def _init_modbus(self, ):
"""modbusServer初始化
Returns:
server -- server服务器
slave -- 从机
"""
# 钩子
hooks.install_hook('modbus.Slave.handle_write_multiple_registers_request',
self._handle_write_multiple_registers_request)
hooks.install_hook('modbus.Slave.handle_write_single_register_request',
self._handle_write_single_registers_request)
# 初始化
server = modbus_tcp.TcpServer(address='0.0.0.0', port=PORT)
# 服务启动
server.start()
# 建立从机
slave = server.add_slave(SLAVE_ID)
# 建立块
# slave.add_block('0', cst.DISCRETE_INPUTS, 0, 100)
# slave.add_block('0', cst.COILS, 0, 100)
slave.add_block(SYS_ANALOG_INPUTS_BLOCK_NAME, cst.ANALOG_INPUTS, SYS_ANALOG_INPUTS_BLOCK_ADDRESS, 171)
slave.add_block(SYS_HOLDING_REGISTERS_BLOCK_NAME, cst.HOLDING_REGISTERS, SYS_HOLDING_REGISTERS_BLOCK_ADDRESS, 6)
# slave.add_block(HIDDEN_HOLDING_REGISTERS_BLOCK_NAME, cst.HOLDING_REGISTERS, 5999, 20)
return server, slave
def testExpectedLengthTooShort(self):
"""check that an error is raised if expected_length is too low"""
self.slave1.set_values("hr0-100", 0, range(100))
ok = True
def check_length_hook(args):
(master, response) = args
LOGGER.debug("expected: %d - actual: %d",
check_length_hook.expected_length, len(response))
check_length_hook.test.assertEqual(
check_length_hook.expected_length, len(response))
check_length_hook.test = self
hooks.install_hook("modbus_rtu.RtuMaster.after_recv",
check_length_hook)
for x in (5, 204):
try:
check_length_hook.expected_length = x
self.master.execute(1,
modbus_tk.defines.READ_HOLDING_REGISTERS,
0,
100,
expected_length=x)
except:
pass
else:
ok = False
hooks.uninstall_hook("modbus_rtu.RtuMaster.after_recv",
check_length_hook)
self.assert_(ok)
def testHookOnSetBlockData(self):
slave = self.server.add_slave(22)
def setblock_hook(args):
(block, slice, values) = args
setblock_hook.calls += 1
setblock_hook.calls = 0
install_hook('modbus.ModbusBlock.setitem', setblock_hook)
for block_type in (modbus_tk.defines.COILS, modbus_tk.defines.DISCRETE_INPUTS,
modbus_tk.defines.HOLDING_REGISTERS, modbus_tk.defines.ANALOG_INPUTS):
slave.add_block(str(block_type), block_type, 0, 20)
slave.set_values(str(block_type), 0, 1)
slave.set_values(str(block_type), 5, (1, 0, 1))
self.assertEquals(setblock_hook.calls, 8)
def __init__(
self,
port: str = "/dev/ttyUSB0",
baudrate: int = 115200,
address: int = 1,
serial: Serial = None,
master: RtuMaster = None,
close_after_call: bool = False,
):
self.address = address
self.serial = serial or Serial(port, baudrate)
self.master = master or RtuMaster(self.serial)
# Fixes "Response length is invalid 0" error
# If you experience this error, try changing your baudrate
self.master.set_timeout(0.05)
# Windows requires opening/closing the com port after each call
# This is a workaround that will drasticly reduce performance
if close_after_call:
hooks.install_hook("modbus_rtu.RtuMaster.before_send",
lambda self: self._do_open())
hooks.install_hook("modbus_rtu.RtuMaster.after_recv",
lambda self: self._do_close())
self.init()
self.v_multi = 100
self.i_multi = 100
self.p_multi = 100
self.v_in_multi = 100
if 60180 <= self.id <= 60189:
self.type = "RD6018"
elif 60120 <= self.id <= 60129:
self.type = "RD6012"
elif 60060 <= self.id <= 60064:
self.type = "RD6006"
self.i_multi = 1000
elif self.id == 60065:
self.type = "RD6006P"
self.v_multi = 1000
self.i_multi = 10000
self.p_multi = 1000
self.update()
def __init__(self, parent):
super(ModSlaveBusMonitorWindow,self).__init__(parent)
self._logger = logging.getLogger("modbus_tk")
self._model = QtCore.QStringListModel()
self._string_list = []
self._max_no_of_bus_monitor_lines = 50
self.packets = 0
self.errors = 0
self.svr = None
#setup UI
self.setupUI()
self.ui.lstRawData.setModel(self._model)
#install hooks
install_hook(SERVER_RTU_HOOKS[0], self._req_rtu_data)
install_hook(SERVER_RTU_HOOKS[1], self._resp_rtu_data)
install_hook(SERVER_TCP_HOOKS[0], self._req_tcp_data)
install_hook(SERVER_TCP_HOOKS[1], self._resp_tcp_data)
install_hook(SLAVE_HOOKS, self._error_data)
def testHookOnSetBlockData(self):
slave = self.server.add_slave(22)
def setblock_hook(args):
(block, slice, values) = args
setblock_hook.calls += 1
setblock_hook.calls = 0
install_hook('modbus.ModbusBlock.setitem', setblock_hook)
for block_type in (modbus_tk.defines.COILS,
modbus_tk.defines.DISCRETE_INPUTS,
modbus_tk.defines.HOLDING_REGISTERS,
modbus_tk.defines.ANALOG_INPUTS):
slave.add_block(str(block_type), block_type, 0, 20)
slave.set_values(str(block_type), 0, 1)
slave.set_values(str(block_type), 5, (1, 0, 1))
self.assertEquals(setblock_hook.calls, 8)
def __init__(self,modSvr,slaveAddress,timeIntervalSim,
start_addr_coils = 0 ,no_coils = 10,
start_addr_dis_inputs = 0, no_dis_inputs = 10,
start_addr_input_regs = 0, no_input_regs = 10,
start_addr_hold_regs = 0, no_hold_regs = 10):
super(ModSlave,self).__init__()
self._sim_interval = timeIntervalSim
self._start_addr_coils = start_addr_coils
self._no_coils = no_coils
self._start_addr_dis_inputs = start_addr_dis_inputs
self._no_dis_inputs = no_dis_inputs
self._start_addr_input_regs = start_addr_input_regs
self._no_input_regs = no_input_regs
self._start_addr_hold_regs = start_addr_hold_regs
self._no_hold_regs = no_hold_regs
self._logger = logging.getLogger("modbus_tk")
# data models
self.coils_data_model = ModSlaveMBDataModel(start_addr_coils, no_coils, 0)
self.coils_data_model.update_data.connect(self.set_coils_data)
self.dis_inputs_data_model = ModSlaveMBDataModel(start_addr_dis_inputs, no_dis_inputs, 0)
self.dis_inputs_data_model.update_data.connect(self.set_dis_inputs_data)
self.input_regs_data_model = ModSlaveMBDataModel(start_addr_input_regs, no_input_regs, 0)
self.input_regs_data_model.update_data.connect(self.set_input_regs_data)
self.hold_regs_data_model = ModSlaveMBDataModel(start_addr_hold_regs, no_hold_regs, 0)
self.hold_regs_data_model.update_data.connect(self.set_hold_regs_data)
#install hooks
install_hook(SERVER_HOOKS[1], self._update)
try:
#add slave
self.slave= modSvr.add_slave(slaveAddress)
#add blocks
self.slave.add_block('0', cst.COILS , start_addr_coils, no_coils)
self.slave.add_block('1', cst.DISCRETE_INPUTS, start_addr_dis_inputs, no_dis_inputs)
self.slave.add_block('3', cst.ANALOG_INPUTS , start_addr_input_regs, no_input_regs)
self.slave.add_block('4', cst.HOLDING_REGISTERS, start_addr_hold_regs, no_hold_regs)
#create timer -> repeat timer
self._sim_timer=rt.RepeatTimer(timeIntervalSim,self._blockValues,0)
except Exception as err:
self._logger.error("Slave Init Error : {0}".format(err))
#update data
self._blockValues()
def testExpectedLengthTooShort(self):
"""check that an error is raised if expected_length is too low"""
self.slave1.set_values("hr0-100", 0, range(100))
ok = True
def check_length_hook(args):
(master, response) = args
LOGGER.debug("expected: %d - actual: %d", check_length_hook.expected_length, len(response))
check_length_hook.test.assertEqual(check_length_hook.expected_length, len(response))
check_length_hook.test = self
hooks.install_hook("modbus_rtu.RtuMaster.after_recv", check_length_hook)
for x in (5, 204):
try:
check_length_hook.expected_length = x
self.master.execute(1, modbus_tk.defines.READ_HOLDING_REGISTERS, 0, 100, expected_length=x)
except:
pass
else:
ok = False
hooks.uninstall_hook("modbus_rtu.RtuMaster.after_recv", check_length_hook)
self.assert_(ok)
def main():
"""main"""
logger = modbus_tk.utils.create_logger("console")
try:
def on_before_connect(args):
master = args[0]
print("on_before_connect", master._host, master._port)
hooks.install_hook("modbus_tcp.TcpMaster.before_connect", on_before_connect)
def on_after_recv(args):
response = args[1]
print("on_after_recv", len(response), "bytes received")
hooks.install_hook("modbus_tcp.TcpMaster.after_recv", on_after_recv)
# Connect to the slave
master = modbus_tcp.TcpMaster()
master.set_timeout(5.0)
logger.info("connected")
logger.info(master.execute(1, cst.READ_HOLDING_REGISTERS, 0, 3))
#send some queries
#logger.info(master.execute(1, cst.READ_COILS, 0, 10))
#logger.info(master.execute(1, cst.READ_DISCRETE_INPUTS, 0, 8))
#logger.info(master.execute(1, cst.READ_INPUT_REGISTERS, 100, 3))
#logger.info(master.execute(1, cst.READ_HOLDING_REGISTERS, 100, 12))
#logger.info(master.execute(1, cst.WRITE_SINGLE_COIL, 7, output_value=1))
#logger.info(master.execute(1, cst.WRITE_SINGLE_REGISTER, 100, output_value=54))
#logger.info(master.execute(1, cst.WRITE_MULTIPLE_COILS, 0, output_value=[1, 1, 0, 1, 1, 0, 1, 1]))
#logger.info(master.execute(1, cst.WRITE_MULTIPLE_REGISTERS, 100, output_value=xrange(12)))
except modbus_tk.modbus.ModbusError as exc:
logger.error("%s- Code=%d", exc, exc.get_exception_code())
def main():
"""main"""
logger = modbus_tk.utils.create_logger("console", level=logging.DEBUG)
def on_after_recv(data):
logger.info(data)
master, bytes_data = data
# logger.info(bytes_data)
# logger.info(master)
hooks.install_hook('modbus.Master.after_recv', on_after_recv)
try:
def on_before_connect(args):
master = args[0]
logger.info(args[0])
logger.debug("on_before_connect {0} {1}".format(
master._host, master._port))
hooks.install_hook("modbus_tcp.TcpMaster.before_connect",
on_before_connect)
def on_after_recv(args):
response = args[1]
logger.debug("on_after_recv {0} bytes received".format(
len(response)))
hooks.install_hook("modbus_tcp.TcpMaster.after_recv", on_after_recv)
# Connect to the slave
master = modbus_tcp.TcpMaster()
master.set_timeout(5.0)
logger.info("connected")
logger.info(master.execute(1, cst.READ_HOLDING_REGISTERS, 0, 100))
# logger.info(master.execute(1, cst.READ_HOLDING_REGISTERS, 0, 3))
# logger.info(master.execute(1, cst.READ_HOLDING_REGISTERS, 0, 2, data_format='f'))
# Read and write floats
# master.execute(1, cst.WRITE_MULTIPLE_REGISTERS, starting_address=0, output_value=[3.14], data_format='>f')
# logger.info(master.execute(1, cst.READ_HOLDING_REGISTERS, 0, 2, data_format='>f'))
# send some queries
# logger.info(master.execute(1, cst.READ_COILS, 0, 10))
# logger.info(master.execute(1, cst.READ_DISCRETE_INPUTS, 0, 8))
# logger.info(master.execute(1, cst.READ_INPUT_REGISTERS, 100, 3))
# logger.info(master.execute(1, cst.READ_HOLDING_REGISTERS, 100, 12))
# logger.info(master.execute(1, cst.WRITE_SINGLE_COIL, 7, output_value=1))
# logger.info(master.execute(1, cst.WRITE_SINGLE_REGISTER, 100, output_value=54))
# logger.info(master.execute(1, cst.WRITE_MULTIPLE_COILS, 0, output_value=[1, 1, 0, 1, 1, 0, 1, 1]))
# logger.info(master.execute(1, cst.WRITE_MULTIPLE_REGISTERS, 100, output_value=xrange(12)))
except modbus_tk.modbus.ModbusError as exc:
logger.error("%s- Code=%d", exc, exc.get_exception_code())
def main():
"""main"""
logger = modbus_tk.utils.create_logger("console", level=logging.DEBUG)
def on_after_recv(data):
master, bytes_data = data
logger.info(bytes_data)
hooks.install_hook('modbus.Master.after_recv', on_after_recv)
try:
def on_before_connect(args):
master = args[0]
logger.debug("on_before_connect {0} {1}".format(master._host, master._port))
hooks.install_hook("modbus_tcp.TcpMaster.before_connect", on_before_connect)
def on_after_recv(args):
response = args[1]
logger.debug("on_after_recv {0} bytes received".format(len(response)))
hooks.install_hook("modbus_tcp.TcpMaster.after_recv", on_after_recv)
# Connect to the slave
master = modbus_tcp.TcpMaster()
master.set_timeout(5.0)
logger.info("connected")
logger.info(master.execute(1, cst.READ_HOLDING_REGISTERS, 0, 3))
# logger.info(master.execute(1, cst.READ_HOLDING_REGISTERS, 0, 2, data_format='f'))
# Read and write floats
# master.execute(1, cst.WRITE_MULTIPLE_REGISTERS, starting_address=0, output_value=[3.14], data_format='>f')
# logger.info(master.execute(1, cst.READ_HOLDING_REGISTERS, 0, 2, data_format='>f'))
# send some queries
# logger.info(master.execute(1, cst.READ_COILS, 0, 10))
# logger.info(master.execute(1, cst.READ_DISCRETE_INPUTS, 0, 8))
# logger.info(master.execute(1, cst.READ_INPUT_REGISTERS, 100, 3))
# logger.info(master.execute(1, cst.READ_HOLDING_REGISTERS, 100, 12))
# logger.info(master.execute(1, cst.WRITE_SINGLE_COIL, 7, output_value=1))
# logger.info(master.execute(1, cst.WRITE_SINGLE_REGISTER, 100, output_value=54))
# logger.info(master.execute(1, cst.WRITE_MULTIPLE_COILS, 0, output_value=[1, 1, 0, 1, 1, 0, 1, 1]))
# logger.info(master.execute(1, cst.WRITE_MULTIPLE_REGISTERS, 100, output_value=xrange(12)))
except modbus_tk.modbus.ModbusError as exc:
logger.error("%s- Code=%d", exc, exc.get_exception_code())
def main():
"""main"""
logger = modbus_tk.utils.create_logger("console")
def on_after_recv(data):
master, bytes_data = data
print(bytes_data)
hooks.install_hook('modbus.Master.after_recv', on_after_recv)
try:
def on_before_connect(args):
master = args[0]
print("on_before_connect", master._host, master._port)
hooks.install_hook("modbus_tcp.TcpMaster.before_connect",
on_before_connect)
def on_after_recv(args):
response = args[1]
print("on_after_recv", len(response), "bytes received")
hooks.install_hook("modbus_tcp.TcpMaster.after_recv", on_after_recv)
# Connect to the slave
master = modbus_tcp.TcpMaster()
master.set_timeout(5.0)
logger.info("connected")
logger.info(master.execute(1, cst.READ_HOLDING_REGISTERS, 0, 3))
# send some queries
# logger.info(master.execute(1, cst.READ_COILS, 0, 10))
# logger.info(master.execute(1, cst.READ_DISCRETE_INPUTS, 0, 8))
# logger.info(master.execute(1, cst.READ_INPUT_REGISTERS, 100, 3))
# logger.info(master.execute(1, cst.READ_HOLDING_REGISTERS, 100, 12))
# logger.info(master.execute(1, cst.WRITE_SINGLE_COIL, 7, output_value=1))
# logger.info(master.execute(1, cst.WRITE_SINGLE_REGISTER, 100, output_value=54))
# logger.info(master.execute(1, cst.WRITE_MULTIPLE_COILS, 0, output_value=[1, 1, 0, 1, 1, 0, 1, 1]))
# logger.info(master.execute(1, cst.WRITE_MULTIPLE_REGISTERS, 100, output_value=xrange(12)))
except modbus_tk.modbus.ModbusError as exc:
logger.error("%s- Code=%d", exc, exc.get_exception_code())
def install_hook(cls, hook_name, method):
"""Helper method for installing hooks. This is necessary to ensure child methods are called if implemented."""
install_hook(hook_name, getattr(cls, method))
def main():
"""main"""
logger = modbus_tk.utils.create_logger("console", level=logging.DEBUG)
def on_after_recv(data):
master, bytes_data = data
logger.info(bytes_data)
hooks.install_hook('modbus.Master.after_recv', on_after_recv)
try:
def on_before_connect(args):
master = args[0]
logger.debug("on_before_connect {0} {1}".format(
master._host, master._port))
hooks.install_hook("modbus_tcp.TcpMaster.before_connect",
on_before_connect)
def on_after_recv(args):
response = args[1]
logger.debug("on_after_recv {0} bytes received".format(
len(response)))
hooks.install_hook("modbus_tcp.TcpMaster.after_recv", on_after_recv)
# Connect to the slave
master = modbus_tcp.TcpMaster(host='10.0.0.1', port=502)
master.set_timeout(5.0)
logger.info("connected")
# master.execute(1, cst.READ_DISCRETE_INPUTS, 0, 10)
# master.execute(1, cst.WRITE_MULTIPLE_REGISTERS, starting_address=4096, output_value=arrayManualModePower[0], data_format='>f')
# master.execute(1, cst.WRITE_MULTIPLE_REGISTERS, starting_address=4098, output_value=arrayManualModePower[1], data_format='>f')
# master.execute(1, cst.WRITE_MULTIPLE_REGISTERS, starting_address=4100, output_value=arrayManualModePower[2], data_format='>f')
# master.execute(1, cst.WRITE_SINGLE_REGISTER, 4096, output_value=arrayManualModePower[0])
# master.execute(1, cst.WRITE_SINGLE_REGISTER, 4097, output_value=arrayManualModePower[1])
# master.execute(1, cst.WRITE_SINGLE_REGISTER, 4098, output_value=arrayManualModePower[2])
master.execute(1,
cst.WRITE_MULTIPLE_COILS,
0,
output_value=arrayManualMode)
print(arrayManualMode)
print(arrayManualModePower)
# logger.info(master.execute(1, cst.READ_HOLDING_REGISTERS, 0, 2)) ##
# logger.info(master.execute(1, cst.READ_HOLDING_REGISTERS, 0, 2, data_format='f'))
# Read and write floats
# master.execute(1, cst.WRITE_MULTIPLE_REGISTERS, starting_address=0, output_value=[3.14], data_format='>f')
# logger.info(master.execute(1, cst.READ_HOLDING_REGISTERS, 0, 2, data_format='>f'))
# send some queries
# logger.info(master.execute(1, cst.READ_COILS, 0, 10))
# logger.info(master.execute(1, cst.READ_DISCRETE_INPUTS, 0, 8))
# self, slave, function_code, starting_address, quantity_of_x = 0, output_value = 0, data_format = "", expected_length = -1, write_starting_address_FC23 = 0):
# logger.info(master.execute(1, cst.READ_INPUT_REGISTERS, 16, 1))
# logger.info(master.execute(1, cst.READ_INPUT_REGISTERS, 4097, 1))
# logger.info(master.execute(1, cst.READ_HOLDING_REGISTERS, 100, 12))
# logger.info(master.execute(1, cst.WRITE_SINGLE_COIL, 7, output_value=1))
# logger.info(master.execute(1, cst.WRITE_SINGLE_REGISTER, 100, output_value=54))
# logger.info(master.execute(1, cst.WRITE_MULTIPLE_COILS, 0, output_value=[1, 1, 0, 1, 1, 0, 1, 1]))
# logger.info(master.execute(1, cst.WRITE_MULTIPLE_REGISTERS, 100, output_value=xrange(12)))
except modbus_tk.modbus.ModbusError as exc:
logger.error("%s- Code=%d", exc, exc.get_exception_code())
def _do_install_hook(self, args):
"""install a function as a hook"""
hook_name = args[1]
fct_name = args[2]
hooks.install_hook(hook_name, self._hooks_fct[fct_name])
def _do_install_hook(self, args):
"""install a function as a hook"""
hook_name = args[1]
fct_name = args[2]
hooks.install_hook(hook_name, self._hooks_fct[fct_name])
data_collector = SystemDataCollector(5)
#create the thread in charge of calling the data collector
system_monitor = WorkerThread(data_collector.collect)
#create the modbus TCP simulator and one slave
#and one block of analog inputs
simu = Simulator(TcpServer())
slave = simu.server.add_slave(1)
slave.add_block("Temp", ANALOG_INPUTS, 0, 10)
slave.add_block("switch", modbus_tk.defines.COILS, 100, 10)
switch_block = slave._get_block("switch")
print "switch block"
print switch_block
install_hook('modbus.ModbusBlock.setitem', setblock_hook)
# modbus.Slave.handle_read_coils_request
# modbus.Slave.handle_read_discrete_inputs_request
# modbus.Slave.handle_read_holding_registers_request
# modbus.Slave.handle_read_input_registers_request
try:
LOGGER.info("'quit' for closing the server")
#start the data collect
system_monitor.start()
#start the simulator! will block until quit command is received
simu.start()
except Exception, excpt:
