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SubjectRe: [PATCH] fs/super.c: Fix lock/unlock imbalance in sget_fc
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Hi Al,

Certainly, I never checked grab_super. Lesson learned.

Thanks a lot for taking the time to write this master class. I really
appreciate it. :)

--
Gustavo

> a reproducer), we have some other crap going on and need to investigate
> that, but even in that case, the patch is wrong]
>
> As for how to investigate that kind of thing... Look:
>
> The code in question is
> if (fc->user_ns != old->s_user_ns) {
> spin_unlock(&sb_lock);
> if (s) {
> up_write(&s->s_umount);
> destroy_unused_super(s);
> }
> return ERR_PTR(-EBUSY);
> }
> if (!grab_super(old))
> goto retry;
> if (s) {
> up_write(&s->s_umount);
> destroy_unused_super(s);
> s = NULL;
> }
> return old;
>
> Your hypothesis is that we can get to that return old; with sb_lock
> held. That would almost certainly be a bad thing, since elsewhere
> in the same function we have
> spin_unlock(&sb_lock);
> get_filesystem(s->s_type);
> register_shrinker(&s->s_shrink);
> return s;
> which appears to return an object with sb_lock dropped, with no obvious
> way for a caller to tell one from another. Even if such a way existed
> (it does, actually), that kind of calling conventions would be highly
> bug-prone.
>
> The next question is, when would we get to that return old; with
> sb_lock held? We do, apparently, hold it before the if (fc->...)
> above (again, strictly speaking not proven yet, but that's the
> most likely assumption). So if grab_super(old) returns true and
> we are holding sb_lock, either we do have a problem, or something
> subtle is going on.
>
> The obvious next target of examination is grab_super(). Which comes
> with
> /**
> * grab_super - acquire an active reference
> * @s: reference we are trying to make active
> *
> * Tries to acquire an active reference. grab_super() is used when we
> * had just found a superblock in super_blocks or fs_type->fs_supers
> * and want to turn it into a full-blown active reference. grab_super()
> ^^^^^^^^^^^^
> * is called with sb_lock held and drops it. Returns 1 in case of
> ^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
> * success, 0 if we had failed (superblock contents was already dead or
> * dying when grab_super() had been called). Note that this is only
> * called for superblocks not in rundown mode (== ones still on ->fs_supers
> * of their type), so increment of ->s_count is OK here.
> */
> and looking for references to sb_lock yields the underscored sentence. Now,
> if that is true (which is not guaranteed - comments can become stale), we do
> not need to drop sb_lock after the call of grab_super() - it's already been
> dropped by grab_super() itself.
>
> And looking at the actual code we have
> static int grab_super(struct super_block *s) __releases(sb_lock)
> {
> s->s_count++;
> spin_unlock(&sb_lock);
> ^^^^^^^^^^^^^^^^^^^^^---------- dropped, indeed
> down_write(&s->s_umount);
> if ((s->s_flags & SB_BORN) && atomic_inc_not_zero(&s->s_active)) {
> put_super(s);
> return 1;
> }
> up_write(&s->s_umount);
> put_super(s);
> return 0;
> }
> ... and not regained, unless put_super() does something fishy.
> static void put_super(struct super_block *sb)
> {
> spin_lock(&sb_lock);
> __put_super(sb);
> spin_unlock(&sb_lock);
> }
> OK, put_super() definitely returns with sb_lock not held, and therefore so does
> grab_super(). In other words, the comment does match the reality and trying
> to drop sb_lock right after the call of grab_super() would be 100% wrong.
>
> That disproves your hypothesis. For the sake of completeness, let's finish the
> analysis of sget_fc() wrt sb_lock.
> struct super_block *sget_fc(struct fs_context *fc,
> int (*test)(struct super_block *, struct fs_context *),
> int (*set)(struct super_block *, struct fs_context *))
> {
> if (!(fc->sb_flags & SB_KERNMOUNT) &&
> fc->purpose != FS_CONTEXT_FOR_SUBMOUNT) {
> /* Don't allow mounting unless the caller has CAP_SYS_ADMIN
> * over the namespace.
> */
> if (!(fc->fs_type->fs_flags & FS_USERNS_MOUNT) &&
> !capable(CAP_SYS_ADMIN))
> return ERR_PTR(-EPERM);
> else if (!ns_capable(fc->user_ns, CAP_SYS_ADMIN))
> return ERR_PTR(-EPERM);
> }
> retry:
> spin_lock(&sb_lock);
>
> OK, we definitely do not want to call that with sb_lock held - doing so would
> either return ERR_PTR(-EPERM) or deadlock. So the calling conventions include
> "caller is not holding sb_lock". If so, everything up to retry: should be
> executed without sb_lock held, and subsequent code is with sb_lock held.
> if (test) {
> hlist_for_each_entry(old, &fc->fs_type->fs_supers, s_instances) {
> if (!test(old, fc))
> continue;
> 'test' callback should be callable with sb_lock held. Note that
> at least in case when it returns false it must not have dropped
> sb_lock - the list we are walking is protected by sb_lock.
> if (fc->user_ns != old->s_user_ns) {
> spin_unlock(&sb_lock);
> ... in which case we also want sb_lock not dropped by test() since we
> drop it ourselves.
> if (s) {
> up_write(&s->s_umount);
> destroy_unused_super(s);
> destroy_unused_super() is called without sb_lock here and examination
> shows that it doesn't touch sb_lock itself.
> }
> return ERR_PTR(-EBUSY);
> }
> ... and in this case we also want sb_lock not dropped by test() either,
> since grab_super() will drop it.
> if (!grab_super(old))
> goto retry;
> we either go back to 'retry:' with sb_lock not held (same as in the
> case of reaching retry: without goto) or coninue to
> if (s) {
> up_write(&s->s_umount);
> destroy_unused_super(s);
> same as above, called without sb_lock, doesn't touch it.
> s = NULL;
> }
> return old;
> ... and we return without sb_lock held.
> }
> }
>
> Here (after the if (test) body) we do hold sb_lock
> if (!s) {
> spin_unlock(&sb_lock);
> drop and call alloc_super(), which doesn't touch sb_lock
> s = alloc_super(fc);
> if (!s)
> return ERR_PTR(-ENOMEM);
> goto retry;
> ... and either return without sb_lock or go back to retry:, with
> the same conditions as on other paths leading there. Incidentally,
> since alloc_super() very clearly blocks (GFP_USER kzalloc the very
> first thing in there), the calling conventions for sget_fc() include
> not just "must not be holding sb_lock" but "must not be holding any
> spinlock".
> }
> s->s_fs_info = fc->s_fs_info;
> err = set(s, fc);
> OK, so 'set()' is also called under sb_lock.
> if (err) {
> s->s_fs_info = NULL;
> spin_unlock(&sb_lock);
> ... and at least in case of error must not drop it, since we'd do that
> ourselves.
> up_write(&s->s_umount);
> destroy_unused_super(s);
> return ERR_PTR(err);
> same as in earlier cases
> }
> fc->s_fs_info = NULL;
> s->s_type = fc->fs_type;
> strlcpy(s->s_id, s->s_type->name, sizeof(s->s_id));
> list_add_tail(&s->s_list, &super_blocks);
> hlist_add_head(&s->s_instances, &s->s_type->fs_supers);
> spin_unlock(&sb_lock);
>
> OK, so 'set()' must not drop sb_lock in any cases. And from that point
> on sb_lock is not held (neither get_filesystem() nor register_shrinker()
> touch it)
>
> get_filesystem(s->s_type);
> register_shrinker(&s->s_shrink);
> return s;
> }
>
> So we arrive to the following:
>
> * sget_fc() must not be called with any spinlocks (sb_lock included) held.
> * in all cases it returns with sb_lock not held.
> * test() and set() callbacks are always called under sb_lock and should not
> drop it.
>
> Looking at the shape of that code strengthens the last one to "even
> drop-and-retake is not allowed". With that kind of loop over hlist, dropping
> and retaking sb_lock in test() might blow up. And as for set() callback,
> we clearly don't want to create a new instance when an existing one would
> satisfy the test() predicate. And dropping/retaking sb_lock would've
> allowed another caller to come and insert a new instance while our
> set() has not been holding sb_lock, ending up with just that once we
> return and get to hlist_add_head() there.
>
> In other words,
> * called without any spinlocks held
> * returns with no spinlocks held
> * callbacks are always called under sb_lock and must not touch it.
>
> Verifying that callers (and all possible callbacks) satisfy those rules
> is left as an exercise for reader...
>

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