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authorLinus Torvalds <torvalds@linux-foundation.org>2021-06-27 13:32:54 -0700
committerLinus Torvalds <torvalds@linux-foundation.org>2021-06-27 13:32:54 -0700
commitb4b27b9eed8ebdbf9f3046197d29d733c8c944f3 (patch)
tree836d7997effa9b977233dedc5f5f7c05685c111b /kernel/exit.c
parent625acffd7ae2c52898d249e6c5c39f348db0d8df (diff)
downloadlwn-b4b27b9eed8ebdbf9f3046197d29d733c8c944f3.tar.gz
lwn-b4b27b9eed8ebdbf9f3046197d29d733c8c944f3.zip
Revert "signal: Allow tasks to cache one sigqueue struct"
This reverts commits 4bad58ebc8bc4f20d89cff95417c9b4674769709 (and 399f8dd9a866e107639eabd3c1979cd526ca3a98, which tried to fix it). I do not believe these are correct, and I'm about to release 5.13, so am reverting them out of an abundance of caution. The locking is odd, and appears broken. On the allocation side (in __sigqueue_alloc()), the locking is somewhat straightforward: it depends on sighand->siglock. Since one caller doesn't hold that lock, it further then tests 'sigqueue_flags' to avoid the case with no locks held. On the freeing side (in sigqueue_cache_or_free()), there is no locking at all, and the logic instead depends on 'current' being a single thread, and not able to race with itself. To make things more exciting, there's also the data race between freeing a signal and allocating one, which is handled by using WRITE_ONCE() and READ_ONCE(), and being mutually exclusive wrt the initial state (ie freeing will only free if the old state was NULL, while allocating will obviously only use the value if it was non-NULL, so only one or the other will actually act on the value). However, while the free->alloc paths do seem mutually exclusive thanks to just the data value dependency, it's not clear what the memory ordering constraints are on it. Could writes from the previous allocation possibly be delayed and seen by the new allocation later, causing logical inconsistencies? So it's all very exciting and unusual. And in particular, it seems that the freeing side is incorrect in depending on "current" being single-threaded. Yes, 'current' is a single thread, but in the presense of asynchronous events even a single thread can have data races. And such asynchronous events can and do happen, with interrupts causing signals to be flushed and thus free'd (for example - sending a SIGCONT/SIGSTOP can happen from interrupt context, and can flush previously queued process control signals). So regardless of all the other questions about the memory ordering and locking for this new cached allocation, the sigqueue_cache_or_free() assumptions seem to be fundamentally incorrect. It may be that people will show me the errors of my ways, and tell me why this is all safe after all. We can reinstate it if so. But my current belief is that the WRITE_ONCE() that sets the cached entry needs to be a smp_store_release(), and the READ_ONCE() that finds a cached entry needs to be a smp_load_acquire() to handle memory ordering correctly. And the sequence in sigqueue_cache_or_free() would need to either use a lock or at least be interrupt-safe some way (perhaps by using something like the percpu 'cmpxchg': it doesn't need to be SMP-safe, but like the percpu operations it needs to be interrupt-safe). Fixes: 399f8dd9a866 ("signal: Prevent sigqueue caching after task got released") Fixes: 4bad58ebc8bc ("signal: Allow tasks to cache one sigqueue struct") Cc: Thomas Gleixner <tglx@linutronix.de> Cc: Peter Zijlstra <peterz@infradead.org> Cc: Oleg Nesterov <oleg@redhat.com> Cc: Christian Brauner <christian.brauner@ubuntu.com> Signed-off-by: Linus Torvalds <torvalds@linux-foundation.org>
Diffstat (limited to 'kernel/exit.c')
-rw-r--r--kernel/exit.c1
1 files changed, 0 insertions, 1 deletions
diff --git a/kernel/exit.c b/kernel/exit.c
index fd1c04193e18..65809fac3038 100644
--- a/kernel/exit.c
+++ b/kernel/exit.c
@@ -162,7 +162,6 @@ static void __exit_signal(struct task_struct *tsk)
flush_sigqueue(&sig->shared_pending);
tty_kref_put(tty);
}
- exit_task_sigqueue_cache(tsk);
}
static void delayed_put_task_struct(struct rcu_head *rhp)