer32, hwLoopLineTestDCCurrentAG Integer32, hwLoopLineTestDCCurrentBG Integer32, hwLoopLineTestDCCurrentAB Integer32, hwLoopLineTestLoopCurrent INTEGER, hwLoopLineTestLC Integer32, hwLoopLineTestNoise INTEGER, hwLoopLineTestN Integer32, hwLoopLineTestPPA INTEGER, hwLoopLineTestPPAResult INTEGER, hwLoopLineTestDeferredTime Integer32, hwLoopLineTestTimeoutProc INTEGER, hwLoopLineTestReverse Integer32, hwLoopLineTestUtgAcFreq Integer32, hwLoopLineTestUrgAcFreq Integer32, hwLoopLineTestUtrAcFreq Integer32, hwLoopLineTestItipAc Integer32, hwLoopLineTestIringAc Integer32, hwLoopLineTestItipDc Integer32, hwLoopLineTestIringDc Integer32, hwLoopLineTestRbattip Integer32, hwLoopLineTestRbatring Integer32, hwLoopLineTestRring Integer32, hwLoopLineTestCsig Integer32, hwLoopLineTestVzener Integer32, hwLoopLineTestRzener Integer32, hwLoopLineTestGtg Integer32, hwLoopLineTestBtg Integer32, hwLoopLineTestGrg Integer32, hwLoopLineTestBrg Integer32, hwLoopLineTestGtr Integer32, hwLoopLineTestBtr Integer32, hwLoopLineTestSIGN TruthValue, hwLoopLineTestACFEM TruthValue, hwLoopLineTestDCFEM TruthValue, hwLoopLineTestONHK TruthValue, hwLoopLineTestOPEN TruthValue, hwLoopLineTestSHORT TruthValue, hwLoopLineTestROH TruthValue, hwLoopLineTestUtgDcUp Integer32, hwLoopLineTestUtgDcDown Integer32, hwLoopLineTestUrgDcUp Integer32, hwLoopLineTestUrgDcDown Integer32, hwLoopLineTestUtrPos Integer32, hwLoopLineTestUtrNeg Integer32, hwLoopLineTestItgDcUp Integer32, hwLoopLineTestItgDcDown Integer32, hwLoopLineTestIrgDcUp Integer32, hwLoopLineTestIrgDcDown Integer32, hwLoopLineTestItrPos Integer32, hwLoopLineTestItrNeg Integer32, hwLoopLineTestRinger Integer32, hwLoopLineTestPPARes Integer32, hwLoopLineTestStartTime DateAndTime, hwLoopLineTestEndTime DateAndTime, hwLoopLineTestOprMeasuredFreq INTEGER, hwLoopLineTestIfIndex Integer32, hwLoopLineTestRequestID Integer32, hwLoopLineTestRABPole Integer32, hwLoopLineTestACAGFlag INTEGER, hwLoopLineTestACBGFlag INTEGER, hwLoopLineTestACABFlag INTEGER, hwLoopLineTestDCAGFlag INTEGER, hwLoopLineTestDCBGFlag INTEGER, hwLoopLineTestDCABFlag INTEGER, hwLoopLineTestRAGFlag INTEGER, hwLoopLineTestRBGFlag INTEGER, hwLoopLineTestRABFlag INTEGER, hwLoopLineTestRABPoleFlag INTEGER, hwLoopLineTestRABResPoleFlag INTEGER, hwLoopLineTestCapAGFlag INTEGER, hwLoopLineTestCapBGFlag INTEGER, hwLoopLineTestCapABFlag INTEGER, hwLoopLineTestRbattipFlag INTEGER, hwLoopLineTestRbatringFlag INTEGER, hwLoopLineTestRringFlag INTEGER, hwLoopLineTestCsigFlag INTEGER, hwLoopLineTestPPAResFlag INTEGER, hwLoopLineTestVzenerFlag INTEGER, hwLoopLineTestRzenerFlag INTEGER, hwLoopLineTestSNMPRab Integer32, hwLoopLineTestSNMPRabFlag INTEGER, hwLoopLineTestSNMPRba Integer32, hwLoopLineTestSNMPRbaFlag INTEGER, hwLoopLineTestPPAResultFlag INTEGER, hwLoopLineTestUtgAcFreqFlag INTEGER, hwLoopLineTestUrgAcFreqFlag INTEGER, hwLoopLineTestUtrAcFreqFlag INTEGER, hwLoopLineTestItipAcFlag INTEGER, hwLoopLineTestIringAcFlag INTEGER, hwLoopLineTestItipDcFlag INTEGER, hwLoopLineTestIringDcFlag INTEGER, hwLoopLineTestGtgFlag INTEGER, hwLoopLineTestBtgFlag INTEGER, hwLoopLineTestGrgFlag INTEGER, hwLoopLineTestBrgFlag INTEGER, hwLoopLineTestGtrFlag INTEGER, hwLoopLineTestBtrFlag INTEGER, hwLoopLineTestSIGNFlag INTEGER, hwLoopLineTestACFEMFlag INTEGER, hwLoopLineTestDCFEMFlag INTEGER, hwLoopLineTestONHKFlag INTEGER, hwLoopLineTestOPENFlag INTEGER, hwLoopLineTestSHORTFlag INTEGER, hwLoopLineTestROHFlag INTEGER, hwLoopLineTestUtgDcUpFlag INTEGER, hwLoopLineTestUtgDcDownFlag INTEGER, hwLoopLineTestUrgDcUpFlag INTEGER, hwLoopLineTestUrgDcDownFlag INTEGER, hwLoopLineTestUtrPosFlag INTEGER, hwLoopLineTestUtrNegFlag INTEGER, hwLoopLineTestItgDcUpFlag INTEGER, hwLoopLineTestItgDcDownFlag INTEGER, hwLoopLineTestIrgDcUpFlag INTEGER, hwLoopLineTestIrgDcDownFlag INTEGER, hwLoopLineTestItrPosFlag INTEGER, hwLoopLineTestItrNegFlag INTEGER, hwLoopLineTestRingerFlag INTEGER, hwLoopLineTestLRFlag INTEGER, hwLoopLineTestDcCurrent INTEGER, hwLoopLineTestAcCurrent INTEGER, hwLoopLineTestConductance INTEGER, hwLoopLineTestSusceptance INTEGER, hwLoopLineTestAcfrequencyA INTEGER, hwLoopLineTestAcfrequencyB INTEGER, hwLoopLineTestCapABH Integer32, hwLoopLineTestCapABHFlag INTEGER, hwLoopLineTestGtrH Integer32, hwLoopLineTestGtrHFlag INTEGER, hwLoopLineTestBtrH Integer32, hwLoopLineTestBtrHFlag INTEGER, hwLoopLineTestABDcCurrent Integer32, hwLoopLineTestABDcCurrentFlag INTEGER, hwLoopLineTestBADcCurrent Integer32, hwLoopLineTestBADcCurrentFlag INTEGER, hwLoopLineTestABAcCurrent Integer32, hwLoopLineTestABAcCurrentFlag INTEGER, hwLoopLineTestBAAcCurrent Integer32, hwLoopLineTestBAAcCurrentFlag INTEGER, hwLoopLineTestCSfrequencyForTest Integer32, hwLoopLineTestCSfrequencyForTestFlag INTEGER, hwLoopLineTestImpedanceForTest Integer32, hwLoopLineTestImpedanceForTestFlag INTEGER, hwLoopLineTestMaxVForSignature Integer32, hwLoopLineTestMaxVForSignatureFlag INTEGER, hwLoopLineTestAGMaxVForTest Integer32, hwLoopLineTestAGMaxVForTestFlag INTEGER, hwLoopLineTestAGMinVForTest Integer32, hwLoopLineTestAGMinVForTestFlag INTEGER, hwLoopLineTestBGMaxVForTest Integer32, hwLoopLineTestBGMaxVForTestFlag INTEGER, hwLoopLineTestBGMinVForTest Integer32, hwLoopLineTestBGMinVForTestFlag INTEGER, hwLoopLineTestABMaxVForTest Integer32, hwLoopLineTestABMaxVForTestFlag INTEGER, hwLoopLineTestABMinVForTest Integer32, hwLoopLineTestABMinVForTestFlag INTEGER, hwLoopLineTestAGMaxCForTest Integer32, hwLoopLineTestAGMaxCForTestFlag INTEGER, hwLoopLineTestAGMinCForTest Integer32, hwLoopLineTestAGMinCForTestFlag INTEGER, hwLoopLineTestBGMaxCForTest Integer32, hwLoopLineTestBGMaxCForTestFlag INTEGER, hwLoopLineTestBGMinCForTest Integer32, hwLoopLineTestBGMinCForTestFlag INTEGER, hwLoopLineTestABMaxCForTest Integer32, hwLoopLineTestABMaxCForTestFlag INTEGER, hwLoopLineTestABMaxNegCForTest Integer32, hwLoopLineTestABMaxNegCForTestFlag INTEGER , hwLoopLineTestLineALength Integer32, hwLoopLineTestLineBLength Integer32, hwLoopLineTestTermimalConcusion INTEGER , hwLoopLineTestMoreDataFlag INTEGER, hwLoopLineTestCtrLV Integer32, hwLoopLineTestCtrLVFlag INTEGER, hwLoopLineTestCtrHV Integer32, hwLoopLineTestCtrHVFlag INTEGER, hwLoopLineTestCtrAc Integer32, hwLoopLineTestCtrAcFlag INTEGER, hwLoopLineTestRtgSer Integer32, hwLoopLineTestRtgSerFlag INTEGER, hwLoopLineTestRrgSer Integer32, hwLoopLineTestRrgSerFlag INTEGER, hwLoopLineTestRtrSer Integer32, hwLoopLineTestRtrSerFlag INTEGER, hwLoopLineTestUtgAcAdmit Integer32, hwLoopLineTestUtgAcAdmitFlag INTEGER, hwLoopLineTestUrgAcAdmit Integer32, hwLoopLineTestUrgAcAdmitFlag INTEGER, hwLoopLineTestUtrAcAdmit Integer32, hwLoopLineTestUtrAcAdmitFlag INTEGER, hwLoopLineTestCapterminal INTEGER, hwLoopLineTestCapterminalFlag INTEGER } hwLoopLineTestOprType OBJECT-TYPE SYNTAX INTEGER { stop(1), start(2), invalid(-1) } MAX-ACCESS read-create STATUS current DESCRIPTION "MELT operation type Options: 1. stop(1) -stop a MELT test 2. start(2) -start a MELT test 3. invalid(-1) -invalid value " ::= { hwLoopLineTestOprEntry 1 } hwLoopLineTestVoltage OBJECT-TYPE SYNTAX INTEGER { notest(1), test(2), invalid(-1) } MAX-ACCESS read-create STATUS current DESCRIPTION "Indicates whether a voltage exists on the line under test. Options: 1. notest(1) -the voltage does not exist on the line under test 2. test(2) -the voltage exists on the line under test 3. invalid(-1) -invalid value Default: notest(1) " ::= { hwLoopLineTestOprEntry 2 } hwLoopLineTestResistance OBJECT-TYPE SYNTAX INTEGER { notest(1), test(2), invalid(-1) } MAX-ACCESS read-create STATUS current DESCRIPTION "Indicates whether resistance exists on the line under test. Options: 1. notest(1) -resistance does not exist on the line under test 2. test(2) -resistance exists on the line under test 3. invalid(-1) -invalid value Default: notest(1) " ::= { hwLoopLineTestOprEntry 3 } hwLoopLineTestCapacitance OBJECT-TYPE SYNTAX INTEGER { notest(1), test(2), invalid(-1) } MAX-ACCESS read-create STATUS current DESCRIPTION "Indicates whether capacitance exists on the line under test. Options: 1. notest(1) -capacitance does not exist on the line under test 2. test(2) -capacitance exists on the line under test 3. invalid(-1) -invalid value Default: notest(1) " ::= { hwLoopLineTestOprEntry 4 } hwLoopLineTestLoopResistance OBJECT-TYPE SYNTAX INTEGER { notest(1), test(2), invalid(-1) } MAX-ACCESS read-create STATUS current DESCRIPTION "Indicates whether loop resistance exists on the line under test. Options: 1. notest(1) -loop resistance does not exist on the line under test 2. test(2) -loop resistance exists on the line under test 3. invalid(-1) -invalid value Default: notest(1) " ::= { hwLoopLineTestOprEntry 5 } hwLoopLineTestPoleResistance OBJECT-TYPE SYNTAX INTEGER { notest(1), test(2), invalid(-1) } MAX-ACCESS read-create STATUS current DESCRIPTION "Indicates whether pole resistance exists on the line under test. Options: 1. notest(1) -Pole resistance does not exist on the line under test 2. test(2) -Pole resistance exists on the line under test 3. invalid(-1) -invalid value Default: notest(1) " ::= { hwLoopLineTestOprEntry 6 } hwLoopLineTestBusyProcFlag OBJECT-TYPE SYNTAX INTEGER { busyNoTest(1), busyTest(2), busystrenTest(3), deferredTest(4), invalid(-1) } MAX-ACCESS read-create STATUS current DESCRIPTION "Identify whether to start a test when the line is busy. The system will excecute a corresponding operation according to the configuration that a user specifies, for example, to cancel the test or to force to test. Options: 1. busyNoTest(1) -perform no test when a port is busy 2. busyTest(2) -perform a remedy test when a port is busy 3. busystrenTest(3) -force to test when a port is busy 4. deferredTest(4) -defer a test when a port is busy 5. invalid(-1) -invalid value Default: busyNoTest(1) If the value of this leaf is deferredTest(4), both hwLoopLineTestDeferredTime and hwLoopLineTestTimeoutProc must be set. " ::= { hwLoopLineTestOprEntry 7 } hwLoopLineTestStatus OBJECT-TYPE SYNTAX INTEGER { normal(1), testFail(2), portBusy(3), testOutOfTime(4), testingAbnormal(5), broadbandtesting(6), capturefail(7), notratb(8), testcanceled(9), invalid(-1), testNotSupport(10), meltChipFaulty(11), meltChipCheckInProcess(12) } MAX-ACCESS read-only STATUS current DESCRIPTION "Indicates the result of MELT test. Options: 1. normal(1) -the MELT test is successful 2. testFail(2) -the MELT test fails 3. portBusy(3) -the MELT test port is busy 4. testOutOfTime(4) -the MELT test times out 5. testingAbnormal(5) -the MELT test is abnormal 6. broadbandtesting(6) -the MELT test is broadbandtesting 7. capturefail(7) -the MELT test fails to capture 8. notratb(8) -the relay transfer board of the MELT test does not exist 9. testcanceled(9) -the MELT test is canceled 10. invalid(-1) -invalid value 11. testNotSupport(10) -the MELT test is not support 12. meltChipFaulty(11) -the MELT chip is faulty 13. meltChipCheckInProcess(12)-the MELT chip status check is in process " ::= { hwLoopLineTestOprEntry 8 } hwLoopLineTestConclusion OBJECT-TYPE SYNTAX INTEGER { normal(1), meetLine(2), aLineMix(3), bLineMix(4), doubleMix(5), aLineEarth(6), bLineEarth(7), doublelineearth(8), selfMix(9), abLine(10), aLineFree(11), bLineEarthFree(12), doubleLineEarthFree(13), abLineFree(14), killLine(15), noPutDownTele(16), unknow(17), selfMixinMDF(18), selfMixoutMDF(19), cutLineinMDF(20), cutLineoutMDF(21), dCvoltagePowerFeed(30), aCvoltageRinging(31), dCvoltageOffhook(32), dCvoltage(33), aCvoltage(34), abImpedance(35), baImpedance(36), agImpedance(37), bgImpedance(38), agACCurrent(39), bgACCurrent(41), abACCurrent(42), agDCCurrent(43), bgDCCurrent(44), abDCCurrent(45), loopCurrent(46), noise(47), abRFaultId(91), aRFaultId(92), bRFaultId(93), abLeakId(94), aLeakId(95), bLeakId(96), abFvacLevelH(97), aFvacLevelH(98), bFvacLevelH(99), abFvacLevelI(100), aFvacLevelI(101), bFvacLevelI(102), abFvacLevelO(103), aFvacLevelO(104), bFvacLevelO(105), abFvDcLevelH(106), aFvDcLevelH(107), bFvDcLevelH(108), abFvDcLevelI(109), aFvDcLevelI(110), bFvDcLevelI(111), abFvDcLevelO(112), aFvDcLevelO(113), bFvDcLevelO(114), fesIdPPA(115), fesIdPPAInv(116), fesId2PPA(117), fesId2PPAInv(118), etsiXdslSignature(119), fetIdEr(120), abreak(121), bbreak(122), abreakInMDF(123), bbreakInMDF(124), abreakOutMDF(125), bbreakOutMDF(126), invalid(-1) } MAX-ACCESS read-only STATUS current DESCRIPTION "MELT test conclusion, this object is for pots and combo board's port. Options: 1. normal(1) -the test conclusion is normal 2. meetLine(2) -the test conclusion is meetLine 3. aLineMix(3) -the test conclusion is aLineMix 4. bLineMix(4) -the test conclusion is bLineMix 5. doubleMix(5) -the test conclusion is doubleMix 6. aLineEarth(6) -the test conclusion is aLineEarth 7. bLineEarth(7) -the test conclusion is bLineEarth 8. doublelineearth(8) -the test conclusion is doublelineearth 9. selfMix(9) -the test conclusion is selfMix 10. abLine(10) -the test conclusion is abLine 11. aLineFree(11) -the test conclusion is aLineFree 12. bLineEarthFree(12) -the test conclusion is bLineEarthFree 13. doubleLineEarthFree(13) -the test conclusion is doubleLineEarthFree 14. abLineFree(14) -the test conclusion is abLineFree 15. killLine(15) -the test conclusion is killLine 16. noPutDownTele(16) -the test conclusion is noPutDownTele 17. unknow(17) -the test conclusion is unknow 18. selfMixinMDF(18) -the test conclusion is selfMixinMDF 19. selfMixoutMDF(19) -the test conclusion is selfMixoutMDF 20. cutLineinMDF(20) -the test conclusion is cutLineinMDF 21. cutLineoutMDF(21) -the test conclusion is cutLineoutMDF 22. dCvoltagePowerFeed(30) -the test conclusion is dCvoltagePowerFeed 23. aCvoltageRinging(31) -the test conclusion is aCvoltageRinging 24. dCvoltageOffhook(32) -the test conclusion is dCvoltageOffhook 25. dCvoltage(33) -the test conclusion is dCvoltage 26. aCvoltage(34) -the test conclusion is aCvoltage 27. abImpedance(35) -the test conclusion is abImpedance 28. baImpedance(36) -the test conclusion is baImpedance 29. agImpedance(37) -the test conclusion is agImpedance 30. bgImpedance(38) -the test conclusion is bgImpedance 31. agACCurrent(39) -the test conclusion is agACCurrent 32. bgACCurrent(41) -the test conclusion is bgACCurrent 33. abACCurrent(42) -the test conclusion is abACCurrent 34. agDCCurrent(43) -the test conclusion is agDCCurrent 35. bgDCCurrent(44) -the test conclusion is bgDCCurrent 36. abDCCurrent(45) -the test conclusion is abDCCurrent 37. loopCurrent(46) -the test conclusion is loopCurrent 38. noise(47) -the test conclusion is noise 39. abRFaultId(91) -the test conslusion is ab Line all fault 40. aRFaultId(92) -the test conslusion is a Line fault 41. bRFaultId(93) -the test conslusion is b Line fault 42. abLeakId(94) -the test conslusion is ab Line all leak 43. aLeakId(95) -the test conslusion is a Line leak 44. bLeakId(96) -the test conslusion is b line leak 45. abFvacLevelH(97) -the test conslusion is ab dangerous AC to ground 46. aFvacLevelH(98) -the test conslusion is a dangerous AC to ground 47. bFvacLevelH(99) -the test conslusion is b dangerous AC to ground 48. abFvacLevelI(100) -the test conslusion is ab EMF AC to ground 49. aFvacLevelI(101) -the test conslusion is a EMF AC to ground 50. bFvacLevelI(102) -the test conslusion is b EMF AC to ground 51. abFvacLevelO(103) -the test conslusion is ab other dangerous AC to ground 52. aFvacLevelO(104) -the test conslusion is a other dangerous AC to ground 53. bFvacLevelO(105) -the test conslusion is b other dangerous AC to ground 54. abFvDcLevelH(106) -the test conslusion is ab dangerous DC to ground 55. aFvDcLevelH(107) -the test conslusion is a dangerous DC to ground 56. bFvDcLevelH(108) -the test conslusion is b dangerous DC to ground 57. abFvDcLevelI(109) -the test conslusion is ab EMF DC to ground 58. aFvDcLevelI(110) -the test conslusion is a EMF DC to ground 59. bFvDcLevelI(111) -the test conslusion is b EMF DC to ground 60. abFvDcLevelO(112) -the test conslusion is ab other dangerous DC to ground 61. aFvDcLevelO(113) -the test conslusion is a other dangerous DC to ground 62. bFvDcLevelO(114) -the test conslusion is b other dangerous DC to ground 63. fesIdPPA(115) -the test conslusion is ab PPA 64. fesIdPPAInv(116) -the test conslusion is ab reverse PPA 65. fesId2PPA(117) -the test conslusion is ab two PPA 66. fesId2PPAInv(118) -the test conslusion is ab two reverse PPA 67. etsiXdslSignature(119) -the test conslusion is ETSI XDSL Signature 68. fetIdEr(120) -the test conslusion is exist electronic ring terminal 69. abreak(121) -the test conslusion is a line break 70. bbreak(122) -the test conslusion is b line break 71. abreakInMDF(123) -the test conslusion is a line break InMDF 72. bbreakInMDF(124) -the test conslusion is b line break InMDF 73. abreakOutMDF(125) -the test conslusion is a line break OutMDF 74. bbreakOutMDF(126) -the test conslusion is b line break OutMDF 75. invalid(-1) -the test conclusion is invalid " ::= { hwLoopLineTestOprEntry 9 } hwLoopLineTestACAG OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS read-only STATUS current DESCRIPTION "Indicates the A->ground AC voltage. Unit: mV " ::= { hwLoopLineTestOprEntry 10 } hwLoopLineTestACBG OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS read-only STATUS current DESCRIPTION "Indicates the B->ground AC voltage. Unit: mV " ::= { hwLoopLineTestOprEntry 11 } hwLoopLineTestACAB OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS read-only STATUS current DESCRIPTION "Indicates the A->B AC voltage. Unit: mV " ::= { hwLoopLineTestOprEntry 12 } hwLoopLineTestDCAG OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS read-only STATUS current DESCRIPTION "Indicates the A->ground DC voltage. Unit: mV " ::= { hwLoopLineTestOprEntry 13 } hwLoopLineTestDCBG OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS read-only STATUS current DESCRIPTION "Indicates the B->ground DC voltage. Unit: mV " ::= { hwLoopLineTestOprEntry 14 } hwLoopLineTestDCAB OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS read-only STATUS current DESCRIPTION "Indicates the A->B DC voltage. Unit: mV " ::= { hwLoopLineTestOprEntry 15 } hwLoopLineTestRAG OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS read-only STATUS current DESCRIPTION "Indicates the A->ground insulation resistance. Unit: ohm " ::= { hwLoopLineTestOprEntry 16 } hwLoopLineTestRBG OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS read-only STATUS current DESCRIPTION "Indicates the B->ground insulation resistance. Unit: ohm " ::= { hwLoopLineTestOprEntry 17 } hwLoopLineTestRAB OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS read-only STATUS current DESCRIPTION "Indicates the A->B insulation resistance. Unit: ohm " ::= { hwLoopLineTestOprEntry 18 } hwLoopLineTestCapAG OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS read-only STATUS current DESCRIPTION "Indicates the A->ground capacitance. Unit: nF " ::= { hwLoopLineTestOprEntry 19 } hwLoopLineTestCapBG OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS read-only STATUS current DESCRIPTION "Indicates the B->ground capacitance. Unit: nF " ::= { hwLoopLineTestOprEntry 20 } hwLoopLineTestCapAB OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS read-only STATUS current DESCRIPTION "Indicates the A->B capacitance. Unit: nF " ::= { hwLoopLineTestOprEntry 21 } hwLoopLineTestLR OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS read-only STATUS current DESCRIPTION "Indicates the loop resistance. Unit: ohm " ::= { hwLoopLineTestOprEntry 22 } hwLoopLineTestRABResPole OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS read-only STATUS current DESCRIPTION "Indicates the A->B polarity reversal resistance. Unit: ohm " ::= { hwLoopLineTestOprEntry 23 } hwLoopLineTestMSocket OBJECT-TYPE SYNTAX INTEGER { notconnected(1), connected(2), aBReversed(3) } MAX-ACCESS read-only STATUS current DESCRIPTION "Indicates the M-socket connection. Options: 1. notconnected(1) -the M-socket is not connected 2. connected(2) -the M-socket is connected 3. aBReversed(3) -the wire A and wire B are reversed " ::= { hwLoopLineTestOprEntry 24 } hwLoopLineTestBtssPowerProcFlag OBJECT-TYPE SYNTAX INTEGER { noTest(1), test(2), invalid(-1) } MAX-ACCESS read-create STATUS current DESCRIPTION "Loop line test-BTSS line with power processing. Options: 1. noTest(1) -not test 2. test(2) -test 3. invalid(-1) -invalid value " ::= { hwLoopLineTestOprEntry 25 } hwLoopLineTestImpedance OBJECT-TYPE SYNTAX INTEGER { notest(1), test(2) } MAX-ACCESS read-create STATUS current DESCRIPTION "Loop line test-impedance. Options: 1. notest(1) -not test 2. test(2) -test " ::= { hwLoopLineTestOprEntry 26 } hwLoopLineTestImpedanceAB OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS read-only STATUS current DESCRIPTION "A->B impedance (unit: ohm) " ::= { hwLoopLineTestOprEntry 27 } hwLoopLineTestImpedanceBA OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS read-only STATUS current DESCRIPTION "B->A impedance (unit: ohm) " ::= { hwLoopLineTestOprEntry 28 } hwLoopLineTestImpedanceAG OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS read-only STATUS current DESCRIPTION "A->ground impedance (unit: ohm) " ::= { hwLoopLineTestOprEntry 29 } hwLoopLineTestImpedanceBG OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS read-only STATUS current DESCRIPTION "B->ground impedance (unit: ohm) " ::= { hwLoopLineTestOprEntry 30 } hwLoopLineTestCurrent OBJECT-TYPE SYNTAX INTEGER { notest(1), test(2) } MAX-ACCESS read-create STATUS current DESCRIPTION "Loop line test-current. Options: 1. notest(1) -not test 2. test(2) -test " ::= { hwLoopLineTestOprEntry 31 } hwLoopLineTestACCurrentAG OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS read-only STATUS current DESCRIPTION "A->ground AC current (unit: mA) " ::= { hwLoopLineTestOprEntry 32 } hwLoopLineTestACCurrentBG OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS read-only STATUS current DESCRIPTION "B->ground AC current (unit: mA) " ::= { hwLoopLineTestOprEntry 33 } hwLoopLineTestACCurrentAB OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS read-only STATUS current DESCRIPTION "AB AC current (unit: mA) " ::= { hwLoopLineTestOprEntry 34 } hwLoopLineTestDCCurrentAG OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS read-only STATUS current DESCRIPTION "A->ground DC current (unit: mA) " ::= { hwLoopLineTestOprEntry 35 } hwLoopLineTestDCCurrentBG OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS read-only STATUS current DESCRIPTION "B->ground DC current (unit: mA) " ::= { hwLoopLineTestOprEntry 36 } hwLoopLineTestDCCurrentAB OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS read-only STATUS current DESCRIPTION "AB DC current (unit: mA) " ::= { hwLoopLineTestOprEntry 37 } hwLoopLineTestLoopCurrent OBJECT-TYPE SYNTAX INTEGER { notest(1), test(2) } MAX-ACCESS read-create STATUS current DESCRIPTION "Loop line test-loop current. Options: 1. notest(1) -not test 2. test(2) -test " ::= { hwLoopLineTestOprEntry 38 } hwLoopLineTestLC OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS read-only STATUS current DESCRIPTION "Loop current (unit: uA) " ::= { hwLoopLineTestOprEntry 39 } hwLoopLineTestNoise OBJECT-TYPE SYNTAX INTEGER { notest(1), test(2) } MAX-ACCESS read-create STATUS current DESCRIPTION "Loop line test-noise. Options: 1. notest(1) -not test 2. test(2) -test " ::= { hwLoopLineTestOprEntry 40 } hwLoopLineTestN OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS read-only STATUS current DESCRIPTION "Noise (unit: dBm) " ::= { hwLoopLineTestOprEntry 41 } hwLoopLineTestPPA OBJECT-TYPE SYNTAX INTEGER { notest(1), test(2), invalid(-1) } MAX-ACCESS read-create STATUS current DESCRIPTION "Indicates whether PPA exists on the line under test. Options: 1. notest(1) -PPA does not exist on the line under test 2. test(2) -PPA exists on the line under test 3. invalid(-1) -invalid value Default: notest(1) " ::= { hwLoopLineTestOprEntry 42 } hwLoopLineTestPPAResult OBJECT-TYPE SYNTAX INTEGER { noexist(1), exist(2), inverseexist(3), invalid(-1) } MAX-ACCESS read-only STATUS current DESCRIPTION "Indicates whether the PPA exists. Options: 1. noexist(1) -PPA does not exist 2. exist(2) -PPA exists 3. inverseexist(3) -PPA inverse exists 4. invalid(-1) -invalid value " ::= { hwLoopLineTestOprEntry 43 } hwLoopLineTestDeferredTime OBJECT-TYPE SYNTAX Integer32(-1 | 1..1440) MAX-ACCESS read-create STATUS current DESCRIPTION "Indicates the deferred time. Unit: minute This leaf is valid only when the value of hwLoopLineTestBusyProcFlag is DeferredTest(4). Default: 30 " DEFVAL { 30 } ::= { hwLoopLineTestOprEntry 44 } hwLoopLineTestTimeoutProc OBJECT-TYPE SYNTAX INTEGER { notest(1), test(2), invalid(-1) } MAX-ACCESS read-create STATUS current DESCRIPTION "Indicates the timeout processing. Options: 1. notest(1) -if the deferred time times out and the port is still busy the test will be canceled 2. test(2) -if the deferred time times out and the port is still busy the test will be forcedly started 3. invalid(-1) -invalid value This leaf is valid only when the value of hwLoopLineTestBusyProcFlag is DeferredTest(4). " DEFVAL { 1 } ::= { hwLoopLineTestOprEntry 45 } hwLoopLineTestReverse OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS read-create STATUS current DESCRIPTION "Reverse flag (0:normal test 1:reverse test) " ::= { hwLoopLineTestOprEntry 46 } hwLoopLineTestUtgAcFreq OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS read-only STATUS current DESCRIPTION "Frequency of foreign AC voltage source coupled to tip via Zbat_tip impedance. Unit: Hz " ::= { hwLoopLineTestOprEntry 47 } hwLoopLineTestUrgAcFreq OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS read-only STATUS current DESCRIPTION "Frequency of foreign AC voltage source coupled to ring via Zbat_ring impedance. Unit:Hz " ::= { hwLoopLineTestOprEntry 48 } hwLoopLineTestUtrAcFreq OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS read-only STATUS current DESCRIPTION "Frequency of foreign AC voltage source coupled to tip-ring via Zbat_tipring impedance. Unit:Hz " ::= { hwLoopLineTestOprEntry 49 } hwLoopLineTestItipAc OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS read-only STATUS current DESCRIPTION "AC foreign current on the tip wire. Unit:uA " ::= { hwLoopLineTestOprEntry 50 } hwLoopLineTestIringAc OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS read-only STATUS current DESCRIPTION "AC foreign current on the ring wire. Unit:uA " ::= { hwLoopLineTestOprEntry 51 } hwLoopLineTestItipDc OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS read-only STATUS current DESCRIPTION "DC foreign current on the tip wire. Unit:uA " ::= { hwLoopLineTestOprEntry 52 } hwLoopLineTestIringDc OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS read-only STATUS current DESCRIPTION "DC foreign current on the ring wire. Unit:uA " ::= { hwLoopLineTestOprEntry 53 } hwLoopLineTestRbattip OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS read-only STATUS current DESCRIPTION "In presence of a foreign voltage, the equivalent coupling resistance of wire A. Unit:ohm " ::= { hwLoopLineTestOprEntry 54 } hwLoopLineTestRbatring OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS read-only STATUS current DESCRIPTION "In presence of a foreign voltage, the equivalent coupling resistance of wire B. Unit:ohm " ::= { hwLoopLineTestOprEntry 55 } hwLoopLineTestRring OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS read-only STATUS current DESCRIPTION "Resistance in series with the ring capacitance, for example when a ringer load or a passive R-C signature terminates the loop. It also includes the cable resistance R line but it does not include the 24 kohm feeding resistance. Unit: ohm " ::= { hwLoopLineTestOprEntry 56 } hwLoopLineTestCsig OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS read-only STATUS current DESCRIPTION "Capacitance of an xDSL signal. Unit: nF " ::= { hwLoopLineTestOprEntry 57 } hwLoopLineTestVzener OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS read-only STATUS current DESCRIPTION "Zener diode threshold in the case of an off-hook phone. Unit: mV " ::= { hwLoopLineTestOprEntry 58 } hwLoopLineTestRzener OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS read-only STATUS current DESCRIPTION "DC tip-ring resistance measured in the case of an off-hook phone. Unit: ohm " ::= { hwLoopLineTestOprEntry 59 } hwLoopLineTestGtg OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS read-only STATUS current DESCRIPTION "Aggregate a->ground conductance. Unit: nS " ::= { hwLoopLineTestOprEntry 60 } hwLoopLineTestBtg OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS read-only STATUS current DESCRIPTION "Aggregate a->ground susceptance. Unit: nS " ::= { hwLoopLineTestOprEntry 61 } hwLoopLineTestGrg OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS read-only STATUS current DESCRIPTION "Aggregate b->ground conductance. Unit: nS " ::= { hwLoopLineTestOprEntry 62 } hwLoopLineTestBrg OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS read-only STATUS current DESCRIPTION "Aggregate b->ground susceptance. Unit: nS " ::= { hwLoopLineTestOprEntry 63 } hwLoopLineTestGtr OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS read-only STATUS current DESCRIPTION "Aggregate a->b conductance. Unit: nS " ::= { hwLoopLineTestOprEntry 64 } hwLoopLineTestBtr OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS read-only STATUS current DESCRIPTION "Aggregate a->b susceptance. Unit: nS " ::= { hwLoopLineTestOprEntry 65 } hwLoopLineTestSIGN OBJECT-TYPE SYNTAX TruthValue MAX-ACCESS read-only STATUS current DESCRIPTION "Indicates the ETSI xDSL Signature is detected or not. " ::= { hwLoopLineTestOprEntry 66 } hwLoopLineTestACFEM OBJECT-TYPE SYNTAX TruthValue MAX-ACCESS read-only STATUS current DESCRIPTION "Indicates the presence of an AC foreign voltage above the threshold defined by ACFEMmin. By reading the results of the foreign voltage test, it is possible to determine whether the foreign electromotive force source has been coupled to tip, ring or differentially between tip-ring. " ::= { hwLoopLineTestOprEntry 67 } hwLoopLineTestDCFEM OBJECT-TYPE SYNTAX TruthValue MAX-ACCESS read-only STATUS current DESCRIPTION "Indicates the presence of a DC foreign voltage above the threshold defined by DCFEMmin. By reading the results of the foreign voltage test, it is possible to determine whether the foreign electromotive force source has been coupled to tip, ring or differentially between tip-ring. " ::= { hwLoopLineTestOprEntry 68 } hwLoopLineTestONHK OBJECT-TYPE SYNTAX TruthValue MAX-ACCESS read-only STATUS current DESCRIPTION "Indicates the presens of a phone in the on-hook state. " ::= { hwLoopLineTestOprEntry 69 } hwLoopLineTestOPEN OBJECT-TYPE SYNTAX TruthValue MAX-ACCESS read-only STATUS current DESCRIPTION "Indicates a->b resistance exceeds the threshold. " ::= { hwLoopLineTestOprEntry 70 } hwLoopLineTestSHORT OBJECT-TYPE SYNTAX TruthValue MAX-ACCESS read-only STATUS current DESCRIPTION "Indicates that the insulation resistance is small. " ::= { hwLoopLineTestOprEntry 71 } hwLoopLineTestROH OBJECT-TYPE SYNTAX TruthValue MAX-ACCESS read-only STATUS current DESCRIPTION "Indicates a phone in the off-hook state. " ::= { hwLoopLineTestOprEntry 72 } hwLoopLineTestUtgDcUp OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS read-only STATUS current DESCRIPTION "Indicates the a->ground highest measurement DC voltage. Unit: mV " ::= { hwLoopLineTestOprEntry 73 } hwLoopLineTestUtgDcDown OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS read-only STATUS current DESCRIPTION "Indicates the a->ground lowest measurement DC voltage. Unit: mV " ::= { hwLoopLineTestOprEntry 74 } hwLoopLineTestUrgDcUp OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS read-only STATUS current DESCRIPTION "Indicates the b->ground highest measurement DC voltage. Unit: mV " ::= { hwLoopLineTestOprEntry 75 } hwLoopLineTestUrgDcDown OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS read-only STATUS current DESCRIPTION "Indicates the b->ground lowest measurement DC voltage. Unit: mV " ::= { hwLoopLineTestOprEntry 76 } hwLoopLineTestUtrPos OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS read-only STATUS current DESCRIPTION "Indicates the a->b positive measurement DC voltage. Unit: mV " ::= { hwLoopLineTestOprEntry 77 } hwLoopLineTestUtrNeg OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS read-only STATUS current DESCRIPTION "Indicates the b->a measurement DC voltage. Unit: mV " ::= { hwLoopLineTestOprEntry 78 } hwLoopLineTestItgDcUp OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS read-only STATUS current DESCRIPTION "Indicates the current mapping the A-wire highest voltage for test. Unit: uA " ::= { hwLoopLineTestOprEntry 79 } hwLoopLineTestItgDcDown OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS read-only STATUS current DESCRIPTION "Indicates the current mapping the A-wire lowest voltage for test. Unit: uA " ::= { hwLoopLineTestOprEntry 80 } hwLoopLineTestIrgDcUp OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS read-only STATUS current DESCRIPTION "Indicates the current mapping the B-wire highest voltage for test. Unit: uA " ::= { hwLoopLineTestOprEntry 81 } hwLoopLineTestIrgDcDown OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS read-only STATUS current DESCRIPTION "Indicates the current mapping the B-wire lowest voltage for test. Unit: uA " ::= { hwLoopLineTestOprEntry 82 } hwLoopLineTestItrPos OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS read-only STATUS current DESCRIPTION "Indicates the current mapping the A->B positive voltage for test. Unit: uA " ::= { hwLoopLineTestOprEntry 83 } hwLoopLineTestItrNeg OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS read-only STATUS current DESCRIPTION "Indicates the current mapping the A->B negative voltage for test. Unit: uA " ::= { hwLoopLineTestOprEntry 84 } hwLoopLineTestRinger OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS read-only STATUS current DESCRIPTION "Indicates the detected ringer. " ::= { hwLoopLineTestOprEntry 85 } hwLoopLineTestPPARes OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS read-only STATUS current DESCRIPTION "Indicates the resistance of PPA. Unit: ohm " ::= { hwLoopLineTestOprEntry 86 } hwLoopLineTestStartTime OBJECT-TYPE SYNTAX DateAndTime MAX-ACCESS read-only STATUS current DESCRIPTION "Indicates the start time and date of the MELT test. " ::= { hwLoopLineTestOprEntry 87 } hwLoopLineTestEndTime OBJECT-TYPE SYNTAX DateAndTime MAX-ACCESS read-only STATUS current DESCRIPTION "Indicates the end time and date of the MELT test. " ::= { hwLoopLineTestOprEntry 88 } hwLoopLineTestOprMeasuredFreq OBJECT-TYPE SYNTAX INTEGER { frequency25Hz(0), frequency275Hz(1), invalid(-1) } MAX-ACCESS read-write STATUS current DESCRIPTION "Indicates the measured frequency for complex impedance. Options: 1. frequency25Hz(0) -25 Hz 2. frequency275Hz(1) -275 Hz 3. invalid(-1) -invalid value Default: frequency25Hz(0) " ::= { hwLoopLineTestOprEntry 89 } hwLoopLineTestIfIndex OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS read-only STATUS current DESCRIPTION "Port IfIndex." ::= { hwLoopLineTestOprEntry 90 } hwLoopLineTestRequestID OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS read-only STATUS current DESCRIPTION "Request ID. The value is the fourth parameter in the trap message. " ::= { hwLoopLineTestOprEntry 91 } hwLoopLineTestRABPole OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS read-only STATUS current DESCRIPTION "Indicates the A->B polarity resistance. Unit: ohm" ::= { hwLoopLineTestOprEntry 92 } hwLoopLineTestACAGFlag OBJECT-TYPE SYNTAX INTEGER { valid(1), invalid(2), notsupport(3) } MAX-ACCESS read-only STATUS current DESCRIPTION "Indicates whether the value of hwLoopLineTestACAG is valid. Options: 1. valid(1) -the value of hwLoopLineTestACAG is valid 2. invalid(2) -the value of hwLoopLineTestACAG is invalid 3. notsupport(3) -the value of hwLoopLineTestACAG is not support " ::= { hwLoopLineTestOprEntry 93 } hwLoopLineTestACBGFlag OBJECT-TYPE SYNTAX INTEGER { valid(1), invalid(2), notsupport(3) } MAX-ACCESS read-only STATUS current DESCRIPTION "Indicates whether the value of hwLoopLineTestACBG is valid. Options: 1. valid(1) -the value of hwLoopLineTestACBG is valid 2. invalid(2) -the value of hwLoopLineTestACBG is invalid 3. notsupport(3) -the value of hwLoopLineTestACBG is not support " ::= { hwLoopLineTestOprEntry 94 } hwLoopLineTestACABFlag OBJECT-TYPE SYNTAX INTEGER { valid(1), invalid(2), notsupport(3) } MAX-ACCESS read-only STATUS current DESCRIPTION "Indicates whether the value of hwLoopLineTestACAB is valid. Options: 1. valid(1) -the value of hwLoopLineTestACAB is valid 2. invalid(2) -the value of hwLoopLineTestACAB is invalid 3. notsupport(3) -the value of hwLoopLineTestACAB is not support " ::= { hwLoopLineTestOprEntry 95 } hwLoopLineTestDCAGFlag OBJECT-TYPE SYNTAX INTEGER { valid(1), invalid(2), notsupport(3) } MAX-ACCESS read-only STATUS current DESCRIPTION "Indicates whether the value of hwLoopLineTestDCAG is valid. Options: 1. valid(1) -the value of hwLoopLineTestDCAG is valid 2. invalid(2) -the value of hwLoopLineTestDCAG is invalid 3. notsupport(3) -the value of hwLoopLineTestDCAG is not support " ::= { hwLoopLineTestOprEntry 96 } hwLoopLineTestDCBGFlag OBJECT-TYPE SYNTAX INTEGER { valid(1), invalid(2), notsupport(3) } MAX-ACCESS read-only STATUS current DESCRIPTION "Indicates whether the value of hwLoopLineTestDCBG is valid. Options: 1. valid(1) -the value of hwLoopLineTestDCBG is valid 2. invalid(2) -the value of hwLoopLineTestDCBG is invalid 3. notsupport(3) -the value of hwLoopLineTestDCBG is not support " ::= { hwLoopLineTestOprEntry 97 } hwLoopLineTestDCABFlag OBJECT-TYPE SYNTAX INTEGER { valid(1), invalid(2), notsupport(3) } MAX-ACCESS read-only STATUS current DESCRIPTION "Indicates whether the value of hwLoopLineTestDCAB is valid. Options: 1. valid(1) -the value of hwLoopLineTestDCAB is valid 2. invalid(2) -the value of hwLoopLineTestDCAB is invalid 3. notsupport(3) -the value of hwLoopLineTestDCAB is not support " ::= { hwLoopLineTestOprEntry 98 } hwLoopLineTestRAGFlag OBJECT-TYPE SYNTAX INTEGER { valid(1), invalid(2), notsupport(3) } MAX-ACCESS read-only STATUS current DESCRIPTION "Indicates whether the value of hwLoopLineTestRAG is valid. Options: 1. valid(1) -the value of hwLoopLineTestRAG is valid 2. invalid(2) -the value of hwLoopLineTestRAG is invalid 3. notsupport(3) -the value of hwLoopLineTestRAG is not support " ::= { hwLoopLineTestOprEntry 99 } hwLoopLineTestRBGFlag OBJECT-TYPE SYNTAX INTEGER { valid(1), invalid(2), notsupport(3) } MAX-ACCESS read-only STATUS current DESCRIPTION "Indicates whether the value of hwLoopLineTestRBG is valid. Options: 1. valid(1) -the value of hwLoopLineTestRBG is valid 2. invalid(2) -the value of hwLoopLineTestRBG is invalid 3. notsupport(3) -the value of hwLoopLineTestRBG is not support " ::= { hwLoopLineTestOprEntry 100 } hwLoopLineTestRABFlag OBJECT-TYPE SYNTAX INTEGER { valid(1), invalid(2), notsupport(3) } MAX-ACCESS read-only STATUS current DESCRIPTION "Indicates whether the value of hwLoopLineTestRAB is valid. Options: 1. valid(1) -the value of hwLoopLineTestRAB is valid 2. invalid(2) -the value of hwLoopLineTestRAB is invalid 3. notsupport(3) -the value of hwLoopLineTestRAB is not support " ::= { hwLoopLineTestOprEntry 101 } hwLoopLineTestRABPoleFlag OBJECT-TYPE SYNTAX INTEGER { valid(1), invalid(2), notsupport(3) } MAX-ACCESS read-only STATUS current DESCRIPTION "Indicates whether the value of hwLoopLineTestRABPole is valid. Options: 1. valid(1) -the value of hwLoopLineTestRABPole is valid 2. invalid(2) -the value of hwLoopLineTestRABPole is invalid 3. notsupport(3) -the value of hwLoopLineTestRABPole is not support " ::= { hwLoopLineTestOprEntry 102 } hwLoopLineTestRABResPoleFlag OBJECT-TYPE SYNTAX INTEGER { valid(1), invalid(2), notsupport(3) } MAX-ACCESS read-only STATUS current DESCRIPTION "Indicates whether the value of hwLoopLineTestRABResPole is valid. Options: 1. valid(1) -the value of hwLoopLineTestRABResPole is valid 2. invalid(2) -the value of hwLoopLineTestRABResPole is invalid 3. notsupport(3) -the value of hwLoopLineTestRABResPole is not support " ::= { hwLoopLineTestOprEntry 103 } hwLoopLineTestCapAGFlag OBJECT-TYPE SYNTAX INTEGER { valid(1), invalid(2), notsupport(3) } MAX-ACCESS read-only STATUS current DESCRIPTION "Indicates whether the value of hwLoopLineTestCapAG is valid. Options: 1. valid(1) -the value of hwLoopLineTestCapAG is valid 2. invalid(2) -the value of hwLoopLineTestCapAG is invalid 3. notsupport(3) -the value of hwLoopLineTestCapAG is not support " ::= { hwLoopLineTestOprEntry 104 } hwLoopLineTestCapBGFlag OBJECT-TYPE SYNTAX INTEGER { valid(1), invalid(2), notsupport(3) } MAX-ACCESS read-only STATUS current DESCRIPTION "Indicates whether the value of hwLoopLineTestCapBG is valid. Options: 1. valid(1) -the value of hwLoopLineTestCapBG is valid 2. invalid(2) -the value of hwLoopLineTestCapBG is invalid 3. notsupport(3) -the value of hwLoopLineTestCapBG is not support " ::= { hwLoopLineTestOprEntry 105 } hwLoopLineTestCapABFlag OBJECT-TYPE SYNTAX INTEGER { valid(1), invalid(2), notsupport(3) } MAX-ACCESS read-only STATUS current DESCRIPTION "Indicates whether the value of hwLoopLineTestCapAB is valid. Options: 1. valid(1) -the value of hwLoopLineTestCapAB is valid 2. invalid(2) -the value of hwLoopLineTestCapAB is invalid 3. notsupport(3) -the value of hwLoopLineTestCapAB is not support " ::= { hwLoopLineTestOprEntry 106 } hwLoopLineTestRbattipFlag OBJECT-TYPE SYNTAX INTEGER { valid(1), invalid(2) } MAX-ACCESS read-only STATUS current DESCRIPTION "Indicates whether the value of hwLoopLineTestRbattip is valid. Options: 1. valid(1) -the value of hwLoopLineTestRbattip is valid 2. invalid(2) -the value of hwLoopLineTestRbattip is invalid " ::= { hwLoopLineTestOprEntry 107 } hwLoopLineTestRbatringFlag OBJECT-TYPE SYNTAX INTEGER { valid(1), invalid(2) } MAX-ACCESS read-only STATUS current DESCRIPTION "Indicates whether the value of hwLoopLineTestRbatring is valid. Options: 1. valid(1) -the value of hwLoopLineTestRbatring is valid 2. invalid(2) -the value of hwLoopLineTestRbatring is invalid " ::= { hwLoopLineTestOprEntry 108 } hwLoopLineTestRringFlag OBJECT-TYPE SYNTAX INTEGER { valid(1), invalid(2) } MAX-ACCESS read-only STATUS current DESCRIPTION "Indicates whether the value of hwLoopLineTestRring is valid. Options: 1. valid(1) -the value of hwLoopLineTestRring is valid 2. invalid(2) -the value of hwLoopLineTestRring is invalid " ::= { hwLoopLineTestOprEntry 109 } hwLoopLineTestCsigFlag OBJECT-TYPE SYNTAX INTEGER { valid(1), invalid(2) } MAX-ACCESS read-only STATUS current DESCRIPTION "Indicates whether the value of hwLoopLineTestCsig is valid. Options: 1. valid(1) -the value of hwLoopLineTestCsig is valid 2. invalid(2) -the value of hwLoopLineTestCsig is invalid " ::= { hwLoopLineTestOprEntry 110 } hwLoopLineTestPPAResFlag OBJECT-TYPE SYNTAX INTEGER { valid(1), invalid(2) } MAX-ACCESS read-only STATUS current DESCRIPTION "Indicates whether the value of hwLoopLineTestPPARes is valid. Options: 1. valid(1) -the value of hwLoopLineTestPPARes is valid 2. invalid(2) -the value of hwLoopLineTestPPARes is invalid " ::= { hwLoopLineTestOprEntry 111 } hwLoopLineTestVzenerFlag OBJECT-TYPE SYNTAX INTEGER { valid(1), invalid(2) } MAX-ACCESS read-only STATUS current DESCRIPTION "Indicates whether the value of hwLoopLineTestVzener is valid. Options: 1. valid(1) -the value of hwLoopLineTestVzener is valid 2. invalid(2) -the value of hwLoopLineTestVzener is invalid " ::= { hwLoopLineTestOprEntry 112 } hwLoopLineTestRzenerFlag OBJECT-TYPE SYNTAX INTEGER { valid(1), invalid(2) } MAX-ACCESS read-only STATUS current DESCRIPTION "Indicates whether the value of hwLoopLineTestRzener is valid. Options: 1. valid(1) -the value of hwLoopLineTestRzener is valid 2. invalid(2) -the value of hwLoopLineTestRzener is invalid " ::= { hwLoopLineTestOprEntry 113 } hwLoopLineTestSNMPRab OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS read-only STATUS current DESCRIPTION "Indicates the A to B resistance (insulation resistance). Unit: ohm " ::= { hwLoopLineTestOprEntry 114 } hwLoopLineTestSNMPRabFlag OBJECT-TYPE SYNTAX INTEGER { valid(1), invalid(2) } MAX-ACCESS read-only STATUS current DESCRIPTION "Indicates whether the value of hwLoopLineTestSNMPRab is valid. Options: 1. valid(1) -the value of hwLoopLineTestSNMPRab is valid 2. invalid(2) -the value of hwLoopLineTestSNMPRab is invalid " ::= { hwLoopLineTestOprEntry 115 } hwLoopLineTestSNMPRba OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS read-only STATUS current DESCRIPTION "Indicates the B to A resistance (insulation resistance). Unit: ohm " ::= { hwLoopLineTestOprEntry 116 } hwLoopLineTestSNMPRbaFlag OBJECT-TYPE SYNTAX INTEGER { valid(1), invalid(2) } MAX-ACCESS read-only STATUS current DESCRIPTION "Indicates whether the value of hwLoopLineTestSNMPRba is valid. Options: 1. valid(1) -the value of hwLoopLineTestSNMPRba is valid 2. invalid(2) -the value of hwLoopLineTestSNMPRba is invalid " ::= { hwLoopLineTestOprEntry 117 } hwLoopLineTestPPAResultFlag OBJECT-TYPE SYNTAX INTEGER { valid(1), invalid(2) } MAX-ACCESS read-only STATUS current DESCRIPTION "Indicates whether the value of hwLoopLineTestPPA is valid. Options: 1. valid(1) -the value of hwLoopLineTestPPA is valid 2. invalid(2) -the value of hwLoopLineTestPPA is invalid " ::= { hwLoopLineTestOprEntry 118 } hwLoopLineTestUtgAcFreqFlag OBJECT-TYPE SYNTAX INTEGER { valid(1), invalid(2), notsupport(3) } MAX-ACCESS read-only STATUS current DESCRIPTION "Indicates whether the value of hwLoopLineTestUtgAcFreq is valid. Options: 1. valid(1) -the value of hwLoopLineTestUtgAcFreq is valid 2. invalid(2) -the value of hwLoopLineTestUtgAcFreq is invalid 3. notsupport(3) -the value of hwLoopLineTestUtgAcFreq is not support " ::= { hwLoopLineTestOprEntry 119 } hwLoopLineTestUrgAcFreqFlag OBJECT-TYPE SYNTAX INTEGER { valid(1), invalid(2), notsupport(3) } MAX-ACCESS read-only STATUS current DESCRIPTION "Indicates whether the value of hwLoopLineTestUrgAcFreq is valid. Options: 1. valid(1) -the value of hwLoopLineTestUrgAcFreq is valid 2. invalid(2) -the value of hwLoopLineTestUrgAcFreq is invalid 3. notsupport(3) -the value of hwLoopLineTestUrgAcFreq is not support " ::= { hwLoopLineTestOprEntry 120 } hwLoopLineTestUtrAcFreqFlag OBJECT-TYPE SYNTAX INTEGER { valid(1), invalid(2), notsupport(3) } MAX-ACCESS read-only STATUS current DESCRIPTION "Indicates whether the value of hwLoopLineTestUtrAcFreq is valid. Options: 1. valid(1) -the value of hwLoopLineTestUtrAcFreq is valid 2. invalid(2) -the value of hwLoopLineTestUtrAcFreq is invalid 3. notsupport(3) -the value of hwLoopLineTestUtrAcFreq is not support " ::= { hwLoopLineTestOprEntry 121 } hwLoopLineTestItipAcFlag OBJECT-TYPE SYNTAX INTEGER { valid(1), invalid(2), notsupport(3) } MAX-ACCESS read-only STATUS current DESCRIPTION "Indicates whether the value of hwLoopLineTestItipAc is valid. Options: 1. valid(1) -the value of hwLoopLineTestItipAc is valid 2. invalid(2) -the value of hwLoopLineTestItipAc is invalid 3. notsupport(3) -the value of hwLoopLineTestItipAc is not support " ::= { hwLoopLineTestOprEntry 122 } hwLoopLineTestIringAcFlag OBJECT-TYPE SYNTAX INTEGER { valid(1), invalid(2), notsupport(3) } MAX-ACCESS read-only STATUS current DESCRIPTION "Indicates whether the value of hwLoopLineTestIringAc is valid. Options: 1. valid(1) -the value of hwLoopLineTestIringAc is valid 2. invalid(2) -the value of hwLoopLineTestIringAc is invalid 3. notsupport(3) -the value of hwLoopLineTestIringAc is not support " ::= { hwLoopLineTestOprEntry 123 } hwLoopLineTestItipDcFlag OBJECT-TYPE SYNTAX INTEGER { valid(1), invalid(2), notsupport(3) } MAX-ACCESS read-only STATUS current DESCRIPTION "Indicates whether the value of hwLoopLineTestItipDc is valid. Options: 1. valid(1) -the value of hwLoopLineTestItipDc is valid 2. invalid(2) -the value of hwLoopLineTestItipDc is invalid 3. notsupport(3) -the value of hwLoopLineTestItipDc is not support " ::= { hwLoopLineTestOprEntry 124 } hwLoopLineTestIringDcFlag OBJECT-TYPE SYNTAX INTEGER { valid(1), invalid(2), notsupport(3) } MAX-ACCESS read-only STATUS current DESCRIPTION "Indicates whether the value of hwLoopLineTestIringDc is valid. Options: 1. valid(1) -the value of hwLoopLineTestIringDc is valid 2. invalid(2) -the value of hwLoopLineTestIringDc is invalid 3. notsupport(3) -the value of hwLoopLineTestIringDc is not support " ::= { hwLoopLineTestOprEntry 125 } hwLoopLineTestGtgFlag OBJECT-TYPE SYNTAX INTEGER { valid(1), invalid(2), notsupport(3) } MAX-ACCESS read-only STATUS current DESCRIPTION "Indicates whether the value of hwLoopLineTestGtg is valid. Options: 1. valid(1) -the value of hwLoopLineTestGtg is valid 2. invalid(2) -the value of hwLoopLineTestGtg is invalid 3. notsupport(3) -the value of hwLoopLineTestGtg is not support " ::= { hwLoopLineTestOprEntry 126 } hwLoopLineTestBtgFlag OBJECT-TYPE SYNTAX INTEGER { valid(1), invalid(2), notsupport(3) } MAX-ACCESS read-only STATUS current DESCRIPTION "Indicates whether the value of hwLoopLineTestBtg is valid. Options: 1. valid(1) -the value of hwLoopLineTestBtg is valid 2. invalid(2) -the value of hwLoopLineTestBtg is invalid 3. notsupport(3) -the value of hwLoopLineTestBtg is not support " ::= { hwLoopLineTestOprEntry 127 } hwLoopLineTestGrgFlag OBJECT-TYPE SYNTAX INTEGER { valid(1), invalid(2), notsupport(3) } MAX-ACCESS read-only STATUS current DESCRIPTION "Indicates whether the value of hwLoopLineTestGrg is valid. Options: 1. valid(1) -the value of hwLoopLineTestGrg is valid 2. invalid(2) -the value of hwLoopLineTestGrg is invalid 3. notsupport(3) -the value of hwLoopLineTestGrg is not support " ::= { hwLoopLineTestOprEntry 128 } hwLoopLineTestBrgFlag OBJECT-TYPE SYNTAX INTEGER { valid(1), invalid(2), notsupport(3) } MAX-ACCESS read-only STATUS current DESCRIPTION "Indicates whether the value of hwLoopLineTestBrg is valid. Options: 1. valid(1) -the value of hwLoopLineTestBrg is valid 2. invalid(2) -the value of hwLoopLineTestBrg is invalid 3. notsupport(3) -the value of hwLoopLineTestBrg is not support " ::= { hwLoopLineTestOprEntry 129 } hwLoopLineTestGtrFlag OBJECT-TYPE SYNTAX INTEGER { valid(1), invalid(2), notsupport(3) } MAX-ACCESS read-only STATUS current DESCRIPTION "Indicates whether the value of hwLoopLineTestGtr is valid. Options: 1. valid(1) -the value of hwLoopLineTestGtr is valid 2. invalid(2) -the value of hwLoopLineTestGtr is invalid 3. notsupport(3) -the value of hwLoopLineTestGtr is not support " ::= { hwLoopLineTestOprEntry 130 } hwLoopLineTestBtrFlag OBJECT-TYPE SYNTAX INTEGER { valid(1), invalid(2) } MAX-ACCESS read-only STATUS current DESCRIPTION "Indicates whether the value of hwLoopLineTestBtr is valid. Options: 1. valid(1) -the value of hwLoopLineTestBtr is valid 2. invalid(2) -the value of hwLoopLineTestBtr is invalid " ::= { hwLoopLineTestOprEntry 131 } hwLoopLineTestSIGNFlag OBJECT-TYPE SYNTAX INTEGER { valid(1), invalid(2) } MAX-ACCESS read-only STATUS current DESCRIPTION "Indicates whether the value of hwLoopLineTestSIGN is valid. Options: 1. valid(1) -the value of hwLoopLineTestSIGN is valid 2. invalid(2) -the value of hwLoopLineTestSIGN is invalid " ::= { hwLoopLineTestOprEntry 132 } hwLoopLineTestACFEMFlag OBJECT-TYPE SYNTAX INTEGER { valid(1), invalid(2) } MAX-ACCESS read-only STATUS current DESCRIPTION "Indicates whether the value of hwLoopLineTestACFEM is valid. Options: 1. valid(1) -the value of hwLoopLineTestACFEM is valid 2. invalid(2) -the value of hwLoopLineTestACFEM is invalid " ::= { hwLoopLineTestOprEntry 133 } hwLoopLineTestDCFEMFlag OBJECT-TYPE SYNTAX INTEGER { valid(1), invalid(2) } MAX-ACCESS read-only STATUS current DESCRIPTION "Indicates whether the value of hwLoopLineTestDCFEM is valid. Options: 1. valid(1) -the value of hwLoopLineTestDCFEM is valid 2. invalid(2) -the value of hwLoopLineTestDCFEM is invalid " ::= { hwLoopLineTestOprEntry 134 } hwLoopLineTestONHKFlag OBJECT-TYPE SYNTAX INTEGER { valid(1), invalid(2) } MAX-ACCESS read-only STATUS current DESCRIPTION "Indicates whether the value of hwLoopLineTestONHK is valid. Options: 1. valid(1) -the value of hwLoopLineTestONHK is valid 2. invalid(2) -the value of hwLoopLineTestONHK is invalid " ::= { hwLoopLineTestOprEntry 135 } hwLoopLineTestOPENFlag OBJECT-TYPE SYNTAX INTEGER { valid(1), invalid(2) } MAX-ACCESS read-only STATUS current DESCRIPTION "Indicates whether the value of hwLoopLineTestOPEN is valid. Options: 1. valid(1) -the value of hwLoopLineTestOPEN is valid 2. invalid(2) -the value of hwLoopLineTestOPEN is invalid " ::= { hwLoopLineTestOprEntry 136 } hwLoopLineTestSHORTFlag OBJECT-TYPE SYNTAX INTEGER { valid(1), invalid(2) } MAX-ACCESS read-only STATUS current DESCRIPTION "Indicates whether the value of hwLoopLineTestSHORT is valid. Options: 1. valid(1) -the value of hwLoopLineTestSHORT is valid 2. invalid(2) -the value of hwLoopLineTestSHORT is invalid " ::= { hwLoopLineTestOprEntry 137 } hwLoopLineTestROHFlag OBJECT-TYPE SYNTAX INTEGER { valid(1), invalid(2) } MAX-ACCESS read-only STATUS current DESCRIPTION "Indicates whether the value of hwLoopLineTestROH is valid. Options: 1. valid(1) -the value of hwLoopLineTestROH is valid 2. invalid(2) -the value of hwLoopLineTestROH is invalid " ::= { hwLoopLineTestOprEntry 138 } hwLoopLineTestUtgDcUpFlag OBJECT-TYPE SYNTAX INTEGER { valid(1), invalid(2) } MAX-ACCESS read-only STATUS current DESCRIPTION "Indicates whether the value of hwLoopLineTestUtgDcUp is valid. Options: 1. valid(1) -the value of hwLoopLineTestUtgDcUp is valid 2. invalid(2) -the value of hwLoopLineTestUtgDcUp is invalid " ::= { hwLoopLineTestOprEntry 139 } hwLoopLineTestUtgDcDownFlag OBJECT-TYPE SYNTAX INTEGER { valid(1), invalid(2) } MAX-ACCESS read-only STATUS current DESCRIPTION "Indicates whether the value of hwLoopLineTestUtgDcDown is valid. Options: 1. valid(1) -the value of hwLoopLineTestUtgDcDown is valid 2. invalid(2) -the value of hwLoopLineTestUtgDcDown is invalid " ::= { hwLoopLineTestOprEntry 140 } hwLoopLineTestUrgDcUpFlag OBJECT-TYPE SYNTAX INTEGER { valid(1), invalid(2) } MAX-ACCESS read-only STATUS current DESCRIPTION "Indicates whether the value of hwLoopLineTestUrgDcUp is valid. Options: 1. valid(1) -the value of hwLoopLineTestUrgDcUp is valid 2. invalid(2) -the value of hwLoopLineTestUrgDcUp is invalid " ::= { hwLoopLineTestOprEntry 141 } hwLoopLineTestUrgDcDownFlag OBJECT-TYPE SYNTAX INTEGER { valid(1), invalid(2) } MAX-ACCESS read-only STATUS current DESCRIPTION "Indicates whether the value of hwLoopLineTestUrgDcDown is valid. Options: 1. valid(1) -the value of hwLoopLineTestUrgDcDown is valid 2. invalid(2) -the value of hwLoopLineTestUrgDcDown is invalid " ::= { hwLoopLineTestOprEntry 142 } hwLoopLineTestUtrPosFlag OBJECT-TYPE SYNTAX INTEGER { valid(1), invalid(2) } MAX-ACCESS read-only STATUS current DESCRIPTION "Indicates whether the value of hwLoopLineTestUtrPos is valid. Options: 1. valid(1) -the value of hwLoopLineTestUtrPos is valid 2. invalid(2) -the value of hwLoopLineTestUtrPos is invalid " ::= { hwLoopLineTestOprEntry 143 } hwLoopLineTestUtrNegFlag OBJECT-TYPE SYNTAX INTEGER { valid(1), invalid(2) } MAX-ACCESS read-only STATUS current DESCRIPTION "Indicates whether the value of hwLoopLineTestUtrNeg is valid. Options: 1. valid(1) -the value of hwLoopLineTestUtrNeg is valid 2. invalid(2) -the value of hwLoopLineTestUtrNeg is invalid " ::= { hwLoopLineTestOprEntry 144 } hwLoopLineTestItgDcUpFlag OBJECT-TYPE SYNTAX INTEGER { valid(1), invalid(2) } MAX-ACCESS read-only STATUS current DESCRIPTION "Indicates whether the value of hwLoopLineTestItgDcUp is valid. Options: 1. valid(1) -the value of hwLoopLineTestItgDcUp is valid 2. invalid(2) -the value of hwLoopLineTestItgDcUp is invalid " ::= { hwLoopLineTestOprEntry 145 } hwLoopLineTestItgDcDownFlag OBJECT-TYPE SYNTAX INTEGER { valid(1), invalid(2) } MAX-ACCESS read-only STATUS current DESCRIPTION "Indicates whether the value of hwLoopLineTestItgDcDown is valid. Options: 1. valid(1) -the value of hwLoopLineTestItgDcDown is valid 2. invalid(2) -the value of hwLoopLineTestItgDcDown is invalid " ::= { hwLoopLineTestOprEntry 146 } hwLoopLineTestIrgDcUpFlag OBJECT-TYPE SYNTAX INTEGER { valid(1), invalid(2) } MAX-ACCESS read-only STATUS current DESCRIPTION "Indicates whether the value of hwLoopLineTestIrgDcUp is valid. Options: 1. valid(1) -the value of hwLoopLineTestIrgDcUp is valid 2. invalid(2) -the value of hwLoopLineTestIrgDcUp is invalid " ::= { hwLoopLineTestOprEntry 147 } hwLoopLineTestIrgDcDownFlag OBJECT-TYPE SYNTAX INTEGER { valid(1), invalid(2) } MAX-ACCESS read-only STATUS current DESCRIPTION "Indicates whether the value of hwLoopLineTestIrgDcDown is valid. Options: 1. valid(1) -the value of hwLoopLineTestIrgDcDown is valid 2. invalid(2) -the value of hwLoopLineTestIrgDcDown is invalid " ::= { hwLoopLineTestOprEntry 148 } hwLoopLineTestItrPosFlag OBJECT-TYPE SYNTAX INTEGER { valid(1), invalid(2) } MAX-ACCESS read-only STATUS current DESCRIPTION "Indicates whether the value of hwLoopLineTestItrPos is valid. Options: 1. valid(1) -the value of hwLoopLineTestItrPos is valid 2. invalid(2) -the value of hwLoopLineTestItrPos is invalid " ::= { hwLoopLineTestOprEntry 149 } hwLoopLineTestItrNegFlag OBJECT-TYPE SYNTAX INTEGER { valid(1), invalid(2) } MAX-ACCESS read-only STATUS current DESCRIPTION "Indicates whether the value of hwLoopLineTestItrNeg is valid. Options: 1. valid(1) -the value of hwLoopLineTestItrNeg is valid 2. invalid(2) -the value of hwLoopLineTestItrNeg is invalid " ::= { hwLoopLineTestOprEntry 150 } hwLoopLineTestRingerFlag OBJECT-TYPE SYNTAX INTEGER { valid(1), invalid(2) } MAX-ACCESS read-only STATUS current DESCRIPTION "Indicates whether the value of hwLoopLineTestRinger is valid. Options: 1. valid(1) -the value of hwLoopLineTestRinger is valid 2. invalid(2) -the value of hwLoopLineTestRinger is invalid " ::= { hwLoopLineTestOprEntry 151 } hwLoopLineTestLRFlag OBJECT-TYPE SYNTAX INTEGER { valid(1), invalid(2), notsupport(3) } MAX-ACCESS read-only STATUS current DESCRIPTION "Indicates whether the value of hwLoopLineTestLR is valid. Options: 1. valid(1) -the value of hwLoopLineTestLR is valid 2. invalid(2) -the value of hwLoopLineTestLR is invalid 3. notsupport(3) -the value of hwLoopLineTestLR is not support " ::= { hwLoopLineTestOprEntry 152 } hwLoopLineTestDcCurrent OBJECT-TYPE SYNTAX INTEGER { notest(1), test(2), invalid(-1) } MAX-ACCESS read-create STATUS current DESCRIPTION "Indicates whether DcCurrent exists on the line under test. Options: 1. notest(1) -DcCurrent does not exist on the line under test 2. test(2) -DcCurrent exists on the line under test 3. invalid(-1) -invalid value Default: notest(1) " ::= { hwLoopLineTestOprEntry 153 } hwLoopLineTestAcCurrent OBJECT-TYPE SYNTAX INTEGER { notest(1), test(2), invalid(-1) } MAX-ACCESS read-create STATUS current DESCRIPTION "Indicates whether AcCurrent exists on the line under test. Options: 1. notest(1) -AcCurrent does not exist on the line under test 2. test(2) -AcCurrent exists on the line under test 3. invalid(-1) -invalid value Default: notest(1) " ::= { hwLoopLineTestOprEntry 154 } hwLoopLineTestConductance OBJECT-TYPE SYNTAX INTEGER { notest(1), test(2), invalid(-1) } MAX-ACCESS read-create STATUS current DESCRIPTION "Indicates whether conductance exists on the line under test. Options: 1. notest(1) -Conductance does not exist on the line under test 2. test(2) -Conductance exists on the line under test 3. invalid(-1) -invalid value Default: notest(1) " ::= { hwLoopLineTestOprEntry 155 } hwLoopLineTestSusceptance OBJECT-TYPE SYNTAX INTEGER { notest(1), test(2), invalid(-1) } MAX-ACCESS read-create STATUS current DESCRIPTION "Indicates whether susceptance exists on the line under test. Options: 1. notest(1) -Susceptance does not exist on the line under test 2. test(2) -Susceptance exists on the line under test 3. invalid(-1) -invalid value Default: notest(1) " ::= { hwLoopLineTestOprEntry 156 } hwLoopLineTestAcfrequencyA OBJECT-TYPE SYNTAX INTEGER { sixteenDotSix(1), twentyFive(2), fifty(3), sixty(4), unknown(5), invalid(-1) } MAX-ACCESS read-only STATUS current DESCRIPTION "Indicates status of Acfrequency in line A. Options: 1. sixteenDotSix(1) -line A has ACFrequency 16.6 2. twentyFive(2) -line A has ACFrequency 25 3. fifty(3) -line A has ACFrequency 50 4. sixty(4) -line A has ACFrequency 60 5. unknown(5) -line A has unknown ACFrequency 6. invalid(-1) -invalid value Unit: Hz " ::= { hwLoopLineTestOprEntry 157 } hwLoopLineTestAcfrequencyB OBJECT-TYPE SYNTAX INTEGER { sixteenDotSix(1), twentyFive(2), fifty(3), sixty(4), unknown(5), invalid(-1) } MAX-ACCESS read-only STATUS current DESCRIPTION "Indicates status of Acfrequency in line A. Options: 1. sixteenDotSix(1) -line A has ACFrequency 16.6 2. twentyFive(2) -line A has ACFrequency 25 3. fifty(3) -line A has ACFrequency 50 4. sixty(4) -line A has ACFrequency 60 5. unknown(5) -line A has unknown ACFrequency 6. invalid(-1) -invalid value Unit: Hz " ::= { hwLoopLineTestOprEntry 158 } hwLoopLineTestCapABH OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS read-only STATUS current DESCRIPTION "Indicates the A->B capacitance. Unit: nF " ::= { hwLoopLineTestOprEntry 159 } hwLoopLineTestCapABHFlag OBJECT-TYPE SYNTAX INTEGER { valid(1), invalid(2), notsupport(3) } MAX-ACCESS read-only STATUS current DESCRIPTION "Indicates whether the value of hwLoopLineTestCapABH is valid. Options: 1. valid(1) -the value of hwLoopLineTestCapABH is valid 2. invalid(2) -the value of hwLoopLineTestCapABH is invalid 3. notsupport(3) -the value of hwLoopLineTestCapABH is not support " ::= { hwLoopLineTestOprEntry 160 } hwLoopLineTestGtrH OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS read-only STATUS current DESCRIPTION "Indicates the A->B conductance. Unit: nS " ::= { hwLoopLineTestOprEntry 161 } hwLoopLineTestGtrHFlag OBJECT-TYPE SYNTAX INTEGER { valid(1), invalid(2), notsupport(3) } MAX-ACCESS read-only STATUS current DESCRIPTION "Indicates whether the value of hwLoopLineTestGtrH is valid. Options: 1. valid(1) -the value of hwLoopLineTestGtrH is valid 2. invalid(2) -the value of hwLoopLineTestGtrH is invalid 3. notsupport(3) -the value of hwLoopLineTestGtrH is not support " ::= { hwLoopLineTestOprEntry 162 } hwLoopLineTestBtrH OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS read-only STATUS current DESCRIPTION "Indicates the A->B susceptance. Unit: nS " ::= { hwLoopLineTestOprEntry 163 } hwLoopLineTestBtrHFlag OBJECT-TYPE SYNTAX INTEGER { valid(1), invalid(2), notsupport(3) } MAX-ACCESS read-only STATUS current DESCRIPTION "Indicates whether the value of hwLoopLineTestBtrH is valid. Options: 1. valid(1) -the value of hwLoopLineTestBtrH is valid 2. invalid(2) -the value of hwLoopLineTestBtrH is invalid 3. notsupport(3) -the value of hwLoopLineTestBtrH is not support " ::= { hwLoopLineTestOprEntry 164 } hwLoopLineTestABDcCurrent OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS read-only STATUS current DESCRIPTION "Indicates the A->B Dc current. Unit: uA " ::= { hwLoopLineTestOprEntry 165 } hwLoopLineTestABDcCurrentFlag OBJECT-TYPE SYNTAX INTEGER { valid(1), invalid(2), notsupport(3) } MAX-ACCESS read-only STATUS current DESCRIPTION "Indicates whether the value of hwLoopLineTestABDcCurrent is valid. Options: 1. valid(1) -the value of hwLoopLineTestABDcCurrent is valid 2. invalid(2) -the value of hwLoopLineTestABDcCurrent is invalid 3. notsupport(3) -the value of hwLoopLineTestABDcCurrent is not support " ::= { hwLoopLineTestOprEntry 166 } hwLoopLineTestBADcCurrent OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS read-only STATUS current DESCRIPTION "Indicates the B->A Dc current. Unit: uA " ::= { hwLoopLineTestOprEntry 167 } hwLoopLineTestBADcCurrentFlag OBJECT-TYPE SYNTAX INTEGER { valid(1), invalid(2), notsupport(3) } MAX-ACCESS read-only STATUS current DESCRIPTION "Indicates whether the value of hwLoopLineTestBADcCurrent is valid. Options: 1. valid(1) -the value of hwLoopLineTestBADcCurrent is valid 2. invalid(2) -the value of hwLoopLineTestBADcCurrent is invalid 3. notsupport(3) -the value of hwLoopLineTestBADcCurrent is not support " ::= { hwLoopLineTestOprEntry 168 } hwLoopLineTestABAcCurrent OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS read-only STATUS current DESCRIPTION "Indicates the A->B Ac current. Unit: uArms " ::= { hwLoopLineTestOprEntry 169 } hwLoopLineTestABAcCurrentFlag OBJECT-TYPE SYNTAX INTEGER { valid(1), invalid(2), notsupport(3) } MAX-ACCESS read-only STATUS current DESCRIPTION "Indicates whether the value of hwLoopLineTestABAcCurrent is valid. Options: 1. valid(1) -the value of hwLoopLineTestABAcCurrent is valid 2. invalid(2) -the value of hwLoopLineTestABAcCurrent is invalid 3. notsupport(3) -the value of hwLoopLineTestABAcCurrent is not support " ::= { hwLoopLineTestOprEntry 170 } hwLoopLineTestBAAcCurrent OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS read-only STATUS current DESCRIPTION "Indicates the B->A Ac current. Unit: uArms " ::= { hwLoopLineTestOprEntry 171 } hwLoopLineTestBAAcCurrentFlag OBJECT-TYPE SYNTAX INTEGER { valid(1), invalid(2), notsupport(3) } MAX-ACCESS read-only STATUS current DESCRIPTION "Indicates whether the value of hwLoopLineTestBAAcCurrent is valid. Options: 1. valid(1) -the value of hwLoopLineTestBAAcCurrent is valid 2. invalid(2) -the value of hwLoopLineTestBAAcCurrent is invalid 3. notsupport(3) -the value of hwLoopLineTestBAAcCurrent is not support " ::= { hwLoopLineTestOprEntry 172 } hwLoopLineTestCSfrequencyForTest OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS read-only STATUS current DESCRIPTION "Indicates the frequency for test capacitance and conductance. Unit: Hz " ::= { hwLoopLineTestOprEntry 173 } hwLoopLineTestCSfrequencyForTestFlag OBJECT-TYPE SYNTAX INTEGER { valid(1), invalid(2), notsupport(3) } MAX-ACCESS read-only STATUS current DESCRIPTION "Indicates whether the value of hwLoopLineTestCSfrequencyForTest is valid. Options: 1. valid(1) -the value of hwLoopLineTestCSfrequencyForTest is valid 2. invalid(2) -the value of hwLoopLineTestCSfrequencyForTest is invalid 3. notsupport(3) -the value of hwLoopLineTestCSfrequencyForTest is not support " ::= { hwLoopLineTestOprEntry 174 } hwLoopLineTestImpedanceForTest OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS read-only STATUS current DESCRIPTION "Indicates the resistance inputed in test abnormal voltage. Unit: ohm " ::= { hwLoopLineTestOprEntry 175 } hwLoopLineTestImpedanceForTestFlag OBJECT-TYPE SYNTAX INTEGER { valid(1), invalid(2), notsupport(3) } MAX-ACCESS read-only STATUS current DESCRIPTION "Indicates whether the value of hwLoopLineTestImpedanceForTest is valid. Options: 1. valid(1) -the value of hwLoopLineTestImpedanceForTest is valid 2. invalid(2) -the value of hwLoopLineTestImpedanceForTest is invalid 3. notsupport(3) -the value of hwLoopLineTestImpedanceForTest is not support " ::= { hwLoopLineTestOprEntry 176 } hwLoopLineTestMaxVForSignature OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS read-only STATUS current DESCRIPTION "Indicates the maximum voltage for signature. Unit: mV " ::= { hwLoopLineTestOprEntry 177 } hwLoopLineTestMaxVForSignatureFlag OBJECT-TYPE SYNTAX INTEGER { valid(1), invalid(2), notsupport(3) } MAX-ACCESS read-only STATUS current DESCRIPTION "Indicates whether the value of hwLoopLineTestMaxVForSignature is valid. Options: 1. valid(1) -the value of hwLoopLineTestMaxVForSignature is valid 2. invalid(2) -the value of hwLoopLineTestMaxVForSignature is invalid 3. notsupport(3) -the value of hwLoopLineTestMaxVForSignature is not support " ::= { hwLoopLineTestOprEntry 178 } hwLoopLineTestAGMaxVForTest OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS read-only STATUS current DESCRIPTION "Indicates the A->ground max voltage in testing. Unit: mV " ::= { hwLoopLineTestOprEntry 179 } hwLoopLineTestAGMaxVForTestFlag OBJECT-TYPE SYNTAX INTEGER { valid(1), invalid(2), notsupport(3) } MAX-ACCESS read-only STATUS current DESCRIPTION "Indicates whether the value of hwLoopLineTestAGMaxVForTest is valid. Options: 1. valid(1) -the value of hwLoopLineTestAGMaxVForTest is valid 2. invalid(2) -the value of hwLoopLineTestAGMaxVForTest is invalid 3. notsupport(3) -the value of hwLoopLineTestAGMaxVForTest is not support " ::= { hwLoopLineTestOprEntry 180 } hwLoopLineTestAGMinVForTest OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS read-only STATUS current DESCRIPTION "Indicates the A->ground min voltage in testing. Unit: mV " ::= { hwLoopLineTestOprEntry 181 } hwLoopLineTestAGMinVForTestFlag OBJECT-TYPE SYNTAX INTEGER { valid(1), invalid(2), notsupport(3) } MAX-ACCESS read-only STATUS current DESCRIPTION "Indicates whether the value of hwLoopLineTestAGMinVForTest is valid. Options: 1. valid(1) -the value of hwLoopLineTestAGMinVForTest is valid 2. invalid(2) -the value of hwLoopLineTestAGMinVForTest is invalid 3. notsupport(3) -the value of hwLoopLineTestAGMinVForTest is not support " ::= { hwLoopLineTestOprEntry 182 } hwLoopLineTestBGMaxVForTest OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS read-only STATUS current DESCRIPTION "Indicates the B->ground max voltage in testing. Unit: mV " ::= { hwLoopLineTestOprEntry 183 } hwLoopLineTestBGMaxVForTestFlag OBJECT-TYPE SYNTAX INTEGER { valid(1), invalid(2), notsupport(3) } MAX-ACCESS read-only STATUS current DESCRIPTION "Indicates whether the value of hwLoopLineTestBGMaxVForTest is valid. Options: 1. valid(1) -the value of hwLoopLineTestBGMaxVForTest is valid 2. invalid(2) -the value of hwLoopLineTestBGMaxVForTest is invalid 3. notsupport(3) -the value of hwLoopLineTestBGMaxVForTest is not support " ::= { hwLoopLineTestOprEntry 184 } hwLoopLineTestBGMinVForTest OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS read-only STATUS current DESCRIPTION "Indicates the B->ground min voltage in testing. Unit: mV " ::= { hwLoopLineTestOprEntry 185 } hwLoopLineTestBGMinVForTestFlag OBJECT-TYPE SYNTAX INTEGER { valid(1), invalid(2), notsupport(3) } MAX-ACCESS read-only STATUS current DESCRIPTION "Indicates whether the value of hwLoopLineTestBGMinVForTest is valid. Options: 1. valid(1) -the value of hwLoopLineTestBGMinVForTest is valid 2. invalid(2) -the value of hwLoopLineTestBGMinVForTest is invalid 3. notsupport(3) -the value of hwLoopLineTestBGMinVForTest is not support " ::= { hwLoopLineTestOprEntry 186 } hwLoopLineTestABMaxVForTest OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS read-only STATUS current DESCRIPTION "Indicates the A->B max voltage in testing. Unit: mV " ::= { hwLoopLineTestOprEntry 187 } hwLoopLineTestABMaxVForTestFlag OBJECT-TYPE SYNTAX INTEGER { valid(1), invalid(2), notsupport(3) } MAX-ACCESS read-only STATUS current DESCRIPTION "Indicates whether the value of hwLoopLineTestABMaxVForTest is valid. Options: 1. valid(1) -the value of hwLoopLineTestABMaxVForTest is valid 2. invalid(2) -the value of hwLoopLineTestABMaxVForTest is invalid 3. notsupport(3) -the value of hwLoopLineTestABMaxVForTest is not support " ::= { hwLoopLineTestOprEntry 188 } hwLoopLineTestABMinVForTest OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS read-only STATUS current DESCRIPTION "Indicates the A->ground min voltage in testing. Unit: mV " ::= { hwLoopLineTestOprEntry 189 } hwLoopLineTestABMinVForTestFlag OBJECT-TYPE SYNTAX INTEGER { valid(1), invalid(2), notsupport(3) } MAX-ACCESS read-only STATUS current DESCRIPTION "Indicates whether the value of hwLoopLineTestABMinVForTest is valid. Options: 1. valid(1) -the value of hwLoopLineTestABMinVForTest is valid 2. invalid(2) -the value of hwLoopLineTestABMinVForTest is invalid 3. notsupport(3) -the value of hwLoopLineTestABMinVForTest is not support " ::= { hwLoopLineTestOprEntry 190 } hwLoopLineTestAGMaxCForTest OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS read-only STATUS current DESCRIPTION "Indicates the A->ground max current. Unit: uA " ::= { hwLoopLineTestOprEntry 191 } hwLoopLineTestAGMaxCForTestFlag OBJECT-TYPE SYNTAX INTEGER { valid(1), invalid(2), notsupport(3) } MAX-ACCESS read-only STATUS current DESCRIPTION "Indicates whether the value of hwLoopLineTestAGMaxCForTest is valid. Options: 1. valid(1) -the value of hwLoopLineTestAGMaxCForTest is valid 2. invalid(2) -the value of hwLoopLineTestAGMaxCForTest is invalid 3. notsupport(3) -the value of hwLoopLineTestAGMaxCForTest is not support " ::= { hwLoopLineTestOprEntry 192 } hwLoopLineTestAGMinCForTest OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS read-only STATUS current DESCRIPTION "Indicates the A->ground min current. Unit: uA " ::= { hwLoopLineTestOprEntry 193 } hwLoopLineTestAGMinCForTestFlag OBJECT-TYPE SYNTAX INTEGER { valid(1), invalid(2), notsupport(3) } MAX-ACCESS read-only STATUS current DESCRIPTION "Indicates whether the value of hwLoopLineTestAGMinCForTest is valid. Options: 1. valid(1) -the value of hwLoopLineTestAGMinCForTest is valid 2. invalid(2) -the value of hwLoopLineTestAGMinCForTest is invalid 3. notsupport(3) -the value of hwLoopLineTestAGMinCForTest is not support " ::= { hwLoopLineTestOprEntry 194 } hwLoopLineTestBGMaxCForTest OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS read-only STATUS current DESCRIPTION "Indicates the B->ground max current. Unit: uA " ::= { hwLoopLineTestOprEntry 195 } hwLoopLineTestBGMaxCForTestFlag OBJECT-TYPE SYNTAX INTEGER { valid(1), invalid(2), notsupport(3) } MAX-ACCESS read-only STATUS current DESCRIPTION "Indicates whether the value of hwLoopLineTestBGMaxCForTest is valid. Options: 1. valid(1) -the value of hwLoopLineTestBGMaxCForTest is valid 2. invalid(2) -the value of hwLoopLineTestBGMaxCForTest is invalid 3. notsupport(3) -the value of hwLoopLineTestBGMaxCForTest is not support " ::= { hwLoopLineTestOprEntry 196 } hwLoopLineTestBGMinCForTest OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS read-only STATUS current DESCRIPTION "Indicates the B->ground min current. Unit: uA " ::= { hwLoopLineTestOprEntry 197 } hwLoopLineTestBGMinCForTestFlag OBJECT-TYPE SYNTAX INTEGER { valid(1), invalid(2), notsupport(3) } MAX-ACCESS read-only STATUS current DESCRIPTION "Indicates whether the value of hwLoopLineTestBGMinCForTest is valid. Options: 1. valid(1) -the value of hwLoopLineTestBGMinCForTest is valid 2. invalid(2) -the value of hwLoopLineTestBGMinCForTest is invalid 3. notsupport(3) -the value of hwLoopLineTestBGMinCForTest is not support " ::= { hwLoopLineTestOprEntry 198 } hwLoopLineTestABMaxCForTest OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS read-only STATUS current DESCRIPTION "Indicates the A->B max current Unit: uA " ::= { hwLoopLineTestOprEntry 199 } hwLoopLineTestABMaxCForTestFlag OBJECT-TYPE SYNTAX INTEGER { valid(1), invalid(2), notsupport(3) } MAX-ACCESS read-only STATUS current DESCRIPTION "Indicates whether the value of hwLoopLineTestABMaxCForTest is valid. Options: 1. valid(1) -the value of hwLoopLineTestABMaxCForTest is valid 2. invalid(2) -the value of hwLoopLineTestABMaxCForTest is invalid 3. notsupport(3) -the value of hwLoopLineTestABMaxCForTest is not support " ::= { hwLoopLineTestOprEntry 200 } hwLoopLineTestABMaxNegCForTest OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS read-only STATUS current DESCRIPTION "Indicates the A->ground min current Unit: uA " ::= { hwLoopLineTestOprEntry 201 } hwLoopLineTestABMaxNegCForTestFlag OBJECT-TYPE SYNTAX INTEGER { valid(1), invalid(2), notsupport(3) } MAX-ACCESS read-only STATUS current DESCRIPTION "Indicates whether the value of hwLoopLineTestABMaxNegCForTest is valid. Options: 1. valid(1) -the value of hwLoopLineTestABMaxNegCForTest is valid 2. invalid(2) -the value of hwLoopLineTestABMaxNegCForTest is invalid 3. notsupport(3) -the value of hwLoopLineTestABMaxNegCForTest is not support " ::= { hwLoopLineTestOprEntry 202 } hwLoopLineTestLineALength OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS read-only STATUS current DESCRIPTION "Indicates length of line A Unit: m " ::= { hwLoopLineTestOprEntry 203 } hwLoopLineTestLineBLength OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS read-only STATUS current DESCRIPTION "Indicates length of line B Unit: m " ::= { hwLoopLineTestOprEntry 204 } hwLoopLineTestTermimalConcusion OBJECT-TYPE SYNTAX INTEGER { noPhone(1), offHook(2), eTSIxDSLsignature(3), abMixed(4) , rcNetWork(5) , elecRing(6), other(7) , abMixInMDF(8) , abMixOutMDF(9) , invalid(-1) } MAX-ACCESS read-only STATUS current DESCRIPTION "Indicates Termimal Concusion Options: 1. noPhone(1) -the TermimalConcusion is not connect Phone 2. offHook(2) -the TermimalConcusion is connect phone and offhook 3. eTSIxDSLsignature(3) -the TermimalConcusion is ETSI XDSL Signature 4. abMixed(4) -the TermimalConcusion is ab line short 5. rcNetWork(5) -the TermimalConcusion is rcNetWork 6. elecRing(6) -the TermimalConcusion is elecRing 7. other(7) -the TermimalConcusion is other unknown terminal 8. abMixInMDF(8) -the TermimalConcusion is abMixInMDF 9. abMixOutMDF(9) -the TermimalConcusion is abMixOutMDF 10. invalid(-1) -the TermimalConcusion is invalid " ::= { hwLoopLineTestOprEntry 205 } hwLoopLineTestMoreDataFlag OBJECT-TYPE SYNTAX INTEGER { more(1), invalid(-1) } MAX-ACCESS read-only STATUS current DESCRIPTION "Indicates is there more data Options: 1. more(1) -Indicates there is more data needs report,but needs a SNMP-GET oper. to get other data. 2. invalid(-1) -Indicates the value is invalid " ::= { hwLoopLineTestOprEntry 206 } hwLoopLineTestCtrLV OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS read-only STATUS current DESCRIPTION "Aggregate tip-ring capacitance: CtrLV = Cco + Ctr + Cring, measured by means of low voltage ramps, such that it does NOT include the capacitance Csig whenever the ETSI Signature terminates the subscriber loop. Unit: nF " ::= { hwLoopLineTestOprEntry 207 } hwLoopLineTestCtrLVFlag OBJECT-TYPE SYNTAX INTEGER { valid(1), invalid(2), notsupport(3) } MAX-ACCESS read-only STATUS current DESCRIPTION "Indicates whether the value of hwLoopLineTestCtrLV is valid. Options: 1. valid(1) -the value of hwLoopLineTestCtrLV is valid 2. invalid(2) -the value of hwLoopLineTestCtrLV is invalid 3. notsupport(3) -the value of hwLoopLineTestCtrLV is not support " ::= { hwLoopLineTestOprEntry 208 } hwLoopLineTestCtrHV OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS read-only STATUS current DESCRIPTION "Aggregate tip-ring capacitance: CtrHV = Cco + Ctr + Cring + Csig, measured by means of high voltage ramps. It includes the capacitance Csig of an ETSI Signature whenever connected to the tip and ring wires. Unit: nF " ::= { hwLoopLineTestOprEntry 209 } hwLoopLineTestCtrHVFlag OBJECT-TYPE SYNTAX INTEGER { valid(1), invalid(2), notsupport(3) } MAX-ACCESS read-only STATUS current DESCRIPTION "Indicates whether the value of hwLoopLineTestCtrHV is valid. Options: 1. valid(1) -the value of hwLoopLineTestCtrHV is valid 2. invalid(2) -the value of hwLoopLineTestCtrHV is invalid 3. notsupport(3) -the value of hwLoopLineTestCtrHV is not support " ::= { hwLoopLineTestOprEntry 210 } hwLoopLineTestCtrAc OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS read-only STATUS current DESCRIPTION "Aggregate tip-ring capacitance: CtrAc = Cco + Ctr + Cring, measured by means of a low amplitude AC signal (either 25 Hz or 275 Hz). It does NOT include Csig. Unit: nF " ::= { hwLoopLineTestOprEntry 211 } hwLoopLineTestCtrAcFlag OBJECT-TYPE SYNTAX INTEGER { valid(1), invalid(2), notsupport(3) } MAX-ACCESS read-only STATUS current DESCRIPTION "Indicates whether the value of hwLoopLineTestCtrAc is valid. Options: 1. valid(1) -the value of hwLoopLineTestCtrAc is valid 2. invalid(2) -the value of hwLoopLineTestCtrAc is invalid 3. notsupport(3) -the value of hwLoopLineTestCtrAc is not support " ::= { hwLoopLineTestOprEntry 212 } hwLoopLineTestRtgSer OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS read-only STATUS current DESCRIPTION "Resistance in series with Ctg, measured at the selected AC frequency (either 25 Hz or 275 Hz) by means of a low amplitude AC signal. Unit: ohm " ::= { hwLoopLineTestOprEntry 213 } hwLoopLineTestRtgSerFlag OBJECT-TYPE SYNTAX INTEGER { valid(1), invalid(2), notsupport(3) } MAX-ACCESS read-only STATUS current DESCRIPTION "Indicates whether the value of hwLoopLineTestRtgSer is valid. Options: 1. valid(1) -the value of hwLoopLineTestRtgSer is valid 2. invalid(2) -the value of hwLoopLineTestRtgSer is invalid 3. notsupport(3) -the value of hwLoopLineTestRtgSer is not support " ::= { hwLoopLineTestOprEntry 214 } hwLoopLineTestRrgSer OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS read-only STATUS current DESCRIPTION "Resistance in series with Crg, measured at the selected AC frequency (either 25 Hz or 275 Hz) by means of a low amplitude AC signal. Unit: ohm " ::= { hwLoopLineTestOprEntry 215 } hwLoopLineTestRrgSerFlag OBJECT-TYPE SYNTAX INTEGER { valid(1), invalid(2), notsupport(3) } MAX-ACCESS read-only STATUS current DESCRIPTION "Indicates whether the value of hwLoopLineTestRrgSer is valid. Options: 1. valid(1) -the value of hwLoopLineTestRrgSer is valid 2. invalid(2) -the value of hwLoopLineTestRrgSer is invalid 3. notsupport(3) -the value of hwLoopLineTestRrgSer is not support " ::= { hwLoopLineTestOprEntry 216 } hwLoopLineTestRtrSer OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS read-only STATUS current DESCRIPTION "Resistance in series with Ctring, measured at the selected AC frequency (either 25 Hz or 275 Hz) by means of a low amplitude AC signal. Unit: ohm " ::= { hwLoopLineTestOprEntry 217 } hwLoopLineTestRtrSerFlag OBJECT-TYPE SYNTAX INTEGER { valid(1), invalid(2), notsupport(3) } MAX-ACCESS read-only STATUS current DESCRIPTION "Indicates whether the value of hwLoopLineTestRtrSer is valid. Options: 1. valid(1) -the value of hwLoopLineTestRtrSer is valid 2. invalid(2) -the value of hwLoopLineTestRtrSer is invalid 3. notsupport(3) -the value of hwLoopLineTestRtrSer is not support " ::= { hwLoopLineTestOprEntry 218 } hwLoopLineTestUtgAcAdmit OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS read-only STATUS current DESCRIPTION "Amplitude of the AC signal (either 25 Hz or 275 Hz) applied to the tipground admittance Ytg = Gtg + i * Btg. Unit: V " ::= { hwLoopLineTestOprEntry 219 } hwLoopLineTestUtgAcAdmitFlag OBJECT-TYPE SYNTAX INTEGER { valid(1), invalid(2), notsupport(3) } MAX-ACCESS read-only STATUS current DESCRIPTION "Indicates whether the value of hwLoopLineTestUtgAcAdmit is valid. Options: 1. valid(1) -the value of hwLoopLineTestUtgAcAdmit is valid 2. invalid(2) -the value of hwLoopLineTestUtgAcAdmit is invalid 3. notsupport(3) -the value of hwLoopLineTestUtgAcAdmit is not support " ::= { hwLoopLineTestOprEntry 220 } hwLoopLineTestUrgAcAdmit OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS read-only STATUS current DESCRIPTION "Amplitude of the AC signal (either 25 Hz or 275 Hz) applied to the ringground admittance Yrg = Grg + i * Brg. Unit: V " ::= { hwLoopLineTestOprEntry 221 } hwLoopLineTestUrgAcAdmitFlag OBJECT-TYPE SYNTAX INTEGER { valid(1), invalid(2), notsupport(3) } MAX-ACCESS read-only STATUS current DESCRIPTION "Indicates whether the value of hwLoopLineTestUrgAcAdmit is valid. Options: 1. valid(1) -the value of hwLoopLineTestUrgAcAdmit is valid 2. invalid(2) -the value of hwLoopLineTestUrgAcAdmit is invalid 3. notsupport(3) -the value of hwLoopLineTestUrgAcAdmit is not support " ::= { hwLoopLineTestOprEntry 222 } hwLoopLineTestUtrAcAdmit OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS read-only STATUS current DESCRIPTION "Amplitude of the AC signal (either 25 Hz or 275 Hz) applied to the tip-ring admittance Ytr = Gtr + i * Btr. Unit: V " ::= { hwLoopLineTestOprEntry 223 } hwLoopLineTestUtrAcAdmitFlag OBJECT-TYPE SYNTAX INTEGER { valid(1), invalid(2), notsupport(3) } MAX-ACCESS read-only STATUS current DESCRIPTION "Indicates whether the value of hwLoopLineTestUtrAcAdmit is valid. Options: 1. valid(1) -the value of hwLoopLineTestUtrAcAdmit is valid 2. invalid(2) -the value of hwLoopLineTestUtrAcAdmit is invalid 3. notsupport(3) -the value of hwLoopLineTestUtrAcAdmit is not support " ::= { hwLoopLineTestOprEntry 224 } hwLoopLineTestCapterminal OBJECT-TYPE SYNTAX INTEGER { noexist(1), exist(2) } MAX-ACCESS read-only STATUS current DESCRIPTION "A capacitive termination of the access line shall be identified by the capacitance measurement and the associated evaluation. The following average value for the capacitance Cabk of the measured cable can be assumed: Cabk = 0.083(Cae + Cbe). If the measured capacitance is Cab > Cabk + 50 nF for ADSL&VDSL, or Cab > Cabk + 100 nF for SHDSL, respectively, It can be assumed that a terminal device with a significant self-capacitance is connected to the line. The cable-factor 0.083 is determined by hwLoopLineTestSysConfigCableFactor. Options: 1. noexist(1) -Significant terminal device capacitance is not detected 2. exist(2) -Significant terminal device capacitance is detected " ::= { hwLoopLineTestOprEntry 225 } hwLoopLineTestCapterminalFlag OBJECT-TYPE SYNTAX INTEGER { valid(1), invalid(2), notsupport(3) } MAX-ACCESS read-only STATUS current DESCRIPTION "Indicates whether the value of hwLoopLineTestCapterminal is valid. Options: 1. valid(1) -the value of hwLoopLineTestCapterminal is valid 2. invalid(2) -the value of hwLoopLineTestCapterminal is invalid 3. notsupport(3) -the value of hwLoopLineTestCapterminal is not support " ::= { hwLoopLineTestOprEntry 226 } hwMeterTestOprTable OBJECT-TYPE SYNTAX SEQUENCE OF HwMeterTestOprEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "Operation table of the meter test. It implements the meter test function in the system. The test board provides the interface connected to the external test meter such as a multimeter through the meter test function. The index of this table is ifIndex. " ::= { hwTestCommonMIBObjects 3 } hwMeterTestOprEntry OBJECT-TYPE SYNTAX HwMeterTestOprEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "Operation table of the meter test. It implements the meter test function in the system. The test board provides the interface connected to the external test meter such as a multimeter through the meter test function. The index of this entry is ifIndex. " INDEX { ifIndex } ::= { hwMeterTestOprTable 1 } HwMeterTestOprEntry ::= SEQUENCE { hwMeterTestOprType INTEGER, hwMeterTestItem INTEGER, hwMeterTestStatus INTEGER, hwMeterTestBusyFlag INTEGER } hwMeterTestOprType OBJECT-TYPE SYNTAX INTEGER { stop(1), start(2) } MAX-ACCESS read-create STATUS current DESCRIPTION "Operation type. Options: 1. stop(1) -operation type is stop 2. start(2) -operation type is start " ::= { hwMeterTestOprEntry 1 } hwMeterTestItem OBJECT-TYPE SYNTAX INTEGER { inline(1), outline(2) } MAX-ACCESS read-create STATUS current DESCRIPTION "Test items. Options: 1. inline(1) -in test 2. outline(2) -out test " ::= { hwMeterTestOprEntry 2 } hwMeterTestStatus OBJECT-TYPE SYNTAX INTEGER { success(1), fail(2), portbusy(3), outoftime(4), testingAbnormal(5), broadbandtesting(6),capturefail(7),notratb(8) } MAX-ACCESS read-only STATUS current DESCRIPTION "Test status. Options: 1. success(1) -no test on busy 2. fail(2) -remedy test on busy 3. portbusy(3) -forced test on busy 4. outoftime(4) -test out of time 5. testingAbnormal(5) -test abnormal 6. broadbandtesting(6) -broadband testing 7. capturefail(7) -capture fail 8. notratb(8) -relay transfer board not exist " ::= { hwMeterTestOprEntry 3 } hwMeterTestBusyFlag OBJECT-TYPE SYNTAX INTEGER { busyNoTest(1), busyTest(2), busystrenTest(3) } MAX-ACCESS read-write STATUS current DESCRIPTION "Meter test busy flag. Options: 1. busyNoTest(1) -no test on busy 2. busyTest(2) -test on busy 3. busystrenTest(3) -forced test on busy " ::= { hwMeterTestOprEntry 4 } hwTestBoardDiagnoseTestOprTable OBJECT-TYPE SYNTAX SEQUENCE OF HwTestBoardDiagnoseTestOprEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "Operation table of the self-test on the test board. It implements the self-test on the test board in the system. The self-test checks whether the test board can work in the normal state. The index of this table is ifIndex. " ::= { hwTestCommonMIBObjects 4 } hwTestBoardDiagnoseTestOprEntry OBJECT-TYPE SYNTAX HwTestBoardDiagnoseTestOprEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "Operation table of the self-test on the test board. It implements the self-test on the test board in the system. The self-test checks whether the test board can work in the normal state. The index of this entry is ifIndex. " INDEX { ifIndex } ::= { hwTestBoardDiagnoseTestOprTable 1 } HwTestBoardDiagnoseTestOprEntry ::= SEQUENCE { hwTestBoardDiagnoseTestOprType INTEGER, hwTestBoardDiagnoseTestResult INTEGER, hwTestBoardDiagnoseTestRAM INTEGER, hwTestBoardDiagnoseTestVoltage INTEGER, hwTestBoardDiagnoseTestResistance INTEGER, hwTestBoardDiagnoseTestSignal INTEGER, hwTestBoardDiagnoseTestDTMF INTEGER, hwTestBoardDiagnoseTestRing INTEGER, hwTestBoardDiagnoseTestOnOffHook INTEGER, hwTestBoardDiagnoseTestPole INTEGER, hwTestBoardDiagnoseTestISDNU INTEGER, hwTestBoardDiagnoseTestBitErrCode INTEGER, hwTestBoardDiagnoseTestCapacitance INTEGER } hwTestBoardDiagnoseTestOprType OBJECT-TYPE SYNTAX INTEGER { start(2) } MAX-ACCESS read-create STATUS current DESCRIPTION "Operation type. Options: 1. start(2) -operation type is start " ::= { hwTestBoardDiagnoseTestOprEntry 1 } hwTestBoardDiagnoseTestResult OBJECT-TYPE SYNTAX INTEGER { selfTestOver(1), selfTestFail(2), testingAbnormal(3) } MAX-ACCESS read-only STATUS current DESCRIPTION "Self-diagnosis result. Options: 1. selfTestOver(1) -self-diagnosis successful 2. selfTestFail(2) -self-diagnosis failure 3. testingAbnormal(3) -test abnormal " ::= { hwTestBoardDiagnoseTestOprEntry 2 } hwTestBoardDiagnoseTestRAM OBJECT-TYPE SYNTAX INTEGER { normal(1), abnormal(2) } MAX-ACCESS read-only STATUS current DESCRIPTION "System RAMRAM. Options: 1. normal(1) -normal 2. abnormal(2) -abnormal " ::= { hwTestBoardDiagnoseTestOprEntry 3 } hwTestBoardDiagnoseTestVoltage OBJECT-TYPE SYNTAX INTEGER { normal(1), abnormal(2) } MAX-ACCESS read-only STATUS current DESCRIPTION "Voltage. Options: 1. normal(1) -normal 2. abnormal(2) -abnormal " ::= { hwTestBoardDiagnoseTestOprEntry 4 } hwTestBoardDiagnoseTestResistance OBJECT-TYPE SYNTAX INTEGER { normal(1), abnormal(2) } MAX-ACCESS read-only STATUS current DESCRIPTION "Resistance. Options: 1. normal(1) -normal 2. abnormal(2) -abnormal " ::= { hwTestBoardDiagnoseTestOprEntry 5 } hwTestBoardDiagnoseTestSignal OBJECT-TYPE SYNTAX INTEGER { normal(1), abnormal(2) } MAX-ACCESS read-only STATUS current DESCRIPTION "Signal circuit. Options: 1. normal(1) -normal 2. abnormal(2) -abnormal " ::= { hwTestBoardDiagnoseTestOprEntry 6 } hwTestBoardDiagnoseTestDTMF OBJECT-TYPE SYNTAX INTEGER { normal(1), abnormal(2) } MAX-ACCESS read-only STATUS current DESCRIPTION "DTMF. Options: 1. normal(1) -normal 2. abnormal(2) -abnormal " ::= { hwTestBoardDiagnoseTestOprEntry 7 } hwTestBoardDiagnoseTestRing OBJECT-TYPE SYNTAX INTEGER { normal(1), abnormal(2) } MAX-ACCESS read-only STATUS current DESCRIPTION "Ringing. Options: 1. normal(1) -normal 2. abnormal(2) -abnormal " ::= { hwTestBoardDiagnoseTestOprEntry 8 } hwTestBoardDiagnoseTestOnOffHook OBJECT-TYPE SYNTAX INTEGER { normal(1), abnormal(2) } MAX-ACCESS read-only STATUS current DESCRIPTION "On/off hook. Options: 1. normal(1) -normal 2. abnormal(2) -abnormal " ::= { hwTestBoardDiagnoseTestOprEntry 9 } hwTestBoardDiagnoseTestPole OBJECT-TYPE SYNTAX INTEGER { normal(1), abnormal(2) } MAX-ACCESS read-only STATUS current DESCRIPTION "Polarity reversal. Options: 1. normal(1) -normal 2. abnormal(2) -abnormal " ::= { hwTestBoardDiagnoseTestOprEntry 10 } hwTestBoardDiagnoseTestISDNU OBJECT-TYPE SYNTAX INTEGER { normal(1), abnormal(2) } MAX-ACCESS read-only STATUS current DESCRIPTION "ISDN U port. Options: 1. normal(1) -normal 2. abnormal(2) -abnormal " ::= { hwTestBoardDiagnoseTestOprEntry 11 } hwTestBoardDiagnoseTestBitErrCode OBJECT-TYPE SYNTAX INTEGER { normal(1), abnormal(2) } MAX-ACCESS read-only STATUS current DESCRIPTION "Error code test. Options: 1. normal(1) -normal 2. abnormal(2) -abnormal " ::= { hwTestBoardDiagnoseTestOprEntry 12 } hwTestBoardDiagnoseTestCapacitance OBJECT-TYPE SYNTAX INTEGER { normal(1), abnormal(2) } MAX-ACCESS read-only STATUS current DESCRIPTION "Capacitance. Options: 1. normal(1) -normal 2. abnormal(2) -abnormal " ::= { hwTestBoardDiagnoseTestOprEntry 13 } hwTestBoardStatusQueryOprTable OBJECT-TYPE SYNTAX SEQUENCE OF HwTestBoardStatusQueryOprEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "Operation table for querying the status of the test board. It implements the function of querying the status of the test board in the system. You can query the current status of the test board through this function. The index of this table is ifIndex. " ::= { hwTestCommonMIBObjects 5 } hwTestBoardStatusQueryOprEntry OBJECT-TYPE SYNTAX HwTestBoardStatusQueryOprEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "Operation table for querying the status of the test board. It implements the function of querying the status of the test board in the system. You can query the current status of the test board through this function. The index of this entry is ifIndex. " INDEX { ifIndex } ::= { hwTestBoardStatusQueryOprTable 1 } HwTestBoardStatusQueryOprEntry ::= SEQUENCE { hwTestBoardStatusQueryOprType INTEGER, hwTestBoardStatusQueryResult INTEGER, hwTestBoardStatusQueryVersion Integer32, hwTestBoardStatusQueryTestItem INTEGER, hwTestBoardStatusTestedBoardIfIndex Integer32 } hwTestBoardStatusQueryOprType OBJECT-TYPE SYNTAX INTEGER { beginQuery(2) } MAX-ACCESS read-create STATUS current DESCRIPTION "Operation type. Options: 1. beginQuery(2) -start " ::= { hwTestBoardStatusQueryOprEntry 1 } hwTestBoardStatusQueryResult OBJECT-TYPE SYNTAX INTEGER { querySuccess(1), queryFail(2) } MAX-ACCESS read-only STATUS current DESCRIPTION "Query status. Options: 1. querySuccess(1) -query status successful 2. queryFail(2) -query status failure " ::= { hwTestBoardStatusQueryOprEntry 2 } hwTestBoardStatusQueryVersion OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS read-only STATUS current DESCRIPTION "Version." ::= { hwTestBoardStatusQueryOprEntry 3 } hwTestBoardStatusQueryTestItem OBJECT-TYPE SYNTAX INTEGER { testIdle(1), pstnUserInLineTest(2), userLineTest(3), phoneTest(4), manTestOutLine(5), manTestInnerLine(6), halfAutoUserCircuit(7), halfAutoTssPhoneCircuit(8), tssSelfTest(9), testInnerBus(10), testOuterBus(11), digUserOutLineTest(12), digUserInnerLineTest(13), switchToStandIsdnTerminal(14), switchToIsdnSpecialcode(15), testBoarDfault(16), pstnRemoteCallTest(17), indialtest(18), coEmulate(33), cqtTest(34), cqtFRTest(35), cqtTDRTest(36), cqtDMTTest(37), cqtNSETest(38), cqtLBTest(39), cqtLCTest(40), internalcaptureTestedPort(61), externalcaptureTestedPort(62), monitorTest(63), seltTest(64), sendtoneTest(65), checktoneTest(66), autocalltest(67), anothermainboardistesting(241) } MAX-ACCESS read-only STATUS current DESCRIPTION "Test item. Options: 1. testIdle(1) -idle 2. pstnUserInLineTest(2) -pstn inline test 3. userLineTest(3) -loop line test 4. phoneTest(4) -telephone test 5. manTestOutLine(5) -manual test outline 6. manTestInnerLine(6) -manual test inline 7. halfAutoUserCircuit(7) -half auto tss user circuit -meter interface 8. halfAutoTssPhoneCircuit(8) -half auto tss telephone circuit -meter interface 9. tssSelfTest(9) -Tss self test 10. testInnerBus(10) -test inline bus test 11. testOuterBus(11) -test outline bus test 12. digUserOutLineTest(12) -isdn outline test 13. digUserInnerLineTest(13) -isdn inline test 14. switchToStandIsdnTerminal(14) -switch to standard isdn terminal 15. switchToIsdnSpecialcode(15) -switch to isdn special service telephone number 16. testBoarDfault(16) -test board fault 17. pstnRemoteCallTest(17) -pstn user remote call test 18. indialtest(18) -in-dial test 19. coEmulate(33) -CO simulation test 20. cqtTest(34) -CQT test 21. cqtFRTest(35) -CQT Frequency Response Measurement 22. cqtTDRTest(36) -CQT Time Domain Reflectometry Measurement 23. cqtDMTTest(37) -CQT Data Rate Prediction Measurement 24. cqtNSETest(38) -CQT Noise Measurement 25. cqtLBTest(39) -CQT Longitudinal Balance Measurement 26. cqtLCTest(40) -CQT Load Coil Detection 27. internalcaptureTestedPort(61) -Capture tested port loopline 28. externalcaptureTestedPort(62) -Capture tested port inline 29. monitorTest(63) -monitor test 30. seltTest(64) -selt test 31. sendtoneTest(65) -tone send test 32. checktoneTest(66) -tone check test 33. autocalltest(67) -auto call test 34. anothermainboardistesting(241) -another main board is testing " ::= { hwTestBoardStatusQueryOprEntry 4 } hwTestBoardStatusTestedBoardIfIndex OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS read-only STATUS current DESCRIPTION "Index of the tested port." ::= { hwTestBoardStatusQueryOprEntry 5 } hwSearchingToneOprTable OBJECT-TYPE SYNTAX SEQUENCE OF HwSearchingToneOprEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "This table is used for enabling the searching tone test by setting the searching tone test voltage level, test frequency, and test duration. The searching tone test is to locate a specific line from various lines by transmitting pulse tones to lines. This test helps carriers locate faults and provision services. The index of this table is ifindex. " ::= { hwTestCommonMIBObjects 6 } -- 1.3.6.1.4.1.2011.6.21.1.1.1.6.1 hwSearchingToneOprEntry OBJECT-TYPE SYNTAX HwSearchingToneOprEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "This table is used for enabling the searching tone test by setting the searching tone test voltage level, test frequency, and test duration. The searching tone test is to locate a specific line from various lines by transmitting pulse tones to lines. This test helps carriers locate faults and provision services. The index of this entry is ifindex. " INDEX { ifIndex } ::= { hwSearchingToneOprTable 1 } HwSearchingToneOprEntry ::= SEQUENCE { hwSearchingToneOprType INTEGER, hwSearchingToneLevel Integer32, hwSearchingToneFrequency Integer32, hwSearchingToneDurationTime Integer32, hwSearchingToneRemainingTime Integer32, hwSearchingToneBusyProcFlag INTEGER } hwSearchingToneOprType OBJECT-TYPE SYNTAX INTEGER { stop(1), start(2), invalid(-1) } MAX-ACCESS read-write STATUS current DESCRIPTION "Searching tone test-operation type. Options: 1. stop(1) -stop a searching tone test 2. start(2) -start a searching tone test 3. invalid(-1) -invalid value " ::= { hwSearchingToneOprEntry 1 } hwSearchingToneLevel OBJECT-TYPE SYNTAX Integer32 (-1 | 80..500) MAX-ACCESS read-write STATUS current DESCRIPTION "Indicates the test voltage level of a searching tone test. Options: 1. -1 -Invalid value 2. 80..500 -(XDSL Range: 80-126 MXU voice Range: 80-500) Default: 120 -(XDSL Default: 120 MXU voice default:295) Unit: mV " DEFVAL { 120 } ::= { hwSearchingToneOprEntry 2 } hwSearchingToneFrequency OBJECT-TYPE SYNTAX Integer32 (-1 | 300..3400) MAX-ACCESS read-write STATUS current DESCRIPTION "Indicates the test frequency of a searching tone test. Default: 800 Unit: Hz " DEFVAL { 800 } ::= { hwSearchingToneOprEntry 3 } hwSearchingToneDurationTime OBJECT-TYPE SYNTAX Integer32 (-1 | 1..54000) MAX-ACCESS read-write STATUS current DESCRIPTION "Indicates the test duration of a searching tone test. Default: 9000 Unit: 0.1s " DEFVAL { 9000 } ::= { hwSearchingToneOprEntry 4 } hwSearchingToneRemainingTime OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS read-only STATUS current DESCRIPTION "Indicates the test remaining time of a searching tone test. Unit: 0.1s " ::= { hwSearchingToneOprEntry 5 } hwSearchingToneBusyProcFlag OBJECT-TYPE SYNTAX INTEGER { cancel(1), force(2), invalid(-1) } MAX-ACCESS read-write STATUS current DESCRIPTION "Searching tone test-busy flag. Options: 1. cancel(1) -when port is busy do not start a searching tone test 2. force(2) -when port is busy force to start a searching tone test 3. invalid(-1) -invalid value " ::= { hwSearchingToneOprEntry 6 } hwLoopLineTestCalibrationTable OBJECT-TYPE SYNTAX SEQUENCE OF HwLoopLineTestCalibrationEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "This table provides the test calibration data of a line. Before delivery, each port is performed with a test in which no user is connected to the port and the test result is saved as standard data. The standard data is used for calibrating the test result of tests in the actual environment. The index of this table is ifindex. " ::= { hwTestCommonMIBObjects 7 } hwLoopLineTestCalibrationEntry OBJECT-TYPE SYNTAX HwLoopLineTestCalibrationEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "This table provides the test calibration data of a line. Before delivery, each port is performed with a test in which no user is connected to the port and the test result is saved as standard data. The standard data is used for calibrating the test result of tests in the actual environment. The index of this entry is ifindex. " INDEX { ifIndex } ::= { hwLoopLineTestCalibrationTable 1 } HwLoopLineTestCalibrationEntry ::= SEQUENCE { hwLoopLineTestAGCalibration Integer32, hwLoopLineTestBGCalibration Integer32, hwLoopLineTestABCalibration Integer32 } hwLoopLineTestAGCalibration OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS read-only STATUS current DESCRIPTION "Indicates the test calibration data of A->Ground capacitance. Unit: nF " ::= { hwLoopLineTestCalibrationEntry 1 } hwLoopLineTestBGCalibration OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS read-only STATUS current DESCRIPTION "Indicates the test calibration data of B->Ground capacitance. Unit: nF " ::= { hwLoopLineTestCalibrationEntry 2 } hwLoopLineTestABCalibration OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS read-only STATUS current DESCRIPTION "Indicates the test calibration data of A->B capacitance. Unit: nF " ::= { hwLoopLineTestCalibrationEntry 3 } hwTestCommonTraps OBJECT IDENTIFIER ::= { hwTestCommon 2 } hwTestCommonTrapVbOids OBJECT IDENTIFIER ::= { hwTestCommonTraps 1 } hwTestCommonVbOidsReason OBJECT IDENTIFIER ::= { hwTestCommonTrapVbOids 2 } hwTestClearedReason OBJECT-TYPE SYNTAX INTEGER { testBoardFail(1), testedBoardFail(2), userCmd(3), switchOver(4), anotherMainBoardIsTesting(5), unknowError(255) } MAX-ACCESS accessible-for-notify STATUS current DESCRIPTION "Definition of the test-canceling reasons. Options: 1. testBoardFail(1) -the test-canceling reason is testBoardFail 2. testedBoardFail(2) -the test-canceling reason is testedBoardFail 3. userCmd(3) -the test-canceling reason is userCmd 4. switchOver(4) -the test-canceling reason is switchOver 5. anotherMainBoardIsTesting(5) -the test-canceling reason is anotherMainBoardIsTesting 6. unknowError(255) -the test-canceling reason is unknowError " ::= { hwTestCommonVbOidsReason 1 } hwTestRingSrcAlarmReason OBJECT-TYPE SYNTAX INTEGER { testRingSrcFail(1), testRingSrcRestore(2) } MAX-ACCESS accessible-for-notify STATUS current DESCRIPTION "Definition of the ringing source alarms. Options: 1. testRingSrcFail(1) -the ringing source alarm is testRingSrcFail 2. testRingSrcRestore(2) -the ringing source alarm is testRingSrcRestore " ::= { hwTestCommonVbOidsReason 2 } hwTestCommonRequestID OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS accessible-for-notify STATUS current DESCRIPTION "NMS request ID." ::= { hwTestCommonTrapVbOids 3 } hwTestMeltChipID OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS accessible-for-notify STATUS current DESCRIPTION "Melt chip ID." ::= { hwTestCommonTrapVbOids 4 } hwTestCommonAlarmTraps OBJECT IDENTIFIER ::= { hwTestCommonTraps 2 } hwTestCommonAlarmTrapsOIDs OBJECT IDENTIFIER ::= { hwTestCommonAlarmTraps 0 } hwTestRingSrcFailTrap NOTIFICATION-TYPE OBJECTS { hwTestBoardIfIndex, hwTestRingSrcAlarmReason } STATUS current DESCRIPTION "The btss ring source failed trap: 1: hwTestBoardIfIndex; 2: hwTestRingSrcAlarmReason (1: the ring source of BTSS doesn't work) Troubleshooting suggestions: (1) Check the BTSS board; (2) Reset the BTSS board; (3) Replace the BTSS board. This trap will send when the btss ring source failed." ::= { hwTestCommonAlarmTrapsOIDs 1 } hwTestRingSrcRestoreTrap NOTIFICATION-TYPE OBJECTS { hwTestBoardIfIndex, hwTestRingSrcAlarmReason } STATUS current DESCRIPTION "Test ringing source restore trap: 1: hwTestBoardIfIndex; 2: hwTestRingSrcAlarmReason (1: the ring source of BTSS is normal) The advice: none. This trap will send when test ringing source restore." ::= { hwTestCommonAlarmTrapsOIDs 2 } hwTestAutoClearedTrap NOTIFICATION-TYPE OBJECTS { hwTestBoardIfIndex, hwTestBoardStatusTestedBoardIfIndex, hwTestClearedReason } STATUS current DESCRIPTION "Trap of test automatically cancelled: 1: hwTestBoardIfIndex; 2: hwTestBoardStatusTestedBoardIfIndex; 3: hwTestClearedReason. This trap will send when the test automatically cancelled." ::= { hwTestCommonAlarmTrapsOIDs 3 } hwTestMeltChipFaultAlarmTrap NOTIFICATION-TYPE OBJECTS { hwFrameIndex, hwSlotIndex, hwTestMeltChipID, hwPortMeltChipStateList } STATUS current DESCRIPTION "MELT chip fault trap: 1: hwFrameIndex; 2: hwSlotIndex; 3: hwTestMeltChipID; 4: hwPortMeltChipStateList. When detecting a MELT chip fault, the system generates this trap." ::= { hwTestCommonAlarmTrapsOIDs 4 } hwTestMeltChipRecoveryAlarmTrap NOTIFICATION-TYPE OBJECTS { hwFrameIndex, hwSlotIndex, hwTestMeltChipID, hwPortMeltChipStateList } STATUS current DESCRIPTION "MELT chip fault clear trap: 1: hwFrameIndex; 2: hwSlotIndex; 3: hwTestMeltChipID; 4: hwPortMeltChipStateList. When detecting that a MELT chip fault is cleared, the system generates this trap." ::= { hwTestCommonAlarmTrapsOIDs 5 } hwTestCommonGeneralTraps OBJECT IDENTIFIER ::= { hwTestCommonTraps 3 } hwTestCommonGeneralTrapsOIDs OBJECT IDENTIFIER ::= { hwTestCommonGeneralTraps 0 } hwLoopLineTestTrap NOTIFICATION-TYPE OBJECTS { hwLoopLineTestRequestID, hwLoopLineTestStatus, hwLoopLineTestConclusion, hwLoopLineTestACAG, hwLoopLineTestACBG, hwLoopLineTestACAB, hwLoopLineTestDCAG, hwLoopLineTestDCBG, hwLoopLineTestDCAB, hwLoopLineTestRAG, hwLoopLineTestRBG, hwLoopLineTestRAB, hwLoopLineTestCapAG, hwLoopLineTestCapBG, hwLoopLineTestCapAB, hwLoopLineTestLR, hwLoopLineTestRABResPole, hwLoopLineTestMSocket, hwLoopLineTestPPAResult, hwLoopLineTestIfIndex, hwLoopLineTestMoreDataFlag } STATUS current DESCRIPTION "This trap will be sent when a loop-line test finished successfully. The trap shows the result of the loop-line test. 1. hwLoopLineTestRequestID, 2. hwLoopLineTestStatus, 3. hwLoopLineTestConclusion, 4. hwLoopLineTestACAG, 5. hwLoopLineTestACBG, 6. hwLoopLineTestACAB, 7. hwLoopLineTestDCAG, 8. hwLoopLineTestDCBG, 9. hwLoopLineTestDCAB, 10. hwLoopLineTestRAG, 11. hwLoopLineTestRBG, 12. hwLoopLineTestRAB, 13. hwLoopLineTestCapAG, 14. hwLoopLineTestCapBG, 15. hwLoopLineTestCapAB, 16. hwLoopLineTestLR, 17. hwLoopLineTestRABResPole, 18. hwLoopLineTestMSocket, 19. hwLoopLineTestPPAResult, 19. hwLoopLineTestIfIndex, 20. hwLoopLineTestMoreDataFlag " ::= { hwTestCommonGeneralTrapsOIDs 1 } hwMeterTestTrap NOTIFICATION-TYPE OBJECTS { hwMeterTestStatus } STATUS current DESCRIPTION "Meter test result trap: 1: hwMeterTestStatus. This trap will send when meter test result return." ::= { hwTestCommonGeneralTrapsOIDs 2 } hwTestBoardDiagnoseTestTrap NOTIFICATION-TYPE OBJECTS { hwTestBoardDiagnoseTestResult, hwTestBoardDiagnoseTestRAM, hwTestBoardDiagnoseTestVoltage, hwTestBoardDiagnoseTestResistance, hwTestBoardDiagnoseTestSignal, hwTestBoardDiagnoseTestDTMF, hwTestBoardDiagnoseTestRing, hwTestBoardDiagnoseTestOnOffHook, hwTestBoardDiagnoseTestPole, hwTestBoardDiagnoseTestISDNU, hwTestBoardDiagnoseTestBitErrCode, hwTestBoardDiagnoseTestCapacitance } STATUS current DESCRIPTION "Test board self-test result trap: 1: hwTestBoardDiagnoseTestResult; 2: hwTestBoardDiagnoseTestRAM; 3: hwTestBoardDiagnoseTestVoltage; 4: hwTestBoardDiagnoseTestResistance; 5: hwTestBoardDiagnoseTestSignal; 6: hwTestBoardDiagnoseTestDTMF; 7: hwTestBoardDiagnoseTestRing; 8: hwTestBoardDiagnoseTestOnOffHook; 9: hwTestBoardDiagnoseTestPole; 10: hwTestBoardDiagnoseTestISDNU; 11: hwTestBoardDiagnoseTestBitErrCode; 12: hwTestBoardDiagnoseTestCapacitance. This trap will send when the test board self-test result return." ::= { hwTestCommonGeneralTrapsOIDs 3 } hwTestBoardStatusQueryTrap NOTIFICATION-TYPE OBJECTS { hwTestBoardStatusQueryResult, hwTestBoardStatusQueryVersion, hwTestBoardStatusQueryTestItem, hwTestBoardStatusTestedBoardIfIndex } STATUS current DESCRIPTION "Test board status query result trap: 1: hwTestBoardStatusQueryResult; 2: hwTestBoardStatusQueryVersion; 3: hwTestBoardStatusQueryTestItem; 4: hwTestBoardStatusTestedBoardIfIndex. This trap will send when the test board status query result return." ::= { hwTestCommonGeneralTrapsOIDs 4 } hwTestOntPotsTestResultTrap NOTIFICATION-TYPE OBJECTS { hwTestCommonRequestID, ifIndex, hwONTPotsTestONTIndex, hwONTPotsTestONTPstnPortIndex, hwONTPotsTestItem, hwONTPotsTestHazardousVoltResult, hwONTPotsTestEMFResult, hwONTPotsTestResistacneResult, hwONTPotsTestOffHookResult, hwONTPotsTestRingerResult, hwONTPotsTestNT1DCSignalResult, hwONTPotsTestSelfTestResult, hwONTPotsTestDrawDialToneResult, hwONTPotsTestBreakDialToneResult, hwONTPotsTestQuietEnergyResult, hwONTPotsTestDialToneEnergyResult, hwONTPotsTestLoopDCAGVoltResult, hwONTPotsTestLoopDCBGVoltResult, hwONTPotsTestLoopACAGVoltResult, hwONTPotsTestLoopACBGVoltResult, hwONTPotsTestLoopResistanceAGResult, hwONTPotsTestLoopResistanceBGResult, hwONTPotsTestLoopResistanceABResult, hwONTPotsTestLoopRingerLoadTestResult, hwONTPotsTestDrawDialToneTimeValue, hwONTPotsTestBreakDialToneTimeValue, hwONTPotsTestQuietEnergyValue, hwONTPotsTestDialToneEnergyValue, hwONTPotsTestLoopDCAGVoltValue, hwONTPotsTestLoopDCBGVoltValue, hwONTPotsTestLoopACAGVoltValue, hwONTPotsTestLoopACBGVoltValue, hwONTPotsTestLoopResistanceAGValue, hwONTPotsTestLoopResistanceBGValue, hwONTPotsTestLoopResistanceABValue, hwONTPotsTestLoopRingerLoadTestValue, hwONTPotsTestSubscriberLineTestResult, hwONTPotsTestLoopDCABVoltValue, hwONTPotsTestLoopACABVoltValue, hwONTPotsTestLoopAGCapacitanceValue, hwONTPotsTestLoopBGCapacitanceValue, hwONTPotsTestLoopABCapacitanceValue, hwONTPotsTestLoopDCAGVoltCompensativeValue, hwONTPotsTestLoopDCBGVoltCompensativeValue, hwONTPotsTestLoopDCABVoltCompensativeValue, hwONTPotsTestLoopACAGVoltCompensativeValue, hwONTPotsTestLoopACBGVoltCompensativeValue, hwONTPotsTestLoopACABVoltCompensativeValue, hwONTPotsTestLoopResistanceAGCompensativeValue, hwONTPotsTestLoopResistanceBGCompensativeValue, hwONTPotsTestLoopResistanceABCompensativeValue } STATUS current DESCRIPTION "This trap indicates that a POTS port line test finished successfully, and shows the result of the line test. This trap will send when a POTS port line test finished successfully." ::= { hwTestCommonGeneralTrapsOIDs 5 } hwTestCommonMeltTestResultTrap NOTIFICATION-TYPE OBJECTS { hwTestCommonRequestID, ifIndex, hwLoopLineTestStartTime, hwLoopLineTestEndTime, hwLoopLineTestStatus, hwLoopLineTestConclusion, hwLoopLineTestACAG, hwLoopLineTestACBG, hwLoopLineTestACAB, hwLoopLineTestDCAG, hwLoopLineTestDCBG, hwLoopLineTestDCAB, hwLoopLineTestRAG, hwLoopLineTestRBG, hwLoopLineTestRAB, hwLoopLineTestCapAG, hwLoopLineTestCapBG, hwLoopLineTestCapAB, hwLoopLineTestLR, hwLoopLineTestRABResPole, hwLoopLineTestMSocket, hwLoopLineTestPPA, hwLoopLineTestUtgAcFreq, hwLoopLineTestUrgAcFreq, hwLoopLineTestUtrAcFreq, hwLoopLineTestItipAc, hwLoopLineTestIringAc, hwLoopLineTestItipDc, hwLoopLineTestIringDc, hwLoopLineTestRbattip, hwLoopLineTestRbatring, hwLoopLineTestRring, hwLoopLineTestCsig, hwLoopLineTestPPARes, hwLoopLineTestVzener, hwLoopLineTestRzener, hwLoopLineTestGtg, hwLoopLineTestBtg, hwLoopLineTestGrg, hwLoopLineTestBrg, hwLoopLineTestGtr, hwLoopLineTestBtr, hwLoopLineTestSIGN, hwLoopLineTestACFEM, hwLoopLineTestDCFEM, hwLoopLineTestONHK, hwLoopLineTestOPEN, hwLoopLineTestSHORT, hwLoopLineTestROH, hwLoopLineTestUtgDcUp, hwLoopLineTestUtgDcDown, hwLoopLineTestUrgDcUp, hwLoopLineTestUrgDcDown, hwLoopLineTestUtrPos, hwLoopLineTestUtrNeg, hwLoopLineTestItgDcUp, hwLoopLineTestItgDcDown, hwLoopLineTestIrgDcUp, hwLoopLineTestIrgDcDown, hwLoopLineTestItrPos, hwLoopLineTestItrNeg, hwLoopLineTestRinger, hwLoopLineTestOprMeasuredFreq, hwLoopLineTestRABPole, hwLoopLineTestACAGFlag, hwLoopLineTestACBGFlag, hwLoopLineTestACABFlag, hwLoopLineTestDCAGFlag, hwLoopLineTestDCBGFlag, hwLoopLineTestDCABFlag, hwLoopLineTestRAGFlag, hwLoopLineTestRBGFlag, hwLoopLineTestRABFlag, hwLoopLineTestRABPoleFlag, hwLoopLineTestRABResPoleFlag, hwLoopLineTestCapAGFlag, hwLoopLineTestCapBGFlag, hwLoopLineTestCapABFlag, hwLoopLineTestRbattipFlag, hwLoopLineTestRbatringFlag, hwLoopLineTestRringFlag, hwLoopLineTestCsigFlag, hwLoopLineTestPPAResFlag, hwLoopLineTestVzenerFlag, hwLoopLineTestRzenerFlag, hwLoopLineTestSNMPRab, hwLoopLineTestSNMPRabFlag, hwLoopLineTestSNMPRba, hwLoopLineTestSNMPRbaFlag, hwLoopLineTestPPAResultFlag, hwLoopLineTestUtgAcFreqFlag, hwLoopLineTestUrgAcFreqFlag, hwLoopLineTestUtrAcFreqFlag, hwLoopLineTestItipAcFlag, hwLoopLineTestIringAcFlag, hwLoopLineTestItipDcFlag, hwLoopLineTestIringDcFlag, hwLoopLineTestGtgFlag, hwLoopLineTestBtgFlag, hwLoopLineTestGrgFlag, hwLoopLineTestBrgFlag, hwLoopLineTestGtrFlag, hwLoopLineTestBtrFlag, hwLoopLineTestSIGNFlag, hwLoopLineTestACFEMFlag, hwLoopLineTestDCFEMFlag, hwLoopLineTestONHKFlag, hwLoopLineTestOPENFlag, hwLoopLineTestSHORTFlag, hwLoopLineTestROHFlag, hwLoopLineTestUtgDcUpFlag, hwLoopLineTestUtgDcDownFlag, hwLoopLineTestUrgDcUpFlag, hwLoopLineTestUrgDcDownFlag, hwLoopLineTestUtrPosFlag, hwLoopLineTestUtrNegFlag, hwLoopLineTestItgDcUpFlag, hwLoopLineTestItgDcDownFlag, hwLoopLineTestIrgDcUpFlag, hwLoopLineTestIrgDcDownFlag, hwLoopLineTestItrPosFlag, hwLoopLineTestItrNegFlag, hwLoopLineTestRingerFlag, hwLoopLineTestMoreDataFlag } STATUS current DESCRIPTION "This trap indicates that MELT test finished successfully, and show the result of the melt test This trap will send when the MELT test finished successfully. " ::= { hwTestCommonGeneralTrapsOIDs 6 } hwTestCommonMeltTestFaileTrap NOTIFICATION-TYPE OBJECTS { hwTestCommonRequestID, ifIndex, hwLoopLineTestStatus } STATUS current DESCRIPTION "This trap indicates that MELT test fails. This trap will send when the MELT test failed." ::= { hwTestCommonGeneralTrapsOIDs 7 } hwTestMeltChipStateCheckResultTrap NOTIFICATION-TYPE OBJECTS { hwTestCommonRequestID, hwFrameIndex, hwSlotIndex, hwBoardMeltChipStateCheckResult } STATUS current DESCRIPTION "This trap indicates the MELT chip status check result. This trap will send when the MELT chip status check finished." ::= { hwTestCommonGeneralTrapsOIDs 8 } hwLoopLineTestMeltVerTable OBJECT-TYPE SYNTAX SEQUENCE OF HwLoopLineTestMeltVerEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "This table provides the information about the MELT chip on the board, including the vendor, hardware version, and software version. The indexes of this table are hwFrameIndex and hwSlotIndex. " ::= { hwTestCommonMIBObjects 8 } hwLoopLineTestMeltVerEntry OBJECT-TYPE SYNTAX HwLoopLineTestMeltVerEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "This table provides the information about the MELT chip on the board, including the vendor, hardware version, and software version. The indexes of this entry are hwFrameIndex and hwSlotIndex. " INDEX { hwFrameIndex, hwSlotIndex } ::= { hwLoopLineTestMeltVerTable 1 } HwLoopLineTestMeltVerEntry ::= SEQUENCE { hwLoopLineTestMeltFactory OCTET STRING, hwLoopLineTestMeltChip OCTET STRING, hwLoopLineTestMeltFirmwareVer OCTET STRING } hwLoopLineTestMeltFactory OBJECT-TYPE SYNTAX OCTET STRING (SIZE (0..32)) MAX-ACCESS read-only STATUS current DESCRIPTION "MELT chipset manufacturer information Maximum length: 32 Octets " ::= { hwLoopLineTestMeltVerEntry 1 } hwLoopLineTestMeltChip OBJECT-TYPE SYNTAX OCTET STRING (SIZE (0..128)) MAX-ACCESS read-only STATUS current DESCRIPTION "MELT chipset manufacturer hardware information Maximum length: 128 Octets " ::= { hwLoopLineTestMeltVerEntry 2 } hwLoopLineTestMeltFirmwareVer OBJECT-TYPE SYNTAX OCTET STRING (SIZE (0..16)) MAX-ACCESS read-only STATUS current DESCRIPTION "MELT chipset manufacturer version information Maximum length: 16 Octets " ::= { hwLoopLineTestMeltVerEntry 3 } hwLoopLineTestSysConfigPara OBJECT IDENTIFIER ::= { hwTestCommonMIBObjects 9 } hwLoopLineTestSysConfigConvertAB OBJECT-TYPE SYNTAX INTEGER { normal(1), reverse(2), invalid(-1) } MAX-ACCESS read-write STATUS current DESCRIPTION "Indicates the polarity of A wire and B wire. Options: 1. normal(1) -default polarity of A wire and B wire 2. reverse(2) -reverse polarity of A wire and B wire 3. invalid(-1) -invalid value Default: normal(1) " ::= { hwLoopLineTestSysConfigPara 1 } hwLoopLineTestSysConfigCableFactor OBJECT-TYPE SYNTAX Unsigned32 (1..1000) MAX-ACCESS read-write STATUS current DESCRIPTION "The cable-factor used to detect significant terminal device capacitance. The cable-factor ranges from 1 to 1000 units of 0.001 (Physical values are 0.001 to 1, default: 0.083). " ::= { hwLoopLineTestSysConfigPara 2 } hwLoopLineTestSysConfigSigCapUpperLimit OBJECT-TYPE SYNTAX Unsigned32 (50..2500) MAX-ACCESS read-write STATUS current DESCRIPTION "The three parameters(capacitance's upper-limit value, lower-limit value and resistance value) are used to determine the signature's existence. The capacitance ranges from 50nF to 2500nF, default: 1350nF. The capacitance's upper-limit value >= the capacitance's lower-limit value. " ::= { hwLoopLineTestSysConfigPara 3 } hwLoopLineTestSysConfigSigCapLowerLimit OBJECT-TYPE SYNTAX Unsigned32 (50..2500) MAX-ACCESS read-write STATUS current DESCRIPTION "The three parameters(capacitance's upper-limit value, lower-limit value and resistance value) are used to determine the signature's existence. The capacitance ranges from 50nF to 2500nF, default: 250nF. The capacitance's upper-limit value >= the capacitance's lower-limit value. " ::= { hwLoopLineTestSysConfigPara 4 } hwLoopLineTestSysConfigSigResistance OBJECT-TYPE SYNTAX Unsigned32 (10000..1000000) MAX-ACCESS read-write STATUS current DESCRIPTION "The three parameters(capacitance's upper-limit value, lower-limit value and resistance value) are used to determine the signature's existence. The resistance ranges from 10000ohm to 1000000ohm, default: 55000ohm. " ::= { hwLoopLineTestSysConfigPara 5 } -- Begin Add Table hwONTPotsTestOprTable hwONTPotsTestOprTable OBJECT-TYPE SYNTAX SEQUENCE OF HwONTPotsTestOprEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "This table is used for enabling the POTS port line test of the ONT by setting the test item, test frequency, and test threshold. This test helps operators locate faults and provision services. The indexes of this table are ifindex, hwONTPotsTestONTIndex and hwONTPotsTestONTPstnPortIndex. " ::= { hwTestCommonMIBObjects 10 } hwONTPotsTestOprEntry OBJECT-TYPE SYNTAX HwONTPotsTestOprEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "This table is used for enabling the POTS port line test of the ONT by setting the test item, test frequency, and test threshold. This test helps operators locate faults and provision services. The indexes of this entry are ifindex, hwONTPotsTestONTIndex and hwONTPotsTestONTPstnPortIndex. " INDEX { ifIndex, hwONTPotsTestONTIndex, hwONTPotsTestONTPstnPortIndex } ::= { hwONTPotsTestOprTable 1 } -- 1.3.6.1.4.1.2011.6.21.1.1.1.10.1 HwONTPotsTestOprEntry ::= SEQUENCE { hwONTPotsTestONTIndex Integer32, hwONTPotsTestONTPstnPortIndex Integer32, hwONTPotsTestOprType INTEGER, hwONTPotsTestItem INTEGER, hwONTPotsTestBusyProcFlag INTEGER, hwONTPotsTestT1Threshold Integer32, hwONTPotsTestT2Threshold Integer32, hwONTPotsTestT3Threshold Integer32, hwONTPotsTestT4Threshold Integer32, hwONTPotsTestDtmfDigit INTEGER, hwONTPotsTestDialType INTEGER, hwONTPotsTestDialToneFreq1 Integer32, hwONTPotsTestDialToneFreq2 Integer32, hwONTPotsTestDialToneFreq3 Integer32, hwONTPotsTestDialToneEnergyThreshold Integer32, hwONTPotsTestIdleChannelEnergyThreshold Integer32, hwONTPotsTestDCHazardousVoltThreshold Integer32, hwONTPotsTestACHazardousVoltThreshold Integer32, hwONTPotsTestDCForeignVoltThreshold Integer32, hwONTPotsTestACForeignVoltThreshold Integer32, hwONTPotsTestAGBGResistanceThreshold Integer32, hwONTPotsTestABResistanceThreshold Integer32, hwONTPotsTestRingerEquivMinThreshold Integer32, hwONTPotsTestRingerEquivMaxThreshold Integer32, hwONTPotsTestMLTResult INTEGER, hwONTPotsTestHazardousVoltResult INTEGER, hwONTPotsTestEMFResult INTEGER, hwONTPotsTestResistacneResult INTEGER, hwONTPotsTestOffHookResult INTEGER, hwONTPotsTestRingerResult INTEGER, hwONTPotsTestNT1DCSignalResult INTEGER, hwONTPotsTestSelfTestResult INTEGER, hwONTPotsTestDrawDialToneResult INTEGER, hwONTPotsTestBreakDialToneResult INTEGER, hwONTPotsTestQuietEnergyResult INTEGER, hwONTPotsTestDialToneEnergyResult INTEGER, hwONTPotsTestLoopDCAGVoltResult INTEGER, hwONTPotsTestLoopDCBGVoltResult INTEGER, hwONTPotsTestLoopACAGVoltResult INTEGER, hwONTPotsTestLoopACBGVoltResult INTEGER, hwONTPotsTestLoopResistanceAGResult INTEGER, hwONTPotsTestLoopResistanceBGResult INTEGER, hwONTPotsTestLoopResistanceABResult INTEGER, hwONTPotsTestLoopRingerLoadTestResult INTEGER, hwONTPotsTestDrawDialToneTimeValue Integer32, hwONTPotsTestBreakDialToneTimeValue Integer32, hwONTPotsTestQuietEnergyValue Integer32, hwONTPotsTestDialToneEnergyValue Integer32, hwONTPotsTestLoopDCAGVoltValue Integer32, hwONTPotsTestLoopDCBGVoltValue Integer32, hwONTPotsTestLoopACAGVoltValue Integer32, hwONTPotsTestLoopACBGVoltValue Integer32, hwONTPotsTestLoopResistanceAGValue Integer32, hwONTPotsTestLoopResistanceBGValue Integer32, hwONTPotsTestLoopResistanceABValue Integer32, hwONTPotsTestLoopRingerLoadTestValue Integer32, hwONTPotsTestSubscriberLineTestResult INTEGER, hwONTPotsTestLoopDCABVoltValue Integer32, hwONTPotsTestLoopACABVoltValue Integer32, hwONTPotsTestLoopAGCapacitanceValue Integer32, hwONTPotsTestLoopBGCapacitanceValue Integer32, hwONTPotsTestLoopABCapacitanceValue Integer32, hwONTPotsTestLoopDCAGVoltCompensativeValue Integer32, hwONTPotsTestLoopDCBGVoltCompensativeValue Integer32, hwONTPotsTestLoopDCABVoltCompensativeValue Integer32, hwONTPotsTestLoopACAGVoltCompensativeValue Integer32, hwONTPotsTestLoopACBGVoltCompensativeValue Integer32, hwONTPotsTestLoopACABVoltCompensativeValue Integer32, hwONTPotsTestLoopResistanceAGCompensativeValue Integer32, hwONTPotsTestLoopResistanceBGCompensativeValue Integer32, hwONTPotsTestLoopResistanceABCompensativeValue Integer32 } hwONTPotsTestONTIndex OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS accessible-for-notify STATUS current DESCRIPTION "ONT ID." ::= { hwONTPotsTestOprEntry 1 } hwONTPotsTestONTPstnPortIndex OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS accessible-for-notify STATUS current DESCRIPTION "ONT port ID." ::= { hwONTPotsTestOprEntry 2 } hwONTPotsTestOprType OBJECT-TYPE SYNTAX INTEGER { stop (1), start (2), invalid(-1) } MAX-ACCESS read-create STATUS current DESCRIPTION "POTS port line Test-operation type. Options: 1. stop(1) -stop a POTS port line test 2. start(2) -start a POTS port line test 3. invalid(-1) -invalid value " ::= { hwONTPotsTestOprEntry 3 } hwONTPotsTestItem OBJECT-TYPE SYNTAX INTEGER { allMLTTests (1), hazardousPotential (2), foreignEMF (3), resistiveFaults (4), receiverOffHook (5), ringer (6), nT1DcSignatureTest (7), selfTest (8), dialToneMakeBreakTest (9), subscriberLine (10), vendorSpecificTest2 (11), vendorSpecificTest3 (12), vendorSpecificTest4 (13), vendorSpecificTest5 (14), vendorSpecificTest6 (15), vendorSpecificTest7 (16) } MAX-ACCESS read-create STATUS current DESCRIPTION "POTS port line test item. Options: 1. allMLTTests(1) -outdoor connection test 2. hazardousPotential(2) -hazardous potential test 3. foreignEMF(3) -foreign electromotive force(EMF) test 4. resistiveFaults(4) -resistive faults test 5. receiverOffHook(5) -receiver off-hook test 6. ringer(6) -ringer impedance test 7. nT1DcSignatureTest(7) -NT1 dc signature test 8. selfTest(8) -self test 9. dialToneMakeBreakTest(9) -dial tone make-break test 10. subscriberLine(10) -subscriber line test 11. vendorSpecificTest2(11) -vendor-specific test all results are returned in a test result message 12. vendorSpecificTest3(12) -vendor-specific test all results are returned in a test result message 13. vendorSpecificTest4(13) -vendor-specific test the test results are returned in general purpose buffer ME the ONT must deny a test operation command if bytes 39-40 do not point to a GP buffer 14. vendorSpecificTest5(14) -vendor-specific test the test results are returned in general purpose buffer ME the ONT must deny a test operation command if bytes 39-40 do not point to a GP buffer 15. vendorSpecificTest6(15) -vendor-specific test the test results are returned in general purpose buffer ME the ONT must deny a test operation command if bytes 39-40 do not point to a GP buffer 16. vendorSpecificTest7(16) -vendor-specific test the test results are returned in general purpose buffer ME the ONT must deny a test operation command if bytes 39-40 do not point to a GP buffer " ::= { hwONTPotsTestOprEntry 4 } hwONTPotsTestBusyProcFlag OBJECT-TYPE SYNTAX INTEGER{ cancel(1), force(2) } MAX-ACCESS read-create STATUS current DESCRIPTION "Test mode when a line is busy. Options: 1. cancel(1) -deny a test if a line is busy 2. force(2) -forced mode " ::= { hwONTPotsTestOprEntry 5 } hwONTPotsTestT1Threshold OBJECT-TYPE SYNTAX Integer32(0 | 100..6000) MAX-ACCESS read-create STATUS current DESCRIPTION "Slow dial tone threshold. Options: 1. 0 -Invalid value. It indicates that an ONT will use its default value 2. 100..6000 -Valid value range " ::= { hwONTPotsTestOprEntry 6 } hwONTPotsTestT2Threshold OBJECT-TYPE SYNTAX Integer32(0 | 1000..10000) MAX-ACCESS read-create STATUS current DESCRIPTION "No dial tone threshold. Options: 1. 0 -Invalid value. It indicates that an ONT will use its default value 2. 1000..10000 -Valid value range " ::= { hwONTPotsTestOprEntry 7 } hwONTPotsTestT3Threshold OBJECT-TYPE SYNTAX Integer32(0 | 100..3000) MAX-ACCESS read-create STATUS current DESCRIPTION "Slow break dial tone threshold. Options: 1. 0 -Invalid value. It indicates that an ONT will use its default value 2. 100..3000 -Valid value range " ::= { hwONTPotsTestOprEntry 8 } hwONTPotsTestT4Threshold OBJECT-TYPE SYNTAX Integer32(0 | 1000..3000) MAX-ACCESS read-create STATUS current DESCRIPTION "No break dial tone threshold. Options: 1. 0 -Invalid value. It indicates that an ONT will use its default value 2. 1000..3000 -Valid value range " ::= { hwONTPotsTestOprEntry 9 } hwONTPotsTestDtmfDigit OBJECT-TYPE SYNTAX INTEGER { zero (1), one (2), two (3), three (4), four (5), five (6), six (7), seven (8), eight (9), nine (10), symbolStar (11), symbolSharp (12), default (13) } MAX-ACCESS read-create STATUS current DESCRIPTION "DTMF test number. Options: 1. zero(1) -the test number is 0 2. one(2) -the test number is 1 3. two(3) -the test number is 2 4. three(4) -the test number is 3 5. four(5) -the test number is 4 6. five(6) -the test number is 5 7. six(7) -the test number is 6 8. seven(8) -the test number is 7 9. eight(9) -the test number is 8 10. nine(10) -the test number is 9 11. symbolStar(11) -the test number is * 12. symbolSharp(12)-the test number is # 13. default(13) -use the default value (number) of the system " ::= { hwONTPotsTestOprEntry 10 } hwONTPotsTestDialType OBJECT-TYPE SYNTAX INTEGER{ dtmf (1), pulse (2) } MAX-ACCESS read-create STATUS current DESCRIPTION "The dialling type of dialling tone test. Options: 1. dtmf(1) -dtmf type 2. pulse(2) -pulse type " ::= { hwONTPotsTestOprEntry 11 } hwONTPotsTestDialToneFreq1 OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS read-create STATUS current DESCRIPTION "The frequency1 in the dialling tone test. 0 -unused Unit: Hz " ::= { hwONTPotsTestOprEntry 12 } hwONTPotsTestDialToneFreq2 OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS read-create STATUS current DESCRIPTION "The frequency2 in the dialling tone test. 0 -unused Unit: Hz " ::= { hwONTPotsTestOprEntry 13 } hwONTPotsTestDialToneFreq3 OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS read-create STATUS current DESCRIPTION "The frequency3 in the dialling tone test. 0 -unused Unit: Hz " ::= { hwONTPotsTestOprEntry 14 } hwONTPotsTestDialToneEnergyThreshold OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS read-create STATUS current DESCRIPTION "The value of energy threshold in the dialling tone test. Valid value: 1. 0x00: unspecified 2. 0x01-0xFD: -0.1 dBm0 to -25.3 dBm0 Unit: 0.1 dBm0 " ::= { hwONTPotsTestOprEntry 15 } hwONTPotsTestIdleChannelEnergyThreshold OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS read-create STATUS current DESCRIPTION "The value of energy threshold in the dialling tone test when the line is in the idle state. Valid value: 1. 0x00: unspecified 2. 0x01-0x5A: -1 dBm0 to -90 dBm0 Unit: 1 dBm0 " ::= { hwONTPotsTestOprEntry 16 } hwONTPotsTestDCHazardousVoltThreshold OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS read-create STATUS current DESCRIPTION "The value of DC voltage threshold in the hazardous potential test. 0x00 -unspecified Unit: volt " ::= { hwONTPotsTestOprEntry 17 } hwONTPotsTestACHazardousVoltThreshold OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS read-create STATUS current DESCRIPTION "The value of AC voltage threshold in the hazardous potential test. 0x00 -unspecified Unit: volt. " ::= { hwONTPotsTestOprEntry 18 } hwONTPotsTestDCForeignVoltThreshold OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS read-create STATUS current DESCRIPTION "The value of DC voltage threshold in the foreign volt test. 0x00 -unspecified Unit: volt " ::= { hwONTPotsTestOprEntry 19 } hwONTPotsTestACForeignVoltThreshold OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS read-create STATUS current DESCRIPTION "The value of AC voltage threshold in the foreign volt test. 0x00 -unspecified Unit: volt " ::= { hwONTPotsTestOprEntry 20 } hwONTPotsTestAGBGResistanceThreshold OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS read-create STATUS current DESCRIPTION "The resistance (tip to ground, ring to ground) threshold in the resistive faults test. 0x00 -unspecified Unit: kilohm " ::= { hwONTPotsTestOprEntry 21 } hwONTPotsTestABResistanceThreshold OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS read-create STATUS current DESCRIPTION "The resistance (tip to ring) threshold in the resistive faults test. 0x00 -unspecified Unit: kilohm " ::= { hwONTPotsTestOprEntry 22 } hwONTPotsTestRingerEquivMinThreshold OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS read-create STATUS current DESCRIPTION "Ringer equivalence minimum threshold. 0x00 -unspecified Unit: 0.01 REN " ::= { hwONTPotsTestOprEntry 23 } hwONTPotsTestRingerEquivMaxThreshold OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS read-create STATUS current DESCRIPTION "Ringer equivalence maximum threshold. 0x00 -unspecified Unit: 0.01 REN " ::= { hwONTPotsTestOprEntry 24 } hwONTPotsTestMLTResult OBJECT-TYPE SYNTAX INTEGER { failed (1), passOrNotRun (2) } MAX-ACCESS read-only STATUS current DESCRIPTION "MLT qualitative test result. Options: 1. failed(1) -a test fails 2. passOrNotRun(2) -a test passes or the test does not run " ::= { hwONTPotsTestOprEntry 25 } hwONTPotsTestHazardousVoltResult OBJECT-TYPE SYNTAX INTEGER { failed (1), passOrNotRun (2) } MAX-ACCESS read-only STATUS current DESCRIPTION "Hazardous volt test result. Options: 1. failed(1) -a test fails 2. passOrNotRun(2) -a test passes or the test does not run " ::= { hwONTPotsTestOprEntry 26 } hwONTPotsTestEMFResult OBJECT-TYPE SYNTAX INTEGER { failed (1), passOrNotRun (2) } MAX-ACCESS read-only STATUS current DESCRIPTION "EMF test result. Options: 1. failed(1) -a test fails 2. passOrNotRun(2) -a test passes or the test does not run " ::= { hwONTPotsTestOprEntry 27 } hwONTPotsTestResistacneResult OBJECT-TYPE SYNTAX INTEGER{ failed (1), passOrNotRun (2) } MAX-ACCESS read-only STATUS current DESCRIPTION "Resistacne test result. Options: 1. failed(1) -a test fails 2. passOrNotRun(2) -a test passes or the test does not run " ::= { hwONTPotsTestOprEntry 28 } hwONTPotsTestOffHookResult OBJECT-TYPE SYNTAX INTEGER { failed (1), passOrNotRun (2) } MAX-ACCESS read-only STATUS current DESCRIPTION "The off-hook test result. Options: 1. failed(1) -a test fails 2. passOrNotRun(2) -a test passes or the test does not run " ::= { hwONTPotsTestOprEntry 29 } hwONTPotsTestRingerResult OBJECT-TYPE SYNTAX INTEGER { failed (1), passOrNotRun (2) } MAX-ACCESS read-only STATUS current DESCRIPTION "Ringer test result. Options: 1. failed(1) -a test fails 2. passOrNotRun(2) -a test passes or the test does not run " ::= { hwONTPotsTestOprEntry 30 } hwONTPotsTestNT1DCSignalResult OBJECT-TYPE SYNTAX INTEGER { failed (1), passOrNotRun (2) } MAX-ACCESS read-only STATUS current DESCRIPTION "NT1 DC Signal test result. Options: 1. failed(1) -a test fails 2. passOrNotRun(2) -a test passes or the test does not run " ::= { hwONTPotsTestOprEntry 31 } hwONTPotsTestSelfTestResult OBJECT-TYPE SYNTAX INTEGER { failed (1), passOrNotRun (2), notCompleted(3) } MAX-ACCESS read-only STATUS current DESCRIPTION "Self test result. Options: 1. failed(1) -a test fails 2. passOrNotRun(2) -a test passes or the test does not run 3. notCompleted(3) -a test is not complete yet " ::= { hwONTPotsTestOprEntry 32 } hwONTPotsTestDrawDialToneResult OBJECT-TYPE SYNTAX INTEGER { notRun (1), couldNotDraw1 (3), couldNotDraw2 (4), slowDraw1 (5), slowDraw2 (6), pass1 (7), pass2 (8) } MAX-ACCESS read-only STATUS current DESCRIPTION "Draw dialling tone test result. Options: 1. notRun(1) -a test does not run 2. couldNotDraw1(3) -a test fails to draw 3. couldNotDraw2(4) -a test fails to draw 4. slowDraw1(5) -slow draw 5. slowDraw2(6) -slow draw 6. pass1(7) -a test passes 7. pass2(8) -a test passes " ::= { hwONTPotsTestOprEntry 33 } hwONTPotsTestBreakDialToneResult OBJECT-TYPE SYNTAX INTEGER { notRun (1), couldNotDraw1 (3), couldNotDraw2 (4), slowDraw1 (5), slowDraw2 (6), pass1 (7), pass2 (8) } MAX-ACCESS read-only STATUS current DESCRIPTION "The break dialling tone test result. Options: 1. notRun(1) -a test does not run 2. couldNotDraw1(3) -a test fails to draw 3. couldNotDraw2(4) -a test fails to draw 4. slowDraw1(5) -slow draw 5. slowDraw2(6) -slow draw 6. pass1(7) -a test passes 7. pass2(8) -a test passes " ::= { hwONTPotsTestOprEntry 34 } hwONTPotsTestQuietEnergyResult OBJECT-TYPE SYNTAX INTEGER { notRun (1), failMeasurementNotReported (3), failMeasurementReported (4), passMeasurementNotReported (7), passMeasurementReported (8) } MAX-ACCESS read-only STATUS current DESCRIPTION "The quiet energy test result. Options: 1. notRun(1) -a test does not run 2. failMeasurementNotReported(3) -a test fails the measurement is not reported 3. failMeasurementReported(4) -a test fails the measurement is reported 4. passMeasurementNotReported(7) -a test passes the measurement is not reported 5. passMeasurementReported(8) -a test passes the measurement is reported " ::= { hwONTPotsTestOprEntry 35 } hwONTPotsTestDialToneEnergyResult OBJECT-TYPE SYNTAX INTEGER{ notRun (1), failMeasurementNotReported (3), failMeasurementReported (4), passMeasurementNotReported (7), passMeasurementReported (8) } MAX-ACCESS read-only STATUS current DESCRIPTION "The dialling tone energy test result. Options: 1. notRun(1) -a test does not run 2. failMeasurementNotReported(3) -a test fails the measurement is not reported 3. failMeasurementReported(4) -a test fails. the measurement is reported 4. passMeasurementNotReported(7) -a test passes the measurement is not reported 5. passMeasurementReported(8) -a test passes the measurement is reported " ::= { hwONTPotsTestOprEntry 36 } hwONTPotsTestLoopDCAGVoltResult OBJECT-TYPE SYNTAX INTEGER { notRun (1), failMeasurementNotReported (3), failMeasurementReported (4), passMeasurementNotReported (7), passMeasurementReported (8) } MAX-ACCESS read-only STATUS current DESCRIPTION "The DC A-G (tip to ground) volt loop test result. Options: 1. notRun(1) -a test does not run 2. failMeasurementNotReported(3) -a test fails the measurement is not reported 3. failMeasurementReported(4) -a test fails the measurement is reported 4. passMeasurementNotReported(7) -a test passes the measurement is not reported 5. passMeasurementReported(8) -a test passes the measurement is reported " ::= { hwONTPotsTestOprEntry 37 } hwONTPotsTestLoopDCBGVoltResult OBJECT-TYPE SYNTAX INTEGER { notRun (1), failMeasurementNotReported (3), failMeasurementReported (4), passMeasurementNotReported (7), passMeasurementReported (8) } MAX-ACCESS read-only STATUS current DESCRIPTION "The DC B-G (ring to ground) volt loop test result. Options: 1. notRun(1) -a test does not run. 2. failMeasurementNotReported(3) -a test fails the measurement is not reported 3. failMeasurementReported(4) -a test fails the measurement is reported 4. passMeasurementNotReported(7) -a test passes the measurement is not reported 5. passMeasurementReported(8) -a test passes the measurement is reported " ::= { hwONTPotsTestOprEntry 38 } hwONTPotsTestLoopACAGVoltResult OBJECT-TYPE SYNTAX INTEGER { notRun (1), failMeasurementNotReported (3), failMeasurementReported (4), passMeasurementNotReported (7), passMeasurementReported (8) } MAX-ACCESS read-only STATUS current DESCRIPTION "The AC A-G (tip to ground) volt loop test result. Options: 1. notRun(1) -a test does not run 2. failMeasurementNotReported(3) -a test fails the measurement is not reported 3. failMeasurementReported(4) -a test fails the measurement is reported 4. passMeasurementNotReported(7) -a test passes the measurement is not reported 5. passMeasurementReported(8) -a test passes the measurement is reported " ::= { hwONTPotsTestOprEntry 39 } hwONTPotsTestLoopACBGVoltResult OBJECT-TYPE SYNTAX INTEGER { notRun (1), failMeasurementNotReported (3), failMeasurementReported (4), passMeasurementNotReported (7), passMeasurementReported (8) } MAX-ACCESS read-only STATUS current DESCRIPTION "The AC B-G (ring to ground) volt loop test result. Options: 1. notRun(1) -a test does not run 2. failMeasurementNotReported(3) -a test fails the measurement is not reported 3. failMeasurementReported(4) -a test fails the measurement is reported 4. passMeasurementNotReported(7) -a test passes the measurement is not reported 5. passMeasurementReported(8) -a test passes the measurement is reported " ::= { hwONTPotsTestOprEntry 40 } hwONTPotsTestLoopResistanceAGResult OBJECT-TYPE SYNTAX INTEGER { notRun (1), failMeasurementNotReported (3), failMeasurementReported (4), passMeasurementNotReported (7), passMeasurementReported (8) } MAX-ACCESS read-only STATUS current DESCRIPTION "The A-G (ring to ground) resistance loop test result. Options: 1. notRun(1) -a test does not run 2. failMeasurementNotReported(3) -a test fails the measurement is not reported 3. failMeasurementReported(4) -a test fails the measurement is reported 4. passMeasurementNotReported(7) -a test passes the measurement is not reported 5. passMeasurementReported(8) -a test passes the measurement is reported " ::= { hwONTPotsTestOprEntry 41 } hwONTPotsTestLoopResistanceBGResult OBJECT-TYPE SYNTAX INTEGER { notRun (1), failMeasurementNotReported (3), failMeasurementReported (4), passMeasurementNotReported (7), passMeasurementReported (8) } MAX-ACCESS read-only STATUS current DESCRIPTION "The B-G (ring to ground) resistance loop test result. Options: 1. notRun(1) -a test does not run 2. failMeasurementNotReported(3) -a test fails the measurement is not reported 3. failMeasurementReported(4) -a test fails the measurement is reported 4. passMeasurementNotReported(7) -a test passes the measurement is not reported 5. passMeasurementReported(8) -a test passes the measurement is reported " ::= { hwONTPotsTestOprEntry 42 } hwONTPotsTestLoopResistanceABResult OBJECT-TYPE SYNTAX INTEGER { notRun (1), failMeasurementNotReported (3), failMeasurementReported (4), passMeasurementNotReported (7), passMeasurementReported (8) } MAX-ACCESS read-only STATUS current DESCRIPTION "The A-B (tip to ring) resistance loop test result. Options: 1. notRun(1) -a test does not run 2. failMeasurementNotReported(3) -a test fails the measurement is not reported 3. failMeasurementReported(4) -a test fails the measurement is reported 4. passMeasurementNotReported(7) -a test passes the measurement is not reported 5. passMeasurementReported(8) -a test passes the measurement is reported " ::= { hwONTPotsTestOprEntry 43 } hwONTPotsTestLoopRingerLoadTestResult OBJECT-TYPE SYNTAX INTEGER { notRun (1), failMeasurementNotReported (3), failMeasurementReported (4), passMeasurementNotReported (7), passMeasurementReported (8) } MAX-ACCESS read-only STATUS current DESCRIPTION "The ringer load Loop test result. Options: 1. notRun(1) -a test does not run 2. failMeasurementNotReported(3) -a test fails the measurement is not reported 3. failMeasurementReported(4) -a test fails the measurement is reported 4. passMeasurementNotReported(7) -a test passes the measurement is not reported 5. passMeasurementReported(8) -a test passes the measurement is reported " ::= { hwONTPotsTestOprEntry 44 } hwONTPotsTestDrawDialToneTimeValue OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS read-only STATUS current DESCRIPTION "The draw dial tone test result. Valid only if value of hwONTPotsTestDrawDialToneResult is couldNotDraw2(4), slowDraw2(6) or pass2(8). Unit: 100ms. Step: 100ms. " ::= { hwONTPotsTestOprEntry 45 } hwONTPotsTestBreakDialToneTimeValue OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS read-only STATUS current DESCRIPTION "The break dial tone test result. Valid only if value of hwONTPotsTestBreakDialToneResult is couldNotDraw2(4), slowDraw2(6) or pass2(8). Unit: 100ms. Step: 100 ms. " ::= { hwONTPotsTestOprEntry 46 } hwONTPotsTestQuietEnergyValue OBJECT-TYPE SYNTAX Integer32(0..90) MAX-ACCESS read-only STATUS current DESCRIPTION "The quiet energy test result. Valid only if value of hwONTPotsTestQuietEnergyResult is failMeasurementReported(4) or passMeasurementReported(8). Values: 0-90 : 0 dBm0 to -90 dBm0 Step: 1 dBm0 " ::= { hwONTPotsTestOprEntry 47 } hwONTPotsTestDialToneEnergyValue OBJECT-TYPE SYNTAX Integer32(0..255) MAX-ACCESS read-only STATUS current DESCRIPTION "The dial energy test result. Valid only if value of hwONTPotsTestDialToneEnergyResult is failMeasurementReported(4) or passMeasurementReported(8). Values: 0-255 : 0 dBm0 to -25.5 dBm0 Values above 0 dBm0 are reported as 0. Step: 0.1 dBm0 " ::= { hwONTPotsTestOprEntry 48 } hwONTPotsTestLoopDCAGVoltValue OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS read-only STATUS current DESCRIPTION "The DC A-G(Tip-ground) volt Loop test result or Subscriber line test result. 2s complement, resolution 1V. Valid only if value of hwONTPotsTestLoopDCAGVoltResult is failMeasurementReported(4) or passMeasurementReported(8) when loop tested. Valid only if value of hwONTPotsTestSubscriberLineTestResult is not testTimeout(29) or testFailed(30) or invalid(-1) when subscriber line test. Unit: volt. " ::= { hwONTPotsTestOprEntry 49 } hwONTPotsTestLoopDCBGVoltValue OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS read-only STATUS current DESCRIPTION "The DC B-G(Ring-ground) volt Loop test result or Subscriber line test result. 2s complement, resolution 1V. Valid only if value of hwONTPotsTestLoopDCBGVoltResult is failMeasurementReported(4) or passMeasurementReported(8) when loop tested. Valid only if value of hwONTPotsTestSubscriberLineTestResult is not testTimeout(29) or testFailed(30) or invalid(-1) when subscriber line test. Unit: volt. " ::= { hwONTPotsTestOprEntry 50 } hwONTPotsTestLoopACAGVoltValue OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS read-only STATUS current DESCRIPTION "The AC A-G(Tip-ground) volt Loop test result or Subscriber line test result. Valid only if value of hwONTPotsTestLoopACAGVoltResult is failMeasurementReported(4) or passMeasurementReported(8) when loop tested. Valid only if value of hwONTPotsTestSubscriberLineTestResult is not testTimeout(29) or testFailed(30) or invalid(-1) when subscriber line test. Unit: volt. " ::= { hwONTPotsTestOprEntry 51 } hwONTPotsTestLoopACBGVoltValue OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS read-only STATUS current DESCRIPTION "The AC B-G(Ring-ground) volt Loop test result or Subscriber line test result. Valid only if value of hwONTPotsTestLoopACBGVoltResult is failMeasurementReported(4) or passMeasurementReported(8) when loop tested. Valid only if value of hwONTPotsTestSubscriberLineTestResult is not testTimeout(29) or testFailed(30) or invalid(-1) when subscriber line test. Unit: volt. " ::= { hwONTPotsTestOprEntry 52 } hwONTPotsTestLoopResistanceAGValue OBJECT-TYPE SYNTAX Integer32(0..65535) MAX-ACCESS read-only STATUS current DESCRIPTION "The A-G (tip to ground) resistance loop test result or Subscriber line test result. Unit: kilohm. Infinite resistance: 65535. Valid only if value of hwONTPotsTestLoopResistanceAGResult is failMeasurementReported(4) or passMeasurementReported(8) when loop tested. Valid only if value of hwONTPotsTestSubscriberLineTestResult is not testTimeout(29) or testFailed(30) or invalid(-1) when subscriber line test. " ::= { hwONTPotsTestOprEntry 53 } hwONTPotsTestLoopResistanceBGValue OBJECT-TYPE SYNTAX Integer32(0..65535) MAX-ACCESS read-only STATUS current DESCRIPTION "The B-G (ring to ground) resistance loop test result or Subscriber line test result. Unit: kilohm. Infinite resistance: 65535. Valid only if value of hwONTPotsTestLoopResistanceAGResult is failMeasurementReported(4) or passMeasurementReported(8) when loop tested. Valid only if value of hwONTPotsTestSubscriberLineTestResult is not testTimeout(29) or testFailed(30) or invalid(-1) when subscriber line test. " ::= { hwONTPotsTestOprEntry 54 } hwONTPotsTestLoopResistanceABValue OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS read-only STATUS current DESCRIPTION "The A-B (tip to ring) resistance loop test result or Subscriber line test result. Unit: kilohm. Infinite resistance: 65535. Valid only if value of hwONTPotsTestLoopResistanceAGResult is failMeasurementReported(4) or passMeasurementReported(8) when loop tested. Valid only if value of hwONTPotsTestSubscriberLineTestResult is not testTimeout(29) or testFailed(30) or invalid(-1) when subscriber line test. " ::= { hwONTPotsTestOprEntry 55 } hwONTPotsTestLoopRingerLoadTestValue OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS read-only STATUS current DESCRIPTION "The ringer load test result. Valid only if value of hwONTPotsTestLoopRingerLoadTestResult is failMeasurementReported(4) or passMeasurementReported(8). Unit: 0.1 REN. " ::= { hwONTPotsTestOprEntry 56 } hwONTPotsTestSubscriberLineTestResult OBJECT-TYPE SYNTAX INTEGER { normal (1), acCurrentAbnormal (12), dcCurrentAbnormal (13), loopCurrentAbnormal (14), loopResistanceAbnormal (15), insulatingResistanceAbnormal (16), capacitanceAbnormal (17), impedanceAbnormal (18), insulatingNotGood (22), brokenLines (23), lineMixing (24), connectedToGround (25), abLinereversal (26), lineLeaking (27), phoneDisconnect (28), testTimeout (29), testFailed (30), invalid (-1) } MAX-ACCESS read-only STATUS current DESCRIPTION "The subscriber line test result. Options: 1. normal(1) -subscriber line test normal 2. acCurrentAbnormal(12) -AC current abnormal 3. dcCurrentAbnormal(13) -DC current abnormal 4. loopCurrentAbnormal(14) -loop current abnormal 5. loopResistanceAbnormal(15) -loop resistance abnormal 6. insulatingResistanceAbnormal(16) -insulating resistance abnormal 7. capacitanceAbnormal(17) -capacitance abnormal 8. impedanceAbnormal(18) -impedance abnormal 9. insulatingNotGood(22) -insulating not good 10. brokenLines(23) -broken lines 11. lineMixing(24) -line mixing 12. connectedToGround(25) -connected to ground 13. abLinereversal(26) -ABLine reversal 14. lineLeaking(27) -line leaking 15. phoneDisconnect(28) -phone disconnect 16. testTimeout(29) -test is time out 17. testFailed(30) -test failed 18. invalid(-1) -a test does not run " ::= { hwONTPotsTestOprEntry 57 } -- End Add Table hwONTPotsTestOprTable hwONTPotsTestLoopDCABVoltValue OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS read-only STATUS current DESCRIPTION "The DC A-B (tip-Ring) volt result of subscriber line test. Unit: volt. " ::= { hwONTPotsTestOprEntry 58 } hwONTPotsTestLoopACABVoltValue OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS read-only STATUS current DESCRIPTION "The AC A-B (Tip-Ring) volt result of subscriber line test. Unit: volt. " ::= { hwONTPotsTestOprEntry 59 } hwONTPotsTestLoopAGCapacitanceValue OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS read-only STATUS current DESCRIPTION "The A->G (Tip-Ground) capacitance result of subscriber line test. Unit: nF " ::= { hwONTPotsTestOprEntry 60 } hwONTPotsTestLoopBGCapacitanceValue OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS read-only STATUS current DESCRIPTION "The B->G (Ring-Ground) capacitance result of subscriber line test. Unit: nF " ::= { hwONTPotsTestOprEntry 61 } hwONTPotsTestLoopABCapacitanceValue OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS read-only STATUS current DESCRIPTION "The A->B (Tip-Ring) capacitance result of subscriber line test. Unit: nF " ::= { hwONTPotsTestOprEntry 62 } hwONTPotsTestLoopDCAGVoltCompensativeValue OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS read-only STATUS current DESCRIPTION "The DC A->G (Tip-Ground) volt compensative result of subscriber line test. Unit: mV " ::= { hwONTPotsTestOprEntry 63 } hwONTPotsTestLoopDCBGVoltCompensativeValue OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS read-only STATUS current DESCRIPTION "The DC B->G (Ring-Ground) volt compensative result of subscriber line test. Unit: mV " ::= { hwONTPotsTestOprEntry 64 } hwONTPotsTestLoopDCABVoltCompensativeValue OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS read-only STATUS current DESCRIPTION "The DC A->B (Tip-Ring) volt compensative result of subscriber line test. Unit: mV " ::= { hwONTPotsTestOprEntry 65 } hwONTPotsTestLoopACAGVoltCompensativeValue OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS read-only STATUS current DESCRIPTION "The AC A->G (Tip-Ground) volt compensative result of subscriber line test. Unit: mVrms " ::= { hwONTPotsTestOprEntry 66 } hwONTPotsTestLoopACBGVoltCompensativeValue OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS read-only STATUS current DESCRIPTION "The AC B->G (Ring-Ground) volt compensative result of subscriber line test. Unit: mVrms " ::= { hwONTPotsTestOprEntry 67 } hwONTPotsTestLoopACABVoltCompensativeValue OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS read-only STATUS current DESCRIPTION "The AC A->B (Tip-Ring) volt compensative result of subscriber line test. Unit: mVrms " ::= { hwONTPotsTestOprEntry 68 } hwONTPotsTestLoopResistanceAGCompensativeValue OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS read-only STATUS current DESCRIPTION "The A-G (tip to ground) resistance compensative result of subscriber line test. Unit: ohm " ::= { hwONTPotsTestOprEntry 69 } hwONTPotsTestLoopResistanceBGCompensativeValue OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS read-only STATUS current DESCRIPTION "The B-G (Ring to ground) resistance compensative result of subscriber line test. Unit: ohm " ::= { hwONTPotsTestOprEntry 70 } hwONTPotsTestLoopResistanceABCompensativeValue OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS read-only STATUS current DESCRIPTION "The A-B (tip to Ring) resistance compensative result of subscriber line test. Unit: ohm " ::= { hwONTPotsTestOprEntry 71 } hwPortTestingListOprTable OBJECT-TYPE SYNTAX SEQUENCE OF HwPortTestingListOprEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "This table is used to query the ports under a test by board. The indexes of this table are hwFrameIndex and hwSlotIndex. " ::= { hwTestCommonMIBObjects 11 } hwPortTestingListOprEntry OBJECT-TYPE SYNTAX HwPortTestingListOprEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "This table is used to query the ports under a test by board. The indexes of this entry are hwFrameIndex and hwSlotIndex. " INDEX { hwFrameIndex, hwSlotIndex } ::= { hwPortTestingListOprTable 1 } HwPortTestingListOprEntry ::= SEQUENCE { hwMeltTestingPortList BITS, hwSearchToneTestingPortList BITS } hwMeltTestingPortList OBJECT-TYPE SYNTAX BITS { port0(0), port1(1), port2(2), port3(3), port4(4), port5(5), port6(6), port7(7), port8(8), port9(9), port10(10), port11(11), port12(12), port13(13), port14(14), port15(15), port16(16), port17(17), port18(18), port19(19), port20(20), port21(21), port22(22), port23(23), port24(24), port25(25), port26(26), port27(27), port28(28), port29(29), port30(30), port31(31), port32(32), port33(33), port34(34), port35(35), port36(36), port37(37), port38(38), port39(39), port40(40), port41(41), port42(42), port43(43), port44(44), port45(45), port46(46), port47(47), port48(48), port49(49), port50(50), port51(51), port52(52), port53(53), port54(54), port55(55), port56(56), port57(57), port58(58), port59(59), port60(60), port61(61), port62(62), port63(63) } MAX-ACCESS read-only STATUS current DESCRIPTION "List of ports under a MELT test on a board. The result is analyzed as follow: If a bit in the bit string is set to 1, it indicates that the corresponding port is under a MELT test. For example, if port 8 is under a MELT test, the eighth character of the string is set to 1, and 0000 0000 1000 0000, namely, # 0x00 0x80 is issued. Note that the value of the bit type starts from 0. " ::= { hwPortTestingListOprEntry 1 } hwSearchToneTestingPortList OBJECT-TYPE SYNTAX BITS { port0(0), port1(1), port2(2), port3(3), port4(4), port5(5), port6(6), port7(7), port8(8), port9(9), port10(10), port11(11), port12(12), port13(13), port14(14), port15(15), port16(16), port17(17), port18(18), port19(19), port20(20), port21(21), port22(22), port23(23), port24(24), port25(25), port26(26), port27(27), port28(28), port29(29), port30(30), port31(31), port32(32), port33(33), port34(34), port35(35), port36(36), port37(37), port38(38), port39(39), port40(40), port41(41), port42(42), port43(43), port44(44), port45(45), port46(46), port47(47), port48(48), port49(49), port50(50), port51(51), port52(52), port53(53), port54(54), port55(55), port56(56), port57(57), port58(58), port59(59), port60(60), port61(61), port62(62), port63(63) } MAX-ACCESS read-only STATUS current DESCRIPTION "List of ports under a searching tone test on a board. The result is analyzed as follow: If a bit in the bit string is set to 1, it indicates that the corresponding port is under a searching tone test. For example, if port 8 is under MELT test, the eighth character of the string is set to 1, and 0000 0000 1000 0000, namely, # 0x00 0x80 is issued. Note that the value of the bit type starts from 0. " ::= { hwPortTestingListOprEntry 2 } hwWettingCurrentOprTable OBJECT-TYPE SYNTAX SEQUENCE OF HwWettingCurrentOprEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "This table is used for enabling the wetting current by setting the wetting current's working voltage, maximum voltage and slope. The index of this table is ifindex. " ::= { hwTestCommonMIBObjects 12 } hwWettingCurrentOprEntry OBJECT-TYPE SYNTAX HwWettingCurrentOprEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "This table is used for enabling the wetting current by setting the wetting current's working voltage, maximum voltage and slope. The index of this entry is ifindex. " INDEX { ifIndex } ::= { hwWettingCurrentOprTable 1 } HwWettingCurrentOprEntry ::= SEQUENCE { hwWettingCurrentOprStatus INTEGER, hwWettingCurrentOprWorkingVoltage Integer32, hwWettingCurrentOprMaximumVoltage Integer32, hwWettingCurrentOprSlope Integer32 } hwWettingCurrentOprStatus OBJECT-TYPE SYNTAX INTEGER { enabled(1), disabled(2), invalid(-1) } MAX-ACCESS read-write STATUS current DESCRIPTION "Wetting Current operation type. Options: 1. enabled(1) -enable a wetting current port 2. disabled(2) -disable a wetting current port 3. invalid(-1) -invalid value enabled(1) and disabled(2) options are available in the set operation. enabled(1), disabled(2) and invalid(-1) options are available in the get operation. " ::= { hwWettingCurrentOprEntry 1 } hwWettingCurrentOprWorkingVoltage OBJECT-TYPE SYNTAX Integer32 (-1 | 1..120) MAX-ACCESS read-write STATUS current DESCRIPTION "Indicates the working voltage of a wetting current port. Options: 1. -1 -Invalid value 2. 1..120 -Valid value range Default: 90 Unit: volt " DEFVAL { 90 } ::= { hwWettingCurrentOprEntry 2 } hwWettingCurrentOprMaximumVoltage OBJECT-TYPE SYNTAX Integer32 (-1 | 1..120) MAX-ACCESS read-write STATUS current DESCRIPTION "Indicates the maximum voltage of a wetting current port. Options: 1. -1 -Invalid value 2. 1..120 -Valid value range Default: 30 Unit: volt " DEFVAL { 30 } ::= { hwWettingCurrentOprEntry 3 } hwWettingCurrentOprSlope OBJECT-TYPE SYNTAX Integer32 (-1 | 200..20000) MAX-ACCESS read-write STATUS current DESCRIPTION "Indicates the slope of a wetting current port. Options: 1. -1 -Invalid value 2. 200..20000 -Valid value range Default: 200 Unit: volt per second " DEFVAL { 200 } ::= { hwWettingCurrentOprEntry 4 } hwLoopLineTestMeltChipStateTable OBJECT-TYPE SYNTAX SEQUENCE OF HwLoopLineTestMeltChipStateEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "This table is used for manually starting a MELT chip status check on an xDSL board, and obtaining the status of the MELT chip. The indexes of this table are hwFrameIndex and hwSlotIndex. " ::= { hwTestCommonMIBObjects 13 } hwLoopLineTestMeltChipStateEntry OBJECT-TYPE SYNTAX HwLoopLineTestMeltChipStateEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "This table is used for manually starting a MELT chip status check on an xDSL board, and obtaining the status of the MELT chip. The indexes of this table are hwFrameIndex and hwSlotIndex. " INDEX { hwFrameIndex, hwSlotIndex } ::= { hwLoopLineTestMeltChipStateTable 1 } HwLoopLineTestMeltChipStateEntry ::= SEQUENCE { hwBoardMeltChipStateCheckConfig INTEGER, hwBoardMeltChipStateCheckResult INTEGER, hwPortMeltChipStateList BITS, hwBoardMeltChipStateCheckDCVolUpperLimit Integer32, hwBoardMeltChipStateCheckDCVolLowerLimit Integer32 } hwBoardMeltChipStateCheckConfig OBJECT-TYPE SYNTAX INTEGER { enabled(1), invalid(-1) } MAX-ACCESS read-write STATUS current DESCRIPTION "Enables the melt chip status check of the board. Options: 1. enabled(1) -Enables the melt chip status check 2. invalid(-1) -Invalid value enabled(1) option is available in the set operation. invalid(-1) option is available in the get operation. " ::= { hwLoopLineTestMeltChipStateEntry 1 } hwBoardMeltChipStateCheckResult OBJECT-TYPE SYNTAX INTEGER { success(1), fail(2) } MAX-ACCESS accessible-for-notify STATUS current DESCRIPTION "Melt chip status check result. Options: 1. success(1) -Melt chip status check success 2. fail(2) -Melt chip status check fail " ::= { hwLoopLineTestMeltChipStateEntry 2 } hwPortMeltChipStateList OBJECT-TYPE SYNTAX BITS { port0(0), port1(1), port2(2), port3(3), port4(4), port5(5), port6(6), port7(7), port8(8), port9(9), port10(10), port11(11), port12(12), port13(13), port14(14), port15(15), port16(16), port17(17), port18(18), port19(19), port20(20), port21(21), port22(22), port23(23), port24(24), port25(25), port26(26), port27(27), port28(28), port29(29), port30(30), port31(31), port32(32), port33(33), port34(34), port35(35), port36(36), port37(37), port38(38), port39(39), port40(40), port41(41), port42(42), port43(43), port44(44), port45(45), port46(46), port47(47), port48(48), port49(49), port50(50), port51(51), port52(52), port53(53), port54(54), port55(55), port56(56), port57(57), port58(58), port59(59), port60(60), port61(61), port62(62), port63(63) } MAX-ACCESS read-only STATUS current DESCRIPTION "Lists the status of the MELT chip for xDSL port. The result is analyzed as follow: If a bit in the bit string is set to 1, the MELT chip of a port is faulty. For example, if the MELT chip of port 8 is faulty, the eighth character of the string is set to 1, and 0000 0000 1000 0000, namely, # 0x00 0x80 is issued. Note that the value of the bit type starts from 0. " ::= { hwLoopLineTestMeltChipStateEntry 3 } hwBoardMeltChipStateCheckDCVolUpperLimit OBJECT-TYPE SYNTAX Integer32 (2147483647 | -60..60) MAX-ACCESS read-write STATUS current DESCRIPTION "Indicates the upper limit of dc-voltage for melt chip status check. Options: 1. -60..60 -Valid value range 2. 2147483647 -Invalid value Default: 1 Unit: volt " DEFVAL { 1 } ::= { hwLoopLineTestMeltChipStateEntry 4 } hwBoardMeltChipStateCheckDCVolLowerLimit OBJECT-TYPE SYNTAX Integer32 (2147483647 | -60..60) MAX-ACCESS read-write STATUS current DESCRIPTION "Indicates the lower limit of dc-voltage for melt chip status check. Options: 1. -60..60 -Valid value range 2. 2147483647 -Invalid value Default: -1 Unit: volt " DEFVAL { -1 } ::= { hwLoopLineTestMeltChipStateEntry 5 } hwMeltChipStateCheck OBJECT IDENTIFIER ::= { hwTestCommonMIBObjects 14 } hwMeltChipStateCheckConfig OBJECT-TYPE SYNTAX INTEGER { enabled(1), disabled(2) } MAX-ACCESS read-write STATUS current DESCRIPTION "Enables or disables MELT chip status check. Options: 1. enabled(1) -Enables MELT chip status check 2. disabled(2) -Disables MELT chip status check Default: disabled(2) " ::= { hwMeltChipStateCheck 1 } hwMeltChipStateCheckTime OBJECT-TYPE SYNTAX TimeTicks MAX-ACCESS read-write STATUS current DESCRIPTION "Indicates the start time of the MELT chip status check. This value can be converted into the hexadecimal number 0x00hhmmss (hh representing hour, mm representing minute, and ss representing second), and then can be converted into the value of the object through a decimal conversion. If the time of MELT chip status check needs to be set to 22:30:00, the corresponding value is 0x00161E00=1449472, with 1449472 being the set value. " ::= { hwMeltChipStateCheck 2 } hwMeltChipStateCheckDCVolUpperLimit OBJECT-TYPE SYNTAX Integer32 (-60..60) MAX-ACCESS read-write STATUS current DESCRIPTION "Indicates the upper limit of dc-voltage for melt chip status check. Options: 1. -60..60 -Valid value range Default: 1 Unit: volt " ::= { hwMeltChipStateCheck 3 } hwMeltChipStateCheckDCVolLowerLimit OBJECT-TYPE SYNTAX Integer32 (-60..60) MAX-ACCESS read-write STATUS current DESCRIPTION "Indicates the lower limit of dc-voltage for melt chip status check. Options: 1. -60..60 -Valid value range Default: -1 Unit: volt " ::= { hwMeltChipStateCheck 4 } END