tsdbSmaTest.cpp 7.3 KB
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/*
 * Copyright (c) 2019 TAOS Data, Inc. <jhtao@taosdata.com>
 *
 * This program is free software: you can use, redistribute, and/or modify
 * it under the terms of the GNU Affero General Public License, version 3
 * or later ("AGPL"), as published by the Free Software Foundation.
 *
 * This program is distributed in the hope that it will be useful, but WITHOUT
 * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
 * FITNESS FOR A PARTICULAR PURPOSE.
 *
 * You should have received a copy of the GNU Affero General Public License
 * along with this program. If not, see <http://www.gnu.org/licenses/>.
 */

#include <gtest/gtest.h>
#include <taoserror.h>
#include <tglobal.h>
#include <iostream>

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#include <metaDef.h>
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#include <tmsg.h>

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#pragma GCC diagnostic push
#pragma GCC diagnostic ignored "-Wwrite-strings"
#pragma GCC diagnostic ignored "-Wunused-function"
#pragma GCC diagnostic ignored "-Wunused-variable"
#pragma GCC diagnostic ignored "-Wsign-compare"

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int main(int argc, char **argv) {
  testing::InitGoogleTest(&argc, argv);
  return RUN_ALL_TESTS();
}

TEST(testCase, tSmaEncodeDecodeTest) {
  // encode
  STSma tSma = {0};
  tSma.version = 0;
  tSma.intervalUnit = TD_TIME_UNIT_DAY;
  tSma.interval = 1;
  tSma.slidingUnit = TD_TIME_UNIT_HOUR;
  tSma.sliding = 0;
  tstrncpy(tSma.indexName, "sma_index_test", TSDB_INDEX_NAME_LEN);
  tSma.tableUid = 1234567890;
  tSma.numOfColIds = 2;
  tSma.numOfFuncIds = 5;  // sum/min/max/avg/last
  tSma.colIds = (col_id_t *)calloc(tSma.numOfColIds, sizeof(col_id_t));
  tSma.funcIds = (uint16_t *)calloc(tSma.numOfFuncIds, sizeof(uint16_t));
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  for (int32_t i = 0; i < tSma.numOfColIds; ++i) {
    *(tSma.colIds + i) = (i + PRIMARYKEY_TIMESTAMP_COL_ID);
  }
  for (int32_t i = 0; i < tSma.numOfFuncIds; ++i) {
    *(tSma.funcIds + i) = (i + 2);
  }
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  STSmaWrapper tSmaWrapper = {.number = 1, .tSma = &tSma};
  uint32_t     bufLen = tEncodeTSmaWrapper(NULL, &tSmaWrapper);
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  void *buf = calloc(bufLen, 1);
  assert(buf != NULL);

  STSmaWrapper *pSW = (STSmaWrapper *)buf;
  uint32_t      len = tEncodeTSmaWrapper(&buf, &tSmaWrapper);

  EXPECT_EQ(len, bufLen);

  // decode
  STSmaWrapper dstTSmaWrapper = {0};
  void *       result = tDecodeTSmaWrapper(pSW, &dstTSmaWrapper);
  assert(result != NULL);

  EXPECT_EQ(tSmaWrapper.number, dstTSmaWrapper.number);

  for (int i = 0; i < tSmaWrapper.number; ++i) {
    STSma *pSma = tSmaWrapper.tSma + i;
    STSma *qSma = dstTSmaWrapper.tSma + i;

    EXPECT_EQ(pSma->version, qSma->version);
    EXPECT_EQ(pSma->intervalUnit, qSma->intervalUnit);
    EXPECT_EQ(pSma->slidingUnit, qSma->slidingUnit);
    EXPECT_STRCASEEQ(pSma->indexName, qSma->indexName);
    EXPECT_EQ(pSma->numOfColIds, qSma->numOfColIds);
    EXPECT_EQ(pSma->numOfFuncIds, qSma->numOfFuncIds);
    EXPECT_EQ(pSma->tableUid, qSma->tableUid);
    EXPECT_EQ(pSma->interval, qSma->interval);
    EXPECT_EQ(pSma->sliding, qSma->sliding);
    for (uint32_t j = 0; j < pSma->numOfColIds; ++j) {
      EXPECT_EQ(*(col_id_t *)(pSma->colIds + j), *(col_id_t *)(qSma->colIds + j));
    }
    for (uint32_t j = 0; j < pSma->numOfFuncIds; ++j) {
      EXPECT_EQ(*(uint16_t *)(pSma->funcIds + j), *(uint16_t *)(qSma->funcIds + j));
    }
  }

  // resource release
  tdDestroyTSma(&tSma, false);
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  tdDestroyTSmaWrapper(&dstTSmaWrapper, false);
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}

TEST(testCase, tSma_DB_Put_Get_Del_Test) {
  const char *smaIndexName1 = "sma_index_test_1";
  const char *smaIndexName2 = "sma_index_test_2";
  const char *smaTestDir = "./smaTest";
  const uint64_t tbUid = 1234567890;
  // encode
  STSma tSma = {0};
  tSma.version = 0;
  tSma.intervalUnit = TD_TIME_UNIT_DAY;
  tSma.interval = 1;
  tSma.slidingUnit = TD_TIME_UNIT_HOUR;
  tSma.sliding = 0;
  tstrncpy(tSma.indexName, smaIndexName1, TSDB_INDEX_NAME_LEN);
  tSma.tableUid = tbUid;
  tSma.numOfColIds = 2;
  tSma.numOfFuncIds = 5;  // sum/min/max/avg/last
  tSma.colIds = (col_id_t *)calloc(tSma.numOfColIds, sizeof(col_id_t));
  tSma.funcIds = (uint16_t *)calloc(tSma.numOfFuncIds, sizeof(uint16_t));

  for (int32_t i = 0; i < tSma.numOfColIds; ++i) {
    *(tSma.colIds + i) = (i + PRIMARYKEY_TIMESTAMP_COL_ID);
  }
  for (int32_t i = 0; i < tSma.numOfFuncIds; ++i) {
    *(tSma.funcIds + i) = (i + 2);
  }

  SMeta *         pMeta = NULL;
  SSmaCfg *       pSmaCfg = &tSma;
  const SMetaCfg *pMetaCfg = &defaultMetaOptions;

  taosRemoveDir(smaTestDir);

  pMeta = metaOpen(smaTestDir, pMetaCfg, NULL);
  assert(pMeta != NULL);
  // save index 1
  metaSaveSmaToDB(pMeta, pSmaCfg);

  tstrncpy(pSmaCfg->indexName, smaIndexName2, TSDB_INDEX_NAME_LEN);
  pSmaCfg->version = 1;
  pSmaCfg->intervalUnit = TD_TIME_UNIT_HOUR;
  pSmaCfg->interval = 1;
  pSmaCfg->slidingUnit = TD_TIME_UNIT_MINUTE;
  pSmaCfg->sliding = 5;

  // save index 2
  metaSaveSmaToDB(pMeta, pSmaCfg);

  // get value by indexName
  SSmaCfg *qSmaCfg = NULL;
  qSmaCfg = metaGetSmaInfoByName(pMeta, smaIndexName1);
  assert(qSmaCfg != NULL);
  printf("name1 = %s\n", qSmaCfg->indexName);
  EXPECT_STRCASEEQ(qSmaCfg->indexName, smaIndexName1);
  EXPECT_EQ(qSmaCfg->tableUid, tSma.tableUid);
  tdDestroyTSma(qSmaCfg, true);

  qSmaCfg = metaGetSmaInfoByName(pMeta, smaIndexName2);
  assert(qSmaCfg != NULL);
  printf("name2 = %s\n", qSmaCfg->indexName);
  EXPECT_STRCASEEQ(qSmaCfg->indexName, smaIndexName2);
  EXPECT_EQ(qSmaCfg->interval, tSma.interval);
  tdDestroyTSma(qSmaCfg, true);

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  // get index name by table uid
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  SMSmaCursor *pSmaCur = metaOpenSmaCursor(pMeta, tbUid);
  assert(pSmaCur != NULL);
  uint32_t indexCnt = 0;
  while (1) {
    const char* indexName = metaSmaCursorNext(pSmaCur);
    if (indexName == NULL) {
      break;
    }
    printf("indexName = %s\n", indexName);
    ++indexCnt;
  }
  EXPECT_EQ(indexCnt, 2);
  metaCloseSmaCurosr(pSmaCur);

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  // get wrapper by table uid
  STSmaWrapper *pSW = metaGetSmaInfoByUid(pMeta, tbUid);
  assert(pSW != NULL);
  EXPECT_EQ(pSW->number, 2);
  EXPECT_STRCASEEQ(pSW->tSma->indexName, smaIndexName1);
  EXPECT_EQ(pSW->tSma->tableUid, tSma.tableUid);
  EXPECT_STRCASEEQ((pSW->tSma + 1)->indexName, smaIndexName2);
  EXPECT_EQ((pSW->tSma + 1)->tableUid, tSma.tableUid);

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  // resource release
  metaRemoveSmaFromDb(pMeta, smaIndexName1);
  metaRemoveSmaFromDb(pMeta, smaIndexName2);

  tdDestroyTSma(&tSma, false);
  metaClose(pMeta);
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}

#if 0
TEST(testCase, tSmaInsertTest) {
  STSma     tSma = {0};
  STSmaData* pSmaData = NULL;
  STsdb     tsdb = {0};

  // init
  tSma.intervalUnit = TD_TIME_UNIT_DAY;
  tSma.interval = 1;
  tSma.numOfFuncIds = 5;  // sum/min/max/avg/last

  int32_t blockSize = tSma.numOfFuncIds * sizeof(int64_t);
  int32_t numOfColIds = 3;
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  int32_t numOfBlocks = 10;
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  int32_t dataLen = numOfColIds * numOfBlocks * blockSize;
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  pSmaData = (STSmaData*)malloc(sizeof(STSmaData) + dataLen);
  ASSERT_EQ(pSmaData != NULL, true);
  pSmaData->tableUid = 3232329230;
  pSmaData->numOfColIds = numOfColIds;
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  pSmaData->numOfBlocks = numOfBlocks;
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  pSmaData->dataLen = dataLen;
  pSmaData->tsWindow.skey = 1640000000;
  pSmaData->tsWindow.ekey = 1645788649;
  pSmaData->colIds = (col_id_t*)malloc(sizeof(col_id_t) * numOfColIds);
  ASSERT_EQ(pSmaData->colIds != NULL, true);

  for (int32_t i = 0; i < numOfColIds; ++i) {
    *(pSmaData->colIds + i) = (i + PRIMARYKEY_TIMESTAMP_COL_ID);
  }

  // execute
  EXPECT_EQ(tsdbInsertTSmaData(&tsdb, &tSma, pSmaData), TSDB_CODE_SUCCESS);

  // release
  tdDestroySmaData(pSmaData);
}
#endif

#pragma GCC diagnostic pop