/* * 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 #include "webrtc/base/httpcommon-inl.h" #include "webrtc/base/asyncsocket.h" #include "webrtc/base/common.h" #include "webrtc/base/httpserver.h" #include "webrtc/base/logging.h" #include "webrtc/base/socketstream.h" #include "webrtc/base/thread.h" namespace rtc { /////////////////////////////////////////////////////////////////////////////// // HttpServer /////////////////////////////////////////////////////////////////////////////// HttpServer::HttpServer() : next_connection_id_(1), closing_(false) { } HttpServer::~HttpServer() { if (closing_) { LOG(LS_WARNING) << "HttpServer::CloseAll has not completed"; } for (ConnectionMap::iterator it = connections_.begin(); it != connections_.end(); ++it) { StreamInterface* stream = it->second->EndProcess(); delete stream; delete it->second; } } int HttpServer::HandleConnection(StreamInterface* stream) { int connection_id = next_connection_id_++; ASSERT(connection_id != HTTP_INVALID_CONNECTION_ID); Connection* connection = new Connection(connection_id, this); connections_.insert(ConnectionMap::value_type(connection_id, connection)); connection->BeginProcess(stream); return connection_id; } void HttpServer::Respond(HttpServerTransaction* transaction) { int connection_id = transaction->connection_id(); if (Connection* connection = Find(connection_id)) { connection->Respond(transaction); } else { delete transaction; // We may be tempted to SignalHttpComplete, but that implies that a // connection still exists. } } void HttpServer::Close(int connection_id, bool force) { if (Connection* connection = Find(connection_id)) { connection->InitiateClose(force); } } void HttpServer::CloseAll(bool force) { if (connections_.empty()) { SignalCloseAllComplete(this); return; } closing_ = true; std::list connections; for (ConnectionMap::const_iterator it = connections_.begin(); it != connections_.end(); ++it) { connections.push_back(it->second); } for (std::list::const_iterator it = connections.begin(); it != connections.end(); ++it) { (*it)->InitiateClose(force); } } HttpServer::Connection* HttpServer::Find(int connection_id) { ConnectionMap::iterator it = connections_.find(connection_id); if (it == connections_.end()) return NULL; return it->second; } void HttpServer::Remove(int connection_id) { ConnectionMap::iterator it = connections_.find(connection_id); if (it == connections_.end()) { ASSERT(false); return; } Connection* connection = it->second; connections_.erase(it); SignalConnectionClosed(this, connection_id, connection->EndProcess()); delete connection; if (closing_ && connections_.empty()) { closing_ = false; SignalCloseAllComplete(this); } } /////////////////////////////////////////////////////////////////////////////// // HttpServer::Connection /////////////////////////////////////////////////////////////////////////////// HttpServer::Connection::Connection(int connection_id, HttpServer* server) : connection_id_(connection_id), server_(server), current_(NULL), signalling_(false), close_(false) { } HttpServer::Connection::~Connection() { // It's possible that an object hosted inside this transaction signalled // an event which caused the connection to close. Thread::Current()->Dispose(current_); } void HttpServer::Connection::BeginProcess(StreamInterface* stream) { base_.notify(this); base_.attach(stream); current_ = new HttpServerTransaction(connection_id_); if (base_.mode() != HM_CONNECT) base_.recv(¤t_->request); } StreamInterface* HttpServer::Connection::EndProcess() { base_.notify(NULL); base_.abort(HE_DISCONNECTED); return base_.detach(); } void HttpServer::Connection::Respond(HttpServerTransaction* transaction) { ASSERT(current_ == NULL); current_ = transaction; if (current_->response.begin() == current_->response.end()) { current_->response.set_error(HC_INTERNAL_SERVER_ERROR); } bool keep_alive = HttpShouldKeepAlive(current_->request); current_->response.setHeader(HH_CONNECTION, keep_alive ? "Keep-Alive" : "Close", false); close_ = !HttpShouldKeepAlive(current_->response); base_.send(¤t_->response); } void HttpServer::Connection::InitiateClose(bool force) { bool request_in_progress = (HM_SEND == base_.mode()) || (NULL == current_); if (!signalling_ && (force || !request_in_progress)) { server_->Remove(connection_id_); } else { close_ = true; } } // // IHttpNotify Implementation // HttpError HttpServer::Connection::onHttpHeaderComplete(bool chunked, size_t& data_size) { if (data_size == SIZE_UNKNOWN) { data_size = 0; } ASSERT(current_ != NULL); bool custom_document = false; server_->SignalHttpRequestHeader(server_, current_, &custom_document); if (!custom_document) { current_->request.document.reset(new MemoryStream); } return HE_NONE; } void HttpServer::Connection::onHttpComplete(HttpMode mode, HttpError err) { if (mode == HM_SEND) { ASSERT(current_ != NULL); signalling_ = true; server_->SignalHttpRequestComplete(server_, current_, err); signalling_ = false; if (close_) { // Force a close err = HE_DISCONNECTED; } } if (err != HE_NONE) { server_->Remove(connection_id_); } else if (mode == HM_CONNECT) { base_.recv(¤t_->request); } else if (mode == HM_RECV) { ASSERT(current_ != NULL); // TODO: do we need this? //request_.document_->rewind(); HttpServerTransaction* transaction = current_; current_ = NULL; server_->SignalHttpRequest(server_, transaction); } else if (mode == HM_SEND) { Thread::Current()->Dispose(current_->response.document.release()); current_->request.clear(true); current_->response.clear(true); base_.recv(¤t_->request); } else { ASSERT(false); } } void HttpServer::Connection::onHttpClosed(HttpError err) { RTC_UNUSED(err); server_->Remove(connection_id_); } /////////////////////////////////////////////////////////////////////////////// // HttpListenServer /////////////////////////////////////////////////////////////////////////////// HttpListenServer::HttpListenServer() { SignalConnectionClosed.connect(this, &HttpListenServer::OnConnectionClosed); } HttpListenServer::~HttpListenServer() { } int HttpListenServer::Listen(const SocketAddress& address) { AsyncSocket* sock = Thread::Current()->socketserver()->CreateAsyncSocket(address.family(), SOCK_STREAM); if (!sock) { return SOCKET_ERROR; } listener_.reset(sock); listener_->SignalReadEvent.connect(this, &HttpListenServer::OnReadEvent); if ((listener_->Bind(address) != SOCKET_ERROR) && (listener_->Listen(5) != SOCKET_ERROR)) return 0; return listener_->GetError(); } bool HttpListenServer::GetAddress(SocketAddress* address) const { if (!listener_) { return false; } *address = listener_->GetLocalAddress(); return !address->IsNil(); } void HttpListenServer::StopListening() { if (listener_) { listener_->Close(); } } void HttpListenServer::OnReadEvent(AsyncSocket* socket) { ASSERT(socket == listener_.get()); ASSERT(listener_); AsyncSocket* incoming = listener_->Accept(NULL); if (incoming) { StreamInterface* stream = new SocketStream(incoming); //stream = new LoggingAdapter(stream, LS_VERBOSE, "HttpServer", false); HandleConnection(stream); } } void HttpListenServer::OnConnectionClosed(HttpServer* server, int connection_id, StreamInterface* stream) { Thread::Current()->Dispose(stream); } /////////////////////////////////////////////////////////////////////////////// } // namespace rtc