162306a36Sopenharmony_ci// SPDX-License-Identifier: GPL-2.0
262306a36Sopenharmony_ci/*
362306a36Sopenharmony_ci * Copyright (c) 2000-2005 Silicon Graphics, Inc.
462306a36Sopenharmony_ci * All Rights Reserved.
562306a36Sopenharmony_ci */
662306a36Sopenharmony_ci#include "xfs.h"
762306a36Sopenharmony_ci#include "xfs_fs.h"
862306a36Sopenharmony_ci#include "xfs_shared.h"
962306a36Sopenharmony_ci#include "xfs_format.h"
1062306a36Sopenharmony_ci#include "xfs_log_format.h"
1162306a36Sopenharmony_ci#include "xfs_trans_resv.h"
1262306a36Sopenharmony_ci#include "xfs_bit.h"
1362306a36Sopenharmony_ci#include "xfs_sb.h"
1462306a36Sopenharmony_ci#include "xfs_mount.h"
1562306a36Sopenharmony_ci#include "xfs_inode.h"
1662306a36Sopenharmony_ci#include "xfs_dir2.h"
1762306a36Sopenharmony_ci#include "xfs_ialloc.h"
1862306a36Sopenharmony_ci#include "xfs_alloc.h"
1962306a36Sopenharmony_ci#include "xfs_rtalloc.h"
2062306a36Sopenharmony_ci#include "xfs_bmap.h"
2162306a36Sopenharmony_ci#include "xfs_trans.h"
2262306a36Sopenharmony_ci#include "xfs_trans_priv.h"
2362306a36Sopenharmony_ci#include "xfs_log.h"
2462306a36Sopenharmony_ci#include "xfs_log_priv.h"
2562306a36Sopenharmony_ci#include "xfs_error.h"
2662306a36Sopenharmony_ci#include "xfs_quota.h"
2762306a36Sopenharmony_ci#include "xfs_fsops.h"
2862306a36Sopenharmony_ci#include "xfs_icache.h"
2962306a36Sopenharmony_ci#include "xfs_sysfs.h"
3062306a36Sopenharmony_ci#include "xfs_rmap_btree.h"
3162306a36Sopenharmony_ci#include "xfs_refcount_btree.h"
3262306a36Sopenharmony_ci#include "xfs_reflink.h"
3362306a36Sopenharmony_ci#include "xfs_extent_busy.h"
3462306a36Sopenharmony_ci#include "xfs_health.h"
3562306a36Sopenharmony_ci#include "xfs_trace.h"
3662306a36Sopenharmony_ci#include "xfs_ag.h"
3762306a36Sopenharmony_ci#include "scrub/stats.h"
3862306a36Sopenharmony_ci
3962306a36Sopenharmony_cistatic DEFINE_MUTEX(xfs_uuid_table_mutex);
4062306a36Sopenharmony_cistatic int xfs_uuid_table_size;
4162306a36Sopenharmony_cistatic uuid_t *xfs_uuid_table;
4262306a36Sopenharmony_ci
4362306a36Sopenharmony_civoid
4462306a36Sopenharmony_cixfs_uuid_table_free(void)
4562306a36Sopenharmony_ci{
4662306a36Sopenharmony_ci	if (xfs_uuid_table_size == 0)
4762306a36Sopenharmony_ci		return;
4862306a36Sopenharmony_ci	kmem_free(xfs_uuid_table);
4962306a36Sopenharmony_ci	xfs_uuid_table = NULL;
5062306a36Sopenharmony_ci	xfs_uuid_table_size = 0;
5162306a36Sopenharmony_ci}
5262306a36Sopenharmony_ci
5362306a36Sopenharmony_ci/*
5462306a36Sopenharmony_ci * See if the UUID is unique among mounted XFS filesystems.
5562306a36Sopenharmony_ci * Mount fails if UUID is nil or a FS with the same UUID is already mounted.
5662306a36Sopenharmony_ci */
5762306a36Sopenharmony_ciSTATIC int
5862306a36Sopenharmony_cixfs_uuid_mount(
5962306a36Sopenharmony_ci	struct xfs_mount	*mp)
6062306a36Sopenharmony_ci{
6162306a36Sopenharmony_ci	uuid_t			*uuid = &mp->m_sb.sb_uuid;
6262306a36Sopenharmony_ci	int			hole, i;
6362306a36Sopenharmony_ci
6462306a36Sopenharmony_ci	/* Publish UUID in struct super_block */
6562306a36Sopenharmony_ci	uuid_copy(&mp->m_super->s_uuid, uuid);
6662306a36Sopenharmony_ci
6762306a36Sopenharmony_ci	if (xfs_has_nouuid(mp))
6862306a36Sopenharmony_ci		return 0;
6962306a36Sopenharmony_ci
7062306a36Sopenharmony_ci	if (uuid_is_null(uuid)) {
7162306a36Sopenharmony_ci		xfs_warn(mp, "Filesystem has null UUID - can't mount");
7262306a36Sopenharmony_ci		return -EINVAL;
7362306a36Sopenharmony_ci	}
7462306a36Sopenharmony_ci
7562306a36Sopenharmony_ci	mutex_lock(&xfs_uuid_table_mutex);
7662306a36Sopenharmony_ci	for (i = 0, hole = -1; i < xfs_uuid_table_size; i++) {
7762306a36Sopenharmony_ci		if (uuid_is_null(&xfs_uuid_table[i])) {
7862306a36Sopenharmony_ci			hole = i;
7962306a36Sopenharmony_ci			continue;
8062306a36Sopenharmony_ci		}
8162306a36Sopenharmony_ci		if (uuid_equal(uuid, &xfs_uuid_table[i]))
8262306a36Sopenharmony_ci			goto out_duplicate;
8362306a36Sopenharmony_ci	}
8462306a36Sopenharmony_ci
8562306a36Sopenharmony_ci	if (hole < 0) {
8662306a36Sopenharmony_ci		xfs_uuid_table = krealloc(xfs_uuid_table,
8762306a36Sopenharmony_ci			(xfs_uuid_table_size + 1) * sizeof(*xfs_uuid_table),
8862306a36Sopenharmony_ci			GFP_KERNEL | __GFP_NOFAIL);
8962306a36Sopenharmony_ci		hole = xfs_uuid_table_size++;
9062306a36Sopenharmony_ci	}
9162306a36Sopenharmony_ci	xfs_uuid_table[hole] = *uuid;
9262306a36Sopenharmony_ci	mutex_unlock(&xfs_uuid_table_mutex);
9362306a36Sopenharmony_ci
9462306a36Sopenharmony_ci	return 0;
9562306a36Sopenharmony_ci
9662306a36Sopenharmony_ci out_duplicate:
9762306a36Sopenharmony_ci	mutex_unlock(&xfs_uuid_table_mutex);
9862306a36Sopenharmony_ci	xfs_warn(mp, "Filesystem has duplicate UUID %pU - can't mount", uuid);
9962306a36Sopenharmony_ci	return -EINVAL;
10062306a36Sopenharmony_ci}
10162306a36Sopenharmony_ci
10262306a36Sopenharmony_ciSTATIC void
10362306a36Sopenharmony_cixfs_uuid_unmount(
10462306a36Sopenharmony_ci	struct xfs_mount	*mp)
10562306a36Sopenharmony_ci{
10662306a36Sopenharmony_ci	uuid_t			*uuid = &mp->m_sb.sb_uuid;
10762306a36Sopenharmony_ci	int			i;
10862306a36Sopenharmony_ci
10962306a36Sopenharmony_ci	if (xfs_has_nouuid(mp))
11062306a36Sopenharmony_ci		return;
11162306a36Sopenharmony_ci
11262306a36Sopenharmony_ci	mutex_lock(&xfs_uuid_table_mutex);
11362306a36Sopenharmony_ci	for (i = 0; i < xfs_uuid_table_size; i++) {
11462306a36Sopenharmony_ci		if (uuid_is_null(&xfs_uuid_table[i]))
11562306a36Sopenharmony_ci			continue;
11662306a36Sopenharmony_ci		if (!uuid_equal(uuid, &xfs_uuid_table[i]))
11762306a36Sopenharmony_ci			continue;
11862306a36Sopenharmony_ci		memset(&xfs_uuid_table[i], 0, sizeof(uuid_t));
11962306a36Sopenharmony_ci		break;
12062306a36Sopenharmony_ci	}
12162306a36Sopenharmony_ci	ASSERT(i < xfs_uuid_table_size);
12262306a36Sopenharmony_ci	mutex_unlock(&xfs_uuid_table_mutex);
12362306a36Sopenharmony_ci}
12462306a36Sopenharmony_ci
12562306a36Sopenharmony_ci/*
12662306a36Sopenharmony_ci * Check size of device based on the (data/realtime) block count.
12762306a36Sopenharmony_ci * Note: this check is used by the growfs code as well as mount.
12862306a36Sopenharmony_ci */
12962306a36Sopenharmony_ciint
13062306a36Sopenharmony_cixfs_sb_validate_fsb_count(
13162306a36Sopenharmony_ci	xfs_sb_t	*sbp,
13262306a36Sopenharmony_ci	uint64_t	nblocks)
13362306a36Sopenharmony_ci{
13462306a36Sopenharmony_ci	ASSERT(PAGE_SHIFT >= sbp->sb_blocklog);
13562306a36Sopenharmony_ci	ASSERT(sbp->sb_blocklog >= BBSHIFT);
13662306a36Sopenharmony_ci
13762306a36Sopenharmony_ci	/* Limited by ULONG_MAX of page cache index */
13862306a36Sopenharmony_ci	if (nblocks >> (PAGE_SHIFT - sbp->sb_blocklog) > ULONG_MAX)
13962306a36Sopenharmony_ci		return -EFBIG;
14062306a36Sopenharmony_ci	return 0;
14162306a36Sopenharmony_ci}
14262306a36Sopenharmony_ci
14362306a36Sopenharmony_ci/*
14462306a36Sopenharmony_ci * xfs_readsb
14562306a36Sopenharmony_ci *
14662306a36Sopenharmony_ci * Does the initial read of the superblock.
14762306a36Sopenharmony_ci */
14862306a36Sopenharmony_ciint
14962306a36Sopenharmony_cixfs_readsb(
15062306a36Sopenharmony_ci	struct xfs_mount *mp,
15162306a36Sopenharmony_ci	int		flags)
15262306a36Sopenharmony_ci{
15362306a36Sopenharmony_ci	unsigned int	sector_size;
15462306a36Sopenharmony_ci	struct xfs_buf	*bp;
15562306a36Sopenharmony_ci	struct xfs_sb	*sbp = &mp->m_sb;
15662306a36Sopenharmony_ci	int		error;
15762306a36Sopenharmony_ci	int		loud = !(flags & XFS_MFSI_QUIET);
15862306a36Sopenharmony_ci	const struct xfs_buf_ops *buf_ops;
15962306a36Sopenharmony_ci
16062306a36Sopenharmony_ci	ASSERT(mp->m_sb_bp == NULL);
16162306a36Sopenharmony_ci	ASSERT(mp->m_ddev_targp != NULL);
16262306a36Sopenharmony_ci
16362306a36Sopenharmony_ci	/*
16462306a36Sopenharmony_ci	 * For the initial read, we must guess at the sector
16562306a36Sopenharmony_ci	 * size based on the block device.  It's enough to
16662306a36Sopenharmony_ci	 * get the sb_sectsize out of the superblock and
16762306a36Sopenharmony_ci	 * then reread with the proper length.
16862306a36Sopenharmony_ci	 * We don't verify it yet, because it may not be complete.
16962306a36Sopenharmony_ci	 */
17062306a36Sopenharmony_ci	sector_size = xfs_getsize_buftarg(mp->m_ddev_targp);
17162306a36Sopenharmony_ci	buf_ops = NULL;
17262306a36Sopenharmony_ci
17362306a36Sopenharmony_ci	/*
17462306a36Sopenharmony_ci	 * Allocate a (locked) buffer to hold the superblock. This will be kept
17562306a36Sopenharmony_ci	 * around at all times to optimize access to the superblock. Therefore,
17662306a36Sopenharmony_ci	 * set XBF_NO_IOACCT to make sure it doesn't hold the buftarg count
17762306a36Sopenharmony_ci	 * elevated.
17862306a36Sopenharmony_ci	 */
17962306a36Sopenharmony_cireread:
18062306a36Sopenharmony_ci	error = xfs_buf_read_uncached(mp->m_ddev_targp, XFS_SB_DADDR,
18162306a36Sopenharmony_ci				      BTOBB(sector_size), XBF_NO_IOACCT, &bp,
18262306a36Sopenharmony_ci				      buf_ops);
18362306a36Sopenharmony_ci	if (error) {
18462306a36Sopenharmony_ci		if (loud)
18562306a36Sopenharmony_ci			xfs_warn(mp, "SB validate failed with error %d.", error);
18662306a36Sopenharmony_ci		/* bad CRC means corrupted metadata */
18762306a36Sopenharmony_ci		if (error == -EFSBADCRC)
18862306a36Sopenharmony_ci			error = -EFSCORRUPTED;
18962306a36Sopenharmony_ci		return error;
19062306a36Sopenharmony_ci	}
19162306a36Sopenharmony_ci
19262306a36Sopenharmony_ci	/*
19362306a36Sopenharmony_ci	 * Initialize the mount structure from the superblock.
19462306a36Sopenharmony_ci	 */
19562306a36Sopenharmony_ci	xfs_sb_from_disk(sbp, bp->b_addr);
19662306a36Sopenharmony_ci
19762306a36Sopenharmony_ci	/*
19862306a36Sopenharmony_ci	 * If we haven't validated the superblock, do so now before we try
19962306a36Sopenharmony_ci	 * to check the sector size and reread the superblock appropriately.
20062306a36Sopenharmony_ci	 */
20162306a36Sopenharmony_ci	if (sbp->sb_magicnum != XFS_SB_MAGIC) {
20262306a36Sopenharmony_ci		if (loud)
20362306a36Sopenharmony_ci			xfs_warn(mp, "Invalid superblock magic number");
20462306a36Sopenharmony_ci		error = -EINVAL;
20562306a36Sopenharmony_ci		goto release_buf;
20662306a36Sopenharmony_ci	}
20762306a36Sopenharmony_ci
20862306a36Sopenharmony_ci	/*
20962306a36Sopenharmony_ci	 * We must be able to do sector-sized and sector-aligned IO.
21062306a36Sopenharmony_ci	 */
21162306a36Sopenharmony_ci	if (sector_size > sbp->sb_sectsize) {
21262306a36Sopenharmony_ci		if (loud)
21362306a36Sopenharmony_ci			xfs_warn(mp, "device supports %u byte sectors (not %u)",
21462306a36Sopenharmony_ci				sector_size, sbp->sb_sectsize);
21562306a36Sopenharmony_ci		error = -ENOSYS;
21662306a36Sopenharmony_ci		goto release_buf;
21762306a36Sopenharmony_ci	}
21862306a36Sopenharmony_ci
21962306a36Sopenharmony_ci	if (buf_ops == NULL) {
22062306a36Sopenharmony_ci		/*
22162306a36Sopenharmony_ci		 * Re-read the superblock so the buffer is correctly sized,
22262306a36Sopenharmony_ci		 * and properly verified.
22362306a36Sopenharmony_ci		 */
22462306a36Sopenharmony_ci		xfs_buf_relse(bp);
22562306a36Sopenharmony_ci		sector_size = sbp->sb_sectsize;
22662306a36Sopenharmony_ci		buf_ops = loud ? &xfs_sb_buf_ops : &xfs_sb_quiet_buf_ops;
22762306a36Sopenharmony_ci		goto reread;
22862306a36Sopenharmony_ci	}
22962306a36Sopenharmony_ci
23062306a36Sopenharmony_ci	mp->m_features |= xfs_sb_version_to_features(sbp);
23162306a36Sopenharmony_ci	xfs_reinit_percpu_counters(mp);
23262306a36Sopenharmony_ci
23362306a36Sopenharmony_ci	/* no need to be quiet anymore, so reset the buf ops */
23462306a36Sopenharmony_ci	bp->b_ops = &xfs_sb_buf_ops;
23562306a36Sopenharmony_ci
23662306a36Sopenharmony_ci	mp->m_sb_bp = bp;
23762306a36Sopenharmony_ci	xfs_buf_unlock(bp);
23862306a36Sopenharmony_ci	return 0;
23962306a36Sopenharmony_ci
24062306a36Sopenharmony_cirelease_buf:
24162306a36Sopenharmony_ci	xfs_buf_relse(bp);
24262306a36Sopenharmony_ci	return error;
24362306a36Sopenharmony_ci}
24462306a36Sopenharmony_ci
24562306a36Sopenharmony_ci/*
24662306a36Sopenharmony_ci * If the sunit/swidth change would move the precomputed root inode value, we
24762306a36Sopenharmony_ci * must reject the ondisk change because repair will stumble over that.
24862306a36Sopenharmony_ci * However, we allow the mount to proceed because we never rejected this
24962306a36Sopenharmony_ci * combination before.  Returns true to update the sb, false otherwise.
25062306a36Sopenharmony_ci */
25162306a36Sopenharmony_cistatic inline int
25262306a36Sopenharmony_cixfs_check_new_dalign(
25362306a36Sopenharmony_ci	struct xfs_mount	*mp,
25462306a36Sopenharmony_ci	int			new_dalign,
25562306a36Sopenharmony_ci	bool			*update_sb)
25662306a36Sopenharmony_ci{
25762306a36Sopenharmony_ci	struct xfs_sb		*sbp = &mp->m_sb;
25862306a36Sopenharmony_ci	xfs_ino_t		calc_ino;
25962306a36Sopenharmony_ci
26062306a36Sopenharmony_ci	calc_ino = xfs_ialloc_calc_rootino(mp, new_dalign);
26162306a36Sopenharmony_ci	trace_xfs_check_new_dalign(mp, new_dalign, calc_ino);
26262306a36Sopenharmony_ci
26362306a36Sopenharmony_ci	if (sbp->sb_rootino == calc_ino) {
26462306a36Sopenharmony_ci		*update_sb = true;
26562306a36Sopenharmony_ci		return 0;
26662306a36Sopenharmony_ci	}
26762306a36Sopenharmony_ci
26862306a36Sopenharmony_ci	xfs_warn(mp,
26962306a36Sopenharmony_ci"Cannot change stripe alignment; would require moving root inode.");
27062306a36Sopenharmony_ci
27162306a36Sopenharmony_ci	/*
27262306a36Sopenharmony_ci	 * XXX: Next time we add a new incompat feature, this should start
27362306a36Sopenharmony_ci	 * returning -EINVAL to fail the mount.  Until then, spit out a warning
27462306a36Sopenharmony_ci	 * that we're ignoring the administrator's instructions.
27562306a36Sopenharmony_ci	 */
27662306a36Sopenharmony_ci	xfs_warn(mp, "Skipping superblock stripe alignment update.");
27762306a36Sopenharmony_ci	*update_sb = false;
27862306a36Sopenharmony_ci	return 0;
27962306a36Sopenharmony_ci}
28062306a36Sopenharmony_ci
28162306a36Sopenharmony_ci/*
28262306a36Sopenharmony_ci * If we were provided with new sunit/swidth values as mount options, make sure
28362306a36Sopenharmony_ci * that they pass basic alignment and superblock feature checks, and convert
28462306a36Sopenharmony_ci * them into the same units (FSB) that everything else expects.  This step
28562306a36Sopenharmony_ci * /must/ be done before computing the inode geometry.
28662306a36Sopenharmony_ci */
28762306a36Sopenharmony_ciSTATIC int
28862306a36Sopenharmony_cixfs_validate_new_dalign(
28962306a36Sopenharmony_ci	struct xfs_mount	*mp)
29062306a36Sopenharmony_ci{
29162306a36Sopenharmony_ci	if (mp->m_dalign == 0)
29262306a36Sopenharmony_ci		return 0;
29362306a36Sopenharmony_ci
29462306a36Sopenharmony_ci	/*
29562306a36Sopenharmony_ci	 * If stripe unit and stripe width are not multiples
29662306a36Sopenharmony_ci	 * of the fs blocksize turn off alignment.
29762306a36Sopenharmony_ci	 */
29862306a36Sopenharmony_ci	if ((BBTOB(mp->m_dalign) & mp->m_blockmask) ||
29962306a36Sopenharmony_ci	    (BBTOB(mp->m_swidth) & mp->m_blockmask)) {
30062306a36Sopenharmony_ci		xfs_warn(mp,
30162306a36Sopenharmony_ci	"alignment check failed: sunit/swidth vs. blocksize(%d)",
30262306a36Sopenharmony_ci			mp->m_sb.sb_blocksize);
30362306a36Sopenharmony_ci		return -EINVAL;
30462306a36Sopenharmony_ci	}
30562306a36Sopenharmony_ci
30662306a36Sopenharmony_ci	/*
30762306a36Sopenharmony_ci	 * Convert the stripe unit and width to FSBs.
30862306a36Sopenharmony_ci	 */
30962306a36Sopenharmony_ci	mp->m_dalign = XFS_BB_TO_FSBT(mp, mp->m_dalign);
31062306a36Sopenharmony_ci	if (mp->m_dalign && (mp->m_sb.sb_agblocks % mp->m_dalign)) {
31162306a36Sopenharmony_ci		xfs_warn(mp,
31262306a36Sopenharmony_ci	"alignment check failed: sunit/swidth vs. agsize(%d)",
31362306a36Sopenharmony_ci			mp->m_sb.sb_agblocks);
31462306a36Sopenharmony_ci		return -EINVAL;
31562306a36Sopenharmony_ci	}
31662306a36Sopenharmony_ci
31762306a36Sopenharmony_ci	if (!mp->m_dalign) {
31862306a36Sopenharmony_ci		xfs_warn(mp,
31962306a36Sopenharmony_ci	"alignment check failed: sunit(%d) less than bsize(%d)",
32062306a36Sopenharmony_ci			mp->m_dalign, mp->m_sb.sb_blocksize);
32162306a36Sopenharmony_ci		return -EINVAL;
32262306a36Sopenharmony_ci	}
32362306a36Sopenharmony_ci
32462306a36Sopenharmony_ci	mp->m_swidth = XFS_BB_TO_FSBT(mp, mp->m_swidth);
32562306a36Sopenharmony_ci
32662306a36Sopenharmony_ci	if (!xfs_has_dalign(mp)) {
32762306a36Sopenharmony_ci		xfs_warn(mp,
32862306a36Sopenharmony_ci"cannot change alignment: superblock does not support data alignment");
32962306a36Sopenharmony_ci		return -EINVAL;
33062306a36Sopenharmony_ci	}
33162306a36Sopenharmony_ci
33262306a36Sopenharmony_ci	return 0;
33362306a36Sopenharmony_ci}
33462306a36Sopenharmony_ci
33562306a36Sopenharmony_ci/* Update alignment values based on mount options and sb values. */
33662306a36Sopenharmony_ciSTATIC int
33762306a36Sopenharmony_cixfs_update_alignment(
33862306a36Sopenharmony_ci	struct xfs_mount	*mp)
33962306a36Sopenharmony_ci{
34062306a36Sopenharmony_ci	struct xfs_sb		*sbp = &mp->m_sb;
34162306a36Sopenharmony_ci
34262306a36Sopenharmony_ci	if (mp->m_dalign) {
34362306a36Sopenharmony_ci		bool		update_sb;
34462306a36Sopenharmony_ci		int		error;
34562306a36Sopenharmony_ci
34662306a36Sopenharmony_ci		if (sbp->sb_unit == mp->m_dalign &&
34762306a36Sopenharmony_ci		    sbp->sb_width == mp->m_swidth)
34862306a36Sopenharmony_ci			return 0;
34962306a36Sopenharmony_ci
35062306a36Sopenharmony_ci		error = xfs_check_new_dalign(mp, mp->m_dalign, &update_sb);
35162306a36Sopenharmony_ci		if (error || !update_sb)
35262306a36Sopenharmony_ci			return error;
35362306a36Sopenharmony_ci
35462306a36Sopenharmony_ci		sbp->sb_unit = mp->m_dalign;
35562306a36Sopenharmony_ci		sbp->sb_width = mp->m_swidth;
35662306a36Sopenharmony_ci		mp->m_update_sb = true;
35762306a36Sopenharmony_ci	} else if (!xfs_has_noalign(mp) && xfs_has_dalign(mp)) {
35862306a36Sopenharmony_ci		mp->m_dalign = sbp->sb_unit;
35962306a36Sopenharmony_ci		mp->m_swidth = sbp->sb_width;
36062306a36Sopenharmony_ci	}
36162306a36Sopenharmony_ci
36262306a36Sopenharmony_ci	return 0;
36362306a36Sopenharmony_ci}
36462306a36Sopenharmony_ci
36562306a36Sopenharmony_ci/*
36662306a36Sopenharmony_ci * precalculate the low space thresholds for dynamic speculative preallocation.
36762306a36Sopenharmony_ci */
36862306a36Sopenharmony_civoid
36962306a36Sopenharmony_cixfs_set_low_space_thresholds(
37062306a36Sopenharmony_ci	struct xfs_mount	*mp)
37162306a36Sopenharmony_ci{
37262306a36Sopenharmony_ci	uint64_t		dblocks = mp->m_sb.sb_dblocks;
37362306a36Sopenharmony_ci	uint64_t		rtexts = mp->m_sb.sb_rextents;
37462306a36Sopenharmony_ci	int			i;
37562306a36Sopenharmony_ci
37662306a36Sopenharmony_ci	do_div(dblocks, 100);
37762306a36Sopenharmony_ci	do_div(rtexts, 100);
37862306a36Sopenharmony_ci
37962306a36Sopenharmony_ci	for (i = 0; i < XFS_LOWSP_MAX; i++) {
38062306a36Sopenharmony_ci		mp->m_low_space[i] = dblocks * (i + 1);
38162306a36Sopenharmony_ci		mp->m_low_rtexts[i] = rtexts * (i + 1);
38262306a36Sopenharmony_ci	}
38362306a36Sopenharmony_ci}
38462306a36Sopenharmony_ci
38562306a36Sopenharmony_ci/*
38662306a36Sopenharmony_ci * Check that the data (and log if separate) is an ok size.
38762306a36Sopenharmony_ci */
38862306a36Sopenharmony_ciSTATIC int
38962306a36Sopenharmony_cixfs_check_sizes(
39062306a36Sopenharmony_ci	struct xfs_mount *mp)
39162306a36Sopenharmony_ci{
39262306a36Sopenharmony_ci	struct xfs_buf	*bp;
39362306a36Sopenharmony_ci	xfs_daddr_t	d;
39462306a36Sopenharmony_ci	int		error;
39562306a36Sopenharmony_ci
39662306a36Sopenharmony_ci	d = (xfs_daddr_t)XFS_FSB_TO_BB(mp, mp->m_sb.sb_dblocks);
39762306a36Sopenharmony_ci	if (XFS_BB_TO_FSB(mp, d) != mp->m_sb.sb_dblocks) {
39862306a36Sopenharmony_ci		xfs_warn(mp, "filesystem size mismatch detected");
39962306a36Sopenharmony_ci		return -EFBIG;
40062306a36Sopenharmony_ci	}
40162306a36Sopenharmony_ci	error = xfs_buf_read_uncached(mp->m_ddev_targp,
40262306a36Sopenharmony_ci					d - XFS_FSS_TO_BB(mp, 1),
40362306a36Sopenharmony_ci					XFS_FSS_TO_BB(mp, 1), 0, &bp, NULL);
40462306a36Sopenharmony_ci	if (error) {
40562306a36Sopenharmony_ci		xfs_warn(mp, "last sector read failed");
40662306a36Sopenharmony_ci		return error;
40762306a36Sopenharmony_ci	}
40862306a36Sopenharmony_ci	xfs_buf_relse(bp);
40962306a36Sopenharmony_ci
41062306a36Sopenharmony_ci	if (mp->m_logdev_targp == mp->m_ddev_targp)
41162306a36Sopenharmony_ci		return 0;
41262306a36Sopenharmony_ci
41362306a36Sopenharmony_ci	d = (xfs_daddr_t)XFS_FSB_TO_BB(mp, mp->m_sb.sb_logblocks);
41462306a36Sopenharmony_ci	if (XFS_BB_TO_FSB(mp, d) != mp->m_sb.sb_logblocks) {
41562306a36Sopenharmony_ci		xfs_warn(mp, "log size mismatch detected");
41662306a36Sopenharmony_ci		return -EFBIG;
41762306a36Sopenharmony_ci	}
41862306a36Sopenharmony_ci	error = xfs_buf_read_uncached(mp->m_logdev_targp,
41962306a36Sopenharmony_ci					d - XFS_FSB_TO_BB(mp, 1),
42062306a36Sopenharmony_ci					XFS_FSB_TO_BB(mp, 1), 0, &bp, NULL);
42162306a36Sopenharmony_ci	if (error) {
42262306a36Sopenharmony_ci		xfs_warn(mp, "log device read failed");
42362306a36Sopenharmony_ci		return error;
42462306a36Sopenharmony_ci	}
42562306a36Sopenharmony_ci	xfs_buf_relse(bp);
42662306a36Sopenharmony_ci	return 0;
42762306a36Sopenharmony_ci}
42862306a36Sopenharmony_ci
42962306a36Sopenharmony_ci/*
43062306a36Sopenharmony_ci * Clear the quotaflags in memory and in the superblock.
43162306a36Sopenharmony_ci */
43262306a36Sopenharmony_ciint
43362306a36Sopenharmony_cixfs_mount_reset_sbqflags(
43462306a36Sopenharmony_ci	struct xfs_mount	*mp)
43562306a36Sopenharmony_ci{
43662306a36Sopenharmony_ci	mp->m_qflags = 0;
43762306a36Sopenharmony_ci
43862306a36Sopenharmony_ci	/* It is OK to look at sb_qflags in the mount path without m_sb_lock. */
43962306a36Sopenharmony_ci	if (mp->m_sb.sb_qflags == 0)
44062306a36Sopenharmony_ci		return 0;
44162306a36Sopenharmony_ci	spin_lock(&mp->m_sb_lock);
44262306a36Sopenharmony_ci	mp->m_sb.sb_qflags = 0;
44362306a36Sopenharmony_ci	spin_unlock(&mp->m_sb_lock);
44462306a36Sopenharmony_ci
44562306a36Sopenharmony_ci	if (!xfs_fs_writable(mp, SB_FREEZE_WRITE))
44662306a36Sopenharmony_ci		return 0;
44762306a36Sopenharmony_ci
44862306a36Sopenharmony_ci	return xfs_sync_sb(mp, false);
44962306a36Sopenharmony_ci}
45062306a36Sopenharmony_ci
45162306a36Sopenharmony_ciuint64_t
45262306a36Sopenharmony_cixfs_default_resblks(xfs_mount_t *mp)
45362306a36Sopenharmony_ci{
45462306a36Sopenharmony_ci	uint64_t resblks;
45562306a36Sopenharmony_ci
45662306a36Sopenharmony_ci	/*
45762306a36Sopenharmony_ci	 * We default to 5% or 8192 fsbs of space reserved, whichever is
45862306a36Sopenharmony_ci	 * smaller.  This is intended to cover concurrent allocation
45962306a36Sopenharmony_ci	 * transactions when we initially hit enospc. These each require a 4
46062306a36Sopenharmony_ci	 * block reservation. Hence by default we cover roughly 2000 concurrent
46162306a36Sopenharmony_ci	 * allocation reservations.
46262306a36Sopenharmony_ci	 */
46362306a36Sopenharmony_ci	resblks = mp->m_sb.sb_dblocks;
46462306a36Sopenharmony_ci	do_div(resblks, 20);
46562306a36Sopenharmony_ci	resblks = min_t(uint64_t, resblks, 8192);
46662306a36Sopenharmony_ci	return resblks;
46762306a36Sopenharmony_ci}
46862306a36Sopenharmony_ci
46962306a36Sopenharmony_ci/* Ensure the summary counts are correct. */
47062306a36Sopenharmony_ciSTATIC int
47162306a36Sopenharmony_cixfs_check_summary_counts(
47262306a36Sopenharmony_ci	struct xfs_mount	*mp)
47362306a36Sopenharmony_ci{
47462306a36Sopenharmony_ci	int			error = 0;
47562306a36Sopenharmony_ci
47662306a36Sopenharmony_ci	/*
47762306a36Sopenharmony_ci	 * The AG0 superblock verifier rejects in-progress filesystems,
47862306a36Sopenharmony_ci	 * so we should never see the flag set this far into mounting.
47962306a36Sopenharmony_ci	 */
48062306a36Sopenharmony_ci	if (mp->m_sb.sb_inprogress) {
48162306a36Sopenharmony_ci		xfs_err(mp, "sb_inprogress set after log recovery??");
48262306a36Sopenharmony_ci		WARN_ON(1);
48362306a36Sopenharmony_ci		return -EFSCORRUPTED;
48462306a36Sopenharmony_ci	}
48562306a36Sopenharmony_ci
48662306a36Sopenharmony_ci	/*
48762306a36Sopenharmony_ci	 * Now the log is mounted, we know if it was an unclean shutdown or
48862306a36Sopenharmony_ci	 * not. If it was, with the first phase of recovery has completed, we
48962306a36Sopenharmony_ci	 * have consistent AG blocks on disk. We have not recovered EFIs yet,
49062306a36Sopenharmony_ci	 * but they are recovered transactionally in the second recovery phase
49162306a36Sopenharmony_ci	 * later.
49262306a36Sopenharmony_ci	 *
49362306a36Sopenharmony_ci	 * If the log was clean when we mounted, we can check the summary
49462306a36Sopenharmony_ci	 * counters.  If any of them are obviously incorrect, we can recompute
49562306a36Sopenharmony_ci	 * them from the AGF headers in the next step.
49662306a36Sopenharmony_ci	 */
49762306a36Sopenharmony_ci	if (xfs_is_clean(mp) &&
49862306a36Sopenharmony_ci	    (mp->m_sb.sb_fdblocks > mp->m_sb.sb_dblocks ||
49962306a36Sopenharmony_ci	     !xfs_verify_icount(mp, mp->m_sb.sb_icount) ||
50062306a36Sopenharmony_ci	     mp->m_sb.sb_ifree > mp->m_sb.sb_icount))
50162306a36Sopenharmony_ci		xfs_fs_mark_sick(mp, XFS_SICK_FS_COUNTERS);
50262306a36Sopenharmony_ci
50362306a36Sopenharmony_ci	/*
50462306a36Sopenharmony_ci	 * We can safely re-initialise incore superblock counters from the
50562306a36Sopenharmony_ci	 * per-ag data. These may not be correct if the filesystem was not
50662306a36Sopenharmony_ci	 * cleanly unmounted, so we waited for recovery to finish before doing
50762306a36Sopenharmony_ci	 * this.
50862306a36Sopenharmony_ci	 *
50962306a36Sopenharmony_ci	 * If the filesystem was cleanly unmounted or the previous check did
51062306a36Sopenharmony_ci	 * not flag anything weird, then we can trust the values in the
51162306a36Sopenharmony_ci	 * superblock to be correct and we don't need to do anything here.
51262306a36Sopenharmony_ci	 * Otherwise, recalculate the summary counters.
51362306a36Sopenharmony_ci	 */
51462306a36Sopenharmony_ci	if ((xfs_has_lazysbcount(mp) && !xfs_is_clean(mp)) ||
51562306a36Sopenharmony_ci	    xfs_fs_has_sickness(mp, XFS_SICK_FS_COUNTERS)) {
51662306a36Sopenharmony_ci		error = xfs_initialize_perag_data(mp, mp->m_sb.sb_agcount);
51762306a36Sopenharmony_ci		if (error)
51862306a36Sopenharmony_ci			return error;
51962306a36Sopenharmony_ci	}
52062306a36Sopenharmony_ci
52162306a36Sopenharmony_ci	/*
52262306a36Sopenharmony_ci	 * Older kernels misused sb_frextents to reflect both incore
52362306a36Sopenharmony_ci	 * reservations made by running transactions and the actual count of
52462306a36Sopenharmony_ci	 * free rt extents in the ondisk metadata.  Transactions committed
52562306a36Sopenharmony_ci	 * during runtime can therefore contain a superblock update that
52662306a36Sopenharmony_ci	 * undercounts the number of free rt extents tracked in the rt bitmap.
52762306a36Sopenharmony_ci	 * A clean unmount record will have the correct frextents value since
52862306a36Sopenharmony_ci	 * there can be no other transactions running at that point.
52962306a36Sopenharmony_ci	 *
53062306a36Sopenharmony_ci	 * If we're mounting the rt volume after recovering the log, recompute
53162306a36Sopenharmony_ci	 * frextents from the rtbitmap file to fix the inconsistency.
53262306a36Sopenharmony_ci	 */
53362306a36Sopenharmony_ci	if (xfs_has_realtime(mp) && !xfs_is_clean(mp)) {
53462306a36Sopenharmony_ci		error = xfs_rtalloc_reinit_frextents(mp);
53562306a36Sopenharmony_ci		if (error)
53662306a36Sopenharmony_ci			return error;
53762306a36Sopenharmony_ci	}
53862306a36Sopenharmony_ci
53962306a36Sopenharmony_ci	return 0;
54062306a36Sopenharmony_ci}
54162306a36Sopenharmony_ci
54262306a36Sopenharmony_cistatic void
54362306a36Sopenharmony_cixfs_unmount_check(
54462306a36Sopenharmony_ci	struct xfs_mount	*mp)
54562306a36Sopenharmony_ci{
54662306a36Sopenharmony_ci	if (xfs_is_shutdown(mp))
54762306a36Sopenharmony_ci		return;
54862306a36Sopenharmony_ci
54962306a36Sopenharmony_ci	if (percpu_counter_sum(&mp->m_ifree) >
55062306a36Sopenharmony_ci			percpu_counter_sum(&mp->m_icount)) {
55162306a36Sopenharmony_ci		xfs_alert(mp, "ifree/icount mismatch at unmount");
55262306a36Sopenharmony_ci		xfs_fs_mark_sick(mp, XFS_SICK_FS_COUNTERS);
55362306a36Sopenharmony_ci	}
55462306a36Sopenharmony_ci}
55562306a36Sopenharmony_ci
55662306a36Sopenharmony_ci/*
55762306a36Sopenharmony_ci * Flush and reclaim dirty inodes in preparation for unmount. Inodes and
55862306a36Sopenharmony_ci * internal inode structures can be sitting in the CIL and AIL at this point,
55962306a36Sopenharmony_ci * so we need to unpin them, write them back and/or reclaim them before unmount
56062306a36Sopenharmony_ci * can proceed.  In other words, callers are required to have inactivated all
56162306a36Sopenharmony_ci * inodes.
56262306a36Sopenharmony_ci *
56362306a36Sopenharmony_ci * An inode cluster that has been freed can have its buffer still pinned in
56462306a36Sopenharmony_ci * memory because the transaction is still sitting in a iclog. The stale inodes
56562306a36Sopenharmony_ci * on that buffer will be pinned to the buffer until the transaction hits the
56662306a36Sopenharmony_ci * disk and the callbacks run. Pushing the AIL will skip the stale inodes and
56762306a36Sopenharmony_ci * may never see the pinned buffer, so nothing will push out the iclog and
56862306a36Sopenharmony_ci * unpin the buffer.
56962306a36Sopenharmony_ci *
57062306a36Sopenharmony_ci * Hence we need to force the log to unpin everything first. However, log
57162306a36Sopenharmony_ci * forces don't wait for the discards they issue to complete, so we have to
57262306a36Sopenharmony_ci * explicitly wait for them to complete here as well.
57362306a36Sopenharmony_ci *
57462306a36Sopenharmony_ci * Then we can tell the world we are unmounting so that error handling knows
57562306a36Sopenharmony_ci * that the filesystem is going away and we should error out anything that we
57662306a36Sopenharmony_ci * have been retrying in the background.  This will prevent never-ending
57762306a36Sopenharmony_ci * retries in AIL pushing from hanging the unmount.
57862306a36Sopenharmony_ci *
57962306a36Sopenharmony_ci * Finally, we can push the AIL to clean all the remaining dirty objects, then
58062306a36Sopenharmony_ci * reclaim the remaining inodes that are still in memory at this point in time.
58162306a36Sopenharmony_ci */
58262306a36Sopenharmony_cistatic void
58362306a36Sopenharmony_cixfs_unmount_flush_inodes(
58462306a36Sopenharmony_ci	struct xfs_mount	*mp)
58562306a36Sopenharmony_ci{
58662306a36Sopenharmony_ci	xfs_log_force(mp, XFS_LOG_SYNC);
58762306a36Sopenharmony_ci	xfs_extent_busy_wait_all(mp);
58862306a36Sopenharmony_ci	flush_workqueue(xfs_discard_wq);
58962306a36Sopenharmony_ci
59062306a36Sopenharmony_ci	set_bit(XFS_OPSTATE_UNMOUNTING, &mp->m_opstate);
59162306a36Sopenharmony_ci
59262306a36Sopenharmony_ci	xfs_ail_push_all_sync(mp->m_ail);
59362306a36Sopenharmony_ci	xfs_inodegc_stop(mp);
59462306a36Sopenharmony_ci	cancel_delayed_work_sync(&mp->m_reclaim_work);
59562306a36Sopenharmony_ci	xfs_reclaim_inodes(mp);
59662306a36Sopenharmony_ci	xfs_health_unmount(mp);
59762306a36Sopenharmony_ci}
59862306a36Sopenharmony_ci
59962306a36Sopenharmony_cistatic void
60062306a36Sopenharmony_cixfs_mount_setup_inode_geom(
60162306a36Sopenharmony_ci	struct xfs_mount	*mp)
60262306a36Sopenharmony_ci{
60362306a36Sopenharmony_ci	struct xfs_ino_geometry *igeo = M_IGEO(mp);
60462306a36Sopenharmony_ci
60562306a36Sopenharmony_ci	igeo->attr_fork_offset = xfs_bmap_compute_attr_offset(mp);
60662306a36Sopenharmony_ci	ASSERT(igeo->attr_fork_offset < XFS_LITINO(mp));
60762306a36Sopenharmony_ci
60862306a36Sopenharmony_ci	xfs_ialloc_setup_geometry(mp);
60962306a36Sopenharmony_ci}
61062306a36Sopenharmony_ci
61162306a36Sopenharmony_ci/* Compute maximum possible height for per-AG btree types for this fs. */
61262306a36Sopenharmony_cistatic inline void
61362306a36Sopenharmony_cixfs_agbtree_compute_maxlevels(
61462306a36Sopenharmony_ci	struct xfs_mount	*mp)
61562306a36Sopenharmony_ci{
61662306a36Sopenharmony_ci	unsigned int		levels;
61762306a36Sopenharmony_ci
61862306a36Sopenharmony_ci	levels = max(mp->m_alloc_maxlevels, M_IGEO(mp)->inobt_maxlevels);
61962306a36Sopenharmony_ci	levels = max(levels, mp->m_rmap_maxlevels);
62062306a36Sopenharmony_ci	mp->m_agbtree_maxlevels = max(levels, mp->m_refc_maxlevels);
62162306a36Sopenharmony_ci}
62262306a36Sopenharmony_ci
62362306a36Sopenharmony_ci/*
62462306a36Sopenharmony_ci * This function does the following on an initial mount of a file system:
62562306a36Sopenharmony_ci *	- reads the superblock from disk and init the mount struct
62662306a36Sopenharmony_ci *	- if we're a 32-bit kernel, do a size check on the superblock
62762306a36Sopenharmony_ci *		so we don't mount terabyte filesystems
62862306a36Sopenharmony_ci *	- init mount struct realtime fields
62962306a36Sopenharmony_ci *	- allocate inode hash table for fs
63062306a36Sopenharmony_ci *	- init directory manager
63162306a36Sopenharmony_ci *	- perform recovery and init the log manager
63262306a36Sopenharmony_ci */
63362306a36Sopenharmony_ciint
63462306a36Sopenharmony_cixfs_mountfs(
63562306a36Sopenharmony_ci	struct xfs_mount	*mp)
63662306a36Sopenharmony_ci{
63762306a36Sopenharmony_ci	struct xfs_sb		*sbp = &(mp->m_sb);
63862306a36Sopenharmony_ci	struct xfs_inode	*rip;
63962306a36Sopenharmony_ci	struct xfs_ino_geometry	*igeo = M_IGEO(mp);
64062306a36Sopenharmony_ci	uint64_t		resblks;
64162306a36Sopenharmony_ci	uint			quotamount = 0;
64262306a36Sopenharmony_ci	uint			quotaflags = 0;
64362306a36Sopenharmony_ci	int			error = 0;
64462306a36Sopenharmony_ci
64562306a36Sopenharmony_ci	xfs_sb_mount_common(mp, sbp);
64662306a36Sopenharmony_ci
64762306a36Sopenharmony_ci	/*
64862306a36Sopenharmony_ci	 * Check for a mismatched features2 values.  Older kernels read & wrote
64962306a36Sopenharmony_ci	 * into the wrong sb offset for sb_features2 on some platforms due to
65062306a36Sopenharmony_ci	 * xfs_sb_t not being 64bit size aligned when sb_features2 was added,
65162306a36Sopenharmony_ci	 * which made older superblock reading/writing routines swap it as a
65262306a36Sopenharmony_ci	 * 64-bit value.
65362306a36Sopenharmony_ci	 *
65462306a36Sopenharmony_ci	 * For backwards compatibility, we make both slots equal.
65562306a36Sopenharmony_ci	 *
65662306a36Sopenharmony_ci	 * If we detect a mismatched field, we OR the set bits into the existing
65762306a36Sopenharmony_ci	 * features2 field in case it has already been modified; we don't want
65862306a36Sopenharmony_ci	 * to lose any features.  We then update the bad location with the ORed
65962306a36Sopenharmony_ci	 * value so that older kernels will see any features2 flags. The
66062306a36Sopenharmony_ci	 * superblock writeback code ensures the new sb_features2 is copied to
66162306a36Sopenharmony_ci	 * sb_bad_features2 before it is logged or written to disk.
66262306a36Sopenharmony_ci	 */
66362306a36Sopenharmony_ci	if (xfs_sb_has_mismatched_features2(sbp)) {
66462306a36Sopenharmony_ci		xfs_warn(mp, "correcting sb_features alignment problem");
66562306a36Sopenharmony_ci		sbp->sb_features2 |= sbp->sb_bad_features2;
66662306a36Sopenharmony_ci		mp->m_update_sb = true;
66762306a36Sopenharmony_ci	}
66862306a36Sopenharmony_ci
66962306a36Sopenharmony_ci
67062306a36Sopenharmony_ci	/* always use v2 inodes by default now */
67162306a36Sopenharmony_ci	if (!(mp->m_sb.sb_versionnum & XFS_SB_VERSION_NLINKBIT)) {
67262306a36Sopenharmony_ci		mp->m_sb.sb_versionnum |= XFS_SB_VERSION_NLINKBIT;
67362306a36Sopenharmony_ci		mp->m_features |= XFS_FEAT_NLINK;
67462306a36Sopenharmony_ci		mp->m_update_sb = true;
67562306a36Sopenharmony_ci	}
67662306a36Sopenharmony_ci
67762306a36Sopenharmony_ci	/*
67862306a36Sopenharmony_ci	 * If we were given new sunit/swidth options, do some basic validation
67962306a36Sopenharmony_ci	 * checks and convert the incore dalign and swidth values to the
68062306a36Sopenharmony_ci	 * same units (FSB) that everything else uses.  This /must/ happen
68162306a36Sopenharmony_ci	 * before computing the inode geometry.
68262306a36Sopenharmony_ci	 */
68362306a36Sopenharmony_ci	error = xfs_validate_new_dalign(mp);
68462306a36Sopenharmony_ci	if (error)
68562306a36Sopenharmony_ci		goto out;
68662306a36Sopenharmony_ci
68762306a36Sopenharmony_ci	xfs_alloc_compute_maxlevels(mp);
68862306a36Sopenharmony_ci	xfs_bmap_compute_maxlevels(mp, XFS_DATA_FORK);
68962306a36Sopenharmony_ci	xfs_bmap_compute_maxlevels(mp, XFS_ATTR_FORK);
69062306a36Sopenharmony_ci	xfs_mount_setup_inode_geom(mp);
69162306a36Sopenharmony_ci	xfs_rmapbt_compute_maxlevels(mp);
69262306a36Sopenharmony_ci	xfs_refcountbt_compute_maxlevels(mp);
69362306a36Sopenharmony_ci
69462306a36Sopenharmony_ci	xfs_agbtree_compute_maxlevels(mp);
69562306a36Sopenharmony_ci
69662306a36Sopenharmony_ci	/*
69762306a36Sopenharmony_ci	 * Check if sb_agblocks is aligned at stripe boundary.  If sb_agblocks
69862306a36Sopenharmony_ci	 * is NOT aligned turn off m_dalign since allocator alignment is within
69962306a36Sopenharmony_ci	 * an ag, therefore ag has to be aligned at stripe boundary.  Note that
70062306a36Sopenharmony_ci	 * we must compute the free space and rmap btree geometry before doing
70162306a36Sopenharmony_ci	 * this.
70262306a36Sopenharmony_ci	 */
70362306a36Sopenharmony_ci	error = xfs_update_alignment(mp);
70462306a36Sopenharmony_ci	if (error)
70562306a36Sopenharmony_ci		goto out;
70662306a36Sopenharmony_ci
70762306a36Sopenharmony_ci	/* enable fail_at_unmount as default */
70862306a36Sopenharmony_ci	mp->m_fail_unmount = true;
70962306a36Sopenharmony_ci
71062306a36Sopenharmony_ci	error = xfs_sysfs_init(&mp->m_kobj, &xfs_mp_ktype,
71162306a36Sopenharmony_ci			       NULL, mp->m_super->s_id);
71262306a36Sopenharmony_ci	if (error)
71362306a36Sopenharmony_ci		goto out;
71462306a36Sopenharmony_ci
71562306a36Sopenharmony_ci	error = xfs_sysfs_init(&mp->m_stats.xs_kobj, &xfs_stats_ktype,
71662306a36Sopenharmony_ci			       &mp->m_kobj, "stats");
71762306a36Sopenharmony_ci	if (error)
71862306a36Sopenharmony_ci		goto out_remove_sysfs;
71962306a36Sopenharmony_ci
72062306a36Sopenharmony_ci	xchk_stats_register(mp->m_scrub_stats, mp->m_debugfs);
72162306a36Sopenharmony_ci
72262306a36Sopenharmony_ci	error = xfs_error_sysfs_init(mp);
72362306a36Sopenharmony_ci	if (error)
72462306a36Sopenharmony_ci		goto out_remove_scrub_stats;
72562306a36Sopenharmony_ci
72662306a36Sopenharmony_ci	error = xfs_errortag_init(mp);
72762306a36Sopenharmony_ci	if (error)
72862306a36Sopenharmony_ci		goto out_remove_error_sysfs;
72962306a36Sopenharmony_ci
73062306a36Sopenharmony_ci	error = xfs_uuid_mount(mp);
73162306a36Sopenharmony_ci	if (error)
73262306a36Sopenharmony_ci		goto out_remove_errortag;
73362306a36Sopenharmony_ci
73462306a36Sopenharmony_ci	/*
73562306a36Sopenharmony_ci	 * Update the preferred write size based on the information from the
73662306a36Sopenharmony_ci	 * on-disk superblock.
73762306a36Sopenharmony_ci	 */
73862306a36Sopenharmony_ci	mp->m_allocsize_log =
73962306a36Sopenharmony_ci		max_t(uint32_t, sbp->sb_blocklog, mp->m_allocsize_log);
74062306a36Sopenharmony_ci	mp->m_allocsize_blocks = 1U << (mp->m_allocsize_log - sbp->sb_blocklog);
74162306a36Sopenharmony_ci
74262306a36Sopenharmony_ci	/* set the low space thresholds for dynamic preallocation */
74362306a36Sopenharmony_ci	xfs_set_low_space_thresholds(mp);
74462306a36Sopenharmony_ci
74562306a36Sopenharmony_ci	/*
74662306a36Sopenharmony_ci	 * If enabled, sparse inode chunk alignment is expected to match the
74762306a36Sopenharmony_ci	 * cluster size. Full inode chunk alignment must match the chunk size,
74862306a36Sopenharmony_ci	 * but that is checked on sb read verification...
74962306a36Sopenharmony_ci	 */
75062306a36Sopenharmony_ci	if (xfs_has_sparseinodes(mp) &&
75162306a36Sopenharmony_ci	    mp->m_sb.sb_spino_align !=
75262306a36Sopenharmony_ci			XFS_B_TO_FSBT(mp, igeo->inode_cluster_size_raw)) {
75362306a36Sopenharmony_ci		xfs_warn(mp,
75462306a36Sopenharmony_ci	"Sparse inode block alignment (%u) must match cluster size (%llu).",
75562306a36Sopenharmony_ci			 mp->m_sb.sb_spino_align,
75662306a36Sopenharmony_ci			 XFS_B_TO_FSBT(mp, igeo->inode_cluster_size_raw));
75762306a36Sopenharmony_ci		error = -EINVAL;
75862306a36Sopenharmony_ci		goto out_remove_uuid;
75962306a36Sopenharmony_ci	}
76062306a36Sopenharmony_ci
76162306a36Sopenharmony_ci	/*
76262306a36Sopenharmony_ci	 * Check that the data (and log if separate) is an ok size.
76362306a36Sopenharmony_ci	 */
76462306a36Sopenharmony_ci	error = xfs_check_sizes(mp);
76562306a36Sopenharmony_ci	if (error)
76662306a36Sopenharmony_ci		goto out_remove_uuid;
76762306a36Sopenharmony_ci
76862306a36Sopenharmony_ci	/*
76962306a36Sopenharmony_ci	 * Initialize realtime fields in the mount structure
77062306a36Sopenharmony_ci	 */
77162306a36Sopenharmony_ci	error = xfs_rtmount_init(mp);
77262306a36Sopenharmony_ci	if (error) {
77362306a36Sopenharmony_ci		xfs_warn(mp, "RT mount failed");
77462306a36Sopenharmony_ci		goto out_remove_uuid;
77562306a36Sopenharmony_ci	}
77662306a36Sopenharmony_ci
77762306a36Sopenharmony_ci	/*
77862306a36Sopenharmony_ci	 *  Copies the low order bits of the timestamp and the randomly
77962306a36Sopenharmony_ci	 *  set "sequence" number out of a UUID.
78062306a36Sopenharmony_ci	 */
78162306a36Sopenharmony_ci	mp->m_fixedfsid[0] =
78262306a36Sopenharmony_ci		(get_unaligned_be16(&sbp->sb_uuid.b[8]) << 16) |
78362306a36Sopenharmony_ci		 get_unaligned_be16(&sbp->sb_uuid.b[4]);
78462306a36Sopenharmony_ci	mp->m_fixedfsid[1] = get_unaligned_be32(&sbp->sb_uuid.b[0]);
78562306a36Sopenharmony_ci
78662306a36Sopenharmony_ci	error = xfs_da_mount(mp);
78762306a36Sopenharmony_ci	if (error) {
78862306a36Sopenharmony_ci		xfs_warn(mp, "Failed dir/attr init: %d", error);
78962306a36Sopenharmony_ci		goto out_remove_uuid;
79062306a36Sopenharmony_ci	}
79162306a36Sopenharmony_ci
79262306a36Sopenharmony_ci	/*
79362306a36Sopenharmony_ci	 * Initialize the precomputed transaction reservations values.
79462306a36Sopenharmony_ci	 */
79562306a36Sopenharmony_ci	xfs_trans_init(mp);
79662306a36Sopenharmony_ci
79762306a36Sopenharmony_ci	/*
79862306a36Sopenharmony_ci	 * Allocate and initialize the per-ag data.
79962306a36Sopenharmony_ci	 */
80062306a36Sopenharmony_ci	error = xfs_initialize_perag(mp, sbp->sb_agcount, mp->m_sb.sb_dblocks,
80162306a36Sopenharmony_ci			&mp->m_maxagi);
80262306a36Sopenharmony_ci	if (error) {
80362306a36Sopenharmony_ci		xfs_warn(mp, "Failed per-ag init: %d", error);
80462306a36Sopenharmony_ci		goto out_free_dir;
80562306a36Sopenharmony_ci	}
80662306a36Sopenharmony_ci
80762306a36Sopenharmony_ci	if (XFS_IS_CORRUPT(mp, !sbp->sb_logblocks)) {
80862306a36Sopenharmony_ci		xfs_warn(mp, "no log defined");
80962306a36Sopenharmony_ci		error = -EFSCORRUPTED;
81062306a36Sopenharmony_ci		goto out_free_perag;
81162306a36Sopenharmony_ci	}
81262306a36Sopenharmony_ci
81362306a36Sopenharmony_ci	error = xfs_inodegc_register_shrinker(mp);
81462306a36Sopenharmony_ci	if (error)
81562306a36Sopenharmony_ci		goto out_fail_wait;
81662306a36Sopenharmony_ci
81762306a36Sopenharmony_ci	/*
81862306a36Sopenharmony_ci	 * Log's mount-time initialization. The first part of recovery can place
81962306a36Sopenharmony_ci	 * some items on the AIL, to be handled when recovery is finished or
82062306a36Sopenharmony_ci	 * cancelled.
82162306a36Sopenharmony_ci	 */
82262306a36Sopenharmony_ci	error = xfs_log_mount(mp, mp->m_logdev_targp,
82362306a36Sopenharmony_ci			      XFS_FSB_TO_DADDR(mp, sbp->sb_logstart),
82462306a36Sopenharmony_ci			      XFS_FSB_TO_BB(mp, sbp->sb_logblocks));
82562306a36Sopenharmony_ci	if (error) {
82662306a36Sopenharmony_ci		xfs_warn(mp, "log mount failed");
82762306a36Sopenharmony_ci		goto out_inodegc_shrinker;
82862306a36Sopenharmony_ci	}
82962306a36Sopenharmony_ci
83062306a36Sopenharmony_ci	/* Enable background inode inactivation workers. */
83162306a36Sopenharmony_ci	xfs_inodegc_start(mp);
83262306a36Sopenharmony_ci	xfs_blockgc_start(mp);
83362306a36Sopenharmony_ci
83462306a36Sopenharmony_ci	/*
83562306a36Sopenharmony_ci	 * Now that we've recovered any pending superblock feature bit
83662306a36Sopenharmony_ci	 * additions, we can finish setting up the attr2 behaviour for the
83762306a36Sopenharmony_ci	 * mount. The noattr2 option overrides the superblock flag, so only
83862306a36Sopenharmony_ci	 * check the superblock feature flag if the mount option is not set.
83962306a36Sopenharmony_ci	 */
84062306a36Sopenharmony_ci	if (xfs_has_noattr2(mp)) {
84162306a36Sopenharmony_ci		mp->m_features &= ~XFS_FEAT_ATTR2;
84262306a36Sopenharmony_ci	} else if (!xfs_has_attr2(mp) &&
84362306a36Sopenharmony_ci		   (mp->m_sb.sb_features2 & XFS_SB_VERSION2_ATTR2BIT)) {
84462306a36Sopenharmony_ci		mp->m_features |= XFS_FEAT_ATTR2;
84562306a36Sopenharmony_ci	}
84662306a36Sopenharmony_ci
84762306a36Sopenharmony_ci	/*
84862306a36Sopenharmony_ci	 * Get and sanity-check the root inode.
84962306a36Sopenharmony_ci	 * Save the pointer to it in the mount structure.
85062306a36Sopenharmony_ci	 */
85162306a36Sopenharmony_ci	error = xfs_iget(mp, NULL, sbp->sb_rootino, XFS_IGET_UNTRUSTED,
85262306a36Sopenharmony_ci			 XFS_ILOCK_EXCL, &rip);
85362306a36Sopenharmony_ci	if (error) {
85462306a36Sopenharmony_ci		xfs_warn(mp,
85562306a36Sopenharmony_ci			"Failed to read root inode 0x%llx, error %d",
85662306a36Sopenharmony_ci			sbp->sb_rootino, -error);
85762306a36Sopenharmony_ci		goto out_log_dealloc;
85862306a36Sopenharmony_ci	}
85962306a36Sopenharmony_ci
86062306a36Sopenharmony_ci	ASSERT(rip != NULL);
86162306a36Sopenharmony_ci
86262306a36Sopenharmony_ci	if (XFS_IS_CORRUPT(mp, !S_ISDIR(VFS_I(rip)->i_mode))) {
86362306a36Sopenharmony_ci		xfs_warn(mp, "corrupted root inode %llu: not a directory",
86462306a36Sopenharmony_ci			(unsigned long long)rip->i_ino);
86562306a36Sopenharmony_ci		xfs_iunlock(rip, XFS_ILOCK_EXCL);
86662306a36Sopenharmony_ci		error = -EFSCORRUPTED;
86762306a36Sopenharmony_ci		goto out_rele_rip;
86862306a36Sopenharmony_ci	}
86962306a36Sopenharmony_ci	mp->m_rootip = rip;	/* save it */
87062306a36Sopenharmony_ci
87162306a36Sopenharmony_ci	xfs_iunlock(rip, XFS_ILOCK_EXCL);
87262306a36Sopenharmony_ci
87362306a36Sopenharmony_ci	/*
87462306a36Sopenharmony_ci	 * Initialize realtime inode pointers in the mount structure
87562306a36Sopenharmony_ci	 */
87662306a36Sopenharmony_ci	error = xfs_rtmount_inodes(mp);
87762306a36Sopenharmony_ci	if (error) {
87862306a36Sopenharmony_ci		/*
87962306a36Sopenharmony_ci		 * Free up the root inode.
88062306a36Sopenharmony_ci		 */
88162306a36Sopenharmony_ci		xfs_warn(mp, "failed to read RT inodes");
88262306a36Sopenharmony_ci		goto out_rele_rip;
88362306a36Sopenharmony_ci	}
88462306a36Sopenharmony_ci
88562306a36Sopenharmony_ci	/* Make sure the summary counts are ok. */
88662306a36Sopenharmony_ci	error = xfs_check_summary_counts(mp);
88762306a36Sopenharmony_ci	if (error)
88862306a36Sopenharmony_ci		goto out_rtunmount;
88962306a36Sopenharmony_ci
89062306a36Sopenharmony_ci	/*
89162306a36Sopenharmony_ci	 * If this is a read-only mount defer the superblock updates until
89262306a36Sopenharmony_ci	 * the next remount into writeable mode.  Otherwise we would never
89362306a36Sopenharmony_ci	 * perform the update e.g. for the root filesystem.
89462306a36Sopenharmony_ci	 */
89562306a36Sopenharmony_ci	if (mp->m_update_sb && !xfs_is_readonly(mp)) {
89662306a36Sopenharmony_ci		error = xfs_sync_sb(mp, false);
89762306a36Sopenharmony_ci		if (error) {
89862306a36Sopenharmony_ci			xfs_warn(mp, "failed to write sb changes");
89962306a36Sopenharmony_ci			goto out_rtunmount;
90062306a36Sopenharmony_ci		}
90162306a36Sopenharmony_ci	}
90262306a36Sopenharmony_ci
90362306a36Sopenharmony_ci	/*
90462306a36Sopenharmony_ci	 * Initialise the XFS quota management subsystem for this mount
90562306a36Sopenharmony_ci	 */
90662306a36Sopenharmony_ci	if (XFS_IS_QUOTA_ON(mp)) {
90762306a36Sopenharmony_ci		error = xfs_qm_newmount(mp, &quotamount, &quotaflags);
90862306a36Sopenharmony_ci		if (error)
90962306a36Sopenharmony_ci			goto out_rtunmount;
91062306a36Sopenharmony_ci	} else {
91162306a36Sopenharmony_ci		/*
91262306a36Sopenharmony_ci		 * If a file system had quotas running earlier, but decided to
91362306a36Sopenharmony_ci		 * mount without -o uquota/pquota/gquota options, revoke the
91462306a36Sopenharmony_ci		 * quotachecked license.
91562306a36Sopenharmony_ci		 */
91662306a36Sopenharmony_ci		if (mp->m_sb.sb_qflags & XFS_ALL_QUOTA_ACCT) {
91762306a36Sopenharmony_ci			xfs_notice(mp, "resetting quota flags");
91862306a36Sopenharmony_ci			error = xfs_mount_reset_sbqflags(mp);
91962306a36Sopenharmony_ci			if (error)
92062306a36Sopenharmony_ci				goto out_rtunmount;
92162306a36Sopenharmony_ci		}
92262306a36Sopenharmony_ci	}
92362306a36Sopenharmony_ci
92462306a36Sopenharmony_ci	/*
92562306a36Sopenharmony_ci	 * Finish recovering the file system.  This part needed to be delayed
92662306a36Sopenharmony_ci	 * until after the root and real-time bitmap inodes were consistently
92762306a36Sopenharmony_ci	 * read in.  Temporarily create per-AG space reservations for metadata
92862306a36Sopenharmony_ci	 * btree shape changes because space freeing transactions (for inode
92962306a36Sopenharmony_ci	 * inactivation) require the per-AG reservation in lieu of reserving
93062306a36Sopenharmony_ci	 * blocks.
93162306a36Sopenharmony_ci	 */
93262306a36Sopenharmony_ci	error = xfs_fs_reserve_ag_blocks(mp);
93362306a36Sopenharmony_ci	if (error && error == -ENOSPC)
93462306a36Sopenharmony_ci		xfs_warn(mp,
93562306a36Sopenharmony_ci	"ENOSPC reserving per-AG metadata pool, log recovery may fail.");
93662306a36Sopenharmony_ci	error = xfs_log_mount_finish(mp);
93762306a36Sopenharmony_ci	xfs_fs_unreserve_ag_blocks(mp);
93862306a36Sopenharmony_ci	if (error) {
93962306a36Sopenharmony_ci		xfs_warn(mp, "log mount finish failed");
94062306a36Sopenharmony_ci		goto out_rtunmount;
94162306a36Sopenharmony_ci	}
94262306a36Sopenharmony_ci
94362306a36Sopenharmony_ci	/*
94462306a36Sopenharmony_ci	 * Now the log is fully replayed, we can transition to full read-only
94562306a36Sopenharmony_ci	 * mode for read-only mounts. This will sync all the metadata and clean
94662306a36Sopenharmony_ci	 * the log so that the recovery we just performed does not have to be
94762306a36Sopenharmony_ci	 * replayed again on the next mount.
94862306a36Sopenharmony_ci	 *
94962306a36Sopenharmony_ci	 * We use the same quiesce mechanism as the rw->ro remount, as they are
95062306a36Sopenharmony_ci	 * semantically identical operations.
95162306a36Sopenharmony_ci	 */
95262306a36Sopenharmony_ci	if (xfs_is_readonly(mp) && !xfs_has_norecovery(mp))
95362306a36Sopenharmony_ci		xfs_log_clean(mp);
95462306a36Sopenharmony_ci
95562306a36Sopenharmony_ci	/*
95662306a36Sopenharmony_ci	 * Complete the quota initialisation, post-log-replay component.
95762306a36Sopenharmony_ci	 */
95862306a36Sopenharmony_ci	if (quotamount) {
95962306a36Sopenharmony_ci		ASSERT(mp->m_qflags == 0);
96062306a36Sopenharmony_ci		mp->m_qflags = quotaflags;
96162306a36Sopenharmony_ci
96262306a36Sopenharmony_ci		xfs_qm_mount_quotas(mp);
96362306a36Sopenharmony_ci	}
96462306a36Sopenharmony_ci
96562306a36Sopenharmony_ci	/*
96662306a36Sopenharmony_ci	 * Now we are mounted, reserve a small amount of unused space for
96762306a36Sopenharmony_ci	 * privileged transactions. This is needed so that transaction
96862306a36Sopenharmony_ci	 * space required for critical operations can dip into this pool
96962306a36Sopenharmony_ci	 * when at ENOSPC. This is needed for operations like create with
97062306a36Sopenharmony_ci	 * attr, unwritten extent conversion at ENOSPC, etc. Data allocations
97162306a36Sopenharmony_ci	 * are not allowed to use this reserved space.
97262306a36Sopenharmony_ci	 *
97362306a36Sopenharmony_ci	 * This may drive us straight to ENOSPC on mount, but that implies
97462306a36Sopenharmony_ci	 * we were already there on the last unmount. Warn if this occurs.
97562306a36Sopenharmony_ci	 */
97662306a36Sopenharmony_ci	if (!xfs_is_readonly(mp)) {
97762306a36Sopenharmony_ci		resblks = xfs_default_resblks(mp);
97862306a36Sopenharmony_ci		error = xfs_reserve_blocks(mp, &resblks, NULL);
97962306a36Sopenharmony_ci		if (error)
98062306a36Sopenharmony_ci			xfs_warn(mp,
98162306a36Sopenharmony_ci	"Unable to allocate reserve blocks. Continuing without reserve pool.");
98262306a36Sopenharmony_ci
98362306a36Sopenharmony_ci		/* Reserve AG blocks for future btree expansion. */
98462306a36Sopenharmony_ci		error = xfs_fs_reserve_ag_blocks(mp);
98562306a36Sopenharmony_ci		if (error && error != -ENOSPC)
98662306a36Sopenharmony_ci			goto out_agresv;
98762306a36Sopenharmony_ci	}
98862306a36Sopenharmony_ci
98962306a36Sopenharmony_ci	return 0;
99062306a36Sopenharmony_ci
99162306a36Sopenharmony_ci out_agresv:
99262306a36Sopenharmony_ci	xfs_fs_unreserve_ag_blocks(mp);
99362306a36Sopenharmony_ci	xfs_qm_unmount_quotas(mp);
99462306a36Sopenharmony_ci out_rtunmount:
99562306a36Sopenharmony_ci	xfs_rtunmount_inodes(mp);
99662306a36Sopenharmony_ci out_rele_rip:
99762306a36Sopenharmony_ci	xfs_irele(rip);
99862306a36Sopenharmony_ci	/* Clean out dquots that might be in memory after quotacheck. */
99962306a36Sopenharmony_ci	xfs_qm_unmount(mp);
100062306a36Sopenharmony_ci
100162306a36Sopenharmony_ci	/*
100262306a36Sopenharmony_ci	 * Inactivate all inodes that might still be in memory after a log
100362306a36Sopenharmony_ci	 * intent recovery failure so that reclaim can free them.  Metadata
100462306a36Sopenharmony_ci	 * inodes and the root directory shouldn't need inactivation, but the
100562306a36Sopenharmony_ci	 * mount failed for some reason, so pull down all the state and flee.
100662306a36Sopenharmony_ci	 */
100762306a36Sopenharmony_ci	xfs_inodegc_flush(mp);
100862306a36Sopenharmony_ci
100962306a36Sopenharmony_ci	/*
101062306a36Sopenharmony_ci	 * Flush all inode reclamation work and flush the log.
101162306a36Sopenharmony_ci	 * We have to do this /after/ rtunmount and qm_unmount because those
101262306a36Sopenharmony_ci	 * two will have scheduled delayed reclaim for the rt/quota inodes.
101362306a36Sopenharmony_ci	 *
101462306a36Sopenharmony_ci	 * This is slightly different from the unmountfs call sequence
101562306a36Sopenharmony_ci	 * because we could be tearing down a partially set up mount.  In
101662306a36Sopenharmony_ci	 * particular, if log_mount_finish fails we bail out without calling
101762306a36Sopenharmony_ci	 * qm_unmount_quotas and therefore rely on qm_unmount to release the
101862306a36Sopenharmony_ci	 * quota inodes.
101962306a36Sopenharmony_ci	 */
102062306a36Sopenharmony_ci	xfs_unmount_flush_inodes(mp);
102162306a36Sopenharmony_ci out_log_dealloc:
102262306a36Sopenharmony_ci	xfs_log_mount_cancel(mp);
102362306a36Sopenharmony_ci out_inodegc_shrinker:
102462306a36Sopenharmony_ci	unregister_shrinker(&mp->m_inodegc_shrinker);
102562306a36Sopenharmony_ci out_fail_wait:
102662306a36Sopenharmony_ci	if (mp->m_logdev_targp && mp->m_logdev_targp != mp->m_ddev_targp)
102762306a36Sopenharmony_ci		xfs_buftarg_drain(mp->m_logdev_targp);
102862306a36Sopenharmony_ci	xfs_buftarg_drain(mp->m_ddev_targp);
102962306a36Sopenharmony_ci out_free_perag:
103062306a36Sopenharmony_ci	xfs_free_perag(mp);
103162306a36Sopenharmony_ci out_free_dir:
103262306a36Sopenharmony_ci	xfs_da_unmount(mp);
103362306a36Sopenharmony_ci out_remove_uuid:
103462306a36Sopenharmony_ci	xfs_uuid_unmount(mp);
103562306a36Sopenharmony_ci out_remove_errortag:
103662306a36Sopenharmony_ci	xfs_errortag_del(mp);
103762306a36Sopenharmony_ci out_remove_error_sysfs:
103862306a36Sopenharmony_ci	xfs_error_sysfs_del(mp);
103962306a36Sopenharmony_ci out_remove_scrub_stats:
104062306a36Sopenharmony_ci	xchk_stats_unregister(mp->m_scrub_stats);
104162306a36Sopenharmony_ci	xfs_sysfs_del(&mp->m_stats.xs_kobj);
104262306a36Sopenharmony_ci out_remove_sysfs:
104362306a36Sopenharmony_ci	xfs_sysfs_del(&mp->m_kobj);
104462306a36Sopenharmony_ci out:
104562306a36Sopenharmony_ci	return error;
104662306a36Sopenharmony_ci}
104762306a36Sopenharmony_ci
104862306a36Sopenharmony_ci/*
104962306a36Sopenharmony_ci * This flushes out the inodes,dquots and the superblock, unmounts the
105062306a36Sopenharmony_ci * log and makes sure that incore structures are freed.
105162306a36Sopenharmony_ci */
105262306a36Sopenharmony_civoid
105362306a36Sopenharmony_cixfs_unmountfs(
105462306a36Sopenharmony_ci	struct xfs_mount	*mp)
105562306a36Sopenharmony_ci{
105662306a36Sopenharmony_ci	uint64_t		resblks;
105762306a36Sopenharmony_ci	int			error;
105862306a36Sopenharmony_ci
105962306a36Sopenharmony_ci	/*
106062306a36Sopenharmony_ci	 * Perform all on-disk metadata updates required to inactivate inodes
106162306a36Sopenharmony_ci	 * that the VFS evicted earlier in the unmount process.  Freeing inodes
106262306a36Sopenharmony_ci	 * and discarding CoW fork preallocations can cause shape changes to
106362306a36Sopenharmony_ci	 * the free inode and refcount btrees, respectively, so we must finish
106462306a36Sopenharmony_ci	 * this before we discard the metadata space reservations.  Metadata
106562306a36Sopenharmony_ci	 * inodes and the root directory do not require inactivation.
106662306a36Sopenharmony_ci	 */
106762306a36Sopenharmony_ci	xfs_inodegc_flush(mp);
106862306a36Sopenharmony_ci
106962306a36Sopenharmony_ci	xfs_blockgc_stop(mp);
107062306a36Sopenharmony_ci	xfs_fs_unreserve_ag_blocks(mp);
107162306a36Sopenharmony_ci	xfs_qm_unmount_quotas(mp);
107262306a36Sopenharmony_ci	xfs_rtunmount_inodes(mp);
107362306a36Sopenharmony_ci	xfs_irele(mp->m_rootip);
107462306a36Sopenharmony_ci
107562306a36Sopenharmony_ci	xfs_unmount_flush_inodes(mp);
107662306a36Sopenharmony_ci
107762306a36Sopenharmony_ci	xfs_qm_unmount(mp);
107862306a36Sopenharmony_ci
107962306a36Sopenharmony_ci	/*
108062306a36Sopenharmony_ci	 * Unreserve any blocks we have so that when we unmount we don't account
108162306a36Sopenharmony_ci	 * the reserved free space as used. This is really only necessary for
108262306a36Sopenharmony_ci	 * lazy superblock counting because it trusts the incore superblock
108362306a36Sopenharmony_ci	 * counters to be absolutely correct on clean unmount.
108462306a36Sopenharmony_ci	 *
108562306a36Sopenharmony_ci	 * We don't bother correcting this elsewhere for lazy superblock
108662306a36Sopenharmony_ci	 * counting because on mount of an unclean filesystem we reconstruct the
108762306a36Sopenharmony_ci	 * correct counter value and this is irrelevant.
108862306a36Sopenharmony_ci	 *
108962306a36Sopenharmony_ci	 * For non-lazy counter filesystems, this doesn't matter at all because
109062306a36Sopenharmony_ci	 * we only every apply deltas to the superblock and hence the incore
109162306a36Sopenharmony_ci	 * value does not matter....
109262306a36Sopenharmony_ci	 */
109362306a36Sopenharmony_ci	resblks = 0;
109462306a36Sopenharmony_ci	error = xfs_reserve_blocks(mp, &resblks, NULL);
109562306a36Sopenharmony_ci	if (error)
109662306a36Sopenharmony_ci		xfs_warn(mp, "Unable to free reserved block pool. "
109762306a36Sopenharmony_ci				"Freespace may not be correct on next mount.");
109862306a36Sopenharmony_ci	xfs_unmount_check(mp);
109962306a36Sopenharmony_ci
110062306a36Sopenharmony_ci	xfs_log_unmount(mp);
110162306a36Sopenharmony_ci	xfs_da_unmount(mp);
110262306a36Sopenharmony_ci	xfs_uuid_unmount(mp);
110362306a36Sopenharmony_ci
110462306a36Sopenharmony_ci#if defined(DEBUG)
110562306a36Sopenharmony_ci	xfs_errortag_clearall(mp);
110662306a36Sopenharmony_ci#endif
110762306a36Sopenharmony_ci	unregister_shrinker(&mp->m_inodegc_shrinker);
110862306a36Sopenharmony_ci	xfs_free_perag(mp);
110962306a36Sopenharmony_ci
111062306a36Sopenharmony_ci	xfs_errortag_del(mp);
111162306a36Sopenharmony_ci	xfs_error_sysfs_del(mp);
111262306a36Sopenharmony_ci	xchk_stats_unregister(mp->m_scrub_stats);
111362306a36Sopenharmony_ci	xfs_sysfs_del(&mp->m_stats.xs_kobj);
111462306a36Sopenharmony_ci	xfs_sysfs_del(&mp->m_kobj);
111562306a36Sopenharmony_ci}
111662306a36Sopenharmony_ci
111762306a36Sopenharmony_ci/*
111862306a36Sopenharmony_ci * Determine whether modifications can proceed. The caller specifies the minimum
111962306a36Sopenharmony_ci * freeze level for which modifications should not be allowed. This allows
112062306a36Sopenharmony_ci * certain operations to proceed while the freeze sequence is in progress, if
112162306a36Sopenharmony_ci * necessary.
112262306a36Sopenharmony_ci */
112362306a36Sopenharmony_cibool
112462306a36Sopenharmony_cixfs_fs_writable(
112562306a36Sopenharmony_ci	struct xfs_mount	*mp,
112662306a36Sopenharmony_ci	int			level)
112762306a36Sopenharmony_ci{
112862306a36Sopenharmony_ci	ASSERT(level > SB_UNFROZEN);
112962306a36Sopenharmony_ci	if ((mp->m_super->s_writers.frozen >= level) ||
113062306a36Sopenharmony_ci	    xfs_is_shutdown(mp) || xfs_is_readonly(mp))
113162306a36Sopenharmony_ci		return false;
113262306a36Sopenharmony_ci
113362306a36Sopenharmony_ci	return true;
113462306a36Sopenharmony_ci}
113562306a36Sopenharmony_ci
113662306a36Sopenharmony_ci/* Adjust m_fdblocks or m_frextents. */
113762306a36Sopenharmony_ciint
113862306a36Sopenharmony_cixfs_mod_freecounter(
113962306a36Sopenharmony_ci	struct xfs_mount	*mp,
114062306a36Sopenharmony_ci	struct percpu_counter	*counter,
114162306a36Sopenharmony_ci	int64_t			delta,
114262306a36Sopenharmony_ci	bool			rsvd)
114362306a36Sopenharmony_ci{
114462306a36Sopenharmony_ci	int64_t			lcounter;
114562306a36Sopenharmony_ci	long long		res_used;
114662306a36Sopenharmony_ci	uint64_t		set_aside = 0;
114762306a36Sopenharmony_ci	s32			batch;
114862306a36Sopenharmony_ci	bool			has_resv_pool;
114962306a36Sopenharmony_ci
115062306a36Sopenharmony_ci	ASSERT(counter == &mp->m_fdblocks || counter == &mp->m_frextents);
115162306a36Sopenharmony_ci	has_resv_pool = (counter == &mp->m_fdblocks);
115262306a36Sopenharmony_ci	if (rsvd)
115362306a36Sopenharmony_ci		ASSERT(has_resv_pool);
115462306a36Sopenharmony_ci
115562306a36Sopenharmony_ci	if (delta > 0) {
115662306a36Sopenharmony_ci		/*
115762306a36Sopenharmony_ci		 * If the reserve pool is depleted, put blocks back into it
115862306a36Sopenharmony_ci		 * first. Most of the time the pool is full.
115962306a36Sopenharmony_ci		 */
116062306a36Sopenharmony_ci		if (likely(!has_resv_pool ||
116162306a36Sopenharmony_ci			   mp->m_resblks == mp->m_resblks_avail)) {
116262306a36Sopenharmony_ci			percpu_counter_add(counter, delta);
116362306a36Sopenharmony_ci			return 0;
116462306a36Sopenharmony_ci		}
116562306a36Sopenharmony_ci
116662306a36Sopenharmony_ci		spin_lock(&mp->m_sb_lock);
116762306a36Sopenharmony_ci		res_used = (long long)(mp->m_resblks - mp->m_resblks_avail);
116862306a36Sopenharmony_ci
116962306a36Sopenharmony_ci		if (res_used > delta) {
117062306a36Sopenharmony_ci			mp->m_resblks_avail += delta;
117162306a36Sopenharmony_ci		} else {
117262306a36Sopenharmony_ci			delta -= res_used;
117362306a36Sopenharmony_ci			mp->m_resblks_avail = mp->m_resblks;
117462306a36Sopenharmony_ci			percpu_counter_add(counter, delta);
117562306a36Sopenharmony_ci		}
117662306a36Sopenharmony_ci		spin_unlock(&mp->m_sb_lock);
117762306a36Sopenharmony_ci		return 0;
117862306a36Sopenharmony_ci	}
117962306a36Sopenharmony_ci
118062306a36Sopenharmony_ci	/*
118162306a36Sopenharmony_ci	 * Taking blocks away, need to be more accurate the closer we
118262306a36Sopenharmony_ci	 * are to zero.
118362306a36Sopenharmony_ci	 *
118462306a36Sopenharmony_ci	 * If the counter has a value of less than 2 * max batch size,
118562306a36Sopenharmony_ci	 * then make everything serialise as we are real close to
118662306a36Sopenharmony_ci	 * ENOSPC.
118762306a36Sopenharmony_ci	 */
118862306a36Sopenharmony_ci	if (__percpu_counter_compare(counter, 2 * XFS_FDBLOCKS_BATCH,
118962306a36Sopenharmony_ci				     XFS_FDBLOCKS_BATCH) < 0)
119062306a36Sopenharmony_ci		batch = 1;
119162306a36Sopenharmony_ci	else
119262306a36Sopenharmony_ci		batch = XFS_FDBLOCKS_BATCH;
119362306a36Sopenharmony_ci
119462306a36Sopenharmony_ci	/*
119562306a36Sopenharmony_ci	 * Set aside allocbt blocks because these blocks are tracked as free
119662306a36Sopenharmony_ci	 * space but not available for allocation. Technically this means that a
119762306a36Sopenharmony_ci	 * single reservation cannot consume all remaining free space, but the
119862306a36Sopenharmony_ci	 * ratio of allocbt blocks to usable free blocks should be rather small.
119962306a36Sopenharmony_ci	 * The tradeoff without this is that filesystems that maintain high
120062306a36Sopenharmony_ci	 * perag block reservations can over reserve physical block availability
120162306a36Sopenharmony_ci	 * and fail physical allocation, which leads to much more serious
120262306a36Sopenharmony_ci	 * problems (i.e. transaction abort, pagecache discards, etc.) than
120362306a36Sopenharmony_ci	 * slightly premature -ENOSPC.
120462306a36Sopenharmony_ci	 */
120562306a36Sopenharmony_ci	if (has_resv_pool)
120662306a36Sopenharmony_ci		set_aside = xfs_fdblocks_unavailable(mp);
120762306a36Sopenharmony_ci	percpu_counter_add_batch(counter, delta, batch);
120862306a36Sopenharmony_ci	if (__percpu_counter_compare(counter, set_aside,
120962306a36Sopenharmony_ci				     XFS_FDBLOCKS_BATCH) >= 0) {
121062306a36Sopenharmony_ci		/* we had space! */
121162306a36Sopenharmony_ci		return 0;
121262306a36Sopenharmony_ci	}
121362306a36Sopenharmony_ci
121462306a36Sopenharmony_ci	/*
121562306a36Sopenharmony_ci	 * lock up the sb for dipping into reserves before releasing the space
121662306a36Sopenharmony_ci	 * that took us to ENOSPC.
121762306a36Sopenharmony_ci	 */
121862306a36Sopenharmony_ci	spin_lock(&mp->m_sb_lock);
121962306a36Sopenharmony_ci	percpu_counter_add(counter, -delta);
122062306a36Sopenharmony_ci	if (!has_resv_pool || !rsvd)
122162306a36Sopenharmony_ci		goto fdblocks_enospc;
122262306a36Sopenharmony_ci
122362306a36Sopenharmony_ci	lcounter = (long long)mp->m_resblks_avail + delta;
122462306a36Sopenharmony_ci	if (lcounter >= 0) {
122562306a36Sopenharmony_ci		mp->m_resblks_avail = lcounter;
122662306a36Sopenharmony_ci		spin_unlock(&mp->m_sb_lock);
122762306a36Sopenharmony_ci		return 0;
122862306a36Sopenharmony_ci	}
122962306a36Sopenharmony_ci	xfs_warn_once(mp,
123062306a36Sopenharmony_ci"Reserve blocks depleted! Consider increasing reserve pool size.");
123162306a36Sopenharmony_ci
123262306a36Sopenharmony_cifdblocks_enospc:
123362306a36Sopenharmony_ci	spin_unlock(&mp->m_sb_lock);
123462306a36Sopenharmony_ci	return -ENOSPC;
123562306a36Sopenharmony_ci}
123662306a36Sopenharmony_ci
123762306a36Sopenharmony_ci/*
123862306a36Sopenharmony_ci * Used to free the superblock along various error paths.
123962306a36Sopenharmony_ci */
124062306a36Sopenharmony_civoid
124162306a36Sopenharmony_cixfs_freesb(
124262306a36Sopenharmony_ci	struct xfs_mount	*mp)
124362306a36Sopenharmony_ci{
124462306a36Sopenharmony_ci	struct xfs_buf		*bp = mp->m_sb_bp;
124562306a36Sopenharmony_ci
124662306a36Sopenharmony_ci	xfs_buf_lock(bp);
124762306a36Sopenharmony_ci	mp->m_sb_bp = NULL;
124862306a36Sopenharmony_ci	xfs_buf_relse(bp);
124962306a36Sopenharmony_ci}
125062306a36Sopenharmony_ci
125162306a36Sopenharmony_ci/*
125262306a36Sopenharmony_ci * If the underlying (data/log/rt) device is readonly, there are some
125362306a36Sopenharmony_ci * operations that cannot proceed.
125462306a36Sopenharmony_ci */
125562306a36Sopenharmony_ciint
125662306a36Sopenharmony_cixfs_dev_is_read_only(
125762306a36Sopenharmony_ci	struct xfs_mount	*mp,
125862306a36Sopenharmony_ci	char			*message)
125962306a36Sopenharmony_ci{
126062306a36Sopenharmony_ci	if (xfs_readonly_buftarg(mp->m_ddev_targp) ||
126162306a36Sopenharmony_ci	    xfs_readonly_buftarg(mp->m_logdev_targp) ||
126262306a36Sopenharmony_ci	    (mp->m_rtdev_targp && xfs_readonly_buftarg(mp->m_rtdev_targp))) {
126362306a36Sopenharmony_ci		xfs_notice(mp, "%s required on read-only device.", message);
126462306a36Sopenharmony_ci		xfs_notice(mp, "write access unavailable, cannot proceed.");
126562306a36Sopenharmony_ci		return -EROFS;
126662306a36Sopenharmony_ci	}
126762306a36Sopenharmony_ci	return 0;
126862306a36Sopenharmony_ci}
126962306a36Sopenharmony_ci
127062306a36Sopenharmony_ci/* Force the summary counters to be recalculated at next mount. */
127162306a36Sopenharmony_civoid
127262306a36Sopenharmony_cixfs_force_summary_recalc(
127362306a36Sopenharmony_ci	struct xfs_mount	*mp)
127462306a36Sopenharmony_ci{
127562306a36Sopenharmony_ci	if (!xfs_has_lazysbcount(mp))
127662306a36Sopenharmony_ci		return;
127762306a36Sopenharmony_ci
127862306a36Sopenharmony_ci	xfs_fs_mark_sick(mp, XFS_SICK_FS_COUNTERS);
127962306a36Sopenharmony_ci}
128062306a36Sopenharmony_ci
128162306a36Sopenharmony_ci/*
128262306a36Sopenharmony_ci * Enable a log incompat feature flag in the primary superblock.  The caller
128362306a36Sopenharmony_ci * cannot have any other transactions in progress.
128462306a36Sopenharmony_ci */
128562306a36Sopenharmony_ciint
128662306a36Sopenharmony_cixfs_add_incompat_log_feature(
128762306a36Sopenharmony_ci	struct xfs_mount	*mp,
128862306a36Sopenharmony_ci	uint32_t		feature)
128962306a36Sopenharmony_ci{
129062306a36Sopenharmony_ci	struct xfs_dsb		*dsb;
129162306a36Sopenharmony_ci	int			error;
129262306a36Sopenharmony_ci
129362306a36Sopenharmony_ci	ASSERT(hweight32(feature) == 1);
129462306a36Sopenharmony_ci	ASSERT(!(feature & XFS_SB_FEAT_INCOMPAT_LOG_UNKNOWN));
129562306a36Sopenharmony_ci
129662306a36Sopenharmony_ci	/*
129762306a36Sopenharmony_ci	 * Force the log to disk and kick the background AIL thread to reduce
129862306a36Sopenharmony_ci	 * the chances that the bwrite will stall waiting for the AIL to unpin
129962306a36Sopenharmony_ci	 * the primary superblock buffer.  This isn't a data integrity
130062306a36Sopenharmony_ci	 * operation, so we don't need a synchronous push.
130162306a36Sopenharmony_ci	 */
130262306a36Sopenharmony_ci	error = xfs_log_force(mp, XFS_LOG_SYNC);
130362306a36Sopenharmony_ci	if (error)
130462306a36Sopenharmony_ci		return error;
130562306a36Sopenharmony_ci	xfs_ail_push_all(mp->m_ail);
130662306a36Sopenharmony_ci
130762306a36Sopenharmony_ci	/*
130862306a36Sopenharmony_ci	 * Lock the primary superblock buffer to serialize all callers that
130962306a36Sopenharmony_ci	 * are trying to set feature bits.
131062306a36Sopenharmony_ci	 */
131162306a36Sopenharmony_ci	xfs_buf_lock(mp->m_sb_bp);
131262306a36Sopenharmony_ci	xfs_buf_hold(mp->m_sb_bp);
131362306a36Sopenharmony_ci
131462306a36Sopenharmony_ci	if (xfs_is_shutdown(mp)) {
131562306a36Sopenharmony_ci		error = -EIO;
131662306a36Sopenharmony_ci		goto rele;
131762306a36Sopenharmony_ci	}
131862306a36Sopenharmony_ci
131962306a36Sopenharmony_ci	if (xfs_sb_has_incompat_log_feature(&mp->m_sb, feature))
132062306a36Sopenharmony_ci		goto rele;
132162306a36Sopenharmony_ci
132262306a36Sopenharmony_ci	/*
132362306a36Sopenharmony_ci	 * Write the primary superblock to disk immediately, because we need
132462306a36Sopenharmony_ci	 * the log_incompat bit to be set in the primary super now to protect
132562306a36Sopenharmony_ci	 * the log items that we're going to commit later.
132662306a36Sopenharmony_ci	 */
132762306a36Sopenharmony_ci	dsb = mp->m_sb_bp->b_addr;
132862306a36Sopenharmony_ci	xfs_sb_to_disk(dsb, &mp->m_sb);
132962306a36Sopenharmony_ci	dsb->sb_features_log_incompat |= cpu_to_be32(feature);
133062306a36Sopenharmony_ci	error = xfs_bwrite(mp->m_sb_bp);
133162306a36Sopenharmony_ci	if (error)
133262306a36Sopenharmony_ci		goto shutdown;
133362306a36Sopenharmony_ci
133462306a36Sopenharmony_ci	/*
133562306a36Sopenharmony_ci	 * Add the feature bits to the incore superblock before we unlock the
133662306a36Sopenharmony_ci	 * buffer.
133762306a36Sopenharmony_ci	 */
133862306a36Sopenharmony_ci	xfs_sb_add_incompat_log_features(&mp->m_sb, feature);
133962306a36Sopenharmony_ci	xfs_buf_relse(mp->m_sb_bp);
134062306a36Sopenharmony_ci
134162306a36Sopenharmony_ci	/* Log the superblock to disk. */
134262306a36Sopenharmony_ci	return xfs_sync_sb(mp, false);
134362306a36Sopenharmony_cishutdown:
134462306a36Sopenharmony_ci	xfs_force_shutdown(mp, SHUTDOWN_META_IO_ERROR);
134562306a36Sopenharmony_cirele:
134662306a36Sopenharmony_ci	xfs_buf_relse(mp->m_sb_bp);
134762306a36Sopenharmony_ci	return error;
134862306a36Sopenharmony_ci}
134962306a36Sopenharmony_ci
135062306a36Sopenharmony_ci/*
135162306a36Sopenharmony_ci * Clear all the log incompat flags from the superblock.
135262306a36Sopenharmony_ci *
135362306a36Sopenharmony_ci * The caller cannot be in a transaction, must ensure that the log does not
135462306a36Sopenharmony_ci * contain any log items protected by any log incompat bit, and must ensure
135562306a36Sopenharmony_ci * that there are no other threads that depend on the state of the log incompat
135662306a36Sopenharmony_ci * feature flags in the primary super.
135762306a36Sopenharmony_ci *
135862306a36Sopenharmony_ci * Returns true if the superblock is dirty.
135962306a36Sopenharmony_ci */
136062306a36Sopenharmony_cibool
136162306a36Sopenharmony_cixfs_clear_incompat_log_features(
136262306a36Sopenharmony_ci	struct xfs_mount	*mp)
136362306a36Sopenharmony_ci{
136462306a36Sopenharmony_ci	bool			ret = false;
136562306a36Sopenharmony_ci
136662306a36Sopenharmony_ci	if (!xfs_has_crc(mp) ||
136762306a36Sopenharmony_ci	    !xfs_sb_has_incompat_log_feature(&mp->m_sb,
136862306a36Sopenharmony_ci				XFS_SB_FEAT_INCOMPAT_LOG_ALL) ||
136962306a36Sopenharmony_ci	    xfs_is_shutdown(mp))
137062306a36Sopenharmony_ci		return false;
137162306a36Sopenharmony_ci
137262306a36Sopenharmony_ci	/*
137362306a36Sopenharmony_ci	 * Update the incore superblock.  We synchronize on the primary super
137462306a36Sopenharmony_ci	 * buffer lock to be consistent with the add function, though at least
137562306a36Sopenharmony_ci	 * in theory this shouldn't be necessary.
137662306a36Sopenharmony_ci	 */
137762306a36Sopenharmony_ci	xfs_buf_lock(mp->m_sb_bp);
137862306a36Sopenharmony_ci	xfs_buf_hold(mp->m_sb_bp);
137962306a36Sopenharmony_ci
138062306a36Sopenharmony_ci	if (xfs_sb_has_incompat_log_feature(&mp->m_sb,
138162306a36Sopenharmony_ci				XFS_SB_FEAT_INCOMPAT_LOG_ALL)) {
138262306a36Sopenharmony_ci		xfs_sb_remove_incompat_log_features(&mp->m_sb);
138362306a36Sopenharmony_ci		ret = true;
138462306a36Sopenharmony_ci	}
138562306a36Sopenharmony_ci
138662306a36Sopenharmony_ci	xfs_buf_relse(mp->m_sb_bp);
138762306a36Sopenharmony_ci	return ret;
138862306a36Sopenharmony_ci}
138962306a36Sopenharmony_ci
139062306a36Sopenharmony_ci/*
139162306a36Sopenharmony_ci * Update the in-core delayed block counter.
139262306a36Sopenharmony_ci *
139362306a36Sopenharmony_ci * We prefer to update the counter without having to take a spinlock for every
139462306a36Sopenharmony_ci * counter update (i.e. batching).  Each change to delayed allocation
139562306a36Sopenharmony_ci * reservations can change can easily exceed the default percpu counter
139662306a36Sopenharmony_ci * batching, so we use a larger batch factor here.
139762306a36Sopenharmony_ci *
139862306a36Sopenharmony_ci * Note that we don't currently have any callers requiring fast summation
139962306a36Sopenharmony_ci * (e.g. percpu_counter_read) so we can use a big batch value here.
140062306a36Sopenharmony_ci */
140162306a36Sopenharmony_ci#define XFS_DELALLOC_BATCH	(4096)
140262306a36Sopenharmony_civoid
140362306a36Sopenharmony_cixfs_mod_delalloc(
140462306a36Sopenharmony_ci	struct xfs_mount	*mp,
140562306a36Sopenharmony_ci	int64_t			delta)
140662306a36Sopenharmony_ci{
140762306a36Sopenharmony_ci	percpu_counter_add_batch(&mp->m_delalloc_blks, delta,
140862306a36Sopenharmony_ci			XFS_DELALLOC_BATCH);
140962306a36Sopenharmony_ci}
1410