premiere-libtorrent/include/libtorrent/extensions.hpp

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/*
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Copyright (c) 2006-2018, Arvid Norberg
All rights reserved.
Redistribution and use in source and binary forms, with or without
modification, are permitted provided that the following conditions
are met:
* Redistributions of source code must retain the above copyright
notice, this list of conditions and the following disclaimer.
* Redistributions in binary form must reproduce the above copyright
notice, this list of conditions and the following disclaimer in
the documentation and/or other materials provided with the distribution.
* Neither the name of the author nor the names of its
contributors may be used to endorse or promote products derived
from this software without specific prior written permission.
THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS"
AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER OR CONTRIBUTORS BE
LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR
CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF
SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS
INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN
CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE)
ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE
POSSIBILITY OF SUCH DAMAGE.
*/
#ifndef TORRENT_EXTENSIONS_HPP_INCLUDED
#define TORRENT_EXTENSIONS_HPP_INCLUDED
#include "libtorrent/units.hpp"
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#include "libtorrent/flags.hpp"
#include "libtorrent/peer_info.hpp" // for peer_source_flags_t
#include "libtorrent/torrent_status.hpp" // for torrent_status::state_t
// OVERVIEW
//
// libtorrent has a plugin interface for implementing extensions to the protocol.
// These can be general extensions for transferring metadata or peer exchange
// extensions, or it could be used to provide a way to customize the protocol
// to fit a particular (closed) network.
//
// In short, the plugin interface makes it possible to:
//
// * register extension messages (sent in the extension handshake), see
// extensions_.
// * add data and parse data from the extension handshake.
// * send extension messages and standard bittorrent messages.
// * override or block the handling of standard bittorrent messages.
// * save and restore state via the session state
// * see all alerts that are posted
//
// .. _extensions: extension_protocol.html
//
// a word of caution
// -----------------
//
// Writing your own plugin is a very easy way to introduce serious bugs such as
// dead locks and race conditions. Since a plugin has access to internal
// structures it is also quite easy to sabotage libtorrent's operation.
//
// All the callbacks are always called from the libtorrent network thread. In
// case portions of your plugin are called from other threads, typically the main
// thread, you cannot use any of the member functions on the internal structures
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// in libtorrent, since those require being called from the libtorrent network
// thread . Furthermore, you also need to synchronize your own shared data
// within the plugin, to make sure it is not accessed at the same time from the
// libtorrent thread (through a callback). If you need to send out a message
// from another thread, it is advised to use an internal queue, and do the
// actual sending in ``tick()``.
//
// Since the plugin interface gives you easy access to internal structures, it
// is not supported as a stable API. Plugins should be considered specific to a
// specific version of libtorrent. Although, in practice the internals mostly
// don't change that dramatically.
//
//
// plugin-interface
// ================
//
// The plugin interface consists of three base classes that the plugin may
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// implement. These are called plugin, torrent_plugin and peer_plugin.
// They are found in the ``<libtorrent/extensions.hpp>`` header.
//
// These plugins are instantiated for each session, torrent and possibly each peer,
// respectively.
//
// For plugins that only need per torrent state, it is enough to only implement
// ``torrent_plugin`` and pass a constructor function or function object to
// ``session::add_extension()`` or ``torrent_handle::add_extension()`` (if the
// torrent has already been started and you want to hook in the extension at
// run-time).
//
// The signature of the function is:
//
// .. code:: c++
//
// std::shared_ptr<torrent_plugin> (*)(torrent_handle const&, void*);
//
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// The second argument is the userdata passed to ``session::add_torrent()`` or
// ``torrent_handle::add_extension()``.
//
// The function should return a ``std::shared_ptr<torrent_plugin>`` which
// may or may not be 0. If it is a nullptr, the extension is simply ignored
// for this torrent. If it is a valid pointer (to a class inheriting
// ``torrent_plugin``), it will be associated with this torrent and callbacks
// will be made on torrent events.
//
// For more elaborate plugins which require session wide state, you would
// implement ``plugin``, construct an object (in a ``std::shared_ptr``) and pass
// it in to ``session::add_extension()``.
//
// custom alerts
// =============
//
// Since plugins are running within internal libtorrent threads, one convenient
// way to communicate with the client is to post custom alerts.
//
// The expected interface of any alert, apart from deriving from the alert
// base class, looks like this:
//
// .. parsed-literal::
//
// static const int alert_type = *<unique alert ID>*;
// virtual int type() const { return alert_type; }
//
// virtual std::string message() const;
//
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// static const alert_category_t static_category = *<bitmask of alert::category_t flags>*;
// virtual alert_category_t category() const { return static_category; }
//
// virtual char const* what() const { return *<string literal of the name of this alert>*; }
//
// The ``alert_type`` is used for the type-checking in ``alert_cast``. It must
// not collide with any other alert. The built-in alerts in libtorrent will
// not use alert type IDs greater than ``user_alert_id``. When defining your
// own alert, make sure it's greater than this constant.
//
// ``type()`` is the run-time equivalence of the ``alert_type``.
//
// The ``message()`` virtual function is expected to construct a useful
// string representation of the alert and the event or data it represents.
// Something convenient to put in a log file for instance.
//
// ``clone()`` is used internally to copy alerts. The suggested implementation
// of simply allocating a new instance as a copy of ``*this`` is all that's
// expected.
//
// The static category is required for checking whether or not the category
// for a specific alert is enabled or not, without instantiating the alert.
// The ``category`` virtual function is the run-time equivalence.
//
// The ``what()`` virtual function may simply be a string literal of the class
// name of your alert.
//
// For more information, see the `alert section`_.
//
// .. _`alert section`: reference-Alerts.html
#include <vector>
#include "libtorrent/config.hpp"
#include "libtorrent/fwd.hpp"
#include "libtorrent/span.hpp"
#include "libtorrent/sha1_hash.hpp"
#include "libtorrent/string_view.hpp"
#include "libtorrent/socket.hpp"
#include "libtorrent/error_code.hpp"
namespace libtorrent {
#ifndef TORRENT_DISABLE_EXTENSIONS
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// these are flags that can be returned by implemented_features()
// indicating which callbacks this plugin is interested in
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using feature_flags_t = flags::bitfield_flag<std::uint8_t, struct feature_flags_tag>;
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// this is the base class for a session plugin. One primary feature
// is that it is notified of all torrents that are added to the session,
// and can add its own torrent_plugins.
struct TORRENT_EXPORT plugin
{
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// hidden
virtual ~plugin() {}
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// include this bit if your plugin needs to alter the order of the
// optimistic unchoke of peers. i.e. have the on_optimistic_unchoke()
// callback be called.
static constexpr feature_flags_t optimistic_unchoke_feature = 1_bit;
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// include this bit if your plugin needs to have on_tick() called
static constexpr feature_flags_t tick_feature = 2_bit;
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// include this bit if your plugin needs to have on_dht_request()
// called
static constexpr feature_flags_t dht_request_feature = 3_bit;
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// include this bit if your plugin needs to have on_alert()
// called
static constexpr feature_flags_t alert_feature = 4_bit;
// This function is expected to return a bitmask indicating which features
// this plugin implements. Some callbacks on this object may not be called
// unless the corresponding feature flag is returned here. Note that
// callbacks may still be called even if the corresponding feature is not
// specified in the return value here. See feature_flags_t for possible
// flags to return.
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virtual feature_flags_t implemented_features() { return {}; }
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// this is called by the session every time a new torrent is added.
// The ``torrent*`` points to the internal torrent object created
// for the new torrent. The ``void*`` is the userdata pointer as
// passed in via add_torrent_params.
//
// If the plugin returns a torrent_plugin instance, it will be added
// to the new torrent. Otherwise, return an empty shared_ptr to a
// torrent_plugin (the default).
virtual std::shared_ptr<torrent_plugin> new_torrent(torrent_handle const&, void*)
{ return std::shared_ptr<torrent_plugin>(); }
// called when plugin is added to a session
virtual void added(session_handle const&) {}
// called when a dht request is received.
// If your plugin expects this to be called, make sure to include the flag
// ``dht_request_feature`` in the return value from implemented_features().
virtual bool on_dht_request(string_view /* query */
, udp::endpoint const& /* source */, bdecode_node const& /* message */
, entry& /* response */)
{ return false; }
// called when an alert is posted alerts that are filtered are not posted.
// If your plugin expects this to be called, make sure to include the flag
// ``alert_feature`` in the return value from implemented_features().
virtual void on_alert(alert const*) {}
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// return true if the add_torrent_params should be added
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virtual bool on_unknown_torrent(sha1_hash const& /* info_hash */
, peer_connection_handle const& /* pc */, add_torrent_params& /* p */)
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{ return false; }
// called once per second.
// If your plugin expects this to be called, make sure to include the flag
// ``tick_feature`` in the return value from implemented_features().
virtual void on_tick() {}
// called when choosing peers to optimistically unchoke. The return value
// indicates the peer's priority for unchoking. Lower return values
// correspond to higher priority. Priorities above 2^63-1 are reserved.
// If your plugin has no priority to assign a peer it should return 2^64-1.
// If your plugin expects this to be called, make sure to include the flag
// ``optimistic_unchoke_feature`` in the return value from implemented_features().
// If multiple plugins implement this function the lowest return value
// (i.e. the highest priority) is used.
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virtual uint64_t get_unchoke_priority(peer_connection_handle const& /* peer */)
{ return (std::numeric_limits<uint64_t>::max)(); }
// called when saving settings state
virtual void save_state(entry&) {}
// called when loading settings state
virtual void load_state(bdecode_node const&) {}
};
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using add_peer_flags_t = flags::bitfield_flag<std::uint8_t, struct add_peer_flags_tag>;
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// Torrent plugins are associated with a single torrent and have a number
// of functions called at certain events. Many of its functions have the
// ability to change or override the default libtorrent behavior.
struct TORRENT_EXPORT torrent_plugin
{
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// hidden
virtual ~torrent_plugin() {}
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// This function is called each time a new peer is connected to the torrent. You
// may choose to ignore this by just returning a default constructed
// ``shared_ptr`` (in which case you don't need to override this member
// function).
//
// If you need an extension to the peer connection (which most plugins do) you
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// are supposed to return an instance of your peer_plugin class. Which in
// turn will have its hook functions called on event specific to that peer.
//
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// The ``peer_connection_handle`` will be valid as long as the ``shared_ptr``
// is being held by the torrent object. So, it is generally a good idea to not
// keep a ``shared_ptr`` to your own peer_plugin. If you want to keep references
// to it, use ``weak_ptr``.
//
// If this function throws an exception, the connection will be closed.
virtual std::shared_ptr<peer_plugin> new_connection(peer_connection_handle const&)
{ return std::shared_ptr<peer_plugin>(); }
// These hooks are called when a piece passes the hash check or fails the hash
// check, respectively. The ``index`` is the piece index that was downloaded.
// It is possible to access the list of peers that participated in sending the
// piece through the ``torrent`` and the ``piece_picker``.
virtual void on_piece_pass(piece_index_t) {}
virtual void on_piece_failed(piece_index_t) {}
// This hook is called approximately once per second. It is a way of making it
// easy for plugins to do timed events, for sending messages or whatever.
virtual void tick() {}
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// These hooks are called when the torrent is paused and resumed respectively.
// The return value indicates if the event was handled. A return value of
// ``true`` indicates that it was handled, and no other plugin after this one
// will have this hook function called, and the standard handler will also not be
// invoked. So, returning true effectively overrides the standard behavior of
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// pause or resume.
//
// Note that if you call ``pause()`` or ``resume()`` on the torrent from your
// handler it will recurse back into your handler, so in order to invoke the
// standard handler, you have to keep your own state on whether you want standard
// behavior or overridden behavior.
virtual bool on_pause() { return false; }
virtual bool on_resume() { return false; }
// This function is called when the initial files of the torrent have been
// checked. If there are no files to check, this function is called immediately.
//
// i.e. This function is always called when the torrent is in a state where it
// can start downloading.
virtual void on_files_checked() {}
// called when the torrent changes state
// the state is one of torrent_status::state_t
// enum members
virtual void on_state(torrent_status::state_t) {}
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// called every time policy::add_peer is called
// src is a bitmask of which sources this peer
// has been seen from. flags is a bitmask of:
// this is the first time we see this peer
static constexpr add_peer_flags_t first_time = 1_bit;
// this peer was not added because it was
// filtered by the IP filter
static constexpr add_peer_flags_t filtered = 2_bit;
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// called every time a new peer is added to the peer list.
// This is before the peer is connected to. For ``flags``, see
// torrent_plugin::flags_t. The ``source`` argument refers to
// the source where we learned about this peer from. It's a
// bitmask, because many sources may have told us about the same
// peer. For peer source flags, see peer_info::peer_source_flags.
virtual void on_add_peer(tcp::endpoint const&,
peer_source_flags_t, add_peer_flags_t) {}
};
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// peer plugins are associated with a specific peer. A peer could be
// both a regular bittorrent peer (``bt_peer_connection``) or one of the
// web seed connections (``web_peer_connection`` or ``http_seed_connection``).
// In order to only attach to certain peers, make your
// torrent_plugin::new_connection only return a plugin for certain peer
// connection types
struct TORRENT_EXPORT peer_plugin
{
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// hidden
virtual ~peer_plugin() {}
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// This function is expected to return the name of
// the plugin.
virtual string_view type() const { return {}; }
// can add entries to the extension handshake
// this is not called for web seeds
virtual void add_handshake(entry&) {}
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// called when the peer is being disconnected.
virtual void on_disconnect(error_code const&) {}
// called when the peer is successfully connected. Note that
// incoming connections will have been connected by the time
// the peer plugin is attached to it, and won't have this hook
// called.
virtual void on_connected() {}
// throwing an exception from any of the handlers (except add_handshake)
// closes the connection
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// this is called when the initial bittorrent handshake is received.
// Returning false means that the other end doesn't support this extension
// and will remove it from the list of plugins. this is not called for web
// seeds
virtual bool on_handshake(span<char const>) { return true; }
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// called when the extension handshake from the other end is received
// if this returns false, it means that this extension isn't
// supported by this peer. It will result in this peer_plugin
// being removed from the peer_connection and destructed.
// this is not called for web seeds
virtual bool on_extension_handshake(bdecode_node const&) { return true; }
// returning true from any of the message handlers
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// indicates that the plugin has handled the message.
// it will break the plugin chain traversing and not let
// anyone else handle the message, including the default
// handler.
virtual bool on_choke() { return false; }
virtual bool on_unchoke() { return false; }
virtual bool on_interested() { return false; }
virtual bool on_not_interested() { return false; }
virtual bool on_have(piece_index_t) { return false; }
virtual bool on_dont_have(piece_index_t) { return false; }
virtual bool on_bitfield(bitfield const& /*bitfield*/) { return false; }
virtual bool on_have_all() { return false; }
virtual bool on_have_none() { return false; }
virtual bool on_allowed_fast(piece_index_t) { return false; }
virtual bool on_request(peer_request const&) { return false; }
// This function is called when the peer connection is receiving
// a piece. ``buf`` points (non-owning pointer) to the data in an
// internal immutable disk buffer. The length of the data is specified
// in the ``length`` member of the ``piece`` parameter.
// returns true to indicate that the piece is handled and the
// rest of the logic should be ignored.
virtual bool on_piece(peer_request const& /*piece*/
, span<char const> /*buf*/) { return false; }
virtual bool on_cancel(peer_request const&) { return false; }
virtual bool on_reject(peer_request const&) { return false; }
virtual bool on_suggest(piece_index_t) { return false; }
// called after a choke message has been sent to the peer
virtual void sent_unchoke() {}
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// called after piece data has been sent to the peer
// this can be used for stats book keeping
virtual void sent_payload(int /* bytes */) {}
// called when libtorrent think this peer should be disconnected.
// if the plugin returns false, the peer will not be disconnected.
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virtual bool can_disconnect(error_code const& /*ec*/) { return true; }
// called when an extended message is received. If returning true,
// the message is not processed by any other plugin and if false
// is returned the next plugin in the chain will receive it to
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// be able to handle it. This is not called for web seeds.
// thus function may be called more than once per incoming message, but
// only the last of the calls will the ``body`` size equal the ``length``.
// i.e. Every time another fragment of the message is received, this
// function will be called, until finally the whole message has been
// received. The purpose of this is to allow early disconnects for invalid
// messages and for reporting progress of receiving large messages.
virtual bool on_extended(int /*length*/, int /*msg*/,
span<char const> /*body*/)
{ return false; }
// this is not called for web seeds
virtual bool on_unknown_message(int /*length*/, int /*msg*/,
span<char const> /*body*/)
{ return false; }
// called when a piece that this peer participated in either
// fails or passes the hash_check
virtual void on_piece_pass(piece_index_t) {}
virtual void on_piece_failed(piece_index_t) {}
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// called approximately once every second
virtual void tick() {}
// called each time a request message is to be sent. If true
// is returned, the original request message won't be sent and
// no other plugin will have this function called.
virtual bool write_request(peer_request const&) { return false; }
};
#endif // TORRENT_DISABLE_EXTENSIONS
#if !defined TORRENT_DISABLE_ENCRYPTION
struct TORRENT_EXPORT crypto_plugin
{
// hidden
virtual ~crypto_plugin() {}
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virtual void set_incoming_key(span<char const> key) = 0;
virtual void set_outgoing_key(span<char const> key) = 0;
// encrypted the provided buffers and returns the number of bytes which
// are now ready to be sent to the lower layer. This must be at least
// as large as the number of bytes passed in and may be larger if there
// is additional data to be inserted at the head of the send buffer.
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// The additional data is returned as the second tuple value. Any
// returned buffer as well as the iovec itself, to be prepended to the
// send buffer, must be owned by the crypto plugin and guaranteed to stay
// alive until the crypto_plugin is destructed or this function is called
// again.
virtual std::tuple<int, span<span<char const>>>
encrypt(span<span<char>> /*send_vec*/) = 0;
// decrypt the provided buffers.
// returns is a tuple representing the values
// (consume, produce, packet_size)
//
// consume is set to the number of bytes which should be trimmed from the
// head of the buffers, default is 0
//
// produce is set to the number of bytes of payload which are now ready to
// be sent to the upper layer. default is the number of bytes passed in receive_vec
//
// packet_size is set to the minimum number of bytes which must be read to
// advance the next step of decryption. default is 0
virtual std::tuple<int, int, int> decrypt(span<span<char>> /*receive_vec*/) = 0;
};
#endif // TORRENT_DISABLE_ENCRYPTION
}
#endif // TORRENT_EXTENSIONS_HPP_INCLUDED