2b75f6030f
GitOrigin-RevId: e2480ad06ef003e2d0e8db769c837d5b713d96c1
360 lines
9.8 KiB
C++
360 lines
9.8 KiB
C++
//
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// Copyright Aliaksei Levin (levlam@telegram.org), Arseny Smirnov (arseny30@gmail.com) 2014-2018
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//
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// Distributed under the Boost Software License, Version 1.0. (See accompanying
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// file LICENSE_1_0.txt or copy at http://www.boost.org/LICENSE_1_0.txt)
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//
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#include "td/utils/tests.h"
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#include "td/actor/actor.h"
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#include "td/actor/PromiseFuture.h"
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#include "td/mtproto/crypto.h"
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#include "td/mtproto/Handshake.h"
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#include "td/mtproto/HandshakeActor.h"
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#include "td/mtproto/HandshakeConnection.h"
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#include "td/mtproto/PingConnection.h"
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#include "td/mtproto/RawConnection.h"
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#include "td/net/Socks5.h"
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#include "td/telegram/ConfigManager.h"
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#include "td/telegram/net/PublicRsaKeyShared.h"
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#include "td/utils/logging.h"
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#include "td/utils/port/IPAddress.h"
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#include "td/utils/port/SocketFd.h"
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#include "td/utils/Status.h"
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REGISTER_TESTS(mtproto);
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using namespace td;
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using namespace mtproto;
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#if !TD_WINDOWS && !TD_EMSCRIPTEN // TODO
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TEST(Mtproto, config) {
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ConcurrentScheduler sched;
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int threads_n = 0;
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sched.init(threads_n);
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int cnt = 3;
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{
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auto guard = sched.get_current_guard();
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get_simple_config_azure(PromiseCreator::lambda([&](Result<SimpleConfig> r_simple_config) {
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if (r_simple_config.is_ok()) {
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LOG(ERROR) << to_string(r_simple_config.ok());
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} else {
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LOG(ERROR) << r_simple_config.error();
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}
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if (--cnt == 0) {
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Scheduler::instance()->finish();
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}
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}))
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.release();
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get_simple_config_google_app(PromiseCreator::lambda([&](Result<SimpleConfig> r_simple_config) {
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if (r_simple_config.is_ok()) {
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LOG(ERROR) << to_string(r_simple_config.ok());
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} else {
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LOG(ERROR) << r_simple_config.error();
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}
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if (--cnt == 0) {
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Scheduler::instance()->finish();
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}
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}))
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.release();
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get_simple_config_google_dns(PromiseCreator::lambda([&](Result<SimpleConfig> r_simple_config) {
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if (r_simple_config.is_ok()) {
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LOG(ERROR) << to_string(r_simple_config.ok());
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} else {
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LOG(ERROR) << r_simple_config.error();
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}
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if (--cnt == 0) {
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Scheduler::instance()->finish();
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}
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}))
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.release();
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}
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sched.start();
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while (sched.run_main(10)) {
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// empty;
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}
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sched.finish();
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}
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#endif
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TEST(Mtproto, encrypted_config) {
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string data =
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" LQ2 \b\n\tru6xVXpHHckW4eQWK0X3uThupVOor5sXT8t298IjDksYeUseQTOIrnUqiQj7o"
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"+ZgPfhnfe+lfcQA+naax9akgllimjlJtL5riTf3O7iqZSnJ614qmCucxqqVTbXk/"
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"hY2KaJTtsMqk7cShJjM3aQ4DD40h2InTaG7uyVO2q7K0GMUTeY3AM0Rt1lUjKHLD"
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"g4RwjTzZaG8TwfgL/mZ7jsvgTTTATPWKUo7SmxQ9Hsj+07NMGqr6JKZS6aiU1Knz"
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"VGCZ3OJEyRYocktN4HjaLpkguilaHWlVM2UNFUd5a+ajfLIiiKlH0FRC3XZ12CND"
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"Y+NBjv0I57N2O4fBfswTlA== ";
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auto config = decode_config(data).move_as_ok();
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}
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class TestPingActor : public Actor {
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public:
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TestPingActor(IPAddress ip_address, Status *result) : ip_address_(ip_address), result_(result) {
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}
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private:
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IPAddress ip_address_;
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std::unique_ptr<mtproto::PingConnection> ping_connection_;
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Status *result_;
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void start_up() override {
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ping_connection_ = std::make_unique<mtproto::PingConnection>(std::make_unique<mtproto::RawConnection>(
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SocketFd::open(ip_address_).move_as_ok(), mtproto::TransportType::Tcp, nullptr));
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ping_connection_->get_pollable().set_observer(this);
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subscribe(ping_connection_->get_pollable());
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set_timeout_in(10);
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yield();
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}
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void tear_down() override {
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unsubscribe_before_close(ping_connection_->get_pollable());
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ping_connection_->close();
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Scheduler::instance()->finish();
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}
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void loop() override {
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auto status = ping_connection_->flush();
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if (status.is_error()) {
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*result_ = std::move(status);
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return stop();
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}
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if (ping_connection_->was_pong()) {
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LOG(ERROR) << "GOT PONG";
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return stop();
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}
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}
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void timeout_expired() override {
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*result_ = Status::Error("Timeout expired");
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stop();
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}
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};
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static IPAddress get_default_ip_address() {
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IPAddress ip_address;
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ip_address.init_ipv4_port("149.154.167.40", 80).ensure();
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return ip_address;
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}
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class Mtproto_ping : public td::Test {
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public:
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using Test::Test;
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bool step() final {
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if (!is_inited_) {
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sched_.init(0);
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sched_.create_actor_unsafe<TestPingActor>(0, "Pinger", get_default_ip_address(), &result_).release();
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sched_.start();
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is_inited_ = true;
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}
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bool ret = sched_.run_main(10);
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if (ret) {
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return true;
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}
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sched_.finish();
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if (result_.is_error()) {
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LOG(ERROR) << result_;
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}
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ASSERT_TRUE(result_.is_ok());
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return false;
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}
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private:
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bool is_inited_ = false;
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ConcurrentScheduler sched_;
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Status result_;
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};
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Mtproto_ping mtproto_ping("Mtproto_ping");
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class Context : public AuthKeyHandshakeContext {
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public:
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DhCallback *get_dh_callback() override {
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return nullptr;
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}
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PublicRsaKeyInterface *get_public_rsa_key_interface() override {
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return &public_rsa_key;
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}
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private:
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PublicRsaKeyShared public_rsa_key{DcId::empty()};
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};
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class HandshakeTestActor : public Actor {
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public:
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explicit HandshakeTestActor(Status *result) : result_(result) {
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}
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private:
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Status *result_;
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bool wait_for_raw_connection_ = false;
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std::unique_ptr<RawConnection> raw_connection_;
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bool wait_for_handshake_ = false;
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std::unique_ptr<AuthKeyHandshake> handshake_;
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Status status_;
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bool wait_for_result_ = false;
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void tear_down() override {
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if (raw_connection_) {
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raw_connection_->close();
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}
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finish(Status::Error("Interrupted"));
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}
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void loop() override {
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if (!wait_for_raw_connection_ && !raw_connection_) {
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raw_connection_ = std::make_unique<mtproto::RawConnection>(SocketFd::open(get_default_ip_address()).move_as_ok(),
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mtproto::TransportType::Tcp, nullptr);
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}
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if (!wait_for_handshake_ && !handshake_) {
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handshake_ = std::make_unique<AuthKeyHandshake>(0);
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}
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if (raw_connection_ && handshake_) {
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if (wait_for_result_) {
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wait_for_result_ = false;
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if (status_.is_error()) {
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finish(std::move(status_));
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return stop();
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}
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if (!handshake_->is_ready_for_finish()) {
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finish(Status::Error("Key is not ready.."));
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return stop();
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}
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finish(Status::OK());
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return stop();
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}
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wait_for_result_ = true;
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create_actor<HandshakeActor>(
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"HandshakeActor", std::move(handshake_), std::move(raw_connection_), std::make_unique<Context>(), 10.0,
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PromiseCreator::lambda([self = actor_id(this)](Result<std::unique_ptr<RawConnection>> raw_connection) {
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send_closure(self, &HandshakeTestActor::got_connection, std::move(raw_connection), 1);
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}),
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PromiseCreator::lambda([self = actor_id(this)](Result<std::unique_ptr<AuthKeyHandshake>> handshake) {
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send_closure(self, &HandshakeTestActor::got_handshake, std::move(handshake), 1);
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}))
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.release();
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wait_for_raw_connection_ = true;
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wait_for_handshake_ = true;
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}
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}
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void got_connection(Result<std::unique_ptr<RawConnection>> r_raw_connection, int32 dummy) {
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CHECK(wait_for_raw_connection_);
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wait_for_raw_connection_ = false;
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if (r_raw_connection.is_ok()) {
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raw_connection_ = r_raw_connection.move_as_ok();
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status_ = Status::OK();
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} else {
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status_ = r_raw_connection.move_as_error();
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}
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// TODO: save error
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loop();
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}
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void got_handshake(Result<std::unique_ptr<AuthKeyHandshake>> r_handshake, int32 dummy) {
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CHECK(wait_for_handshake_);
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wait_for_handshake_ = false;
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CHECK(r_handshake.is_ok());
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handshake_ = r_handshake.move_as_ok();
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loop();
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}
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void finish(Status status) {
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if (!result_) {
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return;
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}
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*result_ = std::move(status);
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result_ = nullptr;
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Scheduler::instance()->finish();
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}
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};
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class Mtproto_handshake : public td::Test {
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public:
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using Test::Test;
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bool step() final {
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if (!is_inited_) {
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sched_.init(0);
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sched_.create_actor_unsafe<HandshakeTestActor>(0, "HandshakeTestActor", &result_).release();
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sched_.start();
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is_inited_ = true;
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}
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bool ret = sched_.run_main(10);
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if (ret) {
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return true;
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}
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sched_.finish();
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if (result_.is_error()) {
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LOG(ERROR) << result_;
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}
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ASSERT_TRUE(result_.is_ok());
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return false;
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}
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private:
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bool is_inited_ = false;
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ConcurrentScheduler sched_;
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Status result_;
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};
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Mtproto_handshake mtproto_handshake("Mtproto_handshake");
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class Socks5TestActor : public Actor {
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public:
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void start_up() override {
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auto promise = PromiseCreator::lambda([actor_id = actor_id(this)](Result<SocketFd> res) {
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send_closure(actor_id, &Socks5TestActor::on_result, std::move(res), false);
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});
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class Callback : public Socks5::Callback {
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public:
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explicit Callback(Promise<SocketFd> promise) : promise_(std::move(promise)) {
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}
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void set_result(Result<SocketFd> result) override {
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promise_.set_result(std::move(result));
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}
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void on_connected() override {
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}
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private:
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Promise<SocketFd> promise_;
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};
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IPAddress socks5_ip;
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socks5_ip.init_ipv4_port("131.191.89.104", 43077).ensure();
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IPAddress mtproto_ip = get_default_ip_address();
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auto r_socket = SocketFd::open(socks5_ip);
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create_actor<Socks5>("socks5", r_socket.move_as_ok(), mtproto_ip, "", "",
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std::make_unique<Callback>(std::move(promise)), actor_shared())
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.release();
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}
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private:
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void on_result(Result<SocketFd> res, bool dummy) {
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res.ensure();
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Scheduler::instance()->finish();
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}
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};
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TEST(Mtproto, socks5) {
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return;
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ConcurrentScheduler sched;
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int threads_n = 0;
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sched.init(threads_n);
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sched.create_actor_unsafe<Socks5TestActor>(0, "Socks5TestActor").release();
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sched.start();
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while (sched.run_main(10)) {
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// empty;
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}
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sched.finish();
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}
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