int utils_varint_to_uint64(const char *vi, uint64_t *i) { char v[VARINT_LEN] = {0}; int len; if (!vi) { len = 0; } else if (!strncmp(vi, "ff", 2)) { len = 16; } else if (!strncmp(vi, "fe", 2)) { len = 8; } else if (!strncmp(vi, "fd", 2)) { len = 4; } else { len = 2; } if (len == 0) { // continue } else if (len > 2) { strncpy(v, vi + 2, len); utils_reverse_hex(v, len); } else { strncpy(v, vi, len); } *i = strtoull(v, NULL, 16); return len; }
void utils_uint64_to_varint(char *vi, int *l, uint64_t i) { int len; char v[VARINT_LEN]; if (i < 0xfd) { sprintf(v, "%02" PRIx64 , i); len = 2; } else if (i <= 0xffff) { sprintf(v, "%04" PRIx64 , i); sprintf(vi, "fd"); len = 4; } else if (i <= 0xffffffff) { sprintf(v, "%08" PRIx64 , i); sprintf(vi, "fe"); len = 8; } else { sprintf(v, "%016" PRIx64 , i); sprintf(vi, "ff"); len = 16; } // reverse order if (len > 2) { utils_reverse_hex(v, len); strncat(vi, v, len); } else { strncpy(vi, v, len); } *l = len; }
void test_logdb(logdb_log_db* (*new_func)()) { logdb_log_db *db; enum logdb_error error = 0; struct buffer key = {"key0", 4}; struct buffer value = {"val0", 4}; struct buffer key1; struct buffer value1; cstring *outtest; cstring *value_test; unsigned char testbin[4] = {0x00, 0x10, 0x20, 0x30}; struct buffer value0_new = {"dumb", 4}; struct buffer key2 = {"pkey", 4}; struct buffer value2; struct buffer smp_value; struct buffer smp_key; uint8_t txbin[10240]; uint8_t txbin_rev[10240]; char hexrev[98]; int outlenrev; long fsize; char *buf; char *wrk_buf; FILE *f; unsigned int i; value2.p = testbin; value2.len = 4; key1.p = (char *)key1str; key1.len = strlen(key1str); value1.p = (char *)value1str; value1.len = strlen(value1str); unlink(dbtmpfile); db = new_func(); u_assert_int_eq(logdb_load(db, "file_that_should_not_exists.dat", false, NULL), false); u_assert_int_eq(logdb_load(db, dbtmpfile, true, NULL), true); logdb_append(db, &key, &value); logdb_append(db, &key1, &value1); u_assert_int_eq(logdb_cache_size(db), 2); outtest = logdb_find_cache(db, &key1); u_assert_int_eq(strcmp(outtest->str, value1str),0); logdb_flush(db); logdb_free(db); db = new_func(); u_assert_int_eq(logdb_load(db, dbtmpfile, false, NULL), true); u_assert_int_eq(logdb_count_keys(db), 2); value_test = logdb_find(db, &key1); u_assert_int_eq(strcmp(value_test->str, value1str), 0); value_test = logdb_find(db, &key); u_assert_int_eq(memcmp(value_test->str, value.p, value.len), 0); logdb_free(db); db = new_func(); u_assert_int_eq(logdb_load(db, dbtmpfile, false, NULL), true); logdb_append(db, &key2, &value2); logdb_flush(db); logdb_free(db); /* check if private key is available */ db = new_func(); u_assert_int_eq(logdb_load(db, dbtmpfile, false, NULL), true); value_test = logdb_find(db, &key2); u_assert_int_eq(memcmp(value_test->str, value2.p, value2.len), 0); value_test = logdb_find(db, &key); u_assert_int_eq(memcmp(value_test->str, value.p, value.len), 0); /* delete a record */ logdb_delete(db, &key2); logdb_flush(db); logdb_free(db); /* find and check the deleted record */ db = new_func(); u_assert_int_eq(logdb_load(db, dbtmpfile, false, NULL), true); value_test = logdb_find(db, &key); u_assert_int_eq(memcmp(value_test->str, value.p, value.len), 0); value_test = logdb_find(db, &key2); u_assert_int_eq((int)value_test, 0); /* should be null */ /* overwrite a key */ logdb_append(db, &key, &value0_new); value_test = logdb_find(db, &key); u_assert_int_eq(memcmp(value_test->str, value0_new.p, value0_new.len), 0); logdb_flush(db); logdb_free(db); db = new_func(); u_assert_int_eq(logdb_load(db, dbtmpfile, false, NULL), true); value_test = logdb_find(db, &key); u_assert_int_eq(memcmp(value_test->str, value0_new.p, value0_new.len), 0); logdb_flush(db); logdb_free(db); /* simulate corruption */ f = fopen(dbtmpfile, "rb"); fseek(f, 0, SEEK_END); fsize = ftell(f); fseek(f, 0, SEEK_SET); buf = malloc(fsize + 1); fread(buf, fsize, 1, f); fclose(f); /* ---------------------------------------------------- */ wrk_buf = safe_malloc(fsize + 1); memcpy(wrk_buf, buf, fsize); wrk_buf[0] = 0x88; /* wrong header */ unlink(dbtmpfile); f = fopen(dbtmpfile, "wb"); fwrite(wrk_buf, 1, fsize, f); fclose(f); db = new_func(); u_assert_int_eq(logdb_load(db, dbtmpfile, false, &error), false); u_assert_int_eq(error, LOGDB_ERROR_WRONG_FILE_FORMAT); logdb_free(db); /* ---------------------------------------------------- */ memcpy(wrk_buf, buf, fsize); wrk_buf[66] = 0x00; /* wrong checksum hash */ unlink(dbtmpfile); f = fopen(dbtmpfile, "wb"); fwrite(wrk_buf, 1, fsize, f); fclose(f); db = new_func(); u_assert_int_eq(logdb_load(db, dbtmpfile, false, &error), false); u_assert_int_eq(error, LOGDB_ERROR_CHECKSUM); logdb_free(db); /* ---------------------------------------------------- */ memcpy(wrk_buf, buf, fsize); wrk_buf[42] = 0xFF; /* wrong value length */ unlink(dbtmpfile); f = fopen(dbtmpfile, "wb"); fwrite(wrk_buf, 1, fsize, f); fclose(f); db = new_func(); u_assert_int_eq(logdb_load(db, dbtmpfile, false, &error), false); u_assert_int_eq(error, LOGDB_ERROR_DATASTREAM_ERROR); logdb_free(db); free(buf); free(wrk_buf); /* --- large db test */ unlink(dbtmpfile); db = new_func(); u_assert_int_eq(logdb_load(db, dbtmpfile, true, NULL), true); for (i = 0; i < (sizeof(sampledata) / sizeof(sampledata[0])); i++) { const struct txtest *tx = &sampledata[i]; uint8_t hashbin[sizeof(tx->txhash) / 2]; int outlen = sizeof(tx->txhash) / 2; utils_hex_to_bin(tx->txhash, hashbin, strlen(tx->txhash), &outlen); smp_key.p = hashbin; smp_key.len = outlen; outlen = sizeof(tx->hextx) / 2; utils_hex_to_bin(tx->hextx, txbin, strlen(tx->hextx), &outlen); smp_value.p = txbin; smp_value.len = outlen; logdb_append(db, &smp_key, &smp_value); } u_assert_int_eq(logdb_count_keys(db), (sizeof(sampledata) / sizeof(sampledata[0]))); /* check all records */ for (i = 0; i < (sizeof(sampledata) / sizeof(sampledata[0])); i++) { const struct txtest *tx = &sampledata[i]; uint8_t hashbin[sizeof(tx->txhash) / 2]; int outlen = sizeof(tx->txhash) / 2; utils_hex_to_bin(tx->txhash, hashbin, strlen(tx->txhash), &outlen); smp_key.p = hashbin; smp_key.len = outlen; outtest = logdb_find(db, &smp_key); outlen = sizeof(tx->hextx) / 2; utils_hex_to_bin(tx->hextx, txbin, strlen(tx->hextx), &outlen); u_assert_int_eq(outlen, outtest->len); } logdb_flush(db); logdb_free(db); db = new_func(); error = 0; u_assert_int_eq(logdb_load(db, dbtmpfile, false, &error), true); u_assert_int_eq(logdb_count_keys(db), (sizeof(sampledata) / sizeof(sampledata[0]))); /* check all records */ for (i = 0; i < (sizeof(sampledata) / sizeof(sampledata[0])); i++) { const struct txtest *tx = &sampledata[i]; uint8_t hashbin[sizeof(tx->txhash) / 2]; int outlen = sizeof(tx->txhash) / 2; utils_hex_to_bin(tx->txhash, hashbin, strlen(tx->txhash), &outlen); memcpy(hexrev, tx->txhash, sizeof(tx->txhash)); utils_reverse_hex(hexrev, strlen(tx->txhash)); outlenrev = sizeof(tx->txhash) / 2; utils_hex_to_bin(hexrev, txbin_rev, strlen(hexrev), &outlenrev); smp_key.p = hashbin; smp_key.len = outlen; outtest = logdb_find(db, &smp_key); outlen = strlen(tx->hextx) / 2; utils_hex_to_bin(tx->hextx, txbin, strlen(tx->hextx), &outlen); u_assert_int_eq(outlen, outtest->len); /* hash transaction data and check hashes */ if (strlen(tx->hextx) > 2) { uint8_t tx_hash_check[SHA256_DIGEST_LENGTH]; sha256_Raw(txbin, outlen, tx_hash_check); sha256_Raw(tx_hash_check, 32, tx_hash_check); u_assert_int_eq(memcmp(tx_hash_check, txbin_rev, SHA256_DIGEST_LENGTH), 0); } } /* check all records */ for (i = 0; i < (sizeof(sampledata) / sizeof(sampledata[0])); i++) { const struct txtest *tx = &sampledata[i]; uint8_t hashbin[sizeof(tx->txhash) / 2]; int outlen = sizeof(tx->txhash) / 2; utils_hex_to_bin(tx->txhash, hashbin, strlen(tx->txhash), &outlen); smp_key.p = hashbin; smp_key.len = outlen; logdb_delete(db, &smp_key); } u_assert_int_eq(logdb_count_keys(db), 0); logdb_flush(db); logdb_free(db); db = new_func(); error = 0; u_assert_int_eq(logdb_load(db, dbtmpfile, false, &error), true); u_assert_int_eq(error, LOGDB_SUCCESS); u_assert_int_eq(logdb_count_keys(db), 0); for (i = 0; i < (sizeof(sampledata) / sizeof(sampledata[0])); i++) { const struct txtest *tx = &sampledata[i]; uint8_t hashbin[sizeof(tx->txhash) / 2]; int outlen = sizeof(tx->txhash) / 2; utils_hex_to_bin(tx->txhash, hashbin, strlen(tx->txhash), &outlen); smp_key.p = hashbin; smp_key.len = outlen; outlen = sizeof(tx->hextx) / 2; utils_hex_to_bin(tx->hextx, txbin, strlen(tx->hextx), &outlen); smp_value.p = txbin; smp_value.len = outlen; logdb_append(db, &smp_key, &smp_value); } logdb_flush(db); logdb_free(db); db = new_func(); error = 0; u_assert_int_eq(logdb_load(db, dbtmpfile, false, &error), true); u_assert_int_eq(error, LOGDB_SUCCESS); u_assert_int_eq(logdb_count_keys(db), (sizeof(sampledata) / sizeof(sampledata[0]))); logdb_flush(db); logdb_free(db); db = new_func(); error = 0; u_assert_int_eq(logdb_load(db, dbtmpfile, false, &error), true); u_assert_int_eq(error, LOGDB_SUCCESS); u_assert_int_eq(logdb_count_keys(db), (sizeof(sampledata) / sizeof(sampledata[0]))); for (i = 0; i < (sizeof(sampledata) / sizeof(sampledata[0])); i++) { const struct txtest *tx = &sampledata[i]; uint8_t hashbin[sizeof(tx->txhash) / 2]; int outlen = sizeof(tx->txhash) / 2; utils_hex_to_bin(tx->txhash, hashbin, strlen(tx->txhash), &outlen); smp_key.p = hashbin; smp_key.len = outlen; outlen = sizeof(tx->hextx) / 2; utils_hex_to_bin(tx->hextx, txbin, strlen(tx->hextx), &outlen); smp_value.p = txbin; smp_value.len = outlen; logdb_append(db, &smp_key, &smp_value); } logdb_flush(db); logdb_free(db); }
void test_logdb(logdb_log_db* (*new_func)()) { logdb_log_db *db; enum logdb_error error = 0; cstring *key;// key= {"key0", 4}; cstring *value;// = {"val0", 4}; cstring *key1; cstring *value1; cstring *outtest; cstring *value_test; unsigned char testbin[4] = {0x00, 0x10, 0x20, 0x30}; cstring *value0;// = {"dumb", 4}; cstring *key2;// = {"pkey", 4}; cstring *value2; cstring *smp_value; cstring *smp_key; uint8_t txbin[10240]; uint8_t txbin_rev[10240]; char hexrev[98]; int outlenrev; long fsize; char *buf; char *wrk_buf; FILE *f; unsigned int i; char bufs[300][65]; rb_red_blk_node *nodetest; unsigned int cnt = 0; logdb_record* rec; key = cstr_new("key0"); value = cstr_new("val0"); value0 = cstr_new("dumb"); value1 = cstr_new_sz(10); value2 = cstr_new_sz(10); key1 = cstr_new_sz(10); key2 = cstr_new("key2"); cstr_append_buf(value2, testbin, sizeof(testbin)); cstr_append_buf(value2, testbin, sizeof(testbin)); cstr_append_buf(key1, key1str, strlen(key1str)); cstr_append_buf(value1, value1str, strlen(value1str)); unlink(dbtmpfile); db = new_func(); u_assert_int_eq(logdb_load(db, "file_that_should_not_exists.dat", false, NULL), false); u_assert_int_eq(logdb_load(db, dbtmpfile, true, NULL), true); logdb_append(db, NULL, key, value); logdb_append(db, NULL, key1, value1); u_assert_int_eq(logdb_cache_size(db), 2); outtest = logdb_find_cache(db, key1); u_assert_int_eq(strcmp(outtest->str, value1str),0); logdb_flush(db); logdb_free(db); db = new_func(); u_assert_int_eq(logdb_load(db, dbtmpfile, false, NULL), true); u_assert_int_eq(logdb_count_keys(db), 2); value_test = logdb_find(db, key1); u_assert_int_eq(strcmp(value_test->str, value1str), 0); value_test = logdb_find(db, key); u_assert_int_eq(memcmp(value_test->str, value->str, value->len), 0); logdb_free(db); db = new_func(); u_assert_int_eq(logdb_load(db, dbtmpfile, false, NULL), true); logdb_append(db, NULL, key2, value2); logdb_flush(db); logdb_free(db); /* check if private key is available */ db = new_func(); u_assert_int_eq(logdb_load(db, dbtmpfile, false, NULL), true); value_test = logdb_find(db, key2); u_assert_int_eq(memcmp(value_test->str, value2->str, value2->len), 0); value_test = logdb_find(db, key); u_assert_int_eq(memcmp(value_test->str, value->str, value->len), 0); /* delete a record */ logdb_delete(db, NULL, key2); logdb_flush(db); logdb_free(db); /* find and check the deleted record */ db = new_func(); u_assert_int_eq(logdb_load(db, dbtmpfile, false, NULL), true); value_test = logdb_find(db, key); u_assert_int_eq(memcmp(value_test->str, value->str, value->len), 0); value_test = logdb_find(db, key2); u_assert_int_eq((int)value_test, 0); /* should be null */ /* overwrite a key */ logdb_append(db, NULL, key, value0); value_test = logdb_find(db, key); u_assert_int_eq(memcmp(value_test->str, value0->str, value0->len), 0); logdb_flush(db); logdb_free(db); db = new_func(); u_assert_int_eq(logdb_load(db, dbtmpfile, false, NULL), true); value_test = logdb_find(db, key); u_assert_int_eq(memcmp(value_test->str, value0->str, value0->len), 0); logdb_flush(db); logdb_free(db); /* simulate corruption */ f = fopen(dbtmpfile, "rb"); fseek(f, 0, SEEK_END); fsize = ftell(f); fseek(f, 0, SEEK_SET); buf = malloc(fsize + 1); fread(buf, fsize, 1, f); fclose(f); /* ---------------------------------------------------- */ wrk_buf = safe_malloc(fsize + 1); memcpy(wrk_buf, buf, fsize); wrk_buf[0] = 0x88; /* wrong header */ unlink(dbtmpfile); f = fopen(dbtmpfile, "wb"); fwrite(wrk_buf, 1, fsize, f); fclose(f); db = new_func(); u_assert_int_eq(logdb_load(db, dbtmpfile, false, &error), false); u_assert_int_eq(error, LOGDB_ERROR_WRONG_FILE_FORMAT); logdb_free(db); /* ---------------------------------------------------- */ memcpy(wrk_buf, buf, fsize); wrk_buf[66] = 0x00; /* wrong checksum hash */ unlink(dbtmpfile); f = fopen(dbtmpfile, "wb"); fwrite(wrk_buf, 1, fsize, f); fclose(f); db = new_func(); u_assert_int_eq(logdb_load(db, dbtmpfile, false, &error), false); u_assert_int_eq(error, LOGDB_ERROR_CHECKSUM); logdb_free(db); /* ---------------------------------------------------- */ memcpy(wrk_buf, buf, fsize); wrk_buf[42] = 0xFF; /* wrong value length */ unlink(dbtmpfile); f = fopen(dbtmpfile, "wb"); fwrite(wrk_buf, 1, fsize, f); fclose(f); db = new_func(); u_assert_int_eq(logdb_load(db, dbtmpfile, false, &error), false); u_assert_int_eq(error, LOGDB_ERROR_DATASTREAM_ERROR); logdb_free(db); free(buf); free(wrk_buf); /* --- large db test */ unlink(dbtmpfile); db = new_func(); u_assert_int_eq(logdb_load(db, dbtmpfile, true, NULL), true); smp_key = cstr_new_sz(100); smp_value = cstr_new_sz(100); for (i = 0; i < (sizeof(sampledata) / sizeof(sampledata[0])); i++) { const struct txtest *tx = &sampledata[i]; uint8_t hashbin[sizeof(tx->txhash) / 2]; int outlen = sizeof(tx->txhash) / 2; utils_hex_to_bin(tx->txhash, hashbin, strlen(tx->txhash), &outlen); cstr_erase(smp_key, 0, smp_key->len); cstr_append_buf(smp_key, hashbin, outlen); outlen = sizeof(tx->hextx) / 2; utils_hex_to_bin(tx->hextx, txbin, strlen(tx->hextx), &outlen); cstr_erase(smp_value, 0, smp_value->len); cstr_append_buf(smp_value, txbin, outlen); logdb_append(db, NULL, smp_key, smp_value); } u_assert_int_eq(logdb_count_keys(db), (sizeof(sampledata) / sizeof(sampledata[0]))); /* check all records */ for (i = 0; i < (sizeof(sampledata) / sizeof(sampledata[0])); i++) { const struct txtest *tx = &sampledata[i]; uint8_t hashbin[sizeof(tx->txhash) / 2]; int outlen = sizeof(tx->txhash) / 2; utils_hex_to_bin(tx->txhash, hashbin, strlen(tx->txhash), &outlen); cstr_erase(smp_key, 0, smp_key->len); cstr_append_buf(smp_key, hashbin, outlen); outtest = logdb_find(db, smp_key); outlen = sizeof(tx->hextx) / 2; utils_hex_to_bin(tx->hextx, txbin, strlen(tx->hextx), &outlen); u_assert_int_eq(outlen, outtest->len); } logdb_flush(db); logdb_free(db); db = new_func(); error = 0; u_assert_int_eq(logdb_load(db, dbtmpfile, false, &error), true); u_assert_int_eq(logdb_count_keys(db), (sizeof(sampledata) / sizeof(sampledata[0]))); /* check all records */ for (i = 0; i < (sizeof(sampledata) / sizeof(sampledata[0])); i++) { const struct txtest *tx = &sampledata[i]; uint8_t hashbin[sizeof(tx->txhash) / 2]; int outlen = sizeof(tx->txhash) / 2; utils_hex_to_bin(tx->txhash, hashbin, strlen(tx->txhash), &outlen); memcpy(hexrev, tx->txhash, sizeof(tx->txhash)); utils_reverse_hex(hexrev, strlen(tx->txhash)); outlenrev = sizeof(tx->txhash) / 2; utils_hex_to_bin(hexrev, txbin_rev, strlen(hexrev), &outlenrev); cstr_erase(smp_key, 0, smp_key->len); cstr_append_buf(smp_key, hashbin, outlen); outtest = logdb_find(db, smp_key); outlen = strlen(tx->hextx) / 2; utils_hex_to_bin(tx->hextx, txbin, strlen(tx->hextx), &outlen); u_assert_int_eq(outlen, outtest->len); /* hash transaction data and check hashes */ if (strlen(tx->hextx) > 2) { uint8_t tx_hash_check[SHA256_DIGEST_LENGTH]; sha256_Raw(txbin, outlen, tx_hash_check); sha256_Raw(tx_hash_check, 32, tx_hash_check); u_assert_int_eq(memcmp(tx_hash_check, txbin_rev, SHA256_DIGEST_LENGTH), 0); } } /* check all records */ for (i = 0; i < (sizeof(sampledata) / sizeof(sampledata[0])); i++) { const struct txtest *tx = &sampledata[i]; uint8_t hashbin[sizeof(tx->txhash) / 2]; int outlen = sizeof(tx->txhash) / 2; utils_hex_to_bin(tx->txhash, hashbin, strlen(tx->txhash), &outlen); cstr_erase(smp_key, 0, smp_key->len); cstr_append_buf(smp_key, hashbin, outlen); logdb_delete(db, NULL, smp_key); } u_assert_int_eq(logdb_count_keys(db), 0); logdb_flush(db); logdb_free(db); db = new_func(); error = 0; u_assert_int_eq(logdb_load(db, dbtmpfile, false, &error), true); u_assert_int_eq(error, LOGDB_SUCCESS); u_assert_int_eq(logdb_count_keys(db), 0); for (i = 0; i < (sizeof(sampledata) / sizeof(sampledata[0])); i++) { const struct txtest *tx = &sampledata[i]; uint8_t hashbin[sizeof(tx->txhash) / 2]; int outlen = sizeof(tx->txhash) / 2; utils_hex_to_bin(tx->txhash, hashbin, strlen(tx->txhash), &outlen); cstr_erase(smp_key, 0, smp_key->len); cstr_append_buf(smp_key, hashbin, outlen); outlen = sizeof(tx->hextx) / 2; utils_hex_to_bin(tx->hextx, txbin, strlen(tx->hextx), &outlen); cstr_erase(smp_value, 0, smp_value->len); cstr_append_buf(smp_value, txbin, outlen); logdb_append(db, NULL, smp_key, smp_value); } logdb_flush(db); logdb_free(db); db = new_func(); error = 0; u_assert_int_eq(logdb_load(db, dbtmpfile, false, &error), true); u_assert_int_eq(error, LOGDB_SUCCESS); u_assert_int_eq(logdb_count_keys(db), (sizeof(sampledata) / sizeof(sampledata[0]))); logdb_flush(db); logdb_free(db); db = new_func(); error = 0; u_assert_int_eq(logdb_load(db, dbtmpfile, false, &error), true); u_assert_int_eq(error, LOGDB_SUCCESS); u_assert_int_eq(logdb_count_keys(db), (sizeof(sampledata) / sizeof(sampledata[0]))); if(new_func == logdb_rbtree_new) { logdb_rbtree_db* handle = (logdb_rbtree_db *)db->cb_ctx; size_t size = rbtree_count(handle->tree); nodetest = NULL; while ((nodetest = rbtree_enumerate_next(handle->tree))) { rec = (logdb_record *)nodetest->info; utils_bin_to_hex((unsigned char *)rec->key->str, rec->key->len, bufs[cnt]); for(i = 0; i < cnt; i++) { u_assert_int_eq(strcmp(bufs[i], bufs[cnt]) != 0, 1); } cnt++; } u_assert_int_eq(size, cnt); } for (i = 0; i < (sizeof(sampledata) / sizeof(sampledata[0])); i++) { const struct txtest *tx = &sampledata[i]; uint8_t hashbin[sizeof(tx->txhash) / 2]; int outlen = sizeof(tx->txhash) / 2; utils_hex_to_bin(tx->txhash, hashbin, strlen(tx->txhash), &outlen); cstr_erase(smp_key, 0, smp_key->len); cstr_append_buf(smp_key, hashbin, outlen); outlen = sizeof(tx->hextx) / 2; utils_hex_to_bin(tx->hextx, txbin, strlen(tx->hextx), &outlen); cstr_erase(smp_value, 0, smp_value->len); cstr_append_buf(smp_value, txbin, outlen); logdb_append(db, NULL, smp_key, smp_value); } logdb_flush(db); logdb_free(db); /* test switch mem mapper after initialitaion. */ db = logdb_new(); logdb_set_memmapper(db, &logdb_rbtree_mapper, NULL); logdb_flush(db); logdb_free(db); unlink(dbtmpfile); db = new_func(); u_assert_int_eq(logdb_load(db, dbtmpfile, true, NULL), true); // create transaction, don't store logdb_txn* txn = logdb_txn_new(); logdb_append(db, txn, key, value); logdb_append(db, txn, key1, value1); u_assert_int_eq(logdb_cache_size(db), 0); logdb_txn_free(txn); logdb_flush(db); logdb_free(db); db = new_func(); u_assert_int_eq(logdb_load(db, dbtmpfile, false, NULL), true); // db should still be empty u_assert_int_eq(logdb_count_keys(db), 0); // create transaction, store it this time txn = logdb_txn_new(); logdb_append(db, txn, key, value); logdb_append(db, txn, key1, value1); logdb_txn_commit(db, txn); u_assert_int_eq(logdb_cache_size(db), 2); logdb_txn_free(txn); logdb_flush(db); logdb_free(db); db = new_func(); u_assert_int_eq(logdb_load(db, dbtmpfile, false, NULL), true); // now we should have the two persisted items from the txn u_assert_int_eq(logdb_count_keys(db), 2); logdb_flush(db); logdb_free(db); cstr_free(key, true); cstr_free(value, true); cstr_free(value0, true); cstr_free(value1, true); cstr_free(value2, true); cstr_free(key1, true); cstr_free(key2, true); cstr_free(smp_key, true); cstr_free(smp_value, true); }