sys/kern/vfs_mount.c

1.60   hannken /*	$NetBSD: vfs_mount.c,v 1.60 2017/05/07 08:24:20 hannken Exp $	*/
 1.1     rmind
 1.1     rmind /*-
 1.2     rmind  * Copyright (c) 1997-2011 The NetBSD Foundation, Inc.
 1.1     rmind  * All rights reserved.
 1.1     rmind  *
 1.1     rmind  * This code is derived from software contributed to The NetBSD Foundation
 1.1     rmind  * by Jason R. Thorpe of the Numerical Aerospace Simulation Facility,
 1.1     rmind  * NASA Ames Research Center, by Charles M. Hannum, and by Andrew Doran.
 1.1     rmind  *
 1.1     rmind  * Redistribution and use in source and binary forms, with or without
 1.1     rmind  * modification, are permitted provided that the following conditions
 1.1     rmind  * are met:
 1.1     rmind  * 1. Redistributions of source code must retain the above copyright
 1.1     rmind  *    notice, this list of conditions and the following disclaimer.
 1.1     rmind  * 2. Redistributions in binary form must reproduce the above copyright
 1.1     rmind  *    notice, this list of conditions and the following disclaimer in the
 1.1     rmind  *    documentation and/or other materials provided with the distribution.
 1.1     rmind  *
 1.1     rmind  * THIS SOFTWARE IS PROVIDED BY THE NETBSD FOUNDATION, INC. AND CONTRIBUTORS
 1.1     rmind  * ``AS IS'' AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED
 1.1     rmind  * TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR
 1.1     rmind  * PURPOSE ARE DISCLAIMED.  IN NO EVENT SHALL THE FOUNDATION OR CONTRIBUTORS
 1.1     rmind  * BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR
 1.1     rmind  * CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF
 1.1     rmind  * SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS
 1.1     rmind  * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN
 1.1     rmind  * CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE)
 1.1     rmind  * ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE
 1.1     rmind  * POSSIBILITY OF SUCH DAMAGE.
 1.1     rmind  */
 1.1     rmind
 1.1     rmind /*
 1.1     rmind  * Copyright (c) 1989, 1993
 1.1     rmind  *	The Regents of the University of California.  All rights reserved.
 1.1     rmind  * (c) UNIX System Laboratories, Inc.
 1.1     rmind  * All or some portions of this file are derived from material licensed
 1.1     rmind  * to the University of California by American Telephone and Telegraph
 1.1     rmind  * Co. or Unix System Laboratories, Inc. and are reproduced herein with
 1.1     rmind  * the permission of UNIX System Laboratories, Inc.
 1.1     rmind  *
 1.1     rmind  * Redistribution and use in source and binary forms, with or without
 1.1     rmind  * modification, are permitted provided that the following conditions
 1.1     rmind  * are met:
 1.1     rmind  * 1. Redistributions of source code must retain the above copyright
 1.1     rmind  *    notice, this list of conditions and the following disclaimer.
 1.1     rmind  * 2. Redistributions in binary form must reproduce the above copyright
 1.1     rmind  *    notice, this list of conditions and the following disclaimer in the
 1.1     rmind  *    documentation and/or other materials provided with the distribution.
 1.1     rmind  * 3. Neither the name of the University nor the names of its contributors
 1.1     rmind  *    may be used to endorse or promote products derived from this software
 1.1     rmind  *    without specific prior written permission.
 1.1     rmind  *
 1.1     rmind  * THIS SOFTWARE IS PROVIDED BY THE REGENTS AND CONTRIBUTORS ``AS IS'' AND
 1.1     rmind  * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
 1.1     rmind  * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
 1.1     rmind  * ARE DISCLAIMED.  IN NO EVENT SHALL THE REGENTS OR CONTRIBUTORS BE LIABLE
 1.1     rmind  * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
 1.1     rmind  * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS
 1.1     rmind  * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
 1.1     rmind  * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
 1.1     rmind  * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY
 1.1     rmind  * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF
 1.1     rmind  * SUCH DAMAGE.
 1.1     rmind  *
 1.1     rmind  *	@(#)vfs_subr.c	8.13 (Berkeley) 4/18/94
 1.1     rmind  */
 1.1     rmind
 1.1     rmind #include <sys/cdefs.h>
1.60   hannken __KERNEL_RCSID(0, "$NetBSD: vfs_mount.c,v 1.60 2017/05/07 08:24:20 hannken Exp $");
 1.1     rmind
 1.1     rmind #include <sys/param.h>
 1.1     rmind #include <sys/kernel.h>
 1.1     rmind
 1.1     rmind #include <sys/atomic.h>
 1.1     rmind #include <sys/buf.h>
 1.1     rmind #include <sys/conf.h>
 1.1     rmind #include <sys/fcntl.h>
 1.1     rmind #include <sys/filedesc.h>
 1.1     rmind #include <sys/device.h>
 1.1     rmind #include <sys/kauth.h>
 1.1     rmind #include <sys/kmem.h>
 1.1     rmind #include <sys/module.h>
 1.1     rmind #include <sys/mount.h>
1.48   hannken #include <sys/fstrans.h>
 1.1     rmind #include <sys/namei.h>
1.14      gson #include <sys/extattr.h>
 1.1     rmind #include <sys/syscallargs.h>
 1.1     rmind #include <sys/sysctl.h>
 1.1     rmind #include <sys/systm.h>
 1.5       dsl #include <sys/vfs_syscalls.h>
1.41   hannken #include <sys/vnode_impl.h>
 1.1     rmind
 1.1     rmind #include <miscfs/genfs/genfs.h>
 1.1     rmind #include <miscfs/specfs/specdev.h>
 1.1     rmind
1.52   hannken enum mountlist_type {
1.52   hannken 	ME_MOUNT,
1.52   hannken 	ME_MARKER
1.52   hannken };
1.52   hannken struct mountlist_entry {
1.52   hannken 	TAILQ_ENTRY(mountlist_entry) me_list;	/* Mount list. */
1.52   hannken 	struct mount *me_mount;			/* Actual mount if ME_MOUNT,
1.52   hannken 						   current mount else. */
1.52   hannken 	enum mountlist_type me_type;		/* Mount or marker. */
1.52   hannken };
1.52   hannken struct mount_iterator {
1.52   hannken 	struct mountlist_entry mi_entry;
1.52   hannken };
1.52   hannken
1.45   hannken static struct vnode *vfs_vnode_iterator_next1(struct vnode_iterator *,
1.45   hannken     bool (*)(void *, struct vnode *), void *, bool);
1.45   hannken
1.33     pooka /* Root filesystem. */
 1.1     rmind vnode_t *			rootvnode;
 1.1     rmind
 1.1     rmind /* Mounted filesystem list. */
1.54   hannken static TAILQ_HEAD(mountlist, mountlist_entry) mountlist;
1.54   hannken static kmutex_t			mountlist_lock;
1.54   hannken int vnode_offset_next_by_lru	/* XXX: ugly hack for pstat.c */
1.54   hannken     = offsetof(vnode_impl_t, vi_lrulist.tqe_next);
 1.1     rmind
 1.1     rmind kmutex_t			mntvnode_lock;
 1.1     rmind kmutex_t			vfs_list_lock;
 1.1     rmind
 1.1     rmind static specificdata_domain_t	mount_specificdata_domain;
 1.1     rmind static kmutex_t			mntid_lock;
 1.1     rmind
 1.1     rmind static kmutex_t			mountgen_lock;
 1.1     rmind static uint64_t			mountgen;
 1.1     rmind
 1.1     rmind void
 1.1     rmind vfs_mount_sysinit(void)
 1.1     rmind {
 1.1     rmind
1.24  christos 	TAILQ_INIT(&mountlist);
 1.1     rmind 	mutex_init(&mountlist_lock, MUTEX_DEFAULT, IPL_NONE);
 1.1     rmind 	mutex_init(&mntvnode_lock, MUTEX_DEFAULT, IPL_NONE);
 1.1     rmind 	mutex_init(&vfs_list_lock, MUTEX_DEFAULT, IPL_NONE);
 1.1     rmind
 1.1     rmind 	mount_specificdata_domain = specificdata_domain_create();
 1.1     rmind 	mutex_init(&mntid_lock, MUTEX_DEFAULT, IPL_NONE);
 1.1     rmind 	mutex_init(&mountgen_lock, MUTEX_DEFAULT, IPL_NONE);
 1.1     rmind 	mountgen = 0;
 1.1     rmind }
 1.1     rmind
 1.1     rmind struct mount *
 1.1     rmind vfs_mountalloc(struct vfsops *vfsops, vnode_t *vp)
 1.1     rmind {
 1.1     rmind 	struct mount *mp;
1.60   hannken 	int error __diagused;
1.60   hannken 	extern struct vfsops dead_vfsops;
 1.1     rmind
 1.1     rmind 	mp = kmem_zalloc(sizeof(*mp), KM_SLEEP);
 1.1     rmind 	if (mp == NULL)
 1.1     rmind 		return NULL;
 1.1     rmind
 1.1     rmind 	mp->mnt_op = vfsops;
 1.1     rmind 	mp->mnt_refcnt = 1;
 1.1     rmind 	TAILQ_INIT(&mp->mnt_vnodelist);
1.18   mlelstv 	mutex_init(&mp->mnt_unmounting, MUTEX_DEFAULT, IPL_NONE);
 1.1     rmind 	mutex_init(&mp->mnt_renamelock, MUTEX_DEFAULT, IPL_NONE);
 1.1     rmind 	mutex_init(&mp->mnt_updating, MUTEX_DEFAULT, IPL_NONE);
 1.1     rmind 	mp->mnt_vnodecovered = vp;
 1.1     rmind 	mount_initspecific(mp);
1.60   hannken 	if (vfsops != &dead_vfsops) {
1.60   hannken 		error = fstrans_mount(mp);
1.60   hannken 		KASSERT(error == 0);
1.60   hannken 	}
 1.1     rmind
 1.1     rmind 	mutex_enter(&mountgen_lock);
 1.1     rmind 	mp->mnt_gen = mountgen++;
 1.1     rmind 	mutex_exit(&mountgen_lock);
 1.1     rmind
 1.1     rmind 	return mp;
 1.1     rmind }
 1.1     rmind
 1.1     rmind /*
 1.1     rmind  * vfs_rootmountalloc: lookup a filesystem type, and if found allocate and
 1.1     rmind  * initialize a mount structure for it.
 1.1     rmind  *
 1.1     rmind  * Devname is usually updated by mount(8) after booting.
 1.1     rmind  */
 1.1     rmind int
 1.1     rmind vfs_rootmountalloc(const char *fstypename, const char *devname,
 1.1     rmind     struct mount **mpp)
 1.1     rmind {
 1.1     rmind 	struct vfsops *vfsp = NULL;
 1.1     rmind 	struct mount *mp;
1.57   hannken 	int error __diagused;
 1.1     rmind
 1.1     rmind 	mutex_enter(&vfs_list_lock);
 1.1     rmind 	LIST_FOREACH(vfsp, &vfs_list, vfs_list)
 1.1     rmind 		if (!strncmp(vfsp->vfs_name, fstypename,
 1.1     rmind 		    sizeof(mp->mnt_stat.f_fstypename)))
 1.1     rmind 			break;
 1.1     rmind 	if (vfsp == NULL) {
 1.1     rmind 		mutex_exit(&vfs_list_lock);
 1.1     rmind 		return (ENODEV);
 1.1     rmind 	}
 1.1     rmind 	vfsp->vfs_refcount++;
 1.1     rmind 	mutex_exit(&vfs_list_lock);
 1.1     rmind
 1.1     rmind 	if ((mp = vfs_mountalloc(vfsp, NULL)) == NULL)
 1.1     rmind 		return ENOMEM;
1.57   hannken 	error = vfs_busy(mp);
1.57   hannken 	KASSERT(error == 0);
 1.1     rmind 	mp->mnt_flag = MNT_RDONLY;
 1.1     rmind 	(void)strlcpy(mp->mnt_stat.f_fstypename, vfsp->vfs_name,
 1.1     rmind 	    sizeof(mp->mnt_stat.f_fstypename));
 1.1     rmind 	mp->mnt_stat.f_mntonname[0] = '/';
 1.1     rmind 	mp->mnt_stat.f_mntonname[1] = '\0';
 1.1     rmind 	mp->mnt_stat.f_mntfromname[sizeof(mp->mnt_stat.f_mntfromname) - 1] =
 1.1     rmind 	    '\0';
 1.1     rmind 	(void)copystr(devname, mp->mnt_stat.f_mntfromname,
 1.1     rmind 	    sizeof(mp->mnt_stat.f_mntfromname) - 1, 0);
 1.1     rmind 	*mpp = mp;
 1.1     rmind 	return 0;
 1.1     rmind }
 1.1     rmind
 1.1     rmind /*
 1.1     rmind  * vfs_getnewfsid: get a new unique fsid.
 1.1     rmind  */
 1.1     rmind void
 1.1     rmind vfs_getnewfsid(struct mount *mp)
 1.1     rmind {
 1.1     rmind 	static u_short xxxfs_mntid;
 1.1     rmind 	fsid_t tfsid;
 1.1     rmind 	int mtype;
 1.1     rmind
 1.1     rmind 	mutex_enter(&mntid_lock);
 1.1     rmind 	mtype = makefstype(mp->mnt_op->vfs_name);
 1.1     rmind 	mp->mnt_stat.f_fsidx.__fsid_val[0] = makedev(mtype, 0);
 1.1     rmind 	mp->mnt_stat.f_fsidx.__fsid_val[1] = mtype;
 1.1     rmind 	mp->mnt_stat.f_fsid = mp->mnt_stat.f_fsidx.__fsid_val[0];
 1.1     rmind 	if (xxxfs_mntid == 0)
 1.1     rmind 		++xxxfs_mntid;
 1.1     rmind 	tfsid.__fsid_val[0] = makedev(mtype & 0xff, xxxfs_mntid);
 1.1     rmind 	tfsid.__fsid_val[1] = mtype;
1.53   hannken 	while (vfs_getvfs(&tfsid)) {
1.53   hannken 		tfsid.__fsid_val[0]++;
1.53   hannken 		xxxfs_mntid++;
 1.1     rmind 	}
 1.1     rmind 	mp->mnt_stat.f_fsidx.__fsid_val[0] = tfsid.__fsid_val[0];
 1.1     rmind 	mp->mnt_stat.f_fsid = mp->mnt_stat.f_fsidx.__fsid_val[0];
 1.1     rmind 	mutex_exit(&mntid_lock);
 1.1     rmind }
 1.1     rmind
 1.1     rmind /*
 1.1     rmind  * Lookup a mount point by filesystem identifier.
 1.1     rmind  *
 1.1     rmind  * XXX Needs to add a reference to the mount point.
 1.1     rmind  */
 1.1     rmind struct mount *
 1.1     rmind vfs_getvfs(fsid_t *fsid)
 1.1     rmind {
1.53   hannken 	mount_iterator_t *iter;
 1.1     rmind 	struct mount *mp;
 1.1     rmind
1.53   hannken 	mountlist_iterator_init(&iter);
1.53   hannken 	while ((mp = mountlist_iterator_next(iter)) != NULL) {
 1.1     rmind 		if (mp->mnt_stat.f_fsidx.__fsid_val[0] == fsid->__fsid_val[0] &&
 1.1     rmind 		    mp->mnt_stat.f_fsidx.__fsid_val[1] == fsid->__fsid_val[1]) {
1.53   hannken 			mountlist_iterator_destroy(iter);
1.53   hannken 			return mp;
 1.1     rmind 		}
 1.1     rmind 	}
1.53   hannken 	mountlist_iterator_destroy(iter);
 1.1     rmind 	return NULL;
 1.1     rmind }
 1.1     rmind
 1.1     rmind /*
1.55   hannken  * Take a reference to a mount structure.
1.55   hannken  */
1.55   hannken void
1.55   hannken vfs_ref(struct mount *mp)
1.55   hannken {
1.55   hannken
1.55   hannken 	KASSERT(mp->mnt_refcnt > 0 || mutex_owned(&mountlist_lock));
1.55   hannken
1.55   hannken 	atomic_inc_uint(&mp->mnt_refcnt);
1.55   hannken }
1.55   hannken
1.55   hannken /*
 1.1     rmind  * Drop a reference to a mount structure, freeing if the last reference.
 1.1     rmind  */
 1.1     rmind void
1.55   hannken vfs_rele(struct mount *mp)
 1.1     rmind {
 1.1     rmind
 1.1     rmind 	if (__predict_true((int)atomic_dec_uint_nv(&mp->mnt_refcnt) > 0)) {
 1.1     rmind 		return;
 1.1     rmind 	}
 1.1     rmind
 1.1     rmind 	/*
 1.1     rmind 	 * Nothing else has visibility of the mount: we can now
 1.1     rmind 	 * free the data structures.
 1.1     rmind 	 */
 1.1     rmind 	KASSERT(mp->mnt_refcnt == 0);
 1.1     rmind 	specificdata_fini(mount_specificdata_domain, &mp->mnt_specdataref);
1.18   mlelstv 	mutex_destroy(&mp->mnt_unmounting);
 1.1     rmind 	mutex_destroy(&mp->mnt_updating);
 1.1     rmind 	mutex_destroy(&mp->mnt_renamelock);
 1.1     rmind 	if (mp->mnt_op != NULL) {
 1.1     rmind 		vfs_delref(mp->mnt_op);
 1.1     rmind 	}
 1.1     rmind 	kmem_free(mp, sizeof(*mp));
 1.1     rmind }
 1.1     rmind
 1.1     rmind /*
 1.1     rmind  * Mark a mount point as busy, and gain a new reference to it.  Used to
 1.1     rmind  * prevent the file system from being unmounted during critical sections.
 1.1     rmind  *
1.18   mlelstv  * vfs_busy can be called multiple times and by multiple threads
1.18   mlelstv  * and must be accompanied by the same number of vfs_unbusy calls.
1.18   mlelstv  *
 1.1     rmind  * => The caller must hold a pre-existing reference to the mount.
 1.1     rmind  * => Will fail if the file system is being unmounted, or is unmounted.
 1.1     rmind  */
1.58   hannken static inline int
1.58   hannken _vfs_busy(struct mount *mp, bool wait)
 1.1     rmind {
 1.1     rmind
 1.1     rmind 	KASSERT(mp->mnt_refcnt > 0);
 1.1     rmind
1.58   hannken 	if (wait) {
1.58   hannken 		mutex_enter(&mp->mnt_unmounting);
1.58   hannken 	} else if (!mutex_tryenter(&mp->mnt_unmounting)) {
1.58   hannken 		return EBUSY;
1.58   hannken 	}
 1.1     rmind 	if (__predict_false((mp->mnt_iflag & IMNT_GONE) != 0)) {
1.18   mlelstv 		mutex_exit(&mp->mnt_unmounting);
 1.1     rmind 		return ENOENT;
 1.1     rmind 	}
1.18   mlelstv 	++mp->mnt_busynest;
1.18   mlelstv 	KASSERT(mp->mnt_busynest != 0);
1.18   mlelstv 	mutex_exit(&mp->mnt_unmounting);
1.55   hannken 	vfs_ref(mp);
 1.1     rmind 	return 0;
 1.1     rmind }
 1.1     rmind
1.58   hannken int
1.58   hannken vfs_busy(struct mount *mp)
1.58   hannken {
1.58   hannken
1.58   hannken 	return _vfs_busy(mp, true);
1.58   hannken }
1.58   hannken
1.58   hannken int
1.58   hannken vfs_trybusy(struct mount *mp)
1.58   hannken {
1.58   hannken
1.58   hannken 	return _vfs_busy(mp, false);
1.58   hannken }
1.58   hannken
 1.1     rmind /*
 1.1     rmind  * Unbusy a busy filesystem.
 1.1     rmind  *
1.18   mlelstv  * Every successful vfs_busy() call must be undone by a vfs_unbusy() call.
 1.1     rmind  */
 1.1     rmind void
1.56   hannken vfs_unbusy(struct mount *mp)
 1.1     rmind {
 1.1     rmind
 1.1     rmind 	KASSERT(mp->mnt_refcnt > 0);
 1.1     rmind
1.18   mlelstv 	mutex_enter(&mp->mnt_unmounting);
1.18   mlelstv 	KASSERT(mp->mnt_busynest != 0);
1.18   mlelstv 	mp->mnt_busynest--;
1.18   mlelstv 	mutex_exit(&mp->mnt_unmounting);
1.56   hannken 	vfs_rele(mp);
 1.1     rmind }
 1.1     rmind
1.27   hannken struct vnode_iterator {
1.44   hannken 	vnode_impl_t vi_vnode;
1.40   msaitoh };
1.27   hannken
1.27   hannken void
1.44   hannken vfs_vnode_iterator_init(struct mount *mp, struct vnode_iterator **vnip)
1.27   hannken {
1.44   hannken 	vnode_t *vp;
1.44   hannken 	vnode_impl_t *vip;
1.27   hannken
1.38   hannken 	vp = vnalloc_marker(mp);
1.44   hannken 	vip = VNODE_TO_VIMPL(vp);
1.27   hannken
1.27   hannken 	mutex_enter(&mntvnode_lock);
1.44   hannken 	TAILQ_INSERT_HEAD(&mp->mnt_vnodelist, vip, vi_mntvnodes);
1.27   hannken 	vp->v_usecount = 1;
1.27   hannken 	mutex_exit(&mntvnode_lock);
1.27   hannken
1.44   hannken 	*vnip = (struct vnode_iterator *)vip;
1.27   hannken }
1.27   hannken
1.27   hannken void
1.44   hannken vfs_vnode_iterator_destroy(struct vnode_iterator *vni)
1.27   hannken {
1.44   hannken 	vnode_impl_t *mvip = &vni->vi_vnode;
1.44   hannken 	vnode_t *mvp = VIMPL_TO_VNODE(mvip);
1.27   hannken
1.27   hannken 	mutex_enter(&mntvnode_lock);
1.38   hannken 	KASSERT(vnis_marker(mvp));
1.32   hannken 	if (mvp->v_usecount != 0) {
1.44   hannken 		TAILQ_REMOVE(&mvp->v_mount->mnt_vnodelist, mvip, vi_mntvnodes);
1.32   hannken 		mvp->v_usecount = 0;
1.32   hannken 	}
1.27   hannken 	mutex_exit(&mntvnode_lock);
1.38   hannken 	vnfree_marker(mvp);
1.27   hannken }
1.27   hannken
1.45   hannken static struct vnode *
1.45   hannken vfs_vnode_iterator_next1(struct vnode_iterator *vni,
1.45   hannken     bool (*f)(void *, struct vnode *), void *cl, bool do_wait)
1.27   hannken {
1.44   hannken 	vnode_impl_t *mvip = &vni->vi_vnode;
1.44   hannken 	struct mount *mp = VIMPL_TO_VNODE(mvip)->v_mount;
1.44   hannken 	vnode_t *vp;
1.44   hannken 	vnode_impl_t *vip;
1.27   hannken 	int error;
1.27   hannken
1.44   hannken 	KASSERT(vnis_marker(VIMPL_TO_VNODE(mvip)));
1.27   hannken
1.27   hannken 	do {
1.27   hannken 		mutex_enter(&mntvnode_lock);
1.44   hannken 		vip = TAILQ_NEXT(mvip, vi_mntvnodes);
1.44   hannken 		TAILQ_REMOVE(&mp->mnt_vnodelist, mvip, vi_mntvnodes);
1.44   hannken 		VIMPL_TO_VNODE(mvip)->v_usecount = 0;
1.29  christos again:
1.44   hannken 		vp = VIMPL_TO_VNODE(vip);
1.27   hannken 		if (vp == NULL) {
1.27   hannken 	       		mutex_exit(&mntvnode_lock);
1.29  christos 	       		return NULL;
1.27   hannken 		}
1.27   hannken 		mutex_enter(vp->v_interlock);
1.38   hannken 		if (vnis_marker(vp) ||
1.45   hannken 		    vdead_check(vp, (do_wait ? 0 : VDEAD_NOWAIT)) ||
1.37   hannken 		    (f && !(*f)(cl, vp))) {
1.27   hannken 			mutex_exit(vp->v_interlock);
1.44   hannken 			vip = TAILQ_NEXT(vip, vi_mntvnodes);
1.29  christos 			goto again;
1.27   hannken 		}
1.27   hannken
1.44   hannken 		TAILQ_INSERT_AFTER(&mp->mnt_vnodelist, vip, mvip, vi_mntvnodes);
1.44   hannken 		VIMPL_TO_VNODE(mvip)->v_usecount = 1;
1.27   hannken 		mutex_exit(&mntvnode_lock);
1.43   hannken 		error = vcache_vget(vp);
1.27   hannken 		KASSERT(error == 0 || error == ENOENT);
1.27   hannken 	} while (error != 0);
1.27   hannken
1.29  christos 	return vp;
1.27   hannken }
1.27   hannken
1.45   hannken struct vnode *
1.45   hannken vfs_vnode_iterator_next(struct vnode_iterator *vni,
1.45   hannken     bool (*f)(void *, struct vnode *), void *cl)
1.45   hannken {
1.45   hannken
1.45   hannken 	return vfs_vnode_iterator_next1(vni, f, cl, false);
1.45   hannken }
1.45   hannken
 1.1     rmind /*
 1.1     rmind  * Move a vnode from one mount queue to another.
 1.1     rmind  */
 1.1     rmind void
 1.1     rmind vfs_insmntque(vnode_t *vp, struct mount *mp)
 1.1     rmind {
1.44   hannken 	vnode_impl_t *vip = VNODE_TO_VIMPL(vp);
 1.1     rmind 	struct mount *omp;
 1.1     rmind
 1.4     rmind 	KASSERT(mp == NULL || (mp->mnt_iflag & IMNT_UNMOUNT) == 0 ||
 1.4     rmind 	    vp->v_tag == VT_VFS);
 1.1     rmind
 1.1     rmind 	mutex_enter(&mntvnode_lock);
 1.1     rmind 	/*
 1.1     rmind 	 * Delete from old mount point vnode list, if on one.
 1.1     rmind 	 */
 1.1     rmind 	if ((omp = vp->v_mount) != NULL)
1.44   hannken 		TAILQ_REMOVE(&vp->v_mount->mnt_vnodelist, vip, vi_mntvnodes);
 1.1     rmind 	/*
 1.1     rmind 	 * Insert into list of vnodes for the new mount point, if
 1.1     rmind 	 * available.  The caller must take a reference on the mount
 1.1     rmind 	 * structure and donate to the vnode.
 1.1     rmind 	 */
 1.1     rmind 	if ((vp->v_mount = mp) != NULL)
1.44   hannken 		TAILQ_INSERT_TAIL(&mp->mnt_vnodelist, vip, vi_mntvnodes);
 1.1     rmind 	mutex_exit(&mntvnode_lock);
 1.1     rmind
 1.1     rmind 	if (omp != NULL) {
 1.1     rmind 		/* Release reference to old mount. */
1.55   hannken 		vfs_rele(omp);
 1.1     rmind 	}
 1.1     rmind }
 1.1     rmind
 1.1     rmind /*
 1.1     rmind  * Remove any vnodes in the vnode table belonging to mount point mp.
 1.1     rmind  *
 1.1     rmind  * If FORCECLOSE is not specified, there should not be any active ones,
 1.1     rmind  * return error if any are found (nb: this is a user error, not a
 1.1     rmind  * system error). If FORCECLOSE is specified, detach any active vnodes
 1.1     rmind  * that are found.
 1.1     rmind  *
 1.1     rmind  * If WRITECLOSE is set, only flush out regular file vnodes open for
 1.1     rmind  * writing.
 1.1     rmind  *
 1.1     rmind  * SKIPSYSTEM causes any vnodes marked VV_SYSTEM to be skipped.
 1.1     rmind  */
 1.1     rmind #ifdef DEBUG
 1.1     rmind int busyprt = 0;	/* print out busy vnodes */
 1.1     rmind struct ctldebug debug1 = { "busyprt", &busyprt };
 1.1     rmind #endif
 1.1     rmind
1.46   hannken static vnode_t *
1.46   hannken vflushnext(struct vnode_iterator *marker, int *when)
1.46   hannken {
1.46   hannken 	if (hardclock_ticks > *when) {
1.46   hannken 		yield();
1.46   hannken 		*when = hardclock_ticks + hz / 10;
1.46   hannken 	}
1.46   hannken 	return vfs_vnode_iterator_next1(marker, NULL, NULL, true);
1.46   hannken }
1.29  christos
1.46   hannken /*
1.46   hannken  * Flush one vnode.  Referenced on entry, unreferenced on return.
1.46   hannken  */
1.46   hannken static int
1.46   hannken vflush_one(vnode_t *vp, vnode_t *skipvp, int flags)
1.29  christos {
1.46   hannken 	int error;
1.46   hannken 	struct vattr vattr;
1.46   hannken
1.46   hannken 	if (vp == skipvp ||
1.46   hannken 	    ((flags & SKIPSYSTEM) && (vp->v_vflag & VV_SYSTEM))) {
1.46   hannken 		vrele(vp);
1.46   hannken 		return 0;
1.46   hannken 	}
1.29  christos 	/*
1.46   hannken 	 * If WRITECLOSE is set, only flush out regular file
1.46   hannken 	 * vnodes open for writing or open and unlinked.
1.29  christos 	 */
1.46   hannken 	if ((flags & WRITECLOSE)) {
1.46   hannken 		if (vp->v_type != VREG) {
1.46   hannken 			vrele(vp);
1.46   hannken 			return 0;
1.46   hannken 		}
1.46   hannken 		error = vn_lock(vp, LK_EXCLUSIVE);
1.46   hannken 		if (error) {
1.46   hannken 			KASSERT(error == ENOENT);
1.46   hannken 			vrele(vp);
1.46   hannken 			return 0;
1.46   hannken 		}
1.46   hannken 		error = VOP_FSYNC(vp, curlwp->l_cred, FSYNC_WAIT, 0, 0);
1.46   hannken 		if (error == 0)
1.46   hannken 			error = VOP_GETATTR(vp, &vattr, curlwp->l_cred);
1.46   hannken 		VOP_UNLOCK(vp);
1.46   hannken 		if (error) {
1.46   hannken 			vrele(vp);
1.46   hannken 			return error;
1.46   hannken 		}
1.46   hannken 		if (vp->v_writecount == 0 && vattr.va_nlink > 0) {
1.46   hannken 			vrele(vp);
1.46   hannken 			return 0;
1.46   hannken 		}
1.46   hannken 	}
1.29  christos 	/*
1.46   hannken 	 * First try to recycle the vnode.
1.29  christos 	 */
1.46   hannken 	if (vrecycle(vp))
1.46   hannken 		return 0;
1.29  christos 	/*
1.46   hannken 	 * If FORCECLOSE is set, forcibly close the vnode.
1.29  christos 	 */
1.46   hannken 	if (flags & FORCECLOSE) {
1.46   hannken 		vgone(vp);
1.46   hannken 		return 0;
1.29  christos 	}
1.46   hannken 	vrele(vp);
1.46   hannken 	return EBUSY;
1.29  christos }
1.29  christos
 1.1     rmind int
 1.1     rmind vflush(struct mount *mp, vnode_t *skipvp, int flags)
 1.1     rmind {
1.27   hannken 	vnode_t *vp;
1.27   hannken 	struct vnode_iterator *marker;
1.47   hannken 	int busy, error, when, retries = 2;
1.46   hannken
1.47   hannken 	do {
1.47   hannken 		busy = error = when = 0;
 1.1     rmind
1.47   hannken 		/*
1.47   hannken 		 * First, flush out any vnode references from the
1.47   hannken 		 * deferred vrele list.
1.47   hannken 		 */
1.47   hannken 		vfs_drainvnodes();
 1.1     rmind
1.47   hannken 		vfs_vnode_iterator_init(mp, &marker);
1.29  christos
1.47   hannken 		while ((vp = vflushnext(marker, &when)) != NULL) {
1.47   hannken 			error = vflush_one(vp, skipvp, flags);
1.47   hannken 			if (error == EBUSY) {
1.47   hannken 				error = 0;
1.47   hannken 				busy++;
 1.1     rmind #ifdef DEBUG
1.47   hannken 				if (busyprt && retries == 0)
1.47   hannken 					vprint("vflush: busy vnode", vp);
 1.1     rmind #endif
1.47   hannken 			} else if (error != 0) {
1.47   hannken 				break;
1.47   hannken 			}
1.46   hannken 		}
1.46   hannken
1.47   hannken 		vfs_vnode_iterator_destroy(marker);
1.47   hannken 	} while (error == 0 && busy > 0 && retries-- > 0);
1.46   hannken
1.46   hannken 	if (error)
1.46   hannken 		return error;
 1.1     rmind 	if (busy)
1.46   hannken 		return EBUSY;
1.45   hannken 	return 0;
 1.1     rmind }
 1.1     rmind
 1.1     rmind /*
 1.1     rmind  * Mount a file system.
 1.1     rmind  */
 1.1     rmind
 1.1     rmind /*
 1.1     rmind  * Scan all active processes to see if any of them have a current or root
 1.1     rmind  * directory onto which the new filesystem has just been  mounted. If so,
 1.1     rmind  * replace them with the new mount point.
 1.1     rmind  */
 1.1     rmind static void
 1.1     rmind mount_checkdirs(vnode_t *olddp)
 1.1     rmind {
 1.1     rmind 	vnode_t *newdp, *rele1, *rele2;
 1.1     rmind 	struct cwdinfo *cwdi;
 1.1     rmind 	struct proc *p;
 1.1     rmind 	bool retry;
 1.1     rmind
 1.1     rmind 	if (olddp->v_usecount == 1) {
 1.1     rmind 		return;
 1.1     rmind 	}
 1.1     rmind 	if (VFS_ROOT(olddp->v_mountedhere, &newdp))
 1.1     rmind 		panic("mount: lost mount");
 1.1     rmind
 1.1     rmind 	do {
 1.1     rmind 		retry = false;
 1.1     rmind 		mutex_enter(proc_lock);
 1.1     rmind 		PROCLIST_FOREACH(p, &allproc) {
 1.1     rmind 			if ((cwdi = p->p_cwdi) == NULL)
 1.1     rmind 				continue;
 1.1     rmind 			/*
 1.1     rmind 			 * Cannot change to the old directory any more,
 1.1     rmind 			 * so even if we see a stale value it is not a
 1.1     rmind 			 * problem.
 1.1     rmind 			 */
 1.1     rmind 			if (cwdi->cwdi_cdir != olddp &&
 1.1     rmind 			    cwdi->cwdi_rdir != olddp)
 1.1     rmind 				continue;
 1.1     rmind 			retry = true;
 1.1     rmind 			rele1 = NULL;
 1.1     rmind 			rele2 = NULL;
 1.1     rmind 			atomic_inc_uint(&cwdi->cwdi_refcnt);
 1.1     rmind 			mutex_exit(proc_lock);
 1.1     rmind 			rw_enter(&cwdi->cwdi_lock, RW_WRITER);
 1.1     rmind 			if (cwdi->cwdi_cdir == olddp) {
 1.1     rmind 				rele1 = cwdi->cwdi_cdir;
 1.1     rmind 				vref(newdp);
 1.1     rmind 				cwdi->cwdi_cdir = newdp;
 1.1     rmind 			}
 1.1     rmind 			if (cwdi->cwdi_rdir == olddp) {
 1.1     rmind 				rele2 = cwdi->cwdi_rdir;
 1.1     rmind 				vref(newdp);
 1.1     rmind 				cwdi->cwdi_rdir = newdp;
 1.1     rmind 			}
 1.1     rmind 			rw_exit(&cwdi->cwdi_lock);
 1.1     rmind 			cwdfree(cwdi);
 1.1     rmind 			if (rele1 != NULL)
 1.1     rmind 				vrele(rele1);
 1.1     rmind 			if (rele2 != NULL)
 1.1     rmind 				vrele(rele2);
 1.1     rmind 			mutex_enter(proc_lock);
 1.1     rmind 			break;
 1.1     rmind 		}
 1.1     rmind 		mutex_exit(proc_lock);
 1.1     rmind 	} while (retry);
 1.1     rmind
 1.1     rmind 	if (rootvnode == olddp) {
 1.1     rmind 		vrele(rootvnode);
 1.1     rmind 		vref(newdp);
 1.1     rmind 		rootvnode = newdp;
 1.1     rmind 	}
 1.1     rmind 	vput(newdp);
 1.1     rmind }
 1.1     rmind
1.31      manu /*
1.31      manu  * Start extended attributes
1.31      manu  */
1.31      manu static int
1.31      manu start_extattr(struct mount *mp)
1.31      manu {
1.31      manu 	int error;
1.31      manu
1.31      manu 	error = VFS_EXTATTRCTL(mp, EXTATTR_CMD_START, NULL, 0, NULL);
1.31      manu 	if (error)
1.31      manu 		printf("%s: failed to start extattr: error = %d\n",
1.31      manu 		       mp->mnt_stat.f_mntonname, error);
1.31      manu
1.31      manu 	return error;
1.31      manu }
1.31      manu
 1.1     rmind int
 1.1     rmind mount_domount(struct lwp *l, vnode_t **vpp, struct vfsops *vfsops,
 1.1     rmind     const char *path, int flags, void *data, size_t *data_len)
 1.1     rmind {
 1.1     rmind 	vnode_t *vp = *vpp;
 1.1     rmind 	struct mount *mp;
 1.1     rmind 	struct pathbuf *pb;
 1.1     rmind 	struct nameidata nd;
 1.1     rmind 	int error;
 1.1     rmind
 1.1     rmind 	error = kauth_authorize_system(l->l_cred, KAUTH_SYSTEM_MOUNT,
 1.1     rmind 	    KAUTH_REQ_SYSTEM_MOUNT_NEW, vp, KAUTH_ARG(flags), data);
 1.1     rmind 	if (error) {
 1.1     rmind 		vfs_delref(vfsops);
 1.1     rmind 		return error;
 1.1     rmind 	}
 1.1     rmind
 1.1     rmind 	/* Cannot make a non-dir a mount-point (from here anyway). */
 1.1     rmind 	if (vp->v_type != VDIR) {
 1.1     rmind 		vfs_delref(vfsops);
 1.1     rmind 		return ENOTDIR;
 1.1     rmind 	}
 1.1     rmind
 1.1     rmind 	if (flags & MNT_EXPORTED) {
 1.1     rmind 		vfs_delref(vfsops);
 1.1     rmind 		return EINVAL;
 1.1     rmind 	}
 1.1     rmind
 1.1     rmind 	if ((mp = vfs_mountalloc(vfsops, vp)) == NULL) {
 1.1     rmind 		vfs_delref(vfsops);
 1.1     rmind 		return ENOMEM;
 1.1     rmind 	}
 1.1     rmind
 1.1     rmind 	mp->mnt_stat.f_owner = kauth_cred_geteuid(l->l_cred);
 1.1     rmind
 1.1     rmind 	/*
 1.1     rmind 	 * The underlying file system may refuse the mount for
 1.1     rmind 	 * various reasons.  Allow the user to force it to happen.
 1.1     rmind 	 *
 1.1     rmind 	 * Set the mount level flags.
 1.1     rmind 	 */
1.12  christos 	mp->mnt_flag = flags & (MNT_BASIC_FLAGS | MNT_FORCE | MNT_IGNORE);
 1.1     rmind
 1.1     rmind 	mutex_enter(&mp->mnt_updating);
 1.1     rmind 	error = VFS_MOUNT(mp, path, data, data_len);
 1.1     rmind 	mp->mnt_flag &= ~MNT_OP_FLAGS;
 1.1     rmind
 1.1     rmind 	if (error != 0)
 1.1     rmind 		goto err_unmounted;
 1.1     rmind
 1.1     rmind 	/*
 1.1     rmind 	 * Validate and prepare the mount point.
 1.1     rmind 	 */
 1.1     rmind 	error = pathbuf_copyin(path, &pb);
 1.1     rmind 	if (error != 0) {
 1.1     rmind 		goto err_mounted;
 1.1     rmind 	}
 1.1     rmind 	NDINIT(&nd, LOOKUP, FOLLOW | LOCKLEAF | TRYEMULROOT, pb);
 1.1     rmind 	error = namei(&nd);
 1.1     rmind 	pathbuf_destroy(pb);
 1.1     rmind 	if (error != 0) {
 1.1     rmind 		goto err_mounted;
 1.1     rmind 	}
 1.1     rmind 	if (nd.ni_vp != vp) {
 1.1     rmind 		vput(nd.ni_vp);
 1.1     rmind 		error = EINVAL;
 1.1     rmind 		goto err_mounted;
 1.1     rmind 	}
 1.1     rmind 	if (vp->v_mountedhere != NULL) {
 1.1     rmind 		vput(nd.ni_vp);
 1.1     rmind 		error = EBUSY;
 1.1     rmind 		goto err_mounted;
 1.1     rmind 	}
 1.1     rmind 	error = vinvalbuf(vp, V_SAVE, l->l_cred, l, 0, 0);
 1.1     rmind 	if (error != 0) {
 1.1     rmind 		vput(nd.ni_vp);
 1.1     rmind 		goto err_mounted;
 1.1     rmind 	}
 1.1     rmind
 1.1     rmind 	/*
 1.1     rmind 	 * Put the new filesystem on the mount list after root.
 1.1     rmind 	 */
 1.1     rmind 	cache_purge(vp);
 1.1     rmind 	mp->mnt_iflag &= ~IMNT_WANTRDWR;
 1.1     rmind
1.52   hannken 	mountlist_append(mp);
 1.1     rmind 	if ((mp->mnt_flag & (MNT_RDONLY | MNT_ASYNC)) == 0)
1.35   hannken 		vfs_syncer_add_to_worklist(mp);
1.35   hannken 	vp->v_mountedhere = mp;
 1.1     rmind 	vput(nd.ni_vp);
 1.1     rmind
 1.1     rmind 	mount_checkdirs(vp);
 1.1     rmind 	mutex_exit(&mp->mnt_updating);
 1.1     rmind
 1.1     rmind 	/* Hold an additional reference to the mount across VFS_START(). */
1.56   hannken 	vfs_ref(mp);
 1.1     rmind 	(void) VFS_STATVFS(mp, &mp->mnt_stat);
 1.1     rmind 	error = VFS_START(mp, 0);
1.14      gson        if (error) {
 1.1     rmind 		vrele(vp);
1.31      manu 	} else if (flags & MNT_EXTATTR) {
1.31      manu 		(void)start_extattr(mp);
1.31      manu 	}
 1.1     rmind 	/* Drop reference held for VFS_START(). */
1.55   hannken 	vfs_rele(mp);
 1.1     rmind 	*vpp = NULL;
 1.1     rmind 	return error;
 1.1     rmind
 1.1     rmind err_mounted:
 1.1     rmind 	if (VFS_UNMOUNT(mp, MNT_FORCE) != 0)
 1.1     rmind 		panic("Unmounting fresh file system failed");
 1.1     rmind
 1.1     rmind err_unmounted:
 1.1     rmind 	vp->v_mountedhere = NULL;
 1.1     rmind 	mutex_exit(&mp->mnt_updating);
1.48   hannken 	fstrans_unmount(mp);
1.55   hannken 	vfs_rele(mp);
 1.1     rmind
 1.1     rmind 	return error;
 1.1     rmind }
 1.1     rmind
 1.1     rmind /*
 1.1     rmind  * Do the actual file system unmount.  File system is assumed to have
 1.1     rmind  * been locked by the caller.
 1.1     rmind  *
 1.1     rmind  * => Caller hold reference to the mount, explicitly for dounmount().
 1.1     rmind  */
 1.1     rmind int
 1.1     rmind dounmount(struct mount *mp, int flags, struct lwp *l)
 1.1     rmind {
1.53   hannken 	mount_iterator_t *iter;
1.49   hannken 	struct mount *cmp;
 1.1     rmind 	vnode_t *coveredvp;
1.31      manu 	int error, async, used_syncer, used_extattr;
 1.1     rmind
 1.1     rmind #if NVERIEXEC > 0
 1.1     rmind 	error = veriexec_unmountchk(mp);
 1.1     rmind 	if (error)
 1.1     rmind 		return (error);
 1.1     rmind #endif /* NVERIEXEC > 0 */
 1.1     rmind
 1.1     rmind 	/*
1.49   hannken 	 * No unmount below layered mounts.
1.49   hannken 	 */
1.53   hannken 	mountlist_iterator_init(&iter);
1.53   hannken 	while ((cmp = mountlist_iterator_next(iter)) != NULL) {
1.49   hannken 		if (cmp->mnt_lower == mp) {
1.53   hannken 			mountlist_iterator_destroy(iter);
1.49   hannken 			return EBUSY;
1.49   hannken 		}
1.49   hannken 	}
1.53   hannken 	mountlist_iterator_destroy(iter);
1.49   hannken
1.49   hannken 	/*
 1.1     rmind 	 * XXX Freeze syncer.  Must do this before locking the
 1.1     rmind 	 * mount point.  See dounmount() for details.
 1.1     rmind 	 */
 1.1     rmind 	mutex_enter(&syncer_mutex);
1.18   mlelstv
1.18   mlelstv 	/*
1.18   mlelstv 	 * Abort unmount attempt when the filesystem is in use
1.18   mlelstv 	 */
1.18   mlelstv 	mutex_enter(&mp->mnt_unmounting);
1.18   mlelstv 	if (mp->mnt_busynest != 0) {
1.18   mlelstv 		mutex_exit(&mp->mnt_unmounting);
1.18   mlelstv 		mutex_exit(&syncer_mutex);
1.18   mlelstv 		return EBUSY;
1.18   mlelstv 	}
1.18   mlelstv
1.18   mlelstv 	/*
1.18   mlelstv 	 * Abort unmount attempt when the filesystem is not mounted
1.18   mlelstv 	 */
 1.1     rmind 	if ((mp->mnt_iflag & IMNT_GONE) != 0) {
1.18   mlelstv 		mutex_exit(&mp->mnt_unmounting);
 1.1     rmind 		mutex_exit(&syncer_mutex);
 1.1     rmind 		return ENOENT;
 1.1     rmind 	}
 1.1     rmind
1.35   hannken 	used_syncer = (mp->mnt_iflag & IMNT_ONWORKLIST) != 0;
1.31      manu 	used_extattr = mp->mnt_flag & MNT_EXTATTR;
 1.1     rmind
 1.1     rmind 	/*
 1.1     rmind 	 * XXX Syncer must be frozen when we get here.  This should really
 1.1     rmind 	 * be done on a per-mountpoint basis, but the syncer doesn't work
 1.1     rmind 	 * like that.
 1.1     rmind 	 *
 1.1     rmind 	 * The caller of dounmount() must acquire syncer_mutex because
 1.1     rmind 	 * the syncer itself acquires locks in syncer_mutex -> vfs_busy
 1.1     rmind 	 * order, and we must preserve that order to avoid deadlock.
 1.1     rmind 	 *
 1.1     rmind 	 * So, if the file system did not use the syncer, now is
 1.1     rmind 	 * the time to release the syncer_mutex.
 1.1     rmind 	 */
 1.1     rmind 	if (used_syncer == 0) {
 1.1     rmind 		mutex_exit(&syncer_mutex);
 1.1     rmind 	}
 1.1     rmind 	mp->mnt_iflag |= IMNT_UNMOUNT;
1.18   mlelstv 	mutex_enter(&mp->mnt_updating);
 1.1     rmind 	async = mp->mnt_flag & MNT_ASYNC;
 1.1     rmind 	mp->mnt_flag &= ~MNT_ASYNC;
 1.1     rmind 	cache_purgevfs(mp);	/* remove cache entries for this file sys */
1.35   hannken 	if (used_syncer)
1.35   hannken 		vfs_syncer_remove_from_worklist(mp);
 1.1     rmind 	error = 0;
1.36      manu 	if (((mp->mnt_flag & MNT_RDONLY) == 0) && ((flags & MNT_FORCE) == 0)) {
 1.1     rmind 		error = VFS_SYNC(mp, MNT_WAIT, l->l_cred);
 1.1     rmind 	}
 1.1     rmind 	if (error == 0 || (flags & MNT_FORCE)) {
 1.1     rmind 		error = VFS_UNMOUNT(mp, flags);
 1.1     rmind 	}
 1.1     rmind 	if (error) {
1.18   mlelstv 		mp->mnt_iflag &= ~IMNT_UNMOUNT;
1.18   mlelstv 		mutex_exit(&mp->mnt_unmounting);
 1.1     rmind 		if ((mp->mnt_flag & (MNT_RDONLY | MNT_ASYNC)) == 0)
1.35   hannken 			vfs_syncer_add_to_worklist(mp);
 1.1     rmind 		mp->mnt_flag |= async;
1.18   mlelstv 		mutex_exit(&mp->mnt_updating);
 1.1     rmind 		if (used_syncer)
 1.1     rmind 			mutex_exit(&syncer_mutex);
1.31      manu 		if (used_extattr) {
1.31      manu 			if (start_extattr(mp) != 0)
1.31      manu 				mp->mnt_flag &= ~MNT_EXTATTR;
1.31      manu 			else
1.31      manu 				mp->mnt_flag |= MNT_EXTATTR;
1.31      manu 		}
 1.1     rmind 		return (error);
 1.1     rmind 	}
1.18   mlelstv 	mutex_exit(&mp->mnt_updating);
1.19   mlelstv
1.19   mlelstv 	/*
1.19   mlelstv 	 * release mnt_umounting lock here, because other code calls
1.19   mlelstv 	 * vfs_busy() while holding the mountlist_lock.
1.19   mlelstv 	 *
1.19   mlelstv 	 * mark filesystem as gone to prevent further umounts
1.19   mlelstv 	 * after mnt_umounting lock is gone, this also prevents
1.19   mlelstv 	 * vfs_busy() from succeeding.
1.19   mlelstv 	 */
1.19   mlelstv 	mp->mnt_iflag |= IMNT_GONE;
1.19   mlelstv 	mutex_exit(&mp->mnt_unmounting);
1.19   mlelstv
1.20   hannken 	if ((coveredvp = mp->mnt_vnodecovered) != NULLVP) {
1.20   hannken 		vn_lock(coveredvp, LK_EXCLUSIVE | LK_RETRY);
1.20   hannken 		coveredvp->v_mountedhere = NULL;
1.20   hannken 		VOP_UNLOCK(coveredvp);
1.20   hannken 	}
1.52   hannken 	mountlist_remove(mp);
1.25  christos 	if (TAILQ_FIRST(&mp->mnt_vnodelist) != NULL)
 1.1     rmind 		panic("unmount: dangling vnode");
 1.1     rmind 	if (used_syncer)
 1.1     rmind 		mutex_exit(&syncer_mutex);
 1.1     rmind 	vfs_hooks_unmount(mp);
1.19   mlelstv
1.48   hannken 	fstrans_unmount(mp);
1.55   hannken 	vfs_rele(mp);	/* reference from mount() */
 1.1     rmind 	if (coveredvp != NULLVP) {
 1.1     rmind 		vrele(coveredvp);
 1.1     rmind 	}
 1.1     rmind 	return (0);
 1.1     rmind }
 1.1     rmind
 1.1     rmind /*
 1.1     rmind  * Unmount all file systems.
 1.1     rmind  * We traverse the list in reverse order under the assumption that doing so
 1.1     rmind  * will avoid needing to worry about dependencies.
 1.1     rmind  */
 1.1     rmind bool
 1.1     rmind vfs_unmountall(struct lwp *l)
 1.1     rmind {
 1.1     rmind
1.16     pooka 	printf("unmounting file systems...\n");
 1.1     rmind 	return vfs_unmountall1(l, true, true);
 1.1     rmind }
 1.1     rmind
 1.1     rmind static void
 1.1     rmind vfs_unmount_print(struct mount *mp, const char *pfx)
 1.1     rmind {
 1.1     rmind
 1.1     rmind 	aprint_verbose("%sunmounted %s on %s type %s\n", pfx,
 1.1     rmind 	    mp->mnt_stat.f_mntfromname, mp->mnt_stat.f_mntonname,
 1.1     rmind 	    mp->mnt_stat.f_fstypename);
 1.1     rmind }
 1.1     rmind
1.53   hannken /*
1.53   hannken  * Return the mount with the highest generation less than "gen".
1.53   hannken  */
1.53   hannken static struct mount *
1.53   hannken vfs_unmount_next(uint64_t gen)
 1.1     rmind {
1.53   hannken 	mount_iterator_t *iter;
 1.1     rmind 	struct mount *mp, *nmp;
 1.1     rmind
 1.1     rmind 	nmp = NULL;
 1.1     rmind
1.53   hannken 	mountlist_iterator_init(&iter);
1.53   hannken 	while ((mp = mountlist_iterator_next(iter)) != NULL) {
1.53   hannken 		if ((nmp == NULL || mp->mnt_gen > nmp->mnt_gen) &&
1.53   hannken 		    mp->mnt_gen < gen) {
1.53   hannken 			if (nmp != NULL)
1.55   hannken 				vfs_rele(nmp);
 1.1     rmind 			nmp = mp;
1.55   hannken 			vfs_ref(nmp);
 1.1     rmind 		}
 1.1     rmind 	}
1.53   hannken 	mountlist_iterator_destroy(iter);
1.53   hannken
1.53   hannken 	return nmp;
1.53   hannken }
1.53   hannken
1.53   hannken bool
1.53   hannken vfs_unmount_forceone(struct lwp *l)
1.53   hannken {
1.53   hannken 	struct mount *mp;
1.53   hannken 	int error;
1.53   hannken
1.53   hannken 	mp = vfs_unmount_next(mountgen);
1.53   hannken 	if (mp == NULL) {
 1.1     rmind 		return false;
 1.1     rmind 	}
 1.1     rmind
 1.1     rmind #ifdef DEBUG
1.16     pooka 	printf("forcefully unmounting %s (%s)...\n",
1.53   hannken 	    mp->mnt_stat.f_mntonname, mp->mnt_stat.f_mntfromname);
 1.1     rmind #endif
1.53   hannken 	if ((error = dounmount(mp, MNT_FORCE, l)) == 0) {
1.53   hannken 		vfs_unmount_print(mp, "forcefully ");
 1.1     rmind 		return true;
 1.1     rmind 	} else {
1.55   hannken 		vfs_rele(mp);
 1.1     rmind 	}
 1.1     rmind
 1.1     rmind #ifdef DEBUG
 1.1     rmind 	printf("forceful unmount of %s failed with error %d\n",
1.53   hannken 	    mp->mnt_stat.f_mntonname, error);
 1.1     rmind #endif
 1.1     rmind
 1.1     rmind 	return false;
 1.1     rmind }
 1.1     rmind
 1.1     rmind bool
 1.1     rmind vfs_unmountall1(struct lwp *l, bool force, bool verbose)
 1.1     rmind {
1.53   hannken 	struct mount *mp;
 1.1     rmind 	bool any_error = false, progress = false;
1.53   hannken 	uint64_t gen;
 1.1     rmind 	int error;
 1.1     rmind
1.53   hannken 	gen = mountgen;
1.53   hannken 	for (;;) {
1.53   hannken 		mp = vfs_unmount_next(gen);
1.53   hannken 		if (mp == NULL)
1.53   hannken 			break;
1.53   hannken 		gen = mp->mnt_gen;
1.53   hannken
 1.1     rmind #ifdef DEBUG
1.16     pooka 		printf("unmounting %p %s (%s)...\n",
 1.1     rmind 		    (void *)mp, mp->mnt_stat.f_mntonname,
 1.1     rmind 		    mp->mnt_stat.f_mntfromname);
 1.1     rmind #endif
 1.1     rmind 		if ((error = dounmount(mp, force ? MNT_FORCE : 0, l)) == 0) {
 1.1     rmind 			vfs_unmount_print(mp, "");
 1.1     rmind 			progress = true;
 1.1     rmind 		} else {
1.55   hannken 			vfs_rele(mp);
 1.1     rmind 			if (verbose) {
 1.1     rmind 				printf("unmount of %s failed with error %d\n",
 1.1     rmind 				    mp->mnt_stat.f_mntonname, error);
 1.1     rmind 			}
 1.1     rmind 			any_error = true;
 1.1     rmind 		}
 1.1     rmind 	}
 1.1     rmind 	if (verbose) {
1.16     pooka 		printf("unmounting done\n");
 1.1     rmind 	}
 1.1     rmind 	if (any_error && verbose) {
 1.1     rmind 		printf("WARNING: some file systems would not unmount\n");
 1.1     rmind 	}
 1.1     rmind 	return progress;
 1.1     rmind }
 1.1     rmind
 1.1     rmind void
 1.1     rmind vfs_sync_all(struct lwp *l)
 1.1     rmind {
 1.1     rmind 	printf("syncing disks... ");
 1.1     rmind
 1.1     rmind 	/* remove user processes from run queue */
 1.1     rmind 	suspendsched();
 1.1     rmind 	(void)spl0();
 1.1     rmind
 1.1     rmind 	/* avoid coming back this way again if we panic. */
 1.1     rmind 	doing_shutdown = 1;
 1.1     rmind
 1.5       dsl 	do_sys_sync(l);
 1.1     rmind
 1.1     rmind 	/* Wait for sync to finish. */
 1.1     rmind 	if (buf_syncwait() != 0) {
 1.1     rmind #if defined(DDB) && defined(DEBUG_HALT_BUSY)
 1.1     rmind 		Debugger();
 1.1     rmind #endif
 1.1     rmind 		printf("giving up\n");
 1.1     rmind 		return;
 1.1     rmind 	} else
 1.1     rmind 		printf("done\n");
 1.1     rmind }
 1.1     rmind
 1.3     rmind /*
 1.3     rmind  * Sync and unmount file systems before shutting down.
 1.3     rmind  */
 1.3     rmind void
 1.3     rmind vfs_shutdown(void)
 1.1     rmind {
 1.3     rmind 	lwp_t *l = curlwp;
 1.1     rmind
 1.1     rmind 	vfs_sync_all(l);
 1.1     rmind
 1.1     rmind 	/*
 1.3     rmind 	 * If we have paniced - do not make the situation potentially
 1.1     rmind 	 * worse by unmounting the file systems.
 1.1     rmind 	 */
 1.3     rmind 	if (panicstr != NULL) {
 1.1     rmind 		return;
 1.3     rmind 	}
 1.1     rmind
 1.1     rmind 	/* Unmount file systems. */
 1.1     rmind 	vfs_unmountall(l);
 1.1     rmind }
 1.1     rmind
 1.1     rmind /*
 1.1     rmind  * Print a list of supported file system types (used by vfs_mountroot)
 1.1     rmind  */
 1.1     rmind static void
 1.1     rmind vfs_print_fstypes(void)
 1.1     rmind {
 1.1     rmind 	struct vfsops *v;
 1.1     rmind 	int cnt = 0;
 1.1     rmind
 1.1     rmind 	mutex_enter(&vfs_list_lock);
 1.1     rmind 	LIST_FOREACH(v, &vfs_list, vfs_list)
 1.1     rmind 		++cnt;
 1.1     rmind 	mutex_exit(&vfs_list_lock);
 1.1     rmind
 1.1     rmind 	if (cnt == 0) {
 1.1     rmind 		printf("WARNING: No file system modules have been loaded.\n");
 1.1     rmind 		return;
 1.1     rmind 	}
 1.1     rmind
 1.1     rmind 	printf("Supported file systems:");
 1.1     rmind 	mutex_enter(&vfs_list_lock);
 1.1     rmind 	LIST_FOREACH(v, &vfs_list, vfs_list) {
 1.1     rmind 		printf(" %s", v->vfs_name);
 1.1     rmind 	}
 1.1     rmind 	mutex_exit(&vfs_list_lock);
 1.1     rmind 	printf("\n");
 1.1     rmind }
 1.1     rmind
 1.1     rmind /*
 1.1     rmind  * Mount the root file system.  If the operator didn't specify a
 1.1     rmind  * file system to use, try all possible file systems until one
 1.1     rmind  * succeeds.
 1.1     rmind  */
 1.1     rmind int
 1.1     rmind vfs_mountroot(void)
 1.1     rmind {
 1.1     rmind 	struct vfsops *v;
 1.1     rmind 	int error = ENODEV;
 1.1     rmind
 1.1     rmind 	if (root_device == NULL)
 1.1     rmind 		panic("vfs_mountroot: root device unknown");
 1.1     rmind
 1.1     rmind 	switch (device_class(root_device)) {
 1.1     rmind 	case DV_IFNET:
 1.1     rmind 		if (rootdev != NODEV)
 1.1     rmind 			panic("vfs_mountroot: rootdev set for DV_IFNET "
 1.1     rmind 			    "(0x%llx -> %llu,%llu)",
 1.1     rmind 			    (unsigned long long)rootdev,
 1.1     rmind 			    (unsigned long long)major(rootdev),
 1.1     rmind 			    (unsigned long long)minor(rootdev));
 1.1     rmind 		break;
 1.1     rmind
 1.1     rmind 	case DV_DISK:
 1.1     rmind 		if (rootdev == NODEV)
 1.1     rmind 			panic("vfs_mountroot: rootdev not set for DV_DISK");
 1.1     rmind 	        if (bdevvp(rootdev, &rootvp))
 1.1     rmind 	                panic("vfs_mountroot: can't get vnode for rootdev");
 1.1     rmind 		error = VOP_OPEN(rootvp, FREAD, FSCRED);
 1.1     rmind 		if (error) {
 1.1     rmind 			printf("vfs_mountroot: can't open root device\n");
 1.1     rmind 			return (error);
 1.1     rmind 		}
 1.1     rmind 		break;
 1.1     rmind
 1.1     rmind 	case DV_VIRTUAL:
 1.1     rmind 		break;
 1.1     rmind
 1.1     rmind 	default:
 1.1     rmind 		printf("%s: inappropriate for root file system\n",
 1.1     rmind 		    device_xname(root_device));
 1.1     rmind 		return (ENODEV);
 1.1     rmind 	}
 1.1     rmind
 1.1     rmind 	/*
 1.1     rmind 	 * If user specified a root fs type, use it.  Make sure the
 1.1     rmind 	 * specified type exists and has a mount_root()
 1.1     rmind 	 */
 1.1     rmind 	if (strcmp(rootfstype, ROOT_FSTYPE_ANY) != 0) {
 1.1     rmind 		v = vfs_getopsbyname(rootfstype);
 1.1     rmind 		error = EFTYPE;
 1.1     rmind 		if (v != NULL) {
 1.1     rmind 			if (v->vfs_mountroot != NULL) {
 1.1     rmind 				error = (v->vfs_mountroot)();
 1.1     rmind 			}
 1.1     rmind 			v->vfs_refcount--;
 1.1     rmind 		}
 1.1     rmind 		goto done;
 1.1     rmind 	}
 1.1     rmind
 1.1     rmind 	/*
 1.1     rmind 	 * Try each file system currently configured into the kernel.
 1.1     rmind 	 */
 1.1     rmind 	mutex_enter(&vfs_list_lock);
 1.1     rmind 	LIST_FOREACH(v, &vfs_list, vfs_list) {
 1.1     rmind 		if (v->vfs_mountroot == NULL)
 1.1     rmind 			continue;
 1.1     rmind #ifdef DEBUG
 1.1     rmind 		aprint_normal("mountroot: trying %s...\n", v->vfs_name);
 1.1     rmind #endif
 1.1     rmind 		v->vfs_refcount++;
 1.1     rmind 		mutex_exit(&vfs_list_lock);
 1.1     rmind 		error = (*v->vfs_mountroot)();
 1.1     rmind 		mutex_enter(&vfs_list_lock);
 1.1     rmind 		v->vfs_refcount--;
 1.1     rmind 		if (!error) {
 1.1     rmind 			aprint_normal("root file system type: %s\n",
 1.1     rmind 			    v->vfs_name);
 1.1     rmind 			break;
 1.1     rmind 		}
 1.1     rmind 	}
 1.1     rmind 	mutex_exit(&vfs_list_lock);
 1.1     rmind
 1.1     rmind 	if (v == NULL) {
 1.1     rmind 		vfs_print_fstypes();
 1.1     rmind 		printf("no file system for %s", device_xname(root_device));
 1.1     rmind 		if (device_class(root_device) == DV_DISK)
 1.1     rmind 			printf(" (dev 0x%llx)", (unsigned long long)rootdev);
 1.1     rmind 		printf("\n");
 1.1     rmind 		error = EFTYPE;
 1.1     rmind 	}
 1.1     rmind
 1.1     rmind done:
 1.1     rmind 	if (error && device_class(root_device) == DV_DISK) {
 1.1     rmind 		VOP_CLOSE(rootvp, FREAD, FSCRED);
 1.1     rmind 		vrele(rootvp);
 1.1     rmind 	}
 1.1     rmind 	if (error == 0) {
1.53   hannken 		mount_iterator_t *iter;
1.24  christos 		struct mount *mp;
 1.1     rmind 		extern struct cwdinfo cwdi0;
 1.1     rmind
1.53   hannken 		mountlist_iterator_init(&iter);
1.53   hannken 		mp = mountlist_iterator_next(iter);
1.53   hannken 		KASSERT(mp != NULL);
1.53   hannken 		mountlist_iterator_destroy(iter);
1.53   hannken
1.24  christos 		mp->mnt_flag |= MNT_ROOTFS;
1.24  christos 		mp->mnt_op->vfs_refcount++;
 1.1     rmind
 1.1     rmind 		/*
 1.1     rmind 		 * Get the vnode for '/'.  Set cwdi0.cwdi_cdir to
 1.1     rmind 		 * reference it.
 1.1     rmind 		 */
1.24  christos 		error = VFS_ROOT(mp, &rootvnode);
 1.1     rmind 		if (error)
 1.1     rmind 			panic("cannot find root vnode, error=%d", error);
 1.1     rmind 		cwdi0.cwdi_cdir = rootvnode;
 1.1     rmind 		vref(cwdi0.cwdi_cdir);
 1.1     rmind 		VOP_UNLOCK(rootvnode);
 1.1     rmind 		cwdi0.cwdi_rdir = NULL;
 1.1     rmind
 1.1     rmind 		/*
 1.1     rmind 		 * Now that root is mounted, we can fixup initproc's CWD
 1.1     rmind 		 * info.  All other processes are kthreads, which merely
 1.1     rmind 		 * share proc0's CWD info.
 1.1     rmind 		 */
 1.1     rmind 		initproc->p_cwdi->cwdi_cdir = rootvnode;
 1.1     rmind 		vref(initproc->p_cwdi->cwdi_cdir);
 1.1     rmind 		initproc->p_cwdi->cwdi_rdir = NULL;
 1.1     rmind 		/*
 1.1     rmind 		 * Enable loading of modules from the filesystem
 1.1     rmind 		 */
 1.1     rmind 		module_load_vfs_init();
 1.1     rmind
 1.1     rmind 	}
 1.1     rmind 	return (error);
 1.1     rmind }
 1.1     rmind
 1.1     rmind /*
 1.1     rmind  * mount_specific_key_create --
 1.1     rmind  *	Create a key for subsystem mount-specific data.
 1.1     rmind  */
 1.1     rmind int
 1.1     rmind mount_specific_key_create(specificdata_key_t *keyp, specificdata_dtor_t dtor)
 1.1     rmind {
 1.1     rmind
 1.1     rmind 	return specificdata_key_create(mount_specificdata_domain, keyp, dtor);
 1.1     rmind }
 1.1     rmind
 1.1     rmind /*
 1.1     rmind  * mount_specific_key_delete --
 1.1     rmind  *	Delete a key for subsystem mount-specific data.
 1.1     rmind  */
 1.1     rmind void
 1.1     rmind mount_specific_key_delete(specificdata_key_t key)
 1.1     rmind {
 1.1     rmind
 1.1     rmind 	specificdata_key_delete(mount_specificdata_domain, key);
 1.1     rmind }
 1.1     rmind
 1.1     rmind /*
 1.1     rmind  * mount_initspecific --
 1.1     rmind  *	Initialize a mount's specificdata container.
 1.1     rmind  */
 1.1     rmind void
 1.1     rmind mount_initspecific(struct mount *mp)
 1.1     rmind {
1.22    martin 	int error __diagused;
 1.1     rmind
 1.1     rmind 	error = specificdata_init(mount_specificdata_domain,
 1.1     rmind 				  &mp->mnt_specdataref);
 1.1     rmind 	KASSERT(error == 0);
 1.1     rmind }
 1.1     rmind
 1.1     rmind /*
 1.1     rmind  * mount_finispecific --
 1.1     rmind  *	Finalize a mount's specificdata container.
 1.1     rmind  */
 1.1     rmind void
 1.1     rmind mount_finispecific(struct mount *mp)
 1.1     rmind {
 1.1     rmind
 1.1     rmind 	specificdata_fini(mount_specificdata_domain, &mp->mnt_specdataref);
 1.1     rmind }
 1.1     rmind
 1.1     rmind /*
 1.1     rmind  * mount_getspecific --
 1.1     rmind  *	Return mount-specific data corresponding to the specified key.
 1.1     rmind  */
 1.1     rmind void *
 1.1     rmind mount_getspecific(struct mount *mp, specificdata_key_t key)
 1.1     rmind {
 1.1     rmind
 1.1     rmind 	return specificdata_getspecific(mount_specificdata_domain,
 1.1     rmind 					 &mp->mnt_specdataref, key);
 1.1     rmind }
 1.1     rmind
 1.1     rmind /*
 1.1     rmind  * mount_setspecific --
 1.1     rmind  *	Set mount-specific data corresponding to the specified key.
 1.1     rmind  */
 1.1     rmind void
 1.1     rmind mount_setspecific(struct mount *mp, specificdata_key_t key, void *data)
 1.1     rmind {
 1.1     rmind
 1.1     rmind 	specificdata_setspecific(mount_specificdata_domain,
 1.1     rmind 				 &mp->mnt_specdataref, key, data);
 1.1     rmind }
 1.1     rmind
 1.1     rmind /*
 1.1     rmind  * Check to see if a filesystem is mounted on a block device.
 1.1     rmind  */
 1.1     rmind int
 1.1     rmind vfs_mountedon(vnode_t *vp)
 1.1     rmind {
 1.1     rmind 	vnode_t *vq;
 1.1     rmind 	int error = 0;
 1.1     rmind
 1.1     rmind 	if (vp->v_type != VBLK)
 1.1     rmind 		return ENOTBLK;
1.21   hannken 	if (spec_node_getmountedfs(vp) != NULL)
1.17   hannken 		return EBUSY;
1.17   hannken 	if (spec_node_lookup_by_dev(vp->v_type, vp->v_rdev, &vq) == 0) {
1.21   hannken 		if (spec_node_getmountedfs(vq) != NULL)
 1.1     rmind 			error = EBUSY;
1.17   hannken 		vrele(vq);
 1.1     rmind 	}
1.17   hannken
1.17   hannken 	return error;
 1.1     rmind }
 1.1     rmind
 1.1     rmind /*
 1.1     rmind  * Check if a device pointed to by vp is mounted.
 1.1     rmind  *
 1.1     rmind  * Returns:
 1.1     rmind  *   EINVAL	if it's not a disk
 1.1     rmind  *   EBUSY	if it's a disk and mounted
 1.1     rmind  *   0		if it's a disk and not mounted
 1.1     rmind  */
 1.1     rmind int
 1.1     rmind rawdev_mounted(vnode_t *vp, vnode_t **bvpp)
 1.1     rmind {
 1.1     rmind 	vnode_t *bvp;
 1.1     rmind 	dev_t dev;
 1.1     rmind 	int d_type;
 1.1     rmind
 1.1     rmind 	bvp = NULL;
 1.1     rmind 	d_type = D_OTHER;
 1.1     rmind
 1.1     rmind 	if (iskmemvp(vp))
 1.1     rmind 		return EINVAL;
 1.1     rmind
 1.1     rmind 	switch (vp->v_type) {
 1.1     rmind 	case VCHR: {
 1.1     rmind 		const struct cdevsw *cdev;
 1.1     rmind
 1.7  christos 		dev = vp->v_rdev;
 1.1     rmind 		cdev = cdevsw_lookup(dev);
 1.1     rmind 		if (cdev != NULL) {
 1.1     rmind 			dev_t blkdev;
 1.1     rmind
 1.1     rmind 			blkdev = devsw_chr2blk(dev);
 1.1     rmind 			if (blkdev != NODEV) {
 1.1     rmind 				if (vfinddev(blkdev, VBLK, &bvp) != 0) {
 1.1     rmind 					d_type = (cdev->d_flag & D_TYPEMASK);
 1.1     rmind 					/* XXX: what if bvp disappears? */
 1.1     rmind 					vrele(bvp);
 1.1     rmind 				}
 1.1     rmind 			}
 1.1     rmind 		}
 1.1     rmind
 1.1     rmind 		break;
 1.1     rmind 		}
 1.1     rmind
 1.1     rmind 	case VBLK: {
 1.1     rmind 		const struct bdevsw *bdev;
 1.1     rmind
 1.7  christos 		dev = vp->v_rdev;
 1.1     rmind 		bdev = bdevsw_lookup(dev);
 1.1     rmind 		if (bdev != NULL)
 1.1     rmind 			d_type = (bdev->d_flag & D_TYPEMASK);
 1.1     rmind
 1.1     rmind 		bvp = vp;
 1.1     rmind
 1.1     rmind 		break;
 1.1     rmind 		}
 1.1     rmind
 1.1     rmind 	default:
 1.1     rmind 		break;
 1.1     rmind 	}
 1.1     rmind
 1.1     rmind 	if (d_type != D_DISK)
 1.1     rmind 		return EINVAL;
 1.1     rmind
 1.1     rmind 	if (bvpp != NULL)
 1.1     rmind 		*bvpp = bvp;
 1.1     rmind
 1.1     rmind 	/*
 1.1     rmind 	 * XXX: This is bogus. We should be failing the request
 1.1     rmind 	 * XXX: not only if this specific slice is mounted, but
 1.1     rmind 	 * XXX: if it's on a disk with any other mounted slice.
 1.1     rmind 	 */
 1.1     rmind 	if (vfs_mountedon(bvp))
 1.1     rmind 		return EBUSY;
 1.1     rmind
 1.1     rmind 	return 0;
 1.1     rmind }
 1.1     rmind
 1.1     rmind /*
 1.1     rmind  * Make a 'unique' number from a mount type name.
 1.1     rmind  */
 1.1     rmind long
 1.1     rmind makefstype(const char *type)
 1.1     rmind {
 1.1     rmind 	long rv;
 1.1     rmind
 1.1     rmind 	for (rv = 0; *type; type++) {
 1.1     rmind 		rv <<= 2;
 1.1     rmind 		rv ^= *type;
 1.1     rmind 	}
 1.1     rmind 	return rv;
 1.1     rmind }
1.24  christos
1.52   hannken static struct mountlist_entry *
1.52   hannken mountlist_alloc(enum mountlist_type type, struct mount *mp)
1.52   hannken {
1.52   hannken 	struct mountlist_entry *me;
1.52   hannken
1.52   hannken 	me = kmem_zalloc(sizeof(*me), KM_SLEEP);
1.52   hannken 	me->me_mount = mp;
1.52   hannken 	me->me_type = type;
1.52   hannken
1.52   hannken 	return me;
1.52   hannken }
1.52   hannken
1.52   hannken static void
1.52   hannken mountlist_free(struct mountlist_entry *me)
1.52   hannken {
1.52   hannken
1.52   hannken 	kmem_free(me, sizeof(*me));
1.52   hannken }
1.52   hannken
1.52   hannken void
1.52   hannken mountlist_iterator_init(mount_iterator_t **mip)
1.52   hannken {
1.52   hannken 	struct mountlist_entry *me;
1.52   hannken
1.52   hannken 	me = mountlist_alloc(ME_MARKER, NULL);
1.52   hannken 	mutex_enter(&mountlist_lock);
1.54   hannken 	TAILQ_INSERT_HEAD(&mountlist, me, me_list);
1.52   hannken 	mutex_exit(&mountlist_lock);
1.52   hannken 	*mip = (mount_iterator_t *)me;
1.52   hannken }
1.52   hannken
1.52   hannken void
1.52   hannken mountlist_iterator_destroy(mount_iterator_t *mi)
1.52   hannken {
1.52   hannken 	struct mountlist_entry *marker = &mi->mi_entry;
1.52   hannken
1.52   hannken 	if (marker->me_mount != NULL)
1.56   hannken 		vfs_unbusy(marker->me_mount);
1.52   hannken
1.52   hannken 	mutex_enter(&mountlist_lock);
1.54   hannken 	TAILQ_REMOVE(&mountlist, marker, me_list);
1.52   hannken 	mutex_exit(&mountlist_lock);
1.52   hannken
1.52   hannken 	mountlist_free(marker);
1.52   hannken
1.52   hannken }
1.52   hannken
1.52   hannken /*
1.52   hannken  * Return the next mount or NULL for this iterator.
1.52   hannken  * Mark it busy on success.
1.52   hannken  */
1.58   hannken static inline struct mount *
1.58   hannken _mountlist_iterator_next(mount_iterator_t *mi, bool wait)
1.52   hannken {
1.52   hannken 	struct mountlist_entry *me, *marker = &mi->mi_entry;
1.52   hannken 	struct mount *mp;
1.58   hannken 	int error;
1.52   hannken
1.52   hannken 	if (marker->me_mount != NULL) {
1.56   hannken 		vfs_unbusy(marker->me_mount);
1.52   hannken 		marker->me_mount = NULL;
1.52   hannken 	}
1.52   hannken
1.52   hannken 	mutex_enter(&mountlist_lock);
1.52   hannken 	for (;;) {
1.52   hannken 		KASSERT(marker->me_type == ME_MARKER);
1.52   hannken
1.52   hannken 		me = TAILQ_NEXT(marker, me_list);
1.52   hannken 		if (me == NULL) {
1.52   hannken 			/* End of list: keep marker and return. */
1.52   hannken 			mutex_exit(&mountlist_lock);
1.52   hannken 			return NULL;
1.52   hannken 		}
1.54   hannken 		TAILQ_REMOVE(&mountlist, marker, me_list);
1.54   hannken 		TAILQ_INSERT_AFTER(&mountlist, me, marker, me_list);
1.52   hannken
1.52   hannken 		/* Skip other markers. */
1.52   hannken 		if (me->me_type != ME_MOUNT)
1.52   hannken 			continue;
1.52   hannken
1.52   hannken 		/* Take an initial reference for vfs_busy() below. */
1.52   hannken 		mp = me->me_mount;
1.52   hannken 		KASSERT(mp != NULL);
1.55   hannken 		vfs_ref(mp);
1.52   hannken 		mutex_exit(&mountlist_lock);
1.52   hannken
1.52   hannken 		/* Try to mark this mount busy and return on success. */
1.58   hannken 		if (wait)
1.58   hannken 			error = vfs_busy(mp);
1.58   hannken 		else
1.58   hannken 			error = vfs_trybusy(mp);
1.58   hannken 		if (error == 0) {
1.55   hannken 			vfs_rele(mp);
1.52   hannken 			marker->me_mount = mp;
1.52   hannken 			return mp;
1.52   hannken 		}
1.55   hannken 		vfs_rele(mp);
1.52   hannken 		mutex_enter(&mountlist_lock);
1.52   hannken 	}
1.52   hannken }
1.52   hannken
1.58   hannken struct mount *
1.58   hannken mountlist_iterator_next(mount_iterator_t *mi)
1.58   hannken {
1.58   hannken
1.58   hannken 	return _mountlist_iterator_next(mi, true);
1.58   hannken }
1.58   hannken
1.58   hannken struct mount *
1.58   hannken mountlist_iterator_trynext(mount_iterator_t *mi)
1.58   hannken {
1.58   hannken
1.58   hannken 	return _mountlist_iterator_next(mi, false);
1.58   hannken }
1.58   hannken
1.52   hannken /*
1.52   hannken  * Attach new mount to the end of the mount list.
1.52   hannken  */
1.24  christos void
1.24  christos mountlist_append(struct mount *mp)
1.24  christos {
1.52   hannken 	struct mountlist_entry *me;
1.52   hannken
1.52   hannken 	me = mountlist_alloc(ME_MOUNT, mp);
1.24  christos 	mutex_enter(&mountlist_lock);
1.54   hannken 	TAILQ_INSERT_TAIL(&mountlist, me, me_list);
1.24  christos 	mutex_exit(&mountlist_lock);
1.24  christos }
1.52   hannken
1.52   hannken /*
1.52   hannken  * Remove mount from mount list.
1.52   hannken  */void
1.52   hannken mountlist_remove(struct mount *mp)
1.52   hannken {
1.52   hannken 	struct mountlist_entry *me;
1.52   hannken
1.52   hannken 	mutex_enter(&mountlist_lock);
1.54   hannken 	TAILQ_FOREACH(me, &mountlist, me_list)
1.52   hannken 		if (me->me_type == ME_MOUNT && me->me_mount == mp)
1.52   hannken 			break;
1.52   hannken 	KASSERT(me != NULL);
1.54   hannken 	TAILQ_REMOVE(&mountlist, me, me_list);
1.52   hannken 	mutex_exit(&mountlist_lock);
1.52   hannken 	mountlist_free(me);
1.52   hannken }
1.52   hannken
1.52   hannken /*
1.52   hannken  * Unlocked variant to traverse the mountlist.
1.52   hannken  * To be used from DDB only.
1.52   hannken  */
1.52   hannken struct mount *
1.52   hannken _mountlist_next(struct mount *mp)
1.52   hannken {
1.52   hannken 	struct mountlist_entry *me;
1.52   hannken
1.52   hannken 	if (mp == NULL) {
1.54   hannken 		me = TAILQ_FIRST(&mountlist);
1.52   hannken 	} else {
1.54   hannken 		TAILQ_FOREACH(me, &mountlist, me_list)
1.52   hannken 			if (me->me_type == ME_MOUNT && me->me_mount == mp)
1.52   hannken 				break;
1.52   hannken 		if (me != NULL)
1.52   hannken 			me = TAILQ_NEXT(me, me_list);
1.52   hannken 	}
1.52   hannken
1.52   hannken 	while (me != NULL && me->me_type != ME_MOUNT)
1.52   hannken 		me = TAILQ_NEXT(me, me_list);
1.52   hannken
1.52   hannken 	return (me ? me->me_mount : NULL);
1.52   hannken }