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kfence: save freeing stack trace at calling time instead of freeing time
For kmem_cache with SLAB_TYPESAFE_BY_RCU, the freeing trace stack at calling kmem_cache_free() is more useful. While the following stack is meaningless and provides no help: freed by task 46 on cpu 0 at 656.840729s: rcu_do_batch+0x1ab/0x540 nocb_cb_wait+0x8f/0x260 rcu_nocb_cb_kthread+0x25/0x80 kthread+0xd2/0x100 ret_from_fork+0x34/0x50 ret_from_fork_asm+0x1a/0x30 Link: https://lkml.kernel.org/r/20240812095517.2357-1-dtcccc@linux.alibaba.com Signed-off-by: Tianchen Ding <dtcccc@linux.alibaba.com> Reviewed-by: Marco Elver <elver@google.com> Cc: Alexander Potapenko <glider@google.com> Cc: Dmitry Vyukov <dvyukov@google.com> Signed-off-by: Andrew Morton <akpm@linux-foundation.org>
This commit is contained in:
Tianchen Ding
Andrew Morton
parent
c64d66153b
commit
c36be0cdf6
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@ -273,6 +273,13 @@ static inline unsigned long metadata_to_pageaddr(const struct kfence_metadata *m
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return pageaddr;
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}
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static inline bool kfence_obj_allocated(const struct kfence_metadata *meta)
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{
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enum kfence_object_state state = READ_ONCE(meta->state);
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return state == KFENCE_OBJECT_ALLOCATED || state == KFENCE_OBJECT_RCU_FREEING;
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}
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/*
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* Update the object's metadata state, including updating the alloc/free stacks
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* depending on the state transition.
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@ -282,10 +289,14 @@ metadata_update_state(struct kfence_metadata *meta, enum kfence_object_state nex
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unsigned long *stack_entries, size_t num_stack_entries)
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{
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struct kfence_track *track =
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next == KFENCE_OBJECT_FREED ? &meta->free_track : &meta->alloc_track;
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next == KFENCE_OBJECT_ALLOCATED ? &meta->alloc_track : &meta->free_track;
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lockdep_assert_held(&meta->lock);
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/* Stack has been saved when calling rcu, skip. */
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if (READ_ONCE(meta->state) == KFENCE_OBJECT_RCU_FREEING)
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goto out;
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if (stack_entries) {
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memcpy(track->stack_entries, stack_entries,
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num_stack_entries * sizeof(stack_entries[0]));
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@ -301,6 +312,7 @@ metadata_update_state(struct kfence_metadata *meta, enum kfence_object_state nex
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track->cpu = raw_smp_processor_id();
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track->ts_nsec = local_clock(); /* Same source as printk timestamps. */
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out:
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/*
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* Pairs with READ_ONCE() in
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* kfence_shutdown_cache(),
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@ -506,7 +518,7 @@ static void kfence_guarded_free(void *addr, struct kfence_metadata *meta, bool z
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raw_spin_lock_irqsave(&meta->lock, flags);
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if (meta->state != KFENCE_OBJECT_ALLOCATED || meta->addr != (unsigned long)addr) {
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if (!kfence_obj_allocated(meta) || meta->addr != (unsigned long)addr) {
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/* Invalid or double-free, bail out. */
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atomic_long_inc(&counters[KFENCE_COUNTER_BUGS]);
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kfence_report_error((unsigned long)addr, false, NULL, meta,
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@ -784,7 +796,7 @@ static void kfence_check_all_canary(void)
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for (i = 0; i < CONFIG_KFENCE_NUM_OBJECTS; i++) {
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struct kfence_metadata *meta = &kfence_metadata[i];
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if (meta->state == KFENCE_OBJECT_ALLOCATED)
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if (kfence_obj_allocated(meta))
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check_canary(meta);
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}
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}
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@ -1010,12 +1022,11 @@ void kfence_shutdown_cache(struct kmem_cache *s)
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* the lock will not help, as different critical section
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* serialization will have the same outcome.
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*/
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if (READ_ONCE(meta->cache) != s ||
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READ_ONCE(meta->state) != KFENCE_OBJECT_ALLOCATED)
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if (READ_ONCE(meta->cache) != s || !kfence_obj_allocated(meta))
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continue;
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raw_spin_lock_irqsave(&meta->lock, flags);
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in_use = meta->cache == s && meta->state == KFENCE_OBJECT_ALLOCATED;
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in_use = meta->cache == s && kfence_obj_allocated(meta);
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raw_spin_unlock_irqrestore(&meta->lock, flags);
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if (in_use) {
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@ -1160,11 +1171,19 @@ void __kfence_free(void *addr)
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* the object, as the object page may be recycled for other-typed
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* objects once it has been freed. meta->cache may be NULL if the cache
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* was destroyed.
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* Save the stack trace here so that reports show where the user freed
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* the object.
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*/
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if (unlikely(meta->cache && (meta->cache->flags & SLAB_TYPESAFE_BY_RCU)))
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if (unlikely(meta->cache && (meta->cache->flags & SLAB_TYPESAFE_BY_RCU))) {
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unsigned long flags;
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raw_spin_lock_irqsave(&meta->lock, flags);
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metadata_update_state(meta, KFENCE_OBJECT_RCU_FREEING, NULL, 0);
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raw_spin_unlock_irqrestore(&meta->lock, flags);
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call_rcu(&meta->rcu_head, rcu_guarded_free);
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else
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} else {
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kfence_guarded_free(addr, meta, false);
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}
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}
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bool kfence_handle_page_fault(unsigned long addr, bool is_write, struct pt_regs *regs)
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@ -1188,14 +1207,14 @@ bool kfence_handle_page_fault(unsigned long addr, bool is_write, struct pt_regs
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int distance = 0;
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meta = addr_to_metadata(addr - PAGE_SIZE);
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if (meta && READ_ONCE(meta->state) == KFENCE_OBJECT_ALLOCATED) {
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if (meta && kfence_obj_allocated(meta)) {
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to_report = meta;
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/* Data race ok; distance calculation approximate. */
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distance = addr - data_race(meta->addr + meta->size);
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}
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meta = addr_to_metadata(addr + PAGE_SIZE);
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if (meta && READ_ONCE(meta->state) == KFENCE_OBJECT_ALLOCATED) {
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if (meta && kfence_obj_allocated(meta)) {
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/* Data race ok; distance calculation approximate. */
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if (!to_report || distance > data_race(meta->addr) - addr)
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to_report = meta;
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@ -38,6 +38,7 @@
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enum kfence_object_state {
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KFENCE_OBJECT_UNUSED, /* Object is unused. */
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KFENCE_OBJECT_ALLOCATED, /* Object is currently allocated. */
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KFENCE_OBJECT_RCU_FREEING, /* Object was allocated, and then being freed by rcu. */
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KFENCE_OBJECT_FREED, /* Object was allocated, and then freed. */
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};
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@ -114,7 +114,8 @@ static void kfence_print_stack(struct seq_file *seq, const struct kfence_metadat
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/* Timestamp matches printk timestamp format. */
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seq_con_printf(seq, "%s by task %d on cpu %d at %lu.%06lus (%lu.%06lus ago):\n",
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show_alloc ? "allocated" : "freed", track->pid,
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show_alloc ? "allocated" : meta->state == KFENCE_OBJECT_RCU_FREEING ?
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"rcu freeing" : "freed", track->pid,
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track->cpu, (unsigned long)ts_sec, rem_nsec / 1000,
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(unsigned long)interval_nsec, rem_interval_nsec / 1000);
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@ -149,7 +150,7 @@ void kfence_print_object(struct seq_file *seq, const struct kfence_metadata *met
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kfence_print_stack(seq, meta, true);
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if (meta->state == KFENCE_OBJECT_FREED) {
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if (meta->state == KFENCE_OBJECT_FREED || meta->state == KFENCE_OBJECT_RCU_FREEING) {
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seq_con_printf(seq, "\n");
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kfence_print_stack(seq, meta, false);
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}
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@ -318,7 +319,7 @@ bool __kfence_obj_info(struct kmem_obj_info *kpp, void *object, struct slab *sla
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kpp->kp_slab_cache = meta->cache;
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kpp->kp_objp = (void *)meta->addr;
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kfence_to_kp_stack(&meta->alloc_track, kpp->kp_stack);
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if (meta->state == KFENCE_OBJECT_FREED)
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if (meta->state == KFENCE_OBJECT_FREED || meta->state == KFENCE_OBJECT_RCU_FREEING)
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kfence_to_kp_stack(&meta->free_track, kpp->kp_free_stack);
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/* get_stack_skipnr() ensures the first entry is outside allocator. */
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kpp->kp_ret = kpp->kp_stack[0];
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