On Fri, Jan 21, 2022 at 09:26:03AM -0800, Darrick J. Wong wrote: > On Fri, Jan 21, 2022 at 09:24:54AM -0500, Brian Foster wrote: > > The XFS inode allocation algorithm aggressively reuses recently > > freed inodes. This is historical behavior that has been in place for > > quite some time, since XFS was imported to mainline Linux. Once the > > VFS adopted RCUwalk path lookups (also some time ago), this behavior > > became slightly incompatible because the inode recycle path doesn't > > isolate concurrent access to the inode from the VFS. > > > > This has recently manifested as problems in the VFS when XFS happens > > to change the type or properties of a recently unlinked inode while > > still involved in an RCU lookup. For example, if the VFS refers to a > > previous incarnation of a symlink inode, obtains the ->get_link() > > callback from inode_operations, and the latter happens to change to > > a non-symlink type via a recycle event, the ->get_link() callback > > pointer is reset to NULL and the lookup results in a crash. > > Hmm, so I guess what you're saying is that if the memory buffer > allocation in ->get_link is slow enough, some other thread can free the > inode, drop it, reallocate it, and reinstantiate it (not as a symlink > this time) all before ->get_link's memory allocation call returns, after > which Bad Things Happen(tm)? > > Can the lookup thread end up with the wrong inode->i_ops too? > We really don't need to even get into the XFS symlink code to reason about the fundamental form of this issue. Consider that an RCU walk starts, locates a symlink inode, meanwhile XFS recycles that inode into something completely different, then the VFS loads and calls ->get_link() (which is now NULL) on said inode and explodes. So the presumption is that the VFS uses RCU protection to rely on some form of stability of the inode (i.e., that the inode memory isn't freed, callback vectors don't change, etc.). Validity of the symlink content is a variant of that class of problem, likely already addressed by the recent inline symlink change, but that doesn't address the broader issue. > > To avoid this class of problem, isolate in-core inodes for recycling > > with an RCU grace period. This is the same level of protection the > > VFS expects for inactivated inodes that are never reused, and so > > guarantees no further concurrent access before the type or > > properties of the inode change. We don't want an unconditional > > synchronize_rcu() event here because that would result in a > > significant performance impact to mixed inode allocation workloads. > > > > Fortunately, we can take advantage of the recently added deferred > > inactivation mechanism to mitigate the need for an RCU wait in most > > cases. Deferred inactivation queues and batches the on-disk freeing > > of recently destroyed inodes, and so significantly increases the > > likelihood that a grace period has elapsed by the time an inode is > > freed and observable by the allocation code as a reuse candidate. > > Capture the current RCU grace period cookie at inode destroy time > > and refer to it at allocation time to conditionally wait for an RCU > > grace period if one hadn't expired in the meantime. Since only > > unlinked inodes are recycle candidates and unlinked inodes always > > require inactivation, > > Any inode can become a recycle candidate (i.e. RECLAIMABLE but otherwise > idle) but I think your point here is that unlinked inodes that become > recycling candidates can cause lookup threads to trip over symlinks, and > that's why we need to assign RCU state and poll on it, right? > Good point. When I wrote the commit log I was thinking of recycled inodes as "reincarnated" inodes, so that wording could probably be improved. But yes, the code is written minimally/simply so I was trying to document that it's unlinked -> freed -> reallocated inodes that we really care about here. WRT to symlinks, I was trying to use that as an example and not necessarily as the general reason for the patch. I.e., the general reason is that the VFS uses rcu protection for inode stability (just as for the inode free path), and the symlink thing is just an example of how things can go wrong in the current implementation without it. > (That wasn't a challenge, I'm just making sure I understand this > correctly.) > > > we only need to poll and assign RCU state in > > the inactivation codepath. Slightly adjust struct xfs_inode to fit > > the new field into padding holes that conveniently preexist in the > > same cacheline as the deferred inactivation list. > > > > Finally, note that the ideal long term solution here is to > > rearchitect bits of XFS' internal inode lifecycle management such > > that this additional stall point is not required, but this requires > > more thought, time and work to address. This approach restores > > functional correctness in the meantime. > > > > Signed-off-by: Brian Foster <bfoster@xxxxxxxxxx> > > --- > > > > Hi all, > > > > Here's the RCU fixup patch for inode reuse that I've been playing with, > > re: the vfs patch discussion [1]. I've put it in pretty much the most > > basic form, but I think there are a couple aspects worth thinking about: > > > > 1. Use and frequency of start_poll_synchronize_rcu() (vs. > > get_state_synchronize_rcu()). The former is a bit more active than the > > latter in that it triggers the start of a grace period, when necessary. > > This currently invokes per inode, which is the ideal frequency in > > theory, but could be reduced, associated with the xfs_inogegc thresholds > > in some manner, etc., if there is good reason to do that. > > If you rm -rf $path, do each of the inodes get a separate rcu state, or > do they share? > My previous experiments on a teardown grace period had me thinking batching would occur, but I don't recall which RCU call I was using at the time so I'd probably have to throw a tracepoint in there to dump some of the grace period values and double check to be sure. (If this is not the case, that might be a good reason to tweak things as discussed above). > > 2. The rcu cookie lifecycle. This variant updates it on inactivation > > queue and nowhere else because the RCU docs imply that counter rollover > > is not a significant problem. In practice, I think this means that if an > > inode is stamped at least once, and the counter rolls over, future > > (non-inactivation, non-unlinked) eviction -> repopulation cycles could > > trigger rcu syncs. I think this would require repeated > > eviction/reinstantiation cycles within a small window to be noticeable, > > so I'm not sure how likely this is to occur. We could be more defensive > > by resetting or refreshing the cookie. E.g., refresh (or reset to zero) > > at recycle time, unconditionally refresh at destroy time (using > > get_state_synchronize_rcu() for non-inactivation), etc. > > > > Otherwise testing is ongoing, but this version at least survives an > > fstests regression run. > > > > Brian > > > > [1] https://lore.kernel.org/linux-fsdevel/164180589176.86426.501271559065590169.stgit@xxxxxxxxxxxxxxxxx/ > > > > fs/xfs/xfs_icache.c | 11 +++++++++++ > > fs/xfs/xfs_inode.h | 3 ++- > > 2 files changed, 13 insertions(+), 1 deletion(-) > > > > diff --git a/fs/xfs/xfs_icache.c b/fs/xfs/xfs_icache.c > > index d019c98eb839..4931daa45ca4 100644 > > --- a/fs/xfs/xfs_icache.c > > +++ b/fs/xfs/xfs_icache.c > > @@ -349,6 +349,16 @@ xfs_iget_recycle( > > spin_unlock(&ip->i_flags_lock); > > rcu_read_unlock(); > > > > + /* > > + * VFS RCU pathwalk lookups dictate the same lifecycle rules for an > > + * inode recycle as for freeing an inode. I.e., we cannot repurpose the > > + * inode until a grace period has elapsed from the time the previous > > + * version of the inode was destroyed. In most cases a grace period has > > + * already elapsed if the inode was (deferred) inactivated, but > > + * synchronize here as a last resort to guarantee correctness. > > + */ > > + cond_synchronize_rcu(ip->i_destroy_gp); > > + > > ASSERT(!rwsem_is_locked(&inode->i_rwsem)); > > error = xfs_reinit_inode(mp, inode); > > if (error) { > > @@ -2019,6 +2029,7 @@ xfs_inodegc_queue( > > trace_xfs_inode_set_need_inactive(ip); > > spin_lock(&ip->i_flags_lock); > > ip->i_flags |= XFS_NEED_INACTIVE; > > + ip->i_destroy_gp = start_poll_synchronize_rcu(); > > Hmm. The description says that we only need the rcu synchronization > when we're freeing an inode after its link count drops to zero, because > that's the vector for (say) the VFS inode ops actually changing due to > free/inactivate/reallocate/recycle while someone else is doing a lookup. > Right.. > I'm a bit puzzled why this unconditionally starts an rcu grace period, > instead of done only if i_nlink==0; and why we call cond_synchronize_rcu > above unconditionally instead of checking for i_mode==0 (or whatever > state the cached inode is left in after it's freed)? > Just an attempt to start simple and/or make any performance test/problems more blatant. I probably could have tagged this RFC. My primary goal with this patch was to establish whether the general approach is sane/viable/acceptable or we need to move in another direction. That aside, I think it's reasonable to have explicit logic around the unlinked case if we want to keep it restricted to that, though I would probably implement that as a conditional i_destroy_gp assignment and let the consumer context key off whether that field is set rather than attempt to infer unlinked logic (and then I guess reset it back to zero so it doesn't leak across reincarnation). That also probably facilitates a meaningful tracepoint to track the cases that do end up syncing, which helps with your earlier question around batching, so I'll look into those changes once I get through broader testing Brian > --D > > > spin_unlock(&ip->i_flags_lock); > > > > gc = get_cpu_ptr(mp->m_inodegc); > > diff --git a/fs/xfs/xfs_inode.h b/fs/xfs/xfs_inode.h > > index c447bf04205a..2153e3edbb86 100644 > > --- a/fs/xfs/xfs_inode.h > > +++ b/fs/xfs/xfs_inode.h > > @@ -40,8 +40,9 @@ typedef struct xfs_inode { > > /* Transaction and locking information. */ > > struct xfs_inode_log_item *i_itemp; /* logging information */ > > mrlock_t i_lock; /* inode lock */ > > - atomic_t i_pincount; /* inode pin count */ > > struct llist_node i_gclist; /* deferred inactivation list */ > > + unsigned long i_destroy_gp; /* destroy rcugp cookie */ > > + atomic_t i_pincount; /* inode pin count */ > > > > /* > > * Bitsets of inode metadata that have been checked and/or are sick. > > -- > > 2.31.1 > > >
