1 CAMBIUM-PTP800-MIB DEFINITIONS ::= BEGIN 2 3 IMPORTS 4 MODULE-IDENTITY, OBJECT-TYPE, NOTIFICATION-TYPE, 5 Integer32, IpAddress, Counter64, 6 enterprises 7 FROM SNMPv2-SMI 8 MODULE-COMPLIANCE, OBJECT-GROUP, NOTIFICATION-GROUP 9 FROM SNMPv2-CONF 10 DisplayString 11 FROM SNMPv2-TC 12 InetAddress, InetAddressType 13 FROM INET-ADDRESS-MIB; 14 15 cambium MODULE-IDENTITY 16 LAST-UPDATED "201402281518Z" 17 ORGANIZATION "Cambium Networks Ltd." 18 CONTACT-INFO 19 "Post: Simon Whitaker 20 Cambium Networks Ltd. 21 Unit B2, 22 Linhay Business Park, 23 Eastern Road, 24 Ashburton, 25 Devon. 26 TQ13 7UP 27 United Kingdom 28 Phone: +44 (0) 1364 655 500 29 Email: simon.whitaker@cambiumnetworks.com" 30 DESCRIPTION 31 "MIB for licenced microwave point to point wireless ethernet bridge." 32 REVISION "201402281518Z" 33 DESCRIPTION "PTP800-06-00: Added objects and traps to support IPv6 management agent. 34 Renamed 'iPAddress' to 'iPv4Address'. 35 Added softwareVersionRemoteCompatibility object and trap." 36 REVISION "201204201227Z" 37 DESCRIPTION "PTP800-05-00: Added objects and traps to support IRFU, and 1+1 hot standby with receive diversity. 38 Added queue mapping objects for L3 QOS. 39 Added securityLevel to the licence group. 40 Added syslogClientTrap. 41 Updated objects and traps for multiple secure SNTP servers. 42 Renamed 'oDU' objects to 'rFU'. 43 Renamed antennaProtection to numberOfAntennas. 44 Renamed 'vLANPriority' objects to 'ethernetPriority'. 45 Renamed 'l2CPQueueMapping' objects to 'l2CPPriority'. 46 Renamed 'fipsOperationalMode' objects to 'secureMode'. 47 Renamed 'motorolaPTP' productVariant enumerations to 'pTP'. 48 Renamed sNTPSynchronizationFailed bit to sNTPSync in enabledDiagnosticAlarms. 49 Renamed activeElapsedTime to activeCounterMeasurementPeriod. 50 Corrected spelling of 'advertisement' attributes." 51 REVISION "201108191229Z" 52 DESCRIPTION "PTP800-04-00: Renamed oDUIfSynthLockAlarm to oduCommonSynthLockAlarm. 53 Increased range for radioLicenseRegion, radioLicenseBandwidth, transmitCapacityLimitDetail and rFUStatus. 54 Added objects for http, https, and telnet. 55 Added objects and traps for syslog. 56 Replaced single instance of trap receiver with a table." 57 REVISION "201103161723Z" 58 DESCRIPTION "PTP800-03-00: Added objects and traps to support 1+1 Hot Standby. 59 Updated range and description text for a number of objects. 60 Made enableTransmission read-write. Added enableDiagnosticAlarms. 61 Made byteErrorRatio and codeWordErrorRatio 64 bit counters." 62 REVISION "201009301629Z" 63 DESCRIPTION "PTP800-02-04: Updated & re-formatted description text. Corrected DisplayString sizes. Changed longitude and latitude types. 64 Updated transmitCapacityLimit & dataPortCopperForcedConfiguration ranges." 65 REVISION "201007301307Z" 66 DESCRIPTION "PTP800-02-02: Added new phyStatusGroup objects. Updated oDUFreqSpacing & linkLoss ranges." 67 REVISION "201005271952Z" 68 DESCRIPTION "PTP800-02-01: data & management port status traps, writeable auto-negotiation." 69 REVISION "201003311309Z" 70 DESCRIPTION "PTP800-02-00: BIT STRING types now OCTET STRING. Added linkName, siteName, & support for l2CPQueueMapping & ACM ranges." 71 REVISION "201001041833Z" 72 DESCRIPTION "PTP800-01-01" 73 REVISION "200910211426Z" 74 DESCRIPTION "PTP800-01-00" 75 ::= { enterprises 17713 } 76 77 -- Groups in cambium 78 ptp OBJECT IDENTIFIER ::= { cambium 1 } 79 ptmp OBJECT IDENTIFIER ::= { cambium 2 } 80 ptp800 OBJECT IDENTIFIER ::= { cambium 8 } 81 82 -- Groups in ptp800 83 bridge OBJECT IDENTIFIER ::= { ptp800 4 } 84 configuration OBJECT IDENTIFIER ::= { ptp800 5 } 85 ethernet OBJECT IDENTIFIER ::= { ptp800 6 } 86 licence OBJECT IDENTIFIER ::= { ptp800 8 } 87 management OBJECT IDENTIFIER ::= { ptp800 9 } 88 phyControl OBJECT IDENTIFIER ::= { ptp800 10 } 89 phyStatus OBJECT IDENTIFIER ::= { ptp800 12 } 90 alarms OBJECT IDENTIFIER ::= { ptp800 13 } 91 smtp OBJECT IDENTIFIER ::= { ptp800 15 } 92 snmpControl OBJECT IDENTIFIER ::= { ptp800 16 } 93 sntp OBJECT IDENTIFIER ::= { ptp800 17 } 94 reset OBJECT IDENTIFIER ::= { ptp800 18 } 95 versions OBJECT IDENTIFIER ::= { ptp800 19 } 96 pubStats OBJECT IDENTIFIER ::= { ptp800 20 } 97 encryption OBJECT IDENTIFIER ::= { ptp800 22 } 98 rfu OBJECT IDENTIFIER ::= { ptp800 23 } 99 radioLicense OBJECT IDENTIFIER ::= { ptp800 24 } 100 protectionConfig OBJECT IDENTIFIER ::= { ptp800 25 } 101 protectionStatus OBJECT IDENTIFIER ::= { ptp800 26 } 102 protectionStats OBJECT IDENTIFIER ::= { ptp800 27 } 103 aAAControl OBJECT IDENTIFIER ::= { ptp800 29 } 104 syslogControl OBJECT IDENTIFIER ::= { ptp800 28 } 105 supplementary OBJECT IDENTIFIER ::= { ptp800 96 } 106 ptpGroups OBJECT IDENTIFIER ::= { ptp800 98 } 107 ptpTraps OBJECT IDENTIFIER ::= { ptp800 99 } 108 ptpTrapPrefix OBJECT IDENTIFIER ::= { ptpTraps 0 } 109 110 -- Compliance information 111 -- 112 ptpCompliance MODULE-COMPLIANCE 113 STATUS current 114 DESCRIPTION 115 "The compliance statement for the Cambium PTP MIB" 116 MODULE -- this module 117 MANDATORY-GROUPS { bridgeGroup 118 , configurationGroup 119 , ethernetGroup 120 , licenceGroup 121 , managementGroup 122 , phyControlGroup 123 , phyStatusGroup 124 , alarmsGroup 125 , smtpGroup 126 , snmpControlGroup 127 , sntpGroup 128 , resetGroup 129 , versionsGroup 130 , pubStatsGroup 131 , encryptionGroup 132 , rfuGroup 133 , radioLicenseGroup 134 , protectionConfigGroup 135 , protectionStatusGroup 136 , protectionStatsGroup 137 , aAAControlGroup 138 , syslogControlGroup 139 , supplementaryGroup 140 , notificationsGroup 141 } 142 ::= { ptp800 97 } 143 144 bridgeGroup OBJECT-GROUP 145 OBJECTS { localPacketFiltering 146 } 147 STATUS current 148 DESCRIPTION "The bridge object group." 149 ::= { ptpGroups 4 } 150 151 configurationGroup OBJECT-GROUP 152 OBJECTS { iPv4Address 153 , subnetMask 154 , gatewayIPAddress 155 , maximumTransmitPower 156 , antennaGain 157 , rFFeederLoss 158 , remoteIPAddress 159 , remoteMACAddress 160 , enableTransmission 161 , aTPCEnable 162 , iFCableLength 163 , linkName 164 , siteName 165 , diverseAntennaGain 166 , diverseRfFeederLoss 167 , iPv6Address 168 , iPVersion 169 , iPv6AutoConfiguredLinkLocalAddress 170 , iPv6PrefixLength 171 , iPv6GatewayAddress 172 , remoteInternetAddressType 173 , remoteInternetAddress 174 } 175 STATUS current 176 DESCRIPTION "The configuration object group." 177 ::= { ptpGroups 5 } 178 179 ethernetGroup OBJECT-GROUP 180 OBJECTS { dataPortCopperAutoNegotiation 181 , dataPortCopperAutoNegAdvertisement 182 , dataPortStatus 183 , dataPortSpeedAndDuplex 184 , dataPortWirelessDownAlert 185 , useVLANForManagementInterfaces 186 , vLANManagementPriority 187 , vLANManagementVIDValidation 188 , vLANManagementVID 189 , ethernetPriorityTableNumber 190 , managementPortAutoNegotiation 191 , managementPortAutoNegAdvertisement 192 , managementPortStatus 193 , managementPortSpeedAndDuplex 194 , managementPortWirelessDownAlert 195 , managementMode 196 , managementCommittedInformationRate 197 , dataPortPauseFrames 198 , transmitCapacityLimit 199 , transmitCapacityLimitDetail 200 , dataPortEthernetMediaTypeToUse 201 , dataPortCopperForcedConfiguration 202 , managementPortForcedConfiguration 203 , l2CPPriorityTableNumber 204 , unknownNetworkPriorityQueueMapping 205 , dSCPManagementPriority 206 , qOSPriorityScheme 207 , iPDSCPPriorityTableNumber 208 , mPLSTCPriorityTableNumber 209 , ethernetPriorityQueueMapping 210 , l2CPPriorityQueueMapping 211 , iPDSCPPriorityQueueMapping 212 , mPLSTCPriorityQueueMapping 213 } 214 STATUS current 215 DESCRIPTION "The ethernet object group." 216 ::= { ptpGroups 6 } 217 218 licenceGroup OBJECT-GROUP 219 OBJECTS { productVariant 220 , productName 221 , ethernetFiberSupport 222 , transmitCapacity 223 , encryptionAlgorithmsAvail 224 , securityLevel 225 } 226 STATUS current 227 DESCRIPTION "The licence object group." 228 ::= { ptpGroups 8 } 229 230 managementGroup OBJECT-GROUP 231 OBJECTS { linkNameMismatch 232 , alignmentMode 233 , tFTPServerIPAddress 234 , tFTPServerPortNumber 235 , tFTPSoftwareUpgradeFileName 236 , tFTPStartSoftwareUpgrade 237 , tFTPSoftwareUpgradeStatus 238 , tFTPSoftwareUpgradeStatusText 239 , tFTPSoftwareUpgradeStatusAdditionalText 240 , hTTPAccessEnabled 241 , telnetAccessEnabled 242 , hTTPPortNumber 243 , hTTPSPortNumber 244 , telnetPortNumber 245 , hTTPSAccessEnabled 246 , tFTPServerInternetAddressType 247 , tFTPServerInternetAddress 248 } 249 STATUS current 250 DESCRIPTION "The management object group." 251 ::= { ptpGroups 9 } 252 253 phyControlGroup OBJECT-GROUP 254 OBJECTS { remoteMaximumTransmitPower 255 , minModulation 256 , minCodeRate 257 , maxModulation 258 , maxCodeRate 259 } 260 STATUS current 261 DESCRIPTION "The phyControl object group." 262 ::= { ptpGroups 10 } 263 264 phyStatusGroup OBJECT-GROUP 265 OBJECTS { receivePower 266 , vectorError 267 , transmitPower 268 , linkLoss 269 , receiveModulation 270 , transmitModulation 271 , receiveCodeRate 272 , transmitCodeRate 273 } 274 STATUS current 275 DESCRIPTION "The phyStatus object group." 276 ::= { ptpGroups 12 } 277 278 alarmsGroup OBJECT-GROUP 279 OBJECTS { unitOutOfCalibration 280 , encryptionEnabledMismatch 281 , dataPortDisabledWarning 282 , dataPortFiberStatus 283 , dataPortConfigurationMismatch 284 , softwareVersionRemoteCompatibility 285 , managementPortDisabledWarning 286 , rFUStatus 287 , managementPortConfigurationMismatch 288 , secureModeAlarm 289 , rFUPlatformCompatibility 290 , rFUProtectionCompatibility 291 } 292 STATUS current 293 DESCRIPTION "The alarms object group." 294 ::= { ptpGroups 13 } 295 296 smtpGroup OBJECT-GROUP 297 OBJECTS { sMTPEmailAlert 298 , sMTPServerIPAddress 299 , sMTPServerPortNumber 300 , sMTPSourceEmailAddress 301 , sMTPDestinationEmailAddress 302 , sMTPEnabledMessages 303 , sMTPServerInternetAddressType 304 , sMTPServerInternetAddress 305 } 306 STATUS current 307 DESCRIPTION "The smtp object group." 308 ::= { ptpGroups 15 } 309 310 snmpControlGroup OBJECT-GROUP 311 OBJECTS { sNMPPortNumber 312 , sNMPCommunityString 313 , sNMPTrapVersion 314 , sNMPEnabledTraps 315 , enabledDiagnosticAlarms 316 , enabledDiagnosticProtectionAlarms 317 , sNMPTrapTableNumber 318 , sNMPTrapIPAddress 319 , sNMPTrapPortNumber 320 , sNMPTrapInternetAddressType 321 , sNMPTrapInternetAddress 322 , sNMPTrapReceiverEnabled 323 } 324 STATUS current 325 DESCRIPTION "The snmpControl object group." 326 ::= { ptpGroups 16 } 327 328 sntpGroup OBJECT-GROUP 329 OBJECTS { sNTPState 330 , sNTPPollInterval 331 , sNTPSync 332 , sNTPLastSync 333 , systemClock 334 , timeZone 335 , daylightSaving 336 , sNTPPrimaryServer 337 , sNTPPrimaryServerDeadTime 338 , sNTPServerRetries 339 , sNTPServerTimeout 340 , sNTPServerTableNumber 341 , sNTPServerIPAddress 342 , sNTPServerPortNumber 343 , sNTPServerResponse 344 , sNTPServerInternetAddressType 345 , sNTPServerInternetAddress 346 } 347 STATUS current 348 DESCRIPTION "The sntp object group." 349 ::= { ptpGroups 17 } 350 351 resetGroup OBJECT-GROUP 352 OBJECTS { systemReset 353 } 354 STATUS current 355 DESCRIPTION "The reset object group." 356 ::= { ptpGroups 18 } 357 358 versionsGroup OBJECT-GROUP 359 OBJECTS { softwareVersion 360 , hardwareVersion 361 , secondarySoftwareVersion 362 , bootVersion 363 } 364 STATUS current 365 DESCRIPTION "The versions object group." 366 ::= { ptpGroups 19 } 367 368 pubStatsGroup OBJECT-GROUP 369 OBJECTS { receiveDataRate 370 , transmitDataRate 371 , aggregateDataRate 372 , wirelessLinkAvailability 373 , wirelessLinkStatus 374 , byteErrorRatio 375 , codeWordErrorRatio 376 } 377 STATUS current 378 DESCRIPTION "The pubStats object group." 379 ::= { ptpGroups 20 } 380 381 encryptionGroup OBJECT-GROUP 382 OBJECTS { encryptionAlgorithm 383 } 384 STATUS current 385 DESCRIPTION "The encryption object group." 386 ::= { ptpGroups 22 } 387 388 rfuGroup OBJECT-GROUP 389 OBJECTS { rFURfBand 390 , rFUTxBandAboveRx 391 , rFUFreqSpacing 392 , rFUTxPowerMin 393 , rFUTxPowerMax 394 , rFURxFreqMin 395 , rFURxFreqMax 396 , rFUTxFreqMin 397 , rFUTxFreqMax 398 , rFUSerial 399 , rFUActiveFirmwareBank 400 , rFUVersionBank1 401 , rFUVersionBank2 402 , rFUType 403 , rFURxRFSynthLockAlarm 404 , rFUTxRFSynthLockAlarm 405 , rFUTxPowerAlarm 406 , rFUCommonIFSynthLockAlarm 407 , rFUPowerAlarm 408 , rFULockoutAlarm 409 , rFUCableAlarm 410 , rFUCableAttenuationAdjustAlarm 411 , rFUTxPowerDegradedAlarm 412 , rFURpsAlarm 413 , rFUTxMuteStatus 414 , rFUFanAssemblyAlarm 415 , rFUHighTemperatureAlarm 416 , rFURFSwitchAlarm 417 , rFURxIFSynthLockAlarm 418 , rFUTxIFSynthLockAlarm 419 , rFUPowerButtonPressed 420 , rFUConnectedPlatform 421 , rFUCommonRFSynthLockAlarm 422 , rFUBranchingConfiguration 423 , rFUTransceiverLocation 424 , rFURfSwitchCableAlarm 425 , rFUReceiveBranchingUnitLoss 426 , rFUTransmitBranchingUnitLoss 427 } 428 STATUS current 429 DESCRIPTION "The rfu object group." 430 ::= { ptpGroups 23 } 431 432 radioLicenseGroup OBJECT-GROUP 433 OBJECTS { radioLicenseIdentifier 434 , radioLicenseBand 435 , radioLicenseRegion 436 , radioLicenseTxFreq 437 , radioLicenseRxFreq 438 , radioLicenseBandwidth 439 , radioLicenseMaxEIRP 440 , radioLicenseModulation 441 , radioLicenseCodeRate 442 , radioLicenseIncompatibleAlarm 443 , radioLicenseMinModulation 444 , radioLicenseMinCodeRate 445 , radioLicenseMaxModulation 446 , radioLicenseMaxCodeRate 447 } 448 STATUS current 449 DESCRIPTION "The radioLicense object group." 450 ::= { ptpGroups 24 } 451 452 protectionConfigGroup OBJECT-GROUP 453 OBJECTS { protection 454 , faultProtectionSwitching 455 , primarySecondaryMode 456 , numberOfAntennas 457 , primaryRecovery 458 , primaryRecoveryPeriod 459 , requestedProtectionState 460 , antennaReceiveLevelDeltaThreshold 461 , antennaReceiveLevelMeasurementWindow 462 , fiberY 463 , rxDiversityVlanTpid 464 , rxDiversityVid 465 } 466 STATUS current 467 DESCRIPTION "The protectionConfig object group." 468 ::= { ptpGroups 25 } 469 470 protectionStatusGroup OBJECT-GROUP 471 OBJECTS { protectionAvailabilityStatus 472 , protectionConfigurationStatus 473 , protectionState 474 , activeUnit 475 , protectionSwitchCause 476 , endId 477 , neighborIPAddress 478 , neighborMACAddress 479 , wirelessReceiveSignalStatus 480 , licensedTransmitCapacityStatus 481 , dataPortEthernetSpeedStatus 482 , managementPortEthernetSpeedStatus 483 , protectionInterfaceStatus 484 , remotePrimaryIPAddress 485 , remoteSecondaryIPAddress 486 , remotePrimaryMACAddress 487 , remoteSecondaryMACAddress 488 , remotePrimarySecondaryMode 489 , transmitterStatus 490 , endWirelessReceiveSignalStatus 491 , rxDiversityDataPortStatus 492 , rxDiversityAvailabilityStatus 493 , rxDiversityConfigurationStatus 494 , rxDiversityNeighborCompatibility 495 , rxDiversityVlanTpidNeighborCompatibility 496 , rxDiversityVidNeighborCompatibility 497 , neighborInternetAddressType 498 , neighborInternetAddress 499 , remotePrimaryInternetAddressType 500 , remotePrimaryInternetAddress 501 , remoteSecondaryInternetAddressType 502 , remoteSecondaryInternetAddress 503 } 504 STATUS current 505 DESCRIPTION "The protectionStatus object group." 506 ::= { ptpGroups 26 } 507 508 protectionStatsGroup OBJECT-GROUP 509 OBJECTS { activeCodeWordCount 510 , activeCodeWordErrorCount 511 , activeByteCount 512 , activeByteErrorCount 513 , activeAvailableTime 514 , activeCounterMeasurementPeriod 515 , activeWirelessLinkAvailability 516 , activeCodeWordErrorRatio 517 , activeByteErrorRatio 518 } 519 STATUS current 520 DESCRIPTION "The protectionStats object group." 521 ::= { ptpGroups 27 } 522 523 aAAControlGroup OBJECT-GROUP 524 OBJECTS { userTableNumber 525 , userName 526 , userRole 527 , userEnabled 528 , userPassword 529 } 530 STATUS current 531 DESCRIPTION "The aAAControl object group." 532 ::= { ptpGroups 29 } 533 534 syslogControlGroup OBJECT-GROUP 535 OBJECTS { syslogClient 536 , syslogState 537 } 538 STATUS current 539 DESCRIPTION "The syslogControl object group." 540 ::= { ptpGroups 28 } 541 542 supplementaryGroup OBJECT-GROUP 543 OBJECTS { longitude 544 , latitude 545 , altitude 546 } 547 STATUS current 548 DESCRIPTION "The supplementary object group." 549 ::= { ptpGroups 96 } 550 551 notificationsGroup NOTIFICATION-GROUP 552 NOTIFICATIONS { dataPortStatusTrap 553 , linkNameMismatchTrap 554 , alignmentModeTrap 555 , unitOutOfCalibrationTrap 556 , encryptionEnabledMismatchTrap 557 , dataPortDisabledWarningTrap 558 , dataPortFiberStatusTrap 559 , dataPortConfigurationMismatchTrap 560 , softwareVersionRemoteCompatibilityTrap 561 , sNTPSyncTrap 562 , managementPortStatusTrap 563 , managementPortDisabledWarningTrap 564 , rFUStatusTrap 565 , managementPortConfigurationMismatchTrap 566 , wirelessLinkStatusTrap 567 , protectionAvailabilityStatusTrap 568 , protectionConfigurationStatusTrap 569 , protectionStateTrap 570 , wirelessReceiveSignalStatusTrap 571 , licensedTransmitCapacityStatusTrap 572 , dataPortEthernetSpeedStatusTrap 573 , managementPortEthernetSpeedStatusTrap 574 , protectionInterfaceStatusTrap 575 , syslogStateTrap 576 , syslogLocalNearlyFullTrap 577 , syslogLocalWrappedTrap 578 , secureModeAlarmTrap 579 , endWirelessReceiveSignalStatusTrap 580 , rxDiversityDataPortStatusTrap 581 , rxDiversityAvailabilityStatusTrap 582 , rxDiversityConfigurationStatusTrap 583 , rFUPowerButtonPressedTrap 584 , syslogClientTrap 585 } 586 STATUS current 587 DESCRIPTION "The notifications group." 588 ::= { ptpGroups 99 } 589 590 591 EthernetPriorityTableEntry ::= 592 SEQUENCE { ethernetPriorityQueueMapping INTEGER 593 , ethernetPriorityTableIndex INTEGER 594 } 595 596 ethernetPriorityTable OBJECT-TYPE 597 SYNTAX SEQUENCE OF EthernetPriorityTableEntry 598 MAX-ACCESS not-accessible 599 STATUS current 600 DESCRIPTION 601 " A priority queue mapping table. This is a list of packet queues indexed by Ethernet priority." 602 ::= { ethernet 15 } 603 604 ethernetPriorityTableEntry OBJECT-TYPE 605 SYNTAX EthernetPriorityTableEntry 606 MAX-ACCESS not-accessible 607 STATUS current 608 DESCRIPTION 609 "Table EthernetPriorityTable" 610 INDEX { ethernetPriorityTableIndex } 611 ::= { ethernetPriorityTable 1 } 612 613 L2CPPriorityTableEntry ::= 614 SEQUENCE { l2CPPriorityQueueMapping INTEGER 615 , l2CPPriorityTableIndex INTEGER 616 } 617 618 l2CPPriorityTable OBJECT-TYPE 619 SYNTAX SEQUENCE OF L2CPPriorityTableEntry 620 MAX-ACCESS not-accessible 621 STATUS current 622 DESCRIPTION 623 " A priority queue mapping table. This is a list of packet queues associated with the different layer 2 control protocol frameworks." 624 ::= { ethernet 32 } 625 626 l2CPPriorityTableEntry OBJECT-TYPE 627 SYNTAX L2CPPriorityTableEntry 628 MAX-ACCESS not-accessible 629 STATUS current 630 DESCRIPTION 631 "Table L2CPPriorityTable" 632 INDEX { l2CPPriorityTableIndex } 633 ::= { l2CPPriorityTable 1 } 634 635 IPDSCPPriorityTableEntry ::= 636 SEQUENCE { iPDSCPPriorityQueueMapping INTEGER 637 , iPDSCPPriorityTableIndex INTEGER 638 } 639 640 iPDSCPPriorityTable OBJECT-TYPE 641 SYNTAX SEQUENCE OF IPDSCPPriorityTableEntry 642 MAX-ACCESS not-accessible 643 STATUS current 644 DESCRIPTION 645 " A priority queue mapping table. This is a list of packet queues indexed by L3 IP DSCP priority." 646 ::= { ethernet 38 } 647 648 iPDSCPPriorityTableEntry OBJECT-TYPE 649 SYNTAX IPDSCPPriorityTableEntry 650 MAX-ACCESS not-accessible 651 STATUS current 652 DESCRIPTION 653 "Table IPDSCPPriorityTable" 654 INDEX { iPDSCPPriorityTableIndex } 655 ::= { iPDSCPPriorityTable 1 } 656 657 MPLSTCPriorityTableEntry ::= 658 SEQUENCE { mPLSTCPriorityQueueMapping INTEGER 659 , mPLSTCPriorityTableIndex INTEGER 660 } 661 662 mPLSTCPriorityTable OBJECT-TYPE 663 SYNTAX SEQUENCE OF MPLSTCPriorityTableEntry 664 MAX-ACCESS not-accessible 665 STATUS current 666 DESCRIPTION 667 " A priority queue mapping table. This is a list of priority queues indexed by MPLS TC priority." 668 ::= { ethernet 40 } 669 670 mPLSTCPriorityTableEntry OBJECT-TYPE 671 SYNTAX MPLSTCPriorityTableEntry 672 MAX-ACCESS not-accessible 673 STATUS current 674 DESCRIPTION 675 "Table MPLSTCPriorityTable" 676 INDEX { mPLSTCPriorityTableIndex } 677 ::= { mPLSTCPriorityTable 1 } 678 679 SNMPTrapTableEntry ::= 680 SEQUENCE { sNMPTrapTableIndex INTEGER 681 , sNMPTrapIPAddress IpAddress 682 , sNMPTrapPortNumber INTEGER 683 , sNMPTrapInternetAddressType INTEGER 684 , sNMPTrapInternetAddress InetAddress 685 , sNMPTrapReceiverEnabled INTEGER 686 } 687 688 sNMPTrapTable OBJECT-TYPE 689 SYNTAX SEQUENCE OF SNMPTrapTableEntry 690 MAX-ACCESS not-accessible 691 STATUS current 692 DESCRIPTION 693 " SNMP trap configuration table." 694 ::= { snmpControl 10 } 695 696 sNMPTrapTableEntry OBJECT-TYPE 697 SYNTAX SNMPTrapTableEntry 698 MAX-ACCESS not-accessible 699 STATUS current 700 DESCRIPTION 701 "Table SNMPTrapTable" 702 INDEX { sNMPTrapTableIndex } 703 ::= { sNMPTrapTable 1 } 704 705 SNTPServerTableEntry ::= 706 SEQUENCE { sNTPServerTableIndex INTEGER 707 , sNTPServerIPAddress IpAddress 708 , sNTPServerPortNumber INTEGER 709 , sNTPServerResponse DisplayString 710 , sNTPServerInternetAddressType INTEGER 711 , sNTPServerInternetAddress InetAddress 712 } 713 714 sNTPServerTable OBJECT-TYPE 715 SYNTAX SEQUENCE OF SNTPServerTableEntry 716 MAX-ACCESS not-accessible 717 STATUS current 718 DESCRIPTION 719 "" 720 ::= { sntp 15 } 721 722 sNTPServerTableEntry OBJECT-TYPE 723 SYNTAX SNTPServerTableEntry 724 MAX-ACCESS not-accessible 725 STATUS current 726 DESCRIPTION 727 "Table SNTPServerTable" 728 INDEX { sNTPServerTableIndex } 729 ::= { sNTPServerTable 1 } 730 731 UserTableEntry ::= 732 SEQUENCE { userTableIndex INTEGER 733 , userName OCTET STRING 734 , userRole INTEGER 735 , userEnabled INTEGER 736 , userPassword OCTET STRING 737 } 738 739 userTable OBJECT-TYPE 740 SYNTAX SEQUENCE OF UserTableEntry 741 MAX-ACCESS not-accessible 742 STATUS current 743 DESCRIPTION 744 " The User Table Control group contains objects specifically for user account management." 745 ::= { aAAControl 2 } 746 747 userTableEntry OBJECT-TYPE 748 SYNTAX UserTableEntry 749 MAX-ACCESS not-accessible 750 STATUS current 751 DESCRIPTION 752 "Table UserTable" 753 INDEX { userTableIndex } 754 ::= { userTable 1 } 755 756 -- Bridge group attribute definitions 757 -- 758 localPacketFiltering OBJECT-TYPE 759 SYNTAX INTEGER { 760 disabled(0), 761 enabled(1) 762 } 763 MAX-ACCESS read-write 764 STATUS current 765 DESCRIPTION 766 "Controls the filtering of Ethernet frames that have been 767 sourced from the CMU management agent. When Local Packet 768 Filtering is disabled, such frames are transmitted at the 769 Wireless Interface and either the Management Port for 770 Out-of-Band operation or the Data Port for In-Band 771 operation. This is regardless of whether the port has 772 been learned for the destination address. When Local 773 Packet Filtering is enabled, such frames are only 774 transmitted at the port which has been learned for the 775 destination address" 776 ::= { bridge 1 } 777 778 -- Configuration group attribute definitions 779 -- 780 iPv4Address OBJECT-TYPE 781 SYNTAX IpAddress 782 MAX-ACCESS read-write 783 STATUS current 784 DESCRIPTION 785 "Internet protocol (IPv4) address. This address is used 786 by the family of Internet protocols to uniquely identify 787 the unit on a network." 788 ::= { configuration 1 } 789 790 subnetMask OBJECT-TYPE 791 SYNTAX IpAddress 792 MAX-ACCESS read-write 793 STATUS current 794 DESCRIPTION 795 "A subnet allows the flow of network traffic between 796 hosts to be segregated based on a network configuration. 797 By organizing hosts into logical groups, subnetting can 798 improve network security and performance" 799 ::= { configuration 2 } 800 801 gatewayIPAddress OBJECT-TYPE 802 SYNTAX IpAddress 803 MAX-ACCESS read-write 804 STATUS current 805 DESCRIPTION 806 "The IPv4 address of a device on the current network that 807 acts as an IPv4 network gateway. A gateway acts as an 808 entrance / exit to packets from / to other networks." 809 ::= { configuration 3 } 810 811 maximumTransmitPower OBJECT-TYPE 812 SYNTAX INTEGER (-1000..370) 813 MAX-ACCESS read-only 814 STATUS current 815 DESCRIPTION 816 "Maximum transmit power the wireless unit is permitted to 817 use when establishing and maintaining the wireless link, 818 expressed in tenths of a dBm. Note that when an IRFU is 819 connected rather than an ODU, the transmit power refers 820 to the power at the transceiver output and not the IRFU 821 antenna port. See the User Guide for more details" 822 ::= { configuration 6 } 823 824 antennaGain OBJECT-TYPE 825 SYNTAX INTEGER (0..610) 826 MAX-ACCESS read-write 827 STATUS current 828 DESCRIPTION 829 "Antenna Gain. Expressed in 10ths of dBi." 830 ::= { configuration 7 } 831 832 rFFeederLoss OBJECT-TYPE 833 SYNTAX INTEGER (0..255) 834 MAX-ACCESS read-only 835 STATUS current 836 DESCRIPTION 837 "Insertion loss of the microwave connection between the 838 RFU and the antenna. The feeder loss should be 0 dB for 839 the standard 1 + 0 direct mount configuration. Expressed 840 in 10ths of dB." 841 ::= { configuration 8 } 842 843 remoteIPAddress OBJECT-TYPE 844 SYNTAX IpAddress 845 MAX-ACCESS read-only 846 STATUS current 847 DESCRIPTION 848 "IP Address of the peer wireless unit" 849 ::= { configuration 12 } 850 851 remoteMACAddress OBJECT-TYPE 852 SYNTAX OCTET STRING (SIZE(6)) 853 MAX-ACCESS read-only 854 STATUS current 855 DESCRIPTION 856 "MAC Address of the peer wireless unit" 857 ::= { configuration 13 } 858 859 enableTransmission OBJECT-TYPE 860 SYNTAX INTEGER { 861 enabled(0), 862 muted(1) 863 } 864 MAX-ACCESS read-write 865 STATUS current 866 DESCRIPTION 867 "Permits the transmitter to radiate. Once the unit is 868 installed and configured, use this to enable the 869 transmitter" 870 ::= { configuration 14 } 871 872 aTPCEnable OBJECT-TYPE 873 SYNTAX INTEGER { 874 disabled(0), 875 enabled(1) 876 } 877 MAX-ACCESS read-only 878 STATUS current 879 DESCRIPTION 880 "Enables Automatic Transmitter Power Control (ATPC). 881 NOTE: Use of ATPC is mandatory in some regions. When ATPC 882 is enabled, the transmit power is dynamically adjusted to 883 optimize link performance. The transmit power will always 884 be adjusted within the constraints set by Maximum 885 Transmit Power. When ATPC is disabled, the transmit power 886 will be fixed at the level set by Maximum Transmit Power. 887 When adaptive modulation is enabled, this setting can 888 limit the capacity of the system by capping the 889 modulation to a mode which is consistent with the 890 configured Maximum Transmit Power." 891 ::= { configuration 15 } 892 893 iFCableLength OBJECT-TYPE 894 SYNTAX INTEGER (0..19000) 895 MAX-ACCESS read-only 896 STATUS current 897 DESCRIPTION 898 "IF Cable Length in cm - please refer to the user manual 899 for more information on the recommended cable type." 900 ::= { configuration 16 } 901 902 linkName OBJECT-TYPE 903 SYNTAX DisplayString (SIZE(0..63)) 904 MAX-ACCESS read-only 905 STATUS current 906 DESCRIPTION 907 "Name of the PTP link allocated by the System 908 Administrator. Used to establish a connection with the 909 correct PTP wireless unit at the other end of the link. 910 NOTE: The link name MUST be the same at both ends of the 911 PTP link." 912 ::= { configuration 17 } 913 914 siteName OBJECT-TYPE 915 SYNTAX DisplayString (SIZE(0..63)) 916 MAX-ACCESS read-write 917 STATUS current 918 DESCRIPTION 919 "This field is allocated by the system administrator and 920 contains a description of the site name together with any 921 additional notes" 922 ::= { configuration 18 } 923 924 diverseAntennaGain OBJECT-TYPE 925 SYNTAX INTEGER (0..610) 926 MAX-ACCESS read-write 927 STATUS current 928 DESCRIPTION 929 "Diverse Antenna Receive Gain. Expressed in 10ths of 930 dBi." 931 ::= { configuration 19 } 932 933 diverseRfFeederLoss OBJECT-TYPE 934 SYNTAX INTEGER (0..255) 935 MAX-ACCESS read-write 936 STATUS current 937 DESCRIPTION 938 "Insertion loss of the microwave connection between the 939 RFU and the diverse antenna. Expressed in 10ths of dB." 940 ::= { configuration 20 } 941 942 iPv6Address OBJECT-TYPE 943 SYNTAX DisplayString (SIZE(0..39)) 944 MAX-ACCESS read-write 945 STATUS current 946 DESCRIPTION 947 "Internet protocol (IPv6) address. This address is used 948 by the family of Internet protocols to uniquely identify 949 the unit on a network." 950 ::= { configuration 21 } 951 952 iPVersion OBJECT-TYPE 953 SYNTAX INTEGER { 954 iPv4(0), 955 iPv6(1), 956 dualIPv4andIPv6(2) 957 } 958 MAX-ACCESS read-write 959 STATUS current 960 DESCRIPTION 961 "IP protocol selection. Choice of IPv4, IPv6 or Dual." 962 ::= { configuration 22 } 963 964 iPv6AutoConfiguredLinkLocalAddress OBJECT-TYPE 965 SYNTAX DisplayString (SIZE(0..39)) 966 MAX-ACCESS read-only 967 STATUS current 968 DESCRIPTION 969 "The auto configured link local IPv6 address" 970 ::= { configuration 23 } 971 972 iPv6PrefixLength OBJECT-TYPE 973 SYNTAX INTEGER (0..128) 974 MAX-ACCESS read-write 975 STATUS current 976 DESCRIPTION 977 "IPv6 prefix length" 978 ::= { configuration 24 } 979 980 iPv6GatewayAddress OBJECT-TYPE 981 SYNTAX DisplayString (SIZE(0..39)) 982 MAX-ACCESS read-write 983 STATUS current 984 DESCRIPTION 985 "The IPv6 address of a device on the current network that 986 is currently acting as an IPv6 network gateway. A gateway 987 acts as an entrance / exit to packets from / to other 988 networks." 989 ::= { configuration 25 } 990 991 remoteInternetAddressType OBJECT-TYPE 992 SYNTAX INTEGER { 993 unknown(0), 994 ipv4(1), 995 ipv6(2), 996 ipv4z(3), 997 ipv6z(4), 998 unknown6(5), 999 unknown7(6), 1000 unknown8(7), 1001 unknown9(8), 1002 unknown10(9), 1003 unknown11(10), 1004 unknown12(11), 1005 unknown13(12), 1006 unknown14(13), 1007 unknown15(14), 1008 unknown16(15), 1009 dns(16) 1010 } 1011 MAX-ACCESS read-only 1012 STATUS current 1013 DESCRIPTION 1014 "The type of Internet address specified by the associated 1015 remoteInternetAddressType." 1016 ::= { configuration 26 } 1017 1018 remoteInternetAddress OBJECT-TYPE 1019 SYNTAX InetAddress 1020 MAX-ACCESS read-only 1021 STATUS current 1022 DESCRIPTION 1023 "INET address used to identify the peer wireless unit" 1024 ::= { configuration 27 } 1025 1026 -- Ethernet group attribute definitions 1027 -- 1028 dataPortCopperAutoNegotiation OBJECT-TYPE 1029 SYNTAX INTEGER { 1030 disabled(0), 1031 enabled(1) 1032 } 1033 MAX-ACCESS read-write 1034 STATUS current 1035 DESCRIPTION 1036 "This controls whether the configuration of the copper 1037 data Ethernet interface is automatically negotiated or 1038 forced. WARNING: ONLY USE FORCED AS A LAST RESORT. To 1039 operate an Ethernet link at a fixed speed, leave auto 1040 negotiation enabled and limit the Auto Neg Advertisement 1041 to the desired speed. Only force Ethernet configuration 1042 as a last resort if constrained auto negotiation fails. 1043 NB: Auto-MDI/MDIX is disabled when Forced is set, and the 1044 unit defaults to MDIX, so the correct straight through or 1045 crossover cable will be required to establish a 1046 connection. NB: both ends of an Ethernet link must be 1047 configured identically, as Forced and auto negotiation 1048 are NOT compatible. A mixed configuration will cause a 1049 duplex mismatch" 1050 ::= { ethernet 1 } 1051 1052 dataPortCopperAutoNegAdvertisement OBJECT-TYPE 1053 SYNTAX BITS { 1054 neg100MbpsFullDuplex(6), 1055 neg1000MbpsFullDuplex(7) 1056 } 1057 MAX-ACCESS read-write 1058 STATUS current 1059 DESCRIPTION 1060 "This sets the different configurations of the copper 1061 data Ethernet interface that will be advertised during 1062 auto negotiation. WARNING: Duplex mismatch may result if 1063 both ends of the Ethernet link do not have the same 1064 settings. Do not use auto negotiation together with a 1065 fixed setting at the Ethernet link partner (other end of 1066 the link). WARNING: Make sure that you select option(s) 1067 that you know your connected equipment can cater for!" 1068 ::= { ethernet 2 } 1069 1070 dataPortStatus OBJECT-TYPE 1071 SYNTAX INTEGER { 1072 down(0), 1073 copperLinkUp(1), 1074 fiberLinkUp(2), 1075 fiberYInactive(3) 1076 } 1077 MAX-ACCESS read-only 1078 STATUS current 1079 DESCRIPTION 1080 "Current status of the data Ethernet link. NB: a change 1081 of state may generate an SNMP trap and/or SMTP email 1082 alert" 1083 ::= { ethernet 4 } 1084 1085 dataPortSpeedAndDuplex OBJECT-TYPE 1086 SYNTAX INTEGER { 1087 speed1000MbpsFullDuplex(0), 1088 speed100MbpsFullDuplex(1), 1089 unknown(3) 1090 } 1091 MAX-ACCESS read-only 1092 STATUS current 1093 DESCRIPTION 1094 "The current speed and duplex of the data Ethernet link" 1095 ::= { ethernet 5 } 1096 1097 dataPortWirelessDownAlert OBJECT-TYPE 1098 SYNTAX INTEGER { 1099 disabled(0), 1100 enabled(1) 1101 } 1102 MAX-ACCESS read-write 1103 STATUS current 1104 DESCRIPTION 1105 "When enabled, this causes the data Ethernet link to be 1106 dropped briefly when the wireless link drops. This is so 1107 that spanning tree algorithms can quickly detect that 1108 there is a problem" 1109 ::= { ethernet 6 } 1110 1111 useVLANForManagementInterfaces OBJECT-TYPE 1112 SYNTAX INTEGER { 1113 noVLANTagging(0), 1114 iEEE8021QTaggedCTagType8100(1), 1115 iEEE8021adTaggedSTagorBTagType88a8(2) 1116 } 1117 MAX-ACCESS read-write 1118 STATUS current 1119 DESCRIPTION 1120 "This controls whether the management interfaces 1121 (WWW/SNMP/SMTP/SNTP) use VLAN tags or not" 1122 ::= { ethernet 7 } 1123 1124 vLANManagementPriority OBJECT-TYPE 1125 SYNTAX INTEGER (0..7) 1126 MAX-ACCESS read-write 1127 STATUS current 1128 DESCRIPTION 1129 "This VLAN Priority (0-7) will be included in packets 1130 generated by the management interfaces" 1131 ::= { ethernet 8 } 1132 1133 vLANManagementVIDValidation OBJECT-TYPE 1134 SYNTAX INTEGER { 1135 disabled(0), 1136 enabled(1) 1137 } 1138 MAX-ACCESS read-write 1139 STATUS current 1140 DESCRIPTION 1141 "If enabled, the management interfaces will only respond 1142 to Ethernet packets tagged with the configured VLAN 1143 Management VID, otherwise packets with any VID will be 1144 accepted" 1145 ::= { ethernet 9 } 1146 1147 vLANManagementVID OBJECT-TYPE 1148 SYNTAX INTEGER (0..4094) 1149 MAX-ACCESS read-write 1150 STATUS current 1151 DESCRIPTION 1152 "This VLAN VID (0-4094) will be included in packets 1153 generated by the management interfaces" 1154 ::= { ethernet 11 } 1155 1156 ethernetPriorityTableNumber OBJECT-TYPE 1157 SYNTAX INTEGER (9) 1158 MAX-ACCESS read-only 1159 STATUS current 1160 DESCRIPTION 1161 "Number of entries in the ethernetPriorityTable." 1162 ::= { ethernet 14 } 1163 1164 managementPortAutoNegotiation OBJECT-TYPE 1165 SYNTAX INTEGER { 1166 disabled(0), 1167 enabled(1) 1168 } 1169 MAX-ACCESS read-write 1170 STATUS current 1171 DESCRIPTION 1172 "This controls whether the configuration of the 1173 out-of-band management Ethernet interface is 1174 automatically negotiated or forced. WARNING: ONLY USE 1175 FORCED AS A LAST RESORT. To operate an Ethernet link at a 1176 fixed speed, leave auto negotiation enabled and limit the 1177 Auto Neg Advertisement to the desired speed. Only force 1178 Ethernet configuration as a last resort if constrained 1179 auto negotiation fails. NB: Auto-MDI/MDIX is disabled 1180 when Forced is set, and the unit defaults to MDIX, so the 1181 correct straight through or crossover cable will be 1182 required to establish a connection. NB: both ends of an 1183 Ethernet link must be configured identically, as Forced 1184 and auto negotiation are NOT compatible. A mixed 1185 configuration will cause a duplex mismatch" 1186 ::= { ethernet 16 } 1187 1188 managementPortAutoNegAdvertisement OBJECT-TYPE 1189 SYNTAX BITS { 1190 neg10MbpsFullDuplex(6), 1191 neg100MbpsFullDuplex(7) 1192 } 1193 MAX-ACCESS read-write 1194 STATUS current 1195 DESCRIPTION 1196 "This sets the different configurations of the 1197 out-of-band management Ethernet interface that will be 1198 advertised during auto negotiation. WARNING: Duplex 1199 mismatch may result if both ends of the Ethernet link do 1200 not have the same settings. Do not use auto negotiation 1201 together with a fixed setting at the Ethernet link 1202 partner (other end of the link). WARNING: Make sure that 1203 you select option(s) that you know your connected 1204 equipment can cater for!" 1205 ::= { ethernet 17 } 1206 1207 managementPortStatus OBJECT-TYPE 1208 SYNTAX INTEGER { 1209 down(0), 1210 copperLinkUp(1) 1211 } 1212 MAX-ACCESS read-only 1213 STATUS current 1214 DESCRIPTION 1215 "Current status of the out-of-band management Ethernet 1216 link" 1217 ::= { ethernet 18 } 1218 1219 managementPortSpeedAndDuplex OBJECT-TYPE 1220 SYNTAX INTEGER { 1221 speed100MbpsFullDuplex(1), 1222 speed10MbpsFullDuplex(2), 1223 unknown(3) 1224 } 1225 MAX-ACCESS read-only 1226 STATUS current 1227 DESCRIPTION 1228 "The current speed and duplex of the out-of-band 1229 management Ethernet link" 1230 ::= { ethernet 19 } 1231 1232 managementPortWirelessDownAlert OBJECT-TYPE 1233 SYNTAX INTEGER { 1234 disabled(0), 1235 enabled(1) 1236 } 1237 MAX-ACCESS read-write 1238 STATUS current 1239 DESCRIPTION 1240 "When enabled, this causes the out-of-band management 1241 Ethernet link to be dropped briefly when the wireless 1242 link drops. This is so that spanning tree algorithms can 1243 quickly detect that there is a problem" 1244 ::= { ethernet 20 } 1245 1246 managementMode OBJECT-TYPE 1247 SYNTAX INTEGER { 1248 outofBandLocal(0), 1249 outofBand(1), 1250 inBand(2) 1251 } 1252 MAX-ACCESS read-only 1253 STATUS current 1254 DESCRIPTION 1255 "Management mode: Out-of-band management. End-to-end 1256 out-of-band mode in which the management agent can be 1257 reached from the management port at the local CMU, and 1258 (assuming that the wireless link is established) the 1259 management port at the remote CMU. Out-of-band local 1260 management. (default) Similar to the standard out-of-band 1261 mode, except that management frames are not forwarded 1262 over the wireless link. In-band management. The 1263 management agent can be reached from the data port at the 1264 local CMU, and (assuming that the wireless link is 1265 established) the data port at the remote CMU. In this 1266 mode, the management port is disabled." 1267 ::= { ethernet 22 } 1268 1269 managementCommittedInformationRate OBJECT-TYPE 1270 SYNTAX INTEGER { 1271 kbps200(0), 1272 kbps300(1), 1273 kbps400(2), 1274 kbps500(3), 1275 kbps600(4), 1276 kbps700(5), 1277 kbps800(6), 1278 kbps900(7), 1279 kbps1000(8), 1280 kbps1100(9), 1281 kbps1200(10), 1282 kbps1300(11), 1283 kbps1400(12), 1284 kbps1500(13), 1285 kbps1600(14), 1286 kbps1700(15), 1287 kbps1800(16), 1288 kbps1900(17), 1289 kbps2000(18) 1290 } 1291 MAX-ACCESS read-only 1292 STATUS current 1293 DESCRIPTION 1294 "The Management Network Committed Information Rate (CIR). 1295 The Management Network guarantees this capacity will be 1296 available for management traffic" 1297 ::= { ethernet 23 } 1298 1299 dataPortPauseFrames OBJECT-TYPE 1300 SYNTAX INTEGER { 1301 tunnel(0), 1302 discard(1) 1303 } 1304 MAX-ACCESS read-only 1305 STATUS current 1306 DESCRIPTION 1307 "Controls whether the bridge tunnels or discards Layer 2 1308 PAUSE frames arriving at the data Ethernet port. Such 1309 frames are identified by the destination MAC Address 1310 being equal to 01-80-C2-00-00-01" 1311 ::= { ethernet 24 } 1312 1313 transmitCapacityLimit OBJECT-TYPE 1314 SYNTAX INTEGER (0..10000) 1315 MAX-ACCESS read-only 1316 STATUS current 1317 DESCRIPTION 1318 "Transmit capacity is limited by the lower of: 1) the 1319 capacity limit specified by the installed License Key. 2) 1320 the Ethernet speed negotiated at the other end of the 1321 wireless link. Value expressed in 10ths of Mbps. 0 1322 indicates unlimited" 1323 ::= { ethernet 26 } 1324 1325 transmitCapacityLimitDetail OBJECT-TYPE 1326 SYNTAX INTEGER { 1327 limitedDueToAbsenceOfLicenseKey(0), 1328 runningAtTheCapacityLimit(1), 1329 runningAtUnlimitedCapacity(2), 1330 restrictedDueToRemoteEthernetSpeed(3), 1331 limitedDueToDevelopmentOverride(4), 1332 unlimitedDueToDevelopmentOverride(5), 1333 unlimitedCapacityTrialPeriod(6) 1334 } 1335 MAX-ACCESS read-only 1336 STATUS current 1337 DESCRIPTION 1338 "A brief description of the reason (if any) for the limit 1339 being applied to the transmit capacity" 1340 ::= { ethernet 27 } 1341 1342 dataPortEthernetMediaTypeToUse OBJECT-TYPE 1343 SYNTAX INTEGER { 1344 autowithFiberPreference(0), 1345 forceCopper(1) 1346 } 1347 MAX-ACCESS read-only 1348 STATUS current 1349 DESCRIPTION 1350 "The physical media type to use on the data Ethernet port 1351 " 1352 ::= { ethernet 28 } 1353 1354 dataPortCopperForcedConfiguration OBJECT-TYPE 1355 SYNTAX INTEGER { 1356 force100MbpsFullDuplex(1) 1357 } 1358 MAX-ACCESS read-only 1359 STATUS current 1360 DESCRIPTION 1361 "This forces the configuration of the copper data 1362 Ethernet interface rather than using auto negotiation. 1363 THE CONFIGURATION SHOULD ONLY BE FORCED IF YOU ARE HAVING 1364 PROBLEMS WITH AUTO NEGOTIATION - AND YOU MUST ENSURE THAT 1365 YOU CONFIGURE BOTH THIS UNIT AND THE Ethernet PORT TO 1366 WHICH IT IS CONNECTED IDENTICALLY! WARNING: Duplex 1367 mismatch may result if both ends of the Ethernet link do 1368 not have the same settings. Do not use auto negotiation 1369 together with a fixed setting at the Ethernet link 1370 partner (other end of the link)" 1371 ::= { ethernet 29 } 1372 1373 managementPortForcedConfiguration OBJECT-TYPE 1374 SYNTAX INTEGER { 1375 force100MbpsFullDuplex(0), 1376 force10MbpsFullDuplex(1) 1377 } 1378 MAX-ACCESS read-only 1379 STATUS current 1380 DESCRIPTION 1381 "This forces the configuration of the out-of-band 1382 management Ethernet interface rather than using auto 1383 negotiation. THE CONFIGURATION SHOULD ONLY BE FORCED IF 1384 YOU ARE HAVING PROBLEMS WITH AUTO NEGOTIATION - AND YOU 1385 MUST ENSURE THAT YOU CONFIGURE BOTH THIS UNIT AND THE 1386 Ethernet PORT TO WHICH IT IS CONNECTED IDENTICALLY! 1387 WARNING: Duplex mismatch may result if both ends of the 1388 Ethernet link do not have the same settings. Do not use 1389 auto negotiation together with a fixed setting at the 1390 Ethernet link partner (other end of the link)" 1391 ::= { ethernet 30 } 1392 1393 l2CPPriorityTableNumber OBJECT-TYPE 1394 SYNTAX INTEGER (5) 1395 MAX-ACCESS read-only 1396 STATUS current 1397 DESCRIPTION 1398 "Number of entries in the l2CPPriorityTable." 1399 ::= { ethernet 31 } 1400 1401 unknownNetworkPriorityQueueMapping OBJECT-TYPE 1402 SYNTAX INTEGER { 1403 q0(0), 1404 q1(1), 1405 q2(2), 1406 q3(3), 1407 q4(4), 1408 q5(5), 1409 q6(6), 1410 q7(7) 1411 } 1412 MAX-ACCESS read-write 1413 STATUS current 1414 DESCRIPTION 1415 "Configures the classification of unknown network 1416 protocols to an egress queue at the wireless port. 1417 Unknown means something other than IP and MPLS" 1418 ::= { ethernet 33 } 1419 1420 dSCPManagementPriority OBJECT-TYPE 1421 SYNTAX INTEGER (0..63) 1422 MAX-ACCESS read-write 1423 STATUS current 1424 DESCRIPTION 1425 "This Differentiated Services Code Point value will be 1426 inserted in the IP Header of all IP Datagrams transmitted 1427 by the management interfaces" 1428 ::= { ethernet 34 } 1429 1430 qOSPriorityScheme OBJECT-TYPE 1431 SYNTAX INTEGER { 1432 ethernet(0), 1433 iPMPLS(1) 1434 } 1435 MAX-ACCESS read-write 1436 STATUS current 1437 DESCRIPTION 1438 "Selects classification based on fields in the Ethernet 1439 header (Layer 2) or in the Network header (Layer 3). The 1440 unit recognises two network layer protocols: IP and MPLS" 1441 ::= { ethernet 35 } 1442 1443 iPDSCPPriorityTableNumber OBJECT-TYPE 1444 SYNTAX INTEGER (64) 1445 MAX-ACCESS read-only 1446 STATUS current 1447 DESCRIPTION 1448 "Number of entries in the iPDSCPPriorityTable." 1449 ::= { ethernet 37 } 1450 1451 mPLSTCPriorityTableNumber OBJECT-TYPE 1452 SYNTAX INTEGER (8) 1453 MAX-ACCESS read-only 1454 STATUS current 1455 DESCRIPTION 1456 "Number of entries in the mPLSTCPriorityTable." 1457 ::= { ethernet 39 } 1458 1459 -- EthernetPriorityTable group attribute definitions 1460 -- 1461 ethernetPriorityQueueMapping OBJECT-TYPE 1462 SYNTAX INTEGER { 1463 q0(0), 1464 q1(1), 1465 q2(2), 1466 q3(3), 1467 q4(4), 1468 q5(5), 1469 q6(6), 1470 q7(7) 1471 } 1472 MAX-ACCESS read-write 1473 STATUS current 1474 DESCRIPTION 1475 "Configures the classification of this Ethernet priority 1476 (also known as IEEE 802.1p value) to an egress queue at 1477 the wireless port." 1478 ::= { ethernetPriorityTableEntry 1 } 1479 1480 ethernetPriorityTableIndex OBJECT-TYPE 1481 SYNTAX INTEGER { 1482 p0(1), 1483 p1(2), 1484 p2(3), 1485 p3(4), 1486 p4(5), 1487 p5(6), 1488 p6(7), 1489 p7(8), 1490 untagged(9) 1491 } 1492 MAX-ACCESS not-accessible 1493 STATUS current 1494 DESCRIPTION 1495 "Ethernet priority flag, used to index values in the 1496 ethernetPriorityTable." 1497 ::= { ethernetPriorityTableEntry 2 } 1498 1499 -- L2CPPriorityTable group attribute definitions 1500 -- 1501 l2CPPriorityQueueMapping OBJECT-TYPE 1502 SYNTAX INTEGER { 1503 q0(0), 1504 q1(1), 1505 q2(2), 1506 q3(3), 1507 q4(4), 1508 q5(5), 1509 q6(6), 1510 q7(7) 1511 } 1512 MAX-ACCESS read-write 1513 STATUS current 1514 DESCRIPTION 1515 "Configures the classification of this layer two control 1516 protocol (L2CP) to an egress queue at the wireless port" 1517 ::= { l2CPPriorityTableEntry 1 } 1518 1519 l2CPPriorityTableIndex OBJECT-TYPE 1520 SYNTAX INTEGER { 1521 bridge(1), 1522 gARPMRP(2), 1523 cFM(3), 1524 rAPS(4), 1525 eAPS(5) 1526 } 1527 MAX-ACCESS not-accessible 1528 STATUS current 1529 DESCRIPTION 1530 "layer 2 control protocol, used to index values in the 1531 l2CPPriorityTable." 1532 ::= { l2CPPriorityTableEntry 2 } 1533 1534 -- IPDSCPPriorityTable group attribute definitions 1535 -- 1536 iPDSCPPriorityQueueMapping OBJECT-TYPE 1537 SYNTAX INTEGER { 1538 q0(0), 1539 q1(1), 1540 q2(2), 1541 q3(3), 1542 q4(4), 1543 q5(5), 1544 q6(6), 1545 q7(7) 1546 } 1547 MAX-ACCESS read-write 1548 STATUS current 1549 DESCRIPTION 1550 "Configures the classification of this IP differentiated 1551 services code point (DSCP) value to an egress queue at 1552 the wireless port" 1553 ::= { iPDSCPPriorityTableEntry 1 } 1554 1555 iPDSCPPriorityTableIndex OBJECT-TYPE 1556 SYNTAX INTEGER (1..64) 1557 MAX-ACCESS not-accessible 1558 STATUS current 1559 DESCRIPTION 1560 "IP DSCP priority flag, used to index values in the 1561 iPDSCPPriorityTable" 1562 ::= { iPDSCPPriorityTableEntry 2 } 1563 1564 -- MPLSTCPriorityTable group attribute definitions 1565 -- 1566 mPLSTCPriorityQueueMapping OBJECT-TYPE 1567 SYNTAX INTEGER { 1568 q0(0), 1569 q1(1), 1570 q2(2), 1571 q3(3), 1572 q4(4), 1573 q5(5), 1574 q6(6), 1575 q7(7) 1576 } 1577 MAX-ACCESS read-write 1578 STATUS current 1579 DESCRIPTION 1580 "Configures the classification of this MPLS traffic class 1581 (the field formerly known as EXP) to an egress queue at 1582 the wireless port" 1583 ::= { mPLSTCPriorityTableEntry 1 } 1584 1585 mPLSTCPriorityTableIndex OBJECT-TYPE 1586 SYNTAX INTEGER (1..8) 1587 MAX-ACCESS not-accessible 1588 STATUS current 1589 DESCRIPTION 1590 "MPLS TC priority flag, used to index values in the 1591 mPLSTCPriorityTable" 1592 ::= { mPLSTCPriorityTableEntry 2 } 1593 1594 -- Licence group attribute definitions 1595 -- 1596 productVariant OBJECT-TYPE 1597 SYNTAX INTEGER { 1598 pTPxx400Full(0), 1599 pTPxx400Deprecated1(1), 1600 pTPxx400Deprecated2(2), 1601 pTPxx400Lite(3), 1602 spare1(4), 1603 pTPxx300(5), 1604 spare2(6), 1605 spare3(7), 1606 pTPxx500FullDeprecated(8), 1607 pTPxx500LiteDeprecated(9), 1608 pTPxx500(10), 1609 pTPxx600Lite(11), 1610 pTPxx600Full(12), 1611 spare5(13), 1612 spare6(14), 1613 pTP800(15) 1614 } 1615 MAX-ACCESS read-only 1616 STATUS current 1617 DESCRIPTION 1618 "The product variant" 1619 ::= { licence 2 } 1620 1621 productName OBJECT-TYPE 1622 SYNTAX DisplayString (SIZE(0..63)) 1623 MAX-ACCESS read-only 1624 STATUS current 1625 DESCRIPTION 1626 "Name of the product variant" 1627 ::= { licence 3 } 1628 1629 ethernetFiberSupport OBJECT-TYPE 1630 SYNTAX INTEGER { 1631 disabled(0), 1632 enabled(1) 1633 } 1634 MAX-ACCESS read-only 1635 STATUS current 1636 DESCRIPTION 1637 "Ethernet fiber support availability on this wireless 1638 unit" 1639 ::= { licence 4 } 1640 1641 transmitCapacity OBJECT-TYPE 1642 SYNTAX INTEGER { 1643 rate10Mbps(0), 1644 rate20Mbps(1), 1645 rate30Mbps(2), 1646 rate40Mbps(3), 1647 rate50Mbps(4), 1648 rate100Mbps(5), 1649 rate150Mbps(6), 1650 rate200Mbps(7), 1651 rate300Mbps(8), 1652 rateUnlimited(9) 1653 } 1654 MAX-ACCESS read-only 1655 STATUS current 1656 DESCRIPTION 1657 "Maximum capacity the wireless link may provide in the 1658 transmit direction. This is restricted by the License 1659 Key." 1660 ::= { licence 10 } 1661 1662 encryptionAlgorithmsAvail OBJECT-TYPE 1663 SYNTAX INTEGER { 1664 none(0), 1665 aESRijndael(1), 1666 aES256bitRijndael(2) 1667 } 1668 MAX-ACCESS read-only 1669 STATUS current 1670 DESCRIPTION 1671 "The Encryption Algorithm(s) available to the wireless 1672 link. N.B. The same Encryption Algorithm must be 1673 configured at BOTH ends of the link for it to function 1674 correctly" 1675 ::= { licence 11 } 1676 1677 securityLevel OBJECT-TYPE 1678 SYNTAX INTEGER (0..2) 1679 MAX-ACCESS read-only 1680 STATUS current 1681 DESCRIPTION 1682 "The maximum configurable security level" 1683 ::= { licence 12 } 1684 1685 -- Management group attribute definitions 1686 -- 1687 linkNameMismatch OBJECT-TYPE 1688 SYNTAX INTEGER { 1689 ok(0), 1690 linkNameMismatch(1) 1691 } 1692 MAX-ACCESS read-only 1693 STATUS current 1694 DESCRIPTION 1695 "Signaling was received with the wrong Link Name. Either 1696 the Link Name is configured differently at each end of 1697 the wireless link, or this unit is aligned to the wrong 1698 link partner. NB: A change of value during operation may 1699 generate an SNMP trap and/or SMTP email alert" 1700 ::= { management 3 } 1701 1702 alignmentMode OBJECT-TYPE 1703 SYNTAX INTEGER { 1704 normal(0), 1705 aligning(1) 1706 } 1707 MAX-ACCESS read-only 1708 STATUS current 1709 DESCRIPTION 1710 "Indicates if the unit is undergoing alignment. NB: a 1711 change of state during operation may generate an SNMP 1712 trap and/or SMTP email alert" 1713 ::= { management 4 } 1714 1715 tFTPServerIPAddress OBJECT-TYPE 1716 SYNTAX IpAddress 1717 MAX-ACCESS read-write 1718 STATUS current 1719 DESCRIPTION 1720 "IP address of the TFTP Server from which the TFTP 1721 Software Upgrade File Name will be retrieved" 1722 ::= { management 5 } 1723 1724 tFTPServerPortNumber OBJECT-TYPE 1725 SYNTAX INTEGER (0..65535) 1726 MAX-ACCESS read-write 1727 STATUS current 1728 DESCRIPTION 1729 "The port number of the TFTP Server from which the TFTP 1730 Software Upgrade File Name will be retrieved" 1731 ::= { management 6 } 1732 1733 tFTPSoftwareUpgradeFileName OBJECT-TYPE 1734 SYNTAX DisplayString (SIZE(0..127)) 1735 MAX-ACCESS read-write 1736 STATUS current 1737 DESCRIPTION 1738 "Filename of the Software Upgrade to be loaded from the 1739 TFTP Server" 1740 ::= { management 7 } 1741 1742 tFTPStartSoftwareUpgrade OBJECT-TYPE 1743 SYNTAX Integer32 1744 MAX-ACCESS read-write 1745 STATUS current 1746 DESCRIPTION 1747 "Write '1' to this attribute to start the TFTP software 1748 upgrade process. The attribute will be reset to 0 when 1749 the upgrade process has finished" 1750 ::= { management 8 } 1751 1752 tFTPSoftwareUpgradeStatus OBJECT-TYPE 1753 SYNTAX INTEGER { 1754 idle(0), 1755 uploadinprogress(1), 1756 uploadsuccessfulprogrammingFLASH(2), 1757 upgradesuccessfulreboottorunthenewsoftwareimage(3), 1758 upgradefailed(4) 1759 } 1760 MAX-ACCESS read-only 1761 STATUS current 1762 DESCRIPTION 1763 "The current status of the TFTP Software upgrade process" 1764 ::= { management 9 } 1765 1766 tFTPSoftwareUpgradeStatusText OBJECT-TYPE 1767 SYNTAX DisplayString (SIZE(0..127)) 1768 MAX-ACCESS read-only 1769 STATUS current 1770 DESCRIPTION 1771 "Descriptive text describing the status of the TFTP 1772 Software upgrade process, including any error details" 1773 ::= { management 10 } 1774 1775 tFTPSoftwareUpgradeStatusAdditionalText OBJECT-TYPE 1776 SYNTAX DisplayString (SIZE(0..127)) 1777 MAX-ACCESS read-only 1778 STATUS current 1779 DESCRIPTION 1780 "Any additional text describing the status of the TFTP 1781 Software upgrade process, including any error details" 1782 ::= { management 11 } 1783 1784 hTTPAccessEnabled OBJECT-TYPE 1785 SYNTAX INTEGER { 1786 no(0), 1787 yes(1) 1788 } 1789 MAX-ACCESS read-write 1790 STATUS current 1791 DESCRIPTION 1792 "This controls whether or not HTTP access is enabled, 1793 i.e. if this is disabled (0) then the unit will not 1794 respond to any requests on the HTTP port. Remote 1795 management via HTTPS is not affected by this setting. Any 1796 change in this setting will not take effect until the 1797 unit has been rebooted. (Factory default = Enabled)" 1798 ::= { management 12 } 1799 1800 telnetAccessEnabled OBJECT-TYPE 1801 SYNTAX INTEGER { 1802 no(0), 1803 yes(1) 1804 } 1805 MAX-ACCESS read-write 1806 STATUS current 1807 DESCRIPTION 1808 "This controls whether or not Telnet access is enabled, 1809 i.e. if this is disabled (0) then the unit will not 1810 respond to any requests on the TELNET port. Any change in 1811 this setting will not take effect until the unit has been 1812 rebooted. (Factory default = Disabled)" 1813 ::= { management 13 } 1814 1815 hTTPPortNumber OBJECT-TYPE 1816 SYNTAX INTEGER (0..65535) 1817 MAX-ACCESS read-write 1818 STATUS current 1819 DESCRIPTION 1820 "This controls the port number for HTTP access. A value 1821 of zero will use the default port number. Any change in 1822 this setting will not take effect until the unit has been 1823 rebooted. (Factory default = 80)" 1824 ::= { management 14 } 1825 1826 hTTPSPortNumber OBJECT-TYPE 1827 SYNTAX INTEGER (0..65535) 1828 MAX-ACCESS read-write 1829 STATUS current 1830 DESCRIPTION 1831 "This controls the port number for HTTPS access. A value 1832 of zero will use the default port number. Availability of 1833 HTTPS is controlled via the Licence Key. Any change in 1834 this setting will not take effect until the unit has been 1835 rebooted. (Factory default = 443)" 1836 ::= { management 15 } 1837 1838 telnetPortNumber OBJECT-TYPE 1839 SYNTAX INTEGER (0..65535) 1840 MAX-ACCESS read-write 1841 STATUS current 1842 DESCRIPTION 1843 "This controls the port number for TELNET access. A value 1844 of zero will use the default port number. Any change in 1845 this setting will not take effect until the unit has been 1846 rebooted. (Factory default = 23)" 1847 ::= { management 16 } 1848 1849 hTTPSAccessEnabled OBJECT-TYPE 1850 SYNTAX INTEGER { 1851 no(0), 1852 yes(1) 1853 } 1854 MAX-ACCESS read-only 1855 STATUS current 1856 DESCRIPTION 1857 "This controls whether or not HTTPS access is enabled, 1858 i.e. if this is disabled (0) then the unit will not 1859 respond to any requests on the configured HTTPS Port 1860 Number. Remote management via HTTP is not affected by 1861 this setting. Any change in this setting will not take 1862 effect until the unit has been rebooted. (Factory default 1863 = Enabled)" 1864 ::= { management 17 } 1865 1866 tFTPServerInternetAddressType OBJECT-TYPE 1867 SYNTAX INTEGER { 1868 unknown(0), 1869 ipv4(1), 1870 ipv6(2), 1871 ipv4z(3), 1872 ipv6z(4), 1873 unknown6(5), 1874 unknown7(6), 1875 unknown8(7), 1876 unknown9(8), 1877 unknown10(9), 1878 unknown11(10), 1879 unknown12(11), 1880 unknown13(12), 1881 unknown14(13), 1882 unknown15(14), 1883 unknown16(15), 1884 dns(16) 1885 } 1886 MAX-ACCESS read-only 1887 STATUS current 1888 DESCRIPTION 1889 "The type of Internet address specified by the associated 1890 tFTPServerInternetAddress." 1891 ::= { management 18 } 1892 1893 tFTPServerInternetAddress OBJECT-TYPE 1894 SYNTAX InetAddress 1895 MAX-ACCESS read-write 1896 STATUS current 1897 DESCRIPTION 1898 "INET address of the TFTP Server from which the TFTP 1899 Software Upgrade File Name will be retrieved" 1900 ::= { management 19 } 1901 1902 -- PhyControl group attribute definitions 1903 -- 1904 remoteMaximumTransmitPower OBJECT-TYPE 1905 SYNTAX INTEGER (-1000..370) 1906 MAX-ACCESS read-only 1907 STATUS current 1908 DESCRIPTION 1909 "Maximum transmit power the remote wireless unit is 1910 permitted to use when establishing and maintaining the 1911 wireless link, expressed in tenths of a dBm. Note that 1912 when an IRFU is connected rather than an ODU, the 1913 transmit power refers to the power at the transceiver 1914 output and not the IRFU antenna port. See the User Guide 1915 for more details" 1916 ::= { phyControl 4 } 1917 1918 minModulation OBJECT-TYPE 1919 SYNTAX INTEGER { 1920 modQPSK(0), 1921 mod8PSK(1), 1922 mod16QAM(2), 1923 mod32QAM(3), 1924 mod64QAM(4), 1925 mod128QAM(5), 1926 mod256QAM(6) 1927 } 1928 MAX-ACCESS read-only 1929 STATUS current 1930 DESCRIPTION 1931 "When adaptive modulation is enabled, PTP 800 will adapt 1932 the modulation mode between a minimum and maximum 1933 modulation mode. Depending on the region, minimum and 1934 maximum modulation modes will be either derived from the 1935 radio license, e.g. FCC and Industry Canada, or will be 1936 user adjustable, e.g. ETSI.In general, a modulation mode 1937 is defined by two aspects, a modulation and a code rate. 1938 This integer attribute identifies the modulation aspect 1939 of the minimum modulation mode. For example, if the 1940 minimum modulation mode is 16QAM 0.91, this attribute 1941 will be set to a value of 2 which identifies a modulation 1942 of 16QAM." 1943 ::= { phyControl 6 } 1944 1945 minCodeRate OBJECT-TYPE 1946 SYNTAX INTEGER (0..100) 1947 MAX-ACCESS read-only 1948 STATUS current 1949 DESCRIPTION 1950 "When adaptive modulation is enabled, PTP 800 will adapt 1951 the modulation mode between a minimum and maximum 1952 modulation mode. Depending on the region, minimum and 1953 maximum modulation modes will be either derived from the 1954 radio license, e.g. FCC and Industry Canada, or will be 1955 user adjustable, e.g. ETSI. In general, a modulation mode 1956 is defined by two aspects, a modulation and a code rate. 1957 This attribute is equal to 100 times the code rate aspect 1958 of the minimum modulation mode. For example, if the 1959 minimum modulation mode is 16QAM 0.91, this attribute 1960 will be set to a value of 91." 1961 ::= { phyControl 7 } 1962 1963 maxModulation OBJECT-TYPE 1964 SYNTAX INTEGER { 1965 modQPSK(0), 1966 mod8PSK(1), 1967 mod16QAM(2), 1968 mod32QAM(3), 1969 mod64QAM(4), 1970 mod128QAM(5), 1971 mod256QAM(6) 1972 } 1973 MAX-ACCESS read-only 1974 STATUS current 1975 DESCRIPTION 1976 "When adaptive modulation is enabled, PTP 800 will adapt 1977 the modulation mode between a minimum and maximum 1978 modulation mode. Depending on the region, minimum and 1979 maximum modulation modes will be either derived from the 1980 radio license, e.g. FCC and Industry Canada, or will be 1981 user adjustable, e.g. ETSI. In general, a modulation mode 1982 is defined by two aspects, a modulation and a code rate. 1983 This integer attribute identifies the modulation aspect 1984 of the maximum modulation mode. For example, if the 1985 maximum modulation mode is 256QAM 0.91, this attribute 1986 will be set to a value of 6 which identifies a modulation 1987 of 256QAM." 1988 ::= { phyControl 8 } 1989 1990 maxCodeRate OBJECT-TYPE 1991 SYNTAX INTEGER (0..100) 1992 MAX-ACCESS read-only 1993 STATUS current 1994 DESCRIPTION 1995 "When adaptive modulation is enabled, PTP 800 will adapt 1996 the modulation mode between a minimum and maximum 1997 modulation mode. Depending on the region, minimum and 1998 maximum modulation modes will be either derived from the 1999 radio license, e.g. FCC and Industry Canada, or will be 2000 user adjustable, e.g. ETSI. In general, a modulation mode 2001 is defined by two aspects, a modulation and a code rate. 2002 This attribute is equal to 100 times the code rate aspect 2003 of the maximum modulation mode. For example, if the 2004 maximum modulation mode is 256QAM 0.91, this attribute 2005 will be set to a value of 91." 2006 ::= { phyControl 9 } 2007 2008 -- PhyStatus group attribute definitions 2009 -- 2010 receivePower OBJECT-TYPE 2011 SYNTAX Integer32 2012 MAX-ACCESS read-only 2013 STATUS current 2014 DESCRIPTION 2015 "This is the receive power measured by the RFU. When an 2016 IRFU transceiver is connected rather than an ODU, the 2017 Receive Power refers to the power at the input to the 2018 transceiver and not the IRFU antenna port. Expressed in 2019 tenths of a dBm." 2020 ::= { phyStatus 1 } 2021 2022 vectorError OBJECT-TYPE 2023 SYNTAX Integer32 2024 MAX-ACCESS read-only 2025 STATUS current 2026 DESCRIPTION 2027 "Vector Error is a measure of received signal quality. 2028 The value is generally in the range from -6 dB to -38 dB, 2029 a more negative number indicating a higher quality 2030 signal. Expressed in tenths of a dB." 2031 ::= { phyStatus 2 } 2032 2033 transmitPower OBJECT-TYPE 2034 SYNTAX Integer32 2035 MAX-ACCESS read-only 2036 STATUS current 2037 DESCRIPTION 2038 "This is the transmit power of the RFU. When an IRFU 2039 transceiver is connected rather than an ODU, the Transmit 2040 Power refers to the power at the transceiver output and 2041 not the IRFU antenna port. Expressed in tenths of a dBm." 2042 ::= { phyStatus 3 } 2043 2044 linkLoss OBJECT-TYPE 2045 SYNTAX INTEGER (-500..1800) 2046 MAX-ACCESS read-only 2047 STATUS current 2048 DESCRIPTION 2049 "Link Loss is a measurement of the loss in signal level 2050 as the radio wave propagates between the antennas 2051 installed at each end of the link. The Link Loss is only 2052 accurate if the Antenna Gain and RF Feeder Loss have been 2053 configured correctly at both ends of the link. Expressed 2054 in tenths of a dB." 2055 ::= { phyStatus 5 } 2056 2057 receiveModulation OBJECT-TYPE 2058 SYNTAX INTEGER { 2059 modQPSK(0), 2060 mod8PSK(1), 2061 mod16QAM(2), 2062 mod32QAM(3), 2063 mod64QAM(4), 2064 mod128QAM(5), 2065 mod256QAM(6) 2066 } 2067 MAX-ACCESS read-only 2068 STATUS current 2069 DESCRIPTION 2070 "Current active receive modulation" 2071 ::= { phyStatus 8 } 2072 2073 transmitModulation OBJECT-TYPE 2074 SYNTAX INTEGER { 2075 modQPSK(0), 2076 mod8PSK(1), 2077 mod16QAM(2), 2078 mod32QAM(3), 2079 mod64QAM(4), 2080 mod128QAM(5), 2081 mod256QAM(6) 2082 } 2083 MAX-ACCESS read-only 2084 STATUS current 2085 DESCRIPTION 2086 "Current active transmit modulation" 2087 ::= { phyStatus 9 } 2088 2089 receiveCodeRate OBJECT-TYPE 2090 SYNTAX Integer32 2091 MAX-ACCESS read-only 2092 STATUS current 2093 DESCRIPTION 2094 "Indicates the code rate applied to the signal being 2095 received at the wireless interface. The reported value is 2096 the code rate multiplied by 100." 2097 ::= { phyStatus 16 } 2098 2099 transmitCodeRate OBJECT-TYPE 2100 SYNTAX Integer32 2101 MAX-ACCESS read-only 2102 STATUS current 2103 DESCRIPTION 2104 "Indicates the code rate applied to the signal 2105 transmitted at the wireless interface. The reported value 2106 is the code rate multiplied by 100." 2107 ::= { phyStatus 17 } 2108 2109 -- Alarms group attribute definitions 2110 -- 2111 unitOutOfCalibration OBJECT-TYPE 2112 SYNTAX INTEGER { 2113 calibrated(0), 2114 partialCalibration(1), 2115 invalidCalibration(2), 2116 bandwidthvariantunsupportedPAsShutdown(3), 2117 outOfCalibrationPAsShutdown(4) 2118 } 2119 MAX-ACCESS read-only 2120 STATUS current 2121 DESCRIPTION 2122 "The unit is out of calibration" 2123 ::= { alarms 1 } 2124 2125 encryptionEnabledMismatch OBJECT-TYPE 2126 SYNTAX INTEGER { 2127 ok(0), 2128 encryptionEnabledMismatch(1) 2129 } 2130 MAX-ACCESS read-only 2131 STATUS current 2132 DESCRIPTION 2133 "Encryption has been enabled on one end of the wireless 2134 link but not the other" 2135 ::= { alarms 3 } 2136 2137 dataPortDisabledWarning OBJECT-TYPE 2138 SYNTAX INTEGER { 2139 ok(0), 2140 disabledBySNMPifAdminStatus(1) 2141 } 2142 MAX-ACCESS read-only 2143 STATUS current 2144 DESCRIPTION 2145 "The SNMP ifAdminStatus of the data Ethernet interface 2146 has disabled Ethernet traffic" 2147 ::= { alarms 7 } 2148 2149 dataPortFiberStatus OBJECT-TYPE 2150 SYNTAX INTEGER { 2151 ok(0), 2152 installedFiberNotLicensed(1), 2153 noFiberLinkEstablishedButLOSNotDetected(2), 2154 noFiberLinkEstablishedAndLOSDetected(3) 2155 } 2156 MAX-ACCESS read-only 2157 STATUS current 2158 DESCRIPTION 2159 "If the fiber interface on the data Ethernet port is not 2160 OK, there are three possible causes: 1) the fiber 2161 interface has been installed but disabled, 2) the 2162 interface could not be established even though no LOS was 2163 detected (i.e. an optical carrier was detected, which 2164 could be due to a broken TX fiber, or because the 2165 interface is disabled at the other end of the fiber 2166 link), or 3) the interface could not be established and 2167 LOS is detected (i.e. no optical carrier is detected). 2168 NB: a change of status may generate an SNMP trap and/or 2169 SMTP email alert" 2170 ::= { alarms 8 } 2171 2172 dataPortConfigurationMismatch OBJECT-TYPE 2173 SYNTAX INTEGER { 2174 noError(0), 2175 mismatchDetected(1) 2176 } 2177 MAX-ACCESS read-only 2178 STATUS current 2179 DESCRIPTION 2180 "The detection of Ethernet fragments (runt packets) on 2181 the data Ethernet port when the link is in full duplex is 2182 an indication of an auto-negotiation or forced 2183 configuration mismatch" 2184 ::= { alarms 9 } 2185 2186 softwareVersionRemoteCompatibility OBJECT-TYPE 2187 SYNTAX INTEGER { 2188 ok(0), 2189 mismatch(1) 2190 } 2191 MAX-ACCESS read-only 2192 STATUS current 2193 DESCRIPTION 2194 "Indicates a mismatch of software versions at the two 2195 ends of the wireless link" 2196 ::= { alarms 10 } 2197 2198 managementPortDisabledWarning OBJECT-TYPE 2199 SYNTAX INTEGER { 2200 ok(0), 2201 disabledBySNMPifAdminStatus(1) 2202 } 2203 MAX-ACCESS read-only 2204 STATUS current 2205 DESCRIPTION 2206 "The SNMP ifAdminStatus of the out-of-band management 2207 Ethernet interface has disabled Ethernet traffic" 2208 ::= { alarms 12 } 2209 2210 rFUStatus OBJECT-TYPE 2211 SYNTAX INTEGER { 2212 ok(0), 2213 fault(1), 2214 unknown3(2), 2215 inReset(3), 2216 downloadInProgress(4), 2217 incompatibleFirmwareVersion(5), 2218 incompatibleDevice(6), 2219 iFICardAttached(7), 2220 noResponse(8), 2221 powerSupplyFault(9), 2222 powerSupplyDisabled(10), 2223 switchingmemorybanks(11) 2224 } 2225 MAX-ACCESS read-only 2226 STATUS current 2227 DESCRIPTION 2228 "Current status of the RFU. A state of 'ok' indicates 2229 that the RFU is fully operational, although may not be 2230 transmitting." 2231 ::= { alarms 16 } 2232 2233 managementPortConfigurationMismatch OBJECT-TYPE 2234 SYNTAX INTEGER { 2235 noError(0), 2236 mismatchDetected(1) 2237 } 2238 MAX-ACCESS read-only 2239 STATUS current 2240 DESCRIPTION 2241 "The detection of Ethernet fragments (runt packets) on 2242 the out-of-band management Ethernet port when the link is 2243 in full duplex is an indication of an auto-negotiation or 2244 forced configuration mismatch" 2245 ::= { alarms 17 } 2246 2247 secureModeAlarm OBJECT-TYPE 2248 SYNTAX INTEGER { 2249 secureModeIsActive(0), 2250 secureModeIsNotConfigured(1), 2251 secureModeIsConfiguredButNotActive(2), 2252 secureModeIsNotSupported(3) 2253 } 2254 MAX-ACCESS read-only 2255 STATUS current 2256 DESCRIPTION 2257 "The secure mode (e.g. FIPS, UC-APL) state of the unit. 2258 The secure mode is not configured(1) state indicates that 2259 the unit is capable of secure mode operation, and one or 2260 more of the following security materials has not been 2261 configured: Key Of Keys, Private Key, Public Certificate, 2262 DRNG Entropy Status, Wireless Encryption Key. The secure 2263 mode mode is configured but not active(2) state indicates 2264 that the unit is capable of secure mode operation, and 2265 the security material has been configured, but the 2266 configuration of interfaces is not consistent with secure 2267 mode operation. The secure mode is not supported(3) state 2268 indicates that the unit is not capable of secure mode 2269 operation. The secure mode capability requires 2270 appropriate hardware compatibility, license key and 2271 software image." 2272 ::= { alarms 18 } 2273 2274 rFUPlatformCompatibility OBJECT-TYPE 2275 SYNTAX INTEGER { 2276 ok(0), 2277 mismatch(1) 2278 } 2279 MAX-ACCESS read-only 2280 STATUS current 2281 DESCRIPTION 2282 "This indicates when the RFU currently connected to the 2283 CMU does not match the RFU Platform which was installed. 2284 Either re-run the Installation Wizard or connect the 2285 correct RFU" 2286 ::= { alarms 19 } 2287 2288 rFUProtectionCompatibility OBJECT-TYPE 2289 SYNTAX INTEGER { 2290 ok(0), 2291 mismatch(1) 2292 } 2293 MAX-ACCESS read-only 2294 STATUS current 2295 DESCRIPTION 2296 "This indicates when the IRFU branching unit 2297 configuration is not compatible with the protection 2298 configuration or if the left hand transceiver has been 2299 configured as Secondary or the right hand transceiver has 2300 been configured as Primary" 2301 ::= { alarms 20 } 2302 2303 -- Smtp group attribute definitions 2304 -- 2305 sMTPEmailAlert OBJECT-TYPE 2306 SYNTAX INTEGER { 2307 disabled(0), 2308 enabled(1) 2309 } 2310 MAX-ACCESS read-write 2311 STATUS current 2312 DESCRIPTION 2313 "Simple Mail Transfer Protocol is used to send equipment 2314 alerts via email to a specified email address. This 2315 utility can only be configured by the system 2316 administrator" 2317 ::= { smtp 1 } 2318 2319 sMTPServerIPAddress OBJECT-TYPE 2320 SYNTAX IpAddress 2321 MAX-ACCESS read-write 2322 STATUS current 2323 DESCRIPTION 2324 "IP address of the SMTP server" 2325 ::= { smtp 2 } 2326 2327 sMTPServerPortNumber OBJECT-TYPE 2328 SYNTAX INTEGER (0..65535) 2329 MAX-ACCESS read-write 2330 STATUS current 2331 DESCRIPTION 2332 "Port number of the SMTP server" 2333 ::= { smtp 3 } 2334 2335 sMTPSourceEmailAddress OBJECT-TYPE 2336 SYNTAX DisplayString (SIZE(0..63)) 2337 MAX-ACCESS read-write 2338 STATUS current 2339 DESCRIPTION 2340 "The 'from' email address used when constructing the 2341 automatically generated e-mail message" 2342 ::= { smtp 4 } 2343 2344 sMTPDestinationEmailAddress OBJECT-TYPE 2345 SYNTAX DisplayString (SIZE(0..63)) 2346 MAX-ACCESS read-write 2347 STATUS current 2348 DESCRIPTION 2349 "The 'to' email address used when constructing the 2350 automatically generated e-mail message" 2351 ::= { smtp 5 } 2352 2353 sMTPEnabledMessages OBJECT-TYPE 2354 SYNTAX BITS { 2355 protectionState(3), 2356 enabledDiagnosticAlarms(4), 2357 managementPortUpDown(5), 2358 dataPortUpDown(6), 2359 wirelessLinkUpDown(7) 2360 } 2361 MAX-ACCESS read-write 2362 STATUS current 2363 DESCRIPTION 2364 "This controls which SMTP messages the unit will send" 2365 ::= { smtp 6 } 2366 2367 sMTPServerInternetAddressType OBJECT-TYPE 2368 SYNTAX INTEGER { 2369 unknown(0), 2370 ipv4(1), 2371 ipv6(2), 2372 ipv4z(3), 2373 ipv6z(4), 2374 unknown6(5), 2375 unknown7(6), 2376 unknown8(7), 2377 unknown9(8), 2378 unknown10(9), 2379 unknown11(10), 2380 unknown12(11), 2381 unknown13(12), 2382 unknown14(13), 2383 unknown15(14), 2384 unknown16(15), 2385 dns(16) 2386 } 2387 MAX-ACCESS read-only 2388 STATUS current 2389 DESCRIPTION 2390 "The type of Internet address specified by the associated 2391 sMTPServerInternetAddress." 2392 ::= { smtp 7 } 2393 2394 sMTPServerInternetAddress OBJECT-TYPE 2395 SYNTAX InetAddress 2396 MAX-ACCESS read-write 2397 STATUS current 2398 DESCRIPTION 2399 "Internet address of the SMTP server" 2400 ::= { smtp 8 } 2401 2402 -- SnmpControl group attribute definitions 2403 -- 2404 sNMPPortNumber OBJECT-TYPE 2405 SYNTAX INTEGER (0..65535) 2406 MAX-ACCESS read-write 2407 STATUS current 2408 DESCRIPTION 2409 "The IP port number used to access the SNMP MIB (i.e. 2410 Gets and Sets). NB: A system reboot is required to 2411 activate changes to this attribute" 2412 ::= { snmpControl 1 } 2413 2414 sNMPCommunityString OBJECT-TYPE 2415 SYNTAX DisplayString (SIZE(0..63)) 2416 MAX-ACCESS read-write 2417 STATUS current 2418 DESCRIPTION 2419 "The SNMP community string. NB: A system reboot is 2420 required to activate changes to this attribute" 2421 ::= { snmpControl 2 } 2422 2423 sNMPTrapVersion OBJECT-TYPE 2424 SYNTAX INTEGER { 2425 v1(0), 2426 v2c(1) 2427 } 2428 MAX-ACCESS read-write 2429 STATUS current 2430 DESCRIPTION 2431 "The SNMP protocol version to use for SNMP Traps." 2432 ::= { snmpControl 5 } 2433 2434 sNMPEnabledTraps OBJECT-TYPE 2435 SYNTAX BITS { 2436 protectionState(1), 2437 authenticationFailure(2), 2438 enabledDiagnosticAlarms(3), 2439 managementPortUpDown(4), 2440 dataPortUpDown(5), 2441 wirelessLinkUpDown(6), 2442 coldStart(7) 2443 } 2444 MAX-ACCESS read-write 2445 STATUS current 2446 DESCRIPTION 2447 "This controls which SNMP Traps the unit will send" 2448 ::= { snmpControl 6 } 2449 2450 enabledDiagnosticAlarms OBJECT-TYPE 2451 SYNTAX BITS { 2452 dataPortConfigurationMismatch(0), 2453 unknown7(1), 2454 wirelessLinkStatus(2), 2455 sNTPSync(3), 2456 encryptionEnabledMismatch(4), 2457 unitOutOfCalibration(5), 2458 linkNameMismatch(6), 2459 alignmentMode(7), 2460 syslogDisabledWarning(8), 2461 managementPortStatus(9), 2462 dataPortStatus(10), 2463 rFUStatus(11), 2464 managementPortDisabledWarning(12), 2465 managementPortConfigurationMismatch(13), 2466 dataPortFiberStatus(14), 2467 dataPortDisabledWarning(15), 2468 softwareVersionMismatch(18), 2469 syslogClientDisabledWarning(19), 2470 rFUPowerButtonPressed(20), 2471 secureMode(21), 2472 syslogLocalWrapped(22), 2473 syslogLocalNearlyFull(23) 2474 } 2475 MAX-ACCESS read-write 2476 STATUS current 2477 DESCRIPTION 2478 "Controls which individual diagnostic alarms are 2479 enabled." 2480 ::= { snmpControl 7 } 2481 2482 enabledDiagnosticProtectionAlarms OBJECT-TYPE 2483 SYNTAX BITS { 2484 endWirelessReceiveSignalStatus(0), 2485 protectionInterfaceStatus(1), 2486 managementPortEthernetSpeedStatus(2), 2487 dataPortEthernetSpeedStatus(3), 2488 licensedTransmitCapacityStatus(4), 2489 wirelessReceiveSignalStatus(5), 2490 protectionConfigurationStatus(6), 2491 protectionAvailabilityStatus(7), 2492 rxDiversityAvailabilityStatus(13), 2493 rxDiversityConfigurationStatus(14), 2494 rxDiversityDataPortStatus(15) 2495 } 2496 MAX-ACCESS read-write 2497 STATUS current 2498 DESCRIPTION 2499 "Controls which individual diagnostic protection alarms 2500 are enabled." 2501 ::= { snmpControl 8 } 2502 2503 sNMPTrapTableNumber OBJECT-TYPE 2504 SYNTAX INTEGER (2) 2505 MAX-ACCESS read-only 2506 STATUS current 2507 DESCRIPTION 2508 "Number of entries in the sNMPTrapTable." 2509 ::= { snmpControl 9 } 2510 2511 -- SNMPTrapTable group attribute definitions 2512 -- 2513 sNMPTrapTableIndex OBJECT-TYPE 2514 SYNTAX INTEGER (1..2) 2515 MAX-ACCESS not-accessible 2516 STATUS current 2517 DESCRIPTION 2518 "SNMP trap value, used to index the SNMPTrapTable." 2519 ::= { sNMPTrapTableEntry 1 } 2520 2521 sNMPTrapIPAddress OBJECT-TYPE 2522 SYNTAX IpAddress 2523 MAX-ACCESS read-write 2524 STATUS current 2525 DESCRIPTION 2526 "The IP address to which all SNMP Traps are sent. NB: A 2527 system reboot is required to activate changes to this 2528 attribute." 2529 ::= { sNMPTrapTableEntry 2 } 2530 2531 sNMPTrapPortNumber OBJECT-TYPE 2532 SYNTAX INTEGER (0..65535) 2533 MAX-ACCESS read-write 2534 STATUS current 2535 DESCRIPTION 2536 "Destination port for SNMP Traps (default=162). NB: A 2537 system reboot is required to activate changes to this 2538 attribute." 2539 ::= { sNMPTrapTableEntry 3 } 2540 2541 sNMPTrapInternetAddressType OBJECT-TYPE 2542 SYNTAX INTEGER { 2543 unknown(0), 2544 ipv4(1), 2545 ipv6(2), 2546 ipv4z(3), 2547 ipv6z(4), 2548 unknown6(5), 2549 unknown7(6), 2550 unknown8(7), 2551 unknown9(8), 2552 unknown10(9), 2553 unknown11(10), 2554 unknown12(11), 2555 unknown13(12), 2556 unknown14(13), 2557 unknown15(14), 2558 unknown16(15), 2559 dns(16) 2560 } 2561 MAX-ACCESS read-only 2562 STATUS current 2563 DESCRIPTION 2564 "The type of Internet address specified by the associated 2565 sNMPTrapInternetAddress." 2566 ::= { sNMPTrapTableEntry 4 } 2567 2568 sNMPTrapInternetAddress OBJECT-TYPE 2569 SYNTAX InetAddress 2570 MAX-ACCESS read-write 2571 STATUS current 2572 DESCRIPTION 2573 "The Internet address to which all SNMP Traps are sent." 2574 ::= { sNMPTrapTableEntry 5 } 2575 2576 sNMPTrapReceiverEnabled OBJECT-TYPE 2577 SYNTAX INTEGER { 2578 disabled(0), 2579 enabled(1) 2580 } 2581 MAX-ACCESS read-only 2582 STATUS current 2583 DESCRIPTION 2584 "A value of 0 disables the sending of SNMP trap to 2585 corresponding receiver. A value of 1 enables the sending 2586 of SNMP trap to corresponding receiver." 2587 ::= { sNMPTrapTableEntry 6 } 2588 2589 -- Sntp group attribute definitions 2590 -- 2591 sNTPState OBJECT-TYPE 2592 SYNTAX INTEGER { 2593 disabled(0), 2594 enabled(1) 2595 } 2596 MAX-ACCESS read-write 2597 STATUS current 2598 DESCRIPTION 2599 "SNTP control state" 2600 ::= { sntp 1 } 2601 2602 sNTPPollInterval OBJECT-TYPE 2603 SYNTAX INTEGER (60..43200) 2604 MAX-ACCESS read-write 2605 STATUS current 2606 DESCRIPTION 2607 "The SNTP server polling interval" 2608 ::= { sntp 4 } 2609 2610 sNTPSync OBJECT-TYPE 2611 SYNTAX INTEGER { 2612 noSync(0), 2613 inSync(1) 2614 } 2615 MAX-ACCESS read-only 2616 STATUS current 2617 DESCRIPTION 2618 "If SNTP Sync fails then check the server settings in the 2619 Remote Management page, or disable SNTP. NB: a change of 2620 state may generate an SNMP trap and/or SMTP email alert" 2621 ::= { sntp 5 } 2622 2623 sNTPLastSync OBJECT-TYPE 2624 SYNTAX Integer32 2625 MAX-ACCESS read-only 2626 STATUS current 2627 DESCRIPTION 2628 "Last SNTP sync time" 2629 ::= { sntp 6 } 2630 2631 systemClock OBJECT-TYPE 2632 SYNTAX Integer32 2633 MAX-ACCESS read-only 2634 STATUS current 2635 DESCRIPTION 2636 "System clock presented as local time" 2637 ::= { sntp 7 } 2638 2639 timeZone OBJECT-TYPE 2640 SYNTAX INTEGER { 2641 gmtMinus1200(0), 2642 gmtMinus1130(1), 2643 gmtMinus1100(2), 2644 gmtMinus1030(3), 2645 gmtMinus1000(4), 2646 gmtMinus0930(5), 2647 gmtMinus0900(6), 2648 gmtMinus0830(7), 2649 gmtMinus0800(8), 2650 gmtMinus0730(9), 2651 gmtMinus0700(10), 2652 gmtMinus0630(11), 2653 gmtMinus0600(12), 2654 gmtMinus0530(13), 2655 gmtMinus0500(14), 2656 gmtMinus0430(15), 2657 gmtMinus0400(16), 2658 gmtMinus0330(17), 2659 gmtMinus0300(18), 2660 gmtMinus0230(19), 2661 gmtMinus0200(20), 2662 gmtMinus0130(21), 2663 gmtMinus0100(22), 2664 gmtMinus0030(23), 2665 gmtZero(24), 2666 gmtPlus0030(25), 2667 gmtPlus0100(26), 2668 gmtPlus0130(27), 2669 gmtPlus0200(28), 2670 gmtPlus0230(29), 2671 gmtPlus0300(30), 2672 gmtPlus0330(31), 2673 gmtPlus0400(32), 2674 gmtPlus0430(33), 2675 gmtPlus0500(34), 2676 gmtPlus0530(35), 2677 gmtPlus0600(36), 2678 gmtPlus0630(37), 2679 gmtPlus0700(38), 2680 gmtPlus0730(39), 2681 gmtPlus0800(40), 2682 gmtPlus0830(41), 2683 gmtPlus0900(42), 2684 gmtPlus0930(43), 2685 gmtPlus1000(44), 2686 gmtPlus1030(45), 2687 gmtPlus1100(46), 2688 gmtPlus1130(47), 2689 gmtPlus1200(48), 2690 gmtPlus1230(49), 2691 gmtPlus1300(50) 2692 } 2693 MAX-ACCESS read-write 2694 STATUS current 2695 DESCRIPTION 2696 "Time zone offsets from Greenwich Mean Time (GMT)" 2697 ::= { sntp 8 } 2698 2699 daylightSaving OBJECT-TYPE 2700 SYNTAX INTEGER { 2701 disabled(0), 2702 enabled(1) 2703 } 2704 MAX-ACCESS read-write 2705 STATUS current 2706 DESCRIPTION 2707 "Daylight Saving Time" 2708 ::= { sntp 9 } 2709 2710 sNTPPrimaryServer OBJECT-TYPE 2711 SYNTAX INTEGER { 2712 server1(0), 2713 server2(1) 2714 } 2715 MAX-ACCESS read-write 2716 STATUS current 2717 DESCRIPTION 2718 "Specifies the primary SNTP server, determining the order 2719 in which the servers are tried." 2720 ::= { sntp 10 } 2721 2722 sNTPPrimaryServerDeadTime OBJECT-TYPE 2723 SYNTAX INTEGER (0..86400) 2724 MAX-ACCESS read-write 2725 STATUS current 2726 DESCRIPTION 2727 "Time (in seconds) to wait before retrying communications 2728 with an unresponsive primary SNTP server. Setting the 2729 value to 0 disables the timer." 2730 ::= { sntp 11 } 2731 2732 sNTPServerRetries OBJECT-TYPE 2733 SYNTAX INTEGER (0..10) 2734 MAX-ACCESS read-write 2735 STATUS current 2736 DESCRIPTION 2737 "Number of times the PTP will retry after an SNTP server 2738 fails to respond." 2739 ::= { sntp 12 } 2740 2741 sNTPServerTimeout OBJECT-TYPE 2742 SYNTAX INTEGER (1..15) 2743 MAX-ACCESS read-write 2744 STATUS current 2745 DESCRIPTION 2746 "Time (in seconds) the PTP will wait for a response from 2747 an SNTP server." 2748 ::= { sntp 13 } 2749 2750 sNTPServerTableNumber OBJECT-TYPE 2751 SYNTAX INTEGER (2) 2752 MAX-ACCESS read-only 2753 STATUS current 2754 DESCRIPTION 2755 "Number of entries in the SNTPServerTable." 2756 ::= { sntp 14 } 2757 2758 -- SNTPServerTable group attribute definitions 2759 -- 2760 sNTPServerTableIndex OBJECT-TYPE 2761 SYNTAX INTEGER (1..2) 2762 MAX-ACCESS not-accessible 2763 STATUS current 2764 DESCRIPTION 2765 "Index range for the SNTPServerTable." 2766 ::= { sNTPServerTableEntry 1 } 2767 2768 sNTPServerIPAddress OBJECT-TYPE 2769 SYNTAX IpAddress 2770 MAX-ACCESS read-write 2771 STATUS current 2772 DESCRIPTION 2773 "The IP address of a valid SNTP server" 2774 ::= { sNTPServerTableEntry 2 } 2775 2776 sNTPServerPortNumber OBJECT-TYPE 2777 SYNTAX INTEGER (0..65535) 2778 MAX-ACCESS read-write 2779 STATUS current 2780 DESCRIPTION 2781 "The IP port number of the SNTP server. Defaults to port 2782 123." 2783 ::= { sNTPServerTableEntry 3 } 2784 2785 sNTPServerResponse OBJECT-TYPE 2786 SYNTAX DisplayString (SIZE(0..127)) 2787 MAX-ACCESS read-only 2788 STATUS current 2789 DESCRIPTION 2790 "The most recent response received from the SNTP server, 2791 if used" 2792 ::= { sNTPServerTableEntry 4 } 2793 2794 sNTPServerInternetAddressType OBJECT-TYPE 2795 SYNTAX INTEGER { 2796 unknown(0), 2797 ipv4(1), 2798 ipv6(2), 2799 ipv4z(3), 2800 ipv6z(4), 2801 unknown6(5), 2802 unknown7(6), 2803 unknown8(7), 2804 unknown9(8), 2805 unknown10(9), 2806 unknown11(10), 2807 unknown12(11), 2808 unknown13(12), 2809 unknown14(13), 2810 unknown15(14), 2811 unknown16(15), 2812 dns(16) 2813 } 2814 MAX-ACCESS read-only 2815 STATUS current 2816 DESCRIPTION 2817 "The type of Internet address specified by the associated 2818 sNTPServerInternetAddress." 2819 ::= { sNTPServerTableEntry 5 } 2820 2821 sNTPServerInternetAddress OBJECT-TYPE 2822 SYNTAX InetAddress 2823 MAX-ACCESS read-write 2824 STATUS current 2825 DESCRIPTION 2826 "The Internet address of a valid SNTP server" 2827 ::= { sNTPServerTableEntry 6 } 2828 2829 -- Reset group attribute definitions 2830 -- 2831 systemReset OBJECT-TYPE 2832 SYNTAX INTEGER { 2833 running(0), 2834 consoleReboot(1) 2835 } 2836 MAX-ACCESS read-write 2837 STATUS current 2838 DESCRIPTION 2839 "Setting this attribute to '1' will cause a system 2840 reboot. NB: a system reboot will apply any pending new 2841 settings held in memory" 2842 ::= { reset 1 } 2843 2844 -- Versions group attribute definitions 2845 -- 2846 softwareVersion OBJECT-TYPE 2847 SYNTAX DisplayString (SIZE(0..63)) 2848 MAX-ACCESS read-only 2849 STATUS current 2850 DESCRIPTION 2851 "Current software version" 2852 ::= { versions 1 } 2853 2854 hardwareVersion OBJECT-TYPE 2855 SYNTAX DisplayString (SIZE(0..63)) 2856 MAX-ACCESS read-only 2857 STATUS current 2858 DESCRIPTION 2859 "Hardware platform version" 2860 ::= { versions 2 } 2861 2862 secondarySoftwareVersion OBJECT-TYPE 2863 SYNTAX DisplayString (SIZE(0..63)) 2864 MAX-ACCESS read-only 2865 STATUS current 2866 DESCRIPTION 2867 "Secondary software version, used when the primary 2868 software image is invalid or erased" 2869 ::= { versions 3 } 2870 2871 bootVersion OBJECT-TYPE 2872 SYNTAX DisplayString (SIZE(0..63)) 2873 MAX-ACCESS read-only 2874 STATUS current 2875 DESCRIPTION 2876 "Boot code software version" 2877 ::= { versions 4 } 2878 2879 -- PubStats group attribute definitions 2880 -- 2881 receiveDataRate OBJECT-TYPE 2882 SYNTAX Integer32 2883 MAX-ACCESS read-only 2884 STATUS current 2885 DESCRIPTION 2886 "Data rate received by the wireless interface. Expressed 2887 in kbps, rounded down to nearest 100 kbps." 2888 ::= { pubStats 1 } 2889 2890 transmitDataRate OBJECT-TYPE 2891 SYNTAX Integer32 2892 MAX-ACCESS read-only 2893 STATUS current 2894 DESCRIPTION 2895 "Data rate transmitted from the wireless interface. 2896 Expressed in kbps, rounded down to nearest 100 kbps." 2897 ::= { pubStats 2 } 2898 2899 aggregateDataRate OBJECT-TYPE 2900 SYNTAX Integer32 2901 MAX-ACCESS read-only 2902 STATUS current 2903 DESCRIPTION 2904 "Total data rate across the wireless interface summed 2905 over both link directions. Expressed in kbps, rounded 2906 down to nearest 100 kbps." 2907 ::= { pubStats 3 } 2908 2909 wirelessLinkAvailability OBJECT-TYPE 2910 SYNTAX INTEGER (0..1000000) 2911 MAX-ACCESS read-only 2912 STATUS current 2913 DESCRIPTION 2914 "The percentage of time that the unit has been able to 2915 successfully demodulate the signal transmitted from the 2916 remote end of the link. Calculated since the last reset 2917 of the system counters. The reported value is the 2918 percentage multiplied by 10000." 2919 ::= { pubStats 4 } 2920 2921 wirelessLinkStatus OBJECT-TYPE 2922 SYNTAX INTEGER { 2923 up(0), 2924 registering(1), 2925 searching(2), 2926 acquiring(3), 2927 radarCAC(4), 2928 initialising(5) 2929 } 2930 MAX-ACCESS read-only 2931 STATUS current 2932 DESCRIPTION 2933 "Current status of the wireless link" 2934 ::= { pubStats 5 } 2935 2936 byteErrorRatio OBJECT-TYPE 2937 SYNTAX Counter64 2938 MAX-ACCESS read-only 2939 STATUS current 2940 DESCRIPTION 2941 "The byte error ratio calculated since the last reset of 2942 the system counters. The reported value is the ratio 2943 multiplied by 10 to the power of 12." 2944 ::= { pubStats 6 } 2945 2946 codeWordErrorRatio OBJECT-TYPE 2947 SYNTAX Counter64 2948 MAX-ACCESS read-only 2949 STATUS current 2950 DESCRIPTION 2951 "The wireless link sends data in error correctable blocks 2952 called code words. This attribute reports the ratio of 2953 uncorrected code words to the total number of code words 2954 received since the last reset of the system counters. The 2955 reported value is the ratio multiplied by 10 to the power 2956 of 12." 2957 ::= { pubStats 8 } 2958 2959 -- Encryption group attribute definitions 2960 -- 2961 encryptionAlgorithm OBJECT-TYPE 2962 SYNTAX INTEGER { 2963 none(0), 2964 aESRijndael(1), 2965 aES256bitRijndael(2) 2966 } 2967 MAX-ACCESS read-only 2968 STATUS current 2969 DESCRIPTION 2970 "The Encryption Algorithm used by the wireless link. NB: 2971 A system reboot is required to activate changes to this 2972 attribute. NB: The same Encryption Algorithm must be 2973 configured at BOTH ends of the link for it to function 2974 correctly" 2975 ::= { encryption 1 } 2976 2977 -- Rfu group attribute definitions 2978 -- 2979 rFURfBand OBJECT-TYPE 2980 SYNTAX INTEGER (4000..70000) 2981 MAX-ACCESS read-only 2982 STATUS current 2983 DESCRIPTION 2984 "RFU RF band in MHz" 2985 ::= { rfu 1 } 2986 2987 rFUTxBandAboveRx OBJECT-TYPE 2988 SYNTAX INTEGER { 2989 no(0), 2990 yes(1) 2991 } 2992 MAX-ACCESS read-only 2993 STATUS current 2994 DESCRIPTION 2995 "Yes means RFU transmitter frequency band is above 2996 receiver frequency band" 2997 ::= { rfu 2 } 2998 2999 rFUFreqSpacing OBJECT-TYPE 3000 SYNTAX INTEGER (0..1560000) 3001 MAX-ACCESS read-only 3002 STATUS current 3003 DESCRIPTION 3004 "Tx-Rx frequency spacing in kHz" 3005 ::= { rfu 3 } 3006 3007 rFUTxPowerMin OBJECT-TYPE 3008 SYNTAX INTEGER (-100..100) 3009 MAX-ACCESS read-only 3010 STATUS current 3011 DESCRIPTION 3012 "Minimum transmitter power level, in 10ths of dBm" 3013 ::= { rfu 4 } 3014 3015 rFUTxPowerMax OBJECT-TYPE 3016 SYNTAX INTEGER (160..370) 3017 MAX-ACCESS read-only 3018 STATUS current 3019 DESCRIPTION 3020 "Maximum transmitter power level, in 10ths of dBm" 3021 ::= { rfu 5 } 3022 3023 rFURxFreqMin OBJECT-TYPE 3024 SYNTAX INTEGER (5725000..70000000) 3025 MAX-ACCESS read-only 3026 STATUS current 3027 DESCRIPTION 3028 "Minimum receiver frequency in kHz" 3029 ::= { rfu 6 } 3030 3031 rFURxFreqMax OBJECT-TYPE 3032 SYNTAX INTEGER (5725000..70000000) 3033 MAX-ACCESS read-only 3034 STATUS current 3035 DESCRIPTION 3036 "Maximum receiver frequency in kHz" 3037 ::= { rfu 7 } 3038 3039 rFUTxFreqMin OBJECT-TYPE 3040 SYNTAX INTEGER (5725000..70000000) 3041 MAX-ACCESS read-only 3042 STATUS current 3043 DESCRIPTION 3044 "Minimum transmitter frequency in kHz" 3045 ::= { rfu 8 } 3046 3047 rFUTxFreqMax OBJECT-TYPE 3048 SYNTAX INTEGER (5725000..70000000) 3049 MAX-ACCESS read-only 3050 STATUS current 3051 DESCRIPTION 3052 "Maximum transmitter frequency in kHz" 3053 ::= { rfu 9 } 3054 3055 rFUSerial OBJECT-TYPE 3056 SYNTAX DisplayString (SIZE(0..11)) 3057 MAX-ACCESS read-only 3058 STATUS current 3059 DESCRIPTION 3060 "RFU serial number" 3061 ::= { rfu 10 } 3062 3063 rFUActiveFirmwareBank OBJECT-TYPE 3064 SYNTAX INTEGER (1..2) 3065 MAX-ACCESS read-only 3066 STATUS current 3067 DESCRIPTION 3068 "RFU active firmware bank number" 3069 ::= { rfu 11 } 3070 3071 rFUVersionBank1 OBJECT-TYPE 3072 SYNTAX DisplayString (SIZE(0..11)) 3073 MAX-ACCESS read-only 3074 STATUS current 3075 DESCRIPTION 3076 "RFU firmware version number (nnn/ddMMYY) in bank 1" 3077 ::= { rfu 12 } 3078 3079 rFUVersionBank2 OBJECT-TYPE 3080 SYNTAX DisplayString (SIZE(0..11)) 3081 MAX-ACCESS read-only 3082 STATUS current 3083 DESCRIPTION 3084 "RFU firmware version number (nnn/ddMMYY) in bank 2" 3085 ::= { rfu 13 } 3086 3087 rFUType OBJECT-TYPE 3088 SYNTAX DisplayString (SIZE(0..79)) 3089 MAX-ACCESS read-only 3090 STATUS current 3091 DESCRIPTION 3092 "RFU type as: RFU platform, frequency band, Tx-Rx 3093 frequency spacing, Hi/Lo band and transmit frequency 3094 range" 3095 ::= { rfu 14 } 3096 3097 rFURxRFSynthLockAlarm OBJECT-TYPE 3098 SYNTAX INTEGER { 3099 ok(0), 3100 outOfLock(1) 3101 } 3102 MAX-ACCESS read-only 3103 STATUS current 3104 DESCRIPTION 3105 "RFU RF receiver out of lock alarm" 3106 ::= { rfu 15 } 3107 3108 rFUTxRFSynthLockAlarm OBJECT-TYPE 3109 SYNTAX INTEGER { 3110 ok(0), 3111 outOfLock(1) 3112 } 3113 MAX-ACCESS read-only 3114 STATUS current 3115 DESCRIPTION 3116 "RFU RF transmitter out of lock alarm" 3117 ::= { rfu 16 } 3118 3119 rFUTxPowerAlarm OBJECT-TYPE 3120 SYNTAX INTEGER { 3121 ok(0), 3122 txOutputFailed(1) 3123 } 3124 MAX-ACCESS read-only 3125 STATUS current 3126 DESCRIPTION 3127 "RFU transmitter output failed alarm" 3128 ::= { rfu 17 } 3129 3130 rFUCommonIFSynthLockAlarm OBJECT-TYPE 3131 SYNTAX INTEGER { 3132 ok(0), 3133 outOfLock(1) 3134 } 3135 MAX-ACCESS read-only 3136 STATUS current 3137 DESCRIPTION 3138 "Alarm indicating when the common IF RFU synthesizer is 3139 out of lock" 3140 ::= { rfu 18 } 3141 3142 rFUPowerAlarm OBJECT-TYPE 3143 SYNTAX INTEGER { 3144 ok(0), 3145 powerFailed(1) 3146 } 3147 MAX-ACCESS read-only 3148 STATUS current 3149 DESCRIPTION 3150 "RFU general power alarm" 3151 ::= { rfu 19 } 3152 3153 rFULockoutAlarm OBJECT-TYPE 3154 SYNTAX INTEGER { 3155 ok(0), 3156 lockedOut(1) 3157 } 3158 MAX-ACCESS read-only 3159 STATUS current 3160 DESCRIPTION 3161 "RFU locked pending unlock code alarm" 3162 ::= { rfu 20 } 3163 3164 rFUCableAlarm OBJECT-TYPE 3165 SYNTAX INTEGER { 3166 ok(0), 3167 iFCableVoltageOutOfRange(1) 3168 } 3169 MAX-ACCESS read-only 3170 STATUS current 3171 DESCRIPTION 3172 "RFU cable detector voltage out of range alarm" 3173 ::= { rfu 21 } 3174 3175 rFUCableAttenuationAdjustAlarm OBJECT-TYPE 3176 SYNTAX INTEGER { 3177 ok(0), 3178 iFCableAttenuatorAdjusting(1) 3179 } 3180 MAX-ACCESS read-only 3181 STATUS current 3182 DESCRIPTION 3183 "RFU cable attenuator not yet adjusted alarm" 3184 ::= { rfu 22 } 3185 3186 rFUTxPowerDegradedAlarm OBJECT-TYPE 3187 SYNTAX INTEGER { 3188 ok(0), 3189 degraded(1) 3190 } 3191 MAX-ACCESS read-only 3192 STATUS current 3193 DESCRIPTION 3194 "Indicates when the current transmit power is more than 3 3195 dB below or more than 3 dB above the correct transmit 3196 power." 3197 ::= { rfu 23 } 3198 3199 rFURpsAlarm OBJECT-TYPE 3200 SYNTAX INTEGER { 3201 ok(0), 3202 rPSAlarmActive(1) 3203 } 3204 MAX-ACCESS read-only 3205 STATUS current 3206 DESCRIPTION 3207 "RFU radio protection switch (RPS) alarm" 3208 ::= { rfu 24 } 3209 3210 rFUTxMuteStatus OBJECT-TYPE 3211 SYNTAX INTEGER { 3212 transmitting(0), 3213 mutedByUser(1), 3214 mutedDueToConfigurationError(2), 3215 mutedDueToRFUFault(3), 3216 mutedDueToRFUConfiguring(4), 3217 mutedDueToRFUIncompatiblewithCMU(5), 3218 mutedDueToInactive(6) 3219 } 3220 MAX-ACCESS read-only 3221 STATUS current 3222 DESCRIPTION 3223 "Indicates whether the RFU is transmitting or muted. If 3224 it is muted, it will also indicate the reason." 3225 ::= { rfu 25 } 3226 3227 rFUFanAssemblyAlarm OBJECT-TYPE 3228 SYNTAX INTEGER { 3229 ok(0), 3230 partialFanFailure(1), 3231 totalFanFailure(2) 3232 } 3233 MAX-ACCESS read-only 3234 STATUS current 3235 DESCRIPTION 3236 "This indicates when the IRFU transceiver fan assembly 3237 has failed. The assembly consists of two fans and if one 3238 fan fails, the this will report partial failure. If both 3239 fans fail, this will report total failure" 3240 ::= { rfu 26 } 3241 3242 rFUHighTemperatureAlarm OBJECT-TYPE 3243 SYNTAX INTEGER { 3244 ok(0), 3245 highTemperature(1), 3246 veryHighTemperature(2) 3247 } 3248 MAX-ACCESS read-only 3249 STATUS current 3250 DESCRIPTION 3251 "Indicates when the temperature of the IRFU transceiver 3252 has risen above either of two thresholds. If the 3253 temperature exceeds the High Temperature threshold, the 3254 transmit power may reduce. If the temperature exceeds the 3255 Very High Temperature threshold, the transceiver will 3256 mute the transmitter" 3257 ::= { rfu 27 } 3258 3259 rFURFSwitchAlarm OBJECT-TYPE 3260 SYNTAX INTEGER { 3261 ok(0), 3262 fault(1) 3263 } 3264 MAX-ACCESS read-only 3265 STATUS current 3266 DESCRIPTION 3267 "This indicates that an RF switch is not present when it 3268 should be or that on the most recent attempt to make this 3269 unit active, the IRFU RF Switch was not able to switch to 3270 the correct position" 3271 ::= { rfu 28 } 3272 3273 rFURxIFSynthLockAlarm OBJECT-TYPE 3274 SYNTAX INTEGER { 3275 ok(0), 3276 outOfLock(1) 3277 } 3278 MAX-ACCESS read-only 3279 STATUS current 3280 DESCRIPTION 3281 "RFU IF receiver out of lock alarm" 3282 ::= { rfu 29 } 3283 3284 rFUTxIFSynthLockAlarm OBJECT-TYPE 3285 SYNTAX INTEGER { 3286 ok(0), 3287 outOfLock(1) 3288 } 3289 MAX-ACCESS read-only 3290 STATUS current 3291 DESCRIPTION 3292 "RFU IF transmitter out of lock alarm" 3293 ::= { rfu 30 } 3294 3295 rFUPowerButtonPressed OBJECT-TYPE 3296 SYNTAX INTEGER { 3297 ok(0), 3298 iRFUPowerButtonwaspressed(1) 3299 } 3300 MAX-ACCESS read-only 3301 STATUS current 3302 DESCRIPTION 3303 "IRFU power button have been pressed, IFRU has powered 3304 down unexpectedly" 3305 ::= { rfu 31 } 3306 3307 rFUConnectedPlatform OBJECT-TYPE 3308 SYNTAX INTEGER { 3309 unknown(0), 3310 oDUA(1), 3311 oDUB(2), 3312 iRFUHP(3) 3313 } 3314 MAX-ACCESS read-only 3315 STATUS current 3316 DESCRIPTION 3317 "The type of RFU platform currently connected to the CMU" 3318 ::= { rfu 32 } 3319 3320 rFUCommonRFSynthLockAlarm OBJECT-TYPE 3321 SYNTAX INTEGER { 3322 ok(0), 3323 outOfLock(1) 3324 } 3325 MAX-ACCESS read-only 3326 STATUS current 3327 DESCRIPTION 3328 "Alarm indicating when the common RFU RF synthesizer is 3329 out of lock" 3330 ::= { rfu 33 } 3331 3332 rFUBranchingConfiguration OBJECT-TYPE 3333 SYNTAX INTEGER { 3334 rFU1plus0(0), 3335 rFU1plus0MHSBReadyEqual(1), 3336 rFU1plus0MHSBReadyUnequal(2), 3337 rFU1plus1MHSBEqual(3), 3338 rFU1plus1MHSBUnequal(4), 3339 rFU1plus1TxMHSBRxSD(5), 3340 rFU2plus0(6) 3341 } 3342 MAX-ACCESS read-write 3343 STATUS current 3344 DESCRIPTION 3345 "When an IRFU is being installed, the configuration of 3346 the IRFU branching unit must be configured. Please see 3347 the User Guide for further details" 3348 ::= { rfu 34 } 3349 3350 rFUTransceiverLocation OBJECT-TYPE 3351 SYNTAX INTEGER { 3352 leftTRxA(0), 3353 rightTRxB(1) 3354 } 3355 MAX-ACCESS read-write 3356 STATUS current 3357 DESCRIPTION 3358 "When a 2+0 IRFU is being installed, the user must 3359 configure which of the two IRFU transceivers the CMU is 3360 controlling in order to ensure correct operation" 3361 ::= { rfu 35 } 3362 3363 rFURfSwitchCableAlarm OBJECT-TYPE 3364 SYNTAX INTEGER { 3365 ok(0), 3366 fault(1) 3367 } 3368 MAX-ACCESS read-only 3369 STATUS current 3370 DESCRIPTION 3371 "The RF switch in the IRFU is indicating an invalid 3372 switch position. The most likely cause is a fault or a 3373 disconnection of the cable which connects the transceiver 3374 to the RF switch" 3375 ::= { rfu 36 } 3376 3377 rFUReceiveBranchingUnitLoss OBJECT-TYPE 3378 SYNTAX Integer32 3379 MAX-ACCESS read-only 3380 STATUS current 3381 DESCRIPTION 3382 "The receive loss in the IRFU branching unit, expressed 3383 in tenths of a dB. The branching unit is a component of 3384 the IRFU which is situated between the IRFU transceiver 3385 and IRFU antenna port. It provides the necessary 3386 filtering, isolation and coupling." 3387 ::= { rfu 37 } 3388 3389 rFUTransmitBranchingUnitLoss OBJECT-TYPE 3390 SYNTAX Integer32 3391 MAX-ACCESS read-only 3392 STATUS current 3393 DESCRIPTION 3394 "The transmit loss in the IRFU branching unit, expressed 3395 in tenths of a dB. The branching unit is a component of 3396 the IRFU which is situated between the IRFU transceiver 3397 and IRFU antenna port. It provides the necessary 3398 filtering, isolation and coupling." 3399 ::= { rfu 38 } 3400 3401 -- RadioLicense group attribute definitions 3402 -- 3403 radioLicenseIdentifier OBJECT-TYPE 3404 SYNTAX DisplayString (SIZE(0..63)) 3405 MAX-ACCESS read-only 3406 STATUS current 3407 DESCRIPTION 3408 "Radio license identifier" 3409 ::= { radioLicense 1 } 3410 3411 radioLicenseBand OBJECT-TYPE 3412 SYNTAX INTEGER { 3413 bandLower6GHz(0), 3414 band7GHz(1), 3415 band8GHz(2), 3416 band11GHz(3), 3417 band13GHz(4), 3418 band15GHz(5), 3419 band18GHz(6), 3420 band23GHz(7), 3421 band26GHz(8), 3422 band32GHz(9), 3423 band38GHz(10), 3424 bandUpper6GHz(11), 3425 band28GHz(12), 3426 band42GHz(13), 3427 bandUnsupported(14) 3428 } 3429 MAX-ACCESS read-only 3430 STATUS current 3431 DESCRIPTION 3432 "Radio license band" 3433 ::= { radioLicense 2 } 3434 3435 radioLicenseRegion OBJECT-TYPE 3436 SYNTAX INTEGER { 3437 eTSI(0), 3438 fCC(1), 3439 canada(2), 3440 brazil(3), 3441 nTIA(4) 3442 } 3443 MAX-ACCESS read-only 3444 STATUS current 3445 DESCRIPTION 3446 "Radio license region" 3447 ::= { radioLicense 3 } 3448 3449 radioLicenseTxFreq OBJECT-TYPE 3450 SYNTAX INTEGER (5925000..70000000) 3451 MAX-ACCESS read-only 3452 STATUS current 3453 DESCRIPTION 3454 "Radio license transmit frequency in kHz" 3455 ::= { radioLicense 4 } 3456 3457 radioLicenseRxFreq OBJECT-TYPE 3458 SYNTAX INTEGER (5925000..70000000) 3459 MAX-ACCESS read-only 3460 STATUS current 3461 DESCRIPTION 3462 "Radio license receive frequency in kHz" 3463 ::= { radioLicense 5 } 3464 3465 radioLicenseBandwidth OBJECT-TYPE 3466 SYNTAX INTEGER { 3467 bw7MHz(0), 3468 bw10MHz(1), 3469 bw1375MHz(2), 3470 bw14MHz(3), 3471 bw20MHz(4), 3472 bw275MHz(5), 3473 bw28MHz(6), 3474 bw30MHz(7), 3475 bw40MHz(8), 3476 bw50MHz(9), 3477 bw55MHz(10), 3478 bw56MHz(11), 3479 bw80MHz(12), 3480 bw25MHz(13), 3481 bw60MHz(14) 3482 } 3483 MAX-ACCESS read-only 3484 STATUS current 3485 DESCRIPTION 3486 "Radio license bandwidth" 3487 ::= { radioLicense 6 } 3488 3489 radioLicenseMaxEIRP OBJECT-TYPE 3490 SYNTAX INTEGER (-300..1000) 3491 MAX-ACCESS read-only 3492 STATUS current 3493 DESCRIPTION 3494 "Maximum Effective Isotropic Radiated Power (EIRP) 3495 permitted by the license. Expressed in 10ths of dBm" 3496 ::= { radioLicense 7 } 3497 3498 radioLicenseModulation OBJECT-TYPE 3499 SYNTAX INTEGER { 3500 modQPSK(0), 3501 mod8PSK(1), 3502 mod16QAM(2), 3503 mod32QAM(3), 3504 mod64QAM(4), 3505 mod128QAM(5), 3506 mod256QAM(6) 3507 } 3508 MAX-ACCESS read-only 3509 STATUS current 3510 DESCRIPTION 3511 "Radio license modulation" 3512 ::= { radioLicense 8 } 3513 3514 radioLicenseCodeRate OBJECT-TYPE 3515 SYNTAX INTEGER (0..100) 3516 MAX-ACCESS read-only 3517 STATUS current 3518 DESCRIPTION 3519 "Radio license code rate, multiplied by 100 to give two 3520 decimal places of precision" 3521 ::= { radioLicense 9 } 3522 3523 radioLicenseIncompatibleAlarm OBJECT-TYPE 3524 SYNTAX INTEGER { 3525 ok(0), 3526 radioLicenseIncompatiblewithRFU(1) 3527 } 3528 MAX-ACCESS read-only 3529 STATUS current 3530 DESCRIPTION 3531 "Indicates if the radio license is incompatible with the 3532 attached RFU. Re-run Installation to correct the issue" 3533 ::= { radioLicense 10 } 3534 3535 radioLicenseMinModulation OBJECT-TYPE 3536 SYNTAX INTEGER { 3537 modQPSK(0), 3538 mod8PSK(1), 3539 mod16QAM(2), 3540 mod32QAM(3), 3541 mod64QAM(4), 3542 mod128QAM(5), 3543 mod256QAM(6) 3544 } 3545 MAX-ACCESS read-only 3546 STATUS current 3547 DESCRIPTION 3548 "Certain licensing authorities, for example FCC and 3549 Industry Canada, require adaptive modulation to be bound 3550 by a minimum and maximum modulation mode as defined by 3551 the radio license. This attribute is only of significance 3552 in such regions and when adaptive modulation is enabled. 3553 For other regions, for example ETSI, minimum and maximum 3554 modulation mode are directly adjustable by the user and 3555 are not defined by the radio license. In general, a 3556 modulation mode is defined by two aspects, a modulation 3557 and a code rate. This integer attribute identifies the 3558 modulation aspect of the RadioLicenseMinModMode attribute 3559 required by the radio license. For example, if 3560 RadioLicenseMinModMode is configured for 16QAM 0.79, this 3561 attribute will be set to a value of 2 which identifies a 3562 modulation of 16QAM." 3563 ::= { radioLicense 11 } 3564 3565 radioLicenseMinCodeRate OBJECT-TYPE 3566 SYNTAX INTEGER (0..100) 3567 MAX-ACCESS read-only 3568 STATUS current 3569 DESCRIPTION 3570 "Certain licensing authorities, for example FCC and 3571 Industry Canada, require adaptive modulation to be bound 3572 by a minimum and maximum modulation mode as defined by 3573 the radio license. This attribute is only of significance 3574 in such regions and when adaptive modulation is enabled. 3575 For other regions, for example ETSI, minimum and maximum 3576 modulation mode are directly adjustable by the user and 3577 are not defined by the radio license. In general, a 3578 modulation mode is defined by two aspects, a modulation 3579 and a code rate. This attribute is equal to 100 times the 3580 code rate aspect of the RadioLicenseMinModMode attribute 3581 required by the radio license. For example, if 3582 RadioLicenseMinModMode is configured for QPSK 0.80, this 3583 attribute will read 80." 3584 ::= { radioLicense 12 } 3585 3586 radioLicenseMaxModulation OBJECT-TYPE 3587 SYNTAX INTEGER { 3588 modQPSK(0), 3589 mod8PSK(1), 3590 mod16QAM(2), 3591 mod32QAM(3), 3592 mod64QAM(4), 3593 mod128QAM(5), 3594 mod256QAM(6) 3595 } 3596 MAX-ACCESS read-only 3597 STATUS current 3598 DESCRIPTION 3599 "Certain licensing authorities, for example FCC and 3600 Industry Canada, require adaptive modulation to be bound 3601 by a minimum and maximum modulation mode as defined by 3602 the radio license. This attribute is only of significance 3603 in such regions and when adaptive modulation is enabled. 3604 For other regions, for example ETSI, minimum and maximum 3605 modulation mode are directly adjustable by the user and 3606 are not defined by the radio license. In general, a 3607 modulation mode is defined by two aspects, a modulation 3608 and a code rate. This integer attribute identifies the 3609 modulation aspect of the RadioLicenseMaxModMode attribute 3610 required by the radio license. For example, if 3611 RadioLicenseMaxModMode is configured for 256QAM 0.91, 3612 this attribute will be set to a value of 6 which 3613 identifies a modulation of 256QAM." 3614 ::= { radioLicense 13 } 3615 3616 radioLicenseMaxCodeRate OBJECT-TYPE 3617 SYNTAX INTEGER (0..100) 3618 MAX-ACCESS read-only 3619 STATUS current 3620 DESCRIPTION 3621 "Certain licensing authorities, for example FCC and 3622 Industry Canada, require adaptive modulation to be bound 3623 by a minimum and maximum modulation mode as defined by 3624 the radio license. This attribute is only of significance 3625 in such regions and when adaptive modulation is enabled. 3626 For other regions, for example ETSI, minimum and maximum 3627 modulation mode are directly adjustable by the user and 3628 are not defined by the radio license. In general, a 3629 modulation mode is defined by two aspects, a modulation 3630 and a code rate. This attribute is equal to 100 times the 3631 code rate aspect of the RadioLicenseMaxModMode attribute 3632 required by the radio license. For example, if 3633 RadioLicenseMaxModMode is configured for 256QAM 0.91, 3634 this attribute will read 91." 3635 ::= { radioLicense 14 } 3636 3637 -- ProtectionConfig group attribute definitions 3638 -- 3639 protection OBJECT-TYPE 3640 SYNTAX INTEGER { 3641 disabled(0), 3642 hotStandby1plus1(1), 3643 hotStandby1plus1withRxDiversity(2) 3644 } 3645 MAX-ACCESS read-write 3646 STATUS current 3647 DESCRIPTION 3648 "PTP 800 supports a 1+1 Hot Standby configuration where 3649 the wireless link is protected against hardware failure. 3650 This requires the installation of redundant equipment at 3651 each end of the wireless link including a secondary CMU 3652 and RFU. At a given end of the wireless link, only one 3653 CMU / RFU is Active at any one time, the neighbor CMU / 3654 RFU being Inactive. When a fault is detected on the 3655 Active CMU / RFU, the Active role will automatically 3656 switch to the Inactive CMU / RFU. To enable functionality 3657 associated with this feature, this attribute must be 3658 configured for a setting of 1+1." 3659 ::= { protectionConfig 1 } 3660 3661 faultProtectionSwitching OBJECT-TYPE 3662 SYNTAX INTEGER { 3663 disabled(0), 3664 enabled(1) 3665 } 3666 MAX-ACCESS read-write 3667 STATUS current 3668 DESCRIPTION 3669 "In a 1+1 Hot Standby configuration, protection switching 3670 on detection of a fault can be enabled/disabled using 3671 this attribute." 3672 ::= { protectionConfig 2 } 3673 3674 primarySecondaryMode OBJECT-TYPE 3675 SYNTAX INTEGER { 3676 primary(0), 3677 secondary(1) 3678 } 3679 MAX-ACCESS read-write 3680 STATUS current 3681 DESCRIPTION 3682 "At a given end of a 1+1 Hot Standby configuration, one 3683 CMU must be configured as Primary, the other CMU as 3684 Secondary. When a Protected Link initialises with no 3685 faults, the CMUs configured as Primary will become the 3686 Active CMUs, that is, the Primary CMUs are the preferred 3687 CMUs. When RFUs are connected to the antenna via an 3688 Asymmetric Coupler, the RFU which is connected to the 3689 Primary CMU should be connected to the Main path of the 3690 coupler. This is the path with the lowest loss." 3691 ::= { protectionConfig 3 } 3692 3693 numberOfAntennas OBJECT-TYPE 3694 SYNTAX INTEGER { 3695 one(0), 3696 two(1) 3697 } 3698 MAX-ACCESS read-write 3699 STATUS current 3700 DESCRIPTION 3701 "This must be configured to match the number of antennas 3702 installed at this end of the link." 3703 ::= { protectionConfig 4 } 3704 3705 primaryRecovery OBJECT-TYPE 3706 SYNTAX INTEGER { 3707 disabled(0), 3708 enabled(1) 3709 } 3710 MAX-ACCESS read-write 3711 STATUS current 3712 DESCRIPTION 3713 "At a given end of a 1+1 Hot Standby configuration, the 3714 CMU configured as Primary is the preferred unit to take 3715 the Active role. If the Primary Recovery attribute is set 3716 to Enabled at a given end, a protection switch back to 3717 the preferred Primary CMU / RFU will occur autonomously 3718 if it has stayed free of faults for a configurable period 3719 of time determined by the Primary Recovery Period." 3720 ::= { protectionConfig 5 } 3721 3722 primaryRecoveryPeriod OBJECT-TYPE 3723 SYNTAX INTEGER (0..2880) 3724 MAX-ACCESS read-write 3725 STATUS current 3726 DESCRIPTION 3727 "At a given end of a 1+1 Hot Standby configuration, the 3728 CMU configured as Primary is the preferred unit to take 3729 the Active role. If the Primary Recovery attribute is set 3730 to Enabled at a given end, a protection switch back to 3731 the preferred Primary CMU / RFU will occur autonomously 3732 if it has stayed free of faults for a configurable period 3733 of time determined by the Primary Recovery Period." 3734 ::= { protectionConfig 6 } 3735 3736 requestedProtectionState OBJECT-TYPE 3737 SYNTAX INTEGER { 3738 inactive(0), 3739 active(1) 3740 } 3741 MAX-ACCESS read-write 3742 STATUS current 3743 DESCRIPTION 3744 "In a 1+1 Hot Standby configuration, only one CMU / RFU 3745 at a given end of the link is Active at any one time, the 3746 neighbor CMU / RFU being Inactive. Use the Requested 3747 Protection State attribute to request whether this CMU / 3748 RFU should be in the Active or Inactive state." 3749 ::= { protectionConfig 7 } 3750 3751 antennaReceiveLevelDeltaThreshold OBJECT-TYPE 3752 SYNTAX INTEGER (0..30) 3753 MAX-ACCESS read-write 3754 STATUS current 3755 DESCRIPTION 3756 "At a given end of a 1+1 Hot Standby configuration, a CMU 3757 will raise an alarm to the management system when the 3758 measured receive level adjusted by antenna gain and 3759 feeder loss is less than that of its neighbor by more 3760 than the Antenna Receive Level Delta Threshold." 3761 ::= { protectionConfig 8 } 3762 3763 antennaReceiveLevelMeasurementWindow OBJECT-TYPE 3764 SYNTAX INTEGER (1..2880) 3765 MAX-ACCESS read-write 3766 STATUS current 3767 DESCRIPTION 3768 "At a given end of a 1+1 Hot Standby configuration, a CMU 3769 will raise an alarm to the management system when the 3770 measured receive level adjusted by antenna gain and 3771 feeder loss is less than that of its neighbor by more 3772 than the Antenna Receive Level Delta Threshold. The 3773 measurements are averaged over the most recent Antenna 3774 Receive Level Measurement Window." 3775 ::= { protectionConfig 9 } 3776 3777 fiberY OBJECT-TYPE 3778 SYNTAX INTEGER { 3779 disabled(0), 3780 enabled(1) 3781 } 3782 MAX-ACCESS read-write 3783 STATUS current 3784 DESCRIPTION 3785 "One or both ends of a 1+1 Hot Standby system can be 3786 connected to the network using an 'Optical-Y Splitter Kit 3787 per end'. This end configuration provides a single fiber 3788 interface to the network. Any end which is connected to 3789 the network using this method must have the Fiber Y 3790 attribute set to Enabled. Please note: CMUs must be 3791 loaded with boot code version 03-00 or later and recovery 3792 version 04-00 or later for Fiber Y to work correctly." 3793 ::= { protectionConfig 12 } 3794 3795 rxDiversityVlanTpid OBJECT-TYPE 3796 SYNTAX INTEGER { 3797 iEEE8021QTaggedCTagType8100(0), 3798 iEEE8021adTaggedSTagorBTagType88a8(1) 3799 } 3800 MAX-ACCESS read-write 3801 STATUS current 3802 DESCRIPTION 3803 "When Receive Diversity is enabled, the Inactive CMU 3804 sends Rx Diversity Ethernet Frames to the Active CMU. 3805 These Ethernet Frames must be VLAN tagged and this 3806 attribute controls whether the frames are tagged using 3807 the TPID defined by 802.1Q or the TPID defined by 3808 802.1ad." 3809 ::= { protectionConfig 14 } 3810 3811 rxDiversityVid OBJECT-TYPE 3812 SYNTAX INTEGER (0..4094) 3813 MAX-ACCESS read-write 3814 STATUS current 3815 DESCRIPTION 3816 "When Receive Diversity is enabled, the Inactive CMU 3817 sends Rx Diversity Ethernet Frames to the Active CMU. 3818 These Ethernet Frames must be VLAN tagged and this 3819 attribute controls the VLAN Identifier" 3820 ::= { protectionConfig 15 } 3821 3822 -- ProtectionStatus group attribute definitions 3823 -- 3824 protectionAvailabilityStatus OBJECT-TYPE 3825 SYNTAX INTEGER { 3826 ok(0), 3827 notProtected(1), 3828 notProtecting(2) 3829 } 3830 MAX-ACCESS read-only 3831 STATUS current 3832 DESCRIPTION 3833 "In a 1+1 Hot Standby configuration, the Protection 3834 Availability Status attribute indicates whether the 3835 Active unit is currently being protected by the Inactive 3836 unit. If it isn't being protected, the Active unit will 3837 report Not Protected and the Inactive unit will report 3838 Not Protecting." 3839 ::= { protectionStatus 2 } 3840 3841 protectionConfigurationStatus OBJECT-TYPE 3842 SYNTAX INTEGER { 3843 ok(0), 3844 configurationNotProtecting(1) 3845 } 3846 MAX-ACCESS read-only 3847 STATUS current 3848 DESCRIPTION 3849 "In a 1+1 Hot Standby configuration, this attribute will 3850 indicate whether the configuration will support 3851 protection." 3852 ::= { protectionStatus 3 } 3853 3854 protectionState OBJECT-TYPE 3855 SYNTAX INTEGER { 3856 inactive(0), 3857 active(1) 3858 } 3859 MAX-ACCESS read-only 3860 STATUS current 3861 DESCRIPTION 3862 "In a 1+1 Hot Standby configuration, only one CMU / RFU 3863 at a given end of the link is Active at any one time, the 3864 neighbor CMU / RFU being Inactive. The Protection State 3865 attribute indicates whether a CMU / RFU is in the Active 3866 or Inactive state." 3867 ::= { protectionStatus 4 } 3868 3869 activeUnit OBJECT-TYPE 3870 SYNTAX INTEGER { 3871 primary(0), 3872 secondary(1) 3873 } 3874 MAX-ACCESS read-only 3875 STATUS current 3876 DESCRIPTION 3877 "At a given end of a 1+1 Hot Standby configuration, one 3878 CMU must be configured as Primary, the other CMU as 3879 Secondary. When a Protected Link initialises with no 3880 faults, the CMU configured as Primary will become the 3881 Active CMU, that is, the Primary CMU is the preferred 3882 CMUs. The Active Unit attribute indicates whether the 3883 active unit is configured as Primary or Secondary." 3884 ::= { protectionStatus 5 } 3885 3886 protectionSwitchCause OBJECT-TYPE 3887 SYNTAX INTEGER { 3888 noPreviousProtectionSwitch(0), 3889 neighborCMUConnectedButNotResponding(1), 3890 rFUNotResponding(2), 3891 rFURxRFSynthOutofLock(3), 3892 rFUTxRFSynthOutofLock(4), 3893 rFUCommonRFSynthOutofLock(5), 3894 rFUCableFailure(6), 3895 rFUCableAttenuatorAdjustmentFailure(7), 3896 rFUTxPowerDegraded(8), 3897 dataPortDown(9), 3898 managementPortDown(10), 3899 wirelessReceiveSignalNotDetected(11), 3900 byteErrorRatioOverThreshold(12), 3901 codeWordErrorRatioOverThreshold(13), 3902 cMURebooting(14), 3903 configurationNotProtecting(15), 3904 wirelessReceiveSignalNotDetectedatRemoteEnd(16), 3905 byteErrorRatioOverThresholdatRemoteEnd(17), 3906 codeWordErrorRatioOverThresholdatRemoteEnd(18), 3907 multipleReceiveFailureatRemoteEnd(19), 3908 primaryRecovery(20), 3909 managedProtectionSwitch(21), 3910 rFURxIFSynthOutofLock(22), 3911 rFUTxIFSynthOutofLock(23), 3912 rFUCommonIFSynthOutofLock(24), 3913 rFUVeryHighTemperature(25) 3914 } 3915 MAX-ACCESS read-only 3916 STATUS current 3917 DESCRIPTION 3918 "In a 1+1 Hot Standby configuration, the Protection 3919 Switch Cause attribute reports the reason for the last 3920 protection switch." 3921 ::= { protectionStatus 6 } 3922 3923 endId OBJECT-TYPE 3924 SYNTAX DisplayString (SIZE(0..79)) 3925 MAX-ACCESS read-only 3926 STATUS current 3927 DESCRIPTION 3928 "In a 1+1 Hot Standby configuration, the End Id contains 3929 the IP address of neighboring CMUs starting with the 3930 highest IP address and with a space separating the 3931 addresses. It is a single identifier of neighboring 3932 CMUs." 3933 ::= { protectionStatus 7 } 3934 3935 neighborIPAddress OBJECT-TYPE 3936 SYNTAX IpAddress 3937 MAX-ACCESS read-only 3938 STATUS current 3939 DESCRIPTION 3940 "In a 1+1 Hot Standby configuration, the Neighbor IP 3941 Address identifies the IP Address of the neighbor CMU 3942 connected via the Protection Interface." 3943 ::= { protectionStatus 8 } 3944 3945 neighborMACAddress OBJECT-TYPE 3946 SYNTAX OCTET STRING (SIZE(6)) 3947 MAX-ACCESS read-only 3948 STATUS current 3949 DESCRIPTION 3950 "In a 1+1 Hot Standby configuration, the Neighbor MAC 3951 Address identifies the MAC Address of the neighbor CMU 3952 connected via the Protection Interface." 3953 ::= { protectionStatus 9 } 3954 3955 wirelessReceiveSignalStatus OBJECT-TYPE 3956 SYNTAX INTEGER { 3957 ok(0), 3958 notDetected(1) 3959 } 3960 MAX-ACCESS read-only 3961 STATUS current 3962 DESCRIPTION 3963 "The Wireless Receive Signal Status indicates if the 3964 receiver is able to demodulate the transmit signal from 3965 the remote end of the link. If it cannot demodulate the 3966 signal, a protection switch may occur in a system 3967 configured for 1+1 Hot Standby." 3968 ::= { protectionStatus 10 } 3969 3970 licensedTransmitCapacityStatus OBJECT-TYPE 3971 SYNTAX INTEGER { 3972 ok(0), 3973 lessThanNeighbor(1) 3974 } 3975 MAX-ACCESS read-only 3976 STATUS current 3977 DESCRIPTION 3978 "In a 1+1 Hot Standby configuration, the Licensed 3979 Transmit Capacity Status attribute indicates when the 3980 Licensed Transmit Capacity is below that of its 3981 neighbor." 3982 ::= { protectionStatus 14 } 3983 3984 dataPortEthernetSpeedStatus OBJECT-TYPE 3985 SYNTAX INTEGER { 3986 ok(0), 3987 lessThanNeighbor(1) 3988 } 3989 MAX-ACCESS read-only 3990 STATUS current 3991 DESCRIPTION 3992 "In a 1+1 Hot Standby configuration, the Data Port 3993 Ethernet Speed Status attribute indicates if the Ethernet 3994 Speed of the Data Port is below that of its neighbor." 3995 ::= { protectionStatus 15 } 3996 3997 managementPortEthernetSpeedStatus OBJECT-TYPE 3998 SYNTAX INTEGER { 3999 ok(0), 4000 lessThanNeighbor(1) 4001 } 4002 MAX-ACCESS read-only 4003 STATUS current 4004 DESCRIPTION 4005 "In a 1+1 Hot Standby configuration, the Management Port 4006 Ethernet Speed Status attribute indicates if the Ethernet 4007 Speed of the Management Port is below that of its 4008 neighbor." 4009 ::= { protectionStatus 16 } 4010 4011 protectionInterfaceStatus OBJECT-TYPE 4012 SYNTAX INTEGER { 4013 ok(0), 4014 neighborNotResponding(1), 4015 neighborNotConnected(2) 4016 } 4017 MAX-ACCESS read-only 4018 STATUS current 4019 DESCRIPTION 4020 "In a 1+1 Hot Standby configuration, information is 4021 shared between neighbor CMUs over the Protection 4022 Interface. The Protection Interface Status attribute 4023 reports whether the neighbor CMU is successfully 4024 responding, physically disconnected or whether it is 4025 physically connected but not responding, e.g. powered 4026 down." 4027 ::= { protectionStatus 17 } 4028 4029 remotePrimaryIPAddress OBJECT-TYPE 4030 SYNTAX IpAddress 4031 MAX-ACCESS read-only 4032 STATUS current 4033 DESCRIPTION 4034 "In a 1+1 Hot Standby configuration, the Remote Primary 4035 IP Address reports the IP address of the CMU which is 4036 configured as Primary at the remote end of the wireless 4037 link." 4038 ::= { protectionStatus 18 } 4039 4040 remoteSecondaryIPAddress OBJECT-TYPE 4041 SYNTAX IpAddress 4042 MAX-ACCESS read-only 4043 STATUS current 4044 DESCRIPTION 4045 "In a 1+1 Hot Standby configuration, the Remote Secondary 4046 IP Address reports the IP address of the CMU which is 4047 configured as Secondary at the remote end of the wireless 4048 link." 4049 ::= { protectionStatus 19 } 4050 4051 remotePrimaryMACAddress OBJECT-TYPE 4052 SYNTAX OCTET STRING (SIZE(6)) 4053 MAX-ACCESS read-only 4054 STATUS current 4055 DESCRIPTION 4056 "In a 1+1 Hot Standby configuration, the Remote Primary 4057 MAC Address reports the MAC address of the CMU which is 4058 configured as Primary at the remote end of the wireless 4059 link." 4060 ::= { protectionStatus 20 } 4061 4062 remoteSecondaryMACAddress OBJECT-TYPE 4063 SYNTAX OCTET STRING (SIZE(6)) 4064 MAX-ACCESS read-only 4065 STATUS current 4066 DESCRIPTION 4067 "In a 1+1 Hot Standby configuration, the Remote Secondary 4068 MAC Address reports the MAC address of the CMU which is 4069 configured as Secondary at the remote end of the wireless 4070 link." 4071 ::= { protectionStatus 21 } 4072 4073 remotePrimarySecondaryMode OBJECT-TYPE 4074 SYNTAX INTEGER { 4075 primary(0), 4076 secondary(1) 4077 } 4078 MAX-ACCESS read-only 4079 STATUS current 4080 DESCRIPTION 4081 "In a 1+1 Hot Standby configuration, this attribute 4082 identifies whether the Active Unit at the remote end of 4083 the link is configured as Primary or Secondary." 4084 ::= { protectionStatus 22 } 4085 4086 transmitterStatus OBJECT-TYPE 4087 SYNTAX INTEGER { 4088 muted(0), 4089 transmitting(1), 4090 inactive(2) 4091 } 4092 MAX-ACCESS read-only 4093 STATUS current 4094 DESCRIPTION 4095 "Indicates whether the RFU is transmitting or muted. In a 4096 1+1 Hot Standby configuration, it will also indicate if 4097 the RFU is Inactive and therefore ready to transmit." 4098 ::= { protectionStatus 23 } 4099 4100 endWirelessReceiveSignalStatus OBJECT-TYPE 4101 SYNTAX INTEGER { 4102 ok(0), 4103 notDetected(1) 4104 } 4105 MAX-ACCESS read-only 4106 STATUS current 4107 DESCRIPTION 4108 "The End Wireless Receive Signal Status indicates if the 4109 end of a link is unable to demodulate the signal 4110 transmitted from the remote end of the link. When 4111 Protection is set to 1+1 Hot Standby, this attribute will 4112 indicate Not Detected if the Active CMU is unable to 4113 demodulate the wireless signal. When Receive Diversity is 4114 enabled, this attribute will indicate Not Detected if 4115 both the Active and Inactive CMUs are unable to 4116 demodulate the wireless signal." 4117 ::= { protectionStatus 26 } 4118 4119 rxDiversityDataPortStatus OBJECT-TYPE 4120 SYNTAX INTEGER { 4121 ok(0), 4122 notProtecting(1) 4123 } 4124 MAX-ACCESS read-only 4125 STATUS current 4126 DESCRIPTION 4127 "When Receive Diversity is enabled, the Inactive CMU 4128 sends Rx Diversity Ethernet Frames to the Active CMU. 4129 Before sending these frames, the Data Port MUST be 4130 negotiated at 1000 Mbps. This attribute indicates if this 4131 is not the case" 4132 ::= { protectionStatus 27 } 4133 4134 rxDiversityAvailabilityStatus OBJECT-TYPE 4135 SYNTAX INTEGER { 4136 ok(0), 4137 notProtected(1), 4138 notProtecting(2) 4139 } 4140 MAX-ACCESS read-only 4141 STATUS current 4142 DESCRIPTION 4143 "The Rx Diversity Availability Status attribute will 4144 indicate when Receive Diversity is not operating 4145 correctly, either due to a fault or due to an incorrect 4146 configuration" 4147 ::= { protectionStatus 28 } 4148 4149 rxDiversityConfigurationStatus OBJECT-TYPE 4150 SYNTAX INTEGER { 4151 ok(0), 4152 configurationNotProtecting(1) 4153 } 4154 MAX-ACCESS read-only 4155 STATUS current 4156 DESCRIPTION 4157 "For Receive Diversity to operate correctly, certain 4158 attributes must be configured correctly on both neighbor 4159 CMUs. The Rx Diversity Configuration Status attribute 4160 will indicate when this is not the case" 4161 ::= { protectionStatus 29 } 4162 4163 rxDiversityNeighborCompatibility OBJECT-TYPE 4164 SYNTAX INTEGER { 4165 ok(0), 4166 mismatch(1) 4167 } 4168 MAX-ACCESS read-only 4169 STATUS current 4170 DESCRIPTION 4171 "For Receive Diversity to operate correctly, both 4172 neighbor CMUs must both be configured with the Protection 4173 attribute set to �1+1 Hot Standby with Rx Diversity�. 4174 The Rx Diversity Neighbor Compatibility attribute 4175 indicates when the neighbor CMU is configured to a 4176 different setting" 4177 ::= { protectionStatus 30 } 4178 4179 rxDiversityVlanTpidNeighborCompatibility OBJECT-TYPE 4180 SYNTAX INTEGER { 4181 ok(0), 4182 mismatch(1) 4183 } 4184 MAX-ACCESS read-only 4185 STATUS current 4186 DESCRIPTION 4187 "For Receive Diversity to operate correctly, both 4188 neighbor CMUs must be configured with the same value of 4189 Rx Diversity VLAN TPID. The Rx Diversity VLAN TPID 4190 Neighbor Compatibility attribute indicates when this is 4191 not the case" 4192 ::= { protectionStatus 31 } 4193 4194 rxDiversityVidNeighborCompatibility OBJECT-TYPE 4195 SYNTAX INTEGER { 4196 ok(0), 4197 mismatch(1) 4198 } 4199 MAX-ACCESS read-only 4200 STATUS current 4201 DESCRIPTION 4202 "For Receive Diversity to operate correctly, both 4203 neighbor CMUs must be configured with the same value of 4204 Rx Diversity VID. The Rx Diversity VID Neighbor 4205 Compatibility attribute indicates when this is not the 4206 case" 4207 ::= { protectionStatus 32 } 4208 4209 neighborInternetAddressType OBJECT-TYPE 4210 SYNTAX INTEGER { 4211 unknown(0), 4212 ipv4(1), 4213 ipv6(2), 4214 ipv4z(3), 4215 ipv6z(4), 4216 unknown6(5), 4217 unknown7(6), 4218 unknown8(7), 4219 unknown9(8), 4220 unknown10(9), 4221 unknown11(10), 4222 unknown12(11), 4223 unknown13(12), 4224 unknown14(13), 4225 unknown15(14), 4226 unknown16(15), 4227 dns(16) 4228 } 4229 MAX-ACCESS read-only 4230 STATUS current 4231 DESCRIPTION 4232 "The type of Internet address specified by the associated 4233 neighborInternetAddress." 4234 ::= { protectionStatus 33 } 4235 4236 neighborInternetAddress OBJECT-TYPE 4237 SYNTAX InetAddress 4238 MAX-ACCESS read-only 4239 STATUS current 4240 DESCRIPTION 4241 "In a 1+1 Hot Standby configuration, the Neighbor 4242 Internet Address identifies the INET Address of the 4243 neighbor CMU connected via the Protection Interface." 4244 ::= { protectionStatus 34 } 4245 4246 remotePrimaryInternetAddressType OBJECT-TYPE 4247 SYNTAX INTEGER { 4248 unknown(0), 4249 ipv4(1), 4250 ipv6(2), 4251 ipv4z(3), 4252 ipv6z(4), 4253 unknown6(5), 4254 unknown7(6), 4255 unknown8(7), 4256 unknown9(8), 4257 unknown10(9), 4258 unknown11(10), 4259 unknown12(11), 4260 unknown13(12), 4261 unknown14(13), 4262 unknown15(14), 4263 unknown16(15), 4264 dns(16) 4265 } 4266 MAX-ACCESS read-only 4267 STATUS current 4268 DESCRIPTION 4269 "The type of Internet address specified by the associated 4270 remoteSecondaryInternetAddress." 4271 ::= { protectionStatus 35 } 4272 4273 remotePrimaryInternetAddress OBJECT-TYPE 4274 SYNTAX InetAddress 4275 MAX-ACCESS read-only 4276 STATUS current 4277 DESCRIPTION 4278 "In a 1+1 Hot Standby configuration, the Remote Primary 4279 Internet Address reports the INET address of the CMU 4280 which is configured as Primary at the remote end of the 4281 wireless link." 4282 ::= { protectionStatus 36 } 4283 4284 remoteSecondaryInternetAddressType OBJECT-TYPE 4285 SYNTAX INTEGER { 4286 unknown(0), 4287 ipv4(1), 4288 ipv6(2), 4289 ipv4z(3), 4290 ipv6z(4), 4291 unknown6(5), 4292 unknown7(6), 4293 unknown8(7), 4294 unknown9(8), 4295 unknown10(9), 4296 unknown11(10), 4297 unknown12(11), 4298 unknown13(12), 4299 unknown14(13), 4300 unknown15(14), 4301 unknown16(15), 4302 dns(16) 4303 } 4304 MAX-ACCESS read-only 4305 STATUS current 4306 DESCRIPTION 4307 "The type of Internet address specified by the associated 4308 remoteSecondaryInternetAddress." 4309 ::= { protectionStatus 37 } 4310 4311 remoteSecondaryInternetAddress OBJECT-TYPE 4312 SYNTAX InetAddress 4313 MAX-ACCESS read-only 4314 STATUS current 4315 DESCRIPTION 4316 "In a 1+1 Hot Standby configuration, the Remote Secondary 4317 Internet Address reports the INET address of the CMU 4318 which is configured as Secondary at the remote end of the 4319 wireless link." 4320 ::= { protectionStatus 38 } 4321 4322 -- ProtectionStats group attribute definitions 4323 -- 4324 activeCodeWordCount OBJECT-TYPE 4325 SYNTAX Counter64 4326 MAX-ACCESS read-only 4327 STATUS current 4328 DESCRIPTION 4329 "The Active Code Word Count reports the number of code 4330 words received over the wireless interface whilst the CMU 4331 / RFU is in the Active role of a 1+1 Hot Standby 4332 configuration. The count is since the last statistics 4333 reset." 4334 ::= { protectionStats 1 } 4335 4336 activeCodeWordErrorCount OBJECT-TYPE 4337 SYNTAX Counter64 4338 MAX-ACCESS read-only 4339 STATUS current 4340 DESCRIPTION 4341 "The Active Code Word Error Count reports the number of 4342 code word errors which have been detected at the wireless 4343 interface whilst the CMU / RFU is in the Active role of a 4344 1+1 Hot Standby configuration. The count is since the 4345 last statistics reset." 4346 ::= { protectionStats 2 } 4347 4348 activeByteCount OBJECT-TYPE 4349 SYNTAX Counter64 4350 MAX-ACCESS read-only 4351 STATUS current 4352 DESCRIPTION 4353 "The Active Byte Count reports the number of bytes 4354 received over the wireless interface whilst the CMU / RFU 4355 is in the Active role of a 1+1 Hot Standby configuration. 4356 The count is since the last statistics reset." 4357 ::= { protectionStats 3 } 4358 4359 activeByteErrorCount OBJECT-TYPE 4360 SYNTAX Counter64 4361 MAX-ACCESS read-only 4362 STATUS current 4363 DESCRIPTION 4364 "The Active Byte Error Count reports the number of byte 4365 errors which have been detected at the wireless interface 4366 whilst the CMU / RFU is in the Active role of a 1+1 Hot 4367 Standby configuration. The count is since the last 4368 statistics reset." 4369 ::= { protectionStats 4 } 4370 4371 activeAvailableTime OBJECT-TYPE 4372 SYNTAX Integer32 4373 MAX-ACCESS read-only 4374 STATUS current 4375 DESCRIPTION 4376 "The Active Available Time reports the time which the 4377 Wireless Link Status has been Up whilst the CMU/RFU has 4378 been in the Active role of a 1+1 Hot Standby 4379 configuration. The reported time is since the last 4380 statistics reset." 4381 ::= { protectionStats 5 } 4382 4383 activeCounterMeasurementPeriod OBJECT-TYPE 4384 SYNTAX Integer32 4385 MAX-ACCESS read-only 4386 STATUS current 4387 DESCRIPTION 4388 "For a 1+1 Hot Standby link, the elapsed time that the 4389 Protection State of the unit has been in the active state 4390 since the last reset of the system counters." 4391 ::= { protectionStats 6 } 4392 4393 activeWirelessLinkAvailability OBJECT-TYPE 4394 SYNTAX INTEGER (0..1000000) 4395 MAX-ACCESS read-only 4396 STATUS current 4397 DESCRIPTION 4398 "For a 1+1 Hot Standby link, the percentage of time that 4399 the unit has been able to successfully demodulate the 4400 signal transmitted from the remote end of the link whilst 4401 the Protecion State of the unit has been active. This 4402 attribute is not updated whilst the Protection State is 4403 inactive. Calculated since the last reset of the system 4404 counters. The reported value is the percentage multiplied 4405 by 10000" 4406 ::= { protectionStats 7 } 4407 4408 activeCodeWordErrorRatio OBJECT-TYPE 4409 SYNTAX Counter64 4410 MAX-ACCESS read-only 4411 STATUS current 4412 DESCRIPTION 4413 "The wireless link sends data in error correctable blocks 4414 called code words. For a 1+1 Hot Standby link, this 4415 attribute reports the ratio of uncorrected code words to 4416 the total number of code words received whilst the 4417 Protecion State of the unit has been active. This ratio 4418 is not updated whilst the Protection State is inactive. 4419 Calculated since the last reset of the system counters. 4420 The reported value is the ratio multiplied by 10 to the 4421 power of 12" 4422 ::= { protectionStats 8 } 4423 4424 activeByteErrorRatio OBJECT-TYPE 4425 SYNTAX Counter64 4426 MAX-ACCESS read-only 4427 STATUS current 4428 DESCRIPTION 4429 "For a 1+1 Hot Standby link, the Byte Error Ratio 4430 measured by the unit whilst the Protecion State has been 4431 active. This ratio is not updated whilst the Protection 4432 State is inactive. Calculated since the last reset of the 4433 system counters. The reported value is the ratio 4434 multiplied by 10 to the power of 12" 4435 ::= { protectionStats 9 } 4436 4437 -- AAAControl group attribute definitions 4438 -- 4439 userTableNumber OBJECT-TYPE 4440 SYNTAX INTEGER (1..10) 4441 MAX-ACCESS read-only 4442 STATUS current 4443 DESCRIPTION 4444 "Number of entries in the userTable" 4445 ::= { aAAControl 1 } 4446 4447 -- UserTable group attribute definitions 4448 -- 4449 userTableIndex OBJECT-TYPE 4450 SYNTAX INTEGER (1..10) 4451 MAX-ACCESS not-accessible 4452 STATUS current 4453 DESCRIPTION 4454 "used to index values in the userTable." 4455 ::= { userTableEntry 1 } 4456 4457 userName OBJECT-TYPE 4458 SYNTAX OCTET STRING 4459 MAX-ACCESS read-only 4460 STATUS current 4461 DESCRIPTION 4462 "User name which must be entered, along with the 4463 appropriate password, in order to gain access to the 4464 system." 4465 ::= { userTableEntry 2 } 4466 4467 userRole OBJECT-TYPE 4468 SYNTAX INTEGER { 4469 readOnly(0), 4470 systemAdministrator(1), 4471 securityOfficer(2) 4472 } 4473 MAX-ACCESS read-only 4474 STATUS current 4475 DESCRIPTION 4476 "Role of the selected user. A Security Officer has access 4477 to and can modify all settings. A System Administrator 4478 has access to and can modify all non-security settings. A 4479 Read Only user can view settings, but cannot make any 4480 changes." 4481 ::= { userTableEntry 3 } 4482 4483 userEnabled OBJECT-TYPE 4484 SYNTAX INTEGER { 4485 disabled(0), 4486 enabled(1) 4487 } 4488 MAX-ACCESS read-only 4489 STATUS current 4490 DESCRIPTION 4491 "Enable / Disable the selected user" 4492 ::= { userTableEntry 4 } 4493 4494 userPassword OBJECT-TYPE 4495 SYNTAX OCTET STRING 4496 MAX-ACCESS read-write 4497 STATUS current 4498 DESCRIPTION 4499 "User password, which must be entered in order to gain 4500 access to the system." 4501 ::= { userTableEntry 5 } 4502 4503 -- SyslogControl group attribute definitions 4504 -- 4505 syslogClient OBJECT-TYPE 4506 SYNTAX INTEGER { 4507 disabled(0), 4508 enabled(1) 4509 } 4510 MAX-ACCESS read-only 4511 STATUS current 4512 DESCRIPTION 4513 "Enable or disable the syslog client" 4514 ::= { syslogControl 1 } 4515 4516 syslogState OBJECT-TYPE 4517 SYNTAX INTEGER { 4518 disabled(0), 4519 enabled(1) 4520 } 4521 MAX-ACCESS read-only 4522 STATUS current 4523 DESCRIPTION 4524 "The syslog service has been enabled or disabled" 4525 ::= { syslogControl 2 } 4526 4527 -- Supplementary group attribute definitions 4528 -- 4529 longitude OBJECT-TYPE 4530 SYNTAX DisplayString (SIZE(0..19)) 4531 MAX-ACCESS read-write 4532 STATUS current 4533 DESCRIPTION 4534 "The longitude of the unit, measured in decimal degrees. 4535 This object is set by the SNMP manager and has no 4536 internal function." 4537 ::= { supplementary 1 } 4538 4539 latitude OBJECT-TYPE 4540 SYNTAX DisplayString (SIZE(0..19)) 4541 MAX-ACCESS read-write 4542 STATUS current 4543 DESCRIPTION 4544 "The latitude of the unit, measured in decimal degrees. 4545 This object is set by the SNMP manager and has no 4546 internal function." 4547 ::= { supplementary 2 } 4548 4549 altitude OBJECT-TYPE 4550 SYNTAX Integer32 4551 MAX-ACCESS read-write 4552 STATUS current 4553 DESCRIPTION 4554 "The altitude of the unit, measured in metres. This 4555 object is set by the SNMP manager and has no internal 4556 function." 4557 ::= { supplementary 3 } 4558 4559 -- Enterprise NOTIFICATION definitions 4560 -- 4561 4562 dataPortStatusTrap NOTIFICATION-TYPE 4563 OBJECTS { dataPortStatus } 4564 STATUS current 4565 DESCRIPTION 4566 "Current status of the data Ethernet link. NB: a change 4567 of state may generate an SNMP trap and/or SMTP email 4568 alert" 4569 ::= { ptpTrapPrefix 3 } 4570 4571 linkNameMismatchTrap NOTIFICATION-TYPE 4572 OBJECTS { linkNameMismatch } 4573 STATUS current 4574 DESCRIPTION 4575 "Signaling was received with the wrong Link Name. Either 4576 the Link Name is configured differently at each end of 4577 the wireless link, or this unit is aligned to the wrong 4578 link partner. NB: A change of value during operation may 4579 generate an SNMP trap and/or SMTP email alert" 4580 ::= { ptpTrapPrefix 9 } 4581 4582 alignmentModeTrap NOTIFICATION-TYPE 4583 OBJECTS { alignmentMode } 4584 STATUS current 4585 DESCRIPTION 4586 "Indicates if the unit is undergoing alignment. NB: a 4587 change of state during operation may generate an SNMP 4588 trap and/or SMTP email alert" 4589 ::= { ptpTrapPrefix 10 } 4590 4591 unitOutOfCalibrationTrap NOTIFICATION-TYPE 4592 OBJECTS { unitOutOfCalibration } 4593 STATUS current 4594 DESCRIPTION 4595 "The unit is out of calibration" 4596 ::= { ptpTrapPrefix 11 } 4597 4598 encryptionEnabledMismatchTrap NOTIFICATION-TYPE 4599 OBJECTS { encryptionEnabledMismatch } 4600 STATUS current 4601 DESCRIPTION 4602 "Encryption has been enabled on one end of the wireless 4603 link but not the other" 4604 ::= { ptpTrapPrefix 13 } 4605 4606 dataPortDisabledWarningTrap NOTIFICATION-TYPE 4607 OBJECTS { dataPortDisabledWarning } 4608 STATUS current 4609 DESCRIPTION 4610 "The SNMP ifAdminStatus of the data Ethernet interface 4611 has disabled Ethernet traffic" 4612 ::= { ptpTrapPrefix 17 } 4613 4614 dataPortFiberStatusTrap NOTIFICATION-TYPE 4615 OBJECTS { dataPortFiberStatus } 4616 STATUS current 4617 DESCRIPTION 4618 "If the fiber interface on the data Ethernet port is not 4619 OK, there are three possible causes: 1) the fiber 4620 interface has been installed but disabled, 2) the 4621 interface could not be established even though no LOS was 4622 detected (i.e. an optical carrier was detected, which 4623 could be due to a broken TX fiber, or because the 4624 interface is disabled at the other end of the fiber 4625 link), or 3) the interface could not be established and 4626 LOS is detected (i.e. no optical carrier is detected). 4627 NB: a change of status may generate an SNMP trap and/or 4628 SMTP email alert" 4629 ::= { ptpTrapPrefix 18 } 4630 4631 dataPortConfigurationMismatchTrap NOTIFICATION-TYPE 4632 OBJECTS { dataPortConfigurationMismatch } 4633 STATUS current 4634 DESCRIPTION 4635 "The detection of Ethernet fragments (runt packets) on 4636 the data Ethernet port when the link is in full duplex is 4637 an indication of an auto-negotiation or forced 4638 configuration mismatch" 4639 ::= { ptpTrapPrefix 19 } 4640 4641 softwareVersionRemoteCompatibilityTrap NOTIFICATION-TYPE 4642 OBJECTS { softwareVersionRemoteCompatibility } 4643 STATUS current 4644 DESCRIPTION 4645 "Indicates a mismatch of software versions at the two 4646 ends of the wireless link" 4647 ::= { ptpTrapPrefix 20 } 4648 4649 sNTPSyncTrap NOTIFICATION-TYPE 4650 OBJECTS { sNTPSync } 4651 STATUS current 4652 DESCRIPTION 4653 "If SNTP Sync fails then check the server settings in the 4654 Remote Management page, or disable SNTP. NB: a change of 4655 state may generate an SNMP trap and/or SMTP email alert" 4656 ::= { ptpTrapPrefix 21 } 4657 4658 managementPortStatusTrap NOTIFICATION-TYPE 4659 OBJECTS { managementPortStatus } 4660 STATUS current 4661 DESCRIPTION 4662 "Current status of the out-of-band management Ethernet 4663 link" 4664 ::= { ptpTrapPrefix 23 } 4665 4666 managementPortDisabledWarningTrap NOTIFICATION-TYPE 4667 OBJECTS { managementPortDisabledWarning } 4668 STATUS current 4669 DESCRIPTION 4670 "The SNMP ifAdminStatus of the out-of-band management 4671 Ethernet interface has disabled Ethernet traffic" 4672 ::= { ptpTrapPrefix 24 } 4673 4674 rFUStatusTrap NOTIFICATION-TYPE 4675 OBJECTS { rFUStatus } 4676 STATUS current 4677 DESCRIPTION 4678 "Current status of the RFU. A state of 'ok' indicates 4679 that the RFU is fully operational, although may not be 4680 transmitting." 4681 ::= { ptpTrapPrefix 27 } 4682 4683 managementPortConfigurationMismatchTrap NOTIFICATION-TYPE 4684 OBJECTS { managementPortConfigurationMismatch } 4685 STATUS current 4686 DESCRIPTION 4687 "The detection of Ethernet fragments (runt packets) on 4688 the out-of-band management Ethernet port when the link is 4689 in full duplex is an indication of an auto-negotiation or 4690 forced configuration mismatch" 4691 ::= { ptpTrapPrefix 28 } 4692 4693 wirelessLinkStatusTrap NOTIFICATION-TYPE 4694 OBJECTS { wirelessLinkStatus } 4695 STATUS current 4696 DESCRIPTION 4697 "Current status of the wireless link" 4698 ::= { ptpTrapPrefix 29 } 4699 4700 protectionAvailabilityStatusTrap NOTIFICATION-TYPE 4701 OBJECTS { protectionAvailabilityStatus } 4702 STATUS current 4703 DESCRIPTION 4704 "In a 1+1 Hot Standby configuration, the Protection 4705 Availability Status attribute indicates whether the 4706 Active unit is currently being protected by the Inactive 4707 unit. If it isn't being protected, the Active unit will 4708 report Not Protected and the Inactive unit will report 4709 Not Protecting." 4710 ::= { ptpTrapPrefix 31 } 4711 4712 protectionConfigurationStatusTrap NOTIFICATION-TYPE 4713 OBJECTS { protectionConfigurationStatus } 4714 STATUS current 4715 DESCRIPTION 4716 "In a 1+1 Hot Standby configuration, this attribute will 4717 indicate whether the configuration will support 4718 protection." 4719 ::= { ptpTrapPrefix 32 } 4720 4721 protectionStateTrap NOTIFICATION-TYPE 4722 OBJECTS { protectionState } 4723 STATUS current 4724 DESCRIPTION 4725 "In a 1+1 Hot Standby configuration, only one CMU / RFU 4726 at a given end of the link is Active at any one time, the 4727 neighbor CMU / RFU being Inactive. The Protection State 4728 attribute indicates whether a CMU / RFU is in the Active 4729 or Inactive state." 4730 ::= { ptpTrapPrefix 33 } 4731 4732 wirelessReceiveSignalStatusTrap NOTIFICATION-TYPE 4733 OBJECTS { wirelessReceiveSignalStatus } 4734 STATUS current 4735 DESCRIPTION 4736 "The Wireless Receive Signal Status indicates if the 4737 receiver is able to demodulate the transmit signal from 4738 the remote end of the link. If it cannot demodulate the 4739 signal, a protection switch may occur in a system 4740 configured for 1+1 Hot Standby." 4741 ::= { ptpTrapPrefix 34 } 4742 4743 licensedTransmitCapacityStatusTrap NOTIFICATION-TYPE 4744 OBJECTS { licensedTransmitCapacityStatus } 4745 STATUS current 4746 DESCRIPTION 4747 "In a 1+1 Hot Standby configuration, the Licensed 4748 Transmit Capacity Status attribute indicates when the 4749 Licensed Transmit Capacity is below that of its 4750 neighbor." 4751 ::= { ptpTrapPrefix 36 } 4752 4753 dataPortEthernetSpeedStatusTrap NOTIFICATION-TYPE 4754 OBJECTS { dataPortEthernetSpeedStatus } 4755 STATUS current 4756 DESCRIPTION 4757 "In a 1+1 Hot Standby configuration, the Data Port 4758 Ethernet Speed Status attribute indicates if the Ethernet 4759 Speed of the Data Port is below that of its neighbor." 4760 ::= { ptpTrapPrefix 37 } 4761 4762 managementPortEthernetSpeedStatusTrap NOTIFICATION-TYPE 4763 OBJECTS { managementPortEthernetSpeedStatus } 4764 STATUS current 4765 DESCRIPTION 4766 "In a 1+1 Hot Standby configuration, the Management Port 4767 Ethernet Speed Status attribute indicates if the Ethernet 4768 Speed of the Management Port is below that of its 4769 neighbor." 4770 ::= { ptpTrapPrefix 38 } 4771 4772 protectionInterfaceStatusTrap NOTIFICATION-TYPE 4773 OBJECTS { protectionInterfaceStatus } 4774 STATUS current 4775 DESCRIPTION 4776 "In a 1+1 Hot Standby configuration, information is 4777 shared between neighbor CMUs over the Protection 4778 Interface. The Protection Interface Status attribute 4779 reports whether the neighbor CMU is successfully 4780 responding, physically disconnected or whether it is 4781 physically connected but not responding, e.g. powered 4782 down." 4783 ::= { ptpTrapPrefix 39 } 4784 4785 syslogStateTrap NOTIFICATION-TYPE 4786 OBJECTS { syslogState } 4787 STATUS current 4788 DESCRIPTION 4789 "The syslog service has been enabled or disabled" 4790 ::= { ptpTrapPrefix 40 } 4791 4792 syslogLocalNearlyFullTrap NOTIFICATION-TYPE 4793 STATUS current 4794 DESCRIPTION "The syslog local log is nearly full (90%)" 4795 ::= { ptpTrapPrefix 41 } 4796 4797 syslogLocalWrappedTrap NOTIFICATION-TYPE 4798 STATUS current 4799 DESCRIPTION "The syslog local log has wrapped" 4800 ::= { ptpTrapPrefix 42 } 4801 4802 secureModeAlarmTrap NOTIFICATION-TYPE 4803 OBJECTS { secureModeAlarm } 4804 STATUS current 4805 DESCRIPTION 4806 "The secure mode (e.g. FIPS, UC-APL) state of the unit. 4807 The secure mode is not configured(1) state indicates that 4808 the unit is capable of secure mode operation, and one or 4809 more of the following security materials has not been 4810 configured: Key Of Keys, Private Key, Public Certificate, 4811 DRNG Entropy Status, Wireless Encryption Key. The secure 4812 mode mode is configured but not active(2) state indicates 4813 that the unit is capable of secure mode operation, and 4814 the security material has been configured, but the 4815 configuration of interfaces is not consistent with secure 4816 mode operation. The secure mode is not supported(3) state 4817 indicates that the unit is not capable of secure mode 4818 operation. The secure mode capability requires 4819 appropriate hardware compatibility, license key and 4820 software image." 4821 ::= { ptpTrapPrefix 43 } 4822 4823 endWirelessReceiveSignalStatusTrap NOTIFICATION-TYPE 4824 OBJECTS { endWirelessReceiveSignalStatus } 4825 STATUS current 4826 DESCRIPTION 4827 "The End Wireless Receive Signal Status indicates if the 4828 end of a link is unable to demodulate the signal 4829 transmitted from the remote end of the link. When 4830 Protection is set to 1+1 Hot Standby, this attribute will 4831 indicate Not Detected if the Active CMU is unable to 4832 demodulate the wireless signal. When Receive Diversity is 4833 enabled, this attribute will indicate Not Detected if 4834 both the Active and Inactive CMUs are unable to 4835 demodulate the wireless signal." 4836 ::= { ptpTrapPrefix 44 } 4837 4838 rxDiversityDataPortStatusTrap NOTIFICATION-TYPE 4839 OBJECTS { rxDiversityDataPortStatus } 4840 STATUS current 4841 DESCRIPTION 4842 "When Receive Diversity is enabled, the Inactive CMU 4843 sends Rx Diversity Ethernet Frames to the Active CMU. 4844 Before sending these frames, the Data Port MUST be 4845 negotiated at 1000 Mbps. This attribute indicates if this 4846 is not the case" 4847 ::= { ptpTrapPrefix 45 } 4848 4849 rxDiversityAvailabilityStatusTrap NOTIFICATION-TYPE 4850 OBJECTS { rxDiversityAvailabilityStatus } 4851 STATUS current 4852 DESCRIPTION 4853 "The Rx Diversity Availability Status attribute will 4854 indicate when Receive Diversity is not operating 4855 correctly, either due to a fault or due to an incorrect 4856 configuration" 4857 ::= { ptpTrapPrefix 46 } 4858 4859 rxDiversityConfigurationStatusTrap NOTIFICATION-TYPE 4860 OBJECTS { rxDiversityConfigurationStatus } 4861 STATUS current 4862 DESCRIPTION 4863 "For Receive Diversity to operate correctly, certain 4864 attributes must be configured correctly on both neighbor 4865 CMUs. The Rx Diversity Configuration Status attribute 4866 will indicate when this is not the case" 4867 ::= { ptpTrapPrefix 47 } 4868 4869 rFUPowerButtonPressedTrap NOTIFICATION-TYPE 4870 OBJECTS { rFUPowerButtonPressed } 4871 STATUS current 4872 DESCRIPTION 4873 "IRFU power button have been pressed, IFRU has powered 4874 down unexpectedly" 4875 ::= { ptpTrapPrefix 48 } 4876 4877 syslogClientTrap NOTIFICATION-TYPE 4878 OBJECTS { syslogClient } 4879 STATUS current 4880 DESCRIPTION 4881 "Enable or disable the syslog client" 4882 ::= { ptpTrapPrefix 49 } 4883 4884 END 4885