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I have built a C++ library using boost ASIO. The library needs to be both thread-safe and fork-safe. It has service scheduler thread, which calls io_service::run(). To support fork-safety, I've registered pre_fork, post_fork_parent and post_fork_child handlers. The pre_fork() handler, calls _io_service.notify_fork(boost::io_service:fork_prepare(), post_fork_parent handler calls _io_service.notify_fork(boost::asio::io_service::fork_parent) and post_fork_child calls _io_service.notify_fork(boost::asio::io_service::fork_child).

The problem I'm facing in, when the fork() happens, the service scheduler thread might be in middle of some operation and might have acquired lock on data members of io_service object. So, the child process sees them in the same state and in the post_fork_child() when we call _io_service.notify_fork(boost::asio::io_service::fork_child) it tries to acquire the lock on the same object and hence gets blocked indefinitely (as there is no thread in child to release the unlock).

The stack trace I see in the child process, which is blocked, is -

fffffd7ffed07577 lwp_park (0, 0, 0) 
fffffd7ffecffc18 mutex_lock_internal () + 378 
fffffd7ffecfffb2 mutex_lock_impl () + 112 
fffffd7ffed0007b mutex_lock () + b 
fffffd7fff26419d __1cFboostEasioGdetailLscoped_lock4n0CLposix_mutex__2t5B6Mrn0D__v_ () + 1d 
fffffd7fff2866a2 __1cFboostEasioGdetailQdev_poll_reactorMfork_service6Mn0BKio_serviceKfork_event__v_ () + 32 
fffffd7fff278527 __1cFboostEasioGdetailQservice_registryLnotify_fork6Mn0BKio_serviceKfork_event__v_ () + 107 
fffffd7fff27531c __1cDdesGtunnelQServiceSchedulerPpost_fork_child6M_v_ () + 1c 
fffffd7fff29de24 post_fork_child () + 84 
fffffd7ffec92188 _postfork_child_handler () + 38 
fffffd7ffecf917d fork () + 12d 
fffffd7ffec172d5 fork () + 45 
fffffd7ffef94309 fork () + 9 
000000000043299d main () + 67d 
0000000000424b2c ???????? () 

Apparently the "dev_poll_reactor" is locked (because it seems to be dispatching some pending events) in the service scheduler thread when the fork has happened which is causing the problem.

I think to solve the problem, I need to ensure that service scheduler thread is not in the middle of any processing when the fork happens and one way to guarantee that would be to call io_service.stop() in pre_fork() handler but that doesn't sound like a good solution. Could you please let me know what is the right approach to make the library fork safe?

The code snippets looks something like this.

 * Combines Boost.ASIO with a thread for scheduling. 
class ServiceScheduler : private boost::noncopyable 
public : 
    /// The actual thread used to perform work. 
    boost::shared_ptr<boost::thread>             _service_thread; 

    /// Service used to manage async I/O events 
    boost::asio::io_service                      _io_service; 

    /// Work object to block the ioservice thread. 
    std::auto_ptr<boost::asio::io_service::work> _work; 

 * CTOR 
    : _io_service(), 
              new boost::asio::io_service::work(_io_service))), 

 * Starts a thread to run async I/O service to process the scheduled work. 
void ServiceScheduler::start() 
    ScopedLock scheduler_lock(_mutex); 
    if (!_is_running) { 
        _is_running = true; 
        _service_thread = boost::shared_ptr<boost::thread>( 
                new boost::thread(boost::bind( 
                        &ServiceScheduler::processServiceWork, this))); 

 *  Processes work passed to the ASIO service and handles uncaught 
 *  exceptions 
void ServiceScheduler::processServiceWork() 
    try { 
    catch (...) { 

 * Pre-fork handler 
void ServiceScheduler::pre_fork() 

 * Post-fork parent handler 
void ServiceScheduler::post_fork_parent() 

 * Post-fork child handler 
void ServiceScheduler::post_fork_child() 

I'm using boost 1.47 and running the application on Solaris i386. The library and application are built using studio-12.0.

share|improve this question
Are you expecting to do anything other call exec() or _exit() in the child after you call fork? If so, you should reconsider. If not, I don't see the problem. –  janm Mar 4 '12 at 3:27

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