%ents; ]>
Jingle File Transfer This specification defines a Jingle application type for transferring files between two entities. The protocol provides a modular framework that enables the exchange of information about the file to be transferred as well as the negotiation of parameters such as the transport to be used. &LEGALNOTICE; 0234 Experimental Standards Track Standards XMPP Core XEP-0047 XEP-0065 XEP-0096 XEP-0166 NOT_YET_ASSIGNED &stpeter; 0.13 2011-06-01 psa

Added multi-file use case; updated spec to reflect XEP-0260 and XEP-0261; added algorithm attribute from XEP-0096; increased namespace versions from 1 to 2.

0.12 2011-01-05 psa

Clarified usage of Jingle actions as well as several ambiguous points in the text, including use of the range feature from XEP-0096.

0.11 2010-02-19 psa

Added session-info message and namespace for communicating the file hash.

0.10 2010-02-11 psa

Described the file retrieval case; updated referenced namespaces.

0.9 2009-02-19 psa
  • Moved Jingle definitions of S5B and IBB transports to standalone documents.
  • Because the jingle-s5b and jingle-ibb transport methods are backward-incompatible, incremented protocol version number from 0 to 1 and changed namespace from urn:xmpp:jingle:apps:file-transfer:0 to urn:xmpp:jingle:apps:file-transfer:2.
  • Moved transport fallback scenario to XEP-0260.
0.8 2008-09-30 psa

Corrected fallback scenario to use transport-replace and transport-accept.

0.7 2008-09-25 psa
  • Deleted content-replace from session flows.
  • Modified namespaces to incorporate namespace versioning.
  • Cleaned up XML schemas.
0.6 2008-07-31 psa

Harmonized with XEP-0166; modified fallback to use transport-replace and transport-accept.

0.5 2008-06-05 psa

Modified fallback scenario to use content-replace action during pending state.

0.4 2008-06-04 psa

Harmonized negotiation flows with other Jingle application types.

0.3 2008-05-29 psa

Corrected and more clearly explained negotiation flows for consistency with XEP-0166 and other Jingle specifications.

0.2 2008-03-20 psa

Added transport negotiation scenario.

0.1 2008-03-05 psa

Initial published version.

0.0.3 2008-02-29 psa

Corrected use of content-replace action; specified that the In-Band Bytestreams transport method is mandatory-to-implement but must have the lowest preference order.

0.0.2 2008-02-28 psa Modified negotiation flow to use new content-replace action. 0.0.1 2008-01-29 psa First draft.

&xep0096; was the original XMPP protocol extension for file transfer negotiation. However, that protocol has several drawbacks, most related to the &xep0095; protocol on which it depends:

  1. It does not enable a true, bidirectional negotiation; instead, the initiator sets the terms for the file transfer and the responder either accepts the terms or cancels the negotiation.
  2. It is the only technology in the Jabber/XMPP protocol "stack" that uses XEP-095: Stream Initiation. More modern technologies such as voice and video session negotiation use &xep0166;, and it would be helpful if implementors could re-use the same code for all negotiation use cases.

To overcome these drawbacks, this specification defines a file transfer negotiation method that meets the following requirements:

Jingle file transfer is only as reliable as the transports on which it depends. In particular, SOCKS5 Bytestreams ("S5B") does not always result in NAT or firewall traversal. To work around that problem, this specification requires all implementations to support as a fallback mechanism In-Band Bytestreams ("IBB"), which usually results in a successful (if slow) file transfer.

Note: It is likely that a future version of this specification will also recommend implementation of a Jingle transport method that emulates the IETF's ICE-TCP technology, which is currently a work in progress (see &ice-tcp;); however, a future Jingle ICE-TCP transport method is dependent on the outcome of IETF work in this area.

This section provides a friendly introduction to Jingle file transfer.

First, the party that wishes to initiate the file transfer determines the responder's capabilities (via &xep0030; or &xep0115;). Here we assume that the responder supports the following service discovery features:

The initiator then sends a Jingle session-initiation request to a potential responder. The content-type of the request specifies two things:

  1. An application type of "urn:xmpp:jingle:apps:file-transfer:2". In particular, the <description/> element contains an <offer/> element or a <request/> element that in turn contains one or more <file/> elements qualified by the existing 'http://jabber.org/protocol/si/profile/file-transfer' namespace from XEP-0096.
  2. An appropriate transport method. So far the suggested methods are jingle-s5b (XEP-0260) and, as a fallback, jingle-ibb (XEP-0261).

Note: All attributes of the <file/> element are defined in XEP-0096, not in this specification.

In this example, the initiator is <romeo@montague.lit>, the responder is <juliet@capulet.lit>, the application type is a file offer, and the transport method is jingle-s5b.

The flow is as follows.

or | | and S5B) | |---------------------------->| | ack | |<----------------------------| | session-accept | |<----------------------------| | ack | |---------------------------->| | [ file transfer ] | |============================>| | session-terminate | |<----------------------------| | ack | |---------------------------->| | | ]]>

First the initiator sends a Jingle session-initiate.

This is a test. If this were a real file... ]]>

Note: Inclusion of the <range/> child of the <file/> element indicates that the initiatior supports ranged transfers as described below under Ranged Transfers.

Note: Computing the hash of the file before sending it can slow down the process of file transfer, since the sending application needs to process the file twice. The sender might prefer to send the hash after the file transfer has begun, using a transport-info message as described under Communicating the Hash.

The responder immediately acknowledges receipt of the Jingle session-initiate.

]]>

The initiator then attempts to initiate a SOCKS5 Bytestream with the responder as described in XEP-0260 and XEP-0065. In the meantime, the responder returns a Jingle session-accept. In the session-accept message, the <file/> element MAY contain a <range/> element to indicate that the receiver also supports ranged transfers as described below under Ranged Transfers.

This is a test. If this were a real file... ]]>

The initiator acknowledges the Jingle session-accept.

]]>

Once one client has successfully created a connection, it sends a <candidate-used/> element to the peer inside a Jingle transport-info message. If a client receives a candidate-used notification it SHOULD continue trying to connect to candidates sent by its peer if it has not tried all candidates with a higher priority than the one successfully used by the peer.

]]>

The peer immediately acknowledges receipt.

]]>

(See XEP-0260 for further details.)

Now the parties exchange the file using the negotiated transport (here, SOCKS5 Bytestreams).

Once the transfer is completed, either party can acknowledge completion (see Sending Multiple Files) or terminate the Jingle session; preferably this is done by the entity that receives the file to ensure that the complete file (up to the advertised size) has been received.

]]>

For a description of the transport fallback scenario (from SOCKS5 Bytestreams to In-Band Bytestreams), refer to XEP-0260.

At any time during the lifetime of the file transfer session, the hosting entity (i.e., the entity where the file resides) can communicate the hash of the file to the receiving entity. This is done by sending a session-info message containing a <hash/> element qualified by the 'urn:xmpp:jingle:apps:file-transfer:info:2' namespace. The XML character data of this <hash/> element has the same meaning as the 'hash' attribute of the <file/> element qualified by the 'http://jabber.org/protocol/si/profile/file-transfer' namespace from XEP-0096; that is, it is a checksum of the file contents produced in accordance with the hashing function specified by the 'algo' attribute, which MUST be one of the functions listed in the &ianahashes;. For historical reasons and for backward-compatibility with XEP-0096, the 'algo' attribute defaults to a value of "md5".

552da749930852c69ae5d2141d3766b1 ]]>

If the entity that hosts a file has advertised its existence (or if a previous file transfer attempt has failed and the receiver would like to initiate another attempt), the entity that wishes to receive the file can "pull" the file from the hosting entity. This is done by sending a Jingle session-initiate to the hosting entity, including a &DESCRIPTION; element qualified by the 'urn:xmpp:jingle:apps:file-transfer:2' namespace and containing a <request/> element that defines the requested file.

]]>

The parties would then complete a session negotiation flow similar to that outlined above for offering a file.

Note: If the requesting entity knows the hash of the file, it can include only that metadata in its request. If not, the requesting entity needs to include enough metadata to uniquely identify the file, such as the date, name, and size. For similar considerations, see &rfc5547;.

As in XEP-0096, a transfer can include only part of a file (e.g., to restart delivery of a truncated transfer session at a point other than the start of the file). This is done using the <range/> element from XEP-0096. The usage is illustrated in the following examples.

Let us imagine that the parties negotiate a file transfer session using, say, In-Band Bytestreams. During the transfer, the recipient goes offline unexpectedly and IBB stanzas from the sender to the recipient begin to bounce. When the recipient comes back online, the recipient could initiate a new Jingle session (to retrieve the file) and specify that it wants to receive all chunks after byte 270336 (which might be the 66th chunk of size 4096).

]]>

Alternatively, the sender could initiate a new file transfer, indicating that it supports ranged transfers, and in the Jingle session-accept message the receiver could indicate that it wants the transfer to begin at the specified offset.

The initiator can send multiple files by including multiple <file/> elements in its session-initiate message.

]]>

The parties would negotiate the file transfer session as previously described.

After exchange of the first file, the recipient SHOULD send a Jingle session-info message indicating receipt of the complete file.

]]>

The hosting entity SHOULD NOT wait for arrival of the <received/> acknowledgement before starting to send the next file in its list.

After the recipient has received all of the files, it SHOULD send a final acknowledgement and then terminate the session.

OPEN ISSUE: Provide a way for the hosting entity to add more files to the original "manifest"?

Jingle file transfer uses only a few of the actions defined in XEP-0166. Jingle usage is summarized in the following table.

Action Use
content-accept Unused
content-add Unused
content-modify Unused
content-reject Unused
content-remove Unused
description-info Unused
security-info Unused
session-accept Accepting a file offer or request
session-info Communicating the file hash
session-initiate Initiating a file offer or request
session-terminate Ending a file transfer session
transport-accept Accepting fallback from S5B to IBB
transport-info Used in SOCKS5 Bytestreams
transport-reject Rejecting fallback from S5B to IBB
transport-replace Fallback from S5B to IBB

All implementations MUST support the Jingle In-Band Bytestreams Transport Method (XEP-0261) as a reliable method of last resort. An implementation SHOULD support other transport methods as well, especially the Jingle SOCKS5 Bytestreams Transport Method (XEP-0260).

An application MAY present transport methods in any order, except that the Jingle In-Band Bytestreams Transport Method MUST be the lowest preference.

Support for Jingle file transfer can be determined through discovery of the 'urn:xmpp:jingle:apps:file-transfer:2' namespace &VNOTE;, via either service discovery (XEP-0030) or entity capabilities (XEP-0115). If the initiator knows that the responder supports Jingle file transfer, it SHOULD first attempt negotiation using Jingle rather than Stream Initiation.

For historical reasons and for backward-compatibility with XEP-0096, the hashing algorithm used in computing the file checksum defaults to MD5. It is RECOMMENDED for implementations to use stronger hashing algorithms.

In order to secure the data stream, implementations SHOULD use encryption methods appropriate to the transport method being used. For example, end-to-end encryption can be negotiated over either SOCKS5 Bytestreams or In-Band Bytestreams as described in XEP-0260 and XEP-0261.

Refer to XEP-0047, XEP-0065, XEP-0096, XEP-0260, and XEP-0261 for related security considerations.

No interaction with &IANA; is required as a result of this document.

This specification defines the following XML namespace:

  • urn:xmpp:jingle:apps:file-transfer:2

Upon advancement of this specification from a status of Experimental to a status of Draft, the ®ISTRAR; shall add the foregoing namespace to the registry located at &NAMESPACES;, as described in Section 4 of &xep0053;.

&NSVER;

The XMPP Registrar shall include "file-transfer" in its registry of Jingle application formats. The registry submission is as follows:

file-transfer Jingle sessions for the transfer of a file streaming XEP-0234 ]]>
]]> ]]>

Thanks to Diana Cionoiu, Olivier Crête, Justin Karneges, Steffen Larsen, Yann Leboulanger, Marcus Lundblad, Joe Maissel, Robert McQueen, Ali Sabil, Sjoerd Simons, Will Thompson, Matthew Wild, and Jiří Zárevúcky for their feedback.