#! /usr/bin/env python '''XML Canonicalization Patches Applied to xml.dom.ext.c14n: http://sourceforge.net/projects/pyxml/ [ 1444526 ] c14n.py: http://www.w3.org/TR/xml-exc-c14n/ fix -- includes [ 829905 ] c14n.py fix for bug #825115, Date Submitted: 2003-10-24 23:43 -- include dependent namespace declarations declared in ancestor nodes (checking attributes and tags), -- handle InclusiveNamespaces PrefixList parameter This module generates canonical XML of a document or element. http://www.w3.org/TR/2001/REC-xml-c14n-20010315 and includes a prototype of exclusive canonicalization http://www.w3.org/Signature/Drafts/xml-exc-c14n Requires PyXML 0.7.0 or later. Known issues if using Ft.Lib.pDomlette: 1. Unicode 2. does not white space normalize attributes of type NMTOKEN and ID? 3. seems to be include "\n" after importing external entities? Note, this version processes a DOM tree, and consequently it processes namespace nodes as attributes, not from a node's namespace axis. This permits simple document and element canonicalization without XPath. When XPath is used, the XPath result node list is passed and used to determine if the node is in the XPath result list, but little else. Authors: "Joseph M. Reagle Jr." "Rich Salz" $Date$ by $Author$ ''' _copyright = '''Copyright 2001, Zolera Systems Inc. All Rights Reserved. Copyright 2001, MIT. All Rights Reserved. Distributed under the terms of: Python 2.0 License or later. http://www.python.org/2.0.1/license.html or W3C Software License http://www.w3.org/Consortium/Legal/copyright-software-19980720 ''' import string from xml.dom import Node try: from xml.ns import XMLNS except: class XMLNS: BASE = "http://www.w3.org/2000/xmlns/" XML = "http://www.w3.org/XML/1998/namespace" try: import cStringIO StringIO = cStringIO except ImportError: import StringIO _attrs = lambda E: (E.attributes and E.attributes.values()) or [] _children = lambda E: E.childNodes or [] _IN_XML_NS = lambda n: n.name.startswith("xmlns") _inclusive = lambda n: n.unsuppressedPrefixes == None # Does a document/PI has lesser/greater document order than the # first element? _LesserElement, _Element, _GreaterElement = range(3) def _sorter(n1,n2): '''_sorter(n1,n2) -> int Sorting predicate for non-NS attributes.''' i = cmp(n1.namespaceURI, n2.namespaceURI) if i: return i return cmp(n1.localName, n2.localName) def _sorter_ns(n1,n2): '''_sorter_ns((n,v),(n,v)) -> int "(an empty namespace URI is lexicographically least)."''' if n1[0] == 'xmlns': return -1 if n2[0] == 'xmlns': return 1 return cmp(n1[0], n2[0]) def _utilized(n, node, other_attrs, unsuppressedPrefixes): '''_utilized(n, node, other_attrs, unsuppressedPrefixes) -> boolean Return true if that nodespace is utilized within the node''' if n.startswith('xmlns:'): n = n[6:] elif n.startswith('xmlns'): n = n[5:] if (n=="" and node.prefix in ["#default", None]) or \ n == node.prefix or n in unsuppressedPrefixes: return 1 for attr in other_attrs: if n == attr.prefix: return 1 # For exclusive need to look at attributes if unsuppressedPrefixes is not None: for attr in _attrs(node): if n == attr.prefix: return 1 return 0 def _inclusiveNamespacePrefixes(node, context, unsuppressedPrefixes): '''http://www.w3.org/TR/xml-exc-c14n/ InclusiveNamespaces PrefixList parameter, which lists namespace prefixes that are handled in the manner described by the Canonical XML Recommendation''' inclusive = [] if node.prefix: usedPrefixes = ['xmlns:%s' %node.prefix] else: usedPrefixes = ['xmlns'] for a in _attrs(node): if a.nodeName.startswith('xmlns') or not a.prefix: continue usedPrefixes.append('xmlns:%s' %a.prefix) unused_namespace_dict = {} for attr in context: n = attr.nodeName if n in unsuppressedPrefixes: inclusive.append(attr) elif n.startswith('xmlns:') and n[6:] in unsuppressedPrefixes: inclusive.append(attr) elif n.startswith('xmlns') and n[5:] in unsuppressedPrefixes: inclusive.append(attr) elif attr.nodeName in usedPrefixes: inclusive.append(attr) elif n.startswith('xmlns:'): unused_namespace_dict[n] = attr.value return inclusive, unused_namespace_dict #_in_subset = lambda subset, node: not subset or node in subset _in_subset = lambda subset, node: subset is None or node in subset # rich's tweak class _implementation: '''Implementation class for C14N. This accompanies a node during it's processing and includes the parameters and processing state.''' # Handler for each node type; populated during module instantiation. handlers = {} def __init__(self, node, write, **kw): '''Create and run the implementation.''' self.write = write self.subset = kw.get('subset') self.comments = kw.get('comments', 0) self.unsuppressedPrefixes = kw.get('unsuppressedPrefixes') nsdict = kw.get('nsdict', { 'xml': XMLNS.XML, 'xmlns': XMLNS.BASE }) # Processing state. self.state = (nsdict, {'xml':''}, {}, {}) #0422 if node.nodeType == Node.DOCUMENT_NODE: self._do_document(node) elif node.nodeType == Node.ELEMENT_NODE: self.documentOrder = _Element # At document element if not _inclusive(self): inherited,unused = _inclusiveNamespacePrefixes(node, self._inherit_context(node), self.unsuppressedPrefixes) self._do_element(node, inherited, unused=unused) else: inherited = self._inherit_context(node) self._do_element(node, inherited) elif node.nodeType == Node.DOCUMENT_TYPE_NODE: pass else: raise TypeError, str(node) def _inherit_context(self, node): '''_inherit_context(self, node) -> list Scan ancestors of attribute and namespace context. Used only for single element node canonicalization, not for subset canonicalization.''' # Collect the initial list of xml:foo attributes. xmlattrs = filter(_IN_XML_NS, _attrs(node)) # Walk up and get all xml:XXX attributes we inherit. inherited, parent = [], node.parentNode while parent and parent.nodeType == Node.ELEMENT_NODE: for a in filter(_IN_XML_NS, _attrs(parent)): n = a.localName if n not in xmlattrs: xmlattrs.append(n) inherited.append(a) parent = parent.parentNode return inherited def _do_document(self, node): '''_do_document(self, node) -> None Process a document node. documentOrder holds whether the document element has been encountered such that PIs/comments can be written as specified.''' self.documentOrder = _LesserElement for child in node.childNodes: if child.nodeType == Node.ELEMENT_NODE: self.documentOrder = _Element # At document element self._do_element(child) self.documentOrder = _GreaterElement # After document element elif child.nodeType == Node.PROCESSING_INSTRUCTION_NODE: self._do_pi(child) elif child.nodeType == Node.COMMENT_NODE: self._do_comment(child) elif child.nodeType == Node.DOCUMENT_TYPE_NODE: pass else: raise TypeError, str(child) handlers[Node.DOCUMENT_NODE] = _do_document def _do_text(self, node): '''_do_text(self, node) -> None Process a text or CDATA node. Render various special characters as their C14N entity representations.''' if not _in_subset(self.subset, node): return s = string.replace(node.data, "&", "&") s = string.replace(s, "<", "<") s = string.replace(s, ">", ">") s = string.replace(s, "\015", " ") if s: self.write(s) handlers[Node.TEXT_NODE] = _do_text handlers[Node.CDATA_SECTION_NODE] = _do_text def _do_pi(self, node): '''_do_pi(self, node) -> None Process a PI node. Render a leading or trailing #xA if the document order of the PI is greater or lesser (respectively) than the document element. ''' if not _in_subset(self.subset, node): return W = self.write if self.documentOrder == _GreaterElement: W('\n') W('') if self.documentOrder == _LesserElement: W('\n') handlers[Node.PROCESSING_INSTRUCTION_NODE] = _do_pi def _do_comment(self, node): '''_do_comment(self, node) -> None Process a comment node. Render a leading or trailing #xA if the document order of the comment is greater or lesser (respectively) than the document element. ''' if not _in_subset(self.subset, node): return if self.comments: W = self.write if self.documentOrder == _GreaterElement: W('\n') W('') if self.documentOrder == _LesserElement: W('\n') handlers[Node.COMMENT_NODE] = _do_comment def _do_attr(self, n, value): ''''_do_attr(self, node) -> None Process an attribute.''' W = self.write W(' ') W(n) W('="') s = string.replace(value, "&", "&") s = string.replace(s, "<", "<") s = string.replace(s, '"', '"') s = string.replace(s, '\011', ' ') s = string.replace(s, '\012', ' ') s = string.replace(s, '\015', ' ') W(s) W('"') def _do_element(self, node, initial_other_attrs = [], unused = None): '''_do_element(self, node, initial_other_attrs = [], unused = {}) -> None Process an element (and its children).''' # Get state (from the stack) make local copies. # ns_parent -- NS declarations in parent # ns_rendered -- NS nodes rendered by ancestors # ns_local -- NS declarations relevant to this element # xml_attrs -- Attributes in XML namespace from parent # xml_attrs_local -- Local attributes in XML namespace. # ns_unused_inherited -- not rendered namespaces, used for exclusive ns_parent, ns_rendered, xml_attrs = \ self.state[0], self.state[1].copy(), self.state[2].copy() #0422 ns_unused_inherited = unused if unused is None: ns_unused_inherited = self.state[3].copy() ns_local = ns_parent.copy() inclusive = _inclusive(self) xml_attrs_local = {} # Divide attributes into NS, XML, and others. other_attrs = [] in_subset = _in_subset(self.subset, node) for a in initial_other_attrs + _attrs(node): if a.namespaceURI == XMLNS.BASE: n = a.nodeName if n == "xmlns:": n = "xmlns" # DOM bug workaround ns_local[n] = a.nodeValue elif a.namespaceURI == XMLNS.XML: if inclusive or (in_subset and _in_subset(self.subset, a)): #020925 Test to see if attribute node in subset xml_attrs_local[a.nodeName] = a #0426 else: if _in_subset(self.subset, a): #020925 Test to see if attribute node in subset other_attrs.append(a) # # TODO: exclusive, might need to define xmlns:prefix here # if not inclusive and a.prefix is not None and not ns_rendered.has_key('xmlns:%s' %a.prefix): # ns_local['xmlns:%s' %a.prefix] = ?? #add local xml:foo attributes to ancestor's xml:foo attributes xml_attrs.update(xml_attrs_local) # Render the node W, name = self.write, None if in_subset: name = node.nodeName if not inclusive: if node.prefix is not None: prefix = 'xmlns:%s' %node.prefix else: prefix = 'xmlns' if not ns_rendered.has_key(prefix) and not ns_local.has_key(prefix): if not ns_unused_inherited.has_key(prefix): raise RuntimeError,\ 'For exclusive c14n, unable to map prefix "%s" in %s' %( prefix, node) ns_local[prefix] = ns_unused_inherited[prefix] del ns_unused_inherited[prefix] W('<') W(name) # Create list of NS attributes to render. ns_to_render = [] for n,v in ns_local.items(): # If default namespace is XMLNS.BASE or empty, # and if an ancestor was the same if n == "xmlns" and v in [ XMLNS.BASE, '' ] \ and ns_rendered.get('xmlns') in [ XMLNS.BASE, '', None ]: continue # "omit namespace node with local name xml, which defines # the xml prefix, if its string value is # http://www.w3.org/XML/1998/namespace." if n in ["xmlns:xml", "xml"] \ and v in [ 'http://www.w3.org/XML/1998/namespace' ]: continue # If not previously rendered # and it's inclusive or utilized if (n,v) not in ns_rendered.items(): if inclusive or _utilized(n, node, other_attrs, self.unsuppressedPrefixes): ns_to_render.append((n, v)) elif not inclusive: ns_unused_inherited[n] = v # Sort and render the ns, marking what was rendered. ns_to_render.sort(_sorter_ns) for n,v in ns_to_render: self._do_attr(n, v) ns_rendered[n]=v #0417 # If exclusive or the parent is in the subset, add the local xml attributes # Else, add all local and ancestor xml attributes # Sort and render the attributes. if not inclusive or _in_subset(self.subset,node.parentNode): #0426 other_attrs.extend(xml_attrs_local.values()) else: other_attrs.extend(xml_attrs.values()) other_attrs.sort(_sorter) for a in other_attrs: self._do_attr(a.nodeName, a.value) W('>') # Push state, recurse, pop state. state, self.state = self.state, (ns_local, ns_rendered, xml_attrs, ns_unused_inherited) for c in _children(node): _implementation.handlers[c.nodeType](self, c) self.state = state if name: W('' % name) handlers[Node.ELEMENT_NODE] = _do_element def Canonicalize(node, output=None, **kw): '''Canonicalize(node, output=None, **kw) -> UTF-8 Canonicalize a DOM document/element node and all descendents. Return the text; if output is specified then output.write will be called to output the text and None will be returned Keyword parameters: nsdict: a dictionary of prefix:uri namespace entries assumed to exist in the surrounding context comments: keep comments if non-zero (default is 0) subset: Canonical XML subsetting resulting from XPath (default is []) unsuppressedPrefixes: do exclusive C14N, and this specifies the prefixes that should be inherited. ''' if output: apply(_implementation, (node, output.write), kw) else: s = StringIO.StringIO() apply(_implementation, (node, s.write), kw) return s.getvalue()