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#ifndef THR_RWLOCK_INCLUDED #define THR_RWLOCK_INCLUDED /* Copyright (c) 2014, 2016, Oracle and/or its affiliates. All rights reserved. This program is free software; you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation; version 2 of the License. This program is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. You should have received a copy of the GNU General Public License along with this program; if not, write to the Free Software Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA */ /** MySQL rwlock implementation. There are two "layers": 1) native_rw_*() Functions that map directly down to OS primitives. Windows - SRWLock Other OSes - pthread 2) mysql_rw*() Functions that include Performance Schema instrumentation. See include/mysql/psi/mysql_thread.h This file also includes rw_pr_*(), which implements a special version of rwlocks that prefer readers. The P_S version of these are mysql_prlock_*() - see include/mysql/psi/mysql_thread.h */ #include "my_global.h" #include "my_thread.h" #include "thr_cond.h" C_MODE_START #ifdef _WIN32 typedef struct st_my_rw_lock_t { SRWLOCK srwlock; /* native reader writer lock */ BOOL have_exclusive_srwlock; /* used for unlock */ } native_rw_lock_t; #else typedef pthread_rwlock_t native_rw_lock_t; #endif static inline int native_rw_init(native_rw_lock_t *rwp) { #ifdef _WIN32 InitializeSRWLock(&rwp->srwlock); rwp->have_exclusive_srwlock = FALSE; return 0; #else /* pthread_rwlockattr_t is not used in MySQL */ return pthread_rwlock_init(rwp, NULL); #endif } static inline int native_rw_destroy(native_rw_lock_t *rwp) { #ifdef _WIN32 return 0; /* no destroy function */ #else return pthread_rwlock_destroy(rwp); #endif } static inline int native_rw_rdlock(native_rw_lock_t *rwp) { #ifdef _WIN32 AcquireSRWLockShared(&rwp->srwlock); return 0; #else return pthread_rwlock_rdlock(rwp); #endif } static inline int native_rw_tryrdlock(native_rw_lock_t *rwp) { #ifdef _WIN32 if (!TryAcquireSRWLockShared(&rwp->srwlock)) return EBUSY; return 0; #else return pthread_rwlock_tryrdlock(rwp); #endif } static inline int native_rw_wrlock(native_rw_lock_t *rwp) { #ifdef _WIN32 AcquireSRWLockExclusive(&rwp->srwlock); rwp->have_exclusive_srwlock= TRUE; return 0; #else return pthread_rwlock_wrlock(rwp); #endif } static inline int native_rw_trywrlock(native_rw_lock_t *rwp) { #ifdef _WIN32 if (!TryAcquireSRWLockExclusive(&rwp->srwlock)) return EBUSY; rwp->have_exclusive_srwlock= TRUE; return 0; #else return pthread_rwlock_trywrlock(rwp); #endif } static inline int native_rw_unlock(native_rw_lock_t *rwp) { #ifdef _WIN32 if (rwp->have_exclusive_srwlock) { rwp->have_exclusive_srwlock= FALSE; ReleaseSRWLockExclusive(&rwp->srwlock); } else ReleaseSRWLockShared(&rwp->srwlock); return 0; #else return pthread_rwlock_unlock(rwp); #endif } /** Portable implementation of special type of read-write locks. These locks have two properties which are unusual for rwlocks: 1) They "prefer readers" in the sense that they do not allow situations in which rwlock is rd-locked and there is a pending rd-lock which is blocked (e.g. due to pending request for wr-lock). This is a stronger guarantee than one which is provided for PTHREAD_RWLOCK_PREFER_READER_NP rwlocks in Linux. MDL subsystem deadlock detector relies on this property for its correctness. 2) They are optimized for uncontended wr-lock/unlock case. This is scenario in which they are most oftenly used within MDL subsystem. Optimizing for it gives significant performance improvements in some of tests involving many connections. Another important requirement imposed on this type of rwlock by the MDL subsystem is that it should be OK to destroy rwlock object which is in unlocked state even though some threads might have not yet fully left unlock operation for it (of course there is an external guarantee that no thread will try to lock rwlock which is destroyed). Putting it another way the unlock operation should not access rwlock data after changing its state to unlocked. TODO/FIXME: We should consider alleviating this requirement as it blocks us from doing certain performance optimizations. */ typedef struct st_rw_pr_lock_t { /** Lock which protects the structure. Also held for the duration of wr-lock. */ native_mutex_t lock; /** Condition variable which is used to wake-up writers waiting for readers to go away. */ native_cond_t no_active_readers; /** Number of active readers. */ uint active_readers; /** Number of writers waiting for readers to go away. */ uint writers_waiting_readers; /** Indicates whether there is an active writer. */ my_bool active_writer; #ifdef SAFE_MUTEX /** Thread holding wr-lock (for debug purposes only). */ my_thread_t writer_thread; #endif } rw_pr_lock_t; extern int rw_pr_init(rw_pr_lock_t *); extern int rw_pr_rdlock(rw_pr_lock_t *); extern int rw_pr_wrlock(rw_pr_lock_t *); extern int rw_pr_unlock(rw_pr_lock_t *); extern int rw_pr_destroy(rw_pr_lock_t *); static inline void rw_pr_lock_assert_write_owner(const rw_pr_lock_t *rwlock MY_ATTRIBUTE((unused))) { #ifdef SAFE_MUTEX DBUG_ASSERT(rwlock->active_writer && my_thread_equal(my_thread_self(), rwlock->writer_thread)); #endif } static inline void rw_pr_lock_assert_not_write_owner(const rw_pr_lock_t *rwlock MY_ATTRIBUTE((unused))) { #ifdef SAFE_MUTEX DBUG_ASSERT(!rwlock->active_writer || !my_thread_equal(my_thread_self(), rwlock->writer_thread)); #endif } C_MODE_END #endif /* THR_RWLOCK_INCLUDED */