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Add zfs_sb_prune_aliases() function
For kernels which do not implement a per-suberblock shrinker, those older than Linux 3.1, the shrink_dcache_parent() function was used to attempt to reclaim dentries. This was found not be entirely reliable and could lead to performance issues on older kernels running meta-data heavy workloads. To address this issue a zfs_sb_prune_aliases() function has been added to implement this functionality. It relies on traversing the list of znodes for a filesystem and adding them to a private list with a reference held. The private list can then be safely walked outside the z_znodes_lock to prune dentires and drop the last reference so the inode can be freed. This provides the same synchronous behavior as the per-filesystem shrinker and has the advantage of depending on only long standing interfaces. Signed-off-by: Brian Behlendorf <behlendorf1@llnl.gov> Signed-off-by: Tim Chase <tim@chase2k.com> Closes #3501
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19
config/kernel-d-prune-aliases.m4
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19
config/kernel-d-prune-aliases.m4
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@ -0,0 +1,19 @@
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dnl #
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dnl # 2.6.12 API change
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dnl # d_prune_aliases() helper function available.
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dnl #
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AC_DEFUN([ZFS_AC_KERNEL_D_PRUNE_ALIASES],
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[AC_MSG_CHECKING([whether d_prune_aliases() is available])
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ZFS_LINUX_TRY_COMPILE_SYMBOL([
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#include <linux/dcache.h>
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], [
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struct inode *ip = NULL;
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d_prune_aliases(ip);
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], [d_prune_aliases], [fs/dcache.c], [
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AC_MSG_RESULT(yes)
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AC_DEFINE(HAVE_D_PRUNE_ALIASES, 1,
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[d_prune_aliases() is available])
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], [
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AC_MSG_RESULT(no)
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])
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])
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@ -78,6 +78,7 @@ AC_DEFUN([ZFS_AC_CONFIG_KERNEL], [
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ZFS_AC_KERNEL_INSERT_INODE_LOCKED
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ZFS_AC_KERNEL_D_MAKE_ROOT
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ZFS_AC_KERNEL_D_OBTAIN_ALIAS
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ZFS_AC_KERNEL_D_PRUNE_ALIASES
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ZFS_AC_KERNEL_D_SET_D_OP
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ZFS_AC_KERNEL_D_REVALIDATE_NAMEIDATA
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ZFS_AC_KERNEL_CONST_DENTRY_OPERATIONS
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@ -1072,6 +1072,67 @@ zfs_root(zfs_sb_t *zsb, struct inode **ipp)
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}
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EXPORT_SYMBOL(zfs_root);
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#if !defined(HAVE_SPLIT_SHRINKER_CALLBACK) && !defined(HAVE_SHRINK) && \
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defined(HAVE_D_PRUNE_ALIASES)
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/*
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* Linux kernels older than 3.1 do not support a per-filesystem shrinker.
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* To accommodate this we must improvise and manually walk the list of znodes
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* attempting to prune dentries in order to be able to drop the inodes.
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*
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* To avoid scanning the same znodes multiple times they are always rotated
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* to the end of the z_all_znodes list. New znodes are inserted at the
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* end of the list so we're always scanning the oldest znodes first.
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*/
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static int
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zfs_sb_prune_aliases(zfs_sb_t *zsb, unsigned long nr_to_scan)
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{
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znode_t **zp_array, *zp;
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int max_array = MIN(nr_to_scan, PAGE_SIZE * 8 / sizeof (znode_t *));
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int objects = 0;
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int i = 0, j = 0;
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zp_array = kmem_zalloc(max_array * sizeof (znode_t *), KM_SLEEP);
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mutex_enter(&zsb->z_znodes_lock);
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while ((zp = list_head(&zsb->z_all_znodes)) != NULL) {
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if ((i++ > nr_to_scan) || (j >= max_array))
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break;
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ASSERT(list_link_active(&zp->z_link_node));
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list_remove(&zsb->z_all_znodes, zp);
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list_insert_tail(&zsb->z_all_znodes, zp);
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/* Skip active znodes and .zfs entries */
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if (MUTEX_HELD(&zp->z_lock) || zp->z_is_ctldir)
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continue;
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if (igrab(ZTOI(zp)) == NULL)
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continue;
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zp_array[j] = zp;
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j++;
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}
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mutex_exit(&zsb->z_znodes_lock);
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for (i = 0; i < j; i++) {
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zp = zp_array[i];
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ASSERT3P(zp, !=, NULL);
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d_prune_aliases(ZTOI(zp));
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if (atomic_read(&ZTOI(zp)->i_count) == 1)
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objects++;
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iput(ZTOI(zp));
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}
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kmem_free(zp_array, max_array * sizeof (znode_t *));
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return (objects);
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}
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#endif /* HAVE_D_PRUNE_ALIASES */
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/*
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* The ARC has requested that the filesystem drop entries from the dentry
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* and inode caches. This can occur when the ARC needs to free meta data
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@ -1106,18 +1167,10 @@ zfs_sb_prune(struct super_block *sb, unsigned long nr_to_scan, int *objects)
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*objects = (*shrinker->scan_objects)(shrinker, &sc);
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#elif defined(HAVE_SHRINK)
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*objects = (*shrinker->shrink)(shrinker, &sc);
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#elif defined(HAVE_D_PRUNE_ALIASES)
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*objects = zfs_sb_prune_aliases(zsb, nr_to_scan);
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#else
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/*
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* Linux kernels older than 3.1 do not support a per-filesystem
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* shrinker. Therefore, we must fall back to the only available
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* interface which is to discard all unused dentries and inodes.
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* This behavior clearly isn't ideal but it's required so the ARC
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* may free memory. The performance impact is mitigated by the
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* fact that the frequently accessed dentry and inode buffers will
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* still be in the ARC making them relatively cheap to recreate.
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*/
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*objects = 0;
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shrink_dcache_parent(sb->s_root);
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#error "No available dentry and inode cache pruning mechanism."
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#endif
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ZFS_EXIT(zsb);
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