/*
* %CopyrightBegin%
*
* Copyright Ericsson AB 2010-2011. All Rights Reserved.
*
* The contents of this file are subject to the Erlang Public License,
* Version 1.1, (the "License"); you may not use this file except in
* compliance with the License. You should have received a copy of the
* Erlang Public License along with this software. If not, it can be
* retrieved online at http://www.erlang.org/.
*
* Software distributed under the License is distributed on an "AS IS"
* basis, WITHOUT WARRANTY OF ANY KIND, either express or implied. See
* the License for the specific language governing rights and limitations
* under the License.
*
* %CopyrightEnd%
*/
/*
* Description: Mutex, rwmutex and condition variable implementation
* Author: Rickard Green
*/
/*
* IMPORTANT note about ethr_cond_signal() and ethr_cond_broadcast()
*
* POSIX allow a call to `pthread_cond_signal' or `pthread_cond_broadcast'
* even though the associated mutex/mutexes isn't/aren't locked by the
* caller. We do not allow that by default in order to avoid a performance
* penalty on some platforms.
*
* Mutexes and condition variables can, however, be initialized as POSIX
* compliant. When initialized as such ethr_cond_signal(), and
* ethr_cond_broadcast() are allowed to be called even though the associated
* mutexes aren't locked. This will, however, incur a performance penalty on
* some platforms.
*
* POSIX compliant mutexes and condition variables *need* to be used together.
*/
#ifndef ETHR_MUTEX_H__
#define ETHR_MUTEX_H__
#define ETHR_RWMUTEX_INITIALIZED 0x99999999
#define ETHR_MUTEX_INITIALIZED 0x77777777
#define ETHR_COND_INITIALIZED 0x55555555
#if 0
# define ETHR_MTX_HARD_DEBUG
#endif
#if 0
# define ETHR_MTX_CHK_EXCL
#if 1
# define ETHR_MTX_CHK_NON_EXCL
#endif
#endif
/* #define ETHR_DBG_WIN_MTX_WITH_PTHREADS */
#ifdef ETHR_DBG_WIN_MTX_WITH_PTHREADS
typedef pthread_mutex_t CRITICAL_SECTION;
int TryEnterCriticalSection(CRITICAL_SECTION *);
void EnterCriticalSection(CRITICAL_SECTION *);
void LeaveCriticalSection(CRITICAL_SECTION *);
#endif
#ifdef ETHR_MTX_HARD_DEBUG
# ifdef __GNUC__
# warning ETHR_MTX_HARD_DEBUG
# endif
/*# define ETHR_MTX_HARD_DEBUG_LFS*/
/*# define ETHR_MTX_HARD_DEBUG_FENCE*/
/*# define ETHR_MTX_HARD_DEBUG_Q*/
# define ETHR_MTX_HARD_DEBUG_WSQ
# if !defined(ETHR_MTX_HARD_DEBUG_WSQ) && defined(ETHR_MTX_HARD_DEBUG_Q)
# define ETHR_MTX_HARD_DEBUG_WSQ
# endif
#endif
#ifndef ETHR_INLINE_MTX_FUNC_NAME_
# define ETHR_INLINE_MTX_FUNC_NAME_(X) X
#endif
#if defined(ETHR_USE_OWN_RWMTX_IMPL__) || defined(ETHR_USE_OWN_MTX_IMPL__)
#ifdef ETHR_DEBUG
# ifndef ETHR_MTX_CHK_EXCL
# define ETHR_MTX_CHK_EXCL
# endif
# ifndef ETHR_MTX_CHK_NON_EXCL
# define ETHR_MTX_CHK_NON_EXCL
# endif
#endif
#if 0
# define ETHR_MTX_Q_LOCK_SPINLOCK__
# define ETHR_MTX_QLOCK_TYPE__ ethr_spinlock_t
#elif defined(ETHR_PTHREADS) || defined(ETHR_OSE_THREADS)
# define ETHR_MTX_Q_LOCK_PTHREAD_MUTEX__
# define ETHR_MTX_QLOCK_TYPE__ pthread_mutex_t
#elif defined(ETHR_WIN32_THREADS)
# define ETHR_MTX_Q_LOCK_CRITICAL_SECTION__
# define ETHR_MTX_QLOCK_TYPE__ CRITICAL_SECTION
#else
# error Need a qlock implementation
#endif
#define ETHR_RWMTX_W_FLG__ (((ethr_sint32_t) 1) << 31)
#define ETHR_RWMTX_W_WAIT_FLG__ (((ethr_sint32_t) 1) << 30)
#define ETHR_RWMTX_R_WAIT_FLG__ (((ethr_sint32_t) 1) << 29)
/* frequent read kind */
#define ETHR_RWMTX_R_FLG__ (((ethr_sint32_t) 1) << 28)
#define ETHR_RWMTX_R_ABRT_UNLCK_FLG__ (((ethr_sint32_t) 1) << 27)
#define ETHR_RWMTX_R_PEND_UNLCK_MASK__ (ETHR_RWMTX_R_ABRT_UNLCK_FLG__ - 1)
/* normal kind */
#define ETHR_RWMTX_RS_MASK__ (ETHR_RWMTX_R_WAIT_FLG__ - 1)
#define ETHR_RWMTX_WAIT_FLGS__ \
(ETHR_RWMTX_W_WAIT_FLG__|ETHR_RWMTX_R_WAIT_FLG__)
#define ETHR_CND_WAIT_FLG__ ETHR_RWMTX_R_WAIT_FLG__
#ifdef ETHR_DEBUG
#define ETHR_DBG_CHK_UNUSED_FLG_BITS(V) \
ETHR_ASSERT(!((V) & ~(ETHR_RWMTX_W_FLG__ \
| ETHR_RWMTX_W_WAIT_FLG__ \
| ETHR_RWMTX_R_WAIT_FLG__ \
| ETHR_RWMTX_RS_MASK__)))
#else
#define ETHR_DBG_CHK_UNUSED_FLG_BITS(V)
#endif
#define ETHR_MTX_DBG_CHK_UNUSED_FLG_BITS(MTX) \
ETHR_DBG_CHK_UNUSED_FLG_BITS(ethr_atomic32_read(&(MTX)->mtxb.flgs))
struct ethr_mutex_base_ {
#ifdef ETHR_MTX_HARD_DEBUG_FENCE
long pre_fence;
#endif
ethr_atomic32_t flgs;
short aux_scnt;
short main_scnt;
ETHR_MTX_QLOCK_TYPE__ qlck;
ethr_ts_event *q;
#ifdef ETHR_MTX_HARD_DEBUG_WSQ
int ws;
#endif
#ifdef ETHR_MTX_CHK_EXCL
ethr_atomic32_t exclusive;
#endif
#ifdef ETHR_MTX_CHK_NON_EXCL
ethr_atomic32_t non_exclusive;
#endif
#ifdef ETHR_MTX_HARD_DEBUG_LFS
ethr_atomic32_t hdbg_lfs;
#endif
};
#endif
typedef struct {
int main_spincount;
int aux_spincount;
int posix_compliant;
} ethr_mutex_opt;
#define ETHR_MUTEX_OPT_DEFAULT_INITER {-1, -1, 0}
typedef struct {
int main_spincount;
int aux_spincount;
int posix_compliant;
} ethr_cond_opt;
#define ETHR_COND_OPT_DEFAULT_INITER {-1, -1, 0}
#ifdef ETHR_USE_OWN_MTX_IMPL__
typedef struct ethr_mutex_ ethr_mutex;
struct ethr_mutex_ {
struct ethr_mutex_base_ mtxb;
#ifdef ETHR_MTX_HARD_DEBUG_FENCE
long post_fence;
#endif
#if ETHR_XCHK
int initialized;
#endif
};
typedef struct ethr_cond_ ethr_cond;
struct ethr_cond_ {
#ifdef ETHR_MTX_HARD_DEBUG_FENCE
struct {
long pre_fence;
} mtxb; /* mtxb allows us to use same macro as for mutex and rwmutex... */
#endif
ETHR_MTX_QLOCK_TYPE__ qlck;
ethr_ts_event *q;
short aux_scnt;
short main_scnt;
#ifdef ETHR_MTX_HARD_DEBUG_FENCE
long post_fence;
#endif
#if ETHR_XCHK
int initialized;
#endif
};
#elif (defined(ETHR_PTHREADS) || defined(ETHR_OSE_THREADS)) && !defined(ETHR_DBG_WIN_MTX_WITH_PTHREADS)
typedef struct ethr_mutex_ ethr_mutex;
struct ethr_mutex_ {
pthread_mutex_t pt_mtx;
#if ETHR_XCHK
int initialized;
#endif
};
typedef struct ethr_cond_ ethr_cond;
struct ethr_cond_ {
pthread_cond_t pt_cnd;
#if ETHR_XCHK
int initialized;
#endif
};
#elif defined(ETHR_WIN32_THREADS) || defined(ETHR_DBG_WIN_MTX_WITH_PTHREADS)
# define ETHR_WIN_MUTEX__
typedef struct ethr_mutex_ ethr_mutex;
struct ethr_mutex_ {
int posix_compliant;
CRITICAL_SECTION cs;
ethr_ts_event *wakeups;
ethr_atomic32_t have_wakeups; /* only when posix compliant */
ethr_atomic32_t locked; /* only when posix compliant */
ethr_spinlock_t lock; /* only when posix compliant */
#if ETHR_XCHK
int initialized;
#endif
};
typedef struct ethr_cond_ ethr_cond;
struct ethr_cond_ {
int posix_compliant;
CRITICAL_SECTION cs;
ethr_ts_event *waiters;
int spincount;
#if ETHR_XCHK
int initialized;
#endif
};
#else
# error "no mutex implementation"
#endif
int ethr_mutex_init_opt(ethr_mutex *, ethr_mutex_opt *);
int ethr_mutex_init(ethr_mutex *);
int ethr_mutex_destroy(ethr_mutex *);
#if !defined(ETHR_TRY_INLINE_FUNCS) || defined(ETHR_MUTEX_IMPL__)
int ethr_mutex_trylock(ethr_mutex *);
void ethr_mutex_lock(ethr_mutex *);
void ethr_mutex_unlock(ethr_mutex *);
#endif
int ethr_cond_init_opt(ethr_cond *, ethr_cond_opt *);
int ethr_cond_init(ethr_cond *);
int ethr_cond_destroy(ethr_cond *);
void ethr_cond_signal(ethr_cond *);
void ethr_cond_broadcast(ethr_cond *);
int ethr_cond_wait(ethr_cond *, ethr_mutex *);
typedef enum {
ETHR_RWMUTEX_TYPE_NORMAL,
ETHR_RWMUTEX_TYPE_FREQUENT_READ,
ETHR_RWMUTEX_TYPE_EXTREMELY_FREQUENT_READ
} ethr_rwmutex_type;
typedef enum {
ETHR_RWMUTEX_LONG_LIVED,
ETHR_RWMUTEX_SHORT_LIVED,
ETHR_RWMUTEX_UNKNOWN_LIVED
} ethr_rwmutex_lived;
typedef struct {
ethr_rwmutex_type type;
ethr_rwmutex_lived lived;
int main_spincount;
int aux_spincount;
} ethr_rwmutex_opt;
#define ETHR_RWMUTEX_OPT_DEFAULT_INITER \
{ETHR_RWMUTEX_TYPE_NORMAL, ETHR_RWMUTEX_UNKNOWN_LIVED, -1, -1}
#ifdef ETHR_USE_OWN_RWMTX_IMPL__
typedef union {
struct {
ethr_atomic32_t readers;
int waiting_readers;
int byte_offset;
ethr_rwmutex_lived lived;
} data;
char align__[ETHR_CACHE_LINE_SIZE];
} ethr_rwmtx_readers_array__;
typedef struct ethr_rwmutex_ ethr_rwmutex;
struct ethr_rwmutex_ {
struct ethr_mutex_base_ mtxb;
ethr_rwmutex_type type;
ethr_ts_event *rq_end;
union {
ethr_rwmtx_readers_array__ *ra;
int rs;
} tdata;
#ifdef ETHR_MTX_HARD_DEBUG_FENCE
long post_fence;
#endif
#if ETHR_XCHK
int initialized;
#endif
};
#else /* pthread_rwlock */
typedef struct ethr_rwmutex_ ethr_rwmutex;
struct ethr_rwmutex_ {
pthread_rwlock_t pt_rwlock;
#if ETHR_XCHK
int initialized;
#endif
};
#endif /* pthread_rwlock */
int ethr_rwmutex_set_reader_group(int);
int ethr_rwmutex_init_opt(ethr_rwmutex *, ethr_rwmutex_opt *);
int ethr_rwmutex_init(ethr_rwmutex *);
int ethr_rwmutex_destroy(ethr_rwmutex *);
#if defined(ETHR_USE_OWN_RWMTX_IMPL__) \
|| !defined(ETHR_TRY_INLINE_FUNCS) \
|| defined(ETHR_MUTEX_IMPL__)
int ethr_rwmutex_tryrlock(ethr_rwmutex *);
void ethr_rwmutex_rlock(ethr_rwmutex *);
void ethr_rwmutex_runlock(ethr_rwmutex *);
int ethr_rwmutex_tryrwlock(ethr_rwmutex *);
void ethr_rwmutex_rwlock(ethr_rwmutex *);
void ethr_rwmutex_rwunlock(ethr_rwmutex *);
#endif
#ifdef ETHR_MTX_HARD_DEBUG
#define ETHR_MTX_HARD_ASSERT(A) \
((void) ((A) ? 1 : ethr_assert_failed(__FILE__, __LINE__, #A)))
#else
#define ETHR_MTX_HARD_ASSERT(A) ((void) 1)
#endif
#ifdef ETHR_MTX_HARD_DEBUG_LFS
# define ETHR_MTX_HARD_DEBUG_LFS_INIT(MTXB) \
do { \
ethr_atomic32_init(&(MTXB)->hdbg_lfs, 0); \
} while (0)
# define ETHR_MTX_HARD_DEBUG_LFS_RLOCK(MTXB) \
do { \
ethr_sint32_t val__; \
ETHR_COMPILER_BARRIER; \
val__ = ethr_atomic32_inc_read(&(MTXB)->hdbg_lfs); \
ETHR_MTX_HARD_ASSERT(val__ > 0); \
} while (0)
# define ETHR_MTX_HARD_DEBUG_LFS_TRYRLOCK(MTXB, RES) \
do { \
ETHR_COMPILER_BARRIER; \
if ((RES) == 0) \
ETHR_MTX_HARD_DEBUG_LFS_RLOCK((MTXB)); \
else \
ETHR_MTX_HARD_ASSERT((RES) == EBUSY); \
} while (0)
# define ETHR_MTX_HARD_DEBUG_LFS_RUNLOCK(MTXB) \
do { \
ethr_sint32_t val__ = ethr_atomic32_dec_read(&(MTXB)->hdbg_lfs); \
ETHR_MTX_HARD_ASSERT(val__ >= 0); \
ETHR_COMPILER_BARRIER; \
} while (0)
# define ETHR_MTX_HARD_DEBUG_LFS_RWLOCK(MTXB) \
do { \
ethr_sint32_t val__; \
ETHR_COMPILER_BARRIER; \
val__ = ethr_atomic32_dec_read(&(MTXB)->hdbg_lfs); \
ETHR_MTX_HARD_ASSERT(val__ == -1); \
} while (0)
# define ETHR_MTX_HARD_DEBUG_LFS_TRYRWLOCK(MTXB, RES) \
do { \
ETHR_COMPILER_BARRIER; \
if ((RES) == 0) \
ETHR_MTX_HARD_DEBUG_LFS_RWLOCK((MTXB)); \
else \
ETHR_MTX_HARD_ASSERT((RES) == EBUSY); \
} while (0)
# define ETHR_MTX_HARD_DEBUG_LFS_RWUNLOCK(MTXB) \
do { \
ethr_sint32_t val__ = ethr_atomic32_inctest(&(MTXB)->hdbg_lfs); \
ETHR_MTX_HARD_ASSERT(val__ == 0); \
ETHR_COMPILER_BARRIER; \
} while (0)
#else
# define ETHR_MTX_HARD_DEBUG_LFS_INIT(MTXB)
# define ETHR_MTX_HARD_DEBUG_LFS_RLOCK(MTXB)
# define ETHR_MTX_HARD_DEBUG_LFS_TRYRLOCK(MTXB, RES)
# define ETHR_MTX_HARD_DEBUG_LFS_RUNLOCK(MTXB)
# define ETHR_MTX_HARD_DEBUG_LFS_RWLOCK(MTXB)
# define ETHR_MTX_HARD_DEBUG_LFS_TRYRWLOCK(MTXB, RES)
# define ETHR_MTX_HARD_DEBUG_LFS_RWUNLOCK(MTXB)
#endif
#ifdef ETHR_MTX_HARD_DEBUG_FENCE
#if ETHR_SIZEOF_PTR == 8
# define ETHR_MTX_HARD_DEBUG_PRE_FENCE 0xdeadbeefdeadbeefL
# define ETHR_MTX_HARD_DEBUG_POST_FENCE 0xdeaddeaddeaddeadL
#else
# define ETHR_MTX_HARD_DEBUG_PRE_FENCE 0xdeaddeadL
# define ETHR_MTX_HARD_DEBUG_POST_FENCE 0xdeaddeadL
#endif
#define ETHR_MTX_HARD_DEBUG_FENCE_CHK(X) \
do { \
ETHR_COMPILER_BARRIER; \
ETHR_MTX_HARD_ASSERT((X)->mtxb.pre_fence == ETHR_MTX_HARD_DEBUG_PRE_FENCE);\
ETHR_MTX_HARD_ASSERT((X)->post_fence == ETHR_MTX_HARD_DEBUG_POST_FENCE); \
ETHR_COMPILER_BARRIER; \
} while (0)
#define ETHR_MTX_HARD_DEBUG_FENCE_INIT(X) \
do { \
(X)->mtxb.pre_fence = ETHR_MTX_HARD_DEBUG_PRE_FENCE; \
(X)->post_fence = ETHR_MTX_HARD_DEBUG_POST_FENCE; \
} while (0)
#else
#define ETHR_MTX_HARD_DEBUG_FENCE_CHK(X)
#define ETHR_MTX_HARD_DEBUG_FENCE_INIT(X)
#endif
#ifdef ETHR_MTX_CHK_EXCL
#if !defined(ETHR_DEBUG) && defined(__GNUC__)
#warning "check exclusive is enabled"
#endif
# define ETHR_MTX_CHK_EXCL_INIT__(MTXB) \
ethr_atomic32_init(&(MTXB)->exclusive, 0)
# define ETHR_MTX_CHK_EXCL_IS_EXCL(MTXB) \
do { \
ETHR_COMPILER_BARRIER; \
if (!ethr_atomic32_read(&(MTXB)->exclusive)) \
ethr_assert_failed(__FILE__, __LINE__, __func__,\
"is exclusive"); \
ETHR_COMPILER_BARRIER; \
} while (0)
# define ETHR_MTX_CHK_EXCL_IS_NOT_EXCL(MTXB) \
do { \
ETHR_COMPILER_BARRIER; \
if (ethr_atomic32_read(&(MTXB)->exclusive)) \
ethr_assert_failed(__FILE__, __LINE__, __func__,\
"is not exclusive"); \
ETHR_COMPILER_BARRIER; \
} while (0)
# define ETHR_MTX_CHK_EXCL_SET_EXCL(MTXB) \
do { \
ETHR_MTX_CHK_EXCL_IS_NOT_EXCL((MTXB)); \
ethr_atomic32_set(&(MTXB)->exclusive, 1); \
ETHR_COMPILER_BARRIER; \
} while (0)
# define ETHR_MTX_CHK_EXCL_UNSET_EXCL(MTXB) \
do { \
ETHR_MTX_CHK_EXCL_IS_EXCL((MTXB)); \
ethr_atomic32_set(&(MTXB)->exclusive, 0); \
ETHR_COMPILER_BARRIER; \
} while (0)
#ifdef ETHR_MTX_CHK_NON_EXCL
#if !defined(ETHR_DEBUG) && defined(__GNUC__)
#warning "check non-exclusive is enabled"
#endif
# define ETHR_MTX_CHK_NON_EXCL_INIT__(MTXB) \
ethr_atomic32_init(&(MTXB)->non_exclusive, 0)
# define ETHR_MTX_CHK_EXCL_IS_NON_EXCL(MTXB) \
do { \
ETHR_COMPILER_BARRIER; \
if (!ethr_atomic32_read(&(MTXB)->non_exclusive)) \
ethr_assert_failed(__FILE__, __LINE__, __func__,\
"is non-exclusive"); \
ETHR_COMPILER_BARRIER; \
} while (0)
# define ETHR_MTX_CHK_EXCL_IS_NOT_NON_EXCL(MTXB) \
do { \
ETHR_COMPILER_BARRIER; \
if (ethr_atomic32_read(&(MTXB)->non_exclusive)) \
ethr_assert_failed(__FILE__, __LINE__, __func__,\
"is not non-exclusive"); \
ETHR_COMPILER_BARRIER; \
} while (0)
# define ETHR_MTX_CHK_EXCL_SET_NON_EXCL(MTXB) \
do { \
ETHR_COMPILER_BARRIER; \
ethr_atomic32_inc(&(MTXB)->non_exclusive); \
ETHR_COMPILER_BARRIER; \
} while (0)
# define ETHR_MTX_CHK_EXCL_SET_NON_EXCL_NO(MTXB, NO) \
do { \
ETHR_COMPILER_BARRIER; \
ethr_atomic32_add(&(MTXB)->non_exclusive, (NO)); \
ETHR_COMPILER_BARRIER; \
} while (0)
# define ETHR_MTX_CHK_EXCL_UNSET_NON_EXCL(MTXB) \
do { \
ETHR_COMPILER_BARRIER; \
ethr_atomic32_dec(&(MTXB)->non_exclusive); \
ETHR_COMPILER_BARRIER; \
} while (0)
#else
# define ETHR_MTX_CHK_NON_EXCL_INIT__(MTXB)
# define ETHR_MTX_CHK_EXCL_IS_NON_EXCL(MTXB)
# define ETHR_MTX_CHK_EXCL_IS_NOT_NON_EXCL(MTXB)
# define ETHR_MTX_CHK_EXCL_SET_NON_EXCL_NO(MTXB, NO)
# define ETHR_MTX_CHK_EXCL_SET_NON_EXCL(MTXB)
# define ETHR_MTX_CHK_EXCL_UNSET_NON_EXCL(MTXB)
#endif
#else
# define ETHR_MTX_CHK_EXCL_INIT__(MTXB)
# define ETHR_MTX_CHK_EXCL_IS_EXCL(MTXB)
# define ETHR_MTX_CHK_EXCL_IS_NOT_EXCL(MTXB)
# define ETHR_MTX_CHK_EXCL_SET_EXCL(MTXB)
# define ETHR_MTX_CHK_EXCL_UNSET_EXCL(MTXB)
# define ETHR_MTX_CHK_NON_EXCL_INIT__(MTXB)
# define ETHR_MTX_CHK_EXCL_IS_NON_EXCL(MTXB)
# define ETHR_MTX_CHK_EXCL_IS_NOT_NON_EXCL(MTXB)
# define ETHR_MTX_CHK_EXCL_SET_NON_EXCL_NO(MTXB, NO)
# define ETHR_MTX_CHK_EXCL_SET_NON_EXCL(MTXB)
# define ETHR_MTX_CHK_EXCL_UNSET_NON_EXCL(MTXB)
#endif
# define ETHR_MTX_CHK_EXCL_INIT(MTXB) \
do { \
ETHR_MTX_CHK_EXCL_INIT__((MTXB)); \
ETHR_MTX_CHK_NON_EXCL_INIT__((MTXB)); \
} while (0)
#ifdef ETHR_USE_OWN_MTX_IMPL__
#define ETHR_MTX_DEFAULT_MAIN_SPINCOUNT_MAX 2000
#define ETHR_MTX_DEFAULT_MAIN_SPINCOUNT_BASE 800
#define ETHR_MTX_DEFAULT_MAIN_SPINCOUNT_INC 50
#define ETHR_MTX_DEFAULT_AUX_SPINCOUNT 50
#define ETHR_CND_DEFAULT_MAIN_SPINCOUNT 0
#define ETHR_CND_DEFAULT_AUX_SPINCOUNT 0
#if defined(ETHR_TRY_INLINE_FUNCS) || defined(ETHR_MUTEX_IMPL__)
void ethr_mutex_lock_wait__(ethr_mutex *, ethr_sint32_t);
void ethr_mutex_unlock_wake__(ethr_mutex *, ethr_sint32_t);
static ETHR_INLINE int
ETHR_INLINE_MTX_FUNC_NAME_(ethr_mutex_trylock)(ethr_mutex *mtx)
{
ethr_sint32_t act;
int res;
ETHR_MTX_HARD_DEBUG_FENCE_CHK(mtx);
ETHR_MTX_DBG_CHK_UNUSED_FLG_BITS(mtx);
act = ethr_atomic32_cmpxchg_acqb(&mtx->mtxb.flgs, ETHR_RWMTX_W_FLG__, 0);
res = (act == 0) ? 0 : EBUSY;
#ifdef ETHR_MTX_CHK_EXCL
if (res == 0)
ETHR_MTX_CHK_EXCL_SET_EXCL(&mtx->mtxb);
#endif
ETHR_MTX_HARD_DEBUG_LFS_TRYRWLOCK(&mtx->mtxb, res);
ETHR_MTX_HARD_DEBUG_FENCE_CHK(mtx);
ETHR_MTX_DBG_CHK_UNUSED_FLG_BITS(mtx);
ETHR_COMPILER_BARRIER;
return res;
}
static ETHR_INLINE void
ETHR_INLINE_MTX_FUNC_NAME_(ethr_mutex_lock)(ethr_mutex *mtx)
{
ethr_sint32_t act;
ETHR_MTX_HARD_DEBUG_FENCE_CHK(mtx);
ETHR_MTX_DBG_CHK_UNUSED_FLG_BITS(mtx);
act = ethr_atomic32_cmpxchg_acqb(&mtx->mtxb.flgs, ETHR_RWMTX_W_FLG__, 0);
if (act != 0)
ethr_mutex_lock_wait__(mtx, act);
ETHR_MTX_CHK_EXCL_SET_EXCL(&mtx->mtxb);
ETHR_MTX_HARD_DEBUG_LFS_RWLOCK(&mtx->mtxb);
ETHR_MTX_HARD_DEBUG_FENCE_CHK(mtx);
ETHR_MTX_DBG_CHK_UNUSED_FLG_BITS(mtx);
ETHR_COMPILER_BARRIER;
}
static ETHR_INLINE void
ETHR_INLINE_MTX_FUNC_NAME_(ethr_mutex_unlock)(ethr_mutex *mtx)
{
ethr_sint32_t act;
ETHR_COMPILER_BARRIER;
ETHR_MTX_HARD_DEBUG_FENCE_CHK(mtx);
ETHR_MTX_HARD_DEBUG_LFS_RWUNLOCK(&mtx->mtxb);
ETHR_MTX_DBG_CHK_UNUSED_FLG_BITS(mtx);
ETHR_MTX_CHK_EXCL_UNSET_EXCL(&mtx->mtxb);
act = ethr_atomic32_cmpxchg_relb(&mtx->mtxb.flgs, 0, ETHR_RWMTX_W_FLG__);
if (act != ETHR_RWMTX_W_FLG__)
ethr_mutex_unlock_wake__(mtx, act);
ETHR_MTX_HARD_DEBUG_FENCE_CHK(mtx);
ETHR_MTX_DBG_CHK_UNUSED_FLG_BITS(mtx);
}
#endif /* ETHR_TRY_INLINE_FUNCS */
#elif (defined(ETHR_PTHREADS) || defined(ETHR_OSE_THREADS)) && !defined(ETHR_DBG_WIN_MTX_WITH_PTHREADS)
#if defined(ETHR_TRY_INLINE_FUNCS) || defined(ETHR_MUTEX_IMPL__)
static ETHR_INLINE int
ETHR_INLINE_MTX_FUNC_NAME_(ethr_mutex_trylock)(ethr_mutex *mtx)
{
int res;
res = pthread_mutex_trylock(&mtx->pt_mtx);
if (res != 0 && res != EBUSY)
ETHR_FATAL_ERROR__(res);
return res;
}
static ETHR_INLINE void
ETHR_INLINE_MTX_FUNC_NAME_(ethr_mutex_lock)(ethr_mutex *mtx)
{
int res = pthread_mutex_lock(&mtx->pt_mtx);
if (res != 0)
ETHR_FATAL_ERROR__(res);
}
static ETHR_INLINE void
ETHR_INLINE_MTX_FUNC_NAME_(ethr_mutex_unlock)(ethr_mutex *mtx)
{
int res = pthread_mutex_unlock(&mtx->pt_mtx);
if (res != 0)
ETHR_FATAL_ERROR__(res);
}
#endif /* ETHR_TRY_INLINE_FUNCS */
#elif defined(ETHR_WIN32_THREADS) || defined(ETHR_DBG_WIN_MTX_WITH_PTHREADS)
#if defined(ETHR_TRY_INLINE_FUNCS) || defined(ETHR_MUTEX_IMPL__)
static ETHR_INLINE int
ETHR_INLINE_MTX_FUNC_NAME_(ethr_mutex_trylock)(ethr_mutex *mtx)
{
if (!TryEnterCriticalSection(&mtx->cs))
return EBUSY;
if (mtx->posix_compliant)
ethr_atomic32_set(&mtx->locked, 1);
return 0;
}
static ETHR_INLINE void
ETHR_INLINE_MTX_FUNC_NAME_(ethr_mutex_lock)(ethr_mutex *mtx)
{
EnterCriticalSection(&mtx->cs);
if (mtx->posix_compliant)
ethr_atomic32_set(&mtx->locked, 1);
}
void ethr_mutex_cond_wakeup__(ethr_mutex *mtx);
static ETHR_INLINE void
ETHR_INLINE_MTX_FUNC_NAME_(ethr_mutex_unlock)(ethr_mutex *mtx)
{
if (mtx->posix_compliant) {
ethr_atomic32_set_mb(&mtx->locked, 0);
if (ethr_atomic32_read_acqb(&mtx->have_wakeups))
goto cond_wakeup;
else
goto leave_cs;
}
if (mtx->wakeups) {
cond_wakeup:
ethr_mutex_cond_wakeup__(mtx);
}
else {
leave_cs:
LeaveCriticalSection(&mtx->cs);
}
}
#endif /* ETHR_TRY_INLINE_FUNCS */
#endif
#ifdef ETHR_USE_OWN_RWMTX_IMPL__
#define ETHR_RWMTX_DEFAULT_MAIN_SPINCOUNT_MAX 2000
#define ETHR_RWMTX_DEFAULT_MAIN_SPINCOUNT_BASE 800
#define ETHR_RWMTX_DEFAULT_MAIN_SPINCOUNT_INC 50
#define ETHR_RWMTX_DEFAULT_AUX_SPINCOUNT 50
#else /* pthread_rwlock */
#if defined(ETHR_TRY_INLINE_FUNCS) || defined(ETHR_MUTEX_IMPL__)
static ETHR_INLINE int
ETHR_INLINE_MTX_FUNC_NAME_(ethr_rwmutex_tryrlock)(ethr_rwmutex *rwmtx)
{
int res = pthread_rwlock_tryrdlock(&rwmtx->pt_rwlock);
if (res != 0 && res != EBUSY)
ETHR_FATAL_ERROR__(res);
return res;
}
static ETHR_INLINE void
ETHR_INLINE_MTX_FUNC_NAME_(ethr_rwmutex_rlock)(ethr_rwmutex *rwmtx)
{
int res = pthread_rwlock_rdlock(&rwmtx->pt_rwlock);
if (res != 0)
ETHR_FATAL_ERROR__(res);
}
static ETHR_INLINE void
ETHR_INLINE_MTX_FUNC_NAME_(ethr_rwmutex_runlock)(ethr_rwmutex *rwmtx)
{
int res = pthread_rwlock_unlock(&rwmtx->pt_rwlock);
if (res != 0)
ETHR_FATAL_ERROR__(res);
}
static ETHR_INLINE int
ETHR_INLINE_MTX_FUNC_NAME_(ethr_rwmutex_tryrwlock)(ethr_rwmutex *rwmtx)
{
int res = pthread_rwlock_trywrlock(&rwmtx->pt_rwlock);
if (res != 0 && res != EBUSY)
ETHR_FATAL_ERROR__(res);
return res;
}
static ETHR_INLINE void
ETHR_INLINE_MTX_FUNC_NAME_(ethr_rwmutex_rwlock)(ethr_rwmutex *rwmtx)
{
int res = pthread_rwlock_wrlock(&rwmtx->pt_rwlock);
if (res != 0)
ETHR_FATAL_ERROR__(res);
}
static ETHR_INLINE void
ETHR_INLINE_MTX_FUNC_NAME_(ethr_rwmutex_rwunlock)(ethr_rwmutex *rwmtx)
{
int res = pthread_rwlock_unlock(&rwmtx->pt_rwlock);
if (res != 0)
ETHR_FATAL_ERROR__(res);
}
#endif /* ETHR_TRY_INLINE_FUNCS */
#endif /* pthread_rwlock */
int ethr_mutex_lib_init(int);
int ethr_mutex_lib_late_init(int, int);
#endif /* #ifndef ETHR_MUTEX_H__ */