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I'm very beginner with boost::asio, so please help me.

I need write single-threaded TCP server . Server should accept client connections and continuously read from client sockets for input data. Periodically server should send data to clients . So I have some kind of problem - all examples describe case when we always have loop

  1. async_receive()
  2. on_receive() -> async_write()
  3. on_write() -> goto 1 :)

So my decision was to use timer for checking for data to be send to socket.

I wrote test server and have very strange behavior - it's work ok if clients connected, do something and disconnected one after another with some time delta . But if all clients disconnected simultaneously I have situation when timer handler try to use member classes of already DESTROYED object (locking critical section).

I can't describe why ! Please help !

[This video show how it's reproduced] (http://www.youtube.com/watch?v=NMWkD7rqf7Y&feature=youtu.be "1080p" )

Thank you !

#include <boost/none.hpp>
#include <boost/bind.hpp>
#include <boost/asio.hpp>
#include <boost/shared_ptr.hpp>
#include <boost/enable_shared_from_this.hpp>

#include <iostream>




using namespace boost::asio;
using namespace boost::posix_time;



class CIncommingConnection ;
typedef boost::shared_ptr<CIncommingConnection> CIncommingConnectionPtr;


struct IIncomingServer
{
    virtual  void OnData(CIncommingConnectionPtr pConn, const char *pData, size_t bytes) = 0;
    virtual  void OnConnected(CIncommingConnectionPtr pConn) = 0;
    virtual  void OnDisconnected(const boost::system::error_code& err, CIncommingConnectionPtr pConn) = 0;
};



class CAutoLock
{
public:
    CAutoLock(CRITICAL_SECTION &cs)  :
      m_cs(cs)
    {
        ::EnterCriticalSection(&m_cs);
    }

   ~CAutoLock()
   {
       ::LeaveCriticalSection(&m_cs);
   }

private:
    CRITICAL_SECTION &m_cs;
};

class CIncommingConnection :  public boost::enable_shared_from_this<CIncommingConnection>                      
                             ,boost::noncopyable 
{
public:

    CIncommingConnection(const std::string sPeerName, boost::asio::io_service  &service, IIncomingServer *pServer) :
     m_service(service)
    ,sock_(service)
    ,m_sPeerName(sPeerName) 
    ,m_pServer(pServer)
    ,m_timer(service)
    {
        ::InitializeCriticalSection(&m_cs);

        std::cout << "CIncommingConnection()"  << std::endl ;
    }


    ~CIncommingConnection()
    {
        std::cout << "CIncommingConnection()~"  << std::endl ;
        ::DeleteCriticalSection(&m_cs);
    }


    ip::tcp::socket & sock()
    {
        return sock_;
    }



    void start()
    {
        m_pServer->OnConnected(shared_from_this());
        do_read();
        wait_for_outgoingdata();
    }


private:

    void stop()
    {      
        sock_.close();
        m_timer.cancel();
    }



    void do_read()
    {
        sock_.async_receive(buffer(read_buffer_), boost::bind(&CIncommingConnection::handler_read, this, _1, _2) );
    }



    void do_error(const boost::system::error_code& error)
    {
        CIncommingConnectionPtr pConn = shared_from_this();

        stop() ;

        m_pServer->OnDisconnected(error, pConn);
    }



    void handler_read(const boost::system::error_code& error, std::size_t bytes)
    {
        if (error)
        {
            do_error(error);
            return ;
        }

        CIncommingConnectionPtr pConn = shared_from_this() ;

        m_pServer->OnData(pConn, read_buffer_, bytes);

        do_read();
    }



    void wait_for_outgoingdata()
    {
        m_timer.expires_from_now( boost::posix_time::millisec( 100 ) );
        m_timer.async_wait( boost::bind( &CIncommingConnection::on_output_queue_timer, this, _1 ) );
    }



    void on_output_queue_timer(const boost::system::error_code& error)
    {
        if (error == boost::asio::error::operation_aborted)
        {
            return ;
        }

        CAutoLock oLock(m_cs);

        if (!m_sOutBuf.empty())
            sock_.async_send(buffer(m_sOutBuf), boost::bind(&CIncommingConnection::handler_write, this, _1, _2) );
        else
            wait_for_outgoingdata();
    }


    void handler_write(const boost::system::error_code& error, std::size_t bytes)
    {    
        if (error)
            return ;


        if (bytes)
        {
            m_sOutBuf = m_sOutBuf.substr(bytes, m_sOutBuf.length()-bytes);
        }

        wait_for_outgoingdata();
    }



private:
    ip::tcp::socket sock_;

    enum { max_msg = 1024 };
    char read_buffer_[max_msg];
    char write_buffer_[max_msg];


    boost::asio::io_service        &m_service ;   
    std::string                     m_sPeerName ;
    std::string                     m_sOutBuf;
    CRITICAL_SECTION                m_cs ;
    IIncomingServer                *m_pServer;
    boost::asio::deadline_timer     m_timer;
};






class CIncomingServer :   public boost::enable_shared_from_this<CIncomingServer>                      
                         , public IIncomingServer
                         , boost::noncopyable 
{

public:

    CIncomingServer(boost::asio::io_service  &service,
        unsigned int port,
        bool bAllowManyConnections,
        const std::string sPeerName) :

      m_acceptor (service, ip::tcp::endpoint(ip::tcp::v4(), port), false)
     ,m_sPeerName(sPeerName)
     ,m_port(port) 
     ,m_service(service)
     ,m_timer(service)
     ,m_bAllowManyConnections(bAllowManyConnections)
    {
    }



    ~CIncomingServer()
    {
    }



    void run()
    {
        CIncommingConnectionPtr pConn (new CIncommingConnection(m_sPeerName, m_service, this));
        m_clients.push_back( pConn );


        m_acceptor.async_accept(pConn->sock(), boost::bind(&CIncomingServer::handle_accept, this, _1));

        m_timer.expires_from_now( boost::posix_time::millisec( 500 ) );
        m_timer.async_wait( boost::bind( &CIncomingServer::on_timer, this ) );
    }




private:

    void handle_accept(const boost::system::error_code & err)
    {
        m_clients.back()->start();

        CIncommingConnectionPtr pConnNew (new CIncommingConnection(m_sPeerName, m_service, this));
        m_clients.push_back( pConnNew );

        m_acceptor.async_accept(pConnNew->sock(), boost::bind(&CIncomingServer::handle_accept, this,  _1));
    }


    //IIncomingServer
    virtual  void OnData(CIncommingConnectionPtr pConn, const char *pData, size_t bytes)
    {
        std::cout << "Data received" << std::endl ;
    }


    virtual  void OnConnected(CIncommingConnectionPtr pConn)
    {
        std::cout << "Client connected" << std::endl ;
    }


    virtual  void OnDisconnected(const boost::system::error_code& err, CIncommingConnectionPtr pConn)
    {
        std::cout << "Client disconnected" << std::endl ;

        auto it = std::find(m_clients.begin(), m_clients.end(), pConn) ;
        if (it != m_clients.end())
        {
            m_clients.erase(it);
        }

    }



    void on_timer()
    {
        //if (NeedTerminate())
        //{
        //    m_service.stop();
        //    return ;
        //}

        m_timer.expires_from_now( boost::posix_time::millisec( 500 ) );
        m_timer.async_wait( boost::bind( &CIncomingServer::on_timer, this ) );
    }



private:
    ip::tcp::acceptor  m_acceptor ;

    std::vector<CIncommingConnectionPtr> m_clients;
    std::string m_sPeerName ;
    unsigned int m_port ;
    boost::asio::io_service       &m_service ;
    boost::asio::deadline_timer    m_timer;
    bool                           m_bAllowManyConnections; 
};


int _tmain(int argc, _TCHAR* argv[])
{

    boost::asio::io_service  service ;


    boost::shared_ptr<CIncomingServer> pServer;

    try
    {
        pServer.reset( new CIncomingServer(service, 8000,  false, "BS Server"));        
        pServer->run();
    }
    catch (const boost::system::system_error &err)
    {
        std::cout << "Error : " << err.what() << std::endl ;
        return 0 ;
    }

    service.run();

    return 0 ;


}
share|improve this question
    
+1 for the video :) –  Igor R. Oct 2 '13 at 12:27
1  
-1. Is this a SSCCE? I doubt it. –  Abyx Oct 2 '13 at 14:58
1  
Sorry, Abyx - but I don't agree with your doubts. For example what kind of details are not importan , you think, in this sample ? But thank you for criticism ! –  user1503944 Oct 2 '13 at 17:15

1 Answer 1

Long story short: you should bind the completion handlers to a shared_ptr returned from shared_from_this(), not to plain this (so called shared_from_this idiom). This way you ensure the correct automatic management of your connection objects lifespan.

Technically, the following happens now: do_error causes 2 actions to take place:

  1. timer cancellation (which is asynchronous operation) removal of
  2. CIncommingConnectionPtr from a container (which is synchronous operation).

At the point (2) the connection gets destroyed, as there are no other shared_ptrs holding it. Now the timer completion handler comes... Crash!

share|improve this answer
    
Thank you for answer! It's look like it's correct , but I can't make proper conclusion from it :-( After passing shared_from_this() instead this to async handlers my program don't crashed any more, but not all instances of CIncommingConnection is destroyed. It's look like I miss about some referencing , and object still alive. I will try to investigate this situation today ! Thank you very much ! –  user1503944 Oct 2 '13 at 13:41
    
@user1503944 well, at a glance, I don't see any "eternal" shared_ptrs in the above code (even after binding to shared_from_this). Perhaps, your real code differs from the one you posted. (BTW, I'd recommend you to avoid explicit locks on the buffer - instead, you could just post() any buffer-related code to the io_service.) –  Igor R. Oct 2 '13 at 15:04
2  
@user1503944: A brief look at the code suggest that the CIncommingConnection::on_output_queue_timer() call chain may be maintaining the reference. It is possible that the call chain continues even though timer.cancel() is invoked. For details on this behavior, see the documentation remarks. To resolve it, consider returning in on_output_queue_timer() on error or if sock_.is_open() is false. –  Tanner Sansbury Oct 2 '13 at 15:09
    
@Tanner Sansbury but along with timer cancellation he calls sock_.close(), so any subsequent i/o on sock_ will fail anyway (and break the chain). –  Igor R. Oct 2 '13 at 15:17
1  
@IgorR. The wait_for_outgoingdata() chain only attempts I/O on sock_ if m_sOutBuf is not empty; however, m_sOutBuf appears to remain empty in the posted code. Breaking the chain when sock_.is_open() is false seems like a reasonable predicate to guarantee the chain breaks after stop() has been invoked. –  Tanner Sansbury Oct 2 '13 at 15:47

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