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freebsd-dev/sys/i386/include/mutex.h
John Baldwin 6c56727456 - Change fast interrupts on x86 to push a full interrupt frame and to 
return through doreti to handle ast's.  This is necessary for the
  clock interrupts to work properly.
- Change the clock interrupts on the x86 to be fast instead of threaded.
  This is needed because both hardclock() and statclock() need to run in
  the context of the current process, not in a separate thread context.
- Kill the prevproc hack as it is no longer needed.
- We really need Giant when we call psignal(), but we don't want to block
  during the clock interrupt.  Instead, use two p_flag's in the proc struct
  to mark the current process as having a pending SIGVTALRM or a SIGPROF
  and let them be delivered during ast() when hardclock() has finished
  running.
- Remove CLKF_BASEPRI, which was #ifdef'd out on the x86 anyways.  It was
  broken on the x86 if it was turned on since cpl is gone.  It's only use
  was to bogusly run softclock() directly during hardclock() rather than
  scheduling an SWI.
- Remove the COM_LOCK simplelock and replace it with a clock_lock spin
  mutex.  Since the spin mutex already handles disabling/restoring
  interrupts appropriately, this also lets us axe all the *_intr() fu.
- Back out the hacks in the APIC_IO x86 cpu_initclocks() code to use
  temporary fast interrupts for the APIC trial.
- Add two new process flags P_ALRMPEND and P_PROFPEND to mark the pending
  signals in hardclock() that are to be delivered in ast().

Submitted by:	jakeb (making statclock safe in a fast interrupt)
Submitted by:	cp (concept of delaying signals until ast())
2000-10-06 02:20:21 +00:00

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/*-
* Copyright (c) 1997 Berkeley Software Design, Inc. All rights reserved.
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions
* are met:
* 1. Redistributions of source code must retain the above copyright
* notice, this list of conditions and the following disclaimer.
* 2. Redistributions in binary form must reproduce the above copyright
* notice, this list of conditions and the following disclaimer in the
* documentation and/or other materials provided with the distribution.
* 3. Berkeley Software Design Inc's name may not be used to endorse or
* promote products derived from this software without specific prior
* written permission.
*
* THIS SOFTWARE IS PROVIDED BY BERKELEY SOFTWARE DESIGN INC ``AS IS'' AND
* ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
* IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
* ARE DISCLAIMED. IN NO EVENT SHALL BERKELEY SOFTWARE DESIGN INC BE LIABLE
* FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
* DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS
* OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
* HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
* LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY
* OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF
* SUCH DAMAGE.
*
* from BSDI $Id: mutex.h,v 2.7.2.35 2000/04/27 03:10:26 cp Exp $
* $FreeBSD$
*/
#ifndef _MACHINE_MUTEX_H_
#define _MACHINE_MUTEX_H_
#ifndef LOCORE
#include <sys/queue.h>
#ifdef _KERNEL
#include <sys/ktr.h>
#include <sys/proc.h> /* Needed for curproc. */
#include <machine/atomic.h>
#include <machine/cpufunc.h>
#include <machine/globals.h>
/*
* If kern_mutex.c is being built, compile non-inlined versions of various
* functions so that kernel modules can use them.
*/
#ifndef _KERN_MUTEX_C_
#define _MTX_INLINE static __inline
#else
#define _MTX_INLINE
#endif
/*
* Mutex flags
*
* Types
*/
#define MTX_DEF 0x0 /* Default (spin/sleep) */
#define MTX_SPIN 0x1 /* Spin only lock */
/* Options */
#define MTX_RLIKELY 0x4 /* (opt) Recursion likely */
#define MTX_NORECURSE 0x8 /* No recursion possible */
#define MTX_NOSPIN 0x10 /* Don't spin before sleeping */
#define MTX_NOSWITCH 0x20 /* Do not switch on release */
#define MTX_FIRST 0x40 /* First spin lock holder */
#define MTX_TOPHALF 0x80 /* Interrupts not disabled on spin */
/* options that should be passed on to mtx_enter_hard, mtx_exit_hard */
#define MTX_HARDOPTS (MTX_SPIN | MTX_FIRST | MTX_TOPHALF | MTX_NOSWITCH)
/* Flags/value used in mtx_lock */
#define MTX_RECURSE 0x01 /* (non-spin) lock held recursively */
#define MTX_CONTESTED 0x02 /* (non-spin) lock contested */
#define MTX_FLAGMASK ~(MTX_RECURSE | MTX_CONTESTED)
#define MTX_UNOWNED 0x8 /* Cookie for free mutex */
#endif /* _KERNEL */
/*
* Sleep/spin mutex
*/
struct mtx {
volatile u_int mtx_lock; /* lock owner/gate/flags */
volatile u_int mtx_recurse; /* number of recursive holds */
u_int mtx_savefl; /* saved flags (for spin locks) */
char *mtx_description;
TAILQ_HEAD(, proc) mtx_blocked;
LIST_ENTRY(mtx) mtx_contested;
struct mtx *mtx_next; /* all locks in system */
struct mtx *mtx_prev;
#ifdef SMP_DEBUG
/* If you add anything here, adjust the mtxf_t definition below */
struct witness *mtx_witness;
LIST_ENTRY(mtx) mtx_held;
const char *mtx_file;
int mtx_line;
#endif /* SMP_DEBUG */
};
/*
* Filler for structs which need to remain the same size
* whether or not SMP_DEBUG is turned on.
*/
typedef struct mtxf {
#ifdef SMP_DEBUG
char mtxf_data[0];
#else
char mtxf_data[4*sizeof(void *) + sizeof(int)];
#endif
} mtxf_t;
#define mp_fixme(string)
#ifdef _KERNEL
/* Misc */
#define CURTHD ((u_int)CURPROC) /* Current thread ID */
/* Prototypes */
void mtx_init(struct mtx *m, char *description, int flag);
void mtx_enter_hard(struct mtx *, int type, int flags);
void mtx_exit_hard(struct mtx *, int type);
void mtx_destroy(struct mtx *m);
/*
* Wrap the following functions with cpp macros so that filenames and line
* numbers are embedded in the code correctly.
*/
#if (defined(KLD_MODULE) || defined(_KERN_MUTEX_C_))
void _mtx_enter(struct mtx *mtxp, int type, const char *file, int line);
int _mtx_try_enter(struct mtx *mtxp, int type, const char *file, int line);
void _mtx_exit(struct mtx *mtxp, int type, const char *file, int line);
#endif
#define mtx_enter(mtxp, type) \
_mtx_enter((mtxp), (type), __FILE__, __LINE__)
#define mtx_try_enter(mtxp, type) \
_mtx_try_enter((mtxp), (type), __FILE__, __LINE__)
#define mtx_exit(mtxp, type) \
_mtx_exit((mtxp), (type), __FILE__, __LINE__)
/* Global locks */
extern struct mtx sched_lock;
extern struct mtx Giant;
extern struct mtx clock_lock;
/*
* Used to replace return with an exit Giant and return.
*/
#define EGAR(a) \
do { \
mtx_exit(&Giant, MTX_DEF); \
return (a); \
} while (0)
#define VEGAR \
do { \
mtx_exit(&Giant, MTX_DEF); \
return; \
} while (0)
#define DROP_GIANT() \
do { \
int _giantcnt; \
WITNESS_SAVE_DECL(Giant); \
\
WITNESS_SAVE(&Giant, Giant); \
for (_giantcnt = 0; mtx_owned(&Giant); _giantcnt++) \
mtx_exit(&Giant, MTX_DEF)
#define PICKUP_GIANT() \
mtx_assert(&Giant, MA_NOTOWNED); \
while (_giantcnt--) \
mtx_enter(&Giant, MTX_DEF); \
WITNESS_RESTORE(&Giant, Giant); \
} while (0)
#define PARTIAL_PICKUP_GIANT() \
mtx_assert(&Giant, MA_NOTOWNED); \
while (_giantcnt--) \
mtx_enter(&Giant, MTX_DEF); \
WITNESS_RESTORE(&Giant, Giant)
/*
* Debugging
*/
#ifndef SMP_DEBUG
#define mtx_assert(m, what)
#else /* SMP_DEBUG */
#define MA_OWNED 1
#define MA_NOTOWNED 2
#define mtx_assert(m, what) { \
switch ((what)) { \
case MA_OWNED: \
ASS(mtx_owned((m))); \
break; \
case MA_NOTOWNED: \
ASS(!mtx_owned((m))); \
break; \
default: \
panic("unknown mtx_assert at %s:%d", __FILE__, __LINE__); \
} \
}
#ifdef INVARIANTS
#define ASS(ex) MPASS(ex)
#define MPASS(ex) if (!(ex)) panic("Assertion %s failed at %s:%d", \
#ex, __FILE__, __LINE__)
#define MPASS2(ex, what) if (!(ex)) panic("Assertion %s failed at %s:%d", \
what, __FILE__, __LINE__)
#ifdef MTX_STRS
char STR_IEN[] = "fl & 0x200";
char STR_IDIS[] = "!(fl & 0x200)";
#else /* MTX_STRS */
extern char STR_IEN[];
extern char STR_IDIS[];
#endif /* MTX_STRS */
#define ASS_IEN MPASS2(read_eflags() & 0x200, STR_IEN)
#define ASS_IDIS MPASS2((read_eflags() & 0x200) == 0, STR_IDIS)
#endif /* INVARIANTS */
#endif /* SMP_DEBUG */
#if !defined(SMP_DEBUG) || !defined(INVARIANTS)
#define ASS(ex)
#define MPASS(ex)
#define MPASS2(ex, where)
#define ASS_IEN
#define ASS_IDIS
#endif /* !defined(SMP_DEBUG) || !defined(INVARIANTS) */
#ifdef WITNESS
#ifndef SMP_DEBUG
#error WITNESS requires SMP_DEBUG
#endif /* SMP_DEBUG */
#define WITNESS_ENTER(m, t, f, l) \
if ((m)->mtx_witness != NULL) \
witness_enter((m), (t), (f), (l))
#define WITNESS_EXIT(m, t, f, l) \
if ((m)->mtx_witness != NULL) \
witness_exit((m), (t), (f), (l))
#define WITNESS_SLEEP(check, m) witness_sleep(check, (m), __FILE__, __LINE__)
#define WITNESS_SAVE_DECL(n) \
const char * __CONCAT(n, __wf); \
int __CONCAT(n, __wl)
#define WITNESS_SAVE(m, n) \
do { \
if ((m)->mtx_witness != NULL) \
witness_save(m, &__CONCAT(n, __wf), &__CONCAT(n, __wl)); \
} while (0)
#define WITNESS_RESTORE(m, n) \
do { \
if ((m)->mtx_witness != NULL) \
witness_restore(m, __CONCAT(n, __wf), __CONCAT(n, __wl)); \
} while (0)
void witness_init(struct mtx *, int flag);
void witness_destroy(struct mtx *);
void witness_enter(struct mtx *, int, const char *, int);
void witness_try_enter(struct mtx *, int, const char *, int);
void witness_exit(struct mtx *, int, const char *, int);
void witness_display(void(*)(const char *fmt, ...));
void witness_list(struct proc *);
int witness_sleep(int, struct mtx *, const char *, int);
void witness_save(struct mtx *, const char **, int *);
void witness_restore(struct mtx *, const char *, int);
#else /* WITNESS */
#define WITNESS_ENTER(m, t, f, l)
#define WITNESS_EXIT(m, t, f, l)
#define WITNESS_SLEEP(check, m)
#define WITNESS_SAVE_DECL(n)
#define WITNESS_SAVE(m, n)
#define WITNESS_RESTORE(m, n)
/*
* flag++ is slezoid way of shutting up unused parameter warning
* in mtx_init()
*/
#define witness_init(m, flag) flag++
#define witness_destroy(m)
#define witness_enter(m, t, f, l)
#define witness_try_enter(m, t, f, l)
#define witness_exit(m, t, f, l)
#endif /* WITNESS */
/*
* Assembly macros (for internal use only)
*------------------------------------------------------------------------------
*/
#define _V(x) __STRING(x)
#ifndef I386_CPU
/*
* For 486 and newer processors.
*/
/* Get a sleep lock, deal with recursion inline. */
#define _getlock_sleep(mtxp, tid, type) ({ \
int _res; \
\
__asm __volatile ( \
" movl $" _V(MTX_UNOWNED) ",%%eax;" /* Unowned cookie */ \
" " MPLOCKED "" \
" cmpxchgl %3,%1;" /* Try */ \
" jz 1f;" /* Got it */ \
" andl $" _V(MTX_FLAGMASK) ",%%eax;" /* turn off spec bits */ \
" cmpl %%eax,%3;" /* already have it? */ \
" je 2f;" /* yes, recurse */ \
" pushl %4;" \
" pushl %5;" \
" call mtx_enter_hard;" \
" addl $8,%%esp;" \
" jmp 1f;" \
"2: lock; orl $" _V(MTX_RECURSE) ",%1;" \
" incl %2;" \
"1:" \
"# getlock_sleep" \
: "=&a" (_res), /* 0 (dummy output) */ \
"+m" (mtxp->mtx_lock), /* 1 */ \
"+m" (mtxp->mtx_recurse) /* 2 */ \
: "r" (tid), /* 3 (input) */ \
"gi" (type), /* 4 */ \
"g" (mtxp) /* 5 */ \
: "memory", "ecx", "edx" /* used */ ); \
})
/* Get a spin lock, handle recursion inline (as the less common case) */
#define _getlock_spin_block(mtxp, tid, type) ({ \
int _res; \
\
__asm __volatile ( \
" pushfl;" \
" cli;" \
" movl $" _V(MTX_UNOWNED) ",%%eax;" /* Unowned cookie */ \
" " MPLOCKED "" \
" cmpxchgl %3,%1;" /* Try */ \
" jz 2f;" /* got it */ \
" pushl %4;" \
" pushl %5;" \
" call mtx_enter_hard;" /* mtx_enter_hard(mtxp, type, oflags) */ \
" addl $0xc,%%esp;" \
" jmp 1f;" \
"2: popl %2;" /* save flags */ \
"1:" \
"# getlock_spin_block" \
: "=&a" (_res), /* 0 (dummy output) */ \
"+m" (mtxp->mtx_lock), /* 1 */ \
"=m" (mtxp->mtx_savefl) /* 2 */ \
: "r" (tid), /* 3 (input) */ \
"gi" (type), /* 4 */ \
"g" (mtxp) /* 5 */ \
: "memory", "ecx", "edx" /* used */ ); \
})
/*
* Get a lock without any recursion handling. Calls the hard enter function if
* we can't get it inline.
*/
#define _getlock_norecurse(mtxp, tid, type) ({ \
int _res; \
\
__asm __volatile ( \
" movl $" _V(MTX_UNOWNED) ",%%eax;" /* Unowned cookie */ \
" " MPLOCKED "" \
" cmpxchgl %2,%1;" /* Try */ \
" jz 1f;" /* got it */ \
" pushl %3;" \
" pushl %4;" \
" call mtx_enter_hard;" /* mtx_enter_hard(mtxp, type) */ \
" addl $8,%%esp;" \
"1:" \
"# getlock_norecurse" \
: "=&a" (_res), /* 0 (dummy output) */ \
"+m" (mtxp->mtx_lock) /* 1 */ \
: "r" (tid), /* 2 (input) */ \
"gi" (type), /* 3 */ \
"g" (mtxp) /* 4 */ \
: "memory", "ecx", "edx" /* used */ ); \
})
/*
* Release a sleep lock assuming we haven't recursed on it, recursion is handled
* in the hard function.
*/
#define _exitlock_norecurse(mtxp, tid, type) ({ \
int _tid = (int)(tid); \
\
__asm __volatile ( \
" " MPLOCKED "" \
" cmpxchgl %4,%0;" /* try easy rel */ \
" jz 1f;" /* released! */ \
" pushl %2;" \
" pushl %3;" \
" call mtx_exit_hard;" \
" addl $8,%%esp;" \
"1:" \
"# exitlock_norecurse" \
: "+m" (mtxp->mtx_lock), /* 0 */ \
"+a" (_tid) /* 1 */ \
: "gi" (type), /* 2 (input) */ \
"g" (mtxp), /* 3 */ \
"r" (MTX_UNOWNED) /* 4 */ \
: "memory", "ecx", "edx" /* used */ ); \
})
/*
* Release a sleep lock when its likely we recursed (the code to
* deal with simple recursion is inline).
*/
#define _exitlock(mtxp, tid, type) ({ \
int _tid = (int)(tid); \
\
__asm __volatile ( \
" " MPLOCKED "" \
" cmpxchgl %5,%0;" /* try easy rel */ \
" jz 1f;" /* released! */ \
" testl $" _V(MTX_RECURSE) ",%%eax;" /* recursed? */ \
" jnz 3f;" /* handle recursion */ \
/* Lock not recursed and contested: do the hard way */ \
" pushl %3;" \
" pushl %4;" \
" call mtx_exit_hard;" /* mtx_exit_hard(mtxp,type) */ \
" addl $8,%%esp;" \
" jmp 1f;" \
/* lock recursed, lower recursion level */ \
"3: decl %1;" /* one less level */ \
" jnz 1f;" /* still recursed, done */ \
" lock; andl $~" _V(MTX_RECURSE) ",%0;" /* turn off recurse flag */ \
"1:" \
"# exitlock" \
: "+m" (mtxp->mtx_lock), /* 0 */ \
"+m" (mtxp->mtx_recurse), /* 1 */ \
"+a" (_tid) /* 2 */ \
: "gi" (type), /* 3 (input) */ \
"g" (mtxp), /* 4 */ \
"r" (MTX_UNOWNED) /* 5 */ \
: "memory", "ecx", "edx" /* used */ ); \
})
/*
* Release a spin lock (with possible recursion).
*
* We use cmpxchgl to clear lock (instead of simple store) to flush posting
* buffers and make the change visible to other CPU's.
*/
#define _exitlock_spin(mtxp, inten1, inten2) ({ \
int _res; \
\
__asm __volatile ( \
" movl %1,%%eax;" \
" decl %%eax;" \
" js 1f;" \
" movl %%eax,%1;" \
" jmp 2f;" \
"1: movl %0,%%eax;" \
" movl $ " _V(MTX_UNOWNED) ",%%ecx;" \
" " inten1 ";" \
" " MPLOCKED "" \
" cmpxchgl %%ecx,%0;" \
" " inten2 ";" \
"2:" \
"# exitlock_spin" \
: "+m" (mtxp->mtx_lock), /* 0 */ \
"+m" (mtxp->mtx_recurse), /* 1 */ \
"=&a" (_res) /* 2 */ \
: "g" (mtxp->mtx_savefl) /* 3 (used in 'inten') */ \
: "memory", "ecx" /* used */ ); \
})
#else /* I386_CPU */
/*
* For 386 processors only.
*/
/* Get a sleep lock, deal with recursion inline. */
#define _getlock_sleep(mp, tid, type) do { \
if (atomic_cmpset_int(&(mp)->mtx_lock, MTX_UNOWNED, (tid)) == 0) { \
if (((mp)->mtx_lock & MTX_FLAGMASK) != (tid)) \
mtx_enter_hard(mp, (type) & MTX_HARDOPTS, 0); \
else { \
atomic_set_int(&(mp)->mtx_lock, MTX_RECURSE); \
(mp)->mtx_recurse++; \
} \
} \
} while (0)
/* Get a spin lock, handle recursion inline (as the less common case) */
#define _getlock_spin_block(mp, tid, type) do { \
u_int _mtx_fl = read_eflags(); \
disable_intr(); \
if (atomic_cmpset_int(&(mp)->mtx_lock, MTX_UNOWNED, (tid)) == 0) \
mtx_enter_hard(mp, (type) & MTX_HARDOPTS, _mtx_fl); \
else \
(mp)->mtx_savefl = _mtx_fl; \
} while (0)
/*
* Get a lock without any recursion handling. Calls the hard enter function if
* we can't get it inline.
*/
#define _getlock_norecurse(mp, tid, type) do { \
if (atomic_cmpset_int(&(mp)->mtx_lock, MTX_UNOWNED, (tid)) == 0) \
mtx_enter_hard((mp), (type) & MTX_HARDOPTS, 0); \
} while (0)
/*
* Release a sleep lock assuming we haven't recursed on it, recursion is handled
* in the hard function.
*/
#define _exitlock_norecurse(mp, tid, type) do { \
if (atomic_cmpset_int(&(mp)->mtx_lock, (tid), MTX_UNOWNED) == 0) \
mtx_exit_hard((mp), (type) & MTX_HARDOPTS); \
} while (0)
/*
* Release a sleep lock when its likely we recursed (the code to
* deal with simple recursion is inline).
*/
#define _exitlock(mp, tid, type) do { \
if (atomic_cmpset_int(&(mp)->mtx_lock, (tid), MTX_UNOWNED) == 0) { \
if ((mp)->mtx_lock & MTX_RECURSE) { \
if (--((mp)->mtx_recurse) == 0) \
atomic_clear_int(&(mp)->mtx_lock, \
MTX_RECURSE); \
} else { \
mtx_exit_hard((mp), (type) & MTX_HARDOPTS); \
} \
} \
} while (0)
/* Release a spin lock (with possible recursion). */
#define _exitlock_spin(mp, inten1, inten2) do { \
if ((mp)->mtx_recurse == 0) { \
atomic_cmpset_int(&(mp)->mtx_lock, (mp)->mtx_lock, \
MTX_UNOWNED); \
write_eflags((mp)->mtx_savefl); \
} else { \
(mp)->mtx_recurse--; \
} \
} while (0)
#endif /* I386_CPU */
/*
* Externally visible mutex functions.
*------------------------------------------------------------------------------
*/
/*
* Return non-zero if a mutex is already owned by the current thread.
*/
#define mtx_owned(m) (((m)->mtx_lock & MTX_FLAGMASK) == CURTHD)
/* Common strings */
#ifdef MTX_STRS
#ifdef KTR_EXTEND
/*
* KTR_EXTEND saves file name and line for all entries, so we don't need them
* here. Theoretically we should also change the entries which refer to them
* (from CTR5 to CTR3), but since they're just passed to snprintf as the last
* parameters, it doesn't do any harm to leave them.
*/
char STR_mtx_enter_fmt[] = "GOT %s [%x] r=%d";
char STR_mtx_exit_fmt[] = "REL %s [%x] r=%d";
char STR_mtx_try_enter_fmt[] = "TRY_ENTER %s [%x] result=%d";
#else
char STR_mtx_enter_fmt[] = "GOT %s [%x] at %s:%d r=%d";
char STR_mtx_exit_fmt[] = "REL %s [%x] at %s:%d r=%d";
char STR_mtx_try_enter_fmt[] = "TRY_ENTER %s [%x] at %s:%d result=%d";
#endif
char STR_mtx_bad_type[] = "((type) & (MTX_NORECURSE | MTX_NOSWITCH)) == 0";
char STR_mtx_owned[] = "mtx_owned(mpp)";
char STR_mtx_recurse[] = "mpp->mtx_recurse == 0";
#else /* MTX_STRS */
extern char STR_mtx_enter_fmt[];
extern char STR_mtx_bad_type[];
extern char STR_mtx_exit_fmt[];
extern char STR_mtx_owned[];
extern char STR_mtx_recurse[];
extern char STR_mtx_try_enter_fmt[];
#endif /* MTX_STRS */
#ifndef KLD_MODULE
/*
* Get lock 'm', the macro handles the easy (and most common cases) and leaves
* the slow stuff to the mtx_enter_hard() function.
*
* Note: since type is usually a constant much of this code is optimized out.
*/
_MTX_INLINE void
_mtx_enter(struct mtx *mtxp, int type, const char *file, int line)
{
struct mtx *mpp = mtxp;
/* bits only valid on mtx_exit() */
MPASS2(((type) & (MTX_NORECURSE | MTX_NOSWITCH)) == 0,
STR_mtx_bad_type);
if ((type) & MTX_SPIN) {
/*
* Easy cases of spin locks:
*
* 1) We already own the lock and will simply recurse on it (if
* RLIKELY)
*
* 2) The lock is free, we just get it
*/
if ((type) & MTX_RLIKELY) {
/*
* Check for recursion, if we already have this
* lock we just bump the recursion count.
*/
if (mpp->mtx_lock == CURTHD) {
mpp->mtx_recurse++;
goto done;
}
}
if (((type) & MTX_TOPHALF) == 0) {
/*
* If an interrupt thread uses this we must block
* interrupts here.
*/
if ((type) & MTX_FIRST) {
ASS_IEN;
disable_intr();
_getlock_norecurse(mpp, CURTHD,
(type) & MTX_HARDOPTS);
} else {
_getlock_spin_block(mpp, CURTHD,
(type) & MTX_HARDOPTS);
}
} else
_getlock_norecurse(mpp, CURTHD, (type) & MTX_HARDOPTS);
} else {
/* Sleep locks */
if ((type) & MTX_RLIKELY)
_getlock_sleep(mpp, CURTHD, (type) & MTX_HARDOPTS);
else
_getlock_norecurse(mpp, CURTHD, (type) & MTX_HARDOPTS);
}
done:
WITNESS_ENTER(mpp, type, file, line);
CTR5(KTR_LOCK, STR_mtx_enter_fmt,
mpp->mtx_description, mpp, file, line,
mpp->mtx_recurse);
}
/*
* Attempt to get MTX_DEF lock, return non-zero if lock acquired.
*
* XXX DOES NOT HANDLE RECURSION
*/
_MTX_INLINE int
_mtx_try_enter(struct mtx *mtxp, int type, const char *file, int line)
{
struct mtx *const mpp = mtxp;
int rval;
rval = atomic_cmpset_int(&mpp->mtx_lock, MTX_UNOWNED, CURTHD);
#ifdef SMP_DEBUG
if (rval && mpp->mtx_witness != NULL) {
ASS(mpp->mtx_recurse == 0);
witness_try_enter(mpp, type, file, line);
}
#endif
CTR5(KTR_LOCK, STR_mtx_try_enter_fmt,
mpp->mtx_description, mpp, file, line, rval);
return rval;
}
#define mtx_legal2block() (read_eflags() & 0x200)
/*
* Release lock m.
*/
_MTX_INLINE void
_mtx_exit(struct mtx *mtxp, int type, const char *file, int line)
{
struct mtx *const mpp = mtxp;
MPASS2(mtx_owned(mpp), STR_mtx_owned);
WITNESS_EXIT(mpp, type, file, line);
CTR5(KTR_LOCK, STR_mtx_exit_fmt,
mpp->mtx_description, mpp, file, line,
mpp->mtx_recurse);
if ((type) & MTX_SPIN) {
if ((type) & MTX_NORECURSE) {
MPASS2(mpp->mtx_recurse == 0, STR_mtx_recurse);
atomic_cmpset_int(&mpp->mtx_lock, mpp->mtx_lock,
MTX_UNOWNED);
if (((type) & MTX_TOPHALF) == 0) {
if ((type) & MTX_FIRST) {
ASS_IDIS;
enable_intr();
} else
write_eflags(mpp->mtx_savefl);
}
} else {
if ((type) & MTX_TOPHALF)
_exitlock_spin(mpp,,);
else {
if ((type) & MTX_FIRST) {
ASS_IDIS;
_exitlock_spin(mpp,, "sti");
} else {
_exitlock_spin(mpp,
"pushl %3", "popfl");
}
}
}
} else {
/* Handle sleep locks */
if ((type) & MTX_RLIKELY)
_exitlock(mpp, CURTHD, (type) & MTX_HARDOPTS);
else {
_exitlock_norecurse(mpp, CURTHD,
(type) & MTX_HARDOPTS);
}
}
}
#endif /* KLD_MODULE */
#endif /* _KERNEL */
#else /* !LOCORE */
/*
* Simple assembly macros to get and release non-recursive spin locks
*/
#if defined(I386_CPU)
#define MTX_EXIT(lck, reg) \
pushl lck+MTX_SAVEFL; \
movl $ MTX_UNOWNED,lck+MTX_LOCK; \
popf
#else /* I386_CPU */
#define MTX_ENTER(reg, lck) \
pushf \
cli \
9: movl $ MTX_UNOWNED,%eax; \
MPLOCKED \
cmpxchgl reg,lck+MTX_LOCK; \
jnz 9b; \
popl lck+MTX_SAVEFL;
/* Must use locked bus op (cmpxchg) when setting to unowned (barrier) */
#define MTX_EXIT(lck,reg) \
pushl lck+MTX_SAVEFL; \
movl lck+MTX_LOCK,%eax; \
movl $ MTX_UNOWNED,reg; \
MPLOCKED \
cmpxchgl reg,lck+MTX_LOCK; \
popf
#define MTX_ENTER_WITH_RECURSION(reg, lck) \
pushf \
cli \
movl lck+MTX_LOCK,%eax; \
cmpl _curproc,%eax; \
jne 9f; \
incw lck+MTX_RECURS; \
jmp 8f; \
9: movl $ MTX_UNOWNED,%eax; \
MPLOCKED \
cmpxchgl reg,lck+MTX_LOCK; \
jnz 9b; \
popl lck+MTX_SAVEFL; \
jmp 10f; \
8: add $4,%esp; \
10:
#define MTX_EXIT_WITH_RECURSION(lck,reg) \
movl lck+MTX_RECURSE,%eax; \
decl %eax; \
js 9f; \
movl %eax,lck+MTX_RECURSE; \
jmp 8f; \
pushl lck+MTX_SAVEFL; \
9: movl lck+MTX_LOCK,%eax; \
movl $ MTX_UNOWNED,reg; \
MPLOCKED \
cmpxchgl reg,lck+MTX_LOCK; \
popf \
8:
#endif /* I386_CPU */
#endif /* !LOCORE */
#endif /* __MACHINE_MUTEX_H */
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