Internet Engineering Task Force J. Arkko
MMUSIC Working Group E. Carrara
INTERNET-DRAFT F. Lindholm
Expires: August 2004 M. Naslund
K. Norrman
Ericsson
February 2004
Key Management Extensions for Session Description
Protocol (SDP) and Real Time Streaming Protocol (RTSP)
<draft-ietf-mmusic-kmgmt-ext-10.txt>
Status of this memo
This document is an Internet-Draft and is in full conformance with
all provisions of Section 10 of RFC2026.
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Copyright Notice
Copyright (C) The Internet Society (2004). All Rights Reserved.
Abstract
This document defines general extensions for SDP and RTSP to carry
messages, as specified by a key management protocol, in order to
secure the media. These extensions are presented as a framework, to
be used by one or more key management protocols. As such, their use
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is meaningful only when complemented by an appropriate key management
protocol.
General guidelines are also given on how the framework should be used
together with SIP and RTSP. The usage with the MIKEY key management
protocol is also defined.
TABLE OF CONTENTS
1. Introduction.....................................................2
1.1. Notational Conventions.........................................4
2. Extensions to SDP and RTSP.......................................4
2.1. SDP Extensions.................................................4
2.2. RTSP Extensions................................................5
3. Usage with SDP, SIP, RTSP, and SAP...............................6
3.1. Use of SDP.....................................................7
3.1.1 General processing............................................7
3.1.2 Use of SDP with offer/answer and SIP..........................8
3.1.3 Use of SDP with SAP..........................................10
3.1.4 Bidding-down attack prevention...............................10
3.2. RTSP usage....................................................12
4. Example scenarios...............................................14
5. Adding further Key management protocols.........................18
6. Integration of MIKEY............................................18
6.1 MIKEY Interface................................................19
7. Security Considerations.........................................20
8. IANA Considerations.............................................21
8.1. SDP Attribute Registration....................................21
8.2. RTSP Registration.............................................21
8.3. Protocol Identifier Registration..............................22
9. Acknowledgments.................................................23
10. Author's Addresses.............................................23
11. References.....................................................24
11.1. Normative References.........................................24
11.2. Informative References.......................................24
1. Introduction
[RFC Editor remark] All instances of RFC xxxx should be replaced
with the RFC number of this document, when published. Furthermore,
all instances of RFC yyyy should be replaced with the RFC number
of the MIKEY (Multimedia Internet KEYing) document [MIKEY], when
published.
There has recently been work to define a security profile for the
protection of real-time applications running over RTP, [SRTP].
However, a security protocol needs a key management solution to
exchange keys and security parameters, manage and refresh keys, etc.
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A key management protocol is executed prior to the security
protocol's execution. The key management protocol's main goal is to,
in a secure and reliable way, establish a security association for
the security protocol. This includes one or more cryptographic keys
and the set of necessary parameters for the security protocol, e.g.,
cipher and authentication algorithms to be used. The key management
protocol has similarities with, e.g., SIP [SIP] and RTSP [RTSP] in
the sense that it negotiates necessary information in order to be
able to setup the session.
The focus in the following sections is to describe a new SDP
attribute and RTSP header extension to support key management, and to
show how these can be integrated within SIP and RTSP. The resulting
framework is completed by one or more key management protocols, which
use the extensions provided.
Some of the motivations to create a framework with the possibility to
include the key management in the session establishment are:
* Just as the codec information is a description of how to encode and
decode the audio (or video) stream, the key management data is a
description of how to encrypt and decrypt the data.
* The possibility to negotiate the security for the entire multimedia
session at the same time.
* The knowledge of the media at session establishment makes it easy
to tie the key management to the multimedia sessions.
* This approach may be more efficient than setting up the security
later, as that approach might force extra roundtrips, possibly
also a separate set-up for each stream, hence implying more delay
to the actual setup of the media session.
* The possibility to negotiate keying material end-to-end without
applying end-to-end protection of the SDP (instead, hop-by-hop
security mechanisms can be used which may be useful if
intermediate proxies needs access to the SDP).
Currently in SDP [SDPnew], there exists one field to transport keys,
the "k=" field. However, this is not enough for a key management
protocol as there are many more parameters that need to be
transported, and the "k=" field is not extendible. The approach used
is to extend the SDP description through a number of attributes that
transport the key management offer/answer and also to associate it
with the media sessions. SIP uses the offer/answer model [OAM]
whereby extensions to SDP will be enough. However, RTSP [RTSP] does
not use the offer/answer model with SDP, so a new RTSP header is
introduced to convey key management data.
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The document also defines the use of the described framework together
with the key management protocol Multimedia Internet KEYing (MIKEY)
[MIKEY].
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 [RFC2119].
2. Extensions to SDP and RTSP
This section describes common attributes that can be included in SDP
or RTSP when an integrated key management protocol is used. The
attribute values follow the general SDP and RTSP guidelines (see
[SDPnew] and [RTSP]).
For both SDP and RTSP, the general method of adding the key
management protocol is to introduce new attributes, one identifier to
identify the specific key management protocol, and one data field
where the key management protocol data is placed. The key management
protocol data contains the necessary information to establish the
security protocol, e.g., keys and cryptographic parameters. All
parameters and keys are protected by the key management protocol.
The key management data SHALL be base64 [RFC3548] encoded and comply
with the base64 grammar as defined in [SDPnew]. The key management
protocol identifier, KMID, is defined as below in Augmented Backus-
Naur Form grammar (ABNF) [RFC2234].
KMID = 1*(ALPHA / DIGIT)
Values for the identifier, KMID, are registered and defined in
accordance to Section 8. Note that the KMID will be case sensitive
and it is RECOMMENDED that values registered are lower case letters.
2.1. SDP Extensions
This section provides an ABNF grammar (as used in [SDPnew]) for the
key management extensions to SDP.
Note that the new definitions are compliant with the definition of an
attribute field, i.e.
attribute = (att-field ":" att-value) | att-field
The att-field and att-value for the key management extensions are as
follow:
key-mgmt-att-field = "key-mgmt"
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key-mgmt-att-value = 0*1SP prtcl-id SP keymgmt-data
prtcl-id = KMID
; e.g. "mikey"
keymgmt-data = base64
SP = 0x20
where KMID is as defined in Section 2 of this memo, base64 is as
defined in SDP [SDPnew]. Prtcl-id refers to the set of values defined
for KMID in Section 7.
The attribute MAY be used at session level, media level, or at both
levels. An attribute defined at media level overrides an attribute
defined at session level. In other words, if the media level
attribute is present, the session level attribute MUST be ignored for
this media. Section 3.1 describes in detail how the attributes are
used and how the SDP is handled in different usage scenarios.
2.2. RTSP Extensions
To support the key management attributes, the following RTSP header
is defined:
KeyMgmt = "KeyMgmt" ":" key-mgmt-spec 0*("," key-mgmt-spec)
key-mgmt-spec = "prot" "=" KMID ";" ["uri" "=" <"> rtsp_URL <"> ";"]
"data" "=" base64
where KMID is as defined in Section 2 of this memo, "base64" as
defined in [SDPnew], and "rtsp_URL" as defined in [RTSP].
The "uri" parameter identifies the context for which the key
management data applies, and the RTSP URI SHALL match a (session or
media) URI present in the description of the session. If the RTSP
aggregated control URI is included it indicates that the key
management message is on session level (and similarly the RTSP media
control URI, that it applies to the media level). If no "uri"
parameter is present in a key-mgmt-spec the specification applies to
the context identified by the RTSP request URI.
The KeyMgmt header MAY be used in the messages and directions
described in the table below.
Method | Direction | Requirement
---------------------------------------------
DESCRIBE response | S->C | RECOMMENDED
SETUP | C->S | REQUIRED
SETUP Response | S->C | REQUIRED (error)
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Note: Section 3.2 describes in detail how the RTSP extensions are
used.
We define one new RTSP status code to report error due to any failure
during the key management processing (Section 3.2):
Status-Code = "463" ; Key management failure
A 463 response MAY contain a KeyMgmt header with a key management
protocol message that further indicates the nature of the error.
3. Usage with SDP, SIP, RTSP, and SAP
This section gives rules and recommendations of how/when to include
the defined key management attribute when SIP and/or RTSP are used
together with SDP.
When a key management protocol is integrated with SIP/SDP and RTSP,
the following general requirements are placed on the key management:
* It MUST be possible to execute the key management protocol in at
most one request-response message exchange.
* It MUST be possible from the SIP/SDP and RTSP application, using
the key management API, to receive key management data, and
information of whether a message is accepted or not.
The content of the key management messages depends on the key
management protocol that is used. However, the content of such key
management messages might be expected to be roughly as follow. The
key management Initiator (e.g. the offerer) includes the key
management data in a first message, containing the media description
it should apply to. This data in general consists of the security
parameters (including key material) needed to secure the
communication, together with the necessary authentication information
(to assure that the message is authentic).
At the Responder's side, the key management protocol checks the
validity of the key management message, together with the
availability of the parameters offered, and then provides the key
management data to be included in the answer. This answer may
typically authenticate the Responder to the Initiator, and also state
if the initial offer was accepted or not. Certain protocols might
require the Responder to include a selection of the security
parameters that he is willing to support. Again, the actual content
of such response is dependent on the particular key management
protocol.
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Section 6 describes a realization of the MIKEY protocol using these
mechanisms. Procedures to be used when mapping new key management
protocols onto this framework are described in Section 5.
3.1. Use of SDP
This section describes the processing rules for the different
applications which use SDP for the key management.
3.1.1 General processing
The processing when SDP is used is slightly different according to
the way SDP is transported, and if it uses an offer/answer or
announcement. The processing can be divided into four different
steps:
1) How to create the initial offer.
2) How to handle a received offer.
3) How to create an answer.
4) How to handle a received answer.
It should be noted that the last two steps may not always be
applicable, as there are cases where an answer can not or will not be
sent back.
The general processing for creating an initial offer SHALL follow the
following actions:
* The identifier of the key management protocol used MUST be placed
in the prtcl-id field of SDP. A table of legal protocols
identifiers is maintained by IANA (see Section 8).
* The keymgmt-data field MUST be created as follows. The key
management protocol MUST be used to create the key management
message. This message SHALL be base64 encoded [RFC3548] by the SDP
application and then encapsulated in the keymgmt-data attribute.
Note though that the semantics of the encapsulated message is
dependent on the key management protocol that is used.
The general processing for handling a received offer SHALL follow the
following actions:
* The key management protocol is identified according to the prtcl-id
field. A table of legal protocols identifiers is maintained by
IANA (Section 8).
* The key management data from the keymgmt-data field MUST be
extracted, base64 decoded to reconstruct the original message, and
then passed to the key management protocol for processing. Note
that depending on key management protocol, some extra parameters
might also be requested by the specific API, such as the
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source/destination network address/port(s) for the specified media
(however, this will be implementation specific depending on the
actual API). The extra parameters that a key management protocol
might need (other than the ones defined here) SHOULD be
documented, describing their use, as well as the interaction of
that key management protocol with SDP and RTSP.
* If errors occur, or the key management offer is rejected, the
session SHALL be aborted. Possible error messages are dependent
on the specific session establishment protocol.
At this stage, the key management will have either accepted or
rejected the offered parameters. This MAY cause a response message to
be generated, depending on the key management protocol and the
application scenario.
If an answer is to be generated, the following general actions SHALL
be performed:
* The identifier of the key management protocol used MUST be placed
in the prtcl-id field.
* The keymgmt-data field MUST be created as follows. The key
management protocol MUST be used to create the key management
message. This message SHALL be base64 encoded [RFC3548] by the SDP
application and then encapsulated in the keymgmt-data attribute.
The semantics of the encapsulated message is dependent on the key
management protocol that is used.
The general processing for handling a received answer SHALL follow
the following actions:
* The key management protocol is identified according to the prtcl-id
field.
* The key management data from the keymgmt-data field MUST be
extracted, base64 decoded to reconstruct the original message, and
then passed to the key management protocol for processing.
* If errors occur, or the key management offer is rejected, the
session SHALL be aborted. If possible an error message indicating
the failure SHOULD be sent back. Otherwise, if all the steps are
successful, the normal setup proceeds.
3.1.2 Use of SDP with offer/answer and SIP
This section defines additional processing rules, to the general one
defined in Section 3.1.1, applicable only to applications using SDP
with the offer-answer model [OAM] (and in particular SIP).
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When an initial offer is created, the following offer-answer specific
procedure SHALL be applied:
* Before creating the key management data field, the list of protocol
identifiers MUST be provided by the SDP application to (each) key
management protocol, as defined in Section 3.1.4 (to defeat
bidding-down attacks).
For a received SDP offer that contains the key management attributes,
the following offer-answer specific procedure SHALL be applied:
* Before, or in conjunction with, passing the key management data to
the key management protocol, the complete list of protocol
identifier from the offer message is provided by the SDP
application to the key management protocol (as defined in Section
3.1.4).
When an answer is created, the following offer-answer specific
procedure SHALL be applied:
* If the key management rejects the offer, the answerer SHOULD return
a "606 Not Acceptable" message and optionally also including one
or more Warning headers (a 306 "Attribute not understood" when one
of the parameters is not supported, and a 399 "Miscellaneous
warning" with arbitrary information to be presented to a human
user or logged, see Section 20.43 in [SIP]). Further details about
the cause of failure MAY be described in an included message from
the key management protocol. The session is then aborted (and it
is up to local policy or end user to decide how to continue).
Note that the key management attribute (related to the same key
management protocol) MAY be present both at session level and at
media level. Consequently, the process SHALL be repeated for each
such key management attribute detected. In case the key management
processing of any such attribute does not succeed (e.g.
authentication failure, parameters not supported etc.), on either
session or media level, the entire session setup SHALL be aborted,
including those parts of the session which successfully completed
their part of the key management.
If more than one key management protocol is supported, multiple
instances of the key management attribute MAY be included in the
initial offer when using the offer-answer model, each transporting a
different key management protocol, thus indicating supported
alternatives.
If the offerer includes more than one key management protocol
attribute at session level (analogous for the media level), these
SHOULD be listed in order of preference (the first being the
preferred). The answerer selects the key management protocol it
wishes to use, and processes only it, on either session or media
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level, or on both, according to where located. If the answerer does
not support any of the offerer's suggested key management protocols,
the receiver returns a "606 Not Acceptable" error message, whereby
the sender MUST abort the current setup procedure.
Note that the placement of multiple key management offers in a single
message has the disadvantage that the message expands and the
computational workload for the offerer will increase drastically.
Unless the guidelines of Section 3.1.4 are followed, multiple lines
may open up bidding-down attacks.
The offerer MUST include the key management data within an offer that
contains the media description it applies to.
Re-keying MUST be handled as a new offer, with the new proposed
parameters. The answerer treats this as a new offer where the key
management is the issue of change. The re-keying exchange MUST be
finalized before the security protocol can change the keys. The same
key management protocol used in the original offer SHALL also be used
in the new offer carrying re-keying. If the new offer carrying re-
keying fails (e.g., the authentication verification fails), the
answerer SHOULD send a "606 Not Acceptable" message, including one or
more Warning headers (at least a 306). The offerer MUST then abort
the session.
Note that, in multicast scenarios, unlike unicast, there is only a
single view of the stream [OAM], hence there MUST be a uniform
agreement of the security parameters.
3.1.3 Use of SDP with SAP
There are cases where SDP is used without conforming to the
offer/answer model; instead it is a one-way SDP distribution (i.e.
without back channel), such as when used with SAP and HTTP.
The processing follows the two first steps of the general SDP
processing (see Section 3.1.1). It can be noted that the processing
in this case differs from the offer/answer case in the fact that only
one key management protocol SHALL be offered (i.e. no negotiation
will be possible). This implies that the bidding down attack is not
an issue; therefore the countermeasure is not needed. The key
management protocol used MUST support one-way messages.
3.1.4 Bidding-down attack prevention
The possibility to support multiple key management protocols may,
unless properly handled, introduce bidding-down attacks.
Specifically, a man-in-the-middle could "peel off" cryptographically
strong offers (deleting the key management lines from the message),
leaving only weaker ones as the Responder's choice. To avoid this,
the list of identifiers of the proposed key management protocols MUST
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be authenticated. The authentication MUST be done separately by each
key management protocol.
Accordingly, it MUST be specified (in the key management protocol
specification itself or in a companion document) how the list of key
management protocol identifiers can be processed to be authenticated
from the offerer to the answerer by the specific key management
protocol. Note that even if only one key management protocol is used,
that still MUST authenticate its own protocol identifier.
The list of protocol identifiers MUST then be given to each of the
selected (offered) key management protocols by the application with
";" separated identifiers. All the offered protocol identifiers MUST
be included, in the same order as they appear in the corresponding
SDP description.
The protocol list can formally be described as
prtcl-list = KMID *(";" KMID)
where KMID is as defined in Section 2.
For example, if the offered protocols are MIKEY and two yet-to-be-
invented protocols KEYP1, KEYP2, the SDP is:
v=0
o=alice 2891092738 2891092738 IN IP4 lost.example.com
s=Secret discussion
t=0 0
c=IN IP4 lost.example.com
a=key-mgmt:mikey <data1>
a=key-mgmt:keyp1 <data2>
a=key-mgmt:keyp2 <data3>
m=audio 39000 RTP/SAVP 98
a=rtpmap:98 AMR/8000
m=video 42000 RTP/SAVP 31
a=rtpmap:31 H261/90000
The protocol list, "mikey;keyp1;keyp2", would be generated from
the SDP description and used as input to each specified key
management protocol (together with the data for that protocol).
Each of the three protocols includes this protocol identifier
list in its authentication coverage (according to its protocol
specification).
If more than one protocol is supported by the offerer, it is
RECOMMENDED that all acceptable protocols are included in the first
offer, rather than making single, subsequent alternative offers in
response to error messages, see "Security Considerations".
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3.2. RTSP usage
RTSP does not use the offer/answer model, as SIP does. This causes
some problems, as it is not possible (without modifying RTSP) to send
back an answer. To solve this, a new header has been introduced
(Section 2.2). This also assumes that the key management also has
some kind of binding to the media, so that the response to the server
will be processed as required.
The server SHALL be the Initiator of the key management exchange for
sessions in PLAY mode, i.e. transporting media from server to client.
The below text describes the behavior for PLAY mode. For any other
mode the behavior is not defined in this specification.
To obtain a session description, the client initially contacts the
server via a DESCRIBE message (according to RTSP, a media description
could also be obtained by other means e.g. using http). The initial
key management message from the RTSP server is sent to the client in
the SDP of the 200 OK in response to the DESCRIBE. Note that only one
key management protocol SHALL be used per session / media level. A
server MAY allow the SDP with key-management attribute(s) to be
distributed to the client though other means than RTSP.
The "uri" parameter of the KeyMgmt header is used to indicate for the
key management protocol on what context the carried message applies.
For key management messages on the SDP session level, the answer MUST
contain the RTSP aggregated control URL to indicate this. For Key
management messages initially on SDP media level, the key management
response message in the KeyMgmt header MAY use the RTSP media level
URL. For RTSP sessions not using aggregated control, i.e. no session
level control URI is defined, the key management protocol SHALL only
be invoked on individual media streams. In this case also, the key
management response SHALL be on individual media streams (i.e. one
RTSP key management header per media).
When responding to the initial key management message, the client
uses the new RTSP header (KeyMgmt) to send back an answer. How this
is done depends on the usage context.
* Key management protocol responses for the initial establishment of
security parameters for an aggregated RTSP session SHALL be sent
in the first SETUP of the session. This means that if the key
management is declared for the whole session but is setup in non-
aggregated fashion, i.e. one media per RTSP session, each SETUP
MUST carry the same response for the session level context. When
performing a setup of the second or any subsequent media in a RTSP
session the same key management parameters as established for the
first media also applies to these setups.
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* Key management responses for the initial establishment of security
parameters for an individual media SHALL only be included in SETUP
for the corresponding media stream.
If a server receives a SETUP message in which it expects a key
management message, but none is included, a 403 Forbidden SHOULD be
returned to the client, whereby the current setup MUST be aborted.
When the server creates an initial SDP message, the procedure SHALL
be the same as described in Section 3.1.1.
The client processing of the initial SDP message from the server
SHALL follow the same procedures as described in Section 3.1.1,
except that, if there is an error, the session is aborted (no error
is sent back).
The client SHALL create the response, using the key management header
in RTSP, as follows:
* The identifier of the key management protocol used (e.g. MIKEY)
MUST be placed in the "prot" field of the header. The prot values
are maintained by IANA (Section 8).
* The keymgmt-data field MUST be created as follows. The key
management protocol MUST be used to create the key management
message. This message SHALL be base64 encoded by the RTSP
application and then encapsulated in the "data" field of the
header. The semantic of the encapsulated message is dependent on
the key management protocol that is used.
* Include if necessary the URL to indicate the context in the "uri"
parameter.
The server SHALL process a received key management header in RTSP as
follow:
* The key management protocol is identified according to the "prot"
field.
* The key management data from the "data" field MUST be extracted,
base64 decoded to reconstruct the original message, and then
passed to the key management protocol for processing.
* If the key management protocol is successful, the processing can
proceed according to normal rules.
* Otherwise, if the key management fails (e.g. due to authentication
failure or parameter not supported), an error is sent back as the
SETUP response using RTSP error code 463 (see Section 2.2) and the
session is aborted. It is up to the key management protocol to
specify (within the RTSP status code message or through key
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management messages) details about the type of error that
occurred.
Re-keying within RTSP is for further study, given that media updating
mechanisms within RTSP are unspecified at the time this document is
written.
4. Example scenarios
The following examples utilizes MIKEY [MIKEY] as key management
protocol to be integrated into SDP and RTSP (see Section 5.1.).
Example 1 (SIP/SDP)
A SIP call is taking place between Alice and Bob. Alice sends an
Invite message consisting of the following offer:
v=0
o=alice 2891092738 2891092738 IN IP4 w-land.example.com
s=Cool stuff
e=alice@w-land.example.com
t=0 0
c=IN IP4 w-land.example.com
a=key-mgmt:mikey uiSDF9sdhs727ghsd/dhsoKkdOokdo7eWsnDSJD...
m=audio 49000 RTP/SAVP 98
a=rtpmap:98 AMR/8000
m=video 52230 RTP/SAVP 31
a=rtpmap:31 H261/90000
i.e. Alice proposes to set up one audio stream and one video stream
that run over SRTP (signaled by the use of the SAVP profile). She
uses MIKEY to set up the security parameters for SRTP (Section 6).
The MIKEY message contains the security parameters, together with the
necessary key material. Note that MIKEY is exchanging the crypto
suite for both streams, as it is placed at the session level. Also,
MIKEY provides its own security, i.e. when Bob processes Alice's
MIKEY message, he will also find the signaling of the security
parameters used to secure the MIKEY exchange. Alice's authentication
information is also carried within the MIKEY message, to prove that
the message is authentic.
Upon receiving the offer, Bob checks the validity of the received
MIKEY message, and, in case of successful verification, he accepts
the offer and sends an answer back to Alice (with his authentication
information, and, if necessary, also some key material from his
side):
v=0
o=bob 2891092897 2891092897 IN IP4 foo.example.com
s=Cool stuff
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e=bob@foo.example.com
t=0 0
c=IN IP4 foo.example.com
a=key-mgmt:mikey skaoqDeMkdwRW278HjKVB...
m=audio 49030 RTP/SAVP 98
a=rtpmap:98 AMR/8000
m=video 52230 RTP/SAVP 31
a=rtpmap:31 H261/90000
Upon receiving the answer, Alice verifies the correctness of it. In
case of success, at this point Alice and Bob share the security
parameters and the keys needed for a secure RTP communication.
Example 2 (SDP)
This example shows how Alice would have done if she wished to protect
only the audio stream. She would have placed the MIKEY line at media
level for the audio stream only (also specifying the use of the SRTP
profile there, SAVP). The semantic of the MIKEY messages is as in the
previous case, but applies only to the audio stream.
v=0
o=alice 2891092738 2891092738 IN IP4 w-land.example.com
s=Cool stuff
e=alice@w-land.example.com
t=0 0
c=IN IP4 w-land.example.com
m=audio 49000 RTP/SAVP 98
a=rtpmap:98 AMR/8000
a=key-mgmt:mikey uiSDF9sdhs727ghsd/dhsoKkdOokdo7eWsnDSJD...
m=video 52230 RTP/AVP 31
a=rtpmap:31 H261/90000
Bob would then act as described in the previous example, including
the MIKEY answer at the media level for the audio stream (as Alice
did).
Note that even if the key management attribute were specified at
session level, the video part would not be affected by this (as a
security profile is not used, instead the RTP/AVP profile is
signaled).
Example 3 (RTSP)
A client wants to set up a streaming session and requests a media
description from the streaming server.
DESCRIBE rtsp://server.example.com/fizzle/foo RTSP/1.0
CSeq: 312
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Accept: application/sdp
From: user@example.com
The server sends back an OK message including an SDP description,
together with the MIKEY message. The MIKEY message contains the
necessary security parameters that the server is willing of offering
to the client, together with authentication information (to prove
that the message is authentic) and the key material. The SAVP profile
also signals the use of SRTP for securing the media sessions.
RTSP/1.0 200 OK
CSeq: 312
Date: 23 Jan 1997 15:35:06 GMT
Content-Type: application/sdp
Content-Length: 478
v=0
o=actionmovie 2891092738 2891092738 IN IP4 movie.example.com
s=Action Movie
e=action@movie.example.com
t=0 0
c=IN IP4 movie.example.com
a=control:rtsp://movie.example.com/action
a=key-mgmt:mikey uiSDF9sdhs727ghsd/dhsoKkdOokdo7eWsnDSJD..
m=audio 0 RTP/SAVP 98
a=rtpmap:98 AMR/8000
a=control:rtsp://movie.example.com/action/audio
m=video 0 RTP/SAVP 31
a=rtpmap:31 H261/90000
a=control:rtsp://movie.example.com/action/video
The client checks the validity of the received MIKEY message, and, in
case of successful verification, it accept the message. The client
then includes its key management data in the SETUP request going back
to the server, the client authentication information (to prove that
the message is authentic) and, if necessary, some key material.
SETUP rtsp://movie.example.com/action/audio RTSP/1.0
CSeq: 313
Transport: RTP/SAVP/UDP;unicast;client_port=3056-3057
keymgmt: prot=mikey; uri="rtsp://movie.example.com/action";
data="skaoqDeMkdwRW278HjKVB..."
The server processes the request including checking the validity of
the key management header.
RTSP/1.0 200 OK
CSeq: 313
Session: 12345678
Transport: RTP/SAVP/UDP;unicast;client_port=3056-3057;
server_port=5000-5001
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Note than in this case the key management line was specified at the
session level, the key management information only goes into the
SETUP related to the first stream. The "uri" indicates to the server
that the context is for the whole aggregated session the key
management applies. The RTSP client then proceeds setting up the
second media (video) in aggregation with the audio. As the two media
are run in aggregation and the key context was established in the
first exchange, no more key management messages are needed.
Example 4 (RTSP)
The use of the MIKEY message at the media level would change the
previous example as follows.
The 200 OK would contain the two distinct SDP attributes for MIKEY at
the media level:
RTSP/1.0 200 OK
CSeq: 312
Date: 23 Jan 1997 15:35:06 GMT
Content-Type: application/sdp
Content-Length: 561
v=0
o=actionmovie 2891092738 2891092738 IN IP4 movie.example.com
s=Action Movie
e=action@movie.example.com
t=0 0
c=IN IP4 movie.example.com
a=control:rtsp://movie.example.com/action
m=audio 0 RTP/SAVP 98
a=rtpmap:98 AMR/8000
a=key-mgmt:mikey uiSDF9sdhs727ghsd/dhsoKkdOokdo7eWsnDSJD..
a=control:rtsp://movie.example.com/action/audio
m=video 0 RTP/SAVP 31
a=rtpmap:31 H261/90000
a=key-mgmt:mikey dhsoKkdOokdo7eWsnDSJDuiSDF9sdhs727ghsd/..
a=control:rtsp://movie.example.com/action/video
Each RTSP header are inserted in the SETUP related to the audio and
video separately:
SETUP rtsp://movie.example.com/action/audio RTSP/1.0
CSeq: 313
Transport: RTP/SAVP/UDP;unicast;client_port=3056-3057
keymgmt: prot=mikey; uri="rtsp://movie.example.com/action/audio";
data="skaoqDeMkdwRW278HjKVB..."
and similarly for the video session:
SETUP rtsp://movie.example.com/action/video RTSP/1.0
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CSeq: 315
Transport: RTP/SAVP/UDP;unicast;client_port=3058-3059
keymgmt: prot=mikey; uri="rtsp://movie.example.com/action/video";
data="RW278HjKVBskaoqDeMkdw..."
Note: The "uri" parameter could be excluded from the two SETUP
messages in this example.
5. Adding further Key management protocols
This framework cannot be used with all key management protocols. The
key management protocol needs to comply with the requirements
described in Section 3. In addition to this, the following needs to
be defined:
* The key management protocol identifier to be used as the protocol
identifier should be registered at IANA according to Section 8.
* The information that the key management needs from SDP and RTSP,
and vice versa, as described in Section 3. The exact API is
implementation specific, but it SHOULD at least support the
exchange of the specified information.
* The key management protocol to be added MUST be such, that the
processing in Section 3 (describing its interactions with SDP and
RTSP) can be applied. Note in particular, Section 3.1.4 requires
each key management protocol to specify how the list of protocol
identifiers is authenticated inside that key management protocol.
The key management MUST always be given the protocol identifier(s)
of the key management protocol(s) included in the offer in the
correct order as they appear.
Finally, it is obviously crucial to analyze possible security
implications induced by the introduction of a new key management
protocol in the described framework.
Today, the MIKEY protocol [MIKEY] has adopted the key management
extensions to work together with SIP and RTSP (see Section 6). Other
protocols MAY use the described attribute and header, e.g. Kerberos
[KERB], however this is subject to future standardization.
6. Integration of MIKEY
[MIKEY] describes a key management protocol for real-time
applications (both for peer-to-peer communication and group
communication). MIKEY can be integrated within SDP and RTSP,
following the rules and guidelines described in this document.
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MIKEY satisfies the requirements described in Section 3. The MIKEY
message is formed as defined in [MIKEY], then passed from MIKEY to
the SDP application that base64 encodes it, and encapsulates it in
the keymgmt-data attribute. The examples in Section 4 use MIKEY,
where the semantic of the exchange is also briefly explained.
The key management protocol identifier (KMID) to be used as the
protocol identifier SHALL be "mikey" and is registered at IANA, see
in detail Section 8.
The information that the key management needs from SDP and RTSP, and
vice versa, follows Section 3. To avoid bidding-down attacks, the
directives in Section 3.1.4 are followed. The list of protocol
identifiers is authenticated within MIKEY by placing such list in a
General Extension Payload (of type "SDP IDs", [MIKEY]), which then
automatically will be integrity protected/signed. The receiver SHALL
then match the list in the General Extension Payload with the list
included in SDP and SHOULD (according to policy) if they differ, or
if integrity/signature verification fails, reject the offer.
To signal the MIKEY identity of the client to the server in the
DESCRIBE, it is RECOMMENDED to include the From header field in RTSP.
6.1 MIKEY Interface
This subsection describes some aspects, which implementers SHOULD
consider. If the MIKEY implementation is separate from the
SDP/SIP/RTSP, an application programming interface (API) between
MIKEY and those protocols is needed with certain functionality
(however, exactly what it looks like is implementation dependent).
Implementers of MIKEY are RECOMMENDED to consider providing at least
the following functionality:
* the possibility for MIKEY to receive information about the sessions
negotiated. This is to some extent implementation dependent. But
it is RECOMMENDED that, in the case of SRTP streams, the number of
SRTP streams is included (and the direction of these). It is also
RECOMMENDED to provide the destination addresses and ports to
MIKEY. When referring to streams described in SDP, MIKEY allocated
two consecutive numbers for the related Crypto Session indexes (as
each stream can be bi-directional). An example: if the SDP
contains two m lines (specifying whatever direction of the
streams), and MIKEY is at the session level, then MIKEY allocates
e.g. the CS IDs '1' and '2' for the first m line, and '3' and '4'
for the second m line.
* the possibility for MIKEY to receive incoming MIKEY messages and
return a status code from/to the SIP/RTSP application.
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* the possibility for the SIP or RTSP applications to receive
information from MIKEY. This would typically include the receiving
of the CSB ID (to later be able to identify the active MIKEY
session), and the SSRCs and the ROC for SRTP usage. It is also
RECOMMENDED that extra information about errors can be received.
* the possibility for the SIP or RTSP application to receive outgoing
MIKEY messages.
* the possibility to tear down a MIKEY CSB (e.g. if the SIP session
is closed, the CSB SHOULD also be closed).
7. Security Considerations
The framework for transfer of key management data as described here
is intended to provide the security parameters for the end-to-end
protection of the media session. It is furthermore good practice to
secure the session setup (e.g. SDP, SIP, RTSP, SAP). However, it
might be that the security of the session setup is not possible to
achieve end-to-end, but only hop-by-hop. For example, SIP requires
intermediate proxies to have access to part of the SIP message, and
sometimes also to the SDP description (c.f. [E2M]). General security
considerations for the session setup can be found in SDP [SDPnew],
SIP [SIP], and RTSP [RTSP]. The framework defined in this memo is
useful when the session setup is not protected in an end-to-end
fashion, but the media streams needs to be end-to-end protected,
hence the security parameters such as keys are not wanted revealed to
intermediaries.
The security will also depend on the encapsulated level of security
the key management protocol offers. It follows that, under the
assumption that the key management schemes are secure, the SDP can be
passed along unprotected without affecting the key management as
such, and the media streams will still be secure even if some
attackers gained knowledge of the SDP contents. Further security
considerations can be found for each key management protocol (for
MIKEY these can be found in [MIKEY]).
However, if the SDP messages are not sent authenticated between the
parties, it is possible for an active attacker to change attributes
without being detected. As the key management protocol may
(indirectly) rely on some of the session information from SDP (e.g.,
address information), an attack on SDP may have indirect consequences
on the key management. Even if the key management protocol does not
rely on parameters of SDP and will not be affected by manipulation of
these, different DoS attacks aimed at SDP may lead to undesired
interruption in the setup.
The use of multiple key management protocols in the same offer may
open up the possibility of a bidding-down attack, as specified in
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Section 3.1.4. To exclude such possibility, the authentication of the
protocol identifier list is used. Note though, that the security
level of the authenticated protocol identifier will be as high (or
low), as the "weakest" protocol. Therefore, it is discouraged to
offer protocols with too different security levels.
Note that it is impossible to assure the authenticity of a declined
offer, since even if it comes from the true respondent, the fact that
the answerer declines the offer usually means that he does not
support the protocol(s) offered, and consequently cannot be expected
to authenticate the response either. This means that if the Initiator
is unsure of which protocol(s) the Responder supports, we RECOMMEND
that the Initiator offers all acceptable protocols in a single offer.
If not, this opens up the possibility for a "man-in-the-middle"
(MITM) to affect the outcome of the eventually agreed upon protocol,
by faking unauthenticated error messages until the Initiator
eventually offers a protocol "to the liking" of the MITM. This is not
really a security problem, but rather a mild form of denial of
service that can be avoided by following the above recommendation. In
the case that the response declines any security (therefore there is
impossibility of authenticating it), the session setup SHALL be
aborted.
8. IANA Considerations
8.1. SDP Attribute Registration
A new SDP attribute needs to be registered for the purpose of key
management protocol integration with SDP.
Contact: Fredrik Lindholm
mailto: fredrik.lindholm@ericsson.com
tel: +46 8 58531705
SDP Attribute Field ("att-field"):
Name: key-mgmt-att-field
Long form: key management protocol attribute field
Type of name: att-field
Type of attribute: Media and session level
Purpose: See RFC xxxx, Section 2.
Reference: RFC xxxx, Section 2.1
Values: See RFC xxxx, Section 2.1 and 8.3.
8.2. RTSP Registration
A new RTSP Header needs to be registered for the purpose of key
management protocol integration with RTSP.
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Following the guidelines of [RTSP], the registration is defined as
follows:
Header name: keymgmt
Header syntax: see RFC xxxx, Section 2.2
Intended usage: see RFC xxxx, Section 2.2
Proxy treatment: Proxies SHALL NOT add, change, or delete the
header. The proxy does not need to read this
header.
Purpose: see RFC xxxx, Section 2
The RTSP Status-Code "463" [RFC xxxx], with the default string "Key
management failure", needs to be registered.
8.3. Protocol Identifier Registration
This document defines one new name space, the "SDP/RTSP key
management protocol identifier", associated with the protocol
identifier, KMID, defined in Section 2 to be used with the above
registered attributes in SDP and RTSP.
A new registry needs to be set up for the KMID parameter, with the
following registration created initially: "mikey".
Contact: Fredrik Lindholm
mailto: fredrik.lindholm@ericsson.com
tel: +46 8 58531705
Value name: mikey
Long name: Multimedia Internet KEYing
Purpose: Usage of MIKEY with the key-mgmt-att-field
attribute and the keymgmt RTSP header
Reference: Section 7 in RFC yyyy
Note that this registration will imply that the protocol identifier,
KMID, name space will be shared between SDP and RTSP.
Further values may be registered according to the "Specification
Required" policy as defined in [RFC2434]. Each new registration needs
to indicate the parameter name, and register it within IANA. Note
that the parameter name is case sensitive and it is RECOMMENDED that
the name to be in lower case letters. For each new registration, it
is mandatory that a permanent, stable, and publicly accessible
document exists that specifies the semantics of the registered
parameter and the requested details of interaction between the key
management protocol and SDP, as specified in RFC xxxx.
The registration itself of new values should be sent to IANA.
Registrations SHALL include the following information:
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* Contact: the contact name and email address
* Value name: the name of the value being registered (which MUST
comply with the KMID as defined in Section 2)
* Long Name: long-form name in English
* Purpose: short explanation of the purpose of the registered name.
* Reference: a reference to the specification (e.g. RFC number)
providing the usage guidelines in accordance to Section 5 (and
also complying to the specified requirements).
9. Acknowledgments
The authors would like to thank Joerg Ott, Rolf Blom, Magnus Brolin,
Johan Bilien, Jon-Olov Vatn, and Erik Eliasson. A special thanks to
Colin Perkins and Magnus Westerlund, who contributed in many
sections.
10. Author's Addresses
Jari Arkko
Ericsson
02420 Jorvas Phone: +358 40 5079256
Finland Email: jari.arkko@ericsson.com
Elisabetta Carrara
Ericsson Research
SE-16480 Stockholm Phone: +46 8 50877040
Sweden EMail: elisabetta.carrara@ericsson.com
Fredrik Lindholm
Ericsson Research
SE-16480 Stockholm Phone: +46 8 58531705
Sweden EMail: fredrik.lindholm@ericsson.com
Mats Naslund
Ericsson Research
SE-16480 Stockholm Phone: +46 8 58533739
Sweden EMail: mats.naslund@ericsson.com
Karl Norrman
Ericsson Research
SE-16480 Stockholm Phone: +46 8 4044502
Sweden EMail: karl.norrman@ericsson.com
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11. References
11.1. Normative References
[MIKEY] Arkko, J., Carrara, E., Lindholm, F., Naslund, M., and
Norrman, K., "MIKEY: Multimedia Internet KEYing", IETF, RFC yyyy,
[Internet Draft, <draft-ietf-msec-mikey-08.txt> ].
[OAM] Rosenberg, J. and Schulzrinne, H., "An Offer/Answer Model with
the Session Description Protocol (SDP)", IETF, RFC 3264.
[RTSP] Schulzrinne, H., Rao, A., and Lanphier, R., "Real Time
Streaming Protocol (RTSP)", IETF, RFC 2326.
[RFC2119] Bradner, S. "Key words for use in RFCs to Indicate
Requirement Levels", IETF, RFC 2119.
[SDPnew] Handley, M., Jacobson, V., and Perkins, C., "SDP: Session
Description Protocol", Internet Draft, IETF, draft-ietf-mmusic-sdp-
new-15.txt.
[SIP] Handley, M., Schulzrinne, H., Schooler, E., and Rosenberg, J.,
"SIP: Session Initiation Protocol", IETF, RFC 3261.
[RFC2234] Crocker, D. and Overell, P., "Augmented BNF for Syntax
Specifications: ABNF", RFC 2234, November 1997.
[RFC2434] Narten, T. and Alvestrand, H., "Guidelines for Writing an
IANA Considerations Section in RFCs", IETF, RFC 2434.
[RFC3548] Josefsson, S., "The Base16, Base32, and Base64 Data
Encodings", IETF, RFC 3548.
11.2. Informative References
[E2M] Ono, K. and Tachimoto, S., "End-to-middle security in the
Session Initiation Protocol (SIP)", Internet Draft, IETF, draft-ono-
sipping-end2middle-security-00.
[KERB] Kohl, J., Neuman, C., "The Kerberos Network Authentication
Service (V5)", IETF, RFC 1510.
[SRTP] Baugher, M., Blom, R., Carrara, E., McGrew, D., Naslund, M,
Norrman, K., and Oran, D., "The Secure Real Time Transport Protocol",
Internet Draft, IETF, <draft-ietf-avt-srtp-09.txt>.
IPR Notices
The IETF takes no position regarding the validity or scope of any
intellectual property or other rights that might be claimed to
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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 the
IETF's procedures with respect to rights in standards-track and
standards-related documentation can be found in BCP-11. 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 implementors or users of this specification can
be obtained from the IETF Secretariat.
The IETF invites any interested party to bring to its attention any
copyrights, patents or patent applications, or other proprietary
rights which may cover technology that may be required to practice
this standard. Please address the information to the IETF Executive
Director.
Copyright Notice
Copyright (C) The Internet Society (2004). All Rights Reserved.
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 paragraph are
included on all such copies and derivative works. However, this
document itself may not be modified in any way, such as by removing
the copyright notice or references to the Internet Society or other
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The limited permissions granted above are perpetual and will not be
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This document and the information contained herein is provided on an
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HEREIN WILL NOT INFRINGE ANY RIGHTS OR ANY IMPLIED WARRANTIES OF
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This Internet-Draft expires in August 2004.
Arkko, et al. [Page 25]
