#!/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. ### from nodes import * from backend_open62541_datatypes import * import re import datetime ########################################### # Extract References with Special Meaning # ########################################### import logging logger = logging.getLogger(__name__) def extractNodeParent(node, parentrefs): """Return a tuple of the most likely (parent, parentReference). The parentReference is removed form the inverse references list of the node. """ for ref in node.inverseReferences: if ref.referenceType in parentrefs: node.inverseReferences.remove(ref) if ref in node.printRefs: node.printRefs.remove(ref) return (ref.target, ref.referenceType) return None, None def extractNodeType(node): """Returns the most likely type of the variable- or objecttype node. The isinstanceof reference is removed form the inverse references list of the node. """ pass def extractNodeSuperType(node): """Returns the most likely supertype of the variable-, object-, or referencetype node. The reference to the supertype is removed from the inverse references list of the node. """ pass ################# # Generate Code # ################# def generateNodeIdPrintable(node): CodePrintable = "NODE_" if isinstance(node.id, NodeId): CodePrintable = node.__class__.__name__ + "_" + str(node.id) else: CodePrintable = node.__class__.__name__ + "_unknown_nid" return re.sub('[^0-9a-z_]+', '_', CodePrintable.lower()) def generateNodeValueInstanceName(node, parent, recursionDepth, arrayIndex): return generateNodeIdPrintable(parent) + "_" + str(node.alias) + "_" + str(arrayIndex) + "_" + str(recursionDepth) def generateReferenceCode(reference): if reference.isForward: return "retVal |= UA_Server_addReference(server, %s, %s, %s, true);" % \ (generateNodeIdCode(reference.source), generateNodeIdCode(reference.referenceType), generateExpandedNodeIdCode(reference.target)) else: return "retVal |= UA_Server_addReference(server, %s, %s, %s, false);" % \ (generateNodeIdCode(reference.source), generateNodeIdCode(reference.referenceType), generateExpandedNodeIdCode(reference.target)) def generateReferenceTypeNodeCode(node): code = [] code.append("UA_ReferenceTypeAttributes attr = UA_ReferenceTypeAttributes_default;") if node.isAbstract: code.append("attr.isAbstract = true;") if node.symmetric: code.append("attr.symmetric = true;") if node.inverseName != "": code.append("attr.inverseName = UA_LOCALIZEDTEXT(\"\", \"%s\");" % \ node.inverseName) return code def generateObjectNodeCode(node): code = [] code.append("UA_ObjectAttributes attr = UA_ObjectAttributes_default;") if node.eventNotifier: code.append("attr.eventNotifier = true;") return code def generateVariableNodeCode(node, nodeset, max_string_length): code = [] codeCleanup = [] code.append("UA_VariableAttributes attr = UA_VariableAttributes_default;") if node.historizing: code.append("attr.historizing = true;") code.append("attr.minimumSamplingInterval = %f;" % node.minimumSamplingInterval) code.append("attr.userAccessLevel = %d;" % node.userAccessLevel) code.append("attr.accessLevel = %d;" % node.accessLevel) code.append("attr.valueRank = %d;" % node.valueRank) if node.valueRank > 0: code.append("attr.arrayDimensionsSize = %d;" % node.valueRank) code.append("attr.arrayDimensions = (UA_UInt32 *)UA_Array_new({}, &UA_TYPES[UA_TYPES_UINT32]);".format(node.valueRank)) codeCleanup.append("UA_Array_delete(attr.arrayDimensions, {}, &UA_TYPES[UA_TYPES_UINT32]);".format(node.valueRank)) for dim in range(0, node.valueRank): code.append("attr.arrayDimensions[{}] = 0;".format(dim)) if node.dataType is not None: if isinstance(node.dataType, NodeId) and node.dataType.ns == 0 and node.dataType.i == 0: #BaseDataType dataTypeNode = nodeset.nodes[NodeId("i=24")] else: dataTypeNode = nodeset.getBaseDataType(nodeset.getDataTypeNode(node.dataType)) if dataTypeNode is not None: code.append("attr.dataType = %s;" % generateNodeIdCode(dataTypeNode.id)) if dataTypeNode.isEncodable(): if node.value is not None: [code1, codeCleanup1] = generateValueCode(node.value, nodeset.nodes[node.id], nodeset, max_string_length=max_string_length) code += code1 codeCleanup += codeCleanup1 else: code += generateValueCodeDummy(dataTypeNode, nodeset.nodes[node.id], nodeset) return [code, codeCleanup] def generateVariableTypeNodeCode(node, nodeset, max_string_length): code = [] codeCleanup = [] code.append("UA_VariableTypeAttributes attr = UA_VariableTypeAttributes_default;") if node.historizing: code.append("attr.historizing = true;") code.append("attr.valueRank = (UA_Int32)%s;" % str(node.valueRank)) if node.dataType is not None: if isinstance(node.dataType, NodeId) and node.dataType.ns == 0 and node.dataType.i == 0: #BaseDataType dataTypeNode = nodeset.nodes[NodeId("i=24")] else: dataTypeNode = nodeset.getBaseDataType(nodeset.getDataTypeNode(node.dataType)) if dataTypeNode is not None: code.append("attr.dataType = %s;" % generateNodeIdCode(dataTypeNode.id)) if dataTypeNode.isEncodable(): if node.value is not None: [code1, codeCleanup1] = generateValueCode(node.value, nodeset.nodes[node.id], nodeset, max_string_length) code += code1 codeCleanup += codeCleanup1 else: code += generateValueCodeDummy(dataTypeNode, nodeset.nodes[node.id], nodeset) return [code, codeCleanup] def generateExtensionObjectSubtypeCode(node, parent, nodeset, recursionDepth=0, arrayIndex=0, max_string_length=0): code = [""] codeCleanup = [""] logger.debug("Building extensionObject for " + str(parent.id)) logger.debug("Value " + str(node.value)) logger.debug("Encoding " + str(node.encodingRule)) instanceName = generateNodeValueInstanceName(node, parent, recursionDepth, arrayIndex) # If there are any ExtensionObjects instide this ExtensionObject, we need to # generate one-time-structs for them too before we can proceed; for subv in node.value: if isinstance(subv, list): logger.error("ExtensionObject contains an ExtensionObject, which is currently not encodable!") code.append("struct {") for field in node.encodingRule: ptrSym = "" # If this is an Array, this is pointer to its contents with a AliasOfFieldSize entry if field[2] != 0: code.append(" UA_Int32 " + str(field[0]) + "Size;") ptrSym = "*" if len(field[1]) == 1: code.append(" UA_" + str(field[1][0]) + " " + ptrSym + str(field[0]) + ";") else: code.append(" UA_ExtensionObject " + " " + ptrSym + str(field[0]) + ";") code.append("} " + instanceName + "_struct;") # Assign data to the struct contents # Track the encoding rule definition to detect arrays and/or ExtensionObjects encFieldIdx = 0 for subv in node.value: encField = node.encodingRule[encFieldIdx] encFieldIdx = encFieldIdx + 1 logger.debug( "Encoding of field " + subv.alias + " is " + str(subv.encodingRule) + "defined by " + str(encField)) # Check if this is an array if encField[2] == 0: code.append(instanceName + "_struct." + subv.alias + " = " + generateNodeValueCode(subv, instanceName, asIndirect=False, max_string_length=max_string_length) + ";") else: if isinstance(subv, list): # this is an array code.append(instanceName + "_struct." + subv.alias + "Size = " + str(len(subv)) + ";") code.append( "{0}_struct.{1} = (UA_{2}*) UA_malloc(sizeof(UA_{2})*{3});".format( instanceName, subv.alias, subv.__class__.__name__, str(len(subv)))) codeCleanup.append("UA_free({0}_struct.{1});".format(instanceName, subv.alias)) logger.debug("Encoding included array of " + str(len(subv)) + " values.") for subvidx in range(0, len(subv)): subvv = subv[subvidx] logger.debug(" " + str(subvidx) + " " + str(subvv)) code.append(instanceName + "_struct." + subv.alias + "[" + str( subvidx) + "] = " + generateNodeValueCode(subvv, instanceName, max_string_length=max_string_length) + ";") code.append("}") else: code.append(instanceName + "_struct." + subv.alias + "Size = 1;") code.append( "{0}_struct.{1} = (UA_{2}*) UA_malloc(sizeof(UA_{2}));".format( instanceName, subv.alias, subv.__class__.__name__)) codeCleanup.append("UA_free({0}_struct.{1});".format(instanceName, subv.alias)) code.append(instanceName + "_struct." + subv.alias + "[0] = " + generateNodeValueCode(subv, instanceName, asIndirect=True, max_string_length=max_string_length) + ";") # Allocate some memory code.append("UA_ExtensionObject *" + instanceName + " = UA_ExtensionObject_new();") codeCleanup.append("UA_ExtensionObject_delete(" + instanceName + ");") code.append(instanceName + "->encoding = UA_EXTENSIONOBJECT_ENCODED_BYTESTRING;") #if parent.dataType.ns == 0: binaryEncodingId = nodeset.getBinaryEncodingIdForNode(parent.dataType) code.append( instanceName + "->content.encoded.typeId = UA_NODEID_NUMERIC(" + str(binaryEncodingId.ns) + ", " + str(binaryEncodingId.i) + ");") code.append( "if(UA_ByteString_allocBuffer(&" + instanceName + "->content.encoded.body, 65000) != UA_STATUSCODE_GOOD) {}") # Encode each value as a bytestring seperately. code.append("UA_Byte *pos" + instanceName + " = " + instanceName + "->content.encoded.body.data;") code.append("const UA_Byte *end" + instanceName + " = &" + instanceName + "->content.encoded.body.data[65000];") encFieldIdx = 0 code.append("{") for subv in node.value: encField = node.encodingRule[encFieldIdx] encFieldIdx = encFieldIdx + 1 if encField[2] == 0: code.append( "retVal |= UA_encodeBinary(&" + instanceName + "_struct." + subv.alias + ", " + getTypesArrayForValue(nodeset, subv) + ", &pos" + instanceName + ", &end" + instanceName + ", NULL, NULL);") else: if isinstance(subv, list): for subvidx in range(0, len(subv)): code.append("retVal |= UA_encodeBinary(&" + instanceName + "_struct." + subv.alias + "[" + str(subvidx) + "], " + getTypesArrayForValue(nodeset, subv) + ", &pos" + instanceName + ", &end" + instanceName + ", NULL, NULL);") else: code.append( "retVal |= UA_encodeBinary(&" + instanceName + "_struct." + subv.alias + "[0], " + getTypesArrayForValue(nodeset, subv) + ", &pos" + instanceName + ", &end" + instanceName + ", NULL, NULL);") code.append("}") # Reallocate the memory by swapping the 65k Bytestring for a new one code.append("size_t " + instanceName + "_encOffset = (uintptr_t)(" + "pos" + instanceName + "-" + instanceName + "->content.encoded.body.data);") code.append(instanceName + "->content.encoded.body.length = " + instanceName + "_encOffset;") code.append("UA_Byte *" + instanceName + "_newBody = (UA_Byte *) UA_malloc(" + instanceName + "_encOffset );") code.append("memcpy(" + instanceName + "_newBody, " + instanceName + "->content.encoded.body.data, " + instanceName + "_encOffset);") code.append("UA_Byte *" + instanceName + "_oldBody = " + instanceName + "->content.encoded.body.data;") code.append(instanceName + "->content.encoded.body.data = " + instanceName + "_newBody;") code.append("UA_free(" + instanceName + "_oldBody);") code.append("") return [code, codeCleanup] def generateValueCodeDummy(dataTypeNode, parentNode, nodeset, bootstrapping=True): code = [] valueName = generateNodeIdPrintable(parentNode) + "_variant_DataContents" typeArr = dataTypeNode.typesArray + "[" + dataTypeNode.typesArray + "_" + dataTypeNode.browseName.name.upper() + "]" typeStr = "UA_" + dataTypeNode.browseName.name if parentNode.valueRank > 0: code.append(typeStr + " *" + valueName + " = (" + typeStr + "*) UA_alloca(" + typeArr + ".memSize * " + str(parentNode.valueRank) + ");") for i in range(0, parentNode.valueRank): code.append("UA_init(&" + valueName + "[" + str(i) + "], &" + typeArr + ");") code.append("UA_Variant_setArray( &attr.value, " + valueName + ", (UA_Int32) " + str(parentNode.valueRank) + ", &" + typeArr + ");") else: code.append("void *" + valueName + " = UA_alloca(" + typeArr + ".memSize);") code.append("UA_init(" + valueName + ", &" + typeArr + ");") code.append("UA_Variant_setScalar(&attr.value, " + valueName + ", &" + typeArr + ");") return code def getTypesArrayForValue(nodeset, value): typeNode = nodeset.getNodeByBrowseName(value.__class__.__name__) if typeNode is None: typesArray = "UA_TYPES" else: typesArray = typeNode.typesArray return "&" + typesArray + "[" + typesArray + "_" + \ value.__class__.__name__.upper() + "]" def generateValueCode(node, parentNode, nodeset, bootstrapping=True, max_string_length=0): code = [] codeCleanup = [] valueName = generateNodeIdPrintable(parentNode) + "_variant_DataContents" # node.value either contains a list of multiple identical BUILTINTYPES, or it # contains a single builtintype (which may be a container); choose if we need # to create an array or a single variable. # Note that some genious defined that there are arrays of size 1, which are # distinctly different then a single value, so we need to check that as well # Semantics: # -3: Scalar or 1-dim # -2: Scalar or x-dim | x>0 # -1: Scalar # 0: x-dim | x>0 # n: n-dim | n>0 if (len(node.value) == 0): return ["", ""] if not isinstance(node.value[0], Value): return ["", ""] if parentNode.valueRank != -1 and (parentNode.valueRank >= 0 or (len(node.value) > 1 and (parentNode.valueRank != -2 or parentNode.valueRank != -3))): # User the following strategy for all directly mappable values a la 'UA_Type MyInt = (UA_Type) 23;' if node.value[0].numericRepresentation == BUILTINTYPE_TYPEID_GUID: logger.warn("Don't know how to print array of GUID in node " + str(parentNode.id)) elif node.value[0].numericRepresentation == BUILTINTYPE_TYPEID_DATETIME: logger.warn("Don't know how to print array of DateTime in node " + str(parentNode.id)) elif node.value[0].numericRepresentation == BUILTINTYPE_TYPEID_DIAGNOSTICINFO: logger.warn("Don't know how to print array of DiagnosticInfo in node " + str(parentNode.id)) elif node.value[0].numericRepresentation == BUILTINTYPE_TYPEID_STATUSCODE: logger.warn("Don't know how to print array of StatusCode in node " + str(parentNode.id)) else: if node.value[0].numericRepresentation == BUILTINTYPE_TYPEID_EXTENSIONOBJECT: for idx, v in enumerate(node.value): logger.debug("Building extObj array index " + str(idx)) [code1, codeCleanup1] = generateExtensionObjectSubtypeCode(v, parent=parentNode, nodeset=nodeset, arrayIndex=idx, max_string_length=max_string_length) code = code + code1 codeCleanup = codeCleanup + codeCleanup1 code.append("UA_" + node.value[0].__class__.__name__ + " " + valueName + "[" + str(len(node.value)) + "];") if node.value[0].numericRepresentation == BUILTINTYPE_TYPEID_EXTENSIONOBJECT: for idx, v in enumerate(node.value): logger.debug("Printing extObj array index " + str(idx)) instanceName = generateNodeValueInstanceName(v, parentNode, 0, idx) code.append( valueName + "[" + str(idx) + "] = " + generateNodeValueCode(v, instanceName, max_string_length=max_string_length) + ";") # code.append("UA_free(&" +valueName + "[" + str(idx) + "]);") else: for idx, v in enumerate(node.value): instanceName = generateNodeValueInstanceName(v, parentNode, 0, idx) code.append( valueName + "[" + str(idx) + "] = " + generateNodeValueCode(v, instanceName, max_string_length=max_string_length) + ";") code.append("UA_Variant_setArray( &attr.value, &" + valueName + ", (UA_Int32) " + str(len(node.value)) + ", " + getTypesArrayForValue(nodeset, node.value[0]) + ");") else: # User the following strategy for all directly mappable values a la 'UA_Type MyInt = (UA_Type) 23;' if node.value[0].numericRepresentation == BUILTINTYPE_TYPEID_GUID: logger.warn("Don't know how to print scalar GUID in node " + str(parentNode.id)) elif node.value[0].numericRepresentation == BUILTINTYPE_TYPEID_DATETIME: logger.warn("Don't know how to print scalar DateTime in node " + str(parentNode.id)) elif node.value[0].numericRepresentation == BUILTINTYPE_TYPEID_DIAGNOSTICINFO: logger.warn("Don't know how to print scalar DiagnosticInfo in node " + str(parentNode.id)) elif node.value[0].numericRepresentation == BUILTINTYPE_TYPEID_STATUSCODE: logger.warn("Don't know how to print scalar StatusCode in node " + str(parentNode.id)) else: # The following strategy applies to all other types, in particular strings and numerics. if node.value[0].numericRepresentation == BUILTINTYPE_TYPEID_EXTENSIONOBJECT: [code1, codeCleanup1] = generateExtensionObjectSubtypeCode(node.value[0], parent=parentNode, nodeset=nodeset, max_string_length=max_string_length) code = code + code1 codeCleanup = codeCleanup + codeCleanup1 instanceName = generateNodeValueInstanceName(node.value[0], parentNode, 0, 0) if node.value[0].numericRepresentation == BUILTINTYPE_TYPEID_EXTENSIONOBJECT: code.append("UA_" + node.value[0].__class__.__name__ + " *" + valueName + " = " + generateNodeValueCode(node.value[0], instanceName, max_string_length=max_string_length) + ";") code.append( "UA_Variant_setScalar( &attr.value, " + valueName + ", " + getTypesArrayForValue(nodeset, node.value[0]) + ");") # FIXME: There is no membership definition for extensionObjects generated in this function. # code.append("UA_" + node.value[0].__class__.__name__ + "_deleteMembers(" + valueName + ");") else: code.append("UA_" + node.value[0].__class__.__name__ + " *" + valueName + " = UA_" + node.value[ 0].__class__.__name__ + "_new();") code.append("*" + valueName + " = " + generateNodeValueCode(node.value[0], instanceName, asIndirect=True, max_string_length=max_string_length) + ";") code.append( "UA_Variant_setScalar( &attr.value, " + valueName + ", " + getTypesArrayForValue(nodeset, node.value[0]) + ");") codeCleanup.append("UA_{0}_delete({1});".format( node.value[0].__class__.__name__, valueName)) return [code, codeCleanup] def generateMethodNodeCode(node): code = [] code.append("UA_MethodAttributes attr = UA_MethodAttributes_default;") if node.executable: code.append("attr.executable = true;") if node.userExecutable: code.append("attr.userExecutable = true;") return code def generateObjectTypeNodeCode(node): code = [] code.append("UA_ObjectTypeAttributes attr = UA_ObjectTypeAttributes_default;") if node.isAbstract: code.append("attr.isAbstract = true;") return code def generateDataTypeNodeCode(node): code = [] code.append("UA_DataTypeAttributes attr = UA_DataTypeAttributes_default;") if node.isAbstract: code.append("attr.isAbstract = true;") return code def generateViewNodeCode(node): code = [] code.append("UA_ViewAttributes attr = UA_ViewAttributes_default;") if node.containsNoLoops: code.append("attr.containsNoLoops = true;") code.append("attr.eventNotifier = (UA_Byte)%s;" % str(node.eventNotifier)) return code def getNodeTypeDefinition(node): for ref in node.references: # 40 = HasTypeDefinition if ref.referenceType.i == 40: return ref.target return None def generateSubtypeOfDefinitionCode(node): for ref in node.inverseReferences: # 45 = HasSubtype if ref.referenceType.i == 45: return generateNodeIdCode(ref.target) return "UA_NODEID_NULL" def generateNodeCode(node, supressGenerationOfAttribute, generate_ns0, parentrefs, nodeset, max_string_length): code = [] code.append("{") codeCleanup = [] if isinstance(node, ReferenceTypeNode): code.extend(generateReferenceTypeNodeCode(node)) elif isinstance(node, ObjectNode): code.extend(generateObjectNodeCode(node)) elif isinstance(node, VariableNode) and not isinstance(node, VariableTypeNode): [code1, codeCleanup1] = generateVariableNodeCode(node, nodeset, max_string_length) code.extend(code1) codeCleanup.extend(codeCleanup1) elif isinstance(node, VariableTypeNode): [code1, codeCleanup1] = generateVariableTypeNodeCode(node, nodeset, max_string_length) code.extend(code1) codeCleanup.extend(codeCleanup1) elif isinstance(node, MethodNode): code.extend(generateMethodNodeCode(node)) elif isinstance(node, ObjectTypeNode): code.extend(generateObjectTypeNodeCode(node)) elif isinstance(node, DataTypeNode): code.extend(generateDataTypeNodeCode(node)) elif isinstance(node, ViewNode): code.extend(generateViewNodeCode(node)) code.append("attr.displayName = " + generateLocalizedTextCode(node.displayName, max_string_length) + ";") code.append("attr.description = " + generateLocalizedTextCode(node.description, max_string_length) + ";") code.append("attr.writeMask = %d;" % node.writeMask) code.append("attr.userWriteMask = %d;" % node.userWriteMask) typeDef = getNodeTypeDefinition(node) isDataTypeEncodingType = typeDef is not None and typeDef.ns == 0 and typeDef.i == 76 # Object nodes of type DataTypeEncoding do not have any parent if not generate_ns0 and not isDataTypeEncodingType: (parentNode, parentRef) = extractNodeParent(node, parentrefs) if parentNode is None or parentRef is None: return None else: (parentNode, parentRef) = (NodeId(), NodeId()) code.append("retVal |= UA_Server_add%s(server," % node.__class__.__name__) code.append(generateNodeIdCode(node.id) + ",") code.append(generateNodeIdCode(parentNode) + ",") code.append(generateNodeIdCode(parentRef) + ",") code.append(generateQualifiedNameCode(node.browseName) + ",") if isinstance(node, VariableTypeNode): # we need the HasSubtype reference code.append(generateSubtypeOfDefinitionCode(node) + ",") elif isinstance(node, VariableNode) or isinstance(node, ObjectNode): typeDefCode = "UA_NODEID_NULL" if typeDef is None else generateNodeIdCode(typeDef) code.append(typeDefCode + ",") code.append("attr,") if isinstance(node, MethodNode): code.append("NULL, 0, NULL, 0, NULL, NULL, NULL);") else: code.append("NULL, NULL);") code.extend(codeCleanup) code.append("}\n") return "\n".join(code)