/* This file is part of Telegram Desktop, the official desktop application for the Telegram messaging service. For license and copyright information please follow this link: https://github.com/telegramdesktop/tdesktop/blob/master/LEGAL */ #include "data/data_download_manager.h" #include "data/data_session.h" #include "data/data_photo.h" #include "data/data_document.h" #include "data/data_document_media.h" #include "data/data_web_page.h" #include "data/data_changes.h" #include "data/data_user.h" #include "data/data_channel.h" #include "data/data_file_origin.h" #include "base/unixtime.h" #include "base/random.h" #include "main/main_session.h" #include "main/main_account.h" #include "storage/storage_account.h" #include "history/history.h" #include "history/history_item.h" #include "history/history_message.h" #include "core/application.h" #include "core/mime_type.h" #include "ui/controls/download_bar.h" #include "ui/text/format_song_document_name.h" #include "ui/layers/generic_box.h" #include "storage/serialize_common.h" #include "window/window_controller.h" #include "window/window_session_controller.h" #include "apiwrap.h" #include "styles/style_layers.h" namespace Data { namespace { constexpr auto kClearLoadingTimeout = 5 * crl::time(1000); constexpr auto kMaxFileSize = 4000 * int64(1024 * 1024); constexpr auto kMaxResolvePerAttempt = 100; constexpr auto ByItem = [](const auto &entry) { if constexpr (std::is_same_v) { return entry.object.item; } else { const auto resolved = entry.object.get(); return resolved ? resolved->item.get() : nullptr; } }; constexpr auto ByDocument = [](const auto &entry) { return entry.object.document; }; [[nodiscard]] uint64 PeerAccessHash(not_null peer) { if (const auto user = peer->asUser()) { return user->accessHash(); } else if (const auto channel = peer->asChannel()) { return channel->access; } return 0; } [[nodiscard]] PhotoData *ItemPhoto(not_null item) { if (const auto media = item->media()) { if (const auto page = media->webpage()) { return page->document ? nullptr : page->photo; } else if (const auto photo = media->photo()) { return photo; } } return nullptr; } [[nodiscard]] DocumentData *ItemDocument(not_null item) { if (const auto media = item->media()) { if (const auto page = media->webpage()) { return page->document; } else if (const auto document = media->document()) { return document; } } return nullptr; } struct DocumentDescriptor { uint64 sessionUniqueId = 0; DocumentId documentId = 0; FullMsgId itemId; }; } // namespace struct DownloadManager::DeleteFilesDescriptor { base::flat_set> sessions; base::flat_map files; }; DownloadManager::DownloadManager() : _clearLoadingTimer([=] { clearLoading(); }) { } DownloadManager::~DownloadManager() = default; void DownloadManager::trackSession(not_null session) { auto &data = _sessions.emplace(session, SessionData()).first->second; data.downloaded = deserialize(session); data.resolveNeeded = data.downloaded.size(); session->data().documentLoadProgress( ) | rpl::filter([=](not_null document) { return _loadingDocuments.contains(document); }) | rpl::start_with_next([=](not_null document) { check(document); }, data.lifetime); session->data().itemLayoutChanged( ) | rpl::filter([=](not_null item) { return _loading.contains(item); }) | rpl::start_with_next([=](not_null item) { check(item); }, data.lifetime); session->data().itemViewRefreshRequest( ) | rpl::start_with_next([=](not_null item) { changed(item); }, data.lifetime); session->changes().messageUpdates( MessageUpdate::Flag::Destroyed ) | rpl::start_with_next([=](const MessageUpdate &update) { removed(update.item); }, data.lifetime); session->account().sessionChanges( ) | rpl::filter( rpl::mappers::_1 != session ) | rpl::take(1) | rpl::start_with_next([=] { untrack(session); }, data.lifetime); } void DownloadManager::itemVisibilitiesUpdated( not_null session) { const auto i = _sessions.find(session); if (i == end(_sessions) || i->second.downloading.empty() || !i->second.downloading.front().hiddenByView) { return; } for (const auto &id : i->second.downloading) { if (!id.done && !session->data().queryItemVisibility(id.object.item)) { for (auto &id : i->second.downloading) { id.hiddenByView = false; } _loadingListChanges.fire({}); return; } } } int64 DownloadManager::computeNextStartDate() { const auto now = base::unixtime::now(); if (_lastStartedBase != now) { _lastStartedBase = now; _lastStartedAdded = 0; } else { ++_lastStartedAdded; } return int64(_lastStartedBase) * 1000 + _lastStartedAdded; } void DownloadManager::addLoading(DownloadObject object) { Expects(object.item != nullptr); Expects(object.document != nullptr); const auto item = object.item; auto &data = sessionData(item); const auto already = ranges::find(data.downloading, item, ByItem); if (already != end(data.downloading)) { const auto document = already->object.document; const auto photo = already->object.photo; if (document == object.document && photo == object.photo) { check(item); return; } remove(data, already); } const auto size = object.document->size; const auto path = object.document->loadingFilePath(); if (path.isEmpty()) { return; } const auto shownExists = !data.downloading.empty() && !data.downloading.front().hiddenByView; data.downloading.push_back({ .object = object, .started = computeNextStartDate(), .path = path, .total = size, .hiddenByView = (!shownExists && item->history()->owner().queryItemVisibility(item)), }); _loading.emplace(item); _loadingDocuments.emplace(object.document); _loadingProgress = DownloadProgress{ .ready = _loadingProgress.current().ready, .total = _loadingProgress.current().total + size, }; _loadingListChanges.fire({}); _clearLoadingTimer.cancel(); check(item); } void DownloadManager::check(not_null item) { auto &data = sessionData(item); const auto i = ranges::find(data.downloading, item, ByItem); Assert(i != end(data.downloading)); check(data, i); } void DownloadManager::check(not_null document) { auto &data = sessionData(document); const auto i = ranges::find( data.downloading, document.get(), ByDocument); Assert(i != end(data.downloading)); check(data, i); } void DownloadManager::check( SessionData &data, std::vector::iterator i) { auto &entry = *i; const auto photo = ItemPhoto(entry.object.item); const auto document = ItemDocument(entry.object.item); if (entry.object.photo != photo || entry.object.document != document) { cancel(data, i); return; } // Load with progress only documents for now. Assert(document != nullptr); const auto path = document->filepath(true); if (!path.isEmpty()) { if (_loading.contains(entry.object.item)) { addLoaded(entry.object, path, entry.started); } } else if (!document->loading()) { remove(data, i); } else { const auto totalChange = document->size - entry.total; const auto readyChange = document->loadOffset() - entry.ready; if (!readyChange && !totalChange) { return; } entry.ready += readyChange; entry.total += totalChange; _loadingProgress = DownloadProgress{ .ready = _loadingProgress.current().ready + readyChange, .total = _loadingProgress.current().total + totalChange, }; } } void DownloadManager::addLoaded( DownloadObject object, const QString &path, DownloadDate started) { Expects(object.item != nullptr); Expects(object.document || object.photo); const auto size = QFileInfo(path).size(); if (size <= 0 || size > kMaxFileSize) { return; } const auto item = object.item; auto &data = sessionData(item); const auto id = object.document ? DownloadId{ object.document->id, DownloadType::Document } : DownloadId{ object.photo->id, DownloadType::Photo }; data.downloaded.push_back({ .download = id, .started = started, .path = path, .size = size, .itemId = item->fullId(), .peerAccessHash = PeerAccessHash(item->history()->peer), .object = std::make_unique(object), }); _loaded.emplace(item); _loadedAdded.fire(&data.downloaded.back()); writePostponed(&item->history()->session()); const auto i = ranges::find(data.downloading, item, ByItem); if (i != end(data.downloading)) { auto &entry = *i; const auto document = entry.object.document; if (document) { _loadingDocuments.remove(document); } const auto j = _loading.find(entry.object.item); if (j == end(_loading)) { return; } const auto totalChange = document->size - entry.total; const auto readyChange = document->size - entry.ready; entry.ready += readyChange; entry.total += totalChange; entry.done = true; _loading.erase(j); _loadingDone.emplace(entry.object.item); _loadingProgress = DownloadProgress{ .ready = _loadingProgress.current().ready + readyChange, .total = _loadingProgress.current().total + totalChange, }; _loadingListChanges.fire({}); if (_loading.empty()) { _clearLoadingTimer.callOnce(kClearLoadingTimeout); } } } void DownloadManager::clearIfFinished() { if (_clearLoadingTimer.isActive()) { _clearLoadingTimer.cancel(); clearLoading(); } } void DownloadManager::deleteFiles(const std::vector &ids) { auto descriptor = DeleteFilesDescriptor(); for (const auto &id : ids) { if (const auto item = MessageByGlobalId(id)) { const auto session = &item->history()->session(); const auto i = _sessions.find(session); if (i == end(_sessions)) { continue; } auto &data = i->second; const auto j = ranges::find( data.downloading, not_null{ item }, ByItem); if (j != end(data.downloading)) { cancel(data, j); } const auto k = ranges::find(data.downloaded, item, ByItem); if (k != end(data.downloaded)) { const auto document = k->object->document; descriptor.files.emplace(k->path, DocumentDescriptor{ .sessionUniqueId = id.sessionUniqueId, .documentId = document ? document->id : DocumentId(), .itemId = id.itemId, }); _loaded.remove(item); _generated.remove(item); if (document) { _generatedDocuments.remove(document); } data.downloaded.erase(k); _loadedRemoved.fire_copy(item); descriptor.sessions.emplace(session); } } } finishFilesDelete(std::move(descriptor)); } void DownloadManager::deleteAll() { auto descriptor = DeleteFilesDescriptor(); for (auto &[session, data] : _sessions) { if (!data.downloaded.empty()) { descriptor.sessions.emplace(session); } else if (data.downloading.empty()) { continue; } const auto sessionUniqueId = session->uniqueId(); while (!data.downloading.empty()) { cancel(data, data.downloading.end() - 1); } for (auto &id : base::take(data.downloaded)) { const auto object = id.object.get(); const auto document = object ? object->document : nullptr; descriptor.files.emplace(id.path, DocumentDescriptor{ .sessionUniqueId = sessionUniqueId, .documentId = document ? document->id : DocumentId(), .itemId = id.itemId, }); if (document) { _generatedDocuments.remove(document); } if (const auto item = object ? object->item.get() : nullptr) { _loaded.remove(item); _generated.remove(item); _loadedRemoved.fire_copy(item); } } } for (const auto &session : descriptor.sessions) { writePostponed(session); } finishFilesDelete(std::move(descriptor)); } void DownloadManager::finishFilesDelete(DeleteFilesDescriptor &&descriptor) { for (const auto &session : descriptor.sessions) { writePostponed(session); } crl::async([files = std::move(descriptor.files)]{ for (const auto &file : files) { QFile(file.first).remove(); crl::on_main([descriptor = file.second] { if (const auto session = SessionByUniqueId( descriptor.sessionUniqueId)) { if (const auto id = descriptor.documentId) { [[maybe_unused]] const auto location = session->data().document(id)->location(true); } const auto itemId = descriptor.itemId; if (const auto item = session->data().message(itemId)) { session->data().requestItemRepaint(item); } } }); } }); } bool DownloadManager::loadedHasNonCloudFile() const { for (const auto &[session, data] : _sessions) { for (const auto &id : data.downloaded) { if (const auto object = id.object.get()) { if (!object->item->isHistoryEntry()) { return true; } } } } return false; } auto DownloadManager::loadingList() const -> ranges::any_view { return ranges::views::all( _sessions ) | ranges::views::transform([=](const auto &pair) { return ranges::views::all( pair.second.downloading ) | ranges::views::transform([](const DownloadingId &id) { return &id; }); }) | ranges::views::join; } DownloadProgress DownloadManager::loadingProgress() const { return _loadingProgress.current(); } rpl::producer<> DownloadManager::loadingListChanges() const { return _loadingListChanges.events(); } auto DownloadManager::loadingProgressValue() const -> rpl::producer { return _loadingProgress.value(); } bool DownloadManager::loadingInProgress(Main::Session *onlyInSession) const { return lookupLoadingItem(onlyInSession) != nullptr; } HistoryItem *DownloadManager::lookupLoadingItem( Main::Session *onlyInSession) const { constexpr auto find = [](const SessionData &data) { constexpr auto proj = &DownloadingId::done; const auto i = ranges::find(data.downloading, false, proj); return (i != end(data.downloading)) ? i->object.item.get() : nullptr; }; if (onlyInSession) { const auto i = _sessions.find(onlyInSession); return (i != end(_sessions)) ? find(i->second) : nullptr; } else { for (const auto &[session, data] : _sessions) { if (const auto result = find(data)) { return result; } } } return nullptr; } void DownloadManager::loadingStopWithConfirmation( Fn callback, Main::Session *onlyInSession) { const auto window = Core::App().primaryWindow(); const auto item = lookupLoadingItem(onlyInSession); if (!window || !item) { return; } const auto weak = base::make_weak(&item->history()->session()); const auto id = item->fullId(); auto box = Box([=](not_null box) { box->addRow( object_ptr( box.get(), tr::lng_download_sure_stop(), st::boxLabel), st::boxPadding + QMargins(0, 0, 0, st::boxPadding.bottom())); box->setStyle(st::defaultBox); box->addButton(tr::lng_selected_upload_stop(), [=] { box->closeBox(); if (!onlyInSession || weak.get()) { loadingStop(onlyInSession); } if (callback) { callback(); } }, st::attentionBoxButton); box->addButton(tr::lng_cancel(), [=] { box->closeBox(); }); box->addLeftButton(tr::lng_upload_show_file(), [=] { box->closeBox(); if (const auto strong = weak.get()) { if (const auto item = strong->data().message(id)) { if (const auto window = strong->tryResolveWindow()) { window->showPeerHistoryAtItem(item); } } } }); }); window->show(std::move(box)); window->activate(); } void DownloadManager::loadingStop(Main::Session *onlyInSession) { const auto stopInSession = [&](SessionData &data) { while (!data.downloading.empty()) { cancel(data, data.downloading.end() - 1); } }; if (onlyInSession) { const auto i = _sessions.find(onlyInSession); if (i != end(_sessions)) { stopInSession(i->second); } } else { for (auto &[session, data] : _sessions) { stopInSession(data); } } } void DownloadManager::clearLoading() { Expects(_loading.empty()); for (auto &[session, data] : _sessions) { while (!data.downloading.empty()) { remove(data, data.downloading.end() - 1); } } } auto DownloadManager::loadedList() -> ranges::any_view { for (auto &[session, data] : _sessions) { resolve(session, data); } return ranges::views::all( _sessions ) | ranges::views::transform([=](const auto &pair) { return ranges::views::all( pair.second.downloaded ) | ranges::views::filter([](const DownloadedId &id) { return (id.object != nullptr); }) | ranges::views::transform([](const DownloadedId &id) { return &id; }); }) | ranges::views::join; } rpl::producer<> DownloadManager::loadedResolveDone() const { using namespace rpl::mappers; return _loadedResolveDone.value() | rpl::filter(_1) | rpl::to_empty; } void DownloadManager::resolve( not_null session, SessionData &data) { const auto guard = gsl::finally([&] { checkFullResolveDone(); }); if (data.resolveSentTotal >= data.resolveNeeded || data.resolveSentTotal >= kMaxResolvePerAttempt) { return; } struct Prepared { uint64 peerAccessHash = 0; QVector ids; }; auto &owner = session->data(); auto prepared = base::flat_map(); auto last = begin(data.downloaded); auto from = last + (data.resolveNeeded - data.resolveSentTotal); for (auto i = from; i != last;) { auto &id = *--i; const auto msgId = id.itemId.msg; const auto info = QFileInfo(id.path); if (!info.exists() || info.size() != id.size) { // Mark as deleted. id.path = QString(); } else if (!owner.message(id.itemId) && IsServerMsgId(msgId)) { const auto groupByPeer = peerIsChannel(id.itemId.peer) ? id.itemId.peer : session->userPeerId(); auto &perPeer = prepared[groupByPeer]; if (peerIsChannel(id.itemId.peer) && !perPeer.peerAccessHash) { perPeer.peerAccessHash = id.peerAccessHash; } perPeer.ids.push_back(MTP_inputMessageID(MTP_int(msgId.bare))); } if (++data.resolveSentTotal >= kMaxResolvePerAttempt) { break; } } const auto check = [=] { auto &data = sessionData(session); if (!data.resolveSentRequests) { resolveRequestsFinished(session, data); } }; const auto requestFinished = [=] { --sessionData(session).resolveSentRequests; check(); }; for (auto &[peer, perPeer] : prepared) { if (const auto channelId = peerToChannel(peer)) { session->api().request(MTPchannels_GetMessages( MTP_inputChannel( MTP_long(channelId.bare), MTP_long(perPeer.peerAccessHash)), MTP_vector(perPeer.ids) )).done([=](const MTPmessages_Messages &result) { session->data().processExistingMessages( session->data().channelLoaded(channelId), result); requestFinished(); }).fail(requestFinished).send(); } else { session->api().request(MTPmessages_GetMessages( MTP_vector(perPeer.ids) )).done([=](const MTPmessages_Messages &result) { session->data().processExistingMessages(nullptr, result); requestFinished(); }).fail(requestFinished).send(); } } data.resolveSentRequests += prepared.size(); check(); } void DownloadManager::resolveRequestsFinished( not_null session, SessionData &data) { auto &owner = session->data(); for (; data.resolveSentTotal > 0; --data.resolveSentTotal) { const auto i = begin(data.downloaded) + (--data.resolveNeeded); if (i->path.isEmpty()) { data.downloaded.erase(i); continue; } const auto item = owner.message(i->itemId); const auto media = item ? item->media() : nullptr; const auto document = media ? media->document() : nullptr; const auto photo = media ? media->photo() : nullptr; if (i->download.type == DownloadType::Document && (!document || document->id != i->download.objectId)) { generateEntry(session, *i); } else if (i->download.type == DownloadType::Photo && (!photo || photo->id != i->download.objectId)) { generateEntry(session, *i); } else { i->object = std::make_unique(DownloadObject{ .item = item, .document = document, .photo = photo, }); _loaded.emplace(item); } _loadedAdded.fire(&*i); } crl::on_main(session, [=] { resolve(session, sessionData(session)); }); } void DownloadManager::checkFullResolveDone() { if (_loadedResolveDone.current()) { return; } for (const auto &[session, data] : _sessions) { if (data.resolveSentTotal < data.resolveNeeded || data.resolveSentRequests > 0) { return; } } _loadedResolveDone = true; } void DownloadManager::generateEntry( not_null session, DownloadedId &id) { Expects(!id.object); const auto info = QFileInfo(id.path); const auto document = session->data().document( base::RandomValue(), 0, // accessHash QByteArray(), // fileReference TimeId(id.started / 1000), QVector( 1, MTP_documentAttributeFilename( MTP_string(info.fileName()))), Core::MimeTypeForFile(info).name(), InlineImageLocation(), // inlineThumbnail ImageWithLocation(), // thumbnail ImageWithLocation(), // videoThumbnail false, // isPremiumSticker 0, // dc id.size); document->setLocation(Core::FileLocation(info)); _generatedDocuments.emplace(document); id.object = std::make_unique(DownloadObject{ .item = generateFakeItem(document), .document = document, }); _loaded.emplace(id.object->item); } auto DownloadManager::loadedAdded() const -> rpl::producer> { return _loadedAdded.events(); } auto DownloadManager::loadedRemoved() const -> rpl::producer> { return _loadedRemoved.events(); } void DownloadManager::remove( SessionData &data, std::vector::iterator i) { const auto now = DownloadProgress{ .ready = _loadingProgress.current().ready - i->ready, .total = _loadingProgress.current().total - i->total, }; _loading.remove(i->object.item); _loadingDone.remove(i->object.item); if (const auto document = i->object.document) { _loadingDocuments.remove(document); } data.downloading.erase(i); _loadingListChanges.fire({}); _loadingProgress = now; if (_loading.empty() && !_loadingDone.empty()) { _clearLoadingTimer.callOnce(kClearLoadingTimeout); } } void DownloadManager::cancel( SessionData &data, std::vector::iterator i) { const auto object = i->object; remove(data, i); if (const auto document = object.document) { document->cancel(); } else if (const auto photo = object.photo) { photo->cancel(); } } void DownloadManager::changed(not_null item) { if (_loaded.contains(item)) { auto &data = sessionData(item); const auto i = ranges::find(data.downloaded, item.get(), ByItem); Assert(i != end(data.downloaded)); const auto media = item->media(); const auto photo = media ? media->photo() : nullptr; const auto document = media ? media->document() : nullptr; if (i->object->photo != photo || i->object->document != document) { detach(*i); } } if (_loading.contains(item) || _loadingDone.contains(item)) { check(item); } } void DownloadManager::removed(not_null item) { if (_loaded.contains(item)) { auto &data = sessionData(item); const auto i = ranges::find(data.downloaded, item.get(), ByItem); Assert(i != end(data.downloaded)); detach(*i); } if (_loading.contains(item) || _loadingDone.contains(item)) { auto &data = sessionData(item); const auto i = ranges::find(data.downloading, item, ByItem); Assert(i != end(data.downloading)); // We don't want to download files without messages. // For example, there is no way to refresh a file reference for them. //entry.object.item = nullptr; cancel(data, i); } } not_null DownloadManager::regenerateItem( const DownloadObject &previous) { return generateItem(previous.item, previous.document, previous.photo); } not_null DownloadManager::generateFakeItem( not_null document) { return generateItem(nullptr, document, nullptr); } not_null DownloadManager::generateItem( HistoryItem *previousItem, DocumentData *document, PhotoData *photo) { Expects(document || photo); const auto session = document ? &document->session() : &photo->session(); const auto fromId = previousItem ? previousItem->from()->id : session->userPeerId(); const auto history = previousItem ? previousItem->history() : session->data().history(session->user()); const auto flags = MessageFlag::FakeHistoryItem; const auto replyTo = MsgId(); const auto viaBotId = UserId(); const auto date = base::unixtime::now(); const auto postAuthor = QString(); const auto caption = TextWithEntities(); const auto make = [&](const auto media) { return history->makeMessage( history->nextNonHistoryEntryId(), flags, replyTo, viaBotId, date, fromId, QString(), media, caption, HistoryMessageMarkupData()); }; const auto result = document ? make(document) : make(photo); _generated.emplace(result); return result; } void DownloadManager::detach(DownloadedId &id) { Expects(id.object != nullptr); Expects(_loaded.contains(id.object->item)); Expects(!_generated.contains(id.object->item)); // Maybe generate new document? const auto was = id.object->item; const auto now = regenerateItem(*id.object); _loaded.remove(was); _loaded.emplace(now); id.object->item = now; _loadedRemoved.fire_copy(was); _loadedAdded.fire_copy(&id); } DownloadManager::SessionData &DownloadManager::sessionData( not_null session) { const auto i = _sessions.find(session); Assert(i != end(_sessions)); return i->second; } const DownloadManager::SessionData &DownloadManager::sessionData( not_null session) const { const auto i = _sessions.find(session); Assert(i != end(_sessions)); return i->second; } DownloadManager::SessionData &DownloadManager::sessionData( not_null item) { return sessionData(&item->history()->session()); } DownloadManager::SessionData &DownloadManager::sessionData( not_null document) { return sessionData(&document->session()); } void DownloadManager::writePostponed(not_null session) { session->account().local().updateDownloads(serializator(session)); } Fn()> DownloadManager::serializator( not_null session) const { return [this, weak = base::make_weak(session)]() -> std::optional { const auto strong = weak.get(); if (!strong) { return std::nullopt; } else if (!_sessions.contains(strong)) { return QByteArray(); } auto result = QByteArray(); const auto &data = sessionData(strong); const auto count = data.downloaded.size(); const auto constant = sizeof(quint64) // download.objectId + sizeof(qint32) // download.type + sizeof(qint64) // started + sizeof(quint32) // size + sizeof(quint64) // itemId.peer + sizeof(qint64) // itemId.msg + sizeof(quint64); // peerAccessHash auto size = sizeof(qint32) // count + count * constant; for (const auto &id : data.downloaded) { size += Serialize::stringSize(id.path); } result.reserve(size); auto stream = QDataStream(&result, QIODevice::WriteOnly); stream.setVersion(QDataStream::Qt_5_1); stream << qint32(count); for (const auto &id : data.downloaded) { stream << quint64(id.download.objectId) << qint32(id.download.type) << qint64(id.started) // FileSize: Right now any file size fits 32 bit. << quint32(id.size) << quint64(id.itemId.peer.value) << qint64(id.itemId.msg.bare) << quint64(id.peerAccessHash) << id.path; } stream.device()->close(); return result; }; } std::vector DownloadManager::deserialize( not_null session) const { const auto serialized = session->account().local().downloadsSerialized(); if (serialized.isEmpty()) { return {}; } QDataStream stream(serialized); stream.setVersion(QDataStream::Qt_5_1); auto count = qint32(); stream >> count; if (stream.status() != QDataStream::Ok || count <= 0 || count > 99'999) { return {}; } auto result = std::vector(); result.reserve(count); for (auto i = 0; i != count; ++i) { auto downloadObjectId = quint64(); auto uncheckedDownloadType = qint32(); auto started = qint64(); // FileSize: Right now any file size fits 32 bit. auto size = quint32(); auto itemIdPeer = quint64(); auto itemIdMsg = qint64(); auto peerAccessHash = quint64(); auto path = QString(); stream >> downloadObjectId >> uncheckedDownloadType >> started >> size >> itemIdPeer >> itemIdMsg >> peerAccessHash >> path; const auto downloadType = DownloadType(uncheckedDownloadType); if (stream.status() != QDataStream::Ok || path.isEmpty() || size <= 0 || size > kMaxFileSize || (downloadType != DownloadType::Document && downloadType != DownloadType::Photo)) { return {}; } result.push_back({ .download = { .objectId = downloadObjectId, .type = downloadType, }, .started = started, .path = path, .size = int64(size), .itemId = { PeerId(itemIdPeer), MsgId(itemIdMsg) }, .peerAccessHash = peerAccessHash, }); } return result; } void DownloadManager::untrack(not_null session) { const auto i = _sessions.find(session); Assert(i != end(_sessions)); for (const auto &entry : i->second.downloaded) { if (const auto resolved = entry.object.get()) { const auto item = resolved->item; _loaded.remove(item); _generated.remove(item); if (const auto document = resolved->document) { _generatedDocuments.remove(document); } } } while (!i->second.downloading.empty()) { remove(i->second, i->second.downloading.end() - 1); } _sessions.erase(i); } rpl::producer MakeDownloadBarProgress() { return Core::App().downloadManager().loadingProgressValue( ) | rpl::map([=](const DownloadProgress &progress) { return Ui::DownloadBarProgress{ .ready = progress.ready, .total = progress.total, }; }); } rpl::producer MakeDownloadBarContent() { return [](auto consumer) { auto lifetime = rpl::lifetime(); struct State { DocumentData *document = nullptr; std::shared_ptr media; rpl::lifetime downloadTaskLifetime; QImage thumbnail; base::has_weak_ptr guard; bool scheduled = false; Fn push; }; const auto state = lifetime.make_state(); auto &manager = Core::App().downloadManager(); const auto resolveThumbnailRecursive = [=](auto &&self) -> bool { if (state->document && !state->document->hasThumbnail()) { state->media = nullptr; } if (!state->media) { state->downloadTaskLifetime.destroy(); if (!state->thumbnail.isNull()) { return false; } state->thumbnail = QImage(); return true; } if (const auto image = state->media->thumbnail()) { state->thumbnail = image->original(); state->downloadTaskLifetime.destroy(); state->media = nullptr; return true; } else if (const auto embed = state->media->thumbnailInline()) { if (!state->thumbnail.isNull()) { return false; } state->thumbnail = Images::Prepare(embed->original(), 0, { .options = Images::Option::Blur, }); } state->document->session().downloaderTaskFinished( ) | rpl::filter([=] { return self(self); }) | rpl::start_with_next( state->push, state->downloadTaskLifetime); return !state->thumbnail.isNull(); }; const auto resolveThumbnail = [=] { return resolveThumbnailRecursive(resolveThumbnailRecursive); }; const auto notify = [=, &manager] { auto content = Ui::DownloadBarContent(); auto single = (const Data::DownloadObject*) nullptr; for (const auto id : manager.loadingList()) { if (id->hiddenByView) { break; } if (!single) { single = &id->object; } ++content.count; if (id->done) { ++content.done; } } if (content.count == 1) { const auto document = single->document; const auto thumbnailed = (single->item && document->hasThumbnail()) ? document : nullptr; if (state->document != thumbnailed) { state->document = thumbnailed; state->media = thumbnailed ? thumbnailed->createMediaView() : nullptr; if (const auto raw = state->media.get()) { raw->thumbnailWanted(single->item->fullId()); } state->thumbnail = QImage(); resolveThumbnail(); } content.singleName = Ui::Text::FormatDownloadsName( document); content.singleThumbnail = state->thumbnail; } consumer.put_next(std::move(content)); }; state->push = [=] { if (state->scheduled) { return; } state->scheduled = true; Ui::PostponeCall(&state->guard, [=] { state->scheduled = false; notify(); }); }; manager.loadingListChanges( ) | rpl::filter([=] { return !state->scheduled; }) | rpl::start_with_next(state->push, lifetime); notify(); return lifetime; }; } } // namespace Data