CTEST(basement, empty)
{
int ret;
struct basement_iter iter;
struct basement *bsm = basement_new();
basement_iter_init(&iter, bsm);
basement_iter_seektofirst(&iter);
ret = basement_iter_valid(&iter);
ASSERT_EQUAL(0, ret);
struct msg m1 = {
.size = 6,
.data = "key-01"
};
basement_iter_seek(&iter, &m1);
ret = basement_iter_valid(&iter);
ASSERT_EQUAL(0, ret);
basement_free(bsm);
xcheck_all_free();
}
void _random_key(char *key,int length) {
int i;
char salt[36]= "abcdefghijklmnopqrstuvwxyz123456789";
for (i = 0; i < length; i++)
key[i] = salt[rand() % 36];
}
CTEST(node_serial_test, leaf_empty)
{
int ret = 0;
int fd = ness_os_open(BRT_FILE, O_RDWR | O_CREAT, 0777);
struct block *b = block_new();
struct hdr *hdr = (struct hdr*)xcalloc(1, sizeof(*hdr));
struct options *opts = options_new();
/*
* dummy brt leaf
*/
uint64_t nid = 3;
struct node *dummy_leaf = leaf_alloc_empty(nid);
leaf_alloc_bsm(dummy_leaf);
ret = serialize_node_to_disk(fd, b, dummy_leaf, hdr);
ASSERT_TRUE(ret > 0);
//free
node_free(dummy_leaf);
struct node *dummy_leaf1;
ret = deserialize_node_from_disk(fd, b, nid, &dummy_leaf1, 0);
ASSERT_TRUE(ret > 0);
ASSERT_EQUAL(0, basement_count(dummy_leaf1->u.l.le->bsm));
//free
node_free(dummy_leaf1);
ness_os_close(fd);
block_free(b);
xfree(hdr);
options_free(opts);
xcheck_all_free();
}
CTEST(basement, insert_and_lookup)
{
int i;
int ret;
int R = 1000;
char kbuf[KEY_SIZE];
char vbuf[VAL_SIZE];
struct basement_iter iter;
struct basement *bsm = basement_new();
struct msg **msgs = xcalloc(R, sizeof(*msgs));
struct txnid_pair xidpair = {
.child_xid = TXNID_NONE,
.parent_xid = TXNID_NONE
};
MSN msn = 0U;
_random_key(vbuf, VAL_SIZE);
for (i = 0; i < R; i++) {
memset(kbuf, 0, KEY_SIZE);
snprintf(kbuf, KEY_SIZE, "key-%d", i);
struct msg k = {.data = kbuf, .size = KEY_SIZE};
struct msg v = {.data = vbuf, .size = VAL_SIZE};
msgs[i] = msgdup(&k);
basement_put(bsm,
msn++,
MSG_INSERT,
&k,
&v,
&xidpair
);
}
basement_iter_init(&iter, bsm);
basement_iter_seektolast(&iter);
ret = basement_iter_valid(&iter);
ASSERT_EQUAL(1, ret);
for (i = 0; i < R; i++) {
basement_iter_seek(&iter, msgs[i]);
ret = basement_iter_valid(&iter);
ASSERT_EQUAL(1, ret);
ret = msg_key_compare(msgs[i], &iter.key);
ASSERT_EQUAL(0, ret);
}
/* do msg free */
for (i = 0; i < R; i++) {
xfree(msgs[i]->data);
xfree(msgs[i]);
}
xfree(msgs);
basement_free(bsm);
xcheck_all_free();
}
CTEST(cron_test, start)
{
uint32_t c = 0;
struct cron *cron = cron_new(run_100ms, 100);
cron_start(cron, &c);
usleep(550000); // 500ms
cron_stop(cron);
ASSERT_EQUAL(3, c);
cron_free(cron);
xcheck_all_free();
}
CTEST(cron_test, change_period)
{
uint32_t c = 0;
struct cron *cron = cron_new(run_0sec, 1000000);
cron_start(cron, &c);
cron_change_period(cron, 100);
usleep(350000); // 300ms
cron_stop(cron);
ASSERT_EQUAL(3, c);
cron_free(cron);
xcheck_all_free();
}
CTEST(cron_test, signal)
{
uint32_t c = 0;
struct cron *cron = cron_new(run_0sec, 100000000);
cron_start(cron, &c);
usleep(1000); // 10ms
cron_signal(cron);
usleep(1000); // 10ms
ASSERT_EQUAL(1, c);
cron_stop(cron);
cron_free(cron);
xcheck_all_free();
}
CTEST(cursor, empty)
{
int ret;
struct options *opts;
struct status *status;
struct cache *cache;
struct tree *tree;
/* create */
opts = options_new();
status = status_new();
cache = dbcache_new(opts);
tree = tree_new(DBPATH0, opts, status, cache, 1);
/* cursor */
struct cursor *cur;
cur = cursor_new(tree);
/* first */
tree_cursor_first(cur);
ret = tree_cursor_valid(cur);
ASSERT_EQUAL(0, ret);
/* last */
tree_cursor_last(cur);
ret = tree_cursor_valid(cur);
ASSERT_EQUAL(0, ret);
/* next */
tree_cursor_next(cur);
ret = tree_cursor_valid(cur);
ASSERT_EQUAL(0, ret);
cursor_free(cur);
/* free */
dbcache_free(cache);
tree_free(tree);
options_free(opts);
status_free(status);
xcheck_all_free();
}
CTEST(node_serial_test, leaf_2_record)
{
int ret = 0;
int fd = ness_os_open(BRT_FILE, O_RDWR | O_CREAT, 0777);
struct block *b = block_new();
struct hdr *hdr = (struct hdr*)xcalloc(1, sizeof(*hdr));
struct options *opts = options_new();
/*
* dummy brt leaf
*/
uint64_t nid = 3;
struct node *dummy_leaf = leaf_alloc_empty(nid);
leaf_alloc_bsm(dummy_leaf);
MSN msn = 0U;
struct xids *xids = NULL;
struct msg k, v;
k.size = 6;
k.data = "hello";
v.size = 6;
v.data = "world";
basement_put(dummy_leaf->u.l.le->bsm, &k, &v, MSG_INSERT, msn, xids);
struct msg k1, v1;
k1.size = 6;
k1.data = "hellx";
v1.size = 6;
v1.data = "worlx";
basement_put(dummy_leaf->u.l.le->bsm, &k1, &v1, MSG_INSERT, msn, xids);
ret = serialize_node_to_disk(fd, b, dummy_leaf, hdr);
ASSERT_TRUE(ret > 0);
//free
node_free(dummy_leaf);
struct node *dummy_leaf1;
ret = deserialize_node_from_disk(fd, b, nid, &dummy_leaf1, 0);
ASSERT_TRUE(ret > 0);
ASSERT_EQUAL(2, basement_count(dummy_leaf1->u.l.le->bsm));
struct basement_iter iter;
basement_iter_init(&iter, dummy_leaf1->u.l.le->bsm);
basement_iter_seek(&iter, &k);
ASSERT_EQUAL(1, iter.valid);
ASSERT_STR("world", iter.val.data);
basement_iter_seek(&iter, &k1);
ASSERT_EQUAL(1, iter.valid);
ASSERT_STR("worlx", iter.val.data);
//free
node_free(dummy_leaf1);
ness_os_close(fd);
block_free(b);
xfree(hdr);
options_free(opts);
xcheck_all_free();
}
CTEST(node_serial_test, node_2th_part_empty)
{
int ret = 0;
NID nid;
uint32_t n_children = 3;
int fd = ness_os_open(BRT_FILE, O_RDWR | O_CREAT, 0777);
struct block *b = block_new();
struct hdr *hdr = (struct hdr*)xcalloc(1, sizeof(*hdr));
struct options *opts = options_new();
/*
* serialize
*/
struct node *dummy_node;
hdr->last_nid++;
nid = hdr->last_nid;
dummy_node = nonleaf_alloc_empty(nid, 1, n_children);
nonleaf_alloc_buffer(dummy_node);
struct msg p0;
p0.size = 6;
p0.data = "pivot0";
msgcpy(&dummy_node->u.n.pivots[0], &p0);
struct msg p1;
p1.size = 6;
p1.data = "pivot1";
msgcpy(&dummy_node->u.n.pivots[1], &p1);
MSN msn = 0U;
struct xids *xids = NULL;
struct msg k, v;
k.size = 5;
k.data = "hello";
v.size = 5;
v.data = "world";
basement_put(dummy_node->u.n.parts[0].buffer, &k, &v, MSG_INSERT, msn,
xids);
hdr->method = NESS_QUICKLZ_METHOD;
ret = serialize_node_to_disk(fd, b, dummy_node, hdr);
ASSERT_TRUE(ret > 0);
node_free(dummy_node);
//deserialize
int light = 0;
struct node *dummy_node1;
ret = deserialize_node_from_disk(fd, b, nid, &dummy_node1, light);
ASSERT_TRUE(ret > 0);
ASSERT_EQUAL(1, dummy_node1->height);
ASSERT_EQUAL(3, dummy_node1->u.n.n_children);
ASSERT_DATA((const unsigned char*)"pivot0",
6,
(const unsigned char*)dummy_node1->u.n.pivots[0].data,
dummy_node1->u.n.pivots[0].size);
ASSERT_DATA((const unsigned char*)"pivot1",
6,
(const unsigned char*)dummy_node1->u.n.pivots[1].data,
dummy_node1->u.n.pivots[1].size);
ASSERT_EQUAL(3, dummy_node1->u.n.n_children);
if (!light) {
int cmp;
struct basement_iter iter;
struct basement *bsm;
bsm = dummy_node1->u.n.parts[0].buffer;
basement_iter_init(&iter, bsm);
int mb_c = basement_count(dummy_node1->u.n.parts[0].buffer);
ASSERT_EQUAL(1, mb_c);
basement_iter_seek(&iter, &k);
ret = basement_iter_valid(&iter);
ASSERT_EQUAL(1, ret);
cmp = msg_key_compare(&k, &iter.key);
ASSERT_EQUAL(0, cmp);
cmp = msg_key_compare(&v, &iter.val);
ASSERT_EQUAL(0, cmp);
mb_c = basement_count(dummy_node1->u.n.parts[1].buffer);
ASSERT_EQUAL(0, mb_c);
}
node_free(dummy_node1);
ness_os_close(fd);
block_free(b);
xfree(hdr);
options_free(opts);
xcheck_all_free();
}
CTEST(basement, multiversion)
{
int i;
int ret;
int R = 123;
char kbuf[KEY_SIZE];
char vbuf[VAL_SIZE];
struct basement_iter iter;
struct basement *bsm = basement_new();
struct txnid_pair xidpair = {
.child_xid = TXNID_NONE,
.parent_xid = TXNID_NONE
};
_random_key(vbuf, VAL_SIZE);
MSN msn = 0U;
for (i = 0; i < R; i++) {
memset(kbuf, 0, KEY_SIZE);
snprintf(kbuf, KEY_SIZE, "key-%d", i);
struct msg k = {.data = kbuf, .size = KEY_SIZE};
struct msg v = {.data = vbuf, .size = VAL_SIZE};
basement_put(bsm,
msn++,
MSG_INSERT,
&k,
&v,
&xidpair
);
}
/* 3 versions of key-66 */
R = 3;
for (i = 0; i < R; i++) {
memset(kbuf, 0, KEY_SIZE);
snprintf(kbuf, KEY_SIZE, "key-66");
struct msg k = {.data = kbuf, .size = KEY_SIZE};
struct msg v = {.data = vbuf, .size = VAL_SIZE};
basement_put(bsm,
msn++,
MSG_INSERT,
&k,
&v,
&xidpair
);
}
/* 5 versions of key-88 */
R = 5;
for (i = 0; i < R; i++) {
memset(kbuf, 0, KEY_SIZE);
snprintf(kbuf, KEY_SIZE, "key-88");
struct msg k = {.data = kbuf, .size = KEY_SIZE};
struct msg v = {.data = vbuf, .size = VAL_SIZE};
basement_put(bsm,
msn++,
MSG_INSERT,
&k,
&v,
&xidpair
);
}
/* key-66 */
memset(kbuf, 0, KEY_SIZE);
snprintf(kbuf, KEY_SIZE, "key-66");
struct msg k1 = {.data = kbuf, .size = KEY_SIZE};
basement_iter_init(&iter, bsm);
basement_iter_seek(&iter, &k1);
ret = basement_iter_valid(&iter);
ASSERT_EQUAL(1, ret);
ASSERT_EQUAL(66, iter.msn);
basement_iter_next(&iter);
ret = basement_iter_valid(&iter);
ASSERT_EQUAL(1, ret);
ASSERT_EQUAL(123, iter.msn);
/* less than valid */
ret = basement_iter_valid_lessorequal(&iter, &k1);
ASSERT_EQUAL(1, ret);
memset(kbuf, 0, KEY_SIZE);
snprintf(kbuf, KEY_SIZE, "key-67");
k1.size = KEY_SIZE;
k1.data = kbuf;
ret = basement_iter_valid_lessorequal(&iter, &k1);
ASSERT_EQUAL(1, ret);
memset(kbuf, 0, KEY_SIZE);
snprintf(kbuf, KEY_SIZE, "key-65");
k1.size = KEY_SIZE;
k1.data = kbuf;
ret = basement_iter_valid_lessorequal(&iter, &k1);
ASSERT_EQUAL(0, ret);
/* key-88 */
memset(kbuf, 0, KEY_SIZE);
snprintf(kbuf, KEY_SIZE, "key-88");
struct msg k2 = {.data = kbuf, .size = KEY_SIZE};
basement_iter_seek(&iter, &k2);
ret = basement_iter_valid(&iter);
ASSERT_EQUAL(1, ret);
ASSERT_EQUAL(88, iter.msn);
basement_iter_next(&iter);
basement_iter_next(&iter);
ret = basement_iter_valid(&iter);
ASSERT_EQUAL(1, ret);
ASSERT_EQUAL(127, iter.msn);
/* next&prev diff key */
/* key-87 */
memset(kbuf, 0, KEY_SIZE);
snprintf(kbuf, KEY_SIZE, "key-87");
struct msg k3 = {.data = kbuf, .size = KEY_SIZE};
basement_iter_prev_diff_key(&iter);
ret = msg_key_compare(&k3, &iter.key);
ASSERT_EQUAL(0, ret);
/* key-88 */
basement_iter_next(&iter);
memset(kbuf, 0, KEY_SIZE);
snprintf(kbuf, KEY_SIZE, "key-88");
struct msg k22 = {.data = kbuf, .size = KEY_SIZE};
ret = msg_key_compare(&k22, &iter.key);
ASSERT_EQUAL(0, ret);
/* key-89 */
memset(kbuf, 0, KEY_SIZE);
snprintf(kbuf, KEY_SIZE, "key-89");
struct msg k4 = {.data = kbuf, .size = KEY_SIZE};
basement_iter_next_diff_key(&iter);
ret = msg_key_compare(&k4, &iter.key);
ASSERT_EQUAL(0, ret);
basement_free(bsm);
xcheck_all_free();
}
