Paradyne 8620, 8820 manual mpeControl.mib 2 Object Type Supported, MpeDevControlTable

Page 97

Table 1-96. mpe_Control.mib (2 of 2)

Table

Object

Type

Supported

 

 

 

 

mpeDevFirmwareControlTable

 

 

Yes

 

 

 

 

 

entPhysicalIndex

 

Yes

 

 

 

 

 

mpeDevFirmwareControlIndex(1)

INTEGER

Yes

 

 

 

 

 

mpeDevFirmwareControlRelease(2)

DisplayString

Yes

 

 

 

 

 

mpeDevFirmwareControlOperStatus(4)

INTEGER

Yes

 

 

 

 

 

mpeDevFirmwareControlAdminStatus(5)

INTEGER

Yes

 

 

 

 

9.3.1mpeDevControlTable:

This table is indexed on the entPhysicalIndex and contains mpeDevControlReset object which is used to reset the associated entity (for example, card). Writing the value reset (2) to this object initiates a Hardware power-on reset of the entity. Writing the value resetToFactoryDefaults (3) causes the entity to re-configure itself with factory defaults. Writing the value of resetToNewActiveConfig (4) causes a new configuration to be applied without resetting the unit. The value read from this object is noOp(1).

9.3.1.1mpeDevFileXferConfigTable:

The Paradyne FileXfer Client Config Table is indexed by the entPhysicalIndex. Use of the File Tranfer MIB could be used with other MIBS in the following manner:

a)Use another MIB/means to verify available space /make room for a file to be transfered to this device

b)Use this MIB to download the file.

c)Use another MIB/means to select the file you want to make active if your selecting firmware for example.

d)Use another MIB/means to reset the device.

A management station wishing to initiate a file transfer needs to create an entry in this table. To do so, you must first identify the entPhysicalIndex of the device you intend to do the transfer with. You should then create the associated instance of the row status. It must also, either in the same or in successive PDUs, create an instance of mpeDevFileXferFileName, mpeDevFileXferFileType, mpeDevFileXferServerIpAddress, mpeDevFileXferOperation. It should also modify the default values for the other configuration objects if the defaults are not appropriate. Once the appropriate instance of all the configuration objects have been created, either by an explicit SNMP set request or by default, the row status should be set to active to initiate the request. Note that this entire procedure may be initiated via a single set request which specifies a row status of createAndGo as well as specifies valid values for the non-defaulted configuration objects. Once the MpeDevFileXferConfigEntry request has been created (that is, the mpeDevFileXferRowStatus has been made active), the entry cannot be modified - the only two operations possible after this are read and delete the row. Once the request completes, the management station should retrieve the values of the status objects of interest, and should then delete the entry. In order to prevent old entries from clogging the table, entries could be aged out, but an entry will never be deleted within 5 minutes of completing.

8000-A2-GB30-10

November 2003

91

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Contents Hotwire 8620 Copyright 2003 Paradyne Corporation All rights reserved Contents Contents November Section Description About This GuideDocument Number Document Title Product-Related DocumentsSupported RFCs and MIBs 1 GranDSLAM 3.2 Network Management InterfaceName Description IMA MIB Supported RFCs and MIBs 2Supported RFCs and MIBs 3 PDN-ENTITY-REDUNDANCY-MIB Supported RFCs and MIBs 4PDN-DS1EXT-MIB Supported RFCs and MIBs 5Name/Description Other Supported RFCs Used as Guidelines for ImplementationSummary of Traps 1 Description VarBinds Standard Traps Standards Compliance for Snmp TrapsDSX Traps ATM-M4 TrapsEntity MIB Traps Summary of Traps 2 Description VarBindsShdsl MIB Traps Summary of Traps 3 Description VarBinds Sonet Linear APS MIB Traps Summary of Traps 4 Description VarBindsEnterprise Specific Traps Summary of Traps 5 Description VarBinds Adsl Specific TrapsSummary of Traps 6 Description VarBinds Summary of Traps 7 Description VarBinds IMA TrapsStandards Compliance to Snmp MIBs GranDSLAM Interfaces System Group, MIB-II RFC Management Information Base MIB-II RFCSysDescr Object system SysServices Layer L Functionality Value2L-1 Sum SysServices Object systemSysObjectID Object system SysUpTime Object systemIfNumber Object interfaces Evolution of the Interfaces Group of MIB-II RFCIfIndex Object ifEntry IfIndex schemeGranDSLAM R3.2 Interface List Layer Supported Maximum IfName Interface indexes ifIndex IfDescr Object ifEntry IfIndex AssignmentsIfMtu Object ifEntry IfType Object ifEntryIfMtu Interface IfMtuIfSpeed Object ifEntry IfAdminStatus Object ifEntryIfSpeed Interface IfSpeedInterface IfAdminStatus IfAdminStatusIfOperStatus Object ifEntry IfOperStatusIfLastChange Object ifEntry IMA Atmup AAL5 ETH1 Sonet IfInDiscards Object ifEntry 13 -16. ifInDiscards Interface IfInErrors Object ifEntry 14 -17. ifInErrors InterfaceETH1 IMA IfOutNUcasts Object ifEntry 18 -21. ifOutNUcasts Interface IfOutQLen ifEntry IfOutErrors Object ifEntry InterfaceIfSpecific ifEntry IfLinkUpDownTrapEnable Object ifXEntryExtension to the Intf. Table ifXTable RFC 24. Extension to the Interface TableIfStackHigherLayer Object ifStackEntry Interface Stack Group RFCIfStackStatus Object ifStackEntry IfStackLowerLayer Object ifStackEntryTransmission Group, MIB-II RFC 1213 Supported Snmp Group, MIB-II RFCNovember 8000-A2-GB30-10 Physical Layer Adsl MIB RFC 2662 -28. Adsl MIB Comments 31. ReachDSL MIB Comments Paradyne ReachDSL MIB pdnreachDSL.mibParadyne DS1-EXT MIB PDN-DS1EXT-MIB DS1 MIB RFC 2495 -32. DS1 MIB Comments33. DS1-EXT MIB Comments PdnDs1ExtConfLineLengthType RWPdnDs1ExtConfLineBuildOut RW PdnDs1ExtConfConnector RWSonetMediumEntry -35. sonetMediumEntry Comments SONET-MIB RFC 2558 -34. SONET-MIB CommentsSonetSESthresholdSet SonetPathCurrentWidthBy default, this object is enabled DevSonetStatusChangeTrapEnableDevSonetXmitClkSrc DevSonetStatusLastChange37. Shdsl MIB Comments NewSpectrumMgmtGeneralConfigEntrySpectrum Management pdnspectrummgmt.mib 38. Spectrum Management CommentsLink Layer ATM AtoM MIB RFC ATM Interface Configuration Parameter Group RFC39. ATM MIB Comments AtmInterfaceMaxVpcs Object atmInterfaceConfEntryAtmInterfaceMaxVccs AtmInterfaceMaxVccs Object atmInterfaceConfEntryInterface AtmInterfaceMaxVccs AtmInterfaceConfVpcs Object atmInterfaceConfEntryAtmInterfaceIlmiVci Access AtmInterfaceIlmiVpi AccessAtmInterfaceMaxActiveVciBits Object atmInterfaceConfEntry AtmInterfaceMaxActiveVciBitsAtmInterfaceMyNeighborIfName Access AtmInterfaceMyNeighborIpAddress AccessAtmInterfaceMyNeighborIfName Object atmInterfaceConfEntry AtmInterfaceCurrentMaxVpiBits Object atmInterfaceConfEntryAtmInterfaceCurrentMaxVciBits Object atmInterfaceConfEntry AtmInterfaceTCAlarmState Object atmInterfaceTCEntryAtmInterfaceSubscrAddress Object atmInterfaceConfEntry AtmInterfaceSubscrAddressVirtual Channel Link VCL Configuration Group RFC AtmServiceCategory Object atmTrafficDescrParamEntryATM Traffic Descriptor Group RFC 55. Traffic Descriptor TypesAtmVclLastChange Object atmVclEntry AtmVclOperStatus Object atmVclEntryAtmVccAalType Object atmVclEntry AtmVccAal5CpcsTransmitSduSize Object atmVclEntryAtmVcCrossConnectRowStatus Object atmVcCrossConnectEntry Virtual Channel Cross Connect Group RFCAtmfM4MIB- Snmp M4 Network Element View MIB atmfM4MIB AtmfM4TcAlarmSeverityIndexObject atmfM4TcAdapterEntry56. Object Supported in ATM Forum MIB Type TC Adapter Layer Table atmfM4TcAdapterEntryATM Cell Layer Table atmfM4ATMLayerEntry AtmfM4VcXConnRecover Object atmfM4VcXConnEntry1AtmfM4IfType Object atmfM4ATMLayerEntry AtmfM4IfSubscriberAddress Object atmfM4ATMLayerEntry57. Paradyne Extensions to ATM MIBs 1 Sup Object Type Ported 58. ATM Loopback Comments ATM LoopbackGoto tryagain IMA MIB AF-PHY-0086.001 -59. IMA MIB Object Entity MIB version 2 Objects supported Syntax Access Status PortedEntityPhysical Group 60. entPhysicalEntry entPhysicalTable 1 1 Sup ObjectEntPhysicalIndex 60. entPhysicalEntry entPhysicalTable 1 2 Sup Object61. entPhysicalIndex Entity Comments EntPhysicalDescrEntPhysicalVendorType 62. entPhysicalDescr Entity Description64. entPhysicalVendorType 1 Entity EntPhysicalVendorType EntPhysicalContainedIn 64. entPhysicalVendorType 2 Entity EntPhysicalVendorType65. entPhysicalContainedIn Entity EntPhysicalContainIn 66. entPhysicalClass Entity EntPhysicalClass EntPhysicalClassEntPhysicalParentRelPos 68. entPhysicalName Entity EntPhysicalName EntPhysicalNameEntPhysicalHardwareRev EntPhysicalSoftwareRev 69. entPhysicalHardwareRev Entity EntPhysicalHardwareRevEntPhysicalFirmwareRev 70. entPhysicalFirmwareRev 1 Entity EntPhysicalFirmwareRevEntPhysicalSerialNum 70. entPhysicalFirmwareRev 2 Entity EntPhysicalFirmwareRev71. entPhysicalSerialNum Entity EntPhysicalSerialNum EntPhysicalMfgNameEntPhysicalModelName 72. entPhysicalMfgName Entity EntPhysicalMfgName73. entPhysicalModelName 1 Entity EntPhysicalModelName EntPhysicalAlias 73. entPhysicalModelName 2 Entity EntPhysicalModelName74. entPhysicalAlias Entity EntPhysicalAlias 75. entPhysicalAssetID Entity EntPhysicalAssetID EntPhysicalAssetIDEntPhysicalIsFRU 76. entPhysicalIsFRU 1 EntityEntityLogical Group 76. entPhysicalIsFRU 2 Entity EntPhysicalIsFRU77. entLogicalEntry entLogicalTable Sup Object EntLogicalIndexEntLogicalIPDomain EntLogicalTAddressEntLogicalContextEngineID EntLogicalContextNameEntPhysicalChildIndex Entity EntPhysicalIndex Semantic MpeEntPhysicalExtAdminStatusEntityGeneral Group EntityNotifications GroupMpeEntPhysicalExtOperStatus EntPhySensorValueUpdateRateEntity Sensor MIB RFC 82. Entity Sensor MIB CommentsIfMauIfIndex RO IfMauTable Supporte Object Type AccessIfMauIndex RO IfMauType ROIfMauStatus RO IfMauDefaultType RWIfMauAutoNegSupported RO IfMauTypeListBits ROPdnMgmtIpPortTable 85. PDN-MGMT-IP-MIB Object Type SupportedPdnMgmtIpPortIndex NA PdnMgmtBootIfIndex RW PdnMgmtIpConfigMode RWPdnMgmtBootVpi RW PdnMgmtBootVci RWPdnMgmtAtmIfIndex NA PdnMgmtAtmInvArpTablePdnMgmtAtmVpi NA PdnMgmtAtmVci NASupporting MIBs SNMP-MPD-MIB RFC SnmpEngineBootsSnmpEngineID SnmpEngineTimeSNMPv2 traps Default values SNMPv1 traps Default valuesSnmpTargetParmsTable SnmpUnavailableContexts and snmpUnknownContextsUser-based Security Model USM RFC View-based Access Control VacmSupporting MIBs StatisticsVacmContextTable VacmAccessTableVacmSecurityToGroupTable VacmViewTreeFamilyTable87. pdnLinkFaultMgmtApsSelection Comments Link Fault ManagementApsConfigMode ApsConfigRowStatusPdnLLSConfigSelection PdnLLSConfigGroupName89. pdnLinkFaultMgmtSwitchoverSelection Comments Link Load Sharing LLS PDN-LINK-LOAD-SHARING-MIB.mibPdnRedunAlarmStatus PdnRedunCommandPdnRedunNotificationEnable PdnRedunEntityState91. mpeDevConfigClockSrcEntry Object Type Access Supported Timing and Clocking Paradyne mpeConfig MIB mpeConfig.mibDevConfigTestTimeout 93. pdntime.mib Object Type Access Supported DevConfigTestDurationParadyne Time Mib pdntime.mib DevDateAndTime RWDevNTPOffsetFromUTC DevNTPEnable RWSysDevUserAccountAccessPartition RC SysDevUserAccountUserPassword RC94. pdndslam.mib Objects Supported Type SysDevUserAccountTableParadyne Security MIB pdnSecurity.mib SecurityMgrSnmpAccess RW95. pdnSecurity.mib Object Type Supported DevSecurityMgrValidation RWSecurityMgrFtpAccess RW SecurityMgrTelnetAccessRWSecurityMgrTrapAccess RW SecurityMgrRowStatus RWMpeDevFileXferFileType3 96. mpeControl.mib 2 Object Type Supported MpeDevFileXferConfigTableMpeDevControlTable MpeDevFirmwareControlTable PdnSyslogIPAddr RW PdnSyslogStatus RWPdnSyslogLevel PdnSyslogPort RWPdnSyslogRemoteDaemon RW PdnSyslogSeverityThreshold RWPdnEntitySyslogTable NA PdnEntitySyslogNumber NAPdnSyslogRateLimiting RW Traps PdnDevConfigTrapsEnable RW pdnTrapMgr.mibParadyne Health and Status MIB mpeHealthAndStatus.mib 98. Health and Status MIB Comments99. devLastTrapString 2 DevLastTrapString DSX Traps Adsl Specific Traps 99. devLastTrapString 3 DevLastTrapString99. devLastTrapString 4 DevLastTrapString IMA Traps Index IN-2 IN-3 IN-4
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8620, 8820 specifications

The Paradyne 8620 and Hotwire 8620 GranDSLAM are advanced DSLAM devices designed to provide high-speed broadband access over existing copper lines. This installation guide will outline the main features, technologies, and characteristics of these powerful units.

The Paradyne 8620 is engineered to support various DSL technologies, including ADSL, ADSL2+, and VDSL. This versatility allows operators to deploy services tailored to the needs of their customers, enabling data rates of up to 50 Mbps downstream, making it an ideal choice for meeting increasing bandwidth demands. The Hotwire 8620 GranDSLAM shares many similarities, focusing on providing enhanced service delivery for both residential and business users.

One of the key features of the GranDSLAM series is its modular architecture. Both models support up to 48 subscriber line interfaces in a single chassis, which provides significant scalability. Operators can seamlessly increase capacity by adding additional cards to accommodate growth. The devices are designed for easy deployment and management, equipped with an intuitive web-based interface that simplifies configuration and monitoring tasks.

Both units also feature advanced management capabilities, including support for SNMP and TR-069 protocols. This allows service providers to manage and provision devices remotely, significantly reducing operational costs and improving service reliability. The GranDSLAM models can also provide detailed diagnostic information, helping operators quickly identify and troubleshoot issues.

The Paradyne and Hotwire series ensure interoperability with various customer premises equipment, enabling service providers to offer bundled services such as voice, video, and data over the same connection. This capability is enhanced by the units’ ability to support VLANs and QoS features, ensuring that high-priority traffic receives the necessary bandwidth.

In addition to performance, the 8620 series is built with energy efficiency in mind. By utilizing power-saving features, these units help reduce overall operational costs while still providing reliable service.

Overall, the Paradyne 8620 and Hotwire 8620 GranDSLAM are robust solutions for service providers looking to deliver high-speed broadband services. Their modular design, advanced management capabilities, and support for multiple DSL technologies make them an excellent choice for today’s demanding telecommunications environment. With these advantages, operators can effectively meet customer needs while preparing for future growth and technology advancements.
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