NetBSD/sys/kern/vfs_lockf.c

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/* $NetBSD: vfs_lockf.c,v 1.32 2003/06/25 14:34:55 yamt Exp $ */
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/*
* Copyright (c) 1982, 1986, 1989, 1993
* The Regents of the University of California. All rights reserved.
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*
* This code is derived from software contributed to Berkeley by
* Scooter Morris at Genentech Inc.
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions
* are met:
* 1. Redistributions of source code must retain the above copyright
* notice, this list of conditions and the following disclaimer.
* 2. Redistributions in binary form must reproduce the above copyright
* notice, this list of conditions and the following disclaimer in the
* documentation and/or other materials provided with the distribution.
* 3. All advertising materials mentioning features or use of this software
* must display the following acknowledgement:
* This product includes software developed by the University of
* California, Berkeley and its contributors.
* 4. Neither the name of the University nor the names of its contributors
* may be used to endorse or promote products derived from this software
* without specific prior written permission.
*
* THIS SOFTWARE IS PROVIDED BY THE REGENTS AND CONTRIBUTORS ``AS IS'' AND
* ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
* IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
* ARE DISCLAIMED. IN NO EVENT SHALL THE REGENTS OR CONTRIBUTORS BE LIABLE
* FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
* DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS
* OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
* HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
* LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY
* OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF
* SUCH DAMAGE.
*
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* @(#)ufs_lockf.c 8.4 (Berkeley) 10/26/94
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*/
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#include <sys/cdefs.h>
__KERNEL_RCSID(0, "$NetBSD: vfs_lockf.c,v 1.32 2003/06/25 14:34:55 yamt Exp $");
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#include <sys/param.h>
#include <sys/systm.h>
#include <sys/kernel.h>
#include <sys/file.h>
#include <sys/proc.h>
#include <sys/vnode.h>
#include <sys/malloc.h>
#include <sys/fcntl.h>
#include <sys/lockf.h>
MALLOC_DEFINE(M_LOCKF, "lockf", "Byte-range locking structures");
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/*
* This variable controls the maximum number of processes that will
* be checked in doing deadlock detection.
*/
int maxlockdepth = MAXDEPTH;
#ifdef LOCKF_DEBUG
int lockf_debug = 0;
#endif
#define NOLOCKF (struct lockf *)0
#define SELF 0x1
#define OTHERS 0x2
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static int lf_clearlock(struct lockf *, struct lockf **);
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static int lf_findoverlap(struct lockf *,
struct lockf *, int, struct lockf ***, struct lockf **);
static struct lockf *lf_getblock(struct lockf *);
static int lf_getlock(struct lockf *, struct flock *);
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static int lf_setlock(struct lockf *, struct lockf **, struct simplelock *);
static void lf_split(struct lockf *, struct lockf *, struct lockf **);
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static void lf_wakelock(struct lockf *);
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#ifdef LOCKF_DEBUG
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static void lf_print(char *, struct lockf *);
static void lf_printlist(char *, struct lockf *);
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#endif
/*
* XXX TODO
* Misc cleanups: "caddr_t id" should be visible in the API as a
* "struct proc *".
* (This requires rototilling all VFS's which support advisory locking).
*
* Use pools for lock allocation.
*/
/*
* If there's a lot of lock contention on a single vnode, locking
* schemes which allow for more paralleism would be needed. Given how
* infrequently byte-range locks are actually used in typical BSD
* code, a more complex approach probably isn't worth it.
*/
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/*
* Do an advisory lock operation.
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*/
int
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lf_advlock(struct vop_advlock_args *ap, struct lockf **head, off_t size)
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{
struct flock *fl = ap->a_fl;
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struct lockf *lock = NULL;
struct lockf *sparelock;
struct simplelock *interlock = &ap->a_vp->v_interlock;
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off_t start, end;
int error;
/*
* Convert the flock structure into a start and end.
*/
switch (fl->l_whence) {
case SEEK_SET:
case SEEK_CUR:
/*
* Caller is responsible for adding any necessary offset
* when SEEK_CUR is used.
*/
start = fl->l_start;
break;
case SEEK_END:
start = size + fl->l_start;
break;
default:
return EINVAL;
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}
if (start < 0)
return EINVAL;
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/*
* allocate locks before acquire simple lock.
* we need two locks in the worst case.
*/
switch (ap->a_op) {
case F_SETLK:
case F_UNLCK:
/*
* XXX for F_UNLCK case, we can re-use lock.
*/
if ((fl->l_type & F_FLOCK) == 0) {
/*
* byte-range lock might need one more lock.
*/
MALLOC(sparelock, struct lockf *, sizeof(*lock),
M_LOCKF, M_WAITOK);
if (sparelock == NULL) {
error = ENOMEM;
goto quit;
}
break;
}
/* FALLTHROUGH */
case F_GETLK:
sparelock = NULL;
break;
default:
return EINVAL;
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}
MALLOC(lock, struct lockf *, sizeof(*lock), M_LOCKF, M_WAITOK);
if (lock == NULL) {
error = ENOMEM;
goto quit;
}
simple_lock(interlock);
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/*
* Avoid the common case of unlocking when inode has no locks.
*/
if (*head == (struct lockf *)0) {
if (ap->a_op != F_SETLK) {
fl->l_type = F_UNLCK;
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error = 0;
goto quit_unlock;
}
}
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if (fl->l_len == 0)
end = -1;
else
end = start + fl->l_len - 1;
/*
* Create the lockf structure.
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*/
lock->lf_start = start;
lock->lf_end = end;
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/* XXX NJWLWP
* I don't want to make the entire VFS universe use LWPs, because
* they don't need them, for the most part. This is an exception,
* and a kluge.
*/
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lock->lf_head = head;
lock->lf_type = fl->l_type;
lock->lf_next = (struct lockf *)0;
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TAILQ_INIT(&lock->lf_blkhd);
lock->lf_flags = ap->a_flags;
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if (lock->lf_flags & F_POSIX) {
KASSERT(curproc == (struct proc *)ap->a_id);
}
lock->lf_id = (struct proc *)ap->a_id;
lock->lf_lwp = curlwp;
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/*
* Do the requested operation.
*/
switch (ap->a_op) {
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case F_SETLK:
error = lf_setlock(lock, &sparelock, interlock);
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lock = NULL; /* lf_setlock freed it */
break;
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case F_UNLCK:
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error = lf_clearlock(lock, &sparelock);
break;
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case F_GETLK:
error = lf_getlock(lock, fl);
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break;
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default:
break;
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/* NOTREACHED */
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}
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quit_unlock:
simple_unlock(interlock);
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quit:
if (lock)
FREE(lock, M_LOCKF);
if (sparelock)
FREE(sparelock, M_LOCKF);
return error;
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}
/*
* Set a byte-range lock.
*/
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static int
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lf_setlock(struct lockf *lock, struct lockf **sparelock,
struct simplelock *interlock)
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{
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struct lockf *block;
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struct lockf **head = lock->lf_head;
struct lockf **prev, *overlap, *ltmp;
static char lockstr[] = "lockf";
int ovcase, priority, needtolink, error;
#ifdef LOCKF_DEBUG
if (lockf_debug & 1)
lf_print("lf_setlock", lock);
#endif /* LOCKF_DEBUG */
/*
* Set the priority
*/
priority = PLOCK;
if (lock->lf_type == F_WRLCK)
priority += 4;
priority |= PCATCH;
/*
* Scan lock list for this file looking for locks that would block us.
*/
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while ((block = lf_getblock(lock)) != NULL) {
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/*
* Free the structure and return if nonblocking.
*/
if ((lock->lf_flags & F_WAIT) == 0) {
FREE(lock, M_LOCKF);
return EAGAIN;
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}
/*
* We are blocked. Since flock style locks cover
* the whole file, there is no chance for deadlock.
* For byte-range locks we must check for deadlock.
*
* Deadlock detection is done by looking through the
* wait channels to see if there are any cycles that
* involve us. MAXDEPTH is set just to make sure we
* do not go off into neverneverland.
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*/
if ((lock->lf_flags & F_POSIX) &&
(block->lf_flags & F_POSIX)) {
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struct lwp *wlwp;
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struct lockf *waitblock;
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int i = 0;
/*
* The block is waiting on something. if_lwp will be
* 0 once the lock is granted, so we terminate the
* loop if we find this.
*/
wlwp = block->lf_lwp;
while (wlwp && (i++ < maxlockdepth)) {
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waitblock = (struct lockf *)wlwp->l_wchan;
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/* Get the owner of the blocking lock */
waitblock = waitblock->lf_next;
if ((waitblock->lf_flags & F_POSIX) == 0)
break;
wlwp = waitblock->lf_lwp;
if (wlwp == lock->lf_lwp) {
free(lock, M_LOCKF);
return EDEADLK;
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}
}
/*
* If we're still following a dependancy chain
* after maxlockdepth iterations, assume we're in
* a cycle to be safe.
*/
if (i >= maxlockdepth) {
free(lock, M_LOCKF);
return EDEADLK;
}
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}
/*
* For flock type locks, we must first remove
* any shared locks that we hold before we sleep
* waiting for an exclusive lock.
*/
if ((lock->lf_flags & F_FLOCK) &&
lock->lf_type == F_WRLCK) {
lock->lf_type = F_UNLCK;
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(void) lf_clearlock(lock, NULL);
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lock->lf_type = F_WRLCK;
}
/*
* Add our lock to the blocked list and sleep until we're free.
* Remember who blocked us (for deadlock detection).
*/
lock->lf_next = block;
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TAILQ_INSERT_TAIL(&block->lf_blkhd, lock, lf_block);
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#ifdef LOCKF_DEBUG
if (lockf_debug & 1) {
lf_print("lf_setlock: blocking on", block);
lf_printlist("lf_setlock", block);
}
#endif /* LOCKF_DEBUG */
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error = ltsleep(lock, priority, lockstr, 0, interlock);
/*
* We may have been awakened by a signal (in
* which case we must remove ourselves from the
* blocked list) and/or by another process
* releasing a lock (in which case we have already
* been removed from the blocked list and our
* lf_next field set to NOLOCKF).
*/
if (lock->lf_next != NOLOCKF) {
TAILQ_REMOVE(&lock->lf_next->lf_blkhd, lock, lf_block);
lock->lf_next = NOLOCKF;
}
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if (error) {
free(lock, M_LOCKF);
return error;
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}
}
/*
* No blocks!! Add the lock. Note that we will
* downgrade or upgrade any overlapping locks this
* process already owns.
*
* Skip over locks owned by other processes.
* Handle any locks that overlap and are owned by ourselves.
*/
lock->lf_lwp = 0;
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prev = head;
block = *head;
needtolink = 1;
for (;;) {
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ovcase = lf_findoverlap(block, lock, SELF, &prev, &overlap);
if (ovcase)
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block = overlap->lf_next;
/*
* Six cases:
* 0) no overlap
* 1) overlap == lock
* 2) overlap contains lock
* 3) lock contains overlap
* 4) overlap starts before lock
* 5) overlap ends after lock
*/
switch (ovcase) {
case 0: /* no overlap */
if (needtolink) {
*prev = lock;
lock->lf_next = overlap;
}
break;
case 1: /* overlap == lock */
/*
* If downgrading lock, others may be
* able to acquire it.
*/
if (lock->lf_type == F_RDLCK &&
overlap->lf_type == F_WRLCK)
lf_wakelock(overlap);
overlap->lf_type = lock->lf_type;
FREE(lock, M_LOCKF);
lock = overlap; /* for debug output below */
break;
case 2: /* overlap contains lock */
/*
* Check for common starting point and different types.
*/
if (overlap->lf_type == lock->lf_type) {
free(lock, M_LOCKF);
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lock = overlap; /* for debug output below */
break;
}
if (overlap->lf_start == lock->lf_start) {
*prev = lock;
lock->lf_next = overlap;
overlap->lf_start = lock->lf_end + 1;
} else
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lf_split(overlap, lock, sparelock);
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lf_wakelock(overlap);
break;
case 3: /* lock contains overlap */
/*
* If downgrading lock, others may be able to
* acquire it, otherwise take the list.
*/
if (lock->lf_type == F_RDLCK &&
overlap->lf_type == F_WRLCK) {
lf_wakelock(overlap);
} else {
while ((ltmp = TAILQ_FIRST(&overlap->lf_blkhd))) {
KASSERT(ltmp->lf_next == overlap);
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TAILQ_REMOVE(&overlap->lf_blkhd, ltmp,
lf_block);
ltmp->lf_next = lock;
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TAILQ_INSERT_TAIL(&lock->lf_blkhd,
ltmp, lf_block);
}
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}
/*
* Add the new lock if necessary and delete the overlap.
*/
if (needtolink) {
*prev = lock;
lock->lf_next = overlap->lf_next;
prev = &lock->lf_next;
needtolink = 0;
} else
*prev = overlap->lf_next;
free(overlap, M_LOCKF);
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continue;
case 4: /* overlap starts before lock */
/*
* Add lock after overlap on the list.
*/
lock->lf_next = overlap->lf_next;
overlap->lf_next = lock;
overlap->lf_end = lock->lf_start - 1;
prev = &lock->lf_next;
lf_wakelock(overlap);
needtolink = 0;
continue;
case 5: /* overlap ends after lock */
/*
* Add the new lock before overlap.
*/
if (needtolink) {
*prev = lock;
lock->lf_next = overlap;
}
overlap->lf_start = lock->lf_end + 1;
lf_wakelock(overlap);
break;
}
break;
}
#ifdef LOCKF_DEBUG
if (lockf_debug & 1) {
lf_print("lf_setlock: got the lock", lock);
lf_printlist("lf_setlock", lock);
}
#endif /* LOCKF_DEBUG */
return 0;
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}
/*
* Remove a byte-range lock on an inode.
*
* Generally, find the lock (or an overlap to that lock)
* and remove it (or shrink it), then wakeup anyone we can.
*/
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static int
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lf_clearlock(struct lockf *unlock, struct lockf **sparelock)
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{
struct lockf **head = unlock->lf_head;
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struct lockf *lf = *head;
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struct lockf *overlap, **prev;
int ovcase;
if (lf == NOLOCKF)
return 0;
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#ifdef LOCKF_DEBUG
if (unlock->lf_type != F_UNLCK)
panic("lf_clearlock: bad type");
if (lockf_debug & 1)
lf_print("lf_clearlock", unlock);
#endif /* LOCKF_DEBUG */
prev = head;
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while ((ovcase = lf_findoverlap(lf, unlock, SELF,
&prev, &overlap)) != 0) {
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/*
* Wakeup the list of locks to be retried.
*/
lf_wakelock(overlap);
switch (ovcase) {
case 1: /* overlap == lock */
*prev = overlap->lf_next;
FREE(overlap, M_LOCKF);
break;
case 2: /* overlap contains lock: split it */
if (overlap->lf_start == unlock->lf_start) {
overlap->lf_start = unlock->lf_end + 1;
break;
}
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lf_split(overlap, unlock, sparelock);
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overlap->lf_next = unlock->lf_next;
break;
case 3: /* lock contains overlap */
*prev = overlap->lf_next;
lf = overlap->lf_next;
free(overlap, M_LOCKF);
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continue;
case 4: /* overlap starts before lock */
overlap->lf_end = unlock->lf_start - 1;
prev = &overlap->lf_next;
lf = overlap->lf_next;
continue;
case 5: /* overlap ends after lock */
overlap->lf_start = unlock->lf_end + 1;
break;
}
break;
}
#ifdef LOCKF_DEBUG
if (lockf_debug & 1)
lf_printlist("lf_clearlock", unlock);
#endif /* LOCKF_DEBUG */
return 0;
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}
/*
* Check whether there is a blocking lock,
* and if so return its process identifier.
*/
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static int
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lf_getlock(struct lockf *lock, struct flock *fl)
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{
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struct lockf *block;
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#ifdef LOCKF_DEBUG
if (lockf_debug & 1)
lf_print("lf_getlock", lock);
#endif /* LOCKF_DEBUG */
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if ((block = lf_getblock(lock)) != NULL) {
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fl->l_type = block->lf_type;
fl->l_whence = SEEK_SET;
fl->l_start = block->lf_start;
if (block->lf_end == -1)
fl->l_len = 0;
else
fl->l_len = block->lf_end - block->lf_start + 1;
if (block->lf_flags & F_POSIX)
fl->l_pid = ((struct proc *)block->lf_id)->p_pid;
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else
fl->l_pid = -1;
} else {
fl->l_type = F_UNLCK;
}
return 0;
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}
/*
* Walk the list of locks for an inode and
* return the first blocking lock.
*/
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static struct lockf *
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lf_getblock(struct lockf *lock)
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{
struct lockf **prev, *overlap, *lf = *(lock->lf_head);
prev = lock->lf_head;
while (lf_findoverlap(lf, lock, OTHERS, &prev, &overlap) != 0) {
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/*
* We've found an overlap, see if it blocks us
*/
if ((lock->lf_type == F_WRLCK || overlap->lf_type == F_WRLCK))
return overlap;
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/*
* Nope, point to the next one on the list and
* see if it blocks us
*/
lf = overlap->lf_next;
}
return NOLOCKF;
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}
/*
* Walk the list of locks for an inode to
* find an overlapping lock (if any).
*
* NOTE: this returns only the FIRST overlapping lock. There
* may be more than one.
*/
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static int
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lf_findoverlap(struct lockf *lf, struct lockf *lock, int type,
struct lockf ***prev, struct lockf **overlap)
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{
off_t start, end;
*overlap = lf;
if (lf == NOLOCKF)
return 0;
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#ifdef LOCKF_DEBUG
if (lockf_debug & 2)
lf_print("lf_findoverlap: looking for overlap in", lock);
#endif /* LOCKF_DEBUG */
start = lock->lf_start;
end = lock->lf_end;
while (lf != NOLOCKF) {
if (((type == SELF) && lf->lf_id != lock->lf_id) ||
((type == OTHERS) && lf->lf_id == lock->lf_id)) {
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*prev = &lf->lf_next;
*overlap = lf = lf->lf_next;
continue;
}
#ifdef LOCKF_DEBUG
if (lockf_debug & 2)
lf_print("\tchecking", lf);
#endif /* LOCKF_DEBUG */
/*
* OK, check for overlap
*
* Six cases:
* 0) no overlap
* 1) overlap == lock
* 2) overlap contains lock
* 3) lock contains overlap
* 4) overlap starts before lock
* 5) overlap ends after lock
*/
if ((lf->lf_end != -1 && start > lf->lf_end) ||
(end != -1 && lf->lf_start > end)) {
/* Case 0 */
#ifdef LOCKF_DEBUG
if (lockf_debug & 2)
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printf("no overlap\n");
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#endif /* LOCKF_DEBUG */
if ((type & SELF) && end != -1 && lf->lf_start > end)
return 0;
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*prev = &lf->lf_next;
*overlap = lf = lf->lf_next;
continue;
}
if ((lf->lf_start == start) && (lf->lf_end == end)) {
/* Case 1 */
#ifdef LOCKF_DEBUG
if (lockf_debug & 2)
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printf("overlap == lock\n");
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#endif /* LOCKF_DEBUG */
return 1;
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}
if ((lf->lf_start <= start) &&
(end != -1) &&
((lf->lf_end >= end) || (lf->lf_end == -1))) {
/* Case 2 */
#ifdef LOCKF_DEBUG
if (lockf_debug & 2)
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printf("overlap contains lock\n");
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#endif /* LOCKF_DEBUG */
return 2;
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}
if (start <= lf->lf_start &&
(end == -1 ||
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(lf->lf_end != -1 && end >= lf->lf_end))) {
/* Case 3 */
#ifdef LOCKF_DEBUG
if (lockf_debug & 2)
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printf("lock contains overlap\n");
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#endif /* LOCKF_DEBUG */
return 3;
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}
if ((lf->lf_start < start) &&
((lf->lf_end >= start) || (lf->lf_end == -1))) {
/* Case 4 */
#ifdef LOCKF_DEBUG
if (lockf_debug & 2)
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printf("overlap starts before lock\n");
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#endif /* LOCKF_DEBUG */
return 4;
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}
if ((lf->lf_start > start) &&
(end != -1) &&
((lf->lf_end > end) || (lf->lf_end == -1))) {
/* Case 5 */
#ifdef LOCKF_DEBUG
if (lockf_debug & 2)
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printf("overlap ends after lock\n");
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#endif /* LOCKF_DEBUG */
return 5;
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}
panic("lf_findoverlap: default");
}
return 0;
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}
/*
* Split a lock and a contained region into
* two or three locks as necessary.
*/
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static void
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lf_split(struct lockf *lock1, struct lockf *lock2, struct lockf **sparelock)
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{
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struct lockf *splitlock;
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#ifdef LOCKF_DEBUG
if (lockf_debug & 2) {
lf_print("lf_split", lock1);
lf_print("splitting from", lock2);
}
#endif /* LOCKF_DEBUG */
/*
* Check to see if spliting into only two pieces.
*/
if (lock1->lf_start == lock2->lf_start) {
lock1->lf_start = lock2->lf_end + 1;
lock2->lf_next = lock1;
return;
}
if (lock1->lf_end == lock2->lf_end) {
lock1->lf_end = lock2->lf_start - 1;
lock2->lf_next = lock1->lf_next;
lock1->lf_next = lock2;
return;
}
/*
* Make a new lock consisting of the last part of
* the encompassing lock
*/
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splitlock = *sparelock;
*sparelock = NULL;
memcpy(splitlock, lock1, sizeof(*splitlock));
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splitlock->lf_start = lock2->lf_end + 1;
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TAILQ_INIT(&splitlock->lf_blkhd);
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lock1->lf_end = lock2->lf_start - 1;
/*
* OK, now link it in
*/
splitlock->lf_next = lock1->lf_next;
lock2->lf_next = splitlock;
lock1->lf_next = lock2;
}
/*
* Wakeup a blocklist
*/
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static void
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lf_wakelock(struct lockf *listhead)
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{
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struct lockf *wakelock;
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while ((wakelock = TAILQ_FIRST(&listhead->lf_blkhd))) {
KASSERT(wakelock->lf_next == listhead);
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TAILQ_REMOVE(&listhead->lf_blkhd, wakelock, lf_block);
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wakelock->lf_next = NOLOCKF;
#ifdef LOCKF_DEBUG
if (lockf_debug & 2)
lf_print("lf_wakelock: awakening", wakelock);
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#endif
wakeup(wakelock);
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}
}
#ifdef LOCKF_DEBUG
/*
* Print out a lock.
*/
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static void
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lf_print(char *tag, struct lockf *lock)
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{
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printf("%s: lock %p for ", tag, lock);
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if (lock->lf_flags & F_POSIX)
printf("proc %d", ((struct proc *)lock->lf_id)->p_pid);
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else
printf("file 0x%p", (struct file *)lock->lf_id);
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printf(" %s, start %qx, end %qx",
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lock->lf_type == F_RDLCK ? "shared" :
lock->lf_type == F_WRLCK ? "exclusive" :
lock->lf_type == F_UNLCK ? "unlock" :
"unknown", lock->lf_start, lock->lf_end);
if (TAILQ_FIRST(&lock->lf_blkhd))
printf(" block %p\n", TAILQ_FIRST(&lock->lf_blkhd));
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else
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printf("\n");
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}
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static void
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lf_printlist(char *tag, struct lockf *lock)
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{
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struct lockf *lf, *blk;
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printf("%s: Lock list:\n", tag);
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for (lf = *lock->lf_head; lf; lf = lf->lf_next) {
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printf("\tlock %p for ", lf);
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if (lf->lf_flags & F_POSIX)
printf("proc %d", ((struct proc *)lf->lf_id)->p_pid);
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else
printf("file 0x%p", (struct file *)lf->lf_id);
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printf(", %s, start %qx, end %qx",
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lf->lf_type == F_RDLCK ? "shared" :
lf->lf_type == F_WRLCK ? "exclusive" :
lf->lf_type == F_UNLCK ? "unlock" :
"unknown", lf->lf_start, lf->lf_end);
TAILQ_FOREACH(blk, &lf->lf_blkhd, lf_block) {
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if (blk->lf_flags & F_POSIX)
printf("proc %d",
((struct proc *)blk->lf_id)->p_pid);
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else
printf("file 0x%p", (struct file *)blk->lf_id);
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printf(", %s, start %qx, end %qx",
blk->lf_type == F_RDLCK ? "shared" :
blk->lf_type == F_WRLCK ? "exclusive" :
blk->lf_type == F_UNLCK ? "unlock" :
"unknown", blk->lf_start, blk->lf_end);
if (TAILQ_FIRST(&blk->lf_blkhd))
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panic("lf_printlist: bad list");
}
printf("\n");
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}
}
#endif /* LOCKF_DEBUG */