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test.c
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test.c
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/*
* File: test.c
* Author: Vincent Gramoli <[email protected]>,
* Vasileios Trigonakis <[email protected]>
* Description:
* test.c is part of ASCYLIB
*
* Copyright (c) 2014 Vasileios Trigonakis <[email protected]>,
* Tudor David <[email protected]>
* Distributed Programming Lab (LPD), EPFL
*
* ASCYLIB 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, version 2
* of the License.
*
* 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.
*
*/
#include "intset.h"
#include "utils.h"
__thread unsigned long* seeds;
ALIGNED(64) uint8_t running[64];
typedef ALIGNED(64) struct thread_data
{
skey_t first;
long range;
int update;
int alternate;
int effective;
int nb_threads;
unsigned long nb_add;
unsigned long nb_added;
unsigned long nb_remove;
unsigned long nb_removed;
unsigned long nb_contains;
unsigned long nb_found;
unsigned long nb_aborts;
unsigned long nb_aborts_locked_read;
unsigned long nb_aborts_locked_write;
unsigned long nb_aborts_validate_read;
unsigned long nb_aborts_validate_write;
unsigned long nb_aborts_validate_commit;
unsigned long nb_aborts_invalid_memory;
unsigned long nb_aborts_double_write;
unsigned long max_retries;
unsigned int seed;
intset_t *set;
barrier_t *barrier;
barrier_t *barrier_workers;
unsigned long failures_because_contention;
int id;
uint8_t padding[48];
} thread_data_t;
void*
test(void *data)
{
PF_MSG(0, "rand_range");
PF_MSG(1, "malloc");
PF_MSG(2, "free");
PF_MSG(3, "search");
int unext, last = -1;
skey_t val = 0;
thread_data_t *d = (thread_data_t *)data;
set_cpu(d->id);
/* Wait on barrier */
ssalloc_init();
PF_CORRECTION;
seeds = seed_rand();
barrier_cross(d->barrier);
/* Is the first op an update? */
unext = (rand_range_re(&d->seed, 100) - 1 < d->update);
/* while (stop == 0) */
while (*running)
{
if (unext) { // update
if (last < 0) { // add
val = rand_range_re(&d->seed, d->range);
if (set_add(d->set, val, TRANSACTIONAL)) {
d->nb_added++;
last = val;
}
d->nb_add++;
} else { // remove
if (d->alternate) { // alternate mode (default)
if (set_remove(d->set, last)) {
d->nb_removed++;
}
last = -1;
} else {
/* Random computation only in non-alternated cases */
val = rand_range_re(&d->seed, d->range);
/* Remove one random value */
if (set_remove(d->set, val)) {
d->nb_removed++;
/* Repeat until successful, to avoid size variations */
last = -1;
}
}
d->nb_remove++;
}
} else { // read
if (d->alternate) {
if (d->update == 0) {
if (last < 0) {
val = d->first;
last = val;
} else { // last >= 0
val = rand_range_re(&d->seed, d->range);
last = -1;
}
} else { // update != 0
if (last < 0) {
val = rand_range_re(&d->seed, d->range);
//last = val;
} else {
val = last;
}
}
} else val = rand_range_re(&d->seed, d->range);
if (set_contains(d->set, val))
d->nb_found++;
d->nb_contains++;
}
/* Is the next op an update? */
if (d->effective) { // a failed remove/add is a read-only tx
unext = ((100 * (d->nb_added + d->nb_removed))
< (d->update * (d->nb_add + d->nb_remove + d->nb_contains)));
} else { // remove/add (even failed) is considered as an update
unext = (rand_range_re(&d->seed, 100) - 1 < d->update);
}
}
uint8_t t;
for (t = 0; t < d->nb_threads; t++)
{
if (t == d->id)
{
PF_PRINT;
}
barrier_cross(d->barrier_workers);
}
return NULL;
}
int test_verbose = 0;
int
main(int argc, char **argv)
{
set_cpu(0);
ssalloc_init();
seeds = seed_rand();
struct option long_options[] =
{
// These options don't set a flag
{"help", no_argument, NULL, 'h'},
{"verbose", no_argument, NULL, 'v'},
{"duration", required_argument, NULL, 'd'},
{"initial-size", required_argument, NULL, 'i'},
{"num-threads", required_argument, NULL, 'n'},
{"range", required_argument, NULL, 'r'},
{"seed", required_argument, NULL, 's'},
{"update-rate", required_argument, NULL, 'u'},
{"elasticity", required_argument, NULL, 'x'},
{"nothing", required_argument, NULL, 'l'},
{NULL, 0, NULL, 0}
};
intset_t *set;
int i, c, size;
skey_t last = 0;
skey_t val = 0;
unsigned long reads, effreads, updates, effupds, aborts, aborts_locked_read,
aborts_locked_write, aborts_validate_read, aborts_validate_write,
aborts_validate_commit, aborts_invalid_memory, aborts_double_write,
max_retries, failures_because_contention;
thread_data_t *data;
pthread_t *threads;
pthread_attr_t attr;
barrier_t barrier, barrier_workers;
struct timeval start, end;
struct timespec timeout;
int duration = DEFAULT_DURATION;
int initial = DEFAULT_INITIAL;
int nb_threads = DEFAULT_NB_THREADS;
long range = DEFAULT_RANGE;
int update = DEFAULT_UPDATE;
int alternate = DEFAULT_ALTERNATE;
int effective = DEFAULT_EFFECTIVE;
sigset_t block_set;
while(1) {
i = 0;
c = getopt_long(argc, argv, "hvAf:d:i:n:r:s:u:x:l:", long_options, &i);
if(c == -1)
break;
if(c == 0 && long_options[i].flag == 0)
c = long_options[i].val;
switch(c) {
case 0:
/* Flag is automatically set */
break;
case 'h':
printf("ASCYLIB -- stress test "
"\n"
"\n"
"Usage:\n"
" %s [options...]\n"
"\n"
"Options:\n"
" -h, --help\n"
" Print this message\n"
" -A, --alternate (default="XSTR(DEFAULT_ALTERNATE)")\n"
" Consecutive insert/remove target the same value\n"
" -f, --effective <int>\n"
" update txs must effectively write (0=trial, 1=effective, default=" XSTR(DEFAULT_EFFECTIVE) ")\n"
" -d, --duration <int>\n"
" Test duration in milliseconds (0=infinite, default=" XSTR(DEFAULT_DURATION) ")\n"
" -i, --initial-size <int>\n"
" Number of elements to insert before test (default=" XSTR(DEFAULT_INITIAL) ")\n"
" -n, --num-threads <int>\n"
" Number of threads (default=" XSTR(DEFAULT_NB_THREADS) ")\n"
" -r, --range <int>\n"
" Range of integer values inserted in set (default=" XSTR(DEFAULT_RANGE) ")\n"
" -u, --update-rate <int>\n"
" Percentage of update transactions (default=" XSTR(DEFAULT_UPDATE) ")\n"
, argv[0]);
exit(0);
case 'v':
test_verbose = 1;
break;
case 'A':
alternate = 1;
break;
case 'f':
effective = atoi(optarg);
break;
case 'd':
duration = atoi(optarg);
break;
case 'i':
initial = atoi(optarg);
break;
case 'n':
nb_threads = atoi(optarg);
break;
case 'r':
range = atol(optarg);
break;
case 'u':
update = atoi(optarg);
break;
case 'l':
break;
case '?':
printf("Use -h or --help for help\n");
exit(0);
default:
exit(1);
}
}
assert(duration >= 0);
assert(initial >= 0);
assert(nb_threads > 0);
assert(range > 0);
if (range < initial)
{
range = 2 * initial;
}
assert(update >= 0 && update <= 100);
printf("Bench type : linked list\n");
printf("Duration : %d\n", duration);
printf("Initial size : %d\n", initial);
printf("Nb threads : %d\n", nb_threads);
printf("Value range : %ld\n", range);
printf("Update rate : %d\n", update);
printf("Alternate : %d\n", alternate);
printf("Effective : %d\n", effective);
printf("Type sizes : int=%d/long=%d/ptr=%d/word=%d\n",
(int)sizeof(int),
(int)sizeof(long),
(int)sizeof(void *),
(int)sizeof(uintptr_t));
timeout.tv_sec = duration / 1000;
timeout.tv_nsec = (duration % 1000) * 1000000;
if ((data = (thread_data_t *)malloc(nb_threads * sizeof(thread_data_t))) == NULL) {
perror("malloc");
exit(1);
}
if ((threads = (pthread_t *)malloc(nb_threads * sizeof(pthread_t))) == NULL) {
perror("malloc");
exit(1);
}
srand((int)time(0));
set = set_new();
/* stop = 0; */
*running = 1;
/* Init STM */
printf("Initializing STM\n");
size_t ten_perc = initial / 10, tens = 1;
size_t ten_perc_nxt = ten_perc;
/* Populate set */
printf("Adding %d entries to set\n", initial);
if (initial < 10000)
{
i = 0;
while (i < initial)
{
val = rand_range(range);
if (set_add(set, val, val))
{
last = val;
if (i == ten_perc_nxt)
{
printf("%02lu%% ", tens * 10); fflush(stdout);
tens++;
ten_perc_nxt = tens * ten_perc;
}
i++;
}
}
}
else
{
for (i = initial; i > 0; i--)
{
set_add(set, i, val);
}
}
printf("\n");
size = set_size(set);
printf("Set size : %d\n", size);
/* Access set from all threads */
barrier_init(&barrier, nb_threads + 1);
barrier_init(&barrier_workers, nb_threads);
pthread_attr_init(&attr);
pthread_attr_setdetachstate(&attr, PTHREAD_CREATE_JOINABLE);
printf("Creating threads: ");
for (i = 0; i < nb_threads; i++)
{
printf("%2d, ", i);
data[i].first = last;
data[i].range = range;
data[i].update = update;
data[i].alternate = alternate;
data[i].effective = effective;
data[i].nb_threads = nb_threads;
data[i].nb_add = 0;
data[i].nb_added = 0;
data[i].nb_remove = 0;
data[i].nb_removed = 0;
data[i].nb_contains = 0;
data[i].nb_found = 0;
data[i].nb_aborts = 0;
data[i].nb_aborts_locked_read = 0;
data[i].nb_aborts_locked_write = 0;
data[i].nb_aborts_validate_read = 0;
data[i].nb_aborts_validate_write = 0;
data[i].nb_aborts_validate_commit = 0;
data[i].nb_aborts_invalid_memory = 0;
data[i].nb_aborts_double_write = 0;
data[i].max_retries = 0;
data[i].seed = rand();
data[i].set = set;
data[i].barrier = &barrier;
data[i].barrier_workers = &barrier_workers;
data[i].failures_because_contention = 0;
data[i].id = i;
if (pthread_create(&threads[i], &attr, test, (void *)(&data[i])) != 0) {
fprintf(stderr, "Error creating thread\n");
exit(1);
}
}
printf("\n");
pthread_attr_destroy(&attr);
/* Start threads */
barrier_cross(&barrier);
printf("STARTING...\n");
gettimeofday(&start, NULL);
if (duration > 0) {
nanosleep(&timeout, NULL);
} else {
sigemptyset(&block_set);
sigsuspend(&block_set);
}
/* AO_store_full(&stop, 1); */
*running = 0;
gettimeofday(&end, NULL);
printf("STOPPING...\n");
/* Wait for thread completion */
for (i = 0; i < nb_threads; i++)
{
if (pthread_join(threads[i], NULL) != 0) {
fprintf(stderr, "Error waiting for thread completion\n");
exit(1);
}
}
duration = (end.tv_sec * 1000 + end.tv_usec / 1000) - (start.tv_sec * 1000 + start.tv_usec / 1000);
aborts = 0;
aborts_locked_read = 0;
aborts_locked_write = 0;
aborts_validate_read = 0;
aborts_validate_write = 0;
aborts_validate_commit = 0;
aborts_invalid_memory = 0;
aborts_double_write = 0;
failures_because_contention = 0;
reads = 0;
effreads = 0;
updates = 0;
effupds = 0;
max_retries = 0;
for (i = 0; i < nb_threads; i++)
{
if (test_verbose)
{
printf("Thread %d\n", i);
printf(" #add : %lu\n", data[i].nb_add);
printf(" #added : %lu\n", data[i].nb_added);
printf(" #remove : %lu\n", data[i].nb_remove);
printf(" #removed : %lu\n", data[i].nb_removed);
printf(" #contains : %lu\n", data[i].nb_contains);
printf(" #found : %lu\n", data[i].nb_found);
}
aborts += data[i].nb_aborts;
aborts_locked_read += data[i].nb_aborts_locked_read;
aborts_locked_write += data[i].nb_aborts_locked_write;
aborts_validate_read += data[i].nb_aborts_validate_read;
aborts_validate_write += data[i].nb_aborts_validate_write;
aborts_validate_commit += data[i].nb_aborts_validate_commit;
aborts_invalid_memory += data[i].nb_aborts_invalid_memory;
aborts_double_write += data[i].nb_aborts_double_write;
failures_because_contention += data[i].failures_because_contention;
reads += data[i].nb_contains;
effreads += data[i].nb_contains +
(data[i].nb_add - data[i].nb_added) +
(data[i].nb_remove - data[i].nb_removed);
updates += (data[i].nb_add + data[i].nb_remove);
effupds += data[i].nb_removed + data[i].nb_added;
size += data[i].nb_added - data[i].nb_removed;
if (max_retries < data[i].max_retries)
max_retries = data[i].max_retries;
}
printf("Set size : %d (expected: %d)\n", set_size(set), size);
printf("Duration : %d (ms)\n", duration);
printf("#txs : %lu (%f / s)\n", reads + updates,
(reads + updates) * 1000.0 / duration);
printf("#read txs : ");
if (effective) {
printf("%lu (%f / s)\n", effreads, effreads * 1000.0 / duration);
printf(" #contains : %lu (%f / s)\n", reads, reads * 1000.0 / duration);
} else printf("%lu (%f / s)\n", reads, reads * 1000.0 / duration);
printf("#eff. upd rate: %f \n", 100.0 * effupds / (effupds + effreads));
printf("#update txs : ");
if (effective) {
printf("%lu (%f / s)\n", effupds, effupds * 1000.0 / duration);
printf(" #upd trials : %lu (%f / s)\n", updates, updates * 1000.0 /
duration);
} else printf("%lu (%f / s)\n", updates, updates * 1000.0 / duration);
/* Delete set */
/* set_delete(set); */
free(threads);
free(data);
return 0;
}