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qBittorrent/src/base/bittorrent/session.cpp
Chocobo1 73faf67084
Clean up usage of static keyword 
They are either misused or redundant, so remove it.
2022-05-30 13:25:34 +08:00

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/*
* Bittorrent Client using Qt and libtorrent.
* Copyright (C) 2015 Vladimir Golovnev <glassez@yandex.ru>
* Copyright (C) 2006 Christophe Dumez <chris@qbittorrent.org>
*
* This program is free software; you can redistribute it and/or
* modify it under the terms of the GNU General Public License
* as published by the Free Software Foundation; either version 2
* of the License, or (at your option) any later version.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with this program; if not, write to the Free Software
* Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA.
*
* In addition, as a special exception, the copyright holders give permission to
* link this program with the OpenSSL project's "OpenSSL" library (or with
* modified versions of it that use the same license as the "OpenSSL" library),
* and distribute the linked executables. You must obey the GNU General Public
* License in all respects for all of the code used other than "OpenSSL". If you
* modify file(s), you may extend this exception to your version of the file(s),
* but you are not obligated to do so. If you do not wish to do so, delete this
* exception statement from your version.
*/
#include "session.h"
#include <algorithm>
#include <cstdint>
#include <ctime>
#include <queue>
#include <string>
#include <utility>
#ifdef Q_OS_WIN
#include <Windows.h>
#include <wincrypt.h>
#include <iphlpapi.h>
#endif
#include <libtorrent/alert_types.hpp>
#include <libtorrent/error_code.hpp>
#include <libtorrent/extensions/smart_ban.hpp>
#include <libtorrent/extensions/ut_metadata.hpp>
#include <libtorrent/extensions/ut_pex.hpp>
#include <libtorrent/ip_filter.hpp>
#include <libtorrent/magnet_uri.hpp>
#include <libtorrent/session.hpp>
#include <libtorrent/session_stats.hpp>
#include <libtorrent/session_status.hpp>
#include <libtorrent/torrent_info.hpp>
#include <QDebug>
#include <QDir>
#include <QFile>
#include <QHostAddress>
#include <QJsonArray>
#include <QJsonDocument>
#include <QJsonObject>
#include <QJsonValue>
#include <QNetworkAddressEntry>
#if (QT_VERSION < QT_VERSION_CHECK(6, 0, 0))
#include <QNetworkConfigurationManager>
#endif
#include <QNetworkInterface>
#include <QRegularExpression>
#include <QString>
#include <QThread>
#include <QTimer>
#include <QUuid>
#include "base/algorithm.h"
#include "base/global.h"
#include "base/logger.h"
#include "base/net/downloadmanager.h"
#include "base/net/proxyconfigurationmanager.h"
#include "base/profile.h"
#include "base/torrentfileguard.h"
#include "base/torrentfilter.h"
#include "base/unicodestrings.h"
#include "base/utils/bytearray.h"
#include "base/utils/fs.h"
#include "base/utils/io.h"
#include "base/utils/misc.h"
#include "base/utils/net.h"
#include "base/utils/random.h"
#include "base/version.h"
#include "bandwidthscheduler.h"
#include "bencoderesumedatastorage.h"
#include "common.h"
#include "customstorage.h"
#include "dbresumedatastorage.h"
#include "downloadpriority.h"
#include "extensiondata.h"
#include "filesearcher.h"
#include "filterparserthread.h"
#include "loadtorrentparams.h"
#include "lttypecast.h"
#include "magneturi.h"
#include "nativesessionextension.h"
#include "portforwarderimpl.h"
#include "statistics.h"
#include "torrentimpl.h"
#include "tracker.h"
using namespace BitTorrent;
const Path CATEGORIES_FILE_NAME {u"categories.json"_qs};
namespace
{
const char PEER_ID[] = "qB";
const auto USER_AGENT = QStringLiteral("qBittorrent/" QBT_VERSION_2);
void torrentQueuePositionUp(const lt::torrent_handle &handle)
{
try
{
handle.queue_position_up();
}
catch (const std::exception &exc)
{
qDebug() << Q_FUNC_INFO << " fails: " << exc.what();
}
}
void torrentQueuePositionDown(const lt::torrent_handle &handle)
{
try
{
handle.queue_position_down();
}
catch (const std::exception &exc)
{
qDebug() << Q_FUNC_INFO << " fails: " << exc.what();
}
}
void torrentQueuePositionTop(const lt::torrent_handle &handle)
{
try
{
handle.queue_position_top();
}
catch (const std::exception &exc)
{
qDebug() << Q_FUNC_INFO << " fails: " << exc.what();
}
}
void torrentQueuePositionBottom(const lt::torrent_handle &handle)
{
try
{
handle.queue_position_bottom();
}
catch (const std::exception &exc)
{
qDebug() << Q_FUNC_INFO << " fails: " << exc.what();
}
}
QMap<QString, CategoryOptions> expandCategories(const QMap<QString, CategoryOptions> &categories)
{
QMap<QString, CategoryOptions> expanded = categories;
for (auto i = categories.cbegin(); i != categories.cend(); ++i)
{
const QString &category = i.key();
for (const QString &subcat : asConst(Session::expandCategory(category)))
{
if (!expanded.contains(subcat))
expanded[subcat] = {};
}
}
return expanded;
}
QString toString(const lt::socket_type_t socketType)
{
switch (socketType)
{
#ifdef QBT_USES_LIBTORRENT2
case lt::socket_type_t::http:
return u"HTTP"_qs;
case lt::socket_type_t::http_ssl:
return u"HTTP_SSL"_qs;
#endif
case lt::socket_type_t::i2p:
return u"I2P"_qs;
case lt::socket_type_t::socks5:
return u"SOCKS5"_qs;
#ifdef QBT_USES_LIBTORRENT2
case lt::socket_type_t::socks5_ssl:
return u"SOCKS5_SSL"_qs;
#endif
case lt::socket_type_t::tcp:
return u"TCP"_qs;
case lt::socket_type_t::tcp_ssl:
return u"TCP_SSL"_qs;
#ifdef QBT_USES_LIBTORRENT2
case lt::socket_type_t::utp:
return u"UTP"_qs;
#else
case lt::socket_type_t::udp:
return u"UDP"_qs;
#endif
case lt::socket_type_t::utp_ssl:
return u"UTP_SSL"_qs;
}
return u"INVALID"_qs;
}
QString toString(const lt::address &address)
{
try
{
return QString::fromLatin1(address.to_string().c_str());
}
catch (const std::exception &)
{
// suppress conversion error
}
return {};
}
template <typename T>
struct LowerLimited
{
LowerLimited(T limit, T ret)
: m_limit(limit)
, m_ret(ret)
{
}
explicit LowerLimited(T limit)
: LowerLimited(limit, limit)
{
}
T operator()(T val) const
{
return val <= m_limit ? m_ret : val;
}
private:
const T m_limit;
const T m_ret;
};
template <typename T>
LowerLimited<T> lowerLimited(T limit) { return LowerLimited<T>(limit); }
template <typename T>
LowerLimited<T> lowerLimited(T limit, T ret) { return LowerLimited<T>(limit, ret); }
template <typename T>
auto clampValue(const T lower, const T upper)
{
return [lower, upper](const T value) -> T
{
if (value < lower)
return lower;
if (value > upper)
return upper;
return value;
};
}
#ifdef Q_OS_WIN
QString convertIfaceNameToGuid(const QString &name)
{
// Under Windows XP or on Qt version <= 5.5 'name' will be a GUID already.
const QUuid uuid(name);
if (!uuid.isNull())
return uuid.toString().toUpper(); // Libtorrent expects the GUID in uppercase
const std::wstring nameWStr = name.toStdWString();
NET_LUID luid {};
const LONG res = ::ConvertInterfaceNameToLuidW(nameWStr.c_str(), &luid);
if (res == 0)
{
GUID guid;
if (::ConvertInterfaceLuidToGuid(&luid, &guid) == 0)
return QUuid(guid).toString().toUpper();
}
return {};
}
#endif
}
const int addTorrentParamsId = qRegisterMetaType<AddTorrentParams>();
// Session
Session *Session::m_instance = nullptr;
#define BITTORRENT_KEY(name) u"BitTorrent/" name
#define BITTORRENT_SESSION_KEY(name) BITTORRENT_KEY(u"Session/") name
Session::Session(QObject *parent)
: QObject(parent)
, m_isDHTEnabled(BITTORRENT_SESSION_KEY(u"DHTEnabled"_qs), true)
, m_isLSDEnabled(BITTORRENT_SESSION_KEY(u"LSDEnabled"_qs), true)
, m_isPeXEnabled(BITTORRENT_SESSION_KEY(u"PeXEnabled"_qs), true)
, m_isIPFilteringEnabled(BITTORRENT_SESSION_KEY(u"IPFilteringEnabled"_qs), false)
, m_isTrackerFilteringEnabled(BITTORRENT_SESSION_KEY(u"TrackerFilteringEnabled"_qs), false)
, m_IPFilterFile(BITTORRENT_SESSION_KEY(u"IPFilter"_qs))
, m_announceToAllTrackers(BITTORRENT_SESSION_KEY(u"AnnounceToAllTrackers"_qs), false)
, m_announceToAllTiers(BITTORRENT_SESSION_KEY(u"AnnounceToAllTiers"_qs), true)
, m_asyncIOThreads(BITTORRENT_SESSION_KEY(u"AsyncIOThreadsCount"_qs), 10)
, m_hashingThreads(BITTORRENT_SESSION_KEY(u"HashingThreadsCount"_qs), 1)
, m_filePoolSize(BITTORRENT_SESSION_KEY(u"FilePoolSize"_qs), 5000)
, m_checkingMemUsage(BITTORRENT_SESSION_KEY(u"CheckingMemUsageSize"_qs), 32)
, m_diskCacheSize(BITTORRENT_SESSION_KEY(u"DiskCacheSize"_qs), -1)
, m_diskCacheTTL(BITTORRENT_SESSION_KEY(u"DiskCacheTTL"_qs), 60)
, m_diskQueueSize(BITTORRENT_SESSION_KEY(u"DiskQueueSize"_qs), (1024 * 1024))
, m_diskIOType(BITTORRENT_SESSION_KEY(u"DiskIOType"_qs), DiskIOType::Default)
, m_useOSCache(BITTORRENT_SESSION_KEY(u"UseOSCache"_qs), true)
#ifdef Q_OS_WIN
, m_coalesceReadWriteEnabled(BITTORRENT_SESSION_KEY(u"CoalesceReadWrite"_qs), true)
#else
, m_coalesceReadWriteEnabled(BITTORRENT_SESSION_KEY(u"CoalesceReadWrite"_qs), false)
#endif
, m_usePieceExtentAffinity(BITTORRENT_SESSION_KEY(u"PieceExtentAffinity"_qs), false)
, m_isSuggestMode(BITTORRENT_SESSION_KEY(u"SuggestMode"_qs), false)
, m_sendBufferWatermark(BITTORRENT_SESSION_KEY(u"SendBufferWatermark"_qs), 500)
, m_sendBufferLowWatermark(BITTORRENT_SESSION_KEY(u"SendBufferLowWatermark"_qs), 10)
, m_sendBufferWatermarkFactor(BITTORRENT_SESSION_KEY(u"SendBufferWatermarkFactor"_qs), 50)
, m_connectionSpeed(BITTORRENT_SESSION_KEY(u"ConnectionSpeed"_qs), 30)
, m_socketBacklogSize(BITTORRENT_SESSION_KEY(u"SocketBacklogSize"_qs), 30)
, m_isAnonymousModeEnabled(BITTORRENT_SESSION_KEY(u"AnonymousModeEnabled"_qs), false)
, m_isQueueingEnabled(BITTORRENT_SESSION_KEY(u"QueueingSystemEnabled"_qs), false)
, m_maxActiveDownloads(BITTORRENT_SESSION_KEY(u"MaxActiveDownloads"_qs), 3, lowerLimited(-1))
, m_maxActiveUploads(BITTORRENT_SESSION_KEY(u"MaxActiveUploads"_qs), 3, lowerLimited(-1))
, m_maxActiveTorrents(BITTORRENT_SESSION_KEY(u"MaxActiveTorrents"_qs), 5, lowerLimited(-1))
, m_ignoreSlowTorrentsForQueueing(BITTORRENT_SESSION_KEY(u"IgnoreSlowTorrentsForQueueing"_qs), false)
, m_downloadRateForSlowTorrents(BITTORRENT_SESSION_KEY(u"SlowTorrentsDownloadRate"_qs), 2)
, m_uploadRateForSlowTorrents(BITTORRENT_SESSION_KEY(u"SlowTorrentsUploadRate"_qs), 2)
, m_slowTorrentsInactivityTimer(BITTORRENT_SESSION_KEY(u"SlowTorrentsInactivityTimer"_qs), 60)
, m_outgoingPortsMin(BITTORRENT_SESSION_KEY(u"OutgoingPortsMin"_qs), 0)
, m_outgoingPortsMax(BITTORRENT_SESSION_KEY(u"OutgoingPortsMax"_qs), 0)
, m_UPnPLeaseDuration(BITTORRENT_SESSION_KEY(u"UPnPLeaseDuration"_qs), 0)
, m_peerToS(BITTORRENT_SESSION_KEY(u"PeerToS"_qs), 0x04)
, m_ignoreLimitsOnLAN(BITTORRENT_SESSION_KEY(u"IgnoreLimitsOnLAN"_qs), false)
, m_includeOverheadInLimits(BITTORRENT_SESSION_KEY(u"IncludeOverheadInLimits"_qs), false)
, m_announceIP(BITTORRENT_SESSION_KEY(u"AnnounceIP"_qs))
, m_maxConcurrentHTTPAnnounces(BITTORRENT_SESSION_KEY(u"MaxConcurrentHTTPAnnounces"_qs), 50)
, m_isReannounceWhenAddressChangedEnabled(BITTORRENT_SESSION_KEY(u"ReannounceWhenAddressChanged"_qs), false)
, m_stopTrackerTimeout(BITTORRENT_SESSION_KEY(u"StopTrackerTimeout"_qs), 5)
, m_maxConnections(BITTORRENT_SESSION_KEY(u"MaxConnections"_qs), 500, lowerLimited(0, -1))
, m_maxUploads(BITTORRENT_SESSION_KEY(u"MaxUploads"_qs), 20, lowerLimited(0, -1))
, m_maxConnectionsPerTorrent(BITTORRENT_SESSION_KEY(u"MaxConnectionsPerTorrent"_qs), 100, lowerLimited(0, -1))
, m_maxUploadsPerTorrent(BITTORRENT_SESSION_KEY(u"MaxUploadsPerTorrent"_qs), 4, lowerLimited(0, -1))
, m_btProtocol(BITTORRENT_SESSION_KEY(u"BTProtocol"_qs), BTProtocol::Both
, clampValue(BTProtocol::Both, BTProtocol::UTP))
, m_isUTPRateLimited(BITTORRENT_SESSION_KEY(u"uTPRateLimited"_qs), true)
, m_utpMixedMode(BITTORRENT_SESSION_KEY(u"uTPMixedMode"_qs), MixedModeAlgorithm::TCP
, clampValue(MixedModeAlgorithm::TCP, MixedModeAlgorithm::Proportional))
, m_IDNSupportEnabled(BITTORRENT_SESSION_KEY(u"IDNSupportEnabled"_qs), false)
, m_multiConnectionsPerIpEnabled(BITTORRENT_SESSION_KEY(u"MultiConnectionsPerIp"_qs), false)
, m_validateHTTPSTrackerCertificate(BITTORRENT_SESSION_KEY(u"ValidateHTTPSTrackerCertificate"_qs), true)
, m_SSRFMitigationEnabled(BITTORRENT_SESSION_KEY(u"SSRFMitigation"_qs), true)
, m_blockPeersOnPrivilegedPorts(BITTORRENT_SESSION_KEY(u"BlockPeersOnPrivilegedPorts"_qs), false)
, m_isAddTrackersEnabled(BITTORRENT_SESSION_KEY(u"AddTrackersEnabled"_qs), false)
, m_additionalTrackers(BITTORRENT_SESSION_KEY(u"AdditionalTrackers"_qs))
, m_globalMaxRatio(BITTORRENT_SESSION_KEY(u"GlobalMaxRatio"_qs), -1, [](qreal r) { return r < 0 ? -1. : r;})
, m_globalMaxSeedingMinutes(BITTORRENT_SESSION_KEY(u"GlobalMaxSeedingMinutes"_qs), -1, lowerLimited(-1))
, m_isAddTorrentPaused(BITTORRENT_SESSION_KEY(u"AddTorrentPaused"_qs), false)
, m_torrentContentLayout(BITTORRENT_SESSION_KEY(u"TorrentContentLayout"_qs), TorrentContentLayout::Original)
, m_isAppendExtensionEnabled(BITTORRENT_SESSION_KEY(u"AddExtensionToIncompleteFiles"_qs), false)
, m_refreshInterval(BITTORRENT_SESSION_KEY(u"RefreshInterval"_qs), 1500)
, m_isPreallocationEnabled(BITTORRENT_SESSION_KEY(u"Preallocation"_qs), false)
, m_torrentExportDirectory(BITTORRENT_SESSION_KEY(u"TorrentExportDirectory"_qs))
, m_finishedTorrentExportDirectory(BITTORRENT_SESSION_KEY(u"FinishedTorrentExportDirectory"_qs))
, m_globalDownloadSpeedLimit(BITTORRENT_SESSION_KEY(u"GlobalDLSpeedLimit"_qs), 0, lowerLimited(0))
, m_globalUploadSpeedLimit(BITTORRENT_SESSION_KEY(u"GlobalUPSpeedLimit"_qs), 0, lowerLimited(0))
, m_altGlobalDownloadSpeedLimit(BITTORRENT_SESSION_KEY(u"AlternativeGlobalDLSpeedLimit"_qs), 10, lowerLimited(0))
, m_altGlobalUploadSpeedLimit(BITTORRENT_SESSION_KEY(u"AlternativeGlobalUPSpeedLimit"_qs), 10, lowerLimited(0))
, m_isAltGlobalSpeedLimitEnabled(BITTORRENT_SESSION_KEY(u"UseAlternativeGlobalSpeedLimit"_qs), false)
, m_isBandwidthSchedulerEnabled(BITTORRENT_SESSION_KEY(u"BandwidthSchedulerEnabled"_qs), false)
, m_isPerformanceWarningEnabled(BITTORRENT_SESSION_KEY(u"PerformanceWarning"_qs), false)
, m_saveResumeDataInterval(BITTORRENT_SESSION_KEY(u"SaveResumeDataInterval"_qs), 60)
, m_port(BITTORRENT_SESSION_KEY(u"Port"_qs), -1)
, m_networkInterface(BITTORRENT_SESSION_KEY(u"Interface"_qs))
, m_networkInterfaceName(BITTORRENT_SESSION_KEY(u"InterfaceName"_qs))
, m_networkInterfaceAddress(BITTORRENT_SESSION_KEY(u"InterfaceAddress"_qs))
, m_encryption(BITTORRENT_SESSION_KEY(u"Encryption"_qs), 0)
, m_maxActiveCheckingTorrents(BITTORRENT_SESSION_KEY(u"MaxActiveCheckingTorrents"_qs), 1)
, m_isProxyPeerConnectionsEnabled(BITTORRENT_SESSION_KEY(u"ProxyPeerConnections"_qs), false)
, m_chokingAlgorithm(BITTORRENT_SESSION_KEY(u"ChokingAlgorithm"_qs), ChokingAlgorithm::FixedSlots
, clampValue(ChokingAlgorithm::FixedSlots, ChokingAlgorithm::RateBased))
, m_seedChokingAlgorithm(BITTORRENT_SESSION_KEY(u"SeedChokingAlgorithm"_qs), SeedChokingAlgorithm::FastestUpload
, clampValue(SeedChokingAlgorithm::RoundRobin, SeedChokingAlgorithm::AntiLeech))
, m_storedTags(BITTORRENT_SESSION_KEY(u"Tags"_qs))
, m_maxRatioAction(BITTORRENT_SESSION_KEY(u"MaxRatioAction"_qs), Pause)
, m_savePath(BITTORRENT_SESSION_KEY(u"DefaultSavePath"_qs), specialFolderLocation(SpecialFolder::Downloads))
, m_downloadPath(BITTORRENT_SESSION_KEY(u"TempPath"_qs), (savePath() / Path(u"temp"_qs)))
, m_isDownloadPathEnabled(BITTORRENT_SESSION_KEY(u"TempPathEnabled"_qs), false)
, m_isSubcategoriesEnabled(BITTORRENT_SESSION_KEY(u"SubcategoriesEnabled"_qs), false)
, m_useCategoryPathsInManualMode(BITTORRENT_SESSION_KEY(u"UseCategoryPathsInManualMode"_qs), false)
, m_isAutoTMMDisabledByDefault(BITTORRENT_SESSION_KEY(u"DisableAutoTMMByDefault"_qs), true)
, m_isDisableAutoTMMWhenCategoryChanged(BITTORRENT_SESSION_KEY(u"DisableAutoTMMTriggers/CategoryChanged"_qs), false)
, m_isDisableAutoTMMWhenDefaultSavePathChanged(BITTORRENT_SESSION_KEY(u"DisableAutoTMMTriggers/DefaultSavePathChanged"_qs), true)
, m_isDisableAutoTMMWhenCategorySavePathChanged(BITTORRENT_SESSION_KEY(u"DisableAutoTMMTriggers/CategorySavePathChanged"_qs), true)
, m_isTrackerEnabled(BITTORRENT_KEY(u"TrackerEnabled"_qs), false)
, m_peerTurnover(BITTORRENT_SESSION_KEY(u"PeerTurnover"_qs), 4)
, m_peerTurnoverCutoff(BITTORRENT_SESSION_KEY(u"PeerTurnoverCutOff"_qs), 90)
, m_peerTurnoverInterval(BITTORRENT_SESSION_KEY(u"PeerTurnoverInterval"_qs), 300)
, m_requestQueueSize(BITTORRENT_SESSION_KEY(u"RequestQueueSize"_qs), 500)
, m_bannedIPs(u"State/BannedIPs"_qs
, QStringList()
, [](const QStringList &value)
{
QStringList tmp = value;
tmp.sort();
return tmp;
}
)
, m_resumeDataStorageType(BITTORRENT_SESSION_KEY(u"ResumeDataStorageType"_qs), ResumeDataStorageType::Legacy)
#if defined(Q_OS_WIN)
, m_OSMemoryPriority(BITTORRENT_KEY(u"OSMemoryPriority"_qs), OSMemoryPriority::BelowNormal)
#endif
, m_seedingLimitTimer {new QTimer {this}}
, m_resumeDataTimer {new QTimer {this}}
, m_statistics {new Statistics {this}}
, m_ioThread {new QThread {this}}
, m_recentErroredTorrentsTimer {new QTimer {this}}
#if (QT_VERSION < QT_VERSION_CHECK(6, 0, 0))
, m_networkManager {new QNetworkConfigurationManager {this}}
#endif
{
if (port() < 0)
m_port = Utils::Random::rand(1024, 65535);
m_recentErroredTorrentsTimer->setSingleShot(true);
m_recentErroredTorrentsTimer->setInterval(1000);
connect(m_recentErroredTorrentsTimer, &QTimer::timeout
, this, [this]() { m_recentErroredTorrents.clear(); });
m_seedingLimitTimer->setInterval(10000);
connect(m_seedingLimitTimer, &QTimer::timeout, this, &Session::processShareLimits);
initializeNativeSession();
configureComponents();
if (isBandwidthSchedulerEnabled())
enableBandwidthScheduler();
loadCategories();
if (isSubcategoriesEnabled())
{
// if subcategories support changed manually
m_categories = expandCategories(m_categories);
}
const QStringList storedTags = m_storedTags.get();
m_tags = {storedTags.cbegin(), storedTags.cend()};
enqueueRefresh();
updateSeedingLimitTimer();
populateAdditionalTrackers();
enableTracker(isTrackerEnabled());
connect(Net::ProxyConfigurationManager::instance()
, &Net::ProxyConfigurationManager::proxyConfigurationChanged
, this, &Session::configureDeferred);
#if (QT_VERSION < QT_VERSION_CHECK(6, 0, 0))
// Network configuration monitor
connect(m_networkManager, &QNetworkConfigurationManager::onlineStateChanged, this, &Session::networkOnlineStateChanged);
connect(m_networkManager, &QNetworkConfigurationManager::configurationAdded, this, &Session::networkConfigurationChange);
connect(m_networkManager, &QNetworkConfigurationManager::configurationRemoved, this, &Session::networkConfigurationChange);
connect(m_networkManager, &QNetworkConfigurationManager::configurationChanged, this, &Session::networkConfigurationChange);
#endif
m_fileSearcher = new FileSearcher;
m_fileSearcher->moveToThread(m_ioThread);
connect(m_ioThread, &QThread::finished, m_fileSearcher, &QObject::deleteLater);
connect(m_fileSearcher, &FileSearcher::searchFinished, this, &Session::fileSearchFinished);
m_ioThread->start();
// Regular saving of fastresume data
connect(m_resumeDataTimer, &QTimer::timeout, this, [this]() { generateResumeData(); });
const int saveInterval = saveResumeDataInterval();
if (saveInterval > 0)
{
m_resumeDataTimer->setInterval(saveInterval * 60 * 1000);
m_resumeDataTimer->start();
}
// initialize PortForwarder instance
new PortForwarderImpl {m_nativeSession};
initMetrics();
}
bool Session::isDHTEnabled() const
{
return m_isDHTEnabled;
}
void Session::setDHTEnabled(bool enabled)
{
if (enabled != m_isDHTEnabled)
{
m_isDHTEnabled = enabled;
configureDeferred();
LogMsg(tr("Distributed Hash Table (DHT) support: %1").arg(enabled ? tr("ON") : tr("OFF")), Log::INFO);
}
}
bool Session::isLSDEnabled() const
{
return m_isLSDEnabled;
}
void Session::setLSDEnabled(const bool enabled)
{
if (enabled != m_isLSDEnabled)
{
m_isLSDEnabled = enabled;
configureDeferred();
LogMsg(tr("Local Peer Discovery support: %1").arg(enabled ? tr("ON") : tr("OFF"))
, Log::INFO);
}
}
bool Session::isPeXEnabled() const
{
return m_isPeXEnabled;
}
void Session::setPeXEnabled(const bool enabled)
{
m_isPeXEnabled = enabled;
if (m_wasPexEnabled != enabled)
LogMsg(tr("Restart is required to toggle Peer Exchange (PeX) support"), Log::WARNING);
}
bool Session::isDownloadPathEnabled() const
{
return m_isDownloadPathEnabled;
}
void Session::setDownloadPathEnabled(const bool enabled)
{
if (enabled != isDownloadPathEnabled())
{
m_isDownloadPathEnabled = enabled;
for (TorrentImpl *const torrent : asConst(m_torrents))
torrent->handleCategoryOptionsChanged();
}
}
bool Session::isAppendExtensionEnabled() const
{
return m_isAppendExtensionEnabled;
}
void Session::setAppendExtensionEnabled(const bool enabled)
{
if (isAppendExtensionEnabled() != enabled)
{
m_isAppendExtensionEnabled = enabled;
// append or remove .!qB extension for incomplete files
for (TorrentImpl *const torrent : asConst(m_torrents))
torrent->handleAppendExtensionToggled();
}
}
int Session::refreshInterval() const
{
return m_refreshInterval;
}
void Session::setRefreshInterval(const int value)
{
if (value != refreshInterval())
{
m_refreshInterval = value;
}
}
bool Session::isPreallocationEnabled() const
{
return m_isPreallocationEnabled;
}
void Session::setPreallocationEnabled(const bool enabled)
{
m_isPreallocationEnabled = enabled;
}
Path Session::torrentExportDirectory() const
{
return m_torrentExportDirectory;
}
void Session::setTorrentExportDirectory(const Path &path)
{
if (path != torrentExportDirectory())
m_torrentExportDirectory = path;
}
Path Session::finishedTorrentExportDirectory() const
{
return m_finishedTorrentExportDirectory;
}
void Session::setFinishedTorrentExportDirectory(const Path &path)
{
if (path != finishedTorrentExportDirectory())
m_finishedTorrentExportDirectory = path;
}
Path Session::savePath() const
{
return m_savePath;
}
Path Session::downloadPath() const
{
return m_downloadPath;
}
bool Session::isValidCategoryName(const QString &name)
{
const QRegularExpression re(uR"(^([^\\\/]|[^\\\/]([^\\\/]|\/(?=[^\/]))*[^\\\/])$)"_qs);
if (!name.isEmpty() && (name.indexOf(re) != 0))
{
qDebug() << "Incorrect category name:" << name;
return false;
}
return true;
}
QStringList Session::expandCategory(const QString &category)
{
QStringList result;
if (!isValidCategoryName(category))
return result;
int index = 0;
while ((index = category.indexOf(u'/', index)) >= 0)
{
result << category.left(index);
++index;
}
result << category;
return result;
}
QStringList Session::categories() const
{
return m_categories.keys();
}
CategoryOptions Session::categoryOptions(const QString &categoryName) const
{
return m_categories.value(categoryName);
}
Path Session::categorySavePath(const QString &categoryName) const
{
const Path basePath = savePath();
if (categoryName.isEmpty())
return basePath;
Path path = m_categories.value(categoryName).savePath;
if (path.isEmpty()) // use implicit save path
path = Utils::Fs::toValidPath(categoryName);
return (path.isAbsolute() ? path : (basePath / path));
}
Path Session::categoryDownloadPath(const QString &categoryName) const
{
const CategoryOptions categoryOptions = m_categories.value(categoryName);
const CategoryOptions::DownloadPathOption downloadPathOption =
categoryOptions.downloadPath.value_or(CategoryOptions::DownloadPathOption {isDownloadPathEnabled(), downloadPath()});
if (!downloadPathOption.enabled)
return {};
const Path basePath = downloadPath();
if (categoryName.isEmpty())
return basePath;
const Path path = (!downloadPathOption.path.isEmpty()
? downloadPathOption.path
: Utils::Fs::toValidPath(categoryName)); // use implicit download path
return (path.isAbsolute() ? path : (basePath / path));
}
bool Session::addCategory(const QString &name, const CategoryOptions &options)
{
if (name.isEmpty())
return false;
if (!isValidCategoryName(name) || m_categories.contains(name))
return false;
if (isSubcategoriesEnabled())
{
for (const QString &parent : asConst(expandCategory(name)))
{
if ((parent != name) && !m_categories.contains(parent))
{
m_categories[parent] = {};
emit categoryAdded(parent);
}
}
}
m_categories[name] = options;
storeCategories();
emit categoryAdded(name);
return true;
}
bool Session::editCategory(const QString &name, const CategoryOptions &options)
{
const auto it = m_categories.find(name);
if (it == m_categories.end())
return false;
CategoryOptions &currentOptions = it.value();
if (options == currentOptions)
return false;
currentOptions = options;
storeCategories();
if (isDisableAutoTMMWhenCategorySavePathChanged())
{
for (TorrentImpl *const torrent : asConst(m_torrents))
{
if (torrent->category() == name)
torrent->setAutoTMMEnabled(false);
}
}
else
{
for (TorrentImpl *const torrent : asConst(m_torrents))
{
if (torrent->category() == name)
torrent->handleCategoryOptionsChanged();
}
}
return true;
}
bool Session::removeCategory(const QString &name)
{
for (TorrentImpl *const torrent : asConst(m_torrents))
{
if (torrent->belongsToCategory(name))
torrent->setCategory(u""_qs);
}
// remove stored category and its subcategories if exist
bool result = false;
if (isSubcategoriesEnabled())
{
// remove subcategories
const QString test = name + u'/';
Algorithm::removeIf(m_categories, [this, &test, &result](const QString &category, const CategoryOptions &)
{
if (category.startsWith(test))
{
result = true;
emit categoryRemoved(category);
return true;
}
return false;
});
}
result = (m_categories.remove(name) > 0) || result;
if (result)
{
// update stored categories
storeCategories();
emit categoryRemoved(name);
}
return result;
}
bool Session::isSubcategoriesEnabled() const
{
return m_isSubcategoriesEnabled;
}
void Session::setSubcategoriesEnabled(const bool value)
{
if (isSubcategoriesEnabled() == value) return;
if (value)
{
// expand categories to include all parent categories
m_categories = expandCategories(m_categories);
// update stored categories
storeCategories();
}
else
{
// reload categories
loadCategories();
}
m_isSubcategoriesEnabled = value;
emit subcategoriesSupportChanged();
}
bool Session::useCategoryPathsInManualMode() const
{
return m_useCategoryPathsInManualMode;
}
void Session::setUseCategoryPathsInManualMode(const bool value)
{
m_useCategoryPathsInManualMode = value;
}
QSet<QString> Session::tags() const
{
return m_tags;
}
bool Session::isValidTag(const QString &tag)
{
return (!tag.trimmed().isEmpty() && !tag.contains(u','));
}
bool Session::hasTag(const QString &tag) const
{
return m_tags.contains(tag);
}
bool Session::addTag(const QString &tag)
{
if (!isValidTag(tag) || hasTag(tag))
return false;
m_tags.insert(tag);
m_storedTags = m_tags.values();
emit tagAdded(tag);
return true;
}
bool Session::removeTag(const QString &tag)
{
if (m_tags.remove(tag))
{
for (TorrentImpl *const torrent : asConst(m_torrents))
torrent->removeTag(tag);
m_storedTags = m_tags.values();
emit tagRemoved(tag);
return true;
}
return false;
}
bool Session::isAutoTMMDisabledByDefault() const
{
return m_isAutoTMMDisabledByDefault;
}
void Session::setAutoTMMDisabledByDefault(const bool value)
{
m_isAutoTMMDisabledByDefault = value;
}
bool Session::isDisableAutoTMMWhenCategoryChanged() const
{
return m_isDisableAutoTMMWhenCategoryChanged;
}
void Session::setDisableAutoTMMWhenCategoryChanged(const bool value)
{
m_isDisableAutoTMMWhenCategoryChanged = value;
}
bool Session::isDisableAutoTMMWhenDefaultSavePathChanged() const
{
return m_isDisableAutoTMMWhenDefaultSavePathChanged;
}
void Session::setDisableAutoTMMWhenDefaultSavePathChanged(const bool value)
{
m_isDisableAutoTMMWhenDefaultSavePathChanged = value;
}
bool Session::isDisableAutoTMMWhenCategorySavePathChanged() const
{
return m_isDisableAutoTMMWhenCategorySavePathChanged;
}
void Session::setDisableAutoTMMWhenCategorySavePathChanged(const bool value)
{
m_isDisableAutoTMMWhenCategorySavePathChanged = value;
}
bool Session::isAddTorrentPaused() const
{
return m_isAddTorrentPaused;
}
void Session::setAddTorrentPaused(const bool value)
{
m_isAddTorrentPaused = value;
}
bool Session::isTrackerEnabled() const
{
return m_isTrackerEnabled;
}
void Session::setTrackerEnabled(const bool enabled)
{
if (m_isTrackerEnabled != enabled)
m_isTrackerEnabled = enabled;
// call enableTracker() unconditionally, otherwise port change won't trigger
// tracker restart
enableTracker(enabled);
}
qreal Session::globalMaxRatio() const
{
return m_globalMaxRatio;
}
// Torrents with a ratio superior to the given value will
// be automatically deleted
void Session::setGlobalMaxRatio(qreal ratio)
{
if (ratio < 0)
ratio = -1.;
if (ratio != globalMaxRatio())
{
m_globalMaxRatio = ratio;
updateSeedingLimitTimer();
}
}
int Session::globalMaxSeedingMinutes() const
{
return m_globalMaxSeedingMinutes;
}
void Session::setGlobalMaxSeedingMinutes(int minutes)
{
if (minutes < 0)
minutes = -1;
if (minutes != globalMaxSeedingMinutes())
{
m_globalMaxSeedingMinutes = minutes;
updateSeedingLimitTimer();
}
}
// Main destructor
Session::~Session()
{
// Do some BT related saving
saveResumeData();
// We must delete FilterParserThread
// before we delete lt::session
delete m_filterParser;
// We must delete PortForwarderImpl before
// we delete lt::session
delete Net::PortForwarder::instance();
qDebug("Deleting the session");
delete m_nativeSession;
m_ioThread->quit();
m_ioThread->wait();
}
void Session::initInstance()
{
if (!m_instance)
m_instance = new Session;
}
void Session::freeInstance()
{
delete m_instance;
m_instance = nullptr;
}
Session *Session::instance()
{
return m_instance;
}
void Session::adjustLimits()
{
if (isQueueingSystemEnabled())
{
lt::settings_pack settingsPack = m_nativeSession->get_settings();
adjustLimits(settingsPack);
m_nativeSession->apply_settings(settingsPack);
}
}
void Session::applyBandwidthLimits()
{
lt::settings_pack settingsPack = m_nativeSession->get_settings();
applyBandwidthLimits(settingsPack);
m_nativeSession->apply_settings(settingsPack);
}
void Session::configure()
{
lt::settings_pack settingsPack = m_nativeSession->get_settings();
loadLTSettings(settingsPack);
m_nativeSession->apply_settings(settingsPack);
configureComponents();
m_deferredConfigureScheduled = false;
}
void Session::configureComponents()
{
// This function contains components/actions that:
// 1. Need to be setup at start up
// 2. When deferred configure is called
configurePeerClasses();
if (!m_IPFilteringConfigured)
{
if (isIPFilteringEnabled())
enableIPFilter();
else
disableIPFilter();
m_IPFilteringConfigured = true;
}
#if defined(Q_OS_WIN)
applyOSMemoryPriority();
#endif
}
void Session::initializeNativeSession()
{
const std::string peerId = lt::generate_fingerprint(PEER_ID, QBT_VERSION_MAJOR, QBT_VERSION_MINOR, QBT_VERSION_BUGFIX, QBT_VERSION_BUILD);
lt::settings_pack pack;
pack.set_str(lt::settings_pack::peer_fingerprint, peerId);
pack.set_bool(lt::settings_pack::listen_system_port_fallback, false);
pack.set_str(lt::settings_pack::user_agent, USER_AGENT.toStdString());
pack.set_bool(lt::settings_pack::use_dht_as_fallback, false);
// Speed up exit
pack.set_int(lt::settings_pack::auto_scrape_interval, 1200); // 20 minutes
pack.set_int(lt::settings_pack::auto_scrape_min_interval, 900); // 15 minutes
// libtorrent 1.1 enables UPnP & NAT-PMP by default
// turn them off before `lt::session` ctor to avoid split second effects
pack.set_bool(lt::settings_pack::enable_upnp, false);
pack.set_bool(lt::settings_pack::enable_natpmp, false);
#ifdef QBT_USES_LIBTORRENT2
// preserve the same behavior as in earlier libtorrent versions
pack.set_bool(lt::settings_pack::enable_set_file_valid_data, true);
#endif
loadLTSettings(pack);
lt::session_params sessionParams {pack, {}};
#ifdef QBT_USES_LIBTORRENT2
switch (diskIOType())
{
case DiskIOType::Posix:
sessionParams.disk_io_constructor = customPosixDiskIOConstructor;
break;
case DiskIOType::MMap:
sessionParams.disk_io_constructor = customMMapDiskIOConstructor;
break;
default:
sessionParams.disk_io_constructor = customDiskIOConstructor;
break;
}
#endif
m_nativeSession = new lt::session {sessionParams};
LogMsg(tr("Peer ID: \"%1\"").arg(QString::fromStdString(peerId)), Log::INFO);
LogMsg(tr("HTTP User-Agent: \"%1\"").arg(USER_AGENT), Log::INFO);
LogMsg(tr("Distributed Hash Table (DHT) support: %1").arg(isDHTEnabled() ? tr("ON") : tr("OFF")), Log::INFO);
LogMsg(tr("Local Peer Discovery support: %1").arg(isLSDEnabled() ? tr("ON") : tr("OFF")), Log::INFO);
LogMsg(tr("Peer Exchange (PeX) support: %1").arg(isPeXEnabled() ? tr("ON") : tr("OFF")), Log::INFO);
LogMsg(tr("Anonymous mode: %1").arg(isAnonymousModeEnabled() ? tr("ON") : tr("OFF")), Log::INFO);
LogMsg(tr("Encryption support: %1").arg((encryption() == 0) ? tr("ON") : ((encryption() == 1) ? tr("FORCED") : tr("OFF"))), Log::INFO);
m_nativeSession->set_alert_notify([this]()
{
QMetaObject::invokeMethod(this, &Session::readAlerts, Qt::QueuedConnection);
});
// Enabling plugins
m_nativeSession->add_extension(&lt::create_smart_ban_plugin);
m_nativeSession->add_extension(&lt::create_ut_metadata_plugin);
if (isPeXEnabled())
m_nativeSession->add_extension(&lt::create_ut_pex_plugin);
m_nativeSession->add_extension(std::make_shared<NativeSessionExtension>());
}
void Session::processBannedIPs(lt::ip_filter &filter)
{
// First, import current filter
for (const QString &ip : asConst(m_bannedIPs.get()))
{
lt::error_code ec;
const lt::address addr = lt::make_address(ip.toLatin1().constData(), ec);
Q_ASSERT(!ec);
if (!ec)
filter.add_rule(addr, addr, lt::ip_filter::blocked);
}
}
void Session::adjustLimits(lt::settings_pack &settingsPack) const
{
// Internally increase the queue limits to ensure that the magnet is started
const auto adjustLimit = [this](const int limit) -> int
{
if (limit <= -1)
return limit;
// check for overflow: (limit + m_extraLimit) < std::numeric_limits<int>::max()
return (m_extraLimit < (std::numeric_limits<int>::max() - limit))
? (limit + m_extraLimit)
: std::numeric_limits<int>::max();
};
settingsPack.set_int(lt::settings_pack::active_downloads, adjustLimit(maxActiveDownloads()));
settingsPack.set_int(lt::settings_pack::active_limit, adjustLimit(maxActiveTorrents()));
}
void Session::applyBandwidthLimits(lt::settings_pack &settingsPack) const
{
const bool altSpeedLimitEnabled = isAltGlobalSpeedLimitEnabled();
settingsPack.set_int(lt::settings_pack::download_rate_limit, altSpeedLimitEnabled ? altGlobalDownloadSpeedLimit() : globalDownloadSpeedLimit());
settingsPack.set_int(lt::settings_pack::upload_rate_limit, altSpeedLimitEnabled ? altGlobalUploadSpeedLimit() : globalUploadSpeedLimit());
}
void Session::initMetrics()
{
const auto findMetricIndex = [](const char *name) -> int
{
const int index = lt::find_metric_idx(name);
Q_ASSERT(index >= 0);
return index;
};
// TODO: switch to "designated initializers" in C++20
m_metricIndices.net.hasIncomingConnections = findMetricIndex("net.has_incoming_connections");
m_metricIndices.net.sentPayloadBytes = findMetricIndex("net.sent_payload_bytes");
m_metricIndices.net.recvPayloadBytes = findMetricIndex("net.recv_payload_bytes");
m_metricIndices.net.sentBytes = findMetricIndex("net.sent_bytes");
m_metricIndices.net.recvBytes = findMetricIndex("net.recv_bytes");
m_metricIndices.net.sentIPOverheadBytes = findMetricIndex("net.sent_ip_overhead_bytes");
m_metricIndices.net.recvIPOverheadBytes = findMetricIndex("net.recv_ip_overhead_bytes");
m_metricIndices.net.sentTrackerBytes = findMetricIndex("net.sent_tracker_bytes");
m_metricIndices.net.recvTrackerBytes = findMetricIndex("net.recv_tracker_bytes");
m_metricIndices.net.recvRedundantBytes = findMetricIndex("net.recv_redundant_bytes");
m_metricIndices.net.recvFailedBytes = findMetricIndex("net.recv_failed_bytes");
m_metricIndices.peer.numPeersConnected = findMetricIndex("peer.num_peers_connected");
m_metricIndices.peer.numPeersDownDisk = findMetricIndex("peer.num_peers_down_disk");
m_metricIndices.peer.numPeersUpDisk = findMetricIndex("peer.num_peers_up_disk");
m_metricIndices.dht.dhtBytesIn = findMetricIndex("dht.dht_bytes_in");
m_metricIndices.dht.dhtBytesOut = findMetricIndex("dht.dht_bytes_out");
m_metricIndices.dht.dhtNodes = findMetricIndex("dht.dht_nodes");
m_metricIndices.disk.diskBlocksInUse = findMetricIndex("disk.disk_blocks_in_use");
m_metricIndices.disk.numBlocksRead = findMetricIndex("disk.num_blocks_read");
#ifndef QBT_USES_LIBTORRENT2
m_metricIndices.disk.numBlocksCacheHits = findMetricIndex("disk.num_blocks_cache_hits");
#endif
m_metricIndices.disk.writeJobs = findMetricIndex("disk.num_write_ops");
m_metricIndices.disk.readJobs = findMetricIndex("disk.num_read_ops");
m_metricIndices.disk.hashJobs = findMetricIndex("disk.num_blocks_hashed");
m_metricIndices.disk.queuedDiskJobs = findMetricIndex("disk.queued_disk_jobs");
m_metricIndices.disk.diskJobTime = findMetricIndex("disk.disk_job_time");
}
void Session::loadLTSettings(lt::settings_pack &settingsPack)
{
const lt::alert_category_t alertMask = lt::alert::error_notification
| lt::alert::file_progress_notification
| lt::alert::ip_block_notification
| lt::alert::peer_notification
| (isPerformanceWarningEnabled() ? lt::alert::performance_warning : lt::alert_category_t())
| lt::alert::port_mapping_notification
| lt::alert::status_notification
| lt::alert::storage_notification
| lt::alert::tracker_notification;
settingsPack.set_int(lt::settings_pack::alert_mask, alertMask);
settingsPack.set_int(lt::settings_pack::connection_speed, connectionSpeed());
// from libtorrent doc:
// It will not take affect until the listen_interfaces settings is updated
settingsPack.set_int(lt::settings_pack::listen_queue_size, socketBacklogSize());
configureNetworkInterfaces(settingsPack);
applyBandwidthLimits(settingsPack);
// The most secure, rc4 only so that all streams are encrypted
settingsPack.set_int(lt::settings_pack::allowed_enc_level, lt::settings_pack::pe_rc4);
settingsPack.set_bool(lt::settings_pack::prefer_rc4, true);
switch (encryption())
{
case 0: // Enabled
settingsPack.set_int(lt::settings_pack::out_enc_policy, lt::settings_pack::pe_enabled);
settingsPack.set_int(lt::settings_pack::in_enc_policy, lt::settings_pack::pe_enabled);
break;
case 1: // Forced
settingsPack.set_int(lt::settings_pack::out_enc_policy, lt::settings_pack::pe_forced);
settingsPack.set_int(lt::settings_pack::in_enc_policy, lt::settings_pack::pe_forced);
break;
default: // Disabled
settingsPack.set_int(lt::settings_pack::out_enc_policy, lt::settings_pack::pe_disabled);
settingsPack.set_int(lt::settings_pack::in_enc_policy, lt::settings_pack::pe_disabled);
}
settingsPack.set_int(lt::settings_pack::active_checking, maxActiveCheckingTorrents());
// proxy
const auto proxyManager = Net::ProxyConfigurationManager::instance();
const Net::ProxyConfiguration proxyConfig = proxyManager->proxyConfiguration();
switch (proxyConfig.type)
{
case Net::ProxyType::HTTP:
settingsPack.set_int(lt::settings_pack::proxy_type, lt::settings_pack::http);
break;
case Net::ProxyType::HTTP_PW:
settingsPack.set_int(lt::settings_pack::proxy_type, lt::settings_pack::http_pw);
break;
case Net::ProxyType::SOCKS4:
settingsPack.set_int(lt::settings_pack::proxy_type, lt::settings_pack::socks4);
break;
case Net::ProxyType::SOCKS5:
settingsPack.set_int(lt::settings_pack::proxy_type, lt::settings_pack::socks5);
break;
case Net::ProxyType::SOCKS5_PW:
settingsPack.set_int(lt::settings_pack::proxy_type, lt::settings_pack::socks5_pw);
break;
case Net::ProxyType::None:
default:
settingsPack.set_int(lt::settings_pack::proxy_type, lt::settings_pack::none);
}
if (proxyConfig.type != Net::ProxyType::None)
{
settingsPack.set_str(lt::settings_pack::proxy_hostname, proxyConfig.ip.toStdString());
settingsPack.set_int(lt::settings_pack::proxy_port, proxyConfig.port);
if (proxyManager->isAuthenticationRequired())
{
settingsPack.set_str(lt::settings_pack::proxy_username, proxyConfig.username.toStdString());
settingsPack.set_str(lt::settings_pack::proxy_password, proxyConfig.password.toStdString());
}
settingsPack.set_bool(lt::settings_pack::proxy_peer_connections, isProxyPeerConnectionsEnabled());
}
settingsPack.set_bool(lt::settings_pack::announce_to_all_trackers, announceToAllTrackers());
settingsPack.set_bool(lt::settings_pack::announce_to_all_tiers, announceToAllTiers());
settingsPack.set_int(lt::settings_pack::peer_turnover, peerTurnover());
settingsPack.set_int(lt::settings_pack::peer_turnover_cutoff, peerTurnoverCutoff());
settingsPack.set_int(lt::settings_pack::peer_turnover_interval, peerTurnoverInterval());
settingsPack.set_int(lt::settings_pack::max_out_request_queue, requestQueueSize());
settingsPack.set_int(lt::settings_pack::aio_threads, asyncIOThreads());
#ifdef QBT_USES_LIBTORRENT2
settingsPack.set_int(lt::settings_pack::hashing_threads, hashingThreads());
#endif
settingsPack.set_int(lt::settings_pack::file_pool_size, filePoolSize());
const int checkingMemUsageSize = checkingMemUsage() * 64;
settingsPack.set_int(lt::settings_pack::checking_mem_usage, checkingMemUsageSize);
#ifndef QBT_USES_LIBTORRENT2
const int cacheSize = (diskCacheSize() > -1) ? (diskCacheSize() * 64) : -1;
settingsPack.set_int(lt::settings_pack::cache_size, cacheSize);
settingsPack.set_int(lt::settings_pack::cache_expiry, diskCacheTTL());
#endif
settingsPack.set_int(lt::settings_pack::max_queued_disk_bytes, diskQueueSize());
lt::settings_pack::io_buffer_mode_t mode = useOSCache() ? lt::settings_pack::enable_os_cache
: lt::settings_pack::disable_os_cache;
settingsPack.set_int(lt::settings_pack::disk_io_read_mode, mode);
settingsPack.set_int(lt::settings_pack::disk_io_write_mode, mode);
#ifndef QBT_USES_LIBTORRENT2
settingsPack.set_bool(lt::settings_pack::coalesce_reads, isCoalesceReadWriteEnabled());
settingsPack.set_bool(lt::settings_pack::coalesce_writes, isCoalesceReadWriteEnabled());
#endif
settingsPack.set_bool(lt::settings_pack::piece_extent_affinity, usePieceExtentAffinity());
settingsPack.set_int(lt::settings_pack::suggest_mode, isSuggestModeEnabled()
? lt::settings_pack::suggest_read_cache : lt::settings_pack::no_piece_suggestions);
settingsPack.set_int(lt::settings_pack::send_buffer_watermark, sendBufferWatermark() * 1024);
settingsPack.set_int(lt::settings_pack::send_buffer_low_watermark, sendBufferLowWatermark() * 1024);
settingsPack.set_int(lt::settings_pack::send_buffer_watermark_factor, sendBufferWatermarkFactor());
settingsPack.set_bool(lt::settings_pack::anonymous_mode, isAnonymousModeEnabled());
// Queueing System
if (isQueueingSystemEnabled())
{
adjustLimits(settingsPack);
settingsPack.set_int(lt::settings_pack::active_seeds, maxActiveUploads());
settingsPack.set_bool(lt::settings_pack::dont_count_slow_torrents, ignoreSlowTorrentsForQueueing());
settingsPack.set_int(lt::settings_pack::inactive_down_rate, downloadRateForSlowTorrents() * 1024); // KiB to Bytes
settingsPack.set_int(lt::settings_pack::inactive_up_rate, uploadRateForSlowTorrents() * 1024); // KiB to Bytes
settingsPack.set_int(lt::settings_pack::auto_manage_startup, slowTorrentsInactivityTimer());
}
else
{
settingsPack.set_int(lt::settings_pack::active_downloads, -1);
settingsPack.set_int(lt::settings_pack::active_seeds, -1);
settingsPack.set_int(lt::settings_pack::active_limit, -1);
}
settingsPack.set_int(lt::settings_pack::active_tracker_limit, -1);
settingsPack.set_int(lt::settings_pack::active_dht_limit, -1);
settingsPack.set_int(lt::settings_pack::active_lsd_limit, -1);
settingsPack.set_int(lt::settings_pack::alert_queue_size, std::numeric_limits<int>::max() / 2);
// Outgoing ports
settingsPack.set_int(lt::settings_pack::outgoing_port, outgoingPortsMin());
settingsPack.set_int(lt::settings_pack::num_outgoing_ports, outgoingPortsMax() - outgoingPortsMin() + 1);
// UPnP lease duration
settingsPack.set_int(lt::settings_pack::upnp_lease_duration, UPnPLeaseDuration());
// Type of service
settingsPack.set_int(lt::settings_pack::peer_tos, peerToS());
// Include overhead in transfer limits
settingsPack.set_bool(lt::settings_pack::rate_limit_ip_overhead, includeOverheadInLimits());
// IP address to announce to trackers
settingsPack.set_str(lt::settings_pack::announce_ip, announceIP().toStdString());
// Max concurrent HTTP announces
settingsPack.set_int(lt::settings_pack::max_concurrent_http_announces, maxConcurrentHTTPAnnounces());
// Stop tracker timeout
settingsPack.set_int(lt::settings_pack::stop_tracker_timeout, stopTrackerTimeout());
// * Max connections limit
settingsPack.set_int(lt::settings_pack::connections_limit, maxConnections());
// * Global max upload slots
settingsPack.set_int(lt::settings_pack::unchoke_slots_limit, maxUploads());
// uTP
switch (btProtocol())
{
case BTProtocol::Both:
default:
settingsPack.set_bool(lt::settings_pack::enable_incoming_tcp, true);
settingsPack.set_bool(lt::settings_pack::enable_outgoing_tcp, true);
settingsPack.set_bool(lt::settings_pack::enable_incoming_utp, true);
settingsPack.set_bool(lt::settings_pack::enable_outgoing_utp, true);
break;
case BTProtocol::TCP:
settingsPack.set_bool(lt::settings_pack::enable_incoming_tcp, true);
settingsPack.set_bool(lt::settings_pack::enable_outgoing_tcp, true);
settingsPack.set_bool(lt::settings_pack::enable_incoming_utp, false);
settingsPack.set_bool(lt::settings_pack::enable_outgoing_utp, false);
break;
case BTProtocol::UTP:
settingsPack.set_bool(lt::settings_pack::enable_incoming_tcp, false);
settingsPack.set_bool(lt::settings_pack::enable_outgoing_tcp, false);
settingsPack.set_bool(lt::settings_pack::enable_incoming_utp, true);
settingsPack.set_bool(lt::settings_pack::enable_outgoing_utp, true);
break;
}
switch (utpMixedMode())
{
case MixedModeAlgorithm::TCP:
default:
settingsPack.set_int(lt::settings_pack::mixed_mode_algorithm, lt::settings_pack::prefer_tcp);
break;
case MixedModeAlgorithm::Proportional:
settingsPack.set_int(lt::settings_pack::mixed_mode_algorithm, lt::settings_pack::peer_proportional);
break;
}
settingsPack.set_bool(lt::settings_pack::allow_idna, isIDNSupportEnabled());
settingsPack.set_bool(lt::settings_pack::allow_multiple_connections_per_ip, multiConnectionsPerIpEnabled());
settingsPack.set_bool(lt::settings_pack::validate_https_trackers, validateHTTPSTrackerCertificate());
settingsPack.set_bool(lt::settings_pack::ssrf_mitigation, isSSRFMitigationEnabled());
settingsPack.set_bool(lt::settings_pack::no_connect_privileged_ports, blockPeersOnPrivilegedPorts());
settingsPack.set_bool(lt::settings_pack::apply_ip_filter_to_trackers, isTrackerFilteringEnabled());
settingsPack.set_bool(lt::settings_pack::enable_dht, isDHTEnabled());
if (isDHTEnabled())
settingsPack.set_str(lt::settings_pack::dht_bootstrap_nodes, "dht.libtorrent.org:25401,router.bittorrent.com:6881,router.utorrent.com:6881,dht.transmissionbt.com:6881,dht.aelitis.com:6881");
settingsPack.set_bool(lt::settings_pack::enable_lsd, isLSDEnabled());
switch (chokingAlgorithm())
{
case ChokingAlgorithm::FixedSlots:
default:
settingsPack.set_int(lt::settings_pack::choking_algorithm, lt::settings_pack::fixed_slots_choker);
break;
case ChokingAlgorithm::RateBased:
settingsPack.set_int(lt::settings_pack::choking_algorithm, lt::settings_pack::rate_based_choker);
break;
}
switch (seedChokingAlgorithm())
{
case SeedChokingAlgorithm::RoundRobin:
settingsPack.set_int(lt::settings_pack::seed_choking_algorithm, lt::settings_pack::round_robin);
break;
case SeedChokingAlgorithm::FastestUpload:
default:
settingsPack.set_int(lt::settings_pack::seed_choking_algorithm, lt::settings_pack::fastest_upload);
break;
case SeedChokingAlgorithm::AntiLeech:
settingsPack.set_int(lt::settings_pack::seed_choking_algorithm, lt::settings_pack::anti_leech);
break;
}
}
void Session::configureNetworkInterfaces(lt::settings_pack &settingsPack)
{
if (m_listenInterfaceConfigured)
return;
if (port() > 0) // user has specified port number
settingsPack.set_int(lt::settings_pack::max_retry_port_bind, 0);
QStringList endpoints;
QStringList outgoingInterfaces;
const QString portString = u':' + QString::number(port());
for (const QString &ip : asConst(getListeningIPs()))
{
const QHostAddress addr {ip};
if (!addr.isNull())
{
const bool isIPv6 = (addr.protocol() == QAbstractSocket::IPv6Protocol);
const QString ip = isIPv6
? Utils::Net::canonicalIPv6Addr(addr).toString()
: addr.toString();
endpoints << ((isIPv6 ? (u'[' + ip + u']') : ip) + portString);
if ((ip != u"0.0.0.0") && (ip != u"::"))
outgoingInterfaces << ip;
}
else
{
// ip holds an interface name
#ifdef Q_OS_WIN
// On Vista+ versions and after Qt 5.5 QNetworkInterface::name() returns
// the interface's LUID and not the GUID.
// Libtorrent expects GUIDs for the 'listen_interfaces' setting.
const QString guid = convertIfaceNameToGuid(ip);
if (!guid.isEmpty())
{
endpoints << (guid + portString);
outgoingInterfaces << guid;
}
else
{
LogMsg(tr("Could not find GUID of network interface. Interface: \"%1\"").arg(ip), Log::WARNING);
// Since we can't get the GUID, we'll pass the interface name instead.
// Otherwise an empty string will be passed to outgoing_interface which will cause IP leak.
endpoints << (ip + portString);
outgoingInterfaces << ip;
}
#else
endpoints << (ip + portString);
outgoingInterfaces << ip;
#endif
}
}
const QString finalEndpoints = endpoints.join(u',');
settingsPack.set_str(lt::settings_pack::listen_interfaces, finalEndpoints.toStdString());
LogMsg(tr("Trying to listen on the following list of IP addresses: \"%1\"").arg(finalEndpoints));
settingsPack.set_str(lt::settings_pack::outgoing_interfaces, outgoingInterfaces.join(u',').toStdString());
m_listenInterfaceConfigured = true;
}
void Session::configurePeerClasses()
{
lt::ip_filter f;
// lt::make_address("255.255.255.255") crashes on some people's systems
// so instead we use address_v4::broadcast()
// Proactively do the same for 0.0.0.0 and address_v4::any()
f.add_rule(lt::address_v4::any()
, lt::address_v4::broadcast()
, 1 << LT::toUnderlyingType(lt::session::global_peer_class_id));
// IPv6 may not be available on OS and the parsing
// would result in an exception -> abnormal program termination
// Affects Windows XP
try
{
f.add_rule(lt::address_v6::any()
, lt::make_address("ffff:ffff:ffff:ffff:ffff:ffff:ffff:ffff")
, 1 << LT::toUnderlyingType(lt::session::global_peer_class_id));
}
catch (const std::exception &) {}
if (ignoreLimitsOnLAN())
{
// local networks
f.add_rule(lt::make_address("10.0.0.0")
, lt::make_address("10.255.255.255")
, 1 << LT::toUnderlyingType(lt::session::local_peer_class_id));
f.add_rule(lt::make_address("172.16.0.0")
, lt::make_address("172.31.255.255")
, 1 << LT::toUnderlyingType(lt::session::local_peer_class_id));
f.add_rule(lt::make_address("192.168.0.0")
, lt::make_address("192.168.255.255")
, 1 << LT::toUnderlyingType(lt::session::local_peer_class_id));
// link local
f.add_rule(lt::make_address("169.254.0.0")
, lt::make_address("169.254.255.255")
, 1 << LT::toUnderlyingType(lt::session::local_peer_class_id));
// loopback
f.add_rule(lt::make_address("127.0.0.0")
, lt::make_address("127.255.255.255")
, 1 << LT::toUnderlyingType(lt::session::local_peer_class_id));
// IPv6 may not be available on OS and the parsing
// would result in an exception -> abnormal program termination
// Affects Windows XP
try
{
// link local
f.add_rule(lt::make_address("fe80::")
, lt::make_address("febf:ffff:ffff:ffff:ffff:ffff:ffff:ffff")
, 1 << LT::toUnderlyingType(lt::session::local_peer_class_id));
// unique local addresses
f.add_rule(lt::make_address("fc00::")
, lt::make_address("fdff:ffff:ffff:ffff:ffff:ffff:ffff:ffff")
, 1 << LT::toUnderlyingType(lt::session::local_peer_class_id));
// loopback
f.add_rule(lt::address_v6::loopback()
, lt::address_v6::loopback()
, 1 << LT::toUnderlyingType(lt::session::local_peer_class_id));
}
catch (const std::exception &) {}
}
m_nativeSession->set_peer_class_filter(f);
lt::peer_class_type_filter peerClassTypeFilter;
peerClassTypeFilter.add(lt::peer_class_type_filter::tcp_socket, lt::session::tcp_peer_class_id);
peerClassTypeFilter.add(lt::peer_class_type_filter::ssl_tcp_socket, lt::session::tcp_peer_class_id);
peerClassTypeFilter.add(lt::peer_class_type_filter::i2p_socket, lt::session::tcp_peer_class_id);
if (!isUTPRateLimited())
{
peerClassTypeFilter.disallow(lt::peer_class_type_filter::utp_socket
, lt::session::global_peer_class_id);
peerClassTypeFilter.disallow(lt::peer_class_type_filter::ssl_utp_socket
, lt::session::global_peer_class_id);
}
m_nativeSession->set_peer_class_type_filter(peerClassTypeFilter);
}
void Session::enableTracker(const bool enable)
{
if (enable)
{
if (!m_tracker)
m_tracker = new Tracker(this);
m_tracker->start();
}
else
{
delete m_tracker;
}
}
void Session::enableBandwidthScheduler()
{
if (!m_bwScheduler)
{
m_bwScheduler = new BandwidthScheduler(this);
connect(m_bwScheduler.data(), &BandwidthScheduler::bandwidthLimitRequested
, this, &Session::setAltGlobalSpeedLimitEnabled);
}
m_bwScheduler->start();
}
void Session::populateAdditionalTrackers()
{
m_additionalTrackerList.clear();
const QString trackers = additionalTrackers();
for (QStringView tracker : asConst(QStringView(trackers).split(u'\n')))
{
tracker = tracker.trimmed();
if (!tracker.isEmpty())
m_additionalTrackerList.append({tracker.toString()});
}
}
void Session::processShareLimits()
{
qDebug("Processing share limits...");
// We shouldn't iterate over `m_torrents` in the loop below
// since `deleteTorrent()` modifies it indirectly
const QHash<TorrentID, TorrentImpl *> torrents {m_torrents};
for (TorrentImpl *const torrent : torrents)
{
if (torrent->isSeed() && !torrent->isForced())
{
if (torrent->ratioLimit() != Torrent::NO_RATIO_LIMIT)
{
const qreal ratio = torrent->realRatio();
qreal ratioLimit = torrent->ratioLimit();
if (ratioLimit == Torrent::USE_GLOBAL_RATIO)
// If Global Max Ratio is really set...
ratioLimit = globalMaxRatio();
if (ratioLimit >= 0)
{
qDebug("Ratio: %f (limit: %f)", ratio, ratioLimit);
if ((ratio <= Torrent::MAX_RATIO) && (ratio >= ratioLimit))
{
const QString description = tr("Torrent reached the share ratio limit.");
const QString torrentName = tr("Torrent: \"%1\".").arg(torrent->name());
if (m_maxRatioAction == Remove)
{
LogMsg(u"%1 %2 %3"_qs.arg(description, tr("Removed torrent."), torrentName));
deleteTorrent(torrent->id());
}
else if (m_maxRatioAction == DeleteFiles)
{
LogMsg(u"%1 %2 %3"_qs.arg(description, tr("Removed torrent and deleted its content."), torrentName));
deleteTorrent(torrent->id(), DeleteTorrentAndFiles);
}
else if ((m_maxRatioAction == Pause) && !torrent->isPaused())
{
torrent->pause();
LogMsg(u"%1 %2 %3"_qs.arg(description, tr("Torrent paused."), torrentName));
}
else if ((m_maxRatioAction == EnableSuperSeeding) && !torrent->isPaused() && !torrent->superSeeding())
{
torrent->setSuperSeeding(true);
LogMsg(u"%1 %2 %3"_qs.arg(description, tr("Super seeding enabled."), torrentName));
}
continue;
}
}
}
if (torrent->seedingTimeLimit() != Torrent::NO_SEEDING_TIME_LIMIT)
{
const qlonglong seedingTimeInMinutes = torrent->finishedTime() / 60;
int seedingTimeLimit = torrent->seedingTimeLimit();
if (seedingTimeLimit == Torrent::USE_GLOBAL_SEEDING_TIME)
{
// If Global Seeding Time Limit is really set...
seedingTimeLimit = globalMaxSeedingMinutes();
}
if (seedingTimeLimit >= 0)
{
if ((seedingTimeInMinutes <= Torrent::MAX_SEEDING_TIME) && (seedingTimeInMinutes >= seedingTimeLimit))
{
const QString description = tr("Torrent reached the seeding time limit.");
const QString torrentName = tr("Torrent: \"%1\".").arg(torrent->name());
if (m_maxRatioAction == Remove)
{
LogMsg(u"%1 %2 %3"_qs.arg(description, tr("Removed torrent."), torrentName));
deleteTorrent(torrent->id());
}
else if (m_maxRatioAction == DeleteFiles)
{
LogMsg(u"%1 %2 %3"_qs.arg(description, tr("Removed torrent and deleted its content."), torrentName));
deleteTorrent(torrent->id(), DeleteTorrentAndFiles);
}
else if ((m_maxRatioAction == Pause) && !torrent->isPaused())
{
torrent->pause();
LogMsg(u"%1 %2 %3"_qs.arg(description, tr("Torrent paused."), torrentName));
}
else if ((m_maxRatioAction == EnableSuperSeeding) && !torrent->isPaused() && !torrent->superSeeding())
{
torrent->setSuperSeeding(true);
LogMsg(u"%1 %2 %3"_qs.arg(description, tr("Super seeding enabled."), torrentName));
}
}
}
}
}
}
}
// Add to BitTorrent session the downloaded torrent file
void Session::handleDownloadFinished(const Net::DownloadResult &result)
{
switch (result.status)
{
case Net::DownloadStatus::Success:
emit downloadFromUrlFinished(result.url);
if (const nonstd::expected<TorrentInfo, QString> loadResult = TorrentInfo::load(result.data); loadResult)
addTorrent(loadResult.value(), m_downloadedTorrents.take(result.url));
else
LogMsg(tr("Failed to load torrent. Reason: \"%1\"").arg(loadResult.error()), Log::WARNING);
break;
case Net::DownloadStatus::RedirectedToMagnet:
emit downloadFromUrlFinished(result.url);
addTorrent(MagnetUri(result.magnet), m_downloadedTorrents.take(result.url));
break;
default:
emit downloadFromUrlFailed(result.url, result.errorString);
}
}
void Session::fileSearchFinished(const TorrentID &id, const Path &savePath, const PathList &fileNames)
{
TorrentImpl *torrent = m_torrents.value(id);
if (torrent)
{
torrent->fileSearchFinished(savePath, fileNames);
return;
}
const auto loadingTorrentsIter = m_loadingTorrents.find(id);
if (loadingTorrentsIter != m_loadingTorrents.end())
{
LoadTorrentParams params = loadingTorrentsIter.value();
m_loadingTorrents.erase(loadingTorrentsIter);
lt::add_torrent_params &p = params.ltAddTorrentParams;
p.save_path = savePath.toString().toStdString();
const TorrentInfo torrentInfo {*p.ti};
const auto nativeIndexes = torrentInfo.nativeIndexes();
for (int i = 0; i < fileNames.size(); ++i)
p.renamed_files[nativeIndexes[i]] = fileNames[i].toString().toStdString();
loadTorrent(params);
}
}
// Return the torrent handle, given its hash
Torrent *Session::findTorrent(const TorrentID &id) const
{
return m_torrents.value(id);
}
bool Session::hasActiveTorrents() const
{
return std::any_of(m_torrents.begin(), m_torrents.end(), [](TorrentImpl *torrent)
{
return TorrentFilter::ActiveTorrent.match(torrent);
});
}
bool Session::hasUnfinishedTorrents() const
{
return std::any_of(m_torrents.begin(), m_torrents.end(), [](const TorrentImpl *torrent)
{
return (!torrent->isSeed() && !torrent->isPaused() && !torrent->isErrored());
});
}
bool Session::hasRunningSeed() const
{
return std::any_of(m_torrents.begin(), m_torrents.end(), [](const TorrentImpl *torrent)
{
return (torrent->isSeed() && !torrent->isPaused());
});
}
void Session::banIP(const QString &ip)
{
QStringList bannedIPs = m_bannedIPs;
if (!bannedIPs.contains(ip))
{
lt::ip_filter filter = m_nativeSession->get_ip_filter();
lt::error_code ec;
const lt::address addr = lt::make_address(ip.toLatin1().constData(), ec);
Q_ASSERT(!ec);
if (ec) return;
filter.add_rule(addr, addr, lt::ip_filter::blocked);
m_nativeSession->set_ip_filter(filter);
bannedIPs << ip;
bannedIPs.sort();
m_bannedIPs = bannedIPs;
}
}
// Delete a torrent from the session, given its hash
// and from the disk, if the corresponding deleteOption is chosen
bool Session::deleteTorrent(const TorrentID &id, const DeleteOption deleteOption)
{
TorrentImpl *const torrent = m_torrents.take(id);
if (!torrent) return false;
qDebug("Deleting torrent with ID: %s", qUtf8Printable(torrent->id().toString()));
emit torrentAboutToBeRemoved(torrent);
// Remove it from session
if (deleteOption == DeleteTorrent)
{
m_removingTorrents[torrent->id()] = {torrent->name(), {}, deleteOption};
const lt::torrent_handle nativeHandle {torrent->nativeHandle()};
const auto iter = std::find_if(m_moveStorageQueue.begin(), m_moveStorageQueue.end()
, [&nativeHandle](const MoveStorageJob &job)
{
return job.torrentHandle == nativeHandle;
});
if (iter != m_moveStorageQueue.end())
{
// We shouldn't actually remove torrent until existing "move storage jobs" are done
torrentQueuePositionBottom(nativeHandle);
nativeHandle.unset_flags(lt::torrent_flags::auto_managed);
nativeHandle.pause();
}
else
{
m_nativeSession->remove_torrent(nativeHandle, lt::session::delete_partfile);
}
}
else
{
m_removingTorrents[torrent->id()] = {torrent->name(), torrent->rootPath(), deleteOption};
if (m_moveStorageQueue.size() > 1)
{
// Delete "move storage job" for the deleted torrent
// (note: we shouldn't delete active job)
const auto iter = std::find_if(m_moveStorageQueue.begin() + 1, m_moveStorageQueue.end()
, [torrent](const MoveStorageJob &job)
{
return job.torrentHandle == torrent->nativeHandle();
});
if (iter != m_moveStorageQueue.end())
m_moveStorageQueue.erase(iter);
}
m_nativeSession->remove_torrent(torrent->nativeHandle(), lt::session::delete_files);
}
// Remove it from torrent resume directory
m_resumeDataStorage->remove(torrent->id());
delete torrent;
return true;
}
bool Session::cancelDownloadMetadata(const TorrentID &id)
{
const auto downloadedMetadataIter = m_downloadedMetadata.find(id);
if (downloadedMetadataIter == m_downloadedMetadata.end()) return false;
m_downloadedMetadata.erase(downloadedMetadataIter);
--m_extraLimit;
adjustLimits();
m_nativeSession->remove_torrent(m_nativeSession->find_torrent(id), lt::session::delete_files);
return true;
}
void Session::increaseTorrentsQueuePos(const QVector<TorrentID> &ids)
{
using ElementType = std::pair<int, const TorrentImpl *>;
std::priority_queue<ElementType
, std::vector<ElementType>
, std::greater<ElementType>> torrentQueue;
// Sort torrents by queue position
for (const TorrentID &id : ids)
{
const TorrentImpl *torrent = m_torrents.value(id);
if (!torrent) continue;
if (const int position = torrent->queuePosition(); position >= 0)
torrentQueue.emplace(position, torrent);
}
// Increase torrents queue position (starting with the one in the highest queue position)
while (!torrentQueue.empty())
{
const TorrentImpl *torrent = torrentQueue.top().second;
torrentQueuePositionUp(torrent->nativeHandle());
torrentQueue.pop();
}
saveTorrentsQueue();
}
void Session::decreaseTorrentsQueuePos(const QVector<TorrentID> &ids)
{
using ElementType = std::pair<int, const TorrentImpl *>;
std::priority_queue<ElementType> torrentQueue;
// Sort torrents by queue position
for (const TorrentID &id : ids)
{
const TorrentImpl *torrent = m_torrents.value(id);
if (!torrent) continue;
if (const int position = torrent->queuePosition(); position >= 0)
torrentQueue.emplace(position, torrent);
}
// Decrease torrents queue position (starting with the one in the lowest queue position)
while (!torrentQueue.empty())
{
const TorrentImpl *torrent = torrentQueue.top().second;
torrentQueuePositionDown(torrent->nativeHandle());
torrentQueue.pop();
}
for (auto i = m_downloadedMetadata.cbegin(); i != m_downloadedMetadata.cend(); ++i)
torrentQueuePositionBottom(m_nativeSession->find_torrent(*i));
saveTorrentsQueue();
}
void Session::topTorrentsQueuePos(const QVector<TorrentID> &ids)
{
using ElementType = std::pair<int, const TorrentImpl *>;
std::priority_queue<ElementType> torrentQueue;
// Sort torrents by queue position
for (const TorrentID &id : ids)
{
const TorrentImpl *torrent = m_torrents.value(id);
if (!torrent) continue;
if (const int position = torrent->queuePosition(); position >= 0)
torrentQueue.emplace(position, torrent);
}
// Top torrents queue position (starting with the one in the lowest queue position)
while (!torrentQueue.empty())
{
const TorrentImpl *torrent = torrentQueue.top().second;
torrentQueuePositionTop(torrent->nativeHandle());
torrentQueue.pop();
}
saveTorrentsQueue();
}
void Session::bottomTorrentsQueuePos(const QVector<TorrentID> &ids)
{
using ElementType = std::pair<int, const TorrentImpl *>;
std::priority_queue<ElementType
, std::vector<ElementType>
, std::greater<ElementType>> torrentQueue;
// Sort torrents by queue position
for (const TorrentID &id : ids)
{
const TorrentImpl *torrent = m_torrents.value(id);
if (!torrent) continue;
if (const int position = torrent->queuePosition(); position >= 0)
torrentQueue.emplace(position, torrent);
}
// Bottom torrents queue position (starting with the one in the highest queue position)
while (!torrentQueue.empty())
{
const TorrentImpl *torrent = torrentQueue.top().second;
torrentQueuePositionBottom(torrent->nativeHandle());
torrentQueue.pop();
}
for (auto i = m_downloadedMetadata.cbegin(); i != m_downloadedMetadata.cend(); ++i)
torrentQueuePositionBottom(m_nativeSession->find_torrent(*i));
saveTorrentsQueue();
}
void Session::handleTorrentNeedSaveResumeData(const TorrentImpl *torrent)
{
if (m_needSaveResumeDataTorrents.empty())
{
QMetaObject::invokeMethod(this, [this]()
{
for (const TorrentID &torrentID : asConst(m_needSaveResumeDataTorrents))
{
TorrentImpl *torrent = m_torrents.value(torrentID);
if (torrent)
torrent->saveResumeData();
}
m_needSaveResumeDataTorrents.clear();
}, Qt::QueuedConnection);
}
m_needSaveResumeDataTorrents.insert(torrent->id());
}
void Session::handleTorrentSaveResumeDataRequested(const TorrentImpl *torrent)
{
qDebug("Saving resume data is requested for torrent '%s'...", qUtf8Printable(torrent->name()));
++m_numResumeData;
}
QVector<Torrent *> Session::torrents() const
{
QVector<Torrent *> result;
result.reserve(m_torrents.size());
for (TorrentImpl *torrent : asConst(m_torrents))
result << torrent;
return result;
}
qsizetype Session::torrentsCount() const
{
return m_torrents.size();
}
bool Session::addTorrent(const QString &source, const AddTorrentParams &params)
{
// `source`: .torrent file path/url or magnet uri
if (Net::DownloadManager::hasSupportedScheme(source))
{
LogMsg(tr("Downloading torrent, please wait... Source: \"%1\"").arg(source));
// Launch downloader
Net::DownloadManager::instance()->download(Net::DownloadRequest(source).limit(MAX_TORRENT_SIZE)
, this, &Session::handleDownloadFinished);
m_downloadedTorrents[source] = params;
return true;
}
const MagnetUri magnetUri {source};
if (magnetUri.isValid())
return addTorrent(magnetUri, params);
const Path path {source};
TorrentFileGuard guard {path};
const nonstd::expected<TorrentInfo, QString> loadResult = TorrentInfo::loadFromFile(path);
if (!loadResult)
{
LogMsg(tr("Failed to load torrent. Source: \"%1\". Reason: \"%2\"").arg(source, loadResult.error()), Log::WARNING);
return false;
}
guard.markAsAddedToSession();
return addTorrent(loadResult.value(), params);
}
bool Session::addTorrent(const MagnetUri &magnetUri, const AddTorrentParams &params)
{
if (!magnetUri.isValid()) return false;
return addTorrent_impl(magnetUri, params);
}
bool Session::addTorrent(const TorrentInfo &torrentInfo, const AddTorrentParams &params)
{
return addTorrent_impl(torrentInfo, params);
}
LoadTorrentParams Session::initLoadTorrentParams(const AddTorrentParams &addTorrentParams)
{
LoadTorrentParams loadTorrentParams;
loadTorrentParams.name = addTorrentParams.name;
loadTorrentParams.useAutoTMM = addTorrentParams.useAutoTMM.value_or(!isAutoTMMDisabledByDefault());
loadTorrentParams.firstLastPiecePriority = addTorrentParams.firstLastPiecePriority;
loadTorrentParams.hasSeedStatus = addTorrentParams.skipChecking; // do not react on 'torrent_finished_alert' when skipping
loadTorrentParams.contentLayout = addTorrentParams.contentLayout.value_or(torrentContentLayout());
loadTorrentParams.operatingMode = (addTorrentParams.addForced ? TorrentOperatingMode::Forced : TorrentOperatingMode::AutoManaged);
loadTorrentParams.stopped = addTorrentParams.addPaused.value_or(isAddTorrentPaused());
loadTorrentParams.ratioLimit = addTorrentParams.ratioLimit;
loadTorrentParams.seedingTimeLimit = addTorrentParams.seedingTimeLimit;
const QString category = addTorrentParams.category;
if (!category.isEmpty() && !m_categories.contains(category) && !addCategory(category))
loadTorrentParams.category = u""_qs;
else
loadTorrentParams.category = category;
if (!loadTorrentParams.useAutoTMM)
{
if (addTorrentParams.savePath.isAbsolute())
{
loadTorrentParams.savePath = addTorrentParams.savePath;
}
else
{
const Path basePath = useCategoryPathsInManualMode() ? categorySavePath(loadTorrentParams.category) : savePath();
loadTorrentParams.savePath = basePath / addTorrentParams.savePath;
}
const bool useDownloadPath = addTorrentParams.useDownloadPath.value_or(isDownloadPathEnabled());
if (useDownloadPath)
{
if (addTorrentParams.downloadPath.isAbsolute())
{
loadTorrentParams.downloadPath = addTorrentParams.downloadPath;
}
else
{
const Path basePath = useCategoryPathsInManualMode() ? categoryDownloadPath(loadTorrentParams.category) : downloadPath();
loadTorrentParams.downloadPath = basePath / addTorrentParams.downloadPath;
}
}
}
for (const QString &tag : addTorrentParams.tags)
{
if (hasTag(tag) || addTag(tag))
loadTorrentParams.tags.insert(tag);
}
return loadTorrentParams;
}
// Add a torrent to the BitTorrent session
bool Session::addTorrent_impl(const std::variant<MagnetUri, TorrentInfo> &source, const AddTorrentParams &addTorrentParams)
{
const bool hasMetadata = std::holds_alternative<TorrentInfo>(source);
const auto id = TorrentID::fromInfoHash(hasMetadata ? std::get<TorrentInfo>(source).infoHash() : std::get<MagnetUri>(source).infoHash());
// It looks illogical that we don't just use an existing handle,
// but as previous experience has shown, it actually creates unnecessary
// problems and unwanted behavior due to the fact that it was originally
// added with parameters other than those provided by the user.
cancelDownloadMetadata(id);
// We should not add the torrent if it is already
// processed or is pending to add to session
if (m_loadingTorrents.contains(id))
return false;
TorrentImpl *const torrent = m_torrents.value(id);
if (torrent)
{ // a duplicate torrent is added
if (torrent->isPrivate())
return false;
if (hasMetadata)
{
const TorrentInfo &torrentInfo = std::get<TorrentInfo>(source);
if (torrentInfo.isPrivate())
return false;
// merge trackers and web seeds
torrent->addTrackers(torrentInfo.trackers());
torrent->addUrlSeeds(torrentInfo.urlSeeds());
}
else
{
const MagnetUri &magnetUri = std::get<MagnetUri>(source);
// merge trackers and web seeds
torrent->addTrackers(magnetUri.trackers());
torrent->addUrlSeeds(magnetUri.urlSeeds());
}
return true;
}
LoadTorrentParams loadTorrentParams = initLoadTorrentParams(addTorrentParams);
lt::add_torrent_params &p = loadTorrentParams.ltAddTorrentParams;
bool isFindingIncompleteFiles = false;
const bool useAutoTMM = loadTorrentParams.useAutoTMM;
const Path actualSavePath = useAutoTMM ? categorySavePath(loadTorrentParams.category) : loadTorrentParams.savePath;
if (hasMetadata)
{
const TorrentInfo &torrentInfo = std::get<TorrentInfo>(source);
Q_ASSERT(addTorrentParams.filePaths.isEmpty() || (addTorrentParams.filePaths.size() == torrentInfo.filesCount()));
PathList filePaths = addTorrentParams.filePaths;
if (filePaths.isEmpty())
{
filePaths = torrentInfo.filePaths();
if (loadTorrentParams.contentLayout != TorrentContentLayout::Original)
{
const Path originalRootFolder = Path::findRootFolder(filePaths);
const auto originalContentLayout = (originalRootFolder.isEmpty()
? TorrentContentLayout::NoSubfolder
: TorrentContentLayout::Subfolder);
if (loadTorrentParams.contentLayout != originalContentLayout)
{
if (loadTorrentParams.contentLayout == TorrentContentLayout::NoSubfolder)
Path::stripRootFolder(filePaths);
else
Path::addRootFolder(filePaths, filePaths.at(0).removedExtension());
}
}
}
// if torrent name wasn't explicitly set we handle the case of
// initial renaming of torrent content and rename torrent accordingly
if (loadTorrentParams.name.isEmpty())
{
QString contentName = Path::findRootFolder(filePaths).toString();
if (contentName.isEmpty() && (filePaths.size() == 1))
contentName = filePaths.at(0).filename();
if (!contentName.isEmpty() && (contentName != torrentInfo.name()))
loadTorrentParams.name = contentName;
}
if (!loadTorrentParams.hasSeedStatus)
{
const Path actualDownloadPath = useAutoTMM
? categoryDownloadPath(loadTorrentParams.category) : loadTorrentParams.downloadPath;
findIncompleteFiles(torrentInfo, actualSavePath, actualDownloadPath, filePaths);
isFindingIncompleteFiles = true;
}
const auto nativeIndexes = torrentInfo.nativeIndexes();
if (!filePaths.isEmpty())
{
for (int index = 0; index < filePaths.size(); ++index)
p.renamed_files[nativeIndexes[index]] = filePaths.at(index).toString().toStdString();
}
Q_ASSERT(p.file_priorities.empty());
const int internalFilesCount = torrentInfo.nativeInfo()->files().num_files(); // including .pad files
// Use qBittorrent default priority rather than libtorrent's (4)
p.file_priorities = std::vector(internalFilesCount, LT::toNative(DownloadPriority::Normal));
Q_ASSERT(addTorrentParams.filePriorities.isEmpty() || (addTorrentParams.filePriorities.size() == nativeIndexes.size()));
for (int i = 0; i < addTorrentParams.filePriorities.size(); ++i)
p.file_priorities[LT::toUnderlyingType(nativeIndexes[i])] = LT::toNative(addTorrentParams.filePriorities[i]);
p.ti = torrentInfo.nativeInfo();
}
else
{
const MagnetUri &magnetUri = std::get<MagnetUri>(source);
p = magnetUri.addTorrentParams();
if (loadTorrentParams.name.isEmpty() && !p.name.empty())
loadTorrentParams.name = QString::fromStdString(p.name);
}
p.save_path = actualSavePath.toString().toStdString();
if (isAddTrackersEnabled() && !(hasMetadata && p.ti->priv()))
{
p.trackers.reserve(p.trackers.size() + static_cast<std::size_t>(m_additionalTrackerList.size()));
p.tracker_tiers.reserve(p.trackers.size() + static_cast<std::size_t>(m_additionalTrackerList.size()));
p.tracker_tiers.resize(p.trackers.size(), 0);
for (const TrackerEntry &trackerEntry : asConst(m_additionalTrackerList))
{
p.trackers.push_back(trackerEntry.url.toStdString());
p.tracker_tiers.push_back(trackerEntry.tier);
}
}
p.upload_limit = addTorrentParams.uploadLimit;
p.download_limit = addTorrentParams.downloadLimit;
// Preallocation mode
p.storage_mode = isPreallocationEnabled() ? lt::storage_mode_allocate : lt::storage_mode_sparse;
if (addTorrentParams.sequential)
p.flags |= lt::torrent_flags::sequential_download;
else
p.flags &= ~lt::torrent_flags::sequential_download;
// Seeding mode
// Skip checking and directly start seeding
if (addTorrentParams.skipChecking)
p.flags |= lt::torrent_flags::seed_mode;
else
p.flags &= ~lt::torrent_flags::seed_mode;
if (loadTorrentParams.stopped || (loadTorrentParams.operatingMode == TorrentOperatingMode::AutoManaged))
p.flags |= lt::torrent_flags::paused;
else
p.flags &= ~lt::torrent_flags::paused;
if (loadTorrentParams.stopped || (loadTorrentParams.operatingMode == TorrentOperatingMode::Forced))
p.flags &= ~lt::torrent_flags::auto_managed;
else
p.flags |= lt::torrent_flags::auto_managed;
p.added_time = std::time(nullptr);
if (!isFindingIncompleteFiles)
return loadTorrent(loadTorrentParams);
m_loadingTorrents.insert(id, loadTorrentParams);
return true;
}
// Add a torrent to the BitTorrent session
bool Session::loadTorrent(LoadTorrentParams params)
{
lt::add_torrent_params &p = params.ltAddTorrentParams;
p.userdata = LTClientData(new ExtensionData);
#ifndef QBT_USES_LIBTORRENT2
p.storage = customStorageConstructor;
#endif
// Limits
p.max_connections = maxConnectionsPerTorrent();
p.max_uploads = maxUploadsPerTorrent();
const bool hasMetadata = (p.ti && p.ti->is_valid());
#ifdef QBT_USES_LIBTORRENT2
const auto id = TorrentID::fromInfoHash(hasMetadata ? p.ti->info_hashes() : p.info_hashes);
#else
const auto id = TorrentID::fromInfoHash(hasMetadata ? p.ti->info_hash() : p.info_hash);
#endif
m_loadingTorrents.insert(id, params);
// Adding torrent to BitTorrent session
m_nativeSession->async_add_torrent(p);
return true;
}
void Session::findIncompleteFiles(const TorrentInfo &torrentInfo, const Path &savePath
, const Path &downloadPath, const PathList &filePaths) const
{
Q_ASSERT(filePaths.isEmpty() || (filePaths.size() == torrentInfo.filesCount()));
const auto searchId = TorrentID::fromInfoHash(torrentInfo.infoHash());
const PathList originalFileNames = (filePaths.isEmpty() ? torrentInfo.filePaths() : filePaths);
QMetaObject::invokeMethod(m_fileSearcher, [=]()
{
m_fileSearcher->search(searchId, originalFileNames, savePath, downloadPath);
});
}
// Add a torrent to libtorrent session in hidden mode
// and force it to download its metadata
bool Session::downloadMetadata(const MagnetUri &magnetUri)
{
if (!magnetUri.isValid()) return false;
const auto id = TorrentID::fromInfoHash(magnetUri.infoHash());
const QString name = magnetUri.name();
// We should not add torrent if it's already
// processed or adding to session
if (m_torrents.contains(id)) return false;
if (m_loadingTorrents.contains(id)) return false;
if (m_downloadedMetadata.contains(id)) return false;
qDebug("Adding torrent to preload metadata...");
qDebug(" -> Torrent ID: %s", qUtf8Printable(id.toString()));
qDebug(" -> Name: %s", qUtf8Printable(name));
lt::add_torrent_params p = magnetUri.addTorrentParams();
// Flags
// Preallocation mode
if (isPreallocationEnabled())
p.storage_mode = lt::storage_mode_allocate;
else
p.storage_mode = lt::storage_mode_sparse;
// Limits
p.max_connections = maxConnectionsPerTorrent();
p.max_uploads = maxUploadsPerTorrent();
const Path savePath = Utils::Fs::tempPath() / Path(id.toString());
p.save_path = savePath.toString().toStdString();
// Forced start
p.flags &= ~lt::torrent_flags::paused;
p.flags &= ~lt::torrent_flags::auto_managed;
// Solution to avoid accidental file writes
p.flags |= lt::torrent_flags::upload_mode;
#ifndef QBT_USES_LIBTORRENT2
p.storage = customStorageConstructor;
#endif
// Adding torrent to libtorrent session
lt::error_code ec;
lt::torrent_handle h = m_nativeSession->add_torrent(p, ec);
if (ec) return false;
// waiting for metadata...
m_downloadedMetadata.insert(h.info_hash());
++m_extraLimit;
adjustLimits();
return true;
}
void Session::exportTorrentFile(const Torrent *torrent, const Path &folderPath)
{
if (!folderPath.exists() && !Utils::Fs::mkpath(folderPath))
return;
const QString validName = Utils::Fs::toValidFileName(torrent->name());
QString torrentExportFilename = u"%1.torrent"_qs.arg(validName);
Path newTorrentPath = folderPath / Path(torrentExportFilename);
int counter = 0;
while (newTorrentPath.exists())
{
// Append number to torrent name to make it unique
torrentExportFilename = u"%1 %2.torrent"_qs.arg(validName).arg(++counter);
newTorrentPath = folderPath / Path(torrentExportFilename);
}
const nonstd::expected<void, QString> result = torrent->exportToFile(newTorrentPath);
if (!result)
{
LogMsg(tr("Failed to export torrent. Torrent: \"%1\". Destination: \"%2\". Reason: \"%3\"")
.arg(torrent->name(), newTorrentPath.toString(), result.error()), Log::WARNING);
}
}
void Session::generateResumeData()
{
for (TorrentImpl *const torrent : asConst(m_torrents))
{
if (!torrent->isValid()) continue;
if (torrent->needSaveResumeData())
{
torrent->saveResumeData();
m_needSaveResumeDataTorrents.remove(torrent->id());
}
}
}
// Called on exit
void Session::saveResumeData()
{
// Pause session
m_nativeSession->pause();
if (isQueueingSystemEnabled())
saveTorrentsQueue();
generateResumeData();
while (m_numResumeData > 0)
{
const std::vector<lt::alert *> alerts = getPendingAlerts(lt::seconds {30});
if (alerts.empty())
{
LogMsg(tr("Aborted saving resume data. Number of outstanding torrents: %1").arg(QString::number(m_numResumeData))
, Log::CRITICAL);
break;
}
for (const lt::alert *a : alerts)
{
switch (a->type())
{
case lt::save_resume_data_failed_alert::alert_type:
case lt::save_resume_data_alert::alert_type:
dispatchTorrentAlert(a);
break;
}
}
}
}
void Session::saveTorrentsQueue() const
{
QVector<TorrentID> queue;
for (const TorrentImpl *torrent : asConst(m_torrents))
{
// We require actual (non-cached) queue position here!
const int queuePos = LT::toUnderlyingType(torrent->nativeHandle().queue_position());
if (queuePos >= 0)
{
if (queuePos >= queue.size())
queue.resize(queuePos + 1);
queue[queuePos] = torrent->id();
}
}
m_resumeDataStorage->storeQueue(queue);
}
void Session::removeTorrentsQueue() const
{
m_resumeDataStorage->storeQueue({});
}
void Session::setSavePath(const Path &path)
{
const auto newPath = (path.isAbsolute() ? path : (specialFolderLocation(SpecialFolder::Downloads) / path));
if (newPath == m_savePath)
return;
if (isDisableAutoTMMWhenDefaultSavePathChanged())
{
QSet<QString> affectedCatogories {{}}; // includes default (unnamed) category
for (auto it = m_categories.cbegin(); it != m_categories.cend(); ++it)
{
const QString &categoryName = it.key();
const CategoryOptions &categoryOptions = it.value();
if (categoryOptions.savePath.isRelative())
affectedCatogories.insert(categoryName);
}
for (TorrentImpl *const torrent : asConst(m_torrents))
{
if (affectedCatogories.contains(torrent->category()))
torrent->setAutoTMMEnabled(false);
}
}
m_savePath = newPath;
for (TorrentImpl *const torrent : asConst(m_torrents))
torrent->handleCategoryOptionsChanged();
}
void Session::setDownloadPath(const Path &path)
{
const Path newPath = (path.isAbsolute() ? path : (savePath() / Path(u"temp"_qs) / path));
if (newPath == m_downloadPath)
return;
if (isDisableAutoTMMWhenDefaultSavePathChanged())
{
QSet<QString> affectedCatogories {{}}; // includes default (unnamed) category
for (auto it = m_categories.cbegin(); it != m_categories.cend(); ++it)
{
const QString &categoryName = it.key();
const CategoryOptions &categoryOptions = it.value();
const CategoryOptions::DownloadPathOption downloadPathOption =
categoryOptions.downloadPath.value_or(CategoryOptions::DownloadPathOption {isDownloadPathEnabled(), downloadPath()});
if (downloadPathOption.enabled && downloadPathOption.path.isRelative())
affectedCatogories.insert(categoryName);
}
for (TorrentImpl *const torrent : asConst(m_torrents))
{
if (affectedCatogories.contains(torrent->category()))
torrent->setAutoTMMEnabled(false);
}
}
m_downloadPath = newPath;
for (TorrentImpl *const torrent : asConst(m_torrents))
torrent->handleCategoryOptionsChanged();
}
#if (QT_VERSION < QT_VERSION_CHECK(6, 0, 0))
void Session::networkOnlineStateChanged(const bool online)
{
LogMsg(tr("System network status changed to %1", "e.g: System network status changed to ONLINE").arg(online ? tr("ONLINE") : tr("OFFLINE")), Log::INFO);
}
void Session::networkConfigurationChange(const QNetworkConfiguration &cfg)
{
const QString configuredInterfaceName = networkInterface();
// Empty means "Any Interface". In this case libtorrent has binded to 0.0.0.0 so any change to any interface will
// be automatically picked up. Otherwise we would rebinding here to 0.0.0.0 again.
if (configuredInterfaceName.isEmpty()) return;
const QString changedInterface = cfg.name();
if (configuredInterfaceName == changedInterface)
{
LogMsg(tr("Network configuration of %1 has changed, refreshing session binding", "e.g: Network configuration of tun0 has changed, refreshing session binding").arg(changedInterface), Log::INFO);
configureListeningInterface();
}
}
#endif
QStringList Session::getListeningIPs() const
{
QStringList IPs;
const QString ifaceName = networkInterface();
const QString ifaceAddr = networkInterfaceAddress();
const QHostAddress configuredAddr(ifaceAddr);
const bool allIPv4 = (ifaceAddr == u"0.0.0.0"); // Means All IPv4 addresses
const bool allIPv6 = (ifaceAddr == u"::"); // Means All IPv6 addresses
if (!ifaceAddr.isEmpty() && !allIPv4 && !allIPv6 && configuredAddr.isNull())
{
LogMsg(tr("The configured network address is invalid. Address: \"%1\"").arg(ifaceAddr), Log::CRITICAL);
// Pass the invalid user configured interface name/address to libtorrent
// in hopes that it will come online later.
// This will not cause IP leak but allow user to reconnect the interface
// and re-establish connection without restarting the client.
IPs.append(ifaceAddr);
return IPs;
}
if (ifaceName.isEmpty())
{
if (ifaceAddr.isEmpty())
return {u"0.0.0.0"_qs, u"::"_qs}; // Indicates all interfaces + all addresses (aka default)
if (allIPv4)
return {u"0.0.0.0"_qs};
if (allIPv6)
return {u"::"_qs};
}
const auto checkAndAddIP = [allIPv4, allIPv6, &IPs](const QHostAddress &addr, const QHostAddress &match)
{
if ((allIPv4 && (addr.protocol() != QAbstractSocket::IPv4Protocol))
|| (allIPv6 && (addr.protocol() != QAbstractSocket::IPv6Protocol)))
return;
if ((match == addr) || allIPv4 || allIPv6)
IPs.append(addr.toString());
};
if (ifaceName.isEmpty())
{
const QList<QHostAddress> addresses = QNetworkInterface::allAddresses();
for (const auto &addr : addresses)
checkAndAddIP(addr, configuredAddr);
// At this point ifaceAddr was non-empty
// If IPs.isEmpty() it means the configured Address was not found
if (IPs.isEmpty())
{
LogMsg(tr("Failed to find the configured network address to listen on. Address: \"%1\"")
.arg(ifaceAddr), Log::CRITICAL);
IPs.append(ifaceAddr);
}
return IPs;
}
// Attempt to listen on provided interface
const QNetworkInterface networkIFace = QNetworkInterface::interfaceFromName(ifaceName);
if (!networkIFace.isValid())
{
qDebug("Invalid network interface: %s", qUtf8Printable(ifaceName));
LogMsg(tr("The configured network interface is invalid. Interface: \"%1\"").arg(ifaceName), Log::CRITICAL);
IPs.append(ifaceName);
return IPs;
}
if (ifaceAddr.isEmpty())
{
IPs.append(ifaceName);
return IPs; // On Windows calling code converts it to GUID
}
const QList<QNetworkAddressEntry> addresses = networkIFace.addressEntries();
qDebug() << "This network interface has " << addresses.size() << " IP addresses";
for (const QNetworkAddressEntry &entry : addresses)
checkAndAddIP(entry.ip(), configuredAddr);
// Make sure there is at least one IP
// At this point there was an explicit interface and an explicit address set
// and the address should have been found
if (IPs.isEmpty())
{
LogMsg(tr("Failed to find the configured network address to listen on. Address: \"%1\"")
.arg(ifaceAddr), Log::CRITICAL);
IPs.append(ifaceAddr);
}
return IPs;
}
// Set the ports range in which is chosen the port
// the BitTorrent session will listen to
void Session::configureListeningInterface()
{
m_listenInterfaceConfigured = false;
configureDeferred();
}
int Session::globalDownloadSpeedLimit() const
{
// Unfortunately the value was saved as KiB instead of B.
// But it is better to pass it around internally(+ webui) as Bytes.
return m_globalDownloadSpeedLimit * 1024;
}
void Session::setGlobalDownloadSpeedLimit(const int limit)
{
// Unfortunately the value was saved as KiB instead of B.
// But it is better to pass it around internally(+ webui) as Bytes.
if (limit == globalDownloadSpeedLimit())
return;
if (limit <= 0)
m_globalDownloadSpeedLimit = 0;
else if (limit <= 1024)
m_globalDownloadSpeedLimit = 1;
else
m_globalDownloadSpeedLimit = (limit / 1024);
if (!isAltGlobalSpeedLimitEnabled())
configureDeferred();
}
int Session::globalUploadSpeedLimit() const
{
// Unfortunately the value was saved as KiB instead of B.
// But it is better to pass it around internally(+ webui) as Bytes.
return m_globalUploadSpeedLimit * 1024;
}
void Session::setGlobalUploadSpeedLimit(const int limit)
{
// Unfortunately the value was saved as KiB instead of B.
// But it is better to pass it around internally(+ webui) as Bytes.
if (limit == globalUploadSpeedLimit())
return;
if (limit <= 0)
m_globalUploadSpeedLimit = 0;
else if (limit <= 1024)
m_globalUploadSpeedLimit = 1;
else
m_globalUploadSpeedLimit = (limit / 1024);
if (!isAltGlobalSpeedLimitEnabled())
configureDeferred();
}
int Session::altGlobalDownloadSpeedLimit() const
{
// Unfortunately the value was saved as KiB instead of B.
// But it is better to pass it around internally(+ webui) as Bytes.
return m_altGlobalDownloadSpeedLimit * 1024;
}
void Session::setAltGlobalDownloadSpeedLimit(const int limit)
{
// Unfortunately the value was saved as KiB instead of B.
// But it is better to pass it around internally(+ webui) as Bytes.
if (limit == altGlobalDownloadSpeedLimit())
return;
if (limit <= 0)
m_altGlobalDownloadSpeedLimit = 0;
else if (limit <= 1024)
m_altGlobalDownloadSpeedLimit = 1;
else
m_altGlobalDownloadSpeedLimit = (limit / 1024);
if (isAltGlobalSpeedLimitEnabled())
configureDeferred();
}
int Session::altGlobalUploadSpeedLimit() const
{
// Unfortunately the value was saved as KiB instead of B.
// But it is better to pass it around internally(+ webui) as Bytes.
return m_altGlobalUploadSpeedLimit * 1024;
}
void Session::setAltGlobalUploadSpeedLimit(const int limit)
{
// Unfortunately the value was saved as KiB instead of B.
// But it is better to pass it around internally(+ webui) as Bytes.
if (limit == altGlobalUploadSpeedLimit())
return;
if (limit <= 0)
m_altGlobalUploadSpeedLimit = 0;
else if (limit <= 1024)
m_altGlobalUploadSpeedLimit = 1;
else
m_altGlobalUploadSpeedLimit = (limit / 1024);
if (isAltGlobalSpeedLimitEnabled())
configureDeferred();
}
int Session::downloadSpeedLimit() const
{
return isAltGlobalSpeedLimitEnabled()
? altGlobalDownloadSpeedLimit()
: globalDownloadSpeedLimit();
}
void Session::setDownloadSpeedLimit(const int limit)
{
if (isAltGlobalSpeedLimitEnabled())
setAltGlobalDownloadSpeedLimit(limit);
else
setGlobalDownloadSpeedLimit(limit);
}
int Session::uploadSpeedLimit() const
{
return isAltGlobalSpeedLimitEnabled()
? altGlobalUploadSpeedLimit()
: globalUploadSpeedLimit();
}
void Session::setUploadSpeedLimit(const int limit)
{
if (isAltGlobalSpeedLimitEnabled())
setAltGlobalUploadSpeedLimit(limit);
else
setGlobalUploadSpeedLimit(limit);
}
bool Session::isAltGlobalSpeedLimitEnabled() const
{
return m_isAltGlobalSpeedLimitEnabled;
}
void Session::setAltGlobalSpeedLimitEnabled(const bool enabled)
{
if (enabled == isAltGlobalSpeedLimitEnabled()) return;
// Save new state to remember it on startup
m_isAltGlobalSpeedLimitEnabled = enabled;
applyBandwidthLimits();
// Notify
emit speedLimitModeChanged(m_isAltGlobalSpeedLimitEnabled);
}
bool Session::isBandwidthSchedulerEnabled() const
{
return m_isBandwidthSchedulerEnabled;
}
void Session::setBandwidthSchedulerEnabled(const bool enabled)
{
if (enabled != isBandwidthSchedulerEnabled())
{
m_isBandwidthSchedulerEnabled = enabled;
if (enabled)
enableBandwidthScheduler();
else
delete m_bwScheduler;
}
}
bool Session::isPerformanceWarningEnabled() const
{
return m_isPerformanceWarningEnabled;
}
void Session::setPerformanceWarningEnabled(const bool enable)
{
if (enable == m_isPerformanceWarningEnabled)
return;
m_isPerformanceWarningEnabled = enable;
configureDeferred();
}
int Session::saveResumeDataInterval() const
{
return m_saveResumeDataInterval;
}
void Session::setSaveResumeDataInterval(const int value)
{
if (value == m_saveResumeDataInterval)
return;
m_saveResumeDataInterval = value;
if (value > 0)
{
m_resumeDataTimer->setInterval(value * 60 * 1000);
m_resumeDataTimer->start();
}
else
{
m_resumeDataTimer->stop();
}
}
int Session::port() const
{
return m_port;
}
void Session::setPort(const int port)
{
if (port != m_port)
{
m_port = port;
configureListeningInterface();
if (isReannounceWhenAddressChangedEnabled())
reannounceToAllTrackers();
}
}
QString Session::networkInterface() const
{
return m_networkInterface;
}
void Session::setNetworkInterface(const QString &iface)
{
if (iface != networkInterface())
{
m_networkInterface = iface;
configureListeningInterface();
}
}
QString Session::networkInterfaceName() const
{
return m_networkInterfaceName;
}
void Session::setNetworkInterfaceName(const QString &name)
{
m_networkInterfaceName = name;
}
QString Session::networkInterfaceAddress() const
{
return m_networkInterfaceAddress;
}
void Session::setNetworkInterfaceAddress(const QString &address)
{
if (address != networkInterfaceAddress())
{
m_networkInterfaceAddress = address;
configureListeningInterface();
}
}
int Session::encryption() const
{
return m_encryption;
}
void Session::setEncryption(const int state)
{
if (state != encryption())
{
m_encryption = state;
configureDeferred();
LogMsg(tr("Encryption support: %1").arg(
state == 0 ? tr("ON") : ((state == 1) ? tr("FORCED") : tr("OFF")))
, Log::INFO);
}
}
int Session::maxActiveCheckingTorrents() const
{
return m_maxActiveCheckingTorrents;
}
void Session::setMaxActiveCheckingTorrents(const int val)
{
if (val == m_maxActiveCheckingTorrents)
return;
m_maxActiveCheckingTorrents = val;
configureDeferred();
}
bool Session::isProxyPeerConnectionsEnabled() const
{
return m_isProxyPeerConnectionsEnabled;
}
void Session::setProxyPeerConnectionsEnabled(const bool enabled)
{
if (enabled != isProxyPeerConnectionsEnabled())
{
m_isProxyPeerConnectionsEnabled = enabled;
configureDeferred();
}
}
ChokingAlgorithm Session::chokingAlgorithm() const
{
return m_chokingAlgorithm;
}
void Session::setChokingAlgorithm(const ChokingAlgorithm mode)
{
if (mode == m_chokingAlgorithm) return;
m_chokingAlgorithm = mode;
configureDeferred();
}
SeedChokingAlgorithm Session::seedChokingAlgorithm() const
{
return m_seedChokingAlgorithm;
}
void Session::setSeedChokingAlgorithm(const SeedChokingAlgorithm mode)
{
if (mode == m_seedChokingAlgorithm) return;
m_seedChokingAlgorithm = mode;
configureDeferred();
}
bool Session::isAddTrackersEnabled() const
{
return m_isAddTrackersEnabled;
}
void Session::setAddTrackersEnabled(const bool enabled)
{
m_isAddTrackersEnabled = enabled;
}
QString Session::additionalTrackers() const
{
return m_additionalTrackers;
}
void Session::setAdditionalTrackers(const QString &trackers)
{
if (trackers != additionalTrackers())
{
m_additionalTrackers = trackers;
populateAdditionalTrackers();
}
}
bool Session::isIPFilteringEnabled() const
{
return m_isIPFilteringEnabled;
}
void Session::setIPFilteringEnabled(const bool enabled)
{
if (enabled != m_isIPFilteringEnabled)
{
m_isIPFilteringEnabled = enabled;
m_IPFilteringConfigured = false;
configureDeferred();
}
}
Path Session::IPFilterFile() const
{
return m_IPFilterFile;
}
void Session::setIPFilterFile(const Path &path)
{
if (path != IPFilterFile())
{
m_IPFilterFile = path;
m_IPFilteringConfigured = false;
configureDeferred();
}
}
void Session::setBannedIPs(const QStringList &newList)
{
if (newList == m_bannedIPs)
return; // do nothing
// here filter out incorrect IP
QStringList filteredList;
for (const QString &ip : newList)
{
if (Utils::Net::isValidIP(ip))
{
// the same IPv6 addresses could be written in different forms;
// QHostAddress::toString() result format follows RFC5952;
// thus we avoid duplicate entries pointing to the same address
filteredList << QHostAddress(ip).toString();
}
else
{
LogMsg(tr("Rejected invalid IP address while applying the list of banned IP addresses. IP: \"%1\"")
.arg(ip)
, Log::WARNING);
}
}
// now we have to sort IPs and make them unique
filteredList.sort();
filteredList.removeDuplicates();
// Again ensure that the new list is different from the stored one.
if (filteredList == m_bannedIPs)
return; // do nothing
// store to session settings
// also here we have to recreate filter list including 3rd party ban file
// and install it again into m_session
m_bannedIPs = filteredList;
m_IPFilteringConfigured = false;
configureDeferred();
}
ResumeDataStorageType Session::resumeDataStorageType() const
{
return m_resumeDataStorageType;
}
void Session::setResumeDataStorageType(const ResumeDataStorageType type)
{
m_resumeDataStorageType = type;
}
QStringList Session::bannedIPs() const
{
return m_bannedIPs;
}
#if defined(Q_OS_WIN)
OSMemoryPriority Session::getOSMemoryPriority() const
{
return m_OSMemoryPriority;
}
void Session::setOSMemoryPriority(const OSMemoryPriority priority)
{
if (m_OSMemoryPriority == priority)
return;
m_OSMemoryPriority = priority;
configureDeferred();
}
void Session::applyOSMemoryPriority() const
{
using SETPROCESSINFORMATION = BOOL (WINAPI *)(HANDLE, PROCESS_INFORMATION_CLASS, LPVOID, DWORD);
const auto setProcessInformation = Utils::Misc::loadWinAPI<SETPROCESSINFORMATION>(u"Kernel32.dll"_qs, "SetProcessInformation");
if (!setProcessInformation) // only available on Windows >= 8
return;
#if (_WIN32_WINNT < _WIN32_WINNT_WIN8)
// this dummy struct is required to compile successfully when targeting older Windows version
struct MEMORY_PRIORITY_INFORMATION
{
ULONG MemoryPriority;
};
#define MEMORY_PRIORITY_LOWEST 0
#define MEMORY_PRIORITY_VERY_LOW 1
#define MEMORY_PRIORITY_LOW 2
#define MEMORY_PRIORITY_MEDIUM 3
#define MEMORY_PRIORITY_BELOW_NORMAL 4
#define MEMORY_PRIORITY_NORMAL 5
#endif
MEMORY_PRIORITY_INFORMATION prioInfo {};
switch (getOSMemoryPriority())
{
case OSMemoryPriority::Normal:
default:
prioInfo.MemoryPriority = MEMORY_PRIORITY_NORMAL;
break;
case OSMemoryPriority::BelowNormal:
prioInfo.MemoryPriority = MEMORY_PRIORITY_BELOW_NORMAL;
break;
case OSMemoryPriority::Medium:
prioInfo.MemoryPriority = MEMORY_PRIORITY_MEDIUM;
break;
case OSMemoryPriority::Low:
prioInfo.MemoryPriority = MEMORY_PRIORITY_LOW;
break;
case OSMemoryPriority::VeryLow:
prioInfo.MemoryPriority = MEMORY_PRIORITY_VERY_LOW;
break;
}
setProcessInformation(::GetCurrentProcess(), ProcessMemoryPriority, &prioInfo, sizeof(prioInfo));
}
#endif
int Session::maxConnectionsPerTorrent() const
{
return m_maxConnectionsPerTorrent;
}
void Session::setMaxConnectionsPerTorrent(int max)
{
max = (max > 0) ? max : -1;
if (max != maxConnectionsPerTorrent())
{
m_maxConnectionsPerTorrent = max;
// Apply this to all session torrents
for (const lt::torrent_handle &handle : m_nativeSession->get_torrents())
{
try
{
handle.set_max_connections(max);
}
catch (const std::exception &) {}
}
}
}
int Session::maxUploadsPerTorrent() const
{
return m_maxUploadsPerTorrent;
}
void Session::setMaxUploadsPerTorrent(int max)
{
max = (max > 0) ? max : -1;
if (max != maxUploadsPerTorrent())
{
m_maxUploadsPerTorrent = max;
// Apply this to all session torrents
for (const lt::torrent_handle &handle : m_nativeSession->get_torrents())
{
try
{
handle.set_max_uploads(max);
}
catch (const std::exception &) {}
}
}
}
bool Session::announceToAllTrackers() const
{
return m_announceToAllTrackers;
}
void Session::setAnnounceToAllTrackers(const bool val)
{
if (val != m_announceToAllTrackers)
{
m_announceToAllTrackers = val;
configureDeferred();
}
}
bool Session::announceToAllTiers() const
{
return m_announceToAllTiers;
}
void Session::setAnnounceToAllTiers(const bool val)
{
if (val != m_announceToAllTiers)
{
m_announceToAllTiers = val;
configureDeferred();
}
}
int Session::peerTurnover() const
{
return m_peerTurnover;
}
void Session::setPeerTurnover(const int val)
{
if (val == m_peerTurnover)
return;
m_peerTurnover = val;
configureDeferred();
}
int Session::peerTurnoverCutoff() const
{
return m_peerTurnoverCutoff;
}
void Session::setPeerTurnoverCutoff(const int val)
{
if (val == m_peerTurnoverCutoff)
return;
m_peerTurnoverCutoff = val;
configureDeferred();
}
int Session::peerTurnoverInterval() const
{
return m_peerTurnoverInterval;
}
void Session::setPeerTurnoverInterval(const int val)
{
if (val == m_peerTurnoverInterval)
return;
m_peerTurnoverInterval = val;
configureDeferred();
}
DiskIOType Session::diskIOType() const
{
return m_diskIOType;
}
void Session::setDiskIOType(const DiskIOType type)
{
if (type != m_diskIOType)
{
m_diskIOType = type;
}
}
int Session::requestQueueSize() const
{
return m_requestQueueSize;
}
void Session::setRequestQueueSize(const int val)
{
if (val == m_requestQueueSize)
return;
m_requestQueueSize = val;
configureDeferred();
}
int Session::asyncIOThreads() const
{
return std::clamp(m_asyncIOThreads.get(), 1, 1024);
}
void Session::setAsyncIOThreads(const int num)
{
if (num == m_asyncIOThreads)
return;
m_asyncIOThreads = num;
configureDeferred();
}
int Session::hashingThreads() const
{
return std::clamp(m_hashingThreads.get(), 1, 1024);
}
void Session::setHashingThreads(const int num)
{
if (num == m_hashingThreads)
return;
m_hashingThreads = num;
configureDeferred();
}
int Session::filePoolSize() const
{
return m_filePoolSize;
}
void Session::setFilePoolSize(const int size)
{
if (size == m_filePoolSize)
return;
m_filePoolSize = size;
configureDeferred();
}
int Session::checkingMemUsage() const
{
return std::max(1, m_checkingMemUsage.get());
}
void Session::setCheckingMemUsage(int size)
{
size = std::max(size, 1);
if (size == m_checkingMemUsage)
return;
m_checkingMemUsage = size;
configureDeferred();
}
int Session::diskCacheSize() const
{
#ifdef QBT_APP_64BIT
return std::min(m_diskCacheSize.get(), 33554431); // 32768GiB
#else
// When build as 32bit binary, set the maximum at less than 2GB to prevent crashes
// allocate 1536MiB and leave 512MiB to the rest of program data in RAM
return std::min(m_diskCacheSize.get(), 1536);
#endif
}
void Session::setDiskCacheSize(int size)
{
#ifdef QBT_APP_64BIT
size = std::min(size, 33554431); // 32768GiB
#else
// allocate 1536MiB and leave 512MiB to the rest of program data in RAM
size = std::min(size, 1536);
#endif
if (size != m_diskCacheSize)
{
m_diskCacheSize = size;
configureDeferred();
}
}
int Session::diskCacheTTL() const
{
return m_diskCacheTTL;
}
void Session::setDiskCacheTTL(const int ttl)
{
if (ttl != m_diskCacheTTL)
{
m_diskCacheTTL = ttl;
configureDeferred();
}
}
qint64 Session::diskQueueSize() const
{
return m_diskQueueSize;
}
void Session::setDiskQueueSize(const qint64 size)
{
if (size == m_diskQueueSize)
return;
m_diskQueueSize = size;
configureDeferred();
}
bool Session::useOSCache() const
{
return m_useOSCache;
}
void Session::setUseOSCache(const bool use)
{
if (use != m_useOSCache)
{
m_useOSCache = use;
configureDeferred();
}
}
bool Session::isCoalesceReadWriteEnabled() const
{
return m_coalesceReadWriteEnabled;
}
void Session::setCoalesceReadWriteEnabled(const bool enabled)
{
if (enabled == m_coalesceReadWriteEnabled) return;
m_coalesceReadWriteEnabled = enabled;
configureDeferred();
}
bool Session::isSuggestModeEnabled() const
{
return m_isSuggestMode;
}
bool Session::usePieceExtentAffinity() const
{
return m_usePieceExtentAffinity;
}
void Session::setPieceExtentAffinity(const bool enabled)
{
if (enabled == m_usePieceExtentAffinity) return;
m_usePieceExtentAffinity = enabled;
configureDeferred();
}
void Session::setSuggestMode(const bool mode)
{
if (mode == m_isSuggestMode) return;
m_isSuggestMode = mode;
configureDeferred();
}
int Session::sendBufferWatermark() const
{
return m_sendBufferWatermark;
}
void Session::setSendBufferWatermark(const int value)
{
if (value == m_sendBufferWatermark) return;
m_sendBufferWatermark = value;
configureDeferred();
}
int Session::sendBufferLowWatermark() const
{
return m_sendBufferLowWatermark;
}
void Session::setSendBufferLowWatermark(const int value)
{
if (value == m_sendBufferLowWatermark) return;
m_sendBufferLowWatermark = value;
configureDeferred();
}
int Session::sendBufferWatermarkFactor() const
{
return m_sendBufferWatermarkFactor;
}
void Session::setSendBufferWatermarkFactor(const int value)
{
if (value == m_sendBufferWatermarkFactor) return;
m_sendBufferWatermarkFactor = value;
configureDeferred();
}
int Session::connectionSpeed() const
{
return m_connectionSpeed;
}
void Session::setConnectionSpeed(const int value)
{
if (value == m_connectionSpeed) return;
m_connectionSpeed = value;
configureDeferred();
}
int Session::socketBacklogSize() const
{
return m_socketBacklogSize;
}
void Session::setSocketBacklogSize(const int value)
{
if (value == m_socketBacklogSize) return;
m_socketBacklogSize = value;
configureDeferred();
}
bool Session::isAnonymousModeEnabled() const
{
return m_isAnonymousModeEnabled;
}
void Session::setAnonymousModeEnabled(const bool enabled)
{
if (enabled != m_isAnonymousModeEnabled)
{
m_isAnonymousModeEnabled = enabled;
configureDeferred();
LogMsg(tr("Anonymous mode: %1").arg(isAnonymousModeEnabled() ? tr("ON") : tr("OFF"))
, Log::INFO);
}
}
bool Session::isQueueingSystemEnabled() const
{
return m_isQueueingEnabled;
}
void Session::setQueueingSystemEnabled(const bool enabled)
{
if (enabled != m_isQueueingEnabled)
{
m_isQueueingEnabled = enabled;
configureDeferred();
if (enabled)
saveTorrentsQueue();
else
removeTorrentsQueue();
}
}
int Session::maxActiveDownloads() const
{
return m_maxActiveDownloads;
}
void Session::setMaxActiveDownloads(int max)
{
max = std::max(max, -1);
if (max != m_maxActiveDownloads)
{
m_maxActiveDownloads = max;
configureDeferred();
}
}
int Session::maxActiveUploads() const
{
return m_maxActiveUploads;
}
void Session::setMaxActiveUploads(int max)
{
max = std::max(max, -1);
if (max != m_maxActiveUploads)
{
m_maxActiveUploads = max;
configureDeferred();
}
}
int Session::maxActiveTorrents() const
{
return m_maxActiveTorrents;
}
void Session::setMaxActiveTorrents(int max)
{
max = std::max(max, -1);
if (max != m_maxActiveTorrents)
{
m_maxActiveTorrents = max;
configureDeferred();
}
}
bool Session::ignoreSlowTorrentsForQueueing() const
{
return m_ignoreSlowTorrentsForQueueing;
}
void Session::setIgnoreSlowTorrentsForQueueing(const bool ignore)
{
if (ignore != m_ignoreSlowTorrentsForQueueing)
{
m_ignoreSlowTorrentsForQueueing = ignore;
configureDeferred();
}
}
int Session::downloadRateForSlowTorrents() const
{
return m_downloadRateForSlowTorrents;
}
void Session::setDownloadRateForSlowTorrents(const int rateInKibiBytes)
{
if (rateInKibiBytes == m_downloadRateForSlowTorrents)
return;
m_downloadRateForSlowTorrents = rateInKibiBytes;
configureDeferred();
}
int Session::uploadRateForSlowTorrents() const
{
return m_uploadRateForSlowTorrents;
}
void Session::setUploadRateForSlowTorrents(const int rateInKibiBytes)
{
if (rateInKibiBytes == m_uploadRateForSlowTorrents)
return;
m_uploadRateForSlowTorrents = rateInKibiBytes;
configureDeferred();
}
int Session::slowTorrentsInactivityTimer() const
{
return m_slowTorrentsInactivityTimer;
}
void Session::setSlowTorrentsInactivityTimer(const int timeInSeconds)
{
if (timeInSeconds == m_slowTorrentsInactivityTimer)
return;
m_slowTorrentsInactivityTimer = timeInSeconds;
configureDeferred();
}
int Session::outgoingPortsMin() const
{
return m_outgoingPortsMin;
}
void Session::setOutgoingPortsMin(const int min)
{
if (min != m_outgoingPortsMin)
{
m_outgoingPortsMin = min;
configureDeferred();
}
}
int Session::outgoingPortsMax() const
{
return m_outgoingPortsMax;
}
void Session::setOutgoingPortsMax(const int max)
{
if (max != m_outgoingPortsMax)
{
m_outgoingPortsMax = max;
configureDeferred();
}
}
int Session::UPnPLeaseDuration() const
{
return m_UPnPLeaseDuration;
}
void Session::setUPnPLeaseDuration(const int duration)
{
if (duration != m_UPnPLeaseDuration)
{
m_UPnPLeaseDuration = duration;
configureDeferred();
}
}
int Session::peerToS() const
{
return m_peerToS;
}
void Session::setPeerToS(const int value)
{
if (value == m_peerToS)
return;
m_peerToS = value;
configureDeferred();
}
bool Session::ignoreLimitsOnLAN() const
{
return m_ignoreLimitsOnLAN;
}
void Session::setIgnoreLimitsOnLAN(const bool ignore)
{
if (ignore != m_ignoreLimitsOnLAN)
{
m_ignoreLimitsOnLAN = ignore;
configureDeferred();
}
}
bool Session::includeOverheadInLimits() const
{
return m_includeOverheadInLimits;
}
void Session::setIncludeOverheadInLimits(const bool include)
{
if (include != m_includeOverheadInLimits)
{
m_includeOverheadInLimits = include;
configureDeferred();
}
}
QString Session::announceIP() const
{
return m_announceIP;
}
void Session::setAnnounceIP(const QString &ip)
{
if (ip != m_announceIP)
{
m_announceIP = ip;
configureDeferred();
}
}
int Session::maxConcurrentHTTPAnnounces() const
{
return m_maxConcurrentHTTPAnnounces;
}
void Session::setMaxConcurrentHTTPAnnounces(const int value)
{
if (value == m_maxConcurrentHTTPAnnounces)
return;
m_maxConcurrentHTTPAnnounces = value;
configureDeferred();
}
bool Session::isReannounceWhenAddressChangedEnabled() const
{
return m_isReannounceWhenAddressChangedEnabled;
}
void Session::setReannounceWhenAddressChangedEnabled(const bool enabled)
{
if (enabled == m_isReannounceWhenAddressChangedEnabled)
return;
m_isReannounceWhenAddressChangedEnabled = enabled;
}
void Session::reannounceToAllTrackers() const
{
for (const lt::torrent_handle &torrent : m_nativeSession->get_torrents())
torrent.force_reannounce(0, -1, lt::torrent_handle::ignore_min_interval);
}
int Session::stopTrackerTimeout() const
{
return m_stopTrackerTimeout;
}
void Session::setStopTrackerTimeout(const int value)
{
if (value == m_stopTrackerTimeout)
return;
m_stopTrackerTimeout = value;
configureDeferred();
}
int Session::maxConnections() const
{
return m_maxConnections;
}
void Session::setMaxConnections(int max)
{
max = (max > 0) ? max : -1;
if (max != m_maxConnections)
{
m_maxConnections = max;
configureDeferred();
}
}
int Session::maxUploads() const
{
return m_maxUploads;
}
void Session::setMaxUploads(int max)
{
max = (max > 0) ? max : -1;
if (max != m_maxUploads)
{
m_maxUploads = max;
configureDeferred();
}
}
BTProtocol Session::btProtocol() const
{
return m_btProtocol;
}
void Session::setBTProtocol(const BTProtocol protocol)
{
if ((protocol < BTProtocol::Both) || (BTProtocol::UTP < protocol))
return;
if (protocol == m_btProtocol) return;
m_btProtocol = protocol;
configureDeferred();
}
bool Session::isUTPRateLimited() const
{
return m_isUTPRateLimited;
}
void Session::setUTPRateLimited(const bool limited)
{
if (limited != m_isUTPRateLimited)
{
m_isUTPRateLimited = limited;
configureDeferred();
}
}
MixedModeAlgorithm Session::utpMixedMode() const
{
return m_utpMixedMode;
}
void Session::setUtpMixedMode(const MixedModeAlgorithm mode)
{
if (mode == m_utpMixedMode) return;
m_utpMixedMode = mode;
configureDeferred();
}
bool Session::isIDNSupportEnabled() const
{
return m_IDNSupportEnabled;
}
void Session::setIDNSupportEnabled(const bool enabled)
{
if (enabled == m_IDNSupportEnabled) return;
m_IDNSupportEnabled = enabled;
configureDeferred();
}
bool Session::multiConnectionsPerIpEnabled() const
{
return m_multiConnectionsPerIpEnabled;
}
void Session::setMultiConnectionsPerIpEnabled(const bool enabled)
{
if (enabled == m_multiConnectionsPerIpEnabled) return;
m_multiConnectionsPerIpEnabled = enabled;
configureDeferred();
}
bool Session::validateHTTPSTrackerCertificate() const
{
return m_validateHTTPSTrackerCertificate;
}
void Session::setValidateHTTPSTrackerCertificate(const bool enabled)
{
if (enabled == m_validateHTTPSTrackerCertificate) return;
m_validateHTTPSTrackerCertificate = enabled;
configureDeferred();
}
bool Session::isSSRFMitigationEnabled() const
{
return m_SSRFMitigationEnabled;
}
void Session::setSSRFMitigationEnabled(const bool enabled)
{
if (enabled == m_SSRFMitigationEnabled) return;
m_SSRFMitigationEnabled = enabled;
configureDeferred();
}
bool Session::blockPeersOnPrivilegedPorts() const
{
return m_blockPeersOnPrivilegedPorts;
}
void Session::setBlockPeersOnPrivilegedPorts(const bool enabled)
{
if (enabled == m_blockPeersOnPrivilegedPorts) return;
m_blockPeersOnPrivilegedPorts = enabled;
configureDeferred();
}
bool Session::isTrackerFilteringEnabled() const
{
return m_isTrackerFilteringEnabled;
}
void Session::setTrackerFilteringEnabled(const bool enabled)
{
if (enabled != m_isTrackerFilteringEnabled)
{
m_isTrackerFilteringEnabled = enabled;
configureDeferred();
}
}
bool Session::isListening() const
{
return m_nativeSession->is_listening();
}
MaxRatioAction Session::maxRatioAction() const
{
return static_cast<MaxRatioAction>(m_maxRatioAction.get());
}
void Session::setMaxRatioAction(const MaxRatioAction act)
{
m_maxRatioAction = static_cast<int>(act);
}
// If this functions returns true, we cannot add torrent to session,
// but it is still possible to merge trackers in some cases
bool Session::isKnownTorrent(const TorrentID &id) const
{
return (m_torrents.contains(id)
|| m_loadingTorrents.contains(id)
|| m_downloadedMetadata.contains(id));
}
void Session::updateSeedingLimitTimer()
{
if ((globalMaxRatio() == Torrent::NO_RATIO_LIMIT) && !hasPerTorrentRatioLimit()
&& (globalMaxSeedingMinutes() == Torrent::NO_SEEDING_TIME_LIMIT) && !hasPerTorrentSeedingTimeLimit())
{
if (m_seedingLimitTimer->isActive())
m_seedingLimitTimer->stop();
}
else if (!m_seedingLimitTimer->isActive())
{
m_seedingLimitTimer->start();
}
}
void Session::handleTorrentShareLimitChanged(TorrentImpl *const)
{
updateSeedingLimitTimer();
}
void Session::handleTorrentNameChanged(TorrentImpl *const)
{
}
void Session::handleTorrentSavePathChanged(TorrentImpl *const torrent)
{
emit torrentSavePathChanged(torrent);
}
void Session::handleTorrentCategoryChanged(TorrentImpl *const torrent, const QString &oldCategory)
{
emit torrentCategoryChanged(torrent, oldCategory);
}
void Session::handleTorrentTagAdded(TorrentImpl *const torrent, const QString &tag)
{
emit torrentTagAdded(torrent, tag);
}
void Session::handleTorrentTagRemoved(TorrentImpl *const torrent, const QString &tag)
{
emit torrentTagRemoved(torrent, tag);
}
void Session::handleTorrentSavingModeChanged(TorrentImpl *const torrent)
{
emit torrentSavingModeChanged(torrent);
}
void Session::handleTorrentTrackersAdded(TorrentImpl *const torrent, const QVector<TrackerEntry> &newTrackers)
{
for (const TrackerEntry &newTracker : newTrackers)
LogMsg(tr("Added tracker to torrent. Torrent: \"%1\". Tracker: \"%2\"").arg(torrent->name(), newTracker.url));
emit trackersAdded(torrent, newTrackers);
if (torrent->trackers().size() == newTrackers.size())
emit trackerlessStateChanged(torrent, false);
emit trackersChanged(torrent);
}
void Session::handleTorrentTrackersRemoved(TorrentImpl *const torrent, const QStringList &deletedTrackers)
{
for (const QString &deletedTracker : deletedTrackers)
LogMsg(tr("Removed tracker from torrent. Torrent: \"%1\". Tracker: \"%2\"").arg(torrent->name(), deletedTracker));
emit trackersRemoved(torrent, deletedTrackers);
if (torrent->trackers().isEmpty())
emit trackerlessStateChanged(torrent, true);
emit trackersChanged(torrent);
}
void Session::handleTorrentTrackersChanged(TorrentImpl *const torrent)
{
emit trackersChanged(torrent);
}
void Session::handleTorrentUrlSeedsAdded(TorrentImpl *const torrent, const QVector<QUrl> &newUrlSeeds)
{
for (const QUrl &newUrlSeed : newUrlSeeds)
LogMsg(tr("Added URL seed to torrent. Torrent: \"%1\". URL: \"%2\"").arg(torrent->name(), newUrlSeed.toString()));
}
void Session::handleTorrentUrlSeedsRemoved(TorrentImpl *const torrent, const QVector<QUrl> &urlSeeds)
{
for (const QUrl &urlSeed : urlSeeds)
LogMsg(tr("Removed URL seed from torrent. Torrent: \"%1\". URL: \"%2\"").arg(torrent->name(), urlSeed.toString()));
}
void Session::handleTorrentMetadataReceived(TorrentImpl *const torrent)
{
if (!torrentExportDirectory().isEmpty())
exportTorrentFile(torrent, torrentExportDirectory());
emit torrentMetadataReceived(torrent);
}
void Session::handleTorrentPaused(TorrentImpl *const torrent)
{
LogMsg(tr("Torrent paused. Torrent: \"%1\"").arg(torrent->name()));
emit torrentPaused(torrent);
}
void Session::handleTorrentResumed(TorrentImpl *const torrent)
{
LogMsg(tr("Torrent resumed. Torrent: \"%1\"").arg(torrent->name()));
emit torrentResumed(torrent);
}
void Session::handleTorrentChecked(TorrentImpl *const torrent)
{
emit torrentFinishedChecking(torrent);
}
void Session::handleTorrentFinished(TorrentImpl *const torrent)
{
LogMsg(tr("Torrent download finished. Torrent: \"%1\"").arg(torrent->name()));
emit torrentFinished(torrent);
qDebug("Checking if the torrent contains torrent files to download");
// Check if there are torrent files inside
for (const Path &torrentRelpath : asConst(torrent->filePaths()))
{
if (torrentRelpath.hasExtension(u".torrent"_qs))
{
qDebug("Found possible recursive torrent download.");
const Path torrentFullpath = torrent->actualStorageLocation() / torrentRelpath;
qDebug("Full subtorrent path is %s", qUtf8Printable(torrentFullpath.toString()));
if (TorrentInfo::loadFromFile(torrentFullpath))
{
qDebug("emitting recursiveTorrentDownloadPossible()");
emit recursiveTorrentDownloadPossible(torrent);
break;
}
else
{
qDebug("Caught error loading torrent");
LogMsg(tr("Unable to load torrent. File: \"%1\"").arg(torrentFullpath.toString()), Log::CRITICAL);
}
}
}
if (!finishedTorrentExportDirectory().isEmpty())
exportTorrentFile(torrent, finishedTorrentExportDirectory());
if (!hasUnfinishedTorrents())
emit allTorrentsFinished();
}
void Session::handleTorrentResumeDataReady(TorrentImpl *const torrent, const LoadTorrentParams &data)
{
--m_numResumeData;
m_resumeDataStorage->store(torrent->id(), data);
}
bool Session::addMoveTorrentStorageJob(TorrentImpl *torrent, const Path &newPath, const MoveStorageMode mode)
{
Q_ASSERT(torrent);
const lt::torrent_handle torrentHandle = torrent->nativeHandle();
const Path currentLocation = torrent->actualStorageLocation();
if (m_moveStorageQueue.size() > 1)
{
auto iter = std::find_if(m_moveStorageQueue.begin() + 1, m_moveStorageQueue.end()
, [&torrentHandle](const MoveStorageJob &job)
{
return job.torrentHandle == torrentHandle;
});
if (iter != m_moveStorageQueue.end())
{
// remove existing inactive job
LogMsg(tr("Torrent move canceled. Torrent: \"%1\". Source: \"%2\". Destination: \"%3\"").arg(torrent->name(), currentLocation.toString(), iter->path.toString()));
iter = m_moveStorageQueue.erase(iter);
iter = std::find_if(iter, m_moveStorageQueue.end(), [&torrentHandle](const MoveStorageJob &job)
{
return job.torrentHandle == torrentHandle;
});
const bool torrentHasOutstandingJob = (iter != m_moveStorageQueue.end());
torrent->handleMoveStorageJobFinished(currentLocation, torrentHasOutstandingJob);
}
}
if (!m_moveStorageQueue.isEmpty() && (m_moveStorageQueue.first().torrentHandle == torrentHandle))
{
// if there is active job for this torrent prevent creating meaningless
// job that will move torrent to the same location as current one
if (m_moveStorageQueue.first().path == newPath)
{
LogMsg(tr("Failed to enqueue torrent move. Torrent: \"%1\". Source: \"%2\". Destination: \"%3\". Reason: torrent is currently moving to the destination")
.arg(torrent->name(), currentLocation.toString(), newPath.toString()));
return false;
}
}
else
{
if (currentLocation == newPath)
{
LogMsg(tr("Failed to enqueue torrent move. Torrent: \"%1\". Source: \"%2\" Destination: \"%3\". Reason: both paths point to the same location")
.arg(torrent->name(), currentLocation.toString(), newPath.toString()));
return false;
}
}
const MoveStorageJob moveStorageJob {torrentHandle, newPath, mode};
m_moveStorageQueue << moveStorageJob;
LogMsg(tr("Enqueued torrent move. Torrent: \"%1\". Source: \"%2\". Destination: \"%3\"").arg(torrent->name(), currentLocation.toString(), newPath.toString()));
if (m_moveStorageQueue.size() == 1)
moveTorrentStorage(moveStorageJob);
return true;
}
void Session::moveTorrentStorage(const MoveStorageJob &job) const
{
#ifdef QBT_USES_LIBTORRENT2
const auto id = TorrentID::fromInfoHash(job.torrentHandle.info_hashes());
#else
const auto id = TorrentID::fromInfoHash(job.torrentHandle.info_hash());
#endif
const TorrentImpl *torrent = m_torrents.value(id);
const QString torrentName = (torrent ? torrent->name() : id.toString());
LogMsg(tr("Start moving torrent. Torrent: \"%1\". Destination: \"%2\"").arg(torrentName, job.path.toString()));
job.torrentHandle.move_storage(job.path.toString().toStdString()
, ((job.mode == MoveStorageMode::Overwrite)
? lt::move_flags_t::always_replace_files : lt::move_flags_t::dont_replace));
}
void Session::handleMoveTorrentStorageJobFinished(const Path &newPath)
{
const MoveStorageJob finishedJob = m_moveStorageQueue.takeFirst();
if (!m_moveStorageQueue.isEmpty())
moveTorrentStorage(m_moveStorageQueue.first());
const auto iter = std::find_if(m_moveStorageQueue.cbegin(), m_moveStorageQueue.cend()
, [&finishedJob](const MoveStorageJob &job)
{
return job.torrentHandle == finishedJob.torrentHandle;
});
const bool torrentHasOutstandingJob = (iter != m_moveStorageQueue.cend());
TorrentImpl *torrent = m_torrents.value(finishedJob.torrentHandle.info_hash());
if (torrent)
{
torrent->handleMoveStorageJobFinished(newPath, torrentHasOutstandingJob);
}
else if (!torrentHasOutstandingJob)
{
// Last job is completed for torrent that being removing, so actually remove it
const lt::torrent_handle nativeHandle {finishedJob.torrentHandle};
const RemovingTorrentData &removingTorrentData = m_removingTorrents[nativeHandle.info_hash()];
if (removingTorrentData.deleteOption == DeleteTorrent)
m_nativeSession->remove_torrent(nativeHandle, lt::session::delete_partfile);
}
}
void Session::storeCategories() const
{
QJsonObject jsonObj;
for (auto it = m_categories.cbegin(); it != m_categories.cend(); ++it)
{
const QString &categoryName = it.key();
const CategoryOptions &categoryOptions = it.value();
jsonObj[categoryName] = categoryOptions.toJSON();
}
const Path path = specialFolderLocation(SpecialFolder::Config) / CATEGORIES_FILE_NAME;
const QByteArray data = QJsonDocument(jsonObj).toJson();
const nonstd::expected<void, QString> result = Utils::IO::saveToFile(path, data);
if (!result)
{
LogMsg(tr("Failed to save Categories configuration. File: \"%1\". Error: \"%2\"")
.arg(path.toString(), result.error()), Log::WARNING);
}
}
void Session::upgradeCategories()
{
const auto legacyCategories = SettingValue<QVariantMap>(u"BitTorrent/Session/Categories"_qs).get();
for (auto it = legacyCategories.cbegin(); it != legacyCategories.cend(); ++it)
{
const QString categoryName = it.key();
CategoryOptions categoryOptions;
categoryOptions.savePath = Path(it.value().toString());
m_categories[categoryName] = categoryOptions;
}
storeCategories();
}
void Session::loadCategories()
{
m_categories.clear();
QFile confFile {(specialFolderLocation(SpecialFolder::Config) / CATEGORIES_FILE_NAME).data()};
if (!confFile.exists())
{
// TODO: Remove the following upgrade code in v4.5
// == BEGIN UPGRADE CODE ==
upgradeCategories();
m_needUpgradeDownloadPath = true;
// == END UPGRADE CODE ==
// return;
}
if (!confFile.open(QFile::ReadOnly))
{
LogMsg(tr("Failed to load Categories. File: \"%1\". Error: \"%2\"")
.arg(confFile.fileName(), confFile.errorString()), Log::CRITICAL);
return;
}
QJsonParseError jsonError;
const QJsonDocument jsonDoc = QJsonDocument::fromJson(confFile.readAll(), &jsonError);
if (jsonError.error != QJsonParseError::NoError)
{
LogMsg(tr("Failed to parse Categories configuration. File: \"%1\". Error: \"%2\"")
.arg(confFile.fileName(), jsonError.errorString()), Log::WARNING);
return;
}
if (!jsonDoc.isObject())
{
LogMsg(tr("Failed to load Categories configuration. File: \"%1\". Reason: invalid data format")
.arg(confFile.fileName()), Log::WARNING);
return;
}
const QJsonObject jsonObj = jsonDoc.object();
for (auto it = jsonObj.constBegin(); it != jsonObj.constEnd(); ++it)
{
const QString &categoryName = it.key();
const auto categoryOptions = CategoryOptions::fromJSON(it.value().toObject());
m_categories[categoryName] = categoryOptions;
}
}
bool Session::hasPerTorrentRatioLimit() const
{
return std::any_of(m_torrents.cbegin(), m_torrents.cend(), [](const TorrentImpl *torrent)
{
return (torrent->ratioLimit() >= 0);
});
}
bool Session::hasPerTorrentSeedingTimeLimit() const
{
return std::any_of(m_torrents.cbegin(), m_torrents.cend(), [](const TorrentImpl *torrent)
{
return (torrent->seedingTimeLimit() >= 0);
});
}
void Session::configureDeferred()
{
if (m_deferredConfigureScheduled)
return;
m_deferredConfigureScheduled = true;
QMetaObject::invokeMethod(this, qOverload<>(&Session::configure), Qt::QueuedConnection);
}
// Enable IP Filtering
// this method creates ban list from scratch combining user ban list and 3rd party ban list file
void Session::enableIPFilter()
{
qDebug("Enabling IPFilter");
// 1. Parse the IP filter
// 2. In the slot add the manually banned IPs to the provided lt::ip_filter
// 3. Set the ip_filter in one go so there isn't a time window where there isn't an ip_filter
// set between clearing the old one and setting the new one.
if (!m_filterParser)
{
m_filterParser = new FilterParserThread(this);
connect(m_filterParser.data(), &FilterParserThread::IPFilterParsed, this, &Session::handleIPFilterParsed);
connect(m_filterParser.data(), &FilterParserThread::IPFilterError, this, &Session::handleIPFilterError);
}
m_filterParser->processFilterFile(IPFilterFile());
}
// Disable IP Filtering
void Session::disableIPFilter()
{
qDebug("Disabling IPFilter");
if (m_filterParser)
{
disconnect(m_filterParser.data(), nullptr, this, nullptr);
delete m_filterParser;
}
// Add the banned IPs after the IPFilter disabling
// which creates an empty filter and overrides all previously
// applied bans.
lt::ip_filter filter;
processBannedIPs(filter);
m_nativeSession->set_ip_filter(filter);
}
void Session::recursiveTorrentDownload(const TorrentID &id)
{
TorrentImpl *const torrent = m_torrents.value(id);
if (!torrent) return;
for (const Path &torrentRelpath : asConst(torrent->filePaths()))
{
if (torrentRelpath.hasExtension(u".torrent"_qs))
{
LogMsg(tr("Recursive download .torrent file within torrent. Source torrent: \"%1\". File: \"%2\"")
.arg(torrent->name(), torrentRelpath.toString()));
const Path torrentFullpath = torrent->savePath() / torrentRelpath;
AddTorrentParams params;
// Passing the save path along to the sub torrent file
params.savePath = torrent->savePath();
const nonstd::expected<TorrentInfo, QString> loadResult = TorrentInfo::loadFromFile(torrentFullpath);
if (loadResult)
addTorrent(loadResult.value(), params);
else
LogMsg(tr("Failed to load torrent. Error: \"%1\"").arg(loadResult.error()), Log::WARNING);
}
}
}
const SessionStatus &Session::status() const
{
return m_status;
}
const CacheStatus &Session::cacheStatus() const
{
return m_cacheStatus;
}
void Session::startUpTorrents()
{
qDebug("Initializing torrents resume data storage...");
const Path dbPath = specialFolderLocation(SpecialFolder::Data) / Path(u"torrents.db"_qs);
const bool dbStorageExists = dbPath.exists();
ResumeDataStorage *startupStorage = nullptr;
if (resumeDataStorageType() == ResumeDataStorageType::SQLite)
{
m_resumeDataStorage = new DBResumeDataStorage(dbPath, this);
if (!dbStorageExists)
{
const Path dataPath = specialFolderLocation(SpecialFolder::Data) / Path(u"BT_backup"_qs);
startupStorage = new BencodeResumeDataStorage(dataPath, this);
}
}
else
{
const Path dataPath = specialFolderLocation(SpecialFolder::Data) / Path(u"BT_backup"_qs);
m_resumeDataStorage = new BencodeResumeDataStorage(dataPath, this);
if (dbStorageExists)
startupStorage = new DBResumeDataStorage(dbPath, this);
}
if (!startupStorage)
startupStorage = m_resumeDataStorage;
qDebug("Starting up torrents...");
const QVector<TorrentID> torrents = startupStorage->registeredTorrents();
int resumedTorrentsCount = 0;
QVector<TorrentID> queue;
QSet<QString> recoveredCategories;
#ifdef QBT_USES_LIBTORRENT2
const QSet<TorrentID> indexedTorrents {torrents.cbegin(), torrents.cend()};
QSet<TorrentID> skippedIDs;
#endif
for (TorrentID torrentID : torrents)
{
#ifdef QBT_USES_LIBTORRENT2
if (skippedIDs.contains(torrentID))
continue;
#endif
const std::optional<LoadTorrentParams> loadResumeDataResult = startupStorage->load(torrentID);
if (!loadResumeDataResult)
{
LogMsg(tr("Failed to resume torrent. Torrent: \"%1\"").arg(torrentID.toString()), Log::CRITICAL);
continue;
}
LoadTorrentParams resumeData = *loadResumeDataResult;
bool needStore = false;
#ifdef QBT_USES_LIBTORRENT2
const lt::info_hash_t infoHash = (resumeData.ltAddTorrentParams.ti
? resumeData.ltAddTorrentParams.ti->info_hashes()
: resumeData.ltAddTorrentParams.info_hashes);
const bool isHybrid = infoHash.has_v1() && infoHash.has_v2();
const auto torrentIDv2 = TorrentID::fromInfoHash(infoHash);
const auto torrentIDv1 = TorrentID::fromInfoHash(lt::info_hash_t(infoHash.v1));
if (torrentID == torrentIDv2)
{
if (isHybrid && indexedTorrents.contains(torrentIDv1))
{
// if we don't have metadata, try to find it in alternative "resume data"
if (!resumeData.ltAddTorrentParams.ti)
{
const std::optional<LoadTorrentParams> loadAltResumeDataResult = startupStorage->load(torrentIDv1);
if (loadAltResumeDataResult)
resumeData.ltAddTorrentParams.ti = loadAltResumeDataResult->ltAddTorrentParams.ti;
}
// remove alternative "resume data" and skip the attempt to load it
m_resumeDataStorage->remove(torrentIDv1);
skippedIDs.insert(torrentIDv1);
}
}
else if (torrentID == torrentIDv1)
{
torrentID = torrentIDv2;
needStore = true;
m_resumeDataStorage->remove(torrentIDv1);
if (indexedTorrents.contains(torrentID))
{
skippedIDs.insert(torrentID);
const std::optional<LoadTorrentParams> loadPreferredResumeDataResult = startupStorage->load(torrentID);
if (loadPreferredResumeDataResult)
{
std::shared_ptr<lt::torrent_info> ti = resumeData.ltAddTorrentParams.ti;
resumeData = *loadPreferredResumeDataResult;
if (!resumeData.ltAddTorrentParams.ti)
resumeData.ltAddTorrentParams.ti = ti;
}
}
}
else
{
LogMsg(tr("Failed to resume torrent: inconsistent torrent ID is detected. Torrent: \"%1\"")
.arg(torrentID.toString()), Log::WARNING);
continue;
}
#else
const lt::sha1_hash infoHash = (resumeData.ltAddTorrentParams.ti
? resumeData.ltAddTorrentParams.ti->info_hash()
: resumeData.ltAddTorrentParams.info_hash);
if (torrentID != TorrentID::fromInfoHash(infoHash))
{
LogMsg(tr("Failed to resume torrent: inconsistent torrent ID is detected. Torrent: \"%1\"")
.arg(torrentID.toString()), Log::WARNING);
continue;
}
#endif
if (m_resumeDataStorage != startupStorage)
{
needStore = true;
if (isQueueingSystemEnabled() && !resumeData.hasSeedStatus)
queue.append(torrentID);
}
// TODO: Remove the following upgrade code in v4.6
// == BEGIN UPGRADE CODE ==
if (m_needUpgradeDownloadPath && isDownloadPathEnabled())
{
if (!resumeData.useAutoTMM)
{
resumeData.downloadPath = downloadPath();
needStore = true;
}
}
// == END UPGRADE CODE ==
if (needStore)
m_resumeDataStorage->store(torrentID, resumeData);
const QString category = resumeData.category;
bool isCategoryRecovered = recoveredCategories.contains(category);
if (!category.isEmpty() && (isCategoryRecovered || !m_categories.contains(category)))
{
if (!isCategoryRecovered)
{
if (addCategory(category))
{
recoveredCategories.insert(category);
isCategoryRecovered = true;
LogMsg(tr("Detected inconsistent data: category is missing from the configuration file."
" Category will be recovered but its settings will be reset to default."
" Torrent: \"%1\". Category: \"%2\"").arg(torrentID.toString(), category), Log::WARNING);
}
else
{
resumeData.category.clear();
LogMsg(tr("Detected inconsistent data: invalid category. Torrent: \"%1\". Category: \"%2\"")
.arg(torrentID.toString(), category), Log::WARNING);
}
}
// We should check isCategoryRecovered again since the category
// can be just recovered by the code above
if (isCategoryRecovered && resumeData.useAutoTMM)
{
const Path storageLocation {resumeData.ltAddTorrentParams.save_path};
if ((storageLocation != categorySavePath(resumeData.category)) && (storageLocation != categoryDownloadPath(resumeData.category)))
{
resumeData.useAutoTMM = false;
resumeData.savePath = storageLocation;
resumeData.downloadPath = {};
LogMsg(tr("Detected mismatch between the save paths of the recovered category and the current save path of the torrent."
" Torrent is now switched to Manual mode."
" Torrent: \"%1\". Category: \"%2\"").arg(torrentID.toString(), category), Log::WARNING);
}
}
}
qDebug() << "Starting up torrent" << torrentID.toString() << "...";
if (!loadTorrent(resumeData))
LogMsg(tr("Failed to resume torrent. Torrent: \"%1\"").arg(torrentID.toString()), Log::CRITICAL);
// process add torrent messages before message queue overflow
if ((resumedTorrentsCount % 100) == 0) readAlerts();
++resumedTorrentsCount;
}
if (m_resumeDataStorage != startupStorage)
{
delete startupStorage;
if (resumeDataStorageType() == ResumeDataStorageType::Legacy)
Utils::Fs::removeFile(dbPath);
if (isQueueingSystemEnabled())
m_resumeDataStorage->storeQueue(queue);
}
}
qint64 Session::getAlltimeDL() const
{
return m_statistics->getAlltimeDL();
}
qint64 Session::getAlltimeUL() const
{
return m_statistics->getAlltimeUL();
}
void Session::enqueueRefresh()
{
Q_ASSERT(!m_refreshEnqueued);
QTimer::singleShot(refreshInterval(), this, [this] ()
{
m_nativeSession->post_torrent_updates();
m_nativeSession->post_session_stats();
});
m_refreshEnqueued = true;
}
void Session::handleIPFilterParsed(const int ruleCount)
{
if (m_filterParser)
{
lt::ip_filter filter = m_filterParser->IPfilter();
processBannedIPs(filter);
m_nativeSession->set_ip_filter(filter);
}
LogMsg(tr("Successfully parsed the IP filter file. Number of rules applied: %1").arg(ruleCount));
emit IPFilterParsed(false, ruleCount);
}
void Session::handleIPFilterError()
{
lt::ip_filter filter;
processBannedIPs(filter);
m_nativeSession->set_ip_filter(filter);
LogMsg(tr("Failed to parse the IP filter file"), Log::WARNING);
emit IPFilterParsed(true, 0);
}
std::vector<lt::alert *> Session::getPendingAlerts(const lt::time_duration time) const
{
if (time > lt::time_duration::zero())
m_nativeSession->wait_for_alert(time);
std::vector<lt::alert *> alerts;
m_nativeSession->pop_alerts(&alerts);
return alerts;
}
TorrentContentLayout Session::torrentContentLayout() const
{
return m_torrentContentLayout;
}
void Session::setTorrentContentLayout(const TorrentContentLayout value)
{
m_torrentContentLayout = value;
}
// Read alerts sent by the BitTorrent session
void Session::readAlerts()
{
const std::vector<lt::alert *> alerts = getPendingAlerts();
for (const lt::alert *a : alerts)
handleAlert(a);
processTrackerStatuses();
}
void Session::handleAlert(const lt::alert *a)
{
try
{
switch (a->type())
{
#ifdef QBT_USES_LIBTORRENT2
case lt::file_prio_alert::alert_type:
#endif
case lt::file_renamed_alert::alert_type:
case lt::file_rename_failed_alert::alert_type:
case lt::file_completed_alert::alert_type:
case lt::torrent_finished_alert::alert_type:
case lt::save_resume_data_alert::alert_type:
case lt::save_resume_data_failed_alert::alert_type:
case lt::torrent_paused_alert::alert_type:
case lt::torrent_resumed_alert::alert_type:
case lt::fastresume_rejected_alert::alert_type:
case lt::torrent_checked_alert::alert_type:
case lt::metadata_received_alert::alert_type:
case lt::performance_alert::alert_type:
dispatchTorrentAlert(a);
break;
case lt::state_update_alert::alert_type:
handleStateUpdateAlert(static_cast<const lt::state_update_alert*>(a));
break;
case lt::session_stats_alert::alert_type:
handleSessionStatsAlert(static_cast<const lt::session_stats_alert*>(a));
break;
case lt::tracker_announce_alert::alert_type:
case lt::tracker_error_alert::alert_type:
case lt::tracker_reply_alert::alert_type:
case lt::tracker_warning_alert::alert_type:
handleTrackerAlert(static_cast<const lt::tracker_alert *>(a));
break;
case lt::file_error_alert::alert_type:
handleFileErrorAlert(static_cast<const lt::file_error_alert*>(a));
break;
case lt::add_torrent_alert::alert_type:
handleAddTorrentAlert(static_cast<const lt::add_torrent_alert*>(a));
break;
case lt::torrent_removed_alert::alert_type:
handleTorrentRemovedAlert(static_cast<const lt::torrent_removed_alert*>(a));
break;
case lt::torrent_deleted_alert::alert_type:
handleTorrentDeletedAlert(static_cast<const lt::torrent_deleted_alert*>(a));
break;
case lt::torrent_delete_failed_alert::alert_type:
handleTorrentDeleteFailedAlert(static_cast<const lt::torrent_delete_failed_alert*>(a));
break;
case lt::portmap_error_alert::alert_type:
handlePortmapWarningAlert(static_cast<const lt::portmap_error_alert*>(a));
break;
case lt::portmap_alert::alert_type:
handlePortmapAlert(static_cast<const lt::portmap_alert*>(a));
break;
case lt::peer_blocked_alert::alert_type:
handlePeerBlockedAlert(static_cast<const lt::peer_blocked_alert*>(a));
break;
case lt::peer_ban_alert::alert_type:
handlePeerBanAlert(static_cast<const lt::peer_ban_alert*>(a));
break;
case lt::url_seed_alert::alert_type:
handleUrlSeedAlert(static_cast<const lt::url_seed_alert*>(a));
break;
case lt::listen_succeeded_alert::alert_type:
handleListenSucceededAlert(static_cast<const lt::listen_succeeded_alert*>(a));
break;
case lt::listen_failed_alert::alert_type:
handleListenFailedAlert(static_cast<const lt::listen_failed_alert*>(a));
break;
case lt::external_ip_alert::alert_type:
handleExternalIPAlert(static_cast<const lt::external_ip_alert*>(a));
break;
case lt::alerts_dropped_alert::alert_type:
handleAlertsDroppedAlert(static_cast<const lt::alerts_dropped_alert *>(a));
break;
case lt::storage_moved_alert::alert_type:
handleStorageMovedAlert(static_cast<const lt::storage_moved_alert*>(a));
break;
case lt::storage_moved_failed_alert::alert_type:
handleStorageMovedFailedAlert(static_cast<const lt::storage_moved_failed_alert*>(a));
break;
case lt::socks5_alert::alert_type:
handleSocks5Alert(static_cast<const lt::socks5_alert *>(a));
break;
}
}
catch (const std::exception &exc)
{
qWarning() << "Caught exception in " << Q_FUNC_INFO << ": " << QString::fromStdString(exc.what());
}
}
void Session::dispatchTorrentAlert(const lt::alert *a)
{
TorrentImpl *const torrent = m_torrents.value(static_cast<const lt::torrent_alert*>(a)->handle.info_hash());
if (torrent)
{
torrent->handleAlert(a);
return;
}
switch (a->type())
{
case lt::metadata_received_alert::alert_type:
handleMetadataReceivedAlert(static_cast<const lt::metadata_received_alert*>(a));
break;
}
}
void Session::createTorrent(const lt::torrent_handle &nativeHandle)
{
#ifdef QBT_USES_LIBTORRENT2
const auto torrentID = TorrentID::fromInfoHash(nativeHandle.info_hashes());
#else
const auto torrentID = TorrentID::fromInfoHash(nativeHandle.info_hash());
#endif
Q_ASSERT(m_loadingTorrents.contains(torrentID));
const LoadTorrentParams params = m_loadingTorrents.take(torrentID);
auto *const torrent = new TorrentImpl(this, m_nativeSession, nativeHandle, params);
m_torrents.insert(torrent->id(), torrent);
const bool hasMetadata = torrent->hasMetadata();
if (!params.restored)
{
m_resumeDataStorage->store(torrent->id(), params);
// The following is useless for newly added magnet
if (hasMetadata)
{
if (!torrentExportDirectory().isEmpty())
exportTorrentFile(torrent, torrentExportDirectory());
}
}
if (((torrent->ratioLimit() >= 0) || (torrent->seedingTimeLimit() >= 0))
&& !m_seedingLimitTimer->isActive())
{
m_seedingLimitTimer->start();
}
// Send torrent addition signal
emit torrentLoaded(torrent);
// Send new torrent signal
if (params.restored)
{
LogMsg(tr("Restored torrent. Torrent: \"%1\"").arg(torrent->name()));
}
else
{
LogMsg(tr("Added new torrent. Torrent: \"%1\"").arg(torrent->name()));
emit torrentAdded(torrent);
}
// Torrent could have error just after adding to libtorrent
if (torrent->hasError())
LogMsg(tr("Torrent errored. Torrent: \"%1\". Error: \"%2\"").arg(torrent->name(), torrent->error()), Log::WARNING);
}
void Session::handleAddTorrentAlert(const lt::add_torrent_alert *p)
{
if (p->error)
{
const QString msg = QString::fromStdString(p->message());
LogMsg(tr("Failed to load torrent. Reason: \"%1\"").arg(msg), Log::WARNING);
emit loadTorrentFailed(msg);
const lt::add_torrent_params &params = p->params;
const bool hasMetadata = (params.ti && params.ti->is_valid());
#ifdef QBT_USES_LIBTORRENT2
const auto id = TorrentID::fromInfoHash(hasMetadata ? params.ti->info_hashes() : params.info_hashes);
#else
const auto id = TorrentID::fromInfoHash(hasMetadata ? params.ti->info_hash() : params.info_hash);
#endif
m_loadingTorrents.remove(id);
}
else if (m_loadingTorrents.contains(p->handle.info_hash()))
{
createTorrent(p->handle);
}
}
void Session::handleTorrentRemovedAlert(const lt::torrent_removed_alert *p)
{
#ifdef QBT_USES_LIBTORRENT2
const auto id = TorrentID::fromInfoHash(p->info_hashes);
#else
const auto id = TorrentID::fromInfoHash(p->info_hash);
#endif
const auto removingTorrentDataIter = m_removingTorrents.find(id);
if (removingTorrentDataIter != m_removingTorrents.end())
{
if (removingTorrentDataIter->deleteOption == DeleteTorrent)
{
LogMsg(tr("Removed torrent. Torrent: \"%1\"").arg(removingTorrentDataIter->name));
m_removingTorrents.erase(removingTorrentDataIter);
}
}
}
void Session::handleTorrentDeletedAlert(const lt::torrent_deleted_alert *p)
{
#ifdef QBT_USES_LIBTORRENT2
const auto id = TorrentID::fromInfoHash(p->info_hashes);
#else
const auto id = TorrentID::fromInfoHash(p->info_hash);
#endif
const auto removingTorrentDataIter = m_removingTorrents.find(id);
if (removingTorrentDataIter == m_removingTorrents.end())
return;
Utils::Fs::smartRemoveEmptyFolderTree(removingTorrentDataIter->pathToRemove);
LogMsg(tr("Removed torrent and deleted its content. Torrent: \"%1\"").arg(removingTorrentDataIter->name));
m_removingTorrents.erase(removingTorrentDataIter);
}
void Session::handleTorrentDeleteFailedAlert(const lt::torrent_delete_failed_alert *p)
{
#ifdef QBT_USES_LIBTORRENT2
const auto id = TorrentID::fromInfoHash(p->info_hashes);
#else
const auto id = TorrentID::fromInfoHash(p->info_hash);
#endif
const auto removingTorrentDataIter = m_removingTorrents.find(id);
if (removingTorrentDataIter == m_removingTorrents.end())
return;
if (p->error)
{
// libtorrent won't delete the directory if it contains files not listed in the torrent,
// so we remove the directory ourselves
Utils::Fs::smartRemoveEmptyFolderTree(removingTorrentDataIter->pathToRemove);
LogMsg(tr("Removed torrent but failed to delete its content. Torrent: \"%1\". Error: \"%2\"")
.arg(removingTorrentDataIter->name, QString::fromLocal8Bit(p->error.message().c_str()))
, Log::WARNING);
}
else // torrent without metadata, hence no files on disk
{
LogMsg(tr("Removed torrent. Torrent: \"%1\"").arg(removingTorrentDataIter->name));
}
m_removingTorrents.erase(removingTorrentDataIter);
}
void Session::handleMetadataReceivedAlert(const lt::metadata_received_alert *p)
{
#ifdef QBT_USES_LIBTORRENT2
const auto id = TorrentID::fromInfoHash(p->handle.info_hashes());
#else
const auto id = TorrentID::fromInfoHash(p->handle.info_hash());
#endif
const auto downloadedMetadataIter = m_downloadedMetadata.find(id);
if (downloadedMetadataIter != m_downloadedMetadata.end())
{
const TorrentInfo metadata {*p->handle.torrent_file()};
m_downloadedMetadata.erase(downloadedMetadataIter);
--m_extraLimit;
adjustLimits();
m_nativeSession->remove_torrent(p->handle, lt::session::delete_files);
emit metadataDownloaded(metadata);
}
}
void Session::handleFileErrorAlert(const lt::file_error_alert *p)
{
TorrentImpl *const torrent = m_torrents.value(p->handle.info_hash());
if (!torrent)
return;
torrent->handleAlert(p);
const TorrentID id = torrent->id();
if (!m_recentErroredTorrents.contains(id))
{
m_recentErroredTorrents.insert(id);
const QString msg = QString::fromStdString(p->message());
LogMsg(tr("File error alert. Torrent: \"%1\". File: \"%2\". Reason: \"%3\"")
.arg(torrent->name(), QString::fromLocal8Bit(p->filename()), msg)
, Log::WARNING);
emit fullDiskError(torrent, msg);
}
m_recentErroredTorrentsTimer->start();
}
void Session::handlePortmapWarningAlert(const lt::portmap_error_alert *p)
{
LogMsg(tr("UPnP/NAT-PMP port mapping failed. Message: \"%1\"").arg(QString::fromStdString(p->message())), Log::WARNING);
}
void Session::handlePortmapAlert(const lt::portmap_alert *p)
{
qDebug("UPnP Success, msg: %s", p->message().c_str());
LogMsg(tr("UPnP/NAT-PMP port mapping succeeded. Message: \"%1\"").arg(QString::fromStdString(p->message())), Log::INFO);
}
void Session::handlePeerBlockedAlert(const lt::peer_blocked_alert *p)
{
QString reason;
switch (p->reason)
{
case lt::peer_blocked_alert::ip_filter:
reason = tr("IP filter", "this peer was blocked. Reason: IP filter.");
break;
case lt::peer_blocked_alert::port_filter:
reason = tr("port filter", "this peer was blocked. Reason: port filter.");
break;
case lt::peer_blocked_alert::i2p_mixed:
reason = tr("%1 mixed mode restrictions", "this peer was blocked. Reason: I2P mixed mode restrictions.").arg(u"I2P"_qs); // don't translate I2P
break;
case lt::peer_blocked_alert::privileged_ports:
reason = tr("use of privileged port", "this peer was blocked. Reason: use of privileged port.");
break;
case lt::peer_blocked_alert::utp_disabled:
reason = tr("%1 is disabled", "this peer was blocked. Reason: uTP is disabled.").arg(C_UTP); // don't translate μTP
break;
case lt::peer_blocked_alert::tcp_disabled:
reason = tr("%1 is disabled", "this peer was blocked. Reason: TCP is disabled.").arg(u"TCP"_qs); // don't translate TCP
break;
}
const QString ip {toString(p->endpoint.address())};
if (!ip.isEmpty())
Logger::instance()->addPeer(ip, true, reason);
}
void Session::handlePeerBanAlert(const lt::peer_ban_alert *p)
{
const QString ip {toString(p->endpoint.address())};
if (!ip.isEmpty())
Logger::instance()->addPeer(ip, false);
}
void Session::handleUrlSeedAlert(const lt::url_seed_alert *p)
{
const TorrentImpl *torrent = m_torrents.value(p->handle.info_hash());
if (!torrent)
return;
if (p->error)
{
LogMsg(tr("URL seed DNS lookup failed. Torrent: \"%1\". URL: \"%2\". Error: \"%3\"")
.arg(torrent->name(), QString::fromUtf8(p->server_url()), QString::fromStdString(p->message()))
, Log::WARNING);
}
else
{
LogMsg(tr("Received error message from URL seed. Torrent: \"%1\". URL: \"%2\". Message: \"%3\"")
.arg(torrent->name(), QString::fromUtf8(p->server_url()), QString::fromUtf8(p->error_message()))
, Log::WARNING);
}
}
void Session::handleListenSucceededAlert(const lt::listen_succeeded_alert *p)
{
const QString proto {toString(p->socket_type)};
LogMsg(tr("Successfully listening on IP. IP: \"%1\". Port: \"%2/%3\"")
.arg(toString(p->address), proto, QString::number(p->port)), Log::INFO);
// Force reannounce on all torrents because some trackers blacklist some ports
reannounceToAllTrackers();
}
void Session::handleListenFailedAlert(const lt::listen_failed_alert *p)
{
const QString proto {toString(p->socket_type)};
LogMsg(tr("Failed to listen on IP. IP: \"%1\". Port: \"%2/%3\". Reason: \"%4\"")
.arg(toString(p->address), proto, QString::number(p->port)
, QString::fromLocal8Bit(p->error.message().c_str())), Log::CRITICAL);
}
void Session::handleExternalIPAlert(const lt::external_ip_alert *p)
{
const QString externalIP {toString(p->external_address)};
LogMsg(tr("Detected external IP. IP: \"%1\"")
.arg(externalIP), Log::INFO);
if (m_lastExternalIP != externalIP)
{
if (isReannounceWhenAddressChangedEnabled() && !m_lastExternalIP.isEmpty())
reannounceToAllTrackers();
m_lastExternalIP = externalIP;
}
}
void Session::handleSessionStatsAlert(const lt::session_stats_alert *p)
{
const qreal interval = lt::total_milliseconds(p->timestamp() - m_statsLastTimestamp) / 1000.;
m_statsLastTimestamp = p->timestamp();
const auto stats = p->counters();
m_status.hasIncomingConnections = static_cast<bool>(stats[m_metricIndices.net.hasIncomingConnections]);
const int64_t ipOverheadDownload = stats[m_metricIndices.net.recvIPOverheadBytes];
const int64_t ipOverheadUpload = stats[m_metricIndices.net.sentIPOverheadBytes];
const int64_t totalDownload = stats[m_metricIndices.net.recvBytes] + ipOverheadDownload;
const int64_t totalUpload = stats[m_metricIndices.net.sentBytes] + ipOverheadUpload;
const int64_t totalPayloadDownload = stats[m_metricIndices.net.recvPayloadBytes];
const int64_t totalPayloadUpload = stats[m_metricIndices.net.sentPayloadBytes];
const int64_t trackerDownload = stats[m_metricIndices.net.recvTrackerBytes];
const int64_t trackerUpload = stats[m_metricIndices.net.sentTrackerBytes];
const int64_t dhtDownload = stats[m_metricIndices.dht.dhtBytesIn];
const int64_t dhtUpload = stats[m_metricIndices.dht.dhtBytesOut];
const auto calcRate = [interval](const qint64 previous, const qint64 current) -> qint64
{
Q_ASSERT(current >= previous);
return ((current - previous) / interval);
};
m_status.payloadDownloadRate = calcRate(m_status.totalPayloadDownload, totalPayloadDownload);
m_status.payloadUploadRate = calcRate(m_status.totalPayloadUpload, totalPayloadUpload);
m_status.downloadRate = calcRate(m_status.totalDownload, totalDownload);
m_status.uploadRate = calcRate(m_status.totalUpload, totalUpload);
m_status.ipOverheadDownloadRate = calcRate(m_status.ipOverheadDownload, ipOverheadDownload);
m_status.ipOverheadUploadRate = calcRate(m_status.ipOverheadUpload, ipOverheadUpload);
m_status.dhtDownloadRate = calcRate(m_status.dhtDownload, dhtDownload);
m_status.dhtUploadRate = calcRate(m_status.dhtUpload, dhtUpload);
m_status.trackerDownloadRate = calcRate(m_status.trackerDownload, trackerDownload);
m_status.trackerUploadRate = calcRate(m_status.trackerUpload, trackerUpload);
m_status.totalDownload = totalDownload;
m_status.totalUpload = totalUpload;
m_status.totalPayloadDownload = totalPayloadDownload;
m_status.totalPayloadUpload = totalPayloadUpload;
m_status.ipOverheadDownload = ipOverheadDownload;
m_status.ipOverheadUpload = ipOverheadUpload;
m_status.trackerDownload = trackerDownload;
m_status.trackerUpload = trackerUpload;
m_status.dhtDownload = dhtDownload;
m_status.dhtUpload = dhtUpload;
m_status.totalWasted = stats[m_metricIndices.net.recvRedundantBytes]
+ stats[m_metricIndices.net.recvFailedBytes];
m_status.dhtNodes = stats[m_metricIndices.dht.dhtNodes];
m_status.diskReadQueue = stats[m_metricIndices.peer.numPeersUpDisk];
m_status.diskWriteQueue = stats[m_metricIndices.peer.numPeersDownDisk];
m_status.peersCount = stats[m_metricIndices.peer.numPeersConnected];
m_cacheStatus.totalUsedBuffers = stats[m_metricIndices.disk.diskBlocksInUse];
m_cacheStatus.jobQueueLength = stats[m_metricIndices.disk.queuedDiskJobs];
#ifndef QBT_USES_LIBTORRENT2
const int64_t numBlocksRead = stats[m_metricIndices.disk.numBlocksRead];
const int64_t numBlocksCacheHits = stats[m_metricIndices.disk.numBlocksCacheHits];
m_cacheStatus.readRatio = static_cast<qreal>(numBlocksCacheHits) / std::max<int64_t>((numBlocksCacheHits + numBlocksRead), 1);
#endif
const int64_t totalJobs = stats[m_metricIndices.disk.writeJobs] + stats[m_metricIndices.disk.readJobs]
+ stats[m_metricIndices.disk.hashJobs];
m_cacheStatus.averageJobTime = (totalJobs > 0)
? (stats[m_metricIndices.disk.diskJobTime] / totalJobs) : 0;
emit statsUpdated();
if (m_refreshEnqueued)
m_refreshEnqueued = false;
else
enqueueRefresh();
}
void Session::handleAlertsDroppedAlert(const lt::alerts_dropped_alert *p) const
{
LogMsg(tr("Error: Internal alert queue is full and alerts are dropped, you might see degraded performance. Dropped alert type: \"%1\". Message: \"%2\"")
.arg(QString::fromStdString(p->dropped_alerts.to_string()), QString::fromStdString(p->message())), Log::CRITICAL);
}
void Session::handleStorageMovedAlert(const lt::storage_moved_alert *p)
{
Q_ASSERT(!m_moveStorageQueue.isEmpty());
const MoveStorageJob &currentJob = m_moveStorageQueue.first();
Q_ASSERT(currentJob.torrentHandle == p->handle);
const Path newPath {QString::fromUtf8(p->storage_path())};
Q_ASSERT(newPath == currentJob.path);
#ifdef QBT_USES_LIBTORRENT2
const auto id = TorrentID::fromInfoHash(currentJob.torrentHandle.info_hashes());
#else
const auto id = TorrentID::fromInfoHash(currentJob.torrentHandle.info_hash());
#endif
TorrentImpl *torrent = m_torrents.value(id);
const QString torrentName = (torrent ? torrent->name() : id.toString());
LogMsg(tr("Moved torrent successfully. Torrent: \"%1\". Destination: \"%2\"").arg(torrentName, newPath.toString()));
handleMoveTorrentStorageJobFinished(newPath);
}
void Session::handleStorageMovedFailedAlert(const lt::storage_moved_failed_alert *p)
{
Q_ASSERT(!m_moveStorageQueue.isEmpty());
const MoveStorageJob &currentJob = m_moveStorageQueue.first();
Q_ASSERT(currentJob.torrentHandle == p->handle);
#ifdef QBT_USES_LIBTORRENT2
const auto id = TorrentID::fromInfoHash(currentJob.torrentHandle.info_hashes());
#else
const auto id = TorrentID::fromInfoHash(currentJob.torrentHandle.info_hash());
#endif
TorrentImpl *torrent = m_torrents.value(id);
const QString torrentName = (torrent ? torrent->name() : id.toString());
const Path currentLocation = (torrent ? torrent->actualStorageLocation()
: Path(p->handle.status(lt::torrent_handle::query_save_path).save_path));
const QString errorMessage = QString::fromStdString(p->message());
LogMsg(tr("Failed to move torrent. Torrent: \"%1\". Source: \"%2\". Destination: \"%3\". Reason: \"%4\"")
.arg(torrentName, currentLocation.toString(), currentJob.path.toString(), errorMessage), Log::WARNING);
handleMoveTorrentStorageJobFinished(currentLocation);
}
void Session::handleStateUpdateAlert(const lt::state_update_alert *p)
{
QVector<Torrent *> updatedTorrents;
updatedTorrents.reserve(static_cast<decltype(updatedTorrents)::size_type>(p->status.size()));
for (const lt::torrent_status &status : p->status)
{
#ifdef QBT_USES_LIBTORRENT2
const auto id = TorrentID::fromInfoHash(status.info_hashes);
#else
const auto id = TorrentID::fromInfoHash(status.info_hash);
#endif
TorrentImpl *const torrent = m_torrents.value(id);
if (!torrent)
continue;
torrent->handleStateUpdate(status);
updatedTorrents.push_back(torrent);
}
if (!updatedTorrents.isEmpty())
emit torrentsUpdated(updatedTorrents);
if (m_refreshEnqueued)
m_refreshEnqueued = false;
else
enqueueRefresh();
}
void Session::handleSocks5Alert(const lt::socks5_alert *p) const
{
if (p->error)
{
LogMsg(tr("SOCKS5 proxy error. Message: \"%1\"").arg(QString::fromStdString(p->message()))
, Log::WARNING);
}
}
void Session::handleTrackerAlert(const lt::tracker_alert *a)
{
TorrentImpl *torrent = m_torrents.value(a->handle.info_hash());
if (!torrent)
return;
const auto trackerURL = QString::fromUtf8(a->tracker_url());
m_updatedTrackerEntries[torrent].insert(trackerURL);
if (a->type() == lt::tracker_reply_alert::alert_type)
{
const int numPeers = static_cast<const lt::tracker_reply_alert *>(a)->num_peers;
torrent->updatePeerCount(trackerURL, a->local_endpoint, numPeers);
}
}
void Session::processTrackerStatuses()
{
for (auto it = m_updatedTrackerEntries.cbegin(); it != m_updatedTrackerEntries.cend(); ++it)
{
auto torrent = static_cast<TorrentImpl *>(it.key());
const QSet<QString> &updatedTrackers = it.value();
for (const QString &trackerURL : updatedTrackers)
torrent->invalidateTrackerEntry(trackerURL);
}
if (!m_updatedTrackerEntries.isEmpty())
{
emit trackerEntriesUpdated(m_updatedTrackerEntries);
m_updatedTrackerEntries.clear();
}
}
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