Person_iCloud/features/generic-modbus/service.js

const {
  formatExportStamp,
  isCancelError,
  loadSelectedFile,
  saveTextFileToChat
} = require('../../repositories/file.js')
const {
  getWxApi
} = require('../../utils/platform-utils.js')
const {
  bytesToWords
} = require('../../utils/binary-utils.js')
const {
  parseHexInteger
} = require('../../utils/base-utils.js')
const transport = require('../../transport/ble-core.js')
const settingsService = require('../../store/settings-store.js')
const modbusClient = require('../../protocols/modbus-rtu/client.js')
const {
  DATA_TYPE_OPTIONS,
  REGISTER_TYPE_OPTIONS,
  cloneImportedGroup,
  decodeRegisterFromByteCache,
  decodeRegisterFromWordCache,
  decodeRegisterValue,
  formatCoilDisplayValue,
  formatRegisterValue,
  getDataType,
  getGroupEncodedBytes,
  getGroupEncodedWords,
  getRegisterEncodedBytes,
  getRegisterEncodedWords,
  getRegisterBytesFromByteCache,
  getRegisterJsonValue,
  getRegisterWordsFromByteCache,
  getRegisterWordsFromWordCache,
  getRegisterWriteValueText,
  isAddressRangeOverflow,
  isBitRegisterType,
  isByteRegister,
  normalizeGroup,
  normalizeGroupConfig,
  parseCoilValue,
  registerTypeIsBit,
  splitWordSpans,
  validateRegisterValue
} = require('../../domain/generic-modbus/model.js')
const {
  parseStructCatalog,
  parseStructDefinition: parseStructDefinitionSource
} = require('../../domain/generic-modbus/struct-parser.js')
const {
  createGroupsFromCodeInfo,
  parseModbusCodeInfo
} = require('../../domain/generic-modbus/code-info-parser.js')

const STORAGE_KEY = 'generic-modbus-groups-json'
const JSON_DOCUMENT_TYPE = 'generic-modbus-rtu'
const JSON_SCHEMA_VERSION = 2
const DEBUG_MEMORY_TYPES = {
  DATA: 0x00,
  BIT: 0x00,
  IDATA: 0x01,
  XDATA: 0x02,
  CODE: 0x03
}
const GROUP_SOURCE_FIELDS = [
  'addressUnit',
  'sourceAddress',
  'sourceAddressText',
  'sourceByteLength',
  'sourceMemoryArea',
  'sourceMemoryClass',
  'sourceSegment',
  'sourceSegmentModule',
  'sourceSymbolName'
]
const REGISTER_SOURCE_FIELDS = [
  'sourceAddress',
  'sourceAddressText',
  'sourceByteLength',
  'sourceBitOffset',
  'sourceBitWidth',
  'sourceMemoryArea',
  'sourceMemoryClass',
  'sourceSymbolName',
  'sourceSymbolType'
]
const REGISTER_STRUCT_FIELDS = [
  'bitOffset',
  'bitWidth',
  'byteStart',
  'isBitField',
  'structByteLength'
]

let initialized = false
const subscribers = []
let state = {
  genericModbusDataTypeOptions: DATA_TYPE_OPTIONS,
  genericModbusGroups: [],
  genericModbusRegisterTypeOptions: REGISTER_TYPE_OPTIONS
}

function notify() {
  const nextState = getState()

  subscribers.slice().forEach((subscriber) => {
    subscriber(nextState)
  })
}

function setState(changedData, options = {}) {
  state = {
    ...state,
    ...changedData
  }

  if (options.persist !== false) persistGroups()
  notify()
}

function resolveMaxPacketLength(value) {
  const settings = settingsService.getState()
  const numberValue = Number(value === undefined ? settings.genericModbusMaxPacketLength : value)
  if (Number.isFinite(numberValue) && Math.round(numberValue) === 0) return 0
  if (Number.isFinite(numberValue) && numberValue > 0) return Math.round(numberValue)

  return 64
}

function getWriteSpanMaxQuantity(totalQuantity, maxPacketLength) {
  if (maxPacketLength === 0) return Math.max(1, totalQuantity)

  return Math.max(1, modbusClient.getMaxWriteMultipleRegisterQuantity(maxPacketLength))
}

function pickFields(source, fields) {
  return fields.reduce((result, field) => {
    if (source && source[field] !== undefined && source[field] !== null && source[field] !== '') {
      result[field] = source[field]
    }

    return result
  }, {})
}

function toPersistedGroups(groups) {
  return groups.map((group) => ({
    layout: group.layout,
    name: group.name,
    registerType: group.registerType,
    startAddress: group.startAddress,
    quantity: group.quantity,
    registers: group.registers.map((register) => ({
      dataType: register.dataType,
      defaultValue: register.defaultValue,
      isStructField: register.isStructField,
      name: register.name,
      maxValue: register.maxValue,
      minValue: register.minValue,
      textByteLength: register.textByteLength,
      remark: register.remark,
      unit: register.unit,
      value: getRegisterJsonValue(register),
      ...pickFields(register, REGISTER_STRUCT_FIELDS),
      ...pickFields(register, REGISTER_SOURCE_FIELDS)
    })),
    ...pickFields(group, GROUP_SOURCE_FIELDS)
  }))
}

function toJsonData(groups = state.genericModbusGroups, options = {}) {
  const jsonData = {
    groups: toPersistedGroups(groups),
    type: JSON_DOCUMENT_TYPE,
    version: JSON_SCHEMA_VERSION
  }

  if (options.includeExportedAt) {
    jsonData.exportedAt = new Date().toISOString()
  }

  return jsonData
}

function toJsonText(groups = state.genericModbusGroups, options = {}) {
  return JSON.stringify(toJsonData(groups, options), null, 2)
}

function parseJsonGroups(jsonText) {
  const parsed = typeof jsonText === 'string' ? JSON.parse(jsonText) : jsonText
  const groups = Array.isArray(parsed)
    ? parsed
    : (Array.isArray(parsed && parsed.groups) ? parsed.groups : parsed && parsed.genericModbusGroups)

  if (parsed && parsed.type && parsed.type !== JSON_DOCUMENT_TYPE) {
    throw new Error('JSON 文件不是通用Modbus配置')
  }

  if (parsed && parsed.version && parsed.version !== JSON_SCHEMA_VERSION) {
    throw new Error('JSON 版本不兼容')
  }

  if (!Array.isArray(groups)) {
    throw new Error('JSON 中没有找到寄存器组数组')
  }

  return groups
}

function normalizeDuplicateText(value) {
  return String(value === undefined || value === null ? '' : value)
    .trim()
    .toLowerCase()
}

function normalizeAddressKey(value, textValue) {
  const numberValue = Number(value)
  if (Number.isFinite(numberValue)) return String(Math.floor(numberValue))

  return String(textValue === undefined || textValue === null ? '' : textValue)
    .trim()
    .toUpperCase()
}

function normalizeBitKey(source = {}) {
  const value = source.sourceBitOffset !== undefined && source.sourceBitOffset !== null && source.sourceBitOffset !== ''
    ? source.sourceBitOffset
    : source.bitOffset
  const numberValue = Number(value)

  return Number.isFinite(numberValue) ? String(Math.floor(numberValue)) : ''
}

function getRegisterDuplicateKey(register = {}, group = {}) {
  const area = normalizeDuplicateText(register.sourceMemoryArea || group.sourceMemoryArea || register.memoryArea || '')
  const symbolName = normalizeDuplicateText(register.sourceSymbolName || register.name || '')
  if (area && symbolName) return ['register', area, symbolName].join('|')

  const addressKey = normalizeAddressKey(
    register.sourceAddress !== undefined ? register.sourceAddress : register.address,
    register.sourceAddressText || register.addressText
  )
  const bitKey = normalizeBitKey(register)

  if (!area && !symbolName && !addressKey) return ''

  return ['register', area, symbolName, addressKey, bitKey].join('|')
}

function isSingleRegisterAggregateGroup(group = {}) {
  const groupSymbolName = normalizeDuplicateText(group.sourceSymbolName || group.name || '')
  const registers = Array.isArray(group.registers) ? group.registers : []

  return registers.some((register) => {
    const registerSymbolName = normalizeDuplicateText(register.sourceSymbolName || register.name || '')

    return registerSymbolName && groupSymbolName && registerSymbolName !== groupSymbolName
  })
}

function getGroupDuplicateKey(group = {}) {
  const area = normalizeDuplicateText(group.sourceMemoryArea || '')
  const symbolName = normalizeDuplicateText(group.sourceSymbolName || group.name || '')
  if (area && symbolName) return ['group', area, symbolName].join('|')

  const addressKey = normalizeAddressKey(
    group.sourceAddress !== undefined ? group.sourceAddress : group.startAddress,
    group.sourceAddressText || group.startAddressText
  )

  if (!area && !symbolName && !addressKey) return ''

  return ['group', area, symbolName, addressKey].join('|')
}

function getAggregateGroupDuplicateKey(source = {}) {
  const area = normalizeDuplicateText(source.sourceMemoryArea || source.memoryArea || '')
  const registerType = normalizeDuplicateText(source.registerType || '')
  const segment = normalizeDuplicateText(source.sourceSegment || '')

  return ['aggregate', area, registerType, segment].join('|')
}

function collectImportedVariableIndexes(groups = []) {
  return groups.reduce((indexes, group, groupIndex) => {
    if (!isSingleRegisterAggregateGroup(group)) {
      const groupKey = getGroupDuplicateKey(group)
      if (groupKey) indexes.groupIndexes[groupKey] = groupIndex
    } else {
      const aggregateKey = getAggregateGroupDuplicateKey(group)
      if (aggregateKey) indexes.aggregateGroupIndexes[aggregateKey] = groupIndex
    }

    ;(Array.isArray(group.registers) ? group.registers : []).forEach((register) => {
      const registerKey = getRegisterDuplicateKey(register, group)
      if (registerKey) {
        indexes.registerIndexes[registerKey] = {
          groupIndex,
          registerIndex: group.registers.indexOf(register)
        }
      }
    })

    return indexes
  }, {
    aggregateGroupIndexes: {},
    groupIndexes: {},
    registerIndexes: {}
  })
}

function mergeImportedGroupState(existingGroup, incomingGroup) {
  if (!existingGroup) return incomingGroup

  return {
    ...incomingGroup,
    deleteVisible: false,
    expanded: existingGroup.expanded === true,
    id: existingGroup.id
  }
}

function mergeImportedRegisterState(existingRegister, incomingRegister) {
  if (!existingRegister) return incomingRegister

  return {
    ...incomingRegister,
    id: existingRegister.id,
    inputValue: incomingRegister.inputValue !== undefined && incomingRegister.inputValue !== null
      ? incomingRegister.inputValue
      : existingRegister.inputValue,
    rawBytes: [],
    rawValue: null,
    rawWords: []
  }
}

function mergeAggregateImportedGroup(nextGroups, incomingGroup, indexes) {
  const aggregateKey = getAggregateGroupDuplicateKey(incomingGroup)
  const aggregateGroupIndex = indexes.aggregateGroupIndexes[aggregateKey]
  let targetGroup = aggregateGroupIndex === undefined ? null : nextGroups[aggregateGroupIndex]
  let targetGroupIndex = aggregateGroupIndex
  let targetRegisters = targetGroup && Array.isArray(targetGroup.registers)
    ? targetGroup.registers.slice()
    : []
  let addedRegisterCount = 0
  let updatedRegisterCount = 0

  ;(Array.isArray(incomingGroup.registers) ? incomingGroup.registers : []).forEach((incomingRegister) => {
    const registerKey = getRegisterDuplicateKey(incomingRegister, incomingGroup)
    const existingRef = registerKey ? indexes.registerIndexes[registerKey] : null

    if (existingRef) {
      const existingGroup = nextGroups[existingRef.groupIndex]
      const existingRegister = existingGroup && existingGroup.registers
        ? existingGroup.registers[existingRef.registerIndex]
        : null
      const mergedRegister = mergeImportedRegisterState(existingRegister, incomingRegister)

      if (targetGroupIndex !== undefined && existingRef.groupIndex === targetGroupIndex) {
        targetRegisters[existingRef.registerIndex] = mergedRegister
      } else if (existingGroup) {
        const registers = existingGroup.registers.slice()
        registers[existingRef.registerIndex] = mergedRegister
        nextGroups[existingRef.groupIndex] = normalizeGroup({
          ...existingGroup,
          registers
        })
      }

      updatedRegisterCount += 1
      return
    }

    targetRegisters.push(incomingRegister)
    addedRegisterCount += 1
  })

  if (targetGroupIndex !== undefined && targetGroup) {
    nextGroups[targetGroupIndex] = normalizeGroup(mergeImportedGroupState(targetGroup, {
      ...incomingGroup,
      quantity: targetRegisters.length,
      registers: targetRegisters
    }))
  } else if (targetRegisters.length) {
    targetGroup = normalizeGroup({
      ...incomingGroup,
      quantity: targetRegisters.length,
      registers: targetRegisters
    })
    nextGroups.push(targetGroup)
    targetGroupIndex = nextGroups.length - 1
  }

  return {
    addedGroupCount: targetGroupIndex === aggregateGroupIndex ? 0 : (targetRegisters.length ? 1 : 0),
    addedRegisterCount,
    updatedGroupCount: targetGroupIndex === aggregateGroupIndex && (addedRegisterCount || updatedRegisterCount) ? 1 : 0,
    updatedRegisterCount
  }
}

function mergeImportedGroups(existingGroups = [], incomingGroups = []) {
  const nextGroups = existingGroups.slice()
  let indexes = collectImportedVariableIndexes(nextGroups)
  const result = {
    addedGroupCount: 0,
    addedRegisterCount: 0,
    groups: nextGroups,
    updatedGroupCount: 0,
    updatedRegisterCount: 0
  }

  incomingGroups.forEach((incomingGroup) => {
    if (isSingleRegisterAggregateGroup(incomingGroup)) {
      const aggregateResult = mergeAggregateImportedGroup(nextGroups, incomingGroup, indexes)
      result.addedGroupCount += aggregateResult.addedGroupCount
      result.addedRegisterCount += aggregateResult.addedRegisterCount
      result.updatedGroupCount += aggregateResult.updatedGroupCount
      result.updatedRegisterCount += aggregateResult.updatedRegisterCount
      indexes = collectImportedVariableIndexes(nextGroups)
      return
    }

    const groupKey = getGroupDuplicateKey(incomingGroup)
    const existingGroupIndex = groupKey ? indexes.groupIndexes[groupKey] : undefined

    if (existingGroupIndex !== undefined) {
      const existingGroup = nextGroups[existingGroupIndex]
      nextGroups[existingGroupIndex] = normalizeGroup(mergeImportedGroupState(existingGroup, incomingGroup))
      result.updatedGroupCount += 1
    } else {
      nextGroups.push(incomingGroup)
      result.addedGroupCount += 1
    }

    indexes = collectImportedVariableIndexes(nextGroups)
  })

  result.changedCount = result.addedGroupCount
    + result.updatedGroupCount
    + result.addedRegisterCount
    + result.updatedRegisterCount

  return result
}

function readStoredGroups() {
  const wxApi = getWxApi()
  if (typeof wxApi.getStorageSync !== 'function') return []

  try {
    const jsonText = wxApi.getStorageSync(STORAGE_KEY)
    if (jsonText) return parseJsonGroups(jsonText).map(cloneImportedGroup)
  } catch (error) {
    return []
  }

  return []
}

function persistGroups() {
  const wxApi = getWxApi()
  if (typeof wxApi.setStorageSync !== 'function') return

  try {
    wxApi.setStorageSync(STORAGE_KEY, toJsonText())
  } catch (error) {}
}

function init() {
  if (initialized) return

  state = {
    ...state,
    genericModbusGroups: readStoredGroups().map(normalizeGroup)
  }
  initialized = true
}

function getState() {
  return {
    ...state,
    genericModbusDataTypeOptions: DATA_TYPE_OPTIONS,
    genericModbusRegisterTypeOptions: REGISTER_TYPE_OPTIONS
  }
}

function subscribe(subscriber) {
  if (typeof subscriber !== 'function') return () => {}

  init()
  subscribers.push(subscriber)
  subscriber(getState())

  return () => {
    const index = subscribers.indexOf(subscriber)
    if (index >= 0) subscribers.splice(index, 1)
  }
}

function getShareFileName() {
  return `generic-modbus-rtu-${formatExportStamp()}.json`
}

async function importJsonFromMessageFile() {
  try {
    const file = await loadSelectedFile('message', {
      encoding: 'utf8',
      extensionMessage: '请选择 .json 寄存器配置文件',
      extensions: ['json'],
      fallbackName: 'generic-modbus.json'
    })
    const jsonText = file.text
    const importedGroups = parseJsonGroups(jsonText).map(cloneImportedGroup).map(normalizeGroup)
    if (!importedGroups.length) throw new Error('JSON 中没有可导入的寄存器组')
    const merged = mergeImportedGroups(state.genericModbusGroups, importedGroups)

    setState({
      genericModbusGroups: merged.groups
    })

    return merged.changedCount || 0
  } catch (error) {
    const message = error && error.message ? error.message : '导入通用Modbus配置失败'
    transport.showCommandAlert('通用Modbus导入', message)
    return 0
  }
}

function getRegisterByteLengthFromConfig(register) {
  const dataType = getDataType(register.dataType).key
  if (dataType === 'ascii' || dataType === 'utf8') return Math.max(1, Number(register.textByteLength) || 1)
  if (dataType === 'float' || dataType === 'int32_t' || dataType === 'uint32_t') return 4
  if (dataType === 'int8_t' || dataType === 'uint8_t') return 1

  return 2
}

function getRegistersByteLength(registers = []) {
  const explicitByteEnds = registers.map((register) => {
    const byteStart = Number(register && register.byteStart)
    if (!Number.isFinite(byteStart)) return null

    if (register.isBitField) {
      const bitOffset = Math.min(Math.max(Math.floor(Number(register.bitOffset) || 0), 0), 7)
      const bitWidth = Math.max(1, Math.round(Number(register.bitWidth) || 1))

      return Math.max(0, Math.floor(byteStart)) + Math.max(1, Math.ceil((bitOffset + bitWidth) / 8))
    }

    return Math.max(0, Math.floor(byteStart)) + getRegisterByteLengthFromConfig(register)
  }).filter((value) => Number.isFinite(value))

  if (explicitByteEnds.length) return Math.max.apply(null, explicitByteEnds)

  return registers.reduce((total, register) => total + getRegisterByteLengthFromConfig(register), 0)
}

function normalizeSymbolText(value) {
  return String(value || '')
    .replace(/^_+/, '')
    .replace(/[^A-Za-z0-9]/g, '')
    .toLowerCase()
}

function findStructCompletion(group, catalog) {
  const symbolName = group.sourceSymbolName || group.name
  const direct = catalog.variablesByName[normalizeSymbolText(symbolName)]
    || catalog.variablesByName[symbolName]

  if (direct) return direct

  const normalizedSymbol = normalizeSymbolText(symbolName)
  const normalizedType = normalizeSymbolText(group.sourceSymbolType)
  const expectedBytes = Number(group.sourceByteLength || group.byteLength || 0)

  const matchedStruct = catalog.structs.find((structInfo) => {
    const normalizedStructName = normalizeSymbolText(structInfo.name)
    if (normalizedType && normalizedType === normalizedStructName) {
      return true
    }
    if (normalizedSymbol && (
      normalizedSymbol === normalizedStructName
      || normalizedSymbol.indexOf(normalizedStructName) >= 0
      || normalizedStructName.indexOf(normalizedSymbol) >= 0
    )) {
      return true
    }

    return expectedBytes > 0 && getRegistersByteLength(structInfo.registers) === expectedBytes
  })

  return matchedStruct
    ? {
      name: symbolName,
      registers: matchedStruct.registers,
      structName: matchedStruct.name
    }
    : null
}

function createCompletedRegisters(group, completion) {
  return completion.registers.map((register) => ({
    ...register,
    isStructField: true,
    remark: [
      register.remark,
      `${group.sourceMemoryArea || ''} ${group.sourceAddressText || group.startAddressText || ''}`.trim(),
      completion.structName ? `struct ${completion.structName}` : '',
      register.isBitField ? `bit${register.bitOffset}:${register.bitWidth}` : ''
    ].filter(Boolean).join(' · '),
    sourceMemoryArea: group.sourceMemoryArea,
    sourceMemoryClass: group.sourceMemoryClass,
    sourceSymbolName: group.sourceSymbolName,
    sourceSymbolType: completion.structName || register.sourceSymbolType
  }))
}

function completeStructInstanceGroups(groups, sourceText, options = {}) {
  const catalog = parseStructCatalog(sourceText)
  let completedCount = 0
  let skippedCount = 0

  const nextGroups = groups.map((group) => {
    if (!group.sourceSymbolName || !group.sourceMemoryArea) return group

    const completion = findStructCompletion(group, catalog)
    if (!completion || !completion.registers || !completion.registers.length) {
      skippedCount += 1
      return group
    }

    const expectedBytes = Number(group.sourceByteLength || group.byteLength || 0)
    const actualBytes = getRegistersByteLength(completion.registers)
    if (expectedBytes > 0 && actualBytes !== expectedBytes && options.strictLength !== false) {
      skippedCount += 1
      return group
    }

    completedCount += 1

    return normalizeGroup({
      ...group,
      layout: 'struct',
      quantity: completion.registers.length,
      registers: createCompletedRegisters(group, completion)
    })
  })

  return {
    completedCount,
    groups: nextGroups,
    skippedCount,
    structCount: catalog.structs.length,
    variableCount: Object.keys(catalog.variablesByName).length
  }
}

function completeStructInstanceGroupsWithStructSource(sourceText, options = {}) {
  const completed = completeStructInstanceGroups(state.genericModbusGroups, sourceText, options)

  if (!completed.completedCount) {
    throw new Error('没有找到可匹配的结构体实例')
  }

  setState({
    genericModbusGroups: completed.groups
  })

  return completed
}

async function completeStructInstanceGroupsWithStructFile(options = {}) {
  try {
    const file = await loadSelectedFile('message', {
      encoding: 'utf8',
      extensionMessage: '请选择 .h 或 .c 结构体定义文件',
      extensions: ['h', 'c', 'txt'],
      fallbackName: 'structs.h'
    })

    return completeStructInstanceGroupsWithStructSource(file.text, options)
  } catch (error) {
    const message = error && error.message ? error.message : '结构体补全失败'
    transport.showCommandAlert('结构体补全', message)

    return {
      completedCount: 0,
      skippedCount: 0,
      structCount: 0,
      variableCount: 0
    }
  }
}

async function queryCodeInfoBlock(options = {}) {
  const slaveAddress = modbusClient.getSharedSlaveAddress()
  if (slaveAddress === null) {
    return {
      ok: false
    }
  }

  const maxPacketLength = resolveMaxPacketLength(options.maxPacketLength)
  const result = await modbusClient.readCodeInfoBlock(
    slaveAddress,
    '查询Code信息块',
    'generic-modbus-code-info-read',
    {
      maxFrameBytes: maxPacketLength,
      showModal: options.showModal !== false
    }
  )
  if (!result) {
    return {
      ok: false
    }
  }

  const codeInfo = parseModbusCodeInfo(result.bytes)
  const importedGroups = createGroupsFromCodeInfo(codeInfo, options).map(cloneImportedGroup).map(normalizeGroup)
  const merged = mergeImportedGroups(state.genericModbusGroups, importedGroups)

  if (importedGroups.length) {
    setState({
      genericModbusGroups: merged.groups
    })
  }

  return {
    address: result.address,
    addedGroups: merged.addedGroupCount,
    addedRegisters: merged.addedRegisterCount,
    byteLength: result.byteLength,
    bytes: result.bytes,
    codeInfo,
    groupCount: importedGroups.length,
    memoryType: result.memoryType,
    ok: true,
    structCount: codeInfo.structCount,
    updatedGroups: merged.updatedGroupCount,
    updatedRegisters: merged.updatedRegisterCount
  }
}

async function saveJsonToChat() {
  try {
    if (!state.genericModbusGroups.length) {
      throw new Error('没有可保存的寄存器组')
    }

    const jsonText = toJsonText(state.genericModbusGroups, {
      includeExportedAt: true
    })

    await saveTextFileToChat(getShareFileName(), jsonText)

    return state.genericModbusGroups.length
  } catch (error) {
    const message = error && error.message ? error.message : '保存通用Modbus配置失败'

    if (!isCancelError(error)) {
      transport.showCommandAlert('通用Modbus保存', message)
    }

    return 0
  }
}

function addGroupFromConfig(config = {}) {
  let groupConfig

  try {
    groupConfig = normalizeGroupConfig(config)
  } catch (error) {
    transport.showCommandAlert('通用Modbus添加', error.message || '寄存器组配置无效')
    return null
  }

  if (isAddressRangeOverflow(groupConfig.startAddress, groupConfig.quantity)) {
    transport.showCommandAlert('通用Modbus添加', '地址范围超出 0xFFFF')
    return null
  }

  const registers = Array.isArray(config.registers) ? config.registers : []
  const group = normalizeGroup({
    ...groupConfig,
    layout: config.layout,
    ...(registers.length ? { registers } : {}),
    expanded: false
  })

  if (group.addressOverflow) {
    transport.showCommandAlert('通用Modbus添加', '地址范围超出 0xFFFF')
    return null
  }

  setState({
    genericModbusGroups: state.genericModbusGroups.concat(group)
  })

  return group
}

function updateGroupConfig(groupId, config = {}) {
  const group = findGroup(groupId)
  if (!group) return null

  let nextConfig
  try {
    nextConfig = normalizeGroupConfig({
      ...group,
      ...config
    })
  } catch (error) {
    transport.showCommandAlert('通用Modbus更新', error.message || '寄存器组配置无效')
    return null
  }

  if (isAddressRangeOverflow(nextConfig.startAddress, nextConfig.quantity)) {
    transport.showCommandAlert('通用Modbus更新', '地址范围超出 0xFFFF')
    return null
  }

  const registers = Array.isArray(config.registers) ? config.registers : group.registers
  const updatedGroup = normalizeGroup({
    ...group,
    ...nextConfig,
    registers
  })

  if (updatedGroup.addressOverflow) {
    transport.showCommandAlert('通用Modbus更新', '地址范围超出 0xFFFF')
    return null
  }

  setState({
    genericModbusGroups: state.genericModbusGroups.map((item) => (
      item.id === groupId ? updatedGroup : item
    ))
  })

  return updatedGroup
}

function updateGroups(mapper) {
  setState({
    genericModbusGroups: state.genericModbusGroups.map((group, index) => normalizeGroup(mapper(group, index)))
  })
}

function findGroup(groupId) {
  return state.genericModbusGroups.find((group) => group.id === groupId)
}

function setGroupExpanded(groupId, expanded) {
  updateGroups((group) => group.id === groupId
    ? {
      ...group,
      deleteVisible: false,
      expanded
    }
    : group)
}

function setGroupDeleteVisible(groupId, deleteVisible) {
  updateGroups((group) => group.id === groupId
    ? {
      ...group,
      deleteVisible
    }
    : group)
}

function removeGroup(groupId) {
  setState({
    genericModbusGroups: state.genericModbusGroups.filter((group) => group.id !== groupId)
  })
}

function reorderRegister(groupId, fromIndex, toIndex) {
  const group = findGroup(groupId)
  if (!group) return null
  if (group.isStructLayout) return group

  const registers = group.registers.slice()
  const sourceIndex = Number(fromIndex)
  const targetIndex = Number(toIndex)
  if (!Number.isInteger(sourceIndex) || !Number.isInteger(targetIndex)) return null
  if (sourceIndex < 0 || sourceIndex >= registers.length) return null

  const safeTargetIndex = Math.min(Math.max(targetIndex, 0), registers.length - 1)
  if (safeTargetIndex === sourceIndex) return group

  const moved = registers.splice(sourceIndex, 1)[0]
  registers.splice(safeTargetIndex, 0, moved)

  const updatedGroup = normalizeGroup({
    ...group,
    quantity: registers.length,
    registers
  })

  setState({
    genericModbusGroups: state.genericModbusGroups.map((item) => (
      item.id === groupId ? updatedGroup : item
    ))
  })

  return updatedGroup
}

function updateRegister(groupId, registerIndex, changedData) {
  updateGroups((group) => {
    if (group.id !== groupId) return group
    const shouldResetReadState = Object.prototype.hasOwnProperty.call(changedData, 'dataType')
      || Object.prototype.hasOwnProperty.call(changedData, 'textByteLength')

    return {
      ...group,
      registers: group.registers.map((register, currentIndex) => (
        currentIndex === registerIndex
          ? {
            ...register,
            ...(shouldResetReadState ? { rawValue: null, rawWords: [] } : {}),
            ...changedData
          }
          : register
      ))
    }
  })
}

function updateRegisterValue(groupId, registerIndex, value) {
  updateRegister(groupId, registerIndex, {
    inputValue: value,
    isDirty: true
  })
}

function validateRegisterInputValue(groupId, registerIndex, value) {
  const group = findGroup(groupId)
  if (!group) return false

  const register = group.registers[registerIndex]
  if (!register) return false

  return validateRegisterValue(register, value)
}

function parseStructDefinition(sourceText) {
  return parseStructDefinitionSource(sourceText)
}

function getDebugMemoryType(group = {}) {
  const memoryArea = String(group.sourceMemoryArea || '').trim().toUpperCase()

  return Object.prototype.hasOwnProperty.call(DEBUG_MEMORY_TYPES, memoryArea)
    ? DEBUG_MEMORY_TYPES[memoryArea]
    : null
}

function isDebugMemoryGroup(group = {}) {
  return getDebugMemoryType(group) !== null
}

function isByteAddressedGroup(group = {}) {
  return group.addressUnit === 'byte' || group.addressUnit === 'bytes' || isDebugMemoryGroup(group)
}

function getDebugMemoryAddress(group = {}) {
  const sourceAddress = Number(group.sourceAddress)
  if (Number.isFinite(sourceAddress)) return Math.max(0, Math.floor(sourceAddress)) & 0xFFFF

  return Math.max(0, Number(group.startAddress) || 0) & 0xFFFF
}

function getDebugMemoryByteLength(group = {}) {
  const sourceByteLength = Number(group.sourceByteLength)
  if (Number.isFinite(sourceByteLength) && sourceByteLength > 0) return Math.min(0xFFFF, Math.ceil(sourceByteLength))

  const byteLength = Number(group.byteLength)
  if (Number.isFinite(byteLength) && byteLength > 0) return Math.min(0xFFFF, Math.ceil(byteLength))

  return Math.max(1, Math.ceil((Number(group.wordQuantity) || 1) * 2))
}

function bytesToPaddedWords(bytes = []) {
  return bytesToWords(bytes.length % 2 === 0 ? bytes : bytes.concat(0))
}

function fillByteCacheFromBytes(byteCache, startAddress, bytes = []) {
  bytes.forEach((byte, offset) => {
    byteCache[startAddress + offset] = Number(byte) & 0xFF
  })
}

function fillWordCacheFromBytes(wordCache, startAddress, bytes = []) {
  const words = bytesToPaddedWords(bytes)

  words.forEach((word, offset) => {
    wordCache[startAddress + offset] = Number(word) & 0xFFFF
  })
}

function createWrittenRegisterSnapshots(group, wordCache) {
  return group.registers.map((register) => {
    const rawBytes = isByteAddressedGroup(group)
      ? (getRegisterBytesFromByteCache(register, wordCache) || [])
      : []
    const rawWords = isByteAddressedGroup(group)
      ? (getRegisterWordsFromByteCache(register, wordCache) || [])
      : (getRegisterWordsFromWordCache(register, wordCache) || [])
    const rawValue = isByteAddressedGroup(group)
      ? decodeRegisterFromByteCache(register, wordCache)
      : decodeRegisterValue(register, rawWords)

    return {
      rawBytes,
      rawWords,
      rawValue,
      displayValue: formatRegisterValue(register, rawValue)
    }
  })
}

function createWrittenRegisterSnapshot(group, register, byteCache) {
  const snapshots = createWrittenRegisterSnapshots({
    ...group,
    registers: [register]
  }, byteCache)

  return snapshots[0] || null
}

function groupHasBitFields(group = {}) {
  return (Array.isArray(group.registers) ? group.registers : []).some((register) => !!register.isBitField)
}

async function writeDebugMemoryRegister(group, register, slaveAddress) {
  const memoryType = getDebugMemoryType(group)
  const maxPacketLength = resolveMaxPacketLength()
  const byteLength = Math.max(1, Number(register.byteLength) || 1)
  const address = Math.max(0, Math.floor(Number(register.address) || getDebugMemoryAddress(group))) & 0xFFFF
  let bytes

  if (memoryType === null) {
    transport.showCommandAlert('内存写入', `暂不支持 ${group.sourceMemoryArea || '未知'} 内存区域`)
    return null
  }
  if (memoryType === 0x03) {
    transport.showCommandAlert('内存写入', 'code 区暂不支持写入')
    return null
  }
  if (slaveAddress === 0x00 && register.isBitField) {
    transport.showCommandAlert('内存写入', '位域变量需要先读后写，不能使用广播地址')
    return null
  }

  try {
    if (register.isBitField) {
      const baseBytes = await modbusClient.readDebugMemory(
        slaveAddress,
        memoryType,
        address,
        byteLength,
        register.name ? `${register.name} 读改写` : '变量读改写',
        'generic-modbus-debug-register-rmw-read',
        {
          maxFrameBytes: maxPacketLength
        }
      )
      if (!baseBytes) return null

      bytes = getGroupEncodedBytes({
        ...group,
        paddedByteLength: byteLength,
        registers: [{
          ...register,
          address,
          byteStart: 0
        }]
      }, baseBytes).slice(0, byteLength)
    } else {
      bytes = getRegisterEncodedBytes(register)
    }
  } catch (error) {
    transport.showCommandAlert('内存写入', error.message || '变量没有有效写入值')
    return null
  }

  if (!Array.isArray(bytes) || !bytes.length) {
    transport.showCommandAlert('内存写入', `${register.name || '变量'} 没有有效写入值`)
    return null
  }

  bytes = bytes.slice(0, byteLength)
  while (bytes.length < byteLength) bytes.push(0)

  const ok = await modbusClient.writeDebugMemory(
    slaveAddress,
    memoryType,
    address,
    bytes,
    register.name || group.name || '变量写入',
    'generic-modbus-debug-register-write',
    {
      maxFrameBytes: maxPacketLength
    }
  )
  if (!ok) return null

  const byteCache = {}
  fillByteCacheFromBytes(byteCache, address, bytes)

  return createWrittenRegisterSnapshot(group, register, byteCache)
}

async function readDebugMemoryGroup(group, slaveAddress, options = {}) {
  const memoryType = getDebugMemoryType(group)
  const address = getDebugMemoryAddress(group)
  const byteLength = getDebugMemoryByteLength(group)
  const maxPacketLength = resolveMaxPacketLength(options.maxPacketLength)

  if (memoryType === null) {
    transport.showCommandAlert('内存读取', `暂不支持 ${group.sourceMemoryArea || '未知'} 内存区域`)
    return null
  }

  const bytes = await modbusClient.readDebugMemory(
    slaveAddress,
    memoryType,
    address,
    byteLength,
    group.name || '内存读取',
    'generic-modbus-debug-read',
    {
      maxFrameBytes: maxPacketLength,
      showModal: options.showModal !== false
    }
  )
  if (!bytes) return null

  const wordCache = {}
  if (isByteAddressedGroup(group)) {
    fillByteCacheFromBytes(wordCache, group.startAddress, bytes)
  } else {
    fillWordCacheFromBytes(wordCache, group.startAddress, bytes)
  }

  return wordCache
}

async function writeDebugMemoryGroup(group, slaveAddress) {
  const memoryType = getDebugMemoryType(group)
  const address = getDebugMemoryAddress(group)
  const byteLength = getDebugMemoryByteLength(group)
  const maxPacketLength = resolveMaxPacketLength()
  let bytes

  if (memoryType === null) {
    transport.showCommandAlert('内存写入', `暂不支持 ${group.sourceMemoryArea || '未知'} 内存区域`)
    return null
  }
  if (memoryType === 0x03) {
    transport.showCommandAlert('内存写入', 'code 区暂不支持写入')
    return null
  }
  if (slaveAddress === 0x00 && groupHasBitFields(group)) {
    transport.showCommandAlert('内存写入', '位域变量需要先读后写，不能使用广播地址')
    return null
  }

  try {
    let baseBytes = null
    if (groupHasBitFields(group)) {
      baseBytes = await modbusClient.readDebugMemory(
        slaveAddress,
        memoryType,
        address,
        byteLength,
        group.name ? `${group.name} 读改写` : '内存读改写',
        'generic-modbus-debug-rmw-read',
        {
          maxFrameBytes: maxPacketLength
        }
      )
      if (!baseBytes) return null
    }

    bytes = getGroupEncodedBytes(group, baseBytes)
  } catch (error) {
    transport.showCommandAlert('内存写入', error.message || '寄存器组没有有效写入值')
    return null
  }

  bytes = bytes.slice(0, byteLength)
  const ok = await modbusClient.writeDebugMemory(
    slaveAddress,
    memoryType,
    address,
    bytes,
    group.name || '内存写入',
    'generic-modbus-debug-write',
    {
      maxFrameBytes: maxPacketLength
    }
  )
  if (!ok) return null

  const wordCache = {}
  if (isByteAddressedGroup(group)) {
    fillByteCacheFromBytes(wordCache, group.startAddress, bytes)
  } else {
    fillWordCacheFromBytes(wordCache, group.startAddress, bytes)
  }

  return createWrittenRegisterSnapshots(group, wordCache)
}

async function readGroup(groupId, options = {}) {
  const group = findGroup(groupId)
  const slaveAddress = modbusClient.getSharedSlaveAddress()
  if (!group || slaveAddress === null) return false
  if (group.addressOverflow) {
    transport.showCommandAlert('通用Modbus读取', '寄存器地址范围超出 0xFFFF')
    return false
  }

  const totalQuantity = Math.max(1, group.wordQuantity || group.quantity || 0)
  const maxPacketLength = resolveMaxPacketLength(options.maxPacketLength)
  const wordCache = {}

  if (isDebugMemoryGroup(group)) {
    const debugWordCache = await readDebugMemoryGroup(group, slaveAddress, options)
    if (!debugWordCache) return false

    Object.keys(debugWordCache).forEach((addressText) => {
      const numericAddress = Number(addressText)
      if (Number.isFinite(numericAddress)) {
        wordCache[numericAddress] = Number(debugWordCache[addressText]) & 0xFFFF
      }
    })
  } else {
    const values = await modbusClient.readSpans(
      slaveAddress,
      group.functionCode,
      [{
        address: group.startAddress,
        quantity: totalQuantity
      }],
      group.name || '通用Modbus读取',
      'generic-modbus-read',
      {
        maxFrameBytes: maxPacketLength,
        showModal: options.showModal !== false
      }
    )
    if (!values) return false

    if (isBitRegisterType(group.registerType)) {
      Object.keys(values.coils || {}).forEach((addressText) => {
        wordCache[parseHexInteger(addressText)] = Number(values.coils[addressText]) ? 1 : 0
      })
    } else {
      Object.keys(values.words || {}).forEach((addressText) => {
        wordCache[parseHexInteger(addressText)] = Number(values.words[addressText]) & 0xFFFF
      })
    }
  }

  updateGroups((item) => {
    if (item.id !== groupId) return item

    const nextRegisters = item.registers.map((register) => {
      const rawBytes = registerTypeIsBit(register)
        ? []
        : (isByteAddressedGroup(item) ? getRegisterBytesFromByteCache(register, wordCache) : [])
      const rawWords = registerTypeIsBit(register)
        ? []
        : (isByteAddressedGroup(item)
          ? getRegisterWordsFromByteCache(register, wordCache)
          : getRegisterWordsFromWordCache(register, wordCache))
      const rawValue = registerTypeIsBit(register)
        ? decodeRegisterFromWordCache(register, wordCache)
        : (isByteAddressedGroup(item)
          ? decodeRegisterFromByteCache(register, wordCache)
          : (rawWords ? decodeRegisterValue(register, rawWords) : null))
      const displayValue = rawValue === null || rawValue === undefined
        ? '--'
        : (registerTypeIsBit(register)
          ? formatCoilDisplayValue(rawValue)
          : formatRegisterValue(register, rawValue))

      return {
        ...register,
        displayValue,
        inputValue: item.writable ? displayValue : register.inputValue,
        isDirty: false,
        rawBytes: rawBytes || [],
        rawValue,
        rawWords: rawWords || []
      }
    })

    return {
      ...item,
      registers: nextRegisters
    }
  })

  return true
}

async function writeRegister(groupId, registerIndex) {
  const group = findGroup(groupId)
  const register = group && group.registers ? group.registers[registerIndex] : null
  const slaveAddress = modbusClient.getSharedSlaveAddress()
  if (!group || !register || slaveAddress === null) return false
  if (!group.writable) {
    transport.showCommandAlert('通用Modbus写入', '当前变量为只读')
    return false
  }
  if (group.addressOverflow) {
    transport.showCommandAlert('通用Modbus写入', '地址范围超出 0xFFFF')
    return false
  }

  const written = isDebugMemoryGroup(group)
    ? await writeDebugMemoryRegister(group, register, slaveAddress)
    : null
  if (!written) {
    if (!isDebugMemoryGroup(group)) return writeGroup(groupId)
    return false
  }

  updateGroups((item) => {
    if (item.id !== groupId) return item

    return {
      ...item,
      registers: item.registers.map((currentRegister, currentIndex) => (
        currentIndex === registerIndex
          ? {
            ...currentRegister,
            displayValue: written.displayValue,
            inputValue: written.displayValue,
            isDirty: false,
            rawBytes: written.rawBytes,
            rawValue: written.rawValue,
            rawWords: written.rawWords
          }
          : currentRegister
      ))
    }
  })

  return true
}

async function writeGroup(groupId) {
  const group = findGroup(groupId)
  const slaveAddress = modbusClient.getSharedSlaveAddress()
  const maxPacketLength = resolveMaxPacketLength()
  if (!group || slaveAddress === null) return false
  if (!group.writable) {
    transport.showCommandAlert('通用Modbus写入', '当前寄存器组为只读')
    return false
  }
  if (group.addressOverflow) {
    transport.showCommandAlert('通用Modbus写入', '寄存器地址范围超出 0xFFFF')
    return false
  }

  const writtenRegisters = []

  if (isDebugMemoryGroup(group)) {
    const snapshots = await writeDebugMemoryGroup(group, slaveAddress)
    if (!snapshots) return false

    snapshots.forEach((snapshot) => {
      writtenRegisters.push(snapshot)
    })
  } else {
    if (group.registerType === 'coil') {
      for (let index = 0; index < group.registers.length; index += 1) {
        const register = group.registers[index]
        const coilValue = parseCoilValue(getRegisterWriteValueText(register))

        if (coilValue === null) {
          transport.showCommandAlert('通用Modbus写入', `${register.name || `寄存器 ${index + 1}`} 没有有效写入值`)
          return false
        }

        const response = await modbusClient.writeSingleCoil(
          slaveAddress,
          group.startAddress + index,
          !!coilValue,
          register.name || group.name || '通用Modbus写入',
          'generic-modbus-coil-write',
          {
            maxFrameBytes: maxPacketLength
          }
        )
        if (!response) return false

        writtenRegisters.push({
          rawBytes: [],
          rawValue: coilValue,
          rawWords: [],
          displayValue: formatCoilDisplayValue(coilValue)
        })
      }
    } else {
      let words

      try {
        words = group.isStructLayout
          ? getGroupEncodedWords(group)
          : Array.from({ length: Math.max(1, group.wordQuantity || 1) }, () => 0)

        if (!group.isStructLayout) {
          for (let index = 0; index < group.registers.length; index += 1) {
            const register = group.registers[index]
            const registerWords = getRegisterEncodedWords(register)

            if (!Array.isArray(registerWords) || !registerWords.length) {
              throw new Error(`${register.name || `寄存器 ${index + 1}`} 没有有效写入值`)
            }

            const dataType = getDataType(register.dataType).key
            const relativeAddress = Math.max(0, register.address - group.startAddress)
            if (isByteRegister(dataType)) {
              const byteValue = Number(registerWords[0]) & 0xFF
              const currentWord = words[relativeAddress] || 0
              words[relativeAddress] = register.byteOffset === 0
                ? (((byteValue << 8) | (currentWord & 0x00FF)) & 0xFFFF)
                : (((currentWord & 0xFF00) | byteValue) & 0xFFFF)
            } else {
              for (let offset = 0; offset < register.registerCount; offset += 1) {
                words[relativeAddress + offset] = Number(registerWords[offset]) & 0xFFFF
              }
            }
          }
        }
      } catch (error) {
        transport.showCommandAlert('通用Modbus写入', error.message || '寄存器组没有有效写入值')
        return false
      }

      const writtenWordCache = words.reduce((cache, word, offset) => {
        cache[group.startAddress + offset] = word
        return cache
      }, {})

      group.registers.forEach((register) => {
        const rawWords = getRegisterWordsFromWordCache(register, writtenWordCache) || []
        const rawValue = decodeRegisterValue(register, rawWords)
        const displayValue = formatRegisterValue(register, rawValue)

        writtenRegisters.push({
          rawWords,
          rawValue,
          displayValue
        })
      })

      const maxWriteQuantity = getWriteSpanMaxQuantity(words.length, maxPacketLength)
      const spans = splitWordSpans(group.startAddress, words.length, maxWriteQuantity)
      let cursor = 0

      for (const span of spans) {
        const spanWords = words.slice(cursor, cursor + span.quantity)
        cursor += span.quantity

        const response = await modbusClient.writeMultipleRegisters(
          slaveAddress,
          span.address,
          spanWords,
          group.name || '通用Modbus写入',
          'generic-modbus-write',
          {
            maxFrameBytes: maxPacketLength
          }
        )
        if (!response) return false
      }
    }
  }

  updateGroups((item) => {
    if (item.id !== groupId) return item

    let writtenIndex = 0

    return {
      ...item,
      registers: item.registers.map((register) => {
        const written = writtenRegisters[writtenIndex] || {}
        writtenIndex += 1
        const hasDisplayValue = Object.prototype.hasOwnProperty.call(written, 'displayValue')
        const hasRawBytes = Object.prototype.hasOwnProperty.call(written, 'rawBytes')
        const hasRawValue = Object.prototype.hasOwnProperty.call(written, 'rawValue')
        const hasRawWords = Object.prototype.hasOwnProperty.call(written, 'rawWords')

        return {
          ...register,
          displayValue: hasDisplayValue ? written.displayValue : register.displayValue,
          inputValue: hasDisplayValue ? written.displayValue : register.inputValue,
          isDirty: false,
          rawBytes: hasRawBytes ? written.rawBytes : register.rawBytes,
          rawValue: hasRawValue ? written.rawValue : register.rawValue,
          rawWords: hasRawWords ? written.rawWords : register.rawWords
        }
      })
    }
  })

  return true
}

module.exports = {
  DATA_TYPE_OPTIONS,
  REGISTER_TYPE_OPTIONS,
  addGroupFromConfig,
  completeStructInstanceGroups,
  completeStructInstanceGroupsWithStructFile,
  completeStructInstanceGroupsWithStructSource,
  getState,
  importJsonFromMessageFile,
  init,
  parseStructDefinition,
  queryCodeInfoBlock,
  readGroup,
  removeGroup,
  reorderRegister,
  saveJsonToChat,
  setGroupDeleteVisible,
  setGroupExpanded,
  subscribe,
  updateGroupConfig,
  updateRegister,
  updateRegisterValue,
  validateRegisterInputValue,
  writeRegister,
  writeGroup
}