xnu-201.tar.gz

[apple/xnu.git] / osfmk / kern / simple_lock.h

/*
 * Copyright (c) 2000 Apple Computer, Inc. All rights reserved.
 *
 * @APPLE_LICENSE_HEADER_START@
 * 
 * The contents of this file constitute Original Code as defined in and
 * are subject to the Apple Public Source License Version 1.1 (the
 * "License").  You may not use this file except in compliance with the
 * License.  Please obtain a copy of the License at
 * http://www.apple.com/publicsource and read it before using this file.
 * 
 * This Original Code and all software distributed under the License are
 * distributed on an "AS IS" basis, WITHOUT WARRANTY OF ANY KIND, EITHER
 * EXPRESS OR IMPLIED, AND APPLE HEREBY DISCLAIMS ALL SUCH WARRANTIES,
 * INCLUDING WITHOUT LIMITATION, ANY WARRANTIES OF MERCHANTABILITY,
 * FITNESS FOR A PARTICULAR PURPOSE OR NON-INFRINGEMENT.  Please see the
 * License for the specific language governing rights and limitations
 * under the License.
 * 
 * @APPLE_LICENSE_HEADER_END@
 */
/* 
 * Copyright (C) 1998 Apple Computer
 * All Rights Reserved
 */
/*
 * @OSF_COPYRIGHT@
 */
/*
 * Mach Operating System
 * Copyright (c) 1991,1990,1989,1988,1987 Carnegie Mellon University
 * All Rights Reserved.
 * 
 * Permission to use, copy, modify and distribute this software and its
 * documentation is hereby granted, provided that both the copyright
 * notice and this permission notice appear in all copies of the
 * software, derivative works or modified versions, and any portions
 * thereof, and that both notices appear in supporting documentation.
 * 
 * CARNEGIE MELLON ALLOWS FREE USE OF THIS SOFTWARE IN ITS "AS IS"
 * CONDITION.  CARNEGIE MELLON DISCLAIMS ANY LIABILITY OF ANY KIND FOR
 * ANY DAMAGES WHATSOEVER RESULTING FROM THE USE OF THIS SOFTWARE.
 * 
 * Carnegie Mellon requests users of this software to return to
 * 
 *  Software Distribution Coordinator  or  Software.Distribution@CS.CMU.EDU
 *  School of Computer Science
 *  Carnegie Mellon University
 *  Pittsburgh PA 15213-3890
 * 
 * any improvements or extensions that they make and grant Carnegie Mellon
 * the rights to redistribute these changes.
 */
/*
 *      File:   kern/simple_lock.h (derived from kern/lock.h)
 *      Author: Avadis Tevanian, Jr., Michael Wayne Young
 *      Date:   1985
 *
 *      Simple Locking primitives definitions
 */

#ifndef _SIMPLE_LOCK_H_
#define _SIMPLE_LOCK_H_

/*
 * Configuration variables:
 *
 *
 *      MACH_LDEBUG:    record pc and thread of callers, turn on
 *                      all lock debugging.
 *
 *
 *      ETAP:           The Event Trace Analysis Package (ETAP) monitors
 *                      and records micro-kernel lock behavior and general
 *                      kernel events.  ETAP supports two levels of
 *                      tracing for locks:
 *                              - cumulative (ETAP_LOCK_ACCUMULATE)
 *                              - monitored  (ETAP_LOCK_MONITOR)
 *
 *                      Note: If either level of tracing is configured then
 *                            ETAP_LOCK_TRACE is automatically defined to 
 *                            equal one.
 *
 *                      Several macros are added throughout the lock code to
 *                      allow for convenient configuration.
 */

#include <mach/boolean.h>
#include <kern/kern_types.h>

#include <kern/simple_lock_types.h>
#include <machine/lock.h>
#include <mach/etap_events.h>
#include <mach/etap.h>

/*
 *      The Mach lock package exports the following simple lock abstractions:
 *
 *      Lock Type  Properties
 *      hw_lock    lowest level hardware abstraction; atomic,
 *                 non-blocking, mutual exclusion; supports pre-emption
 *      usimple    non-blocking spinning lock, available in all
 *                 kernel configurations; may be used from thread
 *                 and interrupt contexts; supports debugging,
 *                 statistics and pre-emption
 *      simple     non-blocking spinning lock, intended for SMP
 *                 synchronization (vanishes on a uniprocessor);
 *                 supports debugging, statistics and pre-emption
 *
 *      NOTES TO IMPLEMENTORS:  there are essentially two versions
 *      of the lock package.  One is portable, written in C, and
 *      supports all of the various flavors of debugging, statistics,
 *      uni- versus multi-processor, pre-emption, etc.  The "other"
 *      is whatever set of lock routines is provided by machine-dependent
 *      code.  Presumably, the machine-dependent package is heavily
 *      optimized and meant for production kernels.
 *
 *      We encourage implementors to focus on highly-efficient,
 *      production implementations of machine-dependent lock code,
 *      and use the portable lock package for everything else.
 */

#ifdef MACH_KERNEL_PRIVATE
/*
 *      Mach always initializes locks, even those statically
 *      allocated.
 *
 *      The conditional acquisition call, hw_lock_try,
 *      must return non-zero on success and zero on failure.
 *
 *      The hw_lock_held operation returns non-zero if the
 *      lock is set, zero if the lock is clear.  This operation
 *      should be implemented using an ordinary memory read,
 *      rather than a special atomic instruction, allowing
 *      a processor to spin in cache waiting for the lock to
 *      be released without chewing up bus cycles.
 */
extern void                     hw_lock_init(hw_lock_t);
extern void                     hw_lock_lock(hw_lock_t);
extern void                     hw_lock_unlock(hw_lock_t);
extern unsigned int             hw_lock_to(hw_lock_t, unsigned int);
extern unsigned int             hw_lock_try(hw_lock_t);
extern unsigned int             hw_lock_held(hw_lock_t);
#endif /* MACH_KERNEL_PRIVATE */

/*
 * Machine dependent atomic ops.  Probably should be in their own header.
 */
extern unsigned int             hw_lock_bit(unsigned int *, unsigned int, unsigned int);
extern unsigned int             hw_cpu_sync(unsigned int *, unsigned int);
extern unsigned int             hw_cpu_wcng(unsigned int *, unsigned int, unsigned int);
extern unsigned int             hw_lock_mbits(unsigned int *, unsigned int, unsigned int,
        unsigned int, unsigned int);
void                            hw_unlock_bit(unsigned int *, unsigned int);
extern int                      hw_atomic_add(int *area, int inc);
extern int                      hw_atomic_sub(int *area, int dec);
extern int                      hw_atomic_or(int *area, int val);
extern int                      hw_atomic_and(int *area, int mask);
extern unsigned int             hw_compare_and_store(unsigned int oldValue, unsigned int newValue, unsigned int *area);
extern void                     hw_queue_atomic(unsigned int *anchor, unsigned int *elem, unsigned int disp);
extern void                     hw_queue_atomic_list(unsigned int *anchor, unsigned int *first, unsigned int *last, unsigned int disp);
extern unsigned int             *hw_dequeue_atomic(unsigned int *anchor, unsigned int disp);


/*
 *      The remaining locking constructs may have two versions.
 *      One version is machine-independent, built in C on top of the
 *      hw_lock construct.  This version supports production, debugging
 *      and statistics configurations and is portable across architectures.
 *
 *      Any particular port may override some or all of the portable
 *      lock package for whatever reason -- usually efficiency.
 *
 *      The direct use of hw_locks by machine-independent Mach code
 *      should be rare; the preferred spinning lock is the simple_lock
 *      (see below).
 */

/*
 *      A "simple" spin lock, providing non-blocking mutual
 *      exclusion and conditional acquisition.
 *
 *      The usimple_lock exists even in uniprocessor configurations.
 *      A data structure is always allocated for it and the following
 *      operations are always defined:
 *
 *              usimple_lock_init       lock initialization (mandatory!)
 *              usimple_lock            lock acquisition
 *              usimple_unlock          lock release
 *              usimple_lock_try        conditional lock acquisition;
 *                                      non-zero means success
 *      Simple lock DEBUG interfaces
 *              usimple_lock_held       verify lock already held by me
 *              usimple_lock_none_held  verify no usimple locks are held
 *
 *      The usimple_lock may be used for synchronization between
 *      thread context and interrupt context, or between a uniprocessor
 *      and an intelligent device.  Obviously, it may also be used for
 *      multiprocessor synchronization.  Its use should be rare; the
 *      simple_lock is the preferred spinning lock (see below).
 *
 *      The usimple_lock supports optional lock debugging and statistics.
 *
 *      Normally, we expect the usimple_lock data structure to be
 *      defined here, with its operations implemented in an efficient,
 *      machine-dependent way.  However, any implementation may choose
 *      to rely on a C-based, portable  version of the usimple_lock for
 *      debugging, statistics, and/or tracing.  Three hooks are used in
 *      the portable lock package to allow the machine-dependent package
 *      to override some or all of the portable package's features.
 *
 *      The usimple_lock also handles pre-emption.  Lock acquisition
 *      implies disabling pre-emption, while lock release implies
 *      re-enabling pre-emption.  Conditional lock acquisition does
 *      not assume success:  on success, pre-emption is disabled
 *      but on failure the pre-emption state remains the same as
 *      the pre-emption state before the acquisition attempt.
 */

/*
 *      Each usimple_lock has a type, used for debugging and
 *      statistics.  This type may safely be ignored in a
 *      production configuration.
 *
 *      The conditional acquisition call, usimple_lock_try,
 *      must return non-zero on success and zero on failure.
 */
extern void             usimple_lock_init(usimple_lock_t,etap_event_t);
extern void             usimple_lock(usimple_lock_t);
extern void             usimple_unlock(usimple_lock_t);
extern unsigned int     usimple_lock_try(usimple_lock_t);
extern void             usimple_lock_held(usimple_lock_t);
extern void             usimple_lock_none_held(void);


/*
 *      Upon the usimple_lock we define the simple_lock, which
 *      exists for SMP configurations.  These locks aren't needed
 *      in a uniprocessor configuration, so compile-time tricks
 *      make them disappear when NCPUS==1.  (For debugging purposes,
 *      however, they can be enabled even on a uniprocessor.)  This
 *      should be the "most popular" spinning lock; the usimple_lock
 *      and hw_lock should only be used in rare cases.
 *
 *      IMPORTANT:  simple_locks that may be shared between interrupt
 *      and thread context must have their use coordinated with spl.
 *      The spl level must alway be the same when acquiring the lock.
 *      Otherwise, deadlock may result.
 */

#if MACH_KERNEL_PRIVATE
#include <cpus.h>
#include <mach_ldebug.h>

#if     NCPUS == 1 && !ETAP_LOCK_TRACE && !USLOCK_DEBUG
/*
 *      MACH_RT is a very special case:  in the case that the
 *      machine-dependent lock package hasn't taken responsibility
 *      but there is no other reason to turn on locks, if MACH_RT
 *      is turned on locks denote critical, non-preemptable points
 *      in the code.
 *
 *      Otherwise, simple_locks may be layered directly on top of
 *      usimple_locks.
 *
 *      N.B.  The reason that simple_lock_try may be assumed to
 *      succeed under MACH_RT is that the definition only is used
 *      when NCPUS==1 AND because simple_locks shared between thread
 *      and interrupt context are always acquired with elevated spl.
 *      Thus, it is never possible to be interrupted in a dangerous
 *      way while holding a simple_lock.
 */
/*
 *      for locks and there is no other apparent reason to turn them on.
 *      So make them disappear.
 */
#define simple_lock_init(l,t)
#define simple_lock(l)          disable_preemption()
#define simple_unlock(l)        enable_preemption()
#define simple_lock_try(l)      (disable_preemption(), 1)
#define simple_lock_addr(lock)  ((simple_lock_t)0)
#define __slock_held_func__(l)  preemption_is_disabled()
#endif  /* NCPUS == 1 && !ETAP_LOCK_TRACE && !USLOCK_DEBUG */

#if     ETAP_LOCK_TRACE
extern  void    simple_lock_no_trace(simple_lock_t l);
extern  int     simple_lock_try_no_trace(simple_lock_t l);
extern  void    simple_unlock_no_trace(simple_lock_t l);
#endif  /* ETAP_LOCK_TRACE */

#endif /* MACH_KERNEL_PRIVATE */

/*
 * If we got to here and we still don't have simple_lock_init
 * defined, then we must either be outside the osfmk component,
 * running on a true SMP, or need debug.
 */
#if !defined(simple_lock_init)
#define simple_lock_init(l,t)   usimple_lock_init(l,t)
#define simple_lock(l)          usimple_lock(l)
#define simple_unlock(l)        usimple_unlock(l)
#define simple_lock_try(l)      usimple_lock_try(l)
#define simple_lock_addr(l)     (&(l))
#define __slock_held_func__(l)  usimple_lock_held(l)
#endif / * !defined(simple_lock_init) */

#if     USLOCK_DEBUG
/*
 *      Debug-time only:
 *              + verify that usimple_lock is already held by caller
 *              + verify that usimple_lock is NOT held by caller
 *              + verify that current processor owns no usimple_locks
 *
 *      We do not provide a simple_lock_NOT_held function because
 *      it's impossible to verify when only MACH_RT is turned on.
 *      In that situation, only preemption is enabled/disabled
 *      around lock use, and it's impossible to tell which lock
 *      acquisition caused preemption to be disabled.  However,
 *      note that it's still valid to use check_simple_locks
 *      when only MACH_RT is turned on -- no locks should be
 *      held, hence preemption should be enabled.
 *      Actually, the above isn't strictly true, as explicit calls
 *      to disable_preemption() need to be accounted for.
 */
#define simple_lock_held(l)     __slock_held_func__(l)
#define check_simple_locks()    usimple_lock_none_held()
#else   /* USLOCK_DEBUG */
#define simple_lock_held(l)
#define check_simple_locks()
#endif  /* USLOCK_DEBUG */

#endif /*!_SIMPLE_LOCK_H_*/