How to detect and find out a program is in deadlock?

If you suspect a deadlock, do a ps aux | grep <exe name>, if in output, the PROCESS STATE CODE is D (Uninterruptible sleep) means it is a deadlock. Because as @daijo explained, say you have two threads T1 & T2 and two critical sections each protected by semaphores S1 & S2 then if T1 acquires S1 and T2 acquires S2 and after that they try to acquire the other lock before relinquishing the one already held by them, this will lead to a deadlock and on doing a ps aux | grep <exe name>, the process state code will be D (ie Uninterruptible sleep).

Tools:

Valgrind, Lockdep (linux kernel utility)

Check this link on types of deadlocks and how to avoid them : http://cmdlinelinux.blogspot.com/2014/01/linux-kernel-deadlocks-and-how-to-avoid.html

Edit: ps aux output D "could" mean process is in deadlock, from this redhat doc:

Uninterruptible Sleep State
An Uninterruptible sleep state is one that won't handle a signal right away. It will wake only as a result of a waited-upon resource becoming available or after a time-out occurs during that wait (if the time-out is specified when the process is put to sleep).


I would suggest you look at Helgrind: a thread error detector.

The simplest example of such a problem is as follows.

Imagine some shared resource R, which, for whatever reason, is guarded by two locks, L1 and L2, which must both be held when R is accessed.

Suppose a thread acquires L1, then L2, and proceeds to access R. The implication of this is that all threads in the program must acquire the two locks in the order first L1 then L2. Not doing so risks deadlock.

The deadlock could happen if two threads -- call them T1 and T2 -- both want to access R. Suppose T1 acquires L1 first, and T2 acquires L2 first. Then T1 tries to acquire L2, and T2 tries to acquire L1, but those locks are both already held. So T1 and T2 become deadlocked."