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- #!/usr/bin/env/python
- # -*- coding: utf-8 -*-
- ###
- ### Author: Chris Iatrou (ichrispa@core-vector.net)
- ### Version: rev 13
- ###
- ### This program was created for educational purposes and has been
- ### contributed to the open62541 project by the author. All licensing
- ### terms for this source is inherited by the terms and conditions
- ### specified for by the open62541 project (see the projects readme
- ### file for more information on the LGPL terms and restrictions).
- ###
- ### This program is not meant to be used in a production environment. The
- ### author is not liable for any complications arising due to the use of
- ### this program.
- ###
- import sys
- import logging
- from datatypes import *
- from constants import *
- logger = logging.getLogger(__name__)
- if sys.version_info[0] >= 3:
- # strings are already parsed to unicode
- def unicode(s):
- return s
- class Reference(object):
- # all either nodeids or strings with an alias
- def __init__(self, source, referenceType, target, isForward=True, hidden=False, inferred=False):
- self.source = source
- self.referenceType = referenceType
- self.target = target
- self.isForward = isForward
- self.hidden = hidden # the reference is part of a nodeset that already exists
- self.inferred = inferred
- def __str__(self):
- retval = str(self.source)
- if not self.isForward:
- retval = retval + "<"
- retval = retval + "--[" + str(self.referenceType) + "]--"
- if self.isForward:
- retval = retval + ">"
- return retval + str(self.target)
- def __repr__(self):
- return str(self)
- def __eq__(self, other):
- return str(self) == str(other)
- def __hash__(self):
- return hash(str(self))
- class Node(object):
- def __init__(self):
- self.id = NodeId()
- self.nodeClass = NODE_CLASS_GENERERIC
- self.browseName = QualifiedName()
- self.displayName = LocalizedText()
- self.description = LocalizedText()
- self.symbolicName = String()
- self.writeMask = 0
- self.userWriteMask = 0
- self.references = set()
- self.inverseReferences = set()
- self.hidden = False
- def __str__(self):
- return self.__class__.__name__ + "(" + str(self.id) + ")"
- def __repr__(self):
- return str(self)
- def sanitize(self):
- pass
- def parseXML(self, xmlelement):
- for idname in ['NodeId', 'NodeID', 'nodeid']:
- if xmlelement.hasAttribute(idname):
- self.id = NodeId(xmlelement.getAttribute(idname))
- for (at, av) in xmlelement.attributes.items():
- if at == "BrowseName":
- self.browseName = QualifiedName(av)
- elif at == "DisplayName":
- self.displayName = LocalizedText(av)
- elif at == "Description":
- self.description = LocalizedText(av)
- elif at == "WriteMask":
- self.writeMask = int(av)
- elif at == "UserWriteMask":
- self.userWriteMask = int(av)
- elif at == "EventNotifier":
- self.eventNotifier = int(av)
- elif at == "SymbolicName":
- self.symbolicName = String(av)
- for x in xmlelement.childNodes:
- if x.nodeType != x.ELEMENT_NODE:
- continue
- if x.firstChild:
- if x.localName == "BrowseName":
- self.browseName = QualifiedName(x.firstChild.data)
- elif x.localName == "DisplayName":
- self.displayName = LocalizedText(x.firstChild.data)
- elif x.localName == "Description":
- self.description = LocalizedText(x.firstChild.data)
- elif x.localName == "WriteMask":
- self.writeMask = int(unicode(x.firstChild.data))
- elif x.localName == "UserWriteMask":
- self.userWriteMask = int(unicode(x.firstChild.data))
- if x.localName == "References":
- self.parseXMLReferences(x)
- def parseXMLReferences(self, xmlelement):
- for ref in xmlelement.childNodes:
- if ref.nodeType != ref.ELEMENT_NODE:
- continue
- source = NodeId(str(self.id)) # deep-copy of the nodeid
- target = NodeId(ref.firstChild.data)
- reftype = None
- forward = True
- for (at, av) in ref.attributes.items():
- if at == "ReferenceType":
- if '=' in av:
- reftype = NodeId(av)
- else:
- reftype = av # alias, such as "HasSubType"
- elif at == "IsForward":
- forward = not "false" in av.lower()
- if forward:
- self.references.add(Reference(source, reftype, target, forward))
- else:
- self.inverseReferences.add(Reference(source, reftype, target, forward))
- def replaceAliases(self, aliases):
- if str(self.id) in aliases:
- self.id = NodeId(aliases[self.id])
- new_refs = set()
- for ref in self.references:
- if str(ref.source) in aliases:
- ref.source = NodeId(aliases[ref.source])
- if str(ref.target) in aliases:
- ref.target = NodeId(aliases[ref.target])
- if str(ref.referenceType) in aliases:
- ref.referenceType = NodeId(aliases[ref.referenceType])
- new_refs.add(ref)
- self.references = new_refs
- new_inv_refs = set()
- for ref in self.inverseReferences:
- if str(ref.source) in aliases:
- ref.source = NodeId(aliases[ref.source])
- if str(ref.target) in aliases:
- ref.target = NodeId(aliases[ref.target])
- if str(ref.referenceType) in aliases:
- ref.referenceType = NodeId(aliases[ref.referenceType])
- new_inv_refs.add(ref)
- self.inverseReferences = new_inv_refs
- def replaceNamespaces(self, nsMapping):
- self.id.ns = nsMapping[self.id.ns]
- self.browseName.ns = nsMapping[self.browseName.ns]
- if hasattr(self, 'dataType') and isinstance(self.dataType, NodeId):
- self.dataType.ns = nsMapping[self.dataType.ns]
- new_refs = set()
- for ref in self.references:
- ref.source.ns = nsMapping[ref.source.ns]
- ref.target.ns = nsMapping[ref.target.ns]
- ref.referenceType.ns = nsMapping[ref.referenceType.ns]
- new_refs.add(ref)
- self.references = new_refs
- new_inv_refs = set()
- for ref in self.inverseReferences:
- ref.source.ns = nsMapping[ref.source.ns]
- ref.target.ns = nsMapping[ref.target.ns]
- ref.referenceType.ns = nsMapping[ref.referenceType.ns]
- new_inv_refs.add(ref)
- self.inverseReferences = new_inv_refs
- class ReferenceTypeNode(Node):
- def __init__(self, xmlelement=None):
- Node.__init__(self)
- self.nodeClass = NODE_CLASS_REFERENCETYPE
- self.isAbstract = False
- self.symmetric = False
- self.inverseName = ""
- if xmlelement:
- self.parseXML(xmlelement)
- def parseXML(self, xmlelement):
- Node.parseXML(self, xmlelement)
- for (at, av) in xmlelement.attributes.items():
- if at == "Symmetric":
- self.symmetric = "false" not in av.lower()
- elif at == "InverseName":
- self.inverseName = str(av)
- elif at == "IsAbstract":
- self.isAbstract = "false" not in av.lower()
- for x in xmlelement.childNodes:
- if x.nodeType == x.ELEMENT_NODE:
- if x.localName == "InverseName" and x.firstChild:
- self.inverseName = str(unicode(x.firstChild.data))
- class ObjectNode(Node):
- def __init__(self, xmlelement=None):
- Node.__init__(self)
- self.nodeClass = NODE_CLASS_OBJECT
- self.eventNotifier = 0
- if xmlelement:
- self.parseXML(xmlelement)
- def parseXML(self, xmlelement):
- Node.parseXML(self, xmlelement)
- for (at, av) in xmlelement.attributes.items():
- if at == "EventNotifier":
- self.eventNotifier = int(av)
- class VariableNode(Node):
- def __init__(self, xmlelement=None):
- Node.__init__(self)
- self.nodeClass = NODE_CLASS_VARIABLE
- self.dataType = NodeId()
- self.valueRank = -2
- self.arrayDimensions = []
- # Set access levels to read by default
- self.accessLevel = 1
- self.userAccessLevel = 1
- self.minimumSamplingInterval = 0.0
- self.historizing = False
- self.value = None
- self.xmlValueDef = None
- if xmlelement:
- self.parseXML(xmlelement)
- def parseXML(self, xmlelement):
- Node.parseXML(self, xmlelement)
- for (at, av) in xmlelement.attributes.items():
- if at == "ValueRank":
- self.valueRank = int(av)
- elif at == "AccessLevel":
- self.accessLevel = int(av)
- elif at == "UserAccessLevel":
- self.userAccessLevel = int(av)
- elif at == "MinimumSamplingInterval":
- self.minimumSamplingInterval = float(av)
- elif at == "DataType":
- if "=" in av:
- self.dataType = NodeId(av)
- else:
- self.dataType = av
- for x in xmlelement.childNodes:
- if x.nodeType != x.ELEMENT_NODE:
- continue
- if x.localName == "Value":
- self.xmlValueDef = x
- elif x.localName == "DataType":
- self.dataType = NodeId(str(x))
- elif x.localName == "ValueRank":
- self.valueRank = int(unicode(x.firstChild.data))
- elif x.localName == "ArrayDimensions":
- self.arrayDimensions = int(unicode(x.firstChild.data))
- elif x.localName == "AccessLevel":
- self.accessLevel = int(unicode(x.firstChild.data))
- elif x.localName == "UserAccessLevel":
- self.userAccessLevel = int(unicode(x.firstChild.data))
- elif x.localName == "MinimumSamplingInterval":
- self.minimumSamplingInterval = float(unicode(x.firstChild.data))
- elif x.localName == "Historizing":
- self.historizing = "false" not in x.lower()
- def allocateValue(self, nodeset):
- dataTypeNode = nodeset.getDataTypeNode(self.dataType)
- if dataTypeNode is None:
- return False
- # FIXME: Don't build at all or allocate "defaults"? I'm for not building at all.
- if self.xmlValueDef == None:
- #logger.warn("Variable " + self.browseName() + "/" + str(self.id()) + " is not initialized. No memory will be allocated.")
- return False
- self.value = Value()
- self.value.parseXMLEncoding(self.xmlValueDef, dataTypeNode, self)
- # Array Dimensions must accurately represent the value and will be patched
- # reflect the exaxt dimensions attached binary stream.
- if not isinstance(self.value, Value) or len(self.value.value) == 0:
- self.arrayDimensions = []
- else:
- # Parser only permits 1-d arrays, which means we do not have to check further dimensions
- self.arrayDimensions = [len(self.value.value)]
- return True
- class VariableTypeNode(VariableNode):
- def __init__(self, xmlelement=None):
- VariableNode.__init__(self)
- self.nodeClass = NODE_CLASS_VARIABLETYPE
- self.isAbstract = False
- if xmlelement:
- self.parseXML(xmlelement)
- def parseXML(self, xmlelement):
- Node.parseXML(self, xmlelement)
- for (at, av) in xmlelement.attributes.items():
- if at == "IsAbstract":
- self.isAbstract = "false" not in av.lower()
- class MethodNode(Node):
- def __init__(self, xmlelement=None):
- Node.__init__(self)
- self.nodeClass = NODE_CLASS_METHOD
- self.executable = True
- self.userExecutable = True
- self.methodDecalaration = None
- if xmlelement:
- self.parseXML(xmlelement)
- def parseXML(self, xmlelement):
- Node.parseXML(self, xmlelement)
- for (at, av) in xmlelement.attributes.items():
- if at == "Executable":
- self.executable = "false" not in av.lower()
- if at == "UserExecutable":
- self.userExecutable = "false" not in av.lower()
- if at == "MethodDeclarationId":
- self.methodDeclaration = str(av)
- class ObjectTypeNode(Node):
- def __init__(self, xmlelement=None):
- Node.__init__(self)
- self.nodeClass = NODE_CLASS_OBJECTTYPE
- self.isAbstract = False
- if xmlelement:
- self.parseXML(xmlelement)
- def parseXML(self, xmlelement):
- Node.parseXML(self, xmlelement)
- for (at, av) in xmlelement.attributes.items():
- if at == "IsAbstract":
- self.isAbstract = "false" not in av.lower()
- class DataTypeNode(Node):
- """ DataTypeNode is a subtype of Node describing DataType nodes.
- DataType contain definitions and structure information usable for Variables.
- The format of this structure is determined by buildEncoding()
- Two definition styles are distinguished in XML:
- 1) A DataType can be a structure of fields, each field having a name and a type.
- The type must be either an encodable builtin node (ex. UInt32) or point to
- another DataType node that inherits its encoding from a builtin type using
- a inverse "hasSubtype" (hasSuperType) reference.
- 2) A DataType may be an enumeration, in which each field has a name and a numeric
- value.
- The definition is stored as an ordered list of tuples. Depending on which
- definition style was used, the __definition__ will hold
- 1) A list of ("Fieldname", Node) tuples.
- 2) A list of ("Fieldname", int) tuples.
- A DataType (and in consequence all Variables using it) shall be deemed not
- encodable if any of its fields cannot be traced to an encodable builtin type.
- A DataType shall be further deemed not encodable if it contains mixed structure/
- enumaration definitions.
- If encodable, the encoding can be retrieved using getEncoding().
- """
- __isEnum__ = False
- __xmlDefinition__ = None
- __baseTypeEncoding__ = []
- __encodable__ = False
- __encodingBuilt__ = False
- __definition__ = []
- def __init__(self, xmlelement=None):
- Node.__init__(self)
- self.nodeClass = NODE_CLASS_DATATYPE
- self.isAbstract = False
- self.__xmlDefinition__ = None
- self.__baseTypeEncoding__ = []
- self.__encodable__ = None
- self.__encodingBuilt__ = False
- self.__definition__ = []
- self.__isEnum__ = False
- if xmlelement:
- self.parseXML(xmlelement)
- def parseXML(self, xmlelement):
- Node.parseXML(self, xmlelement)
- for (at, av) in xmlelement.attributes.items():
- if at == "IsAbstract":
- self.isAbstract = "false" not in av.lower()
- for x in xmlelement.childNodes:
- if x.nodeType == x.ELEMENT_NODE:
- if x.localName == "Definition":
- self.__xmlDefinition__ = x
- def isEncodable(self):
- """ Will return True if buildEncoding() was able to determine which builtin
- type corresponds to all fields of this DataType.
- If no encoding has been build yet, this function will call buildEncoding()
- and return True if it succeeds.
- """
- return self.__encodable__
- def getEncoding(self):
- """ If the dataType is encodable, getEncoding() returns a nested list
- containing the encoding the structure definition for this type.
- If no encoding has been build yet, this function will call buildEncoding()
- and return the encoding if buildEncoding() succeeds.
- If buildEncoding() fails or has failed, an empty list will be returned.
- """
- if self.__encodable__ == False:
- if self.__encodingBuilt__ == False:
- return self.buildEncoding()
- return []
- else:
- return self.__baseTypeEncoding__
- def buildEncoding(self, nodeset, indent=0, force=False):
- """ buildEncoding() determines the structure and aliases used for variables
- of this DataType.
- The function will parse the XML <Definition> of the dataType and extract
- "Name"-"Type" tuples. If successful, buildEncoding will return a nested
- list of the following format:
- [['Alias1', ['Alias2', ['BuiltinType']]], [Alias2, ['BuiltinType']], ...]
- Aliases are fieldnames defined by this DataType or DataTypes referenced. A
- list such as ['DataPoint', ['Int32']] indicates that a value will encode
- an Int32 with the alias 'DataPoint' such as <DataPoint>12827</DataPoint>.
- Only the first Alias of a nested list is considered valid for the BuiltinType.
- Single-Elemented lists are always BuiltinTypes. Every nested list must
- converge in a builtin type to be encodable. buildEncoding will follow
- the first type inheritance reference (hasSupertype) of the dataType if
- necessary;
- If instead to "DataType" a numeric "Value" attribute is encountered,
- the DataType will be considered an enumeration and all Variables using
- it will be encoded as Int32.
- DataTypes can be either structures or enumeration - mixed definitions will
- be unencodable.
- Calls to getEncoding() will be iterative. buildEncoding() can be called
- only once per dataType, with all following calls returning the predetermined
- value. Use of the 'force=True' parameter will force the Definition to be
- reparsed.
- After parsing, __definition__ holds the field definition as a list. Note
- that this might deviate from the encoding, especially if inheritance was
- used.
- """
- prefix = " " + "|"*indent+ "+"
- if force==True:
- self.__encodingBuilt__ = False
- if self.__encodingBuilt__ == True:
- if self.isEncodable():
- logger.debug(prefix + str(self.__baseTypeEncoding__) + " (already analyzed)")
- else:
- logger.debug( prefix + str(self.__baseTypeEncoding__) + "(already analyzed, not encodable!)")
- return self.__baseTypeEncoding__
- self.__encodingBuilt__ = True # signify that we have attempted to built this type
- self.__encodable__ = True
- if indent==0:
- logger.debug("Parsing DataType " + str(self.browseName) + " (" + str(self.id) + ")")
- if valueIsInternalType(self.browseName.name):
- self.__baseTypeEncoding__ = [self.browseName.name]
- self.__encodable__ = True
- logger.debug( prefix + str(self.browseName) + "*")
- logger.debug("Encodable as: " + str(self.__baseTypeEncoding__))
- logger.debug("")
- return self.__baseTypeEncoding__
- if self.__xmlDefinition__ == None:
- # Check if there is a supertype available
- for ref in self.inverseReferences:
- # hasSubtype
- if ref.referenceType.i == 45:
- targetNode = nodeset.nodes[ref.target]
- if targetNode is not None and isinstance(targetNode, DataTypeNode):
- logger.debug( prefix + "Attempting definition using supertype " + str(targetNode.browseName) + " for DataType " + " " + str(self.browseName))
- subenc = targetNode.buildEncoding(nodeset=nodeset, indent=indent+1)
- if not targetNode.isEncodable():
- self.__encodable__ = False
- break
- else:
- self.__baseTypeEncoding__ = self.__baseTypeEncoding__ + [self.browseName.name, subenc, 0]
- if len(self.__baseTypeEncoding__) == 0:
- logger.debug(prefix + "No viable definition for " + str(self.browseName) + " " + str(self.id) + " found.")
- self.__encodable__ = False
- if indent==0:
- if not self.__encodable__:
- logger.debug("Not encodable (partial): " + str(self.__baseTypeEncoding__))
- else:
- logger.debug("Encodable as: " + str(self.__baseTypeEncoding__))
- logger.debug( "")
- return self.__baseTypeEncoding__
- isEnum = True
- isSubType = True
- hasValueRank = 0
- # We need to store the definition as ordered data, but can't use orderedDict
- # for backward compatibility with Python 2.6 and 3.4
- enumDict = []
- typeDict = []
- # An XML Definition is provided and will be parsed... now
- for x in self.__xmlDefinition__.childNodes:
- if x.nodeType == x.ELEMENT_NODE:
- fname = ""
- fdtype = ""
- enumVal = ""
- valueRank = 0
- for at,av in x.attributes.items():
- if at == "DataType":
- fdtype = str(av)
- if fdtype in nodeset.aliases:
- fdtype = nodeset.aliases[fdtype]
- isEnum = False
- elif at == "Name":
- fname = str(av)
- elif at == "Value":
- enumVal = int(av)
- isSubType = False
- elif at == "ValueRank":
- valueRank = int(av)
- if valueRank > 0:
- logger.warn("Value ranks >0 not fully supported. Further steps may fail")
- else:
- logger.warn("Unknown Field Attribute " + str(at))
- # This can either be an enumeration OR a structure, not both.
- # Figure out which of the dictionaries gets the newly read value pair
- if isEnum == isSubType:
- # This is an error
- logger.warn("DataType contains both enumeration and subtype (or neither)")
- self.__encodable__ = False
- break
- elif isEnum:
- # This is an enumeration
- enumDict.append((fname, enumVal))
- continue
- else:
- if fdtype == "":
- # If no datatype given use base datatype
- fdtype = "i=24"
- # This might be a subtype... follow the node defined as datatype to find out
- # what encoding to use
- if not NodeId(fdtype) in nodeset.nodes:
- raise Exception("Node {} not found in nodeset".format(NodeId(fdtype)))
- dtnode = nodeset.nodes[NodeId(fdtype)]
- # The node in the datatype element was found. we inherit its encoding,
- # but must still ensure that the dtnode is itself validly encodable
- typeDict.append([fname, dtnode])
- fdtype = str(dtnode.browseName.name)
- logger.debug( prefix + fname + " : " + fdtype + " -> " + str(dtnode.id))
- subenc = dtnode.buildEncoding(nodeset=nodeset, indent=indent+1)
- self.__baseTypeEncoding__ = self.__baseTypeEncoding__ + [[fname, subenc, valueRank]]
- if not dtnode.isEncodable():
- # If we inherit an encoding from an unencodable not, this node is
- # also not encodable
- self.__encodable__ = False
- break
- # If we used inheritance to determine an encoding without alias, there is a
- # the possibility that lists got double-nested despite of only one element
- # being encoded, such as [['Int32']] or [['alias',['int32']]]. Remove that
- # enclosing list.
- while len(self.__baseTypeEncoding__) == 1 and isinstance(self.__baseTypeEncoding__[0], list):
- self.__baseTypeEncoding__ = self.__baseTypeEncoding__[0]
- if isEnum == True:
- self.__baseTypeEncoding__ = self.__baseTypeEncoding__ + ['Int32']
- self.__definition__ = enumDict
- self.__isEnum__ = True
- logger.debug( prefix+"Int32* -> enumeration with dictionary " + str(enumDict) + " encodable " + str(self.__encodable__))
- return self.__baseTypeEncoding__
- if indent==0:
- if not self.__encodable__:
- logger.debug( "Not encodable (partial): " + str(self.__baseTypeEncoding__))
- else:
- logger.debug( "Encodable as: " + str(self.__baseTypeEncoding__))
- self.__isEnum__ = False
- self.__definition__ = typeDict
- logger.debug( "")
- return self.__baseTypeEncoding__
- class ViewNode(Node):
- def __init__(self, xmlelement=None):
- Node.__init__(self)
- self.nodeClass = NODE_CLASS_VIEW
- self.containsNoLoops == False
- self.eventNotifier == False
- if xmlelement:
- self.parseXML(xmlelement)
- def parseXML(self, xmlelement):
- Node.parseXML(self, xmlelement)
- for (at, av) in xmlelement.attributes.items():
- if at == "ContainsNoLoops":
- self.containsNoLoops = "false" not in av.lower()
- if at == "eventNotifier":
- self.eventNotifier = "false" not in av.lower()
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