premiere-libtorrent/include/libtorrent/torrent.hpp

1164 lines
35 KiB
C++

/*
Copyright (c) 2003, 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_TORRENT_HPP_INCLUDE
#define TORRENT_TORRENT_HPP_INCLUDE
#include <algorithm>
#include <vector>
#include <set>
#include <list>
#ifdef _MSC_VER
#pragma warning(push, 1)
#endif
#include <boost/limits.hpp>
#include <boost/filesystem/path.hpp>
#include <boost/tuple/tuple.hpp>
#include <boost/enable_shared_from_this.hpp>
#include <boost/scoped_ptr.hpp>
#include <boost/intrusive_ptr.hpp>
#ifdef _MSC_VER
#pragma warning(pop)
#endif
#include "libtorrent/torrent_handle.hpp"
#include "libtorrent/entry.hpp"
#include "libtorrent/torrent_info.hpp"
#include "libtorrent/socket.hpp"
#include "libtorrent/policy.hpp"
#include "libtorrent/tracker_manager.hpp"
#include "libtorrent/stat.hpp"
#include "libtorrent/alert.hpp"
#include "libtorrent/piece_picker.hpp"
#include "libtorrent/config.hpp"
#include "libtorrent/escape_string.hpp"
#include "libtorrent/bandwidth_limit.hpp"
#include "libtorrent/bandwidth_queue_entry.hpp"
#include "libtorrent/storage.hpp"
#include "libtorrent/hasher.hpp"
#include "libtorrent/assert.hpp"
#include "libtorrent/bitfield.hpp"
#include "libtorrent/aux_/session_impl.hpp"
#include "libtorrent/deadline_timer.hpp"
namespace libtorrent
{
#if defined(TORRENT_VERBOSE_LOGGING) || defined(TORRENT_LOGGING)
struct logger;
#endif
class piece_manager;
struct torrent_plugin;
struct bitfield;
struct announce_entry;
struct tracker_request;
struct add_torrent_params;
namespace aux
{
struct session_impl;
struct piece_checker_data;
}
struct web_seed_entry
{
std::string url;
// http seeds are different from url seeds in the
// protocol they use. http seeds follows the original
// http seed spec. by John Hoffman
enum type_t { url_seed, http_seed} type;
web_seed_entry(std::string const& url_, type_t type_)
: url(url_), type(type_) {}
bool operator==(web_seed_entry const& e) const
{ return url == e.url && type == e.type; }
bool operator<(web_seed_entry const& e) const
{ return url < e.url ? true : type < e.type; }
};
namespace fs = boost::filesystem;
// a torrent is a class that holds information
// for a specific download. It updates itself against
// the tracker
class TORRENT_EXPORT torrent: public request_callback
, public boost::enable_shared_from_this<torrent>
{
public:
torrent(aux::session_impl& ses, tcp::endpoint const& net_interface
, int block_size, int seq, add_torrent_params const& p);
~torrent();
#ifndef TORRENT_DISABLE_ENCRYPTION
sha1_hash const& obfuscated_hash() const
{ return m_obfuscated_hash; }
#endif
sha1_hash const& info_hash() const
{ return m_torrent_file->info_hash(); }
// starts the announce timer
void start();
#ifndef TORRENT_DISABLE_EXTENSIONS
void add_extension(boost::shared_ptr<torrent_plugin>);
void add_extension(boost::function<boost::shared_ptr<torrent_plugin>(torrent*, void*)> const& ext
, void* userdata);
#endif
#ifdef TORRENT_DEBUG
bool has_peer(peer_connection* p) const
{ return m_connections.find(p) != m_connections.end(); }
#endif
// this is called when the torrent has metadata.
// it will initialize the storage and the piece-picker
void init();
void on_resume_data_checked(int ret, disk_io_job const& j);
void on_force_recheck(int ret, disk_io_job const& j);
void on_piece_checked(int ret, disk_io_job const& j);
void files_checked_lock();
void files_checked(mutex::scoped_lock const&);
void start_checking();
void start_announcing();
void stop_announcing();
void set_upload_mode(bool b);
bool upload_mode() const { return m_upload_mode; }
int seed_rank(session_settings const& s) const;
enum flags_t { overwrite_existing = 1 };
void add_piece(int piece, char const* data, int flags = 0);
void on_disk_write_complete(int ret, disk_io_job const& j
, peer_request p);
struct read_piece_struct
{
boost::shared_array<char> piece_data;
int blocks_left;
bool fail;
};
void read_piece(int piece);
void on_disk_read_complete(int ret, disk_io_job const& j, peer_request r, read_piece_struct* rp);
storage_mode_t storage_mode() const { return m_storage_mode; }
storage_interface* get_storage()
{
if (!m_owning_storage) return 0;
return m_owning_storage->get_storage_impl();
}
// this will flag the torrent as aborted. The main
// loop in session_impl will check for this state
// on all torrents once every second, and take
// the necessary actions then.
void abort();
bool is_aborted() const { return m_abort; }
torrent_status::state_t state() const { return m_state; }
void set_state(torrent_status::state_t s);
session_settings const& settings() const;
aux::session_impl& session() { return m_ses; }
void set_sequential_download(bool sd);
bool is_sequential_download() const
{ return m_sequential_download; }
void set_queue_position(int p);
int queue_position() const { return m_sequence_number; }
void second_tick(stat& accumulator, int tick_interval_ms);
std::string name() const;
stat statistics() const { return m_stat; }
void add_stats(stat const& s) { m_stat += s; }
size_type bytes_left() const;
int block_bytes_wanted(piece_block const& p) const;
void bytes_done(torrent_status& st) const;
size_type quantized_bytes_done() const;
void ip_filter_updated() { m_policy.ip_filter_updated(); }
void handle_disk_error(disk_io_job const& j, peer_connection* c = 0);
void clear_error();
void set_error(error_code const& ec, std::string const& file);
bool has_error() const { return m_error; }
void pause();
void resume();
ptime started() const { return m_started; }
void do_pause();
void do_resume();
bool is_paused() const;
bool is_torrent_paused() const { return m_paused; }
void force_recheck();
void save_resume_data();
bool is_auto_managed() const { return m_auto_managed; }
void auto_managed(bool a);
bool should_check_files() const;
void delete_files();
// ============ start deprecation =============
void filter_piece(int index, bool filter);
void filter_pieces(std::vector<bool> const& bitmask);
bool is_piece_filtered(int index) const;
void filtered_pieces(std::vector<bool>& bitmask) const;
void filter_files(std::vector<bool> const& files);
#if !TORRENT_NO_FPU
void file_progress(std::vector<float>& fp) const;
#endif
// ============ end deprecation =============
void piece_availability(std::vector<int>& avail) const;
void set_piece_priority(int index, int priority);
int piece_priority(int index) const;
void prioritize_pieces(std::vector<int> const& pieces);
void piece_priorities(std::vector<int>&) const;
void set_file_priority(int index, int priority);
int file_priority(int index) const;
void prioritize_files(std::vector<int> const& files);
void file_priorities(std::vector<int>&) const;
void set_piece_deadline(int piece, time_duration t, int flags);
void update_piece_priorities();
torrent_status status() const;
void file_progress(std::vector<size_type>& fp, int flags = 0) const;
void use_interface(const char* net_interface);
tcp::endpoint const& get_interface() const { return m_net_interface; }
void connect_to_url_seed(web_seed_entry const& url);
bool connect_to_peer(policy::peer* peerinfo);
void set_ratio(float ratio)
{ TORRENT_ASSERT(ratio >= 0.0f); m_ratio = ratio; }
float ratio() const
{ return m_ratio; }
int priority() const { return m_priority; }
void set_priority(int prio)
{
TORRENT_ASSERT(prio <= 255 && prio >= 0);
if (prio > 255) prio = 255;
else if (prio < 0) prio = 0;
m_priority = prio;
}
#ifndef TORRENT_DISABLE_RESOLVE_COUNTRIES
void resolve_countries(bool r)
{ m_resolve_countries = r; }
bool resolving_countries() const { return m_resolve_countries; }
#endif
// --------------------------------------------
// BANDWIDTH MANAGEMENT
bandwidth_channel m_bandwidth_channel[2];
int bandwidth_throttle(int channel) const;
// --------------------------------------------
// PEER MANAGEMENT
// add or remove a url that will be attempted for
// finding the file(s) in this torrent.
void add_web_seed(std::string const& url, web_seed_entry::type_t type)
{ m_web_seeds.insert(web_seed_entry(url, type)); }
void remove_web_seed(std::string const& url, web_seed_entry::type_t type)
{ m_web_seeds.erase(web_seed_entry(url, type)); }
void retry_web_seed(std::string const& url, web_seed_entry::type_t type, int retry = 0);
std::set<web_seed_entry> web_seeds() const
{ return m_web_seeds; }
std::set<std::string> web_seeds(web_seed_entry::type_t type) const;
bool free_upload_slots() const
{ return m_num_uploads < m_max_uploads; }
bool choke_peer(peer_connection& c);
bool unchoke_peer(peer_connection& c);
// used by peer_connection to attach itself to a torrent
// since incoming connections don't know what torrent
// they're a part of until they have received an info_hash.
// false means attach failed
bool attach_peer(peer_connection* p);
// this will remove the peer and make sure all
// the pieces it had have their reference counter
// decreased in the piece_picker
void remove_peer(peer_connection* p);
void cancel_block(piece_block block);
bool want_more_peers() const;
bool try_connect_peer();
void give_connect_points(int points);
// the number of peers that belong to this torrent
int num_peers() const { return (int)m_connections.size(); }
int num_seeds() const;
typedef std::set<peer_connection*>::iterator peer_iterator;
typedef std::set<peer_connection*>::const_iterator const_peer_iterator;
const_peer_iterator begin() const { return m_connections.begin(); }
const_peer_iterator end() const { return m_connections.end(); }
peer_iterator begin() { return m_connections.begin(); }
peer_iterator end() { return m_connections.end(); }
void resolve_peer_country(boost::intrusive_ptr<peer_connection> const& p) const;
void get_full_peer_list(std::vector<peer_list_entry>& v) const;
void get_peer_info(std::vector<peer_info>& v);
void get_download_queue(std::vector<partial_piece_info>& queue);
// --------------------------------------------
// TRACKER MANAGEMENT
// these are callbacks called by the tracker_connection instance
// (either http_tracker_connection or udp_tracker_connection)
// when this torrent got a response from its tracker request
// or when a failure occured
virtual void tracker_response(
tracker_request const& r
, address const& tracker_ip
, std::list<address> const& ip_list
, std::vector<peer_entry>& e, int interval
, int complete, int incomplete, address const& external_ip);
virtual void tracker_request_timed_out(
tracker_request const& r);
virtual void tracker_request_error(tracker_request const& r
, int response_code, const std::string& str);
virtual void tracker_warning(tracker_request const& req
, std::string const& msg);
virtual void tracker_scrape_response(tracker_request const& req
, int complete, int incomplete, int downloaded);
// if no password and username is set
// this will return an empty string, otherwise
// it will concatenate the login and password
// ready to be sent over http (but without
// base64 encoding).
std::string tracker_login() const;
// returns the absolute time when the next tracker
// announce will take place.
ptime next_announce() const;
// forcefully sets next_announce to the current time
void force_tracker_request();
void force_tracker_request(ptime);
void scrape_tracker();
void announce_with_tracker(tracker_request::event_t e
= tracker_request::none
, address const& bind_interface = address_v4::any());
ptime const& last_scrape() const { return m_last_scrape; }
#ifndef TORRENT_DISABLE_DHT
void force_dht_announce();
#endif
// sets the username and password that will be sent to
// the tracker
void set_tracker_login(std::string const& name, std::string const& pw);
// the tcp::endpoint of the tracker that we managed to
// announce ourself at the last time we tried to announce
const tcp::endpoint& current_tracker() const;
announce_entry* find_tracker(tracker_request const& r);
// --------------------------------------------
// PIECE MANAGEMENT
void update_sparse_piece_prio(int piece, int cursor, int reverse_cursor);
bool super_seeding() const
{ return m_super_seeding; }
void super_seeding(bool on);
int get_piece_to_super_seed(bitfield const&);
// returns true if we have downloaded the given piece
bool have_piece(int index) const
{
return has_picker()?m_picker->have_piece(index):true;
}
// called when we learn that we have a piece
// only once per piece
void we_have(int index);
int num_have() const
{
return has_picker()
?m_picker->num_have()
:m_torrent_file->num_pieces();
}
// when we get a have message, this is called for that piece
void peer_has(int index)
{
if (m_picker.get())
{
TORRENT_ASSERT(!is_seed());
m_picker->inc_refcount(index);
}
#ifdef TORRENT_DEBUG
else
{
TORRENT_ASSERT(is_seed());
}
#endif
}
// when we get a bitfield message, this is called for that piece
void peer_has(bitfield const& bits)
{
if (m_picker.get())
{
TORRENT_ASSERT(!is_seed());
m_picker->inc_refcount(bits);
}
#ifdef TORRENT_DEBUG
else
{
TORRENT_ASSERT(is_seed());
}
#endif
}
void peer_has_all()
{
if (m_picker.get())
{
TORRENT_ASSERT(!is_seed());
m_picker->inc_refcount_all();
}
#ifdef TORRENT_DEBUG
else
{
TORRENT_ASSERT(is_seed());
}
#endif
}
void peer_lost(int index)
{
if (m_picker.get())
{
TORRENT_ASSERT(!is_seed());
m_picker->dec_refcount(index);
}
#ifdef TORRENT_DEBUG
else
{
TORRENT_ASSERT(is_seed());
}
#endif
}
int block_size() const { TORRENT_ASSERT(m_block_size > 0); return m_block_size; }
peer_request to_req(piece_block const& p);
void disconnect_all(error_code const& ec);
int disconnect_peers(int num);
// this is called wheh the torrent has completed
// the download. It will post an event, disconnect
// all seeds and let the tracker know we're finished.
void completed();
#if TORRENT_USE_I2P
void on_i2p_resolve(error_code const& ec, char const* dest);
#endif
// this is the asio callback that is called when a name
// lookup for a PEER is completed.
void on_peer_name_lookup(error_code const& e, tcp::resolver::iterator i
, peer_id pid);
// this is the asio callback that is called when a name
// lookup for a WEB SEED is completed.
void on_name_lookup(error_code const& e, tcp::resolver::iterator i
, web_seed_entry url, tcp::endpoint proxy);
// this is the asio callback that is called when a name
// lookup for a proxy for a web seed is completed.
void on_proxy_name_lookup(error_code const& e, tcp::resolver::iterator i
, web_seed_entry url);
// this is called when the torrent has finished. i.e.
// all the pieces we have not filtered have been downloaded.
// If no pieces are filtered, this is called first and then
// completed() is called immediately after it.
void finished();
// This is the opposite of finished. It is called if we used
// to be finished but enabled some files for download so that
// we wasn't finished anymore.
void resume_download();
void async_verify_piece(int piece_index, boost::function<void(int)> const&);
// this is called from the peer_connection
// each time a piece has failed the hash
// test
void piece_finished(int index, int passed_hash_check);
// piece_passed is called when a piece passes the hash check
// this will tell all peers that we just got his piece
// and also let the piece picker know that we have this piece
// so it wont pick it for download
void piece_passed(int index);
// piece_failed is called when a piece fails the hash check
void piece_failed(int index);
// this will restore the piece picker state for a piece
// by re marking all the requests to blocks in this piece
// that are still outstanding in peers' download queues.
// this is done when a piece fails
void restore_piece_state(int index);
void add_redundant_bytes(int b);
void add_failed_bytes(int b);
// this is true if we have all the pieces
bool is_seed() const
{
return valid_metadata()
&& (!m_picker
|| m_state == torrent_status::seeding
|| m_picker->num_have() == m_picker->num_pieces());
}
// this is true if we have all the pieces that we want
bool is_finished() const
{
if (is_seed()) return true;
return valid_metadata() && m_torrent_file->num_pieces()
- m_picker->num_have() - m_picker->num_filtered() == 0;
}
fs::path save_path() const;
alert_manager& alerts() const;
piece_picker& picker()
{
TORRENT_ASSERT(m_picker.get());
return *m_picker;
}
bool has_picker() const
{
return m_picker.get() != 0;
}
policy& get_policy() { return m_policy; }
piece_manager& filesystem();
torrent_info const& torrent_file() const
{ return *m_torrent_file; }
std::vector<announce_entry> const& trackers() const
{ return m_trackers; }
void replace_trackers(std::vector<announce_entry> const& urls);
void add_tracker(announce_entry const& url);
torrent_handle get_handle();
void write_resume_data(entry& rd) const;
void read_resume_data(lazy_entry const& rd);
// LOGGING
#if defined TORRENT_VERBOSE_LOGGING || defined TORRENT_LOGGING || defined TORRENT_ERROR_LOGGING
virtual void debug_log(const std::string& line);
#endif
// DEBUG
#ifdef TORRENT_DEBUG
void check_invariant() const;
#endif
// --------------------------------------------
// RESOURCE MANAGEMENT
void add_free_upload(int diff) { m_available_free_upload += diff; }
void set_peer_upload_limit(tcp::endpoint ip, int limit);
void set_peer_download_limit(tcp::endpoint ip, int limit);
void set_upload_limit(int limit);
int upload_limit() const;
void set_download_limit(int limit);
int download_limit() const;
void set_max_uploads(int limit);
int max_uploads() const { return m_max_uploads; }
void set_max_connections(int limit);
int max_connections() const { return m_max_connections; }
void move_storage(fs::path const& save_path);
// renames the file with the given index to the new name
// the name may include a directory path
// returns false on failure
bool rename_file(int index, std::string const& name);
// unless this returns true, new connections must wait
// with their initialization.
bool ready_for_connections() const
{ return m_connections_initialized; }
bool valid_metadata() const
{ return m_torrent_file->is_valid(); }
bool are_files_checked() const
{ return m_files_checked; }
// parses the info section from the given
// bencoded tree and moves the torrent
// to the checker thread for initial checking
// of the storage.
// a return value of false indicates an error
bool set_metadata(char const* metadata_buf, int metadata_size);
int sequence_number() const { return m_sequence_number; }
bool seed_mode() const { return m_seed_mode; }
void leave_seed_mode(bool seed)
{
if (!m_seed_mode) return;
m_seed_mode = false;
// seed is false if we turned out not
// to be a seed after all
if (!seed) force_recheck();
m_num_verified = 0;
m_verified.free();
}
bool all_verified() const
{ return m_num_verified == m_torrent_file->num_pieces(); }
bool verified_piece(int piece) const
{
TORRENT_ASSERT(piece < int(m_verified.size()));
TORRENT_ASSERT(piece >= 0);
return m_verified.get_bit(piece);
}
void verified(int piece)
{
TORRENT_ASSERT(piece < int(m_verified.size()));
TORRENT_ASSERT(piece >= 0);
TORRENT_ASSERT(m_verified.get_bit(piece) == false);
++m_num_verified;
m_verified.set_bit(piece);
}
bool add_merkle_nodes(std::map<int, sha1_hash> const& n, int piece);
private:
void on_files_deleted(int ret, disk_io_job const& j);
void on_files_released(int ret, disk_io_job const& j);
void on_torrent_paused(int ret, disk_io_job const& j);
void on_storage_moved(int ret, disk_io_job const& j);
void on_save_resume_data(int ret, disk_io_job const& j);
void on_file_renamed(int ret, disk_io_job const& j);
void on_piece_verified(int ret, disk_io_job const& j
, boost::function<void(int)> f);
int prioritize_tracker(int tracker_index);
int deprioritize_tracker(int tracker_index);
void on_country_lookup(error_code const& error, tcp::resolver::iterator i
, boost::intrusive_ptr<peer_connection> p) const;
bool request_bandwidth_from_session(int channel) const;
void update_peer_interest(bool was_finished);
void prioritize_udp_trackers();
void queue_torrent_check();
void dequeue_torrent_check();
policy m_policy;
// total time we've been available on this torrent
// does not count when the torrent is stopped or paused
time_duration m_active_time;
// total time we've been finished with this torrent
// does not count when the torrent is stopped or paused
time_duration m_finished_time;
// total time we've been available as a seed on this torrent
// does not count when the torrent is stopped or paused
time_duration m_seeding_time;
// all time totals of uploaded and downloaded payload
// stored in resume data
size_type m_total_uploaded;
size_type m_total_downloaded;
// if this torrent is running, this was the time
// when it was started. This is used to have a
// bias towards keeping seeding torrents that
// recently was started, to avoid oscillation
ptime m_started;
// the last time we initiated a scrape request to
// one of the trackers in this torrent
ptime m_last_scrape;
// the time when we switched to upload mode
ptime m_upload_mode_time;
boost::intrusive_ptr<torrent_info> m_torrent_file;
void parse_response(const entry& e, std::vector<peer_entry>& peer_list);
// if this pointer is 0, the torrent is in
// a state where the metadata hasn't been
// received yet.
// the piece_manager keeps the torrent object
// alive by holding a shared_ptr to it and
// the torrent keeps the piece manager alive
// with this intrusive_ptr. This cycle is
// broken when torrent::abort() is called
// Then the torrent releases the piece_manager
// and when the piece_manager is complete with all
// outstanding disk io jobs (that keeps
// the piece_manager alive) it will destruct
// and release the torrent file. The reason for
// this is that the torrent_info is used by
// the piece_manager, and stored in the
// torrent, so the torrent cannot destruct
// before the piece_manager.
boost::intrusive_ptr<piece_manager> m_owning_storage;
// this is a weak (non owninig) pointer to
// the piece_manager. This is used after the torrent
// has been aborted, and it can no longer own
// the object.
piece_manager* m_storage;
#ifdef TORRENT_DEBUG
public:
#endif
std::set<peer_connection*> m_connections;
#ifdef TORRENT_DEBUG
private:
#endif
// The list of web seeds in this torrent. Seeds
// with fatal errors are removed from the set
std::set<web_seed_entry> m_web_seeds;
// a list of web seeds that have failed and are
// waiting to be retried
std::map<web_seed_entry, ptime> m_web_seeds_next_retry;
// urls of the web seeds that we are currently
// resolving the address for
std::set<web_seed_entry> m_resolving_web_seeds;
#ifndef TORRENT_DISABLE_EXTENSIONS
typedef std::list<boost::shared_ptr<torrent_plugin> > extension_list_t;
extension_list_t m_extensions;
#endif
// used to resolve the names of web seeds
mutable tcp::resolver m_host_resolver;
// this announce timer is used both
// by Local service discovery and
// by the DHT.
deadline_timer m_lsd_announce_timer;
// used for tracker announces
deadline_timer m_tracker_timer;
void update_tracker_timer();
static void on_tracker_announce_disp(boost::weak_ptr<torrent> p
, error_code const& e);
void on_tracker_announce();
static void on_lsd_announce_disp(boost::weak_ptr<torrent> p
, error_code const& e);
// this is called once every 5 minutes for torrents
// that are not private
void on_lsd_announce();
#ifndef TORRENT_DISABLE_DHT
static void on_dht_announce_response_disp(boost::weak_ptr<torrent> t
, std::vector<tcp::endpoint> const& peers);
void on_dht_announce_response(std::vector<tcp::endpoint> const& peers);
bool should_announce_dht() const;
// the time when the DHT was last announced of our
// presence on this torrent
ptime m_last_dht_announce;
#endif
// this is the upload and download statistics for the whole torrent.
// it's updated from all its peers once every second.
libtorrent::stat m_stat;
// -----------------------------
// a back reference to the session
// this torrent belongs to.
aux::session_impl& m_ses;
std::vector<boost::uint8_t> m_file_priority;
// this vector contains the number of bytes completely
// downloaded (as in passed-hash-check) in each file.
// this lets us trigger on individual files completing
std::vector<size_type> m_file_progress;
boost::scoped_ptr<piece_picker> m_picker;
std::vector<announce_entry> m_trackers;
// this is an index into m_trackers
struct time_critical_piece
{
// when this piece was first requested
ptime first_requested;
// when this piece was last requested
ptime last_requested;
// by what time we want this piece
ptime deadline;
// 1 = send alert with piece data when available
int flags;
// how many peers it's been requested from
int peers;
// the piece index
int piece;
bool operator<(time_critical_piece const& rhs) const
{ return deadline < rhs.deadline; }
};
void remove_time_critical_piece(int piece, bool finished = false);
void remove_time_critical_pieces(std::vector<int> const& priority);
void request_time_critical_pieces();
// this list is sorted by time_critical_piece::deadline
std::list<time_critical_piece> m_time_critical_pieces;
// the average time it takes to download one time critical piece
time_duration m_average_piece_time;
// the average piece download time deviation
time_duration m_piece_time_deviation;
// the number of bytes that has been
// downloaded that failed the hash-test
size_type m_total_failed_bytes;
size_type m_total_redundant_bytes;
// the number of bytes of padding files
int m_padding;
std::string m_username;
std::string m_password;
// the network interface all outgoing connections
// are opened through
tcp::endpoint m_net_interface;
fs::path m_save_path;
// each bit represents a piece. a set bit means
// the piece has had its hash verified. This
// is only used in seed mode (when m_seed_mode
// is true)
bitfield m_verified;
// m_num_verified = m_verified.count()
int m_num_verified;
// free download we have got that hasn't
// been distributed yet.
size_type m_available_free_upload;
// determines the storage state for this torrent.
storage_mode_t m_storage_mode;
// the state of this torrent (queued, checking, downloading, etc.)
torrent_status::state_t m_state;
// set if there's an error on this torrent
error_code m_error;
// if the error ocurred on a file, this is the file
std::string m_error_file;
// used if there is any resume data
std::vector<char> m_resume_data;
lazy_entry m_resume_entry;
// if the torrent is started without metadata, it may
// still be given a name until the metadata is received
// once the metadata is received this field will no
// longer be used and will be reset
boost::scoped_ptr<std::string> m_name;
#ifndef TORRENT_DISABLE_ENCRYPTION
// this is SHA1("req2" + info-hash), used for
// encrypted hand shakes
sha1_hash m_obfuscated_hash;
#endif
session_settings const& m_settings;
storage_constructor_type m_storage_constructor;
int m_progress_ppm;
// the upload/download ratio that each peer
// tries to maintain.
// 0 is infinite
float m_ratio;
// the maximum number of uploads for this torrent
int m_max_uploads;
// the number of unchoked peers in this torrent
int m_num_uploads;
// the maximum number of connections for this torrent
int m_max_connections;
// the size of a request block
// each piece is divided into these
// blocks when requested
int m_block_size;
// -----------------------------
// DATA FROM TRACKER RESPONSE
// the scrape data from the tracker response, this
// is optional and may be -1.
int m_complete;
int m_incomplete;
#ifdef TORRENT_DEBUG
// this is the amount downloaded when this torrent
// is started. i.e.
// total_done - m_initial_done <= total_payload_download
size_type m_initial_done;
#endif
// this is the deficit counter in the Deficit Round Robin
// used to determine which torrent gets the next
// connection attempt. See:
// http://www.ecs.umass.edu/ece/wolf/courses/ECE697J/papers/DRR.pdf
// The quanta assigned to each torrent depends on the torrents
// priority, whether it's seed and the number of connected
// peers it has. This has the effect that some torrents
// will have more connection attempts than other. Each
// connection attempt costs 100 points from the deficit
// counter. points are deducted in try_connect_peer and
// increased in give_connect_points. Outside of the
// torrent object, these points are called connect_points.
int m_deficit_counter;
// the sequence number for this torrent, this is a
// monotonically increasing number for each added torrent
boost::int16_t m_sequence_number;
// the index to the last tracker that worked
boost::int8_t m_last_working_tracker;
// the number of connection attempts that has
// failed in a row, this is currently used to
// determine the timeout until next try.
boost::int8_t m_failed_trackers;
// this is a counter that is decreased every
// second, and when it reaches 0, the policy::pulse()
// is called and the time scaler is reset to 10.
boost::int8_t m_time_scaler;
// this is the priority of the torrent. The higher
// the value is, the more bandwidth is assigned to
// the torrent's peers
boost::uint8_t m_priority;
// is set to true when the torrent has
// been aborted.
bool m_abort:1;
// is true if this torrent has been paused
bool m_paused:1;
// set to true when this torrent may not download anything
bool m_upload_mode:1;
// if this is true, libtorrent may pause and resume
// this torrent depending on queuing rules. Torrents
// started with auto_managed flag set may be added in
// a paused state in case there are no available
// slots.
bool m_auto_managed:1;
#ifndef TORRENT_DISABLE_RESOLVE_COUNTRIES
// this is true while there is a country
// resolution in progress. To avoid flodding
// the DNS request queue, only one ip is resolved
// at a time.
mutable bool m_resolving_country:1;
// this is true if the user has enabled
// country resolution in this torrent
bool m_resolve_countries:1;
#endif
// in case the piece picker hasn't been constructed
// when this settings is set, this variable will keep
// its value until the piece picker is created
bool m_sequential_download:1;
// is false by default and set to
// true when the first tracker reponse
// is received
bool m_got_tracker_response:1;
// this is set to false as long as the connections
// of this torrent hasn't been initialized. If we
// have metadata from the start, connections are
// initialized immediately, if we didn't have metadata,
// they are initialized right after files_checked().
// valid_resume_data() will return false as long as
// the connections aren't initialized, to avoid
// them from altering the piece-picker before it
// has been initialized with files_checked().
bool m_connections_initialized:1;
// if this is true, we're currently super seeding this
// torrent.
bool m_super_seeding:1;
// is set to true every time there is an incoming
// connection to this torrent
bool m_has_incoming:1;
// this is set to true when the files are checked
// before the files are checked, we don't try to
// connect to peers
bool m_files_checked:1;
// this is true if the torrent has been added to
// checking queue in the session
bool m_queued_for_checking:1;
// this is true while tracker announcing is enabled
// is is disabled while paused and checking files
bool m_announcing:1;
// this is true while the tracker deadline timer
// is in use. i.e. one or more trackers are waiting
// for a reannounce
bool m_waiting_tracker:1;
// this means we haven't verified the file content
// of the files we're seeding. the m_verified bitfield
// indicates which pieces have been verified and which
// haven't
bool m_seed_mode:1;
// this is set when we don't want to load seed_mode,
// paused or auto_managed from the resume data
bool m_override_resume_data:1;
};
inline ptime torrent::next_announce() const
{
return m_waiting_tracker?m_tracker_timer.expires_at():min_time();
}
inline void torrent::force_tracker_request()
{
if (is_paused()) return;
ptime now = time_now();
for (std::vector<announce_entry>::iterator i = m_trackers.begin()
, end(m_trackers.end()); i != end; ++i)
i->next_announce = now;
update_tracker_timer();
}
inline void torrent::force_tracker_request(ptime t)
{
if (is_paused()) return;
for (std::vector<announce_entry>::iterator i = m_trackers.begin()
, end(m_trackers.end()); i != end; ++i)
i->next_announce = t;
update_tracker_timer();
}
inline void torrent::set_tracker_login(
std::string const& name
, std::string const& pw)
{
m_username = name;
m_password = pw;
}
}
#endif // TORRENT_TORRENT_HPP_INCLUDED