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path: root/module/zfs/zfs_znode.c
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/*
 * CDDL HEADER START
 *
 * The contents of this file are subject to the terms of the
 * Common Development and Distribution License (the "License").
 * You may not use this file except in compliance with the License.
 *
 * You can obtain a copy of the license at usr/src/OPENSOLARIS.LICENSE
 * or http://www.opensolaris.org/os/licensing.
 * See the License for the specific language governing permissions
 * and limitations under the License.
 *
 * When distributing Covered Code, include this CDDL HEADER in each
 * file and include the License file at usr/src/OPENSOLARIS.LICENSE.
 * If applicable, add the following below this CDDL HEADER, with the
 * fields enclosed by brackets "[]" replaced with your own identifying
 * information: Portions Copyright [yyyy] [name of copyright owner]
 *
 * CDDL HEADER END
 */
/*
 * Copyright (c) 2005, 2010, Oracle and/or its affiliates. All rights reserved.
 * Copyright (c) 2012 by Delphix. All rights reserved.
 */

/* Portions Copyright 2007 Jeremy Teo */

#ifdef _KERNEL
#include <sys/types.h>
#include <sys/param.h>
#include <sys/time.h>
#include <sys/systm.h>
#include <sys/sysmacros.h>
#include <sys/resource.h>
#include <sys/mntent.h>
#include <sys/mkdev.h>
#include <sys/u8_textprep.h>
#include <sys/dsl_dataset.h>
#include <sys/vfs.h>
#include <sys/vfs_opreg.h>
#include <sys/vnode.h>
#include <sys/file.h>
#include <sys/kmem.h>
#include <sys/errno.h>
#include <sys/unistd.h>
#include <sys/mode.h>
#include <sys/atomic.h>
#include <vm/pvn.h>
#include "fs/fs_subr.h"
#include <sys/zfs_dir.h>
#include <sys/zfs_acl.h>
#include <sys/zfs_ioctl.h>
#include <sys/zfs_rlock.h>
#include <sys/zfs_fuid.h>
#include <sys/zfs_vnops.h>
#include <sys/zfs_ctldir.h>
#include <sys/dnode.h>
#include <sys/fs/zfs.h>
#include <sys/kidmap.h>
#include <sys/zpl.h>
#endif /* _KERNEL */

#include <sys/dmu.h>
#include <sys/refcount.h>
#include <sys/stat.h>
#include <sys/zap.h>
#include <sys/zfs_znode.h>
#include <sys/sa.h>
#include <sys/zfs_sa.h>
#include <sys/zfs_stat.h>

#include "zfs_prop.h"
#include "zfs_comutil.h"

/*
 * Define ZNODE_STATS to turn on statistic gathering. By default, it is only
 * turned on when DEBUG is also defined.
 */
#ifdef	DEBUG
#define	ZNODE_STATS
#endif	/* DEBUG */

#ifdef	ZNODE_STATS
#define	ZNODE_STAT_ADD(stat)			((stat)++)
#else
#define	ZNODE_STAT_ADD(stat)			/* nothing */
#endif	/* ZNODE_STATS */

/*
 * Functions needed for userland (ie: libzpool) are not put under
 * #ifdef_KERNEL; the rest of the functions have dependencies
 * (such as VFS logic) that will not compile easily in userland.
 */
#ifdef _KERNEL

static kmem_cache_t *znode_cache = NULL;

/*ARGSUSED*/
static int
zfs_znode_cache_constructor(void *buf, void *arg, int kmflags)
{
	znode_t *zp = buf;

	inode_init_once(ZTOI(zp));
	list_link_init(&zp->z_link_node);

	mutex_init(&zp->z_lock, NULL, MUTEX_DEFAULT, NULL);
	rw_init(&zp->z_parent_lock, NULL, RW_DEFAULT, NULL);
	rw_init(&zp->z_name_lock, NULL, RW_DEFAULT, NULL);
	mutex_init(&zp->z_acl_lock, NULL, MUTEX_DEFAULT, NULL);
	rw_init(&zp->z_xattr_lock, NULL, RW_DEFAULT, NULL);

	mutex_init(&zp->z_range_lock, NULL, MUTEX_DEFAULT, NULL);
	avl_create(&zp->z_range_avl, zfs_range_compare,
	    sizeof (rl_t), offsetof(rl_t, r_node));

	zp->z_dirlocks = NULL;
	zp->z_acl_cached = NULL;
	zp->z_xattr_cached = NULL;
	zp->z_xattr_parent = NULL;
	zp->z_moved = 0;
	return (0);
}

/*ARGSUSED*/
static void
zfs_znode_cache_destructor(void *buf, void *arg)
{
	znode_t *zp = buf;

	ASSERT(!list_link_active(&zp->z_link_node));
	mutex_destroy(&zp->z_lock);
	rw_destroy(&zp->z_parent_lock);
	rw_destroy(&zp->z_name_lock);
	mutex_destroy(&zp->z_acl_lock);
	rw_destroy(&zp->z_xattr_lock);
	avl_destroy(&zp->z_range_avl);
	mutex_destroy(&zp->z_range_lock);

	ASSERT(zp->z_dirlocks == NULL);
	ASSERT(zp->z_acl_cached == NULL);
	ASSERT(zp->z_xattr_cached == NULL);
	ASSERT(zp->z_xattr_parent == NULL);
}

void
zfs_znode_init(void)
{
	/*
	 * Initialize zcache
	 */
	ASSERT(znode_cache == NULL);
	znode_cache = kmem_cache_create("zfs_znode_cache",
	    sizeof (znode_t), 0, zfs_znode_cache_constructor,
	    zfs_znode_cache_destructor, NULL, NULL, NULL, KMC_KMEM);
}

void
zfs_znode_fini(void)
{
	/*
	 * Cleanup zcache
	 */
	if (znode_cache)
		kmem_cache_destroy(znode_cache);
	znode_cache = NULL;
}

int
zfs_create_share_dir(zfs_sb_t *zsb, dmu_tx_t *tx)
{
#ifdef HAVE_SMB_SHARE
	zfs_acl_ids_t acl_ids;
	vattr_t vattr;
	znode_t *sharezp;
	vnode_t *vp;
	znode_t *zp;
	int error;

	vattr.va_mask = AT_MODE|AT_UID|AT_GID|AT_TYPE;
	vattr.va_mode = S_IFDIR | 0555;
	vattr.va_uid = crgetuid(kcred);
	vattr.va_gid = crgetgid(kcred);

	sharezp = kmem_cache_alloc(znode_cache, KM_PUSHPAGE);
	sharezp->z_moved = 0;
	sharezp->z_unlinked = 0;
	sharezp->z_atime_dirty = 0;
	sharezp->z_zfsvfs = zfsvfs;
	sharezp->z_is_sa = zfsvfs->z_use_sa;

	vp = ZTOV(sharezp);
	vn_reinit(vp);
	vp->v_type = VDIR;

	VERIFY(0 == zfs_acl_ids_create(sharezp, IS_ROOT_NODE, &vattr,
	    kcred, NULL, &acl_ids));
	zfs_mknode(sharezp, &vattr, tx, kcred, IS_ROOT_NODE, &zp, &acl_ids);
	ASSERT3P(zp, ==, sharezp);
	ASSERT(!vn_in_dnlc(ZTOV(sharezp))); /* not valid to move */
	POINTER_INVALIDATE(&sharezp->z_zfsvfs);
	error = zap_add(zfsvfs->z_os, MASTER_NODE_OBJ,
	    ZFS_SHARES_DIR, 8, 1, &sharezp->z_id, tx);
	zfsvfs->z_shares_dir = sharezp->z_id;

	zfs_acl_ids_free(&acl_ids);
	// ZTOV(sharezp)->v_count = 0;
	sa_handle_destroy(sharezp->z_sa_hdl);
	kmem_cache_free(znode_cache, sharezp);

	return (error);
#else
	return (0);
#endif /* HAVE_SMB_SHARE */
}

static void
zfs_znode_sa_init(zfs_sb_t *zsb, znode_t *zp,
    dmu_buf_t *db, dmu_object_type_t obj_type, sa_handle_t *sa_hdl)
{
	ASSERT(MUTEX_HELD(ZFS_OBJ_MUTEX(zsb, zp->z_id)));

	mutex_enter(&zp->z_lock);

	ASSERT(zp->z_sa_hdl == NULL);
	ASSERT(zp->z_acl_cached == NULL);
	if (sa_hdl == NULL) {
		VERIFY(0 == sa_handle_get_from_db(zsb->z_os, db, zp,
		    SA_HDL_SHARED, &zp->z_sa_hdl));
	} else {
		zp->z_sa_hdl = sa_hdl;
		sa_set_userp(sa_hdl, zp);
	}

	zp->z_is_sa = (obj_type == DMU_OT_SA) ? B_TRUE : B_FALSE;

	mutex_exit(&zp->z_lock);
}

void
zfs_znode_dmu_fini(znode_t *zp)
{
	ASSERT(MUTEX_HELD(ZFS_OBJ_MUTEX(ZTOZSB(zp), zp->z_id)) ||
	    zp->z_unlinked ||
	    RW_WRITE_HELD(&ZTOZSB(zp)->z_teardown_inactive_lock));

	sa_handle_destroy(zp->z_sa_hdl);
	zp->z_sa_hdl = NULL;
}

/*
 * Called by new_inode() to allocate a new inode.
 */
int
zfs_inode_alloc(struct super_block *sb, struct inode **ip)
{
	znode_t *zp;

	zp = kmem_cache_alloc(znode_cache, KM_PUSHPAGE);
	*ip = ZTOI(zp);

	return (0);
}

/*
 * Called in multiple places when an inode should be destroyed.
 */
void
zfs_inode_destroy(struct inode *ip)
{
	znode_t *zp = ITOZ(ip);
	zfs_sb_t *zsb = ZTOZSB(zp);

	if (zfsctl_is_node(ip))
		zfsctl_inode_destroy(ip);

	mutex_enter(&zsb->z_znodes_lock);
	if (list_link_active(&zp->z_link_node)) {
		list_remove(&zsb->z_all_znodes, zp);
		zsb->z_nr_znodes--;
	}
	mutex_exit(&zsb->z_znodes_lock);

	if (zp->z_acl_cached) {
		zfs_acl_free(zp->z_acl_cached);
		zp->z_acl_cached = NULL;
	}

	if (zp->z_xattr_cached) {
		nvlist_free(zp->z_xattr_cached);
		zp->z_xattr_cached = NULL;
	}

	if (zp->z_xattr_parent) {
		iput(ZTOI(zp->z_xattr_parent));
		zp->z_xattr_parent = NULL;
	}

	kmem_cache_free(znode_cache, zp);
}

static void
zfs_inode_set_ops(zfs_sb_t *zsb, struct inode *ip)
{
	uint64_t rdev = 0;

	switch (ip->i_mode & S_IFMT) {
	case S_IFREG:
		ip->i_op = &zpl_inode_operations;
		ip->i_fop = &zpl_file_operations;
		ip->i_mapping->a_ops = &zpl_address_space_operations;
		break;

	case S_IFDIR:
		ip->i_op = &zpl_dir_inode_operations;
		ip->i_fop = &zpl_dir_file_operations;
		ITOZ(ip)->z_zn_prefetch = B_TRUE;
		break;

	case S_IFLNK:
		ip->i_op = &zpl_symlink_inode_operations;
		break;

	/*
	 * rdev is only stored in a SA only for device files.
	 */
	case S_IFCHR:
	case S_IFBLK:
		VERIFY(sa_lookup(ITOZ(ip)->z_sa_hdl, SA_ZPL_RDEV(zsb),
		    &rdev, sizeof (rdev)) == 0);
		/*FALLTHROUGH*/
	case S_IFIFO:
	case S_IFSOCK:
		init_special_inode(ip, ip->i_mode, rdev);
		ip->i_op = &zpl_special_inode_operations;
		break;

	default:
		printk("ZFS: Invalid mode: 0x%x\n", ip->i_mode);
		VERIFY(0);
	}
}

/*
 * Construct a znode+inode and initialize.
 *
 * This does not do a call to dmu_set_user() that is
 * up to the caller to do, in case you don't want to
 * return the znode
 */
static znode_t *
zfs_znode_alloc(zfs_sb_t *zsb, dmu_buf_t *db, int blksz,
    dmu_object_type_t obj_type, uint64_t obj, sa_handle_t *hdl,
    struct inode *dip)
{
	znode_t	*zp;
	struct inode *ip;
	uint64_t parent;
	sa_bulk_attr_t bulk[9];
	int count = 0;

	ASSERT(zsb != NULL);

	ip = new_inode(zsb->z_sb);
	if (ip == NULL)
		return (NULL);

	zp = ITOZ(ip);
	ASSERT(zp->z_dirlocks == NULL);
	ASSERT3P(zp->z_acl_cached, ==, NULL);
	ASSERT3P(zp->z_xattr_cached, ==, NULL);
	ASSERT3P(zp->z_xattr_parent, ==, NULL);
	zp->z_moved = 0;
	zp->z_sa_hdl = NULL;
	zp->z_unlinked = 0;
	zp->z_atime_dirty = 0;
	zp->z_mapcnt = 0;
	zp->z_id = db->db_object;
	zp->z_blksz = blksz;
	zp->z_seq = 0x7A4653;
	zp->z_sync_cnt = 0;
	zp->z_is_zvol = B_FALSE;
	zp->z_is_mapped = B_FALSE;
	zp->z_is_ctldir = B_FALSE;
	zp->z_is_stale = B_FALSE;

	zfs_znode_sa_init(zsb, zp, db, obj_type, hdl);

	SA_ADD_BULK_ATTR(bulk, count, SA_ZPL_MODE(zsb), NULL, &zp->z_mode, 8);
	SA_ADD_BULK_ATTR(bulk, count, SA_ZPL_GEN(zsb), NULL, &zp->z_gen, 8);
	SA_ADD_BULK_ATTR(bulk, count, SA_ZPL_SIZE(zsb), NULL, &zp->z_size, 8);
	SA_ADD_BULK_ATTR(bulk, count, SA_ZPL_LINKS(zsb), NULL, &zp->z_links, 8);
	SA_ADD_BULK_ATTR(bulk, count, SA_ZPL_FLAGS(zsb), NULL,
	    &zp->z_pflags, 8);
	SA_ADD_BULK_ATTR(bulk, count, SA_ZPL_PARENT(zsb), NULL,
	    &parent, 8);
	SA_ADD_BULK_ATTR(bulk, count, SA_ZPL_ATIME(zsb), NULL,
	    &zp->z_atime, 16);
	SA_ADD_BULK_ATTR(bulk, count, SA_ZPL_UID(zsb), NULL, &zp->z_uid, 8);
	SA_ADD_BULK_ATTR(bulk, count, SA_ZPL_GID(zsb), NULL, &zp->z_gid, 8);

	if (sa_bulk_lookup(zp->z_sa_hdl, bulk, count) != 0 || zp->z_gen == 0) {
		if (hdl == NULL)
			sa_handle_destroy(zp->z_sa_hdl);

		goto error;
	}

	/*
	 * xattr znodes hold a reference on their unique parent
	 */
	if (dip && zp->z_pflags & ZFS_XATTR) {
		igrab(dip);
		zp->z_xattr_parent = ITOZ(dip);
	}

	ip->i_ino = obj;
	zfs_inode_update(zp);
	zfs_inode_set_ops(zsb, ip);

	/*
	 * The only way insert_inode_locked() can fail is if the ip->i_ino
	 * number is already hashed for this super block.  This can never
	 * happen because the inode numbers map 1:1 with the object numbers.
	 *
	 * The one exception is rolling back a mounted file system, but in
	 * this case all the active inode are unhashed during the rollback.
	 */
	VERIFY3S(insert_inode_locked(ip), ==, 0);

	mutex_enter(&zsb->z_znodes_lock);
	list_insert_tail(&zsb->z_all_znodes, zp);
	zsb->z_nr_znodes++;
	membar_producer();
	mutex_exit(&zsb->z_znodes_lock);

	unlock_new_inode(ip);
	return (zp);

error:
	unlock_new_inode(ip);
	iput(ip);
	return NULL;
}

/*
 * Update the embedded inode given the znode.  We should work toward
 * eliminating this function as soon as possible by removing values
 * which are duplicated between the znode and inode.  If the generic
 * inode has the correct field it should be used, and the ZFS code
 * updated to access the inode.  This can be done incrementally.
 */
void
zfs_inode_update(znode_t *zp)
{
	zfs_sb_t	*zsb;
	struct inode	*ip;
	uint32_t	blksize;
	uint64_t	atime[2], mtime[2], ctime[2];

	ASSERT(zp != NULL);
	zsb = ZTOZSB(zp);
	ip = ZTOI(zp);

	/* Skip .zfs control nodes which do not exist on disk. */
	if (zfsctl_is_node(ip))
		return;

	sa_lookup(zp->z_sa_hdl, SA_ZPL_ATIME(zsb), &atime, 16);
	sa_lookup(zp->z_sa_hdl, SA_ZPL_MTIME(zsb), &mtime, 16);
	sa_lookup(zp->z_sa_hdl, SA_ZPL_CTIME(zsb), &ctime, 16);

	spin_lock(&ip->i_lock);
	ip->i_generation = zp->z_gen;
	ip->i_uid = SUID_TO_KUID(zp->z_uid);
	ip->i_gid = SGID_TO_KGID(zp->z_gid);
	set_nlink(ip, zp->z_links);
	ip->i_mode = zp->z_mode;
	ip->i_blkbits = SPA_MINBLOCKSHIFT;
	dmu_object_size_from_db(sa_get_db(zp->z_sa_hdl), &blksize,
	    (u_longlong_t *)&ip->i_blocks);

	ZFS_TIME_DECODE(&ip->i_atime, atime);
	ZFS_TIME_DECODE(&ip->i_mtime, mtime);
	ZFS_TIME_DECODE(&ip->i_ctime, ctime);

	i_size_write(ip, zp->z_size);
	spin_unlock(&ip->i_lock);
}

static uint64_t empty_xattr;
static uint64_t pad[4];
static zfs_acl_phys_t acl_phys;
/*
 * Create a new DMU object to hold a zfs znode.
 *
 *	IN:	dzp	- parent directory for new znode
 *		vap	- file attributes for new znode
 *		tx	- dmu transaction id for zap operations
 *		cr	- credentials of caller
 *		flag	- flags:
 *			  IS_ROOT_NODE	- new object will be root
 *			  IS_XATTR	- new object is an attribute
 *		bonuslen - length of bonus buffer
 *		setaclp  - File/Dir initial ACL
 *		fuidp	 - Tracks fuid allocation.
 *
 *	OUT:	zpp	- allocated znode
 *
 */
void
zfs_mknode(znode_t *dzp, vattr_t *vap, dmu_tx_t *tx, cred_t *cr,
    uint_t flag, znode_t **zpp, zfs_acl_ids_t *acl_ids)
{
	uint64_t	crtime[2], atime[2], mtime[2], ctime[2];
	uint64_t	mode, size, links, parent, pflags;
	uint64_t	dzp_pflags = 0;
	uint64_t	rdev = 0;
	zfs_sb_t	*zsb = ZTOZSB(dzp);
	dmu_buf_t	*db;
	timestruc_t	now;
	uint64_t	gen, obj;
	int		err;
	int		bonuslen;
	sa_handle_t	*sa_hdl;
	dmu_object_type_t obj_type;
	sa_bulk_attr_t	*sa_attrs;
	int		cnt = 0;
	zfs_acl_locator_cb_t locate = { 0 };

	if (zsb->z_replay) {
		obj = vap->va_nodeid;
		now = vap->va_ctime;		/* see zfs_replay_create() */
		gen = vap->va_nblocks;		/* ditto */
	} else {
		obj = 0;
		gethrestime(&now);
		gen = dmu_tx_get_txg(tx);
	}

	obj_type = zsb->z_use_sa ? DMU_OT_SA : DMU_OT_ZNODE;
	bonuslen = (obj_type == DMU_OT_SA) ?
	    DN_MAX_BONUSLEN : ZFS_OLD_ZNODE_PHYS_SIZE;

	/*
	 * Create a new DMU object.
	 */
	/*
	 * There's currently no mechanism for pre-reading the blocks that will
	 * be needed to allocate a new object, so we accept the small chance
	 * that there will be an i/o error and we will fail one of the
	 * assertions below.
	 */
	if (S_ISDIR(vap->va_mode)) {
		if (zsb->z_replay) {
			err = zap_create_claim_norm(zsb->z_os, obj,
			    zsb->z_norm, DMU_OT_DIRECTORY_CONTENTS,
			    obj_type, bonuslen, tx);
			ASSERT0(err);
		} else {
			obj = zap_create_norm(zsb->z_os,
			    zsb->z_norm, DMU_OT_DIRECTORY_CONTENTS,
			    obj_type, bonuslen, tx);
		}
	} else {
		if (zsb->z_replay) {
			err = dmu_object_claim(zsb->z_os, obj,
			    DMU_OT_PLAIN_FILE_CONTENTS, 0,
			    obj_type, bonuslen, tx);
			ASSERT0(err);
		} else {
			obj = dmu_object_alloc(zsb->z_os,
			    DMU_OT_PLAIN_FILE_CONTENTS, 0,
			    obj_type, bonuslen, tx);
		}
	}

	ZFS_OBJ_HOLD_ENTER(zsb, obj);
	VERIFY(0 == sa_buf_hold(zsb->z_os, obj, NULL, &db));

	/*
	 * If this is the root, fix up the half-initialized parent pointer
	 * to reference the just-allocated physical data area.
	 */
	if (flag & IS_ROOT_NODE) {
		dzp->z_id = obj;
	} else {
		dzp_pflags = dzp->z_pflags;
	}

	/*
	 * If parent is an xattr, so am I.
	 */
	if (dzp_pflags & ZFS_XATTR) {
		flag |= IS_XATTR;
	}

	if (zsb->z_use_fuids)
		pflags = ZFS_ARCHIVE | ZFS_AV_MODIFIED;
	else
		pflags = 0;

	if (S_ISDIR(vap->va_mode)) {
		size = 2;		/* contents ("." and "..") */
		links = (flag & (IS_ROOT_NODE | IS_XATTR)) ? 2 : 1;
	} else {
		size = links = 0;
	}

	if (S_ISBLK(vap->va_mode) || S_ISCHR(vap->va_mode))
		rdev = vap->va_rdev;

	parent = dzp->z_id;
	mode = acl_ids->z_mode;
	if (flag & IS_XATTR)
		pflags |= ZFS_XATTR;

	/*
	 * No execs denied will be deterimed when zfs_mode_compute() is called.
	 */
	pflags |= acl_ids->z_aclp->z_hints &
	    (ZFS_ACL_TRIVIAL|ZFS_INHERIT_ACE|ZFS_ACL_AUTO_INHERIT|
	    ZFS_ACL_DEFAULTED|ZFS_ACL_PROTECTED);

	ZFS_TIME_ENCODE(&now, crtime);
	ZFS_TIME_ENCODE(&now, ctime);

	if (vap->va_mask & ATTR_ATIME) {
		ZFS_TIME_ENCODE(&vap->va_atime, atime);
	} else {
		ZFS_TIME_ENCODE(&now, atime);
	}

	if (vap->va_mask & ATTR_MTIME) {
		ZFS_TIME_ENCODE(&vap->va_mtime, mtime);
	} else {
		ZFS_TIME_ENCODE(&now, mtime);
	}

	/* Now add in all of the "SA" attributes */
	VERIFY(0 == sa_handle_get_from_db(zsb->z_os, db, NULL, SA_HDL_SHARED,
	    &sa_hdl));

	/*
	 * Setup the array of attributes to be replaced/set on the new file
	 *
	 * order for  DMU_OT_ZNODE is critical since it needs to be constructed
	 * in the old znode_phys_t format.  Don't change this ordering
	 */
	sa_attrs = kmem_alloc(sizeof(sa_bulk_attr_t) * ZPL_END, KM_PUSHPAGE);

	if (obj_type == DMU_OT_ZNODE) {
		SA_ADD_BULK_ATTR(sa_attrs, cnt, SA_ZPL_ATIME(zsb),
		    NULL, &atime, 16);
		SA_ADD_BULK_ATTR(sa_attrs, cnt, SA_ZPL_MTIME(zsb),
		    NULL, &mtime, 16);
		SA_ADD_BULK_ATTR(sa_attrs, cnt, SA_ZPL_CTIME(zsb),
		    NULL, &ctime, 16);
		SA_ADD_BULK_ATTR(sa_attrs, cnt, SA_ZPL_CRTIME(zsb),
		    NULL, &crtime, 16);
		SA_ADD_BULK_ATTR(sa_attrs, cnt, SA_ZPL_GEN(zsb),
		    NULL, &gen, 8);
		SA_ADD_BULK_ATTR(sa_attrs, cnt, SA_ZPL_MODE(zsb),
		    NULL, &mode, 8);
		SA_ADD_BULK_ATTR(sa_attrs, cnt, SA_ZPL_SIZE(zsb),
		    NULL, &size, 8);
		SA_ADD_BULK_ATTR(sa_attrs, cnt, SA_ZPL_PARENT(zsb),
		    NULL, &parent, 8);
	} else {
		SA_ADD_BULK_ATTR(sa_attrs, cnt, SA_ZPL_MODE(zsb),
		    NULL, &mode, 8);
		SA_ADD_BULK_ATTR(sa_attrs, cnt, SA_ZPL_SIZE(zsb),
		    NULL, &size, 8);
		SA_ADD_BULK_ATTR(sa_attrs, cnt, SA_ZPL_GEN(zsb),
		    NULL, &gen, 8);
		SA_ADD_BULK_ATTR(sa_attrs, cnt, SA_ZPL_UID(zsb),
		    NULL, &acl_ids->z_fuid, 8);
		SA_ADD_BULK_ATTR(sa_attrs, cnt, SA_ZPL_GID(zsb),
		    NULL, &acl_ids->z_fgid, 8);
		SA_ADD_BULK_ATTR(sa_attrs, cnt, SA_ZPL_PARENT(zsb),
		    NULL, &parent, 8);
		SA_ADD_BULK_ATTR(sa_attrs, cnt, SA_ZPL_FLAGS(zsb),
		    NULL, &pflags, 8);
		SA_ADD_BULK_ATTR(sa_attrs, cnt, SA_ZPL_ATIME(zsb),
		    NULL, &atime, 16);
		SA_ADD_BULK_ATTR(sa_attrs, cnt, SA_ZPL_MTIME(zsb),
		    NULL, &mtime, 16);
		SA_ADD_BULK_ATTR(sa_attrs, cnt, SA_ZPL_CTIME(zsb),
		    NULL, &ctime, 16);
		SA_ADD_BULK_ATTR(sa_attrs, cnt, SA_ZPL_CRTIME(zsb),
		    NULL, &crtime, 16);
	}

	SA_ADD_BULK_ATTR(sa_attrs, cnt, SA_ZPL_LINKS(zsb), NULL, &links, 8);

	if (obj_type == DMU_OT_ZNODE) {
		SA_ADD_BULK_ATTR(sa_attrs, cnt, SA_ZPL_XATTR(zsb), NULL,
		    &empty_xattr, 8);
	}
	if (obj_type == DMU_OT_ZNODE ||
	    (S_ISBLK(vap->va_mode) || S_ISCHR(vap->va_mode))) {
		SA_ADD_BULK_ATTR(sa_attrs, cnt, SA_ZPL_RDEV(zsb),
		    NULL, &rdev, 8);
	}
	if (obj_type == DMU_OT_ZNODE) {
		SA_ADD_BULK_ATTR(sa_attrs, cnt, SA_ZPL_FLAGS(zsb),
		    NULL, &pflags, 8);
		SA_ADD_BULK_ATTR(sa_attrs, cnt, SA_ZPL_UID(zsb), NULL,
		    &acl_ids->z_fuid, 8);
		SA_ADD_BULK_ATTR(sa_attrs, cnt, SA_ZPL_GID(zsb), NULL,
		    &acl_ids->z_fgid, 8);
		SA_ADD_BULK_ATTR(sa_attrs, cnt, SA_ZPL_PAD(zsb), NULL, pad,
		    sizeof (uint64_t) * 4);
		SA_ADD_BULK_ATTR(sa_attrs, cnt, SA_ZPL_ZNODE_ACL(zsb), NULL,
		    &acl_phys, sizeof (zfs_acl_phys_t));
	} else if (acl_ids->z_aclp->z_version >= ZFS_ACL_VERSION_FUID) {
		SA_ADD_BULK_ATTR(sa_attrs, cnt, SA_ZPL_DACL_COUNT(zsb), NULL,
		    &acl_ids->z_aclp->z_acl_count, 8);
		locate.cb_aclp = acl_ids->z_aclp;
		SA_ADD_BULK_ATTR(sa_attrs, cnt, SA_ZPL_DACL_ACES(zsb),
		    zfs_acl_data_locator, &locate,
		    acl_ids->z_aclp->z_acl_bytes);
		mode = zfs_mode_compute(mode, acl_ids->z_aclp, &pflags,
		    acl_ids->z_fuid, acl_ids->z_fgid);
	}

	VERIFY(sa_replace_all_by_template(sa_hdl, sa_attrs, cnt, tx) == 0);

	if (!(flag & IS_ROOT_NODE)) {
		*zpp = zfs_znode_alloc(zsb, db, 0, obj_type, obj, sa_hdl,
		    ZTOI(dzp));
		VERIFY(*zpp != NULL);
		VERIFY(dzp != NULL);
	} else {
		/*
		 * If we are creating the root node, the "parent" we
		 * passed in is the znode for the root.
		 */
		*zpp = dzp;

		(*zpp)->z_sa_hdl = sa_hdl;
	}

	(*zpp)->z_pflags = pflags;
	(*zpp)->z_mode = mode;

	if (obj_type == DMU_OT_ZNODE ||
	    acl_ids->z_aclp->z_version < ZFS_ACL_VERSION_FUID) {
		err = zfs_aclset_common(*zpp, acl_ids->z_aclp, cr, tx);
		ASSERT0(err);
	}
	kmem_free(sa_attrs, sizeof(sa_bulk_attr_t) * ZPL_END);
	ZFS_OBJ_HOLD_EXIT(zsb, obj);
}

/*
 * zfs_xvattr_set only updates the in-core attributes
 * it is assumed the caller will be doing an sa_bulk_update
 * to push the changes out
 */
void
zfs_xvattr_set(znode_t *zp, xvattr_t *xvap, dmu_tx_t *tx)
{
	xoptattr_t *xoap;

	xoap = xva_getxoptattr(xvap);
	ASSERT(xoap);

	if (XVA_ISSET_REQ(xvap, XAT_CREATETIME)) {
		uint64_t times[2];
		ZFS_TIME_ENCODE(&xoap->xoa_createtime, times);
		(void) sa_update(zp->z_sa_hdl, SA_ZPL_CRTIME(ZTOZSB(zp)),
		    &times, sizeof (times), tx);
		XVA_SET_RTN(xvap, XAT_CREATETIME);
	}
	if (XVA_ISSET_REQ(xvap, XAT_READONLY)) {
		ZFS_ATTR_SET(zp, ZFS_READONLY, xoap->xoa_readonly,
		    zp->z_pflags, tx);
		XVA_SET_RTN(xvap, XAT_READONLY);
	}
	if (XVA_ISSET_REQ(xvap, XAT_HIDDEN)) {
		ZFS_ATTR_SET(zp, ZFS_HIDDEN, xoap->xoa_hidden,
		    zp->z_pflags, tx);
		XVA_SET_RTN(xvap, XAT_HIDDEN);
	}
	if (XVA_ISSET_REQ(xvap, XAT_SYSTEM)) {
		ZFS_ATTR_SET(zp, ZFS_SYSTEM, xoap->xoa_system,
		    zp->z_pflags, tx);
		XVA_SET_RTN(xvap, XAT_SYSTEM);
	}
	if (XVA_ISSET_REQ(xvap, XAT_ARCHIVE)) {
		ZFS_ATTR_SET(zp, ZFS_ARCHIVE, xoap->xoa_archive,
		    zp->z_pflags, tx);
		XVA_SET_RTN(xvap, XAT_ARCHIVE);
	}
	if (XVA_ISSET_REQ(xvap, XAT_IMMUTABLE)) {
		ZFS_ATTR_SET(zp, ZFS_IMMUTABLE, xoap->xoa_immutable,
		    zp->z_pflags, tx);
		XVA_SET_RTN(xvap, XAT_IMMUTABLE);
	}
	if (XVA_ISSET_REQ(xvap, XAT_NOUNLINK)) {
		ZFS_ATTR_SET(zp, ZFS_NOUNLINK, xoap->xoa_nounlink,
		    zp->z_pflags, tx);
		XVA_SET_RTN(xvap, XAT_NOUNLINK);
	}
	if (XVA_ISSET_REQ(xvap, XAT_APPENDONLY)) {
		ZFS_ATTR_SET(zp, ZFS_APPENDONLY, xoap->xoa_appendonly,
		    zp->z_pflags, tx);
		XVA_SET_RTN(xvap, XAT_APPENDONLY);
	}
	if (XVA_ISSET_REQ(xvap, XAT_NODUMP)) {
		ZFS_ATTR_SET(zp, ZFS_NODUMP, xoap->xoa_nodump,
		    zp->z_pflags, tx);
		XVA_SET_RTN(xvap, XAT_NODUMP);
	}
	if (XVA_ISSET_REQ(xvap, XAT_OPAQUE)) {
		ZFS_ATTR_SET(zp, ZFS_OPAQUE, xoap->xoa_opaque,
		    zp->z_pflags, tx);
		XVA_SET_RTN(xvap, XAT_OPAQUE);
	}
	if (XVA_ISSET_REQ(xvap, XAT_AV_QUARANTINED)) {
		ZFS_ATTR_SET(zp, ZFS_AV_QUARANTINED,
		    xoap->xoa_av_quarantined, zp->z_pflags, tx);
		XVA_SET_RTN(xvap, XAT_AV_QUARANTINED);
	}
	if (XVA_ISSET_REQ(xvap, XAT_AV_MODIFIED)) {
		ZFS_ATTR_SET(zp, ZFS_AV_MODIFIED, xoap->xoa_av_modified,
		    zp->z_pflags, tx);
		XVA_SET_RTN(xvap, XAT_AV_MODIFIED);
	}
	if (XVA_ISSET_REQ(xvap, XAT_AV_SCANSTAMP)) {
		zfs_sa_set_scanstamp(zp, xvap, tx);
		XVA_SET_RTN(xvap, XAT_AV_SCANSTAMP);
	}
	if (XVA_ISSET_REQ(xvap, XAT_REPARSE)) {
		ZFS_ATTR_SET(zp, ZFS_REPARSE, xoap->xoa_reparse,
		    zp->z_pflags, tx);
		XVA_SET_RTN(xvap, XAT_REPARSE);
	}
	if (XVA_ISSET_REQ(xvap, XAT_OFFLINE)) {
		ZFS_ATTR_SET(zp, ZFS_OFFLINE, xoap->xoa_offline,
		    zp->z_pflags, tx);
		XVA_SET_RTN(xvap, XAT_OFFLINE);
	}
	if (XVA_ISSET_REQ(xvap, XAT_SPARSE)) {
		ZFS_ATTR_SET(zp, ZFS_SPARSE, xoap->xoa_sparse,
		    zp->z_pflags, tx);
		XVA_SET_RTN(xvap, XAT_SPARSE);
	}
}

int
zfs_zget(zfs_sb_t *zsb, uint64_t obj_num, znode_t **zpp)
{
	dmu_object_info_t doi;
	dmu_buf_t	*db;
	znode_t		*zp;
	int err;
	sa_handle_t	*hdl;
	struct inode	*ip;

	*zpp = NULL;

again:
	ip = ilookup(zsb->z_sb, obj_num);

	ZFS_OBJ_HOLD_ENTER(zsb, obj_num);

	err = sa_buf_hold(zsb->z_os, obj_num, NULL, &db);
	if (err) {
		ZFS_OBJ_HOLD_EXIT(zsb, obj_num);
		iput(ip);
		return (err);
	}

	dmu_object_info_from_db(db, &doi);
	if (doi.doi_bonus_type != DMU_OT_SA &&
	    (doi.doi_bonus_type != DMU_OT_ZNODE ||
	    (doi.doi_bonus_type == DMU_OT_ZNODE &&
	    doi.doi_bonus_size < sizeof (znode_phys_t)))) {
		sa_buf_rele(db, NULL);
		ZFS_OBJ_HOLD_EXIT(zsb, obj_num);
		iput(ip);
		return (EINVAL);
	}

	hdl = dmu_buf_get_user(db);
	if (hdl != NULL) {
		if (ip == NULL) {
			/*
			 * ilookup returned NULL, which means
			 * the znode is dying - but the SA handle isn't
			 * quite dead yet, we need to drop any locks
			 * we're holding, re-schedule the task and try again.
			 */
			sa_buf_rele(db, NULL);
			ZFS_OBJ_HOLD_EXIT(zsb, obj_num);

			schedule();
			goto again;
		}

		zp = sa_get_userdata(hdl);

		/*
		 * Since "SA" does immediate eviction we
		 * should never find a sa handle that doesn't
		 * know about the znode.
		 */

		ASSERT3P(zp, !=, NULL);

		mutex_enter(&zp->z_lock);
		ASSERT3U(zp->z_id, ==, obj_num);
		if (zp->z_unlinked) {
			err = ENOENT;
		} else {
			igrab(ZTOI(zp));
			*zpp = zp;
			err = 0;
		}
		sa_buf_rele(db, NULL);
		mutex_exit(&zp->z_lock);
		ZFS_OBJ_HOLD_EXIT(zsb, obj_num);
		iput(ip);
		return (err);
	}

	ASSERT3P(ip, ==, NULL);

	/*
	 * Not found create new znode/vnode but only if file exists.
	 *
	 * There is a small window where zfs_vget() could
	 * find this object while a file create is still in
	 * progress.  This is checked for in zfs_znode_alloc()
	 *
	 * if zfs_znode_alloc() fails it will drop the hold on the
	 * bonus buffer.
	 */
	zp = zfs_znode_alloc(zsb, db, doi.doi_data_block_size,
	    doi.doi_bonus_type, obj_num, NULL, NULL);
	if (zp == NULL) {
		err = ENOENT;
	} else {
		*zpp = zp;
	}
	ZFS_OBJ_HOLD_EXIT(zsb, obj_num);
	return (err);
}

int
zfs_rezget(znode_t *zp)
{
	zfs_sb_t *zsb = ZTOZSB(zp);
	dmu_object_info_t doi;
	dmu_buf_t *db;
	uint64_t obj_num = zp->z_id;
	uint64_t mode;
	sa_bulk_attr_t bulk[8];
	int err;
	int count = 0;
	uint64_t gen;

	ZFS_OBJ_HOLD_ENTER(zsb, obj_num);

	mutex_enter(&zp->z_acl_lock);
	if (zp->z_acl_cached) {
		zfs_acl_free(zp->z_acl_cached);
		zp->z_acl_cached = NULL;
	}
	mutex_exit(&zp->z_acl_lock);

	rw_enter(&zp->z_xattr_lock, RW_WRITER);
	if (zp->z_xattr_cached) {
		nvlist_free(zp->z_xattr_cached);
		zp->z_xattr_cached = NULL;
	}

	if (zp->z_xattr_parent) {
		iput(ZTOI(zp->z_xattr_parent));
		zp->z_xattr_parent = NULL;
	}
	rw_exit(&zp->z_xattr_lock);

	ASSERT(zp->z_sa_hdl == NULL);
	err = sa_buf_hold(zsb->z_os, obj_num, NULL, &db);
	if (err) {
		ZFS_OBJ_HOLD_EXIT(zsb, obj_num);
		return (err);
	}

	dmu_object_info_from_db(db, &doi);
	if (doi.doi_bonus_type != DMU_OT_SA &&
	    (doi.doi_bonus_type != DMU_OT_ZNODE ||
	    (doi.doi_bonus_type == DMU_OT_ZNODE &&
	    doi.doi_bonus_size < sizeof (znode_phys_t)))) {
		sa_buf_rele(db, NULL);
		ZFS_OBJ_HOLD_EXIT(zsb, obj_num);
		return (EINVAL);
	}

	zfs_znode_sa_init(zsb, zp, db, doi.doi_bonus_type, NULL);

	/* reload cached values */
	SA_ADD_BULK_ATTR(bulk, count, SA_ZPL_GEN(zsb), NULL,
	    &gen, sizeof (gen));
	SA_ADD_BULK_ATTR(bulk, count, SA_ZPL_SIZE(zsb), NULL,
	    &zp->z_size, sizeof (zp->z_size));
	SA_ADD_BULK_ATTR(bulk, count, SA_ZPL_LINKS(zsb), NULL,
	    &zp->z_links, sizeof (zp->z_links));
	SA_ADD_BULK_ATTR(bulk, count, SA_ZPL_FLAGS(zsb), NULL,
	    &zp->z_pflags, sizeof (zp->z_pflags));
	SA_ADD_BULK_ATTR(bulk, count, SA_ZPL_ATIME(zsb), NULL,
	    &zp->z_atime, sizeof (zp->z_atime));
	SA_ADD_BULK_ATTR(bulk, count, SA_ZPL_UID(zsb), NULL,
	    &zp->z_uid, sizeof (zp->z_uid));
	SA_ADD_BULK_ATTR(bulk, count, SA_ZPL_GID(zsb), NULL,
	    &zp->z_gid, sizeof (zp->z_gid));
	SA_ADD_BULK_ATTR(bulk, count, SA_ZPL_MODE(zsb), NULL,
	    &mode, sizeof (mode));

	if (sa_bulk_lookup(zp->z_sa_hdl, bulk, count)) {
		zfs_znode_dmu_fini(zp);
		ZFS_OBJ_HOLD_EXIT(zsb, obj_num);
		return (EIO);
	}

	zp->z_mode = mode;

	if (gen != zp->z_gen) {
		zfs_znode_dmu_fini(zp);
		ZFS_OBJ_HOLD_EXIT(zsb, obj_num);
		return (EIO);
	}

	zp->z_unlinked = (zp->z_links == 0);
	zp->z_blksz = doi.doi_data_block_size;
	zfs_inode_update(zp);

	ZFS_OBJ_HOLD_EXIT(zsb, obj_num);

	return (0);
}

void
zfs_znode_delete(znode_t *zp, dmu_tx_t *tx)
{
	zfs_sb_t *zsb = ZTOZSB(zp);
	objset_t *os = zsb->z_os;
	uint64_t obj = zp->z_id;
	uint64_t acl_obj = zfs_external_acl(zp);

	ZFS_OBJ_HOLD_ENTER(zsb, obj);
	if (acl_obj) {
		VERIFY(!zp->z_is_sa);
		VERIFY(0 == dmu_object_free(os, acl_obj, tx));
	}
	VERIFY(0 == dmu_object_free(os, obj, tx));
	zfs_znode_dmu_fini(zp);
	ZFS_OBJ_HOLD_EXIT(zsb, obj);
}

void
zfs_zinactive(znode_t *zp)
{
	zfs_sb_t *zsb = ZTOZSB(zp);
	uint64_t z_id = zp->z_id;
	boolean_t drop_mutex = 0;

	ASSERT(zp->z_sa_hdl);

	/*
	 * Don't allow a zfs_zget() while were trying to release this znode.
	 *
	 * Linux allows direct memory reclaim which means that any KM_SLEEP
	 * allocation may trigger inode eviction.  This can lead to a deadlock
	 * through the ->shrink_icache_memory()->evict()->zfs_inactive()->
	 * zfs_zinactive() call path.  To avoid this deadlock the process
	 * must not reacquire the mutex when it is already holding it.
	 */
	if (!ZFS_OBJ_HOLD_OWNED(zsb, z_id)) {
		ZFS_OBJ_HOLD_ENTER(zsb, z_id);
		drop_mutex = 1;
	}

	mutex_enter(&zp->z_lock);

	/*
	 * If this was the last reference to a file with no links,
	 * remove the file from the file system.
	 */
	if (zp->z_unlinked) {
		mutex_exit(&zp->z_lock);

		if (drop_mutex)
			ZFS_OBJ_HOLD_EXIT(zsb, z_id);

		zfs_rmnode(zp);
		return;
	}

	mutex_exit(&zp->z_lock);
	zfs_znode_dmu_fini(zp);

	if (drop_mutex)
		ZFS_OBJ_HOLD_EXIT(zsb, z_id);
}

void
zfs_tstamp_update_setup(znode_t *zp, uint_t flag, uint64_t mtime[2],
    uint64_t ctime[2], boolean_t have_tx)
{
	timestruc_t	now;

	gethrestime(&now);

	if (have_tx) {	/* will sa_bulk_update happen really soon? */
		zp->z_atime_dirty = 0;
		zp->z_seq++;
	} else {
		zp->z_atime_dirty = 1;
	}

	if (flag & ATTR_ATIME) {
		ZFS_TIME_ENCODE(&now, zp->z_atime);
	}

	if (flag & ATTR_MTIME) {
		ZFS_TIME_ENCODE(&now, mtime);
		if (ZTOZSB(zp)->z_use_fuids) {
			zp->z_pflags |= (ZFS_ARCHIVE |
			    ZFS_AV_MODIFIED);
		}
	}

	if (flag & ATTR_CTIME) {
		ZFS_TIME_ENCODE(&now, ctime);
		if (ZTOZSB(zp)->z_use_fuids)
			zp->z_pflags |= ZFS_ARCHIVE;
	}
}

/*
 * Grow the block size for a file.
 *
 *	IN:	zp	- znode of file to free data in.
 *		size	- requested block size
 *		tx	- open transaction.
 *
 * NOTE: this function assumes that the znode is write locked.
 */
void
zfs_grow_blocksize(znode_t *zp, uint64_t size, dmu_tx_t *tx)
{
	int		error;
	u_longlong_t	dummy;

	if (size <= zp->z_blksz)
		return;
	/*
	 * If the file size is already greater than the current blocksize,
	 * we will not grow.  If there is more than one block in a file,
	 * the blocksize cannot change.
	 */
	if (zp->z_blksz && zp->z_size > zp->z_blksz)
		return;

	error = dmu_object_set_blocksize(ZTOZSB(zp)->z_os, zp->z_id,
	    size, 0, tx);

	if (error == ENOTSUP)
		return;
	ASSERT0(error);

	/* What blocksize did we actually get? */
	dmu_object_size_from_db(sa_get_db(zp->z_sa_hdl), &zp->z_blksz, &dummy);
}

/*
 * Increase the file length
 *
 *	IN:	zp	- znode of file to free data in.
 *		end	- new end-of-file
 *
 * 	RETURN:	0 if success
 *		error code if failure
 */
static int
zfs_extend(znode_t *zp, uint64_t end)
{
	zfs_sb_t *zsb = ZTOZSB(zp);
	dmu_tx_t *tx;
	rl_t *rl;
	uint64_t newblksz;
	int error;

	/*
	 * We will change zp_size, lock the whole file.
	 */
	rl = zfs_range_lock(zp, 0, UINT64_MAX, RL_WRITER);

	/*
	 * Nothing to do if file already at desired length.
	 */
	if (end <= zp->z_size) {
		zfs_range_unlock(rl);
		return (0);
	}
top:
	tx = dmu_tx_create(zsb->z_os);
	dmu_tx_hold_sa(tx, zp->z_sa_hdl, B_FALSE);
	zfs_sa_upgrade_txholds(tx, zp);
	if (end > zp->z_blksz &&
	    (!ISP2(zp->z_blksz) || zp->z_blksz < zsb->z_max_blksz)) {
		/*
		 * We are growing the file past the current block size.
		 */
		if (zp->z_blksz > ZTOZSB(zp)->z_max_blksz) {
			ASSERT(!ISP2(zp->z_blksz));
			newblksz = MIN(end, SPA_MAXBLOCKSIZE);
		} else {
			newblksz = MIN(end, ZTOZSB(zp)->z_max_blksz);
		}
		dmu_tx_hold_write(tx, zp->z_id, 0, newblksz);
	} else {
		newblksz = 0;
	}

	error = dmu_tx_assign(tx, TXG_NOWAIT);
	if (error) {
		if (error == ERESTART) {
			dmu_tx_wait(tx);
			dmu_tx_abort(tx);
			goto top;
		}
		dmu_tx_abort(tx);
		zfs_range_unlock(rl);
		return (error);
	}

	if (newblksz)
		zfs_grow_blocksize(zp, newblksz, tx);

	zp->z_size = end;

	VERIFY(0 == sa_update(zp->z_sa_hdl, SA_ZPL_SIZE(ZTOZSB(zp)),
	    &zp->z_size, sizeof (zp->z_size), tx));

	zfs_range_unlock(rl);

	dmu_tx_commit(tx);

	return (0);
}

/*
 * Free space in a file.
 *
 *	IN:	zp	- znode of file to free data in.
 *		off	- start of section to free.
 *		len	- length of section to free.
 *
 *	RETURN:	0 if success
 *		error code if failure
 */
static int
zfs_free_range(znode_t *zp, uint64_t off, uint64_t len)
{
	zfs_sb_t *zsb = ZTOZSB(zp);
	rl_t *rl;
	int error;

	/*
	 * Lock the range being freed.
	 */
	rl = zfs_range_lock(zp, off, len, RL_WRITER);

	/*
	 * Nothing to do if file already at desired length.
	 */
	if (off >= zp->z_size) {
		zfs_range_unlock(rl);
		return (0);
	}

	if (off + len > zp->z_size)
		len = zp->z_size - off;

	error = dmu_free_long_range(zsb->z_os, zp->z_id, off, len);

	zfs_range_unlock(rl);

	return (error);
}

/*
 * Truncate a file
 *
 *	IN:	zp	- znode of file to free data in.
 *		end	- new end-of-file.
 *
 *	RETURN:	0 if success
 *		error code if failure
 */
static int
zfs_trunc(znode_t *zp, uint64_t end)
{
	zfs_sb_t *zsb = ZTOZSB(zp);
	dmu_tx_t *tx;
	rl_t *rl;
	int error;
	sa_bulk_attr_t bulk[2];
	int count = 0;

	/*
	 * We will change zp_size, lock the whole file.
	 */
	rl = zfs_range_lock(zp, 0, UINT64_MAX, RL_WRITER);

	/*
	 * Nothing to do if file already at desired length.
	 */
	if (end >= zp->z_size) {
		zfs_range_unlock(rl);
		return (0);
	}

	error = dmu_free_long_range(zsb->z_os, zp->z_id, end,  -1);
	if (error) {
		zfs_range_unlock(rl);
		return (error);
	}
top:
	tx = dmu_tx_create(zsb->z_os);
	dmu_tx_hold_sa(tx, zp->z_sa_hdl, B_FALSE);
	zfs_sa_upgrade_txholds(tx, zp);
	error = dmu_tx_assign(tx, TXG_NOWAIT);
	if (error) {
		if (error == ERESTART) {
			dmu_tx_wait(tx);
			dmu_tx_abort(tx);
			goto top;
		}
		dmu_tx_abort(tx);
		zfs_range_unlock(rl);
		return (error);
	}

	zp->z_size = end;
	SA_ADD_BULK_ATTR(bulk, count, SA_ZPL_SIZE(zsb),
	    NULL, &zp->z_size, sizeof (zp->z_size));

	if (end == 0) {
		zp->z_pflags &= ~ZFS_SPARSE;
		SA_ADD_BULK_ATTR(bulk, count, SA_ZPL_FLAGS(zsb),
		    NULL, &zp->z_pflags, 8);
	}
	VERIFY(sa_bulk_update(zp->z_sa_hdl, bulk, count, tx) == 0);

	dmu_tx_commit(tx);

	zfs_range_unlock(rl);

	return (0);
}

/*
 * Free space in a file
 *
 *	IN:	zp	- znode of file to free data in.
 *		off	- start of range
 *		len	- end of range (0 => EOF)
 *		flag	- current file open mode flags.
 *		log	- TRUE if this action should be logged
 *
 *	RETURN:	0 if success
 *		error code if failure
 */
int
zfs_freesp(znode_t *zp, uint64_t off, uint64_t len, int flag, boolean_t log)
{
	struct inode *ip = ZTOI(zp);
	dmu_tx_t *tx;
	zfs_sb_t *zsb = ZTOZSB(zp);
	zilog_t *zilog = zsb->z_log;
	uint64_t mode;
	uint64_t mtime[2], ctime[2];
	sa_bulk_attr_t bulk[3];
	int count = 0;
	int error;

	if ((error = sa_lookup(zp->z_sa_hdl, SA_ZPL_MODE(zsb), &mode,
	    sizeof (mode))) != 0)
		return (error);

	if (off > zp->z_size) {
		error =  zfs_extend(zp, off+len);
		if (error == 0 && log)
			goto log;
		else
			return (error);
	}

	/*
	 * Check for any locks in the region to be freed.
	 */
	if (ip->i_flock && mandatory_lock(ip)) {
		uint64_t length = (len ? len : zp->z_size - off);
		if (!lock_may_write(ip, off, length))
			return (EAGAIN);
	}

	if (len == 0) {
		error = zfs_trunc(zp, off);
	} else {
		if ((error = zfs_free_range(zp, off, len)) == 0 &&
		    off + len > zp->z_size)
			error = zfs_extend(zp, off+len);
	}
	if (error || !log)
		return (error);
log:
	tx = dmu_tx_create(zsb->z_os);
	dmu_tx_hold_sa(tx, zp->z_sa_hdl, B_FALSE);
	zfs_sa_upgrade_txholds(tx, zp);
	error = dmu_tx_assign(tx, TXG_NOWAIT);
	if (error) {
		if (error == ERESTART) {
			dmu_tx_wait(tx);
			dmu_tx_abort(tx);
			goto log;
		}
		dmu_tx_abort(tx);
		return (error);
	}

	SA_ADD_BULK_ATTR(bulk, count, SA_ZPL_MTIME(zsb), NULL, mtime, 16);
	SA_ADD_BULK_ATTR(bulk, count, SA_ZPL_CTIME(zsb), NULL, ctime, 16);
	SA_ADD_BULK_ATTR(bulk, count, SA_ZPL_FLAGS(zsb),
	    NULL, &zp->z_pflags, 8);
	zfs_tstamp_update_setup(zp, CONTENT_MODIFIED, mtime, ctime, B_TRUE);
	error = sa_bulk_update(zp->z_sa_hdl, bulk, count, tx);
	ASSERT(error == 0);

	zfs_log_truncate(zilog, tx, TX_TRUNCATE, zp, off, len);

	dmu_tx_commit(tx);
	zfs_inode_update(zp);
	return (0);
}

void
zfs_create_fs(objset_t *os, cred_t *cr, nvlist_t *zplprops, dmu_tx_t *tx)
{
	struct super_block *sb;
	zfs_sb_t	*zsb;
	uint64_t	moid, obj, sa_obj, version;
	uint64_t	sense = ZFS_CASE_SENSITIVE;
	uint64_t	norm = 0;
	nvpair_t	*elem;
	int		error;
	int		i;
	znode_t		*rootzp = NULL;
	vattr_t		vattr;
	znode_t		*zp;
	zfs_acl_ids_t	acl_ids;

	/*
	 * First attempt to create master node.
	 */
	/*
	 * In an empty objset, there are no blocks to read and thus
	 * there can be no i/o errors (which we assert below).
	 */
	moid = MASTER_NODE_OBJ;
	error = zap_create_claim(os, moid, DMU_OT_MASTER_NODE,
	    DMU_OT_NONE, 0, tx);
	ASSERT(error == 0);

	/*
	 * Set starting attributes.
	 */
	version = zfs_zpl_version_map(spa_version(dmu_objset_spa(os)));
	elem = NULL;
	while ((elem = nvlist_next_nvpair(zplprops, elem)) != NULL) {
		/* For the moment we expect all zpl props to be uint64_ts */
		uint64_t val;
		char *name;

		ASSERT(nvpair_type(elem) == DATA_TYPE_UINT64);
		VERIFY(nvpair_value_uint64(elem, &val) == 0);
		name = nvpair_name(elem);
		if (strcmp(name, zfs_prop_to_name(ZFS_PROP_VERSION)) == 0) {
			if (val < version)
				version = val;
		} else {
			error = zap_update(os, moid, name, 8, 1, &val, tx);
		}
		ASSERT(error == 0);
		if (strcmp(name, zfs_prop_to_name(ZFS_PROP_NORMALIZE)) == 0)
			norm = val;
		else if (strcmp(name, zfs_prop_to_name(ZFS_PROP_CASE)) == 0)
			sense = val;
	}
	ASSERT(version != 0);
	error = zap_update(os, moid, ZPL_VERSION_STR, 8, 1, &version, tx);

	/*
	 * Create zap object used for SA attribute registration
	 */

	if (version >= ZPL_VERSION_SA) {
		sa_obj = zap_create(os, DMU_OT_SA_MASTER_NODE,
		    DMU_OT_NONE, 0, tx);
		error = zap_add(os, moid, ZFS_SA_ATTRS, 8, 1, &sa_obj, tx);
		ASSERT(error == 0);
	} else {
		sa_obj = 0;
	}
	/*
	 * Create a delete queue.
	 */
	obj = zap_create(os, DMU_OT_UNLINKED_SET, DMU_OT_NONE, 0, tx);

	error = zap_add(os, moid, ZFS_UNLINKED_SET, 8, 1, &obj, tx);
	ASSERT(error == 0);

	/*
	 * Create root znode.  Create minimal znode/inode/zsb/sb
	 * to allow zfs_mknode to work.
	 */
	vattr.va_mask = ATTR_MODE|ATTR_UID|ATTR_GID;
	vattr.va_mode = S_IFDIR|0755;
	vattr.va_uid = crgetuid(cr);
	vattr.va_gid = crgetgid(cr);

	rootzp = kmem_cache_alloc(znode_cache, KM_PUSHPAGE);
	rootzp->z_moved = 0;
	rootzp->z_unlinked = 0;
	rootzp->z_atime_dirty = 0;
	rootzp->z_is_sa = USE_SA(version, os);

	zsb = kmem_zalloc(sizeof (zfs_sb_t), KM_PUSHPAGE | KM_NODEBUG);
	zsb->z_os = os;
	zsb->z_parent = zsb;
	zsb->z_version = version;
	zsb->z_use_fuids = USE_FUIDS(version, os);
	zsb->z_use_sa = USE_SA(version, os);
	zsb->z_norm = norm;

	sb = kmem_zalloc(sizeof (struct super_block), KM_PUSHPAGE);
	sb->s_fs_info = zsb;

	ZTOI(rootzp)->i_sb = sb;

	error = sa_setup(os, sa_obj, zfs_attr_table, ZPL_END,
	    &zsb->z_attr_table);

	ASSERT(error == 0);

	/*
	 * Fold case on file systems that are always or sometimes case
	 * insensitive.
	 */
	if (sense == ZFS_CASE_INSENSITIVE || sense == ZFS_CASE_MIXED)
		zsb->z_norm |= U8_TEXTPREP_TOUPPER;

	mutex_init(&zsb->z_znodes_lock, NULL, MUTEX_DEFAULT, NULL);
	list_create(&zsb->z_all_znodes, sizeof (znode_t),
	    offsetof(znode_t, z_link_node));

	for (i = 0; i != ZFS_OBJ_MTX_SZ; i++)
		mutex_init(&zsb->z_hold_mtx[i], NULL, MUTEX_DEFAULT, NULL);

	VERIFY(0 == zfs_acl_ids_create(rootzp, IS_ROOT_NODE, &vattr,
	    cr, NULL, &acl_ids));
	zfs_mknode(rootzp, &vattr, tx, cr, IS_ROOT_NODE, &zp, &acl_ids);
	ASSERT3P(zp, ==, rootzp);
	error = zap_add(os, moid, ZFS_ROOT_OBJ, 8, 1, &rootzp->z_id, tx);
	ASSERT(error == 0);
	zfs_acl_ids_free(&acl_ids);

	atomic_set(&ZTOI(rootzp)->i_count, 0);
	sa_handle_destroy(rootzp->z_sa_hdl);
	kmem_cache_free(znode_cache, rootzp);

	/*
	 * Create shares directory
	 */
	error = zfs_create_share_dir(zsb, tx);
	ASSERT(error == 0);

	for (i = 0; i != ZFS_OBJ_MTX_SZ; i++)
		mutex_destroy(&zsb->z_hold_mtx[i]);

	kmem_free(sb, sizeof (struct super_block));
	kmem_free(zsb, sizeof (zfs_sb_t));
}
#endif /* _KERNEL */

static int
zfs_sa_setup(objset_t *osp, sa_attr_type_t **sa_table)
{
	uint64_t sa_obj = 0;
	int error;

	error = zap_lookup(osp, MASTER_NODE_OBJ, ZFS_SA_ATTRS, 8, 1, &sa_obj);
	if (error != 0 && error != ENOENT)
		return (error);

	error = sa_setup(osp, sa_obj, zfs_attr_table, ZPL_END, sa_table);
	return (error);
}

static int
zfs_grab_sa_handle(objset_t *osp, uint64_t obj, sa_handle_t **hdlp,
    dmu_buf_t **db, void *tag)
{
	dmu_object_info_t doi;
	int error;

	if ((error = sa_buf_hold(osp, obj, tag, db)) != 0)
		return (error);

	dmu_object_info_from_db(*db, &doi);
	if ((doi.doi_bonus_type != DMU_OT_SA &&
	    doi.doi_bonus_type != DMU_OT_ZNODE) ||
	    (doi.doi_bonus_type == DMU_OT_ZNODE &&
	    doi.doi_bonus_size < sizeof (znode_phys_t))) {
		sa_buf_rele(*db, tag);
		return (ENOTSUP);
	}

	error = sa_handle_get(osp, obj, NULL, SA_HDL_PRIVATE, hdlp);
	if (error != 0) {
		sa_buf_rele(*db, tag);
		return (error);
	}

	return (0);
}

void
zfs_release_sa_handle(sa_handle_t *hdl, dmu_buf_t *db, void *tag)
{
	sa_handle_destroy(hdl);
	sa_buf_rele(db, tag);
}

/*
 * Given an object number, return its parent object number and whether
 * or not the object is an extended attribute directory.
 */
static int
zfs_obj_to_pobj(sa_handle_t *hdl, sa_attr_type_t *sa_table, uint64_t *pobjp,
    int *is_xattrdir)
{
	uint64_t parent;
	uint64_t pflags;
	uint64_t mode;
	sa_bulk_attr_t bulk[3];
	int count = 0;
	int error;

	SA_ADD_BULK_ATTR(bulk, count, sa_table[ZPL_PARENT], NULL,
	    &parent, sizeof (parent));
	SA_ADD_BULK_ATTR(bulk, count, sa_table[ZPL_FLAGS], NULL,
	    &pflags, sizeof (pflags));
	SA_ADD_BULK_ATTR(bulk, count, sa_table[ZPL_MODE], NULL,
	    &mode, sizeof (mode));

	if ((error = sa_bulk_lookup(hdl, bulk, count)) != 0)
		return (error);

	*pobjp = parent;
	*is_xattrdir = ((pflags & ZFS_XATTR) != 0) && S_ISDIR(mode);

	return (0);
}

/*
 * Given an object number, return some zpl level statistics
 */
static int
zfs_obj_to_stats_impl(sa_handle_t *hdl, sa_attr_type_t *sa_table,
    zfs_stat_t *sb)
{
	sa_bulk_attr_t bulk[4];
	int count = 0;

	SA_ADD_BULK_ATTR(bulk, count, sa_table[ZPL_MODE], NULL,
	    &sb->zs_mode, sizeof (sb->zs_mode));
	SA_ADD_BULK_ATTR(bulk, count, sa_table[ZPL_GEN], NULL,
	    &sb->zs_gen, sizeof (sb->zs_gen));
	SA_ADD_BULK_ATTR(bulk, count, sa_table[ZPL_LINKS], NULL,
	    &sb->zs_links, sizeof (sb->zs_links));
	SA_ADD_BULK_ATTR(bulk, count, sa_table[ZPL_CTIME], NULL,
	    &sb->zs_ctime, sizeof (sb->zs_ctime));

	return (sa_bulk_lookup(hdl, bulk, count));
}

static int
zfs_obj_to_path_impl(objset_t *osp, uint64_t obj, sa_handle_t *hdl,
    sa_attr_type_t *sa_table, char *buf, int len)
{
	sa_handle_t *sa_hdl;
	sa_handle_t *prevhdl = NULL;
	dmu_buf_t *prevdb = NULL;
	dmu_buf_t *sa_db = NULL;
	char *path = buf + len - 1;
	int error;

	*path = '\0';
	sa_hdl = hdl;

	for (;;) {
		uint64_t pobj;
		char component[MAXNAMELEN + 2];
		size_t complen;
		int is_xattrdir;

		if (prevdb)
			zfs_release_sa_handle(prevhdl, prevdb, FTAG);

		if ((error = zfs_obj_to_pobj(sa_hdl, sa_table, &pobj,
		    &is_xattrdir)) != 0)
			break;

		if (pobj == obj) {
			if (path[0] != '/')
				*--path = '/';
			break;
		}

		component[0] = '/';
		if (is_xattrdir) {
			(void) sprintf(component + 1, "<xattrdir>");
		} else {
			error = zap_value_search(osp, pobj, obj,
			    ZFS_DIRENT_OBJ(-1ULL), component + 1);
			if (error != 0)
				break;
		}

		complen = strlen(component);
		path -= complen;
		ASSERT(path >= buf);
		bcopy(component, path, complen);
		obj = pobj;

		if (sa_hdl != hdl) {
			prevhdl = sa_hdl;
			prevdb = sa_db;
		}
		error = zfs_grab_sa_handle(osp, obj, &sa_hdl, &sa_db, FTAG);
		if (error != 0) {
			sa_hdl = prevhdl;
			sa_db = prevdb;
			break;
		}
	}

	if (sa_hdl != NULL && sa_hdl != hdl) {
		ASSERT(sa_db != NULL);
		zfs_release_sa_handle(sa_hdl, sa_db, FTAG);
	}

	if (error == 0)
		(void) memmove(buf, path, buf + len - path);

	return (error);
}

int
zfs_obj_to_path(objset_t *osp, uint64_t obj, char *buf, int len)
{
	sa_attr_type_t *sa_table;
	sa_handle_t *hdl;
	dmu_buf_t *db;
	int error;

	error = zfs_sa_setup(osp, &sa_table);
	if (error != 0)
		return (error);

	error = zfs_grab_sa_handle(osp, obj, &hdl, &db, FTAG);
	if (error != 0)
		return (error);

	error = zfs_obj_to_path_impl(osp, obj, hdl, sa_table, buf, len);

	zfs_release_sa_handle(hdl, db, FTAG);
	return (error);
}

int
zfs_obj_to_stats(objset_t *osp, uint64_t obj, zfs_stat_t *sb,
    char *buf, int len)
{
	char *path = buf + len - 1;
	sa_attr_type_t *sa_table;
	sa_handle_t *hdl;
	dmu_buf_t *db;
	int error;

	*path = '\0';

	error = zfs_sa_setup(osp, &sa_table);
	if (error != 0)
		return (error);

	error = zfs_grab_sa_handle(osp, obj, &hdl, &db, FTAG);
	if (error != 0)
		return (error);

	error = zfs_obj_to_stats_impl(hdl, sa_table, sb);
	if (error != 0) {
		zfs_release_sa_handle(hdl, db, FTAG);
		return (error);
	}

	error = zfs_obj_to_path_impl(osp, obj, hdl, sa_table, buf, len);

	zfs_release_sa_handle(hdl, db, FTAG);
	return (error);
}

#if defined(_KERNEL) && defined(HAVE_SPL)
EXPORT_SYMBOL(zfs_create_fs);
EXPORT_SYMBOL(zfs_obj_to_path);
#endif