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TDengine/source/libs/new-stream/test/dataSinkTest.cpp
WANG MINGMING 558928cbe1
feat(stream): optimize stream logic (#33027) 
* fix: remove debug log

* fix: remove assert

* fix: delete unused code

* enh: [TD-37251] Support expr in state window.

* feat(stream): support expr in state window trigger

* enh: [TD-37251] Fix SCL_IS_CONST_CALC condition.

* fix(stream): set ver in wal

* fix: print code

* fix: increase runner replica num

* fix: trigger mem error

* fix: sliding _tnext_ts value

* fix(stream): disable tagFilterCache in stream reader trigger

* fix: crash

* Revert "fix(stream): fix history calc finish check"

This reverts commit f93d17f1d2.

* Revert "fix(stream): fix calc request allocation in trigger"

This reverts commit c5410f6da0.

* fix(stream): fix calc request allocation in trigger

* enh: [TD-37251] External window support more placeholder.

* fix(stream): modify size of return from 1000000->4096

* enh: [TD-37251] Modify error msg when stream query do not have from clause.

* fix(stream): add log for group not found

* fix(stream): do not return gid=0 in walMetaData interface

* enh: [TD-37251] Fix missing ts column in vtable query.

* fix: test case build failed

* fix: invalid read issue

* fix(stream): add vtable logic

* fix(stream): encode error in wal

* fix(stream): add vtable logic

* fix(stream): add log

* fix: diff funcition crash

* Revert "Merge branch 'enh/TD-37251-3.0-dropoutput' into enh/TD-37251-3.0"

This reverts commit e93cbd6fd4, reversing
changes made to dc3230591d.

* Revert "Merge branch 'enh/TD-37251-3.0-vtable' into enh/TD-37251-3.0"

This reverts commit dc3230591d, reversing
changes made to 085e086782.

* fix(stream): fix block data len is too large if data type is vchar

* fix: drop output table

* feat: runner delete output table

* process pDropBlock in trigger task.

* fix(stream): opti log level

* fix(stream): build block for drop table

* fix(stream): set gid for normal table

* fix(stream): set gid for normal table

* feat: Support delete output.

* fix(stream): rows error

* fix(stream): memory leak

* enh: [TD-37251] Fix external window wrong ts column.

* fix(stream): fix calc time check in batch mode

* fix: merge aligned external window issue

* Revert "fix(stream): fix calc time check in batch mode"

This reverts commit d895b7f577.

* fix(stream): add test case

* fix(stream): add insert drop table logic

* fix: external window end issue

* fix(stream): add test case

* fix(stream): fix trigger pull data

* fix(stream): fix history calc request

* enh: drop table on snode

* fix(stream): adjust hash index if data is filtered in wal

* fix(stream): rollback

* enh: add merge aligned extwin window row idx

* fix: drop output table

* fix: compile issue

* enh: [TD-37251] Add flag to identify interval window is overlapped

* fix: overlap

* fix(stream): set gid=-1 for initialized

* fix(stream): modify log level

* fix: trigger slow issue

* fix(stream): add basic test for obj pool

* fix(stream): fix metadata clear in trigger

* fix(stream): fix idle runner allocation in trigger

* fix: handle agg output on externalWin

* fix: test case

* fix(stream): adjust log

* fix: reset pCtx pOutput

* fix: memory leak

* fix: search first win for tsCol

* fix(stream): add test case for schema change

* fix: mem leak

* fix: mem leak

* Reapply "Merge branch 'enh/TD-37251-3.0-vtable' into enh/TD-37251-3.0"

This reverts commit b508e66958.

* fix(stream): fix virtual table data pull

* fix(stream): fix set table request

* fix(stream): process empty uidlist

* fix(stream): fix set table request

* fix(stream): fix data new request in trigger

* fix(stream): tablelist error for vtable

* fix(stream): block ver is null

* fix(stream): remove version limition for wal

* fix(stream): block rows error

* fix(stream): fix pending calc param in batch mode

* fix(stream): auto create table

* fix(stream): fix stream vtable data merge

* fix: _tcurrentts

* fix(stream): destroy hash

* fix(stream): fix trigger status

* fix(stream): colId error in vtable

* fix(stream): update nrows of vtable data block

* fix(stream): fix trigger status

* fix(stream): enable low latency calc for period trigger

* fix: test case file path

* fix: test case file path

* fix: string to node in reader

* enh: add test log

* fix(stream): increase wait time of non-low-latency mode

* fix(stream): fix column capacity in scalar calculation

* fix(stream): fix column capacity in trigger expr calculation

* fix: get origTableInfos

* fix(stream): fix calc data pull in trigger

* fix(stream): fix calc data cache write in trigger

* enh: [TD-37251] Add flag to identify interval wind

* fix: external window memory usage issue

* fix(stream): fix epxr result column in trigger

* fix(stream): add metaCache for calc plan

* fix(stream): fix stream obj list clear

* fix(stream): rollback

* enh: [TD-37251] Add flag to identify interval wind

* fix: mem free

* fix(stream): add metaCache for calc plan

* fix(stream): fix calc data cache write in trigger

* fix(stream): fix calc data cache write in trigger

* enh: optimize external result block memory

* fix(stream): modify logic of judge table for create table

* fix(stream): fix event window check in trigger

* fix(stream): fix count window check in trigger

* fix(stream): colSize=0 while encoding block because pDataCol->hasNull is false in secode time & reload table list if create table

* enh: optimize stream memory

* fix(stream): trigger tag error

* fix: add log

* fix(stream): fix calc data write in trigger

* fix: drop output table

* fix(stream): fix max delay in trigger

* fix: drop output table

* fix(stream): fix max delay in trigger

* fix(build): handle return value of function

* fix(stream): read gid error if it is child table in stream

* fix(stream): fix calc param of history calculation

* fix(stream): fix recalc of delete data

* fix(stream): fix calc data of period trigger

* fix(stream): fix cache read check

* fix(stream): filter error in calc plan

* fix: reset externla window expr

* fix(stream): fix calc parm of max delay

* fix: time range and case issues

* fix(stream): fix crash in trigger

* fix: case issues

* fix: fix window node mem leak.

* fix(stream): fix meta data clear in trigger

* fix(stream): table schema is old in TsdbDataRequest for vtable

* fix: fix slingding window place holder check condition.

* Revert "fix: fix slingding window place holder check condition."

This reverts commit ad864a1dc1.

* fix(stream): null pointer error

* fix: case issue

* fix(stream): calc data error for vtable

* fix(stream): fix data sorter in trigger

* fix(stream): add log for delete data

* fix(stream): fix start version of realtime calculation

* fix(stream): fix cache data merger of vtable

* fix: case issues

* fix(ci): upgrade stream cases in test_cols_function

* fix(stream): gid not found if change tag value

* fix: fix slingding window place holder check condition.

* fix(stream): fix virt table info request in trigger

* fix(stream): set gid = uid if stream table type != SUPER table

* fix: clean cache data by group

* fix: add block info and case issues

* fix: fix heap-buffer-overflow.

* fix(stream): fix state window with extend param

* fix: fix access null pointer.

* fix: case issues

* fix: case issue

* fix(stream): fix ignore_nodata_trigger option for period trigger

* fix(stream): fix pseudo col fetch for calc data

* fix: Extend checking time to avoid timeout.

* fix: case issues

* fix(stream): fix group col fetch for virtual tables

* fix(stream): tag is NULL for non vtable

* fix(stream): fix sliding check of virtual table

* test(stream): check stream status after create all streams

* fix: add log

* fix(stream): fix wal meta truncate when ignore disorder

* fix(stream): gid not found for child table

* fix: fix place holder condition pushdown error.

* fix(stream): suid not equal when delete data for child table

* fix: id issue

* fix(stream): disable recalc for count trigger

* fix: cast result rowSize error in project

* fix(stream): add log for tsdb meta

* fix(stream): fix gid in tsdb meta request

* fix(stream): fix wend of unclosed windows

* fix(stream): fix ignore_nodata_trigger option for period trigger

* fix: case issues

* fix(stream): fix calc data pull for empty interval window

* fix: fix ext window condition.

* fix(ci): smaBasic performance check affectd by debug level log

* fix(stream): add suid when set table list for vtable

* fix: forbid using prefilter when using %%trows an trigger table is virtual table.

* fix: forbid prefilter %%trows cases.

* fix(stream): sort cid in tsdbVirtalDataReq

* fix: forbid prefilter %%trows cases.

* fix(stream): add log for virtual table tsdb data

* fix(stream): get delete msg for vtable

* fix: winRowIndex

* Revert "fix: winRowIndex"

This reverts commit e08b41cf96.

* fix(stream): fix data merge in trigger

* test(stream): fix case ans

* fix(stream): fix empty calc data pull for period trigger

* fix(stream): col index error for tsdbVirtalDataReq

* fix(stream): pTableList is NULL for vtable

* test(stream): fix case ans

* fix(stream): fix notification in trigger

* fix(stream): memory leak

* fix(stream): fix virtual data pull in trigger

* test(stream): fix case ans

* fix(stream): col index error for tsdbVirtalDataReq

* fix(stream): pTableList is NULL for vtable

* test(stream): fix case ans

* fix(stream): fix notification in trigger

* fix(stream): memory leak

* fix(stream): fix virtual data pull in trigger

* test(stream): fix case ans

* fix: case issue

* fix: crash issue

* fix: forbid prefilter %%trows cases.

* fix(stream): session case

* fix(stream): fix data pull for virtual tables

* fix(stream): add log

* fix(stream): fix calc req send in batch mode

* fix: fix stream UT

* fix(stream): tablelist is null for non vtable

* fix: mem leak

* fix(stream): fix compile error in trigger

* fix: return code issue

---------

Co-authored-by: dapan1121 <wpan@taosdata.com>
Co-authored-by: facetosea <285808407@qq.com>
Co-authored-by: Jing Sima <simondominic9997@outlook.com>
Co-authored-by: Jinqing Kuang <kuangjinqingcn@gmail.com>
Co-authored-by: Tony Zhang <tonyzhang@taosdata.com>
2025-09-25 15:48:14 +08:00

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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 <stdint.h>
#include <unistd.h>
#include <thread>
#include <queue>
#include <mutex>
#include <condition_variable>
#include <vector>
#include <random>
#include "dataSink.h"
#include "osSleep.h"
#include "tdatablock.h"
// Macro to initialize DataSink at the beginning of each test
#define INIT_DATA_SINK() do { \
int32_t initCode = initStreamDataSink(); \
ASSERT_EQ(initCode, 0); \
} while(0)
// Macro to cleanup DataSink at the end of each test
#define CLEANUP_DATA_SINK() do { \
destroyDataSinkMgr(); \
} while(0)
const int64_t baseTestTime1 = 1745142096000;
const int64_t baseTestTime2 = 1745142097000;
int32_t gTestMode = 1;
SSDataBlock* createTestBlock(int64_t basetime, int64_t timeOffset) {
SSDataBlock* b = NULL;
int32_t code = createDataBlock(&b);
int64_t timeStart = basetime + timeOffset;
SColumnInfoData infoData = createColumnInfoData(TSDB_DATA_TYPE_TIMESTAMP, 8, 1);
blockDataAppendColInfo(b, &infoData);
SColumnInfoData infoData1 = createColumnInfoData(TSDB_DATA_TYPE_BINARY, 40, 2);
blockDataAppendColInfo(b, &infoData1);
blockDataEnsureCapacity(b, 100);
const char* str = "the value of: %d";
char buf[128] = {0};
char varbuf[128] = {0};
int64_t ts = basetime;
for (int32_t i = 0; i < 100; ++i) {
SColumnInfoData* p0 = (SColumnInfoData*)taosArrayGet(b->pDataBlock, 0);
SColumnInfoData* p1 = (SColumnInfoData*)taosArrayGet(b->pDataBlock, 1);
ts = timeStart + i;
if (i & 0x01) {
int32_t len = sprintf(buf, str, timeOffset + i);
STR_TO_VARSTR(varbuf, buf)
colDataSetVal(p0, i, (const char*)&ts, false);
colDataSetVal(p1, i, (const char*)varbuf, false);
memset(varbuf, 0, sizeof(varbuf));
memset(buf, 0, sizeof(buf));
} else {
colDataSetVal(p0, i, (const char*)&ts, false);
colDataSetVal(p1, i, (const char*)varbuf, true);
}
b->info.rows++;
}
SColumnInfoData* p0 = (SColumnInfoData*)taosArrayGet(b->pDataBlock, 0);
SColumnInfoData* p1 = (SColumnInfoData*)taosArrayGet(b->pDataBlock, 1);
//printf("binary column length:%d\n", *(int32_t*)p1->pData);
char* pData = colDataGetData(p1, 2);
//printf("the second row of binary:%s, length:%d\n", (char*)varDataVal(pData), varDataLen(pData));
pData = colDataGetData(p1, 3);
//printf("the third row: %s, length:%d\n", (char*)varDataVal(pData), varDataLen(pData));
return b;
}
bool compareBlock(SSDataBlock* b1, SSDataBlock* b2) {
if (b1->info.rows != b2->info.rows) {
printf("compareBlock: rows not equal, b1:%" PRId64 ", b2:%" PRId64 "\n", b1->info.rows, b2->info.rows);
return false;
}
for (int32_t i = 0; i < b1->info.rows; ++i) {
SColumnInfoData* p0 = (SColumnInfoData*)taosArrayGet(b1->pDataBlock, 0);
SColumnInfoData* p1 = (SColumnInfoData*)taosArrayGet(b2->pDataBlock, 0);
if (*(int32_t*)colDataGetData(p0, i) != *(int32_t*)colDataGetData(p1, i)) {
printf("compareBlock: timestamp not equal at row %d, b1:%" PRId64 ", b2:%" PRId64 "\n", i,
*(int64_t*)colDataGetData(p0, i), *(int64_t*)colDataGetData(p1, i));
return false;
}
}
SColumnInfoData* p1 = (SColumnInfoData*)taosArrayGet(b1->pDataBlock, 1);
SColumnInfoData* p2 = (SColumnInfoData*)taosArrayGet(b2->pDataBlock, 1);
char* pData = colDataGetData(p1, 3);
//printf("b1 the third row of binary:%s, length:%d\n", (char*)varDataVal(pData), varDataLen(pData));
pData = colDataGetData(p1, 3);
//printf("b2 the third row of binary:%s, length:%d\n", (char*)varDataVal(pData), varDataLen(pData));
return true;
}
bool compareBlockRow(SSDataBlock* b1, SSDataBlock* b2, int32_t row1, int32_t row2) {
for (int32_t i = 0; i < b1->pDataBlock->size; ++i) {
SColumnInfoData* p1 = (SColumnInfoData*)taosArrayGet(b1->pDataBlock, i);
SColumnInfoData* p2 = (SColumnInfoData*)taosArrayGet(b2->pDataBlock, i);
if (i == 0) {
if (*(int64_t*)colDataGetData(p1, row1) != *(int64_t*)colDataGetData(p2, row2)) {
printf("compareBlockRow: timestamp not equal at row %d, b1:%" PRId64 ", b2:%" PRId64 "\n", row1,
*(int64_t*)colDataGetData(p1, row1), *(int64_t*)colDataGetData(p2, row2));
return false;
}
continue;
} else {
if (colDataIsNull(p1, b1->info.rows, row1, NULL) != colDataIsNull(p2, b2->info.rows, row2, NULL)) {
printf("compareBlockRow: null status not equal at row %d, b1:%d, b2:%d\n", row1,
colDataIsNull(p1, b1->info.rows, row1, NULL), colDataIsNull(p2, b2->info.rows, row2, NULL));
return false;
}
if (colDataIsNull(p1, b1->info.rows, row1, NULL) == true) {
continue;
}
if (IS_VAR_DATA_TYPE(p1->info.type)) {
char* pData = colDataGetData(p1, row1);
char* pData2 = colDataGetData(p2, row2);
if (varDataLen(pData) != varDataLen(pData2)) {
printf("compareBlockRow: var data length not equal at row %d, b1:%d, b2:%d\n", row1, varDataLen(pData),
varDataLen(pData2));
return false;
}
if (memcmp(varDataVal(pData), varDataVal(pData2), varDataLen(pData)) != 0) {
printf("compareBlockRow: var data not equal at row %d, b1:%s, b2:%s\n", row1, (char*)varDataVal(pData),
(char*)varDataVal(pData2));
return false;
}
} else {
if (*(int32_t*)colDataGetData(p1, row1) != *(int32_t*)colDataGetData(p2, row2)) {
printf("compareBlockRow: data not equal at row %d, b1:%d, b2:%d\n", row1,
*(int32_t*)colDataGetData(p1, row1), *(int32_t*)colDataGetData(p2, row2));
return false;
}
}
}
}
return true;
}
TEST(dataSinkTest, fileInit) {
int32_t code = initStreamDataSink();
ASSERT_EQ(code, 0);
destroyDataSinkMgr();
}
TEST(dataSinkTest, test_name) {
INIT_DATA_SINK();
SSDataBlock* pBlock = createTestBlock(baseTestTime1, 0);
ASSERT_NE(pBlock, nullptr);
int64_t streamId = 1;
int64_t taskId = 1;
int64_t groupID = 1;
int32_t cleanMode = 1;
TSKEY wstart = 0;
TSKEY wend = 100;
void* pCache = NULL;
int32_t code = putStreamDataCache(pCache, groupID, wstart, wend, pBlock, 0, 1);
ASSERT_EQ(code, TSDB_CODE_STREAM_INTERNAL_ERROR);
blockDataDestroy(pBlock);
}
TEST(dataSinkTest, putStreamDataCacheTest) {
INIT_DATA_SINK();
SSDataBlock* pBlock = createTestBlock(baseTestTime1, 0);
ASSERT_NE(pBlock, nullptr);
int64_t streamId = 1;
int64_t taskId = 1;
int64_t groupID = 1;
int32_t cleanMode = DATA_CLEAN_IMMEDIATE;
TSKEY wstart = baseTestTime1 + 0;
TSKEY wend = baseTestTime1 + 100;
void* pCache = NULL;
// Test invalid parameters
int32_t code = putStreamDataCache(pCache, groupID, wstart, wend, pBlock, 0, 1);
ASSERT_EQ(code, TSDB_CODE_STREAM_INTERNAL_ERROR);
code = putStreamDataCache(pCache, groupID, wstart, wend, pBlock, 1, 0);
ASSERT_EQ(code, TSDB_CODE_STREAM_INTERNAL_ERROR);
code = putStreamDataCache(pCache, groupID, wstart, wend, pBlock, 0, 1);
ASSERT_EQ(code, TSDB_CODE_STREAM_INTERNAL_ERROR);
code = moveStreamDataCache(pCache, groupID, wstart, wend, pBlock);
ASSERT_EQ(code, TSDB_CODE_STREAM_INTERNAL_ERROR);
code = moveStreamDataCache(NULL, groupID, wstart, wend, pBlock);
ASSERT_EQ(code, TSDB_CODE_STREAM_INTERNAL_ERROR);
code = getStreamDataCache(pCache, groupID, wend, wstart, NULL);
ASSERT_EQ(code, TSDB_CODE_STREAM_INTERNAL_ERROR);
// Test valid parameters
code = initStreamDataCache(streamId, taskId, 0, cleanMode, 0, &pCache);
ASSERT_EQ(code, 0);
code = putStreamDataCache(pCache, groupID, wstart, wend, pBlock, 0, 99);
ASSERT_EQ(code, 0);
void* pIter = NULL;
// Test invalid parameters
code = getStreamDataCache(pCache, groupID, wend, wstart, &pIter);
ASSERT_EQ(code, TSDB_CODE_STREAM_INTERNAL_ERROR);
code = getStreamDataCache(NULL, groupID, wstart, wend, &pIter);
ASSERT_EQ(code, TSDB_CODE_STREAM_INTERNAL_ERROR);
code = getStreamDataCache(pCache, groupID, wstart, wend, NULL);
ASSERT_EQ(code, TSDB_CODE_STREAM_INTERNAL_ERROR);
// Test valid parameters
code = getStreamDataCache(pCache, groupID, wstart, wend, &pIter);
ASSERT_EQ(code, 0);
code = getNextStreamDataCache(&pIter, NULL);
ASSERT_EQ(code, TSDB_CODE_STREAM_INTERNAL_ERROR);
SSDataBlock* pBlock1 = NULL;
code = getNextStreamDataCache(&pIter, &pBlock1);
ASSERT_EQ(code, 0);
ASSERT_NE(pBlock1, nullptr);
ASSERT_EQ(pIter, nullptr);
bool equal = compareBlock(pBlock, pBlock1);
ASSERT_EQ(equal, true);
blockDataDestroy(pBlock1);
blockDataDestroy(pBlock);
pBlock = createTestBlock(baseTestTime1, 100);
streamId = 1;
taskId = 1;
groupID = 2;
cleanMode = DATA_CLEAN_IMMEDIATE;
wstart = baseTestTime1 + 100;
wend = baseTestTime1 + 200;
pCache = NULL;
code = initStreamDataCache(streamId, taskId, 0, cleanMode, 0, &pCache);
ASSERT_EQ(code, 0);
code = putStreamDataCache(pCache, groupID, wstart, wend, pBlock, 0, 99);
ASSERT_EQ(code, 0);
pIter = NULL;
code = getStreamDataCache(pCache, groupID, wstart, wend, &pIter);
ASSERT_EQ(code, 0);
pBlock1 = NULL;
code = getNextStreamDataCache(&pIter, &pBlock1);
ASSERT_EQ(code, 0);
ASSERT_NE(pBlock1, nullptr);
ASSERT_EQ(pIter, nullptr);
equal = compareBlock(pBlock, pBlock1);
ASSERT_EQ(equal, true);
blockDataDestroy(pBlock1);
blockDataDestroy(pBlock);
pBlock = createTestBlock(baseTestTime1, 0);
streamId = 2;
taskId = 1;
groupID = 2;
cleanMode = DATA_CLEAN_IMMEDIATE;
wstart = baseTestTime1 + 0;
wend = baseTestTime1 + 100;
pCache = NULL;
code = initStreamDataCache(streamId, taskId, 0, cleanMode, 0, &pCache);
ASSERT_EQ(code, 0);
code = putStreamDataCache(pCache, groupID, wstart, wend, pBlock, 0, 99);
ASSERT_EQ(code, 0);
pIter = NULL;
code = getStreamDataCache(pCache, groupID, wstart, wend, &pIter);
ASSERT_EQ(code, 0);
pBlock1 = NULL;
code = getNextStreamDataCache(&pIter, &pBlock1);
ASSERT_EQ(code, 0);
ASSERT_NE(pBlock1, nullptr);
ASSERT_EQ(pIter, nullptr);
equal = compareBlock(pBlock, pBlock1);
ASSERT_EQ(equal, true);
blockDataDestroy(pBlock1);
destroyDataSinkMgr();
blockDataDestroy(pBlock);
}
TEST(dataSinkTest, getSlidingStreamData) {
INIT_DATA_SINK();
SSDataBlock* pBlock = createTestBlock(baseTestTime1, 0);
ASSERT_NE(pBlock, nullptr);
int64_t streamId = 1;
int64_t taskId = 1;
int64_t groupID = 1;
int32_t cleanMode = DATA_CLEAN_EXPIRED;
TSKEY wstart = baseTestTime1 + 0;
TSKEY wend = baseTestTime1 + 100;
void* pCache = NULL;
int32_t code = initStreamDataCache(streamId, taskId, 0, cleanMode, 0, &pCache);
ASSERT_EQ(code, 0);
// Test invalid parameters, cleanMode is DATA_CLEAN_EXPIRED, cannot call moveStreamDataCache
code = moveStreamDataCache(pCache, groupID, wstart, wend, pBlock);
ASSERT_EQ(code, TSDB_CODE_STREAM_INTERNAL_ERROR);
code = putStreamDataCache(pCache, groupID, wstart, wend, pBlock, 0, 99);
ASSERT_EQ(code, 0);
blockDataDestroy(pBlock);
pBlock = createTestBlock(baseTestTime1, 100);
cleanMode = DATA_CLEAN_EXPIRED;
wstart = baseTestTime1 + 100;
wend = baseTestTime1 + 200;
code = putStreamDataCache(pCache, groupID, wstart, wend, pBlock, 0, 99);
ASSERT_EQ(code, 0);
void* pIter = NULL;
blockDataDestroy(pBlock);
pBlock = NULL;
code = getStreamDataCache(pCache, groupID, baseTestTime1 + 50, baseTestTime1 + 150, &pIter);
ASSERT_EQ(code, 0);
SSDataBlock* pBlock1 = NULL;
code = getNextStreamDataCache(&pIter, &pBlock1);
ASSERT_EQ(code, 0);
ASSERT_NE(pBlock1, nullptr);
ASSERT_NE(pIter, nullptr);
int rows = pBlock1->info.rows;
ASSERT_EQ(rows, 50);
blockDataDestroy(pBlock1);
code = getNextStreamDataCache(&pIter, &pBlock1);
ASSERT_EQ(code, 0);
ASSERT_NE(pBlock1, nullptr);
ASSERT_EQ(pIter, nullptr);
rows = pBlock1->info.rows;
ASSERT_EQ(rows, 51);
blockDataDestroy(pBlock1);
pBlock1 = NULL;
pBlock = createTestBlock(baseTestTime1, 200);
cleanMode = DATA_CLEAN_EXPIRED;
wstart = baseTestTime1 + 200;
wend = baseTestTime1 + 300;
code = putStreamDataCache(pCache, groupID, wstart, wend, pBlock, 0, 99);
ASSERT_EQ(code, 0);
pIter = NULL;
code = getStreamDataCache(pCache, groupID, baseTestTime1 + 150, baseTestTime1 + 249, &pIter);
ASSERT_EQ(code, 0);
pBlock1 = NULL;
code = getNextStreamDataCache(&pIter, &pBlock1);
ASSERT_EQ(code, 0);
ASSERT_NE(pBlock1, nullptr);
ASSERT_NE(pIter, nullptr);
rows = pBlock1->info.rows;
ASSERT_EQ(rows, 50);
blockDataDestroy(pBlock1);
pBlock1 = NULL;
code = getNextStreamDataCache(&pIter, &pBlock1);
ASSERT_EQ(code, 0);
ASSERT_NE(pBlock1, nullptr);
ASSERT_EQ(pIter, nullptr);
rows = pBlock1->info.rows;
ASSERT_EQ(rows, 50);
ASSERT_EQ(compareBlockRow(pBlock, pBlock1, 0, 0), true);
ASSERT_EQ(compareBlockRow(pBlock, pBlock1, 1, 1), true);
blockDataDestroy(pBlock);
blockDataDestroy(pBlock1);
destroyDataSinkMgr();
}
TEST(dataSinkTest, moveStreamData) {
INIT_DATA_SINK();
SSDataBlock* pBlock = createTestBlock(baseTestTime1, 0);
ASSERT_NE(pBlock, nullptr);
int64_t streamId = 3;
int64_t taskId = 1;
int64_t groupID = 1;
int32_t cleanMode = DATA_CLEAN_IMMEDIATE;
TSKEY wstart = baseTestTime1 + 0;
TSKEY wend = baseTestTime1 + 100;
void* pCache = NULL;
int32_t code = initStreamDataCache(streamId, taskId, 0, cleanMode, 0, &pCache);
ASSERT_EQ(code, 0);
code = moveStreamDataCache(pCache, groupID, wstart, wend, pBlock);
ASSERT_EQ(code, 0);
void* pIter = NULL;
code = getStreamDataCache(pCache, groupID, baseTestTime1, baseTestTime1 + 100, &pIter);
ASSERT_EQ(code, 0);
ASSERT_NE(pIter, nullptr);
SSDataBlock* pBlock1 = NULL;
code = getNextStreamDataCache(&pIter, &pBlock1);
ASSERT_EQ(code, 0);
ASSERT_NE(pBlock1, nullptr);
ASSERT_EQ(pIter, nullptr);
ASSERT_EQ(pBlock1, pBlock);
blockDataDestroy(pBlock);
code = getStreamDataCache(pCache, groupID, baseTestTime1, baseTestTime1 + 100, &pIter);
ASSERT_EQ(code, 0);
ASSERT_EQ(pIter, nullptr);
pBlock1 = NULL;
destroyDataSinkMgr();
}
TEST(dataSinkTest, cancelStreamDataCacheIterateTest) {
INIT_DATA_SINK();
int64_t streamId = 3;
int64_t taskId = 1;
int64_t groupID = 1;
int32_t cleanMode = DATA_CLEAN_IMMEDIATE;
void* pCache = NULL;
int32_t code = initStreamDataCache(streamId, taskId, 0, cleanMode, 0, &pCache);
ASSERT_EQ(code, 0);
SSDataBlock* pBlock1 = createTestBlock(baseTestTime1, 0);
ASSERT_NE(pBlock1, nullptr);
TSKEY wstart = baseTestTime1 + 0;
TSKEY wend = baseTestTime1 + 100;
code = moveStreamDataCache(pCache, groupID, wstart, wend, pBlock1);
ASSERT_EQ(code, 0);
SSDataBlock* pBlock2 = createTestBlock(baseTestTime1, 100);
ASSERT_NE(pBlock2, nullptr);
wstart = baseTestTime1 + 100;
wend = baseTestTime1 + 200;
code = moveStreamDataCache(pCache, groupID, wstart, wend, pBlock2);
ASSERT_EQ(code, 0);
SSDataBlock* pBlock3 = createTestBlock(baseTestTime1, 200);
ASSERT_NE(pBlock2, nullptr);
wstart = baseTestTime1 + 200;
wend = baseTestTime1 + 300;
code = moveStreamDataCache(pCache, groupID, wstart, wend, pBlock2);
ASSERT_EQ(code, 0);
void* pIter = NULL;
code = getStreamDataCache(pCache, groupID, baseTestTime1, baseTestTime1 + 99, &pIter);
ASSERT_EQ(code, 0);
ASSERT_NE(pIter, nullptr);
SSDataBlock* pBlock = NULL;
code = getNextStreamDataCache(&pIter, &pBlock);
ASSERT_EQ(code, 0);
ASSERT_NE(pBlock, nullptr);
ASSERT_NE(pIter, nullptr);
ASSERT_EQ(pBlock1, pBlock);
blockDataDestroy(pBlock);
pBlock = NULL;
code = getNextStreamDataCache(&pIter, &pBlock);
ASSERT_EQ(code, 0);
ASSERT_EQ(pBlock, nullptr);
ASSERT_EQ(pIter, nullptr);
code = getStreamDataCache(pCache, groupID, baseTestTime1 + 100, baseTestTime1 + 199, &pIter);
ASSERT_EQ(code, 0);
ASSERT_NE(pIter, nullptr);
code = getNextStreamDataCache(&pIter, &pBlock);
ASSERT_EQ(code, 0);
ASSERT_NE(pBlock, nullptr);
ASSERT_NE(pIter, nullptr);
ASSERT_EQ(pBlock2, pBlock);
blockDataDestroy(pBlock);
pBlock = NULL;
code = getNextStreamDataCache(&pIter, &pBlock);
ASSERT_EQ(code, 0);
ASSERT_EQ(pBlock, nullptr);
ASSERT_EQ(pIter, nullptr);
code = getStreamDataCache(pCache, groupID, baseTestTime1 + 200, baseTestTime1 + 299, &pIter);
ASSERT_EQ(code, 0);
ASSERT_NE(pIter, nullptr);
cancelStreamDataCacheIterate(&pIter);
blockDataDestroy(pBlock3); // pBlock3 has not moveout, destroyDataSinkMgr should destory it, but now has not finished.
destroyDataSinkMgr();
}
TEST(dataSinkTest, putStreamDataRows) {
INIT_DATA_SINK();
SSDataBlock* pBlock = createTestBlock(baseTestTime1, 0);
ASSERT_NE(pBlock, nullptr);
int64_t streamId = 1;
int64_t taskId = 1;
int64_t groupID = 1;
int32_t cleanMode = DATA_CLEAN_EXPIRED;
TSKEY wstart = baseTestTime1 + 0;
TSKEY wend = baseTestTime1 + 100;
void* pCache = NULL;
int32_t code = initStreamDataCache(streamId, taskId, 0, cleanMode, 0, &pCache);
ASSERT_EQ(code, 0);
code = putStreamDataCache(pCache, groupID, wstart, wend, pBlock, 0, 29);
ASSERT_EQ(code, 0);
code = putStreamDataCache(pCache, groupID, wstart, wend, pBlock, 30, 79);
ASSERT_EQ(code, 0);
code = putStreamDataCache(pCache, groupID, wstart, wend, pBlock, 80, 99);
ASSERT_EQ(code, 0);
blockDataDestroy(pBlock);
pBlock = createTestBlock(baseTestTime1, 100);
cleanMode = DATA_CLEAN_EXPIRED;
wstart = baseTestTime1 + 100;
wend = baseTestTime1 + 200;
code = putStreamDataCache(pCache, groupID, wstart, wend, pBlock, 0, 49);
ASSERT_EQ(code, 0);
code = putStreamDataCache(pCache, groupID, wstart, wend, pBlock, 50, 99);
ASSERT_EQ(code, 0);
void* pIter = NULL;
blockDataDestroy(pBlock);
pBlock = NULL;
code = getStreamDataCache(pCache, groupID, baseTestTime1 + 50, baseTestTime1 + 150, &pIter);
ASSERT_EQ(code, 0);
SSDataBlock* pBlock1 = NULL;
code = getNextStreamDataCache(&pIter, &pBlock1);
ASSERT_EQ(code, 0);
ASSERT_NE(pBlock1, nullptr);
ASSERT_NE(pIter, nullptr);
int rows = pBlock1->info.rows;
ASSERT_EQ(rows, 30);
blockDataDestroy(pBlock1);
pBlock1 = NULL;
code = getNextStreamDataCache(&pIter, &pBlock1);
ASSERT_EQ(code, 0);
ASSERT_NE(pBlock1, nullptr);
ASSERT_NE(pIter, nullptr);
rows = pBlock1->info.rows;
ASSERT_EQ(rows, 20);
blockDataDestroy(pBlock1);
pBlock1 = NULL;
code = getNextStreamDataCache(&pIter, &pBlock1);
ASSERT_EQ(code, 0);
ASSERT_NE(pBlock1, nullptr);
ASSERT_NE(pIter, nullptr);
rows = pBlock1->info.rows;
ASSERT_EQ(rows, 50);
blockDataDestroy(pBlock1);
pBlock1 = NULL;
code = getNextStreamDataCache(&pIter, &pBlock1);
ASSERT_EQ(code, 0);
ASSERT_NE(pBlock1, nullptr);
ASSERT_EQ(pIter, nullptr);
rows = pBlock1->info.rows;
ASSERT_EQ(rows, 1);
blockDataDestroy(pBlock1);
destroyDataSinkMgr();
}
TEST(dataSinkTest, allWriteToFileTest) {
INIT_DATA_SINK();
setDataSinkMaxMemSize(0);
SSDataBlock* pBlock11 = createTestBlock(baseTestTime1, 0);
ASSERT_NE(pBlock11, nullptr);
int64_t streamId = 1;
int64_t taskId = 1;
int64_t groupID = 1;
int32_t cleanMode = DATA_CLEAN_EXPIRED;
TSKEY wstart = baseTestTime1 + 0;
TSKEY wend = baseTestTime1 + 100;
void* pCache1 = NULL;
int32_t code = initStreamDataCache(streamId, taskId, 0, cleanMode, 0, &pCache1);
ASSERT_EQ(code, 0);
code = putStreamDataCache(pCache1, groupID, wstart, wend, pBlock11, 0, 29);
ASSERT_EQ(code, 0);
code = putStreamDataCache(pCache1, groupID, wstart, wend, pBlock11, 30, 79);
ASSERT_EQ(code, 0);
code = putStreamDataCache(pCache1, groupID, wstart, wend, pBlock11, 80, 99);
ASSERT_EQ(code, 0);
SSDataBlock* pBlock21 = createTestBlock(baseTestTime2, 0);
ASSERT_NE(pBlock21, nullptr);
int64_t streamId2 = 1;
int64_t taskId2 = 1;
int64_t groupID2 = 2;
int32_t cleanMode2 = DATA_CLEAN_EXPIRED;
TSKEY wstart2 = baseTestTime2 + 0;
TSKEY wend2 = baseTestTime2 + 100;
void* pCache2 = NULL;
code = initStreamDataCache(streamId2, taskId2, 0, cleanMode2, 0, &pCache2);
ASSERT_EQ(code, 0);
code = putStreamDataCache(pCache2, groupID2, wstart2, wend2, pBlock21, 0, 29);
ASSERT_EQ(code, 0);
code = putStreamDataCache(pCache2, groupID2, wstart2, wend2, pBlock21, 30, 79);
ASSERT_EQ(code, 0);
code = putStreamDataCache(pCache2, groupID2, wstart2, wend2, pBlock21, 80, 99);
ASSERT_EQ(code, 0);
SSDataBlock* pBlock12 = createTestBlock(baseTestTime1, 100);
cleanMode = DATA_CLEAN_EXPIRED;
wstart = baseTestTime1 + 100;
wend = baseTestTime1 + 200;
code = putStreamDataCache(pCache1, groupID, wstart, wend, pBlock12, 0, 49);
ASSERT_EQ(code, 0);
code = putStreamDataCache(pCache1, groupID, wstart, wend, pBlock12, 50, 99);
ASSERT_EQ(code, 0);
void* pIter1 = NULL;
int64_t notExistGroupID = groupID + 100;
code = getStreamDataCache(pCache1, notExistGroupID, baseTestTime1 + 50, baseTestTime1 + 150, &pIter1);
ASSERT_EQ(code, 0);
ASSERT_EQ(pIter1, nullptr);
code = getStreamDataCache(pCache1, groupID, baseTestTime1 + 50, baseTestTime1 + 149, &pIter1);
ASSERT_EQ(code, 0);
ASSERT_NE(pIter1, nullptr);
SSDataBlock* pBlock1 = NULL;
code = getNextStreamDataCache(&pIter1, &pBlock1);
ASSERT_EQ(code, 0);
ASSERT_NE(pBlock1, nullptr);
ASSERT_NE(pIter1, nullptr);
int rows = pBlock1->info.rows;
ASSERT_EQ(rows, 30);
ASSERT_EQ(compareBlockRow(pBlock1, pBlock11, 0, 50), true);
ASSERT_EQ(compareBlockRow(pBlock1, pBlock11, 1, 51), true);
ASSERT_EQ(compareBlockRow(pBlock1, pBlock11, 2, 52), true);
ASSERT_EQ(compareBlockRow(pBlock1, pBlock11, 29, 79), true);
blockDataDestroy(pBlock1);
void* pIter2 = NULL;
code = getStreamDataCache(pCache2, groupID2, baseTestTime2 + 50, baseTestTime2 + 150, &pIter2);
ASSERT_EQ(code, 0);
ASSERT_NE(pIter2, nullptr);
SSDataBlock* pBlock2 = NULL;
code = getNextStreamDataCache(&pIter2, &pBlock2);
ASSERT_EQ(code, 0);
ASSERT_NE(pBlock2, nullptr);
ASSERT_NE(pIter2, nullptr);
int rows2 = pBlock2->info.rows;
ASSERT_EQ(rows2, 30);
ASSERT_EQ(compareBlockRow(pBlock2, pBlock21, 0, 50), true);
ASSERT_EQ(compareBlockRow(pBlock2, pBlock21, 1, 51), true);
ASSERT_EQ(compareBlockRow(pBlock2, pBlock21, 2, 52), true);
ASSERT_EQ(compareBlockRow(pBlock2, pBlock21, 29, 79), true);
blockDataDestroy(pBlock2);
code = getNextStreamDataCache(&pIter1, &pBlock1);
ASSERT_EQ(code, 0);
ASSERT_NE(pBlock1, nullptr);
rows = pBlock1->info.rows;
ASSERT_EQ(rows, 20);
ASSERT_EQ(compareBlockRow(pBlock1, pBlock11, 0, 80), true);
ASSERT_EQ(compareBlockRow(pBlock1, pBlock11, 1, 81), true);
ASSERT_EQ(compareBlockRow(pBlock1, pBlock11, 2, 82), true);
ASSERT_EQ(compareBlockRow(pBlock1, pBlock11, 19, 99), true);
ASSERT_NE(pIter1, nullptr);
blockDataDestroy(pBlock1);
code = getNextStreamDataCache(&pIter2, &pBlock2);
ASSERT_EQ(code, 0);
ASSERT_NE(pBlock2, nullptr);
ASSERT_EQ(pIter2, nullptr);
rows = pBlock2->info.rows;
ASSERT_EQ(rows, 20);
ASSERT_EQ(compareBlockRow(pBlock2, pBlock21, 0, 80), true);
ASSERT_EQ(compareBlockRow(pBlock2, pBlock21, 1, 81), true);
ASSERT_EQ(compareBlockRow(pBlock2, pBlock21, 2, 82), true);
ASSERT_EQ(compareBlockRow(pBlock2, pBlock21, 19, 99), true);
blockDataDestroy(pBlock2);
blockDataDestroy(pBlock21);
code = getNextStreamDataCache(&pIter1, &pBlock1);
ASSERT_EQ(code, 0);
ASSERT_NE(pBlock1, nullptr);
ASSERT_NE(pIter1, nullptr);
rows = pBlock1->info.rows;
ASSERT_EQ(rows, 50);
ASSERT_EQ(compareBlockRow(pBlock1, pBlock12, 0, 0), true);
ASSERT_EQ(compareBlockRow(pBlock1, pBlock12, 1, 1), true);
ASSERT_EQ(compareBlockRow(pBlock1, pBlock12, 2, 2), true);
ASSERT_EQ(compareBlockRow(pBlock1, pBlock12, 49, 49), true);
blockDataDestroy(pBlock1);
pBlock1 = NULL;
code = getNextStreamDataCache(&pIter1, &pBlock1);
ASSERT_EQ(code, 0);
ASSERT_EQ(pBlock1, nullptr);
ASSERT_EQ(pIter1, nullptr);
blockDataDestroy(pBlock11);
blockDataDestroy(pBlock12);
destroyDataSinkMgr();
}
TEST(dataSinkTest, allWriteMultiStreamToFileTest) {
INIT_DATA_SINK();
setDataSinkMaxMemSize(0);
SSDataBlock* pBlock11 = createTestBlock(baseTestTime1, 0);
ASSERT_NE(pBlock11, nullptr);
int64_t streamId = 1;
int64_t taskId = 1;
int64_t groupID = 1;
int32_t cleanMode = DATA_CLEAN_EXPIRED;
TSKEY wstart = baseTestTime1 + 0;
TSKEY wend = baseTestTime1 + 100;
void* pCache1 = NULL;
int32_t code = initStreamDataCache(streamId, taskId, 0, cleanMode, 0, &pCache1);
ASSERT_EQ(code, 0);
code = putStreamDataCache(pCache1, groupID, wstart, wend, pBlock11, 0, 29);
ASSERT_EQ(code, 0);
code = putStreamDataCache(pCache1, groupID, wstart, wend, pBlock11, 30, 79);
ASSERT_EQ(code, 0);
code = putStreamDataCache(pCache1, groupID, wstart, wend, pBlock11, 80, 99);
ASSERT_EQ(code, 0);
SSDataBlock* pBlock21 = createTestBlock(baseTestTime2, 0);
ASSERT_NE(pBlock21, nullptr);
int64_t streamId2 = 2;
int64_t taskId2 = 1;
int64_t groupID2 = 2;
int32_t cleanMode2 = DATA_CLEAN_EXPIRED;
TSKEY wstart2 = baseTestTime2 + 0;
TSKEY wend2 = baseTestTime2 + 100;
void* pCache2 = NULL;
code = initStreamDataCache(streamId2, taskId2, 0, cleanMode2, 0, &pCache2);
ASSERT_EQ(code, 0);
code = putStreamDataCache(pCache2, groupID2, wstart2, wend2, pBlock21, 0, 29);
ASSERT_EQ(code, 0);
code = putStreamDataCache(pCache2, groupID2, wstart2, wend2, pBlock21, 30, 79);
ASSERT_EQ(code, 0);
code = putStreamDataCache(pCache2, groupID2, wstart2, wend2, pBlock21, 80, 99);
ASSERT_EQ(code, 0);
SSDataBlock* pBlock12 = createTestBlock(baseTestTime1, 100);
cleanMode = DATA_CLEAN_EXPIRED;
wstart = baseTestTime1 + 100;
wend = baseTestTime1 + 200;
code = putStreamDataCache(pCache1, groupID, wstart, wend, pBlock12, 0, 49);
ASSERT_EQ(code, 0);
code = putStreamDataCache(pCache1, groupID, wstart, wend, pBlock12, 50, 99);
ASSERT_EQ(code, 0);
void* pIter1 = NULL;
int64_t notExistGroupID = groupID + 100;
code = getStreamDataCache(pCache1, notExistGroupID, baseTestTime1 + 50, baseTestTime1 + 150, &pIter1);
ASSERT_EQ(code, 0);
ASSERT_EQ(pIter1, nullptr);
code = getStreamDataCache(pCache1, groupID, baseTestTime1 + 50, baseTestTime1 + 149, &pIter1);
ASSERT_EQ(code, 0);
ASSERT_NE(pIter1, nullptr);
SSDataBlock* pBlock1 = NULL;
code = getNextStreamDataCache(&pIter1, &pBlock1);
ASSERT_EQ(code, 0);
ASSERT_NE(pBlock1, nullptr);
ASSERT_NE(pIter1, nullptr);
int rows = pBlock1->info.rows;
ASSERT_EQ(rows, 30);
ASSERT_EQ(compareBlockRow(pBlock1, pBlock11, 0, 50), true);
ASSERT_EQ(compareBlockRow(pBlock1, pBlock11, 1, 51), true);
ASSERT_EQ(compareBlockRow(pBlock1, pBlock11, 2, 52), true);
ASSERT_EQ(compareBlockRow(pBlock1, pBlock11, 29, 79), true);
blockDataDestroy(pBlock1);
void* pIter2 = NULL;
code = getStreamDataCache(pCache2, groupID2, baseTestTime2 + 50, baseTestTime2 + 150, &pIter2);
ASSERT_EQ(code, 0);
ASSERT_NE(pIter2, nullptr);
SSDataBlock* pBlock2 = NULL;
code = getNextStreamDataCache(&pIter2, &pBlock2);
ASSERT_EQ(code, 0);
ASSERT_NE(pBlock2, nullptr);
ASSERT_NE(pIter2, nullptr);
int rows2 = pBlock2->info.rows;
ASSERT_EQ(rows2, 30);
ASSERT_EQ(compareBlockRow(pBlock2, pBlock21, 0, 50), true);
ASSERT_EQ(compareBlockRow(pBlock2, pBlock21, 1, 51), true);
ASSERT_EQ(compareBlockRow(pBlock2, pBlock21, 2, 52), true);
ASSERT_EQ(compareBlockRow(pBlock2, pBlock21, 29, 79), true);
blockDataDestroy(pBlock2);
code = getNextStreamDataCache(&pIter1, &pBlock1);
ASSERT_EQ(code, 0);
ASSERT_NE(pBlock1, nullptr);
rows = pBlock1->info.rows;
ASSERT_EQ(rows, 20);
ASSERT_EQ(compareBlockRow(pBlock1, pBlock11, 0, 80), true);
ASSERT_EQ(compareBlockRow(pBlock1, pBlock11, 1, 81), true);
ASSERT_EQ(compareBlockRow(pBlock1, pBlock11, 2, 82), true);
ASSERT_EQ(compareBlockRow(pBlock1, pBlock11, 19, 99), true);
ASSERT_NE(pIter1, nullptr);
blockDataDestroy(pBlock1);
code = getNextStreamDataCache(&pIter2, &pBlock2);
ASSERT_EQ(code, 0);
ASSERT_NE(pBlock2, nullptr);
ASSERT_EQ(pIter2, nullptr);
rows = pBlock2->info.rows;
ASSERT_EQ(rows, 20);
ASSERT_EQ(compareBlockRow(pBlock2, pBlock21, 0, 80), true);
ASSERT_EQ(compareBlockRow(pBlock2, pBlock21, 1, 81), true);
ASSERT_EQ(compareBlockRow(pBlock2, pBlock21, 2, 82), true);
ASSERT_EQ(compareBlockRow(pBlock2, pBlock21, 19, 99), true);
blockDataDestroy(pBlock2);
blockDataDestroy(pBlock21);
destroyStreamDataCache(pCache2);
code = getNextStreamDataCache(&pIter1, &pBlock1);
ASSERT_EQ(code, 0);
ASSERT_NE(pBlock1, nullptr);
ASSERT_NE(pIter1, nullptr);
rows = pBlock1->info.rows;
ASSERT_EQ(rows, 50);
ASSERT_EQ(compareBlockRow(pBlock1, pBlock12, 0, 0), true);
ASSERT_EQ(compareBlockRow(pBlock1, pBlock12, 1, 1), true);
ASSERT_EQ(compareBlockRow(pBlock1, pBlock12, 2, 2), true);
ASSERT_EQ(compareBlockRow(pBlock1, pBlock12, 49, 49), true);
blockDataDestroy(pBlock1);
pBlock1 = NULL;
code = getNextStreamDataCache(&pIter1, &pBlock1);
ASSERT_EQ(code, 0);
ASSERT_EQ(pBlock1, nullptr);
ASSERT_EQ(pIter1, nullptr);
blockDataDestroy(pBlock11);
blockDataDestroy(pBlock12);
destroyStreamDataCache(pCache1);
destroyDataSinkMgr();
}
TEST(dataSinkTest, testWriteFileSize) {
INIT_DATA_SINK();
SSDataBlock* pBlock = createTestBlock(baseTestTime1, 0);
setDataSinkMaxMemSize(DS_MEM_SIZE_RESERVED + 1024 * 1024);
int64_t streamId = 3;
void* pCache = NULL;
int64_t taskId = 1;
int32_t cleanMode = DATA_CLEAN_EXPIRED;
int32_t code = initStreamDataCache(streamId, taskId, 0, cleanMode, 0, &pCache);
ASSERT_NE(pBlock, nullptr);
for (int32_t i = 0; i < 100000; i++) {
int64_t groupID = i;
TSKEY wstart = baseTestTime1 + 0;
TSKEY wend = baseTestTime1 + 100;
ASSERT_EQ(code, 0);
code = putStreamDataCache(pCache, groupID, wstart, wend, pBlock, 0, 99);
ASSERT_EQ(code, 0);
}
for (int32_t i = 0; i < 100000; i++) {
int64_t groupID = i;
TSKEY wstart = baseTestTime1 + 0;
TSKEY wend = baseTestTime1 + 99;
void* pIter = NULL;
code = getStreamDataCache(pCache, groupID, wstart, wend, &pIter);
ASSERT_EQ(code, 0);
ASSERT_NE(pIter, nullptr);
SSDataBlock* pBlock1 = NULL;
code = getNextStreamDataCache(&pIter, &pBlock1);
ASSERT_EQ(code, 0);
ASSERT_NE(pBlock1, nullptr);
int rows = pBlock1->info.rows;
ASSERT_EQ(rows, 100);
bool equal = compareBlock(pBlock, pBlock1);
ASSERT_EQ(equal, true);
blockDataDestroy(pBlock1);
pBlock1 = NULL;
if (pIter != nullptr) {
code = getNextStreamDataCache(&pIter, &pBlock1);
ASSERT_EQ(code, 0);
ASSERT_EQ(pBlock1, nullptr);
ASSERT_EQ(pIter, nullptr);
}
}
blockDataDestroy(pBlock);
destroyStreamDataCache(pCache);
}
TEST(dataSinkTest, multiThreadGet) {
INIT_DATA_SINK();
const int producerCount = 1;
const int consumerCount = 16;
const int taskPerProducer = 10000;
struct Task {
int64_t groupID;
TSKEY wstart;
TSKEY wend;
SSDataBlock* pBlock;
};
// Each queue has its own mutex and condition_variabl
std::vector<std::queue<Task>> taskQueues(consumerCount);
std::vector<std::mutex> queueMutexes(consumerCount);
std::vector<std::condition_variable> queueCVs(consumerCount);
std::vector<bool> doneFlags(consumerCount, false);
int32_t groups[100] = {0};
// Initialize data cache
setDataSinkMaxMemSize(DS_MEM_SIZE_RESERVED + 1024 * 1024);
int64_t streamId = 100;
int64_t taskId = 100;
int32_t cleanMode = DATA_CLEAN_EXPIRED;
void* pCache = NULL;
int32_t code = initStreamDataCache(streamId, taskId, 0, cleanMode, 0, &pCache);
ASSERT_EQ(code, 0);
std::random_device rd;
std::mt19937 gen(rd());
std::uniform_int_distribution<int64_t> dist(0, 99);
// Producer thread
auto producer = [&](int tid) {
for (int i = 0; i < taskPerProducer; ++i) {
int64_t groupId = dist(gen);
TSKEY wstart = baseTestTime1 + groups[groupId] * 100;
TSKEY wend = baseTestTime1 + (++groups[groupId]) * 100;
SSDataBlock* pBlock = createTestBlock(wstart, 0);
code = putStreamDataCache(pCache, groupId, wstart, wend, pBlock, 0, 99);
ASSERT_EQ(code, 0);
// Assign to different queues according to groupId
int queueIdx = groupId % consumerCount;
{
std::lock_guard<std::mutex> lock(queueMutexes[queueIdx]);
taskQueues[queueIdx].push(Task{groupId, wstart, wend, pBlock});
}
queueCVs[queueIdx].notify_one();
}
};
// Consumer thread
auto consumer = [&](int idx) {
while (true) {
Task task;
{
std::unique_lock<std::mutex> lock(queueMutexes[idx]);
queueCVs[idx].wait(lock, [&] { return !taskQueues[idx].empty() || doneFlags[idx]; });
if (taskQueues[idx].empty() && doneFlags[idx]) break;
if (taskQueues[idx].empty()) continue;
task = taskQueues[idx].front();
taskQueues[idx].pop();
}
// Consume task: get data and check
void* pIter = NULL;
int32_t code2 = getStreamDataCache(pCache, task.groupID, task.wstart, task.wend - 1, &pIter);
ASSERT_EQ(code2, 0);
ASSERT_NE(pIter, nullptr);
SSDataBlock* pBlock1 = NULL;
code2 = getNextStreamDataCache(&pIter, &pBlock1);
ASSERT_EQ(code2, 0);
ASSERT_NE(pBlock1, nullptr);
ASSERT_EQ(pBlock1->info.rows, 100);
bool equal = compareBlock(task.pBlock, pBlock1);
ASSERT_EQ(equal, true);
blockDataDestroy(pBlock1);
pBlock1 = NULL;
if (pIter != nullptr) {
code2 = getNextStreamDataCache(&pIter, &pBlock1);
ASSERT_EQ(code2, 0);
ASSERT_EQ(pBlock1, nullptr);
ASSERT_EQ(pIter, nullptr);
}
blockDataDestroy(task.pBlock);
if (gTestMode == 1) {
taosMsleep(10); // This is done to create a backlog of data
}
}
};
// Start producer threads
std::vector<std::thread> producers;
for (int i = 0; i < producerCount; ++i) {
producers.emplace_back(producer, i);
}
// Start consumer threads
std::vector<std::thread> consumers;
for (int i = 0; i < consumerCount; ++i) {
consumers.emplace_back(consumer, i);
}
// Wait for producers to finish
for (auto& t : producers) t.join();
// Notify all consumers that this producer has finished
for (int i = 0; i < consumerCount; ++i) {
std::lock_guard<std::mutex> lock(queueMutexes[i]);
doneFlags[i] = true;
queueCVs[i].notify_all();
}
// Wait for consumers to finish
for (auto& t : consumers) t.join();
destroyStreamDataCache(pCache);
}
TEST(dataSinkTest, cleanSlidingStreamData) {
INIT_DATA_SINK();
SSDataBlock* pBlock = createTestBlock(baseTestTime1, 0);
ASSERT_NE(pBlock, nullptr);
int64_t streamId = 1;
int64_t taskId = 1;
int64_t groupID = 1;
int32_t cleanMode = DATA_CLEAN_EXPIRED;
TSKEY wstart = baseTestTime1 + 0;
TSKEY wend = baseTestTime1 + 100;
void* pCache = NULL;
int32_t code = initStreamDataCache(streamId, taskId, 0, cleanMode, 0, &pCache);
ASSERT_EQ(code, 0);
code = putStreamDataCache(pCache, groupID, wstart, wend, pBlock, 0, 99);
ASSERT_EQ(code, 0);
blockDataDestroy(pBlock);
code = cleanStreamDataCache(pCache, groupID);
ASSERT_EQ(code, 0);
pBlock = createTestBlock(baseTestTime1, 100);
cleanMode = DATA_CLEAN_EXPIRED;
wstart = baseTestTime1 + 100;
wend = baseTestTime1 + 200;
code = putStreamDataCache(pCache, groupID, wstart, wend, pBlock, 0, 99);
ASSERT_EQ(code, 0);
void* pIter = NULL;
blockDataDestroy(pBlock);
pBlock = NULL;
code = getStreamDataCache(pCache, groupID, baseTestTime1 + 50, baseTestTime1 + 150, &pIter);
ASSERT_EQ(code, 0);
SSDataBlock* pBlock1 = NULL;
code = getNextStreamDataCache(&pIter, &pBlock1);
ASSERT_EQ(code, 0);
ASSERT_NE(pBlock1, nullptr);
ASSERT_EQ(pIter, nullptr);
int rows = pBlock1->info.rows;
ASSERT_EQ(rows, 51);
blockDataDestroy(pBlock1);
pBlock1 = NULL;
destroyDataSinkMgr();
}
int main(int argc, char** argv) {
taos_init();
::testing::InitGoogleTest(&argc, argv);
if (argc > 1) {
::testing::GTEST_FLAG(filter) = argv[1];
} else {
::testing::GTEST_FLAG(filter) = "*";
}
int ret = RUN_ALL_TESTS();
gTestMode = 0; // Reset test mode to 0 for the next run
::testing::GTEST_FLAG(filter) = "dataSinkTest.multiThreadGet";
int ret2 = RUN_ALL_TESTS();
taos_cleanup();
return ret || ret2;
}
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