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767 palkovsky 1
/*
2071 jermar 2
 * Copyright (c) 2006 Ondrej Palkovsky
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 * All rights reserved.
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 *
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 * Redistribution and use in source and binary forms, with or without
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 * modification, are permitted provided that the following conditions
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 * are met:
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 *
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 * - Redistributions of source code must retain the above copyright
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 *   notice, this list of conditions and the following disclaimer.
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 * - Redistributions in binary form must reproduce the above copyright
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 *   notice, this list of conditions and the following disclaimer in the
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 *   documentation and/or other materials provided with the distribution.
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 * - The name of the author may not be used to endorse or promote products
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 *   derived from this software without specific prior written permission.
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 *
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 * THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR
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 * IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES
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 * OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED.
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 * IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT,
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 * INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT
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 * NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
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 * DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
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 * THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
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 * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF
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 * THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
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 */
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#include <test.h>
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#include <mm/slab.h>
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#include <print.h>
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#include <proc/thread.h>
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#include <arch.h>
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#include <mm/frame.h>
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#include <memstr.h>
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#include <synch/condvar.h>
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#include <synch/mutex.h>
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4227 decky 39
#define ITEM_SIZE  256
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/** Fill memory with 2 caches, when allocation fails,
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 *  free one of the caches. We should have everything in magazines,
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 *  now allocation should clean magazines and allow for full allocation.
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 */
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static void totalmemtest(void)
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{
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    slab_cache_t *cache1;
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    slab_cache_t *cache2;
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    int i;
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    void *data1, *data2;
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    void *olddata1 = NULL, *olddata2 = NULL;
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    cache1 = slab_cache_create("cache1_tst", ITEM_SIZE, 0, NULL, NULL, 0);
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    cache2 = slab_cache_create("cache2_tst", ITEM_SIZE, 0, NULL, NULL, 0);
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    TPRINTF("Allocating...");
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    /* Use atomic alloc, so that we find end of memory */
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    do {
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        data1 = slab_alloc(cache1, FRAME_ATOMIC);
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        data2 = slab_alloc(cache2, FRAME_ATOMIC);
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        if ((!data1) || (!data2)) {
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            if (data1)
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                slab_free(cache1, data1);
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            if (data2)
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                slab_free(cache2, data2);
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            break;
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        }
3104 svoboda 70
        memsetb(data1, ITEM_SIZE, 0);
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        memsetb(data2, ITEM_SIZE, 0);
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        *((void **) data1) = olddata1;
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        *((void **) data2) = olddata2;
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        olddata1 = data1;
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        olddata2 = data2;
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    } while (true);
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    TPRINTF("done.\n");
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    TPRINTF("Deallocating cache2...");
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    /* We do not have memory - now deallocate cache2 */
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    while (olddata2) {
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        data2 = *((void **) olddata2);
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        slab_free(cache2, olddata2);
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        olddata2 = data2;
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    }
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4227 decky 89
    TPRINTF("done.\n");
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4227 decky 91
    TPRINTF("Allocating to cache1...\n");
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2053 decky 93
    for (i = 0; i < 30; i++) {
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        data1 = slab_alloc(cache1, FRAME_ATOMIC);
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        if (!data1) {
4227 decky 96
            TPRINTF("Incorrect memory size - use another test.");
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            return;
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        }
3104 svoboda 99
        memsetb(data1, ITEM_SIZE, 0);
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        *((void **) data1) = olddata1;
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        olddata1 = data1;
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    }
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    while (true) {
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        data1 = slab_alloc(cache1, FRAME_ATOMIC);
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        if (!data1)
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            break;
3104 svoboda 107
        memsetb(data1, ITEM_SIZE, 0);
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        *((void **) data1) = olddata1;
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        olddata1 = data1;
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    }
2053 decky 111
 
4227 decky 112
    TPRINTF("Deallocating cache1...");
2053 decky 113
 
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    while (olddata1) {
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        data1 = *((void **) olddata1);
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        slab_free(cache1, olddata1);
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        olddata1 = data1;
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    }
2053 decky 119
 
4227 decky 120
    TPRINTF("done.\n");
2053 decky 121
 
4231 decky 122
    if (!test_quiet)
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        slab_print_list();
4227 decky 124
 
768 palkovsky 125
    slab_cache_destroy(cache1);
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    slab_cache_destroy(cache2);
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}
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static slab_cache_t *thr_cache;
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static semaphore_t thr_sem;
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static condvar_t thread_starter;
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static mutex_t starter_mutex;
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4227 decky 134
#define THREADS  8
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1062 jermar 136
static void slabtest(void *priv)
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{
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    void *data = NULL, *new;
2053 decky 139
 
1658 vana 140
    thread_detach(THREAD);
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    mutex_lock(&starter_mutex);
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    condvar_wait(&thread_starter,&starter_mutex);
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    mutex_unlock(&starter_mutex);
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    TPRINTF("Starting thread #%" PRIu64 "...\n", THREAD->tid);
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    /* Alloc all */
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    TPRINTF("Thread #%" PRIu64 " allocating...\n", THREAD->tid);
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4227 decky 151
    while (true) {
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        /* Call with atomic to detect end of memory */
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        new = slab_alloc(thr_cache, FRAME_ATOMIC);
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        if (!new)
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            break;
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        *((void **) new) = data;
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        data = new;
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    }
2053 decky 159
 
4227 decky 160
    TPRINTF("Thread #%" PRIu64 " releasing...\n", THREAD->tid);
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    while (data) {
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        new = *((void **)data);
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        *((void **) data) = NULL;
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        slab_free(thr_cache, data);
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        data = new;
167
    }
2053 decky 168
 
4227 decky 169
    TPRINTF("Thread #%" PRIu64 " allocating...\n", THREAD->tid);
2053 decky 170
 
4227 decky 171
    while (true) {
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        /* Call with atomic to detect end of memory */
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        new = slab_alloc(thr_cache, FRAME_ATOMIC);
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        if (!new)
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            break;
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        *((void **) new) = data;
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        data = new;
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    }
2053 decky 179
 
4227 decky 180
    TPRINTF("Thread #%" PRIu64 " releasing...\n", THREAD->tid);
2053 decky 181
 
773 palkovsky 182
    while (data) {
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        new = *((void **)data);
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        *((void **) data) = NULL;
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        slab_free(thr_cache, data);
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        data = new;
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    }
2053 decky 188
 
4227 decky 189
    TPRINTF("Thread #%" PRIu64 " finished\n", THREAD->tid);
2053 decky 190
 
4231 decky 191
    if (!test_quiet)
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        slab_print_list();
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    semaphore_up(&thr_sem);
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}
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4227 decky 197
static void multitest(int size)
773 palkovsky 198
{
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    /* Start 8 threads that just allocate as much as possible,
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     * then release everything, then again allocate, then release
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     */
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    thread_t *t;
203
    int i;
2053 decky 204
 
4227 decky 205
    TPRINTF("Running stress test with size %d\n", size);
2053 decky 206
 
842 palkovsky 207
    condvar_initialize(&thread_starter);
3186 jermar 208
    mutex_initialize(&starter_mutex, MUTEX_PASSIVE);
4227 decky 209
 
2053 decky 210
    thr_cache = slab_cache_create("thread_cache", size, 0, NULL, NULL, 0);
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    semaphore_initialize(&thr_sem,0);
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    for (i = 0; i < THREADS; i++) {  
2053 decky 213
        if (!(t = thread_create(slabtest, NULL, TASK, 0, "slabtest", false))) {
4227 decky 214
            TPRINTF("Could not create thread %d\n", i);
2053 decky 215
        } else
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            thread_ready(t);
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    }
842 palkovsky 218
    thread_sleep(1);
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    condvar_broadcast(&thread_starter);
4227 decky 220
 
2028 decky 221
    for (i = 0; i < THREADS; i++)
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        semaphore_down(&thr_sem);
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224
    slab_cache_destroy(thr_cache);
4227 decky 225
    TPRINTF("Stress test complete.\n");
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}
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4227 decky 228
char *test_slab2(void)
767 palkovsky 229
{
4227 decky 230
    TPRINTF("Running reclaim single-thread test .. pass 1\n");
231
    totalmemtest();
2028 decky 232
 
4227 decky 233
    TPRINTF("Running reclaim single-thread test .. pass 2\n");
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    totalmemtest();
2053 decky 235
 
4227 decky 236
    TPRINTF("Reclaim test OK.\n");
2053 decky 237
 
4227 decky 238
    multitest(128);
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    multitest(2048);
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    multitest(8192);
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2028 decky 242
    return NULL;
767 palkovsky 243
}