Re: [RFC PATCH 0/2] futex: how to solve the robust_list race condition?
From: Rich Felker <hidden>
Date: 2026-02-23 14:03:10
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On Mon, Feb 23, 2026 at 08:37:13AM -0500, Mathieu Desnoyers wrote:
On 2026-02-23 06:13, Florian Weimer wrote:quoted
* Mathieu Desnoyers:quoted
Trying to find a backward compatible way to solve this may be tricky. Here is one possible approach I have in mind: Introduce a new syscall, e.g. sys_cleanup_robust_list(void *addr) This system call would be invoked on pthread_mutex_destroy(3) of robust mutexes, and do the following: - Calculate the offset of @addr within its mapping, - Iterate on all processes which map the backing store which contain the lock address @addr. - Iterate on each thread sibling within each of those processes, - If the thread has a robust list, and its list_op_pending points to the same offset within the backing store mapping, clear the list_op_pending pointer. The overhead would be added specifically to pthread_mutex_destroy(3), and only for robust mutexes.Would we have to do this for pthread_mutex_destroy only, or also for pthread_join? It is defined to exit a thread with mutexes still locked, and the pthread_join call could mean that the application can determine by its own logic that the backing store can be deallocated.Let me try to wrap my head around this scenario. AFAIU, the https://man7.org/linux/man-pages/man3/pthread_join.3.html NOTES section states the following for pthread_join(3): After a successful call to pthread_join(), the caller is guaranteed that the target thread has terminated. The caller may then choose to do any clean-up that is required after termination of the thread (e.g., freeing memory or other resources that were allocated to the target thread). What is the behavior when a thread exits with a mutex locked ? I would expect that this mutex stays locked
For a robust mutex, if the owning thread exits, the mutex enters EOWNERDEAD state. Otherwise, per POSIX the mutex just remains permanently locked and undestroyable. glibc does not actually implement this for recursive or errorchecking mutexes, as the tid might get reused and then the new thread that got the same tid will now behave as if it were the owner (e.g. it's allowed to take further recursive locks or observe itself as the owner via EDEADLK). In musl we implement this by putting all recursive and errorchecking mutexes on a robust list to reassign an unmatchable tid to them at pthread_exit time.
and the pthread_join(3) caller gets to release that mutex and eventually calls pthread_mutex_destroy(3) if the application logic allows it.
No other thread can release the mutex that was left locked unless it was robust and it goes via the EOWNERDEAD/recovery process. Nor can you legally call pthread_mutex_destroy on a mutex that's still owned. Rich