Copyright © 2002 W3C® (MIT, INRIA, Keio), All Rights Reserved. W3C liability, trademark, document use and software licensing rules apply.
Canonical XML [XML-C14N] specifies a standard serialization of XML that, when applied to a subdocument, includes the subdocument's ancestor context including all of the namespace declarations and attributes in the "xml:" namespace. However, some applications require a method which, to the extent practical, excludes ancestor context from a canonicalized subdocument. For example, one might require a digital signature over an XML payload (subdocument) in an XML message that will not break when that subdocument is removed from its original message and/or inserted into a different context. This requirement is satisfied by Exclusive XML Canonicalization.
This document is an editors version with no standing.
This document is the W3C Exclusive Canonicalization Recommendation. This document has been reviewed by W3C Members and other interested parties and has been endorsed by the Director as a W3C Recommendation. It is a stable document and may be used as reference material or cited as a normative reference from another document. W3C's role in making the Recommendation is to draw attention to the specification and to promote its widespread deployment. This enhances the functionality and interoperability of the Web.
This specification was produced by the IETF/W3C XML Signature Working Group (W3C Activity Statement) which believes the specification is sufficient for the creation of independent interoperable implementations as demonstrated in the Interoperability Report.
Patent disclosures relevant to this specification may be found on the Working Group's patent disclosure page, in conformance with W3C policy, and the IETF Page of Intellectual Property Rights Notices, in conformance with IETF policy. At the time of publication, there are no declarations specific to this document.
Please report errors in this document to w3c-ietf-xmldsig@w3.org (archive).
The list of known errors in this specification is available at http://www.w3.org/2002/07/xml-exc-c14n-errata.
The English version of this specification is the only normative version. Information about translations of this document (if any) is available http://www.w3.org/Signature/2002/02/xmldsig-translations
A list of current W3C Technical Reports can be found at http://www.w3.org/TR/.
The XML Recommendation [XML] specifies the syntax of a class of objects called XML documents. The Namespaces in XML Recommendation [XML-NS] specifies additional syntax and semantics for XML documents. It is normal for XML documents and subdocuments which are equivalent for the purposes of many applications to differ in their physical representation. For example, they may differ in their entity structure, attribute ordering, and character encoding. The goal of this specification is to establish a method for serializing the XPath node-set representation of an XML document or subset such that:
An understanding of the Canonical XML Recommendation [XML-C14N] is required.
The key words "MUST", "MUST NOT", "REQUIRED", "SHALL", "SHALL NOT", "SHOULD", "SHOULD NOT", "RECOMMENDED", "MAY", and "OPTIONAL" in this document are to be interpreted as described in RFC 2119 [Keywords].
The XPath 1.0 Recommendation [XPath] defines the term node-set and specifies a data model for representing an input XML document as a set of nodes of various types (element, attribute, namespace, text, comment, processing instruction, and root). The nodes are included in or excluded from a node-set based on the evaluation of an expression. Within this specification and [XML-C14N], a node-set is used to directly indicate whether or not each node should be rendered in the canonical form (in this sense, it is used as a formal mathematical set). A node that is excluded from the set is not rendered in the canonical form being generated, even if its parent node is included in the node-set. However, an omitted node may still impact the rendering of its descendants (e.g. by affecting the namespace context of the descendants).
A document subset is a portion of an XML document indicated by an XPath node-set that may not include all of the nodes in the document. As defined in [XPath] every node (e.g., element, attribute, and namespace), has exactly one parent, which is either an element node or the root node. An apex node is an element node in a document subset having no element node ancestor in the document subset. An orphan node is an element node whose parent element node is not in the document subset. The output parent of an orphan node that is not an apex node is the nearest ancestor element of the orphan node that is in the document subset; an apex node has no output parent. The output parent of a non-orphan node is the parent of the node. An output ancestor is any ancestor element node in the document subset.
For example given a document tree with three generations under the root node
A
and where capitalization denotes the node is in the document
subset (A,E,G
).
Pictorial Representation:
Textual Representation:
A-+-b `-c-+-d `-E-+-f `-G
The following characteristics apply:
A
is an apex node, output parent of E
, and output
ancestor of (E,G
);
E
is an orphan node and the output parent of G.
An element E in a document subset visibly utilizes a namespace declaration, i.e. a namespace prefix P and bound value V, if E or an attribute node in the document subset with parent E has a qualified name in which P is the namespace prefix. A similar definition applies for an element E in a document subset that visibly utilizes the default namespace declaration, which occurs if E has no namespace prefix.
The namespace axis of an element contains nodes for all non-default namespace declarations made within the element as well as non-default namespace declarations inherited from ancestors of the element. The namespace axis also contains a node representing the default namespace if it is not the empty string, whether the default namespace was declared within the element or by an ancestor of the element. Any subset of the nodes in a namespace axis can be included in a document subset.
The method of canonicalization described in this specification receives an InclusiveNamespaces PrefixList parameter, which lists namespace prefixes that are handled in the manner described by the Canonical XML Recommendation [XML-C14N].
The exclusive canonical form of a document subset is a physical representation of the XPath node-set, as an octet sequence, produced by the method described in this specification. It is as defined in the Canonical XML Recommendation [XML-C14N] except for the changes summarized as follows:
xml:lang
and
xml:space
are not imported into orphan nodes of the document
subset, and
The term exclusive canonical XML refers to XML that is in exclusive canonical form. The exclusive XML canonicalization method is the algorithm defined by this specification that generates the exclusive canonical form of a given XML document subset. The term exclusive XML canonicalization refers to the process of applying the exclusive XML canonicalization method to an XML document subset.
The applications of Exclusive XML Canonicalization are very similar to those for Canonical XML [XML-C14N]. However, exclusive canonicalization, or equivalent means of excluding most XML context, is necessary for signature applications where the XML context of signed XML will change. This sort of change is typical of many protocol applications.
Note that in the case of the SignedInfo
element of [XML-DSig], the specification of an appropriate
canonicalization method is the only technique available to protect the signature
from insignificant changes in physical form and changes in XML context.
Exclusive XML Canonicalization has the limitations of Canonical XML [XML-C14N] plus two additional limitations as follows:
xml:lang
, xml:space
, and
xml:base
appearing in ancestor nodes. To avoid problems due to the
non-importation of such attributes into an enveloped document subset, either
they must be explicitly given in the apex nodes of the XML document subset being canonicalized
or they must always be declared with an equivalent value in every context in
which the XML document subset will be interpreted.
<number xsi:type="xsd:decimal">10.09</number>
.
To avoid problems with such namespace declarations,
In some cases, particularly for signed XML in protocol applications, there is a need to canonicalize a subdocument in such a way that it is substantially independent of its XML context. This is because, in protocol applications, it is common to envelope XML in various layers of message or transport elements, to strip off such enveloping, and to construct new protocol messages, parts of which were extracted from different messages previously received. If the pieces of XML in question are signed, they need to be canonicalized in a way such that these operations do not break the signature but the signature still provides as much security as can be practically obtained.
As a simple example of the type of problem that changes in XML context can cause for signatures, consider the following document:
<n1:elem1 xmlns:n1="http://b.example"> content </n1:elem1>
this is then enveloped in another document:
<n0:pdu xmlns:n0="http://a.example"> <n1:elem1 xmlns:n1="http://b.example"> content </n1:elem1> </n0:pdu>
The first document above is in canonical form. But assume that document is
enveloped as in the second case. The subdocument with elem1
as its
apex node can be extracted from this second case with an XPath expression such
as:
(//. | //@* | //namespace::*)[ancestor-or-self::n1:elem1]
The result of applying Canonical XML to the resulting XPath node-set is the following (except for line wrapping to fit this document):
<n1:elem1 xmlns:n0="http://a.example" xmlns:n1="http://b.example"> content </n1:elem1>
Note that the n0
namespace has been included by Canonical XML
because it includes namespace context. This change which would break a signature
over elem1
based on the first version.
As a more complete example of the changes in canonical form that can occur when the enveloping context of a document subset is changed, consider the following document:
<n0:local xmlns:n0="foo:bar" xmlns:n3="ftp://example.org"> <n1:elem2 xmlns:n1="http://example.net" xml:lang="en"> <n3:stuff xmlns:n3="ftp://example.org"/> </n1:elem2> </n0:local>
And the following which has been produced by changing the enveloping of
elem2
:
<n2:pdu xmlns:n1="http://example.com" xmlns:n2="http://foo.example" xml:lang="fr" xml:space="retain"> <n1:elem2 xmlns:n1="http://example.net" xml:lang="en"> <n3:stuff xmlns:n3="ftp://example.org"/> </n1:elem2> </n2:pdu>
Assume an XPath node-set produced from each case by applying the following XPath expression:
(//. | //@* | //namespace::*)[ancestor-or-self::n1:elem2]
Applying Canonical XML to the node-set produced from the first document yields the following serialization (except for line wrapping to fit in this document):
<n1:elem2 xmlns:n0="foo:bar" xmlns:n1="http://example.net" xmlns:n3="ftp://example.org" xml:lang="en"> <n3:stuff></n3:stuff> </n1:elem2>
However, although elem2
is represented by the same octet sequence in
both pieces of external XML above, the Canonical XML version of
elem2
from the second case would be (except for line wrapping so it
will fit into this document) as follows:
<n1:elem2 xmlns:n1="http://example.net" xmlns:n2="http://foo.example" xml:lang="en" xml:space="retain"> <n3:stuff xmlns:n3="ftp://example.org"></n3:stuff> </n1:elem2>
Note that the change in context has resulted in lots of changes in the
subdocument as serialized by the inclusive Canonical XML [XML-C14N]. In the first example, n0
had
been included from the context and the presence of an identical n3
namespace declaration in the context had elevated that declaration to the apex of
the canonicalized form. In the second example, n0
has gone away but
n2
has appeared, n3
is no longer elevated, and an
xml:space
declaration has appeared, due to changes in context. But
not all context changes have effect. In the second example, the presence at
ancestor nodes of an xml:lang
and n1
prefix namespace
declaration have no effect because of existing declarations at the
elem2
node.
On the other hand, using Exclusive XML Canonicalization as specified herein, the
physical form of elem2
as extracted by the XPath expression above is
(except for line wrapping so it will fit into this document) as follows:
<n1:elem2 xmlns:n1="http://example.net" xml:lang="en"> <n3:stuff xmlns:n3="ftp://example.org"></n3:stuff> </n1:elem2>
in both cases.
The data model, processing, input parameters, and output data for Exclusive XML Canonicalization are the same as for Canonical XML [XML-C14N] with the following exceptions:
xml:lang
and xml:space
. These are copied into the
element node except if a declaration of the same attribute is already in the
attribute axis of the element (whether or not it is included in the document
subset). This search and copying are omitted from the Exclusive XML
Canonicalization method.
xmlns=""
are changed
as follows. When canonicalizing the namespace axis of an element
E that is in the node-set, output xmlns=""
if and
only if all of the conditions are met:
(This step for for xmlns=""
is necessary because it is not
represented in the XPath data model as a namespace node, but as the absence
of a namespace node; see §4.7
Propagation of Default Namespace Declaration in Document Subsets [XML-C14N].)
The following is a (non-normative) method for implementing the Exclusive XML Canonicalization method for many straightforward cases -- it assumes a well-formed subset and that if an element is in the node-set, so is all of its namespace axis; if the element is not in the subset, neither is its namespace axis.
xml:
namespace attributes into output apex element nodes is not
done.)
ns_rendered
is a copy of a dictionary, off the top of the
state
stack, of prefixes and their values which have already
been rendered by an output
ancestor of the namespace node's parent element.
ns_rendered
.
xmlns=""
if and only if all of the conditions are met:
ns_rendered
.
xmlns=""
)
into the ns_rendered
dictionary, replacing any existing
entries. Push ns_rendered
onto the state stack and recurse.
state
stack.
Exclusive Canonicalization may be used as a Transform
or
CanonicalizationMethod
algorithm in XML Digital Signature [XML-DSig] and XML Encryption [XML-Enc].
Just as with [XML-C14N] one may use the "#WithComments" parameter to include the
serialization of XML comments. This algorithm also takes an optional explicit
parameter of an empty InclusiveNamespaces
element with a
PrefixList
attribute. The value of this attribute, which may be
null, is a white space delimited list of namespace prefixes, and where #default
indicates the default namespace, to be handled as per [XML-C14N]. The list is in NMTOKENS format (a white space
separated list). For example:
<ds:Transform Algorithm="http://www.w3.org/2001/10/xml-exc-c14n#"> <ec:InclusiveNamespaces PrefixList="dsig soap #default" xmlns:ec="http://www.w3.org/2001/10/xml-exc-c14n#"/> </ds:Transform>
indicates the exclusive canonicalization transform, but that namespaces with prefix "dsig" or "soap" and default namespaces should be processed according to [XML-C14N].
Schema Definition: <?xml version="1.0" encoding="utf-8"?> <!DOCTYPE schema PUBLIC "-//W3C//DTD XMLSchema 200102//EN" "http://www.w3.org/2001/XMLSchema.dtd" [ <!ATTLIST schema xmlns:ec CDATA #FIXED 'http://www.w3.org/2001/10/xml-exc-c14n#'> <!ENTITY ec 'http://www.w3.org/2001/10/xml-exc-c14n#'> <!ENTITY % p ''> <!ENTITY % s ''> ]> <schema xmlns="http://www.w3.org/2001/XMLSchema" xmlns:ec="http://www.w3.org/2001/10/xml-exc-c14n#" targetNamespace="http://www.w3.org/2001/10/xml-exc-c14n#" version="0.1" elementFormDefault="qualified"> <element name="InclusiveNamespaces" type="ec:InclusiveNamespaces"/> <complexType name="InclusiveNamespaces"> <attribute name="PrefixList" type="NMTOKENS"/> </complexType> </schema>
DTD: <!ELEMENT InclusiveNamespaces EMPTY > <!ATTLIST InclusiveNamespaces PrefixList NMTOKENS #REQUIRED >
This specification is used to serialize an XPath node-set under certain assumptions given in [XML-C14N] and this specification. Three such examples include:
xml:lang
, xml:space
, and
xml:base
) when they are in the subset being serialized;
While such choices are consistent with other XML specifications and satisfy the Working Group's application requirements it is important that an XML application carefully construct its transforms such that the result is meaningful and unambiguous in its application context. In addition to this section, the Limitations of this specification, the Resolutions of [XML-C14N], and the Security Considerations of [XML-DSig] should be carefully attended to.
The requirement of this specification is to satisfy applications that "require a method which, to the extent practical, excludes ancestor context from a canonicalized subdocument." Given a fragment being removed from its source instance, this specification satisfies this requirement by excluding from the fragment any context from its ancestors that is not utilized. Consequently, a signature [XML-DSig] over that fragment will remain valid in its source context, removed from the source context, and even in a new target context. However, this specification does not insulate the fragment against confused interpretation in a target context.
For example, if the <Foo/>
element is signed in its source
instance of <Bar/><Foo/></Bar>
and then removed
and placed in the target instance <Baz
xmlns="http://example.org/bar"/><Foo/></Baz>
, the
signature should still be valid, but won't be if <Foo/>
is
interprated as belonging to the http://example.org/bar
namespace:
this is dependent on how nodes are processed.
This specification does not define mechanisms of removing, inserting, and
"fixing up" a node-set. (For an example of this sort of specification, see the
processing required of Creating the Result
Infoset (section 4.5) when an [XInclude] is
performed.) Instead, applications must carefully specify the XML (i.e., source,
fragment, and target) or define the node-set processing (i.e., removal,
replacement, and insertion) with respect to default namespace declarations
(e.g., xmlns=""
) and XML attributes (e.g., xml:lang
,
xml:space
, and xml:base
).
Consider an application that might use this specification or [XML-C14N] to serialize a single attribute node. An implementation of either specification will not emit a namespace declaration for that single attribute node. Consequently, a "carefully constructed" transform should create a node-set containing the attribute and the relevant namespace declaration for serialization.
This example is provided to caution that as one moves beyond well-formed [XML] and then well-balanced XML [XML-Fragment], it becomes increasingly difficult to create a result that "is meaningful and unambiguous in its application context."
The following people provided valuable feedback that improved the quality of this specification: