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Added files to attempt reading from micro800

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This commit is contained in:
Patrick McDonagh
2016-03-01 12:59:44 -06:00
parent a8e9bec928
commit e1fc5c81a4
18 changed files with 2732 additions and 67 deletions
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python/pycomm_micro/cip/__init__.py Normal file
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__author__ = 'agostino'

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python/pycomm_micro/cip/__init__.pyc Normal file
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python/pycomm_micro/cip/cip_base.py Normal file
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# -*- coding: utf-8 -*-
#
# cip_base.py - A set of classes methods and structures used to implement Ethernet/IP
#
#
# Copyright (c) 2014 Agostino Ruscito <ruscito@gmail.com>
#
# Permission is hereby granted, free of charge, to any person obtaining a copy
# of this software and associated documentation files (the "Software"), to deal
# in the Software without restriction, including without limitation the rights
# to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
# copies of the Software, and to permit persons to whom the Software is
# furnished to do so, subject to the following conditions:
#
# The above copyright notice and this permission notice shall be included in all
# copies or substantial portions of the Software.
#
# THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
# IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
# FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
# AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
# LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
# OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE
# SOFTWARE.
#
import struct
import socket
from os import getpid
from pycomm_micro.cip.cip_const import *
from pycomm_micro.common import PycommError
class CommError(PycommError):
pass
class DataError(PycommError):
pass
def pack_sint(n):
return struct.pack('b', n)
def pack_usint(n):
return struct.pack('B', n)
def pack_int(n):
"""pack 16 bit into 2 bytes little endian"""
return struct.pack('<h', n)
def pack_uint(n):
"""pack 16 bit into 2 bytes little endian"""
# print("N: {0}".format(n))
return struct.pack('<H', n)
def pack_dint(n):
"""pack 32 bit into 4 bytes little endian"""
return struct.pack('<i', n)
def pack_real(r):
"""unpack 4 bytes little endian to int"""
return struct.pack('<f', r)
def pack_lint(l):
"""unpack 4 bytes little endian to int"""
return struct.unpack('<q', l)
def unpack_bool(st):
if int(struct.unpack('B', st[0])[0]) == 0:
return 0
return 1
def unpack_sint(st):
return int(struct.unpack('b', st[0])[0])
def unpack_usint(st):
return int(struct.unpack('B', st[0])[0])
def unpack_int(st):
"""unpack 2 bytes little endian to int"""
return int(struct.unpack('<h', st[0:2])[0])
def unpack_uint(st):
"""unpack 2 bytes little endian to int"""
return int(struct.unpack('<H', st[0:2])[0])
def unpack_dint(st):
"""unpack 4 bytes little endian to int"""
return int(struct.unpack('<i', st[0:4])[0])
def unpack_real(st):
"""unpack 4 bytes little endian to int"""
return float(struct.unpack('<f', st[0:4])[0])
def unpack_lreal(st):
"""unpack 8 bytes little endian to int"""
return float(struct.unpack('<f', st[0:8])[0])
def unpack_lint(st):
"""unpack 4 bytes little endian to int"""
return int(struct.unpack('<q', st[0:8])[0])
def get_bit(value, idx):
""":returns value of bit at position idx"""
return (value & (1 << idx)) != 0
PACK_DATA_FUNCTION = {
'BOOL': pack_sint,
'SINT': pack_sint, # Signed 8-bit integer
'INT': pack_int, # Signed 16-bit integer
'UINT': pack_uint, # Unsigned 16-bit integer
'USINT': pack_usint, # Unsigned 8-bit integer
'DINT': pack_dint, # Signed 32-bit integer
'REAL': pack_real, # 32-bit floating point
'LREAL': pack_real, # 32-bit floating point
'LINT': pack_lint,
'BYTE': pack_sint, # byte string 8-bits
'WORD': pack_uint, # byte string 16-bits
'DWORD': pack_dint, # byte string 32-bits
'LWORD': pack_lint # byte string 64-bits
}
UNPACK_DATA_FUNCTION = {
'BOOL': unpack_bool,
'SINT': unpack_sint, # Signed 8-bit integer
'INT': unpack_int, # Signed 16-bit integer
'UINT': unpack_uint, # Unsigned 16-bit
'USINT': unpack_usint, # Unsigned 8-bit integer
'DINT': unpack_dint, # Signed 32-bit integer
'UDINT': unpack_dint, # Signed 32-bit integer
'REAL': unpack_real, # 32-bit floating point,
'LREAL': unpack_lreal, # 32-bit floating point,
'LINT': unpack_lint,
'BYTE': unpack_sint, # byte string 8-bits
'WORD': unpack_uint, # byte string 16-bits
'DWORD': unpack_dint, # byte string 32-bits
'LWORD': unpack_lint # byte string 64-bits
}
DATA_FUNCTION_SIZE = {
'BOOL': 1,
'SINT': 1, # Signed 8-bit integer
'INT': 2, # Signed 16-bit integer
'UINT': 2, # Unsigned 16-bit integer
'DINT': 4, # Signed 32-bit integer
'REAL': 4, # 32-bit floating point
'LINT': 8,
'BYTE': 1, # byte string 8-bits
'WORD': 2, # byte string 16-bits
'DWORD': 4, # byte string 32-bits
'LWORD': 8 # byte string 64-bits
}
UNPACK_PCCC_DATA_FUNCTION = {
'N': unpack_int,
'B': unpack_int,
'T': unpack_int,
'C': unpack_int,
'S': unpack_int,
'F': unpack_real,
'A': unpack_sint,
'R': unpack_dint,
'O': unpack_int,
'I': unpack_int
}
PACK_PCCC_DATA_FUNCTION = {
'N': pack_int,
'B': pack_int,
'T': pack_int,
'C': pack_int,
'S': pack_int,
'F': pack_real,
'A': pack_sint,
'R': pack_dint,
'O': pack_int,
'I': pack_int
}
def print_bytes_line(msg):
out = ''
for ch in msg:
out += "{:0>2x}".format(ord(ch))
return out
def print_bytes_msg(msg, info=''):
out = info
new_line = True
line = 0
column = 0
for idx, ch in enumerate(msg):
if new_line:
out += "\n({:0>4d}) ".format(line * 10)
new_line = False
out += "{:0>2x} ".format(ord(ch))
if column == 9:
new_line = True
column = 0
line += 1
else:
column += 1
return out
def get_extended_status(msg, start):
status = unpack_usint(msg[start:start+1])
# send_rr_data
# 42 General Status
# 43 Size of additional status
# 44..n additional status
# send_unit_data
# 48 General Status
# 49 Size of additional status
# 50..n additional status
extended_status_size = (unpack_usint(msg[start+1:start+2]))*2
extended_status = 0
if extended_status_size != 0:
# There is an additional status
if extended_status_size == 1:
extended_status = unpack_usint(msg[start+2:start+3])
elif extended_status_size == 2:
extended_status = unpack_uint(msg[start+2:start+4])
elif extended_status_size == 4:
extended_status = unpack_dint(msg[start+2:start+6])
else:
return 'Extended Status Size Unknown'
try:
return '{0}'.format(EXTEND_CODES[status][extended_status])
except LookupError:
return "Extended Status info not present"
def create_tag_rp(tag, multi_requests=False):
""" Create tag Request Packet
It returns the request packed wrapped around the tag passed.
If any error it returns none
"""
tags = tag.split('.')
rp = []
index = []
for tag in tags:
add_index = False
# Check if is an array tag
if tag.find('[') != -1:
# Remove the last square bracket
tag = tag[:len(tag)-1]
# Isolate the value inside bracket
inside_value = tag[tag.find('[')+1:]
# Now split the inside value in case part of multidimensional array
index = inside_value.split(',')
# Flag the existence of one o more index
add_index = True
# Get only the tag part
tag = tag[:tag.find('[')]
tag_length = len(tag)
# Create the request path
rp.append(EXTENDED_SYMBOL) # ANSI Ext. symbolic segment
rp.append(chr(tag_length)) # Length of the tag
# Add the tag to the Request path
for char in tag:
rp.append(char)
# Add pad byte because total length of Request path must be word-aligned
if tag_length % 2:
rp.append(PADDING_BYTE)
# Add any index
if add_index:
for idx in index:
val = int(idx)
if val <= 0xff:
rp.append(ELEMENT_ID["8-bit"])
rp.append(pack_usint(val))
elif val <= 0xffff:
rp.append(ELEMENT_ID["16-bit"]+PADDING_BYTE)
rp.append(pack_uint(val))
elif val <= 0xfffffffff:
rp.append(ELEMENT_ID["32-bit"]+PADDING_BYTE)
rp.append(pack_dint(val))
else:
# Cannot create a valid request packet
return None
# At this point the Request Path is completed,
if multi_requests:
request_path = chr(len(rp)/2) + ''.join(rp)
else:
request_path = ''.join(rp)
return request_path
def build_common_packet_format(message_type, message, addr_type, addr_data=None, timeout=10):
""" build_common_packet_format
It creates the common part for a CIP message. Check Volume 2 (page 2.22) of CIP specification for reference
"""
msg = pack_dint(0) # Interface Handle: shall be 0 for CIP
msg += pack_uint(timeout) # timeout
msg += pack_uint(2) # Item count: should be at list 2 (Address and Data)
msg += addr_type # Address Item Type ID
if addr_data is not None:
msg += pack_uint(len(addr_data)) # Address Item Length
msg += addr_data
else:
msg += pack_uint(0) # Address Item Length
msg += message_type # Data Type ID
msg += pack_uint(len(message)) # Data Item Length
msg += message
return msg
def build_multiple_service(rp_list, sequence=None):
mr = []
if sequence is not None:
mr.append(pack_uint(sequence))
mr.append(chr(TAG_SERVICES_REQUEST["Multiple Service Packet"])) # the Request Service
mr.append(pack_usint(2)) # the Request Path Size length in word
mr.append(CLASS_ID["8-bit"])
mr.append(CLASS_CODE["Message Router"])
mr.append(INSTANCE_ID["8-bit"])
mr.append(pack_usint(1)) # Instance 1
mr.append(pack_uint(len(rp_list))) # Number of service contained in the request
# Offset calculation
offset = (len(rp_list) * 2) + 2
for index, rp in enumerate(rp_list):
if index == 0:
mr.append(pack_uint(offset)) # Starting offset
else:
mr.append(pack_uint(offset))
offset += len(rp)
for rp in rp_list:
mr.append(rp)
return mr
def parse_multiple_request(message, tags, typ):
""" parse_multi_request
This function should be used to parse the message replayed to a multi request service rapped around the
send_unit_data message.
:param message: the full message returned from the PLC
:param tags: The list of tags to be read
:param typ: to specify if multi request service READ or WRITE
:return: a list of tuple in the format [ (tag name, value, data type), ( tag name, value, data type) ].
In case of error the tuple will be (tag name, None, None)
"""
offset = 50
position = 50
number_of_service_replies = unpack_uint(message[offset:offset+2])
tag_list = []
for index in range(number_of_service_replies):
position += 2
start = offset + unpack_uint(message[position:position+2])
general_status = unpack_usint(message[start+2:start+3])
if general_status == 0:
if typ == "READ":
data_type = unpack_uint(message[start+4:start+6])
try:
value_begin = start + 6
value_end = value_begin + DATA_FUNCTION_SIZE[I_DATA_TYPE[data_type]]
value = message[value_begin:value_end]
tag_list.append((tags[index],
UNPACK_DATA_FUNCTION[I_DATA_TYPE[data_type]](value),
I_DATA_TYPE[data_type]))
except LookupError:
tag_list.append((tags[index], None, None))
else:
tag_list.append((tags[index] + ('GOOD',)))
else:
if typ == "READ":
tag_list.append((tags[index], None, None))
else:
tag_list.append((tags[index] + ('BAD',)))
return tag_list
class Socket:
def __init__(self, timeout=5.0):
self.sock = socket.socket(socket.AF_INET, socket.SOCK_STREAM)
self.sock.settimeout(timeout)
self.sock.setsockopt(socket.SOL_SOCKET, socket.SO_KEEPALIVE, 1)
def connect(self, host, port):
try:
self.sock.connect((host, port))
except socket.timeout:
raise CommError("Socket timeout during connection.")
def send(self, msg, timeout=0):
if timeout != 0:
self.sock.settimeout(timeout)
total_sent = 0
while total_sent < len(msg):
try:
sent = self.sock.send(msg[total_sent:])
if sent == 0:
raise CommError("socket connection broken.")
total_sent += sent
except socket.error:
raise CommError("socket connection broken.")
return total_sent
def receive(self, timeout=0):
if timeout != 0:
self.sock.settimeout(timeout)
msg_len = 28
chunks = []
bytes_recd = 0
one_shot = True
while bytes_recd < msg_len:
try:
chunk = self.sock.recv(min(msg_len - bytes_recd, 2048))
if chunk == '':
raise CommError("socket connection broken.")
if one_shot:
data_size = int(struct.unpack('<H', chunk[2:4])[0]) # Length
msg_len = HEADER_SIZE + data_size
one_shot = False
chunks.append(chunk)
bytes_recd += len(chunk)
except socket.error as e:
raise CommError(e)
return ''.join(chunks)
def close(self):
self.sock.close()
def parse_symbol_type(symbol):
""" parse_symbol_type
It parse the symbol to Rockwell Spec
:param symbol: the symbol associated to a tag
:return: A tuple containing information about the tag
"""
pass
return None
class Base(object):
_sequence = 0
def __init__(self, logging):
if Base._sequence == 0:
Base._sequence = getpid()
else:
Base._sequence = Base._get_sequence()
self.logger = logging
self.__version__ = '0.1'
self.__sock = None
self._session = 0
self._connection_opened = False
self._reply = None
self._message = None
self._target_cid = None
self._target_is_connected = False
self._tag_list = []
self._buffer = {}
self._device_description = "Device Unknown"
self._last_instance = 0
self._byte_offset = 0
self._last_position = 0
self._more_packets_available = False
self._last_tag_read = ()
self._last_tag_write = ()
self._status = (0, "")
# self.attribs = {'context': '_pycomm_', 'protocol version': 1, 'rpi': 5000, 'port': 0xAF12, 'timeout': 10,
# 'backplane': 1, 'cpu slot': 0, 'option': 0, 'cid': '\x27\x04\x19\x71', 'csn': '\x27\x04',
# 'vid': '\x09\x10', 'vsn': '\x09\x10\x19\x71', 'name': 'Base', 'ip address': None}
self.attribs = {'context': '_pycomm_', 'protocol version': 1, 'rpi': 5000, 'port': 0xAF12, 'timeout': 10,
'backplane': 0, 'cpu slot': 0, 'option': 0, 'cid': '\x27\x04\x19\x71', 'csn': '\x27\x04',
'vid': '\x09\x10', 'vsn': '\x09\x10\x19\x71', 'name': 'Base', 'ip address': None}
def __len__(self):
return len(self.attribs)
def __getitem__(self, key):
return self.attribs[key]
def __setitem__(self, key, value):
self.attribs[key] = value
def __delitem__(self, key):
try:
del self.attribs[key]
except LookupError:
pass
def __iter__(self):
return iter(self.attribs)
def __contains__(self, item):
return item in self.attribs
def _check_reply(self):
raise Socket.ImplementationError("The method has not been implemented")
@staticmethod
def _get_sequence():
""" Increase and return the sequence used with connected messages
:return: The New sequence
"""
if Base._sequence < 65535:
Base._sequence += 1
else:
Base._sequence = getpid()
return Base._sequence
def nop(self):
""" No replay command
A NOP provides a way for either an originator or target to determine if the TCP connection is still open.
"""
self._message = self.build_header(ENCAPSULATION_COMMAND['nop'], 0)
self._send()
def __repr__(self):
return self._device_description
def description(self):
return self._device_description
def list_identity(self):
""" ListIdentity command to locate and identify potential target
return true if the replay contains the device description
"""
self._message = self.build_header(ENCAPSULATION_COMMAND['list_identity'], 0)
self._send()
self._receive()
if self._check_reply():
try:
self._device_description = self._reply[63:-1]
return True
except Exception as e:
raise CommError(e)
return False
def send_rr_data(self, msg):
""" SendRRData transfer an encapsulated request/reply packet between the originator and target
:param msg: The message to be send to the target
:return: the replay received from the target
"""
self._message = self.build_header(ENCAPSULATION_COMMAND["send_rr_data"], len(msg))
self._message += msg
self._send()
self._receive()
return self._check_reply()
def send_unit_data(self, msg):
""" SendUnitData send encapsulated connected messages.
:param msg: The message to be send to the target
:return: the replay received from the target
"""
self._message = self.build_header(ENCAPSULATION_COMMAND["send_unit_data"], len(msg))
self._message += msg
self._send()
self._receive()
return self._check_reply()
def get_status(self):
""" Get the last status/error
This method can be used after any call to get any details in case of error
:return: A tuple containing (error group, error message)
"""
return self._status
def clear(self):
""" Clear the last status/error
:return: return am empty tuple
"""
self._status = (0, "")
def build_header(self, command, length):
""" Build the encapsulate message header
The header is 24 bytes fixed length, and includes the command and the length of the optional data portion.
:return: the headre
"""
try:
h = command # Command UINT
h += pack_uint(length) # Length UINT
h += pack_dint(self._session) # Session Handle UDINT
h += pack_dint(0) # Status UDINT
h += self.attribs['context'] # Sender Context 8 bytes
h += pack_dint(self.attribs['option']) # Option UDINT
return h
except Exception as e:
raise CommError(e)
def register_session(self):
""" Register a new session with the communication partner
:return: None if any error, otherwise return the session number
"""
if self._session:
return self._session
self._session = 0
self._message = self.build_header(ENCAPSULATION_COMMAND['register_session'], 4)
self._message += pack_uint(self.attribs['protocol version'])
self._message += pack_uint(0)
self._send()
self._receive()
if self._check_reply():
self._session = unpack_dint(self._reply[4:8])
self.logger.debug("Session ={0} has been registered.".format(print_bytes_line(self._reply[4:8])))
return self._session
self._status = 'Warning ! the session has not been registered.'
self.logger.warning(self._status)
return None
def forward_open(self):
""" CIP implementation of the forward open message
Refer to ODVA documentation Volume 1 3-5.5.2
:return: False if any error in the replayed message
"""
if self._session == 0:
self._status = (4, "A session need to be registered before to call forward_open.")
raise CommError("A session need to be registered before to call forward open")
forward_open_msg = [
FORWARD_OPEN,
pack_usint(2),
CLASS_ID["8-bit"],
CLASS_CODE["Connection Manager"], # Volume 1: 5-1
INSTANCE_ID["8-bit"],
CONNECTION_MANAGER_INSTANCE['Open Request'],
PRIORITY,
TIMEOUT_TICKS,
pack_dint(0),
self.attribs['cid'],
self.attribs['csn'],
self.attribs['vid'],
self.attribs['vsn'],
TIMEOUT_MULTIPLIER,
'\x00\x00\x00',
pack_dint(self.attribs['rpi'] * 1000),
pack_uint(CONNECTION_PARAMETER['Default']),
pack_dint(self.attribs['rpi'] * 1000),
pack_uint(CONNECTION_PARAMETER['Default']),
TRANSPORT_CLASS, # Transport Class
# CONNECTION_SIZE['Backplane'],
CONNECTION_SIZE['Direct Network'],
# pack_usint(self.attribs['backplane']),
# pack_usint(self.attribs['cpu slot']),
CLASS_ID["8-bit"],
CLASS_CODE["Message Router"],
INSTANCE_ID["8-bit"],
pack_usint(1)
]
if self.send_rr_data(
build_common_packet_format(DATA_ITEM['Unconnected'], ''.join(forward_open_msg), ADDRESS_ITEM['UCMM'],)):
self._target_cid = self._reply[44:48]
self._target_is_connected = True
return True
self._status = (4, "forward_open returned False")
return False
def forward_close(self):
""" CIP implementation of the forward close message
Each connection opened with the froward open message need to be closed.
Refer to ODVA documentation Volume 1 3-5.5.3
:return: False if any error in the replayed message
"""
if self._session == 0:
self._status = (5, "A session need to be registered before to call forward_close.")
raise CommError("A session need to be registered before to call forward_close.")
# print ("Backplane:{0}\nCPU:{1}".format(self.attribs['backplane'], self.attribs['cpu slot']))
forward_close_msg = [
FORWARD_CLOSE,
pack_usint(2),
CLASS_ID["8-bit"],
CLASS_CODE["Connection Manager"], # Volume 1: 5-1
INSTANCE_ID["8-bit"],
CONNECTION_MANAGER_INSTANCE['Open Request'],
PRIORITY,
TIMEOUT_TICKS,
self.attribs['csn'],
self.attribs['vid'],
self.attribs['vsn'],
CONNECTION_SIZE['Direct Network'],
# CONNECTION_SIZE['Backplane'],
'\x00', # Reserved
# pack_usint(self.attribs['backplane']),
# pack_usint(self.attribs['cpu slot']),
CLASS_ID["8-bit"],
CLASS_CODE["Message Router"],
INSTANCE_ID["8-bit"],
pack_usint(1)
]
if self.send_rr_data(
build_common_packet_format(DATA_ITEM['Unconnected'], ''.join(forward_close_msg), ADDRESS_ITEM['UCMM'])):
self._target_is_connected = False
return True
self._status = (5, "forward_close returned False")
self.logger.warning(self._status)
return False
def un_register_session(self):
""" Un-register a connection
"""
self._message = self.build_header(ENCAPSULATION_COMMAND['unregister_session'], 0)
self._send()
self._session = None
def _send(self):
"""
socket send
:return: true if no error otherwise false
"""
try:
self.logger.debug(print_bytes_msg(self._message, '-------------- SEND --------------'))
self.__sock.send(self._message)
except Exception as e:
#self.clean_up()
raise CommError(e)
def _receive(self):
"""
socket receive
:return: true if no error otherwise false
"""
try:
self._reply = self.__sock.receive()
self.logger.debug(print_bytes_msg(self._reply, '----------- RECEIVE -----------'))
except Exception as e:
#self.clean_up()
raise CommError(e)
def open(self, ip_address):
"""
socket open
:return: true if no error otherwise false
"""
# handle the socket layer
if not self._connection_opened:
try:
if self.__sock is None:
self.__sock = Socket()
self.__sock.connect(ip_address, self.attribs['port'])
self._connection_opened = True
self.attribs['ip address'] = ip_address
if self.register_session() is None:
self._status = (13, "Session not registered")
return False
self.forward_close()
return True
except Exception as e:
#self.clean_up()
raise CommError(e)
def close(self):
"""
socket close
:return: true if no error otherwise false
"""
try:
if self._target_is_connected:
self.forward_close()
if self._session != 0:
self.un_register_session()
if self.__sock:
self.__sock.close()
except Exception as e:
raise CommError(e)
self.clean_up()
def clean_up(self):
self.__sock = None
self._target_is_connected = False
self._session = 0
self._connection_opened = False
def is_connected(self):
return self._connection_opened

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# -*- coding: utf-8 -*-
#
# cip_const.py - A set of structures and constants used to implement the Ethernet/IP protocol
#
#
# Copyright (c) 2014 Agostino Ruscito <ruscito@gmail.com>
#
# Permission is hereby granted, free of charge, to any person obtaining a copy
# of this software and associated documentation files (the "Software"), to deal
# in the Software without restriction, including without limitation the rights
# to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
# copies of the Software, and to permit persons to whom the Software is
# furnished to do so, subject to the following conditions:
#
# The above copyright notice and this permission notice shall be included in all
# copies or substantial portions of the Software.
#
# THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
# IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
# FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
# AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
# LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
# OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE
# SOFTWARE.
#
ELEMENT_ID = {
"8-bit": '\x28',
"16-bit": '\x29',
"32-bit": '\x2a'
}
CLASS_ID = {
"8-bit": '\x20',
"16-bit": '\x21',
}
INSTANCE_ID = {
"8-bit": '\x24',
"16-bit": '\x25'
}
ATTRIBUTE_ID = {
"8-bit": '\x30',
"16-bit": '\x31'
}
# Path are combined as:
# CLASS_ID + PATHS
# For example PCCC path is CLASS_ID["8-bit"]+PATH["PCCC"] -> 0x20, 0x67, 0x24, 0x01.
PATH = {
'Connection Manager': '\x06\x24\x01',
'Router': '\x02\x24\x01',
'Backplane Data Type': '\x66\x24\x01',
'PCCC': '\x67\x24\x01',
'DHCP Channel A': '\xa6\x24\x01\x01\x2c\x01',
'DHCP Channel B': '\xa6\x24\x01\x02\x2c\x01'
}
ENCAPSULATION_COMMAND = { # Volume 2: 2-3.2 Command Field UINT 2 byte
"nop": '\x00\x00',
"list_targets": '\x01\x00',
"list_services": '\x04\x00',
"list_identity": '\x63\x00',
"list_interfaces": '\x64\x00',
"register_session": '\x65\x00',
"unregister_session": '\x66\x00',
"send_rr_data": '\x6F\x00',
"send_unit_data": '\x70\x00'
}
"""
When a tag is created, an instance of the Symbol Object (Class ID 0x6B) is created
inside the controller.
When a UDT is created, an instance of the Template object (Class ID 0x6C) is
created to hold information about the structure makeup.
"""
CLASS_CODE = {
"Message Router": '\x02', # Volume 1: 5-1
"Symbol Object": '\x6b',
"Template Object": '\x6c',
"Connection Manager": '\x06' # Volume 1: 3-5
}
CONNECTION_MANAGER_INSTANCE = {
'Open Request': '\x01',
'Open Format Rejected': '\x02',
'Open Resource Rejected': '\x03',
'Open Other Rejected': '\x04',
'Close Request': '\x05',
'Close Format Request': '\x06',
'Close Other Request': '\x07',
'Connection Timeout': '\x08'
}
TAG_SERVICES_REQUEST = {
"Read Tag": 0x4c,
"Read Tag Fragmented": 0x52,
"Write Tag": 0x4d,
"Write Tag Fragmented": 0x53,
"Read Modify Write Tag": 0x4e,
"Multiple Service Packet": 0x0a,
"Get Instance Attributes List": 0x55,
"Get Attributes": 0x03,
"Read Template": 0x4c,
}
TAG_SERVICES_REPLY = {
0xcc: "Read Tag",
0xd2: "Read Tag Fragmented",
0xcd: "Write Tag",
0xd3: "Write Tag Fragmented",
0xce: "Read Modify Write Tag",
0x8a: "Multiple Service Packet",
0xd5: "Get Instance Attributes List",
0x83: "Get Attributes",
0xcc: "Read Template"
}
I_TAG_SERVICES_REPLY = {
"Read Tag": 0xcc,
"Read Tag Fragmented": 0xd2,
"Write Tag": 0xcd,
"Write Tag Fragmented": 0xd3,
"Read Modify Write Tag": 0xce,
"Multiple Service Packet": 0x8a,
"Get Instance Attributes List": 0xd5,
"Get Attributes": 0x83,
"Read Template": 0xcc
}
"""
EtherNet/IP Encapsulation Error Codes
Standard CIP Encapsulation Error returned in the cip message header
"""
STATUS = {
0x0000: "Success",
0x0001: "The sender issued an invalid or unsupported encapsulation command",
0x0002: "Insufficient memory",
0x0003: "Poorly formed or incorrect data in the data portion",
0x0064: "An originator used an invalid session handle when sending an encapsulation message to the target",
0x0065: "The target received a message of invalid length",
0x0069: "Unsupported Protocol Version"
}
"""
MSG Error Codes:
The following error codes have been taken from:
Rockwell Automation Publication
1756-RM003P-EN-P - December 2014
"""
SERVICE_STATUS = {
0x01: "Connection failure (see extended status)",
0x02: "Insufficient resource",
0x03: "Invalid value",
0x04: "IOI syntax error. A syntax error was detected decoding the Request Path (see extended status)",
0x05: "Destination unknown, class unsupported, instance \nundefined or structure element undefined (see extended status)",
0x06: "Insufficient Packet Space",
0x07: "Connection lost",
0x08: "Service not supported",
0x09: "Error in data segment or invalid attribute value",
0x0A: "Attribute list error",
0x0B: "State already exist",
0x0C: "Object state conflict",
0x0D: "Object already exist",
0x0E: "Attribute not settable",
0x0F: "Permission denied",
0x10: "Device state conflict",
0x11: "Reply data too large",
0x12: "Fragmentation of a primitive value",
0x13: "Insufficient command data",
0x14: "Attribute not supported",
0x15: "Too much data",
0x1A: "Bridge request too large",
0x1B: "Bridge response too large",
0x1C: "Attribute list shortage",
0x1D: "Invalid attribute list",
0x1E: "Request service error",
0x1F: "Connection related failure (see extended status)",
0x22: "Invalid reply received",
0x25: "Key segment error",
0x26: "Invalid IOI error",
0x27: "Unexpected attribute in list",
0x28: "DeviceNet error - invalid member ID",
0x29: "DeviceNet error - member not settable",
0xD1: "Module not in run state",
0xFB: "Message port not supported",
0xFC: "Message unsupported data type",
0xFD: "Message uninitialized",
0xFE: "Message timeout",
0xff: "General Error (see extended status)"
}
EXTEND_CODES = {
0x01: {
0x0100: "Connection in use",
0x0103: "Transport not supported",
0x0106: "Ownership conflict",
0x0107: "Connection not found",
0x0108: "Invalid connection type",
0x0109: "Invalid connection size",
0x0110: "Module not configured",
0x0111: "EPR not supported",
0x0114: "Wrong module",
0x0115: "Wrong device type",
0x0116: "Wrong revision",
0x0118: "Invalid configuration format",
0x011A: "Application out of connections",
0x0203: "Connection timeout",
0x0204: "Unconnected message timeout",
0x0205: "Unconnected send parameter error",
0x0206: "Message too large",
0x0301: "No buffer memory",
0x0302: "Bandwidth not available",
0x0303: "No screeners available",
0x0305: "Signature match",
0x0311: "Port not available",
0x0312: "Link address not available",
0x0315: "Invalid segment type",
0x0317: "Connection not scheduled"
},
0x04: {
0x0000: "Extended status out of memory",
0x0001: "Extended status out of instances"
},
0x05: {
0x0000: "Extended status out of memory",
0x0001: "Extended status out of instances"
},
0x1F: {
0x0203: "Connection timeout"
},
0xff: {
0x7: "Wrong data type",
0x2001: "Excessive IOI",
0x2002: "Bad parameter value",
0x2018: "Semaphore reject",
0x201B: "Size too small",
0x201C: "Invalid size",
0x2100: "Privilege failure",
0x2101: "Invalid keyswitch position",
0x2102: "Password invalid",
0x2103: "No password issued",
0x2104: "Address out of range",
0x2105: "Address and how many out of range",
0x2106: "Data in use",
0x2107: "Type is invalid or not supported",
0x2108: "Controller in upload or download mode",
0x2109: "Attempt to change number of array dimensions",
0x210A: "Invalid symbol name",
0x210B: "Symbol does not exist",
0x210E: "Search failed",
0x210F: "Task cannot start",
0x2110: "Unable to write",
0x2111: "Unable to read",
0x2112: "Shared routine not editable",
0x2113: "Controller in faulted mode",
0x2114: "Run mode inhibited"
}
}
DATA_ITEM = {
'Connected': '\xb1\x00',
'Unconnected': '\xb2\x00'
}
ADDRESS_ITEM = {
'Connection Based': '\xa1\x00',
'Null': '\x00\x00',
'UCMM': '\x00\x00'
}
UCMM = {
'Interface Handle': 0,
'Item Count': 2,
'Address Type ID': 0,
'Address Length': 0,
'Data Type ID': 0x00b2
}
CONNECTION_SIZE = {
'Backplane': '\x03', # CLX
'Direct Network': '\x02'
}
HEADER_SIZE = 24
EXTENDED_SYMBOL = '\x91'
BOOL_ONE = 0xff
REQUEST_SERVICE = 0
REQUEST_PATH_SIZE = 1
REQUEST_PATH = 2
SUCCESS = 0
INSUFFICIENT_PACKETS = 6
OFFSET_MESSAGE_REQUEST = 40
FORWARD_CLOSE = '\x4e'
UNCONNECTED_SEND = '\x52'
FORWARD_OPEN = '\x54'
LARGE_FORWARD_OPEN = '\x5b'
GET_CONNECTION_DATA = '\x56'
SEARCH_CONNECTION_DATA = '\x57'
GET_CONNECTION_OWNER = '\x5a'
MR_SERVICE_SIZE = 2
PADDING_BYTE = '\x00'
PRIORITY = '\x0a'
TIMEOUT_TICKS = '\x05'
TIMEOUT_MULTIPLIER = '\x01'
TRANSPORT_CLASS = '\xa3'
CONNECTION_PARAMETER = {
'PLC5': 0x4302,
'SLC500': 0x4302,
'CNET': 0x4320,
'DHP': 0x4302,
'Default': 0x43f8,
}
"""
Atomic Data Type:
Bit = Bool
Bit array = DWORD (32-bit boolean aray)
8-bit integer = SINT
16-bit integer = UINT
32-bit integer = DINT
32-bit float = REAL
64-bit integer = LINT
From Rockwell Automation Publication 1756-PM020C-EN-P November 2012:
When reading a BOOL tag, the values returned for 0 and 1 are 0 and 0xff, respectively.
"""
S_DATA_TYPE = {
'BOOL': 0xc1,
'SINT': 0xc2, # Signed 8-bit integer
'INT': 0xc3, # Signed 16-bit integer
'DINT': 0xc4, # Signed 32-bit integer
'LINT': 0xc5, # Signed 64-bit integer
'USINT': 0xc6, # Unsigned 8-bit integer
'UINT': 0xc7, # Unsigned 16-bit integer
'UDINT': 0xc8, # Unsigned 32-bit integer
'ULINT': 0xc9, # Unsigned 64-bit integer
'REAL': 0xca, # 32-bit floating point
'LREAL': 0xcb, # 64-bit floating point
'STIME': 0xcc, # Synchronous time
'DATE': 0xcd,
'TIME_OF_DAY': 0xce,
'DATE_AND_TIME': 0xcf,
'STRING': 0xd0, # character string (1 byte per character)
'BYTE': 0xd1, # byte string 8-bits
'WORD': 0xd2, # byte string 16-bits
'DWORD': 0xd3, # byte string 32-bits
'LWORD': 0xd4, # byte string 64-bits
'STRING2': 0xd5, # character string (2 byte per character)
'FTIME': 0xd6, # Duration high resolution
'LTIME': 0xd7, # Duration long
'ITIME': 0xd8, # Duration short
'STRINGN': 0xd9, # character string (n byte per character)
'SHORT_STRING': 0xda, # character string (1 byte per character, 1 byte length indicator)
'TIME': 0xdb, # Duration in milliseconds
'EPATH': 0xdc, # CIP Path segment
'ENGUNIT': 0xdd, # Engineering Units
'STRINGI': 0xde # International character string
}
I_DATA_TYPE = {
0xc1: 'BOOL',
0xc2: 'SINT', # Signed 8-bit integer
0xc3: 'INT', # Signed 16-bit integer
0xc4: 'DINT', # Signed 32-bit integer
0xc5: 'LINT', # Signed 64-bit integer
0xc6: 'USINT', # Unsigned 8-bit integer
0xc7: 'UINT', # Unsigned 16-bit integer
0xc8: 'UDINT', # Unsigned 32-bit integer
0xc9: 'ULINT', # Unsigned 64-bit integer
0xca: 'REAL', # 32-bit floating point
0xcb: 'LREAL', # 64-bit floating point
0xcc: 'STIME', # Synchronous time
0xcd: 'DATE',
0xce: 'TIME_OF_DAY',
0xcf: 'DATE_AND_TIME',
0xd0: 'STRING', # character string (1 byte per character)
0xd1: 'BYTE', # byte string 8-bits
0xd2: 'WORD', # byte string 16-bits
0xd3: 'DWORD', # byte string 32-bits
0xd4: 'LWORD', # byte string 64-bits
0xd5: 'STRING2', # character string (2 byte per character)
0xd6: 'FTIME', # Duration high resolution
0xd7: 'LTIME', # Duration long
0xd8: 'ITIME', # Duration short
0xd9: 'STRINGN', # character string (n byte per character)
0xda: 'SHORT_STRING', # character string (1 byte per character, 1 byte length indicator)
0xdb: 'TIME', # Duration in milliseconds
0xdc: 'EPATH', # CIP Path segment
0xdd: 'ENGUNIT', # Engineering Units
0xde: 'STRINGI' # International character string
}
REPLAY_INFO = {
0x4e: 'FORWARD_CLOSE (4E,00)',
0x52: 'UNCONNECTED_SEND (52,00)',
0x54: 'FORWARD_OPEN (54,00)',
0x6f: 'send_rr_data (6F,00)',
0x70: 'send_unit_data (70,00)',
0x00: 'nop',
0x01: 'list_targets',
0x04: 'list_services',
0x63: 'list_identity',
0x64: 'list_interfaces',
0x65: 'register_session',
0x66: 'unregister_session',
}
PCCC_DATA_TYPE = {
'N': '\x89',
'B': '\x85',
'T': '\x86',
'C': '\x87',
'S': '\x84',
'F': '\x8a',
'ST': '\x8d',
'A': '\x8e',
'R': '\x88',
'O': '\x8b',
'I': '\x8c'
}
PCCC_DATA_SIZE = {
'N': 2,
'B': 2,
'T': 6,
'C': 6,
'S': 2,
'F': 4,
'ST': 84,
'A': 2,
'R': 6,
'O': 2,
'I': 2
}
PCCC_CT = {
'PRE': 1,
'ACC': 2,
'EN': 15,
'TT': 14,
'DN': 13,
'CU': 15,
'CD': 14,
'OV': 12,
'UN': 11,
'UA': 10
}
PCCC_ERROR_CODE = {
-2: "Not Acknowledged (NAK)",
-3: "No Reponse, Check COM Settings",
-4: "Unknown Message from DataLink Layer",
-5: "Invalid Address",
-6: "Could Not Open Com Port",
-7: "No data specified to data link layer",
-8: "No data returned from PLC",
-20: "No Data Returned",
16: "Illegal Command or Format, Address may not exist or not enough elements in data file",
32: "PLC Has a Problem and Will Not Communicate",
48: "Remote Node Host is Missing, Disconnected, or Shut Down",
64: "Host Could Not Complete Function Due To Hardware Fault",
80: "Addressing problem or Memory Protect Rungs",
96: "Function not allows due to command protection selection",
112: "Processor is in Program mode",
128: "Compatibility mode file missing or communication zone problem",
144: "Remote node cannot buffer command",
240: "Error code in EXT STS Byte"
}

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