Пример #1
0
  steady_clock::time_point steady_clock::now(system::error_code & ec)
  {
    timespec ts;
    if ( ::clock_gettime( CLOCK_MONOTONIC, &ts ) )
    {
        if (BOOST_CHRONO_IS_THROWS(ec))
        {
            boost::throw_exception(
                    system::system_error( 
                            errno, 
                            BOOST_CHRONO_SYSTEM_CATEGORY, 
                            "chrono::steady_clock" ));
        }
        else
        {
            ec.assign( errno, BOOST_CHRONO_SYSTEM_CATEGORY );
            return time_point();
        }
    }

    if (!BOOST_CHRONO_IS_THROWS(ec)) 
    {
        ec.clear();
    }
    return time_point(duration(
      static_cast<steady_clock::rep>( ts.tv_sec ) * 1000000000 + ts.tv_nsec));
  }
Пример #2
0
    void process_clock::now( process_times & times_, system::error_code & ec ) {

        tms tm;
        clock_t c = ::times( &tm );
        if ( c == clock_t(-1) ) // error
        {
            if (BOOST_CHRONO_IS_THROWS(ec))
            {
                boost::throw_exception(
                        system::system_error( 
                                errno, 
                                BOOST_CHRONO_SYSTEM_CATEGORY, 
                                "chrono::process_clock" ));
            }
            else
            {
                ec.assign( errno, BOOST_CHRONO_SYSTEM_CATEGORY );
                times_.real = times_.system = times_.user = nanoseconds(-1);
            }
        }
        else
        {
            times_.real = microseconds(c);
            times_.system = microseconds(tm.tms_stime + tm.tms_cstime);
            times_.user = microseconds(tm.tms_utime + tm.tms_cutime);
            if ( chrono_detail::tick_factor() != -1 )
            {
                if (!BOOST_CHRONO_IS_THROWS(ec)) 
                {
                  ec.clear();
                }
                times_.real *= chrono_detail::tick_factor();
                times_.user *= chrono_detail::tick_factor();
                times_.system *= chrono_detail::tick_factor();
            }
            else
            {
                if (BOOST_CHRONO_IS_THROWS(ec))
                {
                    boost::throw_exception(
                            system::system_error( 
                                    errno, 
                                    BOOST_CHRONO_SYSTEM_CATEGORY, 
                                    "chrono::process_clock" ));
                }
                else
                {
                    ec.assign( errno, BOOST_CHRONO_SYSTEM_CATEGORY );
                    times_.real = times_.user = times_.system = nanoseconds(-1);
                }
            }
        }

    }
Пример #3
0
process_cpu_clock::time_point process_cpu_clock::now( 
        system::error_code & ec ) 
{
    
    
    tms tm;
    clock_t c = ::times( &tm );
    if ( c == clock_t(-1) ) // error
    {
        if (BOOST_CHRONO_IS_THROWS(ec))
        {
            boost::throw_exception(
                    system::system_error( 
                            errno, 
                            BOOST_CHRONO_SYSTEM_CATEGORY, 
                            "chrono::process_clock" ));
        }
        else
        {
            ec.assign( errno, BOOST_CHRONO_SYSTEM_CATEGORY );
            return time_point();
        }
    }
    else
    {
        if ( chrono_detail::tick_factor() != -1 )
        {
            time_point::rep r(
                    c*chrono_detail::tick_factor(), 
                    (tm.tms_utime + tm.tms_cutime)*chrono_detail::tick_factor(), 
                    (tm.tms_stime + tm.tms_cstime)*chrono_detail::tick_factor());
            return time_point(duration(r));
        }
        else
        {
            if (BOOST_CHRONO_IS_THROWS(ec))
            {
                boost::throw_exception(
                        system::system_error( 
                                errno, 
                                BOOST_CHRONO_SYSTEM_CATEGORY, 
                                "chrono::process_clock" ));
            }
            else
            {
                ec.assign( errno, BOOST_CHRONO_SYSTEM_CATEGORY );
                return time_point();
            }
        }
    }
    
}
Пример #4
0
process_real_cpu_clock::time_point process_real_cpu_clock::now(
        system::error_code & ec) 
{
    
    tms tm;
    clock_t c = ::times( &tm );
    if ( c == clock_t(-1) ) // error
    {
        if (BOOST_CHRONO_IS_THROWS(ec))
        {
            boost::throw_exception(
                    system::system_error( 
                            errno, 
                            BOOST_CHRONO_SYSTEM_CATEGORY, 
                            "chrono::process_real_cpu_clock" ));
        }
        else
        {
            ec.assign( errno, BOOST_CHRONO_SYSTEM_CATEGORY );
            return time_point();
        }
    }
    else
    {
        if ( chrono_detail::tick_factor() != -1 )
        {
            if (!BOOST_CHRONO_IS_THROWS(ec)) 
            {
                ec.clear();
            }
            return time_point(
                    microseconds(c)*chrono_detail::tick_factor());
        }
        else
        {
            if (BOOST_CHRONO_IS_THROWS(ec))
            {
                boost::throw_exception(
                        system::system_error( 
                                errno, 
                                BOOST_CHRONO_SYSTEM_CATEGORY, 
                                "chrono::process_real_cpu_clock" ));
            }
            else
            {
                ec.assign( errno, BOOST_CHRONO_SYSTEM_CATEGORY );
                return time_point();
            }
        }
    }
}
Пример #5
0
process_cpu_clock::time_point process_cpu_clock::now( 
        system::error_code & ec ) 
{

    //  note that Windows uses 100 nanosecond ticks for FILETIME
    boost::detail::win32::FILETIME_ creation, exit, user_time, system_time;

  #ifdef UNDER_CE
  // Windows CE does not support GetProcessTimes
    assert( 0 && "GetProcessTimes not supported under Windows CE" );
  return time_point();
  #else
    if ( boost::detail::win32::GetProcessTimes(
            boost::detail::win32::GetCurrentProcess(), &creation, &exit,
            &system_time, &user_time ) )
    {
        if (!BOOST_CHRONO_IS_THROWS(ec)) 
        {
            ec.clear();
        }
        time_point::rep r(
                steady_clock::now().time_since_epoch().count(), 
                ((static_cast<process_user_cpu_clock::rep>(user_time.dwHighDateTime) << 32)
                        | user_time.dwLowDateTime
                ) * 100, 
                ((static_cast<process_system_cpu_clock::rep>(system_time.dwHighDateTime) << 32)
                        | system_time.dwLowDateTime
                ) * 100 
        );
        return time_point(duration(r));
    }
    else
    {
        boost::detail::win32::DWORD_ cause = boost::detail::win32::GetLastError();
        if (BOOST_CHRONO_IS_THROWS(ec)) 
        {
            boost::throw_exception(
                    system::system_error( 
                            cause, 
                            BOOST_CHRONO_SYSTEM_CATEGORY, 
                            "chrono::process_cpu_clock" ));
        } 
        else 
        {
            ec.assign( cause, BOOST_CHRONO_SYSTEM_CATEGORY );
            return time_point();
        }
    }
  #endif

}
Пример #6
0
process_cpu_clock::time_point process_cpu_clock::now(
        system::error_code & ec )
{
    tms tm;
    clock_t c = ::times( &tm );
    if ( c == clock_t(-1) ) // error
    {
        if (::boost::chrono::is_throws(ec))
        {
            boost::throw_exception(
                    system::system_error(
                            errno,
                            ::boost::system::system_category(),
                            "chrono::process_clock" ));
        }
        else
        {
            ec.assign( errno, ::boost::system::system_category() );
            return time_point();
        }
    }
    else
    {
        if ( chrono_detail::tick_factor() != -1 )
        {
            time_point::rep r(
                c*chrono_detail::tick_factor(),
                (tm.tms_utime + tm.tms_cutime)*chrono_detail::tick_factor(),
                (tm.tms_stime + tm.tms_cstime)*chrono_detail::tick_factor());
            return time_point(duration(r));
        }
        else
        {
            if (::boost::chrono::is_throws(ec))
            {
                boost::throw_exception(
                        system::system_error(
                                errno,
                                ::boost::system::system_category(),
                                "chrono::process_clock" ));
            }
            else
            {
                ec.assign( errno, ::boost::system::system_category() );
                return time_point();
            }
        }
    }

}
Пример #7
0
 inline
 void throw_system_error(system::error_code ec)
 {
     if (ec)
     {
         if (ec.category() == runtime_error_category())
         {
             throw runtime_system_error(ec, ec.message());
         }
         if (ec.category() == logic_error_category()) {
             throw logic_system_error(ec, ec.message());
         }
         throw system::system_error(ec, ec.message());
     }
 }
Пример #8
0
bool basic_io_device::would_block(system::error_code const &e)
{
	int code = e.value();
	bool block = 0
	#ifdef EAGAIN
	|| code==EAGAIN
	#endif
	#ifdef EINPROGRESS
	|| code == EINPROGRESS
	#endif
	#ifdef EWOULDBLOCK
	|| code == EWOULDBLOCK
	#endif
	#ifdef WSAEAGAIN
	|| code==WSAEAGAIN
	#endif
	#ifdef WSAEINPROGRESS
	|| code == WSAEINPROGRESS
	#endif
	#ifdef WSAEWOULDBLOCK
	|| code == WSAEWOULDBLOCK
	#endif
	;
	return block;
}
Пример #9
0
process_cpu_clock::time_point process_cpu_clock::now(
        system::error_code & ec )
{

    //  note that Windows uses 100 nanosecond ticks for FILETIME
    autoboost::detail::winapi::FILETIME_ creation, exit, user_time, system_time;

    if ( autoboost::detail::winapi::GetProcessTimes(
            autoboost::detail::winapi::GetCurrentProcess(), &creation, &exit,
            &system_time, &user_time ) )
    {
        if (!AUTOBOOST_CHRONO_IS_THROWS(ec))
        {
            ec.clear();
        }
        time_point::rep r(process_real_cpu_clock::now().time_since_epoch().count()
                            ,
                ((static_cast<process_user_cpu_clock::rep>(user_time.dwHighDateTime) << 32)
                        | user_time.dwLowDateTime
                ) * 100,
                ((static_cast<process_system_cpu_clock::rep>(system_time.dwHighDateTime) << 32)
                        | system_time.dwLowDateTime
                ) * 100
        );
        return time_point(duration(r));
    }
    else
    {
        autoboost::detail::winapi::DWORD_ cause = autoboost::detail::winapi::GetLastError();
        if (AUTOBOOST_CHRONO_IS_THROWS(ec))
        {
            autoboost::throw_exception(
                    system::system_error(
                            cause,
                            AUTOBOOST_CHRONO_SYSTEM_CATEGORY,
                            "chrono::process_cpu_clock" ));
        }
        else
        {
            ec.assign( cause, AUTOBOOST_CHRONO_SYSTEM_CATEGORY );
            return time_point();
        }
    }

}
Пример #10
0
void CProtocol::on_empty_buffer(const system::error_code& error, std::size_t bytes) {
	empty_buffer_[bytes] = 0;
	std::string reply(empty_buffer_);
	if (bytes > 0)
		std::cout << "on_empty_buffer: " << bytes << " " << reply << std::endl;
	buffer_empty_ = true;
	if(error != 0)
		std::cout << "on_empty_buffer error: " << error << " message: "<< error.message() << std::endl;
}
Пример #11
0
void CTcpSocket::OnSend( const system::error_code &ec, size_t nByteTransferred )
{
	if (ec)
	{
		LOGError(ec.message().c_str());

		DoClose();
		return ;
	}

	m_wSendLength -= nByteTransferred;

	if (m_wSendLength > 0)
	{
		LOGError("理论来讲,这里是进不来的!");

		// 理论来讲,这里是进不来的。
		memcpy(m_szSendBuffer, m_szSendBuffer + nByteTransferred, m_wSendLength);

		// 发送数据
		m_pSock->async_write_some(buffer(m_szSendBuffer, m_wSendLength), 
			bind(&CTcpSocket::OnSend, this, placeholders::error, placeholders::bytes_transferred));
	}
	else if (0 == m_wSendLength)
	{
		// 拷贝数据
		std::list<MsgData>::iterator it = m_listMsgData.begin();
		for (; it!=m_listMsgData.end(); )
		{
			MsgData &msgData = (*it);

			if (MAX_SEND_BUFFER_LENGTH - m_wSendLength >= msgData.wLength)
			{
				USHORT *pPacketLength = (USHORT *)m_szSendBuffer;
				*pPacketLength = msgData.wLength;
				m_wSendLength += sizeof(USHORT);
				memcpy(m_szSendBuffer + m_wSendLength, msgData.szData, msgData.wLength);
				m_wSendLength += msgData.wLength;

				it = m_listMsgData.erase(it);
			}
			else
			{
				break;
			}
		}

		// 发送数据
		m_pSock->async_write_some(buffer(m_szSendBuffer, m_wSendLength), 
			bind(&CTcpSocket::OnSend, this, placeholders::error, placeholders::bytes_transferred));
	}
	else
	{
		LOGError("异常错误!");
	}
}
Пример #12
0
void Peer::handle_read(const system::error_code& e, std::size_t bytes_transferred) {
    log_trace("args error: %s, bytes: %d", e.message(), bytes_transferred);
    if (!e) {
        _activity = true;
        string rx;
        for(int i = 0; i < bytes_transferred; i++)
            rx.push_back(_buffer[i]);
        
        vRecv += rx;
        
        // Now call the parser:
        bool fRet = false;
        loop {
            boost::tuple<boost::tribool, CDataStream::iterator> parser_result = _msgParser.parse(_chain, _message, vRecv.begin(), vRecv.end());
            tribool result = get<0>(parser_result);
            vRecv.erase(vRecv.begin(), get<1>(parser_result));
            if (result) {
                if (_messageHandler.handleMessage(this, _message) ) fRet = true;
            }
            else if (!result) {
                log_warn("Peer %s sending bogus - disconnecting", addr.toString());
                _peerManager.post_stop(shared_from_this());
            }//                continue; // basically, if we get a false result, we should consider to disconnect from the Peer!
            else
                break;
        }

        // now if fRet is true, something were processed by the filters - we want to send to the peers / we check for which vSends cointains stuff and the we run
        
        if (fRet && nVersion > 0) {
            // first reply
            reply();
            
            // then trickle
            Peers peers = _peerManager.getAllPeers();
            size_t rand = GetRand(peers.size());
            for (Peers::iterator peer = peers.begin(); peer != peers.end(); ++peer)
                if(rand-- == 0) {
                    (*peer)->trickle();
                    break;
                }
            
            // then broadcast
            for (Peers::iterator peer = peers.begin(); peer != peers.end(); ++peer)
                (*peer)->broadcast();
            
            // now write to the peers with non-empty vSend buffers
            for (Peers::iterator peer = peers.begin(); peer != peers.end(); ++peer) {
                (*peer)->flush();
            }
        }
        
        // then wait for more data
        _socket.async_read_some(buffer(_buffer), boost::bind(&Peer::handle_read, shared_from_this(), asio::placeholders::error, asio::placeholders::bytes_transferred));
        //        async_read(_socket, _recv, boost::bind(&Peer::handle_read, shared_from_this(), asio::placeholders::error, asio::placeholders::bytes_transferred));
    }
Пример #13
0
void Proxy::handle_write(const system::error_code& e, size_t bytes_transferred) {
    if (!e) {
        // ignore
    }
    else if (e != error::operation_aborted) {
        log_error("Proxy write error %s, disconnecting...", e.message());
        // forward the error to the connection handler callback
        _connection_handler(e);
    }
}
Пример #14
0
    void run_timer::report( system::error_code & ec )
    {
      m_reported = true;
      if ( m_format.empty() ) m_format = chrono_detail::default_format();

      process_times times;
      elapsed( times, ec );
      if (ec) return;

      if ( BOOST_CHRONO_IS_THROWS(ec) )
      {
        chrono_detail::show_time( times, m_format.c_str(), m_places, m_os );
      }
      else // non-throwing
      {
        try
        {
          chrono_detail::show_time( times, m_format.c_str(), m_places, m_os );
          if (!BOOST_CHRONO_IS_THROWS(ec)) 
          {
            ec.clear();
          }
        }

        catch (...) // eat any exceptions
        {
          BOOST_ASSERT( 0 && "error reporting not fully implemented yet" );
          if (BOOST_CHRONO_IS_THROWS(ec))
          {
              boost::throw_exception(
                      system::system_error( 
                              errno, 
                              BOOST_CHRONO_SYSTEM_CATEGORY, 
                              "chrono::run_timer" ));
          } 
          else
          {
            ec.assign(system::errc::success, BOOST_CHRONO_SYSTEM_CATEGORY);
          }
          }
      }
    }
Пример #15
0
    void callback(system::error_code ec) {
        std::cout << __PRETTY_FUNCTION__ << "\n";
        if (ec != asio::error::operation_aborted) {
            std::cout << " - continuing wait - keeps the object alive (as it should)\n";
            tim.expires_from_now(posix_time::seconds(2));
            tim.async_wait(bind(&MySessionThing::callback, shared_from_this(), asio::placeholders::error));
        }

        std::cout << " - " << ec.message() << ": exiting handler - also implicitly releases the lock on MySessionThing\n";
        // only if the new async_wait has *not* been posted, this will cause the destructor to run
    }
void Sony_Remote_Camera_Implementation::Handle_Write_HTTP_Request(bool mode_liveview, bool event_thread, const system::error_code& err) {
	asio::ip::tcp::socket& s = mode_liveview ? socket_liveview : (event_thread ? socket_event_listener : socket_options);
	asio::streambuf& buf = mode_liveview ? tcp_response_liveview : (event_thread ? tcp_response_events : tcp_response_options);
	if (!err) {
		boost::asio::async_read_until(s, buf, "\r\n",
			boost::bind(&Sony_Remote_Camera_Implementation::Handle_Read_Status_Line, this, mode_liveview, event_thread,
			boost::asio::placeholders::error, boost::asio::placeholders::bytes_transferred));
	} else {
		throw(ios_base::failure(err.message()));
	}
}
Пример #17
0
void Client::on_send(system::error_code err, size_t bytesTransferred, uint8_t* p, size_t packetLength)
{
	unused_parameter(bytesTransferred);
	unused_parameter(packetLength);

	delete[] p;

	if(err)
		return Transmitter::disconnect(format("Send failed: %2%") % err.message());

	assert(bytesTransferred == packetLength);
}
Пример #18
0
process_system_cpu_clock::time_point process_system_cpu_clock::now(
        system::error_code & ec)
{

    //  note that Windows uses 100 nanosecond ticks for FILETIME
    boost::detail::win32::FILETIME_ creation, exit, user_time, system_time;

    if ( boost::detail::win32::GetProcessTimes(
            boost::detail::win32::GetCurrentProcess(), &creation, &exit,
            &system_time, &user_time ) )
    {
        if (!BOOST_CHRONO_IS_THROWS(ec))
        {
            ec.clear();
        }
        return time_point(duration(
                ((static_cast<process_system_cpu_clock::rep>(system_time.dwHighDateTime) << 32)
                                    | system_time.dwLowDateTime) * 100
                ));
    }
    else
    {
        boost::detail::win32::DWORD_ cause = boost::detail::win32::GetLastError();
        if (BOOST_CHRONO_IS_THROWS(ec))
        {
            boost::throw_exception(
                    system::system_error(
                            cause,
                            BOOST_CHRONO_SYSTEM_CATEGORY,
                            "chrono::process_system_cpu_clock" ));
        }
        else
        {
            ec.assign( cause, BOOST_CHRONO_SYSTEM_CATEGORY );
            return time_point();
        }
    }

}
Пример #19
0
	// read_callback - passed information about bytes in read_buf to handle_by_protocol method.	
	void read_callback(size_t bytes_transferred,const system::error_code& error)
	{
		if (error || !bytes_transferred)
		{
			if(log_level) std::cerr << "read callback error:" << error << ": " << error.message() << std::endl;
			return;
		}

		long packet_found = data_received(read_buf,bytes_transferred);
		if(!packet_found) {
			initiate_read();
		}
	}
Пример #20
0
void TcpServer::handle_accept(const system::error_code& error)
{
	if(!acceptor_.is_open())
	{
		debug->warning(1, type, "TCP Socket, port %i - acceptor is not open!", port);
		return;
	}
	if(!error)
		new_connection->start();
	else
		debug->warning(1, type, "TCP Socket, port %i - error: %s, error code: %i", error.message().c_str(), error.value());
	start_accept();
}
Пример #21
0
void CProtocol::on_receive_reply(const system::error_code& error, std::size_t bytes) {
	cmd_response_[bytes] = 0;
	std::string reply(cmd_response_);

	std::cout << "<- " << reply << std::endl;
	if (bytes != active_command_.expected_sizeof_reply())
		return;
	if(running_)
		active_command_.handle_reply(reply);
//		signal command finished
	command_ready_ = true;
	if(error != 0)
		std::cout << "on_receive_reply error: " << error << " message: "<< error.message() << " bytes: " << bytes << std::endl;
}
Пример #22
0
 process_system_cpu_clock::time_point process_system_cpu_clock::now(system::error_code & ec)
 {
   tms tm;
   clock_t c = ::times(&tm);
   if (c == clock_t(-1)) // error
   {
     if (BOOST_CHRONO_IS_THROWS(ec))
     {
       pdalboost::throw_exception(system::system_error(errno, BOOST_CHRONO_SYSTEM_CATEGORY, "chrono::process_system_cpu_clock"));
     } else
     {
       ec.assign(errno, BOOST_CHRONO_SYSTEM_CATEGORY);
       return time_point();
     }
   } else
   {
     long factor = chrono_detail::tick_factor();
     if (factor != -1)
     {
       if (!BOOST_CHRONO_IS_THROWS(ec))
       {
         ec.clear();
       }
       return time_point(nanoseconds((tm.tms_stime + tm.tms_cstime) * factor));
     } else
     {
       if (BOOST_CHRONO_IS_THROWS(ec))
       {
         pdalboost::throw_exception(system::system_error(errno, BOOST_CHRONO_SYSTEM_CATEGORY, "chrono::process_system_cpu_clock"));
       } else
       {
         ec.assign(errno, BOOST_CHRONO_SYSTEM_CATEGORY);
         return time_point();
       }
     }
   }
 }
Пример #23
0
void Proxy::handle_proxy_connect(const system::error_code& e) {
    // write the 
    if (!e && _socket->is_open()) { // connected successfully to the proxy server

        Socks4::Request req(Socks4::Request::connect, _endpoint, "");
        async_write(*_socket, req.buffers(), boost::bind(&Proxy::handle_write, this, asio::placeholders::error, asio::placeholders::bytes_transferred));
        // this async_read returns only when the buffer has been filled
        async_read(*_socket, _reply.buffers(), boost::bind(&Proxy::handle_proxy_reply, this, asio::placeholders::error, asio::placeholders::bytes_transferred));
    }
    else {
        log_error("Failed connect to proxy server: \"%s\" to: %s", e.message(), lexical_cast<string>(_server));
        _connection_handler(e);
    }

}
Пример #24
0
	//接受新的请求
	void accept_handler(const system::error_code& e, sock_ptr s)
	{
		if (e)
		{
			cout << e.message() << endl;
			return;
		}
		//添加
		clientSock.push_back(s);
		cout << "client:" << s->remote_endpoint().address() << " port:" << s->remote_endpoint().port() << endl;
		
		s->async_write_some(buffer("hello asio"), boost::bind(&server::write_handle, this, boost::asio::placeholders::error, s));
		//继续异步请求
		start();
	}
Пример #25
0
 void on_recv(const system::error_code &error)
 {
     if(error)
     {
         cerr << "recv error: "<< error.message() << "\n";
         close();
         return;
     }
     else
     {
         cerr << _buf ;
     }
     _stream.async_read_some(buffer(_buf,sizeof(_buf)),
                             boost::bind(&OCS_Stream::on_recv,this,placeholders::error));
 }
Пример #26
0
void Peer::check_activity(const system::error_code& e) {
    if (!e) {
        if(!_activity)
            _peerManager.post_stop(shared_from_this());
        else {
            _activity = false;
            _suicide.expires_from_now(posix_time::seconds(_suicide_timeout)); // 90 minutes of activity once we have started up
            _suicide.async_wait(boost::bind(&Peer::check_activity, this, asio::placeholders::error));
        }
    }
    else if (e != error::operation_aborted) {
        log_info("Boost deadline timer error in Peer: %s\n", e.message().c_str());
    }
    
    // we ignore abort errors - they are generated due to timer cancels
}
Пример #27
0
 void on_recv(const system::error_code &error)
 {
   if(error)
   {
     cerr << "recv error: "<< error.message() << "\n";
     close();
     return;
   }
   else
   {
     std::istream is(&_buf);
     string line;
     getline(is, line);
     _timer.cancel(); //cancel timeout after recveive cmd
     //cerr << line ;
   }
 }
Пример #28
0
void Proxy::handle_proxy_reply(const system::error_code& e, size_t bytes_transferred) {
    if (!e && _reply.success()) {
        // buffers are now filled - check if it was successfull
        _connection_handler(e);
    }
    else if (e != error::operation_aborted) {
        log_error("Proxy write error %s, disconnecting...", e.message());
        // forward the error to the connection handler callback
        _connection_handler(e);
    }
    else if (!_reply.success()) {
        log_error("Proxy connection error - status code %d...", _reply.status());
        system::error_code err(_reply.status(), __application_category);
        _connection_handler(err);
    }
    else 
        _connection_handler(e);        
}
Пример #29
0
void Listener::handle_accept(list<Peer*>::iterator new_peer_it,
                             const system::error_code& error)
{
  if (!error) {
    shared_ptr<Peer> new_peer(*new_peer_it);

    network->add_peer(new_peer);

    pending_peers.erase(new_peer_it);

    DEBUG("Peer at address " << new_peer->get_address() << " has joined!");

    start_accept();
  }
  else {
    DEBUG("Listener::handle_accept: " << error.message());
  }
        
}
Пример #30
0
void ChatClient::handle_resolve(const system::error_code& err, tcp::resolver::iterator endpoint_iterator) {
    if (!err) {
        // Attempt a connection to the first endpoint in the list. Each endpoint
        // will be tried until we successfully establish a connection.
        tcp::endpoint endpoint = *endpoint_iterator;
        endpoint.port(6667);
        if (_proxy)
            _proxy(_socket).async_connect(endpoint, boost::bind(&ChatClient::handle_connect, this, asio::placeholders::error, ++endpoint_iterator));
        else
            _socket.async_connect(endpoint, boost::bind(&ChatClient::handle_connect, this, asio::placeholders::error, ++endpoint_iterator));
    }
    else {
        log_warn("Error: %s\n", err.message().c_str());
        _socket.close();
        _mode = wait_for_notice;
        tcp::resolver::query query(_server, "irc"); // should we remove irc as service type ?
        _resolver.async_resolve(query, boost::bind(&ChatClient::handle_resolve, this, asio::placeholders::error, asio::placeholders::iterator));
    }
}