701 lines
26 KiB
Python
701 lines
26 KiB
Python
from __future__ import annotations
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import struct
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from abc import ABC, abstractmethod
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from datetime import datetime
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from random import Random
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from typing import Any, Dict, List, Optional, Sequence
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from app.core.config import settings
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from app.schemas.platform import (
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AlarmEvent,
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ChannelConfigIn,
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DeviceConfigIn,
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DeviceStatus,
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LineAlarmSettingIn,
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LineData,
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RealtimeData,
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SystemConfigIn,
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SwitchControlIn,
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ValueGroup,
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)
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class DeviceClient(ABC):
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@abstractmethod
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def read_realtime_data(self) -> RealtimeData:
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raise NotImplementedError
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@abstractmethod
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def read_device_status(self) -> DeviceStatus:
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raise NotImplementedError
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@abstractmethod
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def read_alarm_events(self) -> List[AlarmEvent]:
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raise NotImplementedError
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@abstractmethod
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def send_device_config(self, payload: DeviceConfigIn) -> Dict[str, Any]:
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raise NotImplementedError
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@abstractmethod
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def send_channel_config(self, payload: ChannelConfigIn) -> Dict[str, Any]:
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raise NotImplementedError
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@abstractmethod
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def send_line_alarm_setting(self, payload: LineAlarmSettingIn) -> Dict[str, Any]:
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raise NotImplementedError
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@abstractmethod
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def send_ai_alarm_setting(self, payload: List[Dict[str, Any]]) -> Dict[str, Any]:
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raise NotImplementedError
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@abstractmethod
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def send_system_config(self, payload: SystemConfigIn) -> Dict[str, Any]:
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raise NotImplementedError
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@abstractmethod
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def send_switch_control(self, payload: SwitchControlIn) -> Dict[str, Any]:
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raise NotImplementedError
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VALUE_GROUP_FIELDS = [
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"Ua",
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"Ub",
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"Uc",
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"Ia",
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"Ib",
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"Ic",
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"Pa",
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"Pb",
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"Pc",
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"Pt",
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"Qa",
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"Qb",
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"Qc",
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"Qt",
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"Sa",
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"Sb",
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"Sc",
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"St",
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"PFa",
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"PFb",
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"PFc",
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"PFt",
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"Uab",
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"Ubc",
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"Uca",
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"frq",
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]
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LINE_START_REGISTERS = [0x0000, 0x0034, 0x0068, 0x009C]
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LINE_REGISTER_COUNT = 0x34
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AI_INPUT_START_REGISTER = 0x00D0
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AI_INPUT_COUNT = 8
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DI_INPUT_REGISTER = 0x00E3
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EVENT_FLAG_REGISTER = 0x00E4
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EVENT_HOLDING_START_REGISTER = 0x0000
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UART_CONFIG_START_REGISTER = 0x0004
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UART_CONFIG_REGISTER_COUNT = 16
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LINE_ALARM_START_REGISTER = 0x0014
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LINE_ALARM_REGISTERS_PER_LINE = 14
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AI_CHANNEL_START_REGISTER = 0x004C
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AO_CHANNEL_START_REGISTER = 0x006A
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AI_ALARM_START_REGISTER = 0x0088
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ANALOG_BLOCK_REGISTER_COUNT = 30
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DO_STATE_REGISTER = 0x00A6
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TIME_SYNC_START_REGISTER = 0x0000
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def _clamp_byte(value: Any) -> int:
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try:
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number = int(round(float(value)))
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except (TypeError, ValueError):
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number = 0
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return max(0, min(255, number))
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def _normalize_text(value: str) -> str:
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return value.strip().upper().replace(" ", "")
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def _serial_parity_flag(value: str) -> str:
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normalized = _normalize_text(value)
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return {"NONE": "N", "N": "N", "ODD": "O", "O": "O", "EVEN": "E", "E": "E"}.get(normalized, "N")
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class ModbusTransport(ABC):
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@abstractmethod
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def read_input_registers(self, address: int, count: int) -> List[int]:
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raise NotImplementedError
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@abstractmethod
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def read_holding_registers(self, address: int, count: int) -> List[int]:
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raise NotImplementedError
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@abstractmethod
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def read_discrete_inputs(self, address: int, count: int) -> List[bool]:
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raise NotImplementedError
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@abstractmethod
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def read_coils(self, address: int, count: int) -> List[bool]:
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raise NotImplementedError
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@abstractmethod
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def write_registers(self, address: int, values: Sequence[int]) -> None:
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raise NotImplementedError
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@abstractmethod
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def write_coil(self, address: int, value: bool) -> None:
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raise NotImplementedError
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class PymodbusTransport(ModbusTransport):
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def __init__(self) -> None:
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self._client: Any = None
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def _build_client(self) -> Any:
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try:
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from pymodbus.client import ModbusSerialClient, ModbusTcpClient
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except ImportError as exc:
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raise RuntimeError("未安装 pymodbus,无法启用 Modbus 采集") from exc
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transport = settings.modbus_transport.strip().lower()
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if transport == "tcp":
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return ModbusTcpClient(
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host=settings.modbus_tcp_host,
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port=settings.modbus_tcp_port,
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timeout=settings.modbus_timeout_seconds,
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)
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try:
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from pymodbus import FramerType
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return ModbusSerialClient(
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port=settings.modbus_serial_device,
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framer=FramerType.RTU,
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baudrate=settings.modbus_serial_baud,
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parity=_serial_parity_flag(settings.modbus_serial_parity),
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stopbits=settings.modbus_serial_stop_bits,
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bytesize=settings.modbus_serial_data_bits,
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timeout=settings.modbus_timeout_seconds,
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)
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except Exception:
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return ModbusSerialClient(
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method="rtu",
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port=settings.modbus_serial_device,
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baudrate=settings.modbus_serial_baud,
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parity=_serial_parity_flag(settings.modbus_serial_parity),
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stopbits=settings.modbus_serial_stop_bits,
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bytesize=settings.modbus_serial_data_bits,
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timeout=settings.modbus_timeout_seconds,
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)
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def _ensure_client(self) -> Any:
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if self._client is None:
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self._client = self._build_client()
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connect = getattr(self._client, "connect", None)
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if callable(connect):
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result = connect()
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if result is False:
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raise RuntimeError("Modbus 连接失败")
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return self._client
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def _call(self, method_name: str, *args: Any, **kwargs: Any) -> Any:
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client = self._ensure_client()
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method = getattr(client, method_name)
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try:
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return method(*args, slave=settings.modbus_slave_id, **kwargs)
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except TypeError:
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return method(*args, unit=settings.modbus_slave_id, **kwargs)
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def _check_response(self, response: Any, action: str) -> Any:
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if response is None:
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raise RuntimeError(f"Modbus {action} 返回为空")
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is_error = getattr(response, "isError", None)
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if callable(is_error) and response.isError():
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raise RuntimeError(f"Modbus {action} 返回错误: {response}")
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return response
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def read_input_registers(self, address: int, count: int) -> List[int]:
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response = self._check_response(
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self._call("read_input_registers", address, count),
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f"读输入寄存器[{hex(address)}:{count}]",
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)
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return list(getattr(response, "registers", []) or [])
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def read_holding_registers(self, address: int, count: int) -> List[int]:
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response = self._check_response(
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self._call("read_holding_registers", address, count),
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f"读保持寄存器[{hex(address)}:{count}]",
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)
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return list(getattr(response, "registers", []) or [])
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def read_discrete_inputs(self, address: int, count: int) -> List[bool]:
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response = self._check_response(
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self._call("read_discrete_inputs", address, count),
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f"读离散输入[{hex(address)}:{count}]",
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)
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return [bool(value) for value in (getattr(response, "bits", []) or [])[:count]]
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def read_coils(self, address: int, count: int) -> List[bool]:
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response = self._check_response(
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self._call("read_coils", address, count),
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f"读线圈[{hex(address)}:{count}]",
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)
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return [bool(value) for value in (getattr(response, "bits", []) or [])[:count]]
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def write_registers(self, address: int, values: Sequence[int]) -> None:
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self._check_response(
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self._call("write_registers", address, list(values)),
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f"写保持寄存器[{hex(address)}:{len(values)}]",
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)
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def write_coil(self, address: int, value: bool) -> None:
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self._check_response(
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self._call("write_coil", address, bool(value)),
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f"写线圈[{hex(address)}]",
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)
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class MockDeviceClient(DeviceClient):
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def __init__(self) -> None:
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self._random = Random(3568)
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self._tick = 0
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def _value_group(self, base_u: float, base_i: float, base_p: float) -> ValueGroup:
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delta = self._tick % 5
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return ValueGroup(
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Ua=base_u + delta,
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Ub=base_u + 2 + delta,
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Uc=base_u - 1 + delta,
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Ia=base_i + 0.1 * delta,
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Ib=base_i - 0.1 + 0.1 * delta,
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Ic=base_i + 0.2 + 0.1 * delta,
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Pa=base_p + delta,
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Pb=base_p - 2 + delta,
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Pc=base_p + 3 + delta,
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Pt=base_p * 3 + delta,
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Qa=12 + delta,
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Qb=11 + delta,
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Qc=13 + delta,
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Qt=36 + delta,
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Sa=base_p + 15 + delta,
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Sb=base_p + 10 + delta,
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Sc=base_p + 16 + delta,
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St=base_p * 3 + 44 + delta,
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PFa=0.98,
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PFb=0.97,
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PFc=0.99,
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PFt=0.98,
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Uab=base_u * 1.73,
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Ubc=base_u * 1.72,
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Uca=base_u * 1.73,
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frq=50.0,
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)
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def read_realtime_data(self) -> RealtimeData:
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self._tick += 1
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line_list = [
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LineData(line_no=1, pri_val=self._value_group(6000, 150, 820), sec_val=self._value_group(57.6, 1.2, 68)),
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LineData(line_no=2, pri_val=self._value_group(5990, 148, 810), sec_val=self._value_group(57.2, 1.1, 66)),
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LineData(line_no=3, pri_val=self._value_group(6010, 151, 830), sec_val=self._value_group(58.1, 1.3, 70)),
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LineData(line_no=4, pri_val=self._value_group(6020, 149, 825), sec_val=self._value_group(58.4, 1.2, 69)),
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]
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switch = {f"di{i}": int((i + self._tick) % 2 == 0) for i in range(1, 13)}
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switch.update({f"do{i}": int((i + self._tick + 1) % 2 == 0) for i in range(1, 13)})
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ai_collect = {f"ai{i}": round(1 + self._random.random() * 5 + (self._tick % 3) * 0.1, 2) for i in range(1, 13)}
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return RealtimeData(line_list=line_list, switch=switch, ai_collect=ai_collect)
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def read_device_status(self) -> DeviceStatus:
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return DeviceStatus(
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self_check="正常",
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net1="正常",
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net2="正常",
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uart1="正常",
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uart2="正常" if self._tick % 4 else "断开",
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)
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def read_alarm_events(self) -> List[AlarmEvent]:
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if self._tick % 6 != 0:
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return []
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return [
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AlarmEvent(
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alarm_type="line_alarm",
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time=datetime.now(),
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no=str((self._tick // 6) % 4 + 1),
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type="电压",
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content="模拟告警:线路电压越限",
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level="中",
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)
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]
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def send_device_config(self, payload: DeviceConfigIn) -> Dict[str, Any]:
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return {"send_status": "成功", "target": "device", "items": len(payload.net) + len(payload.uart)}
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def send_channel_config(self, payload: ChannelConfigIn) -> Dict[str, Any]:
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return {
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"send_status": "成功",
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"target": "channel",
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"items": len(payload.ai_channel) + len(payload.ao_channel),
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}
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def send_line_alarm_setting(self, payload: LineAlarmSettingIn) -> Dict[str, Any]:
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return {"send_status": "成功", "target": "line_alarm", "line_no": payload.line_no}
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def send_ai_alarm_setting(self, payload: List[Dict[str, Any]]) -> Dict[str, Any]:
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return {"send_status": "成功", "target": "ai_alarm", "items": len(payload)}
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def send_system_config(self, payload: SystemConfigIn) -> Dict[str, Any]:
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return {"send_status": "成功", "target": "system", "brightness": payload.brightness}
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def send_switch_control(self, payload: SwitchControlIn) -> Dict[str, Any]:
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action_text = "合" if payload.action == 1 else "分"
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return {"control_status": f"执行成功: 开关{payload.ch}{action_text}"}
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class CDeviceClient(DeviceClient):
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"""基于 Modbus 协议的真实设备客户端。"""
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def __init__(self, transport: Optional[ModbusTransport] = None) -> None:
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self.transport = transport or PymodbusTransport()
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self._do_state = {index: 0 for index in range(1, 13)}
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self._last_event_signature: Optional[tuple[int, int, int, int]] = None
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def _registers_to_float(self, registers: Sequence[int]) -> float:
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ordered = list(registers)
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if settings.modbus_float_word_order.strip().lower() == "little":
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ordered.reverse()
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raw = bytearray()
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for register in ordered:
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high = (int(register) >> 8) & 0xFF
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low = int(register) & 0xFF
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if settings.modbus_float_byte_order.strip().lower() == "little":
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raw.extend([low, high])
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else:
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raw.extend([high, low])
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return float(struct.unpack(">f", bytes(raw))[0])
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def _float_to_registers(self, value: float) -> List[int]:
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raw = struct.pack(">f", float(value))
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words = [bytearray(raw[0:2]), bytearray(raw[2:4])]
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if settings.modbus_float_byte_order.strip().lower() == "little":
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words = [bytearray(reversed(word)) for word in words]
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registers = [(word[0] << 8) | word[1] for word in words]
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if settings.modbus_float_word_order.strip().lower() == "little":
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registers.reverse()
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return registers
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def _bytes_to_registers(self, payload: bytes) -> List[int]:
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if len(payload) % 2:
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payload += b"\x00"
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return [(payload[index] << 8) | payload[index + 1] for index in range(0, len(payload), 2)]
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def _build_value_group(self, registers: Sequence[int]) -> ValueGroup:
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values: Dict[str, float] = {}
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for index, field_name in enumerate(VALUE_GROUP_FIELDS):
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start = index * 2
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values[field_name] = self._registers_to_float(registers[start : start + 2])
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return ValueGroup(**values)
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def _read_line_data(self, line_no: int, start_register: int) -> LineData:
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registers = self.transport.read_input_registers(start_register, LINE_REGISTER_COUNT)
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value_group = self._build_value_group(registers)
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return LineData(line_no=line_no, pri_val=value_group, sec_val=value_group)
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def _read_ai_collect(self) -> Dict[str, float]:
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registers = self.transport.read_input_registers(AI_INPUT_START_REGISTER, AI_INPUT_COUNT * 2)
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values = {
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f"ai{index + 1}": self._registers_to_float(registers[index * 2 : index * 2 + 2])
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for index in range(AI_INPUT_COUNT)
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}
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for index in range(AI_INPUT_COUNT + 1, 13):
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values[f"ai{index}"] = 0.0
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return values
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def _read_di_state(self) -> Dict[str, int]:
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try:
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bits = self.transport.read_discrete_inputs(0x0000, 12)
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return {f"di{index + 1}": int(bits[index]) for index in range(min(12, len(bits)))}
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except Exception:
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register = self.transport.read_input_registers(DI_INPUT_REGISTER, 1)[0]
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return {f"di{index}": int(bool(register & (1 << (index - 1)))) for index in range(1, 13)}
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def _read_do_state(self) -> Dict[str, int]:
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try:
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bits = self.transport.read_coils(0x0000, 12)
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if bits:
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for index, bit in enumerate(bits[:12], start=1):
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self._do_state[index] = int(bool(bit))
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except Exception:
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pass
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return {f"do{index}": self._do_state.get(index, 0) for index in range(1, 13)}
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def _build_status(self) -> DeviceStatus:
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transport = settings.modbus_transport.strip().lower()
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if transport == "tcp":
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return DeviceStatus(self_check="正常", net1="正常", net2="正常", uart1="断开", uart2="断开")
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return DeviceStatus(self_check="正常", net1="断开", net2="断开", uart1="正常", uart2="正常")
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def _category_map(self, category: str) -> str:
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normalized = category.strip().upper()
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return {
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"UA": "UA",
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"UB": "UB",
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"UC": "UC",
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"UAB": "UAB",
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"UBC": "UBC",
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"UCA": "UCA",
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"P": "P",
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"Q": "Q",
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"F": "F",
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"FRQ": "F",
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"频率": "F",
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"功率": "P",
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}.get(normalized, normalized)
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def _signal_type_code(self, signal_type: str) -> int:
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normalized = _normalize_text(signal_type)
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return 0 if normalized in {"4-20MA", "4~20MA", "4-20MA"} else 1
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def _measure_type_code(self, measure_type: str) -> int:
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normalized = self._category_map(measure_type)
|
||
return {
|
||
"UA": 0,
|
||
"UB": 1,
|
||
"UC": 2,
|
||
"UAB": 3,
|
||
"UBC": 4,
|
||
"UCA": 5,
|
||
"P": 6,
|
||
"Q": 7,
|
||
"F": 8,
|
||
}.get(normalized, 0)
|
||
|
||
def _output_node_code(self, output_node: str) -> int:
|
||
digits = "".join(character for character in output_node if character.isdigit())
|
||
return _clamp_byte(digits or 0)
|
||
|
||
def _parity_code(self, parity: str) -> int:
|
||
normalized = _normalize_text(parity)
|
||
return {"NONE": 0, "N": 0, "ODD": 1, "O": 1, "EVEN": 2, "E": 2}.get(normalized, 0)
|
||
|
||
def _data_bits_code(self, data_bits: int) -> int:
|
||
return 0 if int(data_bits) == 8 else _clamp_byte(data_bits)
|
||
|
||
def _stop_bits_code(self, stop_bits: int) -> int:
|
||
return 1 if int(stop_bits) >= 2 else 0
|
||
|
||
def _protocol_code(self, protocol: str) -> int:
|
||
return 1 if "MODBUS" in _normalize_text(protocol) else 0
|
||
|
||
def _line_rule_payload(self, limit: Any, delay: Any, output_node: str, enabled: bool) -> bytes:
|
||
return bytes(
|
||
[
|
||
_clamp_byte(limit),
|
||
_clamp_byte(delay),
|
||
self._output_node_code(output_node),
|
||
1 if enabled else 0,
|
||
]
|
||
)
|
||
|
||
def read_realtime_data(self) -> RealtimeData:
|
||
line_list = [
|
||
self._read_line_data(line_no=index + 1, start_register=start_register)
|
||
for index, start_register in enumerate(LINE_START_REGISTERS)
|
||
]
|
||
switch = self._read_di_state()
|
||
switch.update(self._read_do_state())
|
||
return RealtimeData(line_list=line_list, switch=switch, ai_collect=self._read_ai_collect())
|
||
|
||
def read_device_status(self) -> DeviceStatus:
|
||
self.transport.read_input_registers(EVENT_FLAG_REGISTER, 1)
|
||
return self._build_status()
|
||
|
||
def read_alarm_events(self) -> List[AlarmEvent]:
|
||
event_flag = self.transport.read_input_registers(EVENT_FLAG_REGISTER, 1)[0]
|
||
if event_flag == 0:
|
||
return []
|
||
|
||
registers = self.transport.read_holding_registers(EVENT_HOLDING_START_REGISTER, 4)
|
||
signature = tuple(int(value) for value in registers)
|
||
if signature == self._last_event_signature:
|
||
return []
|
||
self._last_event_signature = signature
|
||
|
||
timestamp = int(registers[0]) | (int(registers[1]) << 16)
|
||
milliseconds = int(registers[2]) & 0xFFFF
|
||
line_and_type = int(registers[3]) & 0xFFFF
|
||
line_no = (line_and_type >> 8) & 0xFF
|
||
event_type = line_and_type & 0xFF
|
||
|
||
event_name = {
|
||
1: "PT断线",
|
||
2: "CT断线",
|
||
}.get(event_type, f"事件{event_type}")
|
||
event_time = datetime.fromtimestamp(timestamp).replace(microsecond=min(milliseconds, 999) * 1000)
|
||
line_text = "总路" if line_no == 0 else f"线路{line_no}"
|
||
return [
|
||
AlarmEvent(
|
||
alarm_type="modbus_event",
|
||
time=event_time,
|
||
no="" if line_no == 0 else str(line_no),
|
||
type=event_name,
|
||
content=f"{line_text}{event_name}",
|
||
level="中",
|
||
)
|
||
]
|
||
|
||
def send_device_config(self, payload: DeviceConfigIn) -> Dict[str, Any]:
|
||
uart_map = {item.port.upper(): item for item in payload.uart}
|
||
raw = bytearray()
|
||
for port_name in ("COM1", "COM2", "COM3", "COM4"):
|
||
item = uart_map.get(port_name)
|
||
baud = item.baud if item is not None else 0
|
||
parity = self._parity_code(item.parity) if item is not None else 0
|
||
data_bits = self._data_bits_code(item.data_bits) if item is not None else 0
|
||
stop_bits = self._stop_bits_code(item.stop_bits) if item is not None else 0
|
||
protocol = self._protocol_code(item.protocol) if item is not None else 0
|
||
raw.extend(struct.pack("<I4B", int(baud), parity, data_bits, stop_bits, protocol))
|
||
|
||
registers = self._bytes_to_registers(bytes(raw))
|
||
self.transport.write_registers(UART_CONFIG_START_REGISTER, registers)
|
||
return {
|
||
"send_status": "成功",
|
||
"target": "device",
|
||
"modbus_written": {"uart_registers": len(registers)},
|
||
"ignored_fields": ["password", "hardware_version", "software_version", "net"],
|
||
}
|
||
|
||
def send_channel_config(self, payload: ChannelConfigIn) -> Dict[str, Any]:
|
||
def build_channel_payload(items: List[Any]) -> List[int]:
|
||
raw = bytearray()
|
||
channel_map = {int(item.ch): item for item in items}
|
||
for channel_no in range(1, 13):
|
||
item = channel_map.get(channel_no)
|
||
if item is None:
|
||
raw.extend(b"\x00" * 5)
|
||
continue
|
||
raw.extend(
|
||
bytes(
|
||
[
|
||
self._signal_type_code(item.singal_type),
|
||
_clamp_byte(item.line_no),
|
||
self._measure_type_code(item.type),
|
||
_clamp_byte(item.limit_high),
|
||
_clamp_byte(item.limit_low),
|
||
]
|
||
)
|
||
)
|
||
return self._bytes_to_registers(bytes(raw))
|
||
|
||
ai_registers = build_channel_payload(payload.ai_channel)
|
||
ao_registers = build_channel_payload(payload.ao_channel)
|
||
self.transport.write_registers(AI_CHANNEL_START_REGISTER, ai_registers)
|
||
self.transport.write_registers(AO_CHANNEL_START_REGISTER, ao_registers)
|
||
return {
|
||
"send_status": "成功",
|
||
"target": "channel",
|
||
"modbus_written": {
|
||
"ai_registers": len(ai_registers),
|
||
"ao_registers": len(ao_registers),
|
||
},
|
||
}
|
||
|
||
def send_line_alarm_setting(self, payload: LineAlarmSettingIn) -> Dict[str, Any]:
|
||
over_limit_map = {rule.category: rule for rule in payload.over_limit_alarm}
|
||
fault_map = {rule.category: rule for rule in payload.fault_alarm}
|
||
|
||
ordered_rules = [
|
||
over_limit_map.get("电压"),
|
||
over_limit_map.get("电流"),
|
||
over_limit_map.get("差流"),
|
||
over_limit_map.get("功率"),
|
||
over_limit_map.get("频率"),
|
||
fault_map.get("PT断线"),
|
||
fault_map.get("CT断线"),
|
||
]
|
||
|
||
raw = bytearray()
|
||
for rule in ordered_rules:
|
||
if rule is None:
|
||
raw.extend(b"\x00" * 4)
|
||
continue
|
||
raw.extend(self._line_rule_payload(rule.limit, rule.delay, rule.output_node, rule.enabled))
|
||
|
||
start_register = LINE_ALARM_START_REGISTER + max(0, payload.line_no - 1) * LINE_ALARM_REGISTERS_PER_LINE
|
||
registers = self._bytes_to_registers(bytes(raw))
|
||
self.transport.write_registers(start_register, registers)
|
||
return {
|
||
"send_status": "成功",
|
||
"target": "line_alarm",
|
||
"line_no": payload.line_no,
|
||
"modbus_written": {"start_register": start_register, "registers": len(registers)},
|
||
}
|
||
|
||
def send_ai_alarm_setting(self, payload: List[Dict[str, Any]]) -> Dict[str, Any]:
|
||
raw = bytearray()
|
||
item_map = {int(item.get("channel_no", 0)): item for item in payload}
|
||
for channel_no in range(1, 13):
|
||
item = item_map.get(channel_no)
|
||
if item is None:
|
||
raw.extend(b"\x00" * 5)
|
||
continue
|
||
raw.extend(
|
||
bytes(
|
||
[
|
||
_clamp_byte(item.get("limit_high", 0)),
|
||
_clamp_byte(item.get("limit_low", 0)),
|
||
_clamp_byte(item.get("delay", 0)),
|
||
self._output_node_code(str(item.get("output_node", ""))),
|
||
1 if bool(item.get("enabled", False)) else 0,
|
||
]
|
||
)
|
||
)
|
||
|
||
registers = self._bytes_to_registers(bytes(raw))
|
||
self.transport.write_registers(AI_ALARM_START_REGISTER, registers)
|
||
return {
|
||
"send_status": "成功",
|
||
"target": "ai_alarm",
|
||
"items": len(payload),
|
||
"modbus_written": {"registers": len(registers)},
|
||
}
|
||
|
||
def send_system_config(self, payload: SystemConfigIn) -> Dict[str, Any]:
|
||
time_text = str(payload.time_sync).strip()
|
||
if time_text and time_text.lower() not in {"auto", "manual"}:
|
||
timestamp = int(datetime.fromisoformat(time_text).timestamp())
|
||
else:
|
||
timestamp = int(datetime.now().timestamp())
|
||
|
||
registers = [timestamp & 0xFFFF, (timestamp >> 16) & 0xFFFF]
|
||
self.transport.write_registers(TIME_SYNC_START_REGISTER, registers)
|
||
return {
|
||
"send_status": "成功",
|
||
"target": "system",
|
||
"brightness": payload.brightness,
|
||
"screen_saver": payload.screen_saver,
|
||
"modbus_written": {"time_registers": len(registers)},
|
||
"ignored_fields": ["brightness", "screen_saver"],
|
||
}
|
||
|
||
def send_switch_control(self, payload: SwitchControlIn) -> Dict[str, Any]:
|
||
coil_address = max(0, payload.ch - 1)
|
||
coil_value = bool(payload.action)
|
||
self.transport.write_coil(coil_address, coil_value)
|
||
self._do_state[payload.ch] = int(coil_value)
|
||
|
||
bitmask = 0
|
||
for index, state in self._do_state.items():
|
||
if state:
|
||
bitmask |= 1 << (index - 1)
|
||
self.transport.write_registers(DO_STATE_REGISTER, [bitmask & 0xFFFF])
|
||
|
||
action_text = "合" if payload.action == 1 else "分"
|
||
return {
|
||
"control_status": f"执行成功: 开关{payload.ch}{action_text}",
|
||
"modbus_written": {"coil_address": coil_address, "state_register": DO_STATE_REGISTER},
|
||
}
|