/* * Copyright 2007 The WebRTC Project Authors. All rights reserved. * * Use of this source code is governed by a BSD-style license * that can be found in the LICENSE file in the root of the source * tree. An additional intellectual property rights grant can be found * in the file PATENTS. All contributing project authors may * be found in the AUTHORS file in the root of the source tree. */ #include #include "webrtc/base/autodetectproxy.h" #include "webrtc/base/httpcommon.h" #include "webrtc/base/httpcommon-inl.h" #include "webrtc/base/socketadapters.h" #include "webrtc/base/ssladapter.h" #include "webrtc/base/sslsocketfactory.h" namespace rtc { /////////////////////////////////////////////////////////////////////////////// // ProxySocketAdapter // TODO: Consider combining AutoDetectProxy and ProxySocketAdapter. I think // the socket adapter is the more appropriate idiom for automatic proxy // detection. We may or may not want to combine proxydetect.* as well. /////////////////////////////////////////////////////////////////////////////// class ProxySocketAdapter : public AsyncSocketAdapter { public: ProxySocketAdapter(SslSocketFactory* factory, int family, int type) : AsyncSocketAdapter(NULL), factory_(factory), family_(family), type_(type), detect_(NULL) { } ~ProxySocketAdapter() override { Close(); } int Connect(const SocketAddress& addr) override { ASSERT(NULL == detect_); ASSERT(NULL == socket_); remote_ = addr; if (remote_.IsAnyIP() && remote_.hostname().empty()) { LOG_F(LS_ERROR) << "Empty address"; return SOCKET_ERROR; } Url url("/", remote_.HostAsURIString(), remote_.port()); detect_ = new AutoDetectProxy(factory_->agent_); detect_->set_server_url(url.url()); detect_->SignalWorkDone.connect(this, &ProxySocketAdapter::OnProxyDetectionComplete); detect_->Start(); return SOCKET_ERROR; } int GetError() const override { if (socket_) { return socket_->GetError(); } return detect_ ? EWOULDBLOCK : EADDRNOTAVAIL; } int Close() override { if (socket_) { return socket_->Close(); } if (detect_) { detect_->Destroy(false); detect_ = NULL; } return 0; } ConnState GetState() const override { if (socket_) { return socket_->GetState(); } return detect_ ? CS_CONNECTING : CS_CLOSED; } private: // AutoDetectProxy Slots void OnProxyDetectionComplete(SignalThread* thread) { ASSERT(detect_ == thread); Attach(factory_->CreateProxySocket(detect_->proxy(), family_, type_)); detect_->Release(); detect_ = NULL; if (0 == AsyncSocketAdapter::Connect(remote_)) { SignalConnectEvent(this); } else if (!IsBlockingError(socket_->GetError())) { SignalCloseEvent(this, socket_->GetError()); } } SslSocketFactory* factory_; int family_; int type_; SocketAddress remote_; AutoDetectProxy* detect_; }; /////////////////////////////////////////////////////////////////////////////// // SslSocketFactory /////////////////////////////////////////////////////////////////////////////// SslSocketFactory::SslSocketFactory(SocketFactory* factory, const std::string& user_agent) : factory_(factory), agent_(user_agent), autodetect_proxy_(true), force_connect_(false), logging_level_(LS_VERBOSE), binary_mode_(false), ignore_bad_cert_(false) { } SslSocketFactory::~SslSocketFactory() = default; Socket* SslSocketFactory::CreateSocket(int type) { return CreateSocket(AF_INET, type); } Socket* SslSocketFactory::CreateSocket(int family, int type) { return factory_->CreateSocket(family, type); } AsyncSocket* SslSocketFactory::CreateAsyncSocket(int type) { return CreateAsyncSocket(AF_INET, type); } AsyncSocket* SslSocketFactory::CreateAsyncSocket(int family, int type) { if (autodetect_proxy_) { return new ProxySocketAdapter(this, family, type); } else { return CreateProxySocket(proxy_, family, type); } } AsyncSocket* SslSocketFactory::CreateProxySocket(const ProxyInfo& proxy, int family, int type) { AsyncSocket* socket = factory_->CreateAsyncSocket(family, type); if (!socket) return NULL; // Binary logging happens at the lowest level if (!logging_label_.empty() && binary_mode_) { socket = new LoggingSocketAdapter(socket, logging_level_, logging_label_.c_str(), binary_mode_); } if (proxy.type) { AsyncSocket* proxy_socket = 0; if (proxy_.type == PROXY_SOCKS5) { proxy_socket = new AsyncSocksProxySocket(socket, proxy.address, proxy.username, proxy.password); } else { // Note: we are trying unknown proxies as HTTPS currently AsyncHttpsProxySocket* http_proxy = new AsyncHttpsProxySocket(socket, agent_, proxy.address, proxy.username, proxy.password); http_proxy->SetForceConnect(force_connect_ || !hostname_.empty()); proxy_socket = http_proxy; } if (!proxy_socket) { delete socket; return NULL; } socket = proxy_socket; // for our purposes the proxy is now the socket } if (!hostname_.empty()) { std::unique_ptr ssl_adapter(SSLAdapter::Create(socket)); if (!ssl_adapter) { LOG_F(LS_ERROR) << "SSL unavailable"; delete socket; return NULL; } ssl_adapter->set_ignore_bad_cert(ignore_bad_cert_); if (ssl_adapter->StartSSL(hostname_.c_str(), true) != 0) { LOG_F(LS_ERROR) << "SSL failed to start."; return NULL; } socket = ssl_adapter.release(); } // Regular logging occurs at the highest level if (!logging_label_.empty() && !binary_mode_) { socket = new LoggingSocketAdapter(socket, logging_level_, logging_label_.c_str(), binary_mode_); } return socket; } /////////////////////////////////////////////////////////////////////////////// } // namespace rtc