sys/kern/kern_rwlock.c

1.1.36.7  ad /*	$NetBSD: kern_rwlock.c,v 1.1.36.7 2007/01/31 13:09:11 ad Exp $	*/
1.1.36.1  ad
1.1.36.1  ad /*-
1.1.36.1  ad  * Copyright (c) 2002, 2006 The NetBSD Foundation, Inc.
1.1.36.1  ad  * All rights reserved.
1.1.36.1  ad  *
1.1.36.1  ad  * This code is derived from software contributed to The NetBSD Foundation
1.1.36.1  ad  * by Jason R. Thorpe and Andrew Doran.
1.1.36.1  ad  *
1.1.36.1  ad  * Redistribution and use in source and binary forms, with or without
1.1.36.1  ad  * modification, are permitted provided that the following conditions
1.1.36.1  ad  * are met:
1.1.36.1  ad  * 1. Redistributions of source code must retain the above copyright
1.1.36.1  ad  *    notice, this list of conditions and the following disclaimer.
1.1.36.1  ad  * 2. Redistributions in binary form must reproduce the above copyright
1.1.36.1  ad  *    notice, this list of conditions and the following disclaimer in the
1.1.36.1  ad  *    documentation and/or other materials provided with the distribution.
1.1.36.1  ad  * 3. All advertising materials mentioning features or use of this software
1.1.36.1  ad  *    must display the following acknowledgement:
1.1.36.1  ad  *	This product includes software developed by the NetBSD
1.1.36.1  ad  *	Foundation, Inc. and its contributors.
1.1.36.1  ad  * 4. Neither the name of The NetBSD Foundation nor the names of its
1.1.36.1  ad  *    contributors may be used to endorse or promote products derived
1.1.36.1  ad  *    from this software without specific prior written permission.
1.1.36.1  ad  *
1.1.36.1  ad  * THIS SOFTWARE IS PROVIDED BY THE NETBSD FOUNDATION, INC. AND CONTRIBUTORS
1.1.36.1  ad  * ``AS IS'' AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED
1.1.36.1  ad  * TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR
1.1.36.1  ad  * PURPOSE ARE DISCLAIMED.  IN NO EVENT SHALL THE FOUNDATION OR CONTRIBUTORS
1.1.36.1  ad  * BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR
1.1.36.1  ad  * CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF
1.1.36.1  ad  * SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS
1.1.36.1  ad  * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN
1.1.36.1  ad  * CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE)
1.1.36.1  ad  * ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE
1.1.36.1  ad  * POSSIBILITY OF SUCH DAMAGE.
1.1.36.1  ad  */
1.1.36.1  ad
1.1.36.1  ad /*
1.1.36.1  ad  * Kernel reader/writer lock implementation, modeled after those
1.1.36.1  ad  * found in Solaris, a description of which can be found in:
1.1.36.1  ad  *
1.1.36.1  ad  *	Solaris Internals: Core Kernel Architecture, Jim Mauro and
1.1.36.1  ad  *	    Richard McDougall.
1.1.36.1  ad  */
1.1.36.1  ad
1.1.36.1  ad #include "opt_multiprocessor.h"
1.1.36.1  ad
1.1.36.1  ad #include <sys/cdefs.h>
1.1.36.7  ad __KERNEL_RCSID(0, "$NetBSD: kern_rwlock.c,v 1.1.36.7 2007/01/31 13:09:11 ad Exp $");
1.1.36.1  ad
1.1.36.1  ad #define	__RWLOCK_PRIVATE
1.1.36.1  ad
1.1.36.1  ad #include <sys/param.h>
1.1.36.1  ad #include <sys/proc.h>
1.1.36.1  ad #include <sys/rwlock.h>
1.1.36.1  ad #include <sys/sched.h>
1.1.36.3  ad #include <sys/sleepq.h>
1.1.36.1  ad #include <sys/systm.h>
1.1.36.3  ad #include <sys/lockdebug.h>
1.1.36.1  ad
1.1.36.1  ad #include <dev/lockstat.h>
1.1.36.1  ad
1.1.36.3  ad #define RW_ABORT(rw, msg)						\
1.1.36.3  ad     LOCKDEBUG_ABORT(RW_GETID(rw), rw, &rwlock_lockops, __FUNCTION__, msg)
1.1.36.1  ad
1.1.36.1  ad /*
1.1.36.1  ad  * LOCKDEBUG
1.1.36.1  ad  */
1.1.36.1  ad
1.1.36.3  ad #if defined(LOCKDEBUG)
1.1.36.1  ad
1.1.36.7  ad #define	RW_WANTLOCK(rw, op)						\
1.1.36.7  ad 	LOCKDEBUG_WANTLOCK(RW_GETID(rw),				\
1.1.36.7  ad 	    (uintptr_t)__builtin_return_address(0), op == RW_READER);
1.1.36.1  ad #define	RW_LOCKED(rw, op)						\
1.1.36.3  ad 	LOCKDEBUG_LOCKED(RW_GETID(rw),					\
1.1.36.7  ad 	    (uintptr_t)__builtin_return_address(0), op == RW_READER);
1.1.36.3  ad #define	RW_UNLOCKED(rw, op)						\
1.1.36.3  ad 	LOCKDEBUG_UNLOCKED(RW_GETID(rw),				\
1.1.36.7  ad 	    (uintptr_t)__builtin_return_address(0), op == RW_READER);
1.1.36.1  ad #define	RW_DASSERT(rw, cond)						\
1.1.36.1  ad do {									\
1.1.36.1  ad 	if (!(cond))							\
1.1.36.1  ad 		RW_ABORT(rw, "assertion failed: " #cond);		\
1.1.36.1  ad } while (/* CONSTCOND */ 0);
1.1.36.1  ad
1.1.36.1  ad #else	/* LOCKDEBUG */
1.1.36.1  ad
1.1.36.7  ad #define	RW_WANTLOCK(rw, op)	/* nothing */
1.1.36.1  ad #define	RW_LOCKED(rw, op)	/* nothing */
1.1.36.3  ad #define	RW_UNLOCKED(rw, op)	/* nothing */
1.1.36.1  ad #define	RW_DASSERT(rw, cond)	/* nothing */
1.1.36.1  ad
1.1.36.1  ad #endif	/* LOCKDEBUG */
1.1.36.1  ad
1.1.36.1  ad /*
1.1.36.1  ad  * DIAGNOSTIC
1.1.36.1  ad  */
1.1.36.1  ad
1.1.36.1  ad #if defined(DIAGNOSTIC)
1.1.36.1  ad
1.1.36.1  ad #define	RW_ASSERT(rw, cond)						\
1.1.36.1  ad do {									\
1.1.36.1  ad 	if (!(cond))							\
1.1.36.1  ad 		RW_ABORT(rw, "assertion failed: " #cond);		\
1.1.36.1  ad } while (/* CONSTCOND */ 0)
1.1.36.1  ad
1.1.36.1  ad #else
1.1.36.1  ad
1.1.36.1  ad #define	RW_ASSERT(rw, cond)	/* nothing */
1.1.36.1  ad
1.1.36.1  ad #endif	/* DIAGNOSTIC */
1.1.36.1  ad
1.1.36.5  ad /*
1.1.36.5  ad  * For platforms that use 'simple' RW locks.
1.1.36.5  ad  */
1.1.36.5  ad #ifdef __HAVE_SIMPLE_RW_LOCKS
1.1.36.5  ad #define	RW_ACQUIRE(rw, old, new)	RW_CAS(&(rw)->rw_owner, old, new)
1.1.36.5  ad #define	RW_RELEASE(rw, old, new)	RW_CAS(&(rw)->rw_owner, old, new)
1.1.36.5  ad #define	RW_SETID(rw, id)		((rw)->rw_id = id)
1.1.36.5  ad #define	RW_GETID(rw)			((rw)->rw_id)
1.1.36.5  ad
1.1.36.5  ad static inline int
1.1.36.5  ad RW_SET_WAITERS(krwlock_t *rw, uintptr_t need, uintptr_t set)
1.1.36.5  ad {
1.1.36.5  ad 	uintptr_t old;
1.1.36.5  ad
1.1.36.5  ad 	if (((old = rw->rw_owner) & need) == 0)
1.1.36.5  ad 		return 0;
1.1.36.5  ad 	return RW_CAS(&rw->rw_owner, old, old | set);
1.1.36.5  ad }
1.1.36.5  ad #endif	/* __HAVE_SIMPLE_RW_LOCKS */
1.1.36.5  ad
1.1.36.5  ad /*
1.1.36.5  ad  * For platforms that do not provide stubs, or for the LOCKDEBUG case.
1.1.36.5  ad  */
1.1.36.5  ad #ifdef LOCKDEBUG
1.1.36.5  ad #undef	__HAVE_RW_STUBS
1.1.36.5  ad #endif
1.1.36.5  ad
1.1.36.5  ad #ifndef __HAVE_RW_STUBS
1.1.36.5  ad __strong_alias(rw_enter, rw_vector_enter);
1.1.36.6  ad __strong_alias(rw_exit, rw_vector_exit);
1.1.36.5  ad #endif
1.1.36.5  ad
1.1.36.5  ad void	rw_dump(volatile void *);
1.1.36.1  ad
1.1.36.3  ad lockops_t rwlock_lockops = {
1.1.36.3  ad 	"Reader / writer lock",
1.1.36.4  ad 	1,
1.1.36.3  ad 	rw_dump
1.1.36.3  ad };
1.1.36.1  ad
1.1.36.1  ad /*
1.1.36.1  ad  * rw_dump:
1.1.36.1  ad  *
1.1.36.3  ad  *	Dump the contents of a rwlock structure.
1.1.36.1  ad  */
1.1.36.5  ad void
1.1.36.5  ad rw_dump(volatile void *cookie)
1.1.36.1  ad {
1.1.36.4  ad 	volatile krwlock_t *rw = cookie;
1.1.36.1  ad
1.1.36.5  ad 	printf_nolog("owner/count  : %#018lx flags    : %#018x\n",
1.1.36.3  ad 	    (long)RW_OWNER(rw), (int)RW_FLAGS(rw));
1.1.36.1  ad }
1.1.36.1  ad
1.1.36.1  ad /*
1.1.36.1  ad  * rw_init:
1.1.36.1  ad  *
1.1.36.1  ad  *	Initialize a rwlock for use.
1.1.36.1  ad  */
1.1.36.1  ad void
1.1.36.1  ad rw_init(krwlock_t *rw)
1.1.36.1  ad {
1.1.36.3  ad 	u_int id;
1.1.36.1  ad
1.1.36.1  ad 	memset(rw, 0, sizeof(*rw));
1.1.36.3  ad
1.1.36.4  ad 	id = LOCKDEBUG_ALLOC(rw, &rwlock_lockops);
1.1.36.3  ad 	RW_SETID(rw, id);
1.1.36.1  ad }
1.1.36.1  ad
1.1.36.1  ad /*
1.1.36.1  ad  * rw_destroy:
1.1.36.1  ad  *
1.1.36.1  ad  *	Tear down a rwlock.
1.1.36.1  ad  */
1.1.36.1  ad void
1.1.36.1  ad rw_destroy(krwlock_t *rw)
1.1.36.1  ad {
1.1.36.1  ad
1.1.36.3  ad 	LOCKDEBUG_FREE(rw, RW_GETID(rw));
1.1.36.3  ad 	RW_ASSERT(rw, rw->rw_owner == 0);
1.1.36.1  ad }
1.1.36.1  ad
1.1.36.1  ad /*
1.1.36.1  ad  * rw_vector_enter:
1.1.36.1  ad  *
1.1.36.1  ad  *	Acquire a rwlock.
1.1.36.1  ad  */
1.1.36.1  ad void
1.1.36.5  ad rw_vector_enter(krwlock_t *rw, const krw_t op)
1.1.36.1  ad {
1.1.36.1  ad 	uintptr_t owner, incr, need_wait, set_wait, curthread;
1.1.36.3  ad 	turnstile_t *ts;
1.1.36.3  ad 	int queue;
1.1.36.1  ad 	LOCKSTAT_TIMER(slptime);
1.1.36.4  ad 	struct lwp *l;
1.1.36.1  ad
1.1.36.4  ad 	l = curlwp;
1.1.36.4  ad 	curthread = (uintptr_t)l;
1.1.36.7  ad
1.1.36.1  ad 	RW_ASSERT(rw, curthread != 0);
1.1.36.7  ad 	RW_WANTLOCK(rw, op);
1.1.36.1  ad
1.1.36.1  ad #ifdef LOCKDEBUG
1.1.36.4  ad 	if (panicstr == NULL) {
1.1.36.2  ad 		simple_lock_only_held(NULL, "rw_enter");
1.1.36.5  ad #ifdef MULTIPROCESSOR
1.1.36.4  ad 		LOCKDEBUG_BARRIER(&kernel_lock, 1);
1.1.36.5  ad #else
1.1.36.5  ad 		LOCKDEBUG_BARRIER(NULL, 1);
1.1.36.5  ad #endif
1.1.36.4  ad 	}
1.1.36.1  ad #endif
1.1.36.1  ad
1.1.36.1  ad 	/*
1.1.36.1  ad 	 * We play a slight trick here.  If we're a reader, we want
1.1.36.1  ad 	 * increment the read count.  If we're a writer, we want to
1.1.36.1  ad 	 * set the owner field and whe WRITE_LOCKED bit.
1.1.36.1  ad 	 *
1.1.36.1  ad 	 * In the latter case, we expect those bits to be zero,
1.1.36.1  ad 	 * therefore we can use an add operation to set them, which
1.1.36.1  ad 	 * means an add operation for both cases.
1.1.36.1  ad 	 */
1.1.36.1  ad 	if (op == RW_READER) {
1.1.36.1  ad 		incr = RW_READ_INCR;
1.1.36.1  ad 		set_wait = RW_HAS_WAITERS;
1.1.36.1  ad 		need_wait = RW_WRITE_LOCKED | RW_WRITE_WANTED;
1.1.36.3  ad 		queue = TS_READER_Q;
1.1.36.1  ad 	} else {
1.1.36.1  ad 		RW_DASSERT(rw, op == RW_WRITER);
1.1.36.1  ad 		incr = curthread | RW_WRITE_LOCKED;
1.1.36.1  ad 		set_wait = RW_HAS_WAITERS | RW_WRITE_WANTED;
1.1.36.1  ad 		need_wait = RW_WRITE_LOCKED | RW_THREAD;
1.1.36.3  ad 		queue = TS_WRITER_Q;
1.1.36.1  ad 	}
1.1.36.1  ad
1.1.36.1  ad 	for (;;) {
1.1.36.1  ad 		/*
1.1.36.1  ad 		 * Read the lock owner field.  If the need-to-wait
1.1.36.1  ad 		 * indicator is clear, then try to acquire the lock.
1.1.36.1  ad 		 */
1.1.36.1  ad 		owner = rw->rw_owner;
1.1.36.1  ad 		if ((owner & need_wait) == 0) {
1.1.36.1  ad 			if (RW_ACQUIRE(rw, owner, owner + incr)) {
1.1.36.1  ad 				/* Got it! */
1.1.36.1  ad 				break;
1.1.36.1  ad 			}
1.1.36.1  ad
1.1.36.1  ad 			/*
1.1.36.1  ad 			 * Didn't get it -- spin around again (we'll
1.1.36.1  ad 			 * probably sleep on the next iteration).
1.1.36.1  ad 			 */
1.1.36.1  ad 			continue;
1.1.36.1  ad 		}
1.1.36.1  ad
1.1.36.1  ad 		if (panicstr != NULL)
1.1.36.1  ad 			return;
1.1.36.1  ad 		if (RW_OWNER(rw) == curthread)
1.1.36.1  ad 			RW_ABORT(rw, "locking against myself");
1.1.36.1  ad
1.1.36.1  ad 		/*
1.1.36.1  ad 		 * Grab the turnstile chain lock.  Once we have that, we
1.1.36.1  ad 		 * can adjust the waiter bits and sleep queue.
1.1.36.1  ad 		 */
1.1.36.1  ad 		ts = turnstile_lookup(rw);
1.1.36.1  ad
1.1.36.1  ad 		/*
1.1.36.1  ad 		 * Mark the rwlock as having waiters.  If the set fails,
1.1.36.1  ad 		 * then we may not need to sleep and should spin again.
1.1.36.1  ad 		 */
1.1.36.1  ad 		if (!RW_SET_WAITERS(rw, need_wait, set_wait)) {
1.1.36.1  ad 			turnstile_exit(rw);
1.1.36.1  ad 			continue;
1.1.36.1  ad 		}
1.1.36.1  ad
1.1.36.1  ad 		LOCKSTAT_START_TIMER(slptime);
1.1.36.1  ad
1.1.36.4  ad 		turnstile_block(ts, queue, sched_kpri(l), rw);
1.1.36.1  ad
1.1.36.1  ad 		/* If we wake up and arrive here, we've been handed the lock. */
1.1.36.1  ad 		RW_RECEIVE(rw);
1.1.36.4  ad
1.1.36.4  ad 		LOCKSTAT_STOP_TIMER(slptime);
1.1.36.5  ad 		LOCKSTAT_EVENT(rw,
1.1.36.5  ad 		    LB_RWLOCK | (op == RW_WRITER ? LB_SLEEP1 : LB_SLEEP2),
1.1.36.5  ad 		    1, slptime);
1.1.36.4  ad
1.1.36.4  ad 		turnstile_unblock();
1.1.36.1  ad 		break;
1.1.36.1  ad 	}
1.1.36.1  ad
1.1.36.1  ad 	RW_DASSERT(rw, (op != RW_READER && RW_OWNER(rw) == curthread) ||
1.1.36.1  ad 	    (op == RW_READER && RW_COUNT(rw) != 0));
1.1.36.5  ad 	RW_LOCKED(rw, op);
1.1.36.1  ad }
1.1.36.1  ad
1.1.36.1  ad /*
1.1.36.1  ad  * rw_vector_exit:
1.1.36.1  ad  *
1.1.36.1  ad  *	Release a rwlock.
1.1.36.1  ad  */
1.1.36.1  ad void
1.1.36.6  ad rw_vector_exit(krwlock_t *rw)
1.1.36.1  ad {
1.1.36.1  ad 	uintptr_t curthread, owner, decr, new;
1.1.36.3  ad 	turnstile_t *ts;
1.1.36.1  ad 	int rcnt, wcnt, dcnt;
1.1.36.1  ad 	struct lwp *l;
1.1.36.1  ad
1.1.36.1  ad 	curthread = (uintptr_t)curlwp;
1.1.36.1  ad 	RW_ASSERT(rw, curthread != 0);
1.1.36.1  ad
1.1.36.1  ad 	if (panicstr != NULL) {
1.1.36.1  ad 		/*
1.1.36.5  ad 		 * XXX What's the correct thing to do here?  We should at
1.1.36.5  ad 		 * least release the lock.
1.1.36.1  ad 		 */
1.1.36.1  ad 		return;
1.1.36.1  ad 	}
1.1.36.1  ad
1.1.36.1  ad 	/*
1.1.36.1  ad 	 * Again, we use a trick.  Since we used an add operation to
1.1.36.1  ad 	 * set the required lock bits, we can use a subtract to clear
1.1.36.1  ad 	 * them, which makes the read-release and write-release path
1.1.36.1  ad 	 * the same.
1.1.36.1  ad 	 */
1.1.36.6  ad 	owner = rw->rw_owner;
1.1.36.6  ad 	if (__predict_false((owner & RW_WRITE_LOCKED) != 0)) {
1.1.36.6  ad 		RW_DASSERT(rw, (rw->rw_owner & RW_WRITE_LOCKED) != 0);
1.1.36.6  ad 		RW_ASSERT(rw, RW_OWNER(rw) == curthread);
1.1.36.6  ad 		if (__predict_false((owner & RW_DOWNGRADING) != 0)) {
1.1.36.6  ad 			/* RW_UNLOCKED() is already done */
1.1.36.6  ad 			dcnt = 1;
1.1.36.6  ad 			decr = (curthread | RW_WRITE_LOCKED) - RW_READ_INCR;
1.1.36.6  ad 		} else {
1.1.36.6  ad 			RW_UNLOCKED(rw, RW_WRITER);
1.1.36.6  ad 			dcnt = 0;
1.1.36.6  ad 			decr = curthread | RW_WRITE_LOCKED;
1.1.36.6  ad 		}
1.1.36.6  ad 	} else {
1.1.36.1  ad 		RW_ASSERT(rw, (rw->rw_owner & RW_WRITE_LOCKED) == 0);
1.1.36.1  ad 		RW_ASSERT(rw, RW_COUNT(rw) != 0);
1.1.36.6  ad 		RW_UNLOCKED(rw, RW_READER);
1.1.36.1  ad 		dcnt = 0;
1.1.36.1  ad 		decr = RW_READ_INCR;
1.1.36.1  ad 	}
1.1.36.1  ad
1.1.36.6  ad 	for (;; owner = rw->rw_owner) {
1.1.36.1  ad 		/*
1.1.36.1  ad 		 * Compute what we expect the new value of the lock to be.
1.1.36.1  ad 		 * Only proceed to do direct handoff if there are waiters,
1.1.36.1  ad 		 * and if the lock would become unowned.
1.1.36.1  ad 		 */
1.1.36.1  ad 		new = (owner - decr) & ~RW_WRITE_WANTED;
1.1.36.1  ad 		if ((new & (RW_THREAD | RW_HAS_WAITERS)) != RW_HAS_WAITERS) {
1.1.36.5  ad 			if (RW_RELEASE(rw, owner, new))
1.1.36.1  ad 				break;
1.1.36.1  ad 			continue;
1.1.36.1  ad 		}
1.1.36.1  ad
1.1.36.1  ad 		/*
1.1.36.5  ad 		 * Grab the turnstile chain lock.  This gets the interlock
1.1.36.5  ad 		 * on the sleep queue.  Once we have that, we can adjust the
1.1.36.5  ad 		 * waiter bits.
1.1.36.5  ad 		 */
1.1.36.5  ad 		ts = turnstile_lookup(rw);
1.1.36.1  ad 		RW_DASSERT(rw, ts != NULL);
1.1.36.1  ad
1.1.36.1  ad 		wcnt = TS_WAITERS(ts, TS_WRITER_Q);
1.1.36.1  ad 		rcnt = TS_WAITERS(ts, TS_READER_Q);
1.1.36.1  ad
1.1.36.1  ad 		/*
1.1.36.1  ad 		 * Give the lock away.
1.1.36.6  ad 		 *
1.1.36.6  ad 		 * If we are releasing a write lock or downgrading a write
1.1.36.6  ad 		 * lock to read, then wake all outstanding readers.  If we
1.1.36.6  ad 		 * are releasing a read lock, then wake one writer.
1.1.36.1  ad 		 */
1.1.36.1  ad 		if (dcnt == 0 &&
1.1.36.6  ad 		    (rcnt == 0 || (decr == RW_READ_INCR && wcnt != 0))) {
1.1.36.1  ad 			RW_DASSERT(rw, wcnt != 0);
1.1.36.1  ad
1.1.36.1  ad 			/*
1.1.36.1  ad 			 * Give the lock to the longest waiting
1.1.36.1  ad 			 * writer.
1.1.36.1  ad 			 */
1.1.36.1  ad 			l = TS_FIRST(ts, TS_WRITER_Q);
1.1.36.1  ad 			new = (uintptr_t)l | RW_WRITE_LOCKED;
1.1.36.1  ad
1.1.36.1  ad 			if (wcnt > 1)
1.1.36.1  ad 				new |= RW_HAS_WAITERS | RW_WRITE_WANTED;
1.1.36.1  ad 			else if (rcnt != 0)
1.1.36.1  ad 				new |= RW_HAS_WAITERS;
1.1.36.1  ad
1.1.36.5  ad 			RW_GIVE(rw);
1.1.36.1  ad 			if (!RW_RELEASE(rw, owner, new)) {
1.1.36.1  ad 				/* Oops, try again. */
1.1.36.1  ad 				turnstile_exit(rw);
1.1.36.1  ad 				continue;
1.1.36.1  ad 			}
1.1.36.1  ad
1.1.36.1  ad 			/* Wake the writer. */
1.1.36.1  ad 			turnstile_wakeup(ts, TS_WRITER_Q, wcnt, l);
1.1.36.1  ad 		} else {
1.1.36.1  ad 			dcnt += rcnt;
1.1.36.1  ad 			RW_DASSERT(rw, dcnt != 0);
1.1.36.1  ad
1.1.36.1  ad 			/*
1.1.36.1  ad 			 * Give the lock to all blocked readers.  We may
1.1.36.1  ad 			 * retain one read hold if downgrading.  If there
1.1.36.1  ad 			 * is a writer waiting, new readers will be blocked
1.1.36.1  ad 			 * out.
1.1.36.1  ad 			 */
1.1.36.1  ad 			new = dcnt << RW_READ_COUNT_SHIFT;
1.1.36.1  ad 			if (wcnt != 0)
1.1.36.1  ad 				new |= RW_HAS_WAITERS | RW_WRITE_WANTED;
1.1.36.5  ad
1.1.36.5  ad 			RW_GIVE(rw);
1.1.36.1  ad 			if (!RW_RELEASE(rw, owner, new)) {
1.1.36.1  ad 				/* Oops, try again. */
1.1.36.1  ad 				turnstile_exit(rw);
1.1.36.1  ad 				continue;
1.1.36.1  ad 			}
1.1.36.1  ad
1.1.36.1  ad 			/* Wake up all sleeping readers. */
1.1.36.1  ad 			turnstile_wakeup(ts, TS_READER_Q, rcnt, NULL);
1.1.36.1  ad 		}
1.1.36.1  ad
1.1.36.1  ad 		break;
1.1.36.1  ad 	}
1.1.36.1  ad }
1.1.36.1  ad
1.1.36.1  ad /*
1.1.36.1  ad  * rw_tryenter:
1.1.36.1  ad  *
1.1.36.1  ad  *	Try to acquire a rwlock.
1.1.36.1  ad  */
1.1.36.1  ad int
1.1.36.5  ad rw_tryenter(krwlock_t *rw, const krw_t op)
1.1.36.1  ad {
1.1.36.1  ad 	uintptr_t curthread, owner, incr, need_wait;
1.1.36.1  ad
1.1.36.1  ad 	curthread = (uintptr_t)curlwp;
1.1.36.7  ad
1.1.36.1  ad 	RW_ASSERT(rw, curthread != 0);
1.1.36.7  ad 	RW_WANTLOCK(rw, op);
1.1.36.1  ad
1.1.36.1  ad 	if (op == RW_READER) {
1.1.36.1  ad 		incr = RW_READ_INCR;
1.1.36.1  ad 		need_wait = RW_WRITE_LOCKED | RW_WRITE_WANTED;
1.1.36.1  ad 	} else {
1.1.36.1  ad 		RW_DASSERT(rw, op == RW_WRITER);
1.1.36.1  ad 		incr = curthread | RW_WRITE_LOCKED;
1.1.36.1  ad 		need_wait = RW_WRITE_LOCKED | RW_THREAD;
1.1.36.1  ad 	}
1.1.36.1  ad
1.1.36.1  ad 	for (;;) {
1.1.36.1  ad 		owner = rw->rw_owner;
1.1.36.1  ad 		if ((owner & need_wait) == 0) {
1.1.36.1  ad 			if (RW_ACQUIRE(rw, owner, owner + incr)) {
1.1.36.1  ad 				/* Got it! */
1.1.36.1  ad 				break;
1.1.36.1  ad 			}
1.1.36.1  ad 			continue;
1.1.36.1  ad 		}
1.1.36.1  ad 		return 0;
1.1.36.1  ad 	}
1.1.36.1  ad
1.1.36.1  ad 	RW_LOCKED(rw, op);
1.1.36.1  ad 	RW_DASSERT(rw, (op != RW_READER && RW_OWNER(rw) == curthread) ||
1.1.36.1  ad 	    (op == RW_READER && RW_COUNT(rw) != 0));
1.1.36.1  ad 	return 1;
1.1.36.1  ad }
1.1.36.1  ad
1.1.36.1  ad /*
1.1.36.1  ad  * rw_downgrade:
1.1.36.1  ad  *
1.1.36.1  ad  *	Downgrade a write lock to a read lock.
1.1.36.1  ad  */
1.1.36.1  ad void
1.1.36.1  ad rw_downgrade(krwlock_t *rw)
1.1.36.1  ad {
1.1.36.1  ad 	uintptr_t owner, curthread;
1.1.36.1  ad
1.1.36.1  ad 	curthread = (uintptr_t)curlwp;
1.1.36.1  ad 	RW_ASSERT(rw, curthread != 0);
1.1.36.1  ad 	RW_DASSERT(rw, (rw->rw_owner & RW_WRITE_LOCKED) != 0);
1.1.36.1  ad 	RW_ASSERT(rw, RW_OWNER(rw) == curthread);
1.1.36.3  ad 	RW_UNLOCKED(rw, RW_WRITER);
1.1.36.1  ad
1.1.36.1  ad 	for (;;) {
1.1.36.1  ad 		owner = rw->rw_owner;
1.1.36.1  ad
1.1.36.1  ad 		/* If there are waiters we need to do this the hard way. */
1.1.36.1  ad 		if ((owner & RW_HAS_WAITERS) != 0) {
1.1.36.6  ad 			if (!RW_RELEASE(rw, owner, owner | RW_DOWNGRADING))
1.1.36.6  ad 				continue;
1.1.36.6  ad 			rw_vector_exit(rw);
1.1.36.5  ad 			break;
1.1.36.1  ad 		}
1.1.36.1  ad
1.1.36.1  ad 		/*
1.1.36.1  ad 		 * Try swapping us down to one read hold.  If it fails, the
1.1.36.1  ad 		 * lock condition has changed and we most likely now have
1.1.36.1  ad 		 * waiters.
1.1.36.1  ad 		 */
1.1.36.1  ad 		if (RW_RELEASE(rw, owner, RW_READ_INCR))
1.1.36.1  ad 			break;
1.1.36.1  ad 	}
1.1.36.1  ad
1.1.36.5  ad 	RW_LOCKED(rw, RW_READER);
1.1.36.1  ad 	RW_DASSERT(rw, (rw->rw_owner & RW_WRITE_LOCKED) == 0);
1.1.36.1  ad 	RW_DASSERT(rw, RW_COUNT(rw) != 0);
1.1.36.1  ad }
1.1.36.1  ad
1.1.36.1  ad /*
1.1.36.1  ad  * rw_tryupgrade:
1.1.36.1  ad  *
1.1.36.1  ad  *	Try to upgrade a read lock to a write lock.  We must be the
1.1.36.1  ad  *	only reader.
1.1.36.1  ad  */
1.1.36.1  ad int
1.1.36.1  ad rw_tryupgrade(krwlock_t *rw)
1.1.36.1  ad {
1.1.36.1  ad 	uintptr_t owner, curthread, new;
1.1.36.1  ad
1.1.36.1  ad 	curthread = (uintptr_t)curlwp;
1.1.36.1  ad 	RW_ASSERT(rw, curthread != 0);
1.1.36.7  ad 	RW_WANTLOCK(rw, RW_WRITER);
1.1.36.1  ad
1.1.36.1  ad 	for (;;) {
1.1.36.1  ad 		owner = rw->rw_owner;
1.1.36.1  ad 		RW_ASSERT(rw, (owner & RW_WRITE_LOCKED) == 0);
1.1.36.1  ad 		if ((owner & RW_THREAD) != RW_READ_INCR) {
1.1.36.1  ad 			RW_ASSERT(rw, (owner & RW_THREAD) != 0);
1.1.36.1  ad 			return 0;
1.1.36.1  ad 		}
1.1.36.1  ad 		new = curthread | RW_WRITE_LOCKED | (owner & ~RW_THREAD);
1.1.36.1  ad 		if (RW_ACQUIRE(rw, owner, new))
1.1.36.1  ad 			break;
1.1.36.1  ad 	}
1.1.36.1  ad
1.1.36.1  ad 	RW_LOCKED(rw, RW_WRITER);
1.1.36.1  ad 	RW_DASSERT(rw, rw->rw_owner & RW_WRITE_LOCKED);
1.1.36.1  ad 	RW_DASSERT(rw, RW_OWNER(rw) == curthread);
1.1.36.1  ad
1.1.36.1  ad 	return 1;
1.1.36.1  ad }
1.1.36.1  ad
1.1.36.1  ad /*
1.1.36.1  ad  * rw_read_held:
1.1.36.1  ad  *
1.1.36.1  ad  *	Returns true if the rwlock is held for reading.  Must only be
1.1.36.1  ad  *	used for diagnostic assertions, and never be used to make
1.1.36.1  ad  * 	decisions about how to use a rwlock.
1.1.36.1  ad  */
1.1.36.1  ad int
1.1.36.1  ad rw_read_held(krwlock_t *rw)
1.1.36.1  ad {
1.1.36.1  ad 	uintptr_t owner;
1.1.36.1  ad
1.1.36.3  ad 	if (panicstr != NULL)
1.1.36.3  ad 		return 1;
1.1.36.3  ad
1.1.36.1  ad 	owner = rw->rw_owner;
1.1.36.1  ad 	return (owner & RW_WRITE_LOCKED) == 0 && (owner & RW_THREAD) != 0;
1.1.36.1  ad }
1.1.36.1  ad
1.1.36.1  ad /*
1.1.36.1  ad  * rw_write_held:
1.1.36.1  ad  *
1.1.36.1  ad  *	Returns true if the rwlock is held for writing.  Must only be
1.1.36.1  ad  *	used for diagnostic assertions, and never be used to make
1.1.36.1  ad  *	decisions about how to use a rwlock.
1.1.36.1  ad  */
1.1.36.1  ad int
1.1.36.1  ad rw_write_held(krwlock_t *rw)
1.1.36.1  ad {
1.1.36.1  ad
1.1.36.3  ad 	if (panicstr != NULL)
1.1.36.3  ad 		return 1;
1.1.36.3  ad
1.1.36.1  ad 	return (rw->rw_owner & RW_WRITE_LOCKED) != 0;
1.1.36.1  ad }
1.1.36.1  ad
1.1.36.1  ad /*
1.1.36.4  ad  * rw_lock_held:
1.1.36.4  ad  *
1.1.36.4  ad  *	Returns true if the rwlock is held for reading or writing.  Must
1.1.36.4  ad  *	only be used for diagnostic assertions, and never be used to make
1.1.36.4  ad  *	decisions about how to use a rwlock.
1.1.36.4  ad  */
1.1.36.4  ad int
1.1.36.4  ad rw_lock_held(krwlock_t *rw)
1.1.36.4  ad {
1.1.36.4  ad
1.1.36.4  ad 	if (panicstr != NULL)
1.1.36.4  ad 		return 1;
1.1.36.4  ad
1.1.36.4  ad 	return (rw->rw_owner & RW_THREAD) != 0;
1.1.36.4  ad }