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Situation: I have a multithreaded program written in C. If one of the threads forks, the child process is replaced by another using exec() and the parent waits for the child to exit.

Problem: After the child process is created by fork() there are a few lines of code that compile the arguments to be used in the following exec() command.

Hypothesis Am I correct in assuming that in the time between the child process being created by fork() and being replaced by exec(), the child process - being a copy of the parent - will have all the threads of the parent and therefore these threads will run - albeit for a very brief period?

If so, is the correct solution to call exec() immediately after fork()?

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3 Answers 3

up vote 7 down vote accepted

Only the thread that calls fork will be running in the new process. However, there are limits to which functions you can call before exec. From fork:

A process shall be created with a single thread. If a multi-threaded process calls fork(), the new process shall contain a replica of the calling thread and its entire address space, possibly including the states of mutexes and other resources. Consequently, to avoid errors, the child process may only execute async-signal-safe operations until such time as one of the exec functions is called. Fork handlers may be established by means of the pthread_atfork() function in order to maintain application invariants across fork() calls.

I believe this means you should generally be okay, as long as any multi-threaded libraries use pthread_atfork properly.

EDIT: The pthread_atfork page explains further how the library can protect itself:

The expected usage is that the prepare handler acquires all mutex locks and the other two fork handlers release them.

For example, an application can supply a prepare routine that acquires the necessary mutexes the library maintains and supply child and parent routines that release those mutexes, thus ensuring that the child gets a consistent snapshot of the state of the library (and that no mutexes are left stranded). Alternatively, some libraries might be able to supply just a child routine that reinitializes the mutexes in the library and all associated states to some known value (for example, what it was when the image was originally executed).

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Is the quoted passage suggesting that the standard library (for example, stdio, atexit, malloc, thread creation and destruction, etc.) might internally use synchronization resources that could be in an inconsistent state after fork? If so, how would use of pthread_atfork solve the problem? –  R.. Nov 19 '10 at 15:31
    
@R, yes, possibly. It depends on the library. In some cases, they can lock all mutexes pre-fork, then release them immediately after the fork. In others, it's okay to just reinitialize them as if the process were starting from scratch. I've added a relevant passage from pthread_atfork . –  Matthew Flaschen Nov 19 '10 at 17:25

I too thought , all the threads will be replicated in the child process too. But thats not true. Since other threads are not replicated in the child process, if you are using mutexes/locks before exec, you need to make sure that fork handlers are written to handle them properly. Here is an article on it. http://learnwithtechies.com/tech/index.php?option=com_content&view=article&id=15:fork-in-multithreaded-environment&catid=10:unix

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As @Matthew wrote in his answer, the other threads from the parent process will not exist in the child process (if you are using PThreads).

Note that if this were not so, it wouldn't help to place the exec() call "immediately after" the call to fork, since there would still be the possibility that the other threads would run before the call to exec(). You could, however, control this by locking a mutex before calling fork() - it would essentially get destroyed by the call to exec().

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+1 for the explanation in the second paragraph. –  R.. Nov 19 '10 at 15:25
    
I'm not sure this is correct about mutexes "essentially getting destroyed." As I said above, there is a risk of the locks getting into an inconsistent state. That's why pthread_atfork exists. –  Matthew Flaschen Nov 19 '10 at 17:27

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