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/* Copyright (C) 2006 MySQL AB
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 Street, Fifth Floor, Boston, MA 02110-1335 USA */
/*
tablockman for row and table locks
*/
/* #define EXTRA_VERBOSE */
#include <tap.h>
#include <my_global.h>
#include <my_sys.h>
#include <my_atomic.h>
#include <lf.h>
#include "../tablockman.h"
#define Nlos 100
#define Ntbls 110
TABLE_LOCK_OWNER loarray1[Nlos];
pthread_mutex_t mutexes[Nlos];
pthread_cond_t conds[Nlos];
LOCKED_TABLE ltarray[Ntbls];
TABLOCKMAN tablockman;
#ifndef EXTRA_VERBOSE
#define print_lo1(X) /* no-op */
#define DIAG(X) /* no-op */
#else
#define DIAG(X) diag X
#endif
TABLE_LOCK_OWNER *loid2lo1(uint16 loid)
{
return loarray1+loid-1;
}
#define unlock_all(O) diag("lo" #O "> release all locks"); \
tablockman_release_locks(&tablockman, loid2lo1(O));
#define test_lock(O, R, L, S, RES) \
ok(tablockman_getlock(&tablockman, loid2lo1(O), <array[R], L) == RES, \
"lo" #O "> " S "lock resource " #R " with " #L "-lock"); \
print_lo1(loid2lo1(O));
#define lock_ok_a(O, R, L) \
test_lock(O, R, L, "", GOT_THE_LOCK)
#define lock_ok_i(O, R, L) \
test_lock(O, R, L, "", GOT_THE_LOCK_NEED_TO_LOCK_A_SUBRESOURCE)
#define lock_ok_l(O, R, L) \
test_lock(O, R, L, "", GOT_THE_LOCK_NEED_TO_INSTANT_LOCK_A_SUBRESOURCE)
#define lock_conflict(O, R, L) \
test_lock(O, R, L, "cannot ", LOCK_TIMEOUT);
void test_tablockman_simple()
{
/* simple */
lock_ok_a(1, 1, S);
lock_ok_i(2, 2, IS);
lock_ok_i(1, 2, IX);
/* lock escalation */
lock_ok_a(1, 1, X);
lock_ok_i(2, 2, IX);
/* failures */
lock_conflict(2, 1, X);
unlock_all(2);
lock_ok_a(1, 2, S);
lock_ok_a(1, 2, IS);
lock_ok_a(1, 2, LS);
lock_ok_i(1, 3, IX);
lock_ok_a(2, 3, LS);
lock_ok_i(1, 3, IX);
lock_ok_l(2, 3, IS);
unlock_all(1);
unlock_all(2);
lock_ok_i(1, 1, IX);
lock_conflict(2, 1, S);
lock_ok_a(1, 1, LS);
unlock_all(1);
unlock_all(2);
lock_ok_i(1, 1, IX);
lock_ok_a(2, 1, LS);
lock_ok_a(1, 1, LS);
lock_ok_i(1, 1, IX);
lock_ok_i(3, 1, IS);
unlock_all(1);
unlock_all(2);
unlock_all(3);
lock_ok_i(1, 4, IS);
lock_ok_i(2, 4, IS);
lock_ok_i(3, 4, IS);
lock_ok_a(3, 4, LS);
lock_ok_i(4, 4, IS);
lock_conflict(4, 4, IX);
lock_conflict(2, 4, IX);
lock_ok_a(1, 4, LS);
unlock_all(1);
unlock_all(2);
unlock_all(3);
unlock_all(4);
lock_ok_i(1, 1, IX);
lock_ok_i(2, 1, IX);
lock_conflict(1, 1, S);
lock_conflict(2, 1, X);
unlock_all(1);
unlock_all(2);
lock_ok_i(1, 1, IS);
lock_conflict(2, 1, X);
lock_conflict(3, 1, IS);
unlock_all(1);
unlock_all(2);
unlock_all(3);
lock_ok_a(1, 1, S);
lock_conflict(2, 1, IX);
lock_conflict(3, 1, IS);
unlock_all(1);
unlock_all(2);
unlock_all(3);
}
int rt_num_threads;
int litmus;
int thread_number= 0, timeouts= 0;
void run_test(const char *test, pthread_handler handler, int n, int m)
{
pthread_t *threads;
ulonglong now= my_getsystime();
int i;
thread_number= timeouts= 0;
litmus= 0;
threads= (pthread_t *)my_malloc(sizeof(void *)*n, MYF(0));
if (!threads)
{
diag("Out of memory");
abort();
}
diag("Running %s with %d threads, %d iterations... ", test, n, m);
rt_num_threads= n;
for (i= 0; i < n ; i++)
if (pthread_create(threads+i, 0, handler, &m))
{
diag("Could not create thread");
abort();
}
for (i= 0 ; i < n ; i++)
pthread_join(threads[i], 0);
now= my_getsystime()-now;
ok(litmus == 0, "Finished %s in %g secs (%d)", test, ((double)now)/1e7, litmus);
my_free((void*)threads, MYF(0));
}
static void reinit_tlo(TABLOCKMAN *lm, TABLE_LOCK_OWNER *lo)
{
#ifdef NOT_USED_YET
TABLE_LOCK_OWNER backup= *lo;
#endif
tablockman_release_locks(lm, lo);
#ifdef NOT_USED_YET
pthread_mutex_destroy(lo->mutex);
pthread_cond_destroy(lo->cond);
bzero(lo, sizeof(*lo));
lo->mutex= backup.mutex;
lo->cond= backup.cond;
lo->loid= backup.loid;
pthread_mutex_init(lo->mutex, MY_MUTEX_INIT_FAST);
pthread_cond_init(lo->cond, 0);
#endif
}
pthread_mutex_t rt_mutex;
int Nrows= 100;
int Ntables= 10;
int table_lock_ratio= 10;
enum lockman_lock_type lock_array[6]= {S, X, LS, LX, IS, IX};
const char *lock2str[6]= {"S", "X", "LS", "LX", "IS", "IX"};
const char *res2str[]= {
0,
"OUT OF MEMORY",
"DEADLOCK",
"LOCK TIMEOUT",
"GOT THE LOCK",
"GOT THE LOCK NEED TO LOCK A SUBRESOURCE",
"GOT THE LOCK NEED TO INSTANT LOCK A SUBRESOURCE"};
pthread_handler_t test_lockman(void *arg)
{
int m= (*(int *)arg);
uint x, loid, row, table, res, locklevel, timeout= 0;
TABLE_LOCK_OWNER *lo1;
DBUG_ASSERT(Ntables <= Ntbls);
DBUG_ASSERT(Nrows + Ntables <= Ntbls);
pthread_mutex_lock(&rt_mutex);
loid= ++thread_number;
pthread_mutex_unlock(&rt_mutex);
lo1= loid2lo1(loid);
for (x= ((int)(intptr)(&m)); m > 0; m--)
{
/* three prime numbers */
x= (uint) ((x*LL(3628273133) + LL(1500450271)) % LL(9576890767));
row= x % Nrows + Ntables;
table= row % Ntables;
locklevel= (x/Nrows) & 3;
if (table_lock_ratio && (x/Nrows/4) % table_lock_ratio == 0)
{
/* table lock */
res= tablockman_getlock(&tablockman, lo1, ltarray+table,
lock_array[locklevel]);
DIAG(("loid %2d, table %d, lock %s, res %s", loid, table,
lock2str[locklevel], res2str[res]));
if (res < GOT_THE_LOCK)
{
reinit_tlo(&tablockman, lo1);
DIAG(("loid %2d, release all locks", loid));
timeout++;
continue;
}
DBUG_ASSERT(res == GOT_THE_LOCK);
}
else
{ /* row lock */
locklevel&= 1;
res= tablockman_getlock(&tablockman, lo1, ltarray+table, lock_array[locklevel + 4]);
DIAG(("loid %2d, row %d, lock %s, res %s", loid, row,
lock2str[locklevel+4], res2str[res]));
switch (res)
{
case GOT_THE_LOCK:
continue;
case GOT_THE_LOCK_NEED_TO_INSTANT_LOCK_A_SUBRESOURCE:
/* not implemented, so take a regular lock */
case GOT_THE_LOCK_NEED_TO_LOCK_A_SUBRESOURCE:
res= tablockman_getlock(&tablockman, lo1, ltarray+row, lock_array[locklevel]);
DIAG(("loid %2d, ROW %d, lock %s, res %s", loid, row,
lock2str[locklevel], res2str[res]));
if (res < GOT_THE_LOCK)
{
reinit_tlo(&tablockman, lo1);
DIAG(("loid %2d, release all locks", loid));
timeout++;
continue;
}
DBUG_ASSERT(res == GOT_THE_LOCK);
continue;
default:
reinit_tlo(&tablockman, lo1);
DIAG(("loid %2d, release all locks", loid));
timeout++;
continue;
}
}
}
reinit_tlo(&tablockman, lo1);
pthread_mutex_lock(&rt_mutex);
rt_num_threads--;
timeouts+= timeout;
if (!rt_num_threads)
diag("number of timeouts: %d", timeouts);
pthread_mutex_unlock(&rt_mutex);
return 0;
}
int main(int argc __attribute__((unused)), char **argv)
{
int i;
MY_INIT(argv[0]);
my_init();
pthread_mutex_init(&rt_mutex, 0);
plan(40);
if (my_atomic_initialize())
return exit_status();
tablockman_init(&tablockman, &loid2lo1, 50);
for (i= 0; i < Nlos; i++)
{
pthread_mutex_init(&mutexes[i], MY_MUTEX_INIT_FAST);
pthread_cond_init (&conds[i], 0);
loarray1[i].active_locks= 0;
loarray1[i].waiting_lock= 0;
loarray1[i].waiting_for= 0;
loarray1[i].mutex= &mutexes[i];
loarray1[i].cond= &conds[i];
loarray1[i].loid= i+1;
}
for (i= 0; i < Ntbls; i++)
{
tablockman_init_locked_table(ltarray+i, Nlos);
}
test_tablockman_simple();
#define CYCLES 10000
#define THREADS Nlos /* don't change this line */
/* mixed load, stress-test with random locks */
Nrows= 100;
Ntables= 10;
table_lock_ratio= 10;
run_test("\"random lock\" stress test", test_lockman, THREADS, CYCLES);
#if 0
/* "real-life" simulation - many rows, no table locks */
Nrows= 1000000;
Ntables= 10;
table_lock_ratio= 0;
run_test("\"real-life\" simulation test", test_lockman, THREADS, CYCLES*10);
#endif
for (i= 0; i < Nlos; i++)
{
tablockman_release_locks(&tablockman, &loarray1[i]);
pthread_mutex_destroy(loarray1[i].mutex);
pthread_cond_destroy(loarray1[i].cond);
}
{
ulonglong now= my_getsystime();
for (i= 0; i < Ntbls; i++)
{
tablockman_destroy_locked_table(ltarray+i);
}
tablockman_destroy(&tablockman);
now= my_getsystime()-now;
diag("lockman_destroy: %g secs", ((double)now)/1e7);
}
pthread_mutex_destroy(&rt_mutex);
my_end(0);
return exit_status();
}
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