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/* $OpenBSD: kern_rwlock.c,v 1.48 2022/05/10 16:56:16 bluhm Exp $ */
/*
* Copyright (c) 2002, 2003 Artur Grabowski <art@openbsd.org>
* Copyright (c) 2011 Thordur Bjornsson <thib@secnorth.net>
*
* Permission to use, copy, modify, and distribute this software for any
* purpose with or without fee is hereby granted, provided that the above
* copyright notice and this permission notice appear in all copies.
*
* THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL WARRANTIES
* WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF
* MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR
* ANY SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES
* WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN
* ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF
* OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE.
*/
#include <sys/param.h>
#include <sys/systm.h>
#include <sys/pool.h>
#include <sys/proc.h>
#include <sys/rwlock.h>
#include <sys/limits.h>
#include <sys/atomic.h>
#include <sys/witness.h>
void rw_do_exit(struct rwlock *, unsigned long);
/* XXX - temporary measure until proc0 is properly aligned */
#define RW_PROC(p) (((long)p) & ~RWLOCK_MASK)
/*
* Other OSes implement more sophisticated mechanism to determine how long the
* process attempting to acquire the lock should be spinning. We start with
* the most simple approach: we do RW_SPINS attempts at most before eventually
* giving up and putting the process to sleep queue.
*/
#define RW_SPINS 1000
#ifdef MULTIPROCESSOR
#define rw_cas(p, o, n) (atomic_cas_ulong(p, o, n) != o)
#else
static inline int
rw_cas(volatile unsigned long *p, unsigned long o, unsigned long n)
{
if (*p != o)
return (1);
*p = n;
return (0);
}
#endif
/*
* Magic wand for lock operations. Every operation checks if certain
* flags are set and if they aren't, it increments the lock with some
* value (that might need some computing in a few cases). If the operation
* fails, we need to set certain flags while waiting for the lock.
*
* RW_WRITE The lock must be completely empty. We increment it with
* RWLOCK_WRLOCK and the proc pointer of the holder.
* Sets RWLOCK_WAIT|RWLOCK_WRWANT while waiting.
* RW_READ RWLOCK_WRLOCK|RWLOCK_WRWANT may not be set. We increment
* with RWLOCK_READ_INCR. RWLOCK_WAIT while waiting.
*/
static const struct rwlock_op {
unsigned long inc;
unsigned long check;
unsigned long wait_set;
long proc_mult;
int wait_prio;
} rw_ops[] = {
{ /* RW_WRITE */
RWLOCK_WRLOCK,
ULONG_MAX,
RWLOCK_WAIT | RWLOCK_WRWANT,
1,
PLOCK - 4
},
{ /* RW_READ */
RWLOCK_READ_INCR,
RWLOCK_WRLOCK | RWLOCK_WRWANT,
RWLOCK_WAIT,
0,
PLOCK
},
{ /* Sparse Entry. */
0,
},
{ /* RW_DOWNGRADE */
RWLOCK_READ_INCR - RWLOCK_WRLOCK,
0,
0,
-1,
PLOCK
},
};
void
rw_enter_read(struct rwlock *rwl)
{
unsigned long owner = rwl->rwl_owner;
if (__predict_false((owner & (RWLOCK_WRLOCK | RWLOCK_WRWANT)) ||
rw_cas(&rwl->rwl_owner, owner, owner + RWLOCK_READ_INCR)))
rw_enter(rwl, RW_READ);
else {
membar_enter_after_atomic();
WITNESS_CHECKORDER(&rwl->rwl_lock_obj, LOP_NEWORDER, NULL);
WITNESS_LOCK(&rwl->rwl_lock_obj, 0);
}
}
void
rw_enter_write(struct rwlock *rwl)
{
struct proc *p = curproc;
if (__predict_false(rw_cas(&rwl->rwl_owner, 0,
RW_PROC(p) | RWLOCK_WRLOCK)))
rw_enter(rwl, RW_WRITE);
else {
membar_enter_after_atomic();
WITNESS_CHECKORDER(&rwl->rwl_lock_obj,
LOP_EXCLUSIVE | LOP_NEWORDER, NULL);
WITNESS_LOCK(&rwl->rwl_lock_obj, LOP_EXCLUSIVE);
}
}
void
rw_exit_read(struct rwlock *rwl)
{
unsigned long owner;
rw_assert_rdlock(rwl);
WITNESS_UNLOCK(&rwl->rwl_lock_obj, 0);
membar_exit_before_atomic();
owner = rwl->rwl_owner;
if (__predict_false((owner & RWLOCK_WAIT) ||
rw_cas(&rwl->rwl_owner, owner, owner - RWLOCK_READ_INCR)))
rw_do_exit(rwl, 0);
}
void
rw_exit_write(struct rwlock *rwl)
{
unsigned long owner;
rw_assert_wrlock(rwl);
WITNESS_UNLOCK(&rwl->rwl_lock_obj, LOP_EXCLUSIVE);
membar_exit_before_atomic();
owner = rwl->rwl_owner;
if (__predict_false((owner & RWLOCK_WAIT) ||
rw_cas(&rwl->rwl_owner, owner, 0)))
rw_do_exit(rwl, RWLOCK_WRLOCK);
}
#ifdef DIAGNOSTIC
/*
* Put the diagnostic functions here to keep the main code free
* from ifdef clutter.
*/
static void
rw_enter_diag(struct rwlock *rwl, int flags)
{
switch (flags & RW_OPMASK) {
case RW_WRITE:
case RW_READ:
if (RW_PROC(curproc) == RW_PROC(rwl->rwl_owner))
panic("rw_enter: %s locking against myself",
rwl->rwl_name);
break;
case RW_DOWNGRADE:
/*
* If we're downgrading, we must hold the write lock.
*/
if ((rwl->rwl_owner & RWLOCK_WRLOCK) == 0)
panic("rw_enter: %s downgrade of non-write lock",
rwl->rwl_name);
if (RW_PROC(curproc) != RW_PROC(rwl->rwl_owner))
panic("rw_enter: %s downgrade, not holder",
rwl->rwl_name);
break;
default:
panic("rw_enter: unknown op 0x%x", flags);
}
}
#else
#define rw_enter_diag(r, f)
#endif
static void
_rw_init_flags_witness(struct rwlock *rwl, const char *name, int lo_flags,
const struct lock_type *type)
{
rwl->rwl_owner = 0;
rwl->rwl_name = name;
#ifdef WITNESS
rwl->rwl_lock_obj.lo_flags = lo_flags;
rwl->rwl_lock_obj.lo_name = name;
rwl->rwl_lock_obj.lo_type = type;
WITNESS_INIT(&rwl->rwl_lock_obj, type);
#else
(void)type;
(void)lo_flags;
#endif
}
void
_rw_init_flags(struct rwlock *rwl, const char *name, int flags,
const struct lock_type *type)
{
_rw_init_flags_witness(rwl, name, RWLOCK_LO_FLAGS(flags), type);
}
int
rw_enter(struct rwlock *rwl, int flags)
{
const struct rwlock_op *op;
struct sleep_state sls;
unsigned long inc, o;
#ifdef MULTIPROCESSOR
/*
* If process holds the kernel lock, then we want to give up on CPU
* as soon as possible so other processes waiting for the kernel lock
* can progress. Hence no spinning if we hold the kernel lock.
*/
unsigned int spin = (_kernel_lock_held()) ? 0 : RW_SPINS;
#endif
int error, prio;
#ifdef WITNESS
int lop_flags;
lop_flags = LOP_NEWORDER;
if (flags & RW_WRITE)
lop_flags |= LOP_EXCLUSIVE;
if (flags & RW_DUPOK)
lop_flags |= LOP_DUPOK;
if ((flags & RW_NOSLEEP) == 0 && (flags & RW_DOWNGRADE) == 0)
WITNESS_CHECKORDER(&rwl->rwl_lock_obj, lop_flags, NULL);
#endif
op = &rw_ops[(flags & RW_OPMASK) - 1];
inc = op->inc + RW_PROC(curproc) * op->proc_mult;
retry:
while (__predict_false(((o = rwl->rwl_owner) & op->check) != 0)) {
unsigned long set = o | op->wait_set;
int do_sleep;
/* Avoid deadlocks after panic or in DDB */
if (panicstr || db_active)
return (0);
#ifdef MULTIPROCESSOR
/*
* It makes sense to try to spin just in case the lock
* is acquired by writer.
*/
if ((o & RWLOCK_WRLOCK) && (spin != 0)) {
spin--;
CPU_BUSY_CYCLE();
continue;
}
#endif
rw_enter_diag(rwl, flags);
if (flags & RW_NOSLEEP)
return (EBUSY);
prio = op->wait_prio;
if (flags & RW_INTR)
prio |= PCATCH;
sleep_setup(&sls, rwl, prio, rwl->rwl_name, 0);
do_sleep = !rw_cas(&rwl->rwl_owner, o, set);
error = sleep_finish(&sls, do_sleep);
if ((flags & RW_INTR) &&
(error != 0))
return (error);
if (flags & RW_SLEEPFAIL)
return (EAGAIN);
}
if (__predict_false(rw_cas(&rwl->rwl_owner, o, o + inc)))
goto retry;
membar_enter_after_atomic();
/*
* If old lock had RWLOCK_WAIT and RWLOCK_WRLOCK set, it means we
* downgraded a write lock and had possible read waiter, wake them
* to let them retry the lock.
*/
if (__predict_false((o & (RWLOCK_WRLOCK|RWLOCK_WAIT)) ==
(RWLOCK_WRLOCK|RWLOCK_WAIT)))
wakeup(rwl);
if (flags & RW_DOWNGRADE)
WITNESS_DOWNGRADE(&rwl->rwl_lock_obj, lop_flags);
else
WITNESS_LOCK(&rwl->rwl_lock_obj, lop_flags);
return (0);
}
void
rw_exit(struct rwlock *rwl)
{
unsigned long wrlock;
/* Avoid deadlocks after panic or in DDB */
if (panicstr || db_active)
return;
wrlock = rwl->rwl_owner & RWLOCK_WRLOCK;
if (wrlock)
rw_assert_wrlock(rwl);
else
rw_assert_rdlock(rwl);
WITNESS_UNLOCK(&rwl->rwl_lock_obj, wrlock ? LOP_EXCLUSIVE : 0);
membar_exit_before_atomic();
rw_do_exit(rwl, wrlock);
}
/* membar_exit_before_atomic() has to precede call of this function. */
void
rw_do_exit(struct rwlock *rwl, unsigned long wrlock)
{
unsigned long owner, set;
do {
owner = rwl->rwl_owner;
if (wrlock)
set = 0;
else
set = (owner - RWLOCK_READ_INCR) &
~(RWLOCK_WAIT|RWLOCK_WRWANT);
/*
* Potential MP race here. If the owner had WRWANT set, we
* cleared it and a reader can sneak in before a writer.
*/
} while (__predict_false(rw_cas(&rwl->rwl_owner, owner, set)));
if (owner & RWLOCK_WAIT)
wakeup(rwl);
}
int
rw_status(struct rwlock *rwl)
{
unsigned long owner = rwl->rwl_owner;
if (owner & RWLOCK_WRLOCK) {
if (RW_PROC(curproc) == RW_PROC(owner))
return RW_WRITE;
else
return RW_WRITE_OTHER;
}
if (owner)
return RW_READ;
return (0);
}
#ifdef DIAGNOSTIC
void
rw_assert_wrlock(struct rwlock *rwl)
{
if (panicstr || db_active)
return;
#ifdef WITNESS
witness_assert(&rwl->rwl_lock_obj, LA_XLOCKED);
#else
if (!(rwl->rwl_owner & RWLOCK_WRLOCK))
panic("%s: lock not held", rwl->rwl_name);
if (RW_PROC(curproc) != RW_PROC(rwl->rwl_owner))
panic("%s: lock not held by this process", rwl->rwl_name);
#endif
}
void
rw_assert_rdlock(struct rwlock *rwl)
{
if (panicstr || db_active)
return;
#ifdef WITNESS
witness_assert(&rwl->rwl_lock_obj, LA_SLOCKED);
#else
if (!RW_PROC(rwl->rwl_owner) || (rwl->rwl_owner & RWLOCK_WRLOCK))
panic("%s: lock not shared", rwl->rwl_name);
#endif
}
void
rw_assert_anylock(struct rwlock *rwl)
{
if (panicstr || db_active)
return;
#ifdef WITNESS
witness_assert(&rwl->rwl_lock_obj, LA_LOCKED);
#else
switch (rw_status(rwl)) {
case RW_WRITE_OTHER:
panic("%s: lock held by different process", rwl->rwl_name);
case 0:
panic("%s: lock not held", rwl->rwl_name);
}
#endif
}
void
rw_assert_unlocked(struct rwlock *rwl)
{
if (panicstr || db_active)
return;
#ifdef WITNESS
witness_assert(&rwl->rwl_lock_obj, LA_UNLOCKED);
#else
if (RW_PROC(curproc) == RW_PROC(rwl->rwl_owner))
panic("%s: lock held", rwl->rwl_name);
#endif
}
#endif
/* recursive rwlocks; */
void
_rrw_init_flags(struct rrwlock *rrwl, const char *name, int flags,
const struct lock_type *type)
{
memset(rrwl, 0, sizeof(struct rrwlock));
_rw_init_flags_witness(&rrwl->rrwl_lock, name, RRWLOCK_LO_FLAGS(flags),
type);
}
int
rrw_enter(struct rrwlock *rrwl, int flags)
{
int rv;
if (RW_PROC(rrwl->rrwl_lock.rwl_owner) == RW_PROC(curproc)) {
if (flags & RW_RECURSEFAIL)
return (EDEADLK);
else {
rrwl->rrwl_wcnt++;
WITNESS_LOCK(&rrwl->rrwl_lock.rwl_lock_obj,
LOP_EXCLUSIVE);
return (0);
}
}
rv = rw_enter(&rrwl->rrwl_lock, flags);
if (rv == 0)
rrwl->rrwl_wcnt = 1;
return (rv);
}
void
rrw_exit(struct rrwlock *rrwl)
{
if (RW_PROC(rrwl->rrwl_lock.rwl_owner) == RW_PROC(curproc)) {
KASSERT(rrwl->rrwl_wcnt > 0);
rrwl->rrwl_wcnt--;
if (rrwl->rrwl_wcnt != 0) {
WITNESS_UNLOCK(&rrwl->rrwl_lock.rwl_lock_obj,
LOP_EXCLUSIVE);
return;
}
}
rw_exit(&rrwl->rrwl_lock);
}
int
rrw_status(struct rrwlock *rrwl)
{
return (rw_status(&rrwl->rrwl_lock));
}
/*-
* Copyright (c) 2008 The NetBSD Foundation, Inc.
* All rights reserved.
*
* This code is derived from software contributed to The NetBSD Foundation
* by Andrew Doran.
*
* 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.
*
* THIS SOFTWARE IS PROVIDED BY THE NETBSD FOUNDATION, INC. 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 FOUNDATION 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.
*/
#define RWLOCK_OBJ_MAGIC 0x5aa3c85d
struct rwlock_obj {
struct rwlock ro_lock;
u_int ro_magic;
u_int ro_refcnt;
};
struct pool rwlock_obj_pool;
/*
* rw_obj_init:
*
* Initialize the mutex object store.
*/
void
rw_obj_init(void)
{
pool_init(&rwlock_obj_pool, sizeof(struct rwlock_obj), 0, IPL_MPFLOOR,
PR_WAITOK, "rwobjpl", NULL);
}
/*
* rw_obj_alloc:
*
* Allocate a single lock object.
*/
void
_rw_obj_alloc_flags(struct rwlock **lock, const char *name, int flags,
struct lock_type *type)
{
struct rwlock_obj *mo;
mo = pool_get(&rwlock_obj_pool, PR_WAITOK);
mo->ro_magic = RWLOCK_OBJ_MAGIC;
_rw_init_flags(&mo->ro_lock, name, flags, type);
mo->ro_refcnt = 1;
*lock = &mo->ro_lock;
}
/*
* rw_obj_hold:
*
* Add a single reference to a lock object. A reference to the object
* must already be held, and must be held across this call.
*/
void
rw_obj_hold(struct rwlock *lock)
{
struct rwlock_obj *mo = (struct rwlock_obj *)lock;
KASSERTMSG(mo->ro_magic == RWLOCK_OBJ_MAGIC,
"%s: lock %p: mo->ro_magic (%#x) != RWLOCK_OBJ_MAGIC (%#x)",
__func__, mo, mo->ro_magic, RWLOCK_OBJ_MAGIC);
KASSERTMSG(mo->ro_refcnt > 0,
"%s: lock %p: mo->ro_refcnt (%#x) == 0",
__func__, mo, mo->ro_refcnt);
atomic_inc_int(&mo->ro_refcnt);
}
/*
* rw_obj_free:
*
* Drop a reference from a lock object. If the last reference is being
* dropped, free the object and return true. Otherwise, return false.
*/
int
rw_obj_free(struct rwlock *lock)
{
struct rwlock_obj *mo = (struct rwlock_obj *)lock;
KASSERTMSG(mo->ro_magic == RWLOCK_OBJ_MAGIC,
"%s: lock %p: mo->ro_magic (%#x) != RWLOCK_OBJ_MAGIC (%#x)",
__func__, mo, mo->ro_magic, RWLOCK_OBJ_MAGIC);
KASSERTMSG(mo->ro_refcnt > 0,
"%s: lock %p: mo->ro_refcnt (%#x) == 0",
__func__, mo, mo->ro_refcnt);
if (atomic_dec_int_nv(&mo->ro_refcnt) > 0) {
return false;
}
#if notyet
WITNESS_DESTROY(&mo->ro_lock);
#endif
pool_put(&rwlock_obj_pool, mo);
return true;
}
|