On Tue, Jun 16, 2015 at 03:09:30PM +0200, Beata Michalska wrote: > Introduce configurable generic interface for file > system-wide event notifications, to provide file > systems with a common way of reporting any potential > issues as they emerge. > > The notifications are to be issued through generic > netlink interface by newly introduced multicast group. > > Threshold notifications have been included, allowing > triggering an event whenever the amount of free space drops > below a certain level - or levels to be more precise as two > of them are being supported: the lower and the upper range. > The notifications work both ways: once the threshold level > has been reached, an event shall be generated whenever > the number of available blocks goes up again re-activating > the threshold. > > The interface has been exposed through a vfs. Once mounted, > it serves as an entry point for the set-up where one can > register for particular file system events. > > Signed-off-by: Beata Michalska <b.michalska@xxxxxxxxxxx> This has massive scalability problems: > + 4.3 Threshold notifications: > + > + #include <linux/fs_event.h> > + void fs_event_alloc_space(struct super_block *sb, u64 ncount); > + void fs_event_free_space(struct super_block *sb, u64 ncount); > + > + Each filesystme supporting the threshold notifications should call > + fs_event_alloc_space/fs_event_free_space respectively whenever the > + amount of available blocks changes. > + - sb: the filesystem's super block > + - ncount: number of blocks being acquired/released ... here. > + Note that to properly handle the threshold notifications the fs events > + interface needs to be kept up to date by the filesystems. Each should > + register fs_trace_operations to enable querying the current number of > + available blocks. Have you noticed that the filesystems have percpu counters for tracking global space usage? There's good reason for that - taking a spinlock in such a hot accounting path causes severe contention. > +static void fs_event_send(struct fs_trace_entry *en, unsigned int event_id) > +{ > + size_t size = nla_total_size(sizeof(u32)) * 2 + > + nla_total_size(sizeof(u64)); > + > + fs_netlink_send_event(size, event_id, create_common_msg, en); > +} > + > +static void fs_event_send_thresh(struct fs_trace_entry *en, > + unsigned int event_id) > +{ > + size_t size = nla_total_size(sizeof(u32)) * 2 + > + nla_total_size(sizeof(u64)) * 2; > + > + fs_netlink_send_event(size, event_id, create_thresh_msg, en); > +} > + > +void fs_event_notify(struct super_block *sb, unsigned int event_id) > +{ > + struct fs_trace_entry *en; > + > + en = fs_trace_entry_get_rcu(sb); > + if (!en) > + return; > + > + spin_lock(&en->lock); > + if (atomic_read(&en->active) && (en->notify & FS_EVENT_GENERIC)) > + fs_event_send(en, event_id); > + spin_unlock(&en->lock); > + fs_trace_entry_put(en); > +} > +EXPORT_SYMBOL(fs_event_notify); > + > +void fs_event_alloc_space(struct super_block *sb, u64 ncount) > +{ > + struct fs_trace_entry *en; > + s64 count; > + > + en = fs_trace_entry_get_rcu(sb); > + if (!en) > + return; Adds an atomic write to get the trace entry, > + spin_lock(&en->lock); a spin lock to lock the entry, > + if (!atomic_read(&en->active) || !(en->notify & FS_EVENT_THRESH)) > + goto leave; > + /* > + * we shouldn't drop below 0 here, > + * unless there is a sync issue somewhere (?) > + */ > + count = en->th.avail_space - ncount; > + en->th.avail_space = count < 0 ? 0 : count; > + > + if (en->th.avail_space > en->th.lrange) > + /* Not 'even' close - leave */ > + goto leave; > + > + if (en->th.avail_space > en->th.urange) { > + /* Close enough - the lower range has been reached */ > + if (!(en->th.state & THRESH_LR_BEYOND)) { > + /* Send notification */ > + fs_event_send_thresh(en, FS_THR_LRBELOW); > + en->th.state &= ~THRESH_LR_BELOW; > + en->th.state |= THRESH_LR_BEYOND; > + } > + goto leave; Then puts the entire netlink send path inside this spinlock, which includes memory allocation and all sorts of non-filesystem code paths. And it may be inside critical filesystem locks as well.... Apart from the serialisation problem of the locking, adding memory allocation and the network send path to filesystem code that is effectively considered "innermost" filesystem code is going to have all sorts of problems for various filesystems. In the XFS case, we simply cannot execute this sort of function in the places where we update global space accounting. As it is, I think the basic concept of separate tracking of free space if fundamentally flawed. What I think needs to be done is that filesystems need access to the thresholds for events, and then the filesystems call fs_event_send_thresh() themselves from appropriate contexts (ie. without compromising locking, scalability, memory allocation recursion constraints, etc). e.g. instead of tracking every change in free space, a filesystem might execute this once every few seconds from a workqueue: event = fs_event_need_space_warning(sb, <fs_free_space>) if (event) fs_event_send_thresh(sb, event); User still gets warnings about space usage, but there's no runtime overhead or problems with lock/memory allocation contexts, etc. Cheers, Dave. -- Dave Chinner david@xxxxxxxxxxxxx -- To unsubscribe, send a message with 'unsubscribe linux-mm' in the body to majordomo@xxxxxxxxx. For more info on Linux MM, see: http://www.linux-mm.org/ . Don't email: <a href=mailto:"dont@xxxxxxxxx"> email@xxxxxxxxx </a>