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HP_InHand_IG502/Pub_Sub/oradvvfdipp/thingsboard/intermediate_config.cfg
Nico Melone 7c3f3519a4 added new device types
2024-10-04 18:56:11 -05:00

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{
"controllers": [
{
"protocol": "EtherNet/IP",
"name": "advvfdipp",
"args": {
"connectTimeOut": 2000,
"slot": 0
},
"samplePeriod": 10,
"expired": 10000,
"endpoint": "192.168.1.10:44818",
"desc": "",
"enable": 1,
"enableDebug": 0,
"enablepollCycle": 0,
"samplePeriod2": 60,
"_id": "000066fc0df10c8d"
}
],
"measures": [
{
"name": "flowrate",
"ctrlName": "advvfdipp",
"group": "default",
"uploadType": "periodic",
"dataType": "FLOAT",
"addr": "val_Flowmeter",
"decimal": 2,
"len": 1,
"readWrite": "ro",
"unit": "",
"desc": "",
"transformType": 0,
"maxValue": "",
"minValue": "",
"maxScaleValue": "",
"minScaleValue": "",
"gain": "",
"offset": "",
"pollCycle": 0,
"storageLwTSDB": 0,
"_id": "000066fc0df1fef1"
},
{
"name": "fluidlevel",
"ctrlName": "advvfdipp",
"group": "default",
"uploadType": "periodic",
"dataType": "FLOAT",
"addr": "val_FluidLevel",
"decimal": 2,
"len": 1,
"readWrite": "ro",
"unit": "",
"desc": "",
"transformType": 0,
"maxValue": "",
"minValue": "",
"maxScaleValue": "",
"minScaleValue": "",
"gain": "",
"offset": "",
"pollCycle": 0,
"storageLwTSDB": 0,
"_id": "000166fc0df19053"
},
{
"name": "intakepressure",
"ctrlName": "advvfdipp",
"group": "default",
"uploadType": "periodic",
"dataType": "FLOAT",
"addr": "val_IntakePressure",
"decimal": 2,
"len": 1,
"readWrite": "ro",
"unit": "",
"desc": "",
"transformType": 0,
"maxValue": "",
"minValue": "",
"maxScaleValue": "",
"minScaleValue": "",
"gain": "",
"offset": "",
"pollCycle": 0,
"storageLwTSDB": 0,
"_id": "000266fc0df1cb5b"
},
{
"name": "intaketemperature",
"ctrlName": "advvfdipp",
"group": "default",
"uploadType": "periodic",
"dataType": "FLOAT",
"addr": "val_IntakeTemperature",
"decimal": 2,
"len": 1,
"readWrite": "ro",
"unit": "",
"desc": "",
"transformType": 0,
"maxValue": "",
"minValue": "",
"maxScaleValue": "",
"minScaleValue": "",
"gain": "",
"offset": "",
"pollCycle": 0,
"storageLwTSDB": 0,
"_id": "000366fc0df12d87"
},
{
"name": "tubingpressure",
"ctrlName": "advvfdipp",
"group": "default",
"uploadType": "periodic",
"dataType": "FLOAT",
"addr": "val_TubingPressure",
"decimal": 2,
"len": 1,
"readWrite": "ro",
"unit": "",
"desc": "",
"transformType": 0,
"maxValue": "",
"minValue": "",
"maxScaleValue": "",
"minScaleValue": "",
"gain": "",
"offset": "",
"pollCycle": 0,
"storageLwTSDB": 0,
"_id": "000466fc0df10299"
},
{
"name": "pidcontrolmode",
"ctrlName": "advvfdipp",
"group": "default",
"uploadType": "periodic",
"dataType": "BIT",
"addr": "sts_PID_Control",
"decimal": 2,
"len": 1,
"readWrite": "ro",
"unit": "",
"desc": "",
"transformType": 0,
"maxValue": "",
"minValue": "",
"maxScaleValue": "",
"minScaleValue": "",
"gain": "",
"offset": "",
"pollCycle": 0,
"bitMap": 0,
"reverseBit": 0,
"storageLwTSDB": 0,
"_id": "000566fc0df14ab7"
},
{
"name": "wellstatus",
"ctrlName": "advvfdipp",
"group": "default",
"uploadType": "periodic",
"dataType": "INT",
"addr": "Device_Status_INT",
"decimal": 2,
"len": 1,
"readWrite": "ro",
"unit": "",
"desc": "",
"transformType": 0,
"maxValue": "",
"minValue": "",
"maxScaleValue": "",
"minScaleValue": "",
"gain": "",
"offset": "",
"pollCycle": 0,
"enableBit": 0,
"storageLwTSDB": 0,
"_id": "000666fc0df18af0"
},
{
"name": "vfdfrequency",
"ctrlName": "advvfdipp",
"group": "default",
"uploadType": "periodic",
"dataType": "FLOAT",
"addr": "VFD_SpeedFdbk",
"decimal": 2,
"len": 1,
"readWrite": "ro",
"unit": "",
"desc": "",
"transformType": 0,
"maxValue": "",
"minValue": "",
"maxScaleValue": "",
"minScaleValue": "",
"gain": "",
"offset": "",
"pollCycle": 0,
"storageLwTSDB": 0,
"_id": "000766fc0df19e6b"
},
{
"name": "flowtotal",
"ctrlName": "advvfdipp",
"group": "default",
"uploadType": "periodic",
"dataType": "FLOAT",
"addr": "Flow_Total[0]",
"decimal": 2,
"len": 1,
"readWrite": "ro",
"unit": "",
"desc": "",
"transformType": 0,
"maxValue": "",
"minValue": "",
"maxScaleValue": "",
"minScaleValue": "",
"gain": "",
"offset": "",
"pollCycle": 0,
"storageLwTSDB": 0,
"_id": "000866fc0df19fd3"
},
{
"name": "energytotal",
"ctrlName": "advvfdipp",
"group": "default",
"uploadType": "periodic",
"dataType": "FLOAT",
"addr": "Energy_Total[0]",
"decimal": 2,
"len": 1,
"readWrite": "ro",
"unit": "",
"desc": "",
"transformType": 0,
"maxValue": "",
"minValue": "",
"maxScaleValue": "",
"minScaleValue": "",
"gain": "",
"offset": "",
"pollCycle": 0,
"storageLwTSDB": 0,
"_id": "000966fc0df1dddd"
},
{
"name": "vfdcurrent",
"ctrlName": "advvfdipp",
"group": "default",
"uploadType": "periodic",
"dataType": "FLOAT",
"addr": "VFD_OutCurrent",
"decimal": 2,
"len": 1,
"readWrite": "ro",
"unit": "",
"desc": "",
"transformType": 0,
"maxValue": "",
"minValue": "",
"maxScaleValue": "",
"minScaleValue": "",
"gain": "",
"offset": "",
"pollCycle": 0,
"storageLwTSDB": 0,
"_id": "000a66fc0df1efce"
},
{
"name": "downholesensorstatus",
"ctrlName": "advvfdipp",
"group": "default",
"uploadType": "periodic",
"dataType": "INT",
"addr": "Downhole_Sensor_Status_INT",
"decimal": 2,
"len": 1,
"readWrite": "ro",
"unit": "",
"desc": "",
"transformType": 0,
"maxValue": "",
"minValue": "",
"maxScaleValue": "",
"minScaleValue": "",
"gain": "",
"offset": "",
"pollCycle": 0,
"enableBit": 0,
"storageLwTSDB": 0,
"_id": "000b66fc0df104e2"
},
{
"name": "fluidspecificgravity",
"ctrlName": "advvfdipp",
"group": "default",
"uploadType": "periodic",
"dataType": "FLOAT",
"addr": "cfg_FluidSpecificGravity",
"decimal": 2,
"len": 1,
"readWrite": "ro",
"unit": "",
"desc": "",
"transformType": 0,
"maxValue": "",
"minValue": "",
"maxScaleValue": "",
"minScaleValue": "",
"gain": "",
"offset": "",
"pollCycle": 0,
"storageLwTSDB": 0,
"_id": "000c66fc0df17b6f"
},
{
"name": "flowtotalyesterday",
"ctrlName": "advvfdipp",
"group": "default",
"uploadType": "periodic",
"dataType": "FLOAT",
"addr": "Flow_Total[1]",
"decimal": 2,
"len": 1,
"readWrite": "ro",
"unit": "",
"desc": "",
"transformType": 0,
"maxValue": "",
"minValue": "",
"maxScaleValue": "",
"minScaleValue": "",
"gain": "",
"offset": "",
"pollCycle": 0,
"storageLwTSDB": 0,
"_id": "000d66fc0df1b27a"
},
{
"name": "energytotalyesterday",
"ctrlName": "advvfdipp",
"group": "default",
"uploadType": "periodic",
"dataType": "FLOAT",
"addr": "Energy_Total[1]",
"decimal": 2,
"len": 1,
"readWrite": "ro",
"unit": "",
"desc": "",
"transformType": 0,
"maxValue": "",
"minValue": "",
"maxScaleValue": "",
"minScaleValue": "",
"gain": "",
"offset": "",
"pollCycle": 0,
"storageLwTSDB": 0,
"_id": "000e66fc0df1b732"
},
{
"name": "alarmflowrate",
"ctrlName": "advvfdipp",
"group": "default",
"uploadType": "periodic",
"dataType": "BIT",
"addr": "alarm_Flowmeter",
"decimal": 2,
"len": 1,
"readWrite": "ro",
"unit": "",
"desc": "",
"transformType": 0,
"maxValue": "",
"minValue": "",
"maxScaleValue": "",
"minScaleValue": "",
"gain": "",
"offset": "",
"pollCycle": 0,
"bitMap": 0,
"reverseBit": 0,
"storageLwTSDB": 0,
"_id": "000f66fc0df11cb5"
},
{
"name": "alarmintakepressure",
"ctrlName": "advvfdipp",
"group": "default",
"uploadType": "periodic",
"dataType": "BIT",
"addr": "alarm_IntakePressure",
"decimal": 2,
"len": 1,
"readWrite": "ro",
"unit": "",
"desc": "",
"transformType": 0,
"maxValue": "",
"minValue": "",
"maxScaleValue": "",
"minScaleValue": "",
"gain": "",
"offset": "",
"pollCycle": 0,
"bitMap": 0,
"reverseBit": 0,
"storageLwTSDB": 0,
"_id": "001066fc0df1f0b2"
},
{
"name": "alarmintaketemperature",
"ctrlName": "advvfdipp",
"group": "default",
"uploadType": "periodic",
"dataType": "BIT",
"addr": "alarm_IntakeTemperature",
"decimal": 2,
"len": 1,
"readWrite": "ro",
"unit": "",
"desc": "",
"transformType": 0,
"maxValue": "",
"minValue": "",
"maxScaleValue": "",
"minScaleValue": "",
"gain": "",
"offset": "",
"pollCycle": 0,
"bitMap": 0,
"reverseBit": 0,
"storageLwTSDB": 0,
"_id": "001166fc0df1abed"
},
{
"name": "alarmtubingpressure",
"ctrlName": "advvfdipp",
"group": "default",
"uploadType": "periodic",
"dataType": "BIT",
"addr": "alarm_TubingPressure",
"decimal": 2,
"len": 1,
"readWrite": "ro",
"unit": "",
"desc": "",
"transformType": 0,
"maxValue": "",
"minValue": "",
"maxScaleValue": "",
"minScaleValue": "",
"gain": "",
"offset": "",
"pollCycle": 0,
"bitMap": 0,
"reverseBit": 0,
"storageLwTSDB": 0,
"_id": "001266fc0df1a631"
},
{
"name": "alarmvfd",
"ctrlName": "advvfdipp",
"group": "default",
"uploadType": "periodic",
"dataType": "BIT",
"addr": "alarm_VFD",
"decimal": 2,
"len": 1,
"readWrite": "ro",
"unit": "",
"desc": "",
"transformType": 0,
"maxValue": "",
"minValue": "",
"maxScaleValue": "",
"minScaleValue": "",
"gain": "",
"offset": "",
"pollCycle": 0,
"bitMap": 0,
"reverseBit": 0,
"storageLwTSDB": 0,
"_id": "001366fc0df1cbb6"
},
{
"name": "alarmlockout",
"ctrlName": "advvfdipp",
"group": "default",
"uploadType": "periodic",
"dataType": "BIT",
"addr": "alarm_Lockout",
"decimal": 2,
"len": 1,
"readWrite": "ro",
"unit": "",
"desc": "",
"transformType": 0,
"maxValue": "",
"minValue": "",
"maxScaleValue": "",
"minScaleValue": "",
"gain": "",
"offset": "",
"pollCycle": 0,
"bitMap": 0,
"reverseBit": 0,
"storageLwTSDB": 0,
"_id": "001466fc0df1b64d"
},
{
"name": "runpermissive",
"ctrlName": "advvfdipp",
"group": "default",
"uploadType": "periodic",
"dataType": "INT",
"addr": "Run_Permissive_INT",
"decimal": 2,
"len": 1,
"readWrite": "ro",
"unit": "",
"desc": "",
"transformType": 0,
"maxValue": "",
"minValue": "",
"maxScaleValue": "",
"minScaleValue": "",
"gain": "",
"offset": "",
"pollCycle": 0,
"enableBit": 0,
"storageLwTSDB": 0,
"_id": "001566fc0df1d882"
},
{
"name": "startpermissive",
"ctrlName": "advvfdipp",
"group": "default",
"uploadType": "periodic",
"dataType": "INT",
"addr": "Start_Permissive_INT",
"decimal": 2,
"len": 1,
"readWrite": "ro",
"unit": "",
"desc": "",
"transformType": 0,
"maxValue": "",
"minValue": "",
"maxScaleValue": "",
"minScaleValue": "",
"gain": "",
"offset": "",
"pollCycle": 0,
"enableBit": 0,
"storageLwTSDB": 0,
"_id": "001666fc0df1fe83"
},
{
"name": "startcommand",
"ctrlName": "advvfdipp",
"group": "default",
"uploadType": "periodic",
"dataType": "BIT",
"addr": "cmd_Start",
"decimal": 2,
"len": 1,
"readWrite": "ro",
"unit": "",
"desc": "",
"transformType": 0,
"maxValue": "",
"minValue": "",
"maxScaleValue": "",
"minScaleValue": "",
"gain": "",
"offset": "",
"pollCycle": 0,
"bitMap": 0,
"reverseBit": 0,
"storageLwTSDB": 0,
"_id": "001766fc0df10fb6"
},
{
"name": "stopcommand",
"ctrlName": "advvfdipp",
"group": "default",
"uploadType": "periodic",
"dataType": "BIT",
"addr": "cmd_Stop",
"decimal": 2,
"len": 1,
"readWrite": "ro",
"unit": "",
"desc": "",
"transformType": 0,
"maxValue": "",
"minValue": "",
"maxScaleValue": "",
"minScaleValue": "",
"gain": "",
"offset": "",
"pollCycle": 0,
"bitMap": 0,
"reverseBit": 0,
"storageLwTSDB": 0,
"_id": "001866fc0df19454"
},
{
"name": "flowsetpoint",
"ctrlName": "advvfdipp",
"group": "default",
"uploadType": "periodic",
"dataType": "FLOAT",
"addr": "cfg_PID_FlowSP",
"decimal": 2,
"len": 1,
"readWrite": "ro",
"unit": "",
"desc": "",
"transformType": 0,
"maxValue": "",
"minValue": "",
"maxScaleValue": "",
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"gain": "",
"offset": "",
"pollCycle": 0,
"storageLwTSDB": 0,
"_id": "001966fc0df158b8"
},
{
"name": "fluidlevelsetpoint",
"ctrlName": "advvfdipp",
"group": "default",
"uploadType": "periodic",
"dataType": "FLOAT",
"addr": "cfg_PID_FluidLevelSP",
"decimal": 2,
"len": 1,
"readWrite": "ro",
"unit": "",
"desc": "",
"transformType": 0,
"maxValue": "",
"minValue": "",
"maxScaleValue": "",
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"gain": "",
"offset": "",
"pollCycle": 0,
"storageLwTSDB": 0,
"_id": "001a66fc0df1c4b0"
},
{
"name": "manualfrequencysetpoint",
"ctrlName": "advvfdipp",
"group": "default",
"uploadType": "periodic",
"dataType": "FLOAT",
"addr": "cfg_PID_ManualSP",
"decimal": 2,
"len": 1,
"readWrite": "ro",
"unit": "",
"desc": "",
"transformType": 0,
"maxValue": "",
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"maxScaleValue": "",
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"gain": "",
"offset": "",
"pollCycle": 0,
"storageLwTSDB": 0,
"_id": "001b66fc0df12043"
},
{
"name": "tubingpressuresetpoint",
"ctrlName": "advvfdipp",
"group": "default",
"uploadType": "periodic",
"dataType": "FLOAT",
"addr": "cfg_PID_TubingPressureSP",
"decimal": 2,
"len": 1,
"readWrite": "ro",
"unit": "",
"desc": "",
"transformType": 0,
"maxValue": "",
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"gain": "",
"offset": "",
"pollCycle": 0,
"storageLwTSDB": 0,
"_id": "001c66fc0df1db60"
},
{
"name": "alarmfluidlevel",
"ctrlName": "advvfdipp",
"group": "default",
"uploadType": "periodic",
"dataType": "BIT",
"addr": "alarm_FluidLevel",
"decimal": 2,
"len": 1,
"readWrite": "ro",
"unit": "",
"desc": "",
"transformType": 0,
"maxValue": "",
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"pollCycle": 0,
"bitMap": 0,
"reverseBit": 0,
"storageLwTSDB": 0,
"_id": "001d66fc0df11b9c"
},
{
"name": "pressureshutdownlimit",
"ctrlName": "advvfdipp",
"group": "default",
"uploadType": "periodic",
"dataType": "FLOAT",
"addr": "AIn_IntakePressure.Val_LoLim",
"decimal": 2,
"len": 1,
"readWrite": "ro",
"unit": "",
"desc": "",
"transformType": 0,
"maxValue": "",
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"pollCycle": 0,
"storageLwTSDB": 0,
"_id": "001e66fc0df124a7"
},
{
"name": "pressurestartuplimit",
"ctrlName": "advvfdipp",
"group": "default",
"uploadType": "periodic",
"dataType": "FLOAT",
"addr": "AIn_IntakePressure.Val_HiLim",
"decimal": 2,
"len": 1,
"readWrite": "ro",
"unit": "",
"desc": "",
"transformType": 0,
"maxValue": "",
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"gain": "",
"offset": "",
"pollCycle": 0,
"storageLwTSDB": 0,
"_id": "001f66fc0df19179"
},
{
"name": "temperatureshutdownlimit",
"ctrlName": "advvfdipp",
"group": "default",
"uploadType": "periodic",
"dataType": "FLOAT",
"addr": "AIn_IntakeTemperature.Val_HiLim",
"decimal": 2,
"len": 1,
"readWrite": "ro",
"unit": "",
"desc": "",
"transformType": 0,
"maxValue": "",
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"gain": "",
"offset": "",
"pollCycle": 0,
"storageLwTSDB": 0,
"_id": "002066fc0df1c93e"
},
{
"name": "temperaturestartuplimit",
"ctrlName": "advvfdipp",
"group": "default",
"uploadType": "periodic",
"dataType": "FLOAT",
"addr": "AIn_IntakeTemperature.Val_LoLim",
"decimal": 2,
"len": 1,
"readWrite": "ro",
"unit": "",
"desc": "",
"transformType": 0,
"maxValue": "",
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"gain": "",
"offset": "",
"pollCycle": 0,
"storageLwTSDB": 0,
"_id": "002166fc0df16c2f"
},
{
"name": "sensorheight",
"ctrlName": "advvfdipp",
"group": "default",
"uploadType": "periodic",
"dataType": "FLOAT",
"addr": "cfg_DHSensorDistToIntake",
"decimal": 2,
"len": 1,
"readWrite": "ro",
"unit": "",
"desc": "",
"transformType": 0,
"maxValue": "",
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"gain": "",
"offset": "",
"pollCycle": 0,
"storageLwTSDB": 0,
"_id": "002266fc0df10f3b"
},
{
"name": "last_vfd_fault_code",
"ctrlName": "advvfdipp",
"group": "default",
"uploadType": "periodic",
"dataType": "INT",
"addr": "PowerFlex755.Val_LastFaultCode",
"decimal": 2,
"len": 1,
"readWrite": "ro",
"unit": "",
"desc": "",
"transformType": 0,
"maxValue": "",
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"maxScaleValue": "",
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"gain": "",
"offset": "",
"pollCycle": 0,
"enableBit": 0,
"storageLwTSDB": 0,
"_id": "002366fc0df1e7b4"
},
{
"name": "vfd_fault",
"ctrlName": "advvfdipp",
"group": "default",
"uploadType": "periodic",
"dataType": "INT",
"addr": "sts_CurrentVFDFaultCode",
"decimal": 2,
"len": 1,
"readWrite": "ro",
"unit": "",
"desc": "",
"transformType": 0,
"maxValue": "",
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"offset": "",
"pollCycle": 0,
"enableBit": 0,
"storageLwTSDB": 0,
"_id": "002466fc0df17600"
},
{
"name": "controllerfault_io",
"ctrlName": "advvfdipp",
"group": "default",
"uploadType": "periodic",
"dataType": "BIT",
"addr": "ControllerFault_IO",
"decimal": 2,
"len": 1,
"readWrite": "ro",
"unit": "",
"desc": "",
"transformType": 0,
"maxValue": "",
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"pollCycle": 0,
"bitMap": 0,
"reverseBit": 0,
"storageLwTSDB": 0,
"_id": "002566fc0df1a58e"
},
{
"name": "controllerfault_program",
"ctrlName": "advvfdipp",
"group": "default",
"uploadType": "periodic",
"dataType": "BIT",
"addr": "ControllerFault_Program",
"decimal": 2,
"len": 1,
"readWrite": "ro",
"unit": "",
"desc": "",
"transformType": 0,
"maxValue": "",
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"gain": "",
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"pollCycle": 0,
"bitMap": 0,
"reverseBit": 0,
"storageLwTSDB": 0,
"_id": "002666fc0df1bb1a"
},
{
"name": "minvfdfrequency",
"ctrlName": "advvfdipp",
"group": "default",
"uploadType": "periodic",
"dataType": "FLOAT",
"addr": "PowerFlex755.Cfg_MinSpdRef",
"decimal": 2,
"len": 1,
"readWrite": "ro",
"unit": "",
"desc": "",
"transformType": 0,
"maxValue": "",
"minValue": "",
"maxScaleValue": "",
"minScaleValue": "",
"gain": "",
"offset": "",
"pollCycle": 0,
"storageLwTSDB": 0,
"_id": "002766fc0df1fb1a"
},
{
"name": "maxvfdfrequency",
"ctrlName": "advvfdipp",
"group": "default",
"uploadType": "periodic",
"dataType": "FLOAT",
"addr": "PowerFlex755.Cfg_MaxSpdRef",
"decimal": 2,
"len": 1,
"readWrite": "ro",
"unit": "",
"desc": "",
"transformType": 0,
"maxValue": "",
"minValue": "",
"maxScaleValue": "",
"minScaleValue": "",
"gain": "",
"offset": "",
"pollCycle": 0,
"storageLwTSDB": 0,
"_id": "002866fc0df15e20"
},
{
"name": "hartnettotal",
"ctrlName": "advvfdipp",
"group": "default",
"uploadType": "periodic",
"dataType": "FLOAT",
"addr": "in_HART_Flowmeter_Net",
"decimal": 2,
"len": 1,
"readWrite": "ro",
"unit": "",
"desc": "",
"transformType": 0,
"maxValue": "",
"minValue": "",
"maxScaleValue": "",
"minScaleValue": "",
"gain": "",
"offset": "",
"pollCycle": 0,
"storageLwTSDB": 0,
"_id": "002966fc0df118e3"
},
{
"name": "hartfwdtotal",
"ctrlName": "advvfdipp",
"group": "default",
"uploadType": "periodic",
"dataType": "FLOAT",
"addr": "in_HART_Flowmeter_Fwd",
"decimal": 2,
"len": 1,
"readWrite": "ro",
"unit": "",
"desc": "",
"transformType": 0,
"maxValue": "",
"minValue": "",
"maxScaleValue": "",
"minScaleValue": "",
"gain": "",
"offset": "",
"pollCycle": 0,
"storageLwTSDB": 0,
"_id": "002a66fc0df15cc0"
},
{
"name": "hartrevtotal",
"ctrlName": "advvfdipp",
"group": "default",
"uploadType": "periodic",
"dataType": "FLOAT",
"addr": "in_HART_Flowmeter_Rev",
"decimal": 2,
"len": 1,
"readWrite": "ro",
"unit": "",
"desc": "",
"transformType": 0,
"maxValue": "",
"minValue": "",
"maxScaleValue": "",
"minScaleValue": "",
"gain": "",
"offset": "",
"pollCycle": 0,
"storageLwTSDB": 0,
"_id": "002b66fc0df1226c"
},
{
"ctrlName": "advvfdipp",
"dataType": "BIT",
"addr": "cmd_Start",
"readWrite": "rw",
"uploadType": "periodic",
"group": "default",
"name": "cmd_Start",
"desc": "",
"unit": "",
"transformType": 0,
"gain": "1.0",
"offset": "0.0",
"maxValue": "",
"minValue": "",
"maxScaleValue": "",
"minScaleValue": "",
"decimal": 2,
"pollCycle": 0,
"bitMap": 0,
"reverseBit": 0,
"storageLwTSDB": 0,
"_id": "002c66fc0df1de62"
},
{
"ctrlName": "advvfdipp",
"dataType": "BIT",
"addr": "cmd_Stop",
"readWrite": "rw",
"uploadType": "periodic",
"group": "default",
"name": "cmd_Stop",
"desc": "",
"unit": "",
"transformType": 0,
"gain": "1.0",
"offset": "0.0",
"maxValue": "",
"minValue": "",
"maxScaleValue": "",
"minScaleValue": "",
"decimal": 2,
"pollCycle": 0,
"bitMap": 0,
"reverseBit": 0,
"storageLwTSDB": 0,
"_id": "002d66fc0df15517"
}
],
"alarmLables": [
"default"
],
"alarms": [],
"groups": [
{
"name": "default",
"uploadInterval": 600,
"reference": 44,
"_id": "group59b64649c93",
"LwTSDBSize": 1000,
"strategy": 1,
"historyDataMode": "gateway",
"historyDataPath": "/var/user/data/dbhome/device_supervisor/LwTSDB",
"enablePerOnchange": 0
}
],
"misc": {
"maxAlarmRecordSz": 2000,
"logLvl": "DEBUG",
"coms": [
{
"name": "rs232",
"baud": 9600,
"bits": 8,
"stopbits": 1,
"parityChk": "n"
},
{
"name": "rs485",
"baud": 19200,
"bits": 8,
"stopbits": 1,
"parityChk": "n"
}
],
"cacheMode": "gateway",
"cachePath": "/var/user/data/dbhome/device_supervisor/offlinedata",
"cacheSize": 10000,
"cacheUploadPeriod": 200,
"cacheStrategy": 0,
"pubTimeout": 1000,
"pubRepeatNum": 3,
"debugLogMode": "gateway",
"debugLogPath": "/var/user/data/dbhome/device_supervisor/debugLog",
"debugLogSize": 2000,
"logNum": 2,
"logSize": 1
},
"clouds": [
{
"cacheSize": 100,
"enable": 1,
"type": "Standard MQTT",
"args": {
"host": "mq194.imistaway.net",
"port": 1883,
"clientId": "nail-ranch-37-sr-2-3",
"auth": 1,
"tls": 0,
"cleanSession": 1,
"mqttVersion": "v3.1.1",
"keepalive": 120,
"key": "",
"cert": "",
"rootCA": "",
"verifyServer": 0,
"verifyClient": 0,
"username": "admin",
"passwd": "columbus",
"authType": 1,
"willQos": 0,
"willRetain": 0,
"willTopic": "",
"willPayload": "",
"tlsAuth": "caSelfSigned"
},
"name": "default",
"_id": "cloud59b6464bd03",
"uploadRules": []
},
{
"_id": "000066fc0e8015d0",
"cacheSize": 10000,
"enable": 1,
"name": "ThingsBoard",
"type": "Standard MQTT",
"args": {
"host": "hp.henrypump.cloud",
"port": 1883,
"clientId": "nail-ranch-37-sr-2-3",
"auth": 1,
"tls": 0,
"cleanSession": 0,
"mqttVersion": "v3.1.1",
"keepalive": 60,
"key": "",
"cert": "",
"rootCA": "",
"verifyServer": 0,
"verifyClient": 0,
"username": "S5rgxjv4H620dD9QmThF",
"passwd": "",
"willQos": 0,
"willRetain": 0,
"willTopic": "",
"willPayload": ""
},
"uploadRules": []
}
],
"quickfaas": {
"genericFuncs": [],
"uploadFuncs": [
{
"name": "Send Data",
"trigger": "measure_event",
"topic": "meshify/db/194/_/advvfdipp/${MAC_LOWER}",
"qos": 1,
"groups": [
"default"
],
"funcName": "sendData",
"script": "# Enter your python code.\nimport json, math, time, os\nfrom datetime import datetime as dt\nfrom common.Logger import logger\nfrom quickfaas.remotebus import publish\nfrom quickfaas.global_dict import get as get_params\nfrom quickfaas.global_dict import _set_global_args\n\nimport re, uuid\nfrom paho.mqtt import client\n\nclass RuntimeStats:\n def __init__(self):\n self.runs = {}\n self.currentRun = 0\n self.today = \"\"\n self.todayString = \"\"\n\n def manageTime(self):\n if self.todayString != dt.strftime(dt.today(), \"%Y-%m-%d\"):\n if self.runs[self.todayString][\"run_\" + str(self.currentRun)][\"start\"] and not self.runs[self.todayString][\"run_\" + str(self.currentRun)][\"end\"]:\n self.runs[self.todayString][\"run_\" + str(self.currentRun)][\"end\"] = time.mktime(dt.strptime(self.todayString + \" 23:59:59\", \"%Y-%m-%d %H:%M:%S\").timetuple())\n self.addDay()\n self.today = dt.today()\n self.todayString = dt.strftime(self.today, \"%Y-%m-%d\")\n days = list(self.runs.keys())\n days.sort()\n while (dt.strptime(days[-1],\"%Y-%m-%d\") - dt.strptime(days[0], \"%Y-%m-%d\")).days > 30:\n self.removeDay(day=days[0])\n days = list(self.runs.keys())\n days.sort()\n\n def addHertzDataPoint(self, frequency):\n if frequency > 0:\n self.manageTime()\n try:\n self.runs[self.todayString][\"run_\" + str(self.currentRun)][\"frequencies\"].append(frequency)\n except:\n self.runs[self.todayString][\"run_\" + str(self.currentRun)][\"frequencies\"] = [frequency]\n\n def startRun(self):\n if self.checkRunning():\n self.endRun()\n self.runs[self.todayString][\"run_\" + str(self.currentRun)][\"start\"] = time.time()\n\n def endRun(self):\n self.runs[self.todayString][\"run_\" + str(self.currentRun)][\"end\"] = time.time()\n self.currentRun += 1\n self.runs[self.todayString][\"run_\" + str(self.currentRun)] = {\"start\":0, \"end\": 0, \"frequencies\":[]} \n\n def checkRunning(self):\n if self.runs[self.todayString][\"run_\" + str(self.currentRun)][\"start\"] and not self.runs[self.todayString][\"run_\" + str(self.currentRun)][\"end\"]:\n return True\n return False\n\n def addDay(self):\n self.today = dt.today()\n self.todayString = dt.strftime(self.today, \"%Y-%m-%d\")\n self.currentRun = 1\n self.runs[self.todayString] = {}\n self.runs[self.todayString][\"run_\" + str(self.currentRun)] = {\"start\":0, \"end\": 0, \"frequencies\":[]}\n\n def countRunsDay(self, day=None):\n if not day:\n day = self.todayString\n return len(self.runs[day].keys())\n\n def countRunsMultiDay(self, numDays=30):\n total_runs = 0\n for day in list(self.runs.keys()):\n total_runs += self.countRunsDay(day=day)\n return total_runs\n\n def calculateAverageHertzDay(self, day=None, returnArray=False):\n dayFrequencies = []\n if not day:\n day = self.todayString\n for run in list(self.runs[day].keys()):\n try:\n dayFrequencies += self.runs[day][run][\"frequencies\"]\n except Exception as e:\n print(\"{} missing frequency data for {}\".format(day,run))\n if returnArray:\n return dayFrequencies\n return round(math.fsum(dayFrequencies)/len(dayFrequencies),2)\n\n def calculateAverageHertzMultiDay(self, numDays=30):\n self.manageTime()\n frequencies = []\n for day in list(self.runs.keys()):\n if not day == self.todayString and (dt.strptime(self.todayString, \"%Y-%m-%d\") - dt.strptime(day, \"%Y-%m-%d\")).days <= numDays:\n try:\n frequencies += self.calculateAverageHertzDay(day=day, returnArray=True)\n except Exception as e:\n print(\"{} missing frequency data\".format(day))\n if len(frequencies):\n return round(math.fsum(frequencies)/len(frequencies), 2)\n return 0\n \n def calculateRunTimeDay(self, day=None, convertToHours=True):\n total_time = 0\n if not day:\n day = self.todayString\n for run in list(self.runs[day].keys()):\n total_time = self.runs[day][run][\"end\"] - self.runs[day][run][\"start\"] + total_time\n if convertToHours:\n return self.convertSecondstoHours(total_time)\n return total_time\n\n def calculateRunTimeMultiDay(self, numDays=30, convertToHours=True):\n total_time = 0\n for day in list(self.runs.keys()):\n if not day == self.todayString and (dt.strptime(self.todayString, \"%Y-%m-%d\") - dt.strptime(day, \"%Y-%m-%d\")).days <= numDays:\n total_time += self.calculateRunTimeDay(day=day, convertToHours=False)\n if convertToHours:\n return self.convertSecondstoHours(total_time)\n return total_time\n \n def calculateRunPercentDay(self, day=None, precise=False):\n if not day:\n day = self.todayString\n if precise:\n return (self.calculateRunTimeDay(day=day)/24) * 100\n return round((self.calculateRunTimeDay(day=day)/24) * 100, 2)\n \n\n def calculateRunPercentMultiDay(self, numDays=30, precise=False):\n self.manageTime()\n if precise:\n return (self.calculateRunTimeMultiDay()/(24*numDays)) * 100\n return round((self.calculateRunTimeMultiDay()/(24*numDays)) * 100,2)\n\n def removeDay(self, day=None):\n if not day:\n raise Exception(\"Day can not be None\")\n print(\"removing day {}\".format(day))\n del self.runs[day]\n \n def convertSecondstoHours(self, seconds):\n return round(seconds / (60*60),2)\n\n def loadDataFromFile(self, filePath=\"/var/user/files/runtimestats.json\"):\n try:\n with open(filePath, \"r\") as f:\n temp = json.load(f)\n self.runs = temp[\"data\"]\n self.currentRun = temp[\"current_run\"]\n self.today = dt.strptime(temp[\"current_day\"], \"%Y-%m-%d\")\n self.todayString = temp[\"current_day\"]\n self.manageTime()\n except:\n print(\"Could not find file at {}\".format(filePath))\n print(\"creating file\")\n self.addDay()\n try:\n with open(filePath, \"w\") as f:\n d = {\n \"current_run\": self.currentRun,\n \"current_day\": self.todayString,\n \"data\": self.runs\n }\n json.dump(d, f, indent=4)\n except Exception as e:\n print(e)\n\n def saveDataToFile(self, filePath=\"/var/user/files/runtimestats.json\"):\n try:\n print(\"Saving Runs\")\n with open(filePath, \"w\") as f:\n d = {\n \"current_run\": self.currentRun,\n \"current_day\": self.todayString,\n \"data\": self.runs\n }\n json.dump(d, f, indent=4)\n except Exception as e:\n print(e)\n\nrts = RuntimeStats()\nrts.loadDataFromFile()\nrts.saveDataToFile()\n\ndef reboot(reason=\"Rebooting for config file update\"):\n #basic = Basic()\n logger.info(\"!\" * 10 + \"REBOOTING DEVICE\" + \"!\"*10)\n logger.info(reason)\n r = os.popen(\"kill -s SIGHUP `cat /var/run/python/supervisord.pid`\").read()\n logger.info(f\"REBOOT : {r}\")\n\ndef checkFileExist(filename):\n path = \"/var/user/files\"\n if not os.path.exists(path):\n logger.info(\"no folder making files folder in var/user\")\n os.makedirs(path)\n with open(path + \"/\" + filename, \"a\") as f:\n json.dump({}, f)\n if not os.path.exists(path + \"/\" + filename):\n logger.info(\"no creds file making creds file\")\n with open(path + \"/\" + filename, \"a\") as f:\n json.dump({}, f)\n\ndef convertDStoJSON(ds):\n j = dict()\n for x in ds:\n j[x[\"key\"]] = x[\"value\"]\n return j\n\ndef convertJSONtoDS(j):\n d = []\n for key in j.keys():\n d.append({\"key\": key, \"value\": j[key]})\n return d\n\ndef checkCredentialConfig():\n logger.info(\"CHECKING CONFIG\")\n cfgpath = \"/var/user/cfg/device_supervisor/device_supervisor.cfg\"\n credspath = \"/var/user/files/creds.json\"\n cfg = dict()\n with open(cfgpath, \"r\") as f:\n cfg = json.load(f)\n clouds = cfg.get(\"clouds\")\n logger.info(clouds)\n #if not configured then try to configure from stored values\n if clouds[0][\"args\"][\"clientId\"] == \"unknown\" or clouds[0][\"args\"][\"username\"] == \"unknown\" or not clouds[0][\"args\"][\"passwd\"] or clouds[0][\"args\"][\"passwd\"] == \"unknown\":\n checkFileExist(\"creds.json\")\n with open(credspath, \"r\") as c:\n creds = json.load(c)\n if creds:\n logger.info(\"updating config with stored data\")\n clouds[0][\"args\"][\"clientId\"] = creds[\"clientId\"]\n clouds[0][\"args\"][\"username\"] = creds[\"userName\"]\n clouds[0][\"args\"][\"passwd\"] = creds[\"password\"]\n cfg[\"clouds\"] = clouds\n cfg = checkParameterConfig(cfg)\n with open(cfgpath, \"w\", encoding='utf-8') as n:\n json.dump(cfg, n, indent=1, ensure_ascii=False)\n reboot()\n else:\n #assuming clouds is filled out, if data is different then assume someone typed in something new and store it, if creds is empty fill with clouds' data\n checkFileExist(\"creds.json\")\n with open(credspath, \"r\") as c:\n logger.info(\"updating stored file with new data\")\n cfg = checkParameterConfig(cfg)\n with open(cfgpath, \"w\", encoding='utf-8') as n:\n json.dump(cfg, n, indent=1, ensure_ascii=False)\n creds = json.load(c)\n if creds:\n if creds[\"clientId\"] != clouds[0][\"args\"][\"clientId\"]:\n creds[\"clientId\"] = clouds[0][\"args\"][\"clientId\"]\n if creds[\"userName\"] != clouds[0][\"args\"][\"username\"]:\n creds[\"userName\"] = clouds[0][\"args\"][\"username\"]\n if creds[\"password\"] != clouds[0][\"args\"][\"passwd\"]:\n creds[\"password\"] = clouds[0][\"args\"][\"passwd\"]\n else:\n creds[\"clientId\"] = clouds[0][\"args\"][\"clientId\"]\n creds[\"userName\"] = clouds[0][\"args\"][\"username\"]\n creds[\"password\"] = clouds[0][\"args\"][\"passwd\"]\n with open(credspath, \"w\") as cw:\n json.dump(creds,cw)\n\ndef checkParameterConfig(cfg):\n logger.info(\"Checking Parameters!!!!\")\n paramspath = \"/var/user/files/params.json\"\n cfgparams = convertDStoJSON(cfg.get(\"labels\"))\n #check stored values \n checkFileExist(\"params.json\")\n with open(paramspath, \"r\") as f:\n logger.info(\"Opened param storage file\")\n params = json.load(f)\n if params:\n if cfgparams != params:\n #go through each param\n #if not \"unknown\" and cfg and params aren't the same take from cfg likely updated manually\n #if key in cfg but not in params copy to params\n logger.info(\"equalizing params between cfg and stored\")\n for key in cfgparams.keys():\n try:\n if cfgparams[key] != params[key] and cfgparams[key] != \"unknown\":\n params[key] = cfgparams[key]\n except:\n params[key] = cfgparams[key]\n cfg[\"labels\"] = convertJSONtoDS(params)\n _set_global_args(convertJSONtoDS(params))\n with open(paramspath, \"w\") as p:\n json.dump(params, p)\n else:\n with open(paramspath, \"w\") as p:\n logger.info(\"initializing param file with params in memory\")\n json.dump(convertDStoJSON(get_params()), p)\n cfg[\"labels\"] = get_params()\n \n return cfg\n\n\n\nlwtData = {\n \"init\":False,\n \"client\": client.Client(client_id=str(uuid.uuid4()), clean_session=True, userdata=None, protocol=client.MQTTv311, transport=\"tcp\")\n}\ndef lwt(mac):\n try:\n #if not lwtData[\"connected\"]:\n if not lwtData[\"init\"]:\n logger.info(\"INITIALIZING LWT CLIENT\")\n lwtData[\"client\"].username_pw_set(username=\"admin\", password=\"columbus\")\n lwtData[\"client\"].will_set(\"meshify/db/194/_/mainHP/\" + mac + \":00:00/connected\",json.dumps({\"value\":False}))\n lwtData[\"init\"] = True\n logger.info(\"Connecting to MQTT Broker for LWT purposes!!!!!!!\")\n lwtData[\"client\"].connect(\"mq194.imistaway.net\",1883, 600)\n lwtData[\"client\"].publish(\"meshify/db/194/_/mainHP/\" + mac + \":00:00/connected\", json.dumps({\"value\":True}),1)\n except Exception as e:\n logger.error(\"LWT DID NOT DO THE THING\")\n logger.error(e)\n\ndef sendData(message):\n #logger.debug(message)\n try:\n mac = __topic__.split(\"/\")[-1] #':'.join(re.findall('..', '%012x' % uuid.getnode()))\n lwt(mac)\n except Exception as e:\n logger.error(f\"Error in MA lwt: {e}\")\n try:\n checkCredentialConfig()\n except Exception as e:\n logger.error(f\"Error in MA checkCredntialConfig: {e}\")\n \n try:\n for measure in message[\"measures\"]:\n try:\n logger.debug(measure)\n now = (round(dt.timestamp(dt.now())/600)*600)\n if abs(now - measure[\"timestamp\"]) > 7200:\n reboot(reason=\"Poll timestamp and actual timestamp out of sync. Actual: {} Poll: {}\".format(now,measure[\"timestamp\"]))\n if measure[\"name\"] in [\"wellstatus\",\"pidcontrolmode\",\"downholesensorstatus\",\"alarmflowrate\",\"alarmintakepressure\",\"alarmintaketemperature\",\"alarmtubingpressure\",\"alarmvfd\",\"alarmlockout\",\"alarmfluidlevel\",\"runpermissive\",\"startpermissive\",\"last_vfd_fault_code\",\"vfd_fault\"]:\n logger.debug(\"Converting DINT/BOOL to STRING\")\n value = convert_int(measure[\"name\"], measure[\"value\"])\n logger.debug(\"Converted {} to {}\".format(measure[\"value\"], value))\n publish(__topic__ + \":01:99/\" + measure[\"name\"], json.dumps({\"value\": value}), __qos__,cloud_name=\"default\")\n else:\n publish(__topic__ + \":01:99/\" + measure[\"name\"], json.dumps({\"value\": measure[\"value\"]}), __qos__, cloud_name=\"default\")\n \n if measure[\"name\"] == \"wellstatus\":\n if measure[\"value\"] == 0 and not rts.runs[rts.todayString][\"run_\" + str(rts.currentRun)][\"start\"]:\n rts.startRun()\n rts.saveDataToFile()\n elif measure[\"value\"] > 0 and rts.runs[rts.todayString][\"run_\" + str(rts.currentRun)][\"start\"] and not rts.runs[rts.todayString][\"run_\" + str(rts.currentRun)][\"end\"]:\n rts.endRun()\n rts.saveDataToFile()\n publish(__topic__ + \":01:99/\" + \"percentRunTime30Days\", json.dumps({\"value\": rts.calculateRunPercentMultiDay()}), __qos__, cloud_name=\"default\")\n \n if measure[\"name\"] == \"vfdfrequency\":\n if measure[\"value\"] > 0:\n rts.addHertzDataPoint(measure[\"value\"])\n rts.saveDataToFile()\n publish(__topic__ + \":01:99/\" + \"avgFrequency30Days\", json.dumps({\"value\": rts.calculateAverageHertzMultiDay()}), __qos__, cloud_name=\"default\")\n except Exception as e:\n logger.error(f\"Error in MA: {e}\")\n \n #publish(__topic__, json.dumps({measure[\"name\"]: measure[\"value\"]}), __qos__, cloud_name=\"default\")\n except Exception as e:\n logger.error(f\"Error in MA send loop: {e}\")\n\ndef convert_int(plc_tag, value):\n well_status_codes = {\n 0: \"Running\",\n 1: \"Pumped Off\",\n 2: \"Alarmed\",\n 3: \"Locked Out\",\n 4: \"Stopped\"\n }\n\n pid_control_codes = {\n 0: \"Flow\",\n 1: \"Fluid Level\",\n 2: \"Tubing Pressure\",\n 3: \"Manual\"\n }\n\n downhole_codes = {\n 0: \"OK\",\n 1: \"Connecting\",\n 2: \"Open Circuit\",\n 3: \"Shorted\",\n 4: \"Cannot Decode\"\n }\n\n permissive_codes = {\n 0: \"OK\",\n 1: \"Flow\",\n 2: \"Intake Pressure\",\n 3: \"Intake Temperature\",\n 4: \"Tubing Pressure\",\n 5: \"VFD\",\n 6: \"Fluid Level\",\n 7: \"Min. Downtime\"\n }\n\n alarm_codes = {\n 0: \"OK\",\n 1: \"Alarm\"\n }\n\n alarm_vfd_codes = {\n 0: \"OK\",\n 1: \"Locked Out\"\n }\n\n vfd_fault_codes = {\n 0: \"No Fault\",\n 2: \"Auxiliary Input\",\n 3: \"Power Loss\",\n 4: \"UnderVoltage\",\n 5: \"OverVoltage\",\n 7: \"Motor Overload\",\n 8: \"Heatsink OverTemp\",\n 9: \"Thermister OverTemp\",\n 10: \"Dynamic Brake OverTemp\",\n 12: \"Hardware OverCurrent\",\n 13: \"Ground Fault\",\n 14: \"Ground Warning\",\n 15: \"Load Loss\",\n 17: \"Input Phase Loss\",\n 18: \"Motor PTC Trip\",\n 19: \"Task Overrun\",\n 20: \"Torque Prove Speed Band\",\n 21: \"Output Phase Loss\",\n 24: \"Decel Inhibit\",\n 25: \"OverSpeed Limit\",\n 26: \"Brake Slipped\",\n 27: \"Torque Prove Conflict\",\n 28: \"TP Encls Confict\",\n 29: \"Analog In Loss\",\n 33: \"Auto Restarts Exhausted\",\n 35: \"IPM OverCurrent\",\n 36: \"SW OverCurrent\",\n 38: \"Phase U to Ground\",\n 39: \"Phase V to Ground\",\n 40: \"Phase W to Ground\",\n 41: \"Phase UV Short\",\n 42: \"Phase VW Short\",\n 43: \"Phase WU Short\",\n 44: \"Phase UNeg to Ground\",\n 45: \"Phase VNeg to Ground\",\n 46: \"Phase WNeg to Ground\",\n 48: \"System Defaulted\",\n 49: \"Drive Powerup\",\n 51: \"Clear Fault Queue\",\n 55: \"Control Board Overtemp\",\n 59: \"Invalid Code\",\n 61: \"Shear Pin 1\",\n 62: \"Shear Pin 2\",\n 64: \"Drive Overload\",\n 66: \"OW Torque Level\",\n 67: \"Pump Off\",\n 71: \"Port 1 Adapter\",\n 72: \"Port 2 Adapter\",\n 73: \"Port 3 Adapter\",\n 74: \"Port 4 Adapter\",\n 75: \"Port 5 Adapter\",\n 76: \"Port 6 Adapter\",\n 77: \"IR Volts Range\",\n 78: \"FluxAmps Ref Range\",\n 79: \"Excessive Load\",\n 80: \"AutoTune Aborted\",\n 81: \"Port 1 DPI Loss\",\n 82: \"Port 2 DPI Loss\",\n 83: \"Port 3 DPI Loss\",\n 84: \"Port 4 DPI Loss\",\n 85: \"Port 5 DPI Loss\",\n 86: \"Port 6 DPI Loss\",\n 87: \"IXo Voltage Range\",\n 91: \"Primary Velocity Feedback Loss\",\n 93: \"Hardware Enable Check\",\n 94: \"Alternate Velocity Feedback Loss\",\n 95: \"Auxiliary Velocity Feedback Loss\",\n 96: \"Position Feedback Loss\",\n 97: \"Auto Tach Switch\",\n 100: \"Parameter Checksum\",\n 101: \"Power Down NVS Blank\",\n 102: \"NVS Not Blank\",\n 103: \"Power Down NVS Incompatible\",\n 104: \"Power Board Checksum\",\n 106: \"Incompat MCB-PB\",\n 107: \"Replaced MCB-PB\",\n 108: \"Analog Calibration Checksum\",\n 110: \"Invalid Power Board Data\",\n 111: \"Power Board Invalid ID\",\n 112: \"Power Board App Min Version\",\n 113: \"Tracking DataError\",\n 115: \"Power Down Table Full\",\n 116: \"Power Down Entry Too Large\",\n 117: \"Power Down Data Checksum\",\n 118: \"Power Board Power Down Checksum\",\n 124: \"App ID Changed\",\n 125: \"Using Backup App\",\n 134: \"Start on Power Up\",\n 137: \"External Precharge Error\",\n 138: \"Precharge Open\",\n 141: \"Autotune Enc Angle\",\n 142: \"Autotune Speed Restricted\",\n 143: \"Autotune Current Regulator\",\n 144: \"Autotune Inertia\",\n 145: \"Autotune Travel\",\n 13035: \"Net IO Timeout\",\n 13037: \"Net IO Timeout\"\n\n }\n\n plc_tags = {\n \"wellstatus\": well_status_codes.get(value, \"Invalid Code\"),\n \"pidcontrolmode\": pid_control_codes.get(value, \"Invalid Code\"),\n \"downholesensorstatus\": downhole_codes.get(value, \"Invalid Code\"),\n \"alarmflowrate\": alarm_codes.get(value, \"Invalid Code\"),\n \"alarmintakepressure\": alarm_codes.get(value, \"Invalid Code\"),\n \"alarmintaketemperature\": alarm_codes.get(value, \"Invalid Code\"),\n \"alarmtubingpressure\": alarm_codes.get(value, \"Invalid Code\"),\n \"alarmvfd\": alarm_codes.get(value, \"Invalid Code\"),\n \"alarmlockout\": alarm_vfd_codes.get(value, \"Invalid Code\"),\n \"alarmfluidlevel\": alarm_codes.get(value, \"Invalid Code\"),\n \"runpermissive\": permissive_codes.get(value, \"Invalid Code\"),\n \"startpermissive\": permissive_codes.get(value, \"Invalid Code\"),\n \"last_vfd_fault_code\": vfd_fault_codes.get(value, \"Invalid Code\"),\n \"vfd_fault\": vfd_fault_codes.get(value, \"Invalid Code\")\n }\n\n return plc_tags.get(plc_tag, \"Invalid Tag\")\n\n ",
"cloudName": "default",
"hideOfflineData": 0,
"msgType": 0
},
{
"hideOfflineData": 1,
"qos": 1,
"funcName": "sendData",
"script": "import json, os, time, math, uuid\nfrom datetime import datetime as dt\nfrom common.Logger import logger\nfrom quickfaas.remotebus import publish\nfrom quickfaas.global_dict import get as get_params\nfrom quickfaas.global_dict import _set_global_args\n\nclass RuntimeStats:\n def __init__(self):\n self.runs = {}\n self.currentRun = 0\n self.today = \"\"\n self.todayString = \"\"\n\n def manageTime(self):\n if self.todayString != dt.strftime(dt.today(), \"%Y-%m-%d\"):\n if self.runs[self.todayString][\"run_\" + str(self.currentRun)][\"start\"] and not self.runs[self.todayString][\"run_\" + str(self.currentRun)][\"end\"]:\n self.runs[self.todayString][\"run_\" + str(self.currentRun)][\"end\"] = time.mktime(dt.strptime(self.todayString + \" 23:59:59\", \"%Y-%m-%d %H:%M:%S\").timetuple())\n self.addDay()\n self.today = dt.today()\n self.todayString = dt.strftime(self.today, \"%Y-%m-%d\")\n days = list(self.runs.keys())\n days.sort()\n while (dt.strptime(days[-1],\"%Y-%m-%d\") - dt.strptime(days[0], \"%Y-%m-%d\")).days > 30:\n self.removeDay(day=days[0])\n days = list(self.runs.keys())\n days.sort()\n\n def addHertzDataPoint(self, frequency):\n if frequency > 0:\n self.manageTime()\n try:\n self.runs[self.todayString][\"run_\" + str(self.currentRun)][\"frequencies\"].append(frequency)\n except:\n self.runs[self.todayString][\"run_\" + str(self.currentRun)][\"frequencies\"] = [frequency]\n\n def startRun(self):\n if self.checkRunning():\n self.endRun()\n self.runs[self.todayString][\"run_\" + str(self.currentRun)][\"start\"] = time.time()\n\n def endRun(self):\n self.runs[self.todayString][\"run_\" + str(self.currentRun)][\"end\"] = time.time()\n self.currentRun += 1\n self.runs[self.todayString][\"run_\" + str(self.currentRun)] = {\"start\":0, \"end\": 0, \"frequencies\":[]} \n\n def checkRunning(self):\n if self.runs[self.todayString][\"run_\" + str(self.currentRun)][\"start\"] and not self.runs[self.todayString][\"run_\" + str(self.currentRun)][\"end\"]:\n return True\n return False\n\n def addDay(self):\n self.today = dt.today()\n self.todayString = dt.strftime(self.today, \"%Y-%m-%d\")\n self.currentRun = 1\n self.runs[self.todayString] = {}\n self.runs[self.todayString][\"run_\" + str(self.currentRun)] = {\"start\":0, \"end\": 0, \"frequencies\":[]}\n\n def countRunsDay(self, day=None):\n if not day:\n day = self.todayString\n return len(self.runs[day].keys())\n\n def countRunsMultiDay(self, numDays=30):\n total_runs = 0\n for day in list(self.runs.keys()):\n total_runs += self.countRunsDay(day=day)\n return total_runs\n\n def calculateAverageHertzDay(self, day=None, returnArray=False):\n dayFrequencies = []\n if not day:\n day = self.todayString\n for run in list(self.runs[day].keys()):\n try:\n dayFrequencies += self.runs[day][run][\"frequencies\"]\n except Exception as e:\n print(\"{} missing frequency data for {}\".format(day,run))\n if returnArray:\n return dayFrequencies\n return round(math.fsum(dayFrequencies)/len(dayFrequencies),2)\n\n def calculateAverageHertzMultiDay(self, numDays=30):\n self.manageTime()\n frequencies = []\n for day in list(self.runs.keys()):\n if not day == self.todayString and (dt.strptime(self.todayString, \"%Y-%m-%d\") - dt.strptime(day, \"%Y-%m-%d\")).days <= numDays:\n try:\n frequencies += self.calculateAverageHertzDay(day=day, returnArray=True)\n except Exception as e:\n print(\"{} missing frequency data\".format(day))\n if len(frequencies):\n return round(math.fsum(frequencies)/len(frequencies), 2)\n return 0\n \n def calculateRunTimeDay(self, day=None, convertToHours=True):\n total_time = 0\n if not day:\n day = self.todayString\n for run in list(self.runs[day].keys()):\n total_time = self.runs[day][run][\"end\"] - self.runs[day][run][\"start\"] + total_time\n if convertToHours:\n return self.convertSecondstoHours(total_time)\n return total_time\n\n def calculateRunTimeMultiDay(self, numDays=30, convertToHours=True):\n total_time = 0\n for day in list(self.runs.keys()):\n if not day == self.todayString and (dt.strptime(self.todayString, \"%Y-%m-%d\") - dt.strptime(day, \"%Y-%m-%d\")).days <= numDays:\n total_time += self.calculateRunTimeDay(day=day, convertToHours=False)\n if convertToHours:\n return self.convertSecondstoHours(total_time)\n return total_time\n \n def calculateRunPercentDay(self, day=None, precise=False):\n if not day:\n day = self.todayString\n if precise:\n return (self.calculateRunTimeDay(day=day)/24) * 100\n return round((self.calculateRunTimeDay(day=day)/24) * 100, 2)\n \n\n def calculateRunPercentMultiDay(self, numDays=30, precise=False):\n self.manageTime()\n if precise:\n return (self.calculateRunTimeMultiDay()/(24*numDays)) * 100\n return round((self.calculateRunTimeMultiDay()/(24*numDays)) * 100,2)\n\n def removeDay(self, day=None):\n if not day:\n raise Exception(\"Day can not be None\")\n print(\"removing day {}\".format(day))\n del self.runs[day]\n \n def convertSecondstoHours(self, seconds):\n return round(seconds / (60*60),2)\n\n def loadDataFromFile(self, filePath=\"/var/user/files/runtimestats.json\"):\n try:\n with open(filePath, \"r\") as f:\n temp = json.load(f)\n self.runs = temp[\"data\"]\n self.currentRun = temp[\"current_run\"]\n self.today = dt.strptime(temp[\"current_day\"], \"%Y-%m-%d\")\n self.todayString = temp[\"current_day\"]\n self.manageTime()\n except:\n print(\"Could not find file at {}\".format(filePath))\n print(\"creating file\")\n self.addDay()\n try:\n with open(filePath, \"w\") as f:\n d = {\n \"current_run\": self.currentRun,\n \"current_day\": self.todayString,\n \"data\": self.runs\n }\n json.dump(d, f, indent=4)\n except Exception as e:\n print(e)\n\n def saveDataToFile(self, filePath=\"/var/user/files/runtimestats.json\"):\n try:\n print(\"Saving Runs\")\n with open(filePath, \"w\") as f:\n d = {\n \"current_run\": self.currentRun,\n \"current_day\": self.todayString,\n \"data\": self.runs\n }\n json.dump(d, f, indent=4)\n except Exception as e:\n print(e)\n\ntry:\n rts_path = \"/var/user/files/runtimestats_tb.json\"\n rts = RuntimeStats()\n rts.loadDataFromFile(filePath=rts_path)\n rts.saveDataToFile(filePath=rts_path)\nexcept Exception as e:\n logger.error(f\"Error in TB start RTS: {e}\" )\n\ndef reboot(reason=\"Rebooting for config file update\"):\n #basic = Basic()\n logger.info(\"!\" * 10 + \"REBOOTING DEVICE\" + \"!\"*10)\n logger.info(reason)\n r = os.popen(\"kill -s SIGHUP `cat /var/run/python/supervisord.pid`\").read()\n logger.info(f\"REBOOT : {r}\")\n\ndef checkFileExist(filename):\n path = \"/var/user/files\"\n if not os.path.exists(path):\n logger.debug(\"no folder making files folder in var/user\")\n os.makedirs(path)\n with open(path + \"/\" + filename, \"a\") as f:\n json.dump({}, f)\n if not os.path.exists(path + \"/\" + filename):\n logger.debug(\"no creds file making creds file\")\n with open(path + \"/\" + filename, \"a\") as f:\n json.dump({}, f)\n\ndef convertDStoJSON(ds):\n j = dict()\n for x in ds:\n j[x[\"key\"]] = x[\"value\"]\n return j\n\ndef convertJSONtoDS(j):\n d = []\n for key in j.keys():\n d.append({\"key\": key, \"value\": j[key]})\n return d\n\ndef checkCredentialConfig():\n logger.debug(\"CHECKING CONFIG\")\n cfgpath = \"/var/user/cfg/device_supervisor/device_supervisor.cfg\"\n credspath = \"/var/user/files/creds.json\"\n cfg = dict()\n with open(cfgpath, \"r\") as f:\n cfg = json.load(f)\n clouds = cfg.get(\"clouds\")\n logger.debug(clouds)\n #if not configured then try to configure from stored values\n if clouds[0][\"args\"][\"clientId\"] == \"unknown\" or clouds[0][\"args\"][\"username\"] == \"unknown\" or not clouds[0][\"args\"][\"passwd\"] or clouds[0][\"args\"][\"passwd\"] == \"unknown\":\n checkFileExist(\"creds.json\")\n with open(credspath, \"r\") as c:\n creds = json.load(c)\n if creds:\n logger.debug(\"updating config with stored data\")\n clouds[0][\"args\"][\"clientId\"] = creds[\"clientId\"]\n clouds[0][\"args\"][\"username\"] = creds[\"userName\"]\n clouds[0][\"args\"][\"passwd\"] = creds[\"password\"]\n cfg[\"clouds\"] = clouds\n cfg = checkParameterConfig(cfg)\n with open(cfgpath, \"w\", encoding='utf-8') as n:\n json.dump(cfg, n, indent=1, ensure_ascii=False)\n reboot()\n else:\n #assuming clouds is filled out, if data is different then assume someone typed in something new and store it, if creds is empty fill with clouds' data\n checkFileExist(\"creds.json\")\n with open(credspath, \"r\") as c:\n logger.debug(\"updating stored file with new data\")\n cfg = checkParameterConfig(cfg)\n with open(cfgpath, \"w\", encoding='utf-8') as n:\n json.dump(cfg, n, indent=1, ensure_ascii=False)\n creds = json.load(c)\n if creds:\n if creds[\"clientId\"] != clouds[0][\"args\"][\"clientId\"]:\n creds[\"clientId\"] = clouds[0][\"args\"][\"clientId\"]\n if creds[\"userName\"] != clouds[0][\"args\"][\"username\"]:\n creds[\"userName\"] = clouds[0][\"args\"][\"username\"]\n if creds[\"password\"] != clouds[0][\"args\"][\"passwd\"]:\n creds[\"password\"] = clouds[0][\"args\"][\"passwd\"]\n else:\n creds[\"clientId\"] = clouds[0][\"args\"][\"clientId\"]\n creds[\"userName\"] = clouds[0][\"args\"][\"username\"]\n creds[\"password\"] = clouds[0][\"args\"][\"passwd\"]\n with open(credspath, \"w\") as cw:\n json.dump(creds,cw)\n\ndef checkParameterConfig(cfg):\n logger.debug(\"Checking Parameters!!!!\")\n paramspath = \"/var/user/files/params.json\"\n cfgparams = convertDStoJSON(cfg.get(\"labels\"))\n #check stored values \n checkFileExist(\"params.json\")\n with open(paramspath, \"r\") as f:\n logger.debug(\"Opened param storage file\")\n params = json.load(f)\n if params:\n if cfgparams != params:\n #go through each param\n #if not \"unknown\" and cfg and params aren't the same take from cfg likely updated manually\n #if key in cfg but not in params copy to params\n logger.debug(\"equalizing params between cfg and stored\")\n for key in cfgparams.keys():\n try:\n if cfgparams[key] != params[key] and cfgparams[key] != \"unknown\":\n params[key] = cfgparams[key]\n except:\n params[key] = cfgparams[key]\n cfg[\"labels\"] = convertJSONtoDS(params)\n _set_global_args(convertJSONtoDS(params))\n with open(paramspath, \"w\") as p:\n json.dump(params, p)\n else:\n with open(paramspath, \"w\") as p:\n logger.debug(\"initializing param file with params in memory\")\n json.dump(convertDStoJSON(get_params()), p)\n cfg[\"labels\"] = get_params()\n \n return cfg\n\n# Helper function to split the payload into chunks\ndef chunk_payload(payload, chunk_size=20):\n chunked_values = list(payload[\"values\"].items())\n for i in range(0, len(chunked_values), chunk_size):\n yield {\n \"ts\": payload[\"ts\"],\n \"values\": dict(chunked_values[i:i+chunk_size])\n }\n\ndef sendData(message):\n #logger.debug(message)\n try:\n checkCredentialConfig()\n except Exception as e:\n logger.error(e)\n payload = {\"ts\": (round(dt.timestamp(dt.now())/600)*600)*1000, \"values\": {}}\n for measure in message[\"measures\"]:\n try:\n logger.debug(measure)\n if abs(payload[\"ts\"]/1000 - measure[\"timestamp\"]) > 3600:\n reboot(reason=\"Poll timestamp and actual timestamp out of sync. Actual: {} Poll: {}\".format(payload[\"ts\"]/1000,measure[\"timestamp\"]))\n if measure[\"name\"] in [\"wellstatus\",\"pidcontrolmode\",\"downholesensorstatus\",\"alarmflowrate\",\"alarmintakepressure\",\"alarmintaketemperature\",\"alarmtubingpressure\",\"alarmvfd\",\"alarmlockout\",\"alarmfluidlevel\",\"runpermissive\",\"startpermissive\",\"last_vfd_fault_code\",\"vfd_fault\", \"flowmeter_fault\"]:\n logger.debug(\"Converting DINT/BOOL to STRING\")\n value = convert_int(measure[\"name\"], measure[\"value\"])\n logger.debug(\"Converted {} to {}\".format(measure[\"value\"], value))\n payload[\"values\"][measure[\"name\"]] = value\n payload[\"values\"][measure[\"name\"] + \"_int\"] = measure[\"value\"]\n else:\n payload[\"values\"][measure[\"name\"]] = measure[\"value\"]\n if measure[\"name\"] == \"wellstatus\":\n if measure[\"value\"] == 0 and not rts.runs[rts.todayString][\"run_\" + str(rts.currentRun)][\"start\"]:\n rts.startRun()\n rts.saveDataToFile(filePath=rts_path)\n elif measure[\"value\"] > 0 and rts.runs[rts.todayString][\"run_\" + str(rts.currentRun)][\"start\"] and not rts.runs[rts.todayString][\"run_\" + str(rts.currentRun)][\"end\"]:\n rts.endRun()\n rts.saveDataToFile(filePath=rts_path)\n logger.info(f\"Adding {rts.calculateRunPercentMultiDay()} to payload as percentRunTime30Days\")\n payload[\"values\"][\"percentRunTime30Days\"] = rts.calculateRunPercentMultiDay()\n \n \n if measure[\"name\"] == \"vfdfrequency\":\n if measure[\"value\"] > 0:\n rts.addHertzDataPoint(measure[\"value\"])\n rts.saveDataToFile(filePath=rts_path)\n logger.info(f\"Adding {rts.calculateAverageHertzMultiDay()} to payload as avgFrequency30Days\")\n payload[\"values\"][\"avgFrequency30Days\"] = rts.calculateAverageHertzMultiDay()\n \n except Exception as e:\n logger.error(e)\n \n for chunk in chunk_payload(payload=payload):\n publish(__topic__, json.dumps(chunk), __qos__, cloud_name=\"ThingsBoard\")\n time.sleep(2)\n publish(\"v1/devices/me/attributes\", json.dumps({\"latestReportTime\": (round(dt.timestamp(dt.now())/600)*600)*1000}), __qos__, cloud_name=\"ThingsBoard\")\n\ndef convert_int(plc_tag, value):\n well_status_codes = {\n 0: \"Running\",\n 1: \"Pumped Off\",\n 2: \"Alarmed\",\n 3: \"Locked Out\",\n 4: \"Stopped\"\n }\n\n pid_control_codes = {\n 0: \"Flow\",\n 1: \"Fluid Level\",\n 2: \"Tubing Pressure\",\n 3: \"Manual\"\n }\n\n downhole_codes = {\n 0: \"OK\",\n 1: \"Connecting\",\n 2: \"Open Circuit\",\n 3: \"Shorted\",\n 4: \"Cannot Decode\"\n }\n\n permissive_codes = {\n 0: \"OK\",\n 1: \"Flow\",\n 2: \"Intake Pressure\",\n 3: \"Intake Temperature\",\n 4: \"Tubing Pressure\",\n 5: \"VFD\",\n 6: \"Fluid Level\",\n 7: \"Min. Downtime\"\n }\n\n alarm_codes = {\n 0: \"OK\",\n 1: \"Alarm\"\n }\n\n alarm_vfd_codes = {\n 0: \"OK\",\n 1: \"Locked Out\"\n }\n\n vfd_fault_codes = {\n 0: \"No Fault\",\n 2: \"Auxiliary Input\",\n 3: \"Power Loss\",\n 4: \"UnderVoltage\",\n 5: \"OverVoltage\",\n 7: \"Motor Overload\",\n 8: \"Heatsink OverTemp\",\n 9: \"Thermister OverTemp\",\n 10: \"Dynamic Brake OverTemp\",\n 12: \"Hardware OverCurrent\",\n 13: \"Ground Fault\",\n 14: \"Ground Warning\",\n 15: \"Load Loss\",\n 17: \"Input Phase Loss\",\n 18: \"Motor PTC Trip\",\n 19: \"Task Overrun\",\n 20: \"Torque Prove Speed Band\",\n 21: \"Output Phase Loss\",\n 24: \"Decel Inhibit\",\n 25: \"OverSpeed Limit\",\n 26: \"Brake Slipped\",\n 27: \"Torque Prove Conflict\",\n 28: \"TP Encls Confict\",\n 29: \"Analog In Loss\",\n 33: \"Auto Restarts Exhausted\",\n 35: \"IPM OverCurrent\",\n 36: \"SW OverCurrent\",\n 38: \"Phase U to Ground\",\n 39: \"Phase V to Ground\",\n 40: \"Phase W to Ground\",\n 41: \"Phase UV Short\",\n 42: \"Phase VW Short\",\n 43: \"Phase WU Short\",\n 44: \"Phase UNeg to Ground\",\n 45: \"Phase VNeg to Ground\",\n 46: \"Phase WNeg to Ground\",\n 48: \"System Defaulted\",\n 49: \"Drive Powerup\",\n 51: \"Clear Fault Queue\",\n 55: \"Control Board Overtemp\",\n 59: \"Invalid Code\",\n 61: \"Shear Pin 1\",\n 62: \"Shear Pin 2\",\n 64: \"Drive Overload\",\n 66: \"OW Torque Level\",\n 67: \"Pump Off\",\n 71: \"Port 1 Adapter\",\n 72: \"Port 2 Adapter\",\n 73: \"Port 3 Adapter\",\n 74: \"Port 4 Adapter\",\n 75: \"Port 5 Adapter\",\n 76: \"Port 6 Adapter\",\n 77: \"IR Volts Range\",\n 78: \"FluxAmps Ref Range\",\n 79: \"Excessive Load\",\n 80: \"AutoTune Aborted\",\n 81: \"Port 1 DPI Loss\",\n 82: \"Port 2 DPI Loss\",\n 83: \"Port 3 DPI Loss\",\n 84: \"Port 4 DPI Loss\",\n 85: \"Port 5 DPI Loss\",\n 86: \"Port 6 DPI Loss\",\n 87: \"IXo Voltage Range\",\n 91: \"Primary Velocity Feedback Loss\",\n 93: \"Hardware Enable Check\",\n 94: \"Alternate Velocity Feedback Loss\",\n 95: \"Auxiliary Velocity Feedback Loss\",\n 96: \"Position Feedback Loss\",\n 97: \"Auto Tach Switch\",\n 100: \"Parameter Checksum\",\n 101: \"Power Down NVS Blank\",\n 102: \"NVS Not Blank\",\n 103: \"Power Down NVS Incompatible\",\n 104: \"Power Board Checksum\",\n 106: \"Incompat MCB-PB\",\n 107: \"Replaced MCB-PB\",\n 108: \"Analog Calibration Checksum\",\n 110: \"Invalid Power Board Data\",\n 111: \"Power Board Invalid ID\",\n 112: \"Power Board App Min Version\",\n 113: \"Tracking DataError\",\n 115: \"Power Down Table Full\",\n 116: \"Power Down Entry Too Large\",\n 117: \"Power Down Data Checksum\",\n 118: \"Power Board Power Down Checksum\",\n 124: \"App ID Changed\",\n 125: \"Using Backup App\",\n 134: \"Start on Power Up\",\n 137: \"External Precharge Error\",\n 138: \"Precharge Open\",\n 141: \"Autotune Enc Angle\",\n 142: \"Autotune Speed Restricted\",\n 143: \"Autotune Current Regulator\",\n 144: \"Autotune Inertia\",\n 145: \"Autotune Travel\",\n 13035: \"Net IO Timeout\",\n 13037: \"Net IO Timeout\"\n\n }\n\n plc_tags = {\n \"wellstatus\": well_status_codes.get(value, \"Invalid Code\"),\n \"pidcontrolmode\": pid_control_codes.get(value, \"Invalid Code\"),\n \"downholesensorstatus\": downhole_codes.get(value, \"Invalid Code\"),\n \"alarmflowrate\": alarm_codes.get(value, \"Invalid Code\"),\n \"alarmintakepressure\": alarm_codes.get(value, \"Invalid Code\"),\n \"alarmintaketemperature\": alarm_codes.get(value, \"Invalid Code\"),\n \"alarmtubingpressure\": alarm_codes.get(value, \"Invalid Code\"),\n \"alarmvfd\": alarm_codes.get(value, \"Invalid Code\"),\n \"alarmlockout\": alarm_vfd_codes.get(value, \"Invalid Code\"),\n \"alarmfluidlevel\": alarm_codes.get(value, \"Invalid Code\"),\n \"runpermissive\": permissive_codes.get(value, \"Invalid Code\"),\n \"startpermissive\": permissive_codes.get(value, \"Invalid Code\"),\n \"last_vfd_fault_code\": vfd_fault_codes.get(value, \"Invalid Code\"),\n \"vfd_fault\": vfd_fault_codes.get(value, \"Invalid Code\"),\n \"flowmeter_fault\": alarm_codes.get(value, \"Invalid Code\")\n }\n\n return plc_tags.get(plc_tag, \"Invalid Tag\")\n\n ",
"name": "sendData",
"trigger": "measure_event",
"topic": "v1/devices/me/telemetry",
"cloudName": "ThingsBoard",
"groups": [
"default"
],
"msgType": 0
}
],
"downloadFuncs": [
{
"name": "Commands",
"topic": "meshify/sets/194/${MAC_UPPER}:01:99",
"qos": 1,
"funcName": "receiveCommand",
"payload_type": "Plaintext",
"script": "# Enter your python code.\nimport json\nfrom quickfaas.measure import recall\nfrom common.Logger import logger\n\ndef sync(mac,value, wizard_api):\n #get new values and send\n try:\n data = recall()#json.loads(recall().decode(\"utf-8\"))\n except Exception as e:\n logger.error(e)\n logger.info(data)\n for controller in data:\n for measure in controller[\"measures\"]:\n #publish measure\n topic = \"meshify/db/194/_/advvfdipp/\" + mac + \"/\" + measure[\"name\"]\n if measure[\"name\"] in [\"wellstatus\",\"pidcontrolmode\",\"downholesensorstatus\",\"alarmflowrate\",\"alarmintakepressure\",\"alarmintaketemperature\",\"alarmtubingpressure\",\"alarmvfd\",\"alarmlockout\",\"alarmfluidlevel\",\"runpermissive\",\"startpermissive\",\"last_vfd_fault_code\",\"vfd_fault\"]:\n payload = [{\"value\": convert_int(measure[\"name\"], measure[\"value\"])}]\n else:\n payload = [{\"value\": measure[\"value\"]}]\n logger.debug(\"Sending on topic: {}\".format(topic))\n logger.debug(\"Sending value: {}\".format(payload))\n wizard_api.mqtt_publish(topic, json.dumps(payload))\ndef writeplctag(mac, value, wizard_api):\n try:\n value = json.loads(value.replace(\"'\",'\"'))\n logger.debug(value)\n message = {\"advvfdipp\":{value[\"tag\"]: value[\"val\"]}}\n wizard_api.write_plc_values(message)\n except Exception as e:\n logger.debug(e)\n \ndef receiveCommand(topic, payload, wizard_api):\n logger.debug(topic)\n logger.debug(json.loads(payload))\n p = json.loads(payload)[0]\n command = p[\"payload\"][\"name\"].split(\".\")[1]\n commands = {\n \"sync\": sync,\n \"writeplctag\": writeplctag,\n }\n commands[command](p[\"mac\"].lower(),p[\"payload\"][\"value\"], wizard_api)\n #logger.debug(command)\n ack(p[\"msgId\"], p[\"mac\"], command, p[\"payload\"][\"name\"].split(\".\")[1], p[\"payload\"][\"value\"], wizard_api)\n\ndef ack(msgid, mac, name, command, value, wizard_api):\n #logger.debug(mac)\n macsquish = \"\".join(mac.split(\":\")[:-2])\n maclower = \":\".join(mac.split(\":\")[:-2])\n maclower = maclower.lower()\n #logger.debug(msgid)\n #logger.debug(mac)\n #logger.debug(name)\n #logger.debug(value)\n wizard_api.mqtt_publish(\"meshify/responses/\" + str(msgid), json.dumps([{\"value\": \"{} Success Setting: {} To: {}\".format(macsquish,name, value), \"msgid\": str(msgid)}]))\n wizard_api.mqtt_publish(\"meshify/db/194/_/mainMeshify/\" + maclower + \":00:00/commands\", json.dumps([{\"value\": {\"status\": \"success\", \"value\": str(value), \"channel\": command}, \"msgid\": str(msgid)}]))\n\ndef convert_int(plc_tag, value):\n well_status_codes = {\n 0: \"Running\",\n 1: \"Pumped Off\",\n 2: \"Alarmed\",\n 3: \"Locked Out\",\n 4: \"Stopped\"\n }\n\n pid_control_codes = {\n 0: \"Flow\",\n 1: \"Fluid Level\",\n 2: \"Tubing Pressure\",\n 3: \"Manual\"\n }\n\n downhole_codes = {\n 0: \"OK\",\n 1: \"Connecting\",\n 2: \"Open Circuit\",\n 3: \"Shorted\",\n 4: \"Cannot Decode\"\n }\n\n permissive_codes = {\n 0: \"OK\",\n 1: \"Flow\",\n 2: \"Intake Pressure\",\n 3: \"Intake Temperature\",\n 4: \"Tubing Pressure\",\n 5: \"VFD\",\n 6: \"Fluid Level\",\n 7: \"Min. Downtime\"\n }\n\n alarm_codes = {\n 0: \"OK\",\n 1: \"Alarm\"\n }\n\n alarm_vfd_codes = {\n 0: \"OK\",\n 1: \"Locked Out\"\n }\n\n vfd_fault_codes = {\n 0: \"No Fault\",\n 2: \"Auxiliary Input\",\n 3: \"Power Loss\",\n 4: \"UnderVoltage\",\n 5: \"OverVoltage\",\n 7: \"Motor Overload\",\n 8: \"Heatsink OverTemp\",\n 9: \"Thermister OverTemp\",\n 10: \"Dynamic Brake OverTemp\",\n 12: \"Hardware OverCurrent\",\n 13: \"Ground Fault\",\n 14: \"Ground Warning\",\n 15: \"Load Loss\",\n 17: \"Input Phase Loss\",\n 18: \"Motor PTC Trip\",\n 19: \"Task Overrun\",\n 20: \"Torque Prove Speed Band\",\n 21: \"Output Phase Loss\",\n 24: \"Decel Inhibit\",\n 25: \"OverSpeed Limit\",\n 26: \"Brake Slipped\",\n 27: \"Torque Prove Conflict\",\n 28: \"TP Encls Confict\",\n 29: \"Analog In Loss\",\n 33: \"Auto Restarts Exhausted\",\n 35: \"IPM OverCurrent\",\n 36: \"SW OverCurrent\",\n 38: \"Phase U to Ground\",\n 39: \"Phase V to Ground\",\n 40: \"Phase W to Ground\",\n 41: \"Phase UV Short\",\n 42: \"Phase VW Short\",\n 43: \"Phase WU Short\",\n 44: \"Phase UNeg to Ground\",\n 45: \"Phase VNeg to Ground\",\n 46: \"Phase WNeg to Ground\",\n 48: \"System Defaulted\",\n 49: \"Drive Powerup\",\n 51: \"Clear Fault Queue\",\n 55: \"Control Board Overtemp\",\n 59: \"Invalid Code\",\n 61: \"Shear Pin 1\",\n 62: \"Shear Pin 2\",\n 64: \"Drive Overload\",\n 66: \"OW Torque Level\",\n 67: \"Pump Off\",\n 71: \"Port 1 Adapter\",\n 72: \"Port 2 Adapter\",\n 73: \"Port 3 Adapter\",\n 74: \"Port 4 Adapter\",\n 75: \"Port 5 Adapter\",\n 76: \"Port 6 Adapter\",\n 77: \"IR Volts Range\",\n 78: \"FluxAmps Ref Range\",\n 79: \"Excessive Load\",\n 80: \"AutoTune Aborted\",\n 81: \"Port 1 DPI Loss\",\n 82: \"Port 2 DPI Loss\",\n 83: \"Port 3 DPI Loss\",\n 84: \"Port 4 DPI Loss\",\n 85: \"Port 5 DPI Loss\",\n 86: \"Port 6 DPI Loss\",\n 87: \"IXo Voltage Range\",\n 91: \"Primary Velocity Feedback Loss\",\n 93: \"Hardware Enable Check\",\n 94: \"Alternate Velocity Feedback Loss\",\n 95: \"Auxiliary Velocity Feedback Loss\",\n 96: \"Position Feedback Loss\",\n 97: \"Auto Tach Switch\",\n 100: \"Parameter Checksum\",\n 101: \"Power Down NVS Blank\",\n 102: \"NVS Not Blank\",\n 103: \"Power Down NVS Incompatible\",\n 104: \"Power Board Checksum\",\n 106: \"Incompat MCB-PB\",\n 107: \"Replaced MCB-PB\",\n 108: \"Analog Calibration Checksum\",\n 110: \"Invalid Power Board Data\",\n 111: \"Power Board Invalid ID\",\n 112: \"Power Board App Min Version\",\n 113: \"Tracking DataError\",\n 115: \"Power Down Table Full\",\n 116: \"Power Down Entry Too Large\",\n 117: \"Power Down Data Checksum\",\n 118: \"Power Board Power Down Checksum\",\n 124: \"App ID Changed\",\n 125: \"Using Backup App\",\n 134: \"Start on Power Up\",\n 137: \"External Precharge Error\",\n 138: \"Precharge Open\",\n 141: \"Autotune Enc Angle\",\n 142: \"Autotune Speed Restricted\",\n 143: \"Autotune Current Regulator\",\n 144: \"Autotune Inertia\",\n 145: \"Autotune Travel\",\n 13035: \"Net IO Timeout\",\n 13037: \"Net IO Timeout\"\n\n }\n\n plc_tags = {\n \"wellstatus\": well_status_codes.get(value, \"Invalid Code\"),\n \"pidcontrolmode\": pid_control_codes.get(value, \"Invalid Code\"),\n \"downholesensorstatus\": downhole_codes.get(value, \"Invalid Code\"),\n \"alarmflowrate\": alarm_codes.get(value, \"Invalid Code\"),\n \"alarmintakepressure\": alarm_codes.get(value, \"Invalid Code\"),\n \"alarmintaketemperature\": alarm_codes.get(value, \"Invalid Code\"),\n \"alarmtubingpressure\": alarm_codes.get(value, \"Invalid Code\"),\n \"alarmvfd\": alarm_codes.get(value, \"Invalid Code\"),\n \"alarmlockout\": alarm_vfd_codes.get(value, \"Invalid Code\"),\n \"alarmfluidlevel\": alarm_codes.get(value, \"Invalid Code\"),\n \"runpermissive\": permissive_codes.get(value, \"Invalid Code\"),\n \"startpermissive\": permissive_codes.get(value, \"Invalid Code\"),\n \"last_vfd_fault_code\": vfd_fault_codes.get(value, \"Invalid Code\"),\n \"vfd_fault\": vfd_fault_codes.get(value, \"Invalid Code\")\n }\n\n return plc_tags.get(plc_tag, \"Invalid Tag\")\n",
"msgType": 0,
"trigger": "command_event",
"cloudName": "default"
},
{
"payload_type": "Plaintext",
"name": "receiveCommand",
"topic": "v1/devices/me/rpc/request/+",
"qos": 1,
"funcName": "receiveCommand",
"script": "import json, time\nfrom datetime import datetime as dt\nfrom quickfaas.measure import recall, write\nfrom quickfaas.remotebus import publish\nfrom common.Logger import logger\n\n# Helper function to split the payload into chunks\ndef chunk_payload(payload, chunk_size=20):\n chunked_values = list(payload[\"values\"].items())\n for i in range(0, len(chunked_values), chunk_size):\n yield {\n \"ts\": payload[\"ts\"],\n \"values\": dict(chunked_values[i:i+chunk_size])\n }\n\ndef sync():\n #get new values and send\n payload = {\"ts\": round(dt.timestamp(dt.now()))*1000, \"values\": {}}\n topic = \"v1/devices/me/telemetry\"\n try:\n data = recall()#json.loads(recall().decode(\"utf-8\"))\n except Exception as e:\n logger.error(e)\n logger.debug(data)\n for controller in data:\n for measure in controller[\"measures\"]:\n #publish measure\n if measure[\"name\"] in [\"wellstatus\",\"pidcontrolmode\",\"downholesensorstatus\",\"alarmflowrate\",\"alarmintakepressure\",\"alarmintaketemperature\",\"alarmtubingpressure\",\"alarmvfd\",\"alarmlockout\",\"alarmfluidlevel\",\"runpermissive\",\"startpermissive\",\"last_vfd_fault_code\",\"vfd_fault\", \"flowmeter_fault\"]:\n payload[\"values\"][measure[\"name\"]] = convert_int(measure[\"name\"], measure[\"value\"])\n payload[\"values\"][measure[\"name\"]+ \"_int\"] = measure[\"value\"]\n else:\n payload[\"values\"][measure[\"name\"]] = measure[\"value\"]\n logger.debug(\"Sending on topic: {}\".format(topic))\n logger.debug(\"Sending value: {}\".format(payload))\n for chunk in chunk_payload(payload=payload):\n publish(topic, json.dumps(chunk), 1, cloud_name=\"ThingsBoard\")\n time.sleep(2)\ndef writeplctag(value):\n #value in the form {\"measurement\": <measurement_name>, \"value\": <value to write>}\n try:\n #value = json.loads(value.replace(\"'\",'\"'))\n logger.debug(value)\n #payload format: [{\"name\": \"advvfdipp\", \"measures\": [{\"name\": \"manualfrequencysetpoint\", \"value\": 49}]}]\n message = [{\"name\": \"advvfdipp\", \"measures\":[{\"name\":value[\"measurement\"], \"value\": value[\"value\"]}]}]\n resp = write(message) \n logger.debug(\"RETURN FROM WRITE: {}\".format(resp))\n return True\n except Exception as e:\n logger.debug(e)\n return False\n \ndef receiveCommand(topic, payload):\n try:\n logger.debug(topic)\n logger.debug(json.loads(payload))\n p = json.loads(payload)\n command = p[\"method\"]\n commands = {\n \"sync\": sync,\n \"writeplctag\": writeplctag,\n } \n if command == \"setPLCTag\":\n try:\n result = commands[\"writeplctag\"](p[\"params\"])\n logger.debug(result)\n except Exception as e:\n logger.error(e)\n elif command == \"changeSetpoint\":\n try:\n logger.debug(\"attempting controlpoint write\")\n params_type = {\"measurement\": \"pidcontrolmode\", \"value\": p[\"params\"][\"setpointType\"]}\n if params_type[\"value\"]:\n commands[\"writeplctag\"](params_type)\n time.sleep(2)\n except Exception as e:\n logger.error(\"DID NOT WRITE CONTROL MODE\")\n logger.error(e)\n try:\n logger.debug(\"attempting setpoint write\")\n modes = {0: \"flowsetpoint\", 1: \"fluidlevelsetpoint\", 2: \"tubingpressuresetpoint\", 3: \"manualfrequencysetpoint\"}\n params_value = {\"value\": p[\"params\"][\"setpointValue\"]}\n if params_value[\"value\"]:\n params_value[\"measurement\"] = modes[getMode()]\n result = commands[\"writeplctag\"](params_value)\n logger.debug(result)\n except Exception as e:\n logger.error(\"DID NOT WRITE SETPOINT\")\n logger.error(e)\n #logger.debug(command)\n ack(topic.split(\"/\")[-1])\n time.sleep(5)\n sync()\n except Exception as e:\n logger.debug(e)\n \n\ndef ack(msgid):\n #logger.debug(msgid)\n #logger.debug(mac)\n #logger.debug(name)\n #logger.debug(value)\n publish(\"v1/devices/me/rpc/response/\" + str(msgid), json.dumps({\"msg\": {\"time\": time.time()}, \"metadata\": \"\", \"msgType\": \"\"}), 1,cloud_name=\"ThingsBoard\")\n\ndef getMode():\n try:\n data = recall()\n for controller in data:\n for measure in controller[\"measures\"]:\n if measure[\"name\"] == \"pidcontrolmode\":\n return measure[\"value\"]\n except:\n return None\n\ndef convert_int(plc_tag, value):\n well_status_codes = {\n 0: \"Running\",\n 1: \"Pumped Off\",\n 2: \"Alarmed\",\n 3: \"Locked Out\",\n 4: \"Stopped\"\n }\n\n pid_control_codes = {\n 0: \"Flow\",\n 1: \"Fluid Level\",\n 2: \"Tubing Pressure\",\n 3: \"Manual\"\n }\n\n downhole_codes = {\n 0: \"OK\",\n 1: \"Connecting\",\n 2: \"Open Circuit\",\n 3: \"Shorted\",\n 4: \"Cannot Decode\"\n }\n\n permissive_codes = {\n 0: \"OK\",\n 1: \"Flow\",\n 2: \"Intake Pressure\",\n 3: \"Intake Temperature\",\n 4: \"Tubing Pressure\",\n 5: \"VFD\",\n 6: \"Fluid Level\",\n 7: \"Min. Downtime\"\n }\n\n alarm_codes = {\n 0: \"OK\",\n 1: \"Alarm\"\n }\n\n alarm_vfd_codes = {\n 0: \"OK\",\n 1: \"Locked Out\"\n }\n\n vfd_fault_codes = {\n 0: \"No Fault\",\n 2: \"Auxiliary Input\",\n 3: \"Power Loss\",\n 4: \"UnderVoltage\",\n 5: \"OverVoltage\",\n 7: \"Motor Overload\",\n 8: \"Heatsink OverTemp\",\n 9: \"Thermister OverTemp\",\n 10: \"Dynamic Brake OverTemp\",\n 12: \"Hardware OverCurrent\",\n 13: \"Ground Fault\",\n 14: \"Ground Warning\",\n 15: \"Load Loss\",\n 17: \"Input Phase Loss\",\n 18: \"Motor PTC Trip\",\n 19: \"Task Overrun\",\n 20: \"Torque Prove Speed Band\",\n 21: \"Output Phase Loss\",\n 24: \"Decel Inhibit\",\n 25: \"OverSpeed Limit\",\n 26: \"Brake Slipped\",\n 27: \"Torque Prove Conflict\",\n 28: \"TP Encls Confict\",\n 29: \"Analog In Loss\",\n 33: \"Auto Restarts Exhausted\",\n 35: \"IPM OverCurrent\",\n 36: \"SW OverCurrent\",\n 38: \"Phase U to Ground\",\n 39: \"Phase V to Ground\",\n 40: \"Phase W to Ground\",\n 41: \"Phase UV Short\",\n 42: \"Phase VW Short\",\n 43: \"Phase WU Short\",\n 44: \"Phase UNeg to Ground\",\n 45: \"Phase VNeg to Ground\",\n 46: \"Phase WNeg to Ground\",\n 48: \"System Defaulted\",\n 49: \"Drive Powerup\",\n 51: \"Clear Fault Queue\",\n 55: \"Control Board Overtemp\",\n 59: \"Invalid Code\",\n 61: \"Shear Pin 1\",\n 62: \"Shear Pin 2\",\n 64: \"Drive Overload\",\n 66: \"OW Torque Level\",\n 67: \"Pump Off\",\n 71: \"Port 1 Adapter\",\n 72: \"Port 2 Adapter\",\n 73: \"Port 3 Adapter\",\n 74: \"Port 4 Adapter\",\n 75: \"Port 5 Adapter\",\n 76: \"Port 6 Adapter\",\n 77: \"IR Volts Range\",\n 78: \"FluxAmps Ref Range\",\n 79: \"Excessive Load\",\n 80: \"AutoTune Aborted\",\n 81: \"Port 1 DPI Loss\",\n 82: \"Port 2 DPI Loss\",\n 83: \"Port 3 DPI Loss\",\n 84: \"Port 4 DPI Loss\",\n 85: \"Port 5 DPI Loss\",\n 86: \"Port 6 DPI Loss\",\n 87: \"IXo Voltage Range\",\n 91: \"Primary Velocity Feedback Loss\",\n 93: \"Hardware Enable Check\",\n 94: \"Alternate Velocity Feedback Loss\",\n 95: \"Auxiliary Velocity Feedback Loss\",\n 96: \"Position Feedback Loss\",\n 97: \"Auto Tach Switch\",\n 100: \"Parameter Checksum\",\n 101: \"Power Down NVS Blank\",\n 102: \"NVS Not Blank\",\n 103: \"Power Down NVS Incompatible\",\n 104: \"Power Board Checksum\",\n 106: \"Incompat MCB-PB\",\n 107: \"Replaced MCB-PB\",\n 108: \"Analog Calibration Checksum\",\n 110: \"Invalid Power Board Data\",\n 111: \"Power Board Invalid ID\",\n 112: \"Power Board App Min Version\",\n 113: \"Tracking DataError\",\n 115: \"Power Down Table Full\",\n 116: \"Power Down Entry Too Large\",\n 117: \"Power Down Data Checksum\",\n 118: \"Power Board Power Down Checksum\",\n 124: \"App ID Changed\",\n 125: \"Using Backup App\",\n 134: \"Start on Power Up\",\n 137: \"External Precharge Error\",\n 138: \"Precharge Open\",\n 141: \"Autotune Enc Angle\",\n 142: \"Autotune Speed Restricted\",\n 143: \"Autotune Current Regulator\",\n 144: \"Autotune Inertia\",\n 145: \"Autotune Travel\",\n 13035: \"Net IO Timeout\",\n 13037: \"Net IO Timeout\"\n\n }\n\n plc_tags = {\n \"wellstatus\": well_status_codes.get(value, \"Invalid Code\"),\n \"pidcontrolmode\": pid_control_codes.get(value, \"Invalid Code\"),\n \"downholesensorstatus\": downhole_codes.get(value, \"Invalid Code\"),\n \"alarmflowrate\": alarm_codes.get(value, \"Invalid Code\"),\n \"alarmintakepressure\": alarm_codes.get(value, \"Invalid Code\"),\n \"alarmintaketemperature\": alarm_codes.get(value, \"Invalid Code\"),\n \"alarmtubingpressure\": alarm_codes.get(value, \"Invalid Code\"),\n \"alarmvfd\": alarm_codes.get(value, \"Invalid Code\"),\n \"alarmlockout\": alarm_vfd_codes.get(value, \"Invalid Code\"),\n \"alarmfluidlevel\": alarm_codes.get(value, \"Invalid Code\"),\n \"runpermissive\": permissive_codes.get(value, \"Invalid Code\"),\n \"startpermissive\": permissive_codes.get(value, \"Invalid Code\"),\n \"last_vfd_fault_code\": vfd_fault_codes.get(value, \"Invalid Code\"),\n \"vfd_fault\": vfd_fault_codes.get(value, \"Invalid Code\"),\n \"flowmeter_fault\": alarm_codes.get(value, \"Invalid Code\")\n }\n\n return plc_tags.get(plc_tag, \"Invalid Tag\")\n",
"msgType": 0,
"cloudName": "ThingsBoard",
"trigger": "command_event"
}
]
},
"mindspheres": [
{
"name": "mindsphere",
"enable": 0,
"_id": "mindsphereeafcdf",
"args": {
"hostEnvironment": "eu1",
"hostDomain": "mindsphere.io",
"appName": "",
"appVersion": "",
"clientId": "",
"clientSecret": "",
"authType": "tenant",
"hostTenant": "",
"userTenant": "",
"timeout": 10,
"statusTimeout": 300,
"enableOfflinePut": 0
},
"mindsphereputs": []
}
],
"labels": [
{
"key": "SN",
"value": "GF5022137006247",
"_id": "000066fc0df1ddfa"
},
{
"key": "MAC",
"value": "00:18:05:1a:e5:2a",
"_id": "000166fc0df1f2b4"
},
{
"key": "MAC_LOWER",
"value": "c4:93:00:0e:d5:03",
"_id": "000266fc0df1f909"
},
{
"key": "MAC_UPPER",
"value": "C4:93:00:0E:D5:03",
"_id": "000366fc0df17442"
}
],
"modbusSlave": {
"enable": 0,
"protocol": "Modbus-TCP",
"port": 502,
"slaveAddr": 1,
"int16Ord": "ab",
"int32Ord": "abcd",
"float32Ord": "abcd",
"maxConnection": 5,
"mapping_table": [],
"useRawvalue": 1,
"mappingTable": [
{
"name": "1",
"slaveAddr": 1,
"_id": "modbusTCPSlave01",
"measures": []
}
]
},
"modbusRTUSlave": {
"enable": 0,
"protocol": "Modbus-RTU",
"coms": "rs485",
"slaveAddr": 1,
"int16Ord": "ab",
"int32Ord": "abcd",
"float32Ord": "abcd",
"mappingTable": [
{
"name": "1",
"slaveAddr": 1,
"_id": "modbusRTUSlave01",
"measures": []
}
]
},
"iec104Server": {
"enable": 0,
"cotSize": 2,
"port": 2404,
"serverList": [
{
"asduAddr": 1
}
],
"kValue": 12,
"wValue": 8,
"t0": 15,
"t1": 15,
"t2": 10,
"t3": 20,
"maximumLink": 5,
"timeSet": 1,
"byteOrder": "abcd",
"useRawvalue": 1,
"connectMode": "tcpServer",
"enableSpontaneous": 1,
"asduLen": 2,
"mapping_table": []
},
"iec101Server": {
"enable": 0,
"coms": "rs485",
"mode": "UnBalance",
"protocolMode": 0,
"linkLen": 2,
"linkAddr": 1,
"asduLen": 2,
"ioaLen": 3,
"cotLen": 2,
"serverList": [
{
"asduAddr": 1
}
],
"linkTimeOut": 2000,
"timeSet": 1,
"idleTimeOut": 10000,
"byteOrder": "abcd",
"useRawvalue": 1,
"enableSpontaneous": 1,
"mappingTable": {
"YX": [],
"YC": [],
"YK": []
}
},
"iec104Client": {
"enable": 0,
"connectType": 2,
"serverAddr": "ipower.inhandcloud.cn",
"serverPort": 2406,
"communicationCode": "",
"protocol": 1,
"asduAddr": 1,
"tls": 1,
"verification": 1,
"mapping_table": {
"YX": [],
"YC": [],
"YK": []
}
},
"opcuaServer": {
"enable": 0,
"port": 4840,
"maximumLink": 5,
"securityMode": 0,
"identifierType": "String",
"certificate": "None",
"privateKey": "None",
"pubsub": 0,
"useRawvalue": 1,
"mapping_table": []
},
"iec61850Server": {
"enable": 0,
"protocol": "iec61850Server",
"port": 102,
"iedName": "INHAND",
"LDName": "Gateway",
"ctrlMode": 1,
"authentication": 0,
"password": "123456",
"useRawvalue": 1,
"dataSet": [],
"mapping_table": []
},
"sl651Slave": {
"enable": 0,
"centerAaddr": 1,
"remoteAddr": "",
"addrCode": "",
"password": "",
"platform_list": [],
"useRawvalue": 1,
"mapping_table": []
},
"hj212Client": {
"enable": 0,
"useRawvalue": 1,
"platform_list": [],
"block_list": [],
"mapping_table": []
},
"bacnetServer": {
"enable": 0,
"protocol": "BACnet/IP",
"deviceId": 0,
"port": 47808,
"bbmdEnable": 0,
"useRawvalue": 1,
"mapping_table": []
},
"Dnp3Server": {
"enable": 0,
"protocol": "Dnp3-TCP",
"slaveAddr": 1,
"masterAddr": 2,
"port": 20000,
"useRawvalue": 1,
"enableUnsol": 0,
"maxFrasize": 4096,
"layerTimeout": 1000,
"linkRetry": 5,
"enableLink": 0,
"mapping_table": []
},
"snmpAgent": {
"enable": 0,
"port": 161,
"useRawvalue": 1,
"version": 3,
"userName": "",
"enableAuth": 0,
"readWrite": "ro",
"enable_trap": 0,
"mapping_table": []
},
"southMetadata": {},
"bindMetadata": {
"version": "",
"timestamp": ""
},
"bindConfig": {
"enable": 0,
"bind": {
"modelId": "",
"modelName": "",
"srcId": "",
"srcName": "",
"devId": "",
"devName": ""
},
"varGroups": [],
"variables": [],
"alerts": []
},
"templates": {},
"version": "3.1.5"
}
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