Multicon User manual
Contents
1. nevion Multicon SNMP Data Model User manual Rev 0 Multicon SNMP Data Model Rev 0 Nevion Support Nevion Europe Nevion USA P O Box 1020 1600 Emerson Avenue 3204 Sandefjord Norway Oxnard CA 93033 USA Support phone 1 47 33 48 99 97 Toll free North America 866 515 0811 Support phone 2 47 90 60 99 99 Outside North America 1 805 247 8560 E mail support nevion com See http www nevion com support for service hours for customer support globally Revision history Current revision of this document is the uppermost in the table below Rev Repl Date Sign Change description 0 20090702 JIH First official release nevion com 2 Multicon SNMP Data Model Rev 0 Contents Revision DiIStOrY RU 2 T Prod ctoveie Wir oe os 4 zo ata modeli unitaria e n etd a a a a a e a a detnr 5 A a A A EE RS 5 2 2 Current MIB structure nworktwo ooccccnoccnnooccnnnccnnaconnnaconnnoconancconorconanconorcnnnoconuccnunsos 6 2 3 Block functions module eese nennen hene nnenen nnne tese rr renerne sene 7 2 A BlOCK addressing module oio oce tva Cate irte a ode epo ta teda fe 7 2 5 VikinX router contror l amp vel arrene eE N rener denia di iia 8 2 6 Flashlink router matrix control level ccooocccnccccnnoccnnnocnnnnoconaronnnoccnnnrcnnaoccnoccnnncconanocns 8 27 Generictree AAA A 8 a A A a A OT 9 A DataTHOCE FOV2. ERVICW rra nota 10 General environmental requirements for Nevion equipment ccccncccccccccnncnnninnnos 12 Product Warranty T at 13 nevion com 3 Multicon SNMP Data Model Rev 0 1 Product overview Multicon is the next generation element manager for Flashlink system and system controller for VikinX range of routers The product is based on a new open and distributed architecture and enables customers to deploy one control system for both Flashlink and VikinX The new product offers a range of important improvements for router control and also supports control panel access to Flashlink parameters which is increasingly important for signal processing and distribution applications For a more detailed overview of the Multicon product refer to the main manual This document describes the SNMP interface provided by Multicon for monitoring and configuration of Flashlink systems and VikinX routers nevion com 4 Multicon SNMP Data Model Rev 0 2 Data model 2 1 High level overview The figure below gives an overview of the hierarchy of the MIB model implemented for Flashlink and VikinX 4 7j iso 4 7j org 4 7 dod 4 7j internet 33 directory 7j mgmt j experimental 4 7 private 4 7 enterprises 4 73 nwork 4 gt products E flashlink vikinx Deprecated 2 conquer 4 7 nworktwo 23 bus netlnterface em router IE aydaBus 23 module E partition gt level 5 event E generic F
3. cableDriverT able monitorT able 3 delayT able embedderT able audioBlockT able 5 gpioT able 53 audioProcT able 3 opt mpT able ethPortT able 53 choBlockT able vdacT able 3 audioGenT able J videoGenT able HER videoS calerT able E syncSourceT able 3 frameSyncT able 3 colourSpaceT able Ez vadcTable ER serialPortT able rf amp mpT able EJE partition 5 6 level 23 levelT able crosspointT able EJE event generic El El E E E E ll Be EE Figure 2 nworktwo 4 MIB structure The currently supported MIB structure for Flashlink systems and VikinX routers is located under the enterprise OID iso org dod internet private enterprises nwork products nworktwo 1 3 6 1 4 1 8768 1 4 The structure beneath nworktwo 4 is described below nevion com 6 Multicon SNMP Data Model Rev 0 e bus 1 includes busSysType and busNum parameters that is used as index for tables under netInterface 2 router 3 gydaBus 4 and module 5 e netinterface 2 not in use e router 3 includes table with general information about managed routers e gydaBus 4 for internal use only e module 5 this is the most important part of the MIB structure for Flashlink systems which includes tables corresponding to logical functions of each module Note that a module here is either a Flashlink card or a VikinX router e partition 6 deprecated and should not b
4. moduleNum optinputAlarmStatus monitorMaskLock choBlockHoldTime PK vadcNum PK cableEQNum optinputAlarmTrap monitorMaskANCS choBlockLockTime um monitorMaskLCRC choBlockPrit vadcFormat cableEQConfig monitorMaskLNUM choBlockPri2 vadcWss PK FK1 busSysType cableEQStatus monitorMaskTRS choBlockPria vadcSetup PK FK1 busNum cableEQAlarmStatus monitorMaskFFEDA choBlockAlarmStatus vadcLines PK FK1 moduleNum cableEQAlarmTrap monitorMaskFFIDH choBlockAlarmtrap TEN vadcFrameRate PK vdacNum syncSourceEntry monitorMaskFFIDA vadcFrameStructure monitorMaskFFUES PK FK1 busSysType vadeMark vdacFormat PK FK1 busSysType monitorMaskAPEDA PK FK1 busNum vadcAgc vdacMod50 PK FK1 busNum monitorMaskAPIDH PK FK1 moduleNum vadcFilter vdacWss PK FK1 moduleNum monitorMaskAPIDA audioGenEntry PK colourSpaceNum vadcGainR vdacWssMode PK syncSourceNum monitorMaskAPUES PK FK1 busSysType vadcGainG vdacMod60 monitorMaskANEDH HH rerom colourSpaceEnable vadcgainB vdacSetup SyncSourceTypa monitorMaskANEDA PK FK1 moduleNum colourSpacelnputMode vadcLumaBrightness vdacLines syncSourceLines monitorMaskANIDH PK audioGenNum colourSpacelnput vadcLumaContrast vdacFrameRate syncSourceFrameRate monitorMaskANIDA colourSpaceOutput vadcChromaSaturation vdacFrameStructure syncSourceFrameStructure monitorMaskANUES audioGenSampleRate vadcChromaHue vdacAlarmStatus syneSourceSampleRate audioGenWordLength vadcYBrightness vdacAlarmTrap syncSourceWordLength audioGenChannels vadcYCont
5. removed 3 ACCESS read only STATUS mandatory DESCRIPTION Is the module present and operating moduleEntry 3 This shows that it is a read only parameter with the possible values ok fail and removed A relevant description is also shown above Note that it is highly recommended to use a MIB browser to read the MIB file as it can be very hard to read the MIB as a text file nevion com 10 Multicon SNMP Data Model Rev 0 videoScalerEntry EE ENS voltageEntry fanEntry PK FK1 busSysType MidooGenEnty elle d Poma busSysType PK FK1 busSysType PK FK1 busNum PK FK1 busSysType PK busSysType PK FK1 busSysType PC IGA moduleNiin PK FK1 busNum PK FK1 moduleNum PK FK1 busNum PK busNum PK FK1 busNum PK FK1
6. temperatureNum monitorEnt moduleAlarmCount PI FK1 moduleNum temperatureNum ry Hi busSyaType AAMAAA PK reclockerNum temperatureDescription PK FK1 busSysType FK1 busNum PK FK1 busNum PK FK1 moduleNum reclockerConfig peer PK FK1 moduleNum PK ethPortNum reclockerConfigASI temperatureUpperLimit PK monitorNum reclockerLoopBW ethPortEnable giomi reclockerStatus shies dd monitorType ethPortSignal audioProcEntry PK FK1 busSysType reclockerBitRate sliske TAT monitorSignaltype ethPortDuplexMode PIEKA bussen PK FK1 busNum reclockerAlarmStatus P P monitorSignalFormat ethPortMdiMode PEF rena PK FK1 moduleNum reclockerAlarmTrap monitorAlarmStatus Ped choBlockEntry PK FK1 moduleNum PK jgpioNum ThontorlamiTrap ethPortSpeed PK audioProcN optinputEntry monitorErrorCountMax ethPortAlarmStatus PK FK1 busSysType PA gpioMode monitorErrorCount ethPortAlarmTrap PK FK1 busNum gpioStatus PK FK1 busSysType monitorErrorDeltaAlarm PK FK1 moduleNum audoProcMode gpioDescription PK FK1 busNum monitorErrorCountAlarm FK1 moduleNum audioProclnputs PK choBlockNum gpioAlarmStatus PK FK1 moduleNum monitorErrorFreeAlarm audioProcOutputs i PK optinputNum i gpioAlarmTrap optinputNum monitorErrorFreeCount choBlockSize MadoEm CATE Sens FA monitorMaskVS choBlockMode PK FK1 busSysType PK FK1 busSysType optinputStatus monitorMaskFFCRC choBlockRule PK FK1 T3 28 PKFKi busNum optinputRSSI monitorMaskAPCRC choBlockLatch PK FK1 moduleNum PK FK1
7. are available in the system Example NWORK MIB crosspointInputNum 3 0 INTEGER O NWORK MIB crosspointInputNum 3 1 INTEGER 26 NWORK MIB crosspointlnputNum 3 2 INTEGER 5 This shows for level 3 which input in this level the cross point is switched to in this case input 0 is switched to output 0 1 to 26 and 2 to 5 2 6 Flashlink router matrix control level For historical reasons router control is left outside the module addressed data tree The card address can still be derived from the level number as the level numbers for matrices residing in Flashlink cards are calculated from the following formula Level 10000 position x 10 subindex matrix These levels are presented in addition to the levels mapped using the System Configurator and are only available on the controller with the physical connection to the cards Example NWORK MIB crosspointlnputNum 10080 0 INTEGER 0 NWORK MIB crosspointIinputNum 10080 1 INTEGER O NWORK MIB crosspointIinputNum 10080 2 INTEGER 4 This shows level 10080 which represents the Flashlink card in position 8 with matrix index O In this case it is an AV HD XMUX de embedder matrix 2 7 Generic tree generic The MIB also contains a generic tree on the same level as products iso org dod internet private enterprises nwork generic 1 3 6 1 4 1 8768 4 This part of the MIB may be used for retrieving log information from Multicon nevion com 8 Multicon SNMP D
8. ata Model Rev 0 3 Notifications Multicon has the capability to send SNMP notifications traps when alarms occur in a Flashlink system or VikinX router The trap types supported are listed in the MIB file There are one trap type indicating the raise of an alarm and a corresponding trap type to indicate clear of an alarm Each trap type contains values from the SNMP data model pertaining to the alarm situation which enables SNMP managers to poll for more information when a trap is received Example nworkLossOfOptSignal TRAP TYPE ENTERPRISE generic VARIABLES busSysType busNum moduleNum moduleLabel optinputNum DESCRIPTION Loss of input signal on optical input 3 nworkCorrectOptSignal TRAP TYPE ENTERPRISE generic VARIABLES busSysType busNum moduleNum moduleLabel optinputNum DESCRIPTION Signal on optical input comes back after having been lost n 4 The example above shows an loss of optical signal alarm and a corresponding clear alarm In each case the values of busSysType busNum moduleNum moduleLabel and optinputNum is sent with the trap nevion com 9 Multicon SNMP Data Model Rev 0 4 Data model overview The figure on the next page gives a total overview of the entire SNMP data model for Multicon For reference to the description and possible values for each parameter please refer to the description within the MIB file itself Example moduleStatus OBJECT TYPE SYNTAX INTEGER ok 1 fail 2
9. e used includes partition info for VikinX routers e level 7 this part of the MIB structure is used for controlling levels and cross point settings for VikinX routers but also for controlling matrixes in Flashlink e event 8 not in use 2 3 Block functions module Each table in the MIB corresponds to a logical function on the card it belongs to Any card may have any number of each type of block depending on the type of card Each table contains a superset of attributes for each function block thus there is likely to be unimplemented attributes for most blocks In a future version of Gyda Multicon attributes will be filtered so that only relevant attributes are presented For reference to the description for each table within the module tree please refer to the description within the MIB file itself Example cableEQTable OBJECT TYPE SYNTAX SEQUENCE OF CableEQEntry ACCESS not accessible STATUS mandatory DESCRIPTION The cableEQTable lists all cableEQs for those modules that have them A module can have zero or more cableEQs u module 5 This tells you that this is a table containing all cable equalizers in the system 2 4 Block addressing module Any number of function block of any time may reside on any single card so the data model is designed for flexibility Every block is addressed with a 4 dimensional index although in practice only two of these dimensions are in use for any controller The busSysT
10. igure 1 High level MIB structure The MIB structure is located under the enterprise OID iso org dod internet private enterprises nwork products 1 3 6 1 4 1 8768 1 The structure beneath products 1 is described below e flashlink 1 deprecated and should not be used only included for backwards compatibility with older Flashlink cards e vikinx 2 deprecated and should not be used only included for backwards compatibility e conquer 3 deprecated and should not be used only included for backwards compatibility with older Flashlink SP amp D cards e nworktwo 4 currently supported MIB structure for both Flashlink systems and VikinX routers Note that it is not necessary to use the flashlink 1 vikinx 2 and conquer 3 MIB structures for new implementations as older Flashlink equipment and VikinX routers is also supported by the currently supported MIB structure under nworktwo 4 nevion com 5 Multicon SNMP Data Model Rev 0 2 2 Current MIB structure nworktwo The figure below gives an overview of the nworktwo 4 MIB structure that is currently supported for Flashlink systems and VikinX routers E42 enterprises EME nwork 2 5 products SE nworktwo bus busTable 2 netlnterface 1 netlnterfaceT able E router E gydaBus aydaBusT able 2 7 module moduleT able fanTable H voltageT able temperatureT able 93 cableEQT able optlnputT able H E laserT able H reclockerT able
11. moduleNum optAmpEntry busNum PK FK1 moduleNum PK voltageNum PK fanN PK videoScalerNum PK FK1 moduleNum PK PAR fanNum E PK FK1 busSysType PK videoGenNum busName gelayium voltageNominal videoScalerStatus PK FK1 busNum voltage Value owe PK FK1 busSysType videoScalerLinesln PK FK1 moduleNum videoGenWss delayType voltageUpperLimit fanSpeed PK FK1 busNum videoScalerFrameRateln PK optAmpNum videoGerLines delayStatus _ sohegeLeworLimt fanUpperLimit PK FK1 moduleNum videoScalerFrameStructureln emp videoGenFrameRate delayDescription voltageAlarmStatus fanLowerLimit PK embedderNum videoScalerAspectRatioln optAmpSignalMode videoGenFrameStructure cere voltageAlarmTrap fanAlarmstatus videoScalerAspectRatiolnMode optAmpGainMode videoGenPattern dela o fanAlarmTrap embedderType videoScalerPan optAmptControlMode videoGenY jeher iiid embedderGroup videoScalerTilt optAmpGain videoGenCb moduleEntry pene PA embedderStripGroup videoScalerLinesOut optAmpoutput videoGenCr ySampl embedderWordLength videoScalerFrameRateOut PK FK1 busSysType delaySampleRate embedderStatus videoScalerFrameStructureOut PKFK1 busNum delaySeconds embedderAlarmStatus videoScalerAspectRatioOut PK moduleNum delayNanosecs embedderAlarmTrap videoScalerAncPasthru gt i LN videoScalerAlarmStatus moduleType temperatureEntry eos Alarm flap gt modus reclockerEntry PK FK1 busSysType PK FK1 busNum gt modueAlamiap Porr rr PKSFK1 moduleNum ethPortEntry gt PK FK1 busNum PK
12. peTieline crosspointInputNum levelTypeTielineVideo crosspointLocking l rfAmpmode levelTypeTielineAudio crosspointLockUID rfAmpGain nevion com 11 General environmental requirements for Nevion equipment The equipment will meet the guaranteed performance specification under the following environmental conditions Operating room temperature range 0 C to 45 C Operating relative humidity range lt 90 non condensing The equipment will operate without damage under the following environmental conditions Temperature range 10 C to 55 C Relative humidity range lt 95 non condensing Multicon SNMP Data Model Rev 0 Product Warranty The warranty terms and conditions for the product s covered by this manual follow the General Sales Conditions by Nevion which are available on the company web site www nevion com nevion com 13
13. rast vdacSubCarrierPhase SyncSourceAlarmStatus audioGenLevel vadcPbSaturation syncSourceAlarmtrap audioGenPattern vadcPrSaturation audioGenFrequency serialPortEntry vadcAlarmStatus PK FIC b ssua ipa vadcAlarmTrap laserEntry audioBlockEntry PK FK1 busNum PK FK1 busSysType PK FK1 busSysType PK FK1 cableDriverEntry PK FK1 CET PK FK1 busNum 1 PK serialPortNum PK FK1 moduleNum PK FK1 moduleNum levelEntry PK FK1 busSysType PK laserNum PK gudioBlockNum serialPortEnable PK FK1 busNum poem PK levelNum serialPortStatus PK FK1 moduleNum laserWavelength audioBlockChannelCount serialPortDatabits PK cableDriverNum laserPower audioBlockIncominFormat levelinputs serialPortParity laserConfig audioBlocklncomingSampleRate levelOutputs serialPortSpeed cableDriverConfig laserStatiis audioBlockIncomingWordLength levelName serialPortAlarmStatus cableDriverSlewRate laserAlarmStatus audioBlockSRC levelTypeVideo serialPortAlarmTrap A laserAlarmTrap audioBlockOutgoingFormat levelTypeVideoAnalogue audioBlockOutgoingSampleRate levelTypeVideoSDI audioBlockOutgoingWordLength levelTypeVideoHDSDI FL audioBlockStatus levelTypeAudio rtAmpEntry audioBlockAlarmStatus levelTypeAudioAnalogue crosspointEntry audioBlockAlarmTrap levelTypeAudioAES PK FK1 busSysType levelTypeData PK FK1 levelNum PK FK1 busNum levelTypeDataVideo PK crosspointOutputNum PK FK1 moduleNum levelTypeDataAudio PK r fAmpNum levelTy
14. ype parameter is always 2 gyda for Flashlink cards and busNum is usually 1 for Flashlink cards This may have been changed in configuration of the Gyda controller The last two indices are in active use moduleNum matches the card position counting index O i e card position 5 in rack O corresponds to moduleNum 4 position 8 in rack 4 corresponds to moduleNum 47 The last index is uniquely named for all blocks but is simple the address of an instance of that particular table nevion com 7 Multicon SNMP Data Model Rev 0 Example 1 NWORK MIB moduleAlarmCount gyda 1 4 INTEGER 1 NWORK MIB moduleAlarmCount gyda 1 6 INTEGER 5 This shows the module alarm count for Flashlink cards with moduleNum 4 and 6 which translates to cards in frame 0 slots 5 and 7 Example 2 NWORK MIB cableEQAlarm Status gyda 1 6 0 INTEGER notacked 3 NWORK MIB cableEQAlarmStatus gyda 1 6 1 INTEGER notacked 3 This shows the card equalizer alarm status for Flashlink card with moduleNum 6 frame 0 slot 7 In this case the card has two cable equalizers which are presented with an additional index to specify the cable equalizers in this case 0 and 1 2 5 VikinX router control level All globally mapped router levels i e levels that are enabled through the System Configurator for Multicon are controllable through entries in crosspointTable levelTable gives a summary of the router level and should be used to discover which levels
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