forked from premiere/premiere-libtorrent
203 lines
11 KiB
ReStructuredText
203 lines
11 KiB
ReStructuredText
:Author: Arvid Norberg, arvid@rasterbar.com
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Ludvig Strigeus, ludde@utorrent.com
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extension protocol for bittorrent
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=================================
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The intention of this protocol is to provide a simple and thin transport
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for extensions to the bittorrent protocol. Supporting this protocol makes
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it easy to add new extensions without interfering with the standard
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bittorrent protocol or clients that don't support this extension or the
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one you want to add.
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To advertise to other clients that you support, one bit from the reserved
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bytes is used.
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The bit selected for the extension protocol is bit 20 from the right (counting
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starts at 0). So (reserved_byte[5] & 0x10) is the expression to use for checking
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if the client supports extended messaging.
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Once support for the protocol is established, the client is supposed to
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support 1 new message:
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+------------------------+----+
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|name | id |
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+========================+====+
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|``extended`` | 20 |
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+------------------------+----+
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This message is sent as any other bittorrent message, with a 4 byte length
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prefix and a single byte identifying the message (the single byte being 20
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in this case). At the start of the payload of the message, is a single byte
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message identifier. This identifier can refer to different extension messages
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and only one ID is specified, 0. If the ID is 0, the message is a handshake
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message which is described below. The layout of a general ``extended`` message
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follows (including the message headers used by the bittorrent protocol):
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+----------+---------------------------------------------------------+
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| size | description |
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+==========+=========================================================+
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| uint32_t | length prefix. Specifies the number of bytes for the |
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| | entire message. (Big endian) |
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+----------+---------------------------------------------------------+
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| uint8_t | bittorrent message ID, = 20 |
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+----------+---------------------------------------------------------+
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| uint8_t | extended message ID. 0 = handshake, >0 = extended |
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| | message as specified by the handshake. |
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+----------+---------------------------------------------------------+
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handshake message
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-----------------
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The payload of the handshake message is a bencoded dictionary. All items
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in the dictionary are optional. Any unknown names should be ignored
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by the client. All parts of the dictionary are case sensitive.
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This is the defined item in the dictionary:
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+-------+-----------------------------------------------------------+
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| name | description |
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+=======+===========================================================+
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| m | Dictionary of supported extension messages which maps |
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| | names of extensions to an extended message ID for each |
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| | extension message. The only requirement on these IDs |
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| | is that no extension message share the same one. Setting |
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| | an extension number to zero means that the extension is |
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| | not supported/disabled. The client should ignore any |
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| | extension names it doesn't recognize. |
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| | |
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| | The extension message IDs are the IDs used to send the |
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| | extension messages to the peer sending this handshake. |
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| | i.e. The IDs are local to this particular peer. |
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+-------+-----------------------------------------------------------+
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Here are some other items that an implementation may choose to support:
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+--------+-----------------------------------------------------------+
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| name | description |
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+========+===========================================================+
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| p | Local TCP listen port. Allows each side to learn about |
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| | the TCP port number of the other side. Note that there is |
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| | no need for the receiving side of the connection to send |
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| | this extension message, since its port number is already |
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| | known. |
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+--------+-----------------------------------------------------------+
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| v | Client name and version (as a utf-8 string). |
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| | This is a much more reliable way of identifying the |
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| | client than relying on the peer id encoding. |
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+--------+-----------------------------------------------------------+
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| yourip | A string containing the compact representation of the ip |
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| | address this peer sees you as. i.e. this is the |
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| | receiver's external ip address (no port is included). |
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| | This may be either an IPv4 (4 bytes) or an IPv6 |
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| | (16 bytes) address. |
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+--------+-----------------------------------------------------------+
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| ipv6 | If this peer has an IPv6 interface, this is the compact |
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| | representation of that address (16 bytes). The client may |
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| | prefer to connect back via the IPv6 address. |
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+--------+-----------------------------------------------------------+
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| ipv4 | If this peer has an IPv4 interface, this is the compact |
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| | representation of that address (4 bytes). The client may |
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| | prefer to connect back via this interface. |
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+--------+-----------------------------------------------------------+
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| reqq | An integer, the number of outstanding request messages |
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| | this client supports without dropping any. The default in |
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| | in libtorrent is 250. |
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+--------+-----------------------------------------------------------+
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The handshake dictionary could also include extended handshake
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information, such as support for encrypted headers or anything
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imaginable.
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An example of what the payload of a handshake message could look like:
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+------------------------------------------------------+
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| Dictionary |
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+===================+==================================+
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| ``m`` | +--------------------------+ |
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| | | Dictionary | |
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| | +======================+===+ |
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| | | ``LT_metadata`` | 1 | |
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| | +----------------------+---+ |
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| | | ``ut_pex`` | 2 | |
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| | +----------------------+---+ |
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| | |
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+-------------------+----------------------------------+
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| ``p`` | 6881 |
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+-------------------+----------------------------------+
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| ``v`` | "<22>Torrent 1.2" |
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+-------------------+----------------------------------+
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and in the encoded form:
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``d1:md11:LT_metadatai1e6:<3A>T_PEXi2ee1:pi6881e1:v13:\xc2\xb5Torrent 1.2e``
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To make sure the extension names do not collide by mistake, they should be
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prefixed with the two (or one) character code that is used to identify the
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client that introduced the extension. This applies for both the names of
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extension messages, and for any additional information put inside the
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top-level dictionary. All one and two byte identifiers are invalid to use
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unless defined by this specification.
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This message should be sent immediately after the standard bittorrent handshake
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to any peer that supports this extension protocol. It is valid to send the
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handshake message more than once during the lifetime of a connection,
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the sending client should not be disconnected. An implementation may choose
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to ignore the subsequent handshake messages (or parts of them).
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Subsequent handshake messages can be used to enable/disable extensions
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without restarting the connection. If a peer supports changing extensions
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at run time, it should note that the ``m`` dictionary is additive.
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It's enough that it contains the actual *CHANGES* to the extension list.
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To disable the support for ``LT_metadata`` at run-time, without affecting
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any other extensions, this message should be sent:
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``d11:LT_metadatai0ee``.
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As specified above, the value 0 is used to turn off an extension.
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The extension IDs must be stored for every peer, becuase every peer may have
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different IDs for the same extension.
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This specification, deliberately, does not specify any extensions such as
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peer-exchange or metadata exchange. This protocol is merely a transport
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for the actual extensions to the bittorrent protocol and the extensions
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named in the example above (such as ``p``) are just examples of possible
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extensions.
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rationale
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---------
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The reason why the extension messages' IDs would be defined in the handshake
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is to avoid having a global registry of message IDs. Instead the names of the
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extension messages requires unique names, which is much easier to do without
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a global registry. The convention is to use a two letter prefix on the
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extension message names, the prefix would identify the client first
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implementing the extension message. e.g. ``LT_metadata`` is implemented by
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libtorrent, and hence it has the ``LT`` prefix.
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If the client supporting the extensions can decide which numbers the messages
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it receives will have, it means they are constants within that client. i.e.
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they can be used in ``switch`` statements. It's easy for the other end to
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store an array with the ID's we expect for each message and use that for
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lookups each time it sends an extension message.
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The reason for having a dictionary instead of having an array (using
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implicitly assigned index numbers to the extensions) is that if a client
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want to disable some extensions, the ID numbers would change, and it wouldn't
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be able to use constants (and hence, not use them in a ``switch``). If the
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messages IDs would map directly to bittorrent message IDs, It would also make
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it possible to map extensions in the handshake to existing extensions with
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fixed message IDs.
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The reasoning behind having a single byte as extended message identifier is
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to follow the the bittorrent spec. with its single byte message identifiers.
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It is also considered to be enough. It won't limit the total number of
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extensions, only the number of extensions used simultaneously.
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The reason for using single byte identifiers for the standardized handshake
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identifiers is 1) The mainline DHT uses single byte identifiers. 2) Saves
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bandwidth. The only advantage of longer messages is that it makes the
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protocol more readable for a human, but the BT protocol wasn't designed to
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be a human readable protocol, so why bother.
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