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authorVlastimil Babka <vbabka@suse.cz>2021-07-28 12:26:27 +0200
committerVlastimil Babka <vbabka@suse.cz>2021-09-04 10:20:10 +0200
commite0a043aa4145a14d6a8864847811491699a81310 (patch)
tree94825ab7f83a14756f22c9b5fdd1f6adc49038c1 /mm/slub.c
parenta2b4ae8bfd9c10e3c1c1966bd3c8d8b7c9026aaf (diff)
downloadlwn-e0a043aa4145a14d6a8864847811491699a81310.tar.gz
lwn-e0a043aa4145a14d6a8864847811491699a81310.zip
mm, slub: protect put_cpu_partial() with disabled irqs instead of cmpxchg
Jann Horn reported [1] the following theoretically possible race: task A: put_cpu_partial() calls preempt_disable() task A: oldpage = this_cpu_read(s->cpu_slab->partial) interrupt: kfree() reaches unfreeze_partials() and discards the page task B (on another CPU): reallocates page as page cache task A: reads page->pages and page->pobjects, which are actually halves of the pointer page->lru.prev task B (on another CPU): frees page interrupt: allocates page as SLUB page and places it on the percpu partial list task A: this_cpu_cmpxchg() succeeds which would cause page->pages and page->pobjects to end up containing halves of pointers that would then influence when put_cpu_partial() happens and show up in root-only sysfs files. Maybe that's acceptable, I don't know. But there should probably at least be a comment for now to point out that we're reading union fields of a page that might be in a completely different state. Additionally, the this_cpu_cmpxchg() approach in put_cpu_partial() is only safe against s->cpu_slab->partial manipulation in ___slab_alloc() if the latter disables irqs, otherwise a __slab_free() in an irq handler could call put_cpu_partial() in the middle of ___slab_alloc() manipulating ->partial and corrupt it. This becomes an issue on RT after a local_lock is introduced in later patch. The fix means taking the local_lock also in put_cpu_partial() on RT. After debugging this issue, Mike Galbraith suggested [2] that to avoid different locking schemes on RT and !RT, we can just protect put_cpu_partial() with disabled irqs (to be converted to local_lock_irqsave() later) everywhere. This should be acceptable as it's not a fast path, and moving the actual partial unfreezing outside of the irq disabled section makes it short, and with the retry loop gone the code can be also simplified. In addition, the race reported by Jann should no longer be possible. [1] https://lore.kernel.org/lkml/CAG48ez1mvUuXwg0YPH5ANzhQLpbphqk-ZS+jbRz+H66fvm4FcA@mail.gmail.com/ [2] https://lore.kernel.org/linux-rt-users/e3470ab357b48bccfbd1f5133b982178a7d2befb.camel@gmx.de/ Reported-by: Jann Horn <jannh@google.com> Suggested-by: Mike Galbraith <efault@gmx.de> Signed-off-by: Vlastimil Babka <vbabka@suse.cz>
Diffstat (limited to 'mm/slub.c')
-rw-r--r--mm/slub.c81
1 files changed, 44 insertions, 37 deletions
diff --git a/mm/slub.c b/mm/slub.c
index a04c36e173c0..f4b33d2fddc1 100644
--- a/mm/slub.c
+++ b/mm/slub.c
@@ -2025,7 +2025,12 @@ static inline void *acquire_slab(struct kmem_cache *s,
return freelist;
}
+#ifdef CONFIG_SLUB_CPU_PARTIAL
static void put_cpu_partial(struct kmem_cache *s, struct page *page, int drain);
+#else
+static inline void put_cpu_partial(struct kmem_cache *s, struct page *page,
+ int drain) { }
+#endif
static inline bool pfmemalloc_match(struct page *page, gfp_t gfpflags);
/*
@@ -2459,14 +2464,6 @@ static void unfreeze_partials_cpu(struct kmem_cache *s,
__unfreeze_partials(s, partial_page);
}
-#else /* CONFIG_SLUB_CPU_PARTIAL */
-
-static inline void unfreeze_partials(struct kmem_cache *s) { }
-static inline void unfreeze_partials_cpu(struct kmem_cache *s,
- struct kmem_cache_cpu *c) { }
-
-#endif /* CONFIG_SLUB_CPU_PARTIAL */
-
/*
* Put a page that was just frozen (in __slab_free|get_partial_node) into a
* partial page slot if available.
@@ -2476,46 +2473,56 @@ static inline void unfreeze_partials_cpu(struct kmem_cache *s,
*/
static void put_cpu_partial(struct kmem_cache *s, struct page *page, int drain)
{
-#ifdef CONFIG_SLUB_CPU_PARTIAL
struct page *oldpage;
- int pages;
- int pobjects;
+ struct page *page_to_unfreeze = NULL;
+ unsigned long flags;
+ int pages = 0;
+ int pobjects = 0;
- preempt_disable();
- do {
- pages = 0;
- pobjects = 0;
- oldpage = this_cpu_read(s->cpu_slab->partial);
+ local_irq_save(flags);
+
+ oldpage = this_cpu_read(s->cpu_slab->partial);
- if (oldpage) {
+ if (oldpage) {
+ if (drain && oldpage->pobjects > slub_cpu_partial(s)) {
+ /*
+ * Partial array is full. Move the existing set to the
+ * per node partial list. Postpone the actual unfreezing
+ * outside of the critical section.
+ */
+ page_to_unfreeze = oldpage;
+ oldpage = NULL;
+ } else {
pobjects = oldpage->pobjects;
pages = oldpage->pages;
- if (drain && pobjects > slub_cpu_partial(s)) {
- /*
- * partial array is full. Move the existing
- * set to the per node partial list.
- */
- unfreeze_partials(s);
- oldpage = NULL;
- pobjects = 0;
- pages = 0;
- stat(s, CPU_PARTIAL_DRAIN);
- }
}
+ }
- pages++;
- pobjects += page->objects - page->inuse;
+ pages++;
+ pobjects += page->objects - page->inuse;
- page->pages = pages;
- page->pobjects = pobjects;
- page->next = oldpage;
+ page->pages = pages;
+ page->pobjects = pobjects;
+ page->next = oldpage;
- } while (this_cpu_cmpxchg(s->cpu_slab->partial, oldpage, page)
- != oldpage);
- preempt_enable();
-#endif /* CONFIG_SLUB_CPU_PARTIAL */
+ this_cpu_write(s->cpu_slab->partial, page);
+
+ local_irq_restore(flags);
+
+ if (page_to_unfreeze) {
+ __unfreeze_partials(s, page_to_unfreeze);
+ stat(s, CPU_PARTIAL_DRAIN);
+ }
}
+#else /* CONFIG_SLUB_CPU_PARTIAL */
+
+static inline void unfreeze_partials(struct kmem_cache *s) { }
+static inline void unfreeze_partials_cpu(struct kmem_cache *s,
+ struct kmem_cache_cpu *c) { }
+
+#endif /* CONFIG_SLUB_CPU_PARTIAL */
+
static inline void flush_slab(struct kmem_cache *s, struct kmem_cache_cpu *c)
{
unsigned long flags;