sys/kern/kern_lock.c

1.51.2.10   nathanw /*	$NetBSD: kern_lock.c,v 1.51.2.10 2002/07/12 01:40:16 nathanw Exp $	*/
     1.19   thorpej
     1.19   thorpej /*-
     1.28   thorpej  * Copyright (c) 1999, 2000 The NetBSD Foundation, Inc.
     1.19   thorpej  * All rights reserved.
     1.19   thorpej  *
     1.19   thorpej  * This code is derived from software contributed to The NetBSD Foundation
     1.19   thorpej  * by Jason R. Thorpe of the Numerical Aerospace Simulation Facility,
     1.19   thorpej  * NASA Ames Research Center.
     1.19   thorpej  *
     1.19   thorpej  * This code is derived from software contributed to The NetBSD Foundation
     1.19   thorpej  * by Ross Harvey.
     1.19   thorpej  *
     1.19   thorpej  * Redistribution and use in source and binary forms, with or without
     1.19   thorpej  * modification, are permitted provided that the following conditions
     1.19   thorpej  * are met:
     1.19   thorpej  * 1. Redistributions of source code must retain the above copyright
     1.19   thorpej  *    notice, this list of conditions and the following disclaimer.
     1.19   thorpej  * 2. Redistributions in binary form must reproduce the above copyright
     1.19   thorpej  *    notice, this list of conditions and the following disclaimer in the
     1.19   thorpej  *    documentation and/or other materials provided with the distribution.
     1.19   thorpej  * 3. All advertising materials mentioning features or use of this software
     1.19   thorpej  *    must display the following acknowledgement:
     1.19   thorpej  *	This product includes software developed by the NetBSD
     1.19   thorpej  *	Foundation, Inc. and its contributors.
     1.19   thorpej  * 4. Neither the name of The NetBSD Foundation nor the names of its
     1.19   thorpej  *    contributors may be used to endorse or promote products derived
     1.19   thorpej  *    from this software without specific prior written permission.
     1.19   thorpej  *
     1.19   thorpej  * THIS SOFTWARE IS PROVIDED BY THE NETBSD FOUNDATION, INC. AND CONTRIBUTORS
     1.19   thorpej  * ``AS IS'' AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED
     1.19   thorpej  * TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR
     1.19   thorpej  * PURPOSE ARE DISCLAIMED.  IN NO EVENT SHALL THE FOUNDATION OR CONTRIBUTORS
     1.19   thorpej  * BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR
     1.19   thorpej  * CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF
     1.19   thorpej  * SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS
     1.19   thorpej  * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN
     1.19   thorpej  * CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE)
     1.19   thorpej  * ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE
     1.19   thorpej  * POSSIBILITY OF SUCH DAMAGE.
     1.19   thorpej  */
      1.2      fvdl
      1.1      fvdl /*
      1.1      fvdl  * Copyright (c) 1995
      1.1      fvdl  *	The Regents of the University of California.  All rights reserved.
      1.1      fvdl  *
      1.1      fvdl  * This code contains ideas from software contributed to Berkeley by
      1.1      fvdl  * Avadis Tevanian, Jr., Michael Wayne Young, and the Mach Operating
      1.1      fvdl  * System project at Carnegie-Mellon University.
      1.1      fvdl  *
      1.1      fvdl  * Redistribution and use in source and binary forms, with or without
      1.1      fvdl  * modification, are permitted provided that the following conditions
      1.1      fvdl  * are met:
      1.1      fvdl  * 1. Redistributions of source code must retain the above copyright
      1.1      fvdl  *    notice, this list of conditions and the following disclaimer.
      1.1      fvdl  * 2. Redistributions in binary form must reproduce the above copyright
      1.1      fvdl  *    notice, this list of conditions and the following disclaimer in the
      1.1      fvdl  *    documentation and/or other materials provided with the distribution.
      1.1      fvdl  * 3. All advertising materials mentioning features or use of this software
      1.1      fvdl  *    must display the following acknowledgement:
      1.1      fvdl  *	This product includes software developed by the University of
      1.1      fvdl  *	California, Berkeley and its contributors.
      1.1      fvdl  * 4. Neither the name of the University nor the names of its contributors
      1.1      fvdl  *    may be used to endorse or promote products derived from this software
      1.1      fvdl  *    without specific prior written permission.
      1.1      fvdl  *
      1.1      fvdl  * THIS SOFTWARE IS PROVIDED BY THE REGENTS AND CONTRIBUTORS ``AS IS'' AND
      1.1      fvdl  * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
      1.1      fvdl  * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
      1.1      fvdl  * ARE DISCLAIMED.  IN NO EVENT SHALL THE REGENTS OR CONTRIBUTORS BE LIABLE
      1.1      fvdl  * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
      1.1      fvdl  * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS
      1.1      fvdl  * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
      1.1      fvdl  * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
      1.1      fvdl  * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY
      1.1      fvdl  * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF
      1.1      fvdl  * SUCH DAMAGE.
      1.1      fvdl  *
      1.1      fvdl  *	@(#)kern_lock.c	8.18 (Berkeley) 5/21/95
      1.1      fvdl  */
 1.51.2.6   nathanw
 1.51.2.6   nathanw #include <sys/cdefs.h>
1.51.2.10   nathanw __KERNEL_RCSID(0, "$NetBSD: kern_lock.c,v 1.51.2.10 2002/07/12 01:40:16 nathanw Exp $");
      1.7   thorpej
     1.21   thorpej #include "opt_multiprocessor.h"
      1.7   thorpej #include "opt_lockdebug.h"
     1.18       chs #include "opt_ddb.h"
      1.1      fvdl
      1.1      fvdl #include <sys/param.h>
      1.1      fvdl #include <sys/proc.h>
      1.1      fvdl #include <sys/lock.h>
      1.2      fvdl #include <sys/systm.h>
      1.1      fvdl #include <machine/cpu.h>
      1.1      fvdl
     1.25   thorpej #if defined(LOCKDEBUG)
     1.25   thorpej #include <sys/syslog.h>
     1.25   thorpej /*
     1.25   thorpej  * note that stdarg.h and the ansi style va_start macro is used for both
     1.25   thorpej  * ansi and traditional c compiles.
     1.25   thorpej  * XXX: this requires that stdarg.h define: va_alist and va_dcl
     1.25   thorpej  */
     1.25   thorpej #include <machine/stdarg.h>
     1.25   thorpej
     1.36   thorpej void	lock_printf(const char *fmt, ...)
     1.37       eeh     __attribute__((__format__(__printf__,1,2)));
     1.25   thorpej
 1.51.2.4   nathanw int	lock_debug_syslog = 0;	/* defaults to printf, but can be patched */
 1.51.2.2   nathanw
 1.51.2.2   nathanw #ifdef DDB
 1.51.2.2   nathanw #include <ddb/ddbvar.h>
 1.51.2.2   nathanw #include <machine/db_machdep.h>
 1.51.2.2   nathanw #include <ddb/db_command.h>
 1.51.2.2   nathanw #include <ddb/db_interface.h>
 1.51.2.2   nathanw #endif
     1.25   thorpej #endif
     1.25   thorpej
      1.1      fvdl /*
      1.1      fvdl  * Locking primitives implementation.
 1.51.2.3   nathanw  * Locks provide shared/exclusive synchronization.
      1.1      fvdl  */
      1.1      fvdl
     1.21   thorpej #if defined(LOCKDEBUG) || defined(DIAGNOSTIC) /* { */
     1.21   thorpej #if defined(MULTIPROCESSOR) /* { */
     1.21   thorpej #define	COUNT_CPU(cpu_id, x)						\
     1.47  sommerfe 	curcpu()->ci_spin_locks += (x)
     1.21   thorpej #else
     1.21   thorpej u_long	spin_locks;
     1.21   thorpej #define	COUNT_CPU(cpu_id, x)	spin_locks += (x)
     1.21   thorpej #endif /* MULTIPROCESSOR */ /* } */
     1.21   thorpej
 1.51.2.7   thorpej #define	COUNT(lkp, l, cpu_id, x)					\
     1.21   thorpej do {									\
     1.21   thorpej 	if ((lkp)->lk_flags & LK_SPIN)					\
     1.21   thorpej 		COUNT_CPU((cpu_id), (x));				\
     1.21   thorpej 	else								\
 1.51.2.7   thorpej 		(l)->l_locks += (x);					\
     1.30   thorpej } while (/*CONSTCOND*/0)
      1.1      fvdl #else
     1.22    mellon #define COUNT(lkp, p, cpu_id, x)
     1.48  sommerfe #define COUNT_CPU(cpu_id, x)
     1.21   thorpej #endif /* LOCKDEBUG || DIAGNOSTIC */ /* } */
      1.1      fvdl
 1.51.2.2   nathanw #ifndef SPINLOCK_SPIN_HOOK		/* from <machine/lock.h> */
 1.51.2.2   nathanw #define	SPINLOCK_SPIN_HOOK		/* nothing */
     1.49   thorpej #endif
     1.49   thorpej
     1.43   thorpej #define	INTERLOCK_ACQUIRE(lkp, flags, s)				\
     1.40   thorpej do {									\
     1.43   thorpej 	if ((flags) & LK_SPIN)						\
     1.42   thorpej 		s = splsched();						\
     1.40   thorpej 	simple_lock(&(lkp)->lk_interlock);				\
     1.40   thorpej } while (0)
     1.40   thorpej
     1.43   thorpej #define	INTERLOCK_RELEASE(lkp, flags, s)				\
     1.40   thorpej do {									\
     1.40   thorpej 	simple_unlock(&(lkp)->lk_interlock);				\
 1.51.2.2   nathanw 	if ((flags) & LK_SPIN)						\
     1.40   thorpej 		splx(s);						\
     1.40   thorpej } while (0)
     1.40   thorpej
     1.50   thorpej #if defined(LOCKDEBUG)
     1.50   thorpej #if defined(DDB)
     1.50   thorpej #define	SPINLOCK_SPINCHECK_DEBUGGER	Debugger()
     1.50   thorpej #else
     1.50   thorpej #define	SPINLOCK_SPINCHECK_DEBUGGER	/* nothing */
     1.50   thorpej #endif
     1.50   thorpej
     1.50   thorpej #define	SPINLOCK_SPINCHECK_DECL						\
     1.50   thorpej 	/* 32-bits of count -- wrap constitutes a "spinout" */		\
     1.50   thorpej 	uint32_t __spinc = 0
     1.50   thorpej
     1.50   thorpej #define	SPINLOCK_SPINCHECK						\
     1.50   thorpej do {									\
     1.50   thorpej 	if (++__spinc == 0) {						\
     1.50   thorpej 		printf("LK_SPIN spinout, excl %d, share %d\n",		\
     1.50   thorpej 		    lkp->lk_exclusivecount, lkp->lk_sharecount);	\
     1.50   thorpej 		if (lkp->lk_exclusivecount)				\
     1.50   thorpej 			printf("held by CPU %lu\n",			\
     1.50   thorpej 			    (u_long) lkp->lk_cpu);			\
     1.50   thorpej 		if (lkp->lk_lock_file)					\
     1.50   thorpej 			printf("last locked at %s:%d\n",		\
     1.50   thorpej 			    lkp->lk_lock_file, lkp->lk_lock_line);	\
     1.50   thorpej 		if (lkp->lk_unlock_file)				\
     1.50   thorpej 			printf("last unlocked at %s:%d\n",		\
     1.50   thorpej 			    lkp->lk_unlock_file, lkp->lk_unlock_line);	\
     1.50   thorpej 		SPINLOCK_SPINCHECK_DEBUGGER;				\
     1.50   thorpej 	}								\
     1.50   thorpej } while (0)
     1.50   thorpej #else
     1.50   thorpej #define	SPINLOCK_SPINCHECK_DECL			/* nothing */
     1.50   thorpej #define	SPINLOCK_SPINCHECK			/* nothing */
     1.50   thorpej #endif /* LOCKDEBUG && DDB */
     1.50   thorpej
      1.1      fvdl /*
      1.1      fvdl  * Acquire a resource.
      1.1      fvdl  */
     1.23   thorpej #define ACQUIRE(lkp, error, extflags, drain, wanted)			\
     1.19   thorpej 	if ((extflags) & LK_SPIN) {					\
     1.19   thorpej 		int interlocked;					\
     1.50   thorpej 		SPINLOCK_SPINCHECK_DECL;				\
     1.19   thorpej 									\
     1.23   thorpej 		if ((drain) == 0)					\
     1.23   thorpej 			(lkp)->lk_waitcount++;				\
     1.19   thorpej 		for (interlocked = 1;;) {				\
     1.50   thorpej 			SPINLOCK_SPINCHECK;				\
     1.19   thorpej 			if (wanted) {					\
     1.19   thorpej 				if (interlocked) {			\
     1.43   thorpej 					INTERLOCK_RELEASE((lkp),	\
     1.43   thorpej 					    LK_SPIN, s);		\
     1.19   thorpej 					interlocked = 0;		\
     1.19   thorpej 				}					\
 1.51.2.2   nathanw 				SPINLOCK_SPIN_HOOK;			\
     1.19   thorpej 			} else if (interlocked) {			\
     1.19   thorpej 				break;					\
     1.19   thorpej 			} else {					\
     1.43   thorpej 				INTERLOCK_ACQUIRE((lkp), LK_SPIN, s);	\
     1.19   thorpej 				interlocked = 1;			\
     1.19   thorpej 			}						\
     1.19   thorpej 		}							\
     1.23   thorpej 		if ((drain) == 0)					\
     1.23   thorpej 			(lkp)->lk_waitcount--;				\
     1.19   thorpej 		KASSERT((wanted) == 0);					\
     1.19   thorpej 		error = 0;	/* sanity */				\
     1.19   thorpej 	} else {							\
     1.19   thorpej 		for (error = 0; wanted; ) {				\
     1.23   thorpej 			if ((drain))					\
     1.23   thorpej 				(lkp)->lk_flags |= LK_WAITDRAIN;	\
     1.23   thorpej 			else						\
     1.23   thorpej 				(lkp)->lk_waitcount++;			\
     1.23   thorpej 			/* XXX Cast away volatile. */			\
 1.51.2.2   nathanw 			error = ltsleep((drain) ?			\
 1.51.2.2   nathanw 			    (void *)&(lkp)->lk_flags :			\
     1.23   thorpej 			    (void *)(lkp), (lkp)->lk_prio,		\
     1.31   thorpej 			    (lkp)->lk_wmesg, (lkp)->lk_timo,		\
     1.31   thorpej 			    &(lkp)->lk_interlock);			\
     1.23   thorpej 			if ((drain) == 0)				\
     1.23   thorpej 				(lkp)->lk_waitcount--;			\
     1.19   thorpej 			if (error)					\
     1.19   thorpej 				break;					\
     1.19   thorpej 			if ((extflags) & LK_SLEEPFAIL) {		\
     1.19   thorpej 				error = ENOLCK;				\
     1.19   thorpej 				break;					\
     1.19   thorpej 			}						\
      1.1      fvdl 		}							\
      1.1      fvdl 	}
      1.1      fvdl
 1.51.2.7   thorpej #define	SETHOLDER(lkp, pid, lid, cpu_id)				\
     1.19   thorpej do {									\
     1.19   thorpej 	if ((lkp)->lk_flags & LK_SPIN)					\
     1.19   thorpej 		(lkp)->lk_cpu = cpu_id;					\
 1.51.2.7   thorpej 	else {								\
     1.19   thorpej 		(lkp)->lk_lockholder = pid;				\
 1.51.2.7   thorpej 		(lkp)->lk_locklwp = lid;				\
 1.51.2.7   thorpej 	}								\
     1.30   thorpej } while (/*CONSTCOND*/0)
     1.19   thorpej
 1.51.2.7   thorpej #define	WEHOLDIT(lkp, pid, lid, cpu_id)					\
     1.19   thorpej 	(((lkp)->lk_flags & LK_SPIN) != 0 ?				\
 1.51.2.7   thorpej 	 ((lkp)->lk_cpu == (cpu_id)) :					\
 1.51.2.7   thorpej 	 ((lkp)->lk_lockholder == (pid) && (lkp)->lk_locklwp == (lid)))
     1.19   thorpej
     1.23   thorpej #define	WAKEUP_WAITER(lkp)						\
     1.23   thorpej do {									\
     1.23   thorpej 	if (((lkp)->lk_flags & LK_SPIN) == 0 && (lkp)->lk_waitcount) {	\
     1.23   thorpej 		/* XXX Cast away volatile. */				\
 1.51.2.5   nathanw 		wakeup((void *)(lkp));					\
     1.23   thorpej 	}								\
     1.30   thorpej } while (/*CONSTCOND*/0)
     1.23   thorpej
     1.21   thorpej #if defined(LOCKDEBUG) /* { */
     1.21   thorpej #if defined(MULTIPROCESSOR) /* { */
     1.21   thorpej struct simplelock spinlock_list_slock = SIMPLELOCK_INITIALIZER;
     1.21   thorpej
     1.27   thorpej #define	SPINLOCK_LIST_LOCK()						\
     1.29  sommerfe 	__cpu_simple_lock(&spinlock_list_slock.lock_data)
     1.21   thorpej
     1.27   thorpej #define	SPINLOCK_LIST_UNLOCK()						\
     1.29  sommerfe 	__cpu_simple_unlock(&spinlock_list_slock.lock_data)
     1.21   thorpej #else
     1.21   thorpej #define	SPINLOCK_LIST_LOCK()	/* nothing */
     1.21   thorpej
     1.21   thorpej #define	SPINLOCK_LIST_UNLOCK()	/* nothing */
     1.21   thorpej #endif /* MULTIPROCESSOR */ /* } */
     1.21   thorpej
     1.21   thorpej TAILQ_HEAD(, lock) spinlock_list =
     1.21   thorpej     TAILQ_HEAD_INITIALIZER(spinlock_list);
     1.21   thorpej
     1.21   thorpej #define	HAVEIT(lkp)							\
     1.21   thorpej do {									\
     1.21   thorpej 	if ((lkp)->lk_flags & LK_SPIN) {				\
     1.44   thorpej 		int s = spllock();					\
     1.21   thorpej 		SPINLOCK_LIST_LOCK();					\
     1.21   thorpej 		/* XXX Cast away volatile. */				\
     1.21   thorpej 		TAILQ_INSERT_TAIL(&spinlock_list, (struct lock *)(lkp),	\
     1.21   thorpej 		    lk_list);						\
     1.21   thorpej 		SPINLOCK_LIST_UNLOCK();					\
     1.21   thorpej 		splx(s);						\
     1.21   thorpej 	}								\
     1.30   thorpej } while (/*CONSTCOND*/0)
     1.21   thorpej
     1.21   thorpej #define	DONTHAVEIT(lkp)							\
     1.21   thorpej do {									\
     1.21   thorpej 	if ((lkp)->lk_flags & LK_SPIN) {				\
     1.44   thorpej 		int s = spllock();					\
     1.21   thorpej 		SPINLOCK_LIST_LOCK();					\
     1.21   thorpej 		/* XXX Cast away volatile. */				\
     1.21   thorpej 		TAILQ_REMOVE(&spinlock_list, (struct lock *)(lkp),	\
     1.21   thorpej 		    lk_list);						\
     1.21   thorpej 		SPINLOCK_LIST_UNLOCK();					\
     1.21   thorpej 		splx(s);						\
     1.21   thorpej 	}								\
     1.30   thorpej } while (/*CONSTCOND*/0)
     1.21   thorpej #else
     1.21   thorpej #define	HAVEIT(lkp)		/* nothing */
     1.21   thorpej
     1.21   thorpej #define	DONTHAVEIT(lkp)		/* nothing */
     1.21   thorpej #endif /* LOCKDEBUG */ /* } */
     1.21   thorpej
     1.25   thorpej #if defined(LOCKDEBUG)
     1.25   thorpej /*
     1.25   thorpej  * Lock debug printing routine; can be configured to print to console
     1.25   thorpej  * or log to syslog.
     1.25   thorpej  */
     1.25   thorpej void
     1.25   thorpej lock_printf(const char *fmt, ...)
     1.25   thorpej {
     1.25   thorpej 	va_list ap;
     1.25   thorpej
     1.25   thorpej 	va_start(ap, fmt);
     1.25   thorpej 	if (lock_debug_syslog)
     1.25   thorpej 		vlog(LOG_DEBUG, fmt, ap);
     1.25   thorpej 	else
     1.25   thorpej 		vprintf(fmt, ap);
     1.25   thorpej 	va_end(ap);
     1.25   thorpej }
     1.25   thorpej #endif /* LOCKDEBUG */
     1.25   thorpej
      1.1      fvdl /*
      1.1      fvdl  * Initialize a lock; required before use.
      1.1      fvdl  */
      1.1      fvdl void
     1.33   thorpej lockinit(struct lock *lkp, int prio, const char *wmesg, int timo, int flags)
      1.1      fvdl {
      1.1      fvdl
      1.8     perry 	memset(lkp, 0, sizeof(struct lock));
      1.1      fvdl 	simple_lock_init(&lkp->lk_interlock);
      1.1      fvdl 	lkp->lk_flags = flags & LK_EXTFLG_MASK;
     1.19   thorpej 	if (flags & LK_SPIN)
     1.19   thorpej 		lkp->lk_cpu = LK_NOCPU;
     1.19   thorpej 	else {
     1.19   thorpej 		lkp->lk_lockholder = LK_NOPROC;
     1.19   thorpej 		lkp->lk_prio = prio;
     1.19   thorpej 		lkp->lk_timo = timo;
     1.19   thorpej 	}
     1.19   thorpej 	lkp->lk_wmesg = wmesg;	/* just a name for spin locks */
     1.50   thorpej #if defined(LOCKDEBUG)
     1.50   thorpej 	lkp->lk_lock_file = NULL;
     1.50   thorpej 	lkp->lk_unlock_file = NULL;
     1.50   thorpej #endif
      1.1      fvdl }
      1.1      fvdl
      1.1      fvdl /*
      1.1      fvdl  * Determine the status of a lock.
      1.1      fvdl  */
      1.1      fvdl int
     1.33   thorpej lockstatus(struct lock *lkp)
      1.1      fvdl {
     1.40   thorpej 	int s, lock_type = 0;
      1.1      fvdl
     1.43   thorpej 	INTERLOCK_ACQUIRE(lkp, lkp->lk_flags, s);
      1.1      fvdl 	if (lkp->lk_exclusivecount != 0)
      1.1      fvdl 		lock_type = LK_EXCLUSIVE;
      1.1      fvdl 	else if (lkp->lk_sharecount != 0)
      1.1      fvdl 		lock_type = LK_SHARED;
     1.43   thorpej 	INTERLOCK_RELEASE(lkp, lkp->lk_flags, s);
      1.1      fvdl 	return (lock_type);
      1.1      fvdl }
     1.35   thorpej
     1.35   thorpej #if defined(LOCKDEBUG) || defined(DIAGNOSTIC)
     1.35   thorpej /*
     1.35   thorpej  * Make sure no spin locks are held by a CPU that is about
     1.35   thorpej  * to context switch.
     1.35   thorpej  */
     1.35   thorpej void
     1.35   thorpej spinlock_switchcheck(void)
     1.35   thorpej {
     1.35   thorpej 	u_long cnt;
     1.35   thorpej 	int s;
     1.35   thorpej
     1.44   thorpej 	s = spllock();
     1.35   thorpej #if defined(MULTIPROCESSOR)
     1.35   thorpej 	cnt = curcpu()->ci_spin_locks;
     1.35   thorpej #else
     1.35   thorpej 	cnt = spin_locks;
     1.35   thorpej #endif
     1.35   thorpej 	splx(s);
     1.35   thorpej
     1.35   thorpej 	if (cnt != 0)
     1.35   thorpej 		panic("spinlock_switchcheck: CPU %lu has %lu spin locks",
     1.35   thorpej 		    (u_long) cpu_number(), cnt);
     1.35   thorpej }
     1.35   thorpej #endif /* LOCKDEBUG || DIAGNOSTIC */
      1.1      fvdl
      1.1      fvdl /*
     1.44   thorpej  * Locks and IPLs (interrupt priority levels):
     1.44   thorpej  *
     1.44   thorpej  * Locks which may be taken from interrupt context must be handled
     1.44   thorpej  * very carefully; you must spl to the highest IPL where the lock
     1.44   thorpej  * is needed before acquiring the lock.
     1.44   thorpej  *
     1.44   thorpej  * It is also important to avoid deadlock, since certain (very high
     1.44   thorpej  * priority) interrupts are often needed to keep the system as a whole
     1.44   thorpej  * from deadlocking, and must not be blocked while you are spinning
     1.44   thorpej  * waiting for a lower-priority lock.
     1.44   thorpej  *
     1.44   thorpej  * In addition, the lock-debugging hooks themselves need to use locks!
     1.44   thorpej  *
     1.44   thorpej  * A raw __cpu_simple_lock may be used from interrupts are long as it
     1.44   thorpej  * is acquired and held at a single IPL.
     1.44   thorpej  *
     1.44   thorpej  * A simple_lock (which is a __cpu_simple_lock wrapped with some
     1.44   thorpej  * debugging hooks) may be used at or below spllock(), which is
     1.44   thorpej  * typically at or just below splhigh() (i.e. blocks everything
     1.44   thorpej  * but certain machine-dependent extremely high priority interrupts).
     1.44   thorpej  *
     1.44   thorpej  * spinlockmgr spinlocks should be used at or below splsched().
     1.44   thorpej  *
     1.44   thorpej  * Some platforms may have interrupts of higher priority than splsched(),
     1.44   thorpej  * including hard serial interrupts, inter-processor interrupts, and
     1.44   thorpej  * kernel debugger traps.
     1.44   thorpej  */
     1.44   thorpej
     1.44   thorpej /*
     1.32  sommerfe  * XXX XXX kludge around another kludge..
     1.32  sommerfe  *
     1.32  sommerfe  * vfs_shutdown() may be called from interrupt context, either as a result
     1.32  sommerfe  * of a panic, or from the debugger.   It proceeds to call
     1.32  sommerfe  * sys_sync(&proc0, ...), pretending its running on behalf of proc0
     1.32  sommerfe  *
     1.32  sommerfe  * We would like to make an attempt to sync the filesystems in this case, so
     1.32  sommerfe  * if this happens, we treat attempts to acquire locks specially.
     1.32  sommerfe  * All locks are acquired on behalf of proc0.
     1.32  sommerfe  *
     1.32  sommerfe  * If we've already paniced, we don't block waiting for locks, but
     1.32  sommerfe  * just barge right ahead since we're already going down in flames.
     1.32  sommerfe  */
     1.32  sommerfe
     1.32  sommerfe /*
      1.1      fvdl  * Set, change, or release a lock.
      1.1      fvdl  *
      1.1      fvdl  * Shared requests increment the shared count. Exclusive requests set the
      1.1      fvdl  * LK_WANT_EXCL flag (preventing further shared locks), and wait for already
      1.1      fvdl  * accepted shared locks and shared-to-exclusive upgrades to go away.
      1.1      fvdl  */
      1.1      fvdl int
     1.50   thorpej #if defined(LOCKDEBUG)
     1.50   thorpej _lockmgr(__volatile struct lock *lkp, u_int flags,
     1.50   thorpej     struct simplelock *interlkp, const char *file, int line)
     1.50   thorpej #else
     1.33   thorpej lockmgr(__volatile struct lock *lkp, u_int flags,
     1.33   thorpej     struct simplelock *interlkp)
     1.50   thorpej #endif
      1.1      fvdl {
      1.1      fvdl 	int error;
      1.1      fvdl 	pid_t pid;
 1.51.2.7   thorpej 	lwpid_t lid;
      1.1      fvdl 	int extflags;
     1.24   thorpej 	cpuid_t cpu_id;
 1.51.2.9   nathanw 	struct lwp *l = curlwp;
     1.32  sommerfe 	int lock_shutdown_noblock = 0;
     1.40   thorpej 	int s;
      1.1      fvdl
      1.1      fvdl 	error = 0;
     1.19   thorpej
     1.43   thorpej 	INTERLOCK_ACQUIRE(lkp, lkp->lk_flags, s);
      1.1      fvdl 	if (flags & LK_INTERLOCK)
      1.1      fvdl 		simple_unlock(interlkp);
      1.1      fvdl 	extflags = (flags | lkp->lk_flags) & LK_EXTFLG_MASK;
     1.19   thorpej
     1.21   thorpej #ifdef DIAGNOSTIC /* { */
     1.19   thorpej 	/*
     1.19   thorpej 	 * Don't allow spins on sleep locks and don't allow sleeps
     1.19   thorpej 	 * on spin locks.
     1.19   thorpej 	 */
     1.19   thorpej 	if ((flags ^ lkp->lk_flags) & LK_SPIN)
     1.19   thorpej 		panic("lockmgr: sleep/spin mismatch\n");
     1.21   thorpej #endif /* } */
     1.19   thorpej
 1.51.2.7   thorpej 	if (extflags & LK_SPIN) {
     1.19   thorpej 		pid = LK_KERNPROC;
 1.51.2.7   thorpej 		lid = 0;
 1.51.2.7   thorpej 	} else {
 1.51.2.7   thorpej 		if (l == NULL) {
     1.32  sommerfe 			if (!doing_shutdown) {
     1.32  sommerfe 				panic("lockmgr: no context");
     1.32  sommerfe 			} else {
 1.51.2.7   thorpej 				l = &lwp0;
     1.32  sommerfe 				if (panicstr && (!(flags & LK_NOWAIT))) {
     1.32  sommerfe 					flags |= LK_NOWAIT;
     1.32  sommerfe 					lock_shutdown_noblock = 1;
     1.32  sommerfe 				}
     1.32  sommerfe 			}
     1.32  sommerfe 		}
 1.51.2.7   thorpej 		lid = l->l_lid;
 1.51.2.7   thorpej 		pid = l->l_proc->p_pid;
     1.19   thorpej 	}
     1.24   thorpej 	cpu_id = cpu_number();
     1.19   thorpej
      1.1      fvdl 	/*
      1.1      fvdl 	 * Once a lock has drained, the LK_DRAINING flag is set and an
      1.1      fvdl 	 * exclusive lock is returned. The only valid operation thereafter
      1.1      fvdl 	 * is a single release of that exclusive lock. This final release
      1.1      fvdl 	 * clears the LK_DRAINING flag and sets the LK_DRAINED flag. Any
      1.1      fvdl 	 * further requests of any sort will result in a panic. The bits
      1.1      fvdl 	 * selected for these two flags are chosen so that they will be set
      1.1      fvdl 	 * in memory that is freed (freed memory is filled with 0xdeadbeef).
      1.1      fvdl 	 * The final release is permitted to give a new lease on life to
      1.1      fvdl 	 * the lock by specifying LK_REENABLE.
      1.1      fvdl 	 */
      1.1      fvdl 	if (lkp->lk_flags & (LK_DRAINING|LK_DRAINED)) {
     1.28   thorpej #ifdef DIAGNOSTIC /* { */
      1.1      fvdl 		if (lkp->lk_flags & LK_DRAINED)
      1.1      fvdl 			panic("lockmgr: using decommissioned lock");
      1.1      fvdl 		if ((flags & LK_TYPE_MASK) != LK_RELEASE ||
 1.51.2.7   thorpej 		    WEHOLDIT(lkp, pid, lid, cpu_id) == 0)
      1.1      fvdl 			panic("lockmgr: non-release on draining lock: %d\n",
      1.1      fvdl 			    flags & LK_TYPE_MASK);
     1.28   thorpej #endif /* DIAGNOSTIC */ /* } */
      1.1      fvdl 		lkp->lk_flags &= ~LK_DRAINING;
      1.1      fvdl 		if ((flags & LK_REENABLE) == 0)
      1.1      fvdl 			lkp->lk_flags |= LK_DRAINED;
      1.1      fvdl 	}
      1.1      fvdl
      1.1      fvdl 	switch (flags & LK_TYPE_MASK) {
      1.1      fvdl
      1.1      fvdl 	case LK_SHARED:
 1.51.2.7   thorpej 		if (WEHOLDIT(lkp, pid, lid, cpu_id) == 0) {
      1.1      fvdl 			/*
      1.1      fvdl 			 * If just polling, check to see if we will block.
      1.1      fvdl 			 */
      1.1      fvdl 			if ((extflags & LK_NOWAIT) && (lkp->lk_flags &
      1.1      fvdl 			    (LK_HAVE_EXCL | LK_WANT_EXCL | LK_WANT_UPGRADE))) {
      1.1      fvdl 				error = EBUSY;
      1.1      fvdl 				break;
      1.1      fvdl 			}
      1.1      fvdl 			/*
      1.1      fvdl 			 * Wait for exclusive locks and upgrades to clear.
      1.1      fvdl 			 */
     1.23   thorpej 			ACQUIRE(lkp, error, extflags, 0, lkp->lk_flags &
      1.1      fvdl 			    (LK_HAVE_EXCL | LK_WANT_EXCL | LK_WANT_UPGRADE));
      1.1      fvdl 			if (error)
      1.1      fvdl 				break;
      1.1      fvdl 			lkp->lk_sharecount++;
 1.51.2.7   thorpej 			COUNT(lkp, l, cpu_id, 1);
      1.1      fvdl 			break;
      1.1      fvdl 		}
      1.1      fvdl 		/*
      1.1      fvdl 		 * We hold an exclusive lock, so downgrade it to shared.
      1.1      fvdl 		 * An alternative would be to fail with EDEADLK.
      1.1      fvdl 		 */
      1.1      fvdl 		lkp->lk_sharecount++;
 1.51.2.7   thorpej 		COUNT(lkp, l, cpu_id, 1);
      1.1      fvdl 		/* fall into downgrade */
      1.1      fvdl
      1.1      fvdl 	case LK_DOWNGRADE:
 1.51.2.7   thorpej 		if (WEHOLDIT(lkp, pid, lid, cpu_id) == 0 ||
     1.19   thorpej 		    lkp->lk_exclusivecount == 0)
      1.1      fvdl 			panic("lockmgr: not holding exclusive lock");
      1.1      fvdl 		lkp->lk_sharecount += lkp->lk_exclusivecount;
      1.1      fvdl 		lkp->lk_exclusivecount = 0;
     1.15      fvdl 		lkp->lk_recurselevel = 0;
      1.1      fvdl 		lkp->lk_flags &= ~LK_HAVE_EXCL;
 1.51.2.7   thorpej 		SETHOLDER(lkp, LK_NOPROC, 0, LK_NOCPU);
     1.50   thorpej #if defined(LOCKDEBUG)
     1.50   thorpej 		lkp->lk_unlock_file = file;
     1.50   thorpej 		lkp->lk_unlock_line = line;
     1.50   thorpej #endif
     1.21   thorpej 		DONTHAVEIT(lkp);
     1.23   thorpej 		WAKEUP_WAITER(lkp);
      1.1      fvdl 		break;
      1.1      fvdl
      1.1      fvdl 	case LK_EXCLUPGRADE:
      1.1      fvdl 		/*
      1.1      fvdl 		 * If another process is ahead of us to get an upgrade,
      1.1      fvdl 		 * then we want to fail rather than have an intervening
      1.1      fvdl 		 * exclusive access.
      1.1      fvdl 		 */
      1.1      fvdl 		if (lkp->lk_flags & LK_WANT_UPGRADE) {
      1.1      fvdl 			lkp->lk_sharecount--;
 1.51.2.7   thorpej 			COUNT(lkp, l, cpu_id, -1);
      1.1      fvdl 			error = EBUSY;
      1.1      fvdl 			break;
      1.1      fvdl 		}
      1.1      fvdl 		/* fall into normal upgrade */
      1.1      fvdl
      1.1      fvdl 	case LK_UPGRADE:
      1.1      fvdl 		/*
      1.1      fvdl 		 * Upgrade a shared lock to an exclusive one. If another
      1.1      fvdl 		 * shared lock has already requested an upgrade to an
      1.1      fvdl 		 * exclusive lock, our shared lock is released and an
      1.1      fvdl 		 * exclusive lock is requested (which will be granted
      1.1      fvdl 		 * after the upgrade). If we return an error, the file
      1.1      fvdl 		 * will always be unlocked.
      1.1      fvdl 		 */
 1.51.2.7   thorpej 		if (WEHOLDIT(lkp, pid, lid, cpu_id) || lkp->lk_sharecount <= 0)
      1.1      fvdl 			panic("lockmgr: upgrade exclusive lock");
      1.1      fvdl 		lkp->lk_sharecount--;
 1.51.2.7   thorpej 		COUNT(lkp, l, cpu_id, -1);
      1.1      fvdl 		/*
      1.1      fvdl 		 * If we are just polling, check to see if we will block.
      1.1      fvdl 		 */
      1.1      fvdl 		if ((extflags & LK_NOWAIT) &&
      1.1      fvdl 		    ((lkp->lk_flags & LK_WANT_UPGRADE) ||
      1.1      fvdl 		     lkp->lk_sharecount > 1)) {
      1.1      fvdl 			error = EBUSY;
      1.1      fvdl 			break;
      1.1      fvdl 		}
      1.1      fvdl 		if ((lkp->lk_flags & LK_WANT_UPGRADE) == 0) {
      1.1      fvdl 			/*
      1.1      fvdl 			 * We are first shared lock to request an upgrade, so
      1.1      fvdl 			 * request upgrade and wait for the shared count to
      1.1      fvdl 			 * drop to zero, then take exclusive lock.
      1.1      fvdl 			 */
      1.1      fvdl 			lkp->lk_flags |= LK_WANT_UPGRADE;
     1.23   thorpej 			ACQUIRE(lkp, error, extflags, 0, lkp->lk_sharecount);
      1.1      fvdl 			lkp->lk_flags &= ~LK_WANT_UPGRADE;
      1.1      fvdl 			if (error)
      1.1      fvdl 				break;
      1.1      fvdl 			lkp->lk_flags |= LK_HAVE_EXCL;
 1.51.2.7   thorpej 			SETHOLDER(lkp, pid, lid, cpu_id);
     1.50   thorpej #if defined(LOCKDEBUG)
     1.50   thorpej 			lkp->lk_lock_file = file;
     1.50   thorpej 			lkp->lk_lock_line = line;
     1.50   thorpej #endif
     1.21   thorpej 			HAVEIT(lkp);
      1.1      fvdl 			if (lkp->lk_exclusivecount != 0)
      1.1      fvdl 				panic("lockmgr: non-zero exclusive count");
      1.1      fvdl 			lkp->lk_exclusivecount = 1;
     1.15      fvdl 			if (extflags & LK_SETRECURSE)
     1.15      fvdl 				lkp->lk_recurselevel = 1;
 1.51.2.7   thorpej 			COUNT(lkp, l, cpu_id, 1);
      1.1      fvdl 			break;
      1.1      fvdl 		}
      1.1      fvdl 		/*
      1.1      fvdl 		 * Someone else has requested upgrade. Release our shared
      1.1      fvdl 		 * lock, awaken upgrade requestor if we are the last shared
      1.1      fvdl 		 * lock, then request an exclusive lock.
      1.1      fvdl 		 */
     1.23   thorpej 		if (lkp->lk_sharecount == 0)
     1.23   thorpej 			WAKEUP_WAITER(lkp);
      1.1      fvdl 		/* fall into exclusive request */
      1.1      fvdl
      1.1      fvdl 	case LK_EXCLUSIVE:
 1.51.2.7   thorpej 		if (WEHOLDIT(lkp, pid, lid, cpu_id)) {
      1.1      fvdl 			/*
     1.19   thorpej 			 * Recursive lock.
      1.1      fvdl 			 */
     1.15      fvdl 			if ((extflags & LK_CANRECURSE) == 0 &&
     1.16  sommerfe 			     lkp->lk_recurselevel == 0) {
     1.16  sommerfe 				if (extflags & LK_RECURSEFAIL) {
     1.16  sommerfe 					error = EDEADLK;
     1.16  sommerfe 					break;
     1.16  sommerfe 				} else
     1.16  sommerfe 					panic("lockmgr: locking against myself");
     1.16  sommerfe 			}
      1.1      fvdl 			lkp->lk_exclusivecount++;
     1.15      fvdl 			if (extflags & LK_SETRECURSE &&
     1.15      fvdl 			    lkp->lk_recurselevel == 0)
     1.15      fvdl 				lkp->lk_recurselevel = lkp->lk_exclusivecount;
 1.51.2.7   thorpej 			COUNT(lkp, l, cpu_id, 1);
      1.1      fvdl 			break;
      1.1      fvdl 		}
      1.1      fvdl 		/*
      1.1      fvdl 		 * If we are just polling, check to see if we will sleep.
      1.1      fvdl 		 */
      1.1      fvdl 		if ((extflags & LK_NOWAIT) && ((lkp->lk_flags &
      1.1      fvdl 		     (LK_HAVE_EXCL | LK_WANT_EXCL | LK_WANT_UPGRADE)) ||
      1.1      fvdl 		     lkp->lk_sharecount != 0)) {
      1.1      fvdl 			error = EBUSY;
      1.1      fvdl 			break;
      1.1      fvdl 		}
      1.1      fvdl 		/*
      1.1      fvdl 		 * Try to acquire the want_exclusive flag.
      1.1      fvdl 		 */
     1.23   thorpej 		ACQUIRE(lkp, error, extflags, 0, lkp->lk_flags &
      1.1      fvdl 		    (LK_HAVE_EXCL | LK_WANT_EXCL));
      1.1      fvdl 		if (error)
      1.1      fvdl 			break;
      1.1      fvdl 		lkp->lk_flags |= LK_WANT_EXCL;
      1.1      fvdl 		/*
      1.1      fvdl 		 * Wait for shared locks and upgrades to finish.
      1.1      fvdl 		 */
     1.23   thorpej 		ACQUIRE(lkp, error, extflags, 0, lkp->lk_sharecount != 0 ||
      1.1      fvdl 		       (lkp->lk_flags & LK_WANT_UPGRADE));
      1.1      fvdl 		lkp->lk_flags &= ~LK_WANT_EXCL;
      1.1      fvdl 		if (error)
      1.1      fvdl 			break;
      1.1      fvdl 		lkp->lk_flags |= LK_HAVE_EXCL;
 1.51.2.7   thorpej 		SETHOLDER(lkp, pid, lid, cpu_id);
     1.50   thorpej #if defined(LOCKDEBUG)
     1.50   thorpej 		lkp->lk_lock_file = file;
     1.50   thorpej 		lkp->lk_lock_line = line;
     1.50   thorpej #endif
     1.21   thorpej 		HAVEIT(lkp);
      1.1      fvdl 		if (lkp->lk_exclusivecount != 0)
      1.1      fvdl 			panic("lockmgr: non-zero exclusive count");
      1.1      fvdl 		lkp->lk_exclusivecount = 1;
     1.15      fvdl 		if (extflags & LK_SETRECURSE)
     1.15      fvdl 			lkp->lk_recurselevel = 1;
 1.51.2.7   thorpej 		COUNT(lkp, l, cpu_id, 1);
      1.1      fvdl 		break;
      1.1      fvdl
      1.1      fvdl 	case LK_RELEASE:
      1.1      fvdl 		if (lkp->lk_exclusivecount != 0) {
 1.51.2.7   thorpej 			if (WEHOLDIT(lkp, pid, lid, cpu_id) == 0) {
     1.19   thorpej 				if (lkp->lk_flags & LK_SPIN) {
     1.19   thorpej 					panic("lockmgr: processor %lu, not "
     1.19   thorpej 					    "exclusive lock holder %lu "
     1.19   thorpej 					    "unlocking", cpu_id, lkp->lk_cpu);
     1.19   thorpej 				} else {
     1.19   thorpej 					panic("lockmgr: pid %d, not "
     1.19   thorpej 					    "exclusive lock holder %d "
     1.19   thorpej 					    "unlocking", pid,
     1.19   thorpej 					    lkp->lk_lockholder);
     1.19   thorpej 				}
     1.19   thorpej 			}
     1.15      fvdl 			if (lkp->lk_exclusivecount == lkp->lk_recurselevel)
     1.15      fvdl 				lkp->lk_recurselevel = 0;
      1.1      fvdl 			lkp->lk_exclusivecount--;
 1.51.2.7   thorpej 			COUNT(lkp, l, cpu_id, -1);
      1.1      fvdl 			if (lkp->lk_exclusivecount == 0) {
      1.1      fvdl 				lkp->lk_flags &= ~LK_HAVE_EXCL;
 1.51.2.7   thorpej 				SETHOLDER(lkp, LK_NOPROC, 0, LK_NOCPU);
     1.50   thorpej #if defined(LOCKDEBUG)
     1.50   thorpej 				lkp->lk_unlock_file = file;
     1.50   thorpej 				lkp->lk_unlock_line = line;
     1.50   thorpej #endif
     1.21   thorpej 				DONTHAVEIT(lkp);
      1.1      fvdl 			}
      1.1      fvdl 		} else if (lkp->lk_sharecount != 0) {
      1.1      fvdl 			lkp->lk_sharecount--;
 1.51.2.7   thorpej 			COUNT(lkp, l, cpu_id, -1);
      1.1      fvdl 		}
     1.39   thorpej #ifdef DIAGNOSTIC
     1.39   thorpej 		else
     1.39   thorpej 			panic("lockmgr: release of unlocked lock!");
     1.39   thorpej #endif
     1.23   thorpej 		WAKEUP_WAITER(lkp);
      1.1      fvdl 		break;
      1.1      fvdl
      1.1      fvdl 	case LK_DRAIN:
      1.1      fvdl 		/*
      1.1      fvdl 		 * Check that we do not already hold the lock, as it can
      1.1      fvdl 		 * never drain if we do. Unfortunately, we have no way to
      1.1      fvdl 		 * check for holding a shared lock, but at least we can
      1.1      fvdl 		 * check for an exclusive one.
      1.1      fvdl 		 */
 1.51.2.7   thorpej 		if (WEHOLDIT(lkp, pid, lid, cpu_id))
      1.1      fvdl 			panic("lockmgr: draining against myself");
      1.1      fvdl 		/*
      1.1      fvdl 		 * If we are just polling, check to see if we will sleep.
      1.1      fvdl 		 */
      1.1      fvdl 		if ((extflags & LK_NOWAIT) && ((lkp->lk_flags &
      1.1      fvdl 		     (LK_HAVE_EXCL | LK_WANT_EXCL | LK_WANT_UPGRADE)) ||
      1.1      fvdl 		     lkp->lk_sharecount != 0 || lkp->lk_waitcount != 0)) {
      1.1      fvdl 			error = EBUSY;
      1.1      fvdl 			break;
      1.1      fvdl 		}
     1.23   thorpej 		ACQUIRE(lkp, error, extflags, 1,
     1.23   thorpej 		    ((lkp->lk_flags &
     1.23   thorpej 		     (LK_HAVE_EXCL | LK_WANT_EXCL | LK_WANT_UPGRADE)) ||
     1.23   thorpej 		     lkp->lk_sharecount != 0 ||
     1.23   thorpej 		     lkp->lk_waitcount != 0));
     1.23   thorpej 		if (error)
     1.23   thorpej 			break;
      1.1      fvdl 		lkp->lk_flags |= LK_DRAINING | LK_HAVE_EXCL;
 1.51.2.7   thorpej 		SETHOLDER(lkp, pid, lid, cpu_id);
     1.50   thorpej #if defined(LOCKDEBUG)
     1.50   thorpej 		lkp->lk_lock_file = file;
     1.50   thorpej 		lkp->lk_lock_line = line;
     1.50   thorpej #endif
     1.21   thorpej 		HAVEIT(lkp);
      1.1      fvdl 		lkp->lk_exclusivecount = 1;
     1.15      fvdl 		/* XXX unlikely that we'd want this */
     1.15      fvdl 		if (extflags & LK_SETRECURSE)
     1.15      fvdl 			lkp->lk_recurselevel = 1;
 1.51.2.7   thorpej 		COUNT(lkp, l, cpu_id, 1);
      1.1      fvdl 		break;
      1.1      fvdl
      1.1      fvdl 	default:
     1.43   thorpej 		INTERLOCK_RELEASE(lkp, lkp->lk_flags, s);
      1.1      fvdl 		panic("lockmgr: unknown locktype request %d",
      1.1      fvdl 		    flags & LK_TYPE_MASK);
      1.1      fvdl 		/* NOTREACHED */
      1.1      fvdl 	}
     1.23   thorpej 	if ((lkp->lk_flags & (LK_WAITDRAIN|LK_SPIN)) == LK_WAITDRAIN &&
     1.23   thorpej 	    ((lkp->lk_flags &
     1.23   thorpej 	      (LK_HAVE_EXCL | LK_WANT_EXCL | LK_WANT_UPGRADE)) == 0 &&
      1.1      fvdl 	     lkp->lk_sharecount == 0 && lkp->lk_waitcount == 0)) {
      1.1      fvdl 		lkp->lk_flags &= ~LK_WAITDRAIN;
 1.51.2.5   nathanw 		wakeup((void *)&lkp->lk_flags);
      1.1      fvdl 	}
     1.32  sommerfe 	/*
     1.32  sommerfe 	 * Note that this panic will be a recursive panic, since
     1.32  sommerfe 	 * we only set lock_shutdown_noblock above if panicstr != NULL.
     1.32  sommerfe 	 */
     1.32  sommerfe 	if (error && lock_shutdown_noblock)
     1.32  sommerfe 		panic("lockmgr: deadlock (see previous panic)");
     1.32  sommerfe
     1.43   thorpej 	INTERLOCK_RELEASE(lkp, lkp->lk_flags, s);
      1.1      fvdl 	return (error);
      1.1      fvdl }
      1.1      fvdl
      1.1      fvdl /*
     1.47  sommerfe  * For a recursive spinlock held one or more times by the current CPU,
     1.47  sommerfe  * release all N locks, and return N.
     1.47  sommerfe  * Intended for use in mi_switch() shortly before context switching.
     1.47  sommerfe  */
     1.47  sommerfe
     1.47  sommerfe int
     1.50   thorpej #if defined(LOCKDEBUG)
     1.50   thorpej _spinlock_release_all(__volatile struct lock *lkp, const char *file, int line)
     1.50   thorpej #else
     1.47  sommerfe spinlock_release_all(__volatile struct lock *lkp)
     1.50   thorpej #endif
     1.47  sommerfe {
     1.47  sommerfe 	int s, count;
     1.47  sommerfe 	cpuid_t cpu_id;
     1.47  sommerfe
     1.47  sommerfe 	KASSERT(lkp->lk_flags & LK_SPIN);
     1.47  sommerfe
     1.47  sommerfe 	INTERLOCK_ACQUIRE(lkp, LK_SPIN, s);
     1.47  sommerfe
     1.47  sommerfe 	cpu_id = cpu_number();
     1.47  sommerfe 	count = lkp->lk_exclusivecount;
     1.47  sommerfe
     1.47  sommerfe 	if (count != 0) {
     1.47  sommerfe #ifdef DIAGNOSTIC
 1.51.2.7   thorpej 		if (WEHOLDIT(lkp, 0, 0, cpu_id) == 0) {
     1.47  sommerfe 			panic("spinlock_release_all: processor %lu, not "
     1.47  sommerfe 			    "exclusive lock holder %lu "
     1.47  sommerfe 			    "unlocking", (long)cpu_id, lkp->lk_cpu);
     1.47  sommerfe 		}
     1.47  sommerfe #endif
     1.47  sommerfe 		lkp->lk_recurselevel = 0;
     1.47  sommerfe 		lkp->lk_exclusivecount = 0;
     1.47  sommerfe 		COUNT_CPU(cpu_id, -count);
     1.47  sommerfe 		lkp->lk_flags &= ~LK_HAVE_EXCL;
 1.51.2.7   thorpej 		SETHOLDER(lkp, LK_NOPROC, 0, LK_NOCPU);
     1.50   thorpej #if defined(LOCKDEBUG)
     1.50   thorpej 		lkp->lk_unlock_file = file;
     1.50   thorpej 		lkp->lk_unlock_line = line;
     1.50   thorpej #endif
     1.47  sommerfe 		DONTHAVEIT(lkp);
     1.47  sommerfe 	}
     1.47  sommerfe #ifdef DIAGNOSTIC
     1.47  sommerfe 	else if (lkp->lk_sharecount != 0)
     1.47  sommerfe 		panic("spinlock_release_all: release of shared lock!");
     1.47  sommerfe 	else
     1.47  sommerfe 		panic("spinlock_release_all: release of unlocked lock!");
     1.47  sommerfe #endif
     1.47  sommerfe 	INTERLOCK_RELEASE(lkp, LK_SPIN, s);
     1.47  sommerfe
     1.47  sommerfe 	return (count);
     1.47  sommerfe }
     1.47  sommerfe
     1.47  sommerfe /*
     1.47  sommerfe  * For a recursive spinlock held one or more times by the current CPU,
     1.47  sommerfe  * release all N locks, and return N.
     1.47  sommerfe  * Intended for use in mi_switch() right after resuming execution.
     1.47  sommerfe  */
     1.47  sommerfe
     1.47  sommerfe void
     1.50   thorpej #if defined(LOCKDEBUG)
     1.50   thorpej _spinlock_acquire_count(__volatile struct lock *lkp, int count,
     1.50   thorpej     const char *file, int line)
     1.50   thorpej #else
     1.47  sommerfe spinlock_acquire_count(__volatile struct lock *lkp, int count)
     1.50   thorpej #endif
     1.47  sommerfe {
     1.47  sommerfe 	int s, error;
     1.47  sommerfe 	cpuid_t cpu_id;
     1.47  sommerfe
     1.47  sommerfe 	KASSERT(lkp->lk_flags & LK_SPIN);
     1.47  sommerfe
     1.47  sommerfe 	INTERLOCK_ACQUIRE(lkp, LK_SPIN, s);
     1.47  sommerfe
     1.47  sommerfe 	cpu_id = cpu_number();
     1.47  sommerfe
     1.47  sommerfe #ifdef DIAGNOSTIC
 1.51.2.7   thorpej 	if (WEHOLDIT(lkp, LK_NOPROC, 0, cpu_id))
     1.47  sommerfe 		panic("spinlock_acquire_count: processor %lu already holds lock\n", (long)cpu_id);
     1.47  sommerfe #endif
     1.47  sommerfe 	/*
     1.47  sommerfe 	 * Try to acquire the want_exclusive flag.
     1.47  sommerfe 	 */
     1.47  sommerfe 	ACQUIRE(lkp, error, LK_SPIN, 0, lkp->lk_flags &
     1.47  sommerfe 	    (LK_HAVE_EXCL | LK_WANT_EXCL));
     1.47  sommerfe 	lkp->lk_flags |= LK_WANT_EXCL;
     1.47  sommerfe 	/*
     1.47  sommerfe 	 * Wait for shared locks and upgrades to finish.
     1.47  sommerfe 	 */
     1.47  sommerfe 	ACQUIRE(lkp, error, LK_SPIN, 0, lkp->lk_sharecount != 0 ||
     1.47  sommerfe 	    (lkp->lk_flags & LK_WANT_UPGRADE));
     1.47  sommerfe 	lkp->lk_flags &= ~LK_WANT_EXCL;
     1.47  sommerfe 	lkp->lk_flags |= LK_HAVE_EXCL;
 1.51.2.7   thorpej 	SETHOLDER(lkp, LK_NOPROC, 0, cpu_id);
     1.50   thorpej #if defined(LOCKDEBUG)
     1.50   thorpej 	lkp->lk_lock_file = file;
     1.50   thorpej 	lkp->lk_lock_line = line;
     1.50   thorpej #endif
     1.47  sommerfe 	HAVEIT(lkp);
     1.47  sommerfe 	if (lkp->lk_exclusivecount != 0)
     1.47  sommerfe 		panic("lockmgr: non-zero exclusive count");
     1.47  sommerfe 	lkp->lk_exclusivecount = count;
     1.47  sommerfe 	lkp->lk_recurselevel = 1;
     1.47  sommerfe 	COUNT_CPU(cpu_id, count);
     1.47  sommerfe
     1.47  sommerfe 	INTERLOCK_RELEASE(lkp, lkp->lk_flags, s);
     1.47  sommerfe }
     1.47  sommerfe
     1.47  sommerfe
     1.47  sommerfe
     1.47  sommerfe /*
      1.1      fvdl  * Print out information about state of a lock. Used by VOP_PRINT
      1.1      fvdl  * routines to display ststus about contained locks.
      1.1      fvdl  */
      1.2      fvdl void
     1.33   thorpej lockmgr_printinfo(__volatile struct lock *lkp)
      1.1      fvdl {
      1.1      fvdl
      1.1      fvdl 	if (lkp->lk_sharecount)
      1.1      fvdl 		printf(" lock type %s: SHARED (count %d)", lkp->lk_wmesg,
      1.1      fvdl 		    lkp->lk_sharecount);
     1.19   thorpej 	else if (lkp->lk_flags & LK_HAVE_EXCL) {
     1.19   thorpej 		printf(" lock type %s: EXCL (count %d) by ",
     1.19   thorpej 		    lkp->lk_wmesg, lkp->lk_exclusivecount);
     1.19   thorpej 		if (lkp->lk_flags & LK_SPIN)
     1.19   thorpej 			printf("processor %lu", lkp->lk_cpu);
     1.19   thorpej 		else
 1.51.2.7   thorpej 			printf("pid %d.%d", lkp->lk_lockholder,
 1.51.2.7   thorpej 			    lkp->lk_locklwp);
     1.19   thorpej 	} else
     1.19   thorpej 		printf(" not locked");
     1.19   thorpej 	if ((lkp->lk_flags & LK_SPIN) == 0 && lkp->lk_waitcount > 0)
      1.1      fvdl 		printf(" with %d pending", lkp->lk_waitcount);
      1.1      fvdl }
      1.1      fvdl
     1.21   thorpej #if defined(LOCKDEBUG) /* { */
     1.21   thorpej TAILQ_HEAD(, simplelock) simplelock_list =
     1.21   thorpej     TAILQ_HEAD_INITIALIZER(simplelock_list);
     1.21   thorpej
     1.21   thorpej #if defined(MULTIPROCESSOR) /* { */
     1.21   thorpej struct simplelock simplelock_list_slock = SIMPLELOCK_INITIALIZER;
     1.21   thorpej
     1.21   thorpej #define	SLOCK_LIST_LOCK()						\
     1.29  sommerfe 	__cpu_simple_lock(&simplelock_list_slock.lock_data)
     1.21   thorpej
     1.21   thorpej #define	SLOCK_LIST_UNLOCK()						\
     1.29  sommerfe 	__cpu_simple_unlock(&simplelock_list_slock.lock_data)
     1.21   thorpej
     1.21   thorpej #define	SLOCK_COUNT(x)							\
     1.47  sommerfe 	curcpu()->ci_simple_locks += (x)
     1.21   thorpej #else
     1.21   thorpej u_long simple_locks;
     1.21   thorpej
     1.21   thorpej #define	SLOCK_LIST_LOCK()	/* nothing */
     1.21   thorpej
     1.21   thorpej #define	SLOCK_LIST_UNLOCK()	/* nothing */
     1.21   thorpej
     1.21   thorpej #define	SLOCK_COUNT(x)		simple_locks += (x)
     1.21   thorpej #endif /* MULTIPROCESSOR */ /* } */
     1.21   thorpej
     1.21   thorpej #ifdef DDB /* { */
     1.45  sommerfe #ifdef MULTIPROCESSOR
     1.45  sommerfe int simple_lock_debugger = 1;	/* more serious on MP */
     1.45  sommerfe #else
     1.18       chs int simple_lock_debugger = 0;
     1.45  sommerfe #endif
     1.21   thorpej #define	SLOCK_DEBUGGER()	if (simple_lock_debugger) Debugger()
 1.51.2.4   nathanw #define	SLOCK_TRACE()							\
 1.51.2.4   nathanw 	db_stack_trace_print((db_expr_t)__builtin_frame_address(0),	\
 1.51.2.4   nathanw 	    TRUE, 65535, "", printf);
     1.21   thorpej #else
     1.21   thorpej #define	SLOCK_DEBUGGER()	/* nothing */
 1.51.2.4   nathanw #define	SLOCK_TRACE()		/* nothing */
     1.21   thorpej #endif /* } */
     1.21   thorpej
     1.26  sommerfe #ifdef MULTIPROCESSOR
     1.46   thorpej #define SLOCK_MP()		lock_printf("on cpu %ld\n", 		\
     1.46   thorpej 				    (u_long) cpu_number())
     1.26  sommerfe #else
     1.26  sommerfe #define SLOCK_MP()		/* nothing */
     1.26  sommerfe #endif
     1.26  sommerfe
     1.21   thorpej #define	SLOCK_WHERE(str, alp, id, l)					\
     1.21   thorpej do {									\
 1.51.2.4   nathanw 	lock_printf("\n");						\
     1.25   thorpej 	lock_printf(str);						\
     1.33   thorpej 	lock_printf("lock: %p, currently at: %s:%d\n", (alp), (id), (l)); \
     1.26  sommerfe 	SLOCK_MP();							\
     1.21   thorpej 	if ((alp)->lock_file != NULL)					\
     1.25   thorpej 		lock_printf("last locked: %s:%d\n", (alp)->lock_file,	\
     1.21   thorpej 		    (alp)->lock_line);					\
     1.21   thorpej 	if ((alp)->unlock_file != NULL)					\
     1.25   thorpej 		lock_printf("last unlocked: %s:%d\n", (alp)->unlock_file, \
     1.21   thorpej 		    (alp)->unlock_line);				\
 1.51.2.4   nathanw 	SLOCK_TRACE()							\
     1.21   thorpej 	SLOCK_DEBUGGER();						\
     1.30   thorpej } while (/*CONSTCOND*/0)
     1.12       chs
      1.1      fvdl /*
      1.1      fvdl  * Simple lock functions so that the debugger can see from whence
      1.1      fvdl  * they are being called.
      1.1      fvdl  */
      1.1      fvdl void
     1.33   thorpej simple_lock_init(struct simplelock *alp)
      1.1      fvdl {
     1.21   thorpej
     1.21   thorpej #if defined(MULTIPROCESSOR) /* { */
     1.27   thorpej 	__cpu_simple_lock_init(&alp->lock_data);
     1.21   thorpej #else
     1.27   thorpej 	alp->lock_data = __SIMPLELOCK_UNLOCKED;
     1.21   thorpej #endif /* } */
      1.5       chs 	alp->lock_file = NULL;
      1.5       chs 	alp->lock_line = 0;
      1.5       chs 	alp->unlock_file = NULL;
      1.5       chs 	alp->unlock_line = 0;
     1.41   thorpej 	alp->lock_holder = LK_NOCPU;
      1.1      fvdl }
      1.1      fvdl
      1.1      fvdl void
     1.33   thorpej _simple_lock(__volatile struct simplelock *alp, const char *id, int l)
      1.1      fvdl {
     1.24   thorpej 	cpuid_t cpu_id = cpu_number();
     1.12       chs 	int s;
     1.12       chs
     1.44   thorpej 	s = spllock();
     1.21   thorpej
     1.21   thorpej 	/*
     1.21   thorpej 	 * MULTIPROCESSOR case: This is `safe' since if it's not us, we
     1.21   thorpej 	 * don't take any action, and just fall into the normal spin case.
     1.21   thorpej 	 */
     1.27   thorpej 	if (alp->lock_data == __SIMPLELOCK_LOCKED) {
     1.21   thorpej #if defined(MULTIPROCESSOR) /* { */
     1.21   thorpej 		if (alp->lock_holder == cpu_id) {
     1.21   thorpej 			SLOCK_WHERE("simple_lock: locking against myself\n",
     1.21   thorpej 			    alp, id, l);
     1.21   thorpej 			goto out;
      1.1      fvdl 		}
     1.21   thorpej #else
     1.21   thorpej 		SLOCK_WHERE("simple_lock: lock held\n", alp, id, l);
     1.21   thorpej 		goto out;
     1.21   thorpej #endif /* MULTIPROCESSOR */ /* } */
      1.1      fvdl 	}
     1.21   thorpej
     1.21   thorpej #if defined(MULTIPROCESSOR) /* { */
     1.21   thorpej 	/* Acquire the lock before modifying any fields. */
     1.27   thorpej 	__cpu_simple_lock(&alp->lock_data);
     1.21   thorpej #else
     1.27   thorpej 	alp->lock_data = __SIMPLELOCK_LOCKED;
     1.21   thorpej #endif /* } */
     1.21   thorpej
     1.45  sommerfe 	if (alp->lock_holder != LK_NOCPU) {
     1.45  sommerfe 		SLOCK_WHERE("simple_lock: uninitialized lock\n",
     1.45  sommerfe 		    alp, id, l);
     1.45  sommerfe 	}
      1.5       chs 	alp->lock_file = id;
      1.5       chs 	alp->lock_line = l;
     1.21   thorpej 	alp->lock_holder = cpu_id;
     1.21   thorpej
     1.21   thorpej 	SLOCK_LIST_LOCK();
     1.21   thorpej 	/* XXX Cast away volatile */
     1.21   thorpej 	TAILQ_INSERT_TAIL(&simplelock_list, (struct simplelock *)alp, list);
     1.21   thorpej 	SLOCK_LIST_UNLOCK();
     1.21   thorpej
     1.21   thorpej 	SLOCK_COUNT(1);
     1.21   thorpej
     1.21   thorpej  out:
     1.18       chs 	splx(s);
     1.38   thorpej }
     1.38   thorpej
     1.38   thorpej int
     1.38   thorpej _simple_lock_held(__volatile struct simplelock *alp)
     1.38   thorpej {
 1.51.2.2   nathanw #if defined(MULTIPROCESSOR) || defined(DIAGNOSTIC)
     1.38   thorpej 	cpuid_t cpu_id = cpu_number();
 1.51.2.2   nathanw #endif
     1.38   thorpej 	int s, locked = 0;
     1.38   thorpej
     1.44   thorpej 	s = spllock();
     1.42   thorpej
     1.42   thorpej #if defined(MULTIPROCESSOR)
     1.38   thorpej 	if (__cpu_simple_lock_try(&alp->lock_data) == 0)
     1.38   thorpej 		locked = (alp->lock_holder == cpu_id);
     1.38   thorpej 	else
     1.38   thorpej 		__cpu_simple_unlock(&alp->lock_data);
     1.38   thorpej #else
     1.42   thorpej 	if (alp->lock_data == __SIMPLELOCK_LOCKED) {
     1.42   thorpej 		locked = 1;
     1.42   thorpej 		KASSERT(alp->lock_holder == cpu_id);
     1.42   thorpej 	}
     1.42   thorpej #endif
     1.38   thorpej
     1.38   thorpej 	splx(s);
     1.42   thorpej
     1.38   thorpej 	return (locked);
      1.1      fvdl }
      1.1      fvdl
      1.1      fvdl int
     1.33   thorpej _simple_lock_try(__volatile struct simplelock *alp, const char *id, int l)
      1.1      fvdl {
     1.24   thorpej 	cpuid_t cpu_id = cpu_number();
     1.21   thorpej 	int s, rv = 0;
      1.1      fvdl
     1.44   thorpej 	s = spllock();
     1.21   thorpej
     1.21   thorpej 	/*
     1.21   thorpej 	 * MULTIPROCESSOR case: This is `safe' since if it's not us, we
     1.21   thorpej 	 * don't take any action.
     1.21   thorpej 	 */
     1.21   thorpej #if defined(MULTIPROCESSOR) /* { */
     1.27   thorpej 	if ((rv = __cpu_simple_lock_try(&alp->lock_data)) == 0) {
     1.21   thorpej 		if (alp->lock_holder == cpu_id)
     1.21   thorpej 			SLOCK_WHERE("simple_lock_try: locking against myself\n",
     1.26  sommerfe 			    alp, id, l);
     1.21   thorpej 		goto out;
     1.21   thorpej 	}
     1.21   thorpej #else
     1.27   thorpej 	if (alp->lock_data == __SIMPLELOCK_LOCKED) {
     1.21   thorpej 		SLOCK_WHERE("simple_lock_try: lock held\n", alp, id, l);
     1.21   thorpej 		goto out;
     1.18       chs 	}
     1.27   thorpej 	alp->lock_data = __SIMPLELOCK_LOCKED;
     1.21   thorpej #endif /* MULTIPROCESSOR */ /* } */
     1.21   thorpej
     1.21   thorpej 	/*
     1.21   thorpej 	 * At this point, we have acquired the lock.
     1.21   thorpej 	 */
     1.21   thorpej
     1.21   thorpej 	rv = 1;
     1.18       chs
      1.5       chs 	alp->lock_file = id;
      1.5       chs 	alp->lock_line = l;
     1.21   thorpej 	alp->lock_holder = cpu_id;
     1.21   thorpej
     1.21   thorpej 	SLOCK_LIST_LOCK();
     1.21   thorpej 	/* XXX Cast away volatile. */
     1.21   thorpej 	TAILQ_INSERT_TAIL(&simplelock_list, (struct simplelock *)alp, list);
     1.21   thorpej 	SLOCK_LIST_UNLOCK();
     1.21   thorpej
     1.21   thorpej 	SLOCK_COUNT(1);
     1.21   thorpej
     1.21   thorpej  out:
     1.12       chs 	splx(s);
     1.21   thorpej 	return (rv);
      1.1      fvdl }
      1.1      fvdl
      1.1      fvdl void
     1.33   thorpej _simple_unlock(__volatile struct simplelock *alp, const char *id, int l)
      1.1      fvdl {
     1.12       chs 	int s;
      1.1      fvdl
     1.44   thorpej 	s = spllock();
     1.21   thorpej
     1.21   thorpej 	/*
     1.21   thorpej 	 * MULTIPROCESSOR case: This is `safe' because we think we hold
     1.21   thorpej 	 * the lock, and if we don't, we don't take any action.
     1.21   thorpej 	 */
     1.27   thorpej 	if (alp->lock_data == __SIMPLELOCK_UNLOCKED) {
     1.21   thorpej 		SLOCK_WHERE("simple_unlock: lock not held\n",
     1.21   thorpej 		    alp, id, l);
     1.21   thorpej 		goto out;
     1.21   thorpej 	}
     1.21   thorpej
     1.21   thorpej 	SLOCK_LIST_LOCK();
     1.21   thorpej 	TAILQ_REMOVE(&simplelock_list, alp, list);
     1.21   thorpej 	SLOCK_LIST_UNLOCK();
     1.21   thorpej
     1.21   thorpej 	SLOCK_COUNT(-1);
     1.21   thorpej
     1.21   thorpej 	alp->list.tqe_next = NULL;	/* sanity */
     1.21   thorpej 	alp->list.tqe_prev = NULL;	/* sanity */
     1.21   thorpej
      1.5       chs 	alp->unlock_file = id;
      1.5       chs 	alp->unlock_line = l;
     1.21   thorpej
     1.21   thorpej #if defined(MULTIPROCESSOR) /* { */
     1.26  sommerfe 	alp->lock_holder = LK_NOCPU;
     1.21   thorpej 	/* Now that we've modified all fields, release the lock. */
     1.27   thorpej 	__cpu_simple_unlock(&alp->lock_data);
     1.21   thorpej #else
     1.27   thorpej 	alp->lock_data = __SIMPLELOCK_UNLOCKED;
     1.41   thorpej 	KASSERT(alp->lock_holder == cpu_number());
     1.41   thorpej 	alp->lock_holder = LK_NOCPU;
     1.21   thorpej #endif /* } */
     1.21   thorpej
     1.21   thorpej  out:
     1.18       chs 	splx(s);
     1.12       chs }
     1.12       chs
     1.12       chs void
     1.33   thorpej simple_lock_dump(void)
     1.12       chs {
     1.12       chs 	struct simplelock *alp;
     1.12       chs 	int s;
     1.12       chs
     1.44   thorpej 	s = spllock();
     1.21   thorpej 	SLOCK_LIST_LOCK();
     1.25   thorpej 	lock_printf("all simple locks:\n");
 1.51.2.4   nathanw 	TAILQ_FOREACH(alp, &simplelock_list, list) {
     1.25   thorpej 		lock_printf("%p CPU %lu %s:%d\n", alp, alp->lock_holder,
     1.21   thorpej 		    alp->lock_file, alp->lock_line);
     1.12       chs 	}
     1.21   thorpej 	SLOCK_LIST_UNLOCK();
     1.12       chs 	splx(s);
     1.12       chs }
     1.12       chs
     1.12       chs void
     1.33   thorpej simple_lock_freecheck(void *start, void *end)
     1.12       chs {
     1.12       chs 	struct simplelock *alp;
     1.12       chs 	int s;
     1.12       chs
     1.44   thorpej 	s = spllock();
     1.21   thorpej 	SLOCK_LIST_LOCK();
 1.51.2.4   nathanw 	TAILQ_FOREACH(alp, &simplelock_list, list) {
     1.12       chs 		if ((void *)alp >= start && (void *)alp < end) {
     1.25   thorpej 			lock_printf("freeing simple_lock %p CPU %lu %s:%d\n",
     1.34   thorpej 			    alp, alp->lock_holder, alp->lock_file,
     1.34   thorpej 			    alp->lock_line);
     1.34   thorpej 			SLOCK_DEBUGGER();
     1.34   thorpej 		}
     1.34   thorpej 	}
     1.34   thorpej 	SLOCK_LIST_UNLOCK();
     1.34   thorpej 	splx(s);
     1.34   thorpej }
     1.34   thorpej
 1.51.2.2   nathanw /*
 1.51.2.2   nathanw  * We must be holding exactly one lock: the sched_lock.
 1.51.2.2   nathanw  */
 1.51.2.2   nathanw
     1.34   thorpej void
     1.34   thorpej simple_lock_switchcheck(void)
     1.34   thorpej {
 1.51.2.2   nathanw
 1.51.2.2   nathanw 	simple_lock_only_held(&sched_lock, "switching");
 1.51.2.2   nathanw }
 1.51.2.2   nathanw
 1.51.2.2   nathanw void
 1.51.2.2   nathanw simple_lock_only_held(volatile struct simplelock *lp, const char *where)
 1.51.2.2   nathanw {
     1.34   thorpej 	struct simplelock *alp;
     1.34   thorpej 	cpuid_t cpu_id = cpu_number();
     1.34   thorpej 	int s;
     1.34   thorpej
 1.51.2.2   nathanw 	if (lp) {
 1.51.2.2   nathanw 		LOCK_ASSERT(simple_lock_held(lp));
 1.51.2.2   nathanw 	}
     1.44   thorpej 	s = spllock();
     1.34   thorpej 	SLOCK_LIST_LOCK();
 1.51.2.4   nathanw 	TAILQ_FOREACH(alp, &simplelock_list, list) {
 1.51.2.2   nathanw 		if (alp == lp)
     1.42   thorpej 			continue;
 1.51.2.2   nathanw 		if (alp->lock_holder == cpu_id)
 1.51.2.2   nathanw 			break;
     1.12       chs 	}
     1.21   thorpej 	SLOCK_LIST_UNLOCK();
     1.12       chs 	splx(s);
 1.51.2.2   nathanw
 1.51.2.2   nathanw 	if (alp != NULL) {
 1.51.2.4   nathanw 		lock_printf("\n%s with held simple_lock %p "
 1.51.2.2   nathanw 		    "CPU %lu %s:%d\n",
 1.51.2.2   nathanw 		    where, alp, alp->lock_holder, alp->lock_file,
 1.51.2.2   nathanw 		    alp->lock_line);
 1.51.2.4   nathanw 		SLOCK_TRACE();
 1.51.2.2   nathanw 		SLOCK_DEBUGGER();
 1.51.2.2   nathanw 	}
      1.1      fvdl }
     1.21   thorpej #endif /* LOCKDEBUG */ /* } */
 1.51.2.8   nathanw
 1.51.2.8   nathanw #if defined(MULTIPROCESSOR)
 1.51.2.8   nathanw /*
 1.51.2.8   nathanw  * Functions for manipulating the kernel_lock.  We put them here
 1.51.2.8   nathanw  * so that they show up in profiles.
 1.51.2.8   nathanw  */
 1.51.2.8   nathanw
 1.51.2.8   nathanw struct lock kernel_lock;
 1.51.2.8   nathanw
 1.51.2.8   nathanw void
 1.51.2.8   nathanw _kernel_lock_init(void)
 1.51.2.8   nathanw {
 1.51.2.8   nathanw
 1.51.2.8   nathanw 	spinlockinit(&kernel_lock, "klock", 0);
 1.51.2.8   nathanw }
 1.51.2.8   nathanw
 1.51.2.8   nathanw /*
 1.51.2.8   nathanw  * Acquire/release the kernel lock.  Intended for use in the scheduler
 1.51.2.8   nathanw  * and the lower half of the kernel.
 1.51.2.8   nathanw  */
 1.51.2.8   nathanw void
 1.51.2.8   nathanw _kernel_lock(int flag)
 1.51.2.8   nathanw {
 1.51.2.8   nathanw
 1.51.2.8   nathanw 	SCHED_ASSERT_UNLOCKED();
 1.51.2.8   nathanw 	spinlockmgr(&kernel_lock, flag, 0);
 1.51.2.8   nathanw }
 1.51.2.8   nathanw
 1.51.2.8   nathanw void
 1.51.2.8   nathanw _kernel_unlock(void)
 1.51.2.8   nathanw {
 1.51.2.8   nathanw
 1.51.2.8   nathanw 	spinlockmgr(&kernel_lock, LK_RELEASE, 0);
 1.51.2.8   nathanw }
 1.51.2.8   nathanw
 1.51.2.8   nathanw /*
 1.51.2.8   nathanw  * Acquire/release the kernel_lock on behalf of a process.  Intended for
 1.51.2.8   nathanw  * use in the top half of the kernel.
 1.51.2.8   nathanw  */
 1.51.2.8   nathanw void
 1.51.2.8   nathanw _kernel_proc_lock(struct lwp *l)
 1.51.2.8   nathanw {
 1.51.2.8   nathanw
 1.51.2.8   nathanw 	SCHED_ASSERT_UNLOCKED();
 1.51.2.8   nathanw 	spinlockmgr(&kernel_lock, LK_EXCLUSIVE, 0);
 1.51.2.8   nathanw 	l->l_flag |= P_BIGLOCK;
 1.51.2.8   nathanw }
 1.51.2.8   nathanw
 1.51.2.8   nathanw void
 1.51.2.8   nathanw _kernel_proc_unlock(struct lwp *l)
 1.51.2.8   nathanw {
 1.51.2.8   nathanw
 1.51.2.8   nathanw 	l->l_flag &= ~P_BIGLOCK;
 1.51.2.8   nathanw 	spinlockmgr(&kernel_lock, LK_RELEASE, 0);
 1.51.2.8   nathanw }
 1.51.2.8   nathanw #endif /* MULTIPROCESSOR */