I come across this term every now and then. And now I really need a clear explanation as I wish to use some MPI routines that are said not to be interrupt-safe.


I believe it's another wording for reentrant. If a function is reentrant it can be interrupted in the middle and called again.

For example:

void function()
    /* code ... */

This function can clearly be called by different threads (the mutex will protect the code inside). But if a signal arrives after lock(mtx) and the function is called again it will deadlock. So it's not interrupt-safe.

  • Why would it deadlock? The thread that was interrupted in the middle of the critical section has (obviously) acquired the lock. Then the interrupt arrives and the thread is interrupted (but still has the lock, right?). When the interrupt is done, the thread continues from where it left off. It already has the lock and as such, no other thread could have obtained it. Therefore there is no race condition between threads and no deadlock. Am i missing something? – Nikos Jan 4 '17 at 18:59
  • @RestlessC0bra Your example implicitly assumes recursive locks, considered by some to be bad. – cnicutar Jan 4 '17 at 19:14
  • Actually i was talking about your example. But i will check out that link. – Nikos Jan 4 '17 at 19:21
  • 1
    @RestlessC0bra Let's say a thread acquires the mutex. Then the same thread handles a signal and somehow starts executing the function all over again (this is all quite usual). If the locks isn't recursive (and it shouldn't be) the one and only thread is deadlocked. – cnicutar Jan 4 '17 at 19:24

Code that is safe from concurrent access from an interrupt is said to be interrupt-safe.

Consider a situation that your process is in critical section and an asynchronous event comes and interrupts your process to access the same shared resource that process was accessing before preemption.

It is a major bug if an interrupt occurs in the middle of code that is manipulating a resource and the interrupt handler can access the same resource. Locking can save you!

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