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functions.go
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functions.go
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package mbserver
import (
"encoding/binary"
)
// ReadCoils function 1, reads coils from internal memory.
func ReadCoils(s *Server, frame Framer) ([]byte, *Exception) {
register, numRegs, endRegister := registerAddressAndNumber(frame)
if endRegister > 65535 {
return []byte{}, &IllegalDataAddress
}
dataSize := numRegs / 8
if (numRegs % 8) != 0 {
dataSize++
}
data := make([]byte, 1+dataSize)
data[0] = byte(dataSize)
for i, value := range s.Coils[register:endRegister] {
if value != 0 {
shift := uint(i) % 8
data[1+i/8] |= byte(1 << shift)
}
}
return data, &Success
}
// ReadDiscreteInputs function 2, reads discrete inputs from internal memory.
func ReadDiscreteInputs(s *Server, frame Framer) ([]byte, *Exception) {
register, numRegs, endRegister := registerAddressAndNumber(frame)
if endRegister > 65535 {
return []byte{}, &IllegalDataAddress
}
dataSize := numRegs / 8
if (numRegs % 8) != 0 {
dataSize++
}
data := make([]byte, 1+dataSize)
data[0] = byte(dataSize)
for i, value := range s.DiscreteInputs[register:endRegister] {
if value != 0 {
shift := uint(i) % 8
data[1+i/8] |= byte(1 << shift)
}
}
return data, &Success
}
// ReadHoldingRegisters function 3, reads holding registers from internal memory.
func ReadHoldingRegisters(s *Server, frame Framer) ([]byte, *Exception) {
register, numRegs, endRegister := registerAddressAndNumber(frame)
if endRegister > 65536 {
return []byte{}, &IllegalDataAddress
}
return append([]byte{byte(numRegs * 2)}, Uint16ToBytes(s.HoldingRegisters[register:endRegister])...), &Success
}
// ReadInputRegisters function 4, reads input registers from internal memory.
func ReadInputRegisters(s *Server, frame Framer) ([]byte, *Exception) {
register, numRegs, endRegister := registerAddressAndNumber(frame)
if endRegister > 65536 {
return []byte{}, &IllegalDataAddress
}
return append([]byte{byte(numRegs * 2)}, Uint16ToBytes(s.InputRegisters[register:endRegister])...), &Success
}
// WriteSingleCoil function 5, write a coil to internal memory.
func WriteSingleCoil(s *Server, frame Framer) ([]byte, *Exception) {
register, value := registerAddressAndValue(frame)
// TODO Should we use 0 for off and 65,280 (FF00 in hexadecimal) for on?
if value != 0 {
value = 1
}
s.Coils[register] = byte(value)
return frame.GetData()[0:4], &Success
}
// WriteHoldingRegister function 6, write a holding register to internal memory.
func WriteHoldingRegister(s *Server, frame Framer) ([]byte, *Exception) {
register, value := registerAddressAndValue(frame)
s.HoldingRegisters[register] = value
return frame.GetData()[0:4], &Success
}
// WriteMultipleCoils function 15, writes holding registers to internal memory.
func WriteMultipleCoils(s *Server, frame Framer) ([]byte, *Exception) {
register, numRegs, endRegister := registerAddressAndNumber(frame)
valueBytes := frame.GetData()[5:]
if endRegister > 65536 {
return []byte{}, &IllegalDataAddress
}
// TODO This is not correct, bits and bytes do not always align
//if len(valueBytes)/2 != numRegs {
// return []byte{}, &IllegalDataAddress
//}
bitCount := 0
for i, value := range valueBytes {
for bitPos := uint(0); bitPos < 8; bitPos++ {
s.Coils[register+(i*8)+int(bitPos)] = bitAtPosition(value, bitPos)
bitCount++
if bitCount >= numRegs {
break
}
}
if bitCount >= numRegs {
break
}
}
return frame.GetData()[0:4], &Success
}
// WriteHoldingRegisters function 16, writes holding registers to internal memory.
func WriteHoldingRegisters(s *Server, frame Framer) ([]byte, *Exception) {
register, numRegs, _ := registerAddressAndNumber(frame)
valueBytes := frame.GetData()[5:]
var exception *Exception
var data []byte
if len(valueBytes)/2 != numRegs {
exception = &IllegalDataAddress
}
// Copy data to memroy
values := BytesToUint16(valueBytes)
valuesUpdated := copy(s.HoldingRegisters[register:], values)
if valuesUpdated == numRegs {
exception = &Success
data = frame.GetData()[0:4]
} else {
exception = &IllegalDataAddress
}
return data, exception
}
// BytesToUint16 converts a big endian array of bytes to an array of unit16s
func BytesToUint16(bytes []byte) []uint16 {
values := make([]uint16, len(bytes)/2)
for i := range values {
values[i] = binary.BigEndian.Uint16(bytes[i*2 : (i+1)*2])
}
return values
}
// Uint16ToBytes converts an array of uint16s to a big endian array of bytes
func Uint16ToBytes(values []uint16) []byte {
bytes := make([]byte, len(values)*2)
for i, value := range values {
binary.BigEndian.PutUint16(bytes[i*2:(i+1)*2], value)
}
return bytes
}
func bitAtPosition(value uint8, pos uint) uint8 {
return (value >> pos) & 0x01
}