/* 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 "api/api_who_read.h" #include "history/history_item.h" #include "history/history.h" #include "data/data_peer.h" #include "data/data_chat.h" #include "data/data_channel.h" #include "data/data_document.h" #include "data/data_user.h" #include "data/data_changes.h" #include "data/data_session.h" #include "data/data_media_types.h" #include "main/main_app_config.h" #include "main/main_session.h" #include "main/main_account.h" #include "base/unixtime.h" #include "base/weak_ptr.h" #include "ui/controls/who_read_context_action.h" #include "apiwrap.h" #include "styles/style_chat.h" namespace Api { namespace { struct Cached { explicit Cached(PeerId unknownFlag) : list(std::vector{ unknownFlag }) { } rpl::variable> list; mtpRequestId requestId = 0; }; struct Context { base::flat_map, Cached> cached; base::flat_map, rpl::lifetime> subscriptions; [[nodiscard]] Cached &cache(not_null item) { const auto i = cached.find(item); if (i != end(cached)) { return i->second; } return cached.emplace( item, Cached(item->history()->session().userPeerId()) ).first->second; } }; struct Userpic { not_null peer; mutable std::shared_ptr view; mutable InMemoryKey uniqueKey; }; struct State { std::vector userpics; Ui::WhoReadContent current; base::has_weak_ptr guard; bool someUserpicsNotLoaded = false; bool scheduled = false; }; [[nodiscard]] auto Contexts() -> base::flat_map, std::unique_ptr> & { static auto result = base::flat_map< not_null, std::unique_ptr>(); return result; } [[nodiscard]] not_null ContextAt(not_null key) { auto &contexts = Contexts(); const auto i = contexts.find(key); if (i != end(contexts)) { return i->second.get(); } const auto result = contexts.emplace( key, std::make_unique()).first->second.get(); QObject::connect(key.get(), &QObject::destroyed, [=] { auto &contexts = Contexts(); const auto i = contexts.find(key); for (auto &[item, entry] : i->second->cached) { if (const auto requestId = entry.requestId) { item->history()->session().api().request(requestId).cancel(); } } contexts.erase(i); }); return result; } [[nodiscard]] QImage GenerateUserpic(Userpic &userpic, int size) { size *= style::DevicePixelRatio(); auto result = userpic.peer->generateUserpicImage(userpic.view, size); result.setDevicePixelRatio(style::DevicePixelRatio()); return result; } [[nodiscard]] bool ListUnknown( const std::vector &list, not_null item) { return (list.size() == 1) && (list.front() == item->history()->session().userPeerId()); } [[nodiscard]] Ui::WhoReadType DetectType(not_null item) { if (const auto media = item->media()) { if (!media->webpage()) { if (const auto document = media->document()) { if (document->isVoiceMessage()) { return Ui::WhoReadType::Listened; } else if (document->isVideoMessage()) { return Ui::WhoReadType::Watched; } } } } return Ui::WhoReadType::Seen; } [[nodiscard]] rpl::producer> WhoReadIds( not_null item, not_null context) { auto weak = QPointer(context.get()); const auto session = &item->history()->session(); return [=](auto consumer) { if (!weak) { return rpl::lifetime(); } const auto context = ContextAt(weak.data()); if (!context->subscriptions.contains(session)) { session->changes().messageUpdates( Data::MessageUpdate::Flag::Destroyed ) | rpl::start_with_next([=](const Data::MessageUpdate &update) { const auto i = context->cached.find(update.item); if (i == end(context->cached)) { return; } session->api().request(i->second.requestId).cancel(); context->cached.erase(i); }, context->subscriptions[session]); } auto &entry = context->cache(item); if (!entry.requestId) { entry.requestId = session->api().request( MTPmessages_GetMessageReadParticipants( item->history()->peer->input, MTP_int(item->id) ) ).done([=](const MTPVector &result) { auto &entry = context->cache(item); entry.requestId = 0; auto peers = std::vector(); peers.reserve(std::max(int(result.v.size()), 1)); for (const auto &id : result.v) { peers.push_back(UserId(id)); } entry.list = std::move(peers); }).fail([=](const MTP::Error &error) { auto &entry = context->cache(item); entry.requestId = 0; if (ListUnknown(entry.list.current(), item)) { entry.list = std::vector(); } }).send(); } return entry.list.value().start_existing(consumer); }; } bool UpdateUserpics( not_null state, not_null item, const std::vector &ids) { auto &owner = item->history()->owner(); const auto peers = ranges::views::all( ids ) | ranges::views::transform([&](PeerId id) { return owner.peerLoaded(id); }) | ranges::views::filter([](PeerData *peer) { return peer != nullptr; }) | ranges::views::transform([](PeerData *peer) { return not_null(peer); }) | ranges::to_vector; const auto same = ranges::equal( state->userpics, peers, ranges::less(), &Userpic::peer); if (same) { return false; } auto &was = state->userpics; auto now = std::vector(); for (const auto &peer : peers) { if (ranges::contains(now, peer, &Userpic::peer)) { continue; } const auto i = ranges::find(was, peer, &Userpic::peer); if (i != end(was)) { now.push_back(std::move(*i)); continue; } now.push_back(Userpic{ .peer = peer, }); auto &userpic = now.back(); userpic.uniqueKey = peer->userpicUniqueKey(userpic.view); peer->loadUserpic(); } was = std::move(now); return true; } void RegenerateUserpics(not_null state, int small, int large) { Expects(state->userpics.size() == state->current.participants.size()); state->someUserpicsNotLoaded = false; const auto count = int(state->userpics.size()); for (auto i = 0; i != count; ++i) { auto &userpic = state->userpics[i]; auto &participant = state->current.participants[i]; const auto peer = userpic.peer; const auto key = peer->userpicUniqueKey(userpic.view); if (peer->hasUserpic() && peer->useEmptyUserpic(userpic.view)) { state->someUserpicsNotLoaded = true; } if (userpic.uniqueKey == key) { continue; } participant.userpicKey = userpic.uniqueKey = key; participant.userpicLarge = GenerateUserpic(userpic, large); if (i < Ui::WhoReadParticipant::kMaxSmallUserpics) { participant.userpicSmall = GenerateUserpic(userpic, small); } } } void RegenerateParticipants(not_null state, int small, int large) { auto old = base::take(state->current.participants); auto &now = state->current.participants; now.reserve(state->userpics.size()); for (auto &userpic : state->userpics) { const auto peer = userpic.peer; const auto id = peer->id.value; const auto was = ranges::find(old, id, &Ui::WhoReadParticipant::id); if (was != end(old)) { was->name = peer->name; now.push_back(std::move(*was)); continue; } now.push_back({ .name = peer->name, .userpicLarge = GenerateUserpic(userpic, large), .userpicKey = userpic.uniqueKey, .id = id, }); if (now.size() <= Ui::WhoReadParticipant::kMaxSmallUserpics) { now.back().userpicSmall = GenerateUserpic(userpic, small); } } RegenerateUserpics(state, small, large); } } // namespace bool WhoReadExists(not_null item) { if (!item->out()) { return false; } const auto type = DetectType(item); const auto unseen = (type == Ui::WhoReadType::Seen) ? item->unread() : item->isUnreadMedia(); if (unseen) { return false; } const auto history = item->history(); const auto peer = history->peer; const auto chat = peer->asChat(); const auto megagroup = peer->asMegagroup(); if (!chat && !megagroup) { return false; } else if (peer->migrateTo()) { // They're all always marked as read. // We don't know if there really are any readers. return false; } const auto &appConfig = peer->session().account().appConfig(); const auto expirePeriod = TimeId(appConfig.get( "chat_read_mark_expire_period", 7 * 86400.)); if (item->date() + expirePeriod <= base::unixtime::now()) { return false; } const auto maxCount = int(appConfig.get( "chat_read_mark_size_threshold", 50)); const auto count = megagroup ? megagroup->membersCount() : chat->count; if (count <= 0 || count > maxCount) { return false; } return true; } rpl::producer WhoRead( not_null item, not_null context, const style::WhoRead &st) { const auto small = st.userpics.size; const auto large = st.photoSize; return [=](auto consumer) { auto lifetime = rpl::lifetime(); const auto state = lifetime.make_state(); state->current.type = [&] { if (const auto media = item->media()) { if (!media->webpage()) { if (const auto document = media->document()) { if (document->isVoiceMessage()) { return Ui::WhoReadType::Listened; } else if (document->isVideoMessage()) { return Ui::WhoReadType::Watched; } } } } return Ui::WhoReadType::Seen; }(); const auto pushNext = [=] { consumer.put_next_copy(state->current); }; WhoReadIds( item, context ) | rpl::start_with_next([=](const std::vector &peers) { if (ListUnknown(peers, item)) { state->userpics.clear(); consumer.put_next(Ui::WhoReadContent{ .type = state->current.type, .unknown = true, }); return; } else if (UpdateUserpics(state, item, peers)) { RegenerateParticipants(state, small, large); pushNext(); } else if (peers.empty()) { pushNext(); } }, lifetime); item->history()->session().downloaderTaskFinished( ) | rpl::filter([=] { return state->someUserpicsNotLoaded && !state->scheduled; }) | rpl::start_with_next([=] { for (const auto &userpic : state->userpics) { if (userpic.peer->userpicUniqueKey(userpic.view) != userpic.uniqueKey) { state->scheduled = true; crl::on_main(&state->guard, [=] { state->scheduled = false; RegenerateUserpics(state, small, large); pushNext(); }); return; } } }, lifetime); return lifetime; }; } } // namespace Api