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.

I am trying to checkpoint a multithreaded application. For single threaded applications, forking a process as a checkpoint is an efficient technique. However, there is no such thing as a mulithreaded fork. Any idea of how to implement your own mulithreaded fork? Any reference to such work will be greatly appreciated.

share|improve this question
You again. Go accept some answers please, as we discussed in some other question. –  hexa Jul 4 '11 at 22:23

2 Answers 2

up vote 5 down vote accepted

There is no portable way to implement a variant of fork that preserves all threads using the interfaces provided by POSIX. On some systems such as Linux, you could implement a highly non-portable, highly fragile version of this either:

  1. using ptrace to trace all threads (to stop them), then making new kernel threads in the child process to duplicate each thread in the parent and assigning them the original stack addresses, instruction pointers, register values, etc. You'd also need to patch up the thread descriptors to know their new kernelspace thread ids, and you'd need to avoid race conditions in this if the thread was in the middle of querying its thread id.

  2. using vfork followed by SIGSTOP to halt the parent process and give yourself a chance to recreate its thread state without things changing under you. This seems possible but sufficiently difficult I'd get a headache trying to go into detail, I think...

  3. (newly added) catch each thread in signal handlers before forking, and save the ucontext_t argument to the signal handler. Then fork and make new kernel threads (using clone), have them signal themselves, then overwrite the ucontext_t the signal handler gets to have the signal handler return back into the context of the original thread you're trying to duplicate. Of course this would all require very clever synchronization...

Alternatively, you could look for a kernel-based "process hibernation" approach to checkpointing that would not be so hackish...

share|improve this answer
is pthread_atfork of any help? –  MetallicPriest Jul 4 '11 at 19:39
Nope. pthread_atfork is for a different purpose, and it's actually largely useless due to an error in the reasoning of the people who designed it. (The idea is for the prefork functions to acquire all global locks and the parent/child postfork functions to release them all, but the child attempting to release any locks will give and error or invoke undefined behavior because the new thread in the child is not the owner of any of the locks.) –  R.. Jul 4 '11 at 19:44
I think the job of a mulithreaded fork will be easier if it is performed only at special points in the code, such as barriers. –  MetallicPriest Jul 4 '11 at 21:13
It'd still require hideous nonportable hacks to recreate threads using the same contexts as the old ones... although I just realized a new way you could do it... –  R.. Jul 4 '11 at 21:56
Can you kindly tell how to broadcast a signal to all threads, with each thread handling it in a signal handler. I've tried to search a solution on the net but was unsuccessful. –  MetallicPriest Jul 5 '11 at 11:10

What do you mean by "multithreaded fork"? A function that makes a copy of a multithreaded process, so that the forked process has just as many threads as the old one? A function that makes a new thread which copies the state of the old one?

The latter isn't possible, since the address space is shared. A copy of the current thread's state would be using the current thread's stack, and the new thread and the old thread would fight over the stack.

See also:

share|improve this answer
The former isn't possible either. fork just duplicates the calling thread in the new process. There's no way to preserve all threads of the calling process in the new process. Mixing threads and fork is a very very bad idea if you plan to do anything except exec or _exit in the child process. –  R.. Jul 4 '11 at 18:55

Your Answer


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.