Web Services Security SOAP Message with Attachments (SwA) Profile Version 1.1.1

OASIS Standard

18 May 2012

Specification URIs

This version:

http://docs.oasis-open.org/wss-m/wss/v1.1.1/os/wss-SwAProfile-v1.1.1-os.doc (Authoritative)

http://docs.oasis-open.org/wss-m/wss/v1.1.1/os/wss-SwAProfile-v1.1.1-os.html

http://docs.oasis-open.org/wss-m/wss/v1.1.1/os/wss-SwAProfile-v1.1.1-os.pdf

Previous version:

http://docs.oasis-open.org/wss-m/wss/v1.1.1/csd01/wss-SwAProfile-v1.1.1-csd01.doc (Authoritative)

http://docs.oasis-open.org/wss-m/wss/v1.1.1/csd01/wss-SwAProfile-v1.1.1-csd01.html

http://docs.oasis-open.org/wss-m/wss/v1.1.1/csd01/wss-SwAProfile-v1.1.1-csd01.pdf

Latest version:

http://docs.oasis-open.org/wss-m/wss/v1.1.1/wss-SwAProfile-v1.1.1.doc (Authoritative)

http://docs.oasis-open.org/wss-m/wss/v1.1.1/wss-SwAProfile-v1.1.1.html

http://docs.oasis-open.org/wss-m/wss/v1.1.1/wss-SwAProfile-v1.1.1.pdf

Technical Committee:

OASIS Web Services Security Maintenance (WSS-M) TC

Chair:

David Turner (david.turner@microsoft.com), Microsoft

Editors:

Frederick Hirsch (Frederick.Hirsch@nokia.com), Nokia

Carlo Milono (cmilono@tibco.com), Tibco

Additional artifacts:

This prose specification is one component of a multi-part Work Product which includes:

·         Web Services Security Kerberos Token Profile Version 1.1.1. http://docs.oasis-open.org/wss-m/wss/v1.1.1/os/wss-KerberosTokenProfile-v1.1.1-os.html.

·         Web Services Security Rights Expression Language (REL) Token Profile Version 1.1.1. http://docs.oasis-open.org/wss-m/wss/v1.1.1/os/wss-rel-token-profile-v1.1.1-os.html.

·         Web Services Security SAML Token Profile Version 1.1.1. http://docs.oasis-open.org/wss-m/wss/v1.1.1/os/wss-SAMLTokenProfile-v1.1.1-os.html.

·         Web Services Security: SOAP Message Security Version 1.1.1. http://docs.oasis-open.org/wss-m/wss/v1.1.1/os/wss-SOAPMessageSecurity-v1.1.1-os.html.

·         Web Services Security SOAP Message with Attachments (SwA) Profile Version 1.1.1. http://docs.oasis-open.org/wss-m/wss/v1.1.1/os/wss-SwAProfile-v1.1.1-os.html. (this document)

·         Web Services Security Username Token Profile Version 1.1.1. http://docs.oasis-open.org/wss-m/wss/v1.1.1/os/wss-UsernameTokenProfile-v1.1.1-os.html.

·         Web Services Security X.509 Certificate Token Profile Version 1.1.1. http://docs.oasis-open.org/wss-m/wss/v1.1.1/os/wss-x509TokenProfile-v1.1.1-os.html.

·         XML schemas: http://docs.oasis-open.org/wss-m/wss/v1.1.1/os/xsd/

Related work:

This specification supersedes:

·         Web Services Security SOAP Messages with Attachments (SwA) Profile 1.1. 01 November 2006. OASIS Standard incorporating Approved Errata.
http://docs.oasis-open.org/wss/v1.1/wss-v1.1-spec-errata-os-SwAProfile.html

·         Web Services Security SOAP Messages with Attachments (SwA) Profile 1.1. 01 November 2006. OASIS Approved Errata.
http://docs.oasis-open.org/wss/v1.1/wss-v1.1-errata-os-SwAProfile.html

Abstract:

This specification defines how to use the OASIS Web Services Security: SOAP Message Security standard [WSS-Sec] with SOAP Messages with Attachments [SwA].

This document integrates specific error corrections or editorial changes to the preceding specification, within the scope of the Web Services Security and this TC.

This document introduces a third digit in the numbering convention where the third digit represents a consolidation of error corrections, bug fixes or editorial formatting changes (e.g., 1.1.1); it does not add any new features beyond those of the base specifications (e.g., 1.1).

Status:

This document was last revised or approved by the membership of OASIS on the above date. The level of approval is also listed above. Check the “Latest version” location noted above for possible later revisions of this document.

Technical Committee members should send comments on this specification to the Technical Committee’s email list. Others should send comments to the Technical Committee by using the “Send A Comment” button on the Technical Committee’s web page at http://www.oasis-open.org/committees/wss-m/.

For information on whether any patents have been disclosed that may be essential to implementing this specification, and any offers of patent licensing terms, please refer to the Intellectual Property Rights section of the Technical Committee web page (http://www.oasis-open.org/committees/wss-m/ipr.php).

Citation format:

When referencing this specification the following citation format should be used:

[WSS-SOAP-Attachments-Profile-V1.1.1]

Web Services Security SOAP Message with Attachments (SwA) Profile Version 1.1.1. 18 May 2012. OASIS Standard. http://docs.oasis-open.org/wss-m/wss/v1.1.1/os/wss-SwAProfile-v1.1.1-os.html.

Notices

Copyright © OASIS Open 2012. All Rights Reserved.

All capitalized terms in the following text have the meanings assigned to them in the OASIS Intellectual Property Rights Policy (the "OASIS IPR Policy"). The full Policy may be found at the OASIS website.

This document and translations of it may be copied and furnished to others, and derivative works that comment on or otherwise explain it or assist in its implementation may be prepared, copied, published, and distributed, in whole or in part, without restriction of any kind, provided that the above copyright notice and this section are included on all such copies and derivative works. However, this document itself may not be modified in any way, including by removing the copyright notice or references to OASIS, except as needed for the purpose of developing any document or deliverable produced by an OASIS Technical Committee (in which case the rules applicable to copyrights, as set forth in the OASIS IPR Policy, must be followed) or as required to translate it into languages other than English.

The limited permissions granted above are perpetual and will not be revoked by OASIS or its successors or assigns.

This document and the information contained herein is provided on an "AS IS" basis and OASIS DISCLAIMS ALL WARRANTIES, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO ANY WARRANTY THAT THE USE OF THE INFORMATION HEREIN WILL NOT INFRINGE ANY OWNERSHIP RIGHTS OR ANY IMPLIED WARRANTIES OF MERCHANTABILITY OR FITNESS FOR A PARTICULAR PURPOSE.

OASIS requests that any OASIS Party or any other party that believes it has patent claims that would necessarily be infringed by implementations of this OASIS Committee Specification or OASIS Standard, to notify OASIS TC Administrator and provide an indication of its willingness to grant patent licenses to such patent claims in a manner consistent with the IPR Mode of the OASIS Technical Committee that produced this specification.

OASIS invites any party to contact the OASIS TC Administrator if it is aware of a claim of ownership of any patent claims that would necessarily be infringed by implementations of this specification by a patent holder that is not willing to provide a license to such patent claims in a manner consistent with the IPR Mode of the OASIS Technical Committee that produced this specification. OASIS may include such claims on its website, but disclaims any obligation to do so.

OASIS takes no position regarding the validity or scope of any intellectual property or other rights that might be claimed to pertain to the implementation or use of the technology described in this document or the extent to which any license under such rights might or might not be available; neither does it represent that it has made any effort to identify any such rights. Information on OASIS' procedures with respect to rights in any document or deliverable produced by an OASIS Technical Committee can be found on the OASIS website. Copies of claims of rights made available for publication and any assurances of licenses to be made available, or the result of an attempt made to obtain a general license or permission for the use of such proprietary rights by implementers or users of this OASIS Committee Specification or OASIS Standard, can be obtained from the OASIS TC Administrator. OASIS makes no representation that any information or list of intellectual property rights will at any time be complete, or that any claims in such list are, in fact, Essential Claims.

The name "OASIS" is a trademark of OASIS, the owner and developer of this specification, and should be used only to refer to the organization and its official outputs. OASIS welcomes reference to, and implementation and use of, specifications, while reserving the right to enforce its marks against misleading uses. Please see http://www.oasis-open.org/policies-guidelines/trademark for above guidance.

Table of Contents

1        Introduction. 5

2        Notations and Terminology. 6

2.1 Notational Conventions. 6

2.1.1 Namespaces. 6

2.1.2 Acronyms and Abbreviations. 7

2.2 Normative References. 7

2.3 Non-normative References. 8

3        MIME Processing. 9

4        XML Attachments. 10

5        Securing SOAP With Attachments. 11

5.1 Primary SOAP Envelope. 11

5.2 Referencing Attachments. 11

5.3 MIME Part Reference Transforms. 11

5.3.1 Attachment-Content-Signature-Transform.. 12

5.3.2 Attachment-Complete-Signature-Transform.. 12

5.3.3 Attachment-Ciphertext-Transform.. 13

5.4 Integrity and Data Origin Authentication. 13

5.4.1 MIME header canonicalization. 13

5.4.2 MIME Content Canonicalization. 14

5.4.3 Protecting against attachment insertion threat 15

5.4.4 Processing Rules for Attachment Signing. 15

5.4.5 Processing Rules for Attachment Signature Verification. 16

5.4.6 Example Signed Message. 16

5.5 Encryption. 17

5.5.1 MIME Part CipherReference. 17

5.5.2 Encryption Processing Rules. 18

5.5.3 Decryption Processing Rules. 19

5.5.4 Example. 19

5.6 Signing and Encryption. 20

6        Conformance. 22

A.      Acknowledgements. 23

B.      Revision History. 27

 

 


1      Introduction

This section is non-normative. Note that sections 2.1, 2.2 and 5 are normative. All other sections are non-normative.

This document describes how to use the OASIS Web Services Security: SOAP Message Security standard [WSS-Sec] with SOAP Messages with Attachments [SwA]. More specifically, it describes how a web service consumer can secure SOAP attachments using SOAP Message Security for attachment integrity, confidentiality and origin authentication, and how a receiver may process such a message.

A broad range of industries - automotive, insurance, financial, pharmaceutical, medical, retail, etc - require that their application data be secured from its originator to its ultimate consumer. While some of this data will be XML, quite a lot of it will not be. In order for these industries to deploy web service solutions, they need an interoperable standard for end-to-end security for both their XML data and their non-XML data.

Profiling SwA security may help interoperability between the firms and trading partners using attachments to convey non-XML data that is not necessarily linked to the XML payload.  Many industries, such as the insurance industry require free-format document exchange in conjunction with web services messages. This profile of SwA should be of value in these cases.

In addition, some content that could be conveyed as part of the SOAP body may be conveyed as an attachment due to its large size to reduce the impact on message and XML processing, and may be secured as described in this profile.

This profile is applicable to using SOAP Message Security in conjunction with SOAP Messages with Attachments (SwA). This means the scope is limited to SOAP 1.1, the scope of SwA.

Goals of this profile include the following:

·       Enable those who choose to use SwA to secure these messages, including chosen attachments, using SOAP Message Security

·       Allow the choice of securing  MIME header information exposed to the SOAP layer, if desired.

·       Do not interfere with MIME transfer mechanisms, in particular, allow MIME transfer encodings to change to support MIME transfer, despite support for integrity protection.

·       Do not interfere with the SOAP processing model – in particular allow SwA messages to transit SOAP intermediaries.

Non-goals include:

·       Provide guidance on which of a variety of security mechanisms are appropriate to a given application. The choice of transport layer security (e.g. SSL/TLS), S/MIME, application use of XML Signature and XML Encryption, and other SOAP attachment mechanisms (MTOM) is explicitly out of scope. This profile assumes a need and desire to secure SwA using SOAP Message security.

·       Outline how different security mechanisms may be used in combination.

·       Enable persisting signatures. It may be possible depending on the situation and measures taken, but is not discussed in this profile.

·       Support signing and/or encryption of portions of attachments. This is not supported by this profile, but is not necessarily  precluded. Application use of XML Signature and XML Encryption may be used to accomplish this. SOAP Message security may also support this in some circumstances, but this profile does not address or define such usage.

The existence of this profile does not preclude using other mechanisms to secure attachments conveyed in conjunction with SOAP messages, including the use of XML security technologies at the application layer or the use of security for the XML Infoset  before a serialization that uses attachment technology  [MTOM]. The requirements in this profile only apply when securing SwA attachments explicitly according to this profile.

2      Notations and Terminology

2.1 Notational Conventions

The key words "MUST", "MUST NOT", "REQUIRED", "SHALL", "SHALL NOT", "SHOULD", "SHOULD NOT", "RECOMMENDED", "MAY", and "OPTIONAL" in this specification are to be interpreted as described in IETF RFC 2119 [RFC2119].

Listings of productions or other normative code appear like this.

 

Example code listings appear like this.

Note: Non-normative notes and explanations appear like this.

When describing abstract data models, this specification uses the notational convention used by the XML Infoset. Specifically, abstract property names always appear in square brackets (e.g., [some property]).

When describing concrete XML schemas [XML-Schema], this specification uses the notational convention of OASIS Web Services Security: SOAP Message Security. Specifically, each member of an element’s [children] or [attributes] property is described using an XPath-like [XPath] notation (e.g., /x:MyHeader/x:SomeProperty/@value1). The use of {any} indicates the presence of an element wildcard (<xs:any/>). The use of @{any} indicates the presence of an attribute wildcard (<xs:anyAttribute/>).

Commonly used security terms are defined in the Internet Security Glossary [SECGLO]. Readers are presumed to be familiar with the terms in this glossary as well as the definitions in the SOAP Message Security specification [WSS-Sec].

2.1.1 Namespaces

Namespace URIs (of the general form "some-URI") represent application-dependent or context-dependent URIs as defined in RFC 2396 [RFC2396]. This specification is designed to work with the SOAP 1.1 [SOAP11] message structure and message processing model, the version of SOAP supported by SOAP Messages with Attachments. The current SOAP 1.1 namespace URI is used herein to provide detailed examples.

The namespaces used in this document are shown in the following table (note that for brevity, the examples use the prefixes listed below but do not include the URIs – those listed below are assumed).

Prefix

Namespace

ds

http://www.w3.org/2000/09/xmldsig#

S11

http://schemas.xmlsoap.org/soap/envelope/

wsse

http://docs.oasis-open.org/wss/2004/01/oasis-200401-wss-wssecurity-secext-1.0.xsd

wsu

http://docs.oasis-open.org/wss/2004/01/oasis-200401-wss-wssecurity-utility-1.0.xsd

wsswa

http://docs.oasis-open.org/wss/oasis-wss-SwAProfile-1.1.xsd

xenc

http://www.w3.org/2001/04/xmlenc#

 

The URLs provided for the wsse and wsu namespaces can be used to obtain the schema files.

2.1.2 Acronyms and Abbreviations

The following (non-normative) table defines acronyms and abbreviations for this document, beyond those defined in the SOAP Message Security standard.

Term

Definition

CID

Content ID scheme for URLs. Refers to Multipart MIME body part, that includes both MIME headers and content for that part. [RFC2392]

SwA

SOAP Messages with Attachments [SwA]

2.2 Normative References

[RFC 2119]              S. Bradner. Key words for use in RFCs to Indicate Requirement Levels. IETF RFC 2119, March 1997. http://www.ietf.org/rfc/rfc2119.txt.

[CHARSETS]          Character sets assigned by IANA. See http://www.iana.org/assignments/character-sets.

[Excl-Canon]          “Exclusive XML Canonicalization, Version 1.0”, W3C Recommendation, 18 July 2002. http://www.w3.org/TR/xml-exc-c14n/.

[RFC2045]               “Multipurpose Internet Mail Extensions (MIME) Part One: Format of Internet Message Bodies”, IETF RFC 2045, November 1996, http://www.ietf.org/rfc/rfc2045.txt.

[RFC2046]               “Multipurpose Internet Mail Extensions (MIME) Part Two: Media Types”, IETF RFC 2046, November 1996, http://www.ietf.org/rfc/rfc2046.txt.

[RFC2047]               “Multipurpose Internet Mail Extensions (MIME) Part Three: Message Header Extensions for Non-ASCII Text”, IETF RFC 2047, November 1996, http://www.ietf.org/rfc/rfc2047.txt.

[RFC2048]               “Multipurpose Internet Mail Extensions (MIME) Part Four: Registration Procedures”, http://www.ietf.org/rfc/rfc2048.txt.

[RFC2049]               “Multipurpose Internet Mail Extensions(MIME) Part Five: Conformance Criteria and Examples”, http://www.ietf.org/rfc/rfc2049.txt.

[RFC2119]               S. Bradner, “Key words for use in RFCs to Indicate Requirement Levels”, IETF RFC 2119, March 1997, http://www.ietf.org/rfc/rfc2119.txt.

[RFC2184]               P. Resnick, “MIME Parameter Value and Encoded Word Extensions: Character Sets, Languages, and Continuations”, IETF RFC 2184, August 1997, http://www.ietf.org/rfc/rfc2184.txt.

[RFC2392]               E. Levinson, “Content-ID and Message-ID Uniform Resource Locators”, IETF RFC 2392, http://www.ietf.org/rfc/rfc2392.txt.

[RFC2396]               T. Berners-Lee, R. Fielding, L. Masinter, "Uniform Resource Identifiers (URI): Generic Syntax," RFC 2396, MIT/LCS, U.C. Irvine, Xerox Corporation, August 1998, http://www.ietf.org/rfc/rfc2396.txt.

[RFC2557]               “MIME Encapsulation of Aggregate Documents, such as HTML (MHTML)”, IETF RFC 2557, March 1999, http://www.ietf.org/rfc/rfc2557.txt.

[RFC2633]               Ramsdell B., “S/MIME Version 3 Message Specification”, Standards Track RFC 2633, June 1999. http://www.ietf.org/rfc/rfc2633.txt.

[RFC2822]               “Internet Message Format”, IETF RFC 2822, April 2001, http://www.ietf.org/rfc/rfc2822.txt.

[SECGLO]              "Internet Security Glossary," Informational RFC 2828, May 2000.

[SOAP11]               "SOAP: Simple Object Access Protocol 1.1", W3C Note, 08 May 2000.

[SwA]                     “SOAP Messages with Attachments”, W3C Note, 11 December 2000,  http://www.w3.org/TR/2000/NOTE-SOAP-attachments-20001211.

[WS-I-AP]               “Attachments Profile Version 1.0”, Final Material, 2004-08-24, http://www.ws-i.org/Profiles/AttachmentsProfile-1.0.html.

[WSS-Sec]              Web Services Security: SOAP Message Security Version 1.1.1. 18 May 2012. OASIS Standard. http://docs.oasis-open.org/wss-m/wss/v1.1.1/os/wss-SOAPMessageSecurity-v1.1.1-os.html.

[XML-Schema]        W3C Recommendation, "XML Schema Part 1: Structures,"2 May 2001, http://www.w3.org/TR/2001/REC-xmlschema-1-20010502/.

                              W3C Recommendation, "XML Schema Part 2: Datatypes," 2 May 2001, http://www.w3.org/TR/2001/REC-xmlschema-2-20010502/.

[XML-Sig]               W3C Recommendation, “XML-Signature Syntax and Processing”, 12 February 2002, http://www.w3.org/TR/xmldsig-core/.

[XPath]                                           W3C Recommendation, "XML Path Language", 16 November 1999, http://www.w3.org/TR/xpath.

2.3 Non-normative References

[DecryptT]                                      M. Hughes et al, “Decryption Transform for XML Signature”, W3C Recommendation, 10 December 2002. http://www.w3.org/TR/xmlenc-decrypt

[MTOM]                  “SOAP Message Transmission Optimization Mechanism”, W3C  Recommendation,  25 January 2005, http://www.w3.org/TR/soap12-mtom/.

3      MIME Processing

This profile is concerned with the securing of SOAP messages with attachments, attachments that are conveyed as MIME parts in a multi-part MIME message as outlined in SOAP Messages with Attachments[SwA]. This involves two processing layers, SOAP messaging  and MIME transfer. This specification defines processing of a merged SOAP and MIME  layer, in order to meet SwA security requirements. It relies on an underlying MIME transfer layer that allows changes to MIME transfer encoding as a message transits MIME nodes. This profile  does not impose restrictions on that MIME transfer layer apart from aspects that are exposed to the SOAP processing layer. Likewise, this profile does not restrict the SOAP processing model, including use of SOAP intermediaries, allowing SOAP Messages with Attachments to transit SOAP nodes.

To accommodate the ability to secure attachment headers that are exposed to the SOAP message layer and application, this profile does not assume a strict protocol layering of MIME, SOAP and application. Rather, this profile allows a SOAP sender to create a primary SOAP envelope  as well as attachments to be sent with the message. It is up to the application which, if any, of the attachments are referenced from  SOAP header and/or body blocks. The application may be aware of, and concerned with, certain aspects of the attachment MIME representation, including Content-Type and Content-Length headers, to give two examples. Due to this concern, the application may choose to secure these exposed headers. This does not mean, however, that the application and SOAP layer are aware or concerned with all MIME headers used for MIME transit, in particular issues related to transfer encoding.  The expectation is that the MIME processing layer of the sender and receiver will handle transfer encoding issues, hiding this detail from the processing layer associated with this profile. As a result, this specification focuses on those aspects of MIME processing that are exposed and of concern to higher protocol layers, while ignoring MIME transit specific details.

This model has two implications. First, it means that certain aspects of MIME processing, such as transfer encoding processing, are out of scope of the profile and do not need to be addressed. Secondly, it means that many of the MIME headers are also out of scope of the profile and the profile does not support integrity protection of these headers, since they are expected to change. If more security protection is required then it must occur by other means, such as with a protocol layer below the MIME layer, for example transport security (with the understanding that such security may not always apply end-end).

Use of this profile is intended to be independent of MIME-specific security processing, although care must be taken when using both SOAP Message Security and S/MIME. When conveyed end-to-end, S/MIME content may be conveyed opaquely as one or more attachments, as a MIME content type. If S/MIME security is to be used between nodes that convey the SOAP message, then this may also be opaque to  SOAP Message Security, as long as the attachment that was sent by the initial SOAP sender is the same as that which is received by the receiving SOAP intermediary or ultimate SOAP receiver. Care must be taken to ensure this will be the case. Clearly SOAP Message Security encryption could prevent S/MIME processing of an attachment, and likewise S/MIME encryption could prevent SOAP Message Security signature verification if these techniques are interleaved. This potential concern is out of scope of this profile.

4      XML Attachments

A SOAP Messages with Attachments multi-part MIME structure contains a primary SOAP envelope in the root part and one or more attachments in additional MIME parts. Some of these attachments may have a content type corresponding to XML, but do not contain the primary SOAP envelope to be processed.

Some attachments associated with the SOAP body may be targeted at the SOAP Ultimate Receiver along with the SOAP body and may be processed at the application layer along with the body. Others may be targeted at intermediaries. How attachments are to be processed and how these attachments are referenced from SOAP header and body blocks, if at all, is dependent on the application.  In many cases the attachment content may not need to be processed as XML as the message traverses intermediaries.

Generally requiring canonicalization of XML attachments whenever transmitting them is undesirable, both due to the potential ambiguities related to the canonicalization context of the attachment (e.g. Is it an independent XML document, a portion of the primary SOAP envelope, etc) as well as the universal performance impact of such a canonicalization requirement. When XML attachment content is signed, then XML canonicalization is required, as is generally the case when signing XML.

MIME part canonicalization (as described below) is required for non-XML attachments to enable SOAP Message Security signatures that are stable despite MIME transfer processing.

5      Securing SOAP With Attachments

Attachments may be associated with SOAP messages, as outlined in SOAP Messages with Attachments [SwA]. This profile defines how such attachments may be secured for integrity and confidentiality using the OASIS  Web Services Security: SOAP Message Security standard. This does not preclude using other techniques. The requirements in this profile only apply when securing SwA attachments explicitly according to this profile.

This profile considers all attachments as opaque whether they are XML or some other content type. It is the sole responsibility of the application to perform further interpretation of attachments, including the ability to sign or encrypt portions of those attachments.

5.1 Primary SOAP Envelope

When SOAP attachments are used as specified in [SwA] each SOAP message is accompanied by a MIME header and possibly multiple boundary parts. This is known as a SOAP message package. This document assumes that a proper SOAP message package is constructed using the HTTP and MIME headers appropriate to [SwA].

The primary SOAP envelope SHOULD be conveyed in the first MIME part, but MAY be conveyed in another MIME part when the start attribute is specified in the HTTP Multipart/Related header.

In particular, implementations should take care in distinguishing between the HTTP headers in the SOAP message package and the start of the SOAP payload. For example, the following  Multipart/Related header belongs to the HTTP layer and not the main SOAP payload:

Content-Type: Multipart/Related; boundary=xy1; type=”text/xml”; start="<foo>"

The main SOAP payload begins with the appropriate boundary. For example:

 --xy1

Content-Type: text/xml; charset=utf-8

Content-ID: <foo>

 

<?xml version='1.0' ?>

<s11:Envelope xmlns:s11=”http://schemas.xmlsoap.org/soap/envelope/” />

5.2 Referencing Attachments

SOAP Messages with Attachments defines two MIME mechanisms for referencing attachments. The first mechanism uses a CID scheme URL to refer to the attachment that has a Content-ID MIME header with a value corresponding to the URL, as defined in [RFC 2392]. For example, a content id of “foo” may be specified in the MIME part with the MIME header “Content-ID: <foo>” and be referenced using the CID Schema URL “cid:foo”.

The second mechanism is to use a URL to refer to an attachment containing a Content-Location MIME header.  In this case the URL may require resolution to determine the referenced attachment [RFC2557].

For simplicity and interoperability this profile limits WS-Security references to attachments to CID scheme URLs. Attachments referenced from WS-Security signature references or cipher references MUST be referenced using CID scheme URLs.

This profile assumes, since it is not defined in RFC 2396 Section 4.2, that all cid: references are not same-document references and that therefore, under XMLDSIG, dereferencing a cid: URI always yields an octet stream as input to the transform chain [RFC2396], [XMLDSIG].

5.3 MIME Part Reference Transforms

By definition of RFC 2392, a URI reference to a MIME attachment includes the MIME headers associated with that attachment as well as the MIME part content [RFC2392]. Since there may be some confusion as to what is referenced, it is useful to clearly indicate what is included in the referenced attachment. In addition, some applications may wish to only encrypt or include the attachment content in a signature reference hash, and others may wish to include MIME headers and content.

For these reasons, this profile defines reference transforms, allowing a clear and explicit statement of what is included in a MIME reference. These transforms are called “MIME Part Reference Transforms”.

The input of each of these transforms is an octet stream, as defined in XML Security [XML-Sig].

5.3.1 Attachment-Content-Signature-Transform

The Attachment-Content-Signature-Transform indicates that only the content of a MIME part is referenced for signing. This transform MUST be identified using the URI value:

http://docs.oasis-open.org/wss/oasis-wss-SwAProfile-1.1#Attachment-Content-Signature-Transform

 

When this transform is used the content of the MIME part should be  canonicalized as defined in section 5.4.2.

The octet stream input to this transform is the entire content of the MIME attachment associated with the CID, including all the MIME headers and attachment content, as represented in the MIME part containing the attachment.

The output of the transform is an octet stream consisting of the  canonicalized serialization of the attachment content. All of the MIME headers associated with the MIME part are ignored and not included in the output octet stream. The  canonicalization of the content is described  in section 5.4.2 of this specification.

5.3.2 Attachment-Complete-Signature-Transform

The Attachment-Complete-Signature-Transform indicates that both the content and selected headers of the MIME part are referenced for signing. This transform MUST be identified using the URI value:

http://docs.oasis-open.org/wss/oasis-wss-SwAProfile-1.1#Attachment-Complete-Signature-Transform

This transform specifies that in addition to the content the following MIME headers are to be included (when present):

·     Content-Description

·     Content-Disposition

·     Content-ID

·     Content-Location

·     Content-Type

These headers are included because of their common use and the risks associated with inappropriate modification. If other headers are to be protected, other mechanisms at the application level should be used (such as copying values into a SOAP header) and this is out of scope of this profile.

Other MIME headers associated with the MIME part serialization are not referenced by the transform and are not to be included in signature calculations.

When this transform is used the MIME headers should be canonicalized as defined in section 5.4.1 and the MIME content should be canonicalized as defined in section 5.4.2.

The octet stream input to this transform is the entire content of the MIME attachment associated with the CID, including all the MIME headers and attachment content, as represented in the MIME part containing the attachment.

The output of the transform is an octet stream consisting of concatenation of the MIME canonicalized MIME headers selected by the transform followed by the canonicalized attachment content. The  canonicalization of headers and content are described in sections 5.4.1 and 5.4.2 of this specification.

5.3.3 Attachment-Ciphertext-Transform

The Attachment-Ciphertext-Transform indicates that only the content of a MIME part is referenced, and contains the ciphertext related to an XML EncryptedData element. This transform MUST be identified using the URI value:

http://docs.oasis-open.org/wss/oasis-wss-SwAProfile-1.1#Attachment-Ciphertext-Transform

 

The octet stream input to this transform is the entire content of the MIME attachment associated with the CID, including all the MIME headers and attachment content, as represented in the MIME part containing the attachment.

The output of the transform is an octet stream consisting of the ciphertext as conveyed in the MIME part content. All of the MIME headers associated with the MIME part are ignored and not included in the output octet stream. The MIME text canonicalization of the content is described  in section 5.4.2 of this specification.

5.4 Integrity and Data Origin Authentication

Integrity and data origin authentication may be provided for SwA attachments using XML Signatures, as outlined in the SOAP Message Security standard as profiled in this document. This is useful independent of the content of the MIME part – for example, it is possible to sign a MIME part that already contains a signed object created by an application. It may be sensible to sign such an attachment as part of SOAP Message security so that the receiving SOAP node may verify that all attachments are intact before delivering them to an application.  A SOAP intermediary may also choose to perform this verification, even if the attachments are not otherwise processed by the intermediary.

5.4.1 MIME header canonicalization

The result of MIME header canonicalization is a UTF-8 encoded octet stream.

Each of the MIME headers listed for the Attachment-Complete transform MUST be canonicalized as part of that transform processing, as outlined in this section. This means the transform MUST perform the following actions in interpreting the MIME headers for signature creation or verification (this order is not prescriptive as long as the same result is obtained)

1.   The transform MUST process MIME headers before the MIME content.

2.   The transform MUST only process MIME headers that are explicitly present in the attachment part and are listed in the Attachment-Complete transform section of this specification, except that a MIME part without a Content-Type header MUST be treated as having a Content-Type header with the value "Content-Type: text/plain; charset=us-ascii". MIME headers not listed in the Attachment-Complete transform section of this specification are to be ignored by the transform.

3.   The MIME headers MUST be processed by the Attachment-Complete transform in lexicographic order (ascending).

4.   The MIME header names MUST be processed by the transform as having the case according to the MIME specifications (as shown in the Attachment-Complete section). 

5.   The MIME header values MUST be unfolded [RFC2822].

6.   Any Content-Description MIME header containing RFC2047 encoding MUST be decoded [RFC2047].

7.   When a Content-ID header is processed, the "<>" characters associated with the msg-id MUST be included in the transform input. The reason is that although semantically these angle bracket characters are not part of the msg-id (RFC 2822) they are a standard part of the header lexicographic representation. If these characters are not integrity protected then an attacker could remove them causing the CID transformation specified in RFC2392 to fail. 

8.   Folding whitespace in structured MIME headers (e.g. Content-Disposition, Content-ID, Content-Location, Content-Type) that is not within quotes MUST be removed.  Folding whitespace in structured MIME headers that is within quotes MUST be preserved.  Folding whitespace in unstructured MIME headers (e.g. Content-Description) MUST be preserved [RFC2822].  For example, whitespace immediately following the colon delimiter in the structured Content-Type header MUST be removed, but whitespace immediately following the colon delimiter in the unstructured Content-Description header MUST be preserved.

9.   Comments in MIME header values MUST be removed [RFC2822].

10. Case-insensitive MIME header values (e.g. media type/subtype values and disposition-type values) MUST be converted to lowercase.  Case-sensitive MIME header values MUST be left as is with respect to case [RFC2045].

11. Quoted characters other than double-quote and backslash ("\") in quoted strings in structured MIME headers (e.g. Content-ID) MUST be unquoted. Double-quote and backslash ("\") characters in quoted strings in structured MIME headers MUST be character encoded [RFC2822].

12. Canonicalization of a MIME header MUST generate a UTF-8 encoded octet stream containing the following: the MIME header name, a colon (":"), the MIME header value, and the result of canonicalizing the MIME header parameters in lexicographic order (ascending) as described below.

13. MIME header parameter names MUST be converted to lowercase [RFC2045].

14. MIME parameter values containing RFC2184 character set, language, and continuations MUST be decoded.  The resulting canonical output MUST not contain the RFC2184 encoding [RFC2184].

15. Case-insensitive MIME header parameter values MUST be converted to lowercase.  Case-sensitive MIME header parameter values MUST be left as is with respect to case [RFC2045].

16. Enclosing double-quotes MUST be added to MIME header parameter values that do not already contain enclosing quotes.  Quoted characters other than double-quote and backslash ("\") in MIME header parameter values MUST be unquoted.  Double-quote and backslash characters in MIME parameter values MUST be character encoded.

17. Canonicalization of a MIME header parameter MUST generate a UTF-8 encoded octet stream containing the following: a semi-colon (";"), the parameter name (lowercase), an equals sign ("="), and the double-quoted parameter value.

18. Each header MUST be terminated by a single CRLF pair, without any trailing whitespace.

19. The last header MUST be followed by a single CRLF and then the MIME content.

5.4.2 MIME Content Canonicalization

Before including attachment content in a signature reference hash calculation, that MIME attachment SHOULD be canonicalized. The reason is that signature verification requires an identical hash of content as when signing occurred.

Content of an XML Content-Type MUST be XML canonicalized using Exclusive XML Canonicalization without comments,as specified by the URI http://www.w3.org/2001/10/xml-exc-c14n# [Excl-Canon].  The reason for requiring Exclusive Canonicalization is that many implementations will support Exclusive Canonicalization for other XML Signature purposes, since this form of canonicalization supports context changes. The InclusiveNamespace PrefixList attribute SHOULD be empty or not present.

Other types of MIME content SHOULD be canonicalized according to the MIME part canonicalization mechanism appropriate to the Content-Type of the MIME part.

To quote the S/MIME specification (section 3.1.1 “Canonicalization”) which deals with this issue [RFC2633]:

The exact details of canonicalization depend on the actual MIME type and subtype of an entity, and are not described here. Instead, the standard for the particular MIME type should be consulted. For example, canonicalization of type text/plain is different from canonicalization of audio/basic. Other than text types, most types have only one representation regardless of computing platform or environment which can be considered their canonical representation.

MIME types are registered. This registration includes a section on "Canonicalization and Format Requirements" [RFC2048] and requires each MIME type to have a canonical representation.

 

The MIME “text” type canonical form is defined in the MIME conformance specification  (See “Canonical Encoding Model”) [RFC2049].  Important aspects of “text” media type canonicalization include line ending normalization to  <CR><LF> and ensuring that the charset  is a registered charset (see RFC 2633 section “Canonicalization”). [RFC2633, CHARSETS, RFC2045].

5.4.3 Protecting against attachment insertion threat

Including an attachment in a signature calculation enables a receiver to detect modification of that attachment. Including all attachments in a signature calculation, by providing a <ds:Reference> for each, protects against the threat of attachment removal. This does not protect against insertion of a new attachment.

The simplest protection against attachment insertion is for the receiver to know that all attachments should be included in a signature calculation – unreferenced attachments are then an indication of an attachment insertion attack.

Such information may be communicated in or out of band. Definition of these approaches is out of the scope of this profile.

5.4.4 Processing Rules for Attachment Signing

The processing rule for signing is modified based on the SOAP Message Security rules.

After determining which attachments are to be included as references in a signature, create a <ds:Signature> element in a <wsse:Security> header block targeted at the recipient, including a <ds:Reference> for each attachment to be protected by the signature. Additional <ds:Reference> elements may refer to content in the SOAP envelope to be included in the signature.

For each attachment Reference, perform the following steps:

1.   MIME Part Canonicalize the content of the attachment, as appropriate to the MIME type of the part, as outlined in section 5.4.2. Attachments of an XML content type require Exclusive XML Canonicalization without comments[Excl-Canon].

2.   If MIME headers are to be included in the signature, perform MIME header canonicalization  as outlined in section 5.4.1.

3.   Determine the CID scheme URL to be used to reference the part and set the <ds:Reference> URL attribute value to this URL. 

4.   Include a <ds:Transforms> element in the <ds:Reference>. This <ds:Transforms> element MUST include a  <ds:Transform> element with the Algorithm attribute having the full URL value specified earlier in this profile – corresponding to either the Attachment-Complete-Signature-Transform or  Attachment-Content-Signature-Transform, depending on what is to be included in the hash calculation. This MUST be the first transform listed. The <ds:Transform> element MUST NOT contain any  transform for a MIME transfer encoding purpose (e.g. base64 encoding) since transfer encoding is left to the MIME layer as noted in section 2. This does not preclude the use of XML Transforms, including a base64 transform, for other purposes.

5.   Extract the appropriate portion of the MIME part consistent with the selected transform.

6.   Create the <ds:Reference> hash value as outlined in the W3C XML Digital Signature Recommendation.

5.4.5 Processing Rules for Attachment Signature Verification

Signature verification is performed as outlined in SOAP Message Security and the XML Digital Signature Recommendation, with the following considerations for SwA attachments.

To verify <ds:Reference> hashes for SwA attachments, the following steps must be performed for each reference to an attachment:

1.   Find the attachment corresponding to the <ds:Reference> URL attribute value. This value MUST correspond to the Content-ID for the attachment[SwA].

2.   MIME Part Canonicalize the content of the attachment, as appropriate to the MIME type of the part, as outlined in section 5.4.2. Attachments of an XML content type require Exclusive XML Canonicalization without comments[Excl-Canon]. The MIME content to be MIME canonicalized MUST have had any transfer-encoding processed at the MIME layer before this step is performed.

3.   If MIME headers were included in the signature, perform MIME header canonicalization as outlined in section 5.4.1.

4.   Extract the appropriate portion of the MIME part according to the MIME Part Signature Transform value.

5.   Calculate the reference hash and verify the reference.

5.4.6 Example Signed Message

Content-Type: multipart/related; boundary=”BoundaryStr” type=”text/xml”

--BoundaryStr

Content-Type: text/xml

 

<S11:Envelope xmlns:S11="..." xmlns:wsse="..." xmlns:wsu="..." xmlns:ds="..." xmlns:xenc="...">

  <S11:Header>

     <wsse:Security>

 

      <wsse:BinarySecurityToken wsu:Id="CertAssociatedWithSigningKey"

           EncodingType="http://docs.oasis-open.org/wss/2004/01/oasis-200401-wss-soap-message-security-1.0#Base64Binary"

           ValueType="http://docs.oasis-open.org/wss/2004/01/oasis-200401-wss-x509-token-profile-1.0#x509v3">

       ...

      </wsse:BinarySecurityToken>

 

      <ds:Signature>

        <ds:SignedInfo>

          <ds:CanonicalizationMethod Algorithm=

'http://www.w3.org/2001/10/xml-exc-c14n#'/>

          <ds:SignatureMethod Algorithm=              

              'http://www.w3.org/2000/09/xmldsig#rsa-sha1' />

       <ds:Reference URI="cid:bar">

             <ds:Transforms>

               <ds:Transform Algorithm="http://docs.oasis-open.org/wss/oasis-wss-SwAProfile-1.1#Attachment-Content-Signature-Transform"/>

             </ds:Transforms>

          <ds:DigestMethod Algorithm=

              "http://www.w3.org/2000/09/xmldsig#sha1"/>

            <ds:DigestValue>j6lwx3rvEPO0vKtMup4NbeVu8nk=</ds:DigestValue>

          </ds:Reference>

        </ds:SignedInfo>

        <ds:SignatureValue>DeadBeef</ds:SignatureValue>

 

        <ds:KeyInfo>

          <wsse:SecurityTokenReference>

            <wsse:Reference URI="#CertAssociatedWithSigningKey"/>

          </wsse:SecurityTokenReference>

        </ds:KeyInfo>

 

    </ds:Signature>

   </wsse:Security>

  </S11:Header>

  <S11:Body>

   some items

  </S11:Body>

</S11:Envelope>

--BoundaryStr

Content-Type: image/png

Content-ID: <bar>

Content-Transfer-Encoding: base64

 

the image

5.5 Encryption

A SwA attachment may be encrypted for confidentiality protection, protecting either the MIME part content  including selected MIME headers, or only the MIME part content.

This is done using XML Encryption to encrypt the attachment, placing the resulting cipher text in the updated attachment body replacing the original content, and placing a new <xenc:EncryptedData> element in the <wsse:Security> header.  An <xenc:CipherReference> MUST link the <xenc:EncryptedData> element with the cipher data.

The key used for encryption MAY be conveyed using an <xenc:EncryptedKey> element in the <wsse:Security> header. In this case the <xenc:ReferenceList> element in the <xenc:EncryptedKey> element MUST contain an <xenc:DataReference> with a URI attribute specifying the <xenc:EncryptedData> element in the <wsse:Security> header corresponding to the attachment.

When the same <xenc:EncryptedKey> corresponds to multiple <xenc:EncryptedData> elements, the <xenc:ReferenceList> in the <xenc:EncryptedKey> element SHOULD contain an <xenc:DataReference> for each <xenc:EncryptedData> element, both for attachments and encrypted items in the primary SOAP envelope. References should be ordered to correspond to ordering of the security header elements.

When an <xenc:EncryptedKey> element is not used when encrypting an attachment, then the <xenc:EncryptedData> element MAY contain a <ds:KeyInfo> element to specify a key as outlined in the SOAP Message Security standard. Different deployments may have different requirements on how keys are referenced. When an <xenc:EncryptedKey> element is used the <xenc:EncryptedData> element MUST NOT contain a <ds:KeyInfo> element.

When an attachment is encrypted, an <xenc:EncryptedData> element will be placed in the <wsse:Security> header. An <xenc:ReferenceList> element associated with this <xenc:EncryptedData> element may also be added, as recommended by WSS: SOAP Message Security.

Note: The same CID is used to refer to the attachment before encryption and after. This avoids the need to rewrite references to the attachment, avoiding issues related to generating unique CIDs and relating to preserving the correspondence to the original WSDL definition.

5.5.1 MIME Part CipherReference

This profile requires that <xenc:EncryptedData> elements corresponding to encrypted SwA attachments use a <xenc:CipherReference> to refer to the cipher text, to be conveyed in the attachment. Upon encryption the MIME part attachment content is replaced with the encoded cipher text. 

The <xenc:CipherReference> MUST have a <xenc:Transforms> child element. This element MUST have a  <ds:Transform> child having an Algorithm attribute with a URI value specifying the Attachment-Ciphertext-Transform.  This transform explicitly indicates that when dereferencing the MIME part reference that only the MIME part content is to be used as the cipher value.

The <xenc:CipherReference> MUST NOT contain a transform used for a transfer encoding purpose (e.g. the base64 transform). Transfer encoding is left to the MIME layer, as noted in section 2.

5.5.2 Encryption Processing Rules

The order of the following steps is not normative, although the result should be the same as if this order were followed.

1.   When encrypting both attachments and primary SOAP envelope content using the same key, perform the attachment processing first.

Note: The SOAP Message Security standard states that elements should be prepended to the security header. This processing rule supports putting the <xenc:EncryptedData> element first in the header with <xenc:EncryptedKey> and tokens following.  Thus, a receiver should be able to process the <xenc:EncryptedKey>  before the <xenc:EncryptedData> element for the attachment.

2.   Encrypt the attachment part using XML Encryption, according to the rules of XML Encryption. Encrypt either the  attachment including content and selected MIME headers or only the attachment content.

When encryption includes MIME headers, only the headers listed in this specification for the Attachment-Complete-Signature-Transform (Section 5.3.2) are to be included in the encryption. If a header listed in the profile is present it MUST be included in the encryption. If a header is not listed in this profile, then it MUST NOT be included in the encryption.

3.   Set the <xenc:EncryptedData> Type attribute value to a URI that specifies adherence to this profile and that specifies what was encrypted (MIME content or entire MIME part including headers). The following URIs MUST be used for this purpose:

·       Content Only:

http://docs.oasis-open.org/wss/oasis-wss-SwAProfile-1.1#Attachment-Content-Only

·       Content and headers:

http://docs.oasis-open.org/wss/oasis-wss-SwAProfile-1.1#Attachment-Complete

 

4.   Set the <xenc:EncryptedData> MimeType attribute to match the attachment MIME part Content-Type header before encryption when the Content-Only URI is specified for the Type attribute value. The MimeType attribute value MAY be set when the AttachmentComplete Type attribute value is specified.

5.   Optionally set the <xenc:EncryptedData> Encoding attribute to reflect the attachment content encoding, as visible to the security layer at the time of encryption. This is advisory information to the decryption security layer. It should be understood that this has no relation with the actual encoding that could be performed independently by the MIME layer later for transfer purposes.

6.   Set the <xenc:EncryptedData> <xenc:CipherReference> to the same reference URL for the attachment that was used before encryption . This MUST be a CID scheme URL referring to the attachment part Content-ID. Ensure this MIME header is in the part conveying the cipher data after encryption.

7.   Include the Attachment-Ciphertext-Transform in the <xenc:CipherReference> <xenc:Transforms> list.

8.   Prepend the <xenc:EncryptedData> element to the <wsse:Security> SOAP header block and then prepend the associated optional <xenc:ReferenceList> element.

9.    Update the attachment MIME part, replacing the original content with the cipher text generated by the XML Encryption step.

10. Update the attachment MIME part header MIME Content-Type and Content-Length appropriate to the cipher data.

5.5.3 Decryption Processing Rules

The <xenc:CipherReference> URL MUST be a URL that refers to the MIME part containing the cipher text, and must also correspond to the reference value of the original attachment that was encrypted. This MUST be a CID scheme URL.

Decryption may be initiated upon locating the <xenc:EncryptedData> element in the <wsse:Security> header.

The following decryption steps must be performed so that the result is as if they were performed in this order:

1.   Extract the cipher text from the attachment referenced by the <xenc:CipherReference> URL attribute. The Attachment-Ciphertext-Transform defined in this profile indicates that the MIME part content is extracted.

2.   Decrypt the cipher text using the information present in the appropriate <xenc:EncryptedData> element and possibly other out of band information, according to the XML Encryption Standard.

3.   If the <xenc:EncryptedData>Type attribute indicates that selected MIME headers were encrypted, then those MIME headers MUST be replaced by the result of decryption, as well as the MIME part content.

4.   If the <xenc:EncryptedData>Type attribute indicates that only the content of the MIME part was encrypted, then the cipher text content of the attachment part  MUST be replaced by the result of decryption. In this case the MIME part Content-Type header value MUST be replaced by the <xenc:EncryptedData> MimeType attribute value.

5.   If the <xenc:EncryptedData> Encoding attribute is present then the decryption security layer may pass this advisory information to the application.

5.5.4 Example

This example shows encryption of the primary SOAP envelope body as well as an attachment using a single symmetric key conveyed using an EncryptedKey element.

Content-Type: multipart/related; boundary=”BoundaryStr” type=”text/xml”

--BoundaryStr

Content-Type: text/xml

 

<S11:Envelope

  xmlns:S11="http://schemas.xmlsoap.org/soap/envelope/"

  xmlns:wsse="http://docs.oasis-open.org/wss/2004/01/oasis-200401-wss-wssecurity-secext-1.0.xsd"  

  xmlns:xenc="http://www.w3.org/2001/04/xmlenc#"

  xmls:ds="http://www.w3.org/2000/09/xmldsig#">

 

 <S11:Header>

   <wsse:Security>

 

     <wsse:BinarySecurityToken wsu:Id="Acert"

           EncodingType="http://docs.oasis-open.org/wss/2004/01/oasis-200401-wss-soap-message-security-1.0#Base64Binary"

           ValueType="http://docs.oasis-open.org/wss/2004/01/oasis-200401-wss-x509-token-profile-1.0#x509v3">

       ...

     </wsse:BinarySecurityToken>

 

     <xenc:EncryptedKey Id='EK'>

       <EncryptionMethod

         Algorithm="http://www.w3.org/2001/04/xmlenc#rsa-1_5"/>

      <ds:KeyInfo Id="keyinfo">

        <wsse:SecurityTokenReference>

          <ds:X509Data>

            <ds:X509IssuerSerial>

              <ds:X509IssuerName>

               DC=ACMECorp, DC=com

              </ds:X509IssuerName>

               <ds:X509SerialNumber>12345678</X509SerialNumber>

            </ds:X509IssuerSerial>

          </ds:X509Data>

        </wsse:SecurityTokenReference>

      </ds:KeyInfo>

      <CipherData><CipherValue>xyzabc</CipherValue></CipherData>

      <ReferenceList>

        <DataReference URI='#EA'/>

        <DataReference URI='#ED'/>

      </ReferenceList>

     </EncryptedKey>

 

     <xenc:EncryptedData

       Id='EA'

       Type="http://docs.oasis-open.org/wss/oasis-wss-SwAProfile-1.1#Attachment-Content-Only"

       MimeType="image/png">

       <xenc:EncryptionMethod

         Algorithm='http://www.w3.org/2001/04/xmlenc#aes128-cbc'/>

       <xenc:CipherData>

        <xenc:CipherReference URI=cid:bar">

          <xenc:Transforms>

             <ds:Transform Algorithm="http://docs.oasis-open.org/wss/oasis-wss-SwAProfile-1.1#Attachment-Ciphertext-Transform"/>

          </xenc:Transforms>

        </xenc:CipherReference>

       </xenc:CipherData>

     </xenc:EncryptedData>

 

   </wsse:Security>

  </S11:Header>

  <S11:Body>

   <xenc:EncryptedData Id='ED'

    <xenc:EncryptionMethod

     Algorithm='http://www.w3.org/2001/04/xmlenc#aes128-cbc'/>

    <xenc:CipherData>

     <xenc:CipherValue>DEADBEEF</xenc:CipherValue>

    </xenc:CipherData>

  </xenc:EncryptedData>

 </S11:Body>

</S11:Envelope>

--BoundaryStr

Content-Type: application/octet-stream

Content-ID: <bar>

Content-Transfer-Encoding: binary

 

BinaryCipherData

5.6 Signing and Encryption

When portions of content are both signed and encrypted, there is possible confusion as to whether encrypted content need first be decrypted before signature verification.  This confusion can occur when the order of operations is not clear [DecryptT]. This problem may be avoided with SOAP Message Security for SwA attachments when attachments and corresponding signatures and encryptions are targeted for a single SOAP recipient (actor). The  SOAP Message Security standard explicitly states that there may not be two <wsse:Security> headers targeted at the same actor, nor may there be two headers without a designated actor. In this case the SOAP Message Security and  SwA profile processing rules may eliminate ambiguity since each signing or encryption produces an element in the <wsse:Security> header, and these elements are ordered. (Signing produces <ds:Signature> elements and encryption produces <xenc:EncryptedData> elements). 

If an application produces different <wsse:Security> headers targeted at different recipients, these are processed independently by the recipients. Thus there is no need to correlate activities between distinct headers – the order is inherent in the SOAP node model represented by the distinct actors.

 

6      Conformance

An implementation conforms to this specification if it meets the requirements in Sections 2.1, 2.2 and 5.

A.  Acknowledgements

The following individuals have participated in the creation of this specification and are gratefully acknowledged:

Participants:

Current Contributors:

Tom

Rutt

Fujitsu Limited

Jacques

Durand

Fujitsu Limited

Calvin

Powers

IBM

Kelvin

Lawrence

IBM

Michael

McIntosh

Individual

Thomas

Hardjono

M.I.T.

David

Turner

Microsoft Corporation

Anthony

Nadalin

Microsoft Corporation

Monica

Martin

Microsoft Corporation

Marc

Goodner

Microsoft Corporation

Peter

Davis

Neustar

Hal

Lockhart

Oracle Corporation

Rich

Levinson

Oracle Corporation

Anil

Saldhana

Red Hat

Martin

Raepple

SAP AG

Federico

Rossini

Telecom Italia S.p.a.

Carlo

Milono

TIBCO Software Inc.

Don

Adams

TIBCO Software Inc.

Jerry

Smith

US Department of Defense (DoD)

Previous Contributors:

Michael

Hu

Actional

Maneesh

Sahu

Actional

Duane

Nickull

Adobe Systems

Gene

Thurston

AmberPoint

Frank

Siebenlist

Argonne National Laboratory

Peter

Dapkus

BEA

Hal

Lockhart

BEA Systems

Denis

Pilipchuk

BEA Systems

Corinna

Witt

BEA Systems

Steve

Anderson

BMC Software

Rich

Levinson

Computer Associates

Thomas

DeMartini

ContentGuard

Guillermo

Lao

ContentGuard

TJ

Pannu

ContentGuard

Xin

Wang

ContentGuard

Merlin

Hughes

Cybertrust

Dale

Moberg

Cyclone Commerce

Shawn

Sharp

Cyclone Commerce

Rich

Salz

Datapower

Ganesh

Vaideeswaran

Documentum

Sam

Wei

EMC

Tim

Moses

Entrust

Carolina

Canales-Valenzuela

Ericsson

Dana S.

Kaufman

Forum Systems

Toshihiro

Nishimura

Fujitsu

Tom

Rutt

Fujitsu

Kefeng

Chen

GeoTrust

Irving

Reid

Hewlett-Packard

Kojiro

Nakayama

Hitachi

Yutaka

Kudo

Hitachi

Jason

Rouault

HP

Paula

Austel

IBM

Derek

Fu

IBM

Maryann

Hondo

IBM

Kelvin

Lawrence

IBM

Michael

McIntosh

IBM

Anthony

Nadalin

IBM

Nataraj

Nagaratnam

IBM

Bruce

Rich

IBM

Ron

Williams

IBM

Bob

Blakley

IBM

Joel

Farrell

IBM

Satoshi

Hada

IBM

Hiroshi

Maruyama

IBM

David

Melgar

IBM

Kent

Tamura

IBM

Wayne

Vicknair

IBM

Don

Flinn

Individual

Phil

Griffin

Individual

Mark

Hayes

Individual

John

Hughes

Individual

Peter

Rostin

Individual

Davanum

Srinivas

Individual

Bob

Morgan

Individual/Internet2

Kate

Cherry

Lockheed Martin

Paul

Cotton

Microsoft

Vijay

Gajjala

Microsoft

Martin

Gudgin

Microsoft

Chris

Kaler

Microsoft

Bob

Atkinson

Microsoft

Keith

Ballinger

Microsoft

Allen

Brown

Microsoft

Giovanni

Della-Libera

Microsoft

Alan

Geller

Microsoft

Johannes

Klein

Microsoft

Scott

Konersmann

Microsoft

Chris

Kurt

Microsoft

Brian

LaMacchia

Microsoft

Paul

Leach

Microsoft

John

Manferdelli

Microsoft

John

Shewchuk

Microsoft

Dan

Simon

Microsoft

Hervey

Wilson

Microsoft

Jeff

Hodges

Neustar

Frederick

Hirsch

Nokia

Senthil

Sengodan

Nokia

Abbie

Barbir

Nortel

Lloyd

Burch

Novell

Ed

Reed

Novell

Charles

Knouse

Oblix

Prateek

Mishra

Oracle

Vamsi

Motukuru

Oracle

Ramana

Turlapi

Oracle

Vipin

Samar

Oracle

Jerry

Schwarz

Oracle

Eric

Gravengaard

Reactivity

Andrew

Nash

Reactivity

Stuart

King

Reed Elsevier

Ben

Hammond

RSA Security

Rob

Philpott

RSA Security

Martijn

de Boer

SAP

Blake

Dournaee

Sarvega

Sundeep

Peechu

Sarvega

Coumara

Radja

Sarvega

Pete

Wenzel

SeeBeyond

Jonathan

Tourzan

Sony

Yassir

Elley

Sun

Manveen

Kaur

Sun Microsystems

Ronald

Monzillo

Sun Microsystems

Jan

Alexander

Systinet

Michael

Nguyen

The IDA of Singapore

Don

Adams

TIBCO

Symon

Chang

TIBCO Software

John

Weiland

US Navy

Hans

Granqvist

VeriSign

Phillip

Hallam-Baker

VeriSign

Hemma

Prafullchandra

VeriSign

Morten

Jorgensen

Vordel

 

B.  Revision History

 

Revision

Date

Editor

Changes Made

WD01

17-January-2011

Carlo Milono

Corrected/added hyperlinks where missing; added Status section

WD02

8-February-2011

Carlo Milono

Added Related Work to reflect v1.1.1 of the specs; changed References for SOAP Message Security to reflect v1.1.1; Changed WD# to 2; Added Date; Moved Current Members to Previous and added new Current Members; saved document under wd02; entered the Revision History

Merged Old Current Contributors with Old Previous, created a New Current Contributors.

WD03

16-March-2011

David Turner

Corrected and updated links

WD04

23-March-2011

David Turner

Fixed namespace in example at Lines 645-646 and removed a few errant spaces.

CSD01

2-May-2011

TC Admin

Generated from WD04

CSD02-draft

16-May-11

David Turner

Added conformance statement and corrected a few formatting issues.