"""
.. note:: This section is based on `MODBUS over Serial Line Specification and
Implementation Guide V1.02`_.
The ADU for Modbus RTU messages differs from Modbus TCP/IP messages. Messages
send over RTU don't have a MBAP header, instead they have an Address field.
This field contains the slave id. A CRC is appended to the message. Below all
parts of a Modbus RTU message are listed together with their byte size:
+---------------+-----------------+
| **Component** | **Size** (bytes)|
+---------------+-----------------+
| Address field | 1 |
+---------------+-----------------+
| PDU | N |
+---------------+-----------------+
| CRC | 2 |
+---------------+-----------------+
The CRC is calculated from the Address field and the PDU.
Below you see an hexidecimal presentation of request over RTU with Modbus
function code 1. It requests data of slave with 1, starting at coil 100, for
the length of 3 coils:
..
Note: the backslash in the bytes below are escaped using an extra back
slash. Without escaping the bytes aren't printed correctly in the HTML
output of this docs.
To work with the bytes in Python you need to remove the escape sequences.
`b'\\x01\\x00d` -> `b\x01\x00d`
.. code-block:: python
>>> # Read coils, starting from coil 100 for the length of 3 coils.
>>> adu = b'\\x01\\x01\\x00d\\x00\\x03=\\xd4'
The lenght of this ADU is 8 bytes::
>>> len(adu)
8
"""
import struct
from umodbus.client.serial.redundancy_check import get_crc, validate_crc
from umodbus.functions import (create_function_from_response_pdu,
expected_response_pdu_size_from_request_pdu,
pdu_to_function_code_or_raise_error, ReadCoils,
ReadDiscreteInputs, ReadHoldingRegisters,
ReadInputRegisters, WriteSingleCoil,
WriteSingleRegister, WriteMultipleCoils,
WriteMultipleRegisters)
from umodbus.utils import recv_exactly
def _create_request_adu(slave_id, req_pdu):
""" Return request ADU for Modbus RTU.
:param slave_id: Slave id.
:param req_pdu: Byte array with PDU.
:return: Byte array with ADU.
"""
first_part_adu = struct.pack('>B', slave_id) + req_pdu
return first_part_adu + get_crc(first_part_adu)
[docs]def read_coils(slave_id, starting_address, quantity):
""" Return ADU for Modbus function code 01: Read Coils.
:param slave_id: Number of slave.
:return: Byte array with ADU.
"""
function = ReadCoils()
function.starting_address = starting_address
function.quantity = quantity
return _create_request_adu(slave_id, function.request_pdu)
[docs]def read_holding_registers(slave_id, starting_address, quantity):
""" Return ADU for Modbus function code 03: Read Holding Registers.
:param slave_id: Number of slave.
:return: Byte array with ADU.
"""
function = ReadHoldingRegisters()
function.starting_address = starting_address
function.quantity = quantity
return _create_request_adu(slave_id, function.request_pdu)
[docs]def write_single_coil(slave_id, address, value):
""" Return ADU for Modbus function code 05: Write Single Coil.
:param slave_id: Number of slave.
:return: Byte array with ADU.
"""
function = WriteSingleCoil()
function.address = address
function.value = value
return _create_request_adu(slave_id, function.request_pdu)
[docs]def write_single_register(slave_id, address, value):
""" Return ADU for Modbus function code 06: Write Single Register.
:param slave_id: Number of slave.
:return: Byte array with ADU.
"""
function = WriteSingleRegister()
function.address = address
function.value = value
return _create_request_adu(slave_id, function.request_pdu)
[docs]def write_multiple_coils(slave_id, starting_address, values):
""" Return ADU for Modbus function code 15: Write Multiple Coils.
:param slave_id: Number of slave.
:return: Byte array with ADU.
"""
function = WriteMultipleCoils()
function.starting_address = starting_address
function.values = values
return _create_request_adu(slave_id, function.request_pdu)
[docs]def write_multiple_registers(slave_id, starting_address, values):
""" Return ADU for Modbus function code 16: Write Multiple Registers.
:param slave_id: Number of slave.
:return: Byte array with ADU.
"""
function = WriteMultipleRegisters()
function.starting_address = starting_address
function.values = values
return _create_request_adu(slave_id, function.request_pdu)
[docs]def parse_response_adu(resp_adu, req_adu=None):
""" Parse response ADU and return response data. Some functions require
request ADU to fully understand request ADU.
:param resp_adu: Resonse ADU.
:param req_adu: Request ADU, default None.
:return: Response data.
"""
resp_pdu = resp_adu[1:-2]
validate_crc(resp_adu)
req_pdu = None
if req_adu is not None:
req_pdu = req_adu[1:-2]
function = create_function_from_response_pdu(resp_pdu, req_pdu)
return function.data
def raise_for_exception_adu(resp_adu):
""" Check a response ADU for error
:param resp_adu: Response ADU.
:raises ModbusError: When a response contains an error code.
"""
resp_pdu = resp_adu[1:-2]
pdu_to_function_code_or_raise_error(resp_pdu)
[docs]def send_message(adu, serial_port):
""" Send ADU over serial to to server and return parsed response.
:param adu: Request ADU.
:param sock: Serial port instance.
:return: Parsed response from server.
"""
serial_port.write(adu)
serial_port.flush()
# Check exception ADU (which is shorter than all other responses) first.
exception_adu_size = 5
response_error_adu = recv_exactly(serial_port.read, exception_adu_size)
raise_for_exception_adu(response_error_adu)
expected_response_size = \
expected_response_pdu_size_from_request_pdu(adu[1:-2]) + 3
response_remainder = recv_exactly(
serial_port.read, expected_response_size - exception_adu_size)
return parse_response_adu(response_error_adu + response_remainder, adu)