#!/usr/bin/env python # Copyright (c) 2003, The Regents of the University of California, # through Lawrence Berkeley National Laboratory (subject to receipt of # any required approvals from the U.S. Dept. of Energy). All rights # reserved. # # Copyright (c) 2001 Zope Corporation and Contributors. All Rights Reserved. # # This software is subject to the provisions of the Zope Public License, # Version 2.0 (ZPL). A copy of the ZPL should accompany this distribution. # THIS SOFTWARE IS PROVIDED "AS IS" AND ANY AND ALL EXPRESS OR IMPLIED # WARRANTIES ARE DISCLAIMED, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED # WARRANTIES OF TITLE, MERCHANTABILITY, AGAINST INFRINGEMENT, AND FITNESS # FOR A PARTICULAR PURPOSE. ident = "$Id$" import copy import types import six import socket import weakref from os.path import isfile import urllib.request, urllib.parse, urllib.error try: from urllib.parse import urljoin as basejoin # noqa except ImportError: from urllib.parse import urljoin as basejoin # noqa try: from UserDict import UserDict from UserDict import DictMixin # noqa except ImportError: from collections import UserDict from collections import MutableMapping as DictMixin # noqa from .TimeoutSocket import TimeoutSocket, TimeoutError # noqa try: from io import StringIO except ImportError: from io import StringIO try: from urllib.parse import urlparse except ImportError: from urllib.parse import urlparse try: from http.client import HTTPConnection, HTTPSConnection, FakeSocket, _CS_REQ_SENT except ImportError: from http.client import HTTPConnection, HTTPSConnection, _CS_REQ_SENT import io class FakeSocket(io.BytesIO): io_refs = 1 def sendall(self, data): FakeHTTPConnection.buf = data def makefile(self, *args, **kwds): self.io_refs += 1 return self def read(self, amt=None): if self.closed: return b"" return io.BytesIO.read(self, amt) def readline(self, length=None): if self.closed: return b"" return io.BytesIO.readline(self, length) def close(self): self.io_refs -= 1 if self.io_refs == 0: io.BytesIO.close(self) class FakeHTTPConnection(HTTPConnection): # buffer to store data for verification in urlopen tests. buf = None def connect(self): self.sock = FakeSocket(self.fakedata) type(self).fakesock = self.sock try: from exceptions import Exception except: pass try: from ZSI import _get_idstr except: def _get_idstr(pyobj): '''Python 2.3.x generates a FutureWarning for negative IDs, so we use a different prefix character to ensure uniqueness, and call abs() to avoid the warning.''' x = id(pyobj) if x < 0: return 'x%x' % abs(x) return 'o%x' % x import xml.dom.minidom from xml.dom import Node import logging from .c14n import Canonicalize from .Namespaces import SCHEMA, SOAP, XMLNS, ZSI_SCHEMA_URI DEFAULT = "".join try: from xml.dom.ext import SplitQName except: def SplitQName(qname): '''SplitQName(qname) -> (string, string) Split Qualified Name into a tuple of len 2, consisting of the prefix and the local name. (prefix, localName) Special Cases: xmlns -- (localName, 'xmlns') None -- (None, localName) ''' l = qname.split(':') if len(l) == 1: l.insert(0, None) elif len(l) == 2: if l[0] == 'xmlns': l.reverse() else: return return tuple(l) class NamespaceError(Exception): """Used to indicate a Namespace Error.""" class RecursionError(Exception): """Used to indicate a HTTP redirect recursion.""" class ParseError(Exception): """Used to indicate a XML parsing error.""" class DOMException(Exception): """Used to indicate a problem processing DOM.""" class Base: """Base class for instance level Logging""" def __init__(self, logger=None): self.logger = logger or logging.getLogger(__name__) class HTTPResponse: """Captures the information in an HTTP response message.""" def __init__(self, response): self.status = response.status self.reason = response.reason self.headers = response.msg self.body = response.read() or None response.close() class TimeoutHTTP(HTTPConnection): """A custom http connection object that supports socket timeout.""" def __init__(self, host, port=None, timeout=20): HTTPConnection.__init__(self, host, port) self.timeout = timeout def connect(self): self.sock = TimeoutSocket(self.timeout) self.sock.connect((self.host, self.port)) class TimeoutHTTPS(HTTPSConnection): """A custom https object that supports socket timeout. Note that this is not really complete. The builtin SSL support in the Python socket module requires a real socket (type) to be passed in to be hooked to SSL. That means our fake socket won't work and our timeout hacks are bypassed for send and recv calls. Since our hack _is_ in place at connect() time, it should at least provide some timeout protection.""" def __init__(self, host, port=None, timeout=20, **kwargs): HTTPSConnection.__init__(self, str(host), port, **kwargs) self.timeout = timeout def connect(self): sock = TimeoutSocket(self.timeout) sock.connect((self.host, self.port)) realsock = getattr(sock.sock, '_sock', sock.sock) ssl = socket.ssl(realsock, self.key_file, self.cert_file) self.sock = FakeSocket(sock, ssl) def urlopen(url, timeout=20, redirects=None): """A minimal urlopen replacement hack that supports timeouts for http. Note that this supports GET only.""" scheme, host, path, params, query, frag = urlparse(url) if scheme not in ('http', 'https'): return urllib.request.urlopen(url) if params: path = '%s;%s' % (path, params) if query: path = '%s?%s' % (path, query) if frag: path = '%s#%s' % (path, frag) if scheme == 'https': # If ssl is not compiled into Python, you will not get an exception # until a conn.endheaders() call. We need to know sooner, so use # getattr. try: import M2Crypto except ImportError: if not hasattr(socket, 'ssl'): raise RuntimeError('no built-in SSL Support') conn = TimeoutHTTPS(host, None, timeout) else: ctx = M2Crypto.SSL.Context() ctx.set_session_timeout(timeout) conn = M2Crypto.httpslib.HTTPSConnection(host, ssl_context=ctx) conn.set_debuglevel(1) else: conn = TimeoutHTTP(host, None, timeout) conn.putrequest('GET', path) conn.putheader('Connection', 'close') conn.endheaders() response = None while 1: response = conn.getresponse() if response.status != 100: break conn._HTTPConnection__state = _CS_REQ_SENT conn._HTTPConnection__response = None status = response.status # If we get an HTTP redirect, we will follow it automatically. if status >= 300 and status < 400: location = response.msg.getheader('location') if location is not None: response.close() if redirects is not None and location in redirects: raise RecursionError( 'Circular HTTP redirection detected.' ) if redirects is None: redirects = {} redirects[location] = 1 return urlopen(location, timeout, redirects) raise HTTPResponse(response) if not (status >= 200 and status < 300): raise HTTPResponse(response) body = StringIO(response.read()) response.close() return body class DOM: """The DOM singleton defines a number of XML related constants and provides a number of utility methods for DOM related tasks. It also provides some basic abstractions so that the rest of the package need not care about actual DOM implementation in use.""" # if can't find a referenced namespace, try the default one looseNamespaces = False # Namespace stuff related to the SOAP specification. NS_SOAP_ENV_1_1 = 'http://schemas.xmlsoap.org/soap/envelope/' NS_SOAP_ENC_1_1 = 'http://schemas.xmlsoap.org/soap/encoding/' NS_SOAP_ENV_1_2 = 'http://www.w3.org/2001/06/soap-envelope' NS_SOAP_ENC_1_2 = 'http://www.w3.org/2001/06/soap-encoding' NS_SOAP_ENV_ALL = (NS_SOAP_ENV_1_1, NS_SOAP_ENV_1_2) NS_SOAP_ENC_ALL = (NS_SOAP_ENC_1_1, NS_SOAP_ENC_1_2) NS_SOAP_ENV = NS_SOAP_ENV_1_1 NS_SOAP_ENC = NS_SOAP_ENC_1_1 _soap_uri_mapping = { NS_SOAP_ENV_1_1: '1.1', NS_SOAP_ENV_1_2: '1.2', } SOAP_ACTOR_NEXT_1_1 = 'http://schemas.xmlsoap.org/soap/actor/next' SOAP_ACTOR_NEXT_1_2 = 'http://www.w3.org/2001/06/soap-envelope/actor/next' SOAP_ACTOR_NEXT_ALL = (SOAP_ACTOR_NEXT_1_1, SOAP_ACTOR_NEXT_1_2) def SOAPUriToVersion(self, uri): """Return the SOAP version related to an envelope uri.""" value = self._soap_uri_mapping.get(uri) if value is not None: return value raise ValueError( 'Unsupported SOAP envelope uri: %s' % uri ) def GetSOAPEnvUri(self, version): """Return the appropriate SOAP envelope uri for a given human-friendly SOAP version string (e.g. '1.1').""" attrname = 'NS_SOAP_ENV_%s' % '_'.join(version.split('.')) value = getattr(self, attrname, None) if value is not None: return value raise ValueError( 'Unsupported SOAP version: %s' % version ) def GetSOAPEncUri(self, version): """Return the appropriate SOAP encoding uri for a given human-friendly SOAP version string (e.g. '1.1').""" attrname = 'NS_SOAP_ENC_%s' % '_'.join(version.split('.')) value = getattr(self, attrname, None) if value is not None: return value raise ValueError( 'Unsupported SOAP version: %s' % version ) def GetSOAPActorNextUri(self, version): """Return the right special next-actor uri for a given human-friendly SOAP version string (e.g. '1.1').""" attrname = 'SOAP_ACTOR_NEXT_%s' % '_'.join(version.split('.')) value = getattr(self, attrname, None) if value is not None: return value raise ValueError( 'Unsupported SOAP version: %s' % version ) # Namespace stuff related to XML Schema. NS_XSD_99 = 'http://www.w3.org/1999/XMLSchema' NS_XSI_99 = 'http://www.w3.org/1999/XMLSchema-instance' NS_XSD_00 = 'http://www.w3.org/2000/10/XMLSchema' NS_XSI_00 = 'http://www.w3.org/2000/10/XMLSchema-instance' NS_XSD_01 = 'http://www.w3.org/2001/XMLSchema' NS_XSI_01 = 'http://www.w3.org/2001/XMLSchema-instance' NS_XSD_ALL = (NS_XSD_99, NS_XSD_00, NS_XSD_01) NS_XSI_ALL = (NS_XSI_99, NS_XSI_00, NS_XSI_01) NS_XSD = NS_XSD_01 NS_XSI = NS_XSI_01 _xsd_uri_mapping = { NS_XSD_99: NS_XSI_99, NS_XSD_00: NS_XSI_00, NS_XSD_01: NS_XSI_01, } for key, value in list(copy.deepcopy(_xsd_uri_mapping).items()): _xsd_uri_mapping[value] = key def InstanceUriForSchemaUri(self, uri): """Return the appropriate matching XML Schema instance uri for the given XML Schema namespace uri.""" return self._xsd_uri_mapping.get(uri) def SchemaUriForInstanceUri(self, uri): """Return the appropriate matching XML Schema namespace uri for the given XML Schema instance namespace uri.""" return self._xsd_uri_mapping.get(uri) # Namespace stuff related to WSDL. NS_WSDL_1_1 = 'http://schemas.xmlsoap.org/wsdl/' NS_WSDL_ALL = (NS_WSDL_1_1,) NS_WSDL = NS_WSDL_1_1 NS_SOAP_BINDING_1_1 = 'http://schemas.xmlsoap.org/wsdl/soap/' NS_HTTP_BINDING_1_1 = 'http://schemas.xmlsoap.org/wsdl/http/' NS_MIME_BINDING_1_1 = 'http://schemas.xmlsoap.org/wsdl/mime/' NS_SOAP_BINDING_ALL = (NS_SOAP_BINDING_1_1,) NS_HTTP_BINDING_ALL = (NS_HTTP_BINDING_1_1,) NS_MIME_BINDING_ALL = (NS_MIME_BINDING_1_1,) NS_SOAP_BINDING = NS_SOAP_BINDING_1_1 NS_HTTP_BINDING = NS_HTTP_BINDING_1_1 NS_MIME_BINDING = NS_MIME_BINDING_1_1 NS_SOAP_HTTP_1_1 = 'http://schemas.xmlsoap.org/soap/http' NS_SOAP_HTTP_ALL = (NS_SOAP_HTTP_1_1,) NS_SOAP_HTTP = NS_SOAP_HTTP_1_1 _wsdl_uri_mapping = { NS_WSDL_1_1: '1.1', } def WSDLUriToVersion(self, uri): """Return the WSDL version related to a WSDL namespace uri.""" value = self._wsdl_uri_mapping.get(uri) if value is not None: return value raise ValueError( 'Unsupported SOAP envelope uri: %s' % uri ) def GetWSDLUri(self, version): attr = 'NS_WSDL_%s' % '_'.join(version.split('.')) value = getattr(self, attr, None) if value is not None: return value raise ValueError( 'Unsupported WSDL version: %s' % version ) def GetWSDLSoapBindingUri(self, version): attr = 'NS_SOAP_BINDING_%s' % '_'.join(version.split('.')) value = getattr(self, attr, None) if value is not None: return value raise ValueError( 'Unsupported WSDL version: %s' % version ) def GetWSDLHttpBindingUri(self, version): attr = 'NS_HTTP_BINDING_%s' % '_'.join(version.split('.')) value = getattr(self, attr, None) if value is not None: return value raise ValueError( 'Unsupported WSDL version: %s' % version ) def GetWSDLMimeBindingUri(self, version): attr = 'NS_MIME_BINDING_%s' % '_'.join(version.split('.')) value = getattr(self, attr, None) if value is not None: return value raise ValueError( 'Unsupported WSDL version: %s' % version ) def GetWSDLHttpTransportUri(self, version): attr = 'NS_SOAP_HTTP_%s' % '_'.join(version.split('.')) value = getattr(self, attr, None) if value is not None: return value raise ValueError( 'Unsupported WSDL version: %s' % version ) # Other xml namespace constants. NS_XMLNS = 'http://www.w3.org/2000/xmlns/' def isElement(self, node, name, nsuri=None): """Return true if the given node is an element with the given name and optional namespace uri.""" if node.nodeType != node.ELEMENT_NODE: return 0 return node.localName == name and \ (nsuri is None or self.nsUriMatch(node.namespaceURI, nsuri)) def getElement(self, node, name, nsuri=None, default=DEFAULT): """Return the first child of node with a matching name and namespace uri, or the default if one is provided.""" nsmatch = self.nsUriMatch ELEMENT_NODE = node.ELEMENT_NODE for child in node.childNodes: if child.nodeType == ELEMENT_NODE: if ((child.localName == name or name is None) and (nsuri is None or nsmatch(child.namespaceURI, nsuri))): return child if default != DEFAULT: return default raise KeyError(name) def getElementById(self, node, id, default=DEFAULT): """Return the first child of node matching an id reference.""" attrget = self.getAttr ELEMENT_NODE = node.ELEMENT_NODE for child in node.childNodes: if child.nodeType == ELEMENT_NODE: if attrget(child, 'id') == id: return child if default != DEFAULT: return default raise KeyError(node) def getMappingById(self, document, depth=None, element=None, mapping=None, level=1): """Create an id -> element mapping of those elements within a document that define an id attribute. The depth of the search may be controlled by using the (1-based) depth argument.""" if document is not None: element = document.documentElement mapping = {} attr = element._attrs.get('id', None) if attr is not None: mapping[attr.value] = element if depth is None or depth > level: level = level + 1 ELEMENT_NODE = element.ELEMENT_NODE for child in element.childNodes: if child.nodeType == ELEMENT_NODE: self.getMappingById(None, depth, child, mapping, level) return mapping def getElements(self, node, name, nsuri=None): """Return a sequence of the child elements of the given node that match the given name and optional namespace uri.""" nsmatch = self.nsUriMatch result = [] ELEMENT_NODE = node.ELEMENT_NODE for child in node.childNodes: if child.nodeType == ELEMENT_NODE: if ((child.localName == name or name is None) and ( (nsuri is None) or nsmatch(child.namespaceURI, nsuri))): result.append(child) return result def hasAttr(self, node, name, nsuri=None): """Return true if element has attribute with the given name and optional nsuri. If nsuri is not specified, returns true if an attribute exists with the given name with any namespace.""" if nsuri is None: if node.hasAttribute(name): return True return False return node.hasAttributeNS(nsuri, name) def getAttr(self, node, name, nsuri=None, default=DEFAULT): """Return the value of the attribute named 'name' with the optional nsuri, or the default if one is specified. If nsuri is not specified, an attribute that matches the given name will be returned regardless of namespace.""" if nsuri is None: if node._attrs is None: result = None else: result = node._attrs.get(name, None) if result is None: if node._attrsNS is None: result = None else: for item in list(node._attrsNS.keys()): if item[1] == name: result = node._attrsNS[item] break else: if node._attrsNS is None: result = None else: if node._attrsNS is None: result = None else: result = node._attrsNS.get((nsuri, name), None) if result is not None: return result.value if default != DEFAULT: return default return '' def getAttrs(self, node): """Return a Collection of all attributes """ attrs = {} for k, v in list(node._attrs.items()): attrs[k] = v.value return attrs def getElementText(self, node, preserve_ws=None): """Return the text value of an xml element node. Leading and trailing whitespace is stripped from the value unless the preserve_ws flag is passed with a true value.""" result = [] for child in node.childNodes: nodetype = child.nodeType if nodetype == child.TEXT_NODE or \ nodetype == child.CDATA_SECTION_NODE: result.append(child.nodeValue) value = ''.join(result) if preserve_ws is None: value = value.strip() return value def findNamespaceURI(self, prefix, node): """Find a namespace uri given a prefix and a context node.""" attrkey = (self.NS_XMLNS, prefix) DOCUMENT_NODE = node.DOCUMENT_NODE ELEMENT_NODE = node.ELEMENT_NODE orig_node = node while 1: if node is None: raise DOMException('Value for prefix %s not found.' % prefix) if node.nodeType != ELEMENT_NODE: node = node.parentNode continue result = node._attrsNS.get(attrkey, None) if result is not None: return result.value if hasattr(node, '__imported__'): raise DOMException('Value for prefix %s not found.' % prefix) node = node.parentNode if node.nodeType == DOCUMENT_NODE: if DOM.looseNamespaces: return self.findTargetNS(orig_node) else: raise DOMException('Value for prefix %s not found.' % prefix) def findDefaultNS(self, node): """Return the current default namespace uri for the given node.""" attrkey = (self.NS_XMLNS, 'xmlns') DOCUMENT_NODE = node.DOCUMENT_NODE ELEMENT_NODE = node.ELEMENT_NODE while 1: if node.nodeType != ELEMENT_NODE: node = node.parentNode continue result = node._attrsNS.get(attrkey, None) if result is not None: return result.value if hasattr(node, '__imported__'): raise DOMException('Cannot determine default namespace.') node = node.parentNode if node.nodeType == DOCUMENT_NODE: raise DOMException('Cannot determine default namespace.') def findTargetNS(self, node): """Return the defined target namespace uri for the given node.""" attrget = self.getAttr # attrkey = (self.NS_XMLNS, 'xmlns') DOCUMENT_NODE = node.DOCUMENT_NODE ELEMENT_NODE = node.ELEMENT_NODE while 1: if node.nodeType != ELEMENT_NODE: node = node.parentNode continue result = attrget(node, 'targetNamespace', default=None) if result is not None: return result node = node.parentNode if node.nodeType == DOCUMENT_NODE: raise DOMException('Cannot determine target namespace.') def getTypeRef(self, element): """Return (namespaceURI, name) for a type attribue of the given element, or None if the element does not have a type attribute.""" typeattr = self.getAttr(element, 'type', default=None) if typeattr is None: return None parts = typeattr.split(':', 1) if len(parts) == 2: nsuri = self.findNamespaceURI(parts[0], element) else: nsuri = self.findDefaultNS(element) return (nsuri, parts[1]) def importNode(self, document, node, deep=0): """Implements (well enough for our purposes) DOM node import.""" nodetype = node.nodeType if nodetype in (node.DOCUMENT_NODE, node.DOCUMENT_TYPE_NODE): raise DOMException('Illegal node type for importNode') if nodetype == node.ENTITY_REFERENCE_NODE: deep = 0 clone = node.cloneNode(deep) self._setOwnerDoc(document, clone) clone.__imported__ = 1 return clone def _setOwnerDoc(self, document, node): node.ownerDocument = document for child in node.childNodes: self._setOwnerDoc(document, child) def nsUriMatch(self, value, wanted, strict=0, tt=type(())): """Return a true value if two namespace uri values match.""" if value == wanted or (type(wanted) is tt) and value in wanted: return 1 if not strict and value is not None: wanted = type(wanted) is tt and wanted or (wanted,) value = value[-1:] != '/' and value or value[:-1] for item in wanted: if item == value or item[:-1] == value: return 1 return 0 def createDocument(self, nsuri, qname, doctype=None): """Create a new writable DOM document object.""" impl = xml.dom.minidom.getDOMImplementation() return impl.createDocument(nsuri, qname, doctype) def loadDocument(self, data): """Load an xml file from a file-like object and return a DOM document instance.""" return xml.dom.minidom.parse(data) def loadFromURL(self, url): """Load an xml file from a URL and return a DOM document.""" if isfile(url) is True: file = open(url, 'r') else: file = urlopen(url) try: result = self.loadDocument(file) except Exception as ex: file.close() raise ParseError(('Failed to load document %s' % url,) + ex.args) else: file.close() return result DOM = DOM() class MessageInterface: '''Higher Level Interface, delegates to DOM singleton, must be subclassed and implement all methods that throw NotImplementedError. ''' def __init__(self, sw): '''Constructor, May be extended, do not override. sw -- soapWriter instance ''' self.sw = None if type(sw) != weakref.ReferenceType and sw is not None: self.sw = weakref.ref(sw) else: self.sw = sw def AddCallback(self, func, *arglist): self.sw().AddCallback(func, *arglist) def Known(self, obj): return self.sw().Known(obj) def Forget(self, obj): return self.sw().Forget(obj) def canonicalize(self): '''canonicalize the underlying DOM, and return as string. ''' raise NotImplementedError('') def createDocument(self, namespaceURI=SOAP.ENV, localName='Envelope'): '''create Document ''' raise NotImplementedError('') def createAppendElement(self, namespaceURI, localName): '''create and append element(namespaceURI,localName), and return the node. ''' raise NotImplementedError('') def findNamespaceURI(self, qualifiedName): raise NotImplementedError('') def resolvePrefix(self, prefix): raise NotImplementedError('') def setAttributeNS(self, namespaceURI, localName, value): '''set attribute (namespaceURI, localName)=value ''' raise NotImplementedError('') def setAttributeType(self, namespaceURI, localName): '''set attribute xsi:type=(namespaceURI, localName) ''' raise NotImplementedError('') def setNamespaceAttribute(self, namespaceURI, prefix): '''set namespace attribute xmlns:prefix=namespaceURI ''' raise NotImplementedError('') class ElementProxy(Base, MessageInterface): _soap_env_prefix = 'SOAP-ENV' _soap_enc_prefix = 'SOAP-ENC' _zsi_prefix = 'ZSI' _xsd_prefix = 'xsd' _xsi_prefix = 'xsi' _xml_prefix = 'xml' _xmlns_prefix = 'xmlns' _soap_env_nsuri = SOAP.ENV _soap_enc_nsuri = SOAP.ENC _zsi_nsuri = ZSI_SCHEMA_URI _xsd_nsuri = SCHEMA.XSD3 _xsi_nsuri = SCHEMA.XSI3 _xml_nsuri = XMLNS.XML _xmlns_nsuri = XMLNS.BASE standard_ns = { _xml_prefix: _xml_nsuri, _xmlns_prefix: _xmlns_nsuri } reserved_ns = { _soap_env_prefix: _soap_env_nsuri, _soap_enc_prefix: _soap_enc_nsuri, _zsi_prefix: _zsi_nsuri, _xsd_prefix: _xsd_nsuri, _xsi_prefix: _xsi_nsuri, } name = None namespaceURI = None def __init__(self, sw, message=None): '''Initialize. sw -- SoapWriter ''' self._indx = 0 MessageInterface.__init__(self, sw) Base.__init__(self) self._dom = DOM self.node = None if type(message) in (bytes, str): self.loadFromString(message) elif isinstance(message, ElementProxy): self.node = message._getNode() else: self.node = message self.processorNss = self.standard_ns.copy() self.processorNss.update(self.reserved_ns) def __str__(self): return self.toString() def evaluate(self, expression, processorNss=None): '''expression -- XPath compiled expression ''' from Ft.Xml import XPath if not processorNss: context = XPath.Context.Context(self.node, processorNss=self.processorNss) else: context = XPath.Context.Context(self.node, processorNss=processorNss) nodes = expression.evaluate(context) return [ElementProxy(self.sw, node) for node in nodes] ############################################# # Methods for checking/setting the # classes (namespaceURI,name) node. ############################################# def checkNode(self, namespaceURI=None, localName=None): ''' namespaceURI -- namespace of element localName -- local name of element ''' namespaceURI = namespaceURI or self.namespaceURI localName = localName or self.name check = False if localName and self.node: check = self._dom.isElement(self.node, localName, namespaceURI) if not check: raise NamespaceError('unexpected node type %s, expecting %s' % (self.node, localName)) def setNode(self, node=None): if node: if isinstance(node, ElementProxy): self.node = node._getNode() else: self.node = node elif self.node: node = self._dom.getElement(self.node, self.name, self.namespaceURI, default=None) if not node: raise NamespaceError('cant find element (%s, %s)' % (self.namespaceURI, self.name)) self.node = node else: self.createDocument(self.namespaceURI, localName=self.name, doctype=None) self.checkNode() ############################################# # Wrapper Methods for direct DOM Element Node access ############################################# def _getNode(self): return self.node def _getElements(self): return self._dom.getElements(self.node, name=None) def _getOwnerDocument(self): return self.node.ownerDocument or self.node def _getUniquePrefix(self): '''I guess we need to resolve all potential prefixes because when the current node is attached it copies the namespaces into the parent node. ''' while 1: self._indx += 1 prefix = 'ns%d' % self._indx try: self._dom.findNamespaceURI(prefix, self._getNode()) except DOMException: break return prefix def _getPrefix(self, node, nsuri): ''' Keyword arguments: node -- DOM Element Node nsuri -- namespace of attribute value ''' try: if node and (node.nodeType == node.ELEMENT_NODE) and \ (nsuri == self._dom.findDefaultNS(node)): return None except DOMException: pass if nsuri == XMLNS.XML: return self._xml_prefix if node.nodeType == Node.ELEMENT_NODE: for attr in list(node.attributes.values()): if attr.namespaceURI == XMLNS.BASE \ and nsuri == attr.value: return attr.localName else: if node.parentNode: return self._getPrefix(node.parentNode, nsuri) raise NamespaceError('namespaceURI "%s" is not defined' % nsuri) def _appendChild(self, node): ''' Keyword arguments: node -- DOM Element Node ''' if node is None: raise TypeError('node is None') self.node.appendChild(node) def _insertBefore(self, newChild, refChild): ''' Keyword arguments: child -- DOM Element Node to insert refChild -- DOM Element Node ''' self.node.insertBefore(newChild, refChild) def _setAttributeNS(self, namespaceURI, qualifiedName, value): ''' Keyword arguments: namespaceURI -- namespace of attribute qualifiedName -- qualified name of new attribute value value -- value of attribute ''' self.node.setAttributeNS(namespaceURI, qualifiedName, value) ############################################# # General Methods ############################################# def isFault(self): '''check to see if this is a soap:fault message. ''' return False def getPrefix(self, namespaceURI): try: prefix = self._getPrefix(node=self.node, nsuri=namespaceURI) except NamespaceError: prefix = self._getUniquePrefix() self.setNamespaceAttribute(prefix, namespaceURI) return prefix def getDocument(self): return self._getOwnerDocument() def setDocument(self, document): self.node = document def importFromString(self, xmlString): doc = self._dom.loadDocument(StringIO(xmlString)) node = self._dom.getElement(doc, name=None) clone = self.importNode(node) self._appendChild(clone) def importNode(self, node): if isinstance(node, ElementProxy): node = node._getNode() return self._dom.importNode(self._getOwnerDocument(), node, deep=1) def loadFromString(self, data): self.node = self._dom.loadDocument(StringIO(data)) def canonicalize(self): return Canonicalize(self.node) def toString(self): return self.canonicalize() def createDocument(self, namespaceURI, localName, doctype=None): '''If specified must be a SOAP envelope, else may contruct an empty document. ''' prefix = self._soap_env_prefix if namespaceURI == self.reserved_ns[prefix]: qualifiedName = '%s:%s' % (prefix, localName) elif namespaceURI is localName is None: self.node = self._dom.createDocument(None, None, None) return else: raise KeyError('only support creation of document in %s' % self.reserved_ns[prefix]) document = self._dom.createDocument(nsuri=namespaceURI, qname=qualifiedName, doctype=doctype) self.node = document.childNodes[0] # set up reserved namespace attributes for prefix, nsuri in list(self.reserved_ns.items()): self._setAttributeNS(namespaceURI=self._xmlns_nsuri, qualifiedName='%s:%s' % (self._xmlns_prefix, prefix), value=nsuri) ############################################# # Methods for attributes ############################################# def hasAttribute(self, namespaceURI, localName): return self._dom.hasAttr(self._getNode(), name=localName, nsuri=namespaceURI) def setAttributeType(self, namespaceURI, localName): '''set xsi:type Keyword arguments: namespaceURI -- namespace of attribute value localName -- name of new attribute value ''' self.logger.debug('setAttributeType: (%s,%s)', namespaceURI, localName) value = localName if namespaceURI: value = '%s:%s' % (self.getPrefix(namespaceURI), localName) xsi_prefix = self.getPrefix(self._xsi_nsuri) self._setAttributeNS(self._xsi_nsuri, '%s:type' % xsi_prefix, value) def createAttributeNS(self, namespace, name, value): document = self._getOwnerDocument() # this function doesn't exist!! it has only two arguments document.createAttributeNS(namespace, name, value) def setAttributeNS(self, namespaceURI, localName, value): ''' Keyword arguments: namespaceURI -- namespace of attribute to create, None is for attributes in no namespace. localName -- local name of new attribute value -- value of new attribute ''' prefix = None if namespaceURI: try: prefix = self.getPrefix(namespaceURI) except KeyError: prefix = 'ns2' self.setNamespaceAttribute(prefix, namespaceURI) qualifiedName = localName if prefix: qualifiedName = '%s:%s' % (prefix, localName) self._setAttributeNS(namespaceURI, qualifiedName, value) def setNamespaceAttribute(self, prefix, namespaceURI): ''' Keyword arguments: prefix -- xmlns prefix namespaceURI -- value of prefix ''' self._setAttributeNS(XMLNS.BASE, 'xmlns:%s' % prefix, namespaceURI) ############################################# # Methods for elements ############################################# def createElementNS(self, namespace, qname): ''' Keyword arguments: namespace -- namespace of element to create qname -- qualified name of new element ''' document = self._getOwnerDocument() node = document.createElementNS(namespace, qname) return ElementProxy(self.sw, node) def createAppendSetElement(self, namespaceURI, localName, prefix=None): '''Create a new element (namespaceURI,name), append it to current node, then set it to be the current node. Keyword arguments: namespaceURI -- namespace of element to create localName -- local name of new element prefix -- if namespaceURI is not defined, declare prefix. defaults to 'ns1' if left unspecified. ''' node = self.createAppendElement(namespaceURI, localName, prefix=None) node = node._getNode() self._setNode(node._getNode()) def createAppendElement(self, namespaceURI, localName, prefix=None): '''Create a new element (namespaceURI,name), append it to current node, and return the newly created node. Keyword arguments: namespaceURI -- namespace of element to create localName -- local name of new element prefix -- if namespaceURI is not defined, declare prefix. defaults to 'ns1' if left unspecified. ''' declare = False qualifiedName = localName if namespaceURI: try: prefix = self.getPrefix(namespaceURI) except: declare = True prefix = prefix or self._getUniquePrefix() if prefix: qualifiedName = '%s:%s' % (prefix, localName) node = self.createElementNS(namespaceURI, qualifiedName) if declare: node._setAttributeNS(XMLNS.BASE, 'xmlns:%s' % prefix, namespaceURI) self._appendChild(node=node._getNode()) return node def createInsertBefore(self, namespaceURI, localName, refChild): qualifiedName = localName prefix = self.getPrefix(namespaceURI) if prefix: qualifiedName = '%s:%s' % (prefix, localName) node = self.createElementNS(namespaceURI, qualifiedName) self._insertBefore(newChild=node._getNode(), refChild=refChild._getNode()) return node def getElement(self, namespaceURI, localName): ''' Keyword arguments: namespaceURI -- namespace of element localName -- local name of element ''' node = self._dom.getElement(self.node, localName, namespaceURI, default=None) if node: return ElementProxy(self.sw, node) return None def getAttributeValue(self, namespaceURI, localName): ''' Keyword arguments: namespaceURI -- namespace of attribute localName -- local name of attribute ''' if self.hasAttribute(namespaceURI, localName): attr = self.node.getAttributeNodeNS(namespaceURI, localName) return attr.value return None def getValue(self): return self._dom.getElementText(self.node, preserve_ws=True) ############################################# # Methods for text nodes ############################################# def createAppendTextNode(self, pyobj): node = self.createTextNode(pyobj) self._appendChild(node=node._getNode()) return node def createTextNode(self, pyobj): document = self._getOwnerDocument() node = document.createTextNode(pyobj) return ElementProxy(self.sw, node) ############################################# # Methods for retrieving namespaceURI's ############################################# def findNamespaceURI(self, qualifiedName): parts = SplitQName(qualifiedName) element = self._getNode() if len(parts) == 1: return (self._dom.findTargetNS(element), None) return self._dom.findNamespaceURI(parts[0], element) def resolvePrefix(self, prefix): element = self._getNode() return self._dom.findNamespaceURI(prefix, element) def getSOAPEnvURI(self): return self._soap_env_nsuri def isEmpty(self): return not self.node class Collection(UserDict): """Helper class for maintaining ordered named collections.""" default = lambda self, k: k.name def __init__(self, parent, key=None): UserDict.__init__(self) self.parent = weakref.ref(parent) self.list = [] self._func = key or self.default def __getitem__(self, key): NumberTypes = six.integer_types NumberTypes = NumberTypes + (type(float), type(complex)) if isinstance(key, NumberTypes): return self.list[key] return self.data[key] def __setitem__(self, key, item): item.parent = weakref.ref(self) self.list.append(item) self.data[key] = item def keys(self): return [self._func(i) for i in self.list] def items(self): return [(self._func(i), i) for i in self.list] def values(self): return self.list class CollectionNS(UserDict): """Helper class for maintaining ordered named collections.""" default = lambda self, k: k.name def __init__(self, parent, key=None): UserDict.__init__(self) self.parent = weakref.ref(parent) self.targetNamespace = None self.list = [] self._func = key or self.default def __getitem__(self, key): self.targetNamespace = self.parent().targetNamespace if isinstance(key, six.integer_types): return self.list[key] elif self.__isSequence(key): nsuri, name = key return self.data[nsuri][name] return self.data[self.parent().targetNamespace][key] def __setitem__(self, key, item): item.parent = weakref.ref(self) self.list.append(item) targetNamespace = getattr(item, 'targetNamespace', self.parent().targetNamespace) if targetNamespace not in self.data: self.data[targetNamespace] = {} self.data[targetNamespace][key] = item def __isSequence(self, key): return (isinstance(key, (tuple, list)) and len(key) == 2) def keys(self): keys = [] for tns in list(self.data.keys()): keys.append([(tns, self._func(i)) for i in list(self.data[tns].values())]) return keys def items(self): return [(self._func(i), i) for i in self.list] def values(self): return self.list # This is a runtime guerilla patch for pulldom (used by minidom) so # that xml namespace declaration attributes are not lost in parsing. # We need them to do correct QName linking for XML Schema and WSDL. # The patch has been submitted to SF for the next Python version. from xml.dom.pulldom import PullDOM, START_ELEMENT if 1: def startPrefixMapping(self, prefix, uri): if not hasattr(self, '_xmlns_attrs'): self._xmlns_attrs = [] self._xmlns_attrs.append((prefix or 'xmlns', uri)) self._ns_contexts.append(self._current_context.copy()) self._current_context[uri] = prefix or '' PullDOM.startPrefixMapping = startPrefixMapping def startElementNS(self, name, tagName, attrs): # Retrieve xml namespace declaration attributes. xmlns_uri = 'http://www.w3.org/2000/xmlns/' xmlns_attrs = getattr(self, '_xmlns_attrs', None) if xmlns_attrs is not None: for aname, value in xmlns_attrs: attrs._attrs[(xmlns_uri, aname)] = value self._xmlns_attrs = [] uri, localname = name if uri: # When using namespaces, the reader may or may not # provide us with the original name. If not, create # *a* valid tagName from the current context. if tagName is None: prefix = self._current_context[uri] if prefix: tagName = prefix + ":" + localname else: tagName = localname if self.document: node = self.document.createElementNS(uri, tagName) else: node = self.buildDocument(uri, tagName) else: # When the tagname is not prefixed, it just appears as # localname if self.document: node = self.document.createElement(localname) else: node = self.buildDocument(None, localname) for aname, value in list(attrs.items()): a_uri, a_localname = aname if a_uri == xmlns_uri: if a_localname == 'xmlns': qname = a_localname else: qname = 'xmlns:' + a_localname attr = self.document.createAttributeNS(a_uri, qname) node.setAttributeNodeNS(attr) elif a_uri: prefix = self._current_context[a_uri] if prefix: qname = prefix + ":" + a_localname else: qname = a_localname attr = self.document.createAttributeNS(a_uri, qname) node.setAttributeNodeNS(attr) else: attr = self.document.createAttribute(a_localname) node.setAttributeNode(attr) attr.value = value self.lastEvent[1] = [(START_ELEMENT, node), None] self.lastEvent = self.lastEvent[1] self.push(node) PullDOM.startElementNS = startElementNS # # This is a runtime guerilla patch for minidom so # that xmlns prefixed attributes dont raise AttributeErrors # during cloning. # # Namespace declarations can appear in any start-tag, must look for xmlns # prefixed attribute names during cloning. # # key (attr.namespaceURI, tag) # ('http://www.w3.org/2000/xmlns/', u'xsd') # # ('http://www.w3.org/2000/xmlns/', 'xmlns') # # # xml.dom.minidom.Attr.nodeName = xmlns:xsd # xml.dom.minidom.Attr.value = = http://www.w3.org/2001/XMLSchema if 1: def _clone_node(node, deep, newOwnerDocument): """ Clone a node and give it the new owner document. Called by Node.cloneNode and Document.importNode """ if node.ownerDocument.isSameNode(newOwnerDocument): operation = xml.dom.UserDataHandler.NODE_CLONED else: operation = xml.dom.UserDataHandler.NODE_IMPORTED if node.nodeType == xml.dom.minidom.Node.ELEMENT_NODE: clone = newOwnerDocument.createElementNS(node.namespaceURI, node.nodeName) for attr in list(node.attributes.values()): clone.setAttributeNS(attr.namespaceURI, attr.nodeName, attr.value) prefix, tag = xml.dom.minidom._nssplit(attr.nodeName) if prefix == 'xmlns': a = clone.getAttributeNodeNS(attr.namespaceURI, tag) elif prefix: a = clone.getAttributeNodeNS(attr.namespaceURI, tag) else: a = clone.getAttributeNodeNS(attr.namespaceURI, attr.nodeName) a.specified = attr.specified if deep: for child in node.childNodes: c = xml.dom.minidom._clone_node(child, deep, newOwnerDocument) clone.appendChild(c) elif node.nodeType == xml.dom.minidom.Node.DOCUMENT_FRAGMENT_NODE: clone = newOwnerDocument.createDocumentFragment() if deep: for child in node.childNodes: c = xml.dom.minidom._clone_node(child, deep, newOwnerDocument) clone.appendChild(c) elif node.nodeType == xml.dom.minidom.Node.TEXT_NODE: clone = newOwnerDocument.createTextNode(node.data) elif node.nodeType == xml.dom.minidom.Node.CDATA_SECTION_NODE: clone = newOwnerDocument.createCDATASection(node.data) elif node.nodeType == xml.dom.minidom.Node.PROCESSING_INSTRUCTION_NODE: clone = newOwnerDocument.createProcessingInstruction(node.target, node.data) elif node.nodeType == xml.dom.minidom.Node.COMMENT_NODE: clone = newOwnerDocument.createComment(node.data) elif node.nodeType == xml.dom.minidom.Node.ATTRIBUTE_NODE: clone = newOwnerDocument.createAttributeNS(node.namespaceURI, node.nodeName) clone.specified = True clone.value = node.value elif node.nodeType == xml.dom.minidom.Node.DOCUMENT_TYPE_NODE: assert node.ownerDocument is not newOwnerDocument operation = xml.dom.UserDataHandler.NODE_IMPORTED clone = newOwnerDocument.implementation.createDocumentType( node.name, node.publicId, node.systemId) clone.ownerDocument = newOwnerDocument if deep: clone.entities._seq = [] clone.notations._seq = [] for n in node.notations._seq: notation = xml.dom.minidom.Notation(n.nodeName, n.publicId, n.systemId) notation.ownerDocument = newOwnerDocument clone.notations._seq.append(notation) if hasattr(n, '_call_user_data_handler'): n._call_user_data_handler(operation, n, notation) for e in node.entities._seq: entity = xml.dom.minidom.Entity(e.nodeName, e.publicId, e.systemId, e.notationName) entity.actualEncoding = e.actualEncoding entity.encoding = e.encoding entity.version = e.version entity.ownerDocument = newOwnerDocument clone.entities._seq.append(entity) if hasattr(e, '_call_user_data_handler'): e._call_user_data_handler(operation, n, entity) else: # Note the cloning of Document and DocumentType nodes is # implemenetation specific. minidom handles those cases # directly in the cloneNode() methods. raise xml.dom.NotSupportedErr("Cannot clone node %s" % repr(node)) # Check for _call_user_data_handler() since this could conceivably # used with other DOM implementations (one of the FourThought # DOMs, perhaps?). if hasattr(node, '_call_user_data_handler'): node._call_user_data_handler(operation, node, clone) return clone xml.dom.minidom._clone_node = _clone_node