/* Copyright (C) 2000 MySQL AB & MySQL Finland AB & TCX DataKonsult AB This library is free software; you can redistribute it and/or modify it under the terms of the GNU Library General Public License as published by the Free Software Foundation; either version 2 of the License, or (at your option) any later version. This library 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 Library General Public License for more details. You should have received a copy of the GNU Library General Public License along with this library; if not, write to the Free Software Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA */ /* Read and write locks for Posix threads. All tread must acquire all locks it needs through thr_multi_lock() to avoid dead-locks. A lock consists of a master lock (THR_LOCK), and lock instances (THR_LOCK_DATA). Any thread can have any number of lock instances (read and write:s) on any lock. All lock instances must be freed. Locks are prioritized according to: The current lock types are: TL_READ # Low priority read TL_READ_WITH_SHARED_LOCKS TL_READ_HIGH_PRIORITY # High priority read TL_READ_NO_INSERT # Read without concurrent inserts TL_WRITE_ALLOW_WRITE # Write lock that allows other writers TL_WRITE_ALLOW_READ # Write lock, but allow reading TL_WRITE_CONCURRENT_INSERT # Insert that can be mixed when selects TL_WRITE_DELAYED # Used by delayed insert # Allows lower locks to take over TL_WRITE_LOW_PRIORITY # Low priority write TL_WRITE # High priority write TL_WRITE_ONLY # High priority write # Abort all new lock request with an error Locks are prioritized according to: WRITE_ALLOW_WRITE, WRITE_ALLOW_READ, WRITE_CONCURRENT_INSERT, WRITE_DELAYED, WRITE_LOW_PRIORITY, READ, WRITE, READ_HIGH_PRIORITY and WRITE_ONLY Locks in the same privilege level are scheduled in first-in-first-out order. To allow concurrent read/writes locks, with 'WRITE_CONCURRENT_INSERT' one should put a pointer to the following functions in the lock structure: (If the pointer is zero (default), the function is not called) check_status: Before giving a lock of type TL_WRITE_CONCURRENT_INSERT, we check if this function exists and returns 0. If not, then the lock is upgraded to TL_WRITE_LOCK In MyISAM this is a simple check if the insert can be done at the end of the datafile. update_status: Before a write lock is released, this function is called. In MyISAM this functions updates the count and length of the datafile get_status: When one gets a lock this functions is called. In MyISAM this stores the number of rows and size of the datafile for concurrent reads. The lock algorithm allows one to have one TL_WRITE_ALLOW_READ, TL_WRITE_CONCURRENT_INSERT or one TL_WRITE_DELAYED lock at the same time as multiple read locks. */ #if !defined(MAIN) && !defined(DBUG_OFF) && !defined(EXTRA_DEBUG) #define DBUG_OFF #endif #include "mysys_priv.h" #ifdef THREAD #include "thr_lock.h" #include <m_string.h> #include <errno.h> my_bool thr_lock_inited=0; ulong locks_immediate = 0L, locks_waited = 0L; /* The following constants are only for debug output */ #define MAX_THREADS 100 #define MAX_LOCKS 100 static LIST *thread_list; /* List of threads in use */ ulong max_write_lock_count= ~(ulong) 0L; static inline pthread_cond_t *get_cond(void) { return &my_thread_var->suspend; } /* ** For the future (now the thread specific cond is alloced by my_pthread.c) */ my_bool init_thr_lock() { thr_lock_inited=1; return 0; } #ifdef EXTRA_DEBUG #define MAX_FOUND_ERRORS 10 /* Report 10 first errors */ static uint found_errors=0; static int check_lock(struct st_lock_list *list, const char* lock_type, const char *where, my_bool same_thread) { THR_LOCK_DATA *data,**prev; uint count=0; pthread_t first_thread; LINT_INIT(first_thread); prev= &list->data; if (list->data) { enum thr_lock_type last_lock_type=list->data->type; if (same_thread && list->data) first_thread=list->data->thread; for (data=list->data; data && count++ < MAX_LOCKS ; data=data->next) { if (data->type != last_lock_type) last_lock_type=TL_IGNORE; if (data->prev != prev) { fprintf(stderr, "Warning: prev link %d didn't point at previous lock at %s: %s\n", count, lock_type, where); return 1; } if (same_thread && ! pthread_equal(data->thread,first_thread) && last_lock_type != TL_WRITE_ALLOW_WRITE) { fprintf(stderr, "Warning: Found locks from different threads in %s: %s\n", lock_type,where); return 1; } prev= &data->next; } if (data) { fprintf(stderr,"Warning: found too many locks at %s: %s\n", lock_type,where); return 1; } } if (prev != list->last) { fprintf(stderr,"Warning: last didn't point at last lock at %s: %s\n", lock_type, where); return 1; } return 0; } static void check_locks(THR_LOCK *lock, const char *where, my_bool allow_no_locks) { uint old_found_errors=found_errors; if (found_errors < MAX_FOUND_ERRORS) { if (check_lock(&lock->write,"write",where,1) | check_lock(&lock->write_wait,"write_wait",where,0) | check_lock(&lock->read,"read",where,0) | check_lock(&lock->read_wait,"read_wait",where,0)) found_errors++; if (found_errors < MAX_FOUND_ERRORS) { uint count=0; THR_LOCK_DATA *data; for (data=lock->read.data ; data ; data=data->next) { if ((int) data->type == (int) TL_READ_NO_INSERT) count++; } if (count != lock->read_no_write_count) { found_errors++; fprintf(stderr, "Warning at '%s': Locks read_no_write_count was %u when it should have been %u\n", where, lock->read_no_write_count,count); } if (!lock->write.data) { if (!allow_no_locks && !lock->read.data && (lock->write_wait.data || lock->read_wait.data)) { found_errors++; fprintf(stderr, "Warning at '%s': No locks in use but locks are in wait queue\n", where); } if (!lock->write_wait.data) { if (!allow_no_locks && lock->read_wait.data) { found_errors++; fprintf(stderr, "Warning at '%s': No write locks and waiting read locks\n", where); } } else { if (!allow_no_locks && (((lock->write_wait.data->type == TL_WRITE_CONCURRENT_INSERT || lock->write_wait.data->type == TL_WRITE_ALLOW_WRITE) && !lock->read_no_write_count) || lock->write_wait.data->type == TL_WRITE_ALLOW_READ || (lock->write_wait.data->type == TL_WRITE_DELAYED && !lock->read.data))) { found_errors++; fprintf(stderr, "Warning at '%s': Write lock %d waiting while no exclusive read locks\n",where,(int) lock->write_wait.data->type); } } } else { /* Have write lock */ if (lock->write_wait.data) { if (!allow_no_locks && lock->write.data->type == TL_WRITE_ALLOW_WRITE && lock->write_wait.data->type == TL_WRITE_ALLOW_WRITE) { found_errors++; fprintf(stderr, "Warning at '%s': Found WRITE_ALLOW_WRITE lock waiting for WRITE_ALLOW_WRITE lock\n", where); } } if (lock->read.data) { if ((!pthread_equal(lock->write.data->thread, lock->read.data->thread) && lock->write.data->type > TL_WRITE_DELAYED && lock->write.data->type != TL_WRITE_ONLY) || ((lock->write.data->type == TL_WRITE_CONCURRENT_INSERT || lock->write.data->type == TL_WRITE_ALLOW_WRITE) && lock->read_no_write_count)) { found_errors++; fprintf(stderr, "Warning at '%s': Found lock of type %d that is write and read locked\n", where, lock->write.data->type); } } if (lock->read_wait.data) { if (!allow_no_locks && lock->write.data->type <= TL_WRITE_DELAYED && lock->read_wait.data->type <= TL_READ_HIGH_PRIORITY) { found_errors++; fprintf(stderr, "Warning at '%s': Found read lock of type %d waiting for write lock of type %d\n", where, (int) lock->read_wait.data->type, (int) lock->write.data->type); } } } } if (found_errors != old_found_errors) { DBUG_PRINT("error",("Found wrong lock")); } } } #else /* EXTRA_DEBUG */ #define check_locks(A,B,C) #endif /* Initialize a lock */ void thr_lock_init(THR_LOCK *lock) { DBUG_ENTER("thr_lock_init"); bzero((char*) lock,sizeof(*lock)); VOID(pthread_mutex_init(&lock->mutex,MY_MUTEX_INIT_FAST)); lock->read.last= &lock->read.data; lock->read_wait.last= &lock->read_wait.data; lock->write_wait.last= &lock->write_wait.data; lock->write.last= &lock->write.data; pthread_mutex_lock(&THR_LOCK_lock); /* Add to locks in use */ lock->list.data=(void*) lock; thread_list=list_add(thread_list,&lock->list); pthread_mutex_unlock(&THR_LOCK_lock); DBUG_VOID_RETURN; } void thr_lock_delete(THR_LOCK *lock) { DBUG_ENTER("thr_lock_delete"); VOID(pthread_mutex_destroy(&lock->mutex)); pthread_mutex_lock(&THR_LOCK_lock); thread_list=list_delete(thread_list,&lock->list); pthread_mutex_unlock(&THR_LOCK_lock); DBUG_VOID_RETURN; } /* Initialize a lock instance */ void thr_lock_data_init(THR_LOCK *lock,THR_LOCK_DATA *data, void *param) { data->lock=lock; data->type=TL_UNLOCK; data->thread=pthread_self(); data->thread_id=my_thread_id(); /* for debugging */ data->status_param=param; } static inline my_bool have_old_read_lock(THR_LOCK_DATA *data,pthread_t thread) { for ( ; data ; data=data->next) { if ((pthread_equal(data->thread,thread))) return 1; /* Already locked by thread */ } return 0; } static inline my_bool have_specific_lock(THR_LOCK_DATA *data, enum thr_lock_type type) { for ( ; data ; data=data->next) { if (data->type == type) return 1; } return 0; } static my_bool wait_for_lock(struct st_lock_list *wait, THR_LOCK_DATA *data, my_bool in_wait_list) { pthread_cond_t *cond=get_cond(); struct st_my_thread_var *thread_var=my_thread_var; int result; if (!in_wait_list) { (*wait->last)=data; /* Wait for lock */ data->prev= wait->last; wait->last= &data->next; } /* Set up control struct to allow others to abort locks */ pthread_mutex_lock(&thread_var->mutex); thread_var->current_mutex= &data->lock->mutex; thread_var->current_cond= cond; pthread_mutex_unlock(&thread_var->mutex); data->cond=cond; do { pthread_cond_wait(cond,&data->lock->mutex); } while (data->cond == cond && (!thread_var->abort || in_wait_list)); if (data->cond || data->type == TL_UNLOCK) { if (data->cond) /* aborted */ { if (((*data->prev)=data->next)) /* remove from wait-list */ data->next->prev= data->prev; else wait->last=data->prev; } data->type=TL_UNLOCK; /* No lock */ result=1; /* Didn't get lock */ check_locks(data->lock,"failed wait_for_lock",0); } else { result=0; statistic_increment(locks_waited, &THR_LOCK_lock); if (data->lock->get_status) (*data->lock->get_status)(data->status_param); check_locks(data->lock,"got wait_for_lock",0); } pthread_mutex_unlock(&data->lock->mutex); /* The following must be done after unlock of lock->mutex */ pthread_mutex_lock(&thread_var->mutex); thread_var->current_mutex= 0; thread_var->current_cond= 0; pthread_mutex_unlock(&thread_var->mutex); return result; } int thr_lock(THR_LOCK_DATA *data,enum thr_lock_type lock_type) { THR_LOCK *lock=data->lock; int result=0; DBUG_ENTER("thr_lock"); data->next=0; data->type=lock_type; data->thread=pthread_self(); /* Must be reset ! */ data->thread_id=my_thread_id(); /* Must be reset ! */ VOID(pthread_mutex_lock(&lock->mutex)); DBUG_PRINT("lock",("data: %lx thread: %ld lock: %lx type: %d", data,data->thread_id,lock,(int) lock_type)); check_locks(lock,(uint) lock_type <= (uint) TL_READ_NO_INSERT ? "enter read_lock" : "enter write_lock",0); if ((int) lock_type <= (int) TL_READ_NO_INSERT) { /* Request for READ lock */ if (lock->write.data) { /* We can allow a read lock even if there is already a write lock on the table in one the following cases: - This thread alread have a write lock on the table - The write lock is TL_WRITE_ALLOW_READ or TL_WRITE_DELAYED and the read lock is TL_READ_HIGH_PRIORITY or TL_READ - The write lock is TL_WRITE_CONCURRENT_INSERT or TL_WRITE_ALLOW_WRITE and the read lock is not TL_READ_NO_INSERT */ DBUG_PRINT("lock",("write locked by thread: %ld", lock->write.data->thread_id)); if (pthread_equal(data->thread,lock->write.data->thread) || (lock->write.data->type <= TL_WRITE_DELAYED && (((int) lock_type <= (int) TL_READ_HIGH_PRIORITY) || (lock->write.data->type != TL_WRITE_CONCURRENT_INSERT && lock->write.data->type != TL_WRITE_ALLOW_READ)))) { /* Already got a write lock */ (*lock->read.last)=data; /* Add to running FIFO */ data->prev=lock->read.last; lock->read.last= &data->next; if ((int) lock_type == (int) TL_READ_NO_INSERT) lock->read_no_write_count++; check_locks(lock,"read lock with old write lock",0); if (lock->get_status) (*lock->get_status)(data->status_param); statistic_increment(locks_immediate,&THR_LOCK_lock); goto end; } if (lock->write.data->type == TL_WRITE_ONLY) { /* We are not allowed to get a READ lock in this case */ data->type=TL_UNLOCK; result=1; /* Can't wait for this one */ goto end; } } else if (!lock->write_wait.data || lock->write_wait.data->type <= TL_WRITE_LOW_PRIORITY || lock_type == TL_READ_HIGH_PRIORITY || have_old_read_lock(lock->read.data,data->thread)) { /* No important write-locks */ (*lock->read.last)=data; /* Add to running FIFO */ data->prev=lock->read.last; lock->read.last= &data->next; if (lock->get_status) (*lock->get_status)(data->status_param); if ((int) lock_type == (int) TL_READ_NO_INSERT) lock->read_no_write_count++; check_locks(lock,"read lock with no write locks",0); statistic_increment(locks_immediate,&THR_LOCK_lock); goto end; } /* Can't get lock yet; Wait for it */ DBUG_RETURN(wait_for_lock(&lock->read_wait,data,0)); } else /* Request for WRITE lock */ { if (lock_type == TL_WRITE_DELAYED) { if (lock->write.data && lock->write.data->type == TL_WRITE_ONLY) { data->type=TL_UNLOCK; result=1; /* Can't wait for this one */ goto end; } /* if there is a TL_WRITE_ALLOW_READ lock, we have to wait for a lock (TL_WRITE_ALLOW_READ is used for ALTER TABLE in MySQL) */ if ((!lock->write.data || lock->write.data->type != TL_WRITE_ALLOW_READ) && !have_specific_lock(lock->write_wait.data,TL_WRITE_ALLOW_READ) && (lock->write.data || lock->read.data)) { /* Add delayed write lock to write_wait queue, and return at once */ (*lock->write_wait.last)=data; data->prev=lock->write_wait.last; lock->write_wait.last= &data->next; data->cond=get_cond(); if (lock->get_status) (*lock->get_status)(data->status_param); statistic_increment(locks_immediate,&THR_LOCK_lock); goto end; } } else if (lock_type == TL_WRITE_CONCURRENT_INSERT && ! lock->check_status) data->type=lock_type= TL_WRITE; /* not supported */ if (lock->write.data) /* If there is a write lock */ { if (lock->write.data->type == TL_WRITE_ONLY) { /* We are not allowed to get a lock in this case */ data->type=TL_UNLOCK; result=1; /* Can't wait for this one */ goto end; } /* The following test will not work if the old lock was a TL_WRITE_ALLOW_WRITE, TL_WRITE_ALLOW_READ or TL_WRITE_DELAYED in the same thread, but this will never happen within MySQL. */ if (pthread_equal(data->thread,lock->write.data->thread) || (lock_type == TL_WRITE_ALLOW_WRITE && !lock->write_wait.data && lock->write.data->type == TL_WRITE_ALLOW_WRITE)) { /* We have already got a write lock or all locks are TL_WRITE_ALLOW_WRITE */ (*lock->write.last)=data; /* Add to running fifo */ data->prev=lock->write.last; lock->write.last= &data->next; check_locks(lock,"second write lock",0); if (data->lock->get_status) (*data->lock->get_status)(data->status_param); statistic_increment(locks_immediate,&THR_LOCK_lock); goto end; } DBUG_PRINT("lock",("write locked by thread: %ld", lock->write.data->thread_id)); } else { if (!lock->write_wait.data) { /* no scheduled write locks */ if (lock_type == TL_WRITE_CONCURRENT_INSERT && (*lock->check_status)(data->status_param)) data->type=lock_type=TL_WRITE; /* Upgrade lock */ if (!lock->read.data || (lock_type <= TL_WRITE_DELAYED && ((lock_type != TL_WRITE_CONCURRENT_INSERT && lock_type != TL_WRITE_ALLOW_WRITE) || !lock->read_no_write_count))) { (*lock->write.last)=data; /* Add as current write lock */ data->prev=lock->write.last; lock->write.last= &data->next; if (data->lock->get_status) (*data->lock->get_status)(data->status_param); check_locks(lock,"only write lock",0); statistic_increment(locks_immediate,&THR_LOCK_lock); goto end; } } DBUG_PRINT("lock",("write locked by thread: %ld, type: %ld", lock->read.data->thread_id,data->type)); } DBUG_RETURN(wait_for_lock(&lock->write_wait,data,0)); } end: pthread_mutex_unlock(&lock->mutex); DBUG_RETURN(result); } static inline void free_all_read_locks(THR_LOCK *lock, bool using_concurrent_insert) { THR_LOCK_DATA *data=lock->read_wait.data; check_locks(lock,"before freeing read locks",1); /* move all locks from read_wait list to read list */ (*lock->read.last)=data; data->prev=lock->read.last; lock->read.last=lock->read_wait.last; /* Clear read_wait list */ lock->read_wait.last= &lock->read_wait.data; do { pthread_cond_t *cond=data->cond; if ((int) data->type == (int) TL_READ_NO_INSERT) { if (using_concurrent_insert) { /* We can't free this lock; Link lock away from read chain back into read_wait chain */ if (((*data->prev)=data->next)) data->next->prev=data->prev; else lock->read.last=data->prev; *lock->read_wait.last= data; data->prev= lock->read_wait.last; lock->read_wait.last= &data->next; continue; } lock->read_no_write_count++; } DBUG_PRINT("lock",("giving read lock to thread: %ld", data->thread_id)); data->cond=0; /* Mark thread free */ VOID(pthread_cond_signal(cond)); } while ((data=data->next)); *lock->read_wait.last=0; if (!lock->read_wait.data) lock->write_lock_count=0; check_locks(lock,"after giving read locks",0); } /* Unlock lock and free next thread on same lock */ void thr_unlock(THR_LOCK_DATA *data) { THR_LOCK *lock=data->lock; enum thr_lock_type lock_type=data->type; DBUG_ENTER("thr_unlock"); DBUG_PRINT("lock",("data: %lx thread: %ld lock: %lx", data,data->thread_id,lock)); pthread_mutex_lock(&lock->mutex); check_locks(lock,"start of release lock",0); if (((*data->prev)=data->next)) /* remove from lock-list */ data->next->prev= data->prev; else if (lock_type <= TL_READ_NO_INSERT) lock->read.last=data->prev; else if (lock_type == TL_WRITE_DELAYED && data->cond) { /* This only happens in extreme circumstances when a write delayed lock that is waiting for a lock */ lock->write_wait.last=data->prev; /* Put it on wait queue */ } else lock->write.last=data->prev; if (lock_type >= TL_WRITE_CONCURRENT_INSERT && lock->update_status) (*lock->update_status)(data->status_param); if (lock_type == TL_READ_NO_INSERT) lock->read_no_write_count--; data->type=TL_UNLOCK; /* Mark unlocked */ check_locks(lock,"after releasing lock",1); if (!lock->write.data) /* If no active write locks */ { data=lock->write_wait.data; if (!lock->read.data) /* If no more locks in use */ { /* Release write-locks with TL_WRITE or TL_WRITE_ONLY priority first */ if (data && (data->type != TL_WRITE_LOW_PRIORITY || !lock->read_wait.data || lock->read_wait.data->type < TL_READ_HIGH_PRIORITY)) { if (lock->write_lock_count++ > max_write_lock_count) { /* Too many write locks in a row; Release all waiting read locks */ lock->write_lock_count=0; if (lock->read_wait.data) { DBUG_PRINT("info",("Freeing all read_locks because of max_write_lock_count")); free_all_read_locks(lock,0); goto end; } } for (;;) { if (((*data->prev)=data->next)) /* remove from wait-list */ data->next->prev= data->prev; else lock->write_wait.last=data->prev; (*lock->write.last)=data; /* Put in execute list */ data->prev=lock->write.last; data->next=0; lock->write.last= &data->next; if (data->type == TL_WRITE_CONCURRENT_INSERT && (*lock->check_status)(data->status_param)) data->type=TL_WRITE; /* Upgrade lock */ DBUG_PRINT("lock",("giving write lock of type %d to thread: %ld", data->type,data->thread_id)); { pthread_cond_t *cond=data->cond; data->cond=0; /* Mark thread free */ VOID(pthread_cond_signal(cond)); /* Start waiting thread */ } if (data->type != TL_WRITE_ALLOW_WRITE || !lock->write_wait.data || lock->write_wait.data->type != TL_WRITE_ALLOW_WRITE) break; data=lock->write_wait.data; /* Free this too */ } if (data->type >= TL_WRITE_LOW_PRIORITY) { check_locks(lock,"giving write lock",0); pthread_mutex_unlock(&lock->mutex); DBUG_VOID_RETURN; } /* Release possible read locks together with the write lock */ } if (lock->read_wait.data) free_all_read_locks(lock, data && (data->type == TL_WRITE_CONCURRENT_INSERT || data->type == TL_WRITE_ALLOW_WRITE)); else { DBUG_PRINT("lock",("No locks to free")); } } else if (data && (lock_type=data->type) <= TL_WRITE_DELAYED && ((lock_type != TL_WRITE_CONCURRENT_INSERT && lock_type != TL_WRITE_ALLOW_WRITE) || !lock->read_no_write_count)) { /* For DELAYED, ALLOW_READ, WRITE_ALLOW_WRITE or CONCURRENT_INSERT locks start WRITE locks together with the READ locks */ if (lock_type == TL_WRITE_CONCURRENT_INSERT && (*lock->check_status)(data->status_param)) { data->type=TL_WRITE; /* Upgrade lock */ if (lock->read_wait.data) free_all_read_locks(lock,0); goto end; } do { pthread_cond_t *cond=data->cond; if (((*data->prev)=data->next)) /* remove from wait-list */ data->next->prev= data->prev; else lock->write_wait.last=data->prev; (*lock->write.last)=data; /* Put in execute list */ data->prev=lock->write.last; lock->write.last= &data->next; data->next=0; /* Only one write lock */ data->cond=0; /* Mark thread free */ VOID(pthread_cond_signal(cond)); /* Start waiting thread */ } while (lock_type == TL_WRITE_ALLOW_WRITE && (data=lock->write_wait.data) && data->type == TL_WRITE_ALLOW_WRITE); if (lock->read_wait.data) free_all_read_locks(lock, (lock_type == TL_WRITE_CONCURRENT_INSERT || lock_type == TL_WRITE_ALLOW_WRITE)); } else if (!data && lock->read_wait.data) free_all_read_locks(lock,0); } end: check_locks(lock,"thr_unlock",0); pthread_mutex_unlock(&lock->mutex); DBUG_VOID_RETURN; } /* ** Get all locks in a specific order to avoid dead-locks ** Sort acording to lock position and put write_locks before read_locks if ** lock on same lock. */ #define LOCK_CMP(A,B) ((byte*) (A->lock) - (uint) ((A)->type) < (byte*) (B->lock)- (uint) ((B)->type)) static void sort_locks(THR_LOCK_DATA **data,uint count) { THR_LOCK_DATA **pos,**end,**prev,*tmp; /* Sort locks with insertion sort (fast because almost always few locks) */ for (pos=data+1,end=data+count; pos < end ; pos++) { tmp= *pos; if (LOCK_CMP(tmp,pos[-1])) { prev=pos; do { prev[0]=prev[-1]; } while (--prev != data && LOCK_CMP(tmp,prev[-1])); prev[0]=tmp; } } } int thr_multi_lock(THR_LOCK_DATA **data,uint count) { THR_LOCK_DATA **pos,**end; DBUG_ENTER("thr_multi_lock"); DBUG_PRINT("lock",("data: %lx count: %d",data,count)); if (count > 1) sort_locks(data,count); /* lock everything */ for (pos=data,end=data+count; pos < end ; pos++) { if (thr_lock(*pos,(*pos)->type)) { /* Aborted */ thr_multi_unlock(data,(uint) (pos-data)); DBUG_RETURN(1); } #ifdef MAIN printf("Thread: %s Got lock: %lx type: %d\n",my_thread_name(), (long) pos[0]->lock, pos[0]->type); fflush(stdout); #endif } /* Ensure that all get_locks() have the same status If we lock the same table multiple times, we must use the same status_param! */ #if !defined(DONT_USE_RW_LOCKS) if (count > 1) { THR_LOCK_DATA *last_lock= end[-1]; pos=end-1; do { pos--; if (last_lock->lock == (*pos)->lock && last_lock->lock->copy_status) { if (last_lock->type <= TL_READ_NO_INSERT) { THR_LOCK_DATA **read_lock; /* If we are locking the same table with read locks we must ensure that all tables share the status of the last write lock or the same read lock. */ for (; (*pos)->type <= TL_READ_NO_INSERT && pos != data && pos[-1]->lock == (*pos)->lock ; pos--) ; read_lock = pos+1; do { (last_lock->lock->copy_status)((*read_lock)->status_param, (*pos)->status_param); } while (*(read_lock++) != last_lock); last_lock= (*pos); /* Point at last write lock */ } else (*last_lock->lock->copy_status)((*pos)->status_param, last_lock->status_param); } else last_lock=(*pos); } while (pos != data); } #endif DBUG_RETURN(0); } /* free all locks */ void thr_multi_unlock(THR_LOCK_DATA **data,uint count) { THR_LOCK_DATA **pos,**end; DBUG_ENTER("thr_multi_unlock"); DBUG_PRINT("lock",("data: %lx count: %d",data,count)); for (pos=data,end=data+count; pos < end ; pos++) { #ifdef MAIN printf("Thread: %s Rel lock: %lx type: %d\n", my_thread_name(), (long) pos[0]->lock, pos[0]->type); fflush(stdout); #endif if ((*pos)->type != TL_UNLOCK) thr_unlock(*pos); else { DBUG_PRINT("lock",("Free lock: data: %lx thread: %ld lock: %lx", *pos,(*pos)->thread_id,(*pos)->lock)); } } DBUG_VOID_RETURN; } /* Abort all threads waiting for a lock. The lock will be upgraded to a TL_WRITE_ONLY to abort any new accesses to the lock */ void thr_abort_locks(THR_LOCK *lock) { THR_LOCK_DATA *data; DBUG_ENTER("thr_abort_locks"); pthread_mutex_lock(&lock->mutex); for (data=lock->read_wait.data; data ; data=data->next) { data->type=TL_UNLOCK; /* Mark killed */ pthread_cond_signal(data->cond); data->cond=0; /* Removed from list */ } for (data=lock->write_wait.data; data ; data=data->next) { data->type=TL_UNLOCK; pthread_cond_signal(data->cond); data->cond=0; } lock->read_wait.last= &lock->read_wait.data; lock->write_wait.last= &lock->write_wait.data; lock->read_wait.data=lock->write_wait.data=0; if (lock->write.data) lock->write.data->type=TL_WRITE_ONLY; pthread_mutex_unlock(&lock->mutex); DBUG_VOID_RETURN; } /* Upgrade a WRITE_DELAY lock to a WRITE_LOCK */ my_bool thr_upgrade_write_delay_lock(THR_LOCK_DATA *data) { THR_LOCK *lock=data->lock; DBUG_ENTER("thr_upgrade_write_delay_lock"); pthread_mutex_lock(&lock->mutex); if (data->type == TL_UNLOCK || data->type == TL_WRITE) /* Aborted */ { pthread_mutex_unlock(&lock->mutex); DBUG_RETURN(data->type == TL_UNLOCK); } check_locks(lock,"before upgrading lock",0); /* TODO: Upgrade to TL_WRITE_CONCURRENT_INSERT in some cases */ data->type=TL_WRITE; /* Upgrade lock */ /* Check if someone has given us the lock */ if (!data->cond) { if (!lock->read.data) /* No read locks */ { /* We have the lock */ if (data->lock->get_status) (*data->lock->get_status)(data->status_param); pthread_mutex_unlock(&lock->mutex); DBUG_RETURN(0); } if (((*data->prev)=data->next)) /* remove from lock-list */ data->next->prev= data->prev; else lock->write.last=data->prev; if ((data->next=lock->write_wait.data)) /* Put first in lock_list */ data->next->prev= &data->next; else lock->write_wait.last= &data->next; data->prev= &lock->write_wait.data; lock->write_wait.data=data; check_locks(lock,"upgrading lock",0); } DBUG_RETURN(wait_for_lock(&lock->write_wait,data,1)); } /* downgrade a WRITE lock to a WRITE_DELAY lock if there is pending locks */ my_bool thr_reschedule_write_lock(THR_LOCK_DATA *data) { THR_LOCK *lock=data->lock; DBUG_ENTER("thr_reschedule_write_lock"); pthread_mutex_lock(&lock->mutex); if (!lock->read_wait.data) /* No waiting read locks */ { pthread_mutex_unlock(&lock->mutex); DBUG_RETURN(0); } data->type=TL_WRITE_DELAYED; if (lock->update_status) (*lock->update_status)(data->status_param); if (((*data->prev)=data->next)) /* remove from lock-list */ data->next->prev= data->prev; else lock->write.last=data->prev; if ((data->next=lock->write_wait.data)) /* Put first in lock_list */ data->next->prev= &data->next; else lock->write_wait.last= &data->next; data->prev= &lock->write_wait.data; data->cond=get_cond(); /* This was zero */ lock->write_wait.data=data; free_all_read_locks(lock,0); pthread_mutex_unlock(&lock->mutex); DBUG_RETURN(thr_upgrade_write_delay_lock(data)); } #include <my_sys.h> static void thr_print_lock(const char* name,struct st_lock_list *list) { THR_LOCK_DATA *data,**prev; uint count=0; if (list->data) { printf("%-10s: ",name); prev= &list->data; for (data=list->data; data && count++ < MAX_LOCKS ; data=data->next) { printf("%lx (%lu:%d); ",(ulong) data,data->thread_id,(int) data->type); if (data->prev != prev) printf("\nWarning: prev didn't point at previous lock\n"); prev= &data->next; } puts(""); if (prev != list->last) printf("Warning: last didn't point at last lock\n"); } } void thr_print_locks(void) { LIST *list; uint count=0; pthread_mutex_lock(&THR_LOCK_lock); puts("Current locks:"); for (list=thread_list ; list && count++ < MAX_THREADS ; list=rest(list)) { THR_LOCK *lock=(THR_LOCK*) list->data; VOID(pthread_mutex_lock(&lock->mutex)); printf("lock: %lx:",(ulong) lock); if ((lock->write_wait.data || lock->read_wait.data) && (! lock->read.data && ! lock->write.data)) printf(" WARNING: "); if (lock->write.data) printf(" write"); if (lock->write_wait.data) printf(" write_wait"); if (lock->read.data) printf(" read"); if (lock->read_wait.data) printf(" read_wait"); puts(""); thr_print_lock("write",&lock->write); thr_print_lock("write_wait",&lock->write_wait); thr_print_lock("read",&lock->read); thr_print_lock("read_wait",&lock->read_wait); VOID(pthread_mutex_unlock(&lock->mutex)); puts(""); } fflush(stdout); pthread_mutex_unlock(&THR_LOCK_lock); } #endif /* THREAD */ /***************************************************************************** ** Test of thread locks ****************************************************************************/ #ifdef MAIN #ifdef THREAD struct st_test { uint lock_nr; enum thr_lock_type lock_type; }; THR_LOCK locks[5]; /* 4 locks */ struct st_test test_0[] = {{0,TL_READ}}; /* One lock */ struct st_test test_1[] = {{0,TL_READ},{0,TL_WRITE}}; /* Read and write lock of lock 0 */ struct st_test test_2[] = {{1,TL_WRITE},{0,TL_READ},{2,TL_READ}}; struct st_test test_3[] = {{2,TL_WRITE},{1,TL_READ},{0,TL_READ}}; /* Deadlock with test_2 ? */ struct st_test test_4[] = {{0,TL_WRITE},{0,TL_READ},{0,TL_WRITE},{0,TL_READ}}; struct st_test test_5[] = {{0,TL_READ},{1,TL_READ},{2,TL_READ},{3,TL_READ}}; /* Many reads */ struct st_test test_6[] = {{0,TL_WRITE},{1,TL_WRITE},{2,TL_WRITE},{3,TL_WRITE}}; /* Many writes */ struct st_test test_7[] = {{3,TL_READ}}; struct st_test test_8[] = {{1,TL_READ_NO_INSERT},{2,TL_READ_NO_INSERT},{3,TL_READ_NO_INSERT}}; /* Should be quick */ struct st_test test_9[] = {{4,TL_READ_HIGH_PRIORITY}}; struct st_test test_10[] ={{4,TL_WRITE}}; struct st_test test_11[] = {{0,TL_WRITE_LOW_PRIORITY},{1,TL_WRITE_LOW_PRIORITY},{2,TL_WRITE_LOW_PRIORITY},{3,TL_WRITE_LOW_PRIORITY}}; /* Many writes */ struct st_test test_12[] = {{0,TL_WRITE_ALLOW_READ},{1,TL_WRITE_ALLOW_READ},{2,TL_WRITE_ALLOW_READ},{3,TL_WRITE_ALLOW_READ}}; /* Many writes */ struct st_test test_13[] = {{0,TL_WRITE_CONCURRENT_INSERT},{1,TL_WRITE_CONCURRENT_INSERT},{2,TL_WRITE_CONCURRENT_INSERT},{3,TL_WRITE_CONCURRENT_INSERT}}; struct st_test test_14[] = {{0,TL_WRITE_CONCURRENT_INSERT},{1,TL_READ}}; struct st_test test_15[] = {{0,TL_WRITE_ALLOW_WRITE},{1,TL_READ}}; struct st_test test_16[] = {{0,TL_WRITE_ALLOW_WRITE},{1,TL_WRITE_ALLOW_WRITE}}; struct st_test *tests[] = {test_0,test_1,test_2,test_3,test_4,test_5,test_6, test_7,test_8,test_9,test_10,test_11,test_12, test_13,test_14,test_15,test_16}; int lock_counts[]= {sizeof(test_0)/sizeof(struct st_test), sizeof(test_1)/sizeof(struct st_test), sizeof(test_2)/sizeof(struct st_test), sizeof(test_3)/sizeof(struct st_test), sizeof(test_4)/sizeof(struct st_test), sizeof(test_5)/sizeof(struct st_test), sizeof(test_6)/sizeof(struct st_test), sizeof(test_7)/sizeof(struct st_test), sizeof(test_8)/sizeof(struct st_test), sizeof(test_9)/sizeof(struct st_test), sizeof(test_10)/sizeof(struct st_test), sizeof(test_11)/sizeof(struct st_test), sizeof(test_12)/sizeof(struct st_test), sizeof(test_13)/sizeof(struct st_test), sizeof(test_14)/sizeof(struct st_test), sizeof(test_15)/sizeof(struct st_test), sizeof(test_16)/sizeof(struct st_test) }; static pthread_cond_t COND_thread_count; static pthread_mutex_t LOCK_thread_count; static uint thread_count; static ulong sum=0; #define MAX_LOCK_COUNT 8 /* The following functions is for WRITE_CONCURRENT_INSERT */ static void test_get_status(void* param __attribute__((unused))) { } static void test_copy_status(void* to __attribute__((unused)) , void *from __attribute__((unused))) { } static my_bool test_check_status(void* param __attribute__((unused))) { return 0; } static void *test_thread(void *arg) { int i,j,param=*((int*) arg); THR_LOCK_DATA data[MAX_LOCK_COUNT]; THR_LOCK_DATA *multi_locks[MAX_LOCK_COUNT]; my_thread_init(); printf("Thread %s (%d) started\n",my_thread_name(),param); fflush(stdout); for (i=0; i < lock_counts[param] ; i++) thr_lock_data_init(locks+tests[param][i].lock_nr,data+i,NULL); for (j=1 ; j < 10 ; j++) /* try locking 10 times */ { for (i=0; i < lock_counts[param] ; i++) { /* Init multi locks */ multi_locks[i]= &data[i]; data[i].type= tests[param][i].lock_type; } thr_multi_lock(multi_locks,lock_counts[param]); pthread_mutex_lock(&LOCK_thread_count); { int tmp=rand() & 7; /* Do something from 0-2 sec */ if (tmp == 0) sleep(1); else if (tmp == 1) sleep(2); else { ulong k; for (k=0 ; k < (ulong) (tmp-2)*100000L ; k++) sum+=k; } } pthread_mutex_unlock(&LOCK_thread_count); thr_multi_unlock(multi_locks,lock_counts[param]); } printf("Thread %s (%d) ended\n",my_thread_name(),param); fflush(stdout); thr_print_locks(); pthread_mutex_lock(&LOCK_thread_count); thread_count--; VOID(pthread_cond_signal(&COND_thread_count)); /* Tell main we are ready */ pthread_mutex_unlock(&LOCK_thread_count); free((gptr) arg); return 0; } int main(int argc __attribute__((unused)),char **argv __attribute__((unused))) { pthread_t tid; pthread_attr_t thr_attr; int i,*param,error; MY_INIT(argv[0]); if (argc > 1 && argv[1][0] == '-' && argv[1][1] == '#') DBUG_PUSH(argv[1]+2); printf("Main thread: %s\n",my_thread_name()); if ((error=pthread_cond_init(&COND_thread_count,NULL))) { fprintf(stderr,"Got error: %d from pthread_cond_init (errno: %d)", error,errno); exit(1); } if ((error=pthread_mutex_init(&LOCK_thread_count,MY_MUTEX_INIT_FAST))) { fprintf(stderr,"Got error: %d from pthread_cond_init (errno: %d)", error,errno); exit(1); } for (i=0 ; i < (int) array_elements(locks) ; i++) { thr_lock_init(locks+i); locks[i].check_status= test_check_status; locks[i].update_status=test_get_status; locks[i].copy_status= test_copy_status; locks[i].get_status= test_get_status; } if ((error=pthread_attr_init(&thr_attr))) { fprintf(stderr,"Got error: %d from pthread_attr_init (errno: %d)", error,errno); exit(1); } if ((error=pthread_attr_setdetachstate(&thr_attr,PTHREAD_CREATE_DETACHED))) { fprintf(stderr, "Got error: %d from pthread_attr_setdetachstate (errno: %d)", error,errno); exit(1); } #ifndef pthread_attr_setstacksize /* void return value */ if ((error=pthread_attr_setstacksize(&thr_attr,65536L))) { fprintf(stderr,"Got error: %d from pthread_attr_setstacksize (errno: %d)", error,errno); exit(1); } #endif #ifdef HAVE_THR_SETCONCURRENCY VOID(thr_setconcurrency(2)); #endif for (i=0 ; i < (int) array_elements(lock_counts) ; i++) { param=(int*) malloc(sizeof(int)); *param=i; if ((error=pthread_mutex_lock(&LOCK_thread_count))) { fprintf(stderr,"Got error: %d from pthread_mutex_lock (errno: %d)", error,errno); exit(1); } if ((error=pthread_create(&tid,&thr_attr,test_thread,(void*) param))) { fprintf(stderr,"Got error: %d from pthread_create (errno: %d)\n", error,errno); pthread_mutex_unlock(&LOCK_thread_count); exit(1); } thread_count++; pthread_mutex_unlock(&LOCK_thread_count); } pthread_attr_destroy(&thr_attr); if ((error=pthread_mutex_lock(&LOCK_thread_count))) fprintf(stderr,"Got error: %d from pthread_mutex_lock\n",error); while (thread_count) { if ((error=pthread_cond_wait(&COND_thread_count,&LOCK_thread_count))) fprintf(stderr,"Got error: %d from pthread_cond_wait\n",error); } if ((error=pthread_mutex_unlock(&LOCK_thread_count))) fprintf(stderr,"Got error: %d from pthread_mutex_unlock\n",error); for (i=0 ; i < (int) array_elements(locks) ; i++) thr_lock_delete(locks+i); #ifdef EXTRA_DEBUG if (found_errors) printf("Got %d warnings\n",found_errors); else #endif printf("Test succeeded\n"); return 0; } #else /* THREAD */ int main(int argc __attribute__((unused)),char **argv __attribute__((unused))) { printf("thr_lock disabled because we are not using threads\n"); exit(1); } #endif /* THREAD */ #endif /* MAIN */