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 40 
 
41 
/** Fill memory with 2 caches, when allocation fails,
 41 
/** Fill memory with 2 caches, when allocation fails,
42 
 *  free one of the caches. We should have everything in magazines,
 42 
 *  free one of the caches. We should have everything in magazines,
43 
 *  now allocation should clean magazines and allow for full allocation.
 43 
 *  now allocation should clean magazines and allow for full allocation.
44 
 */
 44 
 */
45 
static void totalmemtest(void)
 45 
static void totalmemtest(bool quiet)
46 
{
 46 
{
47 
    slab_cache_t *cache1;
 47 
    slab_cache_t *cache1;
48 
    slab_cache_t *cache2;
 48 
    slab_cache_t *cache2;
49 
    int i;
 49 
    int i;
50 
 
 50 
 
51 
    void *data1, *data2;
 51 
    void *data1, *data2;
52 
    void *olddata1=NULL, *olddata2=NULL;
 52 
    void *olddata1 = NULL, *olddata2 = NULL;
53 
   
 53 
   
54 
    cache1 = slab_cache_create("cache1_tst", ITEM_SIZE, 0, NULL, NULL, 0);
 54 
    cache1 = slab_cache_create("cache1_tst", ITEM_SIZE, 0, NULL, NULL, 0);
55 
    cache2 = slab_cache_create("cache2_tst", ITEM_SIZE, 0, NULL, NULL, 0);
 55 
    cache2 = slab_cache_create("cache2_tst", ITEM_SIZE, 0, NULL, NULL, 0);
56 
 
 56 
   
- 
 
 57 
    if (!quiet)
57 
    printf("Allocating...");
 58 
        printf("Allocating...");
- 
 
 59 
   
58 
    /* Use atomic alloc, so that we find end of memory */
 60 
    /* Use atomic alloc, so that we find end of memory */
59 
    do {
 61 
    do {
60 
        data1 = slab_alloc(cache1, FRAME_ATOMIC);
 62 
        data1 = slab_alloc(cache1, FRAME_ATOMIC);
61 
        data2 = slab_alloc(cache2, FRAME_ATOMIC);
 63 
        data2 = slab_alloc(cache2, FRAME_ATOMIC);
62 
        if (!data1 || !data2) {
 64 
        if ((!data1) || (!data2)) {
63 
            if (data1)
 65 
            if (data1)
64 
                slab_free(cache1,data1);
 66 
                slab_free(cache1, data1);
65 
            if (data2)
 67 
            if (data2)
66 
                slab_free(cache2,data2);
 68 
                slab_free(cache2, data2);
67 
            break;
 69 
            break;
68 
        }
 70 
        }
69 
        memsetb((uintptr_t)data1, ITEM_SIZE, 0);
 71 
        memsetb((uintptr_t) data1, ITEM_SIZE, 0);
70 
        memsetb((uintptr_t)data2, ITEM_SIZE, 0);
 72 
        memsetb((uintptr_t) data2, ITEM_SIZE, 0);
71 
        *((void **)data1) = olddata1;
 73 
        *((void **) data1) = olddata1;
72 
        *((void **)data2) = olddata2;
 74 
        *((void **) data2) = olddata2;
73 
        olddata1 = data1;
 75 
        olddata1 = data1;
74 
        olddata2 = data2;
 76 
        olddata2 = data2;
75 
    } while(1);
 77 
    } while (1);
- 
 
 78 
   
- 
 
 79 
    if (!quiet) {
76 
    printf("done.\n");
 80 
        printf("done.\n");
- 
 
 81 
        printf("Deallocating cache2...");
- 
 
 82 
    }
- 
 
 83 
   
77 
    /* We do not have memory - now deallocate cache2 */
 84 
    /* We do not have memory - now deallocate cache2 */
78 
    printf("Deallocating cache2...");
 - 
 
79 
    while (olddata2) {
 85 
    while (olddata2) {
80 
        data2 = *((void **)olddata2);
 86 
        data2 = *((void **) olddata2);
81 
        slab_free(cache2, olddata2);
 87 
        slab_free(cache2, olddata2);
82 
        olddata2 = data2;
 88 
        olddata2 = data2;
83 
    }
 89 
    }
- 
 
 90 
   
- 
 
 91 
    if (!quiet) {
84 
    printf("done.\n");
 92 
        printf("done.\n");
85 
 
 - 
 
86 
    printf("Allocating to cache1...\n");
 93 
        printf("Allocating to cache1...\n");
- 
 
 94 
    }
- 
 
 95 
   
87 
    for (i=0; i<30; i++) {
 96 
    for (i = 0; i < 30; i++) {
88 
        data1 = slab_alloc(cache1, FRAME_ATOMIC);
 97 
        data1 = slab_alloc(cache1, FRAME_ATOMIC);
89 
        if (!data1) {
 98 
        if (!data1) {
- 
 
 99 
            if (!quiet)
90 
            printf("Incorrect memory size - use another test.");
 100 
                printf("Incorrect memory size - use another test.");
91 
            return;
 101 
            return;
92 
        }
 102 
        }
93 
        memsetb((uintptr_t)data1, ITEM_SIZE, 0);
 103 
        memsetb((uintptr_t) data1, ITEM_SIZE, 0);
94 
        *((void **)data1) = olddata1;
 104 
        *((void **) data1) = olddata1;
95 
        olddata1 = data1;
 105 
        olddata1 = data1;
96 
    }
 106 
    }
97 
    while (1) {
 107 
    while (1) {
98 
        data1 = slab_alloc(cache1, FRAME_ATOMIC);
 108 
        data1 = slab_alloc(cache1, FRAME_ATOMIC);
99 
        if (!data1) {
 109 
        if (!data1)
100 
            break;
 110 
            break;
101 
        }
 - 
 
102 
        memsetb((uintptr_t)data1, ITEM_SIZE, 0);
 111 
        memsetb((uintptr_t) data1, ITEM_SIZE, 0);
103 
        *((void **)data1) = olddata1;
 112 
        *((void **) data1) = olddata1;
104 
        olddata1 = data1;
 113 
        olddata1 = data1;
105 
    }
 114 
    }
- 
 
 115 
   
- 
 
 116 
    if (!quiet)
106 
    printf("Deallocating cache1...");
 117 
        printf("Deallocating cache1...");
- 
 
 118 
   
107 
    while (olddata1) {
 119 
    while (olddata1) {
108 
        data1 = *((void **)olddata1);
 120 
        data1 = *((void **) olddata1);
109 
        slab_free(cache1, olddata1);
 121 
        slab_free(cache1, olddata1);
110 
        olddata1 = data1;
 122 
        olddata1 = data1;
111 
    }
 123 
    }
- 
 
 124 
   
- 
 
 125 
    if (!quiet) {
112 
    printf("done.\n");
 126 
        printf("done.\n");
113 
    slab_print_list();
 127 
        slab_print_list();
- 
 
 128 
    }
- 
 
 129 
   
114 
    slab_cache_destroy(cache1);
 130 
    slab_cache_destroy(cache1);
115 
    slab_cache_destroy(cache2);
 131 
    slab_cache_destroy(cache2);
116 
}
 132 
}
117 
 
 133 
 
118 
static slab_cache_t *thr_cache;
 134 
static slab_cache_t *thr_cache;
119 
static semaphore_t thr_sem;
 135 
static semaphore_t thr_sem;
120 
static condvar_t thread_starter;
 136 
static condvar_t thread_starter;
121 
static mutex_t starter_mutex;
 137 
static mutex_t starter_mutex;
- 
 
 138 
static bool sh_quiet;
122 
 
 139 
 
123 
#define THREADS 8
 140 
#define THREADS 8
124 
 
 141 
 
125 
static void slabtest(void *priv)
 142 
static void slabtest(void *priv)
126 
{
 143 
{
127 
    void *data = NULL, *new;
 144 
    void *data = NULL, *new;
128 
 
 145 
   
129 
    thread_detach(THREAD);
 146 
    thread_detach(THREAD);
130 
 
 147 
   
131 
    mutex_lock(&starter_mutex);
 148 
    mutex_lock(&starter_mutex);
132 
    condvar_wait(&thread_starter,&starter_mutex);
 149 
    condvar_wait(&thread_starter,&starter_mutex);
133 
    mutex_unlock(&starter_mutex);
 150 
    mutex_unlock(&starter_mutex);
134 
       
 151 
   
- 
 
 152 
    if (!sh_quiet)
135 
    printf("Starting thread #%d...\n",THREAD->tid);
 153 
        printf("Starting thread #%d...\n",THREAD->tid);
136 
 
 154 
 
137 
    /* Alloc all */
 155 
    /* Alloc all */
- 
 
 156 
    if (!sh_quiet)
138 
    printf("Thread #%d allocating...\n", THREAD->tid);
 157 
        printf("Thread #%d allocating...\n", THREAD->tid);
- 
 
 158 
   
139 
    while (1) {
 159 
    while (1) {
140 
        /* Call with atomic to detect end of memory */
 160 
        /* Call with atomic to detect end of memory */
141 
        new = slab_alloc(thr_cache, FRAME_ATOMIC);
 161 
        new = slab_alloc(thr_cache, FRAME_ATOMIC);
142 
        if (!new)
 162 
        if (!new)
143 
            break;
 163 
            break;
144 
        *((void **)new) = data;
 164 
        *((void **) new) = data;
145 
        data = new;
 165 
        data = new;
146 
    }
 166 
    }
- 
 
 167 
   
- 
 
 168 
    if (!sh_quiet)
147 
    printf("Thread #%d releasing...\n", THREAD->tid);
 169 
        printf("Thread #%d releasing...\n", THREAD->tid);
- 
 
 170 
   
148 
    while (data) {
 171 
    while (data) {
149 
        new = *((void **)data);
 172 
        new = *((void **)data);
150 
        *((void **)data) = NULL;
 173 
        *((void **) data) = NULL;
151 
        slab_free(thr_cache, data);
 174 
        slab_free(thr_cache, data);
152 
        data = new;
 175 
        data = new;
153 
    }
 176 
    }
- 
 
 177 
   
- 
 
 178 
    if (!sh_quiet)
154 
    printf("Thread #%d allocating...\n", THREAD->tid);
 179 
        printf("Thread #%d allocating...\n", THREAD->tid);
- 
 
 180 
   
155 
    while (1) {
 181 
    while (1) {
156 
        /* Call with atomic to detect end of memory */
 182 
        /* Call with atomic to detect end of memory */
157 
        new = slab_alloc(thr_cache, FRAME_ATOMIC);
 183 
        new = slab_alloc(thr_cache, FRAME_ATOMIC);
158 
        if (!new)
 184 
        if (!new)
159 
            break;
 185 
            break;
160 
        *((void **)new) = data;
 186 
        *((void **) new) = data;
161 
        data = new;
 187 
        data = new;
162 
    }
 188 
    }
- 
 
 189 
   
- 
 
 190 
    if (!sh_quiet)
163 
    printf("Thread #%d releasing...\n", THREAD->tid);
 191 
        printf("Thread #%d releasing...\n", THREAD->tid);
- 
 
 192 
   
164 
    while (data) {
 193 
    while (data) {
165 
        new = *((void **)data);
 194 
        new = *((void **)data);
166 
        *((void **)data) = NULL;
 195 
        *((void **) data) = NULL;
167 
        slab_free(thr_cache, data);
 196 
        slab_free(thr_cache, data);
168 
        data = new;
 197 
        data = new;
169 
    }
 198 
    }
170 
 
 199 
   
- 
 
 200 
    if (!sh_quiet)
171 
    printf("Thread #%d finished\n", THREAD->tid);
 201 
        printf("Thread #%d finished\n", THREAD->tid);
- 
 
 202 
   
172 
    slab_print_list();
 203 
    slab_print_list();
173 
    semaphore_up(&thr_sem);
 204 
    semaphore_up(&thr_sem);
174 
}
 205 
}
175 
 
 206 
 
176 
static void multitest(int size)
 207 
static void multitest(int size, bool quiet)
177 
{
 208 
{
178 
    /* Start 8 threads that just allocate as much as possible,
 209 
    /* Start 8 threads that just allocate as much as possible,
179 
     * then release everything, then again allocate, then release
 210 
     * then release everything, then again allocate, then release
180 
     */
 211 
     */
181 
    thread_t *t;
 212 
    thread_t *t;
182 
    int i;
 213 
    int i;
183 
 
 214 
   
- 
 
 215 
    if (!quiet)
184 
    printf("Running stress test with size %d\n", size);
 216 
        printf("Running stress test with size %d\n", size);
- 
 
 217 
   
185 
    condvar_initialize(&thread_starter);
 218 
    condvar_initialize(&thread_starter);
186 
    mutex_initialize(&starter_mutex);
 219 
    mutex_initialize(&starter_mutex);
187 
 
 220 
 
188 
    thr_cache = slab_cache_create("thread_cache", size, 0,
 221 
    thr_cache = slab_cache_create("thread_cache", size, 0, NULL, NULL, 0);
189 
                      NULL, NULL,
 - 
 
190 
                      0);
 - 
 
191 
    semaphore_initialize(&thr_sem,0);
 222 
    semaphore_initialize(&thr_sem,0);
192 
    for (i = 0; i < THREADS; i++) {  
 223 
    for (i = 0; i < THREADS; i++) {  
193 
        if (!(t = thread_create(slabtest, NULL, TASK, 0, "slabtest", false)))
 224 
        if (!(t = thread_create(slabtest, NULL, TASK, 0, "slabtest", false))) {
- 
 
 225 
            if (!quiet)
194 
            printf("Could not create thread %d\n", i);
 226 
                printf("Could not create thread %d\n", i);
195 
        else
 227 
        } else
196 
            thread_ready(t);
 228 
            thread_ready(t);
197 
    }
 229 
    }
198 
    thread_sleep(1);
 230 
    thread_sleep(1);
199 
    condvar_broadcast(&thread_starter);
 231 
    condvar_broadcast(&thread_starter);
200 
 
 232 
 
201 
    for (i = 0; i < THREADS; i++)
 233 
    for (i = 0; i < THREADS; i++)
202 
        semaphore_down(&thr_sem);
 234 
        semaphore_down(&thr_sem);
203 
   
 235 
   
204 
    slab_cache_destroy(thr_cache);
 236 
    slab_cache_destroy(thr_cache);
- 
 
 237 
    if (!quiet)
205 
    printf("Stress test complete.\n");
 238 
        printf("Stress test complete.\n");
206 
}
 239 
}
207 
 
 240 
 
208 
char * test_slab2(bool quiet)
 241 
char * test_slab2(bool quiet)
209 
{
 242 
{
- 
 
 243 
    sh_quiet = quiet;
- 
 
 244 
   
- 
 
 245 
    if (!quiet)
210 
    printf("Running reclaim single-thread test .. pass 1\n");
 246 
        printf("Running reclaim single-thread test .. pass 1\n");
211 
    totalmemtest();
 247 
    totalmemtest(quiet);
- 
 
 248 
    if (!quiet)
212 
    printf("Running reclaim single-thread test .. pass 2\n");
 249 
        printf("Running reclaim single-thread test .. pass 2\n");
213 
    totalmemtest();
 250 
    totalmemtest(quiet);
- 
 
 251 
    if (!quiet)
214 
    printf("Reclaim test OK.\n");
 252 
        printf("Reclaim test OK.\n");
215 
 
 253 
   
216 
    multitest(128);
 254 
    multitest(128, quiet);
217 
    multitest(2048);
 255 
    multitest(2048, quiet);
218 
    multitest(8192);
 256 
    multitest(8192, quiet);
219 
    printf("All done.\n");
 - 
 
220 
   
 257 
   
221 
    return NULL;
 258 
    return NULL;
222 
}
 259 
}