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/*
** File: tpd.cpp
** Description: Exercising the thread private data bailywick.
*/
#include "prlog.h"
#include "prprf.h"
#include "rcthread.h"
#include <string.h>
#include "plgetopt.h"
/*
** class MyThread
*/
class MyThread: public RCThread
{
public:
MyThread();
private:
~MyThread();
void RootFunction();
}; /* MyThread */
/*
** class MyPrivateData
*/
class MyPrivateData: public RCThreadPrivateData
{
public:
virtual ~MyPrivateData();
MyPrivateData();
MyPrivateData(char*);
MyPrivateData(const MyPrivateData&);
void Release();
private:
char *string;
}; /* MyPrivateData */
static PRUintn key[128];
static PRIntn debug = 0;
static PRBool failed = PR_FALSE;
static PRBool should = PR_TRUE;
static PRBool did = PR_TRUE;
static PRFileDesc *fout = NULL;
static void PrintProgress(PRIntn line)
{
failed = failed || (should && !did);
failed = failed || (!should && did);
if (debug > 0)
{
PR_fprintf(
fout, "@ line %d destructor should %shave been called and was%s\n",
line, ((should) ? "" : "NOT "), ((did) ? "" : " NOT"));
}
} /* PrintProgress */
static void MyAssert(const char *expr, const char *file, PRIntn line)
{
if (debug > 0)
(void)PR_fprintf(fout, "'%s' in file: %s: %d\n", expr, file, line);
} /* MyAssert */
#define MY_ASSERT(_expr) \
((_expr)?((void)0):MyAssert(# _expr,__FILE__,__LINE__))
int main(PRIntn argc, char *argv[])
{
PRStatus rv;
PRUintn keys;
MyThread *thread;
const RCThreadPrivateData *pd;
PLOptStatus os;
PLOptState *opt = PL_CreateOptState(argc, argv, "d");
RCThread *primordial = RCThread::WrapPrimordialThread();
while (PL_OPT_EOL != (os = PL_GetNextOpt(opt)))
{
if (PL_OPT_BAD == os) continue;
switch (opt->option)
{
case 'd': /* debug mode */
debug = PR_TRUE;
break;
default:
break;
}
}
PL_DestroyOptState(opt);
fout = PR_STDOUT;
MyPrivateData extension = MyPrivateData("EXTENSION");
MyPrivateData key_string[] = {
"Key #0", "Key #1", "Key #2", "Key #3",
"Bogus #5", "Bogus #6", "Bogus #7", "Bogus #8"};
did = should = PR_FALSE;
for (keys = 0; keys < 4; ++keys)
{
rv = RCThread::NewPrivateIndex(&key[keys]);
key[keys + 4] = key[keys] + 4;
MY_ASSERT(PR_SUCCESS == rv);
}
PrintProgress(__LINE__);
/* the first four should be bu null, the last four undefined and null */
did = should = PR_FALSE;
for (keys = 0; keys < 8; ++keys)
{
pd = RCThread::GetPrivateData(key[keys]);
MY_ASSERT(NULL == pd);
}
PrintProgress(__LINE__);
/* initially set private data for new keys */
did = should = PR_FALSE;
for (keys = 0; keys < 4; ++keys)
{
rv = RCThread::SetPrivateData(key[keys], &key_string[keys]);
MY_ASSERT(PR_SUCCESS == rv);
}
PrintProgress(__LINE__);
/* re-assign the private data, albeit the same content */
did = PR_FALSE; should = PR_TRUE;
for (keys = 0; keys < 4; ++keys)
{
pd = RCThread::GetPrivateData(key[keys]);
PR_ASSERT(NULL != pd);
rv = RCThread::SetPrivateData(key[keys], &key_string[keys]);
MY_ASSERT(PR_SUCCESS == rv);
}
PrintProgress(__LINE__);
/* set private to <empty> */
did = PR_FALSE; should = PR_TRUE;
for (keys = 0; keys < 4; ++keys)
{
rv = RCThread::SetPrivateData(key[keys]);
MY_ASSERT(PR_SUCCESS == rv);
}
PrintProgress(__LINE__);
/* should all be null now */
did = should = PR_FALSE;
for (keys = 0; keys < 4; ++keys)
{
pd = RCThread::GetPrivateData(key[keys]);
PR_ASSERT(NULL == pd);
}
PrintProgress(__LINE__);
/* allocate another batch of keys and assign data to them */
did = should = PR_FALSE;
for (keys = 8; keys < 127; ++keys)
{
rv = RCThread::NewPrivateIndex(&key[keys]);
MY_ASSERT(PR_SUCCESS == rv);
rv = RCThread::SetPrivateData(key[keys], &extension);
MY_ASSERT(PR_SUCCESS == rv);
}
PrintProgress(__LINE__);
/* set all the extended slots to <empty> */
did = PR_FALSE; should = PR_TRUE;
for (keys = 8; keys < 127; ++keys)
{
rv = RCThread::SetPrivateData(key[keys]);
MY_ASSERT(PR_SUCCESS == rv);
}
PrintProgress(__LINE__);
/* set all the extended slots to <empty> again (noop) */
did = should = PR_FALSE;
for (keys = 8; keys < 127; ++keys)
{
rv = RCThread::SetPrivateData(key[keys]);
MY_ASSERT(PR_SUCCESS == rv);
}
if (debug) PR_fprintf(fout, "Creating thread\n");
thread = new MyThread();
if (debug) PR_fprintf(fout, "Starting thread\n");
thread->Start();
if (debug) PR_fprintf(fout, "Joining thread\n");
(void)thread->Join();
if (debug) PR_fprintf(fout, "Joined thread\n");
failed |= (PR_FAILURE == RCPrimordialThread::Cleanup());
(void)PR_fprintf(
fout, "%s\n",((PR_TRUE == failed) ? "FAILED" : "PASSED"));
return (failed) ? 1 : 0;
} /* main */
/*
** class MyPrivateData
*/
MyPrivateData::~MyPrivateData()
{
PR_fprintf(
fout, "MyPrivateData::~MyPrivateData[%s]\n",
(NULL != string) ? string : "NULL");
} /* MyPrivateData::~MyPrivateData */
MyPrivateData::MyPrivateData(): RCThreadPrivateData()
{
PR_fprintf(fout, "MyPrivateData::MyPrivateData()\n");
string = NULL;
} /* MyPrivateData::MyPrivateData */
MyPrivateData::MyPrivateData(char* data): RCThreadPrivateData()
{
PR_fprintf(fout, "MyPrivateData::MyPrivateData(char* data)\n");
string = data;
} /* MyPrivateData:: MyPrivateData */
MyPrivateData::MyPrivateData(const MyPrivateData& him): RCThreadPrivateData(him)
{
PR_fprintf(fout, "MyPrivateData::MyPrivateData(const MyPrivateData& him)\n");
string = him.string;
} /* MyPrivateData:: MyPrivateData */
void MyPrivateData::Release()
{
if (should) did = PR_TRUE;
else failed = PR_TRUE;
} /* MyPrivateData::operator= */
/*
** class MyThread
*/
MyThread::~MyThread() { }
MyThread::MyThread(): RCThread(RCThread::global, RCThread::joinable) { }
void MyThread::RootFunction()
{
PRStatus rv;
PRUintn keys;
const RCThreadPrivateData *pd;
MyPrivateData extension = MyPrivateData("EXTENSION");
MyPrivateData key_string[] = {
"Key #0", "Key #1", "Key #2", "Key #3",
"Bogus #5", "Bogus #6", "Bogus #7", "Bogus #8"};
did = should = PR_FALSE;
for (keys = 0; keys < 8; ++keys)
{
pd = GetPrivateData(key[keys]);
MY_ASSERT(NULL == pd);
}
PrintProgress(__LINE__);
did = should = PR_FALSE;
for (keys = 0; keys < 4; ++keys)
{
rv = SetPrivateData(keys, &key_string[keys]);
MY_ASSERT(PR_SUCCESS == rv);
}
PrintProgress(__LINE__);
#if !defined(DEBUG)
did = should = PR_FALSE;
for (keys = 4; keys < 8; ++keys)
{
rv = SetPrivateData(keys, &key_string[keys]);
MY_ASSERT(PR_FAILURE == rv);
}
PrintProgress(__LINE__);
#endif
did = PR_FALSE; should = PR_TRUE;
for (keys = 0; keys < 4; ++keys)
{
rv = SetPrivateData(key[keys], &key_string[keys]);
MY_ASSERT(PR_SUCCESS == rv);
}
PrintProgress(__LINE__);
did = PR_FALSE; should = PR_TRUE;
for (keys = 0; keys < 4; ++keys)
{
rv = SetPrivateData(key[keys]);
MY_ASSERT(PR_SUCCESS == rv);
}
PrintProgress(__LINE__);
did = should = PR_FALSE;
for (keys = 0; keys < 4; ++keys)
{
rv = SetPrivateData(key[keys]);
MY_ASSERT(PR_SUCCESS == rv);
}
PrintProgress(__LINE__);
did = should = PR_FALSE;
for (keys = 8; keys < 127; ++keys)
{
rv = SetPrivateData(key[keys], &extension);
MY_ASSERT(PR_SUCCESS == rv);
}
PrintProgress(__LINE__);
did = PR_FALSE; should = PR_TRUE;
for (keys = 8; keys < 127; ++keys)
{
rv = SetPrivateData(key[keys]);
MY_ASSERT(PR_SUCCESS == rv);
}
PrintProgress(__LINE__);
did = should = PR_FALSE;
for (keys = 8; keys < 127; ++keys)
{
rv = SetPrivateData(key[keys]);
MY_ASSERT(PR_SUCCESS == rv);
}
} /* MyThread::RootFunction */
/* tpd.c */
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