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JOSE Working GroupM. Jones
Internet-DraftMicrosoft
Intended status: Standards TrackDecember 27, 2012
Expires: June 30, 2013 


JSON Private and Symmetric Key
draft-jones-jose-json-private-and-symmetric-key-00

Abstract

The JSON Private Key specification extends the JSON Web Key (JWK) and JSON Web Algorithms (JWA) specifications to define JavaScript Object Notation (JSON) representations of private keys and symmetric keys.

Status of this Memo

This Internet-Draft is submitted in full conformance with the provisions of BCP 78 and BCP 79.

Internet-Drafts are working documents of the Internet Engineering Task Force (IETF). Note that other groups may also distribute working documents as Internet-Drafts. The list of current Internet-Drafts is at http://datatracker.ietf.org/drafts/current/.

Internet-Drafts are draft documents valid for a maximum of six months and may be updated, replaced, or obsoleted by other documents at any time. It is inappropriate to use Internet-Drafts as reference material or to cite them other than as “work in progress.”

This Internet-Draft will expire on June 30, 2013.

Copyright Notice

Copyright (c) 2012 IETF Trust and the persons identified as the document authors. All rights reserved.

This document is subject to BCP 78 and the IETF Trust's Legal Provisions Relating to IETF Documents (http://trustee.ietf.org/license-info) in effect on the date of publication of this document. Please review these documents carefully, as they describe your rights and restrictions with respect to this document. Code Components extracted from this document must include Simplified BSD License text as described in Section 4.e of the Trust Legal Provisions and are provided without warranty as described in the Simplified BSD License.



Table of Contents

1.  Introduction
    1.1.  Notational Conventions
2.  Terminology
3.  JWK Parameters for Private Keys
    3.1.  JWK Parameters for Elliptic Curve Private Keys
        3.1.1.  "d" (ECC Private Key) Parameter
    3.2.  JWK Parameters for RSA Private Keys
        3.2.1.  "d" (Private Exponent) Parameter
        3.2.2.  "p" (First Prime Factor) Parameter
        3.2.3.  "q" (Second Prime Factor) Parameter
        3.2.4.  "dp" (First Factor CRT Exponent) Parameter
        3.2.5.  "dq" (Second Factor CRT Exponent) Parameter
        3.2.6.  "qi" (First CRT Coefficient) Parameter
        3.2.7.  "oth" (Other Primes Info) Parameter
            3.2.7.1.  "r" (Prime Factor)
            3.2.7.2.  "d" (Factor CRT Exponent)
            3.2.7.3.  "t" (Factor CRT Coefficient)
4.  JWK Parameters for Symmetric Keys
    4.1.  "k" (Key Value) Parameter
5.  Example Private Keys
6.  Example Symmetric Keys
7.  IANA Considerations
    7.1.  JSON Web Key Types Registration
        7.1.1.  Registry Contents
    7.2.  JSON Web Key Parameters Registration
        7.2.1.  Registry Contents
8.  Security Considerations
9.  Normative References
Appendix A.  Acknowledgements
Appendix B.  Document History
§  Author's Address




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1.  Introduction

The JSON Private Key specification extends the JSON Web Key (JWK) [JWK] (Jones, M., “JSON Web Key (JWK),” December 2012.) and JSON Web Algorithms (JWA) [JWA] (Jones, M., “JSON Web Algorithms (JWA),” December 2012.) specifications to define JavaScript Object Notation (JSON) [RFC4627] (Crockford, D., “The application/json Media Type for JavaScript Object Notation (JSON),” July 2006.) representations of private and symmetric keys.



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1.1.  Notational Conventions

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 Key words for use in RFCs to Indicate Requirement Levels [RFC2119] (Bradner, S., “Key words for use in RFCs to Indicate Requirement Levels,” March 1997.).



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2.  Terminology

This specification uses the same terminology as the JSON Web Key (JWK) [JWK] (Jones, M., “JSON Web Key (JWK),” December 2012.) and JSON Web Algorithms (JWA) [JWA] (Jones, M., “JSON Web Algorithms (JWA),” December 2012.) specifications.



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3.  JWK Parameters for Private Keys

This section defines additional JSON Web Key parameters that enable JWKs to represent private keys.



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3.1.  JWK Parameters for Elliptic Curve Private Keys

When the JWK kty member value is EC, the following member MAY be used to represent an Elliptic Curve private key:



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3.1.1.  "d" (ECC Private Key) Parameter

The d (ECC private key) member contains the Elliptic Curve private key value. It is represented as the base64url encoding of the value's unsigned big endian representation as a byte array. The array representation MUST not be shortened to omit any leading zero bytes. For instance, when representing 521 bit integers, the byte array to be base64url encoded MUST contain 66 bytes, including any leading zero bytes.



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3.2.  JWK Parameters for RSA Private Keys

When the JWK kty member value is RSA, the following member MAY be used to represent an RSA private key:



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3.2.1.  "d" (Private Exponent) Parameter

The d (private exponent) member contains the private exponent value for the RSA private key. It is represented as the base64url encoding of the value's unsigned big endian representation as a byte array. The array representation MUST not be shortened to omit any leading zero bytes. For instance, when representing 2048 bit integers, the byte array to be base64url encoded MUST contain 256 bytes, including any leading zero bytes.



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3.2.2.  "p" (First Prime Factor) Parameter

The p (first prime factor) member contains the first prime factor, a positive integer. It is represented as the base64url encoding of the value's unsigned big endian representation as a byte array.



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3.2.3.  "q" (Second Prime Factor) Parameter

The q (second prime factor) member contains the second prime factor, a positive integer. It is represented as the base64url encoding of the value's unsigned big endian representation as a byte array.



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3.2.4.  "dp" (First Factor CRT Exponent) Parameter

The dp (first factor CRT exponent) member contains the Chinese Remainder Theorem (CRT) exponent of the first factor, a positive integer. It is represented as the base64url encoding of the value's unsigned big endian representation as a byte array.



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3.2.5.  "dq" (Second Factor CRT Exponent) Parameter

The dq (second factor CRT exponent) member contains the Chinese Remainder Theorem (CRT) exponent of the second factor, a positive integer. It is represented as the base64url encoding of the value's unsigned big endian representation as a byte array.



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3.2.6.  "qi" (First CRT Coefficient) Parameter

The dp (first CRT coefficient) member contains the Chinese Remainder Theorem (CRT) coefficient of the second factor, a positive integer. It is represented as the base64url encoding of the value's unsigned big endian representation as a byte array.



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3.2.7.  "oth" (Other Primes Info) Parameter

The oth (other primes info) member contains an array of information about any third and subsequent primes, should they exist. When only two primes have been used (the normal case), this parameter MUST be omitted. When three or more primes have been used, the number of array elements MUST be the number of primes used minus two. Each array element MUST be an object with the following members:



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3.2.7.1.  "r" (Prime Factor)

The r (prime factor) parameter within an oth array member represents the value of a subsequent prime factor, a positive integer. It is represented as the base64url encoding of the value's unsigned big endian representation as a byte array.



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3.2.7.2.  "d" (Factor CRT Exponent)

The d (Factor CRT Exponent) parameter within an oth array member represents the CRT exponent of the corresponding prime factor, a positive integer. It is represented as the base64url encoding of the value's unsigned big endian representation as a byte array.



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3.2.7.3.  "t" (Factor CRT Coefficient)

The t (factor CRT coefficient) parameter within an oth array member represents the CRT coefficient of the corresponding prime factor, a positive integer. It is represented as the base64url encoding of the value's unsigned big endian representation as a byte array.



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4.  JWK Parameters for Symmetric Keys

When the JWK kty member value is oct (octet sequence), the following member MAY be used to represent a symmetric key (or another key whose value is a single octet sequence):



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4.1.  "k" (Key Value) Parameter

The k (key value) member contains the value of the symmetric (or other single-valued) key. It is represented as the base64url encoding of the octet sequence containing the key value.



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5.  Example Private Keys

The following example JWK Set contains two keys represented as JWKs containing both public and private key values: one using an Elliptic Curve algorithm and a second one using an RSA algorithm. This example extends the example in Section 3 of [JWK] (Jones, M., “JSON Web Key (JWK),” December 2012.), adding private key values. (Line breaks are for display purposes only.)

  {"keys":
    [
      {"kty":"EC",
       "crv":"P-256",
       "x":"MKBCTNIcKUSDii11ySs3526iDZ8AiTo7Tu6KPAqv7D4",
       "y":"4Etl6SRW2YiLUrN5vfvVHuhp7x8PxltmWWlbbM4IFyM",
       "d":"870MB6gfuTJ4HtUnUvYMyJpr5eUZNP4Bk43bVdj3eAE",
       "use":"enc",
       "kid":"1"},

      {"kty":"RSA",
       "n":"0vx7agoebGcQSuuPiLJXZptN9nndrQmbXEps2aiAFbWhM78LhWx4
  cbbfAAtVT86zwu1RK7aPFFxuhDR1L6tSoc_BJECPebWKRXjBZCiFV4n3oknjhMst
  n64tZ_2W-5JsGY4Hc5n9yBXArwl93lqt7_RN5w6Cf0h4QyQ5v-65YGjQR0_FDW2Q
  vzqY368QQMicAtaSqzs8KJZgnYb9c7d0zgdAZHzu6qMQvRL5hajrn1n91CbOpbIS
  D08qNLyrdkt-bFTWhAI4vMQFh6WeZu0fM4lFd2NcRwr3XPksINHaQ-G_xBniIqbw
  0Ls1jF44-csFCur-kEgU8awapJzKnqDKgw",
       "e":"AQAB",
       "d":"X4cTteJY_gn4FYPsXB8rdXix5vwsg1FLN5E3EaG6RJoVH-HLLKD9
  M7dx5oo7GURknchnrRweUkC7hT5fJLM0WbFAKNLWY2vv7B6NqXSzUvxT0_YSfqij
  wp3RTzlBaCxWp4doFk5N2o8Gy_nHNKroADIkJ46pRUohsXywbReAdYaMwFs9tv8d
  _cPVY3i07a3t8MN6TNwm0dSawm9v47UiCl3Sk5ZiG7xojPLu4sbg1U2jx4IBTNBz
  nbJSzFHK66jT8bgkuqsk0GjskDJk19Z4qwjwbsnn4j2WBii3RL-Us2lGVkY8fkFz
  me1z0HbIkfz0Y6mqnOYtqc0X4jfcKoAC8Q",
       "p":"83i-7IvMGXoMXCskv73TKr8637FiO7Z27zv8oj6pbWUQyLPQBQxtPV
  nwD20R-60eTDmD2ujnMt5PoqMrm8RfmNhVWDtjjMmCMjOpSXicFHj7XOuVIYQyqV
  WlWEh6dN36GVZYk93N8Bc9vY41xy8B9RzzOGVQzXvNEvn7O0nVbfs",
       "q":"3dfOR9cuYq-0S-mkFLzgItgMEfFzB2q3hWehMuG0oCuqnb3vobLyum
  qjVZQO1dIrdwgTnCdpYzBcOfW5r370AFXjiWft_NGEiovonizhKpo9VVS78TzFgx
  kIdrecRezsZ-1kYd_s1qDbxtkDEgfAITAG9LUnADun4vIcb6yelxk",
       "dp":"G4sPXkc6Ya9y8oJW9_ILj4xuppu0lzi_H7VTkS8xj5SdX3coE0oim
  YwxIi2emTAue0UOa5dpgFGyBJ4c8tQ2VF402XRugKDTP8akYhFo5tAA77Qe_Nmtu
  YZc3C3m3I24G2GvR5sSDxUyAN2zq8Lfn9EUms6rY3Ob8YeiKkTiBj0",
       "dq":"s9lAH9fggBsoFR8Oac2R_E2gw282rT2kGOAhvIllETE1efrA6huUU
  vMfBcMpn8lqeW6vzznYY5SSQF7pMdC_agI3nG8Ibp1BUb0JUiraRNqUfLhcQb_d9
  GF4Dh7e74WbRsobRonujTYN1xCaP6TO61jvWrX-L18txXw494Q_cgk",
       "qi":"GyM_p6JrXySiz1toFgKbWV-JdI3jQ4ypu9rbMWx3rQJBfmt0FoYzg
  UIZEVFEcOqwemRN81zoDAaa-Bk0KWNGDjJHZDdDmFhW3AN7lI-puxk_mHZGJ11rx
  yR8O55XLSe3SPmRfKwZI6yU24ZxvQKFYItdldUKGzO6Ia6zTKhAVRU",
       "alg":"RS256",
       "kid":"2011-04-29"}
    ]
  }


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6.  Example Symmetric Keys

The following example JWK Set contains two symmetric keys represented as JWKs: one designated as being for use with the AES Key Wrap algorithm and a second one that is an HMAC key. (Line breaks are for display purposes only.)

  {"keys":
    [
      {"kty":"oct",
       "alg":"A128KW",
       "k":"GawgguFyGrWKav7AX4VKUg"},

      {"kty":"oct",
       "k":"AyM1SysPpbyDfgZld3umj1qzKObwVMkoqQ-EstJQLr_T-1qS0gZH75
  aKtMN3Yj0iPS4hcgUuTwjAzZr1Z9CAow",
       "kid":"HMAC key used in JWS A.1 example"}
    ]
  }


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7.  IANA Considerations



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7.1.  JSON Web Key Types Registration

This specification registers the key type defined in Section 4 (JWK Parameters for Symmetric Keys) in the IANA JSON Web Key Types registry [JWA] (Jones, M., “JSON Web Algorithms (JWA),” December 2012.).



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7.1.1.  Registry Contents



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7.2.  JSON Web Key Parameters Registration

This specification registers the parameter names defined in Section 3.1 (JWK Parameters for Elliptic Curve Private Keys), Section 3.2 (JWK Parameters for RSA Private Keys), and Section 4 (JWK Parameters for Symmetric Keys) in the IANA JSON Web Key Parameters registry [JWK] (Jones, M., “JSON Web Key (JWK),” December 2012.).



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7.2.1.  Registry Contents



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8.  Security Considerations

All of the security issues faced by any cryptographic application must be faced by a JWS/JWE/JWK agent. Among these issues are protecting the user's private and symmetric keys, preventing various attacks, and helping the user avoid mistakes such as inadvertently encrypting a message for the wrong recipient. The entire list of security considerations is beyond the scope of this document.

Private and symmetric keys must be protected from disclosure to unintended parties. One recommended means of doing so is to encrypt JWKs or JWK Sets containing them by using the JWK or JWK Set value as the plaintext of a JWE.

A key is no more trustworthy than the method by which it was received.

The security considerations in RFC 3447 (Jonsson, J. and B. Kaliski, “Public-Key Cryptography Standards (PKCS) #1: RSA Cryptography Specifications Version 2.1,” February 2003.) [RFC3447] and RFC 6030 (Hoyer, P., Pei, M., and S. Machani, “Portable Symmetric Key Container (PSKC),” October 2010.) [RFC6030] about protecting private and symmetric keys also apply to this specification.



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9. Normative References

[JWA] Jones, M., “JSON Web Algorithms (JWA),” draft-ietf-jose-json-web-algorithms (work in progress), December 2012 (HTML).
[JWK] Jones, M., “JSON Web Key (JWK),” draft-ietf-jose-json-web-key (work in progress), December 2012 (HTML).
[RFC2119] Bradner, S., “Key words for use in RFCs to Indicate Requirement Levels,” BCP 14, RFC 2119, March 1997 (TXT, HTML, XML).
[RFC3447] Jonsson, J. and B. Kaliski, “Public-Key Cryptography Standards (PKCS) #1: RSA Cryptography Specifications Version 2.1,” RFC 3447, February 2003 (TXT).
[RFC4627] Crockford, D., “The application/json Media Type for JavaScript Object Notation (JSON),” RFC 4627, July 2006 (TXT).
[RFC6030] Hoyer, P., Pei, M., and S. Machani, “Portable Symmetric Key Container (PSKC),” RFC 6030, October 2010 (TXT).


 TOC 

Appendix A.  Acknowledgements

John Bradley and James Manger contributed to the contents of this specification.



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Appendix B.  Document History

[[ to be removed by the RFC editor before publication as an RFC ]]

-00

draft-jones-jose-json-private-key-01

draft-jones-jose-json-private-key-00



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Author's Address

  Michael B. Jones
  Microsoft
Email:  mbj@microsoft.com
URI:  http://self-issued.info/