sys/kern/vfs_trans.c

1.69  riastrad /*	$NetBSD: vfs_trans.c,v 1.69 2022/10/26 23:39:43 riastradh Exp $	*/
 1.1   hannken
 1.1   hannken /*-
1.63        ad  * Copyright (c) 2007, 2020 The NetBSD Foundation, Inc.
 1.1   hannken  * All rights reserved.
 1.1   hannken  *
 1.1   hannken  * This code is derived from software contributed to The NetBSD Foundation
 1.1   hannken  * by Juergen Hannken-Illjes.
 1.1   hannken  *
 1.1   hannken  * Redistribution and use in source and binary forms, with or without
 1.1   hannken  * modification, are permitted provided that the following conditions
 1.1   hannken  * are met:
 1.1   hannken  * 1. Redistributions of source code must retain the above copyright
 1.1   hannken  *    notice, this list of conditions and the following disclaimer.
 1.1   hannken  * 2. Redistributions in binary form must reproduce the above copyright
 1.1   hannken  *    notice, this list of conditions and the following disclaimer in the
 1.1   hannken  *    documentation and/or other materials provided with the distribution.
 1.1   hannken  *
 1.1   hannken  * THIS SOFTWARE IS PROVIDED BY THE NETBSD FOUNDATION, INC. AND CONTRIBUTORS
 1.1   hannken  * ``AS IS'' AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED
 1.1   hannken  * TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR
 1.1   hannken  * PURPOSE ARE DISCLAIMED.  IN NO EVENT SHALL THE FOUNDATION OR CONTRIBUTORS
 1.1   hannken  * BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR
 1.1   hannken  * CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF
 1.1   hannken  * SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS
 1.1   hannken  * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN
 1.1   hannken  * CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE)
 1.1   hannken  * ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE
 1.1   hannken  * POSSIBILITY OF SUCH DAMAGE.
 1.1   hannken  */
 1.1   hannken
 1.1   hannken #include <sys/cdefs.h>
1.69  riastrad __KERNEL_RCSID(0, "$NetBSD: vfs_trans.c,v 1.69 2022/10/26 23:39:43 riastradh Exp $");
 1.1   hannken
 1.1   hannken /*
 1.1   hannken  * File system transaction operations.
 1.1   hannken  */
 1.1   hannken
1.34     pooka #ifdef _KERNEL_OPT
 1.1   hannken #include "opt_ddb.h"
1.34     pooka #endif
 1.1   hannken
 1.1   hannken #include <sys/param.h>
 1.1   hannken #include <sys/systm.h>
1.26   hannken #include <sys/atomic.h>
1.24     pooka #include <sys/buf.h>
1.66   hannken #include <sys/hash.h>
1.12   hannken #include <sys/kmem.h>
 1.1   hannken #include <sys/mount.h>
1.26   hannken #include <sys/pserialize.h>
 1.1   hannken #include <sys/vnode.h>
 1.1   hannken #include <sys/fstrans.h>
1.10        ad #include <sys/proc.h>
1.63        ad #include <sys/pool.h>
 1.1   hannken
1.69  riastrad #include <miscfs/deadfs/deadfs.h>
1.12   hannken #include <miscfs/specfs/specdev.h>
 1.1   hannken
1.66   hannken #define FSTRANS_MOUNT_HASHSIZE	32
1.66   hannken
1.46   hannken enum fstrans_lock_type {
1.51   hannken 	FSTRANS_LAZY,			/* Granted while not suspended */
1.61   hannken 	FSTRANS_SHARED			/* Granted while not suspending */
1.46   hannken };
1.46   hannken
1.16        ad struct fscow_handler {
1.26   hannken 	LIST_ENTRY(fscow_handler) ch_list;
1.16        ad 	int (*ch_func)(void *, struct buf *, bool);
1.16        ad 	void *ch_arg;
1.16        ad };
 1.1   hannken struct fstrans_lwp_info {
 1.1   hannken 	struct fstrans_lwp_info *fli_succ;
1.26   hannken 	struct lwp *fli_self;
 1.1   hannken 	struct mount *fli_mount;
1.58   hannken 	struct fstrans_lwp_info *fli_alias;
1.54   hannken 	struct fstrans_mount_info *fli_mountinfo;
1.20   hannken 	int fli_trans_cnt;
1.59   hannken 	int fli_alias_cnt;
1.20   hannken 	int fli_cow_cnt;
 1.1   hannken 	enum fstrans_lock_type fli_lock_type;
1.26   hannken 	LIST_ENTRY(fstrans_lwp_info) fli_list;
 1.1   hannken };
 1.1   hannken struct fstrans_mount_info {
 1.1   hannken 	enum fstrans_state fmi_state;
1.26   hannken 	unsigned int fmi_ref_cnt;
1.54   hannken 	bool fmi_gone;
1.26   hannken 	bool fmi_cow_change;
1.66   hannken 	SLIST_ENTRY(fstrans_mount_info) fmi_hash;
1.26   hannken 	LIST_HEAD(, fscow_handler) fmi_cow_handler;
1.54   hannken 	struct mount *fmi_mount;
1.67   hannken 	struct fstrans_mount_info *fmi_lower_info;
1.61   hannken 	struct lwp *fmi_owner;
 1.1   hannken };
1.66   hannken SLIST_HEAD(fstrans_mount_hashhead, fstrans_mount_info);
 1.1   hannken
1.63        ad static kmutex_t vfs_suspend_lock	/* Serialize suspensions. */
1.63        ad     __cacheline_aligned;
1.63        ad static kmutex_t fstrans_lock		/* Fstrans big lock. */
1.63        ad     __cacheline_aligned;
1.26   hannken static kcondvar_t fstrans_state_cv;	/* Fstrans or cow state changed. */
1.26   hannken static kcondvar_t fstrans_count_cv;	/* Fstrans or cow count changed. */
1.26   hannken static pserialize_t fstrans_psz;	/* Pserialize state. */
1.26   hannken static LIST_HEAD(fstrans_lwp_head, fstrans_lwp_info) fstrans_fli_head;
1.26   hannken 					/* List of all fstrans_lwp_info. */
1.63        ad static pool_cache_t fstrans_lwp_cache;	/* Cache of fstrans_lwp_info. */
1.63        ad
1.66   hannken static u_long fstrans_mount_hashmask;
1.66   hannken static struct fstrans_mount_hashhead *fstrans_mount_hashtab;
1.54   hannken static int fstrans_gone_count;		/* Number of fstrans_mount_info gone. */
 1.1   hannken
1.66   hannken static inline uint32_t fstrans_mount_hash(struct mount *);
1.66   hannken static inline struct fstrans_mount_info *fstrans_mount_get(struct mount *);
1.54   hannken static void fstrans_mount_dtor(struct fstrans_mount_info *);
1.47   hannken static void fstrans_clear_lwp_info(void);
1.48   hannken static inline struct fstrans_lwp_info *
1.48   hannken     fstrans_get_lwp_info(struct mount *, bool);
1.48   hannken static struct fstrans_lwp_info *fstrans_alloc_lwp_info(struct mount *);
1.63        ad static int fstrans_lwp_pcc(void *, void *, int);
1.63        ad static void fstrans_lwp_pcd(void *, void *);
1.46   hannken static inline int _fstrans_start(struct mount *, enum fstrans_lock_type, int);
1.61   hannken static bool grant_lock(const struct fstrans_mount_info *,
1.61   hannken     const enum fstrans_lock_type);
1.54   hannken static bool state_change_done(const struct fstrans_mount_info *);
1.54   hannken static bool cow_state_change_done(const struct fstrans_mount_info *);
1.54   hannken static void cow_change_enter(struct fstrans_mount_info *);
1.54   hannken static void cow_change_done(struct fstrans_mount_info *);
 1.1   hannken
 1.1   hannken /*
1.26   hannken  * Initialize.
 1.1   hannken  */
 1.1   hannken void
 1.1   hannken fstrans_init(void)
 1.1   hannken {
 1.7        ad
 1.4        ad 	mutex_init(&vfs_suspend_lock, MUTEX_DEFAULT, IPL_NONE);
1.26   hannken 	mutex_init(&fstrans_lock, MUTEX_DEFAULT, IPL_NONE);
1.26   hannken 	cv_init(&fstrans_state_cv, "fstchg");
1.26   hannken 	cv_init(&fstrans_count_cv, "fstcnt");
1.26   hannken 	fstrans_psz = pserialize_create();
1.26   hannken 	LIST_INIT(&fstrans_fli_head);
1.63        ad 	fstrans_lwp_cache = pool_cache_init(sizeof(struct fstrans_lwp_info),
1.63        ad 	    coherency_unit, 0, 0, "fstlwp", NULL, IPL_NONE,
1.63        ad 	    fstrans_lwp_pcc, fstrans_lwp_pcd, NULL);
1.63        ad 	KASSERT(fstrans_lwp_cache != NULL);
1.66   hannken 	fstrans_mount_hashtab = hashinit(FSTRANS_MOUNT_HASHSIZE, HASH_SLIST,
1.66   hannken 	    true, &fstrans_mount_hashmask);
1.63        ad }
1.63        ad
1.63        ad /*
1.63        ad  * pool_cache constructor for fstrans_lwp_info.  Updating the global list
1.63        ad  * produces cache misses on MP.  Minimise by keeping free entries on list.
1.63        ad  */
1.63        ad int
1.63        ad fstrans_lwp_pcc(void *arg, void *obj, int flags)
1.63        ad {
1.63        ad 	struct fstrans_lwp_info *fli = obj;
1.63        ad
1.63        ad 	memset(fli, 0, sizeof(*fli));
1.63        ad
1.63        ad 	mutex_enter(&fstrans_lock);
1.63        ad 	LIST_INSERT_HEAD(&fstrans_fli_head, fli, fli_list);
1.63        ad 	mutex_exit(&fstrans_lock);
1.63        ad
1.63        ad 	return 0;
1.63        ad }
1.63        ad
1.63        ad /*
1.63        ad  * pool_cache destructor
1.63        ad  */
1.63        ad void
1.63        ad fstrans_lwp_pcd(void *arg, void *obj)
1.63        ad {
1.63        ad 	struct fstrans_lwp_info *fli = obj;
1.63        ad
1.63        ad 	mutex_enter(&fstrans_lock);
1.63        ad 	LIST_REMOVE(fli, fli_list);
1.63        ad 	mutex_exit(&fstrans_lock);
 1.1   hannken }
 1.1   hannken
 1.1   hannken /*
1.26   hannken  * Deallocate lwp state.
 1.1   hannken  */
1.57   hannken void
1.57   hannken fstrans_lwp_dtor(lwp_t *l)
 1.1   hannken {
 1.1   hannken 	struct fstrans_lwp_info *fli, *fli_next;
 1.1   hannken
1.63        ad 	if (l->l_fstrans == NULL)
1.63        ad 		return;
1.63        ad
1.63        ad 	mutex_enter(&fstrans_lock);
1.57   hannken 	for (fli = l->l_fstrans; fli; fli = fli_next) {
1.20   hannken 		KASSERT(fli->fli_trans_cnt == 0);
1.20   hannken 		KASSERT(fli->fli_cow_cnt == 0);
1.57   hannken 		KASSERT(fli->fli_self == l);
1.26   hannken 		if (fli->fli_mount != NULL)
1.54   hannken 			fstrans_mount_dtor(fli->fli_mountinfo);
 1.1   hannken 		fli_next = fli->fli_succ;
1.59   hannken 		fli->fli_alias_cnt = 0;
1.30   hannken 		fli->fli_mount = NULL;
1.54   hannken 		fli->fli_alias = NULL;
1.54   hannken 		fli->fli_mountinfo = NULL;
1.30   hannken 		fli->fli_self = NULL;
 1.1   hannken 	}
1.63        ad 	mutex_exit(&fstrans_lock);
1.57   hannken
1.63        ad 	for (fli = l->l_fstrans; fli; fli = fli_next) {
1.63        ad 		fli_next = fli->fli_succ;
1.63        ad 		pool_cache_put(fstrans_lwp_cache, fli);
1.63        ad 	}
1.57   hannken 	l->l_fstrans = NULL;
1.26   hannken }
1.26   hannken
1.26   hannken /*
1.66   hannken  * mount pointer to hash
1.66   hannken  */
1.66   hannken static inline uint32_t
1.66   hannken fstrans_mount_hash(struct mount *mp)
1.66   hannken {
1.66   hannken
1.66   hannken 	return hash32_buf(&mp, sizeof(mp), HASH32_BUF_INIT) &
1.66   hannken 	    fstrans_mount_hashmask;
1.66   hannken }
1.66   hannken
1.66   hannken /*
1.66   hannken  * retrieve fstrans_mount_info by mount or NULL
1.66   hannken  */
1.66   hannken static inline struct fstrans_mount_info *
1.66   hannken fstrans_mount_get(struct mount *mp)
1.66   hannken {
1.66   hannken 	uint32_t indx;
1.67   hannken 	struct fstrans_mount_info *fmi, *fmi_lower;
1.66   hannken
1.66   hannken 	KASSERT(mutex_owned(&fstrans_lock));
1.66   hannken
1.66   hannken 	indx = fstrans_mount_hash(mp);
1.66   hannken 	SLIST_FOREACH(fmi, &fstrans_mount_hashtab[indx], fmi_hash) {
1.66   hannken 		if (fmi->fmi_mount == mp) {
1.67   hannken 			if (__predict_false(mp->mnt_lower != NULL &&
1.67   hannken 			    fmi->fmi_lower_info == NULL)) {
1.67   hannken 				/*
1.67   hannken 				 * Intern the lower/lowest mount into
1.67   hannken 				 * this mount info on first lookup.
1.67   hannken 				 */
1.67   hannken 				KASSERT(fmi->fmi_ref_cnt == 1);
1.67   hannken
1.67   hannken 				fmi_lower = fstrans_mount_get(mp->mnt_lower);
1.67   hannken 				if (fmi_lower && fmi_lower->fmi_lower_info)
1.67   hannken 					fmi_lower = fmi_lower->fmi_lower_info;
1.67   hannken 				if (fmi_lower == NULL)
1.67   hannken 					return NULL;
1.67   hannken 				fmi->fmi_lower_info = fmi_lower;
1.67   hannken 				fmi->fmi_lower_info->fmi_ref_cnt += 1;
1.67   hannken 			}
1.66   hannken 			return fmi;
1.66   hannken 		}
1.66   hannken 	}
1.66   hannken
1.66   hannken 	return NULL;
1.66   hannken }
1.66   hannken
1.66   hannken /*
1.26   hannken  * Dereference mount state.
1.26   hannken  */
1.26   hannken static void
1.54   hannken fstrans_mount_dtor(struct fstrans_mount_info *fmi)
1.26   hannken {
1.26   hannken
1.63        ad 	KASSERT(mutex_owned(&fstrans_lock));
1.35   hannken
1.35   hannken 	KASSERT(fmi != NULL);
1.35   hannken 	fmi->fmi_ref_cnt -= 1;
1.63        ad 	if (__predict_true(fmi->fmi_ref_cnt > 0)) {
1.26   hannken 		return;
1.35   hannken 	}
1.26   hannken
1.26   hannken 	KASSERT(fmi->fmi_state == FSTRANS_NORMAL);
1.26   hannken 	KASSERT(LIST_FIRST(&fmi->fmi_cow_handler) == NULL);
1.61   hannken 	KASSERT(fmi->fmi_owner == NULL);
1.26   hannken
1.67   hannken 	if (fmi->fmi_lower_info)
1.67   hannken 		fstrans_mount_dtor(fmi->fmi_lower_info);
1.67   hannken
1.54   hannken 	KASSERT(fstrans_gone_count > 0);
1.54   hannken 	fstrans_gone_count -= 1;
1.26   hannken
1.54   hannken 	kmem_free(fmi->fmi_mount, sizeof(*fmi->fmi_mount));
1.35   hannken 	kmem_free(fmi, sizeof(*fmi));
 1.1   hannken }
 1.1   hannken
 1.1   hannken /*
1.26   hannken  * Allocate mount state.
 1.1   hannken  */
1.16        ad int
1.16        ad fstrans_mount(struct mount *mp)
 1.1   hannken {
1.66   hannken 	uint32_t indx;
1.31      matt 	struct fstrans_mount_info *newfmi;
1.16        ad
1.66   hannken 	indx = fstrans_mount_hash(mp);
1.66   hannken
1.32     pooka 	newfmi = kmem_alloc(sizeof(*newfmi), KM_SLEEP);
1.31      matt 	newfmi->fmi_state = FSTRANS_NORMAL;
1.31      matt 	newfmi->fmi_ref_cnt = 1;
1.54   hannken 	newfmi->fmi_gone = false;
1.31      matt 	LIST_INIT(&newfmi->fmi_cow_handler);
1.31      matt 	newfmi->fmi_cow_change = false;
1.54   hannken 	newfmi->fmi_mount = mp;
1.67   hannken 	newfmi->fmi_lower_info = NULL;
1.61   hannken 	newfmi->fmi_owner = NULL;
1.16        ad
1.63        ad 	mutex_enter(&fstrans_lock);
1.66   hannken 	SLIST_INSERT_HEAD(&fstrans_mount_hashtab[indx], newfmi, fmi_hash);
1.63        ad 	mutex_exit(&fstrans_lock);
 1.1   hannken
1.16        ad 	return 0;
 1.1   hannken }
 1.1   hannken
 1.1   hannken /*
1.26   hannken  * Deallocate mount state.
 1.1   hannken  */
1.16        ad void
1.16        ad fstrans_unmount(struct mount *mp)
 1.1   hannken {
1.66   hannken 	uint32_t indx;
1.66   hannken 	struct fstrans_mount_info *fmi;
1.54   hannken
1.66   hannken 	indx = fstrans_mount_hash(mp);
 1.1   hannken
1.63        ad 	mutex_enter(&fstrans_lock);
1.66   hannken 	fmi = fstrans_mount_get(mp);
1.66   hannken 	KASSERT(fmi != NULL);
1.54   hannken 	fmi->fmi_gone = true;
1.66   hannken 	SLIST_REMOVE(&fstrans_mount_hashtab[indx],
1.66   hannken 	    fmi, fstrans_mount_info, fmi_hash);
1.54   hannken 	fstrans_gone_count += 1;
1.54   hannken 	fstrans_mount_dtor(fmi);
1.63        ad 	mutex_exit(&fstrans_lock);
 1.1   hannken }
 1.1   hannken
 1.1   hannken /*
1.47   hannken  * Clear mount entries whose mount is gone.
1.20   hannken  */
1.47   hannken static void
1.47   hannken fstrans_clear_lwp_info(void)
1.20   hannken {
1.63        ad 	struct fstrans_lwp_info **p, *fli, *tofree = NULL;
1.20   hannken
1.26   hannken 	/*
1.47   hannken 	 * Scan our list clearing entries whose mount is gone.
1.26   hannken 	 */
1.63        ad 	mutex_enter(&fstrans_lock);
1.58   hannken 	for (p = &curlwp->l_fstrans; *p; ) {
1.54   hannken 		fli = *p;
1.47   hannken 		if (fli->fli_mount != NULL &&
1.54   hannken 		    fli->fli_mountinfo->fmi_gone &&
1.59   hannken 		    fli->fli_trans_cnt == 0 &&
1.59   hannken 		    fli->fli_cow_cnt == 0 &&
1.59   hannken 		    fli->fli_alias_cnt == 0) {
1.54   hannken 			*p = (*p)->fli_succ;
1.54   hannken 			fstrans_mount_dtor(fli->fli_mountinfo);
1.59   hannken 			if (fli->fli_alias) {
1.59   hannken 				KASSERT(fli->fli_alias->fli_alias_cnt > 0);
1.59   hannken 				fli->fli_alias->fli_alias_cnt--;
1.59   hannken 			}
1.26   hannken 			fli->fli_mount = NULL;
1.54   hannken 			fli->fli_alias = NULL;
1.54   hannken 			fli->fli_mountinfo = NULL;
1.54   hannken 			fli->fli_self = NULL;
1.59   hannken 			p = &curlwp->l_fstrans;
1.63        ad 			fli->fli_succ = tofree;
1.63        ad 			tofree = fli;
1.58   hannken 		} else {
1.58   hannken 			p = &(*p)->fli_succ;
1.26   hannken 		}
1.20   hannken 	}
1.58   hannken #ifdef DIAGNOSTIC
1.58   hannken 	for (fli = curlwp->l_fstrans; fli; fli = fli->fli_succ)
1.58   hannken 		if (fli->fli_alias != NULL)
1.58   hannken 			KASSERT(fli->fli_alias->fli_self == curlwp);
1.58   hannken #endif /* DIAGNOSTIC */
1.63        ad 	mutex_exit(&fstrans_lock);
1.63        ad
1.63        ad 	while (tofree != NULL) {
1.63        ad 		fli = tofree;
1.63        ad 		tofree = fli->fli_succ;
1.63        ad 		pool_cache_put(fstrans_lwp_cache, fli);
1.63        ad 	}
1.47   hannken }
1.47   hannken
1.47   hannken /*
1.48   hannken  * Allocate and return per lwp info for this mount.
1.47   hannken  */
1.47   hannken static struct fstrans_lwp_info *
1.48   hannken fstrans_alloc_lwp_info(struct mount *mp)
1.47   hannken {
1.67   hannken 	struct fstrans_lwp_info *fli, *fli_lower;
1.47   hannken 	struct fstrans_mount_info *fmi;
1.47   hannken
1.57   hannken 	for (fli = curlwp->l_fstrans; fli; fli = fli->fli_succ) {
1.54   hannken 		if (fli->fli_mount == mp)
1.54   hannken 			return fli;
1.54   hannken 	}
1.54   hannken
1.47   hannken 	/*
1.67   hannken 	 * Lookup mount info and get lower mount per lwp info.
1.67   hannken 	 */
1.67   hannken 	mutex_enter(&fstrans_lock);
1.67   hannken 	fmi = fstrans_mount_get(mp);
1.67   hannken 	if (fmi == NULL) {
1.67   hannken 		mutex_exit(&fstrans_lock);
1.67   hannken 		return NULL;
1.67   hannken 	}
1.67   hannken 	fmi->fmi_ref_cnt += 1;
1.67   hannken 	mutex_exit(&fstrans_lock);
1.67   hannken
1.67   hannken 	if (fmi->fmi_lower_info) {
1.67   hannken 		fli_lower =
1.67   hannken 		    fstrans_alloc_lwp_info(fmi->fmi_lower_info->fmi_mount);
1.67   hannken 		if (fli_lower == NULL) {
1.67   hannken 			mutex_enter(&fstrans_lock);
1.67   hannken 			fstrans_mount_dtor(fmi);
1.67   hannken 			mutex_exit(&fstrans_lock);
1.67   hannken
1.67   hannken 			return NULL;
1.67   hannken 		}
1.67   hannken 	} else {
1.67   hannken 		fli_lower = NULL;
1.67   hannken 	}
1.67   hannken
1.67   hannken 	/*
1.63        ad 	 * Allocate a new entry.
1.26   hannken 	 */
1.63        ad 	fli = pool_cache_get(fstrans_lwp_cache, PR_WAITOK);
1.63        ad 	KASSERT(fli->fli_trans_cnt == 0);
1.63        ad 	KASSERT(fli->fli_cow_cnt == 0);
1.63        ad 	KASSERT(fli->fli_alias_cnt == 0);
1.63        ad 	KASSERT(fli->fli_mount == NULL);
1.63        ad 	KASSERT(fli->fli_alias == NULL);
1.63        ad 	KASSERT(fli->fli_mountinfo == NULL);
1.63        ad 	KASSERT(fli->fli_self == NULL);
1.20   hannken
1.26   hannken 	/*
1.67   hannken 	 * Attach the mount info and alias.
1.26   hannken 	 */
1.54   hannken
1.63        ad 	fli->fli_self = curlwp;
1.54   hannken 	fli->fli_mount = mp;
1.54   hannken 	fli->fli_mountinfo = fmi;
1.54   hannken
1.66   hannken 	fli->fli_succ = curlwp->l_fstrans;
1.66   hannken 	curlwp->l_fstrans = fli;
1.66   hannken
1.67   hannken 	if (fli_lower) {
1.67   hannken 		fli->fli_alias = fli_lower;
1.59   hannken 		fli->fli_alias->fli_alias_cnt++;
1.58   hannken 		fli = fli->fli_alias;
1.44   hannken 	}
1.26   hannken
1.26   hannken 	return fli;
1.26   hannken }
1.26   hannken
1.26   hannken /*
1.48   hannken  * Retrieve the per lwp info for this mount allocating if necessary.
1.48   hannken  */
1.48   hannken static inline struct fstrans_lwp_info *
1.48   hannken fstrans_get_lwp_info(struct mount *mp, bool do_alloc)
1.48   hannken {
1.58   hannken 	struct fstrans_lwp_info *fli;
1.48   hannken
1.48   hannken 	/*
1.48   hannken 	 * Scan our list for a match.
1.48   hannken 	 */
1.57   hannken 	for (fli = curlwp->l_fstrans; fli; fli = fli->fli_succ) {
1.54   hannken 		if (fli->fli_mount == mp) {
1.58   hannken 			KASSERT((mp->mnt_lower == NULL) ==
1.58   hannken 			    (fli->fli_alias == NULL));
1.58   hannken 			if (fli->fli_alias != NULL)
1.58   hannken 				fli = fli->fli_alias;
1.54   hannken 			break;
1.54   hannken 		}
1.54   hannken 	}
1.54   hannken
1.54   hannken 	if (do_alloc) {
1.54   hannken 		if (__predict_false(fli == NULL))
1.54   hannken 			fli = fstrans_alloc_lwp_info(mp);
1.48   hannken 	}
1.48   hannken
1.54   hannken 	return fli;
1.48   hannken }
1.48   hannken
1.48   hannken /*
1.26   hannken  * Check if this lock type is granted at this state.
1.26   hannken  */
1.26   hannken static bool
1.61   hannken grant_lock(const struct fstrans_mount_info *fmi,
1.61   hannken     const enum fstrans_lock_type type)
1.26   hannken {
1.20   hannken
1.61   hannken 	if (__predict_true(fmi->fmi_state == FSTRANS_NORMAL))
1.26   hannken 		return true;
1.61   hannken 	if (fmi->fmi_owner == curlwp)
1.26   hannken 		return true;
1.61   hannken 	if  (fmi->fmi_state == FSTRANS_SUSPENDING && type == FSTRANS_LAZY)
1.51   hannken 		return true;
1.20   hannken
1.26   hannken 	return false;
1.20   hannken }
1.20   hannken
1.20   hannken /*
 1.1   hannken  * Start a transaction.  If this thread already has a transaction on this
 1.1   hannken  * file system increment the reference counter.
 1.1   hannken  */
1.46   hannken static inline int
 1.1   hannken _fstrans_start(struct mount *mp, enum fstrans_lock_type lock_type, int wait)
 1.1   hannken {
1.26   hannken 	int s;
1.20   hannken 	struct fstrans_lwp_info *fli;
 1.1   hannken 	struct fstrans_mount_info *fmi;
 1.1   hannken
1.18      yamt 	ASSERT_SLEEPABLE();
 1.1   hannken
1.54   hannken 	fli = fstrans_get_lwp_info(mp, true);
1.66   hannken 	if (fli == NULL)
1.66   hannken 		return 0;
1.54   hannken 	fmi = fli->fli_mountinfo;
 1.1   hannken
1.20   hannken 	if (fli->fli_trans_cnt > 0) {
1.20   hannken 		fli->fli_trans_cnt += 1;
1.26   hannken
1.20   hannken 		return 0;
 1.1   hannken 	}
 1.1   hannken
1.26   hannken 	s = pserialize_read_enter();
1.61   hannken 	if (__predict_true(grant_lock(fmi, lock_type))) {
1.26   hannken 		fli->fli_trans_cnt = 1;
1.26   hannken 		fli->fli_lock_type = lock_type;
1.26   hannken 		pserialize_read_exit(s);
 1.1   hannken
1.26   hannken 		return 0;
1.26   hannken 	}
1.26   hannken 	pserialize_read_exit(s);
 1.8   hannken
1.26   hannken 	if (! wait)
 1.8   hannken 		return EBUSY;
 1.1   hannken
1.26   hannken 	mutex_enter(&fstrans_lock);
1.61   hannken 	while (! grant_lock(fmi, lock_type))
1.26   hannken 		cv_wait(&fstrans_state_cv, &fstrans_lock);
1.20   hannken 	fli->fli_trans_cnt = 1;
1.20   hannken 	fli->fli_lock_type = lock_type;
1.26   hannken 	mutex_exit(&fstrans_lock);
 1.1   hannken
 1.1   hannken 	return 0;
 1.1   hannken }
 1.1   hannken
1.46   hannken void
1.46   hannken fstrans_start(struct mount *mp)
1.46   hannken {
1.46   hannken 	int error __diagused;
1.46   hannken
1.46   hannken 	error = _fstrans_start(mp, FSTRANS_SHARED, 1);
1.46   hannken 	KASSERT(error == 0);
1.46   hannken }
1.46   hannken
1.46   hannken int
1.46   hannken fstrans_start_nowait(struct mount *mp)
1.46   hannken {
1.46   hannken
1.46   hannken 	return _fstrans_start(mp, FSTRANS_SHARED, 0);
1.46   hannken }
1.46   hannken
1.51   hannken void
1.51   hannken fstrans_start_lazy(struct mount *mp)
1.51   hannken {
1.51   hannken 	int error __diagused;
1.51   hannken
1.51   hannken 	error = _fstrans_start(mp, FSTRANS_LAZY, 1);
1.51   hannken 	KASSERT(error == 0);
1.51   hannken }
1.51   hannken
 1.1   hannken /*
 1.1   hannken  * Finish a transaction.
 1.1   hannken  */
 1.1   hannken void
 1.1   hannken fstrans_done(struct mount *mp)
 1.1   hannken {
1.26   hannken 	int s;
 1.1   hannken 	struct fstrans_lwp_info *fli;
 1.1   hannken 	struct fstrans_mount_info *fmi;
 1.1   hannken
1.66   hannken 	fli = fstrans_get_lwp_info(mp, false);
1.66   hannken 	if (fli == NULL)
1.52   hannken 		return;
1.54   hannken 	fmi = fli->fli_mountinfo;
1.26   hannken 	KASSERT(fli->fli_trans_cnt > 0);
1.26   hannken
1.26   hannken 	if (fli->fli_trans_cnt > 1) {
1.26   hannken 		fli->fli_trans_cnt -= 1;
1.26   hannken
1.26   hannken 		return;
 1.1   hannken 	}
 1.1   hannken
1.56   hannken 	if (__predict_false(fstrans_gone_count > 0))
1.56   hannken 		fstrans_clear_lwp_info();
1.56   hannken
1.26   hannken 	s = pserialize_read_enter();
1.26   hannken 	if (__predict_true(fmi->fmi_state == FSTRANS_NORMAL)) {
1.26   hannken 		fli->fli_trans_cnt = 0;
1.26   hannken 		pserialize_read_exit(s);
1.26   hannken
1.26   hannken 		return;
1.26   hannken 	}
1.26   hannken 	pserialize_read_exit(s);
1.20   hannken
1.26   hannken 	mutex_enter(&fstrans_lock);
1.26   hannken 	fli->fli_trans_cnt = 0;
1.26   hannken 	cv_signal(&fstrans_count_cv);
1.26   hannken 	mutex_exit(&fstrans_lock);
 1.1   hannken }
 1.1   hannken
 1.1   hannken /*
1.62   hannken  * Check if we hold an lock.
1.62   hannken  */
1.62   hannken int
1.62   hannken fstrans_held(struct mount *mp)
1.62   hannken {
1.62   hannken 	struct fstrans_lwp_info *fli;
1.62   hannken 	struct fstrans_mount_info *fmi;
1.62   hannken
1.62   hannken 	KASSERT(mp != dead_rootmount);
1.62   hannken
1.68   hannken 	fli = fstrans_get_lwp_info(mp, false);
1.66   hannken 	if (fli == NULL)
1.66   hannken 		return 0;
1.62   hannken 	fmi = fli->fli_mountinfo;
1.62   hannken
1.62   hannken 	return (fli->fli_trans_cnt > 0 || fmi->fmi_owner == curlwp);
1.62   hannken }
1.62   hannken
1.62   hannken /*
 1.1   hannken  * Check if this thread has an exclusive lock.
 1.1   hannken  */
 1.1   hannken int
 1.1   hannken fstrans_is_owner(struct mount *mp)
 1.1   hannken {
 1.1   hannken 	struct fstrans_lwp_info *fli;
1.61   hannken 	struct fstrans_mount_info *fmi;
 1.1   hannken
1.52   hannken 	KASSERT(mp != dead_rootmount);
1.52   hannken
1.68   hannken 	fli = fstrans_get_lwp_info(mp, false);
1.66   hannken 	if (fli == NULL)
1.66   hannken 		return 0;
1.61   hannken 	fmi = fli->fli_mountinfo;
 1.1   hannken
1.61   hannken 	return (fmi->fmi_owner == curlwp);
 1.1   hannken }
 1.1   hannken
 1.1   hannken /*
1.26   hannken  * True, if no thread is in a transaction not granted at the current state.
1.26   hannken  */
1.26   hannken static bool
1.54   hannken state_change_done(const struct fstrans_mount_info *fmi)
1.26   hannken {
1.26   hannken 	struct fstrans_lwp_info *fli;
1.26   hannken
1.26   hannken 	KASSERT(mutex_owned(&fstrans_lock));
1.26   hannken
1.26   hannken 	LIST_FOREACH(fli, &fstrans_fli_head, fli_list) {
1.54   hannken 		if (fli->fli_mountinfo != fmi)
1.26   hannken 			continue;
1.26   hannken 		if (fli->fli_trans_cnt == 0)
1.26   hannken 			continue;
1.61   hannken 		if (fli->fli_self == curlwp)
1.61   hannken 			continue;
1.61   hannken 		if (grant_lock(fmi, fli->fli_lock_type))
1.26   hannken 			continue;
1.26   hannken
1.26   hannken 		return false;
1.26   hannken 	}
1.26   hannken
1.26   hannken 	return true;
1.26   hannken }
1.26   hannken
1.26   hannken /*
 1.1   hannken  * Set new file system state.
 1.1   hannken  */
 1.1   hannken int
 1.1   hannken fstrans_setstate(struct mount *mp, enum fstrans_state new_state)
 1.1   hannken {
1.26   hannken 	int error;
1.26   hannken 	enum fstrans_state old_state;
1.54   hannken 	struct fstrans_lwp_info *fli;
 1.1   hannken 	struct fstrans_mount_info *fmi;
 1.1   hannken
1.52   hannken 	KASSERT(mp != dead_rootmount);
1.52   hannken
1.54   hannken 	fli = fstrans_get_lwp_info(mp, true);
1.66   hannken 	if (fli == NULL)
1.66   hannken 		return ENOENT;
1.54   hannken 	fmi = fli->fli_mountinfo;
1.26   hannken 	old_state = fmi->fmi_state;
1.26   hannken 	if (old_state == new_state)
1.26   hannken 		return 0;
 1.1   hannken
1.26   hannken 	mutex_enter(&fstrans_lock);
1.26   hannken 	fmi->fmi_state = new_state;
1.26   hannken 	pserialize_perform(fstrans_psz);
1.26   hannken
1.26   hannken 	/*
1.26   hannken 	 * All threads see the new state now.
1.26   hannken 	 * Wait for transactions invalid at this state to leave.
1.26   hannken 	 */
1.26   hannken 	error = 0;
1.54   hannken 	while (! state_change_done(fmi)) {
1.50      manu 		error = cv_wait_sig(&fstrans_count_cv, &fstrans_lock);
1.26   hannken 		if (error) {
1.26   hannken 			new_state = fmi->fmi_state = FSTRANS_NORMAL;
1.26   hannken 			break;
1.26   hannken 		}
1.26   hannken 	}
1.61   hannken 	if (old_state != new_state) {
1.61   hannken 		if (old_state == FSTRANS_NORMAL) {
1.61   hannken 			KASSERT(fmi->fmi_owner == NULL);
1.61   hannken 			fmi->fmi_owner = curlwp;
1.61   hannken 		}
1.61   hannken 		if (new_state == FSTRANS_NORMAL) {
1.61   hannken 			KASSERT(fmi->fmi_owner == curlwp);
1.61   hannken 			fmi->fmi_owner = NULL;
1.61   hannken 		}
1.61   hannken 	}
1.26   hannken 	cv_broadcast(&fstrans_state_cv);
1.26   hannken 	mutex_exit(&fstrans_lock);
 1.1   hannken
1.26   hannken 	return error;
 1.1   hannken }
 1.1   hannken
 1.1   hannken /*
1.26   hannken  * Get current file system state.
 1.1   hannken  */
 1.1   hannken enum fstrans_state
 1.1   hannken fstrans_getstate(struct mount *mp)
 1.1   hannken {
1.54   hannken 	struct fstrans_lwp_info *fli;
 1.1   hannken 	struct fstrans_mount_info *fmi;
 1.1   hannken
1.52   hannken 	KASSERT(mp != dead_rootmount);
1.52   hannken
1.54   hannken 	fli = fstrans_get_lwp_info(mp, true);
1.66   hannken 	KASSERT(fli != NULL);
1.54   hannken 	fmi = fli->fli_mountinfo;
 1.1   hannken
 1.1   hannken 	return fmi->fmi_state;
 1.1   hannken }
 1.1   hannken
 1.1   hannken /*
 1.1   hannken  * Request a filesystem to suspend all operations.
 1.1   hannken  */
 1.1   hannken int
 1.1   hannken vfs_suspend(struct mount *mp, int nowait)
 1.1   hannken {
1.54   hannken 	struct fstrans_lwp_info *fli;
 1.4        ad 	int error;
 1.1   hannken
1.55   hannken 	if (mp == dead_rootmount)
1.55   hannken 		return EOPNOTSUPP;
1.52   hannken
1.54   hannken 	fli = fstrans_get_lwp_info(mp, true);
1.66   hannken 	if (fli == NULL)
1.66   hannken 		return ENOENT;
1.54   hannken
 1.4        ad 	if (nowait) {
 1.4        ad 		if (!mutex_tryenter(&vfs_suspend_lock))
 1.4        ad 			return EWOULDBLOCK;
 1.4        ad 	} else
 1.4        ad 		mutex_enter(&vfs_suspend_lock);
 1.1   hannken
1.65   hannken 	if ((error = VFS_SUSPENDCTL(fli->fli_mount, SUSPEND_SUSPEND)) != 0) {
 1.4        ad 		mutex_exit(&vfs_suspend_lock);
1.65   hannken 		return error;
1.65   hannken 	}
1.65   hannken
1.65   hannken 	if ((mp->mnt_iflag & IMNT_GONE) != 0) {
1.65   hannken 		vfs_resume(mp);
1.65   hannken 		return ENOENT;
1.65   hannken 	}
 1.1   hannken
1.65   hannken 	return 0;
 1.1   hannken }
 1.1   hannken
 1.1   hannken /*
 1.1   hannken  * Request a filesystem to resume all operations.
 1.1   hannken  */
 1.1   hannken void
 1.1   hannken vfs_resume(struct mount *mp)
 1.1   hannken {
1.54   hannken 	struct fstrans_lwp_info *fli;
 1.1   hannken
1.52   hannken 	KASSERT(mp != dead_rootmount);
1.52   hannken
1.54   hannken 	fli = fstrans_get_lwp_info(mp, false);
1.54   hannken 	mp = fli->fli_mount;
1.54   hannken
 1.1   hannken 	VFS_SUSPENDCTL(mp, SUSPEND_RESUME);
 1.4        ad 	mutex_exit(&vfs_suspend_lock);
 1.1   hannken }
 1.1   hannken
 1.1   hannken
1.26   hannken /*
1.26   hannken  * True, if no thread is running a cow handler.
1.26   hannken  */
1.26   hannken static bool
1.54   hannken cow_state_change_done(const struct fstrans_mount_info *fmi)
 1.1   hannken {
 1.1   hannken 	struct fstrans_lwp_info *fli;
 1.1   hannken
1.26   hannken 	KASSERT(mutex_owned(&fstrans_lock));
1.26   hannken 	KASSERT(fmi->fmi_cow_change);
1.26   hannken
1.26   hannken 	LIST_FOREACH(fli, &fstrans_fli_head, fli_list) {
1.54   hannken 		if (fli->fli_mount != fmi->fmi_mount)
1.26   hannken 			continue;
1.26   hannken 		if (fli->fli_cow_cnt == 0)
 1.1   hannken 			continue;
1.26   hannken
1.26   hannken 		return false;
 1.1   hannken 	}
1.26   hannken
1.26   hannken 	return true;
 1.1   hannken }
 1.1   hannken
1.26   hannken /*
1.26   hannken  * Prepare for changing this mounts cow list.
1.26   hannken  * Returns with fstrans_lock locked.
1.26   hannken  */
 1.1   hannken static void
1.54   hannken cow_change_enter(struct fstrans_mount_info *fmi)
 1.1   hannken {
 1.1   hannken
1.26   hannken 	mutex_enter(&fstrans_lock);
1.26   hannken
1.26   hannken 	/*
1.26   hannken 	 * Wait for other threads changing the list.
1.26   hannken 	 */
1.26   hannken 	while (fmi->fmi_cow_change)
1.26   hannken 		cv_wait(&fstrans_state_cv, &fstrans_lock);
1.26   hannken
1.26   hannken 	/*
1.26   hannken 	 * Wait until all threads are aware of a state change.
1.26   hannken 	 */
1.26   hannken 	fmi->fmi_cow_change = true;
1.26   hannken 	pserialize_perform(fstrans_psz);
1.26   hannken
1.54   hannken 	while (! cow_state_change_done(fmi))
1.26   hannken 		cv_wait(&fstrans_count_cv, &fstrans_lock);
 1.1   hannken }
 1.1   hannken
1.26   hannken /*
1.26   hannken  * Done changing this mounts cow list.
1.26   hannken  */
1.26   hannken static void
1.54   hannken cow_change_done(struct fstrans_mount_info *fmi)
 1.1   hannken {
1.26   hannken
1.26   hannken 	KASSERT(mutex_owned(&fstrans_lock));
1.26   hannken
1.26   hannken 	fmi->fmi_cow_change = false;
1.26   hannken 	pserialize_perform(fstrans_psz);
 1.1   hannken
1.26   hannken 	cv_broadcast(&fstrans_state_cv);
 1.1   hannken
1.26   hannken 	mutex_exit(&fstrans_lock);
 1.1   hannken }
1.12   hannken
1.26   hannken /*
1.26   hannken  * Add a handler to this mount.
1.26   hannken  */
1.12   hannken int
1.15   hannken fscow_establish(struct mount *mp, int (*func)(void *, struct buf *, bool),
1.15   hannken     void *arg)
1.12   hannken {
1.16        ad 	struct fstrans_mount_info *fmi;
1.31      matt 	struct fscow_handler *newch;
1.12   hannken
1.52   hannken 	KASSERT(mp != dead_rootmount);
1.16        ad
1.63        ad 	mutex_enter(&fstrans_lock);
1.66   hannken 	fmi = fstrans_mount_get(mp);
1.26   hannken 	KASSERT(fmi != NULL);
1.53   hannken 	fmi->fmi_ref_cnt += 1;
1.63        ad 	mutex_exit(&fstrans_lock);
1.12   hannken
1.32     pooka 	newch = kmem_alloc(sizeof(*newch), KM_SLEEP);
1.31      matt 	newch->ch_func = func;
1.31      matt 	newch->ch_arg = arg;
1.26   hannken
1.54   hannken 	cow_change_enter(fmi);
1.31      matt 	LIST_INSERT_HEAD(&fmi->fmi_cow_handler, newch, ch_list);
1.54   hannken 	cow_change_done(fmi);
1.12   hannken
1.12   hannken 	return 0;
1.12   hannken }
1.12   hannken
1.26   hannken /*
1.26   hannken  * Remove a handler from this mount.
1.26   hannken  */
1.12   hannken int
1.15   hannken fscow_disestablish(struct mount *mp, int (*func)(void *, struct buf *, bool),
1.12   hannken     void *arg)
1.12   hannken {
1.16        ad 	struct fstrans_mount_info *fmi;
1.12   hannken 	struct fscow_handler *hp = NULL;
1.12   hannken
1.52   hannken 	KASSERT(mp != dead_rootmount);
1.12   hannken
1.66   hannken 	mutex_enter(&fstrans_lock);
1.66   hannken 	fmi = fstrans_mount_get(mp);
1.26   hannken 	KASSERT(fmi != NULL);
1.66   hannken 	mutex_exit(&fstrans_lock);
1.16        ad
1.54   hannken 	cow_change_enter(fmi);
1.26   hannken 	LIST_FOREACH(hp, &fmi->fmi_cow_handler, ch_list)
1.12   hannken 		if (hp->ch_func == func && hp->ch_arg == arg)
1.12   hannken 			break;
1.12   hannken 	if (hp != NULL) {
1.26   hannken 		LIST_REMOVE(hp, ch_list);
1.12   hannken 		kmem_free(hp, sizeof(*hp));
1.12   hannken 	}
1.63        ad 	fstrans_mount_dtor(fmi);
1.54   hannken 	cow_change_done(fmi);
1.12   hannken
1.12   hannken 	return hp ? 0 : EINVAL;
1.12   hannken }
1.12   hannken
1.26   hannken /*
1.26   hannken  * Check for need to copy block that is about to be written.
1.26   hannken  */
1.12   hannken int
1.15   hannken fscow_run(struct buf *bp, bool data_valid)
1.12   hannken {
1.26   hannken 	int error, s;
1.12   hannken 	struct mount *mp;
1.20   hannken 	struct fstrans_lwp_info *fli;
1.16        ad 	struct fstrans_mount_info *fmi;
1.12   hannken 	struct fscow_handler *hp;
1.12   hannken
1.26   hannken 	/*
1.26   hannken 	 * First check if we need run the copy-on-write handler.
1.26   hannken 	 */
1.17   hannken 	if ((bp->b_flags & B_COWDONE))
1.26   hannken 		return 0;
1.26   hannken 	if (bp->b_vp == NULL) {
1.26   hannken 		bp->b_flags |= B_COWDONE;
1.26   hannken 		return 0;
1.26   hannken 	}
1.12   hannken 	if (bp->b_vp->v_type == VBLK)
1.27   hannken 		mp = spec_node_getmountedfs(bp->b_vp);
1.12   hannken 	else
1.12   hannken 		mp = bp->b_vp->v_mount;
1.52   hannken 	if (mp == NULL || mp == dead_rootmount) {
1.26   hannken 		bp->b_flags |= B_COWDONE;
1.26   hannken 		return 0;
1.26   hannken 	}
1.12   hannken
1.26   hannken 	fli = fstrans_get_lwp_info(mp, true);
1.66   hannken 	KASSERT(fli != NULL);
1.54   hannken 	fmi = fli->fli_mountinfo;
1.12   hannken
1.26   hannken 	/*
1.26   hannken 	 * On non-recursed run check if other threads
1.26   hannken 	 * want to change the list.
1.26   hannken 	 */
1.26   hannken 	if (fli->fli_cow_cnt == 0) {
1.26   hannken 		s = pserialize_read_enter();
1.26   hannken 		if (__predict_false(fmi->fmi_cow_change)) {
1.26   hannken 			pserialize_read_exit(s);
1.26   hannken 			mutex_enter(&fstrans_lock);
1.26   hannken 			while (fmi->fmi_cow_change)
1.26   hannken 				cv_wait(&fstrans_state_cv, &fstrans_lock);
1.26   hannken 			fli->fli_cow_cnt = 1;
1.26   hannken 			mutex_exit(&fstrans_lock);
1.26   hannken 		} else {
1.26   hannken 			fli->fli_cow_cnt = 1;
1.26   hannken 			pserialize_read_exit(s);
1.26   hannken 		}
1.26   hannken 	} else
1.26   hannken 		fli->fli_cow_cnt += 1;
1.20   hannken
1.26   hannken 	/*
1.26   hannken 	 * Run all copy-on-write handlers, stop on error.
1.26   hannken 	 */
1.26   hannken 	error = 0;
1.26   hannken 	LIST_FOREACH(hp, &fmi->fmi_cow_handler, ch_list)
1.15   hannken 		if ((error = (*hp->ch_func)(hp->ch_arg, bp, data_valid)) != 0)
1.12   hannken 			break;
1.17   hannken  	if (error == 0)
1.17   hannken  		bp->b_flags |= B_COWDONE;
1.15   hannken
1.26   hannken 	/*
1.26   hannken 	 * Check if other threads want to change the list.
1.26   hannken 	 */
1.26   hannken 	if (fli->fli_cow_cnt > 1) {
1.26   hannken 		fli->fli_cow_cnt -= 1;
1.26   hannken 	} else {
1.26   hannken 		s = pserialize_read_enter();
1.26   hannken 		if (__predict_false(fmi->fmi_cow_change)) {
1.26   hannken 			pserialize_read_exit(s);
1.26   hannken 			mutex_enter(&fstrans_lock);
1.26   hannken 			fli->fli_cow_cnt = 0;
1.26   hannken 			cv_signal(&fstrans_count_cv);
1.26   hannken 			mutex_exit(&fstrans_lock);
1.26   hannken 		} else {
1.26   hannken 			fli->fli_cow_cnt = 0;
1.26   hannken 			pserialize_read_exit(s);
1.26   hannken 		}
1.26   hannken 	}
1.26   hannken
1.12   hannken 	return error;
1.12   hannken }
1.26   hannken
1.26   hannken #if defined(DDB)
1.26   hannken void fstrans_dump(int);
1.26   hannken
1.26   hannken static void
1.26   hannken fstrans_print_lwp(struct proc *p, struct lwp *l, int verbose)
1.26   hannken {
1.26   hannken 	char prefix[9];
1.26   hannken 	struct fstrans_lwp_info *fli;
1.26   hannken
1.26   hannken 	snprintf(prefix, sizeof(prefix), "%d.%d", p->p_pid, l->l_lid);
1.26   hannken 	LIST_FOREACH(fli, &fstrans_fli_head, fli_list) {
1.26   hannken 		if (fli->fli_self != l)
1.26   hannken 			continue;
1.26   hannken 		if (fli->fli_trans_cnt == 0 && fli->fli_cow_cnt == 0) {
1.26   hannken 			if (! verbose)
1.26   hannken 				continue;
1.26   hannken 		}
1.26   hannken 		printf("%-8s", prefix);
1.26   hannken 		if (verbose)
1.26   hannken 			printf(" @%p", fli);
1.54   hannken 		if (fli->fli_mount == dead_rootmount)
1.54   hannken 			printf(" <dead>");
1.54   hannken 		else if (fli->fli_mount != NULL)
1.26   hannken 			printf(" (%s)", fli->fli_mount->mnt_stat.f_mntonname);
1.26   hannken 		else
1.26   hannken 			printf(" NULL");
1.58   hannken 		if (fli->fli_alias != NULL) {
1.58   hannken 			struct mount *amp = fli->fli_alias->fli_mount;
1.58   hannken
1.58   hannken 			printf(" alias");
1.58   hannken 			if (verbose)
1.58   hannken 				printf(" @%p", fli->fli_alias);
1.58   hannken 			if (amp == NULL)
1.58   hannken 				printf(" NULL");
1.58   hannken 			else
1.58   hannken 				printf(" (%s)", amp->mnt_stat.f_mntonname);
1.58   hannken 		}
1.54   hannken 		if (fli->fli_mountinfo && fli->fli_mountinfo->fmi_gone)
1.54   hannken 			printf(" gone");
1.26   hannken 		if (fli->fli_trans_cnt == 0) {
1.26   hannken 			printf(" -");
1.26   hannken 		} else {
1.26   hannken 			switch (fli->fli_lock_type) {
1.51   hannken 			case FSTRANS_LAZY:
1.51   hannken 				printf(" lazy");
1.51   hannken 				break;
1.26   hannken 			case FSTRANS_SHARED:
1.26   hannken 				printf(" shared");
1.26   hannken 				break;
1.26   hannken 			default:
1.26   hannken 				printf(" %#x", fli->fli_lock_type);
1.26   hannken 				break;
1.26   hannken 			}
1.26   hannken 		}
1.59   hannken 		printf(" %d cow %d alias %d\n",
1.59   hannken 		    fli->fli_trans_cnt, fli->fli_cow_cnt, fli->fli_alias_cnt);
1.26   hannken 		prefix[0] = '\0';
1.26   hannken 	}
1.26   hannken }
1.26   hannken
1.26   hannken static void
1.26   hannken fstrans_print_mount(struct mount *mp, int verbose)
1.26   hannken {
1.66   hannken 	uint32_t indx;
1.26   hannken 	struct fstrans_mount_info *fmi;
1.26   hannken
1.66   hannken 	indx = fstrans_mount_hash(mp);
1.66   hannken 	SLIST_FOREACH(fmi, &fstrans_mount_hashtab[indx], fmi_hash)
1.66   hannken 		if (fmi->fmi_mount == mp)
1.66   hannken 			break;
1.66   hannken
1.26   hannken 	if (!verbose && (fmi == NULL || fmi->fmi_state == FSTRANS_NORMAL))
1.26   hannken 		return;
1.26   hannken
1.26   hannken 	printf("%-16s ", mp->mnt_stat.f_mntonname);
1.26   hannken 	if (fmi == NULL) {
1.26   hannken 		printf("(null)\n");
1.26   hannken 		return;
1.26   hannken 	}
1.61   hannken 	printf("owner %p ", fmi->fmi_owner);
1.26   hannken 	switch (fmi->fmi_state) {
1.26   hannken 	case FSTRANS_NORMAL:
1.26   hannken 		printf("state normal\n");
1.26   hannken 		break;
1.51   hannken 	case FSTRANS_SUSPENDING:
1.51   hannken 		printf("state suspending\n");
1.51   hannken 		break;
1.26   hannken 	case FSTRANS_SUSPENDED:
1.26   hannken 		printf("state suspended\n");
1.26   hannken 		break;
1.26   hannken 	default:
1.26   hannken 		printf("state %#x\n", fmi->fmi_state);
1.26   hannken 		break;
1.26   hannken 	}
1.26   hannken }
1.26   hannken
1.26   hannken void
1.26   hannken fstrans_dump(int full)
1.26   hannken {
1.26   hannken 	const struct proclist_desc *pd;
1.26   hannken 	struct proc *p;
1.26   hannken 	struct lwp *l;
1.26   hannken 	struct mount *mp;
1.26   hannken
1.26   hannken 	printf("Fstrans locks by lwp:\n");
1.26   hannken 	for (pd = proclists; pd->pd_list != NULL; pd++)
1.26   hannken 		PROCLIST_FOREACH(p, pd->pd_list)
1.26   hannken 			LIST_FOREACH(l, &p->p_lwps, l_sibling)
1.26   hannken 				fstrans_print_lwp(p, l, full == 1);
1.26   hannken
1.26   hannken 	printf("Fstrans state by mount:\n");
1.41   hannken 	for (mp = _mountlist_next(NULL); mp; mp = _mountlist_next(mp))
1.26   hannken 		fstrans_print_mount(mp, full == 1);
1.26   hannken }
1.26   hannken #endif /* defined(DDB) */