stasis-aries-wal/test/stasis/check_replacementPolicy.c

#include "../check_includes.h"

#include <stasis/transactional.h>
#include <stasis/replacementPolicy.h>
#include <stasis/doubleLinkedList.h>

#include <assert.h>

#define LOG_NAME   "check_replacementPolicy.log"

#define OBJECT_COUNT 1000
#define OP_COUNT     10000000

#define LONG_COUNT  100000000UL
#define SHORT_COUNT 10000000UL

#define THREAD_COUNT 10

typedef struct LL_ENTRY(node_t) node_t;

typedef struct tracker {
  pageid_t val; // Must be pageid_t.  Otherwise, there will be mismatches inside of concurrentWrapper's hash.
  intptr_t key;
  intptr_t pinCount;
  int inCache;
  pthread_mutex_t mut;
} tracker;
static pthread_mutex_t cached_count_mutex = PTHREAD_MUTEX_INITIALIZER;
static int threaded = 0;
static int cachedCount = 0;

static node_t * getKey(void * page, void * ignore) {
  tracker * p = page;
  return (node_t*)p->key;
}
static void setKey(void * page, node_t * n, void * ignore) {
  tracker * p = page;
  p->key = (intptr_t) n;
}
static intptr_t * pinCount(void *page) {
  tracker * p = page;
  return &p->pinCount;
}


tracker * t;
void randomSetup() {
  time_t seed = time(0);
  printf("\nSeed = %ld\n", seed);
  srandom(seed);

  cachedCount = 0;

  t = calloc(OBJECT_COUNT, sizeof(tracker));
  for(int i = 0; i < OBJECT_COUNT; i++) {
    t[i].val = i;
    t[i].pinCount = 1;
  }

}
void randomTeardown() {
  free(t);
}

void randomTest(replacementPolicy * lru, unsigned long count) {

  unsigned long progress_indicator = count / 10;

  for(unsigned long j = 0; j < count /*100000000UL*/; j++) {
    if(0 == (j % progress_indicator)) { printf("."); fflush(stdout); }
    int op = myrandom(100);

    int i = myrandom(OBJECT_COUNT);
    if(op < 10) {
      // TOGGLE IN CACHE
      pthread_mutex_lock(&t[i].mut);
      if(!t[i].inCache) {
        lru->insert(lru, &t[i]);
        t[i].inCache = 1;
        pthread_mutex_lock(&cached_count_mutex);
        cachedCount ++;
        pthread_mutex_unlock(&cached_count_mutex);
      } else {
        void * v = lru->remove(lru, &t[i]);
        assert(v == &t[i]);
        t[i].inCache = 0;
        pthread_mutex_lock(&cached_count_mutex);
        cachedCount --;
        pthread_mutex_unlock(&cached_count_mutex);
      }
      pthread_mutex_unlock(&t[i].mut);
    } else if(op < 30) {
      // Get stale + remove
      tracker * tr = lru->getStale(lru);
      if( tr ) {
        pthread_mutex_lock(&t[tr->val].mut);
        if(tr->inCache) {
          assert(tr == &t[tr->val]);
          tr = lru->remove(lru, tr);
          assert(tr == &t[tr->val]);
          tr->inCache = 0;
          pthread_mutex_lock(&cached_count_mutex);
          if(!threaded) assert(cachedCount != 0);
          cachedCount --;
          pthread_mutex_unlock(&cached_count_mutex);
        }
        pthread_mutex_unlock(&t[tr->val].mut);
      } else {
        if(!threaded) {
          assert(cachedCount == 0);
        }
      }
    } else if(op < 50) {
      // Get stale
      tracker * tr = lru->getStale(lru);
      if(tr) {
        pthread_mutex_lock(&t[tr->val].mut);
        if(!threaded) assert(tr->inCache);
        assert(tr == &t[tr->val]);
        if(!threaded) assert(cachedCount != 0);
        pthread_mutex_unlock(&t[tr->val].mut);
      } else {
        if(!threaded) assert(cachedCount == 0);
      }
    } else {
      // Hit
      pthread_mutex_lock(&t[i].mut);
      if(t[i].inCache) lru->hit(lru, &t[i]);
      pthread_mutex_unlock(&t[i].mut);
    }
  }
}
START_TEST(replacementPolicyLRURandomTest) {
  replacementPolicy * lru = lruFastInit(getKey, setKey, pinCount, 0);
  threaded = 0;
  randomSetup();
  randomTest(lru, LONG_COUNT);
  lru->deinit(lru);
  randomTeardown();
} END_TEST
START_TEST(replacementPolicyLRUFastRandomTest) {
  replacementPolicy * lru = lruFastInit(getKey, setKey, pinCount, 0);
  threaded = 0;
  randomSetup();
  randomTest(lru, LONG_COUNT);
  lru->deinit(lru);
  randomTeardown();
} END_TEST
START_TEST(replacementPolicyThreadsafeRandomTest) {
  replacementPolicy * lru = lruFastInit(getKey, setKey, pinCount, 0);
  replacementPolicy * tsLru = replacementPolicyThreadsafeWrapperInit(lru);
  threaded = 0;
  randomSetup();
  randomTest(tsLru, LONG_COUNT);
  tsLru->deinit(tsLru);
  randomTeardown();

} END_TEST
START_TEST(replacementPolicyConcurrentRandomTest) {
  int LRU_COUNT = OBJECT_COUNT / 51;
  replacementPolicy * lru[LRU_COUNT];
  for(int i = 0; i < LRU_COUNT; i++) {
    lru[i] = lruFastInit(getKey, setKey, pinCount, 0);
  }
  threaded = 0;
  replacementPolicy * cwLru = replacementPolicyConcurrentWrapperInit(lru, LRU_COUNT);
  randomSetup();
  randomTest(cwLru, SHORT_COUNT);
  cwLru->deinit(cwLru);
  randomTeardown();
} END_TEST

replacementPolicy * worker_lru;
unsigned long worker_count;
void * randomTestWorker(void * arg) {
  randomTest(worker_lru, worker_count);
  return 0;
}

START_TEST(replacementPolicyThreadsafeThreadTest) {
  replacementPolicy * lru = lruFastInit(getKey, setKey, pinCount, 0);
  replacementPolicy * tsLru = replacementPolicyThreadsafeWrapperInit(lru);
  threaded = 1;
  worker_lru = tsLru;
  worker_count = LONG_COUNT / THREAD_COUNT;
  pthread_t threads[THREAD_COUNT];
  randomSetup();
  for(int i = 0; i < THREAD_COUNT; i++) {
    pthread_create(&threads[i], 0, randomTestWorker, 0);
  }
  for(int i = 0; i < THREAD_COUNT; i++) {
    pthread_join(threads[i], 0);
  }
  tsLru->deinit(tsLru);
  randomTeardown();
} END_TEST
START_TEST(replacementPolicyConcurrentThreadTest) {
  int LRU_COUNT = OBJECT_COUNT / 51;
  replacementPolicy * lru[LRU_COUNT];
  for(int i = 0; i < LRU_COUNT; i++) {
    lru[i] = lruFastInit(getKey, setKey, pinCount, 0);
  }
  replacementPolicy * cwLru = replacementPolicyConcurrentWrapperInit(lru, THREAD_COUNT);
  threaded = 1;
  worker_lru = cwLru;
  worker_count = LONG_COUNT / THREAD_COUNT;
  pthread_t threads[THREAD_COUNT];
  randomSetup();
  for(int i = 0; i < THREAD_COUNT; i++) {
    pthread_create(&threads[i], 0, randomTestWorker, 0);
  }
  for(int i = 0; i < THREAD_COUNT; i++) {
    pthread_join(threads[i], 0);
  }

  cwLru->deinit(cwLru);
  randomTeardown();
} END_TEST

Suite * check_suite(void) {
  Suite *s = suite_create("replacementPolicy");
  /* Begin a new test */
  TCase *tc = tcase_create("multithreaded");
  tcase_set_timeout(tc, 1200); // twenty minute timeout
  /* Sub tests are added, one per line, here */
  tcase_add_test(tc, replacementPolicyLRURandomTest);
  tcase_add_test(tc, replacementPolicyLRUFastRandomTest);
  tcase_add_test(tc, replacementPolicyThreadsafeRandomTest);
  tcase_add_test(tc, replacementPolicyConcurrentRandomTest);
  tcase_add_test(tc, replacementPolicyThreadsafeThreadTest);
  tcase_add_test(tc, replacementPolicyConcurrentThreadTest);


  /* --------------------------------------------- */

  tcase_add_checked_fixture(tc, setup, teardown);


  suite_add_tcase(s, tc);
  return s;
}

#include "../check_setup.h"
centralized #include <check.h>, removed obsolete (uncompiled) unit test. 2009-04-14 20:21:05 +00:00			`#include "../check_includes.h"`
more tests / bugfixes for buffermanager. 2007-03-10 01:29:43 +00:00
Renamed 'lladd' directories and python module to 'stasis' 2007-06-11 21:36:57 +00:00			`#include <stasis/transactional.h>`
			`#include <stasis/replacementPolicy.h>`
			`#include <stasis/doubleLinkedList.h>`
centralized #include <check.h>, removed obsolete (uncompiled) unit test. 2009-04-14 20:21:05 +00:00
more tests / bugfixes for buffermanager. 2007-03-10 01:29:43 +00:00			`#include <assert.h>`

			`#define LOG_NAME "check_replacementPolicy.log"`

			`#define OBJECT_COUNT 1000`
			`#define OP_COUNT 10000000`

fix concurrentWrapper so that it implements the same api as the other replacement policies (it used to livelock when no pages were available. It now returns null). 2010-03-31 22:37:42 +00:00			`#define LONG_COUNT 100000000UL`
			`#define SHORT_COUNT 10000000UL`

			`#define THREAD_COUNT 10`

Update for new replacement policy api 2007-03-11 07:53:32 +00:00			`typedef struct LL_ENTRY(node_t) node_t;`

centralized #include <check.h>, removed obsolete (uncompiled) unit test. 2009-04-14 20:21:05 +00:00			`typedef struct tracker {`
fix concurrentWrapper so that it implements the same api as the other replacement policies (it used to livelock when no pages were available. It now returns null). 2010-03-31 22:37:42 +00:00			`pageid_t val; // Must be pageid_t. Otherwise, there will be mismatches inside of concurrentWrapper's hash.`
Update for new replacement policy api 2007-03-11 07:53:32 +00:00			`intptr_t key;`
This fixes in Stasis issue 22. Replacement policies now track the pin count of each page that they interact with. This behavior used to live in bufferHash, and had never been ported to concurrentBufferManager. For various reasons, the pin counts have to be updated atomically with the LRU state. This would be very difficult to do inside of concurrentBufferManager, which sometimes needs to add and remove pages to replacement policies without holding any other latches. 2010-04-20 01:09:32 +00:00			`intptr_t pinCount;`
more tests / bugfixes for buffermanager. 2007-03-10 01:29:43 +00:00			`int inCache;`
fix concurrentWrapper so that it implements the same api as the other replacement policies (it used to livelock when no pages were available. It now returns null). 2010-03-31 22:37:42 +00:00			`pthread_mutex_t mut;`
more tests / bugfixes for buffermanager. 2007-03-10 01:29:43 +00:00			`} tracker;`
fix concurrentWrapper so that it implements the same api as the other replacement policies (it used to livelock when no pages were available. It now returns null). 2010-03-31 22:37:42 +00:00			`static pthread_mutex_t cached_count_mutex = PTHREAD_MUTEX_INITIALIZER;`
			`static int threaded = 0;`
			`static int cachedCount = 0;`
Update for new replacement policy api 2007-03-11 07:53:32 +00:00
centralized #include <check.h>, removed obsolete (uncompiled) unit test. 2009-04-14 20:21:05 +00:00			`static node_t * getKey(void * page, void * ignore) {`
Update for new replacement policy api 2007-03-11 07:53:32 +00:00			`tracker * p = page;`
			`return (node_t*)p->key;`
			`}`
centralized #include <check.h>, removed obsolete (uncompiled) unit test. 2009-04-14 20:21:05 +00:00			`static void setKey(void * page, node_t * n, void * ignore) {`
Update for new replacement policy api 2007-03-11 07:53:32 +00:00			`tracker * p = page;`
			`p->key = (intptr_t) n;`
			`}`
This fixes in Stasis issue 22. Replacement policies now track the pin count of each page that they interact with. This behavior used to live in bufferHash, and had never been ported to concurrentBufferManager. For various reasons, the pin counts have to be updated atomically with the LRU state. This would be very difficult to do inside of concurrentBufferManager, which sometimes needs to add and remove pages to replacement policies without holding any other latches. 2010-04-20 01:09:32 +00:00			`static intptr_t * pinCount(void *page) {`
			`tracker * p = page;`
			`return &p->pinCount;`
			`}`
Update for new replacement policy api 2007-03-11 07:53:32 +00:00

fix concurrentWrapper so that it implements the same api as the other replacement policies (it used to livelock when no pages were available. It now returns null). 2010-03-31 22:37:42 +00:00			`tracker * t;`
			`void randomSetup() {`
more tests / bugfixes for buffermanager. 2007-03-10 01:29:43 +00:00			`time_t seed = time(0);`
			`printf("\nSeed = %ld\n", seed);`
			`srandom(seed);`

fix concurrentWrapper so that it implements the same api as the other replacement policies (it used to livelock when no pages were available. It now returns null). 2010-03-31 22:37:42 +00:00			`cachedCount = 0;`
centralized #include <check.h>, removed obsolete (uncompiled) unit test. 2009-04-14 20:21:05 +00:00
fix concurrentWrapper so that it implements the same api as the other replacement policies (it used to livelock when no pages were available. It now returns null). 2010-03-31 22:37:42 +00:00			`t = calloc(OBJECT_COUNT, sizeof(tracker));`
centralized #include <check.h>, removed obsolete (uncompiled) unit test. 2009-04-14 20:21:05 +00:00			`for(int i = 0; i < OBJECT_COUNT; i++) {`
Update for new API (need an extra field for getNode, setNode). 2007-03-13 09:56:39 +00:00			`t[i].val = i;`
This fixes in Stasis issue 22. Replacement policies now track the pin count of each page that they interact with. This behavior used to live in bufferHash, and had never been ported to concurrentBufferManager. For various reasons, the pin counts have to be updated atomically with the LRU state. This would be very difficult to do inside of concurrentBufferManager, which sometimes needs to add and remove pages to replacement policies without holding any other latches. 2010-04-20 01:09:32 +00:00			`t[i].pinCount = 1;`
more tests / bugfixes for buffermanager. 2007-03-10 01:29:43 +00:00			`}`
fix concurrentWrapper so that it implements the same api as the other replacement policies (it used to livelock when no pages were available. It now returns null). 2010-03-31 22:37:42 +00:00
			`}`
			`void randomTeardown() {`
			`free(t);`
			`}`

			`void randomTest(replacementPolicy * lru, unsigned long count) {`

			`unsigned long progress_indicator = count / 10;`

			`for(unsigned long j = 0; j < count /100000000UL/; j++) {`
			`if(0 == (j % progress_indicator)) { printf("."); fflush(stdout); }`
more tests / bugfixes for buffermanager. 2007-03-10 01:29:43 +00:00			`int op = myrandom(100);`

			`int i = myrandom(OBJECT_COUNT);`
centralized #include <check.h>, removed obsolete (uncompiled) unit test. 2009-04-14 20:21:05 +00:00			`if(op < 10) {`
more tests / bugfixes for buffermanager. 2007-03-10 01:29:43 +00:00			`// TOGGLE IN CACHE`
fix concurrentWrapper so that it implements the same api as the other replacement policies (it used to livelock when no pages were available. It now returns null). 2010-03-31 22:37:42 +00:00			`pthread_mutex_lock(&t[i].mut);`
centralized #include <check.h>, removed obsolete (uncompiled) unit test. 2009-04-14 20:21:05 +00:00			`if(!t[i].inCache) {`
fix concurrentWrapper so that it implements the same api as the other replacement policies (it used to livelock when no pages were available. It now returns null). 2010-03-31 22:37:42 +00:00			`lru->insert(lru, &t[i]);`
			`t[i].inCache = 1;`
			`pthread_mutex_lock(&cached_count_mutex);`
			`cachedCount ++;`
			`pthread_mutex_unlock(&cached_count_mutex);`
centralized #include <check.h>, removed obsolete (uncompiled) unit test. 2009-04-14 20:21:05 +00:00			`} else {`
fix concurrentWrapper so that it implements the same api as the other replacement policies (it used to livelock when no pages were available. It now returns null). 2010-03-31 22:37:42 +00:00			`void * v = lru->remove(lru, &t[i]);`
			`assert(v == &t[i]);`
			`t[i].inCache = 0;`
			`pthread_mutex_lock(&cached_count_mutex);`
			`cachedCount --;`
			`pthread_mutex_unlock(&cached_count_mutex);`
more tests / bugfixes for buffermanager. 2007-03-10 01:29:43 +00:00			`}`
fix concurrentWrapper so that it implements the same api as the other replacement policies (it used to livelock when no pages were available. It now returns null). 2010-03-31 22:37:42 +00:00			`pthread_mutex_unlock(&t[i].mut);`
centralized #include <check.h>, removed obsolete (uncompiled) unit test. 2009-04-14 20:21:05 +00:00			`} else if(op < 30) {`
more tests / bugfixes for buffermanager. 2007-03-10 01:29:43 +00:00			`// Get stale + remove`
			`tracker * tr = lru->getStale(lru);`
centralized #include <check.h>, removed obsolete (uncompiled) unit test. 2009-04-14 20:21:05 +00:00			`if( tr ) {`
fix concurrentWrapper so that it implements the same api as the other replacement policies (it used to livelock when no pages were available. It now returns null). 2010-03-31 22:37:42 +00:00			`pthread_mutex_lock(&t[tr->val].mut);`
			`if(tr->inCache) {`
			`assert(tr == &t[tr->val]);`
			`tr = lru->remove(lru, tr);`
			`assert(tr == &t[tr->val]);`
			`tr->inCache = 0;`
			`pthread_mutex_lock(&cached_count_mutex);`
			`if(!threaded) assert(cachedCount != 0);`
			`cachedCount --;`
			`pthread_mutex_unlock(&cached_count_mutex);`
			`}`
			`pthread_mutex_unlock(&t[tr->val].mut);`
centralized #include <check.h>, removed obsolete (uncompiled) unit test. 2009-04-14 20:21:05 +00:00			`} else {`
fix concurrentWrapper so that it implements the same api as the other replacement policies (it used to livelock when no pages were available. It now returns null). 2010-03-31 22:37:42 +00:00			`if(!threaded) {`
			`assert(cachedCount == 0);`
			`}`
more tests / bugfixes for buffermanager. 2007-03-10 01:29:43 +00:00			`}`
centralized #include <check.h>, removed obsolete (uncompiled) unit test. 2009-04-14 20:21:05 +00:00			`} else if(op < 50) {`
more tests / bugfixes for buffermanager. 2007-03-10 01:29:43 +00:00			`// Get stale`
			`tracker * tr = lru->getStale(lru);`
centralized #include <check.h>, removed obsolete (uncompiled) unit test. 2009-04-14 20:21:05 +00:00			`if(tr) {`
fix concurrentWrapper so that it implements the same api as the other replacement policies (it used to livelock when no pages were available. It now returns null). 2010-03-31 22:37:42 +00:00			`pthread_mutex_lock(&t[tr->val].mut);`
			`if(!threaded) assert(tr->inCache);`
			`assert(tr == &t[tr->val]);`
			`if(!threaded) assert(cachedCount != 0);`
			`pthread_mutex_unlock(&t[tr->val].mut);`
centralized #include <check.h>, removed obsolete (uncompiled) unit test. 2009-04-14 20:21:05 +00:00			`} else {`
fix concurrentWrapper so that it implements the same api as the other replacement policies (it used to livelock when no pages were available. It now returns null). 2010-03-31 22:37:42 +00:00			`if(!threaded) assert(cachedCount == 0);`
more tests / bugfixes for buffermanager. 2007-03-10 01:29:43 +00:00			`}`
centralized #include <check.h>, removed obsolete (uncompiled) unit test. 2009-04-14 20:21:05 +00:00			`} else {`
more tests / bugfixes for buffermanager. 2007-03-10 01:29:43 +00:00			`// Hit`
fix concurrentWrapper so that it implements the same api as the other replacement policies (it used to livelock when no pages were available. It now returns null). 2010-03-31 22:37:42 +00:00			`pthread_mutex_lock(&t[i].mut);`
Update for new replacement policy api 2007-03-11 07:53:32 +00:00			`if(t[i].inCache) lru->hit(lru, &t[i]);`
fix concurrentWrapper so that it implements the same api as the other replacement policies (it used to livelock when no pages were available. It now returns null). 2010-03-31 22:37:42 +00:00			`pthread_mutex_unlock(&t[i].mut);`
more tests / bugfixes for buffermanager. 2007-03-10 01:29:43 +00:00			`}`
			`}`
Update for new replacement policy api 2007-03-11 07:53:32 +00:00			`}`
			`START_TEST(replacementPolicyLRURandomTest) {`
This fixes in Stasis issue 22. Replacement policies now track the pin count of each page that they interact with. This behavior used to live in bufferHash, and had never been ported to concurrentBufferManager. For various reasons, the pin counts have to be updated atomically with the LRU state. This would be very difficult to do inside of concurrentBufferManager, which sometimes needs to add and remove pages to replacement policies without holding any other latches. 2010-04-20 01:09:32 +00:00			`replacementPolicy * lru = lruFastInit(getKey, setKey, pinCount, 0);`
fix concurrentWrapper so that it implements the same api as the other replacement policies (it used to livelock when no pages were available. It now returns null). 2010-03-31 22:37:42 +00:00			`threaded = 0;`
			`randomSetup();`
			`randomTest(lru, LONG_COUNT);`
			`lru->deinit(lru);`
			`randomTeardown();`
Update for new replacement policy api 2007-03-11 07:53:32 +00:00			`} END_TEST`
			`START_TEST(replacementPolicyLRUFastRandomTest) {`
This fixes in Stasis issue 22. Replacement policies now track the pin count of each page that they interact with. This behavior used to live in bufferHash, and had never been ported to concurrentBufferManager. For various reasons, the pin counts have to be updated atomically with the LRU state. This would be very difficult to do inside of concurrentBufferManager, which sometimes needs to add and remove pages to replacement policies without holding any other latches. 2010-04-20 01:09:32 +00:00			`replacementPolicy * lru = lruFastInit(getKey, setKey, pinCount, 0);`
fix concurrentWrapper so that it implements the same api as the other replacement policies (it used to livelock when no pages were available. It now returns null). 2010-03-31 22:37:42 +00:00			`threaded = 0;`
			`randomSetup();`
			`randomTest(lru, LONG_COUNT);`
			`lru->deinit(lru);`
			`randomTeardown();`
			`} END_TEST`
			`START_TEST(replacementPolicyThreadsafeRandomTest) {`
This fixes in Stasis issue 22. Replacement policies now track the pin count of each page that they interact with. This behavior used to live in bufferHash, and had never been ported to concurrentBufferManager. For various reasons, the pin counts have to be updated atomically with the LRU state. This would be very difficult to do inside of concurrentBufferManager, which sometimes needs to add and remove pages to replacement policies without holding any other latches. 2010-04-20 01:09:32 +00:00			`replacementPolicy * lru = lruFastInit(getKey, setKey, pinCount, 0);`
fix concurrentWrapper so that it implements the same api as the other replacement policies (it used to livelock when no pages were available. It now returns null). 2010-03-31 22:37:42 +00:00			`replacementPolicy * tsLru = replacementPolicyThreadsafeWrapperInit(lru);`
			`threaded = 0;`
			`randomSetup();`
			`randomTest(tsLru, LONG_COUNT);`
			`tsLru->deinit(tsLru);`
			`randomTeardown();`

			`} END_TEST`
			`START_TEST(replacementPolicyConcurrentRandomTest) {`
			`int LRU_COUNT = OBJECT_COUNT / 51;`
			`replacementPolicy * lru[LRU_COUNT];`
			`for(int i = 0; i < LRU_COUNT; i++) {`
This fixes in Stasis issue 22. Replacement policies now track the pin count of each page that they interact with. This behavior used to live in bufferHash, and had never been ported to concurrentBufferManager. For various reasons, the pin counts have to be updated atomically with the LRU state. This would be very difficult to do inside of concurrentBufferManager, which sometimes needs to add and remove pages to replacement policies without holding any other latches. 2010-04-20 01:09:32 +00:00			`lru[i] = lruFastInit(getKey, setKey, pinCount, 0);`
fix concurrentWrapper so that it implements the same api as the other replacement policies (it used to livelock when no pages were available. It now returns null). 2010-03-31 22:37:42 +00:00			`}`
			`threaded = 0;`
			`replacementPolicy * cwLru = replacementPolicyConcurrentWrapperInit(lru, LRU_COUNT);`
			`randomSetup();`
			`randomTest(cwLru, SHORT_COUNT);`
			`cwLru->deinit(cwLru);`
			`randomTeardown();`
			`} END_TEST`

			`replacementPolicy * worker_lru;`
			`unsigned long worker_count;`
			`void * randomTestWorker(void * arg) {`
			`randomTest(worker_lru, worker_count);`
			`return 0;`
			`}`

			`START_TEST(replacementPolicyThreadsafeThreadTest) {`
This fixes in Stasis issue 22. Replacement policies now track the pin count of each page that they interact with. This behavior used to live in bufferHash, and had never been ported to concurrentBufferManager. For various reasons, the pin counts have to be updated atomically with the LRU state. This would be very difficult to do inside of concurrentBufferManager, which sometimes needs to add and remove pages to replacement policies without holding any other latches. 2010-04-20 01:09:32 +00:00			`replacementPolicy * lru = lruFastInit(getKey, setKey, pinCount, 0);`
fix concurrentWrapper so that it implements the same api as the other replacement policies (it used to livelock when no pages were available. It now returns null). 2010-03-31 22:37:42 +00:00			`replacementPolicy * tsLru = replacementPolicyThreadsafeWrapperInit(lru);`
			`threaded = 1;`
			`worker_lru = tsLru;`
			`worker_count = LONG_COUNT / THREAD_COUNT;`
			`pthread_t threads[THREAD_COUNT];`
			`randomSetup();`
			`for(int i = 0; i < THREAD_COUNT; i++) {`
			`pthread_create(&threads[i], 0, randomTestWorker, 0);`
			`}`
			`for(int i = 0; i < THREAD_COUNT; i++) {`
			`pthread_join(threads[i], 0);`
			`}`
			`tsLru->deinit(tsLru);`
			`randomTeardown();`
			`} END_TEST`
			`START_TEST(replacementPolicyConcurrentThreadTest) {`
			`int LRU_COUNT = OBJECT_COUNT / 51;`
			`replacementPolicy * lru[LRU_COUNT];`
			`for(int i = 0; i < LRU_COUNT; i++) {`
This fixes in Stasis issue 22. Replacement policies now track the pin count of each page that they interact with. This behavior used to live in bufferHash, and had never been ported to concurrentBufferManager. For various reasons, the pin counts have to be updated atomically with the LRU state. This would be very difficult to do inside of concurrentBufferManager, which sometimes needs to add and remove pages to replacement policies without holding any other latches. 2010-04-20 01:09:32 +00:00			`lru[i] = lruFastInit(getKey, setKey, pinCount, 0);`
fix concurrentWrapper so that it implements the same api as the other replacement policies (it used to livelock when no pages were available. It now returns null). 2010-03-31 22:37:42 +00:00			`}`
			`replacementPolicy * cwLru = replacementPolicyConcurrentWrapperInit(lru, THREAD_COUNT);`
			`threaded = 1;`
			`worker_lru = cwLru;`
			`worker_count = LONG_COUNT / THREAD_COUNT;`
			`pthread_t threads[THREAD_COUNT];`
			`randomSetup();`
			`for(int i = 0; i < THREAD_COUNT; i++) {`
			`pthread_create(&threads[i], 0, randomTestWorker, 0);`
			`}`
			`for(int i = 0; i < THREAD_COUNT; i++) {`
			`pthread_join(threads[i], 0);`
			`}`

			`cwLru->deinit(cwLru);`
			`randomTeardown();`
more tests / bugfixes for buffermanager. 2007-03-10 01:29:43 +00:00			`} END_TEST`

			`Suite * check_suite(void) {`
fix concurrentWrapper so that it implements the same api as the other replacement policies (it used to livelock when no pages were available. It now returns null). 2010-03-31 22:37:42 +00:00			`Suite *s = suite_create("replacementPolicy");`
more tests / bugfixes for buffermanager. 2007-03-10 01:29:43 +00:00			`/* Begin a new test */`
			`TCase *tc = tcase_create("multithreaded");`
			`tcase_set_timeout(tc, 1200); // twenty minute timeout`
			`/* Sub tests are added, one per line, here */`
centralized #include <check.h>, removed obsolete (uncompiled) unit test. 2009-04-14 20:21:05 +00:00			`tcase_add_test(tc, replacementPolicyLRURandomTest);`
			`tcase_add_test(tc, replacementPolicyLRUFastRandomTest);`
fix concurrentWrapper so that it implements the same api as the other replacement policies (it used to livelock when no pages were available. It now returns null). 2010-03-31 22:37:42 +00:00			`tcase_add_test(tc, replacementPolicyThreadsafeRandomTest);`
			`tcase_add_test(tc, replacementPolicyConcurrentRandomTest);`
			`tcase_add_test(tc, replacementPolicyThreadsafeThreadTest);`
			`tcase_add_test(tc, replacementPolicyConcurrentThreadTest);`

more tests / bugfixes for buffermanager. 2007-03-10 01:29:43 +00:00
			`/* --------------------------------------------- */`
centralized #include <check.h>, removed obsolete (uncompiled) unit test. 2009-04-14 20:21:05 +00:00
more tests / bugfixes for buffermanager. 2007-03-10 01:29:43 +00:00			`tcase_add_checked_fixture(tc, setup, teardown);`


			`suite_add_tcase(s, tc);`
			`return s;`
			`}`

			`#include "../check_setup.h"`