| 1 | // Partial Copyright Jerome Benoit. 2021. All Rights Reserved. |
| 2 | |
| 3 | import { ACElectricUtils, DCElectricUtils } from '../../../utils/ElectricUtils'; |
| 4 | import { CurrentType, Voltage } from '../../../types/ChargingStationTemplate'; |
| 5 | import MeasurandPerPhaseSampledValueTemplates, { |
| 6 | SampledValueTemplate, |
| 7 | } from '../../../types/MeasurandPerPhaseSampledValueTemplates'; |
| 8 | import { |
| 9 | MeterValueContext, |
| 10 | MeterValueLocation, |
| 11 | MeterValueUnit, |
| 12 | OCPP16MeterValue, |
| 13 | OCPP16MeterValueMeasurand, |
| 14 | OCPP16MeterValuePhase, |
| 15 | OCPP16SampledValue, |
| 16 | } from '../../../types/ocpp/1.6/MeterValues'; |
| 17 | |
| 18 | import type ChargingStation from '../../ChargingStation'; |
| 19 | import Constants from '../../../utils/Constants'; |
| 20 | import { ErrorType } from '../../../types/ocpp/ErrorType'; |
| 21 | import MeasurandValues from '../../../types/MeasurandValues'; |
| 22 | import { OCPP16RequestCommand } from '../../../types/ocpp/1.6/Requests'; |
| 23 | import OCPPError from '../../../exception/OCPPError'; |
| 24 | import { RequestCommand } from '../../../types/ocpp/Requests'; |
| 25 | import Utils from '../../../utils/Utils'; |
| 26 | import logger from '../../../utils/Logger'; |
| 27 | |
| 28 | export class OCPP16ServiceUtils { |
| 29 | public static checkMeasurandPowerDivider( |
| 30 | chargingStation: ChargingStation, |
| 31 | measurandType: OCPP16MeterValueMeasurand |
| 32 | ): void { |
| 33 | if (Utils.isUndefined(chargingStation.stationInfo.powerDivider)) { |
| 34 | const errMsg = `${chargingStation.logPrefix()} MeterValues measurand ${ |
| 35 | measurandType ?? OCPP16MeterValueMeasurand.ENERGY_ACTIVE_IMPORT_REGISTER |
| 36 | }: powerDivider is undefined`; |
| 37 | logger.error(errMsg); |
| 38 | throw new OCPPError(ErrorType.INTERNAL_ERROR, errMsg, RequestCommand.METER_VALUES); |
| 39 | } else if (chargingStation.stationInfo?.powerDivider <= 0) { |
| 40 | const errMsg = `${chargingStation.logPrefix()} MeterValues measurand ${ |
| 41 | measurandType ?? OCPP16MeterValueMeasurand.ENERGY_ACTIVE_IMPORT_REGISTER |
| 42 | }: powerDivider have zero or below value ${chargingStation.stationInfo.powerDivider}`; |
| 43 | logger.error(errMsg); |
| 44 | throw new OCPPError(ErrorType.INTERNAL_ERROR, errMsg, RequestCommand.METER_VALUES); |
| 45 | } |
| 46 | } |
| 47 | |
| 48 | public static buildSampledValue( |
| 49 | sampledValueTemplate: SampledValueTemplate, |
| 50 | value: number, |
| 51 | context?: MeterValueContext, |
| 52 | phase?: OCPP16MeterValuePhase |
| 53 | ): OCPP16SampledValue { |
| 54 | const sampledValueValue = value ?? sampledValueTemplate?.value ?? null; |
| 55 | const sampledValueContext = context ?? sampledValueTemplate?.context ?? null; |
| 56 | const sampledValueLocation = |
| 57 | sampledValueTemplate?.location ?? |
| 58 | OCPP16ServiceUtils.getMeasurandDefaultLocation(sampledValueTemplate?.measurand ?? null); |
| 59 | const sampledValuePhase = phase ?? sampledValueTemplate?.phase ?? null; |
| 60 | return { |
| 61 | ...(!Utils.isNullOrUndefined(sampledValueTemplate.unit) && { |
| 62 | unit: sampledValueTemplate.unit, |
| 63 | }), |
| 64 | ...(!Utils.isNullOrUndefined(sampledValueContext) && { context: sampledValueContext }), |
| 65 | ...(!Utils.isNullOrUndefined(sampledValueTemplate.measurand) && { |
| 66 | measurand: sampledValueTemplate.measurand, |
| 67 | }), |
| 68 | ...(!Utils.isNullOrUndefined(sampledValueLocation) && { location: sampledValueLocation }), |
| 69 | ...(!Utils.isNullOrUndefined(sampledValueValue) && { value: sampledValueValue.toString() }), |
| 70 | ...(!Utils.isNullOrUndefined(sampledValuePhase) && { phase: sampledValuePhase }), |
| 71 | }; |
| 72 | } |
| 73 | |
| 74 | public static getMeasurandDefaultUnit( |
| 75 | measurandType: OCPP16MeterValueMeasurand |
| 76 | ): MeterValueUnit | undefined { |
| 77 | switch (measurandType) { |
| 78 | case OCPP16MeterValueMeasurand.CURRENT_EXPORT: |
| 79 | case OCPP16MeterValueMeasurand.CURRENT_IMPORT: |
| 80 | case OCPP16MeterValueMeasurand.CURRENT_OFFERED: |
| 81 | return MeterValueUnit.AMP; |
| 82 | case OCPP16MeterValueMeasurand.ENERGY_ACTIVE_EXPORT_REGISTER: |
| 83 | case OCPP16MeterValueMeasurand.ENERGY_ACTIVE_IMPORT_REGISTER: |
| 84 | return MeterValueUnit.WATT_HOUR; |
| 85 | case OCPP16MeterValueMeasurand.POWER_ACTIVE_EXPORT: |
| 86 | case OCPP16MeterValueMeasurand.POWER_ACTIVE_IMPORT: |
| 87 | case OCPP16MeterValueMeasurand.POWER_OFFERED: |
| 88 | return MeterValueUnit.WATT; |
| 89 | case OCPP16MeterValueMeasurand.STATE_OF_CHARGE: |
| 90 | return MeterValueUnit.PERCENT; |
| 91 | case OCPP16MeterValueMeasurand.VOLTAGE: |
| 92 | return MeterValueUnit.VOLT; |
| 93 | } |
| 94 | } |
| 95 | |
| 96 | public static getMeasurandDefaultLocation( |
| 97 | measurandType: OCPP16MeterValueMeasurand |
| 98 | ): MeterValueLocation | undefined { |
| 99 | switch (measurandType) { |
| 100 | case OCPP16MeterValueMeasurand.STATE_OF_CHARGE: |
| 101 | return MeterValueLocation.EV; |
| 102 | } |
| 103 | } |
| 104 | |
| 105 | public static buildMeterValue( |
| 106 | chargingStation: ChargingStation, |
| 107 | connectorId: number, |
| 108 | transactionId: number, |
| 109 | interval: number, |
| 110 | debug = false |
| 111 | ): OCPP16MeterValue { |
| 112 | const meterValue: OCPP16MeterValue = { |
| 113 | timestamp: new Date().toISOString(), |
| 114 | sampledValue: [], |
| 115 | }; |
| 116 | const connector = chargingStation.getConnectorStatus(connectorId); |
| 117 | // SoC measurand |
| 118 | const socSampledValueTemplate = chargingStation.getSampledValueTemplate( |
| 119 | connectorId, |
| 120 | OCPP16MeterValueMeasurand.STATE_OF_CHARGE |
| 121 | ); |
| 122 | if (socSampledValueTemplate) { |
| 123 | const socSampledValueTemplateValue = socSampledValueTemplate.value |
| 124 | ? Utils.getRandomFloatFluctuatedRounded( |
| 125 | parseInt(socSampledValueTemplate.value), |
| 126 | socSampledValueTemplate.fluctuationPercent ?? Constants.DEFAULT_FLUCTUATION_PERCENT |
| 127 | ) |
| 128 | : Utils.getRandomInteger(100); |
| 129 | meterValue.sampledValue.push( |
| 130 | OCPP16ServiceUtils.buildSampledValue(socSampledValueTemplate, socSampledValueTemplateValue) |
| 131 | ); |
| 132 | const sampledValuesIndex = meterValue.sampledValue.length - 1; |
| 133 | if (Utils.convertToInt(meterValue.sampledValue[sampledValuesIndex].value) > 100 || debug) { |
| 134 | logger.error( |
| 135 | `${chargingStation.logPrefix()} MeterValues measurand ${ |
| 136 | meterValue.sampledValue[sampledValuesIndex].measurand ?? |
| 137 | OCPP16MeterValueMeasurand.ENERGY_ACTIVE_IMPORT_REGISTER |
| 138 | }: connectorId ${connectorId}, transaction ${connector.transactionId}, value: ${ |
| 139 | meterValue.sampledValue[sampledValuesIndex].value |
| 140 | }/100` |
| 141 | ); |
| 142 | } |
| 143 | } |
| 144 | // Voltage measurand |
| 145 | const voltageSampledValueTemplate = chargingStation.getSampledValueTemplate( |
| 146 | connectorId, |
| 147 | OCPP16MeterValueMeasurand.VOLTAGE |
| 148 | ); |
| 149 | if (voltageSampledValueTemplate) { |
| 150 | const voltageSampledValueTemplateValue = voltageSampledValueTemplate.value |
| 151 | ? parseInt(voltageSampledValueTemplate.value) |
| 152 | : chargingStation.getVoltageOut(); |
| 153 | const fluctuationPercent = |
| 154 | voltageSampledValueTemplate.fluctuationPercent ?? Constants.DEFAULT_FLUCTUATION_PERCENT; |
| 155 | const voltageMeasurandValue = Utils.getRandomFloatFluctuatedRounded( |
| 156 | voltageSampledValueTemplateValue, |
| 157 | fluctuationPercent |
| 158 | ); |
| 159 | if ( |
| 160 | chargingStation.getNumberOfPhases() !== 3 || |
| 161 | (chargingStation.getNumberOfPhases() === 3 && chargingStation.getMainVoltageMeterValues()) |
| 162 | ) { |
| 163 | meterValue.sampledValue.push( |
| 164 | OCPP16ServiceUtils.buildSampledValue(voltageSampledValueTemplate, voltageMeasurandValue) |
| 165 | ); |
| 166 | } |
| 167 | for ( |
| 168 | let phase = 1; |
| 169 | chargingStation.getNumberOfPhases() === 3 && phase <= chargingStation.getNumberOfPhases(); |
| 170 | phase++ |
| 171 | ) { |
| 172 | const phaseLineToNeutralValue = `L${phase}-N`; |
| 173 | const voltagePhaseLineToNeutralSampledValueTemplate = |
| 174 | chargingStation.getSampledValueTemplate( |
| 175 | connectorId, |
| 176 | OCPP16MeterValueMeasurand.VOLTAGE, |
| 177 | phaseLineToNeutralValue as OCPP16MeterValuePhase |
| 178 | ); |
| 179 | let voltagePhaseLineToNeutralMeasurandValue: number; |
| 180 | if (voltagePhaseLineToNeutralSampledValueTemplate) { |
| 181 | const voltagePhaseLineToNeutralSampledValueTemplateValue = |
| 182 | voltagePhaseLineToNeutralSampledValueTemplate.value |
| 183 | ? parseInt(voltagePhaseLineToNeutralSampledValueTemplate.value) |
| 184 | : chargingStation.getVoltageOut(); |
| 185 | const fluctuationPhaseToNeutralPercent = |
| 186 | voltagePhaseLineToNeutralSampledValueTemplate.fluctuationPercent ?? |
| 187 | Constants.DEFAULT_FLUCTUATION_PERCENT; |
| 188 | voltagePhaseLineToNeutralMeasurandValue = Utils.getRandomFloatFluctuatedRounded( |
| 189 | voltagePhaseLineToNeutralSampledValueTemplateValue, |
| 190 | fluctuationPhaseToNeutralPercent |
| 191 | ); |
| 192 | } |
| 193 | meterValue.sampledValue.push( |
| 194 | OCPP16ServiceUtils.buildSampledValue( |
| 195 | voltagePhaseLineToNeutralSampledValueTemplate ?? voltageSampledValueTemplate, |
| 196 | voltagePhaseLineToNeutralMeasurandValue ?? voltageMeasurandValue, |
| 197 | null, |
| 198 | phaseLineToNeutralValue as OCPP16MeterValuePhase |
| 199 | ) |
| 200 | ); |
| 201 | if (chargingStation.getPhaseLineToLineVoltageMeterValues()) { |
| 202 | const phaseLineToLineValue = `L${phase}-L${ |
| 203 | (phase + 1) % chargingStation.getNumberOfPhases() !== 0 |
| 204 | ? (phase + 1) % chargingStation.getNumberOfPhases() |
| 205 | : chargingStation.getNumberOfPhases() |
| 206 | }`; |
| 207 | const voltagePhaseLineToLineSampledValueTemplate = |
| 208 | chargingStation.getSampledValueTemplate( |
| 209 | connectorId, |
| 210 | OCPP16MeterValueMeasurand.VOLTAGE, |
| 211 | phaseLineToLineValue as OCPP16MeterValuePhase |
| 212 | ); |
| 213 | let voltagePhaseLineToLineMeasurandValue: number; |
| 214 | if (voltagePhaseLineToLineSampledValueTemplate) { |
| 215 | const voltagePhaseLineToLineSampledValueTemplateValue = |
| 216 | voltagePhaseLineToLineSampledValueTemplate.value |
| 217 | ? parseInt(voltagePhaseLineToLineSampledValueTemplate.value) |
| 218 | : Voltage.VOLTAGE_400; |
| 219 | const fluctuationPhaseLineToLinePercent = |
| 220 | voltagePhaseLineToLineSampledValueTemplate.fluctuationPercent ?? |
| 221 | Constants.DEFAULT_FLUCTUATION_PERCENT; |
| 222 | voltagePhaseLineToLineMeasurandValue = Utils.getRandomFloatFluctuatedRounded( |
| 223 | voltagePhaseLineToLineSampledValueTemplateValue, |
| 224 | fluctuationPhaseLineToLinePercent |
| 225 | ); |
| 226 | } |
| 227 | const defaultVoltagePhaseLineToLineMeasurandValue = Utils.getRandomFloatFluctuatedRounded( |
| 228 | Voltage.VOLTAGE_400, |
| 229 | fluctuationPercent |
| 230 | ); |
| 231 | meterValue.sampledValue.push( |
| 232 | OCPP16ServiceUtils.buildSampledValue( |
| 233 | voltagePhaseLineToLineSampledValueTemplate ?? voltageSampledValueTemplate, |
| 234 | voltagePhaseLineToLineMeasurandValue ?? defaultVoltagePhaseLineToLineMeasurandValue, |
| 235 | null, |
| 236 | phaseLineToLineValue as OCPP16MeterValuePhase |
| 237 | ) |
| 238 | ); |
| 239 | } |
| 240 | } |
| 241 | } |
| 242 | // Power.Active.Import measurand |
| 243 | const powerSampledValueTemplate = chargingStation.getSampledValueTemplate( |
| 244 | connectorId, |
| 245 | OCPP16MeterValueMeasurand.POWER_ACTIVE_IMPORT |
| 246 | ); |
| 247 | let powerPerPhaseSampledValueTemplates: MeasurandPerPhaseSampledValueTemplates = {}; |
| 248 | if (chargingStation.getNumberOfPhases() === 3) { |
| 249 | powerPerPhaseSampledValueTemplates = { |
| 250 | L1: chargingStation.getSampledValueTemplate( |
| 251 | connectorId, |
| 252 | OCPP16MeterValueMeasurand.POWER_ACTIVE_IMPORT, |
| 253 | OCPP16MeterValuePhase.L1_N |
| 254 | ), |
| 255 | L2: chargingStation.getSampledValueTemplate( |
| 256 | connectorId, |
| 257 | OCPP16MeterValueMeasurand.POWER_ACTIVE_IMPORT, |
| 258 | OCPP16MeterValuePhase.L2_N |
| 259 | ), |
| 260 | L3: chargingStation.getSampledValueTemplate( |
| 261 | connectorId, |
| 262 | OCPP16MeterValueMeasurand.POWER_ACTIVE_IMPORT, |
| 263 | OCPP16MeterValuePhase.L3_N |
| 264 | ), |
| 265 | }; |
| 266 | } |
| 267 | if (powerSampledValueTemplate) { |
| 268 | OCPP16ServiceUtils.checkMeasurandPowerDivider( |
| 269 | chargingStation, |
| 270 | powerSampledValueTemplate.measurand |
| 271 | ); |
| 272 | const errMsg = `${chargingStation.logPrefix()} MeterValues measurand ${ |
| 273 | powerSampledValueTemplate.measurand ?? |
| 274 | OCPP16MeterValueMeasurand.ENERGY_ACTIVE_IMPORT_REGISTER |
| 275 | }: Unknown ${chargingStation.getCurrentOutType()} currentOutType in template file ${ |
| 276 | chargingStation.stationTemplateFile |
| 277 | }, cannot calculate ${ |
| 278 | powerSampledValueTemplate.measurand ?? |
| 279 | OCPP16MeterValueMeasurand.ENERGY_ACTIVE_IMPORT_REGISTER |
| 280 | } measurand value`; |
| 281 | const powerMeasurandValues = {} as MeasurandValues; |
| 282 | const unitDivider = powerSampledValueTemplate?.unit === MeterValueUnit.KILO_WATT ? 1000 : 1; |
| 283 | const maxPower = Math.round( |
| 284 | chargingStation.stationInfo.maxPower / chargingStation.stationInfo.powerDivider |
| 285 | ); |
| 286 | const maxPowerPerPhase = Math.round( |
| 287 | chargingStation.stationInfo.maxPower / |
| 288 | chargingStation.stationInfo.powerDivider / |
| 289 | chargingStation.getNumberOfPhases() |
| 290 | ); |
| 291 | switch (chargingStation.getCurrentOutType()) { |
| 292 | case CurrentType.AC: |
| 293 | if (chargingStation.getNumberOfPhases() === 3) { |
| 294 | const defaultFluctuatedPowerPerPhase = |
| 295 | powerSampledValueTemplate.value && |
| 296 | Utils.getRandomFloatFluctuatedRounded( |
| 297 | parseInt(powerSampledValueTemplate.value) / chargingStation.getNumberOfPhases(), |
| 298 | powerSampledValueTemplate.fluctuationPercent ?? |
| 299 | Constants.DEFAULT_FLUCTUATION_PERCENT |
| 300 | ); |
| 301 | const phase1FluctuatedValue = |
| 302 | powerPerPhaseSampledValueTemplates?.L1?.value && |
| 303 | Utils.getRandomFloatFluctuatedRounded( |
| 304 | parseInt(powerPerPhaseSampledValueTemplates.L1.value), |
| 305 | powerPerPhaseSampledValueTemplates.L1.fluctuationPercent ?? |
| 306 | Constants.DEFAULT_FLUCTUATION_PERCENT |
| 307 | ); |
| 308 | const phase2FluctuatedValue = |
| 309 | powerPerPhaseSampledValueTemplates?.L2?.value && |
| 310 | Utils.getRandomFloatFluctuatedRounded( |
| 311 | parseInt(powerPerPhaseSampledValueTemplates.L2.value), |
| 312 | powerPerPhaseSampledValueTemplates.L2.fluctuationPercent ?? |
| 313 | Constants.DEFAULT_FLUCTUATION_PERCENT |
| 314 | ); |
| 315 | const phase3FluctuatedValue = |
| 316 | powerPerPhaseSampledValueTemplates?.L3?.value && |
| 317 | Utils.getRandomFloatFluctuatedRounded( |
| 318 | parseInt(powerPerPhaseSampledValueTemplates.L3.value), |
| 319 | powerPerPhaseSampledValueTemplates.L3.fluctuationPercent ?? |
| 320 | Constants.DEFAULT_FLUCTUATION_PERCENT |
| 321 | ); |
| 322 | powerMeasurandValues.L1 = |
| 323 | phase1FluctuatedValue ?? |
| 324 | defaultFluctuatedPowerPerPhase ?? |
| 325 | Utils.getRandomFloatRounded(maxPowerPerPhase / unitDivider); |
| 326 | powerMeasurandValues.L2 = |
| 327 | phase2FluctuatedValue ?? |
| 328 | defaultFluctuatedPowerPerPhase ?? |
| 329 | Utils.getRandomFloatRounded(maxPowerPerPhase / unitDivider); |
| 330 | powerMeasurandValues.L3 = |
| 331 | phase3FluctuatedValue ?? |
| 332 | defaultFluctuatedPowerPerPhase ?? |
| 333 | Utils.getRandomFloatRounded(maxPowerPerPhase / unitDivider); |
| 334 | } else { |
| 335 | powerMeasurandValues.L1 = powerSampledValueTemplate.value |
| 336 | ? Utils.getRandomFloatFluctuatedRounded( |
| 337 | parseInt(powerSampledValueTemplate.value), |
| 338 | powerSampledValueTemplate.fluctuationPercent ?? |
| 339 | Constants.DEFAULT_FLUCTUATION_PERCENT |
| 340 | ) |
| 341 | : Utils.getRandomFloatRounded(maxPower / unitDivider); |
| 342 | powerMeasurandValues.L2 = 0; |
| 343 | powerMeasurandValues.L3 = 0; |
| 344 | } |
| 345 | powerMeasurandValues.allPhases = Utils.roundTo( |
| 346 | powerMeasurandValues.L1 + powerMeasurandValues.L2 + powerMeasurandValues.L3, |
| 347 | 2 |
| 348 | ); |
| 349 | break; |
| 350 | case CurrentType.DC: |
| 351 | powerMeasurandValues.allPhases = powerSampledValueTemplate.value |
| 352 | ? Utils.getRandomFloatFluctuatedRounded( |
| 353 | parseInt(powerSampledValueTemplate.value), |
| 354 | powerSampledValueTemplate.fluctuationPercent ?? |
| 355 | Constants.DEFAULT_FLUCTUATION_PERCENT |
| 356 | ) |
| 357 | : Utils.getRandomFloatRounded(maxPower / unitDivider); |
| 358 | break; |
| 359 | default: |
| 360 | logger.error(errMsg); |
| 361 | throw new OCPPError(ErrorType.INTERNAL_ERROR, errMsg, OCPP16RequestCommand.METER_VALUES); |
| 362 | } |
| 363 | meterValue.sampledValue.push( |
| 364 | OCPP16ServiceUtils.buildSampledValue( |
| 365 | powerSampledValueTemplate, |
| 366 | powerMeasurandValues.allPhases |
| 367 | ) |
| 368 | ); |
| 369 | const sampledValuesIndex = meterValue.sampledValue.length - 1; |
| 370 | const maxPowerRounded = Utils.roundTo(maxPower / unitDivider, 2); |
| 371 | if ( |
| 372 | Utils.convertToFloat(meterValue.sampledValue[sampledValuesIndex].value) > maxPowerRounded || |
| 373 | debug |
| 374 | ) { |
| 375 | logger.error( |
| 376 | `${chargingStation.logPrefix()} MeterValues measurand ${ |
| 377 | meterValue.sampledValue[sampledValuesIndex].measurand ?? |
| 378 | OCPP16MeterValueMeasurand.ENERGY_ACTIVE_IMPORT_REGISTER |
| 379 | }: connectorId ${connectorId}, transaction ${connector.transactionId}, value: ${ |
| 380 | meterValue.sampledValue[sampledValuesIndex].value |
| 381 | }/${maxPowerRounded}` |
| 382 | ); |
| 383 | } |
| 384 | for ( |
| 385 | let phase = 1; |
| 386 | chargingStation.getNumberOfPhases() === 3 && phase <= chargingStation.getNumberOfPhases(); |
| 387 | phase++ |
| 388 | ) { |
| 389 | const phaseValue = `L${phase}-N`; |
| 390 | meterValue.sampledValue.push( |
| 391 | OCPP16ServiceUtils.buildSampledValue( |
| 392 | (powerPerPhaseSampledValueTemplates[`L${phase}`] as SampledValueTemplate) ?? |
| 393 | powerSampledValueTemplate, |
| 394 | powerMeasurandValues[`L${phase}`] as number, |
| 395 | null, |
| 396 | phaseValue as OCPP16MeterValuePhase |
| 397 | ) |
| 398 | ); |
| 399 | const sampledValuesPerPhaseIndex = meterValue.sampledValue.length - 1; |
| 400 | const maxPowerPerPhaseRounded = Utils.roundTo(maxPowerPerPhase / unitDivider, 2); |
| 401 | if ( |
| 402 | Utils.convertToFloat(meterValue.sampledValue[sampledValuesPerPhaseIndex].value) > |
| 403 | maxPowerPerPhaseRounded || |
| 404 | debug |
| 405 | ) { |
| 406 | logger.error( |
| 407 | `${chargingStation.logPrefix()} MeterValues measurand ${ |
| 408 | meterValue.sampledValue[sampledValuesPerPhaseIndex].measurand ?? |
| 409 | OCPP16MeterValueMeasurand.ENERGY_ACTIVE_IMPORT_REGISTER |
| 410 | }: phase ${ |
| 411 | meterValue.sampledValue[sampledValuesPerPhaseIndex].phase |
| 412 | }, connectorId ${connectorId}, transaction ${connector.transactionId}, value: ${ |
| 413 | meterValue.sampledValue[sampledValuesPerPhaseIndex].value |
| 414 | }/${maxPowerPerPhaseRounded}` |
| 415 | ); |
| 416 | } |
| 417 | } |
| 418 | } |
| 419 | // Current.Import measurand |
| 420 | const currentSampledValueTemplate = chargingStation.getSampledValueTemplate( |
| 421 | connectorId, |
| 422 | OCPP16MeterValueMeasurand.CURRENT_IMPORT |
| 423 | ); |
| 424 | let currentPerPhaseSampledValueTemplates: MeasurandPerPhaseSampledValueTemplates = {}; |
| 425 | if (chargingStation.getNumberOfPhases() === 3) { |
| 426 | currentPerPhaseSampledValueTemplates = { |
| 427 | L1: chargingStation.getSampledValueTemplate( |
| 428 | connectorId, |
| 429 | OCPP16MeterValueMeasurand.CURRENT_IMPORT, |
| 430 | OCPP16MeterValuePhase.L1 |
| 431 | ), |
| 432 | L2: chargingStation.getSampledValueTemplate( |
| 433 | connectorId, |
| 434 | OCPP16MeterValueMeasurand.CURRENT_IMPORT, |
| 435 | OCPP16MeterValuePhase.L2 |
| 436 | ), |
| 437 | L3: chargingStation.getSampledValueTemplate( |
| 438 | connectorId, |
| 439 | OCPP16MeterValueMeasurand.CURRENT_IMPORT, |
| 440 | OCPP16MeterValuePhase.L3 |
| 441 | ), |
| 442 | }; |
| 443 | } |
| 444 | if (currentSampledValueTemplate) { |
| 445 | OCPP16ServiceUtils.checkMeasurandPowerDivider( |
| 446 | chargingStation, |
| 447 | currentSampledValueTemplate.measurand |
| 448 | ); |
| 449 | const errMsg = `${chargingStation.logPrefix()} MeterValues measurand ${ |
| 450 | currentSampledValueTemplate.measurand ?? |
| 451 | OCPP16MeterValueMeasurand.ENERGY_ACTIVE_IMPORT_REGISTER |
| 452 | }: Unknown ${chargingStation.getCurrentOutType()} currentOutType in template file ${ |
| 453 | chargingStation.stationTemplateFile |
| 454 | }, cannot calculate ${ |
| 455 | currentSampledValueTemplate.measurand ?? |
| 456 | OCPP16MeterValueMeasurand.ENERGY_ACTIVE_IMPORT_REGISTER |
| 457 | } measurand value`; |
| 458 | const currentMeasurandValues: MeasurandValues = {} as MeasurandValues; |
| 459 | let maxAmperage: number; |
| 460 | switch (chargingStation.getCurrentOutType()) { |
| 461 | case CurrentType.AC: |
| 462 | maxAmperage = ACElectricUtils.amperagePerPhaseFromPower( |
| 463 | chargingStation.getNumberOfPhases(), |
| 464 | chargingStation.stationInfo.maxPower / chargingStation.stationInfo.powerDivider, |
| 465 | chargingStation.getVoltageOut() |
| 466 | ); |
| 467 | if (chargingStation.getNumberOfPhases() === 3) { |
| 468 | const defaultFluctuatedAmperagePerPhase = |
| 469 | currentSampledValueTemplate.value && |
| 470 | Utils.getRandomFloatFluctuatedRounded( |
| 471 | parseInt(currentSampledValueTemplate.value), |
| 472 | currentSampledValueTemplate.fluctuationPercent ?? |
| 473 | Constants.DEFAULT_FLUCTUATION_PERCENT |
| 474 | ); |
| 475 | const phase1FluctuatedValue = |
| 476 | currentPerPhaseSampledValueTemplates?.L1?.value && |
| 477 | Utils.getRandomFloatFluctuatedRounded( |
| 478 | parseInt(currentPerPhaseSampledValueTemplates.L1.value), |
| 479 | currentPerPhaseSampledValueTemplates.L1.fluctuationPercent ?? |
| 480 | Constants.DEFAULT_FLUCTUATION_PERCENT |
| 481 | ); |
| 482 | const phase2FluctuatedValue = |
| 483 | currentPerPhaseSampledValueTemplates?.L2?.value && |
| 484 | Utils.getRandomFloatFluctuatedRounded( |
| 485 | parseInt(currentPerPhaseSampledValueTemplates.L2.value), |
| 486 | currentPerPhaseSampledValueTemplates.L2.fluctuationPercent ?? |
| 487 | Constants.DEFAULT_FLUCTUATION_PERCENT |
| 488 | ); |
| 489 | const phase3FluctuatedValue = |
| 490 | currentPerPhaseSampledValueTemplates?.L3?.value && |
| 491 | Utils.getRandomFloatFluctuatedRounded( |
| 492 | parseInt(currentPerPhaseSampledValueTemplates.L3.value), |
| 493 | currentPerPhaseSampledValueTemplates.L3.fluctuationPercent ?? |
| 494 | Constants.DEFAULT_FLUCTUATION_PERCENT |
| 495 | ); |
| 496 | currentMeasurandValues.L1 = |
| 497 | phase1FluctuatedValue ?? |
| 498 | defaultFluctuatedAmperagePerPhase ?? |
| 499 | Utils.getRandomFloatRounded(maxAmperage); |
| 500 | currentMeasurandValues.L2 = |
| 501 | phase2FluctuatedValue ?? |
| 502 | defaultFluctuatedAmperagePerPhase ?? |
| 503 | Utils.getRandomFloatRounded(maxAmperage); |
| 504 | currentMeasurandValues.L3 = |
| 505 | phase3FluctuatedValue ?? |
| 506 | defaultFluctuatedAmperagePerPhase ?? |
| 507 | Utils.getRandomFloatRounded(maxAmperage); |
| 508 | } else { |
| 509 | currentMeasurandValues.L1 = currentSampledValueTemplate.value |
| 510 | ? Utils.getRandomFloatFluctuatedRounded( |
| 511 | parseInt(currentSampledValueTemplate.value), |
| 512 | currentSampledValueTemplate.fluctuationPercent ?? |
| 513 | Constants.DEFAULT_FLUCTUATION_PERCENT |
| 514 | ) |
| 515 | : Utils.getRandomFloatRounded(maxAmperage); |
| 516 | currentMeasurandValues.L2 = 0; |
| 517 | currentMeasurandValues.L3 = 0; |
| 518 | } |
| 519 | currentMeasurandValues.allPhases = Utils.roundTo( |
| 520 | (currentMeasurandValues.L1 + currentMeasurandValues.L2 + currentMeasurandValues.L3) / |
| 521 | chargingStation.getNumberOfPhases(), |
| 522 | 2 |
| 523 | ); |
| 524 | break; |
| 525 | case CurrentType.DC: |
| 526 | maxAmperage = DCElectricUtils.amperage( |
| 527 | chargingStation.stationInfo.maxPower / chargingStation.stationInfo.powerDivider, |
| 528 | chargingStation.getVoltageOut() |
| 529 | ); |
| 530 | currentMeasurandValues.allPhases = currentSampledValueTemplate.value |
| 531 | ? Utils.getRandomFloatFluctuatedRounded( |
| 532 | parseInt(currentSampledValueTemplate.value), |
| 533 | currentSampledValueTemplate.fluctuationPercent ?? |
| 534 | Constants.DEFAULT_FLUCTUATION_PERCENT |
| 535 | ) |
| 536 | : Utils.getRandomFloatRounded(maxAmperage); |
| 537 | break; |
| 538 | default: |
| 539 | logger.error(errMsg); |
| 540 | throw new OCPPError(ErrorType.INTERNAL_ERROR, errMsg, OCPP16RequestCommand.METER_VALUES); |
| 541 | } |
| 542 | meterValue.sampledValue.push( |
| 543 | OCPP16ServiceUtils.buildSampledValue( |
| 544 | currentSampledValueTemplate, |
| 545 | currentMeasurandValues.allPhases |
| 546 | ) |
| 547 | ); |
| 548 | const sampledValuesIndex = meterValue.sampledValue.length - 1; |
| 549 | if ( |
| 550 | Utils.convertToFloat(meterValue.sampledValue[sampledValuesIndex].value) > maxAmperage || |
| 551 | debug |
| 552 | ) { |
| 553 | logger.error( |
| 554 | `${chargingStation.logPrefix()} MeterValues measurand ${ |
| 555 | meterValue.sampledValue[sampledValuesIndex].measurand ?? |
| 556 | OCPP16MeterValueMeasurand.ENERGY_ACTIVE_IMPORT_REGISTER |
| 557 | }: connectorId ${connectorId}, transaction ${connector.transactionId}, value: ${ |
| 558 | meterValue.sampledValue[sampledValuesIndex].value |
| 559 | }/${maxAmperage}` |
| 560 | ); |
| 561 | } |
| 562 | for ( |
| 563 | let phase = 1; |
| 564 | chargingStation.getNumberOfPhases() === 3 && phase <= chargingStation.getNumberOfPhases(); |
| 565 | phase++ |
| 566 | ) { |
| 567 | const phaseValue = `L${phase}`; |
| 568 | meterValue.sampledValue.push( |
| 569 | OCPP16ServiceUtils.buildSampledValue( |
| 570 | (currentPerPhaseSampledValueTemplates[phaseValue] as SampledValueTemplate) ?? |
| 571 | currentSampledValueTemplate, |
| 572 | currentMeasurandValues[phaseValue] as number, |
| 573 | null, |
| 574 | phaseValue as OCPP16MeterValuePhase |
| 575 | ) |
| 576 | ); |
| 577 | const sampledValuesPerPhaseIndex = meterValue.sampledValue.length - 1; |
| 578 | if ( |
| 579 | Utils.convertToFloat(meterValue.sampledValue[sampledValuesPerPhaseIndex].value) > |
| 580 | maxAmperage || |
| 581 | debug |
| 582 | ) { |
| 583 | logger.error( |
| 584 | `${chargingStation.logPrefix()} MeterValues measurand ${ |
| 585 | meterValue.sampledValue[sampledValuesPerPhaseIndex].measurand ?? |
| 586 | OCPP16MeterValueMeasurand.ENERGY_ACTIVE_IMPORT_REGISTER |
| 587 | }: phase ${ |
| 588 | meterValue.sampledValue[sampledValuesPerPhaseIndex].phase |
| 589 | }, connectorId ${connectorId}, transaction ${connector.transactionId}, value: ${ |
| 590 | meterValue.sampledValue[sampledValuesPerPhaseIndex].value |
| 591 | }/${maxAmperage}` |
| 592 | ); |
| 593 | } |
| 594 | } |
| 595 | } |
| 596 | // Energy.Active.Import.Register measurand (default) |
| 597 | const energySampledValueTemplate = chargingStation.getSampledValueTemplate(connectorId); |
| 598 | if (energySampledValueTemplate) { |
| 599 | OCPP16ServiceUtils.checkMeasurandPowerDivider( |
| 600 | chargingStation, |
| 601 | energySampledValueTemplate.measurand |
| 602 | ); |
| 603 | const unitDivider = |
| 604 | energySampledValueTemplate?.unit === MeterValueUnit.KILO_WATT_HOUR ? 1000 : 1; |
| 605 | const maxEnergyRounded = Utils.roundTo( |
| 606 | ((chargingStation.stationInfo.maxPower / chargingStation.stationInfo.powerDivider) * |
| 607 | interval) / |
| 608 | (3600 * 1000), |
| 609 | 2 |
| 610 | ); |
| 611 | const energyValueRounded = energySampledValueTemplate.value |
| 612 | ? // Cumulate the fluctuated value around the static one |
| 613 | Utils.getRandomFloatFluctuatedRounded( |
| 614 | parseInt(energySampledValueTemplate.value), |
| 615 | energySampledValueTemplate.fluctuationPercent ?? Constants.DEFAULT_FLUCTUATION_PERCENT |
| 616 | ) |
| 617 | : Utils.getRandomFloatRounded(maxEnergyRounded); |
| 618 | // Persist previous value on connector |
| 619 | if ( |
| 620 | connector && |
| 621 | !Utils.isNullOrUndefined(connector.energyActiveImportRegisterValue) && |
| 622 | connector.energyActiveImportRegisterValue >= 0 && |
| 623 | !Utils.isNullOrUndefined(connector.transactionEnergyActiveImportRegisterValue) && |
| 624 | connector.transactionEnergyActiveImportRegisterValue >= 0 |
| 625 | ) { |
| 626 | connector.energyActiveImportRegisterValue += energyValueRounded; |
| 627 | connector.transactionEnergyActiveImportRegisterValue += energyValueRounded; |
| 628 | } else { |
| 629 | connector.energyActiveImportRegisterValue = 0; |
| 630 | connector.transactionEnergyActiveImportRegisterValue = 0; |
| 631 | } |
| 632 | meterValue.sampledValue.push( |
| 633 | OCPP16ServiceUtils.buildSampledValue( |
| 634 | energySampledValueTemplate, |
| 635 | Utils.roundTo( |
| 636 | chargingStation.getEnergyActiveImportRegisterByTransactionId(transactionId) / |
| 637 | unitDivider, |
| 638 | 2 |
| 639 | ) |
| 640 | ) |
| 641 | ); |
| 642 | const sampledValuesIndex = meterValue.sampledValue.length - 1; |
| 643 | if (energyValueRounded > maxEnergyRounded || debug) { |
| 644 | logger.error( |
| 645 | `${chargingStation.logPrefix()} MeterValues measurand ${ |
| 646 | meterValue.sampledValue[sampledValuesIndex].measurand ?? |
| 647 | OCPP16MeterValueMeasurand.ENERGY_ACTIVE_IMPORT_REGISTER |
| 648 | }: connectorId ${connectorId}, transaction ${ |
| 649 | connector.transactionId |
| 650 | }, value: ${energyValueRounded}/${maxEnergyRounded}, duration: ${Utils.roundTo( |
| 651 | interval / (3600 * 1000), |
| 652 | 4 |
| 653 | )}h` |
| 654 | ); |
| 655 | } |
| 656 | } |
| 657 | return meterValue; |
| 658 | } |
| 659 | |
| 660 | public static buildTransactionBeginMeterValue( |
| 661 | chargingStation: ChargingStation, |
| 662 | connectorId: number, |
| 663 | meterStart: number |
| 664 | ): OCPP16MeterValue { |
| 665 | const meterValue: OCPP16MeterValue = { |
| 666 | timestamp: new Date().toISOString(), |
| 667 | sampledValue: [], |
| 668 | }; |
| 669 | // Energy.Active.Import.Register measurand (default) |
| 670 | const sampledValueTemplate = chargingStation.getSampledValueTemplate(connectorId); |
| 671 | const unitDivider = sampledValueTemplate?.unit === MeterValueUnit.KILO_WATT_HOUR ? 1000 : 1; |
| 672 | meterValue.sampledValue.push( |
| 673 | OCPP16ServiceUtils.buildSampledValue( |
| 674 | sampledValueTemplate, |
| 675 | Utils.roundTo(meterStart / unitDivider, 4), |
| 676 | MeterValueContext.TRANSACTION_BEGIN |
| 677 | ) |
| 678 | ); |
| 679 | return meterValue; |
| 680 | } |
| 681 | |
| 682 | public static buildTransactionEndMeterValue( |
| 683 | chargingStation: ChargingStation, |
| 684 | connectorId: number, |
| 685 | meterStop: number |
| 686 | ): OCPP16MeterValue { |
| 687 | const meterValue: OCPP16MeterValue = { |
| 688 | timestamp: new Date().toISOString(), |
| 689 | sampledValue: [], |
| 690 | }; |
| 691 | // Energy.Active.Import.Register measurand (default) |
| 692 | const sampledValueTemplate = chargingStation.getSampledValueTemplate(connectorId); |
| 693 | const unitDivider = sampledValueTemplate?.unit === MeterValueUnit.KILO_WATT_HOUR ? 1000 : 1; |
| 694 | meterValue.sampledValue.push( |
| 695 | OCPP16ServiceUtils.buildSampledValue( |
| 696 | sampledValueTemplate, |
| 697 | Utils.roundTo(meterStop / unitDivider, 4), |
| 698 | MeterValueContext.TRANSACTION_END |
| 699 | ) |
| 700 | ); |
| 701 | return meterValue; |
| 702 | } |
| 703 | |
| 704 | public static buildTransactionDataMeterValues( |
| 705 | transactionBeginMeterValue: OCPP16MeterValue, |
| 706 | transactionEndMeterValue: OCPP16MeterValue |
| 707 | ): OCPP16MeterValue[] { |
| 708 | const meterValues: OCPP16MeterValue[] = []; |
| 709 | meterValues.push(transactionBeginMeterValue); |
| 710 | meterValues.push(transactionEndMeterValue); |
| 711 | return meterValues; |
| 712 | } |
| 713 | } |