// ************************************************************************** /** @class Connection @brief Maintains an ansynchronous TCP/IP client connection */ // ************************************************************************** #include "Connection.h" #include #include using namespace std; namespace ba = boost::asio; namespace bs = boost::system; namespace dummy = ba::placeholders; using boost::lexical_cast; using ba::ip::tcp; // -------- Abbreviations for starting async tasks --------- int Connection::Write(const Time &t, const string &txt, int qos) { if (fLog) return fLog->Write(t, txt, qos); return MessageImp::Write(t, txt, qos); } void Connection::AsyncRead(const ba::mutable_buffers_1 buffers, int type) { ba::async_read(*this, buffers, boost::bind(&Connection::HandleReceivedData, this, dummy::error, dummy::bytes_transferred, type)); } void Connection::AsyncWrite(const ba::const_buffers_1 &buffers) { ba::async_write(*this, buffers, boost::bind(&Connection::HandleSentData, this, dummy::error, dummy::bytes_transferred)); } void Connection::AsyncWait(ba::deadline_timer &timer, int millisec, void (Connection::*handler)(const bs::error_code&)) { // - The boost::asio::basic_deadline_timer::expires_from_now() // function cancels any pending asynchronous waits, and returns // the number of asynchronous waits that were cancelled. If it // returns 0 then you were too late and the wait handler has // already been executed, or will soon be executed. If it // returns 1 then the wait handler was successfully cancelled. // - If a wait handler is cancelled, the bs::error_code passed to // it contains the value bs::error::operation_aborted. timer.expires_from_now(boost::posix_time::milliseconds(millisec)); timer.async_wait(boost::bind(handler, this, dummy::error)); } void Connection::AsyncConnect(tcp::resolver::iterator iterator) { tcp::endpoint endpoint = *iterator; // AsyncConnect + Deadline async_connect(endpoint, boost::bind(&Connection::ConnectImp, this, ba::placeholders::error, iterator)); // We will get a "Connection timeout anyway" //AsyncWait(fConnectTimeout, 5, &Connection::HandleConnectTimeout); } // ------------------------ close -------------------------- // close from another thread void Connection::CloseImp(bool restart) { if (IsConnected()) { stringstream str; str << "Connection closed to " << URL() << "."; Message(str); } // Stop any pending connection attempt fConnectionTimer.cancel(); // Close possible open connections close(); // Reset the connection status fConnectionStatus = kDisconnected; // Stop deadline counters fInTimeout.cancel(); fOutTimeout.cancel(); // Empty output queue fOutQueue.clear(); if (!restart || IsConnecting()) return; // We need some timeout before reconnecting! // And we have to check if we are alreayd trying to connect // We shoudl wait until all operations in progress were canceled // Start trying to reconnect fMsgConnect = ""; fErrConnect = ""; StartConnect(); } void Connection::PostClose(bool restart) { get_io_service().post(boost::bind(&Connection::CloseImp, this, restart)); } // ------------------------ write -------------------------- void Connection::HandleWriteTimeout(const bs::error_code &error) { // 125: Operation canceled (bs::error_code(125, bs::system_category)) if (error && error!=ba::error::basic_errors::operation_aborted) { stringstream str; str << "Write timeout of " << URL() << ": " << error.message() << " (" << error << ")";// << endl; Error(str); CloseImp(); return; } if (!is_open()) { // For example: Here we could schedule a new accept if we // would not want to allow two connections at the same time. return; } // Check whether the deadline has passed. We compare the deadline // against the current time since a new asynchronous operation // may have moved the deadline before this actor had a chance // to run. if (fOutTimeout.expires_at() > ba::deadline_timer::traits_type::now()) return; Error("fOutTimeout has expired, writing data to "+URL()); CloseImp(); } void Connection::HandleSentData(const bs::error_code& error, size_t n) { if (error) { stringstream str; str << "Writing to " << URL() << ": " << error.message() << " (" << error << ")";// << endl; Error(str); CloseImp(); return; } stringstream msg; msg << n << " bytes successfully sent to " << URL(); Message(msg); // This is "thread" safe because SendMessage and HandleSentMessage // are serialized in the EventQueue. Note: Do not call these // functions directly from any other place then Handlers, use // PostMessage instead fOutQueue.pop_front(); if (fOutQueue.empty()) { // Queue went empty, remove deadline fOutTimeout.cancel(); return; } // AsyncWrite + Deadline AsyncWrite(ba::const_buffers_1(fOutQueue.front().data(), fOutQueue.front().size())/*, &Connection::HandleSentData*/); AsyncWait(fOutTimeout, 5000, &Connection::HandleWriteTimeout); } // It is important that when SendMessageImp is called, or to be more // precise boost::bind is called, teh data is copied! void Connection::SendMessageImp(const vector msg) { /* if (!fConnectionEstablished) { UpdateWarn("SendMessageImp, but no connection to "+fAddress+":"+fPort+"."); return; }*/ const bool first_message_in_queue = fOutQueue.empty(); // This is "thread" safe because SendMessage and HandleSentMessage // are serialized in the EventQueue. Note: Do not call these // functions directly from any other place then Handlers, use // PostMessage instead fOutQueue.push_back(msg); if (!first_message_in_queue) return; // AsyncWrite + Deadline AsyncWrite(ba::const_buffers_1(fOutQueue.front().data(), fOutQueue.front().size())/*, &Connection::HandleSentData*/); AsyncWait(fOutTimeout, 5000, &Connection::HandleWriteTimeout); } void Connection::PostMessage(const void *ptr, size_t max) { const vector msg(reinterpret_cast(ptr), reinterpret_cast(ptr)+max); get_io_service().post(boost::bind(&Connection::SendMessageImp, this, msg)); } void Connection::PostMessage(const string &cmd, size_t max) { if (max==size_t(-1)) max = cmd.length()+1; vector msg(max); copy(cmd.begin(), cmd.begin()+min(cmd.length()+1, max), msg.begin()); PostMessage(msg); } void Connection::HandleConnectionTimer(const bs::error_code &error) { // 125: Operation canceled if (error && error!=ba::error::basic_errors::operation_aborted) { stringstream str; str << "Connetion timer of " << URL() << ": " << error.message() << " (" << error << ")";// << endl; Error(str); } if (is_open()) { // For example: Here we could schedule a new accept if we // would not want to allow two connections at the same time. return; } // Check whether the deadline has passed. We compare the deadline // against the current time since a new asynchronous operation // may have moved the deadline before this actor had a chance // to run. if (fConnectionTimer.expires_at() < ba::deadline_timer::traits_type::now()) StartConnect(); } void Connection::ConnectImp(const bs::error_code& error, tcp::resolver::iterator iterator) { tcp::endpoint endpoint = *iterator; const string host = endpoint.port()==0 ? "" : endpoint.address().to_string()+":"+lexical_cast(endpoint.port()); // Connection established if (!error) { Message("Connection established to "+host+"..."); fConnectionStatus = kConnected; ConnectionEstablished(); return; } // If returning from run will lead to deletion of this // instance, close() is not needed (maybe implicitly called). // If run is called again, close() is needed here. Otherwise: // Software caused connection abort when we try to resolve // the endpoint again. CloseImp(false); stringstream msg; if (!host.empty()) msg << "Connecting to " << host << ": " << error.message() << " (" << error << ")"; if (fErrConnect!=msg.str()) { if (error!=ba::error::basic_errors::connection_refused) fMsgConnect = ""; fErrConnect = msg.str(); Warn(fErrConnect); } // Go on with the next if (++iterator != tcp::resolver::iterator()) { AsyncConnect(iterator); return; } // No more entries to try, if we would not put anything else // into the queue anymore it would now return (run() would return) // Since we don't want to block the main loop, we wait using an // asnychronous timer // FIXME: Should we move this before AsyncConnect() ? AsyncWait(fConnectionTimer, 250, &Connection::HandleConnectionTimer); } // FIXME: Async connect should get address and port as an argument void Connection::StartConnect() { fConnectionStatus = kConnecting; tcp::resolver resolver(get_io_service()); boost::system::error_code ec; tcp::resolver::query query(fAddress, fPort); tcp::resolver::iterator iterator = resolver.resolve(query, ec); stringstream msg; if (!fAddress.empty() || !fPort.empty() || ec) msg << "Trying to connect to " << URL() << "..."; if (ec) msg << " " << ec.message() << " (" << ec << ")"; // Only output message if it has changed if (fMsgConnect!=msg.str()) { fMsgConnect = msg.str(); ec ? Error(msg) : Message(msg); } if (ec) AsyncWait(fConnectionTimer, 250, &Connection::HandleConnectionTimer); else // Start connection attempts (will also reset deadline counter) AsyncConnect(iterator); } void Connection::SetEndpoint(const string &addr, int port) { if (fConnectionStatus>=1) Warn("Connection or connection attempt in progress. New endpoint only valid for next connection."); fAddress = addr; fPort = lexical_cast(port); } void Connection::SetEndpoint(const string &addr, const string &port) { if (fConnectionStatus>=1 && URL()!=":") Warn("Connection or connection attempt in progress. New endpoint only valid for next connection."); fAddress = addr; fPort = port; } void Connection::SetEndpoint(const string &addr) { const size_t p0 = addr.find_first_of(':'); const size_t p1 = addr.find_last_of(':'); if (p0==string::npos || p0!=p1) { Error("Connection::SetEndPoint - Wrong format of argument ('host:port' expected)"); return; } SetEndpoint(addr.substr(0, p0), addr.substr(p0+1)); } Connection::Connection(ba::io_service& ioservice, ostream &out) : MessageImp(out), tcp::socket(ioservice), fLog(0), fInTimeout(ioservice), fOutTimeout(ioservice), fConnectionTimer(ioservice), fConnectionStatus(kDisconnected) { }