#!/usr/bin/env python
# -*- coding: utf-8 -*-
# This file is part of Beremiz, a Integrated Development Environment for
# programming IEC 61131-3 automates supporting plcopen standard and CanFestival.
#
# Copyright (c) 2016 Mario de Sousa (msousa@fe.up.pt)
#
# This program is free software: you can redistribute it and/or modify
# it under the terms of the GNU General Public License as published by
# the Free Software Foundation, either version 2 of the License, or
# (at your option) any later version.
#
# This program is distributed in the hope that it will be useful,
# but WITHOUT ANY WARRANTY; without even the implied warranty of
# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
# GNU General Public License for more details.
#
# You should have received a copy of the GNU General Public License
# along with this program. If not, see <http://www.gnu.org/licenses/>.
#
# This code is made available on the understanding that it will not be
# used in safety-critical situations without a full and competent review.
import os
from modbus.mb_utils import *
from ConfigTreeNode import ConfigTreeNode
from PLCControler import LOCATION_CONFNODE, LOCATION_VAR_MEMORY
import util.paths as paths
ModbusPath = paths.ThirdPartyPath("Modbus")
#
#
#
# C L I E N T R E Q U E S T #
#
#
#
class _RequestPlug(object):
XSD = """<?xml version="1.0" encoding="ISO-8859-1" ?>
<xsd:schema xmlns:xsd="http://www.w3.org/2001/XMLSchema">
<xsd:element name="ModbusRequest">
<xsd:complexType>
<xsd:attribute name="Function" type="xsd:string" use="optional" default="01 - Read Coils"/>
<xsd:attribute name="SlaveID" use="optional" default="1">
<xsd:simpleType>
<xsd:restriction base="xsd:integer">
<xsd:minInclusive value="0"/>
<xsd:maxInclusive value="255"/>
</xsd:restriction>
</xsd:simpleType>
</xsd:attribute>
<xsd:attribute name="Nr_of_Channels" use="optional" default="1">
<xsd:simpleType>
<xsd:restriction base="xsd:integer">
<xsd:minInclusive value="1"/>
<xsd:maxInclusive value="2000"/>
</xsd:restriction>
</xsd:simpleType>
</xsd:attribute>
<xsd:attribute name="Start_Address" use="optional" default="0">
<xsd:simpleType>
<xsd:restriction base="xsd:integer">
<xsd:minInclusive value="0"/>
<xsd:maxInclusive value="65535"/>
</xsd:restriction>
</xsd:simpleType>
</xsd:attribute>
<xsd:attribute name="Timeout_in_ms" use="optional" default="10">
<xsd:simpleType>
<xsd:restriction base="xsd:integer">
<xsd:minInclusive value="1"/>
<xsd:maxInclusive value="100000"/>
</xsd:restriction>
</xsd:simpleType>
</xsd:attribute>
<xsd:attribute name="Write_on_change" type="xsd:boolean" use="optional" default="false"/>
</xsd:complexType>
</xsd:element>
</xsd:schema>
"""
def GetParamsAttributes(self, path=None):
infos = ConfigTreeNode.GetParamsAttributes(self, path=path)
for element in infos:
if element["name"] == "ModbusRequest":
for child in element["children"]:
if child["name"] == "Function":
_list = list(modbus_function_dict.keys())
_list.sort()
child["type"] = _list
return infos
def GetVariableLocationTree(self):
current_location = self.GetCurrentLocation()
name = self.BaseParams.getName()
address = self.GetParamsAttributes()[0]["children"][3]["value"]
count = self.GetParamsAttributes()[0]["children"][2]["value"]
function = self.GetParamsAttributes()[0]["children"][0]["value"]
# 'BOOL' or 'WORD'
datatype = modbus_function_dict[function][3]
# 1 or 16
datasize = modbus_function_dict[function][4]
# 'Q' for coils and holding registers, 'I' for input discretes and input registers
# datazone = modbus_function_dict[function][5]
# 'X' for bits, 'W' for words
datatacc = modbus_function_dict[function][6]
# 'Coil', 'Holding Register', 'Input Discrete' or 'Input Register'
dataname = modbus_function_dict[function][7]
# start off with a boolean entry
# This is a flag used to allow the user program to control when to
# execute the Modbus request.
# NOTE: If the Modbus request has a 'current_location' of
# %QX1.2.3
# then the execution control flag will be
# %QX1.2.3.0.0
# and all the Modbus registers/coils will be
# %QX1.2.3.0
# %QX1.2.3.1
# %QX1.2.3.2
# ..
# %QX1.2.3.n
entries = []
entries.append({
"name": "Execute request flag",
"type": LOCATION_VAR_MEMORY,
"size": 1, # BOOL flag
"IEC_type": "BOOL", # BOOL flag
"var_name": "var_name",
"location": "X" + ".".join([str(i) for i in current_location]) + ".0.0",
"description": "Modbus request execution control flag",
"children": []})
entries.append({
"name": "Modbus Request Status flag",
"type": LOCATION_VAR_MEMORY,
"size": 8, # BYTE flag
"IEC_type": "BYTE", # BYTE flag
"var_name": "var_name",
"location": "B" + ".".join([str(i) for i in current_location]) + ".0.1",
"description": "Modbus request status flag (0 -> OK, 1 -> Network error, 2 -> Received invalid frame, 3 -> Timeout, 4 -> Received error frame)",
"children": []})
entries.append({
"name": "Modbus Error Code",
"type": LOCATION_VAR_MEMORY,
"size": 8, # BYTE flag
"IEC_type": "BYTE", # BYTE flag
"var_name": "var_name",
"location": "B" + ".".join([str(i) for i in current_location]) + ".0.2",
"description": "Modbus Error Code received in Modbus error frame",
"children": []})
for offset in range(address, address + count):
entries.append({
"name": dataname + " " + str(offset),
"type": LOCATION_VAR_MEMORY,
"size": datasize,
"IEC_type": datatype,
"var_name": "MB_" + "".join([w[0] for w in dataname.split()]) + "_" + str(offset),
"location": datatacc + ".".join([str(i) for i in current_location]) + "." + str(offset),
"description": "description",
"children": []})
return {"name": name,
"type": LOCATION_CONFNODE,
"location": ".".join([str(i) for i in current_location]) + ".x",
"children": entries}
def CTNGenerate_C(self, buildpath, locations):
"""
Generate C code
@param current_location: Tupple containing plugin IEC location : %I0.0.4.5 => (0,0,4,5)
@param locations: List of complete variables locations \
[{"IEC_TYPE" : the IEC type (i.e. "INT", "STRING", ...)
"NAME" : name of the variable (generally "__IW0_1_2" style)
"DIR" : direction "Q","I" or "M"
"SIZE" : size "X", "B", "W", "D", "L"
"LOC" : tuple of interger for IEC location (0,1,2,...)
}, ...]
@return: [(C_file_name, CFLAGS),...] , LDFLAGS_TO_APPEND
"""
return [], "", False
#
#
#
# S E R V E R M E M O R Y A R E A #
#
#
#
# dictionary implementing:
# key - string with the description we want in the request plugin GUI
# list - (modbus function number, request type, max count value)
modbus_memtype_dict = {
"01 - Coils": ('1', 'rw_bits', 65536, "BOOL", 1, "Q", "X", "Coil"),
"02 - Input Discretes": ('2', 'ro_bits', 65536, "BOOL", 1, "I", "X", "Input Discrete"),
"03 - Holding Registers": ('3', 'rw_words', 65536, "WORD", 16, "Q", "W", "Holding Register"),
"04 - Input Registers": ('4', 'ro_words', 65536, "WORD", 16, "I", "W", "Input Register"),
}
class _MemoryAreaPlug(object):
XSD = """<?xml version="1.0" encoding="ISO-8859-1" ?>
<xsd:schema xmlns:xsd="http://www.w3.org/2001/XMLSchema">
<xsd:element name="MemoryArea">
<xsd:complexType>
<xsd:attribute name="MemoryAreaType" type="xsd:string" use="optional" default="01 - Coils"/>
<xsd:attribute name="Nr_of_Channels" use="optional" default="1">
<xsd:simpleType>
<xsd:restriction base="xsd:integer">
<xsd:minInclusive value="1"/>
<xsd:maxInclusive value="65536"/>
</xsd:restriction>
</xsd:simpleType>
</xsd:attribute>
<xsd:attribute name="Start_Address" use="optional" default="0">
<xsd:simpleType>
<xsd:restriction base="xsd:integer">
<xsd:minInclusive value="0"/>
<xsd:maxInclusive value="65535"/>
</xsd:restriction>
</xsd:simpleType>
</xsd:attribute>
</xsd:complexType>
</xsd:element>
</xsd:schema>
"""
def GetParamsAttributes(self, path=None):
infos = ConfigTreeNode.GetParamsAttributes(self, path=path)
for element in infos:
if element["name"] == "MemoryArea":
for child in element["children"]:
if child["name"] == "MemoryAreaType":
_list = list(modbus_memtype_dict.keys())
_list.sort()
child["type"] = _list
return infos
def GetVariableLocationTree(self):
current_location = self.GetCurrentLocation()
name = self.BaseParams.getName()
address = self.GetParamsAttributes()[0]["children"][2]["value"]
count = self.GetParamsAttributes()[0]["children"][1]["value"]
function = self.GetParamsAttributes()[0]["children"][0]["value"]
# 'BOOL' or 'WORD'
datatype = modbus_memtype_dict[function][3]
# 1 or 16
datasize = modbus_memtype_dict[function][4]
# 'Q' for coils and holding registers, 'I' for input discretes and input registers
# datazone = modbus_memtype_dict[function][5]
# 'X' for bits, 'W' for words
datatacc = modbus_memtype_dict[function][6]
# 'Coil', 'Holding Register', 'Input Discrete' or 'Input Register'
dataname = modbus_memtype_dict[function][7]
entries = []
for offset in range(address, address + count):
entries.append({
"name": dataname + " " + str(offset),
"type": LOCATION_VAR_MEMORY,
"size": datasize,
"IEC_type": datatype,
"var_name": "MB_" + "".join([w[0] for w in dataname.split()]) + "_" + str(offset),
"location": datatacc + ".".join([str(i) for i in current_location]) + "." + str(offset),
"description": "description",
"children": []})
return {"name": name,
"type": LOCATION_CONFNODE,
"location": ".".join([str(i) for i in current_location]) + ".x",
"children": entries}
def CTNGenerate_C(self, buildpath, locations):
"""
Generate C code
@param current_location: Tupple containing plugin IEC location : %I0.0.4.5 => (0,0,4,5)
@param locations: List of complete variables locations \
[{"IEC_TYPE" : the IEC type (i.e. "INT", "STRING", ...)
"NAME" : name of the variable (generally "__IW0_1_2" style)
"DIR" : direction "Q","I" or "M"
"SIZE" : size "X", "B", "W", "D", "L"
"LOC" : tuple of interger for IEC location (0,1,2,...)
}, ...]
@return: [(C_file_name, CFLAGS),...] , LDFLAGS_TO_APPEND
"""
return [], "", False
#
#
#
# T C P C L I E N T #
#
#
#
# XXX TODO "Configuration_Name" should disapear in favor of CTN Name, which is already unique
class _ModbusTCPclientPlug(object):
XSD = """<?xml version="1.0" encoding="ISO-8859-1" ?>
<xsd:schema xmlns:xsd="http://www.w3.org/2001/XMLSchema">
<xsd:element name="ModbusTCPclient">
<xsd:complexType>
<xsd:attribute name="Configuration_Name" type="xsd:string" use="optional" default=""/>
<xsd:attribute name="Remote_IP_Address" type="xsd:string" use="optional" default="localhost"/>
<xsd:attribute name="Remote_Port_Number" type="xsd:string" use="optional" default="502"/>
<xsd:attribute name="Invocation_Rate_in_ms" use="optional" default="100">
<xsd:simpleType>
<xsd:restriction base="xsd:unsignedLong">
<xsd:minInclusive value="0"/>
<xsd:maxInclusive value="2147483647"/>
</xsd:restriction>
</xsd:simpleType>
</xsd:attribute>
<xsd:attribute name="Request_Delay_in_ms" use="optional" default="0">
<xsd:simpleType>
<xsd:restriction base="xsd:integer">
<xsd:minInclusive value="0"/>
<xsd:maxInclusive value="2147483647"/>
</xsd:restriction>
</xsd:simpleType>
</xsd:attribute>
</xsd:complexType>
</xsd:element>
</xsd:schema>
"""
# NOTE: Max value of 2147483647 (i32_max) for Invocation_Rate_in_ms and Request_Delay_in_ms
# corresponds to aprox 25 days.
CTNChildrenTypes = [("ModbusRequest", _RequestPlug, "Request")]
# TODO: Replace with CTNType !!!
PlugType = "ModbusTCPclient"
def __init__(self):
# NOTE:
# The ModbusTCPclient attribute is added dynamically by ConfigTreeNode._AddParamsMembers()
# It will be an XML parser object created by
# GenerateParserFromXSDstring(self.XSD).CreateRoot()
# Set the default value for the "Configuration_Name" parameter
# The default value will need to be different for each instance of the
# _ModbusTCPclientPlug class, so we cannot hardcode the default value in the XSD above
# This value will be used by the web interface
# (i.e. the extension to the web server used to configure the Modbus parameters).
# (The web server is run/activated/started by Beremiz_service.py)
# (The web server code is found in runtime/NevowServer.py)
# (The Modbus extension to the web server is found in runtime/Modbus_config.py)
loc_str = ".".join(map(str, self.GetCurrentLocation()))
self.ModbusTCPclient.setConfiguration_Name("Modbus TCP Client " + loc_str)
# Return the number of (modbus library) nodes this specific TCP client will need
# return type: (tcp nodes, rtu nodes, ascii nodes)
def GetNodeCount(self):
return (1, 0, 0)
def GetConfigName(self):
""" Return the node's Configuration_Name """
return self.ModbusTCPclient.getConfiguration_Name()
def CTNGenerate_C(self, buildpath, locations):
"""
Generate C code
@param current_location: Tupple containing plugin IEC location : %I0.0.4.5 => (0,0,4,5)
@param locations: List of complete variables locations \
[{"IEC_TYPE" : the IEC type (i.e. "INT", "STRING", ...)
"NAME" : name of the variable (generally "__IW0_1_2" style)
"DIR" : direction "Q","I" or "M"
"SIZE" : size "X", "B", "W", "D", "L"
"LOC" : tuple of interger for IEC location (0,1,2,...)
}, ...]
@return: [(C_file_name, CFLAGS),...] , LDFLAGS_TO_APPEND
"""
return [], "", False
#
#
#
# T C P S E R V E R #
#
#
#
# XXX TODO "Configuration_Name" should disapear in favor of CTN Name, which is already unique
class _ModbusTCPserverPlug(object):
# NOTE: the Port number is a 'string' and not an 'integer'!
# This is because the underlying modbus library accepts strings
# (e.g.: well known port names!)
XSD = """<?xml version="1.0" encoding="ISO-8859-1" ?>
<xsd:schema xmlns:xsd="http://www.w3.org/2001/XMLSchema">
<xsd:element name="ModbusServerNode">
<xsd:complexType>
<xsd:attribute name="Configuration_Name" type="xsd:string" use="optional" default=""/>
<xsd:attribute name="Local_IP_Address" type="xsd:string" use="optional" default="#ANY#"/>
<xsd:attribute name="Local_Port_Number" type="xsd:string" use="optional" default="502"/>
<xsd:attribute name="SlaveID" use="optional" default="0">
<xsd:simpleType>
<xsd:restriction base="xsd:integer">
<xsd:minInclusive value="0"/>
<xsd:maxInclusive value="255"/>
</xsd:restriction>
</xsd:simpleType>
</xsd:attribute>
</xsd:complexType>
</xsd:element>
</xsd:schema>
"""
CTNChildrenTypes = [("MemoryArea", _MemoryAreaPlug, "Memory Area")]
# TODO: Replace with CTNType !!!
PlugType = "ModbusTCPserver"
def __init__(self):
# NOTE:
# The ModbusServerNode attribute is added dynamically by ConfigTreeNode._AddParamsMembers()
# It will be an XML parser object created by
# GenerateParserFromXSDstring(self.XSD).CreateRoot()
# Set the default value for the "Configuration_Name" parameter
# The default value will need to be different for each instance of the
# _ModbusTCPclientPlug class, so we cannot hardcode the default value in the XSD above
# This value will be used by the web interface
# (i.e. the extension to the web server used to configure the Modbus parameters).
# (The web server is run/activated/started by Beremiz_service.py)
# (The web server code is found in runtime/NevowServer.py)
# (The Modbus extension to the web server is found in runtime/Modbus_config.py)
loc_str = ".".join(map(str, self.GetCurrentLocation()))
self.ModbusServerNode.setConfiguration_Name("Modbus TCP Server " + loc_str)
# Return the number of (modbus library) nodes this specific TCP server will need
# return type: (tcp nodes, rtu nodes, ascii nodes)
def GetNodeCount(self):
return (1, 0, 0)
# Return a list with a single tuple conatining the (location, IP address, port number)
# location : location of this node in the configuration tree
# port number: IP port used by this Modbus/IP server
# IP address : IP address of the network interface on which the server will be listening
# ("", "*", or "#ANY#" => listening on all interfaces!)
def GetIPServerPortNumbers(self):
port = self.ModbusServerNode.getLocal_Port_Number()
addr = self.ModbusServerNode.getLocal_IP_Address()
return [(self.GetCurrentLocation(), addr, port)]
def GetConfigName(self):
""" Return the node's Configuration_Name """
return self.ModbusServerNode.getConfiguration_Name()
def GetVariableLocationTree(self):
current_location = self.GetCurrentLocation()
name = self.BaseParams.getName()
# start off with flags that count the number of Modbus requests/transactions
# handled by this Modbus server/slave.
# These flags are mapped onto located variables and therefore available to the user programs
# May be used to detect communication errors.
# execute the Modbus request.
# NOTE: If the Modbus slave has a 'current_location' of
# %QX1.2
# then the "Modbus Read Request Counter" will be %MD1.2.0
# then the "Modbus Write Request Counter" will be %MD1.2.1
# then the "Modbus Read Request Flag" will be %MD1.2.2
# then the "Modbus Write Request Flag" will be %MD1.2.3
#
# Note that any MemoryArea contained under this server/slave
# will ocupy the locations of type
# %MX or %MW
# which will never clash with the %MD used here.
# Additionaly, any MemoryArea contained under this server/slave
# will ocupy locations with
# %M1.2.a.b (with a and b being numbers in range 0, 1, ...)
# and therefore never ocupy the locations
# %M1.2.0
# %M1.2.1
# %M1.2.2
# %M1.2.3
# used by the following flags/counters.
entries = []
entries.append({
"name": "Modbus Read Request Counter",
"type": LOCATION_VAR_MEMORY,
"size": 32, # UDINT flag
"IEC_type": "UDINT", # UDINT flag
"var_name": "var_name",
"location": "D" + ".".join([str(i) for i in current_location]) + ".0",
"description": "Modbus read request counter",
"children": []})
entries.append({
"name": "Modbus Write Request Counter",
"type": LOCATION_VAR_MEMORY,
"size": 32, # UDINT flag
"IEC_type": "UDINT", # UDINT flag
"var_name": "var_name",
"location": "D" + ".".join([str(i) for i in current_location]) + ".1",
"description": "Modbus write request counter",
"children": []})
entries.append({
"name": "Modbus Read Request Flag",
"type": LOCATION_VAR_MEMORY,
"size": 1, # BOOL flag
"IEC_type": "BOOL", # BOOL flag
"var_name": "var_name",
"location": "X" + ".".join([str(i) for i in current_location]) + ".2",
"description": "Modbus read request flag",
"children": []})
entries.append({
"name": "Modbus write Request Flag",
"type": LOCATION_VAR_MEMORY,
"size": 1, # BOOL flag
"IEC_type": "BOOL", # BOOL flag
"var_name": "var_name",
"location": "X" + ".".join([str(i) for i in current_location]) + ".3",
"description": "Modbus write request flag",
"children": []})
# recursively call all the Memory Areas under this Modbus server/save
# i.e., all the children objects which will be of class _MemoryAreaPlug
for child in self.IECSortedChildren():
entries.append(child.GetVariableLocationTree())
return {"name": name,
"type": LOCATION_CONFNODE,
"location": ".".join([str(i) for i in current_location]) + ".x",
"children": entries}
def CTNGenerate_C(self, buildpath, locations):
"""
Generate C code
@param current_location: Tupple containing plugin IEC location : %I0.0.4.5 => (0,0,4,5)
@param locations: List of complete variables locations \
[{"IEC_TYPE" : the IEC type (i.e. "INT", "STRING", ...)
"NAME" : name of the variable (generally "__IW0_1_2" style)
"DIR" : direction "Q","I" or "M"
"SIZE" : size "X", "B", "W", "D", "L"
"LOC" : tuple of interger for IEC location (0,1,2,...)
}, ...]
@return: [(C_file_name, CFLAGS),...] , LDFLAGS_TO_APPEND
"""
return [], "", False
#
#
#
# R T U C L I E N T #
#
#
#
# XXX TODO "Configuration_Name" should disapear in favor of CTN Name, which is already unique
class _ModbusRTUclientPlug(object):
XSD = """<?xml version="1.0" encoding="ISO-8859-1" ?>
<xsd:schema xmlns:xsd="http://www.w3.org/2001/XMLSchema">
<xsd:element name="ModbusRTUclient">
<xsd:complexType>
<xsd:attribute name="Configuration_Name" type="xsd:string" use="optional" default=""/>
<xsd:attribute name="Serial_Port" type="xsd:string" use="optional" default="/dev/ttyS0"/>
<xsd:attribute name="Baud_Rate" type="xsd:string" use="optional" default="9600"/>
<xsd:attribute name="Parity" type="xsd:string" use="optional" default="even"/>
<xsd:attribute name="Stop_Bits" type="xsd:string" use="optional" default="1"/>
<xsd:attribute name="Invocation_Rate_in_ms" use="optional" default="100">
<xsd:simpleType>
<xsd:restriction base="xsd:integer">
<xsd:minInclusive value="0"/>
<xsd:maxInclusive value="2147483647"/>
</xsd:restriction>
</xsd:simpleType>
</xsd:attribute>
<xsd:attribute name="Request_Delay_in_ms" use="optional" default="0">
<xsd:simpleType>
<xsd:restriction base="xsd:integer">
<xsd:minInclusive value="0"/>
<xsd:maxInclusive value="2147483647"/>
</xsd:restriction>
</xsd:simpleType>
</xsd:attribute>
</xsd:complexType>
</xsd:element>
</xsd:schema>
"""
# NOTE: Max value of 2147483647 (i32_max) for Invocation_Rate_in_ms and Request_Delay_in_ms
# corresponds to aprox 25 days.
CTNChildrenTypes = [("ModbusRequest", _RequestPlug, "Request")]
# TODO: Replace with CTNType !!!
PlugType = "ModbusRTUclient"
def __init__(self):
# NOTE:
# The ModbusRTUclient attribute is added dynamically by ConfigTreeNode._AddParamsMembers()
# It will be an XML parser object created by
# GenerateParserFromXSDstring(self.XSD).CreateRoot()
# Set the default value for the "Configuration_Name" parameter
# The default value will need to be different for each instance of the
# _ModbusTCPclientPlug class, so we cannot hardcode the default value in the XSD above
# This value will be used by the web interface
# (i.e. the extension to the web server used to configure the Modbus parameters).
# (The web server is run/activated/started by Beremiz_service.py)
# (The web server code is found in runtime/NevowServer.py)
# (The Modbus extension to the web server is found in runtime/Modbus_config.py)
loc_str = ".".join(map(str, self.GetCurrentLocation()))
self.ModbusRTUclient.setConfiguration_Name("Modbus RTU Client " + loc_str)
def GetParamsAttributes(self, path=None):
infos = ConfigTreeNode.GetParamsAttributes(self, path=path)
for element in infos:
if element["name"] == "ModbusRTUclient":
for child in element["children"]:
if child["name"] == "Baud_Rate":
child["type"] = modbus_serial_baudrate_list
if child["name"] == "Stop_Bits":
child["type"] = modbus_serial_stopbits_list
if child["name"] == "Parity":
child["type"] = list(modbus_serial_parity_dict.keys())
return infos
# Return the number of (modbus library) nodes this specific RTU client will need
# return type: (tcp nodes, rtu nodes, ascii nodes)
def GetNodeCount(self):
return (0, 1, 0)
def GetConfigName(self):
""" Return the node's Configuration_Name """
return self.ModbusRTUclient.getConfiguration_Name()
def CTNGenerate_C(self, buildpath, locations):
"""
Generate C code
@param current_location: Tupple containing plugin IEC location : %I0.0.4.5 => (0,0,4,5)
@param locations: List of complete variables locations \
[{"IEC_TYPE" : the IEC type (i.e. "INT", "STRING", ...)
"NAME" : name of the variable (generally "__IW0_1_2" style)
"DIR" : direction "Q","I" or "M"
"SIZE" : size "X", "B", "W", "D", "L"
"LOC" : tuple of interger for IEC location (0,1,2,...)
}, ...]
@return: [(C_file_name, CFLAGS),...] , LDFLAGS_TO_APPEND
"""
return [], "", False
#
#
#
# R T U S L A V E #
#
#
#
# XXX TODO "Configuration_Name" should disapear in favor of CTN Name, which is already unique
class _ModbusRTUslavePlug(object):
XSD = """<?xml version="1.0" encoding="ISO-8859-1" ?>
<xsd:schema xmlns:xsd="http://www.w3.org/2001/XMLSchema">
<xsd:element name="ModbusRTUslave">
<xsd:complexType>
<xsd:attribute name="Configuration_Name" type="xsd:string" use="optional" default=""/>
<xsd:attribute name="Serial_Port" type="xsd:string" use="optional" default="/dev/ttyS0"/>
<xsd:attribute name="Baud_Rate" type="xsd:string" use="optional" default="9600"/>
<xsd:attribute name="Parity" type="xsd:string" use="optional" default="even"/>
<xsd:attribute name="Stop_Bits" type="xsd:string" use="optional" default="1"/>
<xsd:attribute name="SlaveID" use="optional" default="1">
<xsd:simpleType>
<xsd:restriction base="xsd:integer">
<xsd:minInclusive value="1"/>
<xsd:maxInclusive value="255"/>
</xsd:restriction>
</xsd:simpleType>
</xsd:attribute>
</xsd:complexType>
</xsd:element>
</xsd:schema>
"""
CTNChildrenTypes = [("MemoryArea", _MemoryAreaPlug, "Memory Area")]
# TODO: Replace with CTNType !!!
PlugType = "ModbusRTUslave"
def __init__(self):
# NOTE:
# The ModbusRTUslave attribute is added dynamically by ConfigTreeNode._AddParamsMembers()
# It will be an XML parser object created by
# GenerateParserFromXSDstring(self.XSD).CreateRoot()
# Set the default value for the "Configuration_Name" parameter
# The default value will need to be different for each instance of the
# _ModbusTCPclientPlug class, so we cannot hardcode the default value in the XSD above
# This value will be used by the web interface
# (i.e. the extension to the web server used to configure the Modbus parameters).
# (The web server is run/activated/started by Beremiz_service.py)
# (The web server code is found in runtime/NevowServer.py)
# (The Modbus extension to the web server is found in runtime/Modbus_config.py)
loc_str = ".".join(map(str, self.GetCurrentLocation()))
self.ModbusRTUslave.setConfiguration_Name("Modbus RTU Slave " + loc_str)
def GetParamsAttributes(self, path=None):
infos = ConfigTreeNode.GetParamsAttributes(self, path=path)
for element in infos:
if element["name"] == "ModbusRTUslave":
for child in element["children"]:
if child["name"] == "Baud_Rate":
child["type"] = modbus_serial_baudrate_list
if child["name"] == "Stop_Bits":
child["type"] = modbus_serial_stopbits_list
if child["name"] == "Parity":
child["type"] = list(modbus_serial_parity_dict.keys())
return infos
# Return the number of (modbus library) nodes this specific RTU slave will need
# return type: (tcp nodes, rtu nodes, ascii nodes)
def GetNodeCount(self):
return (0, 1, 0)
def GetConfigName(self):
""" Return the node's Configuration_Name """
return self.ModbusRTUslave.getConfiguration_Name()
def GetVariableLocationTree(self):
current_location = self.GetCurrentLocation()
name = self.BaseParams.getName()
# start off with flags that count the number of Modbus requests/transactions
# handled by this Modbus server/slave.
# These flags are mapped onto located variables and therefore available to the user programs
# May be used to detect communication errors.
# execute the Modbus request.
# NOTE: If the Modbus slave has a 'current_location' of
# %QX1.2
# then the "Modbus Read Request Counter" will be %MD1.2.0
# then the "Modbus Write Request Counter" will be %MD1.2.1
# then the "Modbus Read Request Flag" will be %MD1.2.2
# then the "Modbus Write Request Flag" will be %MD1.2.3
#
# Note that any MemoryArea contained under this server/slave
# will ocupy the locations of type
# %MX or %MW
# which will never clash with the %MD used here.
# Additionaly, any MemoryArea contained under this server/slave
# will ocupy locations with
# %M1.2.a.b (with a and b being numbers in range 0, 1, ...)
# and therefore never ocupy the locations
# %M1.2.0
# %M1.2.1
# %M1.2.2
# %M1.2.3
# used by the following flags/counters.
entries = []
entries.append({
"name": "Modbus Read Request Counter",
"type": LOCATION_VAR_MEMORY,
"size": 32, # UDINT flag
"IEC_type": "UDINT", # UDINT flag
"var_name": "var_name",
"location": "D" + ".".join([str(i) for i in current_location]) + ".0",
"description": "Modbus read request counter",
"children": []})
entries.append({
"name": "Modbus Write Request Counter",
"type": LOCATION_VAR_MEMORY,
"size": 32, # UDINT flag
"IEC_type": "UDINT", # UDINT flag
"var_name": "var_name",
"location": "D" + ".".join([str(i) for i in current_location]) + ".1",
"description": "Modbus write request counter",
"children": []})
entries.append({
"name": "Modbus Read Request Flag",
"type": LOCATION_VAR_MEMORY,
"size": 1, # BOOL flag
"IEC_type": "BOOL", # BOOL flag
"var_name": "var_name",
"location": "X" + ".".join([str(i) for i in current_location]) + ".2",
"description": "Modbus read request flag",
"children": []})
entries.append({
"name": "Modbus write Request Flag",
"type": LOCATION_VAR_MEMORY,
"size": 1, # BOOL flag
"IEC_type": "BOOL", # BOOL flag
"var_name": "var_name",
"location": "X" + ".".join([str(i) for i in current_location]) + ".3",
"description": "Modbus write request flag",
"children": []})
# recursively call all the Memory Areas under this Modbus server/save
# i.e., all the children objects which will be of class _MemoryAreaPlug
for child in self.IECSortedChildren():
entries.append(child.GetVariableLocationTree())
return {"name": name,
"type": LOCATION_CONFNODE,
"location": ".".join([str(i) for i in current_location]) + ".x",
"children": entries}
def CTNGenerate_C(self, buildpath, locations):
"""
Generate C code
@param current_location: Tupple containing plugin IEC location : %I0.0.4.5 => (0,0,4,5)
@param locations: List of complete variables locations \
[{"IEC_TYPE" : the IEC type (i.e. "INT", "STRING", ...)
"NAME" : name of the variable (generally "__IW0_1_2" style)
"DIR" : direction "Q","I" or "M"
"SIZE" : size "X", "B", "W", "D", "L"
"LOC" : tuple of interger for IEC location (0,1,2,...)
}, ...]
@return: [(C_file_name, CFLAGS),...] , LDFLAGS_TO_APPEND
"""
return [], "", False
def _lt_to_str(loctuple):
return '.'.join(map(str, loctuple))
#
#
#
# R O O T C L A S S #
#
#
#
class RootClass(object):
XSD = """<?xml version="1.0" encoding="ISO-8859-1" ?>
<xsd:schema xmlns:xsd="http://www.w3.org/2001/XMLSchema">
<xsd:element name="ModbusRoot">
<xsd:complexType>
<xsd:attribute name="MaxRemoteTCPclients" use="optional" default="10">
<xsd:simpleType>
<xsd:restriction base="xsd:integer">
<xsd:minInclusive value="0"/>
<xsd:maxInclusive value="65535"/>
</xsd:restriction>
</xsd:simpleType>
</xsd:attribute>
</xsd:complexType>
</xsd:element>
</xsd:schema>
"""
CTNChildrenTypes = [("ModbusTCPclient", _ModbusTCPclientPlug, "Modbus TCP Client"),
("ModbusTCPserver", _ModbusTCPserverPlug, "Modbus TCP Server"),
("ModbusRTUclient", _ModbusRTUclientPlug, "Modbus RTU Client"),
("ModbusRTUslave", _ModbusRTUslavePlug, "Modbus RTU Slave")]
# Return the number of (modbus library) nodes this specific instance of the modbus plugin will need
# return type: (tcp nodes, rtu nodes, ascii nodes)
def GetNodeCount(self):
max_remote_tcpclient = self.GetParamsAttributes()[
0]["children"][0]["value"]
total_node_count = (max_remote_tcpclient, 0, 0)
for child in self.IECSortedChildren():
# ask each child how many nodes it needs, and add them all up.
total_node_count = tuple(
x1 + x2 for x1, x2 in zip(total_node_count, child.GetNodeCount()))
return total_node_count
# Return a list with tuples of the (location, port numbers) used by all the Modbus/IP servers
def GetIPServerPortNumbers(self):
IPServer_port_numbers = []
for child in self.IECSortedChildren():
if child.CTNType == "ModbusTCPserver":
IPServer_port_numbers.extend(child.GetIPServerPortNumbers())
return IPServer_port_numbers
# Return a list with tuples of the (location, configuration_name) used by all the Modbus nodes (tcp/rtu, clients/servers)
def GetConfigNames(self):
Node_Configuration_Names = []
for child in self.IECSortedChildren():
Node_Configuration_Names.extend([(child.GetCurrentLocation(), child.GetConfigName())])
return Node_Configuration_Names
def CTNGenerate_C(self, buildpath, locations):
# print "#############"
# print self.__class__
# print type(self)
# print "self.CTNType >>>"
# print self.CTNType
# print "type(self.CTNType) >>>"
# print type(self.CTNType)
# print "#############"
loc_dict = {"locstr": "_".join(map(str, self.GetCurrentLocation()))}
# Determine the number of (modbus library) nodes ALL instances of the modbus plugin will need
# total_node_count: (tcp nodes, rtu nodes, ascii nodes)
#
# Also get a list with tuples of (location, IP address, port number) used by all the Modbus/IP server nodes
# This list is later used to search for duplicates in port numbers!
# IPServer_port_numbers = [(location, IP address, port number), ...]
# location : tuple similar to (0, 3, 1) representing the location in the configuration tree "0.3.1.x"
# IPserver_port_number: a number (i.e. port number used by the Modbus/IP server)
# IP address : IP address of the network interface on which the server will be listening
# ("", "*", or "#ANY#" => listening on all interfaces!)
#
# Also get a list with tuples of (location, Configuration_Name) used by all the Modbus nodes
# This list is later used to search for duplicates in Configuration Names!
# Node_Configuration_Names = [(location, Configuration_Name), ...]
# location : tuple similar to (0, 3, 1) representing the location in the configuration tree "0.3.1.x"
# Configuration_Name: the "Configuration_Name" string
total_node_count = (0, 0, 0)
IPServer_port_numbers = []
Node_Configuration_Names = []
for CTNInstance in self.GetCTRoot().IterChildren():
if CTNInstance.CTNType == "modbus":
# ask each modbus plugin instance how many nodes it needs, and add them all up.
total_node_count = tuple(x1 + x2 for x1, x2 in zip(total_node_count, CTNInstance.GetNodeCount()))
IPServer_port_numbers. extend(CTNInstance.GetIPServerPortNumbers())
Node_Configuration_Names.extend(CTNInstance.GetConfigNames ())
# Search for use of duplicate Configuration_Names by Modbus nodes
# Configuration Names are used by the web server running on the PLC
# (more precisely, run by Beremiz_service.py) to identify and allow
# changing the Modbus parameters after the program has been downloaded
# to the PLC (but before it is started)
# With clashes in the configuration names, the Modbus nodes will not be
# distinguasheble on the web interface!
for i in range(0, len(Node_Configuration_Names) - 1):
for j in range(i + 1, len(Node_Configuration_Names)):
if Node_Configuration_Names[i][1] == Node_Configuration_Names[j][1]:
error_message = _("Error: Modbus plugin nodes %{a1}.x and %{a2}.x use the same Configuration_Name \"{a3}\".\n").format(
a1=_lt_to_str(Node_Configuration_Names[i][0]),
a2=_lt_to_str(Node_Configuration_Names[j][0]),
a3=Node_Configuration_Names[j][1])
self.FatalError(error_message)
# Search for use of duplicate port numbers by Modbus/IP servers
# Note: We only consider duplicate port numbers if using the same network interface!
i = 0
for loc1, addr1, port1 in IPServer_port_numbers[:-1]:
i = i + 1
for loc2, addr2, port2 in IPServer_port_numbers[i:]:
if (port1 == port2) and (
(addr1 == addr2) # on the same network interface
or (addr1 == "") or (addr1 == "*") or (addr1 == "#ANY#") # or one (or both) of the servers
or (addr2 == "") or (addr2 == "*") or (addr2 == "#ANY#") # use all available network interfaces
):
error_message = _("Error: Modbus plugin nodes %{a1}.x and %{a2}.x use same port number \"{a3}\" " +
"on the same (or overlapping) network interfaces \"{a4}\" and \"{a5}\".\n").format(
a1=_lt_to_str(loc1), a2=_lt_to_str(loc2), a3=port1, a4=addr1, a5=addr2)
self.FatalError(error_message)
# Determine the current location in Beremiz's project configuration
# tree
current_location = self.GetCurrentLocation()
# define a unique name for the generated C and h files
prefix = "_".join(map(str, current_location))
Gen_MB_c_path = os.path.join(buildpath, "MB_%s.c" % prefix)
Gen_MB_h_path = os.path.join(buildpath, "MB_%s.h" % prefix)
c_filename = os.path.join(os.path.split(__file__)[0], "mb_runtime.c")
h_filename = os.path.join(os.path.split(__file__)[0], "mb_runtime.h")
tcpclient_reqs_count = 0
rtuclient_reqs_count = 0
ascclient_reqs_count = 0
tcpclient_node_count = 0
rtuclient_node_count = 0
ascclient_node_count = 0
tcpserver_node_count = 0
rtuserver_node_count = 0
ascserver_node_count = 0
nodeid = 0
client_nodeid = 0
client_requestid = 0
server_id = 0
server_node_list = []
client_node_list = []
client_request_list = []
server_memarea_list = []
loc_vars = []
loc_vars_list = [] # list of variables already declared in C code!
for child in self.IECSortedChildren():
# print "<<<<<<<<<<<<<"
# print "child (self.IECSortedChildren())----->"
# print child.__class__
# print ">>>>>>>>>>>>>"
#
if child.PlugType == "ModbusTCPserver":
tcpserver_node_count += 1
new_node = GetTCPServerNodePrinted(self, child)
if new_node is None:
return [], "", False
server_node_list.append(new_node)
# We currently add 4 flags/counters to each Modbus server/slave
#
# We add the Modbus read/write counter/flag to each Modbus slave/server
# to allow the user program to determine if the slave is being actively
# read from or written by by a remote Modbus client.
for iecvar in child.GetLocations():
#print "child" + repr(iecvar)
if (len(iecvar["LOC"]) == 3) and (str(iecvar["NAME"]) not in loc_vars_list):
# Add if it is a "Modbus Read Request Counter" (mapped onto %MDa.b.0), so last number is a '0'
if iecvar["LOC"][2] == 0:
loc_vars.append("u32 *" + str(iecvar["NAME"]) + " = &server_nodes[%d].mem_area.flag_read_req_counter;" % (server_id))
loc_vars_list.append(str(iecvar["NAME"]))
# Add if it is a "Modbus Write Request Counter" (mapped onto %MDa.b.1), so last number is a '1'
if iecvar["LOC"][2] == 1:
loc_vars.append("u32 *" + str(iecvar["NAME"]) + " = &server_nodes[%d].mem_area.flag_write_req_counter;" % (server_id))
loc_vars_list.append(str(iecvar["NAME"]))
# Add if it is a "Modbus Read Request Flag" (mapped onto %MDa.b.2), so last number is a '2'
if iecvar["LOC"][2] == 2:
loc_vars.append("u8 *" + str(iecvar["NAME"]) + " = &server_nodes[%d].mem_area.flag_read_req_flag;" % (server_id))
loc_vars_list.append(str(iecvar["NAME"]))
# Add if it is a "Modbus Write Request Counter" (mapped onto %MDa.b.3), so last number is a '3'
if iecvar["LOC"][2] == 3:
loc_vars.append("u8 *" + str(iecvar["NAME"]) + " = &server_nodes[%d].mem_area.flag_write_req_flag;" % (server_id))
loc_vars_list.append(str(iecvar["NAME"]))
for subchild in child.IECSortedChildren():
new_memarea = GetTCPServerMemAreaPrinted(self, subchild, nodeid)
if new_memarea is None:
return [], "", False
server_memarea_list.append(new_memarea)
function = subchild.GetParamsAttributes()[0]["children"][0]["value"]
# 'ro_bits', 'rw_bits', 'ro_words' or 'rw_words'
memarea = modbus_memtype_dict[function][1]
for iecvar in subchild.GetLocations():
if len(iecvar["LOC"]) == 4:
#print "subchild" + repr(iecvar)
absloute_address = iecvar["LOC"][3]
start_address = int(GetCTVal(subchild, 2))
relative_addr = absloute_address - start_address
# test if relative address in request specified range
if relative_addr in range(int(GetCTVal(subchild, 1))):
if str(iecvar["NAME"]) not in loc_vars_list:
loc_vars.append("u16 *" + str(iecvar["NAME"]) + " = &server_nodes[%d].mem_area.%s[%d];" % (
server_id, memarea, absloute_address))
loc_vars_list.append(str(iecvar["NAME"]))
server_id += 1
#
if child.PlugType == "ModbusRTUslave":
rtuserver_node_count += 1
new_node = GetRTUSlaveNodePrinted(self, child)
if new_node is None:
return [], "", False
server_node_list.append(new_node)
# We currently add 4 flags/counters to each Modbus server/slave
#
# We add the Modbus read/write counter/flag to each Modbus slave/server
# to allow the user program to determine if the slave is being actively
# read from or written by by a remote Modbus client.
for iecvar in child.GetLocations():
#print "child" + repr(iecvar)
if (len(iecvar["LOC"]) == 3) and (str(iecvar["NAME"]) not in loc_vars_list):
# Add if it is a "Modbus Read Request Counter" (mapped onto %MDa.b.0), so last number is a '0'
if iecvar["LOC"][2] == 0:
loc_vars.append("u32 *" + str(iecvar["NAME"]) + " = &server_nodes[%d].mem_area.flag_read_req_counter;" % (server_id))
loc_vars_list.append(str(iecvar["NAME"]))
# Add if it is a "Modbus Write Request Counter" (mapped onto %MDa.b.1), so last number is a '1'
if iecvar["LOC"][2] == 1:
loc_vars.append("u32 *" + str(iecvar["NAME"]) + " = &server_nodes[%d].mem_area.flag_write_req_counter;" % (server_id))
loc_vars_list.append(str(iecvar["NAME"]))
# Add if it is a "Modbus Read Request Flag" (mapped onto %MDa.b.2), so last number is a '2'
if iecvar["LOC"][2] == 2:
loc_vars.append("u8 *" + str(iecvar["NAME"]) + " = &server_nodes[%d].mem_area.flag_read_req_flag;" % (server_id))
loc_vars_list.append(str(iecvar["NAME"]))
# Add if it is a "Modbus Write Request Counter" (mapped onto %MDa.b.3), so last number is a '3'
if iecvar["LOC"][2] == 3:
loc_vars.append("u8 *" + str(iecvar["NAME"]) + " = &server_nodes[%d].mem_area.flag_write_req_flag;" % (server_id))
loc_vars_list.append(str(iecvar["NAME"]))
for subchild in child.IECSortedChildren():
new_memarea = GetTCPServerMemAreaPrinted(
self, subchild, nodeid)
if new_memarea is None:
return [], "", False
server_memarea_list.append(new_memarea)
function = subchild.GetParamsAttributes()[0]["children"][0]["value"]
# 'ro_bits', 'rw_bits', 'ro_words' or 'rw_words'
memarea = modbus_memtype_dict[function][1]
for iecvar in subchild.GetLocations():
if len(iecvar["LOC"]) == 4:
# print repr(iecvar)
absloute_address = iecvar["LOC"][3]
start_address = int(GetCTVal(subchild, 2))
relative_addr = absloute_address - start_address
# test if relative address in request specified range
if relative_addr in range(int(GetCTVal(subchild, 1))):
if str(iecvar["NAME"]) not in loc_vars_list:
loc_vars.append("u16 *" + str(iecvar["NAME"]) + " = &server_nodes[%d].mem_area.%s[%d];" % (
server_id, memarea, absloute_address))
loc_vars_list.append(str(iecvar["NAME"]))
server_id += 1
#
if child.PlugType == "ModbusTCPclient":
tcpclient_reqs_count += len(child.IECSortedChildren())
new_node = GetTCPClientNodePrinted(self, child)
if new_node is None:
return [], "", False
client_node_list.append(new_node)
for subchild in child.IECSortedChildren():
new_req = GetClientRequestPrinted(
self, subchild, client_nodeid)
if new_req is None:
return [], "", False
client_request_list.append(new_req)
for iecvar in subchild.GetLocations():
# absloute address - start address
relative_addr = iecvar["LOC"][3] - int(GetCTVal(subchild, 3))
# test if the located variable
# (a) has relative address in request specified range
# AND is NOT
# (b) is a flag added by this modbus plugin.
# We currently add 3 flags: An execution control flag
# and another two status flags.
# We add the "Execution Control Flag" to each client request (one flag per request)
# to allow the user program to control when to execute the request (if not executed periodically)
# While all Modbus registers/coils are mapped onto a location
# with 4 numbers (e.g. %QX0.1.2.55), this control flag is mapped
# onto a location with 4 numbers (e.g. %QX0.1.2.0.0), where the last
# two numbers are always '0.0', and the first two identify the request.
# In the following if, we check for this condition by checking
# if there are at least 4 or more number in the location's address.
if ( relative_addr in range(int(GetCTVal(subchild, 2))) # condition (a) explained above
and len(iecvar["LOC"]) < 5): # condition (b) explained above
if str(iecvar["NAME"]) not in loc_vars_list:
loc_vars.append("u16 *" + str(iecvar["NAME"]) + " = &client_requests[%d].plcv_buffer[%d];" % (client_requestid, relative_addr))
loc_vars_list.append(str(iecvar["NAME"]))
# Now add the located variable in case it is a flag (condition (b) above
if len(iecvar["LOC"]) >= 5: # condition (b) explained above
if str(iecvar["NAME"]) not in loc_vars_list:
# Add if it is a Execution Request Flag (mapped onto %QXa.b.c.0.0), so last number is a '0'
if iecvar["LOC"][4] == 0:
loc_vars.append("u8 *" + str(iecvar["NAME"]) + " = &client_requests[%d].flag_exec_req;" % (client_requestid))
loc_vars_list.append(str(iecvar["NAME"]))
# Add if it is a "Modbus Request Status flag" (mapped onto %QWa.b.c.0.1), so last number is a '1'
# -> will store the result of the last executed MB transaction
# 1 -> error accessing IP network, or serial interface
# 2 -> reply received from server was an invalid frame
# 3 -> server did not reply before timeout expired
# 4 -> server returned a valid Modbus error frame
# -> will be reset (set to 0) once this MB transaction has completed sucesfully
if iecvar["LOC"][4] == 1:
loc_vars.append("u8 *" + str(iecvar["NAME"]) + " = &client_requests[%d].flag_tn_error_code;" % (client_requestid))
loc_vars_list.append(str(iecvar["NAME"]))
# Add if it is a "Modbus Error code" (mapped onto %QWa.b.c.0.2), so last number is a '2'
# -> if "Modbus Request Status flag" is 4, this flag will store the MB error code returned by the MB server in a MB error frame
# -> will be reset (set to 0) once this MB transaction has completed succesfully
if iecvar["LOC"][4] == 2:
loc_vars.append("u8 *" + str(iecvar["NAME"]) + " = &client_requests[%d].flag_mb_error_code;" % (client_requestid))
loc_vars_list.append(str(iecvar["NAME"]))
client_requestid += 1
tcpclient_node_count += 1
client_nodeid += 1
#
if child.PlugType == "ModbusRTUclient":
rtuclient_reqs_count += len(child.IECSortedChildren())
new_node = GetRTUClientNodePrinted(self, child)
if new_node is None:
return [], "", False
client_node_list.append(new_node)
for subchild in child.IECSortedChildren():
new_req = GetClientRequestPrinted(
self, subchild, client_nodeid)
if new_req is None:
return [], "", False
client_request_list.append(new_req)
for iecvar in subchild.GetLocations():
# absloute address - start address
relative_addr = iecvar["LOC"][3] - int(GetCTVal(subchild, 3))
# test if the located variable
# (a) has relative address in request specified range
# AND is NOT
# (b) is a flag added by this modbus plugin.
# We currently add 3 flags: An execution control flag
# and another two status flags.
# We add the "Execution Control Flag" to each client request (one flag per request)
# to allow the user program to control when to execute the request (if not executed periodically)
# While all Modbus registers/coils are mapped onto a location
# with 4 numbers (e.g. %QX0.1.2.55), this control flag is mapped
# onto a location with 4 numbers (e.g. %QX0.1.2.0.0), where the last
# two numbers are always '0.0', and the first two identify the request.
# In the following if, we check for this condition by checking
# if there are at least 4 or more number in the location's address.
if ( relative_addr in range(int(GetCTVal(subchild, 2))) # condition (a) explained above
and len(iecvar["LOC"]) < 5): # condition (b) explained above
if str(iecvar["NAME"]) not in loc_vars_list:
loc_vars.append(
"u16 *" + str(iecvar["NAME"]) + " = &client_requests[%d].plcv_buffer[%d];" % (client_requestid, relative_addr))
loc_vars_list.append(str(iecvar["NAME"]))
# Now add the located variable in case it is a flag (condition (b) above
if len(iecvar["LOC"]) >= 5: # condition (b) explained above
if str(iecvar["NAME"]) not in loc_vars_list:
# Add if it is a Execution Request Flag (mapped onto %QXa.b.c.0.0), so last number is a '0'
if iecvar["LOC"][4] == 0:
loc_vars.append("u8 *" + str(iecvar["NAME"]) + " = &client_requests[%d].flag_exec_req;" % (client_requestid))
loc_vars_list.append(str(iecvar["NAME"]))
# Add if it is a "Modbus Request Status flag" (mapped onto %QWa.b.c.0.1), so last number is a '1'
# -> will store the result of the last executed MB transaction
# 1 -> error accessing IP network, or serial interface
# 2 -> reply received from server was an invalid frame
# 3 -> server did not reply before timeout expired
# 4 -> server returned a valid Modbus error frame
# -> will be reset (set to 0) once this MB transaction has completed sucesfully
if iecvar["LOC"][4] == 1:
loc_vars.append("u8 *" + str(iecvar["NAME"]) + " = &client_requests[%d].flag_tn_error_code;" % (client_requestid))
loc_vars_list.append(str(iecvar["NAME"]))
# Add if it is a "Modbus Error code" (mapped onto %QWa.b.c.0.2), so last number is a '2'
# -> if "Modbus Request Status flag" is 4, this flag will store the MB error code returned by the MB server in a MB error frame
# -> will be reset (set to 0) once this MB transaction has completed succesfully
if iecvar["LOC"][4] == 2:
loc_vars.append("u8 *" + str(iecvar["NAME"]) + " = &client_requests[%d].flag_mb_error_code;" % (client_requestid))
loc_vars_list.append(str(iecvar["NAME"]))
client_requestid += 1
rtuclient_node_count += 1
client_nodeid += 1
nodeid += 1
loc_dict["loc_vars"] = "\n".join(loc_vars)
loc_dict["server_nodes_params"] = ",\n\n".join(server_node_list)
loc_dict["client_nodes_params"] = ",\n\n".join(client_node_list)
loc_dict["client_req_params"] = ",\n\n".join(client_request_list)
loc_dict["tcpclient_reqs_count"] = str(tcpclient_reqs_count)
loc_dict["tcpclient_node_count"] = str(tcpclient_node_count)
loc_dict["tcpserver_node_count"] = str(tcpserver_node_count)
loc_dict["rtuclient_reqs_count"] = str(rtuclient_reqs_count)
loc_dict["rtuclient_node_count"] = str(rtuclient_node_count)
loc_dict["rtuserver_node_count"] = str(rtuserver_node_count)
loc_dict["ascclient_reqs_count"] = str(ascclient_reqs_count)
loc_dict["ascclient_node_count"] = str(ascclient_node_count)
loc_dict["ascserver_node_count"] = str(ascserver_node_count)
loc_dict["total_tcpnode_count"] = str(total_node_count[0])
loc_dict["total_rtunode_count"] = str(total_node_count[1])
loc_dict["total_ascnode_count"] = str(total_node_count[2])
loc_dict["max_remote_tcpclient"] = int(
self.GetParamsAttributes()[0]["children"][0]["value"])
# get template file content into a string, format it with dict
# and write it to proper .h file
mb_main = open(h_filename).read() % loc_dict
f = open(Gen_MB_h_path, 'w')
f.write(mb_main)
f.close()
# same thing as above, but now to .c file
mb_main = open(c_filename).read() % loc_dict
f = open(Gen_MB_c_path, 'w')
f.write(mb_main)
f.close()
LDFLAGS = []
LDFLAGS.append(" \"-L" + ModbusPath + "\"")
LDFLAGS.append(" \"" + os.path.join(ModbusPath, "libmb.a") + "\"")
LDFLAGS.append(" \"-Wl,-rpath," + ModbusPath + "\"")
# LDFLAGS.append("\"" + os.path.join(ModbusPath, "mb_slave_and_master.o") + "\"")
# LDFLAGS.append("\"" + os.path.join(ModbusPath, "mb_slave.o") + "\"")
# LDFLAGS.append("\"" + os.path.join(ModbusPath, "mb_master.o") + "\"")
# LDFLAGS.append("\"" + os.path.join(ModbusPath, "mb_tcp.o") + "\"")
# LDFLAGS.append("\"" + os.path.join(ModbusPath, "mb_rtu.o") + "\"")
# LDFLAGS.append("\"" + os.path.join(ModbusPath, "mb_ascii.o") + "\"")
# LDFLAGS.append("\"" + os.path.join(ModbusPath, "sin_util.o") + "\"")
# Target is ARM with linux and not win on x86 so winsock2 (ws2_32) library is useless !!!
# if os.name == 'nt': # other possible values: 'posix' 'os2' 'ce' 'java' 'riscos'
# LDFLAGS.append(" -lws2_32 ") # on windows we need to load winsock
# library!
websettingfile = open(paths.AbsNeighbourFile(__file__, "web_settings.py"), 'r')
websettingcode = websettingfile.read()
websettingfile.close()
location_str = "_".join(map(str, self.GetCurrentLocation()))
websettingcode = websettingcode % locals()
runtimefile_path = os.path.join(buildpath, "runtime_modbus_websettings.py")
runtimefile = open(runtimefile_path, 'w')
runtimefile.write(websettingcode)
runtimefile.close()
return ([(Gen_MB_c_path, ' -I"' + ModbusPath + '"')], LDFLAGS, True,
("runtime_%s_modbus_websettings.py" % location_str, open(runtimefile_path, "rb")),
)