ConnectViaProxy socks5 fix try

2024-11-12 01:55:26 +03:00 · 2024-11-12 01:55:26 +03:00 · 46d630de39
commit 46d630de39
parent 405a3100e1
2 changed files with 450 additions and 0 deletions
--- a/library/include/larra/client/client.hpp
+++ b/library/include/larra/client/client.hpp
@ -157,6 +157,261 @@ struct StartTlsRequest {
  }
 };
 template <typename Socket>
 auto ConnectViaProxy(Socket& socket, const HttpProxy& param_proxy, std::string_view host, std::uint16_t port)
    -> boost::asio::awaitable<void> {
  constexpr char kHttpVersion[] = "HTTP/1.1";
  constexpr unsigned int kSuccessStatusCode = 200;
  constexpr char kEndOfHeaders[] = "\r\n\r\n";
  // HTTP CONNECT запрос
  std::string request = std::format("CONNECT {}:{} {}\r\nHost: {}:{}\r\n\r\n", host, port, kHttpVersion, host, port);
  co_await boost::asio::async_write(socket, boost::asio::buffer(request), boost::asio::transfer_all(), boost::asio::use_awaitable);
  // ответ от прокси-сервера
  boost::asio::streambuf response;
  std::size_t bytes_transferred = co_await boost::asio::async_read_until(socket, response, kEndOfHeaders, boost::asio::use_awaitable);
  // статус ответа
  std::istream response_stream(&response);
  std::string http_version;
  unsigned int status_code;
  std::string status_message;
  response_stream >> http_version >> status_code;
  std::getline(response_stream, status_message);
  if(!response_stream || http_version.substr(0, 5) != "HTTP/") {
    throw std::runtime_error("Invalid HTTP response from proxy");
  }
  if(status_code != kSuccessStatusCode) {
    std::ostringstream error_stream;
    error_stream << http_version << " " << status_code << " " << status_message;
    throw std::runtime_error("HTTP proxy CONNECT failed: " + error_stream.str());
  }
  co_return;
 }
 template <typename Socket>
 auto ConnectViaProxy(Socket& socket, Socks5Proxy& socksProxy, std::string_view address, std::uint16_t port)
    -> boost::asio::awaitable<void> {
  constexpr std::array kSocks5RequestStart = {std::byte{0x05}, std::byte{0x01}, std::byte{0x00}, std::byte{0x03}};
  constexpr std::size_t kSocks5RequestMaxSize = 257;
  constexpr std::size_t kSocks5ReplyTypeSize = 10;
  constexpr std::array kHandshakeRequest{std::byte{0x05}, std::byte{0x01}, std::byte{0x00}};
  // auto executor = co_await boost::asio::this_coro::executor;
  // boost::asio::ip::tcp::resolver resolver{executor};
  // auto resolved = co_await resolver.async_resolve({std::move(socksProxy.hostname), std::to_string(socksProxy.port)},
  // boost::asio::use_awaitable);
  //  boost::asio::ip::tcp::socket socket{executor};
  //  co_await socket.async_connect(*resolved, boost::asio::use_awaitable);
  std::array<std::byte, 2> handshakeResponse;  // NOLINT
  co_await boost::asio::async_write(
      socket, boost::asio::buffer(kHandshakeRequest), boost::asio::transfer_all(), boost::asio::use_awaitable);
  co_await boost::asio::async_read(socket, boost::asio::buffer(handshakeResponse), boost::asio::transfer_all(), boost::asio::use_awaitable);
  if(handshakeResponse[0] != std::byte{0x05} || handshakeResponse[1] != std::byte{0x00}) {  // NOLINT
    throw std::exception{};
  };
  const auto [connectRequest, size] = [&] {
    const auto size = static_cast<std::byte>(address.size());
    const auto htonsPort = std::bit_cast<std::array<std::byte, 2>>(htons(port));
    auto range = std::array{std::span{kSocks5RequestStart.begin(), kSocks5RequestStart.size()},
                            std::span{&size, 1},
                            std::span{utils::StartLifetimeAsArray<const std::byte>(address.data(), address.size()), address.size()},
                            std::span{htonsPort.data(), 2}} |
                 std::views::join;
    std::array<std::byte, kSocks5RequestMaxSize> response;  // NOLINT
    auto sizee = std::ranges::copy(range, response.begin()).out - response.begin();
    return std::pair{response, sizee};
  }();
  co_await boost::asio::async_write(
      socket, boost::asio::buffer(connectRequest.begin(), size), boost::asio::transfer_all(), boost::asio::use_awaitable);
  std::array<std::byte, kSocks5ReplyTypeSize> connectReplyType;  // NOLINT
  co_await boost::asio::async_read(socket, boost::asio::buffer(connectReplyType), boost::asio::transfer_all(), boost::asio::use_awaitable);
  if(connectReplyType[1] != std::byte{0x00}) {
    throw std::exception{};
  };
  co_return;
 };
 template <typename Socket>
 auto ConnectViaProxyV(Socket& socket, const Socks5Proxy& proxy, std::string_view target_hostname, std::uint16_t target_port)
    -> boost::asio::awaitable<void> {
  constexpr std::uint8_t kSocks5Version = 0x05;   // Version 5
  constexpr std::uint8_t kNoAuthMethod = 0x00;    // No auth required
  constexpr std::uint8_t kRsv = 0x00;             // Reserved
  constexpr std::uint8_t kConnectCommand = 0x01;  // Command CONNECT
  constexpr std::uint8_t kDomainNameType = 0x03;  // Address type: Domain name
  constexpr std::uint8_t kIpv4 = 0x01;            // Address type: IPv4
  constexpr std::uint8_t kIpv6 = 0x04;            // Address type: IPv6
  constexpr std::uint8_t kMaxAddressL = 255;      // Max address length
  constexpr std::size_t kMaxRequestSize = 257;
  if(target_hostname.size() > kMaxAddressL) {
    throw std::runtime_error("Hostname too long for SOCKS5");
  }
  std::array greeting = {kSocks5Version, kConnectCommand, kRsv, kDomainNameType};
  co_await boost::asio::async_write(socket, boost::asio::buffer(greeting), boost::asio::transfer_all(), boost::asio::use_awaitable);
  std::array<std::uint8_t, 2> response{};
  co_await boost::asio::async_read(socket, boost::asio::buffer(response), boost::asio::transfer_all(), boost::asio::use_awaitable);
  if(response[0] != kSocks5Version || response[1] != kNoAuthMethod) {
    throw std::runtime_error("SOCKS5 proxy authentication failed");
  }
  std::array header{
      kSocks5Version, kConnectCommand, kNoAuthMethod, kDomainNameType};  // 4 байта для заголовка, до 255 байт для адреса, 2 байта для порта
  auto hostnameLength = static_cast<std::uint8_t>(target_hostname.size());
  auto portBytes = std::bit_cast<std::array<std::uint8_t, 2>>(htons(target_port));
  auto request =
      std::array{std::span<const std::uint8_t>(header),
                 std::span<const std::uint8_t>(&hostnameLength, 1),
                 std::span<const std::uint8_t>(utils::StartLifetimeAsArray<uint8_t>(target_hostname.data(), target_hostname.size()),
                                               target_hostname.size()),
                 std::span<const std::uint8_t>(portBytes)} |
      std::views::join;
  std::array<std::uint8_t, kMaxRequestSize> requestBuffer{};
  auto it = std::ranges::copy(request, requestBuffer.begin()).out;
  size_t requestSize = std::distance(requestBuffer.begin(), it);
  // Отправляем запрос
  co_await boost::asio::async_write(
      socket, boost::asio::buffer(requestBuffer.data(), requestSize), boost::asio::transfer_all(), boost::asio::use_awaitable);
  // ответ сервера
  std::array<std::uint8_t, 4> reply{};
  co_await boost::asio::async_read(socket, boost::asio::buffer(reply), boost::asio::transfer_all(), boost::asio::use_awaitable);
  if(reply[0] != kSocks5Version || reply[1] != kNoAuthMethod) {
    throw std::runtime_error("SOCKS5 proxy connection failed");
  }
  const std::uint8_t addr_type = reply[3];
  size_t addr_len = 0;
  if(addr_type == kIpv4) {
    // IPv4
    addr_len = 4;
  } else if(addr_type == kDomainNameType) {
    // Domain name
    std::uint8_t len{};
    co_await boost::asio::async_read(socket, boost::asio::buffer(&len, 1), boost::asio::transfer_all(), boost::asio::use_awaitable);
    addr_len = len;
  } else if(addr_type == kIpv6) {
    // IPv6
    addr_len = 16;
  } else {
    throw std::runtime_error("Unknown address type in SOCKS5 reply");
  }
  std::array<std::uint8_t, 18> addr{};  // Максимальный размер для IPv6 адреса + порт
  co_await boost::asio::async_read(
      socket, boost::asio::buffer(addr.data(), addr_len + 2), boost::asio::transfer_all(), boost::asio::use_awaitable);
  co_return;
 }
 template <typename Socket>
 auto ConnectViaProxy(Socket&, const NoProxy&, std::string_view, std::uint16_t) -> boost::asio::awaitable<void> {
  co_return;
 }
 template <typename ProxyType>
 auto GetProxySettings(const char* proxyEnv, std::uint16_t port) -> Proxy {
  std::string_view rawProxyStr = proxyEnv;
  const std::size_t protocolNamePos = rawProxyStr.find("://");
  std::string_view proxyStr = protocolNamePos == std::string_view::npos ? rawProxyStr : rawProxyStr.substr(protocolNamePos + 3);
  const std::size_t portPos = proxyStr.find(':');
  if(portPos == std::string_view::npos) {
    return ProxyType{std::string(proxyStr), port};
  }
  auto host = std::string(proxyStr.substr(0, portPos));
  auto portStr = proxyStr.substr(portPos + 1);
  auto portOpt = ToInt<uint16_t>(portStr);
  if(!portOpt) {
    throw std::runtime_error("Invalid port number in proxy settings");
  }
  return ProxyType{host, portOpt.value()};
 }
 inline auto GetSystemProxySettings() -> Proxy {
  if(const char* proxyEnv = std::getenv("http_proxy")) {
    constexpr std::uint16_t kHttpPort = 8080;
    return GetProxySettings<HttpProxy>(proxyEnv, kHttpPort);
  }
  if(const char* proxy_env = std::getenv("socks_proxy")) {
    constexpr std::uint16_t kSocksPort = 1080;
    return GetProxySettings<Socks5Proxy>(proxy_env, kSocksPort);
  }
  return NoProxy{};
 }
 template <typename Socket>
 auto ConnectViaProxy(Socket& socket, const SystemConfiguredProxy&, std::string_view host, std::uint16_t port)
    -> boost::asio::awaitable<void> {
  auto proxy_opt = GetSystemProxySettings();
  co_await std::visit(
      [&](auto&& proxy_variant) -> boost::asio::awaitable<void> {
        co_await ConnectViaProxy(socket, proxy_variant, host, port);
      },
      proxy_opt);
 }
 template <typename Socket, typename ProxyType>
 auto ConnectToServer(Socket& socket, const ProxyType& proxy, std::string_view host, std::uint16_t port) -> boost::asio::awaitable<void> {
  auto executor = co_await boost::asio::this_coro::executor;
  boost::asio::ip::tcp::resolver resolver(executor);
  auto endpoints = co_await resolver.async_resolve(proxy.hostname, std::to_string(proxy.port), boost::asio::use_awaitable);
  co_await boost::asio::async_connect(socket, endpoints, boost::asio::use_awaitable);
  if constexpr(!std::same_as<ProxyType, NoProxy>) {
    co_await ConnectViaProxy(socket, proxy, host, port);
  }
 }
 template <typename Socket>
 auto ConnectToServer(Socket& socket, const SystemConfiguredProxy& proxy, std::string_view host, std::uint16_t port)
    -> boost::asio::awaitable<void> {
  auto executor = co_await boost::asio::this_coro::executor;
  boost::asio::ip::tcp::resolver resolver(executor);
  auto endpoints = co_await resolver.async_resolve(host, std::to_string(port), boost::asio::use_awaitable);
  co_await boost::asio::async_connect(socket, endpoints, boost::asio::use_awaitable);
  co_await ConnectViaProxy(socket, proxy, host, port);
 }
 template <typename Socket>
 auto ConnectWithProxy(Socket& socket, const Proxy& proxy, std::string_view host, std::uint16_t port) -> boost::asio::awaitable<void> {
  co_await std::visit(
      [&socket, host, port](const auto& proxy_variant) -> boost::asio::awaitable<void> {
        co_await ConnectToServer(socket, proxy_variant, host, port);
      },
      proxy);
 }
 inline auto GetAuthData(const PlainUserAccount& account) -> std::string {
  return EncodeBase64('\0' + account.jid.username + '\0' + account.password);
 }
 struct ClientCreateVisitor {
  UserAccount account;
  const Options& options;
--- a/tests/proxy.cpp
+++ b/tests/proxy.cpp
@ -0,0 +1,195 @@
 #include <gtest/gtest.h>
 #include <larra/client/client.hpp>
 #include <larra/impl/mock_socket.hpp>
 #include <larra/proxy.hpp>
 using namespace larra::xmpp;
 using boost::asio::ip::tcp;
 namespace asio = boost::asio;
 class ProxyTest : public ::testing::Test {
 protected:
  boost::asio::io_context io_context;
  larra::xmpp::impl::MockSocket mock_socket{io_context.get_executor()};
 };
 // Test 1: Connect via HTTP proxy with successful server response
 TEST_F(ProxyTest, ConnectViaHttpProxy_SuccessfulResponse) {
  HttpProxy proxy{"proxy_host", 8080};
  std::string target_host = "target_host";
  uint16_t target_port = 80;
  std::string expected_request =
      std::format("CONNECT {}:{} HTTP/1.1\r\nHost: {}:{}\r\n\r\n", target_host, target_port, target_host, target_port);
  std::string proxy_response = "HTTP/1.1 200 Connection established\r\n\r\n";
  mock_socket.AddReceivedData(proxy_response);
  bool connect_successful = false;
  asio::co_spawn(
      io_context,
      [&]() -> asio::awaitable<void> {
        try {
          co_await client::impl::ConnectViaProxy(mock_socket, proxy, target_host, target_port);
          connect_successful = true;
        } catch(...) {
          connect_successful = false;
        }
      },
      asio::detached);
  io_context.run();
  std::string sent_data = mock_socket.GetSentData();
  EXPECT_EQ(sent_data, expected_request);
  EXPECT_TRUE(connect_successful);
 }
 // Test 2: Connect via SOCKS proxy
 TEST(Socks5ProxyTest, ConnectViaProxy) {
  boost::asio::io_context io;
  auto executor = io.get_executor();
  larra::xmpp::impl::MockSocket socket{executor};
  // expected server responses
  std::string server_response;
  server_response += "\x05\x00";          // VER, METHOD
  server_response += "\x05\x00\x00\x01";  // VER, REP, RSV, ATYP (IPv4)
  server_response += "\x7F\x00\x00\x01";  // BND.ADDR (127.0.0.1)
  server_response += "\x1F\x90";          // BND.PORT (8080)
  socket.AddReceivedData(server_response);
  Socks5Proxy proxy{"proxy.example.com", 1080};
  std::string target_hostname = "target.example.com";
  std::uint16_t target_port = 80;
  boost::asio::co_spawn(
      executor,
      [&]() -> boost::asio::awaitable<void> {
        co_await client::impl::ConnectViaProxy(socket, proxy, target_hostname, target_port);
        auto sent_data = socket.GetSentData();
        // Expected client greeting
        std::string expected_greeting = "\x05\x01\x00";
        // Expected CONNECT request
        std::array<std::uint8_t, 262> expected_request{};
        std::size_t req_len = 0;
        expected_request[req_len++] = 0x05;  // VER
        expected_request[req_len++] = 0x01;  // CMD: CONNECT
        expected_request[req_len++] = 0x00;  // RSV
        expected_request[req_len++] = 0x03;  // ATYP: DOMAINNAME
        expected_request[req_len++] = static_cast<std::uint8_t>(target_hostname.size());  // domain length
        std::memcpy(&expected_request[req_len], target_hostname.data(), target_hostname.size());
        req_len += target_hostname.size();
        std::uint16_t network_order_port = htons(target_port);
        expected_request[req_len++] = static_cast<std::uint8_t>((network_order_port >> 8) & 0xFF);
        expected_request[req_len++] = static_cast<std::uint8_t>(network_order_port & 0xFF);
        std::string expected_data = expected_greeting;
        expected_data.append(reinterpret_cast<const char*>(expected_request.data()), req_len);
        EXPECT_EQ(sent_data, expected_data);
        co_return;
      },
      boost::asio::detached);
  io.run();
 }
 /*
 // Test 3: Connect via system configured proxy
 TEST_F(ProxyTest, ConnectViaSystemProxy_HttpProxy) {
    // Set the environment variable for the system proxy
    const char* original_http_proxy = std::getenv("http_proxy");
    setenv("http_proxy", "http://proxy_host:8080", 1);
    std::string target_host = "target_host";
    uint16_t target_port = 80;
    std::string expected_request = std::format(
        "CONNECT {}:{} HTTP/1.1\r\nHost: {}:{}\r\n\r\n",
        target_host, target_port, target_host, target_port);
    std::string proxy_response = "HTTP/1.1 200 Connection established\r\n\r\n";
    mock_socket.AddReceivedData(proxy_response);
    bool connect_successful = false;
    asio::co_spawn(io_context, [&]() -> asio::awaitable<void> {
        try {
            SystemConfiguredProxy proxy;
            co_await client::impl::ConnectToServer(mock_socket, proxy, target_host, target_port);
            connect_successful = true;
        } catch (...) {
            connect_successful = false;
        }
    }, asio::detached);
    io_context.run();
    std::string sent_data = mock_socket.GetSentData();
    EXPECT_EQ(sent_data, expected_request);
    EXPECT_TRUE(connect_successful);
    // Restore the original environment variable
    if (original_http_proxy) {
        setenv("http_proxy", original_http_proxy, 1);
    } else {
        unsetenv("http_proxy");
    }
 }
 // Test 4: Incorrect proxy data
 TEST_F(ProxyTest, ConnectViaHttpProxy_IncorrectData) {
    HttpProxy proxy{"proxy_host", 8080};
    std::string target_host = "target_host";
    uint16_t target_port = 80;
    std::string expected_request = std::format(
        "CONNECT {}:{} HTTP/1.1\r\nHost: {}:{}\r\n\r\n",
        target_host, target_port, target_host, target_port);
    // Simulate an incorrect response from the proxy server
    std::string proxy_response = "HTTP/1.1 400 Bad Request\r\n\r\n";
    mock_socket.AddReceivedData(proxy_response);
    bool connect_successful = false;
    std::string error_message;
    asio::co_spawn(io_context, [&]() -> asio::awaitable<void> {
        try {
            co_await client::impl::ConnectToServer(mock_socket, proxy, target_host, target_port);
            connect_successful = true;
        } catch (const std::runtime_error& e) {
            connect_successful = false;
            error_message = e.what();
        }
    }, asio::detached);
    io_context.run();
    std::string sent_data = mock_socket.GetSentData();
    EXPECT_EQ(sent_data, expected_request);
    EXPECT_FALSE(connect_successful);
    EXPECT_FALSE(error_message.empty());
 }
 */