Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free, no registration required.

The following minimal code sample of a larger program sends commands from client threads to an asio io_service object. The io_service object (in the Ios class) is being run with one thread. When the command is sent the client thread waits until it is notified by the Ios object (via Cmd::NotifyFinish()) that it is completed.

This sample seems to run on Linux Ubuntu 11.04 with boost 1.46 fine but on Windows 7 boost 1.46 it asserts.

I suspect it is something to do with the lock in Cmd::NotifyFinish(). When I move the lock out of the nested scope so that when waitConditionVariable_.notify_one() is called in the lock's scope it doesn't crash on Windows 7. However, the boost::thread documentation states that notify_one() doesn't need to be called within the lock.

The stack trace (below) shows it is asserting when notify_one() is called. It is as though the cmd object has disappeared before notify is called...

How do I make this thread safe and not assert?

#include <boost/asio.hpp>
#include <boost/thread/thread.hpp>
#include <boost/thread/mutex.hpp>
#include <boost/thread/locks.hpp>
#include <boost/thread/condition_variable.hpp>
#include <boost/bind.hpp>
#include <iostream>

class Cmd
{
public:
    Cmd() :   cnt_(0), waitPred_(false), waiting_(false)
    {
    }
    virtual ~Cmd()
    {
    }
    void BindInfo(int CmdSeq)
    {
        cnt_ = CmdSeq;
    }
    void NotifyFinish()
    {
        // call by service thread...
        {
            boost::mutex::scoped_lock lock(waitMutex_);
            waitPred_ = true;
            if (!waiting_)
            {
                // don't need to notify as isn't waiting
                return;
            }
        }
        waitConditionVariable_.notify_one();
    }
    void Wait()
    {
        // called by worker threads
        boost::mutex::scoped_lock lock(waitMutex_);
        waiting_ = true;
        while (!waitPred_)
            waitConditionVariable_.wait(lock);
    }
    int cnt_;
private:

    boost::mutex waitMutex_;
    boost::condition_variable waitConditionVariable_;
    bool waitPred_;
    bool waiting_;
};


class Ios
{
public:
    Ios() : timer_(ios_), cnt_(0), thread_(boost::bind(&Ios::Start, this))
    {
    }
    void Start()
    {
        timer_.expires_from_now(boost::posix_time::seconds(5));
        timer_.async_wait(boost::bind(&Ios::TimerHandler, this, _1));
        ios_.run();
    }
    void RunCmd(Cmd& C)
    {
        ios_.post(boost::bind(&Ios::RunCmdAsyn, this, boost::ref(C)));
    }

private:
    void RunCmdAsyn(Cmd& C)
    {
        C.BindInfo(cnt_++);
        C.NotifyFinish();
    }
    void TimerHandler(const boost::system::error_code& Ec)
    {
        if (!Ec)
        {
            std::cout << cnt_ << "\n";
            timer_.expires_from_now(boost::posix_time::seconds(5));
            timer_.async_wait(boost::bind(&Ios::TimerHandler, this, _1));
        }
        else
            exit(0);
    }

    boost::asio::io_service ios_;
    boost::asio::deadline_timer timer_;
    int cnt_;
    boost::thread thread_;
};

static Ios ios;

void ThreadFn()
{
    while (1)
    {
        Cmd c;
        ios.RunCmd(c);
        c.Wait();
        //std::cout << c.cnt_ << "\n";
    }
}

int main()
{
    std::cout << "Starting\n";
    boost::thread_group threads;
    const int num = 5;

    for (int i = 0; i < num; i++)
    {
        // Worker threads
        threads.create_thread(ThreadFn);
    }
    threads.join_all();

}

stack trace

msvcp100d.dll!std::_Debug_message(const wchar_t * message, const wchar_t * file, unsigned int line)  Line 15    C++
iosthread.exe!std::_Vector_const_iterator<std::_Vector_val<boost::intrusive_ptr<boost::detail::basic_cv_list_entry>,std::allocator<boost::intrusive_ptr<boost::detail::basic_cv_list_entry> > > >::_Compat(const std::_Vector_const_iterator<std::_Vector_val<boost::intrusive_ptr<boost::detail::basic_cv_list_entry>,std::allocator<boost::intrusive_ptr<boost::detail::basic_cv_list_entry> > > > & _Right)  Line 238 + 0x17 bytes   C++
iosthread.exe!std::_Vector_const_iterator<std::_Vector_val<boost::intrusive_ptr<boost::detail::basic_cv_list_entry>,std::allocator<boost::intrusive_ptr<boost::detail::basic_cv_list_entry> > > >::operator==(const std::_Vector_const_iterator<std::_Vector_val<boost::intrusive_ptr<boost::detail::basic_cv_list_entry>,std::allocator<boost::intrusive_ptr<boost::detail::basic_cv_list_entry> > > > & _Right)  Line 203 C++
iosthread.exe!std::_Vector_const_iterator<std::_Vector_val<boost::intrusive_ptr<boost::detail::basic_cv_list_entry>,std::allocator<boost::intrusive_ptr<boost::detail::basic_cv_list_entry> > > >::operator!=(const std::_Vector_const_iterator<std::_Vector_val<boost::intrusive_ptr<boost::detail::basic_cv_list_entry>,std::allocator<boost::intrusive_ptr<boost::detail::basic_cv_list_entry> > > > & _Right)  Line 208 + 0xc bytes C++
iosthread.exe!std::_Debug_range2<std::_Vector_iterator<std::_Vector_val<boost::intrusive_ptr<boost::detail::basic_cv_list_entry>,std::allocator<boost::intrusive_ptr<boost::detail::basic_cv_list_entry> > > > >(std::_Vector_iterator<std::_Vector_val<boost::intrusive_ptr<boost::detail::basic_cv_list_entry>,std::allocator<boost::intrusive_ptr<boost::detail::basic_cv_list_entry> > > > _First, std::_Vector_iterator<std::_Vector_val<boost::intrusive_ptr<boost::detail::basic_cv_list_entry>,std::allocator<boost::intrusive_ptr<boost::detail::basic_cv_list_entry> > > > _Last, const wchar_t * _File, unsigned int _Line, std::random_access_iterator_tag __formal)  Line 715 + 0xc bytes  C++
iosthread.exe!std::_Debug_range<std::_Vector_iterator<std::_Vector_val<boost::intrusive_ptr<boost::detail::basic_cv_list_entry>,std::allocator<boost::intrusive_ptr<boost::detail::basic_cv_list_entry> > > > >(std::_Vector_iterator<std::_Vector_val<boost::intrusive_ptr<boost::detail::basic_cv_list_entry>,std::allocator<boost::intrusive_ptr<boost::detail::basic_cv_list_entry> > > > _First, std::_Vector_iterator<std::_Vector_val<boost::intrusive_ptr<boost::detail::basic_cv_list_entry>,std::allocator<boost::intrusive_ptr<boost::detail::basic_cv_list_entry> > > > _Last, const wchar_t * _File, unsigned int _Line)  Line 728 + 0x6c bytes    C++
iosthread.exe!std::find_if<std::_Vector_iterator<std::_Vector_val<boost::intrusive_ptr<boost::detail::basic_cv_list_entry>,std::allocator<boost::intrusive_ptr<boost::detail::basic_cv_list_entry> > > >,bool (__cdecl*)(boost::intrusive_ptr<boost::detail::basic_cv_list_entry> const &)>(std::_Vector_iterator<std::_Vector_val<boost::intrusive_ptr<boost::detail::basic_cv_list_entry>,std::allocator<boost::intrusive_ptr<boost::detail::basic_cv_list_entry> > > > _First, std::_Vector_iterator<std::_Vector_val<boost::intrusive_ptr<boost::detail::basic_cv_list_entry>,std::allocator<boost::intrusive_ptr<boost::detail::basic_cv_list_entry> > > > _Last, bool (const boost::intrusive_ptr<boost::detail::basic_cv_list_entry> &)* _Pred)  Line 92 + 0x54 bytes    C++
iosthread.exe!std::remove_if<std::_Vector_iterator<std::_Vector_val<boost::intrusive_ptr<boost::detail::basic_cv_list_entry>,std::allocator<boost::intrusive_ptr<boost::detail::basic_cv_list_entry> > > >,bool (__cdecl*)(boost::intrusive_ptr<boost::detail::basic_cv_list_entry> const &)>(std::_Vector_iterator<std::_Vector_val<boost::intrusive_ptr<boost::detail::basic_cv_list_entry>,std::allocator<boost::intrusive_ptr<boost::detail::basic_cv_list_entry> > > > _First, std::_Vector_iterator<std::_Vector_val<boost::intrusive_ptr<boost::detail::basic_cv_list_entry>,std::allocator<boost::intrusive_ptr<boost::detail::basic_cv_list_entry> > > > _Last, bool (const boost::intrusive_ptr<boost::detail::basic_cv_list_entry> &)* _Pred)  Line 1848 + 0x58 bytes    C++
iosthread.exe!boost::detail::basic_condition_variable::notify_one()  Line 267 + 0xb4 bytes  C++
iosthread.exe!Cmd::NotifyFinish()  Line 41  C++
share|improve this question
    
+1 for the reproducer –  Sam Miller Jul 11 '11 at 1:46
add comment

2 Answers

up vote 5 down vote accepted

The problem is that the condition variable is a member of the Cmd object that is created by the client thread and is destroyed by that client thread when the wait is completed.

So you have a race condition where:

  • boost::condition_variable::notify_one() is called on the 'service thread'
  • that unblocks the client thread that's waiting on that condition variable
  • the client thread can then destroy the condition variable that the service thread is still working with in its call to notify_one.

So your observation that it's "as though the cmd object has disappeared before notify is called" is pretty much exactly what's happened, I think. Except that the Cmd object didn't disappear before notify_one() is called, it disappeared while notify_one() was doing its work. Your other note that "the boost::thread documentation states that notify_one() doesn't need to be called within the lock" is true, but that doesn't mean that the condition variable can be destroyed before notify_one() has returned.

You need to manage the lifetime of the Cmd object so that the service thread is done using it before it gets destroyed - holding the mutex that's in the Cmd object while notify_one() is called is one way to do that (as you've noticed). Or you can pull the condition variable out of the Cmd object so that its lifetime is independent of the Cmd object (maybe shared_ptr<> can help with that).

Also, note that I believe that the waiting_ member of the Cmd class is superfluous - you can call notify_one() or notify_all() when there are no waiters on a condition variable - it's already doing the checking for that for you (I don't think it's hurting anything, just that it's complexity that doesn't need to be in the Cmd class).

share|improve this answer
    
Thanks for your answer Michael. Won't moving the lock in NotifyFinish() to the outer scope force notify_one() to be called before Wait() has exited, because waitConditionVariable_.wait obtains the lock after finishing? So there are two scenarios that Wait can exit. Either when Notify obtains the lock before Wait obtains it or when Wait obtains the lock first and then the condition variable is notified. I agree that the waiting_ memory seems superfluous. –  Liam Jul 11 '11 at 4:18
    
@Liam: assuming that the change has been made so NotifyFinish() holds the mutex while it calls notify_one(), then in your first scenario where NotifyFinish() gets called first, it'll grab the mutex, set waitPred_ = true, then call notify_one() (which will do nothing). All of that will happen before Wait() gets a chance to do anything, because if it tries it'll be blocked waiting to acquire the mutex. Once NotifyFinish() releases the mutex, the Wait() call will be able to proceed; it'll notice that waitPred_ is true and won't bother calling condition_variable::wait(). –  Michael Burr Jul 11 '11 at 4:38
add comment
void ThreadFn()
{
    while (1)
    {
        Cmd c;
        ios.RunCmd(c);
         c.Wait();
        //std::cout << c.cnt_ << "\n";
    }
}

Since this loop is infinite why not just put Cmd c; outside the scope of the while(1) so it reuses 'c' each iteration of while(1) ?

void ThreadFn()
{
    Cmd c;

    while (1)
    {   
        ios.RunCmd(c);
        c.Wait();
        //std::cout << c.cnt_ << "\n";
    }
}
share|improve this answer
    
The code was just an extrapolation of a larger program to demonstrate the problem. There were many different types of commands initialised in the constructor, and also there was no while(1) loop. –  Liam May 5 '12 at 1:29
add comment

Your Answer

 
discard

By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.