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/* Copyright 2000-2005 The Apache Software Foundation or its licensors, as
* applicable.
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
#include <stdio.h>
#include <stdlib.h>
#include "apr_thread_proc.h"
#include "apr_errno.h"
#include "apr_general.h"
#include "apr_atomic.h"
#include "errno.h"
#include "apr_time.h"
#if APR_HAVE_UNISTD_H
#include <unistd.h>
#endif
#if !(defined WIN32) && !(defined NETWARE)
#include <pthread.h>
#endif
apr_pool_t *context;
apr_atomic_t y; /* atomic locks */
static apr_status_t check_basic_atomics(volatile apr_atomic_t*p)
{
apr_atomic_t oldval;
apr_uint32_t casval = 0;
float object1, object2;
void *casptr;
void *oldptr;
apr_atomic_set(&y, 2);
printf("%-60s", "testing apr_atomic_dec");
if (apr_atomic_dec(&y) == 0) {
fprintf(stderr, "Failed\noldval =%d should not be zero\n",
apr_atomic_read(&y));
return APR_EGENERAL;
}
if (apr_atomic_dec(&y) != 0) {
fprintf(stderr, "Failed\noldval =%d should be zero\n",
apr_atomic_read(&y));
return APR_EGENERAL;
}
printf("OK\n");
printf("%-60s", "testing CAS");
oldval = apr_atomic_cas(&casval, 12, 0);
if (oldval != 0) {
fprintf(stderr, "Failed\noldval =%d should be zero\n", oldval);
return APR_EGENERAL;
}
printf("OK\n");
printf("%-60s", "testing CAS - match non-null");
oldval = apr_atomic_cas(&casval, 23, 12);
if (oldval != 12) {
fprintf(stderr, "Failed\noldval =%d should be 12 y=%d\n",
oldval, casval);
return APR_EGENERAL;
}
printf("OK\n");
printf("%-60s", "testing CAS - no match");
oldval = apr_atomic_cas(&casval, 23, 12);
if (oldval != 23) {
fprintf(stderr, "Failed\noldval =%d should be 23 y=%d\n",
oldval, casval);
return APR_EGENERAL;
}
printf("OK\n");
printf("%-60s", "testing CAS for pointers");
casptr = NULL;
oldptr = apr_atomic_casptr(&casptr, &object1, 0);
if (oldptr != 0) {
fprintf(stderr, "Failed\noldval =%p should be zero\n", oldptr);
return APR_EGENERAL;
}
printf("OK\n");
printf("%-60s", "testing CAS for pointers - match non-null");
oldptr = apr_atomic_casptr(&casptr, &object2, &object1);
if (oldptr != &object1) {
fprintf(stderr, "Failed\noldval =%p should be %p\n", oldptr, &object1);
return APR_EGENERAL;
}
printf("OK\n");
printf("%-60s", "testing CAS for pointers - no match");
oldptr = apr_atomic_casptr(&casptr, &object2, &object1);
if (oldptr != &object2) {
fprintf(stderr, "Failed\noldval =%p should be %p\n", oldptr, &object2);
return APR_EGENERAL;
}
printf("OK\n");
printf("%-60s", "testing add");
apr_atomic_set(&y, 23);
apr_atomic_add(&y, 4);
if (apr_atomic_read(&y) != 27) {
fprintf(stderr,
"Failed\nAtomic Add doesn't add up ;( expected 27 got %d\n",
oldval);
return APR_EGENERAL;
}
printf("OK\n");
printf("%-60s", "testing add/inc");
apr_atomic_set(&y, 0);
apr_atomic_add(&y, 20);
apr_atomic_inc(&y);
if (apr_atomic_read(&y) != 21) {
fprintf(stderr, "Failed.\natomics do not add up\n");
return APR_EGENERAL;
}
fprintf(stdout, "OK\n");
return APR_SUCCESS;
}
#if !APR_HAS_THREADS
int main(void)
{
apr_status_t rv;
apr_initialize();
fprintf(stderr,
"This program won't work fully on this platform because there is no "
"support for threads.\n");
if (apr_pool_create(&context, NULL) != APR_SUCCESS) {
fflush(stdout);
fprintf(stderr, "Failed.\nCould not initialize\n");
exit(-1);
}
rv = apr_atomic_init(context);
if (rv != APR_SUCCESS) {
fprintf(stderr, "Failed.\nCould not initialize atomics\n");
exit(-1);
}
rv = check_basic_atomics(&y);
if (rv != APR_SUCCESS) {
fprintf(stderr, "Failed.\n");
exit(-1);
}
return 0;
}
#else /* !APR_HAS_THREADS */
void * APR_THREAD_FUNC thread_func_mutex(apr_thread_t *thd, void *data);
void * APR_THREAD_FUNC thread_func_atomic(apr_thread_t *thd, void *data);
void * APR_THREAD_FUNC thread_func_none(apr_thread_t *thd, void *data);
apr_thread_mutex_t *thread_lock;
volatile long x = 0; /* mutex locks */
volatile long z = 0; /* no locks */
int value = 0;
apr_status_t exit_ret_val = 123; /* just some made up number to check on later */
#define NUM_THREADS 50
#define NUM_ITERATIONS 20000
void * APR_THREAD_FUNC thread_func_mutex(apr_thread_t *thd, void *data)
{
int i;
for (i = 0; i < NUM_ITERATIONS; i++) {
apr_thread_mutex_lock(thread_lock);
x++;
apr_thread_mutex_unlock(thread_lock);
}
apr_thread_exit(thd, exit_ret_val);
return NULL;
}
void * APR_THREAD_FUNC thread_func_atomic(apr_thread_t *thd, void *data)
{
int i;
for (i = 0; i < NUM_ITERATIONS ; i++) {
apr_atomic_inc(&y);
apr_atomic_add(&y, 2);
apr_atomic_dec(&y);
apr_atomic_dec(&y);
}
apr_thread_exit(thd, exit_ret_val);
return NULL;
}
void * APR_THREAD_FUNC thread_func_none(apr_thread_t *thd, void *data)
{
int i;
for (i = 0; i < NUM_ITERATIONS ; i++) {
z++;
}
apr_thread_exit(thd, exit_ret_val);
return NULL;
}
int main(int argc, char**argv)
{
apr_thread_t *t1[NUM_THREADS];
apr_thread_t *t2[NUM_THREADS];
apr_status_t r1[NUM_THREADS];
apr_status_t r2[NUM_THREADS];
apr_status_t s1[NUM_THREADS];
apr_status_t s2[NUM_THREADS];
apr_status_t rv;
int i;
int mutex;
apr_initialize();
if (argc == 2 && argv[1][0] == 'm') {
mutex = 1;
}
else {
mutex = 0;
}
printf("APR Atomic Test\n===============\n\n");
#if !(defined WIN32) && !(defined NETWARE) && !(defined __MVS__) && !(defined DARWIN)
pthread_setconcurrency(8);
#endif
printf("%-60s", "Initializing the context");
if (apr_pool_create(&context, NULL) != APR_SUCCESS) {
fflush(stdout);
fprintf(stderr, "Failed.\nCould not initialize\n");
exit(-1);
}
printf("OK\n");
if (mutex == 1) {
printf("%-60s", "Initializing the lock");
rv = apr_thread_mutex_create(&thread_lock, APR_THREAD_MUTEX_DEFAULT,
context);
if (rv != APR_SUCCESS) {
fflush(stdout);
fprintf(stderr, "Failed\nCould not create lock\n");
exit(-1);
}
printf("OK\n");
}
printf("%-60s", "Initializing the atomics");
rv = apr_atomic_init(context);
if (rv != APR_SUCCESS) {
fprintf(stderr, "Failed.\n");
exit(-1);
}
printf("OK\n");
rv = check_basic_atomics(&y);
if (rv != APR_SUCCESS) {
fprintf(stderr, "Failed.\n");
exit(-1);
}
apr_atomic_set(&y, 0);
printf("%-60s", "Starting all the threads");
for (i = 0; i < NUM_THREADS; i++) {
r1[i] = apr_thread_create(&t1[i], NULL,
(mutex == 1 ? thread_func_mutex : thread_func_atomic),
NULL, context);
r2[i] = apr_thread_create(&t2[i], NULL, thread_func_none, NULL,
context);
if (r1[i] != APR_SUCCESS || r2[i] != APR_SUCCESS ) {
fflush(stdout);
fprintf(stderr, "Failed\nError starting thread in group %d\n",i);
exit(-1);
}
}
printf("OK\n");
printf("%-60s\n", "Waiting for threads to exit");
printf("%-60s", "(Note that this may take a while to complete.)");
fflush(stdout);
for (i = 0; i < NUM_THREADS; i++) {
apr_thread_join(&s1[i], t1[i]);
apr_thread_join(&s2[i], t2[i]);
if (s1[i] != exit_ret_val || s2[i] != exit_ret_val) {
fprintf(stderr,
"Invalid return value\n"
"Got %d/%d, but expected %d for all \n",
s1[i], s2[i], exit_ret_val);
}
}
printf("OK\n");
if (mutex == 1) {
printf("%-60s", "Checking if mutex locks worked");
if (x != NUM_THREADS * NUM_ITERATIONS) {
fflush(stdout);
fprintf(stderr,
"No!\nThe locks didn't work?? x = %ld instead of %ld\n",
x,
(long)NUM_THREADS * NUM_ITERATIONS);
}
else {
printf("OK\n");
}
}
else {
printf("%-60s", "Checking if atomic worked");
if (apr_atomic_read(&y) != NUM_THREADS * NUM_ITERATIONS) {
fflush(stdout);
fprintf(stderr,
"No!\nThe atomics didn't work?? y = %ld instead of %ld\n",
(long)apr_atomic_read(&y),
(long)NUM_THREADS * NUM_ITERATIONS);
}
else {
printf("OK\n");
}
}
printf("%-60s", "Checking if nolock worked");
if (z != NUM_THREADS * NUM_ITERATIONS) {
fflush(stdout);
fprintf(stderr,
"no surprise\n"
"The no-locks didn't work. z = %ld instead of %ld\n",
z,
(long)NUM_THREADS * NUM_ITERATIONS);
}
else {
printf("OK\n");
}
return 0;
}
#endif /* !APR_HAS_THREADS */
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