/* 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_user_names.h" #include "apiwrap.h" #include "data/data_channel.h" #include "data/data_peer.h" #include "data/data_user.h" #include "main/main_session.h" namespace Api { namespace { [[nodiscard]] Data::Username UsernameFromTL(const MTPUsername &username) { return { .username = qs(username.data().vusername()), .active = username.data().is_active(), .editable = username.data().is_editable(), }; } } // namespace Usernames::Usernames(not_null api) : _session(&api->session()) , _api(&api->instance()) { } rpl::producer Usernames::loadUsernames( not_null peer) const { return [=](auto consumer) { auto lifetime = rpl::lifetime(); const auto push = [consumer]( const auto &usernames, const auto &username) { if (usernames) { if (usernames->v.empty()) { // Probably will never happen. consumer.put_next({}); } else { auto parsed = FromTL(*usernames); if ((parsed.size() == 1) && username && (parsed.front().username == qs(*username))) { // Probably will never happen. consumer.put_next({}); } else { consumer.put_next(std::move(parsed)); } } } else { consumer.put_next({}); } }; const auto requestUser = [&](const MTPInputUser &data) { _session->api().request(MTPusers_GetUsers( MTP_vector(1, data) )).done([=](const MTPVector &result) { result.v.front().match([&](const MTPDuser &data) { push(data.vusernames(), data.vusername()); consumer.put_done(); }, [&](const MTPDuserEmpty&) { consumer.put_next({}); consumer.put_done(); }); }).send(); }; const auto requestChannel = [&](const MTPInputChannel &data) { _session->api().request(MTPchannels_GetChannels( MTP_vector(1, data) )).done([=](const MTPmessages_Chats &result) { result.match([&](const auto &data) { data.vchats().v.front().match([&](const MTPDchannel &c) { push(c.vusernames(), c.vusername()); consumer.put_done(); }, [&](auto &&) { consumer.put_next({}); consumer.put_done(); }); }); }).send(); }; if (peer->isSelf()) { requestUser(MTP_inputUserSelf()); } else if (const auto user = peer->asUser()) { requestUser(user->inputUser); } else if (const auto channel = peer->asChannel()) { requestChannel(channel->inputChannel); } return lifetime; }; } rpl::producer<> Usernames::toggle( not_null peer, const QString &username, bool active) { const auto peerId = peer->id; const auto it = _toggleRequests.find(peerId); const auto found = (it != end(_toggleRequests)); auto &entry = (!found ? _toggleRequests.emplace( peerId, Entry{ .usernames = { username } }).first : it)->second; if (ranges::contains(entry.usernames, username)) { if (found) { return entry.done.events(); } } else { entry.usernames.push_back(username); } const auto finish = [=] { const auto it = _toggleRequests.find(peerId); if (it != end(_toggleRequests)) { auto &list = it->second.usernames; list.erase(ranges::remove(list, username), end(list)); if (list.empty()) { it->second.done.fire_done(); _toggleRequests.remove(peerId); } } }; if (peer->isSelf()) { _api.request(MTPaccount_ToggleUsername( MTP_string(username), MTP_bool(active) )).done(finish).fail(finish).send(); } else if (const auto channel = peer->asChannel()) { _api.request(MTPchannels_ToggleUsername( channel->inputChannel, MTP_string(username), MTP_bool(active) )).done(finish).fail(finish).send(); } else { return rpl::never<>(); } return entry.done.events(); } rpl::producer<> Usernames::reorder( not_null peer, const std::vector &usernames) { const auto peerId = peer->id; const auto it = _reorderRequests.find(peerId); if (it != end(_reorderRequests)) { _api.request(it->second).cancel(); _reorderRequests.erase(peerId); } return [=](auto consumer) { auto lifetime = rpl::lifetime(); auto tlUsernames = ranges::views::all( usernames ) | ranges::views::transform([](const QString &username) { return MTP_string(username); }) | ranges::to>; const auto finish = [=] { if (_reorderRequests.contains(peerId)) { _reorderRequests.erase(peerId); } consumer.put_done(); }; if (usernames.empty()) { crl::on_main([=] { consumer.put_done(); }); return lifetime; } if (peer->isSelf()) { const auto requestId = _api.request(MTPaccount_ReorderUsernames( MTP_vector(std::move(tlUsernames)) )).done(finish).fail(finish).send(); _reorderRequests.emplace(peerId, requestId); } else if (const auto channel = peer->asChannel()) { const auto requestId = _api.request(MTPchannels_ReorderUsernames( channel->inputChannel, MTP_vector(std::move(tlUsernames)) )).done(finish).fail(finish).send(); _reorderRequests.emplace(peerId, requestId); } return lifetime; }; } Data::Usernames Usernames::FromTL(const MTPVector &usernames) { return ranges::views::all( usernames.v ) | ranges::views::transform(UsernameFromTL) | ranges::to_vector; } void Usernames::requestToCache(not_null peer) { _tinyCache = {}; if (const auto user = peer->asUser()) { if (user->usernames().empty()) { return; } } else if (const auto channel = peer->asChannel()) { if (channel->usernames().empty()) { return; } } const auto lifetime = std::make_shared(); *lifetime = loadUsernames( peer ) | rpl::start_with_next([=, id = peer->id](Data::Usernames usernames) { _tinyCache = std::make_pair(id, std::move(usernames)); lifetime->destroy(); }); } Data::Usernames Usernames::cacheFor(PeerId id) { return (_tinyCache.first == id) ? _tinyCache.second : Data::Usernames(); } } // namespace Api