// // Copyright Aliaksei Levin (levlam@telegram.org), Arseny Smirnov (arseny30@gmail.com) 2014-2020 // // Distributed under the Boost Software License, Version 1.0. (See accompanying // file LICENSE_1_0.txt or copy at http://www.boost.org/LICENSE_1_0.txt) // #include "td/telegram/CallActor.h" #include "td/telegram/td_api.h" #include "td/telegram/telegram_api.h" #include "td/telegram/telegram_api.hpp" #include "td/telegram/ConfigShared.h" #include "td/telegram/ContactsManager.h" #include "td/telegram/DhCache.h" #include "td/telegram/DialogId.h" #include "td/telegram/Global.h" #include "td/telegram/misc.h" #include "td/telegram/net/NetQueryCreator.h" #include "td/telegram/net/NetQueryDispatcher.h" #include "td/telegram/NotificationManager.h" #include "td/telegram/Td.h" #include "td/telegram/UpdatesManager.h" #include "td/utils/as.h" #include "td/utils/bits.h" #include "td/utils/buffer.h" #include "td/utils/common.h" #include "td/utils/crypto.h" #include "td/utils/logging.h" #include "td/utils/misc.h" #include "td/utils/Random.h" #include #include namespace td { CallProtocol::CallProtocol(const telegram_api::phoneCallProtocol &protocol) : udp_p2p(protocol.udp_p2p_) , udp_reflector(protocol.udp_reflector_) , min_layer(protocol.min_layer_) , max_layer(protocol.max_layer_) , library_versions(protocol.library_versions_) { } tl_object_ptr CallProtocol::get_input_phone_call_protocol() const { int32 flags = 0; if (udp_p2p) { flags |= telegram_api::phoneCallProtocol::UDP_P2P_MASK; } if (udp_reflector) { flags |= telegram_api::phoneCallProtocol::UDP_REFLECTOR_MASK; } return make_tl_object(flags, udp_p2p, udp_reflector, min_layer, max_layer, vector(library_versions)); } CallProtocol::CallProtocol(const td_api::callProtocol &protocol) : udp_p2p(protocol.udp_p2p_) , udp_reflector(protocol.udp_reflector_) , min_layer(protocol.min_layer_) , max_layer(protocol.max_layer_) , library_versions(protocol.library_versions_) { } CallConnection::CallConnection(const telegram_api::phoneConnection &connection) : id(connection.id_) , ip(connection.ip_) , ipv6(connection.ipv6_) , port(connection.port_) , peer_tag(connection.peer_tag_.as_slice().str()) { } tl_object_ptr CallProtocol::get_call_protocol_object() const { return make_tl_object(udp_p2p, udp_reflector, min_layer, max_layer, vector(library_versions)); } tl_object_ptr CallConnection::get_input_phone_connection() const { return make_tl_object(id, ip, ipv6, port, BufferSlice(peer_tag)); } tl_object_ptr CallConnection::get_call_connection_object() const { return make_tl_object(id, ip, ipv6, port, peer_tag); } tl_object_ptr CallState::get_call_state_object() const { switch (type) { case Type::Pending: return make_tl_object(is_created, is_received); case Type::ExchangingKey: return make_tl_object(); case Type::Ready: { auto call_connections = transform(connections, [](auto &c) { return c.get_call_connection_object(); }); return make_tl_object(protocol.get_call_protocol_object(), std::move(call_connections), config, key, vector(emojis_fingerprint), allow_p2p); } case Type::HangingUp: return make_tl_object(); case Type::Discarded: return make_tl_object(get_call_discard_reason_object(discard_reason), need_rating, need_debug_information); case Type::Error: CHECK(error.is_error()); return make_tl_object(make_tl_object(error.code(), error.message().str())); case Type::Empty: default: UNREACHABLE(); return nullptr; } } CallActor::CallActor(CallId call_id, ActorShared<> parent, Promise promise) : parent_(std::move(parent)), call_id_promise_(std::move(promise)), local_call_id_(call_id) { } void CallActor::create_call(UserId user_id, tl_object_ptr &&input_user, CallProtocol &&protocol, bool is_video, Promise &&promise) { CHECK(state_ == State::Empty); state_ = State::SendRequestQuery; is_outgoing_ = true; is_video_ = is_video; user_id_ = user_id; input_user_ = std::move(input_user); call_state_.protocol = std::move(protocol); call_state_.type = CallState::Type::Pending; call_state_.is_received = false; call_state_need_flush_ = true; loop(); promise.set_value(CallId(local_call_id_)); } void CallActor::update_call_signaling_data(string data) { // nothing to do } void CallActor::discard_call(bool is_disconnected, int32 duration, bool is_video, int64 connection_id, Promise<> promise) { promise.set_value(Unit()); if (state_ == State::Discarded || state_ == State::WaitDiscardResult || state_ == State::SendDiscardQuery) { return; } is_video_ |= is_video; if (state_ == State::WaitRequestResult && !request_query_ref_.empty()) { LOG(INFO) << "Cancel request call query"; cancel_query(request_query_ref_); } switch (call_state_.type) { case CallState::Type::Empty: case CallState::Type::Pending: if (is_outgoing_) { call_state_.discard_reason = CallDiscardReason::Missed; } else { call_state_.discard_reason = CallDiscardReason::Declined; } break; case CallState::Type::ExchangingKey: call_state_.discard_reason = is_disconnected ? CallDiscardReason::Disconnected : CallDiscardReason::HungUp; break; case CallState::Type::Ready: call_state_.discard_reason = is_disconnected ? CallDiscardReason::Disconnected : CallDiscardReason::HungUp; duration_ = duration; connection_id_ = connection_id; break; case CallState::Type::HangingUp: case CallState::Type::Discarded: case CallState::Type::Error: default: UNREACHABLE(); return; } call_state_.type = CallState::Type::HangingUp; call_state_need_flush_ = true; state_ = State::SendDiscardQuery; loop(); } void CallActor::accept_call(CallProtocol &&protocol, Promise<> promise) { if (state_ != State::SendAcceptQuery) { return promise.set_error(Status::Error(400, "Unexpected acceptCall")); } is_accepted_ = true; call_state_.protocol = std::move(protocol); promise.set_value(Unit()); loop(); } void CallActor::rate_call(int32 rating, string comment, vector> &&problems, Promise<> promise) { if (!call_state_.need_rating) { return promise.set_error(Status::Error(400, "Unexpected sendCallRating")); } promise.set_value(Unit()); if (rating == 5) { comment.clear(); } std::unordered_set tags; for (auto &problem : problems) { if (problem == nullptr) { continue; } const char *tag = [problem_id = problem->get_id()] { switch (problem_id) { case td_api::callProblemEcho::ID: return "echo"; case td_api::callProblemNoise::ID: return "noise"; case td_api::callProblemInterruptions::ID: return "interruptions"; case td_api::callProblemDistortedSpeech::ID: return "distorted_speech"; case td_api::callProblemSilentLocal::ID: return "silent_local"; case td_api::callProblemSilentRemote::ID: return "silent_remote"; case td_api::callProblemDropped::ID: return "dropped"; default: UNREACHABLE(); return ""; } }(); if (tags.insert(tag).second) { if (!comment.empty()) { comment += ' '; } comment += '#'; comment += tag; } } auto tl_query = telegram_api::phone_setCallRating(0, false /*ignored*/, get_input_phone_call("rate_call"), rating, std::move(comment)); auto query = G()->net_query_creator().create(tl_query); send_with_promise(std::move(query), PromiseCreator::lambda([actor_id = actor_id(this)](NetQueryPtr net_query) { send_closure(actor_id, &CallActor::on_set_rating_query_result, std::move(net_query)); })); loop(); } void CallActor::on_set_rating_query_result(NetQueryPtr net_query) { auto res = fetch_result(std::move(net_query)); if (res.is_error()) { return on_error(res.move_as_error()); } call_state_.need_rating = false; send_closure(G()->updates_manager(), &UpdatesManager::on_get_updates, res.move_as_ok()); } void CallActor::send_call_debug_information(string data, Promise<> promise) { if (!call_state_.need_debug_information) { return promise.set_error(Status::Error(400, "Unexpected sendCallDebugInformation")); } promise.set_value(Unit()); auto tl_query = telegram_api::phone_saveCallDebug(get_input_phone_call("send_call_debug_information"), make_tl_object(std::move(data))); auto query = G()->net_query_creator().create(tl_query); send_with_promise(std::move(query), PromiseCreator::lambda([actor_id = actor_id(this)](NetQueryPtr net_query) { send_closure(actor_id, &CallActor::on_set_debug_query_result, std::move(net_query)); })); loop(); } void CallActor::on_set_debug_query_result(NetQueryPtr net_query) { auto res = fetch_result(std::move(net_query)); if (res.is_error()) { return on_error(res.move_as_error()); } call_state_.need_debug_information = false; } // Requests void CallActor::update_call(tl_object_ptr call) { LOG(INFO) << "Receive " << to_string(call); Status status; downcast_call(*call, [&](auto &call) { status = this->do_update_call(call); }); if (status.is_error()) { LOG(INFO) << "Receive error " << status << ", while handling update " << to_string(call); on_error(std::move(status)); } loop(); } void CallActor::update_call_inner(tl_object_ptr call) { LOG(INFO) << "Update call with " << to_string(call); send_closure(G()->contacts_manager(), &ContactsManager::on_get_users, std::move(call->users_), "UpdatePhoneCall"); update_call(std::move(call->phone_call_)); } Status CallActor::do_update_call(telegram_api::phoneCallEmpty &call) { return Status::Error(400, "Call is finished"); } Status CallActor::do_update_call(telegram_api::phoneCallWaiting &call) { if (state_ != State::WaitRequestResult && state_ != State::WaitAcceptResult) { return Status::Error(500, PSLICE() << "Drop unexpected " << to_string(call)); } if (state_ == State::WaitAcceptResult) { LOG(DEBUG) << "Do update call to Waiting"; on_begin_exchanging_key(); } else { LOG(DEBUG) << "Do update call to Waiting"; if ((call.flags_ & telegram_api::phoneCallWaiting::RECEIVE_DATE_MASK) != 0) { call_state_.is_received = true; call_state_need_flush_ = true; int32 call_ring_timeout_ms = G()->shared_config().get_option_integer("call_ring_timeout_ms", 90000); set_timeout_in(call_ring_timeout_ms * 0.001); } } call_id_ = call.id_; call_access_hash_ = call.access_hash_; is_call_id_inited_ = true; is_video_ |= (call.flags_ & telegram_api::phoneCallWaiting::VIDEO_MASK) != 0; call_admin_id_ = call.admin_id_; call_participant_id_ = call.participant_id_; if (call_id_promise_) { call_id_promise_.set_value(std::move(call.id_)); } if (!call_state_.is_created) { call_state_.is_created = true; call_state_need_flush_ = true; } return Status::OK(); } Status CallActor::do_update_call(telegram_api::phoneCallRequested &call) { if (state_ != State::Empty) { return Status::Error(500, PSLICE() << "Drop unexpected " << to_string(call)); } LOG(DEBUG) << "Do update call to Requested"; call_id_ = call.id_; call_access_hash_ = call.access_hash_; is_call_id_inited_ = true; is_video_ |= (call.flags_ & telegram_api::phoneCallRequested::VIDEO_MASK) != 0; call_admin_id_ = call.admin_id_; call_participant_id_ = call.participant_id_; if (call_id_promise_) { call_id_promise_.set_value(std::move(call.id_)); } dh_handshake_.set_g_a_hash(call.g_a_hash_.as_slice()); state_ = State::SendAcceptQuery; call_state_.type = CallState::Type::Pending; call_state_.is_created = true; call_state_.is_received = true; call_state_need_flush_ = true; send_received_query(); return Status::OK(); } tl_object_ptr CallActor::get_input_phone_call(const char *source) { LOG_CHECK(is_call_id_inited_) << source; return make_tl_object(call_id_, call_access_hash_); } Status CallActor::do_update_call(telegram_api::phoneCallAccepted &call) { if (state_ != State::WaitRequestResult) { return Status::Error(500, PSLICE() << "Drop unexpected " << to_string(call)); } LOG(DEBUG) << "Do update call to Accepted"; if (!is_call_id_inited_) { call_id_ = call.id_; call_access_hash_ = call.access_hash_; is_call_id_inited_ = true; call_admin_id_ = call.admin_id_; call_participant_id_ = call.participant_id_; if (call_id_promise_) { call_id_promise_.set_value(std::move(call.id_)); } } is_video_ |= (call.flags_ & telegram_api::phoneCallAccepted::VIDEO_MASK) != 0; dh_handshake_.set_g_a(call.g_b_.as_slice()); TRY_STATUS(dh_handshake_.run_checks(true, DhCache::instance())); std::tie(call_state_.key_fingerprint, call_state_.key) = dh_handshake_.gen_key(); state_ = State::SendConfirmQuery; on_begin_exchanging_key(); return Status::OK(); } void CallActor::on_begin_exchanging_key() { call_state_.type = CallState::Type::ExchangingKey; call_state_need_flush_ = true; int32 call_receive_timeout_ms = G()->shared_config().get_option_integer("call_receive_timeout_ms", 20000); double timeout = call_receive_timeout_ms * 0.001; LOG(INFO) << "Set call timeout to " << timeout; set_timeout_in(timeout); } Status CallActor::do_update_call(telegram_api::phoneCall &call) { if (state_ != State::WaitAcceptResult && state_ != State::WaitConfirmResult) { return Status::Error(500, PSLICE() << "Drop unexpected " << to_string(call)); } cancel_timeout(); is_video_ |= (call.flags_ & telegram_api::phoneCall::VIDEO_MASK) != 0; LOG(DEBUG) << "Do update call to Ready from state " << static_cast(state_); if (state_ == State::WaitAcceptResult) { dh_handshake_.set_g_a(call.g_a_or_b_.as_slice()); TRY_STATUS(dh_handshake_.run_checks(true, DhCache::instance())); std::tie(call_state_.key_fingerprint, call_state_.key) = dh_handshake_.gen_key(); } if (call_state_.key_fingerprint != call.key_fingerprint_) { return Status::Error(400, "Key fingerprints mismatch"); } call_state_.emojis_fingerprint = get_emojis_fingerprint(call_state_.key, is_outgoing_ ? dh_handshake_.get_g_b() : dh_handshake_.get_g_a()); for (auto &connection : call.connections_) { call_state_.connections.push_back(CallConnection(*connection)); } call_state_.protocol = CallProtocol(*call.protocol_); call_state_.allow_p2p = (call.flags_ & telegram_api::phoneCall::P2P_ALLOWED_MASK) != 0; call_state_.type = CallState::Type::Ready; call_state_need_flush_ = true; return Status::OK(); } Status CallActor::do_update_call(telegram_api::phoneCallDiscarded &call) { LOG(DEBUG) << "Do update call to Discarded"; on_call_discarded(get_call_discard_reason(call.reason_), call.need_rating_, call.need_debug_, call.video_); return Status::OK(); } void CallActor::on_call_discarded(CallDiscardReason reason, bool need_rating, bool need_debug, bool is_video) { state_ = State::Discarded; is_video_ |= is_video; if (call_state_.discard_reason == CallDiscardReason::Empty || reason != CallDiscardReason::Empty) { call_state_.discard_reason = reason; } if (call_state_.type != CallState::Type::Error) { call_state_.need_rating = need_rating; call_state_.need_debug_information = need_debug; call_state_.type = CallState::Type::Discarded; call_state_need_flush_ = true; } } bool CallActor::load_dh_config() { if (dh_config_ready_) { LOG(DEBUG) << "Dh config is ready"; return true; } if (!dh_config_query_sent_) { dh_config_query_sent_ = true; do_load_dh_config(PromiseCreator::lambda([actor_id = actor_id(this)](Result> dh_config) { send_closure(actor_id, &CallActor::on_dh_config, std::move(dh_config), false); })); } LOG(INFO) << "Dh config is not loaded"; return false; } void CallActor::on_error(Status status) { CHECK(status.is_error()); LOG(INFO) << "Receive error " << status; if (state_ == State::WaitRequestResult && !request_query_ref_.empty()) { LOG(INFO) << "Cancel request call query"; cancel_query(request_query_ref_); } if (state_ == State::WaitDiscardResult || state_ == State::Discarded) { state_ = State::Discarded; } else { state_ = State::SendDiscardQuery; call_state_.discard_reason = call_state_.type == CallState::Type::Pending ? CallDiscardReason::Missed : CallDiscardReason::Disconnected; } call_state_.type = CallState::Type::Error; call_state_.error = std::move(status); call_state_need_flush_ = true; } void CallActor::on_dh_config(Result> r_dh_config, bool dummy) { if (r_dh_config.is_error()) { return on_error(r_dh_config.move_as_error()); } dh_config_ = r_dh_config.move_as_ok(); auto check_result = DhHandshake::check_config(dh_config_->g, dh_config_->prime, DhCache::instance()); if (check_result.is_error()) { return on_error(std::move(check_result)); } dh_config_ready_ = true; yield(); } void CallActor::do_load_dh_config(Promise> promise) { //TODO: move to external actor auto dh_config = G()->get_dh_config(); int32 version = 0; if (dh_config) { version = dh_config->version; } int random_length = 0; telegram_api::messages_getDhConfig tl_query(version, random_length); auto query = G()->net_query_creator().create(tl_query); send_with_promise(std::move(query), PromiseCreator::lambda([actor_id = actor_id(this), old_dh_config = std::move(dh_config), promise = std::move(promise)](Result result_query) mutable { promise.set_result([&]() -> Result> { TRY_RESULT(query, std::move(result_query)); TRY_RESULT(new_dh_config, fetch_result(std::move(query))); if (new_dh_config->get_id() == telegram_api::messages_dhConfig::ID) { auto dh = move_tl_object_as(new_dh_config); auto dh_config = std::make_shared(); dh_config->version = dh->version_; dh_config->prime = dh->p_.as_slice().str(); dh_config->g = dh->g_; Random::add_seed(dh->random_.as_slice()); G()->set_dh_config(dh_config); return std::move(dh_config); } else if (new_dh_config->get_id() == telegram_api::messages_dhConfigNotModified::ID) { auto dh = move_tl_object_as(new_dh_config); Random::add_seed(dh->random_.as_slice()); } if (old_dh_config) { return std::move(old_dh_config); } return Status::Error(500, "Can't load DhConfig"); }()); })); } void CallActor::send_received_query() { auto tl_query = telegram_api::phone_receivedCall(get_input_phone_call("send_received_query")); auto query = G()->net_query_creator().create(tl_query); send_with_promise(std::move(query), PromiseCreator::lambda([actor_id = actor_id(this)](NetQueryPtr net_query) { send_closure(actor_id, &CallActor::on_received_query_result, std::move(net_query)); })); } void CallActor::on_received_query_result(NetQueryPtr net_query) { auto res = fetch_result(std::move(net_query)); if (res.is_error()) { return on_error(res.move_as_error()); } } void CallActor::try_send_request_query() { LOG(INFO) << "Trying to send request query"; if (!load_dh_config()) { return; } dh_handshake_.set_config(dh_config_->g, dh_config_->prime); CHECK(input_user_ != nullptr); int32 flags = 0; if (is_video_) { flags |= telegram_api::phone_requestCall::VIDEO_MASK; } auto tl_query = telegram_api::phone_requestCall(flags, false /*ignored*/, std::move(input_user_), Random::secure_int32(), BufferSlice(dh_handshake_.get_g_b_hash()), call_state_.protocol.get_input_phone_call_protocol()); auto query = G()->net_query_creator().create(tl_query); state_ = State::WaitRequestResult; int32 call_receive_timeout_ms = G()->shared_config().get_option_integer("call_receive_timeout_ms", 20000); double timeout = call_receive_timeout_ms * 0.001; LOG(INFO) << "Set call timeout to " << timeout; set_timeout_in(timeout); query->total_timeout_limit_ = max(timeout, 10.0); request_query_ref_ = query.get_weak(); send_with_promise(std::move(query), PromiseCreator::lambda([actor_id = actor_id(this)](NetQueryPtr net_query) { send_closure(actor_id, &CallActor::on_request_query_result, std::move(net_query)); })); } void CallActor::on_request_query_result(NetQueryPtr net_query) { auto res = fetch_result(std::move(net_query)); if (res.is_error()) { return on_error(res.move_as_error()); } update_call_inner(res.move_as_ok()); } //phone.acceptCall#3bd2b4a0 peer:InputPhoneCall g_b:bytes protocol:PhoneCallProtocol = phone.PhoneCall; void CallActor::try_send_accept_query() { LOG(INFO) << "Trying to send accept query"; if (!load_dh_config()) { return; } if (!is_accepted_) { LOG(DEBUG) << "Call is not accepted"; return; } dh_handshake_.set_config(dh_config_->g, dh_config_->prime); auto tl_query = telegram_api::phone_acceptCall(get_input_phone_call("try_send_accept_query"), BufferSlice(dh_handshake_.get_g_b()), call_state_.protocol.get_input_phone_call_protocol()); auto query = G()->net_query_creator().create(tl_query); state_ = State::WaitAcceptResult; send_with_promise(std::move(query), PromiseCreator::lambda([actor_id = actor_id(this)](NetQueryPtr net_query) { send_closure(actor_id, &CallActor::on_accept_query_result, std::move(net_query)); })); } void CallActor::on_accept_query_result(NetQueryPtr net_query) { auto res = fetch_result(std::move(net_query)); if (res.is_error()) { return on_error(res.move_as_error()); } update_call_inner(res.move_as_ok()); } //phone.confirmCall#2efe1722 peer:InputPhoneCall g_a:bytes key_fingerprint:long protocol:PhoneCallProtocol = phone.PhoneCall; void CallActor::try_send_confirm_query() { LOG(INFO) << "Trying to send confirm query"; if (!load_dh_config()) { return; } auto tl_query = telegram_api::phone_confirmCall(get_input_phone_call("try_send_confirm_query"), BufferSlice(dh_handshake_.get_g_b()), call_state_.key_fingerprint, call_state_.protocol.get_input_phone_call_protocol()); auto query = G()->net_query_creator().create(tl_query); state_ = State::WaitConfirmResult; send_with_promise(std::move(query), PromiseCreator::lambda([actor_id = actor_id(this)](NetQueryPtr net_query) { send_closure(actor_id, &CallActor::on_confirm_query_result, std::move(net_query)); })); } void CallActor::on_confirm_query_result(NetQueryPtr net_query) { auto res = fetch_result(std::move(net_query)); if (res.is_error()) { return on_error(res.move_as_error()); } update_call_inner(res.move_as_ok()); } void CallActor::try_send_discard_query() { if (call_id_ == 0) { LOG(INFO) << "Failed to send discard query, because call_id_ is unknown"; on_call_discarded(CallDiscardReason::Missed, false, false, is_video_); yield(); return; } LOG(INFO) << "Trying to send discard query"; int32 flags = 0; if (is_video_) { flags |= telegram_api::phone_discardCall::VIDEO_MASK; } auto tl_query = telegram_api::phone_discardCall( flags, false /*ignored*/, get_input_phone_call("try_send_discard_query"), duration_, get_input_phone_call_discard_reason(call_state_.discard_reason), connection_id_); auto query = G()->net_query_creator().create(tl_query); state_ = State::WaitDiscardResult; send_with_promise(std::move(query), PromiseCreator::lambda([actor_id = actor_id(this)](NetQueryPtr net_query) { send_closure(actor_id, &CallActor::on_discard_query_result, std::move(net_query)); })); } void CallActor::on_discard_query_result(NetQueryPtr net_query) { auto res = fetch_result(std::move(net_query)); if (res.is_error()) { return on_error(res.move_as_error()); } send_closure(G()->updates_manager(), &UpdatesManager::on_get_updates, res.move_as_ok()); } void CallActor::flush_call_state() { if (call_state_need_flush_) { if (!is_outgoing_) { if (call_state_.type == CallState::Type::Pending) { if (!has_notification_) { has_notification_ = true; send_closure(G()->notification_manager(), &NotificationManager::add_call_notification, DialogId(UserId(call_admin_id_)), local_call_id_); } } else { if (has_notification_) { has_notification_ = false; send_closure(G()->notification_manager(), &NotificationManager::remove_call_notification, DialogId(UserId(call_admin_id_)), local_call_id_); } } } if (call_state_.type == CallState::Type::Ready && !call_state_has_config_) { return; } call_state_need_flush_ = false; // TODO can't call const function // send_closure(G()->contacts_manager(), &ContactsManager::get_user_id_object, user_id_, "flush_call_state"); send_closure(G()->td(), &Td::send_update, make_tl_object( make_tl_object(local_call_id_.get(), is_outgoing_ ? user_id_.get() : call_admin_id_, is_outgoing_, is_video_, call_state_.get_call_state_object()))); } } void CallActor::start_up() { auto tl_query = telegram_api::phone_getCallConfig(); auto query = G()->net_query_creator().create(tl_query); send_with_promise(std::move(query), PromiseCreator::lambda([actor_id = actor_id(this)](NetQueryPtr net_query) { send_closure(actor_id, &CallActor::on_get_call_config_result, std::move(net_query)); })); } void CallActor::on_get_call_config_result(NetQueryPtr net_query) { auto res = fetch_result(std::move(net_query)); if (res.is_error()) { return on_error(res.move_as_error()); } call_state_.config = res.ok()->data_; call_state_has_config_ = true; } void CallActor::loop() { LOG(DEBUG) << "Enter loop for " << call_id_ << " in state " << static_cast(state_) << '/' << static_cast(call_state_.type); flush_call_state(); switch (state_) { case State::SendRequestQuery: try_send_request_query(); break; case State::SendAcceptQuery: try_send_accept_query(); break; case State::SendConfirmQuery: try_send_confirm_query(); break; case State::SendDiscardQuery: try_send_discard_query(); break; case State::Discarded: { if (call_state_.type == CallState::Type::Discarded && (call_state_.need_rating || call_state_.need_debug_information)) { break; } LOG(INFO) << "Close " << local_call_id_; stop(); break; } default: break; } } void CallActor::timeout_expired() { on_error(Status::Error(4005000, "Call timeout expired")); yield(); } void CallActor::on_result(NetQueryPtr query) { auto token = get_link_token(); container_.extract(token).set_value(std::move(query)); yield(); // Call loop AFTER all events from the promise are executed } void CallActor::send_with_promise(NetQueryPtr query, Promise promise) { auto id = container_.create(std::move(promise)); G()->net_query_dispatcher().dispatch_with_callback(std::move(query), actor_shared(this, id)); } void CallActor::hangup() { container_.for_each( [](auto id, Promise &promise) { promise.set_error(Status::Error(500, "Request aborted")); }); stop(); } vector CallActor::get_emojis_fingerprint(const string &key, const string &g_a) { string str = key + g_a; unsigned char sha256_buf[32]; sha256(str, {sha256_buf, 32}); vector result; result.reserve(4); for (int i = 0; i < 4; i++) { uint64 num = big_endian_to_host64(as(sha256_buf + 8 * i)); result.push_back(get_emoji_fingerprint(num)); } return result; } } // namespace td