Network Working Group M. Miller
Internet-Draft Cisco Systems, Inc.
Intended status: Standards Track July 13, 2012
Expires: January 14, 2013
End-to-End Object Encryption for the Extensible Messaging and Presence
Protocol (XMPP)
draft-miller-xmpp-e2e-02
Abstract
This document defines a method of end-to-end object encryption for
the Extensible Messaging and Presence Protocol (XMPP).
Status of this Memo
This Internet-Draft is submitted in full conformance with the
provisions of BCP 78 and BCP 79.
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This Internet-Draft will expire on January 14, 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
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Table of Contents
1. Introduction . . . . . . . . . . . . . . . . . . . . . . . . . 3
2. Terminology . . . . . . . . . . . . . . . . . . . . . . . . . 3
3. Determining Support . . . . . . . . . . . . . . . . . . . . . 3
4. Encrypting XMPP Stanzas . . . . . . . . . . . . . . . . . . . 4
4.1. Prerequisites . . . . . . . . . . . . . . . . . . . . . . 4
4.2. Process . . . . . . . . . . . . . . . . . . . . . . . . . 4
4.3. Example - Securing a Message . . . . . . . . . . . . . . . 6
5. Decrypting XMPP Stanzas . . . . . . . . . . . . . . . . . . . 9
5.1. Protocol Not Understood . . . . . . . . . . . . . . . . . 9
5.2. Process . . . . . . . . . . . . . . . . . . . . . . . . . 10
5.3. Insufficient Information . . . . . . . . . . . . . . . . . 10
5.4. Failed Decryption . . . . . . . . . . . . . . . . . . . . 11
5.5. Timestamp Not Acceptable . . . . . . . . . . . . . . . . . 12
5.6. Successful Decryption . . . . . . . . . . . . . . . . . . 12
6. Requesting Session Keys . . . . . . . . . . . . . . . . . . . 12
6.1. Request Process . . . . . . . . . . . . . . . . . . . . . 13
6.2. Accept Process . . . . . . . . . . . . . . . . . . . . . . 13
6.3. Error Conditions . . . . . . . . . . . . . . . . . . . . . 14
6.4. Example of Successful Key Request . . . . . . . . . . . . 14
7. Inclusion and Checking of Timestamps . . . . . . . . . . . . . 17
8. Interaction with Stanza Semantics . . . . . . . . . . . . . . 18
9. Mandatory-to-Implement Cryptographic Algorithms . . . . . . . 19
10. Security Considerations . . . . . . . . . . . . . . . . . . . 19
10.1. Storage of Encrypted Stanzas . . . . . . . . . . . . . . . 19
10.2. Re-use of Session Master Keys . . . . . . . . . . . . . . 19
11. IANA Considerations . . . . . . . . . . . . . . . . . . . . . 19
11.1. XML Namespace Name for e2e Data in XMPP . . . . . . . . . 19
12. References . . . . . . . . . . . . . . . . . . . . . . . . . . 20
12.1. Normative References . . . . . . . . . . . . . . . . . . . 20
12.2. Informative References . . . . . . . . . . . . . . . . . . 21
Appendix A. Schema for urn:ietf:params:xml:ns:xmpp-e2e:3 . . . . 21
Author's Address . . . . . . . . . . . . . . . . . . . . . . . . . 23
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1. Introduction
End-to-end encryption of traffic sent over the Extensible Messaging
and Presence Protocol [RFC6120] is a desirable goal. Requirements
and a threat analysis for XMPP encryption are provided in [E2E-REQ].
Many possible approaches to meet those (or similar) requirements have
been proposed over the years, including methods based on PGP, S/MIME,
SIGMA, and TLS.
Most proposals have not been able to support multiple end-points for
a given recipient. As more devices support XMPP, it becomes more
desirable to allow an entity to communicate with another in a more
secure manner, regardless of the number of agents the entity is
employing. This document specifies an approach for encrypting
communications between two entities which each might have multiple
end-points.
2. Terminology
This document inherits XMPP-related terminology from [RFC6120], JSON
Web Algorithms (JWA)-related terminology from [JOSE-JWA], JSON Web
Encryption (JWE)-related terminology from [JOSE-JWE], and JSON Web
Key (JWK)-related terminology from [JOSE-JWK]. Security-related
terms are to be understood in the sense defined in [RFC4949].
The capitalized 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
[RFC2119].
3. Determining Support
If an agent supports end-to-end object encryption, it MUST advertiset
that fact in its responses to [XEP-0030] information ("disco#info")
requests by returning a feature of
"urn:ietf:params:xml:ns:xmpp-e2e:3:encrypt".
...
...
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To help facilitate discovery, an agent SHOULD also include [XEP-0115]
information in any directed or broadcast presence updates.
4. Encrypting XMPP Stanzas
The process that a sending agent follows for securing stanzas is the
same regardless of the form of stanza (i.e., , , or
).
4.1. Prerequisites
First, the sending agent prepares and retains the following:
o The JID of the sender (i.e. its own JID). This SHOULD be the bare
JID (localpart@domainpart).
o The JID of the recipient. This SHOULD be the bare JID
(localpart@domainpart).
o A Session Master Key (SMK). The SMK MUST have a length at least
equal to that required by the key wrapping algorithm in use and
MUST be generated randomly. See [RFC4086] for considerations on
generating random values.
o A SMK identifier (SID). The SID MUST be unique for a given
(sender, recipient, SMK) tuple, and MUST NOT be derived from SMK
itself.
4.2. Process
For a given plaintext stanza (S), the sending agent performs the
following:
1. Ensures the plaintext stanza is fully qualified, including the
proper namespace declarations (e.g. contains the attribute
'xmlns' set to the value "jabber:client" for 'jabber:client'
stanzas defined in [RFC6120]).
2. Notes the current UTC date and time N when this stanza is
constructed, formatted as described under Section 7.
3. Constructs a forwarding envelope M using a element
qualified by the "urn:xmpp:forward:0" namespace (as defined in
[XEP-0297]) as follows:
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* The child element qualified by the "urn:xmpp:delay"
namespace (as defined in [XEP-0203]) with the attribute
'stamp' set to the UTC date and time value N
* The plaintext stanza S
4. Convert the forwarding envelope M to a UTF-8 encoded string (M'),
optionallly removing line breaks and other insignificant
whitespace between elements and attributes, i.e. M' = UTF8-
encode(M). We call M' a "stanza-string" because for purposes of
encryption and decryption it is treated not as XML but as an
opaque string (this avoids the need for complex canonicalization
of the XML input).
5. Generates a Content Master Key (CMK). The CMK MUST have a length
at least equal to that required by the content encryption
algorithm in use and MUST be generated randomly. See [RFC4086]
for considerations on generating random values.
6. Generates any additional unprotected block cipher factors (IV);
e.g. initialization vector/nonce. A sending agent MUST ensure
that no two sets of factors are used with the same CMK, and
SHOULD NOT reuse such factors for other stanzas.
7. Performs the message encryption steps from [JOSE-JWE] to generate
the JWE Header H, JWE Encrypted Key E, JWE Ciphertext C, and JWE
Integrity Value I; using the following inputs:
* The 'alg' property is set to an appropriate key wrapping
algorithm (e.g. "A256KW" or "A128KW"); recipients use
'keyreq' in Section 6 to obtain the SMK.
* The 'enc' property is set to the intended content encryption
algorithm.
* SMK as the key for CMK Encryption.
* CMK as the Content Master Key.
* M' as the plaintext content to encrypt.
8. Constructs an element qualified by the
"urn:ietf:params:xml:ns:xmpp-e2e:3" namespace as follows:
* The attribute 'id' set to the identifier value SID.
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* The child element qualified by the
"urn:ietf:params:xml:ns:xmpp-e2e:3" namespace and with XML
character data as H, encoded base64url as per [RFC4684].
* The child element qualified by the
"urn:ietf:params:xml:ns:xmpp-e2e:3" namespace and with XML
character as E, encoded base64url as per [RFC4684].
* The child element qualified by the
"urn:ietf:params:xml:ns:xmpp-e2e:3" namespace and with XML
character data as C, encoded base64url as per [RFC4684].
* The child element qualified by the "urn"ietf:params:
xml:ns:xmpp-e2e:3" namespace and with XML character data as I,
encoded base64url as per [RFC4684].
9. Sends the element as the payload of a stanza that SHOULD
match the stanza from step 1 in kind (e.g., ), type
(e.g., "chat"), and addressing (e.g. to="romeo@montague.net"
from="juliet@capulet.net/balcony"). If the original stanza (S)
has a value for the "id" attribute, this stanza MUST NOT use the
same value for its "id" attribute.
4.3. Example - Securing a Message
NOTE: unless otherwise indicated, all line breaks are included for
readability.
The sending agent begins with the plaintext version of the
stanza 'S':
35740be5-b5a4-4c4e-962a-a03b14ed92f4
But to be frank, and give it thee again.
And yet I wish but for the thing I have.
My bounty is as boundless as the sea,
My love as deep; the more I give to thee,
The more I have, for both are infinite.
and the following prerequisites:
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o Sender JID as "juliet@capulet.lit/balcony"
o Recipient JID as "romeo@montegue.lit"
o Session Master Key 'SMK' as (base64 encoded)
"xWtdjhYsH4Va_9SfYSefsJfZu03m5RrbXo_UavxxeU8="
o CMK identifier SID as "835c92a8-94cd-4e96-b3f3-b2e75a438f92"
The sending agent performs steps 1, 2, and 3 to generate the
envelope:
35740be5-b5a4-4c4e-962a-a03b14ed92f4
But to be frank, and give it thee again.
And yet I wish but for the thing I have.
My bounty is as boundless as the sea,
My love as deep; the more I give to thee,
The more I have, for both are infinite.
Then the sending agent performs steps 4 through 7 (with Content
Master Key as "-ElMo6FndEkMxWP3TIkp1dDfVKqmqAAgrlcvVnUVpOc=", base64
encoded) to generate the [JOSE-JWE] outputs:
JWE Header
{
"alg":"A256KW",
"enc":"A256CCM",
"iv":"B7waCj2vF_sLaJfe-1GHrA=="
}
JWE Content Encryption Key
XvySjpkqv6m-hUrG2VSEwIM9wZqVcdP037trOMpqFbK_i2AvHLqiNA==
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JWE Ciphertext
7LlMXd-qqPAQ_LZm6u9AR2csyDgT09z5DWdn8K5GLr_qbWRDKw2ufZrmO9YZ-jHl
1IDeXeQ9azbNNViv8gpa-prDYkXOo3QoqYOJiA0RAkPU-UjN41wqqVvV62gad_OB
Dd9q2xsNnK1PI5frIGTCZSexOIeSD3EcP0cDI_0MzMEKqpVnPbYQDkWQNrtxPs2b
lE15KcQXbHVxA9rEz7y0a-ITXruV_fOXGftkRVDuiF1yVh2xNRPa-TQxDegZh1D_
u_c2mwPLO6ED_1ZlvL7075_VL0DT01YGtDDQeyzrQWnQNEBJ4G5jFpCyqtCszbgx
9kjWjxLYNLLGxbMOtwF45OLCd8JFUIQAHoLeKp4aIWr5yp7aATX8dKvQm5_TFICt
nLonaM1e5mRPnRgg5zNeMErx6FFkqowOI1h7hVl_QHF8Ofoy99CmWKiVT3Nq5ngL
74Xm4CtiJMHnAEn2Q-10-fWuIHIEA0u4GwBaXo0ToBw4uCM4ZhG1SFSKyCKkjXmr
7TL-5jwSuuQHX6efS8Hhi7fujmqw9VXekeubsY2btl5put0SWT8_0S8ZBDMjrkXj
y7iI5NUOhQMms3ou1r01NZdzNVKcqiX5q3z1eB1FLWmGymnnj_gE_HalWUL0HoqL
93Fr1nfFLNhXLCZYhZ7By6T9NN8omp4ZYE92HMpPzgo-eCGP
NOTE: For CCM [RFC3610], the integrity value is encoded as part of
the ciphertext, therefore the resulting Integrity Value is an octet
string of length 0.
Then the sending agent performs steps 8 and 9, and sends the
following:
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eyJlbmMiOiJBMjU2Q0NNIiwiaXYiOiJCN3dhQ2oydkZfc0xhSmZlLTFHS
HJBPT0iLCJhZGF0YSI6IjQ5Mi0wNS0xMlQyMDowNzozNy4wMTJaIiwibX
NpemUiOiIxNiJ9
7LlMXd-qqPAQ_LZm6u9AR2csyDgT09z5DWdn8K5GLr_qbWRDKw2ufZrmO
9YZ-jHl1IDeXeQ9azbNNViv8gpa-prDYkXOo3QoqYOJiA0RAkPU-UjN41
wqqVvV62gad_OBDd9q2xsNnK1PI5frIGTCZSexOIeSD3EcP0cDI_0MzME
KqpVnPbYQDkWQNrtxPs2blE15KcQXbHVxA9rEz7y0a-ITXruV_fOXGftk
RVDuiF1yVh2xNRPa-TQxDegZh1D_u_c2mwPLO6ED_1ZlvL7075_VL0DT0
1YGtDDQeyzrQWnQNEBJ4G5jFpCyqtCszbgx9kjWjxLYNLLGxbMOtwF45O
LCd8JFUIQAHoLeKp4aIWr5yp7aATX8dKvQm5_TFICtnLonaM1e5mRPnRg
g5zNeMErx6FFkqowOI1h7hVl_QHF8Ofoy99CmWKiVT3Nq5ngL74Xm4Cti
JMHnAEn2Q-10-fWuIHIEA0u4GwBaXo0ToBw4uCM4ZhG1SFSKyCKkjXmr7
TL-5jwSuuQHX6efS8Hhi7fujmqw9VXekeubsY2btl5put0SWT8_0S8ZBD
MjrkXjy7iI5NUOhQMms3ou1r01NZdzNVKcqiX5q3z1eB1FLWmGymnnj_g
E_HalWUL0HoqL93Fr1nfFLNhXLCZYhZ7By6T9NN8omp4ZYE92HMpPzgo-
eCGP
5. Decrypting XMPP Stanzas
5.1. Protocol Not Understood
If the receiving agent does not understand the protocol, it MUST do
one and only one of the following: (1) ignore the extension,
(2) ignore the entire stanza, or (3) return a
error to the sender, as described in [RFC6120].
NOTE: If the inbound stanza is an , the receiving agent MUST
return an error to the sending agent, to comply with the exchanging
of IQ stanzas in [RFC6121].
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5.2. Process
Upon receipt of an encrypted stanza, the receiving agent performs the
following:
1. Determines if a valid SMK is available, associated with the SID
specified by the 'id' attribute value of the element's character data
content.
* The JWE Content Encryption Key from the element's
character data content.
* The JWE Ciphertext C from the element's character data
content.
* The JWE Integrity Value I from the element's character
data content.
3. Converts the forwarding envelope UTF-8 ecoded string M' into XML
element M.
4. Obtains the UTC date and time N from the child element,
and verifies it is within the accepted range, as specified in
Section 7.
5. Obtains the plaintext stanza S, which is a child element node of
M; the stanza MUST be fully qualified with proper namespace
declarations for XMPP stanzas, to help distinguish it from other
content within M.
.
5.3. Insufficient Information
At step 1, if the receiving agent is unable to obtain the CMK, or the
receiving agent could not otherwise determine the additional
information, it MAY return a error to the sending
agent (as described in [RFC6120]), optionally supplemented by an
application-specific error condition element of :
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[XML character data]
In addition to returning an error, the receiving agent SHOULD NOT
present the stanza to the intended recipient (human or application)
and SHOULD provide some explicit alternate processing of the stanza
(which MAY be to display a message informing the recipient that it
has received a stanza that cannot be decrypted).
5.4. Failed Decryption
At step 2, if the receiving agent is unable to successfully decrypt
the stanza, the receiving agent SHOULD return a error
to the sending agent (as described in [RFC6120]), optionally
supplemented by an application-specific error condition element of
(previously defined in [RFC3923]):
[XML character data]
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In addition to returning an error, the receiving agent SHOULD NOT
present the stanza to the intended recipient (human or application)
and SHOULD provide some explicit alternate processing of the stanza
(which MAY be to display a message informing the recipient that it
has received a stanza that cannot be decrypted).
5.5. Timestamp Not Acceptable
At step 4, if the stanza is successfully decrypted but the timestamp
fails the checks outlined in Section 7, the receiving agent MAY
return a error to the sender (as described in
[RFC6120]), optionally supplemented by an application-specific error
condition element of (previously defined in
[RFC3923]):
[XML character data]
5.6. Successful Decryption
If the receiving agent successfully decrypted the payload, it MUST
NOT return a stanza error.
If the payload is an of type "get" or "set", and the response
to this is of type "error", the receiving agent MUST send the
encrypted response wrapped in an of type "result", to prevent
exposing information about the payload.
6. Requesting Session Keys
Because of the dynamic nature of XMPP stanza routing, the protocol
does not exchange session keys as part of the encrypted stanza.
Instead, a separate protocol is used by receiving agents to request a
particular session key from the sending agent.
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6.1. Request Process
Before a SMK can be requested, the receiving agent MUST have at least
one public key for which it also has the private key.
To request a SMK, the receiving agent performs the following:
1. Constructs a [JOSE-JWK] JWK Set (KS), containing information
about each public key the requesting agent wishes to use. Each
key SHOULD include a value for the property 'kid' which uniquely
identifies it within the context of all provided keys. Each key
MUST include a value for the property 'kid' if any two keys use
the same algorithm.
2. Constructs a element qualified by the
"urn:ietf:params:xml:ns:xmpp-e2e:3" namespace as follows:
* The attribute 'id' set to the SMK identifier value SID.
* The child element qualified by the
"urn:ietf:params:xml:ns:xmpp-e2e:3" namespace and with XML
character data as KS, encoded base64url as pre [RFC4684].
3. Sends the element as the payload of an stanza
with the attribute 'type' set to "get", the attribute 'to' set to
the full JID of the original encrypted stanza's sender, and the
attribute 'id' set to an opaque string value the receiving agent
uses to track the response.
6.2. Accept Process
If the sending agent approves the request, it performs the following:
1. Chooses a key (PK) from the keys provided via KS, and notes its
identifier value 'kid'.
2. Constructs a parial [JOSE-JWE] header (H) as follows:
* The property 'alg' set to the cryptographic algorithm for PK,
which is used to secure the content master key SMK.
* The property 'kid' set to the identifier matching PK.
3. Encrypts the content master key SMK using the key PK, i.e. SMK'
= pki-encrypt(PK, SMK).
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4. Constructs a element qualified by the
"urn:ietf:params:xml:ns:xmpp-e2e:3" namespace as follows:
* The attribute 'id' set to the SMK identifier SID.
* The child element qualified by the
"urn:ietf:params:xml:ns:xmpp-e2e:3" namespace and with XML
character data as H, encoded base64url as per [RFC4684].
* The child element qualified by the
"urn:ietf:params:xml:ns:xmpp-e2e:3" namespace and with XML
character data as SMK', encoded base64url as per [RFC4684].
5. Sends the element as the payload of an stanza
with the attribute 'type' set to "result", the attribute 'to' set
to the full JID from the request 's 'from' attribute, and
the attribute 'id' set to the value of the request 's 'id'
attribute.
6.3. Error Conditions
If the sending agent does not approve the request, it sends an
stanza of type "error" and containing the reason for denying the
request:
o : the key request is made by an entity that is not
authorized to decrypt stanzas from the sending agent and/or for
the indicated SID.
o : the requested SID is no longer valid.
o : the key request did not contain any keys the
sending agent understands.
6.4. Example of Successful Key Request
NOTE: unless otherwise indicated, all line breaks are included for
readability.
To begin a key request, the receiving agent performs step 1 from
Section 6.1 to generate the [JOSE-JWK]:
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{
"keys": [{
"alg":"RSA-OAEP",
"mod":"vtqejkMF01h8oKEaHfHEYO0C2jM7eISbbSvNs0SNItYWO6GbjpJf
N4ldXw2vpVRdysnwU3zk6o2_SD0YCH1WgeuI0QK1knMTDdNSXx52e1c4BTw
hlA8iHuutTWmpBqesn1GNZmqB3jYsJOkVBYwCJtkB9APaBvk0itlRtizjCf
1HHnau7nGStyshgu8-srxi_d8rC5TTLSB_zT1i6fP8fwDloemXOtC0U65by
5P-1ZHxaf_bD8fpjps6gwSgdkZKMJAI0bOWZWuMpp2ntqa0wLB7Ndxb2Ijr
eog_s5ssAoSiXDVdoswSbp36ZP-1lnCk2j-vZ4qbhaFg5bZtgt-gwQ==",
"exp":"AQAB",
"kid":"romeo@montegue.lit/garden"
}]
}
Then the receiving agent performs step 2 to generate the :
W3siYWxnIjoiUlNBIiwibW9kIjoiQUw3YW5vNURCZE5ZZktDaEdoM3h4R0R
0QXRvek8zaUVtMjByemJORWpTTFdGanVobTQ2U1h6ZUpYVjhOcjZWVVhjck
o4Rk44NU9xTnYwZzlHQWg5Vm9IcmlORUN0Wkp6RXczVFVsOGVkbnRYT0FVO
ElaUVBJaDdyclUxcHFRYW5ySjlSaldacWdkNDJMQ1RwRlFXTUFpYlpBZlFE
MmdiNU5JclpVYllzNHduOVJ4NTJydTV4a3JjcklZTHZQcks4WXYzZkt3dVU
weTBnZjgwOVl1bnpfSDhBNWFIcGx6clF0Rk91Vzh1VF90V1I4V25fMndfSD
ZZNmJPb01Fb0haR1NqQ1FDTkd6bG1WcmpLYWRwN2FtdE1Dd2V6WGNXOWlJN
jNxSVA3T2JMQUtFb2x3MVhhTE1FbTZkLW1UX3RaWndwTm9fcjJlS200V2hZ
T1cyYllMZm9NRT0iLCJleHAiOiJBUUFCIiwia2lkIjoicm9tZW9AbW9udGV
ndWUubGl0L2dhcmRlbiJ9XQ==
Then the receiving agent performs step 3 and sends the following:
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W3siYWxnIjoiUlNBIiwibW9kIjoiQUw3YW5vNURCZE5ZZktDaEdoM3h4R
0R0QXRvek8zaUVtMjByemJORWpTTFdGanVobTQ2U1h6ZUpYVjhOcjZWVV
hjcko4Rk44NU9xTnYwZzlHQWg5Vm9IcmlORUN0Wkp6RXczVFVsOGVkbnR
YT0FVOElaUVBJaDdyclUxcHFRYW5ySjlSaldacWdkNDJMQ1RwRlFXTUFp
YlpBZlFEMmdiNU5JclpVYllzNHduOVJ4NTJydTV4a3JjcklZTHZQcks4W
XYzZkt3dVUweTBnZjgwOVl1bnpfSDhBNWFIcGx6clF0Rk91Vzh1VF90V1
I4V25fMndfSDZZNmJPb01Fb0haR1NqQ1FDTkd6bG1WcmpLYWRwN2FtdE1
Dd2V6WGNXOWlJNjNxSVA3T2JMQUtFb2x3MVhhTE1FbTZkLW1UX3RaWndw
Tm9fcjJlS200V2hZT1cyYllMZm9NRT0iLCJleHAiOiJBUUFCIiwia2lkI
joicm9tZW9AbW9udGVndWUubGl0L2dhcmRlbiJ9XQ==
If the sending agent accepts this key request, it performs steps 1
and 2 from Section 6.2 to generate the partial [JOSE-JWE] header:
{
"alg":"RSA-OAEP",
"kid":"romeo@montegue.lit/garden"
}
Then the sending agent performs step 3 to generate the encrypted SMK:
DsLfaD3ZPtE4k1wnhsHNsYyFi3spey8NNNMeYQ6L-sdLJrcWIwfOYNPK-Sb
oLvsSiXB7yw1MLtKhhrAiRovEmMnTgoLvcuzX8PIBcDbSP3ie0aMynXqStb
Rk-LwijdSY7NqD_WB1tP4dhqo3OwlXf4bSWlBnUDEzGh8giF6KYeRzw181m
vMIJ6BCjwnvqTKBNlMDUX3cTfXSAFi9j8MkkS3wLbc2MM4RzP4ESyiZZQJn
z_zkg1enjAbJ_fpwJ-E4a14EyWhwYpCNW3Tb5IhyhhgBsiLB6kulm9RMYwc
TCGIDCUsfTo5vzDOKX7DBF6KtwSY8bF1AiOiGlsGo2SlrSg==
Then the sending agent performs step 4 to generate the
response:
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eyJhbGciOiJSU0EtT0VBUCIsImtpZCI6InJvbWVvQG1vbnRlZ3VlLmxpc3Q
vZ2FyZGVuIn0=
DsLfaD3ZPtE4k1wnhsHNsYyFi3spey8NNNMeYQ6L-sdLJrcWIwfOYNPK-Sb
oLvsSiXB7yw1MLtKhhrAiRovEmMnTgoLvcuzX8PIBcDbSP3ie0aMynXqStb
Rk-LwijdSY7NqD_WB1tP4dhqo3OwlXf4bSWlBnUDEzGh8giF6KYeRzw181m
vMIJ6BCjwnvqTKBNlMDUX3cTfXSAFi9j8MkkS3wLbc2MM4RzP4ESyiZZQJn
z_zkg1enjAbJ_fpwJ-E4a14EyWhwYpCNW3Tb5IhyhhgBsiLB6kulm9RMYwc
TCGIDCUsfTo5vzDOKX7DBF6KtwSY8bF1AiOiGlsGo2SlrSg==
Then the sending agent performs step 5 and sends the following:
eyJhbGciOiJSU0EtT0VBUCIsImtpZCI6InJvbWVvQG1vbnRlZ3VlLmxpc
3QvZ2FyZGVuIn0=
DsLfaD3ZPtE4k1wnhsHNsYyFi3spey8NNNMeYQ6L-sdLJrcWIwfOYNPK-
SboLvsSiXB7yw1MLtKhhrAiRovEmMnTgoLvcuzX8PIBcDbSP3ie0aMynX
qStbRk-LwijdSY7NqD_WB1tP4dhqo3OwlXf4bSWlBnUDEzGh8giF6KYeR
zw181mvMIJ6BCjwnvqTKBNlMDUX3cTfXSAFi9j8MkkS3wLbc2MM4RzP4E
SyiZZQJnz_zkg1enjAbJ_fpwJ-E4a14EyWhwYpCNW3Tb5IhyhhgBsiLB6
kulm9RMYwcTCGIDCUsfTo5vzDOKX7DBF6KtwSY8bF1AiOiGlsGo2SlrSg
==
7. Inclusion and Checking of Timestamps
Timestamps are included to help prevent replay attacks. All
timestamps MUST conform to [XEP-0082] and be presented as UTC with no
offset, and SHOULD include the seconds and fractions of a second to
three digits. Absent a local adjustment to the sending agent's
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perceived time or the underlying clock time, the sending agent MUST
ensure that the timestamps it sends to the receiver increase
monotonically (if necessary by incrementing the seconds fraction in
the timestamp if the clock returns the same time for multiple
requests). The following rules apply to the receiving agent:
o It MUST verify that the timestamp received is within five minutes
of the current time, except as described below for offline
messages.
o It SHOULD verify that the timestamp received is greater than any
timestamp received in the last 10 minutes which passed the
previous check.
o If any of the foregoing checks fails, the timestamp SHOULD be
presented to the receiving entity (human or application) marked as
"old timestamp", "future timestamp", or "decreasing timestamp",
and the receiving entity MAY return a stanza error to the sender.
The foregoing timestamp checks assume that the recipient is online
when the message is received. However, if the recipient is offline
then the server might store the message for delivery when the
recipient is next online (offline storage does not apply to or
stanzas, only stanzas). As described in
[XEP-0160], when sending an offline message to the recipient, the
server SHOULD include delayed delivery data as specified in
[XEP-0203] so that the recipient knows that this is an offline
message and also knows the original time of receipt at the server.
In this case, the recipient SHOULD verify that the timestamp received
in the encrypted message is within five minutes of the time stamped
by the recipient's server in the element.
8. Interaction with Stanza Semantics
The following limitations and caveats apply:
o Undirected stanzas SHOULD NOT be encrypted. Such
stanzas are delivered to anyone the sender has authorized, and can
generate a large volume of key requests.
o Stanzas directed to multiplexing services (e.g. multi-user chat)
SHOULD NOT be encrypted, unless the sender has established an
acceptable trust relationship with the multiplexing service.
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9. Mandatory-to-Implement Cryptographic Algorithms
All algorithms that MUST be implemented for [JOSE-JWE] also MUST be
implemented for this specification.
10. Security Considerations
10.1. Storage of Encrypted Stanzas
The recipient's server might store any stanzas received
until the recipient is next available; this duration could be
anywhere from a few minutes to several months.
10.2. Re-use of Session Master Keys
A sender SHOULD NOT use the same SMK for stanzas intended for
different recipients, as determined by the localpart and domainpart
of the recipient's JID.
A sender MAY re-use a SMK for several stanzas to the same recipient.
In this case, the SID remains the same, but the sending agent MUST
generate a new CMK and IV for each encrypted stanza. The sender
SHOULD periodically generate a new SMK; however, this specification
does not mandate any specific algorithms or processes.
In the case of stanzas, a sending agent might generate a
new SMK each time it generates a new ThreadID, as outlined in
[XEP-0201].
11. IANA Considerations
11.1. XML Namespace Name for e2e Data in XMPP
A URN sub-namespace of encrypted content for the Extensible Messaging
and Presence Protocol (XMPP) is defined as follows.
URI: urn:ietf:params:xml:ns:xmpp-e2e:3
Specification: RFC XXXX
Description: This is an XML namespace name of encrypted content for
the Extensible Messaging and Presence Protocol as defined by RFC
XXXX.
Registrant Contact: IESG,
12. References
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12.1. Normative References
[E2E-REQ] Saint-Andre, P., "Requirements for End-to-End Encryption
in the Extensible Messaging and Presence Protocol (XMPP)",
draft-saintandre-xmpp-e2e-requirements-01 (work in
progress), March 2010.
[JOSE-JWA]
Jones, M., "JSON Web Algorithms (JWA)",
draft-ietf-jose-json-web-algorithms-03 (work in progress),
July 2012.
[JOSE-JWE]
Jones, M., Rescola, E., and J. Hildebrand, "JSON Web
Encryption (JWE)", draft-ietf-jose-json-web-encryption-03
(work in progress), July 2012.
[JOSE-JWK]
Jones, M., "JSON Web Key (JWK)",
draft-ietf-jose-json-web-key-03 (work in progress),
July 2012.
[RFC2119] Bradner, S., "Key words for use in RFCs to Indicate
Requirement Levels", BCP 14, RFC 2119, March 1997.
[RFC4684] Josefsson, S., "The Base16, Base32, and Base64 Data
Encodings", RFC 4648, October 2006.
[RFC4949] Shirey, R., "Internet Security Glossary, Version 2",
RFC 4949, August 2007.
[RFC6120] Saint-Andre, P., "Extensible Messaging and Presence
Protocol (XMPP): Core", RFC 6120, March 2011.
[RFC6121] Saint-Andre, P., "Extensible Messaging and Presence
Protocol (XMPP): Instant Messaging and Presence",
RFC 6121, March 2011.
[XEP-0030]
Eatmon, R., Hildebrand, J., Millard, P., and P. Saint-
Andre, "Service Discovery", XSF XEP 0030, June 2006.
[XEP-0082]
Saint-Andre, P., "XMPP Date and Time Profiles", XSF
XEP 0082, May 2003.
[XEP-0115]
Hildebrand, J., Troncon, R., and P. Saint-Andre, "Entity
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Capabilities", XSF XEP 0115, February 2008.
[XEP-0203]
Saint-Andre, P., "Delayed Delivery", XSF XEP 0203,
September 2009.
[XEP-0297]
Wild, M. and K. Smith, "Stanza Forwarding", XSF XEP 0297,
July 2012.
12.2. Informative References
[RFC3610] Whiting, D., Housley, R., and N. Ferguson, "Counter with
CBC-MAC (CCM)", RFC 3923, September 2003.
[RFC3923] Saint-Andre, P., "End-to-End Signing and Object Encryption
for the Extensible Messaging and Presence Protocol
(XMPP)", RFC 3923, October 2004.
[RFC4086] Eastlake, D., Schiller, J., and S. Crocker, "Randomness
Requirements for Security", RFC 4086, June 2005.
[XEP-0160]
Saint-Andre, P., "Best Practices for Handling Offline
Messages", XSF XEP 0160, January 2006.
[XEP-0201]
Saint-Andre, P., Paterson, I., and K. Smith, "Best
Practices for Message Threads", XSF XEP 0203,
November 2010.
Appendix A. Schema for urn:ietf:params:xml:ns:xmpp-e2e:3
The following XML schema is descriptive, not normative.
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Author's Address
Matthew Miller
Cisco Systems, Inc.
1899 Wynkoop Street, Suite 600
Denver, CO 80202
USA
Phone: +1-303-308-3204
Email: mamille2@cisco.com
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