One document matched: draft-ietf-mmusic-file-transfer-mech-04.txt
Differences from draft-ietf-mmusic-file-transfer-mech-03.txt
MMUSIC Working Group M. Garcia-Martin
Internet-Draft Nokia Siemens Networks
Intended status: Standards Track M. Isomaki
Expires: April 26, 2008 Nokia
G. Camarillo
S. Loreto
Ericsson
October 24, 2007
A Session Description Protocol (SDP) Offer/Answer Mechanism to Enable
File Transfer
draft-ietf-mmusic-file-transfer-mech-04.txt
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Copyright Notice
Copyright (C) The IETF Trust (2007).
Abstract
This document provides a mechanism to negotiate the transfer of one
or more files between two endpoints by using the Session Description
Protocol (SDP) offer/answer model specified in RFC 3264. SDP is
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extended to describe the attributes of the files to be transferred.
The offerer can either describe the files it wants to send, or the
files it would like to receive. The answerer can either accept or
reject the offer separately for each individual file. The transfer
of one or more files is initiated after a successful negotiation.
The Message Session Relay Protocol (MSRP) is defined as the default
mechanism to actually carry the files between the endpoints. The
conventions on how to use MSRP for file transfer are also provided in
this document.
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Table of Contents
1. Introduction . . . . . . . . . . . . . . . . . . . . . . . . . 4
1.1. Alternatives Considered . . . . . . . . . . . . . . . . . 5
2. Terminology . . . . . . . . . . . . . . . . . . . . . . . . . 6
3. Definitions . . . . . . . . . . . . . . . . . . . . . . . . . 6
4. Overview of Operation . . . . . . . . . . . . . . . . . . . . 7
5. File selector . . . . . . . . . . . . . . . . . . . . . . . . 8
6. Extensions to SDP . . . . . . . . . . . . . . . . . . . . . . 9
7. File Disposition Types . . . . . . . . . . . . . . . . . . . . 15
8. Protocol Operation . . . . . . . . . . . . . . . . . . . . . . 15
8.1. Offerer's Behavior . . . . . . . . . . . . . . . . . . . . 16
8.1.1. The Offerer is a File Sender . . . . . . . . . . . . . 16
8.1.2. The Offerer is a File Receiver . . . . . . . . . . . . 17
8.1.3. SDP Offer for Several Files . . . . . . . . . . . . . 18
8.2. Answerer's Behavior . . . . . . . . . . . . . . . . . . . 18
8.2.1. The Answerer is a File Receiver . . . . . . . . . . . 18
8.2.2. The Answerer is a File Sender . . . . . . . . . . . . 19
8.3. The 'file-transfer-id' attribute . . . . . . . . . . . . . 20
8.4. Indicating File Transfer Offer/Answer Capability . . . . . 22
8.5. Re-usage of Existing m= Lines in SDP . . . . . . . . . . . 23
8.6. MSRP Usage . . . . . . . . . . . . . . . . . . . . . . . . 23
8.7. Considerations about the 'file-icon' attribute . . . . . . 24
9. Examples . . . . . . . . . . . . . . . . . . . . . . . . . . . 25
9.1. Offerer sends a file to the Answerer . . . . . . . . . . . 25
9.2. Offerer requests a file from the Answerer and second
file transfer . . . . . . . . . . . . . . . . . . . . . . 30
9.3. Example of a capability indication . . . . . . . . . . . . 37
10. Security Considerations . . . . . . . . . . . . . . . . . . . 38
11. IANA Considerations . . . . . . . . . . . . . . . . . . . . . 39
11.1. Registration of new SDP attributes . . . . . . . . . . . . 39
11.1.1. Registration of the file-selector attribute . . . . . 39
11.1.2. Registration of the file-transfer-id attribute . . . . 40
11.1.3. Registration of the file-disposition attribute . . . . 40
11.1.4. Registration of the file-date attribute . . . . . . . 40
11.1.5. Registration of the file-icon attribute . . . . . . . 41
11.1.6. Registration of the file-range attribute . . . . . . . 41
12. Acknowledgements . . . . . . . . . . . . . . . . . . . . . . . 41
13. References . . . . . . . . . . . . . . . . . . . . . . . . . . 41
13.1. Normative References . . . . . . . . . . . . . . . . . . . 41
13.2. Informational References . . . . . . . . . . . . . . . . . 42
Authors' Addresses . . . . . . . . . . . . . . . . . . . . . . . . 43
Intellectual Property and Copyright Statements . . . . . . . . . . 45
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1. Introduction
The Session Description Protocol (SDP) Offer/Answer [RFC3264]
provides a mechanism for two endpoints to arrive at a common view of
a multimedia session between them. These sessions often contain
real-time media streams such as voice and video, but are not limited
to that. Basically, any media component type can be supported, as
long as there is a specification how to negotiate it within the SDP
offer/answer exchange.
The Message Session Relay Protocol (MSRP) [RFC4975] is a protocol for
transmitting instant messages (IM) in the context of a session. The
protocol specification describes the usage of SDP for establishing a
MSRP sessions. In addition to plain text messages, MSRP is able to
carry arbitrary (binary) Multipurpose Internet Mail Extensions (MIME)
[RFC2045] compliant content, such as images or video clips.
There are many cases where the endpoints involved in a multimedia
session would like to exchange files within the context of that
session. With MSRP it is possible to embed files as MIME objects
inside the stream of instant messages. MSRP also has other features
that are useful for file transfer. Message chunking enables the
sharing of the same transport connection between the transfer of a
large file and interactive IM exchange without blocking the IM. MSRP
relays [RFC4976] provide a mechanism for Network Address Translator
(NAT) traversal. Finally, Secure MIME (S/MIME) [RFC3851] can be used
for ensuring the integrity and confidentiality of the transferred
content.
However, the baseline MSRP does not readily meet all the requirements
for file transfer services within multimedia sessions. There are
four main missing features:
o The recipient must be able to distinguish "file transfer" from
"file attached to IM", allowing the recipient to treat the cases
differently.
o It must be possible for the sender to send the request for a file
transfer. It must be possible for the recipient to accept or
decline it, using the meta information in the request. The actual
transfer must take place only after acceptance by the recipient.
o It must be possible for the sender to pass some meta information
on the file before the actual transfer. This must be able to
include at least content type, size, hash and name of the file, as
well as a short (human readable) description.
o It must be possible for the recipient to request a file from the
sender, providing meta information about the file. The sender
must be able to decide whether to send a file matching the
request.
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The rest of this document is organized as follows. Section 3 defines
a few terms used in this document. Section 4 provides the overview
of operation. Section 5 introduces the concept of the file selector.
The detailed syntax and semantics of the new SDP attributes and
conventions on how the existing ones are used is defined in
Section 6. Section 7 discusses the file disposition types.
Section 8 describes the protocol operation involving SDP and MSRP.
Finally, some examples are given in Section 9.
1.1. Alternatives Considered
The requirements are related to the description and negotiation of
the session, not to the actual file transfer mechanism. Thus, it is
natural that in order to meet them it is enough to define attribute
extensions and usage conventions to SDP, while MSRP itself needs no
extensions and can be used as it is. This is effectively the
approach taken in this specification. Another goal has been to
specify the SDP extensions in such a way that a regular MSRP endpoint
which does not support them could still in some cases act as an
endpoint in a file transfer session, albeit with a somewhat reduced
functionality.
In some ways the aim of this specification is similar to the aim of
content indirection mechanism in the Session Initiation Protocol
(SIP) [RFC4483]. Both mechanisms allow a user agent to decide
whether or not to download a file based on information about the
file. However, there are some differences. With content
indirection, it is not possible for the other endpoint to explicitly
accept or reject the file transfer. Also, it is not possible for an
endpoint to request a file from another endpoint. Furthermore,
content indirection is not tied to the context of a media session,
which is sometimes a desirable property. Finally, content
indirection typically requires some server infrastructure, which may
not always be available. It is possible to use content indirection
directly between the endpoints too, but in that case there is no
definition for how it works for endpoints behind NATs. The level of
requirements in implementations decides which solution meets the
requirements.
Based on the argumentation above, this document defines the SDP
attribute extensions and usage conventions needed for meeting the
requirements on file transfer services with the SDP offer/answer
model, using MSRP as the transfer protocol within the session.
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In principle it is possible to use the SDP extensions defined here
and replace MSRP with any other similar protocol that can carry
MIME objects. This kind of specification can be written as a
separate document if the need arises. Essentially, such protocol
should be able to be negotiated on an SDP offer/answer exchange
(RFC 3264 [RFC3264]), be able to carry MIME objects between two
endpoints, and use a reliable transport protocol (e.g., TCP).
This specification defines a set of SDP attributes that describe a
file to be transferred between two endpoints. The information needed
to describe a file could be potentially encoded in a few different
ways. The MMUSIC working group considered a few alternative
approaches before deciding to use the encoding described in
Section 6. In particular, the working group looked at the MIME
'external-body' type and the use of a single SDP attribute or
parameter.
A MIME 'external-body' could potentially be used to describe the file
to be transferred. In fact, many of the SDP parameters this
specification defines are also supported by 'external-body' body
parts. The MMUSIC working group decided not to use 'external-body'
body parts because a number of existing offer/answer implementations
do not support multipart bodies.
The information carried in the SDP attributes defined in Section 6
could potentially be encoded in a single SDP attribute. The MMUSIC
working group decided not to follow this approach because it is
expected that implementations support only a subset of the parameters
defined in Section 6. Those implementations will be able to use
regular SDP rules in order to ignore non-supported SDP parameters.
If all the information was encoded in a single SDP attribute, those
rules, which relate to backwards compatibility, would need to be
redefined specifically for that parameter.
2. Terminology
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 BCP 14, RFC 2119
[RFC2119].
3. Definitions
For the purpose of this document, the following definitions specified
in RFC 3264 [RFC3264] apply:
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o Answer
o Answerer
o Offer
o Offerer
Additionally, we define the following terms:
File sender: The endpoint that is willing to send a file to the
file receiver.
File receiver: The endpoint that is willing to receive a file from
the file sender.
File selector: A tuple of file attributes that the SDP offerer
includes in the SDP in order to select a file at the SDP answerer.
This is described in more detail in Section 5.
Push operation: A file transfer operation where the SDP offerer
takes the role of the file sender and the SDP answerer takes role
of the file receiver.
Pull operation: A file transfer operation where the SDP offerer
takes the role of the file receiver and the SDP answerer takes the
role of the file sender.
4. Overview of Operation
An SDP offerer creates an SDP body that contains the description of
one or more files that the offerer wants to send or receive. The
offerer sends the SDP offer to the remote endpoint. The SDP answerer
can accept or reject the transfer of each of those files.
The actual file transfer is carried out using the Message Session
Relay Protocol (MSRP) [RFC4975]. Each SDP "m=" line describes an
MSRP media stream used to transfer a single file at a time. That is,
the transfer of multiple simultaneous files requires multiple "m="
lines and corresponding MSRP media streams. It should be noted that
multiple MSRP media streams can share a single transport layer
connection, so this mechanism will not lead to excessive use of
transport resources.
Each "m=" line for an MSRP media stream is accompanied with a few
attributes describing the file to be transferred. If the file sender
generates the SDP offer, the attributes describe a local file to be
sent (push), and the file receiver can use this information to either
accept or reject the transfer. However, if the SDP offer is
generated by the file receiver, the attributes are intended to
characterize a particular file that the file receiver is willing to
get (pull) from the file sender. It is possible that the file sender
does not have a matching file or does not want to send the file, in
which case the offer is rejected.
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The attributes describing each file are provided in SDP by a set of
new SDP attributes, most of which have been directly borrowed from
MIME. This way, user agents can decide whether or not to accept a
given file transfer based on the file's name, size, description,
hash, icon (e.g., if the file is a picture), etc.
SDP direction attributes (e.g., 'sendonly', 'recvonly') are used to
indicate the direction of the transfer, i.e., whether the SDP offerer
is willing to send of receive the file. Assuming that the answerer
accepts the file transfer, the actual transfer of the files takes
place with ordinary MSRP. Note that the 'sendonly' and 'recvonly'
attributes refer to the direction of MSRP SEND requests and do not
preclude other protocol elements (such as 200 responses, REPORT
requests, etc.).
In principle the file transfer can work even with an endpoint
supporting only regular MSRP without understanding the extensions
defined herein, in a special case where that endpoint is the
recipient of the file. The regular MSRP endpoint answers the
offer as it would answer any ordinary MSRP offer without paying
attention to the extension attributes. In such a scenario the
user experience would however be reduced, as the recipient would
not know (by any protocol means) the reason for the session and
would not be able to accept/reject it based on the file
attributes.
5. File selector
Specially in case the SDP offer is generated by the file receiver,
the offer needs a mechanism to unambiguously identify the requested
file. For this purpose, the file transfer mechanism introduces the
notion of a file selector, which is defined as the combination of the
4-tuple composed of the name, size, type, and hash of the file. We
call each of these individual items a selector. The file selector
can be composed of any number of selectors, so, it does not require
that all four selectors are present at the same time.
The purpose of the file selector is to provide enough information
that characterizes a file to the remote entity, so that both the
local and the remote entity can refer to the same file. The file
selector is encoded in a 'file-selector' media attribute in SDP. The
formal syntax of the 'file-selector' media attribute is described in
Figure 1.
The file selection process is applied to all the available files at
the host. The process selects those file that match each of the
4-tuple selectors present in the 'file-selector' attribute. Thus, a
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file selector can point to zero, one, or more files, depending on the
presence of the mentioned selectors in the SDP and depending on the
available files in a host. The file transfer mechanism specified in
this document requires that a file selector eventually results at
most in a single file to be chosen. Typically, if the hash selector
is known, it is enough to produce a file selector that points to
exactly zero or one file. However, a file selector that selects a
unique file is not always known by the offerer. Sometimes only the
name, size or type of file are known, so the file selector may result
in selecting more than one file, which is an undesired case. The
opposite is also true: if the file selector contains a hash selector
and a name selector, there is a risk that the remote host has renamed
the file, in which case, although a file whose computed hash equals
the hash selector exists, the file name does not match that of the
name selector, thus, the file selection process will result in the
selection of zero files.
This specification uses the Secure Hash Algorithm 1, SHA-1 [RFC3174].
If future needs require adding support for different hashing
algorithms, they will be specified as extensions to this document.
Implementations according to this specification MUST implement the
'file-selector' attribute and MAY implement any of the other
attributes specified in this specification. SDP offers and answers
for file transfer MUST contain a 'file-selector' media attribute that
selects the file to be transferred and MAY contain any of the other
attributes specified in this specification.
The 'file-selector' media attribute is also useful when learning the
support of the file transfer offer/answer capability that this
document specifies. This is further explained in Section 8.4.
6. Extensions to SDP
We define a number of new SDP [RFC4566] attributes that provide the
required information to describe the transfer of a file with MSRP.
These are all media level only attributes in SDP. The following is
the formal ABNF syntax [RFC4234] of these new attributes. It is
built above the SDP [RFC4566] grammar, RFC 2045 [RFC2045], RFC 2183
[RFC2183], RFC 2392 [RFC2392], and RFC 2822 [RFC2822].
attribute = file-selector-attr / file-disp-attr /
file-tr-id-attr / file-date-attr /
file-icon-attr / file-range-attr
;attribute is defined in RFC 4566
file-selector-attr = "file-selector" [":" selector *(SP selector)]
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selector = filename-selector / filesize-selector /
filetype-selector / hash-selector
filename-selector = "name:" DQUOTE filename-string DQUOTE
; DQUOTE defined in RFC 4234
filename-string = 1*(filename-char/percent-encoded)
filename-char = %x01-09/%x0B-0C/%x0E-21/%x23-24/%26-FF)
;any byte except NUL, CR, LF,
;double quotes, or percent
percent-encoded = "%" HEXDIG HEXDIG
; HEXDIG defined in RFC 4234
filesize-selector = "size:" filesize-value
filesize-value = integer ;integer defined in RFC 4566
filetype-selector = "type:" type "/" subtype *(";"parameter)
; parameter defined in RFC 2045
type = token ; token defined in RFC 4566
subtype = token
hash-selector = "hash:" hash-algorithm ":" hash-value
hash-algorithm = token ;see IANA Hash Function
;Textual Names registry
;only "sha-1" currently supported
hash-value = 2HEXDIG *(":" 2HEXDIG)
; Each byte in upper-case hex, separated
; by colons.
; HEXDIG defined in RFC 4234
file-tr-id-attr = "file-transfer-id:" file-transfer-id-value
file-transfer-value = token
file-disp-attr = "file-disposition:" file-disp-value
file-disp-value = token
file-date-attr = "file-date:" date-param *(SP date-param)
date-param = c-date-param / m-date-param / r-date-param
c-date-param = "creation:" DQUOTE date-time DQUOTE
m-date-param = "modification:" DQUOTE date-time DQUOTE
r-date-param = "read:" DQUOTE date-time DQUOTE
; date-time is defined in RFC 2822
; numeric timezones (+HHMM or -HHMM)
; must be used
; DQUOTE defined in RFC 4234 files.
file-icon-attr = "file-icon:" file-icon-value
file-icon-value = cid-url ;cid-url defined in RFC 2392
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file-range-attr = "file-range:" start-range "-" end-range
start-range = integer ;integer defined in RFC 4566
end-range = integer / "*"
Figure 1: Syntax of the SDP extension
When used for capability query (see Section 8.4), the 'file-selector'
attribute MUST NOT contain any selector, because its presence merely
indicates compliance to this specification.
When used in an SDP offer or answer, the 'file-selector' attribute
MUST contain at least one selector. Selectors characterize the file
to be transferred. There are four selectors in this attribute:
'name', 'size', 'type', and 'hash'.
The 'name' selector in the 'file-selector' attribute contains the
filename of the content enclosed in double quotes. The filename is
encoded in UTF-8 [RFC3629]. Its value SHOULD be the same as the
'filename' parameter of the Content-Disposition header field
[RFC2183] that would be signaled by the actual file transfer. If a
file name contains double quotes or any other character that the
syntax does not allow in the 'name' selector, they MUST be percent-
encoded. The 'name' selector MUST not contain characters that can be
interpreted as directory structure by the local operating system. If
such characters are present in the file name, they MUST be percent-
encoded.
Note that the 'name' selector might still contain characters that,
although not meaningful for the local operating system, might
still be meaningful to the remote operating system (e.g., '\',
'/', ':'). Therefore, implementations are responsible for
sanitizing the input received from the remote endpoint before
doing a local operation in the local file system, such as the
creation of a local file. Among other things, implementations can
percent-encode characters that are meaningful to the local
operating system before doing file system local calls.
The 'size' selector in the 'file-selector' attribute indicates the
size of the file in octets. The value of this attribute SHOULD be
the same as the 'size' parameter of the Content-Disposition header
field [RFC2183] that would be signaled by the actual file transfer.
Note that the 'size' selector merely includes the file size, and does
not include any potential overhead added by a wrapper, such as
message/cpim [RFC3862].
The 'type' selector in the 'file-selector' attribute contains the
MIME media and submedia types of the content. In general, anything
that can be expressed in a Content-Type header field (see RFC 2045
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[RFC2045]) can also be expressed with the 'type' selectors. Possible
MIME Media Type values are the ones listed in the IANA registry for
MIME Media Types [1]. Zero or more parameters can follow. The
syntax of 'parameter' is specified in RFC 2045 [RFC2045] .
The 'hash' selector in the 'file-selector' attribute provides a hash
computation of the file to be transferred. This is commonly used by
file transfer protocols. For example, FLUTE
[I-D.ietf-rmt-flute-revised] uses hashes (called message digests) to
verify the contents of the transfer. The purpose of the 'hash'
selector is two-fold: On one side, in pull operations, it allows the
file receiver to identify a remote file by its hash rather than by
its file name, providing that the file receiver has learned the hash
of the remote file by some out-of-band mechanism. On the other side,
in either push or pull operations, it allows the file receiver to
verify the contents of the received file, or even avoid unnecessary
transmission of an existing file.
The address space of the SHA-1 algorithm is big enough to avoid
any collision in hash computations in between two endpoints. When
transferring files, the actual file transfer protocol should
provide reliable transmission of data, so verifications of
received files should always succeed. However, if endpoints need
to protect the integrity of a file, they should use some other
mechanism than the 'hash' selector specified in this memo.
The 'hash' selector includes the hash algorithm and its value.
Possible hash algorithms are those defined in the IANA registry of
Hash Function Textual Names [2]. Implementations according to this
specification MUST support the US Secure Hash Algorithm 1 (SHA1)
[RFC3174]. If need arises, extensions can be drafted to support
several hashing algorithms. Therefore, implementations according to
this specification MUST be prepared to receive SDP containing more
than a single 'hash' selector in the 'file-selector' attribute.
The value of the 'hash' selector is the byte string resulting of
applying the hash algorithm to the content of the whole file, even
when the file transfer is limited to a number of octets (i.e., the
'file-range' attribute is indicated).
The 'file-transfer-id' attribute provides a unique identification to
the actual file transfer. It is used to distinguish a new file
transfer request from a repetition of the SDP (or the fraction of the
SDP that deals with the file description). This attribute is
described in much greater detail in Section 8.3.
The 'file-disposition' attribute provides a suggestion to the other
endpoint about the intended disposition of the file. Section 7
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provides further discussion of the possible values. The value of
this attribute SHOULD be the same as the disposition type parameter
of the Content-Disposition header field [RFC2183] that would be
signaled by the actual file transfer protocol.
The 'file-date' attribute indicates the dates at which the file was
created, modified, or last read. This attribute MAY contain a
combination of the 'creation', 'modification', and 'read' parameters,
but MUST NOT contain more than one of each type .
The 'creation' parameter indicates the date at which the file was
created. The value MUST be a quoted string which contains a
representation of the creation date of the file in RFC 2822 [RFC2822]
'date-time' format. Numeric timezones (+HHMM or -HHMM) MUST be used.
The value of this parameter SHOULD be the same as the 'creation-date'
parameter of the Content-Disposition header field [RFC2183] that
would be signaled by the actual file transfer protocol.
The 'modification' parameter indicates the date at which the file was
last modified. The value MUST be a quoted string which contains a
representation of the last modification date to the file in RFC 2822
[RFC2822] 'date-time' format. Numeric timezones (+HHMM or -HHMM)
MUST be used. The value of this parameter SHOULD be the same as the
'modification-date' parameter of the Content-Disposition header field
[RFC2183] that would be signaled by the actual file transfer
protocol.
The 'read' parameter indicates the date at which the file was last
read. The value MUST be a quoted string which contains a
representation of the last date the file was read in RFC 2822
[RFC2822] 'date-time' format. Numeric timezones (+HHMM or -HHMM)
MUST be used. The value of this parameter SHOULD be the same as the
'read-date' parameter of the Content-Disposition header field
[RFC2183] that would be signaled by the actual file transfer
protocol.
The 'file-icon' attribute can be useful with certain file types such
as images. It allows the file sender to include a pointer to a body
that includes a small preview icon representing the contents of the
file to be transferred, which the file receiver can use to determine
whether it wants to receive such file. The 'file-icon' attribute
contains a Content-ID URL, which is specified in RFC 2392 [RFC2392].
Section 8.7 contains further considerations about the 'file-icon'
attribute.
The 'file-range' attribute provides a mechanism to signal a chunk of
a file rather than the complete file. This enable use cases where a
file transfer can be interrupted, resumed, even perhaps changing one
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of the endpoints. The 'file-range' attribute contains the start
range and end range of the file, separated by a dash "-". The start
range value refers to the position of the file where the file
transfer should start. The first byte of a file gets the ordinal
number "1". The end range value refers position of the file where
the file transfer should stop. The end range value MAY contain a "*"
if the total size of the file is not known in advance. The absence
of this attribute indicates a complete file, i.e., as if the 'file-
range' attribute would have been present with a value 1-*. The
'file-range' attribute must not be confused with the Byte-Range
header in MSRP. The former indicates the portion of a file that the
application would read and pass onto the MSRP stack for
transportation. From the point of view of MSRP, the portion of the
file is viewed as a whole message. The latter indicates the number
of bytes of that message that are carried in a chunk and the total
size of the message. Therefore, MSRP starts counting the delivered
message at byte number 1, independently of position of that byte in
the file.
The following is an example of an SDP body that contains the
extensions defined in this memo:
v=0
o=alice 2890844526 2890844526 IN IP4 host.atlanta.example.com
s=
c=IN IP4 host.atlanta.example.com
t=0 0
m=message 7654 TCP/MSRP *
i=This is my latest picture
a=sendonly
a=accept-types:message/cpim
a=accept-wrapped-types:*
a=path:msrp://atlanta.example.com:7654/jshA7we;tcp
a=file-selector:name:"My cool picture.jpg" type:image/jpeg
size:32349 hash:sha-1:
72:24:5F:E8:65:3D:DA:F3:71:36:2F:86:D4:71:91:3E:E4:A2:CE:2E
a=file-transfer-id:vBnG916bdberum2fFEABR1FR3ExZMUrd
a=file-disposition:attachment
a=file-date:creation:"Mon, 15 May 2006 15:01:31 +0300"
a=file-icon:cid:id2@alicepc.example.com
a=file-range:1-32349
Figure 2: Example of SDP describing a file transfer
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NOTE: The 'file-selector' attribute in the above figure is split
in three lines for formatting purposes. Real implementations will
encode it in a single line.
7. File Disposition Types
The SDP Offer/Answer for file transfer allows the file sender to
indicate a preferred disposition of the file to be transferred in a
new 'file-disposition' attribute. In principle, any value listed in
the IANA registry for Mail Content Disposition Values [3] is
acceptable, however, most of them may not be applicable.
There are two content dispositions of interest for file transfer
operations. On one hand, the file sender may just want the file to
be rendered immediately in the file receiver's device. On the other
hand, the file sender may just want to indicate the file recipient
that the file should not be rendered at the reception of the file.
The recipient's user agent may want to interact with the user
regarding the file disposition or it may save the file until the user
takes an action. In any case, the exact actions are implementation
dependent.
To indicate that a file should be automatically rendered, this memo
uses the existing 'render' value of the Content Disposition type in
the new 'file-disposition' attribute in SDP. To indicate that a file
should not be automatically rendered, this memo users the existing
'attachment' value of the Content-Disposition type in the new 'file-
disposition' attribute in SDP. The default value is 'render', i.e.,
the absence of a 'file-disposition' attribute in the SDP has the same
semantics as 'render'.
The disposition value 'attachment' is specified in RFC 2183
[RFC2183] with the following definition:
"Body parts can be designated 'attachment' to indicate that
they are separate from the main body of the mail message, and
that their display should not be automatic, but contingent upon
some further action of the user."
In the case of this specification, the 'attachment' disposition
type is used to indicate that the display of the file should not
be automatic, but contingent upon some further action of the user.
8. Protocol Operation
This Section discusses how to use the parameters defined in Section 6
in the context of an offer/answer [RFC3264] exchange. Additionally,
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this section also discusses the behavior of the endpoints using MSRP.
Usually the file transfer session is initiated when the offerer sends
an SDP offer to the answerer. The answerer either accepts or rejects
the file transfer session and sends an SDP answer to the offerer.
We can differentiate two use cases, depending on whether the offerer
is the file sender or file receiver:
1. The offerer is the file sender, i.e., the offerer wants to
transmit a file to the answerer. Consequently the answerer is
the file receiver. In this case the SDP offer contains a
'sendonly' attribute, and accordingly the SDP answer contains a
'recvonly' attribute.
2. The offerer is the file receiver, i.e., the offerer wants to
fetch a file from the answerer. Consequently the answerer is the
file sender. In this case the SDP offer contains a session or
media 'recvonly' attribute, and accordingly the SDP answer
contains a session or media 'sendonly' attribute.
8.1. Offerer's Behavior
An offerer that wishes to send or receive one or more files to or
from an answerer MUST build an SDP [RFC4566] description of a session
containing one or more "m=" lines, each one describing an MSRP
session (and thus, one file transfer operation), according to the
MSRP [RFC4975] procedures. All the media line attributes specified
and required by MSRP [RFC4975] (e.g., "a=path", "a=accept-types",
etc.) MUST be included as well. For each file to be transferred
there MUST be a separate "m=" line.
8.1.1. The Offerer is a File Sender
In a push operation, the file sender creates and SDP offer describing
the file to be sent. The file sender MUST add a 'file-selector'
attribute media line containing at least one of the 'type', 'size',
'hash' selectors in indicating the type, size, or hash of the file,
respectively. The file sender MUST add a 'file-transfer-id'
attribute containing a new identifier value, i.e., not used within
the current session. Additionally, the file sender MUST add a
session or media 'sendonly' attribute to the SDP offer. Then the
file sender sends the SDP offer to the file receiver.
Not all the selectors in the 'file-selector' attribute might be
known when the file sender creates the SDP offer, for example,
because the host is still processing the file.
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The 'hash' selector in the 'file-selector' attribute contains
valuable information to the file receiver to identify whether the
file is already available and need not be transmitted.
The file sender MAY also add a 'name' selector in the 'file-selector'
attribute, and a 'file-icon', 'file-disposition', and 'file-date'
attributes further describing the file to be transferred. The 'file-
disposition' attribute provides a presentation suggestion, (for
example: the file sender would like the file receiver to render the
file or not). The three date attributes provide the answerer with an
indication of the age of the file. The file sender MAY also add a
'file-range' attribute indicating the start and stop offsets of the
file.
When the file sender receives the SDP answer, if the port number of
the answer for a file request is non-zero, the file sender starts the
transfer of the file according to the negotiated parameters in SDP.
8.1.2. The Offerer is a File Receiver
In a pull operation, the file receiver creates the SDP offer and
sends it to the file sender. The file receiver MUST include a 'file-
selector' attribute and SHOULD add, at least, one of the selector
defined for that attribute (i.e., 'name', 'type', 'size', or 'hash').
In many cases, if the hash of the file is known, that is enough to
identify the file, therefore, the offerer can include only a 'hash'
selector. However, specially in cases where the hash of the file is
unknown, the file name, size, and type can provide a description of
the file to be fetched. The file receiver MUST also add a 'file-
transfer-id' attribute with a newly created random value (new within
the current session). The file receiver MAY also add a 'file-range'
attribute indicating the start and stop offsets of the file. There
is no need to for the file receiver to include further file
attributes in the SDP offer, thus it is RECOMMENDED that SDP offerers
do not include any other file attribute defined by this specification
(other than the mandatory ones). Additionally, the file receiver
MUST create an SDP offer that contains a session or media 'recvonly'
attribute.
When the file receiver receives the SDP answer, if the port number of
the answer for a file request is non-zero, then the file receiver
should receive the file using the protocol indicated in the m= line.
If the SDP answer contains a supported hashing algorithm in the
'hash' selectors of the 'file-selector' attribute, then the file
receiver SHOULD compute the hash of the file after its reception and
check it against the hash received in the answer. In case the
computed hash does not match the one contained in the SDP answer, the
file receiver SHOULD consider that the file transfer failed and
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SHOULD inform the user.
8.1.3. SDP Offer for Several Files
An offerer that wishes to send or receive more than one file
generates an "m=" line per file along with the file attributes
described in this specification. This way, the answerer can reject
individual files by setting the port number of their associated "m="
lines to zero, as per regular SDP [RFC4566] procedures. Each file
has its own file transfer identifier, which uniquely identifies each
file transfer.
Using an "m=" line per file implies that different files are
transferred using different MSRP sessions. However, all those MSRP
sessions can be set up to run over a single TCP connection, as
described in Section 8.1 of RFC 4975 [RFC4975].
8.2. Answerer's Behavior
If the answerer wishes to reject a file offered by the offerer, it
sets the port number of the "m=" line associated with the file to
zero, as per regular SDP [RFC4566] procedures. The rejected answer
MUST contained a 'file-selector' and 'file-transfer-id' attributes
whose values mirror the corresponding values of the SDP offer.
If the answerer decides to accept the file, it proceeds as per
regular MSRP [RFC4975] and SDP [RFC4566] procedures.
8.2.1. The Answerer is a File Receiver
In a push operation the SDP answerer is the file receiver. When the
file receiver gets the SDP offer, it extracts the attributes and
parameters that describe the file and typically requests permission
from the user to accept or reject the reception of the file. If the
file transfer operation is accepted, the file receiver MUST create an
SDP answer according to the procedures specified in RFC 3264
[RFC3264]. If the offer contains 'name', 'type', 'size' selectors in
the 'file-selector' attribute, the answerer MUST copy them into the
answer. The file receiver copies the value of the 'file-transfer-id'
attribute to the SDP answer. Then the file receiver MUST add a
session or media 'recvonly' attribute according to the procedures
specified in RFC 3264 [RFC3264]. The file receiver MUST NOT include
'file-icon', 'file-disposition', or 'file-date' attributes in the SDP
answer.
The file receiver can use the hash to find out if a local file with
the same hash is already available, in which case, this could imply
the reception of a duplicated file. It is up to the answerer to
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determine whether the file transfer is accepted or not in case of a
duplicated file.
If the SDP offer contains a 'file-range' attribute and the file
receiver accepts to receive the range of bytes declared in there, the
file receiver MUST include a 'file-range' attribute in the SDP answer
with the same range of values. If the file receiver does not accept
the reception of that range of bytes, it SHOULD reject the transfer
of the file.
8.2.2. The Answerer is a File Sender
In a pull operation the answerer is the file sender. In this case,
the file sender MUST first inspect the value of the
'file-transfer-id' attribute. If the has not been previously been
used throughout the session, then acceptance of the file MUST provoke
the transfer of the file over the negotiated protocol. However, if
the value has been previously used by another file transfer operation
within the session, then the file sender MUST NOT alert the user and
MUST NOT start a new transfer of the file. No matter whether an
actual file transfer is initiated or not, the file sender MUST create
a proper SDP answer that contains the 'file-transfer-id' attribute
with the same value received in the SDP offer, and then it MUST
continue processing the SDP answer.
The file sender MUST always create an SDP answer according to the SDP
offer/answer procedures specified in RFC 3264 [RFC3264]. The file
sender inspects the file selector of the received SDP offer, which is
encoded in the 'file-selector' media attribute line. Then the file
sender applies the file selector, which implies selecting those files
that match one by one with the 'name', 'type', 'size', and 'hash'
selectors of the 'file-selector' attribute line (if they are
present). The file selector identifies zero or more candidate files
to be sent. If the file selector is unable to identify any file,
then the answerer MUST reject the MSRP stream for file transfer by
setting the port number to zero, and then the file sender SHOULD also
reject the SDP as per procedures in RFC 3264 [RFC3264], if this is
the only stream described in the SDP offer.
If the file selector points to a single file and the file sender
decides to accept the file transfer, the file sender MUST create an
SDP answer that contains a 'sendonly' attribute, according to the
procedures described RFC 3264 [RFC3264]. The file sender SHOULD add
a 'hash' selector in the answer with the locally computed SHA-1 hash
over the complete file. If a hash value computed by the file sender
differs from that specified by the file receiver, the file sender can
either send the file without that hash value or reject the request by
setting the port in the media stream to zero. The file sender MAY
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also include a 'type' selector in the 'file-selector' attribute line
of the SDP answer. The answerer MAY also include a 'file-icon' and
'file-disposition' attributes to further describe the file. Although
the answerer MAY also include a 'name' and 'size' selectors in the
'file-selector' attribute, and a 'file-date' attribute, it is
RECOMMENDED not to include them in the SDP answer if the actual file
transfer protocol (e.g., MSRP [RFC4975]) can accommodate a Content-
Disposition header field [RFC2183] with the equivalent parameters.
The whole idea of adding file descriptors to SDP is to provide a
mechanism where a file transfer can be accepted prior to its
start. Adding any SDP attributes that are otherwise signaled
later in the file transfer protocol would just duplicate the
information, but will not provide any information to the offerer
to accept or reject the file transfer (note that the offerer is
requesting a file).
Last, if the file selector points to multiple candidate files, the
answerer MAY use some local policy, e.g. consulting the user, to
choose one of them to be defined in the SDP answer. If that choice
cannot be done, the answerer SHOULD reject the MSRP media stream for
file transfer (by setting the port number to zero).
If the need arises, future specifications can provide a suitable
mechanism that allows to either select multiple files or, e.g.,
resolve ambiguities by returning a list of files that match the
file selector.
If the SDP offer contains a 'file-range' attribute and the file
sender accepts to send the range of bytes declared in there, the file
sender MUST include a 'file-range' attribute in the SDP answer with
the same range of values. If the file sender does not accept sending
that range of bytes, it SHOULD reject the transfer of the file.
8.3. The 'file-transfer-id' attribute
This specification creates an extension to the SDP Offer/Answer Model
[RFC3264], and because of that, it is assumed that the existing SDP
behavior is kept intact. The SDP behavior requires, for example,
that SDP is sent again to the remote party in situations where the
media description or perhaps other SDP parameters have not changed
with respect a previous offer/answer exchange. Let's consider the
SIP Session Timer (RFC 4028) [RFC4028], which uses re-INVITE requests
to refresh sessions. RFC 4028 recommends to send unmodified SDP in a
re-INVITE to refresh the session. Should this re-INVITE contain SDP
describing a file transfer operation and occur while the file
transfer was still going on, there would be no means to detect
whether the SDP creator wanted to abort the current file transfer
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operation and initiate a new one or the SDP file description was
included in the SDP due to other reasons (e.g., session timer
refresh).
A similar scenario occurs when two endpoints have successfully agreed
on a file transfer, which is currently taking place when one of the
endpoints wants to add additional media streams to the existing
session. In this case, the endpoint sends a re-INVITE request that
contains SDP. The SDP needs to maintain the media descriptions for
the current ongoing file transfer and add the new media descriptions.
The problem is that, the other endpoint is not able to determine if a
new file transfer is requested or not.
In other cases, a file transfer was successfully completed. Then, if
an endpoint re-sends the SDP offer with the media stream for the file
transfer, then the other endpoint wouldn't be able to determine
whether a new file transfer should start or not.
To address these scenarios this specification defines the 'file-
transfer-id' attribute which contains a unique file transfer
identifier. The file transfer identifier helps both endpoints to
determine whether the SDP offer is requesting a new file transfer or
it is a repetition of the SDP. A new file transfer is one that, in
case of acceptance, will provoke the actual transfer of a file. This
is typically the case of new offer/answer exchanges, or in cases
where an endpoint wants to abort the existing file transfer and re-
start the file transfer once more. On the other hand, the repetition
of the SDP does not lead to any actual file to be transferred,
potentially because the file transfer is still going on or because it
has already finished. This is the case of a repeated offer/answer
exchanges, which can be due to a number of reasons (session timer,
addition/removal of other media types in the SDP, update in SDP due
to changes in other session parameters, etc.).
Implementations according to this specification MUST include a 'file-
transfer-id' attribute in SDP offers and answers. The SDP offerer
MUST select a file transfer identifier according to the syntax and
add it to the 'file-transfer-id' attribute. The SDP answerer MUST
copy the value of the 'file-transfer-id' attribute in the SDP answer.
The file transfer identifier MUST be unique within the current
session (never used before in this session), and it is RECOMMENDED to
be unique across different sessions. It is RECOMMENDED to select a
relatively big random identifier (e.g., 32 characters) to avoid
duplications. The SDP answerer MUST keep track of the proposed file
transfer identifiers in each session and copy the value of the
received file transfer identifier in the SDP answer.
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If a file transfer is suspended and resumed at a later time, the
resumption is considered a new file transfer (even when the file to
be transferred is the same), therefore, the SDP offerer MUST choose a
new file transfer identifier.
If an endpoint sets the port number to zero in the media description
of a file transfer, for example because it wants to reject the file
transfer operation, then the SDP answer should mirror the value of
the 'file-transfer-id' attribute included in the SDP offer. This
effectively means that setting a media stream to zero has higher
precedence than any value that the 'file-transfer-id' attribute can
take.
As a side effect, the 'file-transfer-id' attribute can be used for
aborting and restarting again an ongoing file transfer. Assume that
two endpoints agree on a file transfer and the actual transfer of the
file is taking place. At some point in time in the middle of the
file transfer, one endpoint sends a new SDP offer, equal to the
initial one, except for the value of the 'file-transfer-id'
attribute, which is a new value within the session. This indicates
that the offerer wants to abort the existing transfer and start a new
one, according to the SDP parameters. The SDP answerer SHOULD abort
the ongoing file transfer, according to the procedures of the file
transfer protocol (e.g., MSRP), and start sending file once more from
the initial requested octet.
In another scenario, an endpoint that has successfully transferred a
file wants to send an SDP due to other reasons than the transfer of a
file. The SDP offerer creates an SDP file description that maintains
the media description line corresponding to the file transfer. The
SDP offerer MUST then set the port number to zero and MUST keep the
same value of the 'file-transfer-id' attribute that the initial file
transfer got.
8.4. Indicating File Transfer Offer/Answer Capability
The SDP Offer/Answer Model [RFC3264] provides provisions for
indicating a capability to another endpoint (see Section 9 of RFC
3264 [RFC3264]). The mechanism assumes a high-level protocol, such
as SIP [RFC3261], that provides a capability query (such as a SIP
OPTIONS request). RFC 3264 [RFC3264] indicates how to build the SDP
that is included in the response to such request. As such, RFC 3264
indicates that and endpoint builds an SDP body that contains an "m="
line that contains the media type (message, for MSRP). An endpoint
that implements the procedures specified in this document SHOULD also
add a 'file-selector' media attribute for the "m=message" line. The
'file-selector' media attribute MUST be empty, i.e., it MUST NOT
contain any selector. The endpoint MUST NOT add any of the other
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file attributes defined in this specification.
8.5. Re-usage of Existing m= Lines in SDP
The SDP Offer/Answer Model [RFC3264] provides rules that allow SDP
offerers and answerers to modify an existing media line, i.e., re-use
an existing media line with different attributes. The same is also
possible when SDP signals a file transfer operation according to the
rules of this memo. Therefore, the procedures defined in RFC 3264
[RFC3264], in particular those defined in Section 8.3, MUST apply for
file transfer operations. An endpoint that wants to re-use an
existing m= line to start the file transfer of another file creates a
different 'file-selector' attribute and a different value of the
'file-transfer-id' attribute.
If the file offerer re-sends an SDP offer with a port different than
zero, then the 'file-transfer-id' attribute determines whether a new
file transfer will start or whether the file transfer does not need
to start. If the SDP answerer accepts the SDP, then file transfer
starts from the indicated byte (if a 'file-range' attribute is
present).
8.6. MSRP Usage
The file transfer service specified in this document uses "m=" lines
to describe the unidirectional transfer of a file. Consequently,
each MSRP session established following the procedures in Section 8.1
and Section 8.2 is only used to transfer a single file. So, senders
MUST only use the dedicated MSRP session to send the file described
in the SDP offer or answer. That is, senders MUST NOT send
additional files over the same MSRP session.
Additionally, implementations according to this specification MUST
include a single file in a single MSRP message. Notice that the MSRP
specification defines "MSRP message" as a complete unit of MIME or
text content, which can be split and delivered in more than one MSRP
request; each of these portions of the complete message is called a
"chunk". So, it is still valid to send a file in several chunks, but
from the MSRP point of view, all the chunks together form an MSRP
message: the CPIM message that wraps the file. When chunking, notice
that MSRP does not require to wait for a 200-class response for a
chunk before sending the following one. Therefore, it is valid to
send pipelined MSRP SEND requests containing chunks of the same MSRP
message (the file). Section 9.1 contains an example of a file
transfer using pipelined MSRP requests.
The MSRP specification [RFC4975] defines a 'max-size' SDP attribute.
This attribute specifies the maximum number of octets of an MSRP
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message that the creator of the SDP is willing to receive (notice
once more the definition of "MSRP message"). File receivers MAY add
a 'max-size' attribute to the MSRP m= line that specifies the file,
indicating the maximum number of octets of an MSRP message. File
senders MUST NOT exceed the 'max-size' limit for any message sent in
the resulting session.
In the absence of a 'file-range' attribute in the SDP, the MSRP file
transfer MUST start with the first byte of the file and end with the
last byte (i.e., the whole file is transferred). If a 'file-range'
attribute is present in SDP, the file sender application MUST extract
the indicated range of bytes from the file (start and stop bytes).
Then the file sender application MAY wrap those bytes in an
appropriate wrapper. MSRP mandates implementations to implement the
message/cpim wrapper [RFC3862]. Usage of a wrapper is negotiated in
the SDP (see Section 8.6 in RFC 4975 [RFC4975]). Last, the file
sender application delivers the content (e.g., the message/cpim body)
to MSRP for transportation. MSRP will consider the delivered content
as a whole message, and will start numbering bytes with the number 1.
Note that the default content disposition of MSRP bodies is 'render'.
When MSRP is used to transfer files, the MSRP Content-Disposition
header can also take the value 'attachment' as indicated in
Section 7.
Once the file transfer is completed, the file sender SHOULD close the
MSRP session, and MUST behave according to the MSRP [RFC4975]
procedures with respect closing MSRP sessions.
8.7. Considerations about the 'file-icon' attribute
This specification allows a file sender to include a small preview of
an image file: an icon. A 'file-icon' attribute contains a CID URL
[RFC2392] that points to an additional body that contains the actual
icon. Since the icon is sent as a separate body along the SDP body,
the file sender MUST wrap the SDP body and the icon bodies in a MIME
multipart/related body. Therefore, implementations according to this
specification MUST implement the multipart/related MIME type
[RFC2387]. When creating a multipart/related MIME wrapper, the SDP
body MUST be the root body, which according to RFC 2387 [RFC2387] is
identified as the first body in the multipart/related MIME wrapper or
explicitly identified by the 'start' parameter. According to RFC
2387 [RFC2387], the 'type' parameter MUST be present and point to the
root body, i.e., the SDP body.
Assume that an endpoint behaving according to this specification
tries to send a file to a remote endpoint that neither implements
this specification nor implements multipart MIME bodies. The file
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sender sends an SDP offer that contains a multipart/related MIME body
that includes an SDP body part and an icon body part. The file
receiver, not supporting multipart MIME types, will reject the SDP
offer, via a higher protocol mechanism (e.g., SIP). In this case, it
is RECOMMENDED that the file sender removes the icon body part,
creates a single SDP body (i.e., without multipart MIME) and re-sends
the SDP offer again. This provides some backwards compatibility with
file receives that do not implement this specification and increases
the chances of getting the SDP accepted at the file receiver.
Since the icon is sent as part of the signaling, it is recommended to
keep icons restricted to the minimum number of bytes that provide
significance.
9. Examples
9.1. Offerer sends a file to the Answerer
This section shows an example flow for a file transfer scenario. The
example assumes that SIP [RFC3261] is used to transport the SDP
offer/answer exchange, although the SIP details are briefly shown in
the sake of brevity.
Alice, the SDP offerer, wishes to send an image file to Bob (the
answerer). Alice's User Agent Client (UAC) creates a unidirectional
SDP offer that contains the description of the file that she wants to
send to Bob's User Agent Server (UAS). The description also includes
an icon representing the contents of the file to be transferred. The
sequence flow is shown in Figure 3.
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Alice's UAC Bob's UAS
| |
|(1) (SIP) INVITE |
|----------------------->|
|(2) (SIP) 200 OK |
|<-----------------------|
|(3) (SIP) ACK |
|----------------------->|
| |
|(4) (MSRP) SEND (chunk) |
|----------------------->|
|(5) (MSRP) SEND (chunk) |
|----------------------->|
|(6) (MSRP) 200 OK |
|<-----------------------|
|(7) (MSRP) 200 OK |
|<-----------------------|
| |
|(8) (SIP) BYE |
|----------------------->|
|(9) (SIP) 200 OK |
|<-----------------------|
| |
| |
Figure 3: Flow diagram of an offerer sending a file to an answerer
F1: Alice constructs an SDP description of the file to be sent and
attaches it to a SIP INVITE request addressed to Bob.
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INVITE sip:bob@example.com SIP/2.0
To: Bob <sip:bob@example.com>
From: Alice <sip:alice@example.com>;tag=1928301774
Call-ID: a84b4c76e66710
CSeq: 1 INVITE
Max-Forwards: 70
Date: Sun, 21 May 2006 13:02:03 GMT
Contact: <sip:alice@alicepc.example.com>
Content-Type: multipart/related; type="application/sdp";
boundary="boundary71"
Content-Length: [length]
--boundary71
Content-Type: application/sdp
Content-Length: [length of SDP]
v=0
o=alice 2890844526 2890844526 IN IP4 alicepc.example.com
s=
c=IN IP4 alicepc.example.com
t=0 0
m=message 7654 TCP/MSRP *
i=This is my latest picture
a=sendonly
a=accept-types:message/cpim
a=accept-wrapped-types:*
a=path:msrp://alicepc.example.com:7654/jshA7we;tcp
a=file-selector:name:"My cool picture.jpg" type:image/jpeg
size:4092 hash:sha-1:
72:24:5F:E8:65:3D:DA:F3:71:36:2F:86:D4:71:91:3E:E4:A2:CE:2E
a=file-transfer-id:Q6LMoGymJdh0IKIgD6wD0jkcfgva4xvE
a=file-disposition:render
a=file-date:creation:"Mon, 15 May 2006 15:01:31 +0300"
a=file-icon:cid:id2@alicepc.example.com
--boundary71
Content-Type: image/jpeg
Content-Transfer-Encoding: binary
Content-ID: <id2@alicepc.example.com>
Content-Length: [length of image]
Content-Disposition: icon
[...small preview icon of the file...]
--boundary71--
Figure 4: INVITE request containing an SDP offer for file transfer
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NOTE: The Content-Type header field and the 'file-selector'
attribute in the above figure are split in several lines for
formatting purposes. Real implementations will encode it in a
single line.
From now on we omit the SIP details for the sake of brevity.
F2: Bob receives the INVITE request, inspects the SDP offer and
extracts the icon body, checks the creation date and file size, and
decides to accept the file transfer. So Bob creates the following
SDP answer:
v=0
o=bob 2890844656 2890844656 IN IP4 bobpc.example.com
s=
c=IN IP4 bobpc.example.com
t=0 0
m=message 8888 TCP/MSRP *
a=recvonly
a=accept-types:message/cpim
a=accept-wrapped-types:*
a=path:msrp://bobpc.example.com:8888/9di4ea;tcp
a=file-selector:name:"My cool picture.jpg" type:image/jpeg
size:4092 hash:sha-1:
72:24:5F:E8:65:3D:DA:F3:71:36:2F:86:D4:71:91:3E:E4:A2:CE:2E
a=file-transfer-id:Q6LMoGymJdh0IKIgD6wD0jkcfgva4xvE
Figure 5: SDP answer accepting the SDP offer for file transfer
NOTE: The 'file-selector' attribute in the above figure is split
in three lines for formatting purposes. Real implementations will
encode it in a single line.
F4: Alice opens a TCP connection to Bob and creates an MSRP SEND
request. This SEND request contains the first chunk of the file.
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MSRP d93kswow SEND
To-Path: msrp://bobpc.example.com:8888/9di4ea;tcp
From-Path: msrp://alicepc.example.com:7654/iau39;tcp
Message-ID: 12339sdqwer
Byte-Range: 1-2048/4385
Content-Type: message/cpim
To: Bob <sip:bob@example.com>
From: Alice <sip:alice@example.com>
DateTime: 2006-05-15T15:02:31-03:00
Content-Disposition: render; filename="My cool picture.jpg";
creation-date="Mon, 15 May 2006 15:01:31 +0300";
size=4092
Content-Type: image/jpeg
... first set of bytes of the JPEG image ...
-------d93kswow+
Figure 6: MSRP SEND request containing the first chunk of actual file
F5: Alice sends the second and last chunk. Note that MSRP allows to
send pipelined chunks, so there is no need to wait for the 200 (OK)
response from the previous chunk.
MSRP op2nc9a SEND
To-Path: msrp://bobpc.example.com:8888/9di4ea;tcp
From-Path: msrp://alicepc.example.com:7654/iau39;tcp
Message-ID: 12339sdqwer
Byte-Range: 2049-4385/4385
Content-Type: message/cpim
... second set of bytes of the JPEG image ...
-------op2nc9a$
Figure 7: MSRP SEND request containing the second chunk of actual
file
F6: Bob acknowledges the reception of the first chunk.
MSRP d93kswow 200 OK
To-Path: msrp://alicepc.example.com:7654/iau39;tcp
From-Path: msrp://bobpc.example.com:8888/9di4ea;tcp
Byte-Range: 1-2048/4385
-------d93kswow$
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Figure 8: MSRP 200 OK response
F7: Bob acknowledges the reception of the second chunk.
MSRP op2nc9a 200 OK
To-Path: msrp://alicepc.example.com:7654/iau39;tcp
From-Path: msrp://bobpc.example.com:8888/9di4ea;tcp
Byte-Range: 2049-4385/4385
-------op2nc9a$
Figure 9: MSRP 200 OK response
F8: Alice terminates the SIP session by sending a SIP BYE request.
F9: Bob acknowledges the reception of the BYE request and sends a 200
(OK) response.
9.2. Offerer requests a file from the Answerer and second file transfer
In this example Alice, the SDP offerer, first wishes to fetch a file
from Bob, the SDP answerer. Alice knows that Bob has a specific file
she wants to download. She has learned the hash of the file by some
out-of-band mechanism. The hash selector is enough to produce a file
selector that points to the specific file. So, Alice creates an SDP
offer that contains the file descriptor. Bob accepts the
transmission and sends the file to Alice. When Alice has completely
received Bob's file, she intends to send a new image file to Bob.
Therefore Alice re-uses the existing SDP media line with different
attributes and updates the description of the new file she wants to
send to Bob's User Agent Server (UAS). In particular, Alice creates
a new file transfer identifier since this is a new file transfer
operation. Figure 10 shows the sequence flow.
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Alice's UAC Bob's UAS
| |
|(1) (SIP) INVITE |
|----------------------->|
|(2) (SIP) 200 OK |
|<-----------------------|
|(3) (SIP) ACK |
|----------------------->|
| |
|(4) (MSRP) SEND (file) |
|<-----------------------|
|(5) (MSRP) 200 OK |
|----------------------->|
| |
|(6) (SIP) INVITE |
|----------------------->|
|(7) (SIP) 200 OK |
|<-----------------------|
|(8) (SIP) ACK |
|----------------------->|
| |
|(9) (MSRP) SEND (file) |
|----------------------->|
|(10) (MSRP) 200 OK |
|<-----------------------|
| |
|(11) (SIP) BYE |
|<-----------------------|
|(12) (SIP) 200 OK |
|----------------------->|
| |
| |
Figure 10: Flow diagram of an offerer requesting a file from the
answerer and then sending a file to the answer
F1: Alice constructs an SDP description of the file she wants to
receive and attaches the SDP offer to a SIP INVITE request addressed
to Bob.
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INVITE sip:bob@example.com SIP/2.0
To: Bob <sip:bob@example.com>
From: Alice <sip:alice@example.com>;tag=1928301774
Call-ID: a84b4c76e66710
CSeq: 1 INVITE
Max-Forwards: 70
Date: Sun, 21 May 2006 13:02:03 GMT
Contact: <sip:alice@alicepc.example.com>
Content-Type: application/sdp
Content-Length: [length of SDP]
v=0
o=alice 2890844526 2890844526 IN IP4 alicepc.example.com
s=
c=IN IP4 alicepc.example.com
t=0 0
m=message 7654 TCP/MSRP *
a=recvonly
a=accept-types:message/cpim
a=accept-wrapped-types:*
a=path:msrp://alicepc.example.com:7654/jshA7we;tcp
a=file-selector:hash:sha-1:
72:24:5F:E8:65:3D:DA:F3:71:36:2F:86:D4:71:91:3E:E4:A2:CE:2E
a=file-transfer-id:aCQYuBRVoUPGVsFZkCK98vzcX2FXDIk2
Figure 11: INVITE request containing an SDP offer for file transfer
NOTE: The 'file-selector' attribute in the above figure is split
in two lines for formatting purposes. Real implementations will
encode it in a single line.
From now on we omit the SIP details for the sake of brevity.
F2: Bob receives the INVITE request, inspects the SDP offer, computes
the file descriptor and finds a local file whose hash equals the one
indicated in the SDP. Bob accepts the file transmission and creates
an SDP answer as follows:
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v=0
o=bob 2890844656 2890855439 IN IP4 bobpc.example.com
s=
c=IN IP4 bobpc.example.com
t=0 0
m=message 8888 TCP/MSRP *
a=sendonly
a=accept-types:message/cpim
a=accept-wrapped-types:*
a=path:msrp://bobpc.example.com:8888/9di4ea;tcp
a=file-selector:type:image/jpeg hash:sha-1:
72:24:5F:E8:65:3D:DA:F3:71:36:2F:86:D4:71:91:3E:E4:A2:CE:2E
a=file-transfer-id:aCQYuBRVoUPGVsFZkCK98vzcX2FXDIk2
Figure 12: SDP answer accepting the SDP offer for file transfer
NOTE: The 'file-selector' attribute in the above figure is split
in two lines for formatting purposes. Real implementations will
encode it in a single line.
F4: Alice opens a TCP connection to Bob. Bob then creates an MSRP
SEND request that contains the file.
MSRP d93kswow SEND
To-Path: msrp://alicepc.example.com:7654/iau39;tcp
From-Path: msrp://bobpc.example.com:8888/9di4ea;tcp
Message-ID: 12339sdqwer
Byte-Range: 1-2027/2027
Content-Type: message/cpim
To: Bob <sip:bob@example.com>
From: Alice <sip:alice@example.com>
DateTime: 2006-05-15T15:02:31-03:00
Content-Disposition: render; filename="My cool photo.jpg";
creation-date="Mon, 15 May 2006 15:01:31 +0300";
modification-date="Mon, 15 May 2006 16:04:53 +0300";
read-date="Mon, 16 May 2006 09:12:27 +0300";
size=1931
Content-Type: image/jpeg
...binary JPEG image...
-------d93kswow$
Figure 13: MSRP SEND request containing the actual file
F5: Alice acknowledges the reception of the SEND request.
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MSRP d93kswow 200 OK
To-Path: msrp://bobpc.example.com:8888/9di4ea;tcp
From-Path: msrp://alicepc.example.com:7654/iau39;tcp
Byte-Range: 1-2027/2027
-------d93kswow$
Figure 14: MSRP 200 OK response
F6: Alice re-uses the existing SDP media line inserting the
description of the file to be sent and attaches it to a SIP re-INVITE
request addressed to Bob.
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INVITE sip:bob@example.com SIP/2.0
To: Bob <sip:bob@example.com>;tag=1928323431
From: Alice <sip:alice@example.com>;tag=1928301774
Call-ID: a84b4c76e66710
CSeq: 2 INVITE
Max-Forwards: 70
Date: Sun, 21 May 2006 13:02:33 GMT
Contact: <sip:alice@alicepc.example.com>
Content-Type: multipart/related; type="application/sdp";
boundary="boundary71"
Content-Length: [length of multipart]
--boundary71
Content-Type: application/sdp
Content-Length: [length of SDP]
v=0
o=alice 2890844526 2890844527 IN IP4 alicepc.example.com
s=
c=IN IP4 alicepc.example.com
t=0 0
m=message 5670 TCP/MSRP *
i=This is my latest picture
a=sendonly
a=accept-types:message/cpim
a=accept-wrapped-types:*
a=path:msrp://alicepc.example.com:5670/iau39;tcp
a=file-selector:name:"sunset.jpg" type:image/jpeg
size:4096 hash:sha-1:
58:23:1F:E8:65:3B:BC:F3:71:36:2F:86:D4:71:91:3E:E4:B1:DF:2F
a=file-transfer-id:ZVE8MfI9mhAdZ8GyiNMzNN5dpqgzQlCO
a=file-disposition:render
a=file-date:creation:"Sun, 21 May 2006 13:02:15 +0300"
a=file-icon:cid:id3@alicepc.example.com
--boundary71
Content-Type: image/jpeg
Content-Transfer-Encoding: binary
Content-ID: <id3@alicepc.example.com>
Content-Length: [length of image]
Content-Disposition: icon
[..small preview icon...]
--boundary71--
Figure 15: Reuse of the SDP in a second file transfer
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NOTE: The Content-Type header field and the 'file-selector'
attribute in the above figure are split in several lines for
formatting purposes. Real implementations will encode it in a
single line.
F7: Bob receives the re-INVITE request, inspects the SDP offer and
extracts the icon body, checks the creation date and file size, and
decides to accept the file transfer. So Bob creates the following
SDP answer:
v=0
o=bob 2890844656 2890855440 IN IP4 bobpc.example.com
s=
c=IN IP4 bobpc.example.com
t=0 0
m=message 9999 TCP/MSRP *
a=recvonly
a=accept-types:message/cpim
a=accept-wrapped-types:*
a=path:msrp://bobpc.example.com:9999/9an4ea;tcp
a=file-selector:name:"sunset.jpg" type:image/jpeg
size:4096 hash:sha-1:
58:23:1F:E8:65:3B:BC:F3:71:36:2F:86:D4:71:91:3E:E4:B1:DF:2F
a=file-transfer-id:ZVE8MfI9mhAdZ8GyiNMzNN5dpqgzQlCO
a=file-disposition:render
Figure 16: SDP answer accepting the SDP offer for file transfer
NOTE: The 'file-selector' attribute in the above figure is split
in three lines for formatting purposes. Real implementations will
encode it in a single line.
F9: Alice opens a new TCP connection to Bob and creates an MSRP SEND
request that contains the file.
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MSRP d95ksxox SEND
To-Path: msrp://bobpc.example.com:9999/9an4ea;tcp
From-Path: msrp://alicepc.example.com:5670/iau39;tcp
Message-ID: 13449sdqwer
Byte-Range: 1-2027/2027
Content-Type: message/cpim
To: Bob <sip:bob@example.com>
From: Alice <sip:alice@example.com>
DateTime: 2006-05-21T13:02:15-03:00
Content-Disposition: render; filename="Sunset.jpg";
creation-date="Sun, 21 May 2006 13:02:15 -0300";
size=1931
Content-Type: image/jpeg
...binary JPEG image...
-------d95ksxox+
Figure 17: MSRP SEND request containing the actual file
F10: Bob acknowledges the reception of the SEND request.
MSRP d95ksxox 200 OK
To-Path: msrp://alicepc.example.com:5670/iau39;tcp
From-Path: msrp://bobpc.example.com:9999/9an4ea;tcp
Byte-Range: 1-2027/2027
-------d95ksxox$
Figure 18: MSRP 200 OK response
F11: Then Bob terminates the SIP session by sending a SIP BYE
request.
F12: Alice acknowledges the reception of the BYE request and sends a
200 (OK) response.
9.3. Example of a capability indication
Alice sends an OPTIONS request to Bob (this request does not contain
SDP). Bob answers with a 200 (OK) response that contain the SDP
shown in Figure 20. The SDP indicates support for CPIM messages that
can contain other MIME types. The maximum MSRP message size that the
endpoint can receive is 20000 octets. The presence of the 'file-
selector' attribute indicates support for the file transfer offer/
answer mechanism.
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Alice's UAC Bob's UAS
| |
|(1) (SIP) OPTIONS |
|----------------------->|
|(2) (SIP) 200 OK |
| with SDP |
|<-----------------------|
| |
| |
Figure 19: Flow diagram of a capability request
v=0
o=bob 2890844656 2890855439 IN IP4 bobpc.example.com
s=-
c=IN IP4 bobpc.example.com
t=0 0
m=message 0 TCP/MSRP *
a=accept-types:message/cpim
a=accept-wrapped-types:*
a=max-size:20000
a=file-selector
Figure 20: SDP of the 200 (OK) response to an OPTIONS request
10. Security Considerations
The SDP attributed defined in this specification identify a file to
be transferred between two endpoints. An endpoint can offer to send
the file to the other endpoint or request to receive the file from
the other endpoint. In the former case, an attacker modifying those
SDP attributes could cheat the receiver making it think that the file
to be transferred was a different one. In the latter case, the
attacker could make the sender send a different file than the one
requested by the receiver. Consequently, it is RECOMMENDED that
integrity protection be applied to the SDP session descriptions
carrying the attributes specified in this specification.
The descriptions of the files being transferred between endpoints may
reveal information the endpoints may consider confidential.
Therefore, it is RECOMMENDED that SDP session descriptions carrying
the attributes specified in this specification be encrypted.
TLS and S/MIME are the natural choices to provide offer/answer
exchanges with integrity protection and confidentiality.
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It is possible that a malicious or misbehaving implementation tries
to exhaust the resources of the remote endpoint, e.g., the internal
memory or the file system, by sending very large files. To protect
from this attack an SDP answer SHOULD first verify the identity of
the SDP offerer, and perhaps, only accept file transfers from trusted
sources. Mechanisms to verify the identity of the file sender depend
on the high-level protocol that carries the SDP, for example, SIP
[RFC3261] and MSRP [RFC4975].
It is also RECOMMENDED that implementations take measurements to
avoid attacks on resource exhaustion, for example, by limiting the
size of receive files, verifying that there is enough space in the
file system to store the file prior to its reception, or limiting the
number of simultaneous file transfers.
File receivers MUST also sanitize all input, such as the local file
name, prior to making calls to the local file system to store a file.
This is to prevent the existence of meaningful characters to the
local operating system that could damage it.
Once a file has been transferred the file receiver must take care
with it. Typically file transfer is a commonly used mechanism for
transmitting computer virus, spyware, and other types of malware.
File recipients should apply all possible security technologies
(e.g., antivirus, antispaware, etc.) to dismiss the risk of damage at
their host.
11. IANA Considerations
This document instructs IANA to register a number of SDP attributes
according to the following:
11.1. Registration of new SDP attributes
This memo provides instructions to IANA to register a number of media
level only attributes in the Session Description Protocol Parameters
registry [4]. The registration data, according to RFC 4566 [RFC4566]
follows.
Note to the RFC Editor: replace "RFC XXXX" with the RFC number of
this specification.
11.1.1. Registration of the file-selector attribute
Contact: Miguel Garcia <miguel.garcia@nsn.com>
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Phone: +358 71400 4000
Attribute name: file-selector
Long-form attribute name: File Selector
Type of attribute: media level only
This attribute is subject to the charset attribute
Description: This attribute unambiguously identify a file by
indicating a combination of the 4-tuple composed of the name,
size, type, and hash of the file.
Specification: RFC XXXX
11.1.2. Registration of the file-transfer-id attribute
Contact: Miguel Garcia <miguel.garcia@nsn.com>
Phone: +358 71400 4000
Attribute name: file-transfer-id
Long-form attribute name: File Transfer Identifier
Type of attribute: media level only
This attribute is subject to the charset attribute
Description: This attribute contains a unique identifier of the
file transfer operation within the session.
Specification: RFC XXXX
11.1.3. Registration of the file-disposition attribute
Contact: Miguel Garcia <miguel.garcia@nsn.com>
Phone: +358 71400 4000
Attribute name: file-disposition
Long-form attribute name: File Disposition
Type of attribute: media level only
This attribute is not subject to the charset attribute
Description: This attribute provides a suggestion to the other
endpoint about the intended disposition of the file
Specification: RFC XXXX
11.1.4. Registration of the file-date attribute
Contact: Miguel Garcia <miguel.garcia@nsn.com>
Phone: +358 71400 4000
Attribute name: file-date
Long-form attribute name:
Type of attribute: media level only
This attribute is not subject to the charset attribute
Description: This attribute indicates the dates at which the file
was created, modified, or last read.
Specification: RFC XXXX
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11.1.5. Registration of the file-icon attribute
Contact: Miguel Garcia <miguel.garcia@nsn.com>
Phone: +358 71400 4000
Attribute name: file-icon
Long-form attribute name: File Icon
Type of attribute: media level only
This attribute is not subject to the charset attribute
Description: For image files, this attribute contains a pointer to
a body that includes a small preview icon representing the
contents of the file to be transferred
Specification: RFC XXXX
11.1.6. Registration of the file-range attribute
Contact: Miguel Garcia <miguel.garcia@nsn.com>
Phone: +358 71400 4000
Attribute name: file-range
Long-form attribute name: File Range
Type of attribute: media level only
This attribute is not subject to the charset attribute
Description: it contains the range of transferred bytes of the
file
Specification: RFC XXXX
12. Acknowledgements
The authors would like to thank Mats Stille, Nancy Greene, Adamu
Haruna, and Arto Leppisaari for discussing initial concepts described
in this memo. Thanks to Pekka Kuure for reviewing initial versions
this document and providing helpful comments. Joerg Ott, Jiwey Wang,
Amitkumar Goel, Sudha Vs, Dan Wing, Juuso Lehtinen, Remi Denis-
Courmont, Colin Perkins, Paul Kyzivat, Sudhakar An, Peter Saint-
Andre, Jonathan Rosenberg, and Eric Rescorla discussed and provided
comments and improvements to this document.
13. References
13.1. Normative References
[RFC2119] Bradner, S., "Key words for use in RFCs to Indicate
Requirement Levels", BCP 14, RFC 2119, March 1997.
[RFC2045] Freed, N. and N. Borenstein, "Multipurpose Internet Mail
Extensions (MIME) Part One: Format of Internet Message
Bodies", RFC 2045, November 1996.
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[RFC2183] Troost, R., Dorner, S., and K. Moore, "Communicating
Presentation Information in Internet Messages: The
Content-Disposition Header Field", RFC 2183, August 1997.
[RFC2387] Levinson, E., "The MIME Multipart/Related Content-type",
RFC 2387, August 1998.
[RFC2392] Levinson, E., "Content-ID and Message-ID Uniform Resource
Locators", RFC 2392, August 1998.
[RFC2822] Resnick, P., "Internet Message Format", RFC 2822,
April 2001.
[RFC3174] Eastlake, D. and P. Jones, "US Secure Hash Algorithm 1
(SHA1)", RFC 3174, September 2001.
[RFC3264] Rosenberg, J. and H. Schulzrinne, "An Offer/Answer Model
with Session Description Protocol (SDP)", RFC 3264,
June 2002.
[RFC3629] Yergeau, F., "UTF-8, a transformation format of ISO
10646", STD 63, RFC 3629, November 2003.
[RFC3851] Ramsdell, B., "Secure/Multipurpose Internet Mail
Extensions (S/MIME) Version 3.1 Message Specification",
RFC 3851, July 2004.
[RFC3862] Klyne, G. and D. Atkins, "Common Presence and Instant
Messaging (CPIM): Message Format", RFC 3862, August 2004.
[RFC4234] Crocker, D., Ed. and P. Overell, "Augmented BNF for Syntax
Specifications: ABNF", RFC 4234, October 2005.
[RFC4566] Handley, M., Jacobson, V., and C. Perkins, "SDP: Session
Description Protocol", RFC 4566, July 2006.
[RFC4975] Campbell, B., Mahy, R., and C. Jennings, "The Message
Session Relay Protocol (MSRP)", RFC 4975, September 2007.
13.2. Informational References
[RFC3261] Rosenberg, J., Schulzrinne, H., Camarillo, G., Johnston,
A., Peterson, J., Sparks, R., Handley, M., and E.
Schooler, "SIP: Session Initiation Protocol", RFC 3261,
June 2002.
[RFC4028] Donovan, S. and J. Rosenberg, "Session Timers in the
Session Initiation Protocol (SIP)", RFC 4028, April 2005.
Garcia-Martin, et al. Expires April 26, 2008 [Page 42]
Internet-Draft SDP offer/answer for file transfer October 2007
[RFC4483] Burger, E., "A Mechanism for Content Indirection in
Session Initiation Protocol (SIP) Messages", RFC 4483,
May 2006.
[RFC4976] Jennings, C., Mahy, R., and A. Roach, "Relay Extensions
for the Message Sessions Relay Protocol (MSRP)", RFC 4976,
September 2007.
[I-D.ietf-rmt-flute-revised]
Paila, T., "FLUTE - File Delivery over Unidirectional
Transport", draft-ietf-rmt-flute-revised-04 (work in
progress), October 2007.
URIs
[1] <http://www.iana.org/assignments/media-types/>
[2] <http://www.iana.org/assignments/hash-function-text-names>
[3] <http://www.iana.org/assignments/mail-cont-disp>
[4] <http://www.iana.org/assignments/sdp-parameters>
Authors' Addresses
Miguel A. Garcia-Martin
Nokia Siemens Networks
P.O.Box 6
Nokia Siemens Networks, FIN 02022
Finland
Phone: +358-71400-4000
Email: miguel.garcia@nsn.com
Markus Isomaki
Nokia
Keilalahdentie 2-4
Espoo 02150
Finland
Email: markus.isomaki@nokia.com
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Gonzalo Camarillo
Ericsson
Hirsalantie 11
Jorvas 02420
Finland
Email: Gonzalo.Camarillo@ericsson.com
Salvatore Loreto
Ericsson
Hirsalantie 11
Jorvas 02420
Finland
Email: Salvatore.Loreto@ericsson.com
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