package modbus import ( "context" "fmt" "log/slog" "net" "os" "time" "github.com/simonvetter/modbus" ) type ConnectState int const () type ClientConfig struct { Url string Timeout uint32 // 超时时间,单位ms } type client struct { url string cli *modbus.ModbusClient started bool // 是否启动 connected bool // 是否连接 cancel context.CancelFunc } func newClient(conf *ClientConfig) (MasterClient, error) { cli, err := modbus.NewClient(&modbus.ClientConfiguration{ URL: conf.Url, Timeout: time.Duration(conf.Timeout) * time.Millisecond, }) if err != nil { return nil, err } c := &client{ url: conf.Url, cli: cli, connected: false, } ctx, cancel := context.WithCancel(context.Background()) go c.connManage(ctx) c.cancel = cancel return c, err } func (c *client) SetUnitId(id uint8) error { return c.cli.SetUnitId(id) } func (c *client) Start() error { c.started = true return nil } func (c *client) Stop() error { c.started = false return nil } // 客户端连接管理 func (c *client) connManage(ctx context.Context) { for { select { case <-ctx.Done(): slog.Info("modbus客户端连接管理线程退出", "url", c.url) return default: } if c.started && !c.connected { // 已经启动, 尝试重连 err := c.cli.Open() if err != nil { slog.Error("modbus客户端尝试连接失败", "url", c.url, "err", err) } else { c.connected = true slog.Info("modbus客户端连接成功", "url", c.url) } } else if !c.started && c.connected { // 未启动,尝试关闭 err := c.cli.Close() if err != nil { slog.Error("modbus客户端关闭错误", "url", c.url, "err", err) } c.connected = false slog.Info("modbus客户端关闭", "url", c.url) } time.Sleep(time.Second) } } func (c *client) IsConnected() bool { return c.connected } // Close implements MasterClient. func (c *client) Close() error { c.cancel() if c.connected { c.connected = false } return c.cli.Close() } // 读请求执行 func readExecute[T any](c *client, req func() (T, error)) (T, error) { if !c.started { return *new(T), fmt.Errorf("modbus客户端未启动") } if !c.connected { return *new(T), fmt.Errorf("modbus客户端未连接或连接断开") } res, err := req() if err != nil { if newErr, ok := err.(*net.OpError); ok { if se, ok := newErr.Err.(*os.SyscallError); ok { c.connected = false return res, se } } } return res, err } // 写请求执行 func writeExecute(c *client, req func() error) error { if !c.started { return fmt.Errorf("modbus客户端未启动") } if !c.connected { return fmt.Errorf("modbus客户端未连接或连接断开") } return req() } // ReadCoil implements MasterClient. func (c *client) ReadCoil(addr uint16, quantity uint16) ([]bool, error) { return readExecute[[]bool](c, func() ([]bool, error) { return c.cli.ReadCoils(addr, quantity) }) } func (c *client) ReadCoilBit(addr uint16) (bool, error) { return readExecute[bool](c, func() (bool, error) { return c.cli.ReadCoil(addr) }) } // ReadDiscreteInput implements MasterClient. func (c *client) ReadDiscreteInput(addr uint16, quantity uint16) ([]bool, error) { return readExecute[[]bool](c, func() ([]bool, error) { return c.cli.ReadDiscreteInputs(addr, quantity) }) } // ReadHoldingRegister implements MasterClient. func (c *client) ReadHoldingRegister(addr uint16, quantity uint16) ([]uint16, error) { return readExecute[[]uint16](c, func() ([]uint16, error) { return c.cli.ReadRegisters(addr, quantity, modbus.HOLDING_REGISTER) }) } func (c *client) ReadHoldingRegisterBytes(addr uint16, quantity uint16) ([]byte, error) { return readExecute[[]byte](c, func() ([]byte, error) { return c.cli.ReadBytes(addr, quantity, modbus.HOLDING_REGISTER) }) } // ReadHoldingRegisterUint16 implements MasterClient. func (c *client) ReadHoldingRegisterUint16(addr uint16) (uint16, error) { return readExecute[uint16](c, func() (uint16, error) { return c.cli.ReadRegister(addr, modbus.HOLDING_REGISTER) }) } // ReadInputRegister implements MasterClient. func (c *client) ReadInputRegister(addr uint16, quantity uint16) ([]uint16, error) { return readExecute[[]uint16](c, func() ([]uint16, error) { return c.cli.ReadRegisters(addr, quantity, modbus.INPUT_REGISTER) }) } func (c *client) ReadInputRegisterBytes(addr uint16, quantity uint16) ([]byte, error) { return readExecute[[]byte](c, func() ([]byte, error) { return c.cli.ReadBytes(addr, quantity, modbus.INPUT_REGISTER) }) } // WriteCoil implements MasterClient. func (c *client) WriteCoil(addr uint16, value bool) error { return writeExecute(c, func() error { return c.cli.WriteCoil(addr, value) }) } // WriteCoils implements MasterClient. func (c *client) WriteCoils(addr uint16, values []bool) error { return writeExecute(c, func() error { return c.cli.WriteCoils(addr, values) }) } // WriteRegister implements MasterClient. func (c *client) WriteRegister(addr uint16, value uint16) error { return writeExecute(c, func() error { return c.cli.WriteRegister(addr, value) }) } // WriteRegisters implements MasterClient. func (c *client) WriteRegisters(addr uint16, values []uint16) error { return writeExecute(c, func() error { return c.cli.WriteRegisters(addr, values) }) } func (c *client) WriteRegisterBytes(addr uint16, values []byte) error { return writeExecute(c, func() error { return c.cli.WriteBytes(addr, values) }) }