/*
* $Id: t-test1.c,v 1.2 2004/11/04 14:58:45 wg Exp $
* by Wolfram Gloger 1996-1999, 2001, 2004
* A multi-thread test for malloc performance, maintaining one pool of
* allocated bins per thread.
*/
#if (defined __STDC__ && __STDC__) || defined __cplusplus
# include <stdlib.h>
#endif
#include <stdio.h>
#include <unistd.h>
#include <sys/types.h>
#include <sys/time.h>
#include <sys/resource.h>
#include <sys/wait.h>
#include <sys/mman.h>
#if !USE_MALLOC
#include <malloc.h>
#else
#include "malloc.h"
#endif
#include "lran2.h"
#include "t-test.h"
struct user_data {
int bins, max;
unsigned long size;
long seed;
};
#include "thread-st.h"
#define N_TOTAL 10
#ifndef N_THREADS
#define N_THREADS 2
#endif
#ifndef N_TOTAL_PRINT
#define N_TOTAL_PRINT 50
#endif
#ifndef MEMORY
#define MEMORY 8000000l
#endif
#define SIZE 10000
#define I_MAX 10000
#define ACTIONS_MAX 30
#ifndef TEST_FORK
#define TEST_FORK 0
#endif
#define RANDOM(d,s) (lran2(d) % (s))
struct bin_info {
struct bin *m;
unsigned long size, bins;
};
#if TEST > 0
void
bin_test(struct bin_info *p)
{
int b;
for(b=0; b<p->bins; b++) {
if(mem_check(p->m[b].ptr, p->m[b].size)) {
printf("memory corrupt!\n");
abort();
}
}
}
#endif
void
malloc_test(struct thread_st *st)
{
int b, i, j, actions, pid = 1;
struct bin_info p;
struct lran2_st ld; /* data for random number generator */
lran2_init(&ld, st->u.seed);
#if TEST_FORK>0
if(RANDOM(&ld, TEST_FORK) == 0) {
int status;
#if !USE_THR
pid = fork();
#else
pid = fork1();
#endif
if(pid > 0) {
/*printf("forked, waiting for %d...\n", pid);*/
waitpid(pid, &status, 0);
printf("done with %d...\n", pid);
if(!WIFEXITED(status)) {
printf("child term with signal %d\n", WTERMSIG(status));
exit(1);
}
return;
}
exit(0);
}
#endif
p.m = (struct bin *)malloc(st->u.bins*sizeof(*p.m));
p.bins = st->u.bins;
p.size = st->u.size;
for(b=0; b<p.bins; b++) {
p.m[b].size = 0;
p.m[b].ptr = NULL;
if(RANDOM(&ld, 2) == 0)
bin_alloc(&p.m[b], RANDOM(&ld, p.size) + 1, lran2(&ld));
}
for(i=0; i<=st->u.max;) {
#if TEST > 1
bin_test(&p);
#endif
actions = RANDOM(&ld, ACTIONS_MAX);
#if USE_MALLOC && MALLOC_DEBUG
if(actions < 2) { mallinfo(); }
#endif
for(j=0; j<actions; j++) {
b = RANDOM(&ld, p.bins);
bin_free(&p.m[b]);
}
i += actions;
actions = RANDOM(&ld, ACTIONS_MAX);
for(j=0; j<actions; j++) {
b = RANDOM(&ld, p.bins);
bin_alloc(&p.m[b], RANDOM(&ld, p.size) + 1, lran2(&ld));
#if TEST > 2
bin_test(&p);
#endif
}
#if 0 /* Test illegal free()s while setting MALLOC_CHECK_ */
for(j=0; j<8; j++) {
b = RANDOM(&ld, p.bins);
if(p.m[b].ptr) {
int offset = (RANDOM(&ld, 11) - 5)*8;
char *rogue = (char*)(p.m[b].ptr) + offset;
/*printf("p=%p rogue=%p\n", p.m[b].ptr, rogue);*/
free(rogue);
}
}
#endif
i += actions;
}
for(b=0; b<p.bins; b++)
bin_free(&p.m[b]);
free(p.m);
if(pid == 0)
exit(0);
}
int n_total=0, n_total_max=N_TOTAL, n_running;
int
my_end_thread(struct thread_st *st)
{
/* Thread st has finished. Start a new one. */
#if 0
printf("Thread %lx terminated.\n", (long)st->id);
#endif
if(n_total >= n_total_max) {
n_running--;
} else if(st->u.seed++, thread_create(st)) {
printf("Creating thread #%d failed.\n", n_total);
} else {
n_total++;
if(n_total%N_TOTAL_PRINT == 0)
printf("n_total = %d\n", n_total);
}
return 0;
}
#if 0
/* Protect address space for allocation of n threads by LinuxThreads. */
static void
protect_stack(int n)
{
char buf[2048*1024];
char* guard;
size_t guard_size = 2*2048*1024UL*(n+2);
buf[0] = '\0';
guard = (char*)(((unsigned long)buf - 4096)& ~4095UL) - guard_size;
printf("Setting up stack guard at %p\n", guard);
if(mmap(guard, guard_size, PROT_NONE, MAP_PRIVATE|MAP_ANONYMOUS|MAP_FIXED,
-1, 0)
!= guard)
printf("failed!\n");
}
#endif
int
main(int argc, char *argv[])
{
int i, bins;
int n_thr=N_THREADS;
int i_max=I_MAX;
unsigned long size=SIZE;
struct thread_st *st;
#if USE_MALLOC && USE_STARTER==2
ptmalloc_init();
printf("ptmalloc_init\n");
#endif
if(argc > 1) n_total_max = atoi(argv[1]);
if(n_total_max < 1) n_thr = 1;
if(argc > 2) n_thr = atoi(argv[2]);
if(n_thr < 1) n_thr = 1;
if(n_thr > 100) n_thr = 100;
if(argc > 3) i_max = atoi(argv[3]);
if(argc > 4) size = atol(argv[4]);
if(size < 2) size = 2;
bins = MEMORY/(size*n_thr);
if(argc > 5) bins = atoi(argv[5]);
if(bins < 4) bins = 4;
/*protect_stack(n_thr);*/
thread_init();
printf("total=%d threads=%d i_max=%d size=%ld bins=%d\n",
n_total_max, n_thr, i_max, size, bins);
st = (struct thread_st *)malloc(n_thr*sizeof(*st));
if(!st) exit(-1);
#if !defined NO_THREADS && (defined __sun__ || defined sun)
/* I know of no other way to achieve proper concurrency with Solaris. */
thr_setconcurrency(n_thr);
#endif
/* Start all n_thr threads. */
for(i=0; i<n_thr; i++) {
st[i].u.bins = bins;
st[i].u.max = i_max;
st[i].u.size = size;
st[i].u.seed = ((long)i_max*size + i) ^ bins;
st[i].sp = 0;
st[i].func = malloc_test;
if(thread_create(&st[i])) {
printf("Creating thread #%d failed.\n", i);
n_thr = i;
break;
}
printf("Created thread %lx.\n", (long)st[i].id);
}
/* Start an extra thread so we don't run out of stacks. */
if(0) {
struct thread_st lst;
lst.u.bins = 10; lst.u.max = 20; lst.u.size = 8000; lst.u.seed = 8999;
lst.sp = 0;
lst.func = malloc_test;
if(thread_create(&lst)) {
printf("Creating thread #%d failed.\n", i);
} else {
wait_for_thread(&lst, 1, NULL);
}
}
for(n_running=n_total=n_thr; n_running>0;) {
wait_for_thread(st, n_thr, my_end_thread);
}
for(i=0; i<n_thr; i++) {
free(st[i].sp);
}
free(st);
#if USE_MALLOC
malloc_stats();
#endif
printf("Done.\n");
return 0;
}
/*
* Local variables:
* tab-width: 4
* End:
*/
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