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modbus.go
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package provider
import (
"encoding/binary"
"errors"
"fmt"
"math"
"strings"
"github.com/andig/evcc/util"
"github.com/andig/evcc/util/modbus"
"github.com/volkszaehler/mbmd/meters"
"github.com/volkszaehler/mbmd/meters/rs485"
"github.com/volkszaehler/mbmd/meters/sunspec"
)
// Modbus implements modbus RTU and TCP access
type Modbus struct {
log *util.Logger
conn *modbus.Connection
device meters.Device
op modbus.Operation
scale float64
}
func init() {
registry.Add("modbus", NewModbusFromConfig)
}
// NewModbusFromConfig creates Modbus plugin
func NewModbusFromConfig(other map[string]interface{}) (IntProvider, error) {
cc := struct {
Model string
modbus.Settings `mapstructure:",squash"`
Register modbus.Register
Value string
Scale float64
}{
Scale: 1,
}
if err := util.DecodeOther(other, &cc); err != nil {
return nil, err
}
// assume RTU if not set and this is a known RS485 meter model
if cc.RTU == nil {
b := modbus.IsRS485(cc.Model)
cc.RTU = &b
}
conn, err := modbus.NewConnection(cc.URI, cc.Device, cc.Comset, cc.Baudrate, *cc.RTU, cc.ID)
if err != nil {
return nil, err
}
log := util.NewLogger("modbus")
conn.Logger(log.TRACE)
var device meters.Device
var op modbus.Operation
if cc.Value != "" && cc.Register.Decode != "" {
return nil, errors.New("modbus cannot have value and register both")
}
if cc.Value == "" && cc.Register.Decode == "" {
log.WARN.Println("missing modbus value or register - assuming Power")
cc.Value = "Power"
}
if cc.Model == "" && cc.Value != "" {
return nil, errors.New("need device model when value configured")
}
// no registered configured - need device
if cc.Register.Decode == "" {
device, err = modbus.NewDevice(cc.Model, cc.SubDevice)
// prepare device
if err == nil {
err = device.Initialize(conn)
// silence KOSTAL implementation errors
if errors.Is(err, meters.ErrPartiallyOpened) {
err = nil
}
}
if err != nil {
return nil, err
}
}
// model + value configured
if cc.Value != "" {
cc.Value = modbus.ReadingName(cc.Value)
if err := modbus.ParseOperation(device, cc.Value, &op); err != nil {
return nil, fmt.Errorf("invalid value %s", cc.Value)
}
}
// register configured
if cc.Register.Decode != "" {
if op.MBMD, err = modbus.RegisterOperation(cc.Register); err != nil {
return nil, err
}
}
mb := &Modbus{
log: log,
conn: conn,
device: device,
op: op,
scale: cc.Scale,
}
return mb, nil
}
func (m *Modbus) bytesGetter() ([]byte, error) {
if op := m.op.MBMD; op.FuncCode != 0 {
switch op.FuncCode {
case rs485.ReadHoldingReg:
return m.conn.ReadHoldingRegisters(op.OpCode, op.ReadLen)
case rs485.ReadInputReg:
return m.conn.ReadInputRegisters(op.OpCode, op.ReadLen)
default:
return nil, fmt.Errorf("unknown function code %d", op.FuncCode)
}
}
return nil, errors.New("expected rtu reading")
}
func (m *Modbus) floatGetter() (float64, error) {
var res meters.MeasurementResult
var err error
// if funccode is configured, execute the read directly
if op := m.op.MBMD; op.FuncCode != 0 {
var bytes []byte
if bytes, err = m.bytesGetter(); err != nil {
return 0, fmt.Errorf("read failed: %w", err)
}
return m.scale * op.Transform(bytes), nil
}
// if funccode is not configured, try find the reading on sunspec
if dev, ok := m.device.(*sunspec.SunSpec); ok {
if m.op.MBMD.IEC61850 != 0 {
// client := m.conn.ModbusClient()
res, err = dev.QueryOp(m.conn, m.op.MBMD.IEC61850)
} else {
res, err = dev.QueryPoint(
m.conn,
m.op.SunSpec.Model,
m.op.SunSpec.Block,
m.op.SunSpec.Point,
)
}
}
// silence NaN reading errors by assuming zero
if err != nil && errors.Is(err, meters.ErrNaN) {
res.Value = 0
err = nil
}
if err == nil {
if m.op.MBMD.IEC61850 != 0 {
m.log.TRACE.Printf("%s: %v", m.op.MBMD.IEC61850, res.Value)
} else {
m.log.TRACE.Printf("%d:%d:%s: %v", m.op.SunSpec.Model, m.op.SunSpec.Block, m.op.SunSpec.Point, res.Value)
}
}
return m.scale * res.Value, err
}
// FloatGetter executes configured modbus read operation and implements func() (float64, error)
func (m *Modbus) FloatGetter() func() (float64, error) {
return m.floatGetter
}
// IntGetter executes configured modbus read operation and implements IntProvider
func (m *Modbus) IntGetter() func() (int64, error) {
g := m.FloatGetter()
return func() (int64, error) {
res, err := g()
return int64(math.Round(res)), err
}
}
// StringGetter executes configured modbus read operation and implements IntProvider
func (m *Modbus) StringGetter() func() (string, error) {
return func() (string, error) {
bytes, err := m.bytesGetter()
if err != nil {
return "", err
}
return strings.TrimSpace(string(bytes)), nil
}
}
// UintFromBytes converts byte slice to bigendian uint value
func UintFromBytes(bytes []byte) (u uint64, err error) {
switch l := len(bytes); l {
case 2:
u = uint64(binary.BigEndian.Uint16(bytes))
case 4:
u = uint64(binary.BigEndian.Uint32(bytes))
case 8:
u = binary.BigEndian.Uint64(bytes)
default:
err = fmt.Errorf("unexpected length: %d", l)
}
return u, err
}
// BoolGetter executes configured modbus read operation and implements IntProvider
func (m *Modbus) BoolGetter() func() (bool, error) {
return func() (bool, error) {
bytes, err := m.bytesGetter()
if err != nil {
return false, err
}
u, err := UintFromBytes(bytes)
return u > 0, err
}
}
// IntSetter executes configured modbus write operation and implements SetIntProvider
func (m *Modbus) IntSetter(param string) func(int64) error {
return func(val int64) error {
var err error
// if funccode is configured, execute the read directly
if op := m.op.MBMD; op.FuncCode != 0 {
uval := uint16(int64(m.scale) * val)
switch op.FuncCode {
case modbus.WriteSingleRegister:
_, err = m.conn.WriteSingleRegister(op.OpCode, uval)
default:
err = fmt.Errorf("unknown function code %d", op.FuncCode)
}
} else {
err = errors.New("modbus plugin does not support writing to sunspec")
}
return err
}
}
// BoolSetter executes configured modbus write operation and implements SetBoolProvider
func (m *Modbus) BoolSetter(param string) func(bool) error {
set := m.IntSetter(param)
return func(val bool) error {
var ival int64
if val {
ival = 1
}
return set(ival)
}
}