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authorBoqun Feng <boqun.feng@gmail.com>2020-12-10 13:15:00 +0300
committerPeter Zijlstra <peterz@infradead.org>2021-01-14 13:20:17 +0300
commit5f2962401c6e195222f320d12b3a55377b2d4653 (patch)
tree6cb7bcb9ae9e84185c866db87529c4be3348a38e
parent175b1a60e8805617d74aefe17ce0d3a32eceb55c (diff)
downloadlinux-5f2962401c6e195222f320d12b3a55377b2d4653.tar.xz
locking/lockdep: Exclude local_lock_t from IRQ inversions
The purpose of local_lock_t is to abstract: preempt_disable() / local_bh_disable() / local_irq_disable(). These are the traditional means of gaining access to per-cpu data, but are fundamentally non-preemptible. local_lock_t provides a per-cpu lock, that on !PREEMPT_RT reduces to no-ops, just like regular spinlocks do on UP. This gives rise to: CPU0 CPU1 local_lock(B) spin_lock_irq(A) <IRQ> spin_lock(A) local_lock(B) Where lockdep then figures things will lock up; which would be true if B were any other kind of lock. However this is a false positive, no such deadlock actually exists. For !RT the above local_lock(B) is preempt_disable(), and there's obviously no deadlock; alternatively, CPU0's B != CPU1's B. For RT the argument is that since local_lock() nests inside spin_lock(), it cannot be used in hardirq context, and therefore CPU0 cannot in fact happen. Even though B is a real lock, it is a preemptible lock and any threaded-irq would simply schedule out and let the preempted task (which holds B) continue such that the task on CPU1 can make progress, after which the threaded-irq resumes and can finish. This means that we can never form an IRQ inversion on a local_lock dependency, so terminate the graph walk when looking for IRQ inversions when we encounter one. One consequence is that (for LOCKDEP_SMALL) when we look for redundant dependencies, A -> B is not redundant in the presence of A -> L -> B. Signed-off-by: Boqun Feng <boqun.feng@gmail.com> [peterz: Changelog] Signed-off-by: Peter Zijlstra (Intel) <peterz@infradead.org>
-rw-r--r--kernel/locking/lockdep.c57
1 files changed, 53 insertions, 4 deletions
diff --git a/kernel/locking/lockdep.c b/kernel/locking/lockdep.c
index f2ae8a65f667..ad9afd8c7eb9 100644
--- a/kernel/locking/lockdep.c
+++ b/kernel/locking/lockdep.c
@@ -2200,6 +2200,44 @@ static inline bool usage_match(struct lock_list *entry, void *mask)
return !!((entry->class->usage_mask & LOCKF_IRQ) & *(unsigned long *)mask);
}
+static inline bool usage_skip(struct lock_list *entry, void *mask)
+{
+ /*
+ * Skip local_lock() for irq inversion detection.
+ *
+ * For !RT, local_lock() is not a real lock, so it won't carry any
+ * dependency.
+ *
+ * For RT, an irq inversion happens when we have lock A and B, and on
+ * some CPU we can have:
+ *
+ * lock(A);
+ * <interrupted>
+ * lock(B);
+ *
+ * where lock(B) cannot sleep, and we have a dependency B -> ... -> A.
+ *
+ * Now we prove local_lock() cannot exist in that dependency. First we
+ * have the observation for any lock chain L1 -> ... -> Ln, for any
+ * 1 <= i <= n, Li.inner_wait_type <= L1.inner_wait_type, otherwise
+ * wait context check will complain. And since B is not a sleep lock,
+ * therefore B.inner_wait_type >= 2, and since the inner_wait_type of
+ * local_lock() is 3, which is greater than 2, therefore there is no
+ * way the local_lock() exists in the dependency B -> ... -> A.
+ *
+ * As a result, we will skip local_lock(), when we search for irq
+ * inversion bugs.
+ */
+ if (entry->class->lock_type == LD_LOCK_PERCPU) {
+ if (DEBUG_LOCKS_WARN_ON(entry->class->wait_type_inner < LD_WAIT_CONFIG))
+ return false;
+
+ return true;
+ }
+
+ return false;
+}
+
/*
* Find a node in the forwards-direction dependency sub-graph starting
* at @root->class that matches @bit.
@@ -2215,7 +2253,7 @@ find_usage_forwards(struct lock_list *root, unsigned long usage_mask,
debug_atomic_inc(nr_find_usage_forwards_checks);
- result = __bfs_forwards(root, &usage_mask, usage_match, NULL, target_entry);
+ result = __bfs_forwards(root, &usage_mask, usage_match, usage_skip, target_entry);
return result;
}
@@ -2232,7 +2270,7 @@ find_usage_backwards(struct lock_list *root, unsigned long usage_mask,
debug_atomic_inc(nr_find_usage_backwards_checks);
- result = __bfs_backwards(root, &usage_mask, usage_match, NULL, target_entry);
+ result = __bfs_backwards(root, &usage_mask, usage_match, usage_skip, target_entry);
return result;
}
@@ -2597,7 +2635,7 @@ static int check_irq_usage(struct task_struct *curr, struct held_lock *prev,
*/
bfs_init_rootb(&this, prev);
- ret = __bfs_backwards(&this, &usage_mask, usage_accumulate, NULL, NULL);
+ ret = __bfs_backwards(&this, &usage_mask, usage_accumulate, usage_skip, NULL);
if (bfs_error(ret)) {
print_bfs_bug(ret);
return 0;
@@ -2664,6 +2702,12 @@ static inline int check_irq_usage(struct task_struct *curr,
{
return 1;
}
+
+static inline bool usage_skip(struct lock_list *entry, void *mask)
+{
+ return false;
+}
+
#endif /* CONFIG_TRACE_IRQFLAGS */
#ifdef CONFIG_LOCKDEP_SMALL
@@ -2697,7 +2741,12 @@ check_redundant(struct held_lock *src, struct held_lock *target)
debug_atomic_inc(nr_redundant_checks);
- ret = check_path(target, &src_entry, hlock_equal, NULL, &target_entry);
+ /*
+ * Note: we skip local_lock() for redundant check, because as the
+ * comment in usage_skip(), A -> local_lock() -> B and A -> B are not
+ * the same.
+ */
+ ret = check_path(target, &src_entry, hlock_equal, usage_skip, &target_entry);
if (ret == BFS_RMATCH)
debug_atomic_inc(nr_redundant);