pjs/nsprpub/pr/tests/cvar2.c

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C

/* -*- Mode: C++; tab-width: 4; indent-tabs-mode: nil; c-basic-offset: 2 -*- */
/*
* The contents of this file are subject to the Mozilla Public
* License Version 1.1 (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.mozilla.org/MPL/
*
* Software distributed under the License is distributed on an "AS
* IS" basis, WITHOUT WARRANTY OF ANY KIND, either express or
* implied. See the License for the specific language governing
* rights and limitations under the License.
*
* The Original Code is the Netscape security libraries.
*
* The Initial Developer of the Original Code is Netscape
* Communications Corporation. Portions created by Netscape are
* Copyright (C) 1998-2000 Netscape Communications Corporation. All
* Rights Reserved.
*
* Contributor(s):
*
* Alternatively, the contents of this file may be used under the
* terms of the GNU General Public License Version 2 or later (the
* "GPL"), in which case the provisions of the GPL are applicable
* instead of those above. If you wish to allow use of your
* version of this file only under the terms of the GPL and not to
* allow others to use your version of this file under the MPL,
* indicate your decision by deleting the provisions above and
* replace them with the notice and other provisions required by
* the GPL. If you do not delete the provisions above, a recipient
* may use your version of this file under either the MPL or the
* GPL.
*/
/***********************************************************************
** 1996 - Netscape Communications Corporation
**
** Name: cvar2.c
**
** Description: Simple test creates several local and global threads;
** half use a single,shared condvar, and the
** other half have their own condvar. The main thread then loops
** notifying them to wakeup.
**
** Modification History:
** 14-May-97 AGarcia- Converted the test to accomodate the debug_mode flag.
** The debug mode will print all of the printfs associated with this test.
** The regress mode will be the default mode. Since the regress tool limits
** the output to a one line status:PASS or FAIL,all of the printf statements
** have been handled with an if (debug_mode) statement.
***********************************************************************/
#include "nspr.h"
#include "plerror.h"
#include "plgetopt.h"
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
int _debug_on = 0;
#define DPRINTF(arg) if (_debug_on) printf arg
#ifdef XP_MAC
#include "prlog.h"
#define printf PR_LogPrint
extern void SetupMacPrintfLog(char *logFile);
#endif
#define DEFAULT_COUNT 100
#define DEFAULT_THREADS 5
PRInt32 count = DEFAULT_COUNT;
typedef struct threadinfo {
PRThread *thread;
PRInt32 id;
PRBool internal;
PRInt32 *tcount;
PRLock *lock;
PRCondVar *cvar;
PRIntervalTime timeout;
PRInt32 loops;
PRLock *exitlock;
PRCondVar *exitcvar;
PRInt32 *exitcount;
} threadinfo;
/*
** Make exitcount, tcount static. for Win16.
*/
static PRInt32 exitcount=0;
static PRInt32 tcount=0;
/* Thread that gets notified; many threads share the same condvar */
void PR_CALLBACK
SharedCondVarThread(void *_info)
{
threadinfo *info = (threadinfo *)_info;
PRInt32 index;
for (index=0; index<info->loops; index++) {
PR_Lock(info->lock);
if (*info->tcount == 0)
PR_WaitCondVar(info->cvar, info->timeout);
#if 0
printf("shared thread %ld notified in loop %ld\n", info->id, index);
#endif
(*info->tcount)--;
PR_Unlock(info->lock);
PR_Lock(info->exitlock);
(*info->exitcount)++;
PR_NotifyCondVar(info->exitcvar);
PR_Unlock(info->exitlock);
}
#if 0
printf("shared thread %ld terminating\n", info->id);
#endif
}
/* Thread that gets notified; no other threads use the same condvar */
void PR_CALLBACK
PrivateCondVarThread(void *_info)
{
threadinfo *info = (threadinfo *)_info;
PRInt32 index;
for (index=0; index<info->loops; index++) {
PR_Lock(info->lock);
if (*info->tcount == 0) {
DPRINTF(("PrivateCondVarThread: thread 0x%lx waiting on cvar = 0x%lx\n",
PR_GetCurrentThread(), info->cvar));
PR_WaitCondVar(info->cvar, info->timeout);
}
#if 0
printf("solo thread %ld notified in loop %ld\n", info->id, index);
#endif
(*info->tcount)--;
PR_Unlock(info->lock);
PR_Lock(info->exitlock);
(*info->exitcount)++;
PR_NotifyCondVar(info->exitcvar);
DPRINTF(("PrivateCondVarThread: thread 0x%lx notified exitcvar = 0x%lx cnt = %ld\n",
PR_GetCurrentThread(), info->exitcvar,(*info->exitcount)));
PR_Unlock(info->exitlock);
}
#if 0
printf("solo thread %ld terminating\n", info->id);
#endif
}
void
CreateTestThread(threadinfo *info,
PRInt32 id,
PRLock *lock,
PRCondVar *cvar,
PRInt32 loops,
PRIntervalTime timeout,
PRInt32 *tcount,
PRLock *exitlock,
PRCondVar *exitcvar,
PRInt32 *exitcount,
PRBool shared,
PRThreadScope scope)
{
info->id = id;
info->internal = (shared) ? PR_FALSE : PR_TRUE;
info->lock = lock;
info->cvar = cvar;
info->loops = loops;
info->timeout = timeout;
info->tcount = tcount;
info->exitlock = exitlock;
info->exitcvar = exitcvar;
info->exitcount = exitcount;
info->thread = PR_CreateThread(
PR_USER_THREAD,
shared?SharedCondVarThread:PrivateCondVarThread,
info,
PR_PRIORITY_NORMAL,
scope,
PR_JOINABLE_THREAD,
0);
if (!info->thread)
PL_PrintError("error creating thread\n");
}
void
CondVarTestSUU(void *_arg)
{
PRInt32 arg = (PRInt32)_arg;
PRInt32 index, loops;
threadinfo *list;
PRLock *sharedlock;
PRCondVar *sharedcvar;
PRLock *exitlock;
PRCondVar *exitcvar;
exitcount=0;
tcount=0;
list = (threadinfo *)PR_MALLOC(sizeof(threadinfo) * (arg * 4));
sharedlock = PR_NewLock();
sharedcvar = PR_NewCondVar(sharedlock);
exitlock = PR_NewLock();
exitcvar = PR_NewCondVar(exitlock);
/* Create the threads */
for(index=0; index<arg; ) {
CreateTestThread(&list[index],
index,
sharedlock,
sharedcvar,
count,
PR_INTERVAL_NO_TIMEOUT,
&tcount,
exitlock,
exitcvar,
&exitcount,
PR_TRUE,
PR_LOCAL_THREAD);
index++;
DPRINTF(("CondVarTestSUU: created thread 0x%lx\n",list[index].thread));
}
for (loops = 0; loops < count; loops++) {
/* Notify the threads */
for(index=0; index<(arg); index++) {
PR_Lock(list[index].lock);
(*list[index].tcount)++;
PR_NotifyCondVar(list[index].cvar);
PR_Unlock(list[index].lock);
DPRINTF(("PrivateCondVarThread: thread 0x%lx notified cvar = 0x%lx\n",
PR_GetCurrentThread(), list[index].cvar));
}
/* Wait for threads to finish */
PR_Lock(exitlock);
while(exitcount < arg)
PR_WaitCondVar(exitcvar, PR_SecondsToInterval(60));
PR_ASSERT(exitcount >= arg);
exitcount -= arg;
PR_Unlock(exitlock);
}
/* Join all the threads */
for(index=0; index<(arg); index++)
PR_JoinThread(list[index].thread);
PR_DestroyCondVar(sharedcvar);
PR_DestroyLock(sharedlock);
PR_DestroyCondVar(exitcvar);
PR_DestroyLock(exitlock);
PR_DELETE(list);
}
void
CondVarTestSUK(void *_arg)
{
PRInt32 arg = (PRInt32)_arg;
PRInt32 index, loops;
threadinfo *list;
PRLock *sharedlock;
PRCondVar *sharedcvar;
PRLock *exitlock;
PRCondVar *exitcvar;
exitcount=0;
tcount=0;
list = (threadinfo *)PR_MALLOC(sizeof(threadinfo) * (arg * 4));
sharedlock = PR_NewLock();
sharedcvar = PR_NewCondVar(sharedlock);
exitlock = PR_NewLock();
exitcvar = PR_NewCondVar(exitlock);
/* Create the threads */
for(index=0; index<arg; ) {
CreateTestThread(&list[index],
index,
sharedlock,
sharedcvar,
count,
PR_INTERVAL_NO_TIMEOUT,
&tcount,
exitlock,
exitcvar,
&exitcount,
PR_TRUE,
PR_GLOBAL_THREAD);
index++;
}
for (loops = 0; loops < count; loops++) {
/* Notify the threads */
for(index=0; index<(arg); index++) {
PR_Lock(list[index].lock);
(*list[index].tcount)++;
PR_NotifyCondVar(list[index].cvar);
PR_Unlock(list[index].lock);
}
#if 0
printf("wait for threads to be done\n");
#endif
/* Wait for threads to finish */
PR_Lock(exitlock);
while(exitcount < arg)
PR_WaitCondVar(exitcvar, PR_SecondsToInterval(60));
PR_ASSERT(exitcount >= arg);
exitcount -= arg;
PR_Unlock(exitlock);
#if 0
printf("threads ready\n");
#endif
}
/* Join all the threads */
for(index=0; index<(arg); index++)
PR_JoinThread(list[index].thread);
PR_DestroyCondVar(sharedcvar);
PR_DestroyLock(sharedlock);
PR_DestroyCondVar(exitcvar);
PR_DestroyLock(exitlock);
PR_DELETE(list);
}
void
CondVarTestPUU(void *_arg)
{
PRInt32 arg = (PRInt32)_arg;
PRInt32 index, loops;
threadinfo *list;
PRLock *sharedlock;
PRCondVar *sharedcvar;
PRLock *exitlock;
PRCondVar *exitcvar;
PRInt32 *tcount, *saved_tcount;
exitcount=0;
list = (threadinfo *)PR_MALLOC(sizeof(threadinfo) * (arg * 4));
saved_tcount = tcount = (PRInt32 *)PR_CALLOC(sizeof(*tcount) * (arg * 4));
sharedlock = PR_NewLock();
sharedcvar = PR_NewCondVar(sharedlock);
exitlock = PR_NewLock();
exitcvar = PR_NewCondVar(exitlock);
/* Create the threads */
for(index=0; index<arg; ) {
list[index].lock = PR_NewLock();
list[index].cvar = PR_NewCondVar(list[index].lock);
CreateTestThread(&list[index],
index,
list[index].lock,
list[index].cvar,
count,
PR_INTERVAL_NO_TIMEOUT,
tcount,
exitlock,
exitcvar,
&exitcount,
PR_FALSE,
PR_LOCAL_THREAD);
DPRINTF(("CondVarTestPUU: created thread 0x%lx\n",list[index].thread));
index++;
tcount++;
}
for (loops = 0; loops < count; loops++) {
/* Notify the threads */
for(index=0; index<(arg); index++) {
PR_Lock(list[index].lock);
(*list[index].tcount)++;
PR_NotifyCondVar(list[index].cvar);
PR_Unlock(list[index].lock);
}
PR_Lock(exitlock);
/* Wait for threads to finish */
while(exitcount < arg) {
DPRINTF(("CondVarTestPUU: thread 0x%lx waiting on exitcvar = 0x%lx cnt = %ld\n",
PR_GetCurrentThread(), exitcvar, exitcount));
PR_WaitCondVar(exitcvar, PR_SecondsToInterval(60));
}
PR_ASSERT(exitcount >= arg);
exitcount -= arg;
PR_Unlock(exitlock);
}
/* Join all the threads */
for(index=0; index<(arg); index++) {
DPRINTF(("CondVarTestPUU: joining thread 0x%lx\n",list[index].thread));
PR_JoinThread(list[index].thread);
if (list[index].internal) {
PR_Lock(list[index].lock);
PR_DestroyCondVar(list[index].cvar);
PR_Unlock(list[index].lock);
PR_DestroyLock(list[index].lock);
}
}
PR_DestroyCondVar(sharedcvar);
PR_DestroyLock(sharedlock);
PR_DestroyCondVar(exitcvar);
PR_DestroyLock(exitlock);
PR_DELETE(list);
PR_DELETE(saved_tcount);
}
void
CondVarTestPUK(void *_arg)
{
PRInt32 arg = (PRInt32)_arg;
PRInt32 index, loops;
threadinfo *list;
PRLock *sharedlock;
PRCondVar *sharedcvar;
PRLock *exitlock;
PRCondVar *exitcvar;
PRInt32 *tcount, *saved_tcount;
exitcount=0;
list = (threadinfo *)PR_MALLOC(sizeof(threadinfo) * (arg * 4));
saved_tcount = tcount = (PRInt32 *)PR_CALLOC(sizeof(*tcount) * (arg * 4));
sharedlock = PR_NewLock();
sharedcvar = PR_NewCondVar(sharedlock);
exitlock = PR_NewLock();
exitcvar = PR_NewCondVar(exitlock);
/* Create the threads */
for(index=0; index<arg; ) {
list[index].lock = PR_NewLock();
list[index].cvar = PR_NewCondVar(list[index].lock);
CreateTestThread(&list[index],
index,
list[index].lock,
list[index].cvar,
count,
PR_INTERVAL_NO_TIMEOUT,
tcount,
exitlock,
exitcvar,
&exitcount,
PR_FALSE,
PR_GLOBAL_THREAD);
index++;
tcount++;
}
for (loops = 0; loops < count; loops++) {
/* Notify the threads */
for(index=0; index<(arg); index++) {
PR_Lock(list[index].lock);
(*list[index].tcount)++;
PR_NotifyCondVar(list[index].cvar);
PR_Unlock(list[index].lock);
}
/* Wait for threads to finish */
PR_Lock(exitlock);
while(exitcount < arg)
PR_WaitCondVar(exitcvar, PR_SecondsToInterval(60));
PR_ASSERT(exitcount >= arg);
exitcount -= arg;
PR_Unlock(exitlock);
}
/* Join all the threads */
for(index=0; index<(arg); index++) {
PR_JoinThread(list[index].thread);
if (list[index].internal) {
PR_Lock(list[index].lock);
PR_DestroyCondVar(list[index].cvar);
PR_Unlock(list[index].lock);
PR_DestroyLock(list[index].lock);
}
}
PR_DestroyCondVar(sharedcvar);
PR_DestroyLock(sharedlock);
PR_DestroyCondVar(exitcvar);
PR_DestroyLock(exitlock);
PR_DELETE(list);
PR_DELETE(saved_tcount);
}
void
CondVarTest(void *_arg)
{
PRInt32 arg = (PRInt32)_arg;
PRInt32 index, loops;
threadinfo *list;
PRLock *sharedlock;
PRCondVar *sharedcvar;
PRLock *exitlock;
PRCondVar *exitcvar;
PRInt32 *ptcount, *saved_ptcount;
exitcount=0;
tcount=0;
list = (threadinfo *)PR_MALLOC(sizeof(threadinfo) * (arg * 4));
saved_ptcount = ptcount = (PRInt32 *)PR_CALLOC(sizeof(*ptcount) * (arg * 4));
sharedlock = PR_NewLock();
sharedcvar = PR_NewCondVar(sharedlock);
exitlock = PR_NewLock();
exitcvar = PR_NewCondVar(exitlock);
/* Create the threads */
for(index=0; index<arg*4; ) {
CreateTestThread(&list[index],
index,
sharedlock,
sharedcvar,
count,
PR_INTERVAL_NO_TIMEOUT,
&tcount,
exitlock,
exitcvar,
&exitcount,
PR_TRUE,
PR_LOCAL_THREAD);
index++;
CreateTestThread(&list[index],
index,
sharedlock,
sharedcvar,
count,
PR_INTERVAL_NO_TIMEOUT,
&tcount,
exitlock,
exitcvar,
&exitcount,
PR_TRUE,
PR_GLOBAL_THREAD);
index++;
list[index].lock = PR_NewLock();
list[index].cvar = PR_NewCondVar(list[index].lock);
CreateTestThread(&list[index],
index,
list[index].lock,
list[index].cvar,
count,
PR_INTERVAL_NO_TIMEOUT,
ptcount,
exitlock,
exitcvar,
&exitcount,
PR_FALSE,
PR_LOCAL_THREAD);
index++;
ptcount++;
list[index].lock = PR_NewLock();
list[index].cvar = PR_NewCondVar(list[index].lock);
CreateTestThread(&list[index],
index,
list[index].lock,
list[index].cvar,
count,
PR_INTERVAL_NO_TIMEOUT,
ptcount,
exitlock,
exitcvar,
&exitcount,
PR_FALSE,
PR_GLOBAL_THREAD);
index++;
ptcount++;
}
for (loops = 0; loops < count; loops++) {
/* Notify the threads */
for(index=0; index<(arg*4); index++) {
PR_Lock(list[index].lock);
(*list[index].tcount)++;
PR_NotifyCondVar(list[index].cvar);
PR_Unlock(list[index].lock);
}
#if 0
printf("wait for threads done\n");
#endif
/* Wait for threads to finish */
PR_Lock(exitlock);
while(exitcount < arg*4)
PR_WaitCondVar(exitcvar, PR_SecondsToInterval(60));
PR_ASSERT(exitcount >= arg*4);
exitcount -= arg*4;
PR_Unlock(exitlock);
#if 0
printf("threads ready\n");
#endif
}
/* Join all the threads */
for(index=0; index<(arg*4); index++) {
PR_JoinThread(list[index].thread);
if (list[index].internal) {
PR_Lock(list[index].lock);
PR_DestroyCondVar(list[index].cvar);
PR_Unlock(list[index].lock);
PR_DestroyLock(list[index].lock);
}
}
PR_DestroyCondVar(sharedcvar);
PR_DestroyLock(sharedlock);
PR_DestroyCondVar(exitcvar);
PR_DestroyLock(exitlock);
PR_DELETE(list);
PR_DELETE(saved_ptcount);
}
void
CondVarTimeoutTest(void *_arg)
{
PRInt32 arg = (PRInt32)_arg;
PRInt32 index, loops;
threadinfo *list;
PRLock *sharedlock;
PRCondVar *sharedcvar;
PRLock *exitlock;
PRCondVar *exitcvar;
list = (threadinfo *)PR_MALLOC(sizeof(threadinfo) * (arg * 4));
sharedlock = PR_NewLock();
sharedcvar = PR_NewCondVar(sharedlock);
exitlock = PR_NewLock();
exitcvar = PR_NewCondVar(exitlock);
/* Create the threads */
for(index=0; index<arg*4; ) {
CreateTestThread(&list[index],
index,
sharedlock,
sharedcvar,
count,
PR_MillisecondsToInterval(50),
&tcount,
exitlock,
exitcvar,
&exitcount,
PR_TRUE,
PR_LOCAL_THREAD);
index++;
CreateTestThread(&list[index],
index,
sharedlock,
sharedcvar,
count,
PR_MillisecondsToInterval(50),
&tcount,
exitlock,
exitcvar,
&exitcount,
PR_TRUE,
PR_GLOBAL_THREAD);
index++;
list[index].lock = PR_NewLock();
list[index].cvar = PR_NewCondVar(list[index].lock);
CreateTestThread(&list[index],
index,
list[index].lock,
list[index].cvar,
count,
PR_MillisecondsToInterval(50),
&tcount,
exitlock,
exitcvar,
&exitcount,
PR_FALSE,
PR_LOCAL_THREAD);
index++;
list[index].lock = PR_NewLock();
list[index].cvar = PR_NewCondVar(list[index].lock);
CreateTestThread(&list[index],
index,
list[index].lock,
list[index].cvar,
count,
PR_MillisecondsToInterval(50),
&tcount,
exitlock,
exitcvar,
&exitcount,
PR_FALSE,
PR_GLOBAL_THREAD);
index++;
}
for (loops = 0; loops < count; loops++) {
/* Wait for threads to finish */
PR_Lock(exitlock);
while(exitcount < arg*4)
PR_WaitCondVar(exitcvar, PR_SecondsToInterval(60));
PR_ASSERT(exitcount >= arg*4);
exitcount -= arg*4;
PR_Unlock(exitlock);
}
/* Join all the threads */
for(index=0; index<(arg*4); index++) {
PR_JoinThread(list[index].thread);
if (list[index].internal) {
PR_Lock(list[index].lock);
PR_DestroyCondVar(list[index].cvar);
PR_Unlock(list[index].lock);
PR_DestroyLock(list[index].lock);
}
}
PR_DestroyCondVar(sharedcvar);
PR_DestroyLock(sharedlock);
PR_DestroyCondVar(exitcvar);
PR_DestroyLock(exitlock);
PR_DELETE(list);
}
void
CondVarMixedTest(void *_arg)
{
PRInt32 arg = (PRInt32)_arg;
PRInt32 index, loops;
threadinfo *list;
PRLock *sharedlock;
PRCondVar *sharedcvar;
PRLock *exitlock;
PRCondVar *exitcvar;
PRInt32 *ptcount;
exitcount=0;
tcount=0;
list = (threadinfo *)PR_MALLOC(sizeof(threadinfo) * (arg * 4));
ptcount = (PRInt32 *)PR_CALLOC(sizeof(*ptcount) * (arg * 4));
sharedlock = PR_NewLock();
sharedcvar = PR_NewCondVar(sharedlock);
exitlock = PR_NewLock();
exitcvar = PR_NewCondVar(exitlock);
/* Create the threads */
for(index=0; index<arg*4; ) {
CreateTestThread(&list[index],
index,
sharedlock,
sharedcvar,
count,
PR_MillisecondsToInterval(50),
&tcount,
exitlock,
exitcvar,
&exitcount,
PR_TRUE,
PR_LOCAL_THREAD);
index++;
CreateTestThread(&list[index],
index,
sharedlock,
sharedcvar,
count,
PR_MillisecondsToInterval(50),
&tcount,
exitlock,
exitcvar,
&exitcount,
PR_TRUE,
PR_GLOBAL_THREAD);
index++;
list[index].lock = PR_NewLock();
list[index].cvar = PR_NewCondVar(list[index].lock);
CreateTestThread(&list[index],
index,
list[index].lock,
list[index].cvar,
count,
PR_MillisecondsToInterval(50),
ptcount,
exitlock,
exitcvar,
&exitcount,
PR_FALSE,
PR_LOCAL_THREAD);
index++;
ptcount++;
list[index].lock = PR_NewLock();
list[index].cvar = PR_NewCondVar(list[index].lock);
CreateTestThread(&list[index],
index,
list[index].lock,
list[index].cvar,
count,
PR_MillisecondsToInterval(50),
ptcount,
exitlock,
exitcvar,
&exitcount,
PR_FALSE,
PR_GLOBAL_THREAD);
index++;
ptcount++;
}
/* Notify every 3rd thread */
for (loops = 0; loops < count; loops++) {
/* Notify the threads */
for(index=0; index<(arg*4); index+=3) {
PR_Lock(list[index].lock);
*list[index].tcount++;
PR_NotifyCondVar(list[index].cvar);
PR_Unlock(list[index].lock);
}
/* Wait for threads to finish */
PR_Lock(exitlock);
while(exitcount < arg*4)
PR_WaitCondVar(exitcvar, PR_SecondsToInterval(60));
PR_ASSERT(exitcount >= arg*4);
exitcount -= arg*4;
PR_Unlock(exitlock);
}
/* Join all the threads */
for(index=0; index<(arg*4); index++) {
PR_JoinThread(list[index].thread);
if (list[index].internal) {
PR_Lock(list[index].lock);
PR_DestroyCondVar(list[index].cvar);
PR_Unlock(list[index].lock);
PR_DestroyLock(list[index].lock);
}
}
PR_DestroyCondVar(sharedcvar);
PR_DestroyLock(sharedlock);
PR_DELETE(list);
}
void
CondVarCombinedTest(void *arg)
{
PRThread *threads[3];
threads[0] = PR_CreateThread(PR_USER_THREAD,
CondVarTest,
(void *)arg,
PR_PRIORITY_NORMAL,
PR_GLOBAL_THREAD,
PR_JOINABLE_THREAD,
0);
threads[1] = PR_CreateThread(PR_USER_THREAD,
CondVarTimeoutTest,
(void *)arg,
PR_PRIORITY_NORMAL,
PR_GLOBAL_THREAD,
PR_JOINABLE_THREAD,
0);
threads[2] = PR_CreateThread(PR_USER_THREAD,
CondVarMixedTest,
(void *)arg,
PR_PRIORITY_NORMAL,
PR_GLOBAL_THREAD,
PR_JOINABLE_THREAD,
0);
PR_JoinThread(threads[0]);
PR_JoinThread(threads[1]);
PR_JoinThread(threads[2]);
}
/************************************************************************/
static void Measure(void (*func)(void *), PRInt32 arg, const char *msg)
{
PRIntervalTime start, stop;
double d;
start = PR_IntervalNow();
(*func)((void *)arg);
stop = PR_IntervalNow();
d = (double)PR_IntervalToMicroseconds(stop - start);
printf("%40s: %6.2f usec\n", msg, d / count);
}
static PRIntn PR_CALLBACK RealMain(int argc, char **argv)
{
PRInt32 threads, default_threads = DEFAULT_THREADS;
PLOptStatus os;
PLOptState *opt = PL_CreateOptState(argc, argv, "vc:t:");
while (PL_OPT_EOL != (os = PL_GetNextOpt(opt)))
{
if (PL_OPT_BAD == os) continue;
switch (opt->option)
{
case 'v': /* debug mode */
_debug_on = 1;
break;
case 'c': /* loop counter */
count = atoi(opt->value);
break;
case 't': /* number of threads involved */
default_threads = atoi(opt->value);
break;
default:
break;
}
}
PL_DestroyOptState(opt);
if (0 == count) count = DEFAULT_COUNT;
if (0 == default_threads) default_threads = DEFAULT_THREADS;
#ifdef XP_MAC
SetupMacPrintfLog("cvar2.log");
#endif
printf("\n\
CondVar Test: \n\
\n\
Simple test creates several local and global threads; half use a single,\n\
shared condvar, and the other half have their own condvar. The main \n\
thread then loops notifying them to wakeup. \n\
\n\
The timeout test is very similar except that the threads are not \n\
notified. They will all wakeup on a 1 second timeout. \n\
\n\
The mixed test combines the simple test and the timeout test; every \n\
third thread is notified, the other threads are expected to timeout \n\
correctly. \n\
\n\
Lastly, the combined test creates a thread for each of the above three \n\
cases and they all run simultaneously. \n\
\n\
This test is run with %d, %d, %d, and %d threads of each type.\n\n",
default_threads, default_threads*2, default_threads*3, default_threads*4);
PR_SetConcurrency(2);
for (threads = default_threads; threads < default_threads*5; threads+=default_threads) {
printf("\n%ld Thread tests\n", threads);
Measure(CondVarTestSUU, threads, "Condvar simple test shared UU");
Measure(CondVarTestSUK, threads, "Condvar simple test shared UK");
Measure(CondVarTestPUU, threads, "Condvar simple test priv UU");
Measure(CondVarTestPUK, threads, "Condvar simple test priv UK");
#ifdef XP_MAC
/* Mac heaps can't handle thread*4 stack allocations at a time for (10, 15, 20)*4 */
Measure(CondVarTest, 5, "Condvar simple test All");
Measure(CondVarTimeoutTest, 5, "Condvar timeout test");
#else
Measure(CondVarTest, threads, "Condvar simple test All");
Measure(CondVarTimeoutTest, threads, "Condvar timeout test");
#endif
#if 0
Measure(CondVarMixedTest, threads, "Condvar mixed timeout test");
Measure(CondVarCombinedTest, threads, "Combined condvar test");
#endif
}
printf("PASS\n");
return 0;
}
PRIntn main(PRIntn argc, char *argv[])
{
PRIntn rv;
PR_STDIO_INIT();
rv = PR_Initialize(RealMain, argc, argv, 0);
return rv;
} /* main */