// Copyright (c) 2012 The Chromium Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. #include "net/tools/quic/quic_server.h" #include #include #include #include #include #include #include "net/base/ip_endpoint.h" #include "net/quic/congestion_control/tcp_receiver.h" #include "net/quic/crypto/crypto_handshake.h" #include "net/quic/crypto/quic_random.h" #include "net/quic/quic_clock.h" #include "net/quic/quic_crypto_stream.h" #include "net/quic/quic_data_reader.h" #include "net/quic/quic_protocol.h" #include "net/tools/quic/quic_dispatcher.h" #include "net/tools/quic/quic_in_memory_cache.h" #include "net/tools/quic/quic_socket_utils.h" #define MMSG_MORE 0 #ifndef SO_RXQ_OVFL #define SO_RXQ_OVFL 40 #endif namespace net { namespace tools { namespace { const int kEpollFlags = EPOLLIN | EPOLLOUT | EPOLLET; const char kSourceAddressTokenSecret[] = "secret"; const uint32 kServerInitialFlowControlWindow = 100 * net::kMaxPacketSize; } // namespace QuicServer::QuicServer() : port_(0), fd_(-1), packets_dropped_(0), overflow_supported_(false), use_recvmmsg_(false), crypto_config_(kSourceAddressTokenSecret, QuicRandom::GetInstance()), supported_versions_(QuicSupportedVersions()) { // Use hardcoded crypto parameters for now. config_.SetDefaults(); Initialize(); } QuicServer::QuicServer(const QuicConfig& config, const QuicVersionVector& supported_versions) : port_(0), fd_(-1), packets_dropped_(0), overflow_supported_(false), use_recvmmsg_(false), config_(config), crypto_config_(kSourceAddressTokenSecret, QuicRandom::GetInstance()), supported_versions_(supported_versions) { Initialize(); } void QuicServer::Initialize() { #if MMSG_MORE use_recvmmsg_ = true; #endif epoll_server_.set_timeout_in_us(50 * 1000); // Initialize the in memory cache now. QuicInMemoryCache::GetInstance(); QuicEpollClock clock(&epoll_server_); scoped_ptr scfg( crypto_config_.AddDefaultConfig( QuicRandom::GetInstance(), &clock, QuicCryptoServerConfig::ConfigOptions())); // Set flow control options in the config. config_.SetInitialCongestionWindowToSend(kServerInitialFlowControlWindow); } QuicServer::~QuicServer() { } bool QuicServer::Listen(const IPEndPoint& address) { port_ = address.port(); int address_family = address.GetSockAddrFamily(); fd_ = socket(address_family, SOCK_DGRAM | SOCK_NONBLOCK, IPPROTO_UDP); if (fd_ < 0) { LOG(ERROR) << "CreateSocket() failed: " << strerror(errno); return false; } // Enable the socket option that allows the local address to be // returned if the socket is bound to more than one address. int rc = QuicSocketUtils::SetGetAddressInfo(fd_, address_family); if (rc < 0) { LOG(ERROR) << "IP detection not supported" << strerror(errno); return false; } int get_overflow = 1; rc = setsockopt( fd_, SOL_SOCKET, SO_RXQ_OVFL, &get_overflow, sizeof(get_overflow)); if (rc < 0) { DLOG(WARNING) << "Socket overflow detection not supported"; } else { overflow_supported_ = true; } // These send and receive buffer sizes are sized for a single connection, // because the default usage of QuicServer is as a test server with one or // two clients. Adjust higher for use with many clients. if (!QuicSocketUtils::SetReceiveBufferSize(fd_, TcpReceiver::kReceiveWindowTCP)) { return false; } if (!QuicSocketUtils::SetSendBufferSize(fd_, TcpReceiver::kReceiveWindowTCP)) { return false; } sockaddr_storage raw_addr; socklen_t raw_addr_len = sizeof(raw_addr); CHECK(address.ToSockAddr(reinterpret_cast(&raw_addr), &raw_addr_len)); rc = bind(fd_, reinterpret_cast(&raw_addr), sizeof(raw_addr)); if (rc < 0) { LOG(ERROR) << "Bind failed: " << strerror(errno); return false; } DVLOG(1) << "Listening on " << address.ToString(); if (port_ == 0) { SockaddrStorage storage; IPEndPoint server_address; if (getsockname(fd_, storage.addr, &storage.addr_len) != 0 || !server_address.FromSockAddr(storage.addr, storage.addr_len)) { LOG(ERROR) << "Unable to get self address. Error: " << strerror(errno); return false; } port_ = server_address.port(); DVLOG(1) << "Kernel assigned port is " << port_; } epoll_server_.RegisterFD(fd_, this, kEpollFlags); dispatcher_.reset(CreateQuicDispatcher()); dispatcher_->Initialize(fd_); return true; } QuicDispatcher* QuicServer::CreateQuicDispatcher() { return new QuicDispatcher( config_, crypto_config_, supported_versions_, new QuicDispatcher::DefaultPacketWriterFactory(), &epoll_server_); } void QuicServer::WaitForEvents() { epoll_server_.WaitForEventsAndExecuteCallbacks(); } void QuicServer::Shutdown() { // Before we shut down the epoll server, give all active sessions a chance to // notify clients that they're closing. dispatcher_->Shutdown(); close(fd_); fd_ = -1; } void QuicServer::OnEvent(int fd, EpollEvent* event) { DCHECK_EQ(fd, fd_); event->out_ready_mask = 0; if (event->in_events & EPOLLIN) { DVLOG(1) << "EPOLLIN"; bool read = true; while (read) { read = ReadAndDispatchSinglePacket( fd_, port_, dispatcher_.get(), overflow_supported_ ? &packets_dropped_ : NULL); } } if (event->in_events & EPOLLOUT) { dispatcher_->OnCanWrite(); if (dispatcher_->HasPendingWrites()) { event->out_ready_mask |= EPOLLOUT; } } if (event->in_events & EPOLLERR) { } } /* static */ bool QuicServer::ReadAndDispatchSinglePacket(int fd, int port, ProcessPacketInterface* processor, uint32* packets_dropped) { // Allocate some extra space so we can send an error if the client goes over // the limit. char buf[2 * kMaxPacketSize]; IPEndPoint client_address; IPAddressNumber server_ip; int bytes_read = QuicSocketUtils::ReadPacket(fd, buf, arraysize(buf), packets_dropped, &server_ip, &client_address); if (bytes_read < 0) { return false; // We failed to read. } QuicEncryptedPacket packet(buf, bytes_read, false); IPEndPoint server_address(server_ip, port); processor->ProcessPacket(server_address, client_address, packet); return true; } } // namespace tools } // namespace net