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|
/* Test of locking in multithreaded situations.
Copyright (C) 2005, 2008-2020 Free Software Foundation, Inc.
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; either version 3 of the License, or
(at your option) any later version.
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, see <https://www.gnu.org/licenses/>. */
/* Written by Bruno Haible <bruno@clisp.org>, 2005. */
#include <config.h>
#if USE_ISOC_THREADS || USE_POSIX_THREADS || USE_ISOC_AND_POSIX_THREADS || USE_WINDOWS_THREADS
#if USE_ISOC_THREADS
# define TEST_ISOC_THREADS 1
#endif
#if USE_POSIX_THREADS
# define TEST_POSIX_THREADS 1
#endif
#if USE_ISOC_AND_POSIX_THREADS
# define TEST_ISOC_AND_POSIX_THREADS 1
#endif
#if USE_WINDOWS_THREADS
# define TEST_WINDOWS_THREADS 1
#endif
/* Whether to enable locking.
Uncomment this to get a test program without locking, to verify that
it crashes. */
#define ENABLE_LOCKING 1
/* Which tests to perform.
Uncomment some of these, to verify that all tests crash if no locking
is enabled. */
#define DO_TEST_LOCK 1
#define DO_TEST_RWLOCK 1
#define DO_TEST_RECURSIVE_LOCK 1
#define DO_TEST_ONCE 1
/* Whether to help the scheduler through explicit yield().
Uncomment this to see if the operating system has a fair scheduler. */
#define EXPLICIT_YIELD 1
/* Whether to use 'volatile' on some variables that communicate information
between threads. If set to 0, a semaphore or a lock is used to protect
these variables. If set to 1, 'volatile' is used; this is theoretically
equivalent but can lead to much slower execution (e.g. 30x slower total
run time on a 40-core machine), because 'volatile' does not imply any
synchronization/communication between different CPUs. */
#define USE_VOLATILE 0
#if USE_POSIX_THREADS && HAVE_SEMAPHORE_H
/* Whether to use a semaphore to communicate information between threads.
If set to 0, a lock is used. If set to 1, a semaphore is used.
Uncomment this to reduce the dependencies of this test. */
# define USE_SEMAPHORE 1
/* Mac OS X provides only named semaphores (sem_open); its facility for
unnamed semaphores (sem_init) does not work. */
# if defined __APPLE__ && defined __MACH__
# define USE_NAMED_SEMAPHORE 1
# else
# define USE_UNNAMED_SEMAPHORE 1
# endif
#endif
/* Whether to print debugging messages. */
#define ENABLE_DEBUGGING 0
/* Number of simultaneous threads. */
#define THREAD_COUNT 10
/* Number of operations performed in each thread.
This is quite high, because with a smaller count, say 5000, we often get
an "OK" result even without ENABLE_LOCKING (on Linux/x86). */
#define REPEAT_COUNT 50000
#include <stdint.h>
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#if !ENABLE_LOCKING
# undef USE_ISOC_THREADS
# undef USE_POSIX_THREADS
# undef USE_ISOC_AND_POSIX_THREADS
# undef USE_WINDOWS_THREADS
#endif
#include "glthread/lock.h"
#if !ENABLE_LOCKING
# if TEST_ISOC_THREADS
# define USE_ISOC_THREADS 1
# endif
# if TEST_POSIX_THREADS
# define USE_POSIX_THREADS 1
# endif
# if TEST_ISOC_AND_POSIX_THREADS
# define USE_ISOC_AND_POSIX_THREADS 1
# endif
# if TEST_WINDOWS_THREADS
# define USE_WINDOWS_THREADS 1
# endif
#endif
#include "glthread/thread.h"
#include "glthread/yield.h"
#if USE_SEMAPHORE
# include <errno.h>
# include <fcntl.h>
# include <semaphore.h>
# include <unistd.h>
#endif
#if HAVE_DECL_ALARM
# include <signal.h>
# include <unistd.h>
#endif
#if ENABLE_DEBUGGING
# define dbgprintf printf
#else
# define dbgprintf if (0) printf
#endif
#if EXPLICIT_YIELD
# define yield() gl_thread_yield ()
#else
# define yield()
#endif
#if USE_VOLATILE
struct atomic_int {
volatile int value;
};
static void
init_atomic_int (struct atomic_int *ai)
{
}
static int
get_atomic_int_value (struct atomic_int *ai)
{
return ai->value;
}
static void
set_atomic_int_value (struct atomic_int *ai, int new_value)
{
ai->value = new_value;
}
#elif USE_SEMAPHORE
/* This atomic_int implementation can only support the values 0 and 1.
It is initially 0 and can be set to 1 only once. */
# if USE_UNNAMED_SEMAPHORE
struct atomic_int {
sem_t semaphore;
};
#define atomic_int_semaphore(ai) (&(ai)->semaphore)
static void
init_atomic_int (struct atomic_int *ai)
{
sem_init (&ai->semaphore, 0, 0);
}
# endif
# if USE_NAMED_SEMAPHORE
struct atomic_int {
sem_t *semaphore;
};
#define atomic_int_semaphore(ai) ((ai)->semaphore)
static void
init_atomic_int (struct atomic_int *ai)
{
sem_t *s;
unsigned int count;
for (count = 0; ; count++)
{
char name[80];
/* Use getpid() in the name, so that different processes running at the
same time will not interfere. Use ai in the name, so that different
atomic_int in the same process will not interfere. Use a count in
the name, so that even in the (unlikely) case that a semaphore with
the specified name already exists, we can try a different name. */
sprintf (name, "test-lock-%lu-%p-%u",
(unsigned long) getpid (), ai, count);
s = sem_open (name, O_CREAT | O_EXCL, 0600, 0);
if (s == SEM_FAILED)
{
if (errno == EEXIST)
/* Retry with a different name. */
continue;
else
{
perror ("sem_open failed");
abort ();
}
}
else
{
/* Try not to leave a semaphore hanging around on the file system
eternally, if we can avoid it. */
sem_unlink (name);
break;
}
}
ai->semaphore = s;
}
# endif
static int
get_atomic_int_value (struct atomic_int *ai)
{
if (sem_trywait (atomic_int_semaphore (ai)) == 0)
{
if (sem_post (atomic_int_semaphore (ai)))
abort ();
return 1;
}
else if (errno == EAGAIN)
return 0;
else
abort ();
}
static void
set_atomic_int_value (struct atomic_int *ai, int new_value)
{
if (new_value == 0)
/* It's already initialized with 0. */
return;
/* To set the value 1: */
if (sem_post (atomic_int_semaphore (ai)))
abort ();
}
#else
struct atomic_int {
gl_lock_define (, lock)
int value;
};
static void
init_atomic_int (struct atomic_int *ai)
{
gl_lock_init (ai->lock);
}
static int
get_atomic_int_value (struct atomic_int *ai)
{
gl_lock_lock (ai->lock);
int ret = ai->value;
gl_lock_unlock (ai->lock);
return ret;
}
static void
set_atomic_int_value (struct atomic_int *ai, int new_value)
{
gl_lock_lock (ai->lock);
ai->value = new_value;
gl_lock_unlock (ai->lock);
}
#endif
#define ACCOUNT_COUNT 4
static int account[ACCOUNT_COUNT];
static int
random_account (void)
{
return ((unsigned int) rand () >> 3) % ACCOUNT_COUNT;
}
static void
check_accounts (void)
{
int i, sum;
sum = 0;
for (i = 0; i < ACCOUNT_COUNT; i++)
sum += account[i];
if (sum != ACCOUNT_COUNT * 1000)
abort ();
}
/* ------------------- Test normal (non-recursive) locks ------------------- */
/* Test normal locks by having several bank accounts and several threads
which shuffle around money between the accounts and another thread
checking that all the money is still there. */
gl_lock_define_initialized(static, my_lock)
static void *
lock_mutator_thread (void *arg)
{
int repeat;
for (repeat = REPEAT_COUNT; repeat > 0; repeat--)
{
int i1, i2, value;
dbgprintf ("Mutator %p before lock\n", gl_thread_self_pointer ());
gl_lock_lock (my_lock);
dbgprintf ("Mutator %p after lock\n", gl_thread_self_pointer ());
i1 = random_account ();
i2 = random_account ();
value = ((unsigned int) rand () >> 3) % 10;
account[i1] += value;
account[i2] -= value;
dbgprintf ("Mutator %p before unlock\n", gl_thread_self_pointer ());
gl_lock_unlock (my_lock);
dbgprintf ("Mutator %p after unlock\n", gl_thread_self_pointer ());
dbgprintf ("Mutator %p before check lock\n", gl_thread_self_pointer ());
gl_lock_lock (my_lock);
check_accounts ();
gl_lock_unlock (my_lock);
dbgprintf ("Mutator %p after check unlock\n", gl_thread_self_pointer ());
yield ();
}
dbgprintf ("Mutator %p dying.\n", gl_thread_self_pointer ());
return NULL;
}
static struct atomic_int lock_checker_done;
static void *
lock_checker_thread (void *arg)
{
while (get_atomic_int_value (&lock_checker_done) == 0)
{
dbgprintf ("Checker %p before check lock\n", gl_thread_self_pointer ());
gl_lock_lock (my_lock);
check_accounts ();
gl_lock_unlock (my_lock);
dbgprintf ("Checker %p after check unlock\n", gl_thread_self_pointer ());
yield ();
}
dbgprintf ("Checker %p dying.\n", gl_thread_self_pointer ());
return NULL;
}
static void
test_lock (void)
{
int i;
gl_thread_t checkerthread;
gl_thread_t threads[THREAD_COUNT];
/* Initialization. */
for (i = 0; i < ACCOUNT_COUNT; i++)
account[i] = 1000;
init_atomic_int (&lock_checker_done);
set_atomic_int_value (&lock_checker_done, 0);
/* Spawn the threads. */
checkerthread = gl_thread_create (lock_checker_thread, NULL);
for (i = 0; i < THREAD_COUNT; i++)
threads[i] = gl_thread_create (lock_mutator_thread, NULL);
/* Wait for the threads to terminate. */
for (i = 0; i < THREAD_COUNT; i++)
gl_thread_join (threads[i], NULL);
set_atomic_int_value (&lock_checker_done, 1);
gl_thread_join (checkerthread, NULL);
check_accounts ();
}
/* ----------------- Test read-write (non-recursive) locks ----------------- */
/* Test read-write locks by having several bank accounts and several threads
which shuffle around money between the accounts and several other threads
that check that all the money is still there. */
gl_rwlock_define_initialized(static, my_rwlock)
static void *
rwlock_mutator_thread (void *arg)
{
int repeat;
for (repeat = REPEAT_COUNT; repeat > 0; repeat--)
{
int i1, i2, value;
dbgprintf ("Mutator %p before wrlock\n", gl_thread_self_pointer ());
gl_rwlock_wrlock (my_rwlock);
dbgprintf ("Mutator %p after wrlock\n", gl_thread_self_pointer ());
i1 = random_account ();
i2 = random_account ();
value = ((unsigned int) rand () >> 3) % 10;
account[i1] += value;
account[i2] -= value;
dbgprintf ("Mutator %p before unlock\n", gl_thread_self_pointer ());
gl_rwlock_unlock (my_rwlock);
dbgprintf ("Mutator %p after unlock\n", gl_thread_self_pointer ());
yield ();
}
dbgprintf ("Mutator %p dying.\n", gl_thread_self_pointer ());
return NULL;
}
static struct atomic_int rwlock_checker_done;
static void *
rwlock_checker_thread (void *arg)
{
while (get_atomic_int_value (&rwlock_checker_done) == 0)
{
dbgprintf ("Checker %p before check rdlock\n", gl_thread_self_pointer ());
gl_rwlock_rdlock (my_rwlock);
check_accounts ();
gl_rwlock_unlock (my_rwlock);
dbgprintf ("Checker %p after check unlock\n", gl_thread_self_pointer ());
yield ();
}
dbgprintf ("Checker %p dying.\n", gl_thread_self_pointer ());
return NULL;
}
static void
test_rwlock (void)
{
int i;
gl_thread_t checkerthreads[THREAD_COUNT];
gl_thread_t threads[THREAD_COUNT];
/* Initialization. */
for (i = 0; i < ACCOUNT_COUNT; i++)
account[i] = 1000;
init_atomic_int (&rwlock_checker_done);
set_atomic_int_value (&rwlock_checker_done, 0);
/* Spawn the threads. */
for (i = 0; i < THREAD_COUNT; i++)
checkerthreads[i] = gl_thread_create (rwlock_checker_thread, NULL);
for (i = 0; i < THREAD_COUNT; i++)
threads[i] = gl_thread_create (rwlock_mutator_thread, NULL);
/* Wait for the threads to terminate. */
for (i = 0; i < THREAD_COUNT; i++)
gl_thread_join (threads[i], NULL);
set_atomic_int_value (&rwlock_checker_done, 1);
for (i = 0; i < THREAD_COUNT; i++)
gl_thread_join (checkerthreads[i], NULL);
check_accounts ();
}
/* -------------------------- Test recursive locks -------------------------- */
/* Test recursive locks by having several bank accounts and several threads
which shuffle around money between the accounts (recursively) and another
thread checking that all the money is still there. */
gl_recursive_lock_define_initialized(static, my_reclock)
static void
recshuffle (void)
{
int i1, i2, value;
dbgprintf ("Mutator %p before lock\n", gl_thread_self_pointer ());
gl_recursive_lock_lock (my_reclock);
dbgprintf ("Mutator %p after lock\n", gl_thread_self_pointer ());
i1 = random_account ();
i2 = random_account ();
value = ((unsigned int) rand () >> 3) % 10;
account[i1] += value;
account[i2] -= value;
/* Recursive with probability 0.5. */
if (((unsigned int) rand () >> 3) % 2)
recshuffle ();
dbgprintf ("Mutator %p before unlock\n", gl_thread_self_pointer ());
gl_recursive_lock_unlock (my_reclock);
dbgprintf ("Mutator %p after unlock\n", gl_thread_self_pointer ());
}
static void *
reclock_mutator_thread (void *arg)
{
int repeat;
for (repeat = REPEAT_COUNT; repeat > 0; repeat--)
{
recshuffle ();
dbgprintf ("Mutator %p before check lock\n", gl_thread_self_pointer ());
gl_recursive_lock_lock (my_reclock);
check_accounts ();
gl_recursive_lock_unlock (my_reclock);
dbgprintf ("Mutator %p after check unlock\n", gl_thread_self_pointer ());
yield ();
}
dbgprintf ("Mutator %p dying.\n", gl_thread_self_pointer ());
return NULL;
}
static struct atomic_int reclock_checker_done;
static void *
reclock_checker_thread (void *arg)
{
while (get_atomic_int_value (&reclock_checker_done) == 0)
{
dbgprintf ("Checker %p before check lock\n", gl_thread_self_pointer ());
gl_recursive_lock_lock (my_reclock);
check_accounts ();
gl_recursive_lock_unlock (my_reclock);
dbgprintf ("Checker %p after check unlock\n", gl_thread_self_pointer ());
yield ();
}
dbgprintf ("Checker %p dying.\n", gl_thread_self_pointer ());
return NULL;
}
static void
test_recursive_lock (void)
{
int i;
gl_thread_t checkerthread;
gl_thread_t threads[THREAD_COUNT];
/* Initialization. */
for (i = 0; i < ACCOUNT_COUNT; i++)
account[i] = 1000;
init_atomic_int (&reclock_checker_done);
set_atomic_int_value (&reclock_checker_done, 0);
/* Spawn the threads. */
checkerthread = gl_thread_create (reclock_checker_thread, NULL);
for (i = 0; i < THREAD_COUNT; i++)
threads[i] = gl_thread_create (reclock_mutator_thread, NULL);
/* Wait for the threads to terminate. */
for (i = 0; i < THREAD_COUNT; i++)
gl_thread_join (threads[i], NULL);
set_atomic_int_value (&reclock_checker_done, 1);
gl_thread_join (checkerthread, NULL);
check_accounts ();
}
/* ------------------------ Test once-only execution ------------------------ */
/* Test once-only execution by having several threads attempt to grab a
once-only task simultaneously (triggered by releasing a read-write lock). */
gl_once_define(static, fresh_once)
static int ready[THREAD_COUNT];
static gl_lock_t ready_lock[THREAD_COUNT];
#if ENABLE_LOCKING
static gl_rwlock_t fire_signal[REPEAT_COUNT];
#else
static volatile int fire_signal_state;
#endif
static gl_once_t once_control;
static int performed;
gl_lock_define_initialized(static, performed_lock)
static void
once_execute (void)
{
gl_lock_lock (performed_lock);
performed++;
gl_lock_unlock (performed_lock);
}
static void *
once_contender_thread (void *arg)
{
int id = (int) (intptr_t) arg;
int repeat;
for (repeat = 0; repeat <= REPEAT_COUNT; repeat++)
{
/* Tell the main thread that we're ready. */
gl_lock_lock (ready_lock[id]);
ready[id] = 1;
gl_lock_unlock (ready_lock[id]);
if (repeat == REPEAT_COUNT)
break;
dbgprintf ("Contender %p waiting for signal for round %d\n",
gl_thread_self_pointer (), repeat);
#if ENABLE_LOCKING
/* Wait for the signal to go. */
gl_rwlock_rdlock (fire_signal[repeat]);
/* And don't hinder the others (if the scheduler is unfair). */
gl_rwlock_unlock (fire_signal[repeat]);
#else
/* Wait for the signal to go. */
while (fire_signal_state <= repeat)
yield ();
#endif
dbgprintf ("Contender %p got the signal for round %d\n",
gl_thread_self_pointer (), repeat);
/* Contend for execution. */
gl_once (once_control, once_execute);
}
return NULL;
}
static void
test_once (void)
{
int i, repeat;
gl_thread_t threads[THREAD_COUNT];
/* Initialize all variables. */
for (i = 0; i < THREAD_COUNT; i++)
{
ready[i] = 0;
gl_lock_init (ready_lock[i]);
}
#if ENABLE_LOCKING
for (i = 0; i < REPEAT_COUNT; i++)
gl_rwlock_init (fire_signal[i]);
#else
fire_signal_state = 0;
#endif
#if ENABLE_LOCKING
/* Block all fire_signals. */
for (i = REPEAT_COUNT-1; i >= 0; i--)
gl_rwlock_wrlock (fire_signal[i]);
#endif
/* Spawn the threads. */
for (i = 0; i < THREAD_COUNT; i++)
threads[i] =
gl_thread_create (once_contender_thread, (void *) (intptr_t) i);
for (repeat = 0; repeat <= REPEAT_COUNT; repeat++)
{
/* Wait until every thread is ready. */
dbgprintf ("Main thread before synchronizing for round %d\n", repeat);
for (;;)
{
int ready_count = 0;
for (i = 0; i < THREAD_COUNT; i++)
{
gl_lock_lock (ready_lock[i]);
ready_count += ready[i];
gl_lock_unlock (ready_lock[i]);
}
if (ready_count == THREAD_COUNT)
break;
yield ();
}
dbgprintf ("Main thread after synchronizing for round %d\n", repeat);
if (repeat > 0)
{
/* Check that exactly one thread executed the once_execute()
function. */
if (performed != 1)
abort ();
}
if (repeat == REPEAT_COUNT)
break;
/* Preparation for the next round: Initialize once_control. */
memcpy (&once_control, &fresh_once, sizeof (gl_once_t));
/* Preparation for the next round: Reset the performed counter. */
performed = 0;
/* Preparation for the next round: Reset the ready flags. */
for (i = 0; i < THREAD_COUNT; i++)
{
gl_lock_lock (ready_lock[i]);
ready[i] = 0;
gl_lock_unlock (ready_lock[i]);
}
/* Signal all threads simultaneously. */
dbgprintf ("Main thread giving signal for round %d\n", repeat);
#if ENABLE_LOCKING
gl_rwlock_unlock (fire_signal[repeat]);
#else
fire_signal_state = repeat + 1;
#endif
}
/* Wait for the threads to terminate. */
for (i = 0; i < THREAD_COUNT; i++)
gl_thread_join (threads[i], NULL);
}
/* -------------------------------------------------------------------------- */
int
main ()
{
#if HAVE_DECL_ALARM
/* Declare failure if test takes too long, by using default abort
caused by SIGALRM. */
int alarm_value = 600;
signal (SIGALRM, SIG_DFL);
alarm (alarm_value);
#endif
#if DO_TEST_LOCK
printf ("Starting test_lock ..."); fflush (stdout);
test_lock ();
printf (" OK\n"); fflush (stdout);
#endif
#if DO_TEST_RWLOCK
printf ("Starting test_rwlock ..."); fflush (stdout);
test_rwlock ();
printf (" OK\n"); fflush (stdout);
#endif
#if DO_TEST_RECURSIVE_LOCK
printf ("Starting test_recursive_lock ..."); fflush (stdout);
test_recursive_lock ();
printf (" OK\n"); fflush (stdout);
#endif
#if DO_TEST_ONCE
printf ("Starting test_once ..."); fflush (stdout);
test_once ();
printf (" OK\n"); fflush (stdout);
#endif
return 0;
}
#else
/* No multithreading available. */
#include <stdio.h>
int
main ()
{
fputs ("Skipping test: multithreading not enabled\n", stderr);
return 77;
}
#endif
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