transmission/libtransmission/session.h

434 lines
10 KiB
C++

// This file Copyright © 2008-2022 Mnemosyne LLC.
// It may be used under GPLv2 (SPDX: GPL-2.0), GPLv3 (SPDX: GPL-3.0),
// or any future license endorsed by Mnemosyne LLC.
// License text can be found in the licenses/ folder.
#pragma once
#ifndef __TRANSMISSION__
#error only libtransmission should #include this header.
#endif
#define TR_NAME "Transmission"
#include <array>
#include <cstddef> // size_t
#include <cstdint> // uintX_t
#include <ctime>
#include <list>
#include <map>
#include <memory>
#include <mutex>
#include <string>
#include <string_view>
#include <unordered_set>
#include <vector>
#include "transmission.h"
#include "net.h" // tr_socket_t
enum tr_auto_switch_state_t
{
TR_AUTO_SWITCH_UNUSED,
TR_AUTO_SWITCH_ON,
TR_AUTO_SWITCH_OFF,
};
tr_peer_id_t tr_peerIdInit();
struct event_base;
struct evdns_base;
class tr_bitfield;
class tr_rpc_server;
struct Bandwidth;
struct tr_address;
struct tr_announcer;
struct tr_announcer_udp;
struct tr_bindsockets;
struct tr_blocklistFile;
struct tr_cache;
struct tr_fdInfo;
struct tr_bindinfo
{
int socket;
tr_address addr;
struct event* ev;
};
struct tr_turtle_info
{
/* TR_UP and TR_DOWN speed limits */
unsigned int speedLimit_Bps[2];
/* is turtle mode on right now? */
bool isEnabled;
/* does turtle mode turn itself on and off at given times? */
bool isClockEnabled;
/* when clock mode is on, minutes after midnight to turn on turtle mode */
int beginMinute;
/* when clock mode is on, minutes after midnight to turn off turtle mode */
int endMinute;
/* only use clock mode on these days of the week */
tr_sched_day days;
/* called when isEnabled changes */
tr_altSpeedFunc callback;
/* the callback's user_data argument */
void* callbackUserData;
/* the callback's changedByUser argument.
* indicates whether the change came from the user or from the clock. */
bool changedByUser;
/* bitfield of all the minutes in a week.
* Each bit's value indicates whether the scheduler wants turtle
* limits on or off at that given minute in the week. */
// Changed to non-owning pointer temporarily till tr_turtle_info becomes C++-constructible and destructible
// TODO: remove * and own the value
tr_bitfield* minutes = nullptr;
/* recent action that was done by turtle's automatic switch */
tr_auto_switch_state_t autoTurtleState;
};
/** @brief handle to an active libtransmission session */
struct tr_session
{
public:
[[nodiscard]] auto unique_lock() const
{
return std::unique_lock(session_mutex_);
}
[[nodiscard]] bool isClosing() const
{
return is_closing_;
}
[[nodiscard]] auto const* getTorrent(tr_sha1_digest_t const& info_dict_hash) const
{
auto& src = this->torrentsByHash;
auto it = src.find(info_dict_hash);
return it == std::end(src) ? nullptr : it->second;
}
[[nodiscard]] auto* getTorrent(tr_sha1_digest_t const& info_dict_hash)
{
auto& src = this->torrentsByHash;
auto it = src.find(info_dict_hash);
return it == std::end(src) ? nullptr : it->second;
}
[[nodiscard]] tr_torrent* getTorrent(std::string_view info_dict_hash_string);
[[nodiscard]] auto contains(tr_sha1_digest_t const& info_dict_hash) const
{
return getTorrent(info_dict_hash) != nullptr;
}
// download dir
std::string const& downloadDir() const
{
return download_dir_;
}
void setDownloadDir(std::string_view dir)
{
download_dir_ = dir;
}
// incomplete dir
std::string const& incompleteDir() const
{
return incomplete_dir_;
}
void setIncompleteDir(std::string_view dir)
{
incomplete_dir_ = dir;
}
bool useIncompleteDir() const
{
return incomplete_dir_enabled_;
}
void useIncompleteDir(bool enabled)
{
incomplete_dir_enabled_ = enabled;
}
// scripts
void useScript(TrScript i, bool enabled)
{
scripts_enabled_[i] = enabled;
}
bool useScript(TrScript i) const
{
return scripts_enabled_[i];
}
void setScript(TrScript i, std::string_view path)
{
scripts_[i] = path;
}
std::string const& script(TrScript i) const
{
return scripts_[i];
}
// blocklist
bool useBlocklist() const
{
return blocklist_enabled_;
}
void useBlocklist(bool enabled);
std::string const& blocklistUrl() const
{
return blocklist_url_;
}
void setBlocklistUrl(std::string_view url)
{
blocklist_url_ = url;
}
// RPC
void setRpcWhitelist(std::string_view whitelist) const;
std::string const& rpcWhitelist() const;
void useRpcWhitelist(bool enabled) const;
bool useRpcWhitelist() const;
// peer networking
std::string const& peerCongestionAlgorithm() const
{
return peer_congestion_algorithm_;
}
void setPeerCongestionAlgorithm(std::string_view algorithm)
{
peer_congestion_algorithm_ = algorithm;
}
void setSocketTOS(tr_socket_t sock, tr_address_type type)
{
tr_netSetTOS(sock, peer_socket_tos_, type);
}
public:
bool isPortRandom;
bool isPexEnabled;
bool isDHTEnabled;
bool isUTPEnabled;
bool isLPDEnabled;
bool isPrefetchEnabled;
bool is_closing_ = false;
bool isClosed;
bool isRatioLimited;
bool isIdleLimited;
bool isIncompleteFileNamingEnabled;
bool pauseAddedTorrent;
bool deleteSourceTorrent;
bool scrapePausedTorrents;
uint8_t peer_id_ttl_hours;
// torrent id, time removed
std::vector<std::pair<int, time_t>> removed_torrents;
bool stalledEnabled;
bool queueEnabled[2];
int queueSize[2];
int queueStalledMinutes;
int umask;
unsigned int speedLimit_Bps[2];
bool speedLimitEnabled[2];
struct tr_turtle_info turtle;
struct tr_fdInfo* fdInfo;
int magicNumber;
tr_encryption_mode encryptionMode;
tr_preallocation_mode preallocationMode;
struct event_base* event_base;
struct evdns_base* evdns_base;
struct tr_event_handle* events;
uint16_t peerLimit;
uint16_t peerLimitPerTorrent;
int uploadSlotsPerTorrent;
/* The UDP sockets used for the DHT and uTP. */
tr_port udp_port;
tr_socket_t udp_socket;
tr_socket_t udp6_socket;
unsigned char* udp6_bound;
struct event* udp_event;
struct event* udp6_event;
struct event* utp_timer;
/* The open port on the local machine for incoming peer requests */
tr_port private_peer_port;
/**
* The open port on the public device for incoming peer requests.
* This is usually the same as private_peer_port but can differ
* if the public device is a router and it decides to use a different
* port than the one requested by Transmission.
*/
tr_port public_peer_port;
tr_port randomPortLow;
tr_port randomPortHigh;
std::unordered_set<tr_torrent*> torrents;
std::map<int, tr_torrent*> torrentsById;
std::map<tr_sha1_digest_t, tr_torrent*> torrentsByHash;
std::string config_dir;
std::string resume_dir;
std::string torrent_dir;
std::list<tr_blocklistFile*> blocklists;
struct tr_peerMgr* peerMgr;
struct tr_shared* shared;
struct tr_cache* cache;
struct tr_web* web;
struct tr_session_id* session_id;
tr_rpc_func rpc_func;
void* rpc_func_user_data;
struct tr_stats_handle* sessionStats;
struct tr_announcer* announcer;
struct tr_announcer_udp* announcer_udp;
struct event* nowTimer;
struct event* saveTimer;
/* monitors the "global pool" speeds */
// Changed to non-owning pointer temporarily till tr_session becomes C++-constructible and destructible
// TODO: change tr_bandwidth* to owning pointer to the bandwidth, or remove * and own the value
Bandwidth* bandwidth;
float desiredRatio;
uint16_t idleLimitMinutes;
struct tr_bindinfo* bind_ipv4;
struct tr_bindinfo* bind_ipv6;
std::unique_ptr<tr_rpc_server> rpc_server_;
// One of <netinet/ip.h>'s IPTOS_ values.
// See tr_netTos*() in libtransmission/net.h for more info
// Only session.cc should use this.
int peer_socket_tos_ = *tr_netTosFromName(TR_DEFAULT_PEER_SOCKET_TOS_STR);
private:
static std::recursive_mutex session_mutex_;
std::array<std::string, TR_SCRIPT_N_TYPES> scripts_;
std::string blocklist_url_;
std::string download_dir_;
std::string incomplete_dir_;
std::string peer_congestion_algorithm_;
std::array<bool, TR_SCRIPT_N_TYPES> scripts_enabled_;
bool blocklist_enabled_ = false;
bool incomplete_dir_enabled_ = false;
};
constexpr tr_port tr_sessionGetPublicPeerPort(tr_session const* session)
{
return session->public_peer_port;
}
bool tr_sessionAllowsDHT(tr_session const* session);
bool tr_sessionAllowsLPD(tr_session const* session);
bool tr_sessionIsAddressBlocked(tr_session const* session, struct tr_address const* addr);
struct tr_address const* tr_sessionGetPublicAddress(tr_session const* session, int tr_af_type, bool* is_default_value);
struct tr_bindsockets* tr_sessionGetBindSockets(tr_session*);
int tr_sessionCountTorrents(tr_session const* session);
std::vector<tr_torrent*> tr_sessionGetTorrents(tr_session* session);
enum
{
SESSION_MAGIC_NUMBER = 3845,
};
constexpr bool tr_isSession(tr_session const* session)
{
return session != nullptr && session->magicNumber == SESSION_MAGIC_NUMBER;
}
constexpr bool tr_isPreallocationMode(tr_preallocation_mode m)
{
return m == TR_PREALLOCATE_NONE || m == TR_PREALLOCATE_SPARSE || m == TR_PREALLOCATE_FULL;
}
constexpr bool tr_isEncryptionMode(tr_encryption_mode m)
{
return m == TR_CLEAR_PREFERRED || m == TR_ENCRYPTION_PREFERRED || m == TR_ENCRYPTION_REQUIRED;
}
constexpr bool tr_isPriority(tr_priority_t p)
{
return p == TR_PRI_LOW || p == TR_PRI_NORMAL || p == TR_PRI_HIGH;
}
/***
****
***/
unsigned int tr_sessionGetSpeedLimit_Bps(tr_session const*, tr_direction);
unsigned int tr_sessionGetPieceSpeed_Bps(tr_session const*, tr_direction);
bool tr_sessionGetActiveSpeedLimit_Bps(tr_session const* session, tr_direction dir, unsigned int* setme);
std::vector<tr_torrent*> tr_sessionGetNextQueuedTorrents(tr_session* session, tr_direction dir, size_t numwanted);
int tr_sessionCountQueueFreeSlots(tr_session* session, tr_direction);
void tr_sessionAddTorrent(tr_session* session, tr_torrent* tor);
void tr_sessionRemoveTorrent(tr_session* session, tr_torrent* tor);