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I created a JOINABLE thread and later canceled it near the end of the program, e.g.

rc2 = pthread_attr_init(&attr);
ERR_IF( rc2 != 0 );
rc2 = pthread_attr_setdetachstate(&attr, PTHREAD_CREATE_JOINABLE);
ERR_IF( rc2 != 0 );
rc2 = pthread_create(&destroy_thread, &attr, destroy_expired_sessions, NULL);
ERR_IF( rc2 != 0 );
rc2 = pthread_cancel(destroy_thread);
ERR_IF( rc2 != 0 );
rc2 = pthread_join(destroy_thread, &status);
ERR_IF( rc2 != 0 || (int *)status != PTHREAD_CANCELED);

Yet, there is memory leak with pthread_cancel(), analyzed by valgrind:

==17583== 28 bytes in 1 blocks are still reachable in loss record 1 of 1
==17583==    at 0x4006878: malloc (in /m/mls/pkg/trees/2008Q3/ix86-Linux-RHEL5/lib/valgrind/x86-linux/vgpreload_memcheck.so)
==17583==    by 0x79FAC1: _dl_map_object_deps (in /lib/ld-2.5.so)
==17583==    by 0x7A4A67: dl_open_worker (in /lib/ld-2.5.so)
==17583==    by 0x7A0DA5: _dl_catch_error (in /lib/ld-2.5.so)
==17583==    by 0x7A43F1: _dl_open (in /lib/ld-2.5.so)
==17583==    by 0x8BF2E1: do_dlopen (in /lib/libc-2.5.so)
==17583==    by 0x7A0DA5: _dl_catch_error (in /lib/ld-2.5.so)
==17583==    by 0x8BF494: __libc_dlopen_mode (in /lib/libc-2.5.so)
==17583==    by 0x9527D6: pthread_cancel_init (in /lib/libpthread-2.5.so)
==17583==    by 0x94EC1B: pthread_cancel (in /lib/libpthread-2.5.so)
==17583==    by 0x80860CF: authDeinit (authAPI.c:1545)
==17583==    by 0x807F280: main (test_sessionList.c:124)
==17583== LEAK SUMMARY:
==17583==    definitely lost: 0 bytes in 0 blocks.
==17583==      possibly lost: 0 bytes in 0 blocks.
==17583==    still reachable: 28 bytes in 1 blocks.
==17583==         suppressed: 0 bytes in 0 blocks.

It seems a defect of the function pthread_cancel() itself. Looks like it malloc()'ed some memory but didn't free() it later. Is there any way to avoid the memory leak here?

share|improve this question
Seems possibly related to dynamic loading, does it leak more than once in that function? –  Joachim Isaksson Mar 18 '12 at 22:55
@Joachim: So far, it seems only to leak once. But, it is still a thorn. :( –  Qiang Xu Mar 18 '12 at 23:00
Are you initializing any variables in the thread? –  Stanislav Palatnik Mar 18 '12 at 23:07
@StanislavPalatnik: Yeah, some variables are intialized in the thread, but all in the stack, nothing in the heap. –  Qiang Xu Mar 18 '12 at 23:20

3 Answers 3

up vote 3 down vote accepted

This is how pthread_cancel() is designed to work. When called, it'll call pthread_cancel_init() to ensure that several items are dynamically linked (using equivalents to dlopen() and dlsym()). Those dynamically linked functions/symbols are intended to be available for the remainder of the process' lifetime.

So this isn't a leak in the sense that something has been lost track of - rather it's something loaded and intended to remain alive.

I'd suggest that valgrind be configured to ignore this allocation if possible.

share|improve this answer
Hmmm, so you mean it is a false alarm? But where does the malloc() on the top come from? It looks suspicious. –  Qiang Xu Mar 18 '12 at 23:34
Just did some research in the web. It seems someone else agree with you, Michael. Look at here: Valgrind suppression fail is outdated. It seems a bug of Valgrind, doesn't it? –  Qiang Xu Mar 18 '12 at 23:34
Here's the relevant code from glibc source: sourceware.org/git/?p=glibc.git;a=blob;f=nptl/sysdeps/pthread/… Presumably, __libc_dlopen() allocates a block of memory which is never freed because the dlopen handle is never freed (by design). I think valgrind should be configured to ignore this, but I'm not familiar enough with the tool to be able to explain how that should be done best. –  Michael Burr Mar 18 '12 at 23:45
@QiangXu: the bug report you pointed to indicates this should have been fixed by Valgrind a while back - I wonder if there's been a change in glibc since then that avoids the valgrind fix? The call stack in your dump looks slightly different than those in the valgrind bug report. –  Michael Burr Mar 18 '12 at 23:56

The fact that your memory leak is designated as "reachable" means that you simply didn't call free on the pointer ... in other words the pointer is still an accessible pointer, and it's still pointing to the allocated memory when the process completes. The pointer did not go out-of-scope, which would make a situation where you've completely "lost" the memory reference and cannot call free on it.

Sometimes holding dynamic memory allocations for the entirety of the process can be a desirable trait, such as using dynamic memory to avoid static initialization issues as described here. You haven't posted enough code to actually diagnose what the exact issue is, but I highly doubt the issue is with pthread_cancel itself, but rather has to-do with how you're moving memory around via pointers in your code, where it seems some of those pointers aren't exactly leaking memory, but rather are just still holding onto the memory they point to when the process completes.

share|improve this answer
Thanks for your comment, Jason. But the problem here looks not related to my code. Rather, it is either a problem of pthread_cancel() itself, or a problem of Valgrind. –  Qiang Xu Mar 18 '12 at 23:40
BTW, I hope you aren't feeling like I'm "blaming" your code ... I'm actually trying to point out that sometimes holding onto dynamic memory for the entirety of a process is actually something desirable rather than something to be avoided. –  Jason Mar 18 '12 at 23:43
Nah, I am not feeling you are blaming my code at all. Rather, you are suggesting some good coding practice. I rather appreciate. :) –  Qiang Xu Mar 18 '12 at 23:51

It's never a good idea to forcibly terminate a thread. It's better to come up with a clean way to signal the thread to exit on it's own (and do it's own resource cleanup). Then call just pthread_join to finish the cleanup.

share|improve this answer
Thanks for the reminding, Selbie. But the thread here is always running, not intended to end, except at the end of the whole process. So, we've got to finish it from outside. And yes, we do have some cleanup handler. :) –  Qiang Xu Mar 18 '12 at 23:39
Why make it joinable then? Why not just call pthread_detach, or set the attributes to detachable? –  Jason Mar 18 '12 at 23:41
@Jason: Because I want to use pthread_join() after pthread_cancel() to make sure the thread does get canceled. So I created the thread as joinable. Is there any potential side effect on this? –  Qiang Xu Mar 18 '12 at 23:47
@QiangXu : If you want the thread to run the entirety of the process, then there is no need to make a thread joinable. Ending the process by either calling exit() or returning from main will simply kill all the detached threads that have been spawned by the process ... in other words the OS will reclaim all the resources used by the process. –  Jason Mar 18 '12 at 23:54
@Jason: Yup, you are right. The kernel can help me handle the reclaiming actually. I just want to relieve the kernel of this burden, and do the necessary cleaning-up by myself before the program ends. Isn't it a good practice? By the way, I am still a bit hazy about the downside of a joinable thread (vs a detached one). Could you elaborate more on this point? Thanks! –  Qiang Xu Mar 19 '12 at 0:00

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