// // Copyright Aliaksei Levin (levlam@telegram.org), Arseny Smirnov (arseny30@gmail.com) 2014-2024 // // 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/EncryptedFile.h" #include "td/telegram/FolderId.h" #include "td/telegram/Global.h" #include "td/telegram/logevent/LogEvent.h" #include "td/telegram/MessageId.h" #include "td/telegram/secret_api.h" #include "td/telegram/SecretChatActor.h" #include "td/telegram/SecretChatDb.h" #include "td/telegram/SecretChatId.h" #include "td/telegram/telegram_api.h" #include "td/telegram/UserId.h" #include "td/db/binlog/BinlogInterface.h" #include "td/db/binlog/detail/BinlogEventsProcessor.h" #include "td/db/BinlogKeyValue.h" #include "td/db/DbKey.h" #include "td/mtproto/DhCallback.h" #include "td/mtproto/utils.h" #include "td/tl/tl_object_parse.h" #include "td/tl/tl_object_store.h" #include "td/actor/actor.h" #include "td/actor/ConcurrentScheduler.h" #include "td/utils/algorithm.h" #include "td/utils/as.h" #include "td/utils/base64.h" #include "td/utils/buffer.h" #include "td/utils/common.h" #include "td/utils/crypto.h" #include "td/utils/format.h" #include "td/utils/Gzip.h" #include "td/utils/logging.h" #include "td/utils/misc.h" #include "td/utils/Promise.h" #include "td/utils/Random.h" #include "td/utils/Slice.h" #include "td/utils/SliceBuilder.h" #include "td/utils/Status.h" #include "td/utils/tests.h" #include "td/utils/tl_helpers.h" #include "td/utils/tl_parsers.h" #include "td/utils/tl_storers.h" #include #include #include #include #include namespace my_api { using namespace td; class messages_getDhConfig { public: int32 version_{}; int32 random_length_{}; messages_getDhConfig() = default; messages_getDhConfig(int32 version, int32 random_length); static const int32 ID = 651135312; explicit messages_getDhConfig(TlBufferParser &p) #define FAIL(error) p.set_error(error) : version_(TlFetchInt::parse(p)) , random_length_(TlFetchInt::parse(p)) #undef FAIL { } }; class InputUser { public: static tl_object_ptr fetch(TlBufferParser &p); }; class inputUser final : public InputUser { public: int64 user_id_{}; int64 access_hash_{}; static const int32 ID = -668391402; inputUser() = default; explicit inputUser(TlBufferParser &p) #define FAIL(error) p.set_error(error) : user_id_(TlFetchInt::parse(p)) , access_hash_(TlFetchLong::parse(p)) #undef FAIL { } }; tl_object_ptr InputUser::fetch(TlBufferParser &p) { #define FAIL(error) \ p.set_error(error); \ return nullptr; int constructor = p.fetch_int(); switch (constructor) { case inputUser::ID: return make_tl_object(p); default: FAIL(PSTRING() << "Unknown constructor found " << format::as_hex(constructor)); } #undef FAIL } class messages_requestEncryption final { public: tl_object_ptr user_id_; int32 random_id_{}; BufferSlice g_a_; static const int32 ID = -162681021; messages_requestEncryption(); explicit messages_requestEncryption(TlBufferParser &p) : user_id_(TlFetchObject::parse(p)) , random_id_(TlFetchInt::parse(p)) , g_a_(TlFetchBytes::parse(p)) { } }; class inputEncryptedChat final { public: int32 chat_id_{}; int64 access_hash_{}; inputEncryptedChat() = default; static const int32 ID = -247351839; explicit inputEncryptedChat(TlBufferParser &p) : chat_id_(TlFetchInt::parse(p)), access_hash_(TlFetchLong::parse(p)) { } static tl_object_ptr fetch(TlBufferParser &p) { return make_tl_object(p); } }; class messages_acceptEncryption final { public: tl_object_ptr peer_; BufferSlice g_b_; int64 key_fingerprint_{}; messages_acceptEncryption() = default; static const int32 ID = 1035731989; explicit messages_acceptEncryption(TlBufferParser &p) : peer_(TlFetchBoxed, -247351839>::parse(p)) , g_b_(TlFetchBytes::parse(p)) , key_fingerprint_(TlFetchLong::parse(p)) { } }; class messages_sendEncryptedService final { public: tl_object_ptr peer_; int64 random_id_{}; BufferSlice data_; messages_sendEncryptedService() = default; static const int32 ID = 852769188; explicit messages_sendEncryptedService(TlBufferParser &p) : peer_(TlFetchBoxed, -247351839>::parse(p)) , random_id_(TlFetchLong::parse(p)) , data_(TlFetchBytes::parse(p)) { } }; class messages_sendEncrypted final { public: int32 flags_; tl_object_ptr peer_; int64 random_id_{}; BufferSlice data_; messages_sendEncrypted() = default; static const int32 ID = 1157265941; explicit messages_sendEncrypted(TlBufferParser &p) : flags_(TlFetchInt::parse(p)) , peer_(TlFetchBoxed, -247351839>::parse(p)) , random_id_(TlFetchLong::parse(p)) , data_(TlFetchBytes::parse(p)) { } }; template static void downcast_call(TlBufferParser &p, F &&f) { auto id = p.fetch_int(); switch (id) { case messages_getDhConfig::ID: return f(*make_tl_object(p)); case messages_requestEncryption::ID: return f(*make_tl_object(p)); case messages_acceptEncryption::ID: return f(*make_tl_object(p)); case messages_sendEncrypted::ID: return f(*make_tl_object(p)); case messages_sendEncryptedService::ID: return f(*make_tl_object(p)); default: LOG(ERROR) << "Unknown constructor " << id; UNREACHABLE(); } } class messages_dhConfig final { public: int32 g_{}; BufferSlice p_; int32 version_{}; BufferSlice random_; messages_dhConfig() = default; messages_dhConfig(int32 g, BufferSlice &&p, int32 version, BufferSlice &&random) : g_(g), p_(std::move(p)), version_(version), random_(std::move(random)) { } static const int32 ID = 740433629; int32 get_id() const { return ID; } void store(TlStorerCalcLength &s) const { (void)sizeof(s); TlStoreBinary::store(g_, s); TlStoreString::store(p_, s); TlStoreBinary::store(version_, s); TlStoreString::store(random_, s); } void store(TlStorerUnsafe &s) const { (void)sizeof(s); TlStoreBinary::store(g_, s); TlStoreString::store(p_, s); TlStoreBinary::store(version_, s); TlStoreString::store(random_, s); } }; const int32 messages_dhConfig::ID; class encryptedChat final { public: int32 id_{}; int64 access_hash_{}; int32 date_{}; int64 admin_id_{}; int64 participant_id_{}; BufferSlice g_a_or_b_; int64 key_fingerprint_{}; encryptedChat() = default; encryptedChat(int32 id, int64 access_hash, int32 date, int64 admin_id, int64 participant_id, BufferSlice &&g_a_or_b, int64 key_fingerprint) : id_(id) , access_hash_(access_hash) , date_(date) , admin_id_(admin_id) , participant_id_(participant_id) , g_a_or_b_(std::move(g_a_or_b)) , key_fingerprint_(key_fingerprint) { } static const int32 ID = -94974410; int32 get_id() const { return ID; } void store(TlStorerCalcLength &s) const { (void)sizeof(s); TlStoreBinary::store(id_, s); TlStoreBinary::store(access_hash_, s); TlStoreBinary::store(date_, s); TlStoreBinary::store(admin_id_, s); TlStoreBinary::store(participant_id_, s); TlStoreString::store(g_a_or_b_, s); TlStoreBinary::store(key_fingerprint_, s); } void store(TlStorerUnsafe &s) const { (void)sizeof(s); TlStoreBinary::store(id_, s); TlStoreBinary::store(access_hash_, s); TlStoreBinary::store(date_, s); TlStoreBinary::store(admin_id_, s); TlStoreBinary::store(participant_id_, s); TlStoreString::store(g_a_or_b_, s); TlStoreBinary::store(key_fingerprint_, s); } }; const int32 encryptedChat::ID; class messages_sentEncryptedMessage final { public: int32 date_{}; messages_sentEncryptedMessage() = default; explicit messages_sentEncryptedMessage(int32 date) : date_(date) { } static const int32 ID = 1443858741; int32 get_id() const { return ID; } void store(TlStorerCalcLength &s) const { (void)sizeof(s); TlStoreBinary::store(date_, s); } void store(TlStorerUnsafe &s) const { (void)sizeof(s); TlStoreBinary::store(date_, s); } }; } // namespace my_api namespace td { static int32 g = 3; static string prime_base64 = "xxyuucaxyQSObFIvcPE_c5gNQCOOPiHBSTTQN1Y9kw9IGYoKp8FAWCKUk9IlMPTb-jNvbgrJJROVQ67UTM58NyD9UfaUWHBaxozU_mtrE6vcl0ZRKW" "kyhFTxj6-MWV9kJHf-lrsqlB1bzR1KyMxJiAcI-ps3jjxPOpBgvuZ8-aSkppWBEFGQfhYnU7VrD2tBDbp02KhLKhSzFE4O8ShHVP0X7ZUNWWW0ud1G" "WC2xF40WnGvEZbDW_5yjko_vW5rk5Bj8Feg-vqD4f6n_Xu1wBQ3tKEn0e_lZ2VaFDOkphR8NgRX2NbEF7i5OFdBLJFS_b0-t8DSxBAMRnNjjuS_MW" "w"; class FakeDhCallback final : public mtproto::DhCallback { public: int is_good_prime(Slice prime_str) const final { auto it = cache.find(prime_str.str()); if (it == cache.end()) { return -1; } return it->second; } void add_good_prime(Slice prime_str) const final { cache[prime_str.str()] = 1; } void add_bad_prime(Slice prime_str) const final { cache[prime_str.str()] = 0; } mutable std::map cache; }; class FakeBinlog final : public BinlogInterface , public Actor { public: FakeBinlog() { register_actor("FakeBinlog", this).release(); } void force_sync(Promise<> promise, const char *source) final { if (pending_events_.empty()) { pending_events_.emplace_back(); } pending_events_.back().promises_.push_back(std::move(promise)); pending_events_.back().sync_flag = true; request_sync(); } void request_sync() { if (!has_request_sync) { has_request_sync = true; if (Random::fast(0, 4) == 0) { set_timeout_in(Random::fast(0, 99) / 100.0 * 0.005 + 0.001); } else { yield(); } } } void force_flush() final { } uint64 next_event_id() final { auto res = last_event_id_; last_event_id_++; return res; } uint64 next_event_id(int32 shift) final { auto res = last_event_id_; last_event_id_ += shift; return res; } template void for_each(const F &f) { events_processor_.for_each([&](auto &x) { LOG(INFO) << "REPLAY: " << x.id_; f(x); }); } void restart() { has_request_sync = false; cancel_timeout(); for (auto &pending : pending_events_) { auto &event = pending.event; if (!event.is_empty()) { // LOG(ERROR) << "FORGET EVENT: " << event.id_ << " " << event; } } pending_events_.clear(); } void change_key(DbKey key, Promise<> promise) final { } protected: void close_impl(Promise<> promise) final { } void close_and_destroy_impl(Promise<> promise) final { } void add_raw_event_impl(uint64 event_id, BufferSlice &&raw_event, Promise<> promise, BinlogDebugInfo info) final { auto event = BinlogEvent(std::move(raw_event), info); LOG(INFO) << "ADD EVENT: " << event.id_ << " " << event; pending_events_.emplace_back(); pending_events_.back().event = std::move(event); pending_events_.back().promises_.push_back(std::move(promise)); } void do_force_sync() { if (pending_events_.empty()) { return; } cancel_timeout(); has_request_sync = false; auto pos = static_cast(Random::fast_uint64() % pending_events_.size()); // pos = pending_events_.size() - 1; td::vector> promises; for (size_t i = 0; i <= pos; i++) { auto &pending = pending_events_[i]; auto event = std::move(pending.event); if (!event.is_empty()) { LOG(INFO) << "SAVE EVENT: " << event.id_ << " " << event; events_processor_.add_event(std::move(event)).ensure(); } append(promises, std::move(pending.promises_)); } pending_events_.erase(pending_events_.begin(), pending_events_.begin() + pos + 1); set_promises(promises); for (auto &event : pending_events_) { if (event.sync_flag) { request_sync(); break; } } } void timeout_expired() final { do_force_sync(); } void wakeup() final { if (has_request_sync) { do_force_sync(); } } bool has_request_sync = false; uint64 last_event_id_ = 1; detail::BinlogEventsProcessor events_processor_; struct PendingEvent { BinlogEvent event; bool sync_flag = false; td::vector> promises_; }; std::vector pending_events_; }; using FakeKeyValue = BinlogKeyValue; class Master; class FakeSecretChatContext final : public SecretChatActor::Context { public: FakeSecretChatContext(std::shared_ptr binlog, std::shared_ptr key_value, std::shared_ptr close_flag, ActorShared master) : binlog_(std::move(binlog)) , key_value_(std::move(key_value)) , close_flag_(std::move(close_flag)) , master_(std::move(master)) { secret_chat_db_ = std::make_shared(key_value_, 1); net_query_creator_.stop_check(); // :( } mtproto::DhCallback *dh_callback() final { return &fake_dh_callback_; } NetQueryCreator &net_query_creator() final { return net_query_creator_; } int32 unix_time() final { return static_cast(std::time(nullptr)); } bool close_flag() final { return *close_flag_; } BinlogInterface *binlog() final { return binlog_.get(); } SecretChatDb *secret_chat_db() final { return secret_chat_db_.get(); } std::shared_ptr dh_config() final { static auto config = [] { DhConfig dh_config; dh_config.version = 12; dh_config.g = g; dh_config.prime = base64url_decode(prime_base64).move_as_ok(); return std::make_shared(dh_config); }(); return config; } void set_dh_config(std::shared_ptr dh_config) final { // empty } bool get_config_option_boolean(const string &name) const final { return false; } // We don't want to expose the whole NetQueryDispatcher, MessagesManager and UserManager. // So it is more clear which parts of MessagesManager is really used. And it is much easier to create tests. void send_net_query(NetQueryPtr query, ActorShared callback, bool ordered) final; void on_update_secret_chat(int64 access_hash, UserId user_id, SecretChatState state, bool is_outbound, int32 ttl, int32 date, string key_hash, int32 layer, FolderId initial_folder_id) final { } void on_inbound_message(UserId user_id, MessageId message_id, int32 date, unique_ptr file, tl_object_ptr message, Promise<>) final; void on_send_message_error(int64 random_id, Status error, Promise<>) final; void on_send_message_ack(int64 random_id) final; void on_send_message_ok(int64 random_id, MessageId message_id, int32 date, unique_ptr file, Promise<>) final; void on_delete_messages(std::vector random_id, Promise<>) final; void on_flush_history(bool, MessageId, Promise<>) final; void on_read_message(int64, Promise<>) final; void on_screenshot_taken(UserId user_id, MessageId message_id, int32 date, int64 random_id, Promise<> promise) final { } void on_set_ttl(UserId user_id, MessageId message_id, int32 date, int32 ttl, int64 random_id, Promise<> promise) final { } private: FakeDhCallback fake_dh_callback_; static NetQueryCreator net_query_creator_; std::shared_ptr binlog_; std::shared_ptr key_value_; std::shared_ptr close_flag_; ActorShared master_; std::shared_ptr secret_chat_db_; }; NetQueryCreator FakeSecretChatContext::net_query_creator_{nullptr}; class Master final : public Actor { public: explicit Master(Status *status) : status_(status) { } class SecretChatProxy final : public Actor { public: SecretChatProxy(string name, ActorShared parent) : name_(std::move(name)) { binlog_ = std::make_shared(); key_value_ = std::make_shared(); key_value_->external_init_begin(LogEvent::HandlerType::BinlogPmcMagic); key_value_->external_init_finish(binlog_); close_flag_ = std::make_shared(false); parent_ = parent.get(); parent_token_ = parent.token(); actor_ = create_actor( PSLICE() << "SecretChat " << name_, 123, td::make_unique(binlog_, key_value_, close_flag_, std::move(parent)), true); on_binlog_replay_finish(); } ActorOwn actor_; void add_inbound_message(int32 chat_id, BufferSlice data, uint64 crc) { CHECK(crc64(data.as_slice()) == crc); auto event = make_unique(); event->chat_id = chat_id; event->date = 0; event->encrypted_message = std::move(data); event->promise = PromiseCreator::lambda( [actor_id = actor_id(this), chat_id, data = event->encrypted_message.copy(), crc](Result<> result) mutable { if (result.is_ok()) { LOG(INFO) << "FINISH add_inbound_message " << tag("crc", crc); return; } LOG(INFO) << "RESEND add_inbound_message " << tag("crc", crc) << result.error(); send_closure(actor_id, &SecretChatProxy::add_inbound_message, chat_id, std::move(data), crc); }); add_event(Event::delayed_closure(&SecretChatActor::add_inbound_message, std::move(event))); } void send_message(tl_object_ptr message) { BufferSlice serialized_message(serialize(*message)); auto resend_promise = PromiseCreator::lambda( [actor_id = actor_id(this), serialized_message = std::move(serialized_message)](Result<> result) mutable { TlBufferParser parser(&serialized_message); auto message = secret_api::decryptedMessage::fetch(parser); if (result.is_ok()) { LOG(INFO) << "FINISH send_message " << tag("message", to_string(message)); return; } LOG(INFO) << "RESEND send_message " << tag("message", to_string(message)) << result.error(); CHECK(serialize(*message) == serialized_message.as_slice()); send_closure(actor_id, &SecretChatProxy::send_message, std::move(message)); }); auto sync_promise = PromiseCreator::lambda([actor_id = actor_id(this), generation = this->binlog_generation_, resend_promise = std::move(resend_promise)](Result<> result) mutable { if (result.is_error()) { resend_promise.set_error(result.move_as_error()); return; } send_closure(actor_id, &SecretChatProxy::sync_binlog, generation, std::move(resend_promise)); }); add_event( Event::delayed_closure(&SecretChatActor::send_message, std::move(message), nullptr, std::move(sync_promise))); } int32 binlog_generation_ = 0; void sync_binlog(int32 binlog_generation, Promise<> promise) { if (binlog_generation != binlog_generation_) { return promise.set_error(Status::Error("Binlog generation mismatch")); } binlog_->force_sync(std::move(promise), "sync_binlog"); } void on_closed() { LOG(INFO) << "CLOSED"; ready_ = false; *close_flag_ = false; key_value_ = std::make_shared(); key_value_->external_init_begin(LogEvent::HandlerType::BinlogPmcMagic); std::vector events; binlog_generation_++; binlog_->restart(); binlog_->for_each([&](const BinlogEvent &event) { if (event.type_ == LogEvent::HandlerType::BinlogPmcMagic) { key_value_->external_init_handle(event); } else { events.push_back(event.clone()); } }); key_value_->external_init_finish(binlog_); actor_ = create_actor( PSLICE() << "SecretChat " << name_, 123, td::make_unique(binlog_, key_value_, close_flag_, ActorShared(parent_, parent_token_)), true); for (auto &event : events) { CHECK(event.type_ == LogEvent::HandlerType::SecretChats); auto r_message = log_event::SecretChatEvent::from_buffer_slice(event.data_as_buffer_slice()); LOG_IF(FATAL, r_message.is_error()) << "Failed to deserialize event: " << r_message.error(); auto message = r_message.move_as_ok(); message->set_log_event_id(event.id_); LOG(INFO) << "Process binlog event " << *message; switch (message->get_type()) { case log_event::SecretChatEvent::Type::InboundSecretMessage: send_closure_later(actor_, &SecretChatActor::replay_inbound_message, unique_ptr( static_cast(message.release()))); break; case log_event::SecretChatEvent::Type::OutboundSecretMessage: send_closure_later(actor_, &SecretChatActor::replay_outbound_message, unique_ptr( static_cast(message.release()))); break; default: UNREACHABLE(); } }; start_test(); on_binlog_replay_finish(); } void on_binlog_replay_finish() { ready_ = true; LOG(INFO) << "Finish replay binlog"; send_closure(actor_, &SecretChatActor::binlog_replay_finish); for (auto &event : pending_events_) { send_event(actor_, std::move(event)); } pending_events_.clear(); } void start_test() { set_timeout_in(Random::fast(50, 99) * 0.3 / 50); events_cnt_ = 0; } private: string name_; ActorId parent_; uint64 parent_token_; std::shared_ptr binlog_; std::shared_ptr key_value_; std::shared_ptr close_flag_; int events_cnt_ = 0; std::vector pending_events_; bool ready_ = false; bool is_active() { return !actor_.empty() && ready_; } void add_event(Event event) { events_cnt_++; if (is_active()) { LOG(INFO) << "EMIT"; send_event(actor_, std::move(event)); } else { LOG(INFO) << "DELAY"; pending_events_.push_back(std::move(event)); } } int32 bad_cnt_ = 0; void timeout_expired() final { LOG(INFO) << "TIMEOUT EXPIRED"; if (events_cnt_ < 4) { bad_cnt_++; CHECK(bad_cnt_ < 10); } else { bad_cnt_ = 0; } *close_flag_ = true; actor_.reset(); } }; auto &get_by_id(uint64 id) { if (id == 1) { return alice_; } else { return bob_; } } auto &from() { return get_by_id(get_link_token()); } auto &to() { return get_by_id(3 - get_link_token()); } void start_up() final { auto old_context = set_context(std::make_shared()); alice_ = create_actor("SecretChatProxy alice", "alice", actor_shared(this, 1)); bob_ = create_actor("SecretChatProxy bob", "bob", actor_shared(this, 2)); send_closure(alice_.get_actor_unsafe()->actor_, &SecretChatActor::create_chat, UserId(static_cast(2)), 0, 123, PromiseCreator::lambda([actor_id = actor_id(this)](Result res) { send_closure(actor_id, &Master::on_get_secret_chat_id, std::move(res), false); })); } void on_get_secret_chat_id(Result res, bool dummy) { CHECK(res.is_ok()); auto id = res.move_as_ok(); LOG(INFO) << "SecretChatId = " << id; } static bool can_fail(NetQueryPtr &query) { static int cnt = 20; if (cnt > 0) { cnt--; return false; } if (query->tl_constructor() == telegram_api::messages_sendEncrypted::ID || query->tl_constructor() == telegram_api::messages_sendEncryptedFile::ID) { return true; } return false; } void send_net_query(NetQueryPtr query, ActorShared callback, bool ordered) { if (can_fail(query) && Random::fast_bool()) { LOG(INFO) << "Fail query " << query; auto resend_promise = PromiseCreator::lambda([self = actor_shared(this, get_link_token()), callback_actor = callback.get(), callback_token = callback.token()](Result r_net_query) mutable { if (r_net_query.is_error()) { self.release(); return; } send_closure(std::move(self), &Master::send_net_query, r_net_query.move_as_ok(), ActorShared(callback_actor, callback_token), true); }); query->set_error(Status::Error(429, "Test error")); send_closure(std::move(callback), &NetQueryCallback::on_result_resendable, std::move(query), std::move(resend_promise)); return; } else { LOG(INFO) << "Do not fail " << query; } auto query_slice = query->query().clone(); if (query->gzip_flag() == NetQuery::GzipFlag::On) { query_slice = gzdecode(query_slice.as_slice()); } TlBufferParser parser(&query_slice); //auto object = telegram_api::Function::fetch(parser); //LOG(INFO) << query_slice.size(); //parser.get_status().ensure(); my_api::downcast_call(parser, [&](auto &object) { this->process_net_query(std::move(object), std::move(query), std::move(callback)); }); } template void process_net_query(T &&object, NetQueryPtr query, ActorShared callback) { LOG(FATAL) << "Unsupported query: " << to_string(object); } void process_net_query(my_api::messages_getDhConfig &&get_dh_config, NetQueryPtr net_query, ActorShared callback) { //LOG(INFO) << "Receive query " << to_string(get_dh_config); my_api::messages_dhConfig config; config.p_ = BufferSlice(base64url_decode(prime_base64).move_as_ok()); config.g_ = g; config.version_ = 12; auto storer = TLObjectStorer(config); BufferSlice answer(storer.size()); auto real_size = storer.store(answer.as_mutable_slice().ubegin()); CHECK(real_size == answer.size()); net_query->set_ok(std::move(answer)); send_closure(std::move(callback), &NetQueryCallback::on_result, std::move(net_query)); } void process_net_query(my_api::messages_requestEncryption &&request_encryption, NetQueryPtr net_query, ActorShared callback) { CHECK(get_link_token() == 1); send_closure(alice_.get_actor_unsafe()->actor_, &SecretChatActor::update_chat, make_tl_object(123, 321, 0, 1, 2)); send_closure(bob_.get_actor_unsafe()->actor_, &SecretChatActor::update_chat, make_tl_object(0, false, 123, 321, 0, 1, 2, request_encryption.g_a_.clone())); net_query->clear(); } void process_net_query(my_api::messages_acceptEncryption &&request_encryption, NetQueryPtr net_query, ActorShared callback) { CHECK(get_link_token() == 2); send_closure(alice_.get_actor_unsafe()->actor_, &SecretChatActor::update_chat, make_tl_object(123, 321, 0, 1, 2, request_encryption.g_b_.clone(), request_encryption.key_fingerprint_)); my_api::encryptedChat encrypted_chat(123, 321, 0, 1, 2, BufferSlice(), request_encryption.key_fingerprint_); auto storer = TLObjectStorer(encrypted_chat); BufferSlice answer(storer.size()); auto real_size = storer.store(answer.as_mutable_slice().ubegin()); CHECK(real_size == answer.size()); net_query->set_ok(std::move(answer)); send_closure(std::move(callback), &NetQueryCallback::on_result, std::move(net_query)); send_closure(alice_, &SecretChatProxy::start_test); send_closure(bob_, &SecretChatProxy::start_test); send_ping(1, 5000); set_timeout_in(1); } void timeout_expired() final { send_message(1, "oppa"); send_message(2, "appo"); set_timeout_in(1); } void send_ping(int32 id, int cnt) { if (cnt % 200 == 0) { LOG(ERROR) << "Send ping " << tag("id", id) << tag("cnt", cnt); } else { LOG(INFO) << "Send ping " << tag("id", id) << tag("cnt", cnt); } string text = PSTRING() << "PING: " << cnt; send_message(id, std::move(text)); } void send_message(int32 id, string text) { auto random_id = Random::secure_int64(); LOG(INFO) << "Send message: " << tag("id", id) << tag("text", text) << tag("random_id", random_id); sent_messages_[random_id] = Message{id, text}; send_closure(get_by_id(id), &SecretChatProxy::send_message, secret_api::make_object(0, false /*ignored*/, random_id, 0, text, Auto(), Auto(), Auto(), Auto(), 0)); } void process_net_query(my_api::messages_sendEncryptedService &&message, NetQueryPtr net_query, ActorShared callback) { process_net_query_send_encrypted(std::move(message.data_), std::move(net_query), std::move(callback)); } void process_net_query(my_api::messages_sendEncrypted &&message, NetQueryPtr net_query, ActorShared callback) { process_net_query_send_encrypted(std::move(message.data_), std::move(net_query), std::move(callback)); } void process_net_query_send_encrypted(BufferSlice data, NetQueryPtr net_query, ActorShared callback) { BufferSlice answer(8); answer.as_mutable_slice().fill(0); as(answer.as_mutable_slice().begin()) = static_cast(my_api::messages_sentEncryptedMessage::ID); net_query->set_ok(std::move(answer)); send_closure(std::move(callback), &NetQueryCallback::on_result, std::move(net_query)); // We can't loose updates yet :( auto crc = crc64(data.as_slice()); LOG(INFO) << "Send SecretChatProxy::add_inbound_message" << tag("crc", crc); send_closure(to(), &SecretChatProxy::add_inbound_message, narrow_cast(3 - get_link_token()), std::move(data), crc); } int32 last_ping_ = std::numeric_limits::max(); void on_inbound_message(string message, Promise<> promise) { promise.set_value(Unit()); LOG(INFO) << "Receive inbound message: " << message << " " << get_link_token(); int32 cnt; int x = std::sscanf(message.c_str(), "PING: %d", &cnt); if (x != 1) { return; } if (cnt == 0) { Scheduler::instance()->finish(); *status_ = Status::OK(); return; } if (cnt >= last_ping_) { return; } last_ping_ = cnt; send_ping(narrow_cast(get_link_token()), cnt - 1); } void on_send_message_error(int64 random_id, Status error, Promise<> promise) { promise.set_value(Unit()); LOG(INFO) << "Receive send message error: " << tag("random_id", random_id) << error; auto it = sent_messages_.find(random_id); if (it == sent_messages_.end()) { LOG(INFO) << "TODO: try to fix errors about message after it is sent"; return; } CHECK(it != sent_messages_.end()); auto message = it->second; // sent_messages_.erase(it); send_message(message.id, message.text); } void on_send_message_ok(int64 random_id, Promise<> promise) { promise.set_value(Unit()); LOG(INFO) << "Receive send message ok: " << tag("random_id", random_id); auto it = sent_messages_.find(random_id); if (it == sent_messages_.end()) { LOG(INFO) << "TODO: try to fix errors about message after it is sent"; return; } CHECK(it != sent_messages_.end()); // sent_messages_.erase(it); } private: Status *status_; ActorOwn alice_; ActorOwn bob_; struct Message { int32 id; string text; }; std::map sent_messages_; void hangup_shared() final { LOG(INFO) << "Receive hang up: " << get_link_token(); send_closure(from(), &SecretChatProxy::on_closed); } }; void FakeSecretChatContext::send_net_query(NetQueryPtr query, ActorShared callback, bool ordered) { send_closure(master_, &Master::send_net_query, std::move(query), std::move(callback), ordered); } void FakeSecretChatContext::on_inbound_message(UserId user_id, MessageId message_id, int32 date, unique_ptr file, tl_object_ptr message, Promise<> promise) { send_closure(master_, &Master::on_inbound_message, message->message_, std::move(promise)); } void FakeSecretChatContext::on_send_message_error(int64 random_id, Status error, Promise<> promise) { send_closure(master_, &Master::on_send_message_error, random_id, std::move(error), std::move(promise)); } void FakeSecretChatContext::on_send_message_ack(int64 random_id) { } void FakeSecretChatContext::on_send_message_ok(int64 random_id, MessageId message_id, int32 date, unique_ptr file, Promise<> promise) { send_closure(master_, &Master::on_send_message_ok, random_id, std::move(promise)); } void FakeSecretChatContext::on_delete_messages(std::vector random_id, Promise<> promise) { promise.set_value(Unit()); } void FakeSecretChatContext::on_flush_history(bool, MessageId, Promise<> promise) { promise.set_error(Status::Error("Unsupported")); } void FakeSecretChatContext::on_read_message(int64, Promise<> promise) { promise.set_error(Status::Error("Unsupported")); } TEST(Secret, go) { return; ConcurrentScheduler sched(0, 0); Status result; sched.create_actor_unsafe(0, "HandshakeTestActor", &result).release(); sched.start(); while (sched.run_main(10)) { // empty; } sched.finish(); if (result.is_error()) { LOG(ERROR) << result; } ASSERT_TRUE(result.is_ok()); } } // namespace td