/* * Copyright 2004 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 "webrtc/base/autodetectproxy.h" #include "webrtc/base/httpcommon.h" #include "webrtc/base/httpcommon-inl.h" #include "webrtc/base/nethelpers.h" namespace rtc { static const ProxyType TEST_ORDER[] = { PROXY_HTTPS, PROXY_SOCKS5, PROXY_UNKNOWN }; static const int kSavedStringLimit = 128; static void SaveStringToStack(char *dst, const std::string &src, size_t dst_size) { strncpy(dst, src.c_str(), dst_size - 1); dst[dst_size - 1] = '\0'; } AutoDetectProxy::AutoDetectProxy(const std::string& user_agent) : agent_(user_agent), resolver_(NULL), socket_(NULL), next_(0) { } bool AutoDetectProxy::GetProxyForUrl(const char* agent, const char* url, rtc::ProxyInfo* proxy) { return GetProxySettingsForUrl(agent, url, proxy, true); } AutoDetectProxy::~AutoDetectProxy() { if (resolver_) { resolver_->Destroy(false); } } void AutoDetectProxy::DoWork() { // TODO: Try connecting to server_url without proxy first here? if (!server_url_.empty()) { LOG(LS_INFO) << "GetProxySettingsForUrl(" << server_url_ << ") - start"; GetProxyForUrl(agent_.c_str(), server_url_.c_str(), &proxy_); LOG(LS_INFO) << "GetProxySettingsForUrl - stop"; } Url url(proxy_.address.HostAsURIString()); if (url.valid()) { LOG(LS_WARNING) << "AutoDetectProxy removing http prefix on proxy host"; proxy_.address.SetIP(url.host()); } LOG(LS_INFO) << "AutoDetectProxy found proxy at " << proxy_.address; if (proxy_.type == PROXY_UNKNOWN) { LOG(LS_INFO) << "AutoDetectProxy initiating proxy classification"; Next(); // Process I/O until Stop() Thread::Current()->ProcessMessages(Thread::kForever); // Clean up the autodetect socket, from the thread that created it delete socket_; } // TODO: If we found a proxy, try to use it to verify that it // works by sending a request to server_url. This could either be // done here or by the HttpPortAllocator. } void AutoDetectProxy::OnMessage(Message *msg) { if (MSG_UNRESOLVABLE == msg->message_id) { // If we can't resolve the proxy, skip straight to failure. Complete(PROXY_UNKNOWN); } else if (MSG_TIMEOUT == msg->message_id) { OnCloseEvent(socket_, ETIMEDOUT); } else { // This must be the ST_MSG_WORKER_DONE message that deletes the // AutoDetectProxy object. We have observed crashes within this stack that // seem to be highly reproducible for a small subset of users and thus are // probably correlated with a specific proxy setting, so copy potentially // relevant information onto the stack to make it available in Windows // minidumps. // Save the user agent and the number of auto-detection passes that we // needed. char agent[kSavedStringLimit]; SaveStringToStack(agent, agent_, sizeof agent); int next = next_; // Now the detected proxy config (minus the password field, which could be // sensitive). ProxyType type = proxy().type; char address_hostname[kSavedStringLimit]; SaveStringToStack(address_hostname, proxy().address.hostname(), sizeof address_hostname); IPAddress address_ip = proxy().address.ipaddr(); uint16_t address_port = proxy().address.port(); char autoconfig_url[kSavedStringLimit]; SaveStringToStack(autoconfig_url, proxy().autoconfig_url, sizeof autoconfig_url); bool autodetect = proxy().autodetect; char bypass_list[kSavedStringLimit]; SaveStringToStack(bypass_list, proxy().bypass_list, sizeof bypass_list); char username[kSavedStringLimit]; SaveStringToStack(username, proxy().username, sizeof username); SignalThread::OnMessage(msg); // Log the gathered data at a log level that will never actually be enabled // so that the compiler is forced to retain the data on the stack. LOG(LS_SENSITIVE) << agent << " " << next << " " << type << " " << address_hostname << " " << address_ip << " " << address_port << " " << autoconfig_url << " " << autodetect << " " << bypass_list << " " << username; } } void AutoDetectProxy::OnResolveResult(AsyncResolverInterface* resolver) { if (resolver != resolver_) { return; } int error = resolver_->GetError(); if (error == 0) { LOG(LS_VERBOSE) << "Resolved " << proxy_.address << " to " << resolver_->address(); proxy_.address = resolver_->address(); if (!DoConnect()) { Thread::Current()->Post(this, MSG_TIMEOUT); } } else { LOG(LS_INFO) << "Failed to resolve " << resolver_->address(); resolver_->Destroy(false); resolver_ = NULL; proxy_.address = SocketAddress(); Thread::Current()->Post(this, MSG_UNRESOLVABLE); } } void AutoDetectProxy::Next() { if (TEST_ORDER[next_] >= PROXY_UNKNOWN) { Complete(PROXY_UNKNOWN); return; } LOG(LS_VERBOSE) << "AutoDetectProxy connecting to " << proxy_.address.ToSensitiveString(); if (socket_) { Thread::Current()->Clear(this, MSG_TIMEOUT); Thread::Current()->Clear(this, MSG_UNRESOLVABLE); socket_->Close(); Thread::Current()->Dispose(socket_); socket_ = NULL; } int timeout = 2000; if (proxy_.address.IsUnresolvedIP()) { // Launch an asyncresolver. This thread will spin waiting for it. timeout += 2000; if (!resolver_) { resolver_ = new AsyncResolver(); } resolver_->SignalDone.connect(this, &AutoDetectProxy::OnResolveResult); resolver_->Start(proxy_.address); } else { if (!DoConnect()) { Thread::Current()->Post(this, MSG_TIMEOUT); return; } } Thread::Current()->PostDelayed(timeout, this, MSG_TIMEOUT); } bool AutoDetectProxy::DoConnect() { if (resolver_) { resolver_->Destroy(false); resolver_ = NULL; } socket_ = Thread::Current()->socketserver()->CreateAsyncSocket( proxy_.address.family(), SOCK_STREAM); if (!socket_) { LOG(LS_VERBOSE) << "Unable to create socket for " << proxy_.address; return false; } socket_->SignalConnectEvent.connect(this, &AutoDetectProxy::OnConnectEvent); socket_->SignalReadEvent.connect(this, &AutoDetectProxy::OnReadEvent); socket_->SignalCloseEvent.connect(this, &AutoDetectProxy::OnCloseEvent); socket_->Connect(proxy_.address); return true; } void AutoDetectProxy::Complete(ProxyType type) { Thread::Current()->Clear(this, MSG_TIMEOUT); Thread::Current()->Clear(this, MSG_UNRESOLVABLE); if (socket_) { socket_->Close(); } proxy_.type = type; LoggingSeverity sev = (proxy_.type == PROXY_UNKNOWN) ? LS_ERROR : LS_INFO; LOG_V(sev) << "AutoDetectProxy detected " << proxy_.address.ToSensitiveString() << " as type " << proxy_.type; Thread::Current()->Quit(); } void AutoDetectProxy::OnConnectEvent(AsyncSocket * socket) { std::string probe; switch (TEST_ORDER[next_]) { case PROXY_HTTPS: probe.assign("CONNECT www.google.com:443 HTTP/1.0\r\n" "User-Agent: "); probe.append(agent_); probe.append("\r\n" "Host: www.google.com\r\n" "Content-Length: 0\r\n" "Proxy-Connection: Keep-Alive\r\n" "\r\n"); break; case PROXY_SOCKS5: probe.assign("\005\001\000", 3); break; default: ASSERT(false); return; } LOG(LS_VERBOSE) << "AutoDetectProxy probing type " << TEST_ORDER[next_] << " sending " << probe.size() << " bytes"; socket_->Send(probe.data(), probe.size()); } void AutoDetectProxy::OnReadEvent(AsyncSocket * socket) { char data[257]; int len = socket_->Recv(data, 256); if (len > 0) { data[len] = 0; LOG(LS_VERBOSE) << "AutoDetectProxy read " << len << " bytes"; } switch (TEST_ORDER[next_]) { case PROXY_HTTPS: if ((len >= 2) && (data[0] == '\x05')) { Complete(PROXY_SOCKS5); return; } if ((len >= 5) && (strncmp(data, "HTTP/", 5) == 0)) { Complete(PROXY_HTTPS); return; } break; case PROXY_SOCKS5: if ((len >= 2) && (data[0] == '\x05')) { Complete(PROXY_SOCKS5); return; } break; default: ASSERT(false); return; } ++next_; Next(); } void AutoDetectProxy::OnCloseEvent(AsyncSocket * socket, int error) { LOG(LS_VERBOSE) << "AutoDetectProxy closed with error: " << error; ++next_; Next(); } } // namespace rtc