/* * Copyright (c) 2019 TAOS Data, Inc. * * 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 . */ #include #include #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" #pragma GCC diagnostic ignored "-Wreturn-type" #pragma GCC diagnostic ignored "-Wformat" #include #ifdef WINDOWS #define TD_USE_WINSOCK #endif #include "os.h" #include "tglobal.h" #include "taos.h" #include "tdef.h" #include "tvariant.h" #include "catalog.h" #include "scheduler.h" #include "taos.h" #include "tdatablock.h" #include "tdef.h" #include "trpc.h" #include "tvariant.h" #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" #pragma GCC diagnostic ignored "-Wreturn-type" #pragma GCC diagnostic ignored "-Wformat" #include "schInt.h" #include "stub.h" #include "tref.h" namespace { extern "C" int32_t schHandleResponseMsg(SSchJob *job, SSchTask *task, int32_t msgType, char *msg, int32_t msgSize, int32_t rspCode); extern "C" int32_t schHandleCallback(void* param, const SDataBuf* pMsg, int32_t msgType, int32_t rspCode); int64_t insertJobRefId = 0; int64_t queryJobRefId = 0; uint64_t schtMergeTemplateId = 0x4; uint64_t schtFetchTaskId = 0; uint64_t schtQueryId = 1; bool schtTestStop = false; bool schtTestDeadLoop = false; int32_t schtTestMTRunSec = 10; int32_t schtTestPrintNum = 1000; int32_t schtStartFetch = 0; void schtInitLogFile() { const char *defaultLogFileNamePrefix = "taoslog"; const int32_t maxLogFileNum = 10; tsAsyncLog = 0; qDebugFlag = 159; strcpy(tsLogDir, TD_LOG_DIR_PATH); if (taosInitLog(defaultLogFileNamePrefix, maxLogFileNum) < 0) { printf("failed to open log file in directory:%s\n", tsLogDir); } } void schtQueryCb(SExecResult* pResult, void* param, int32_t code) { assert(TSDB_CODE_SUCCESS == code); *(int32_t*)param = 1; } void schtBuildQueryDag(SQueryPlan *dag) { uint64_t qId = schtQueryId; dag->queryId = qId; dag->numOfSubplans = 2; dag->pSubplans = nodesMakeList(); SNodeListNode *scan = (SNodeListNode*)nodesMakeNode(QUERY_NODE_NODE_LIST); SNodeListNode *merge = (SNodeListNode*)nodesMakeNode(QUERY_NODE_NODE_LIST); SSubplan *scanPlan = (SSubplan *)taosMemoryCalloc(1, sizeof(SSubplan)); SSubplan *mergePlan = (SSubplan *)taosMemoryCalloc(1, sizeof(SSubplan)); scanPlan->id.queryId = qId; scanPlan->id.groupId = 0x0000000000000002; scanPlan->id.subplanId = 0x0000000000000003; scanPlan->subplanType = SUBPLAN_TYPE_SCAN; scanPlan->execNode.nodeId = 1; scanPlan->execNode.epSet.inUse = 0; addEpIntoEpSet(&scanPlan->execNode.epSet, "ep0", 6030); scanPlan->pChildren = NULL; scanPlan->level = 1; scanPlan->pParents = nodesMakeList(); scanPlan->pNode = (SPhysiNode*)taosMemoryCalloc(1, sizeof(SPhysiNode)); scanPlan->msgType = TDMT_SCH_QUERY; mergePlan->id.queryId = qId; mergePlan->id.groupId = schtMergeTemplateId; mergePlan->id.subplanId = 0x5555; mergePlan->subplanType = SUBPLAN_TYPE_MERGE; mergePlan->level = 0; mergePlan->execNode.epSet.numOfEps = 0; mergePlan->pChildren = nodesMakeList(); mergePlan->pParents = NULL; mergePlan->pNode = (SPhysiNode*)taosMemoryCalloc(1, sizeof(SPhysiNode)); mergePlan->msgType = TDMT_SCH_QUERY; merge->pNodeList = nodesMakeList(); scan->pNodeList = nodesMakeList(); nodesListAppend(merge->pNodeList, (SNode*)mergePlan); nodesListAppend(scan->pNodeList, (SNode*)scanPlan); nodesListAppend(mergePlan->pChildren, (SNode*)scanPlan); nodesListAppend(scanPlan->pParents, (SNode*)mergePlan); nodesListAppend(dag->pSubplans, (SNode*)merge); nodesListAppend(dag->pSubplans, (SNode*)scan); } void schtBuildQueryFlowCtrlDag(SQueryPlan *dag) { uint64_t qId = schtQueryId; int32_t scanPlanNum = 20; dag->queryId = qId; dag->numOfSubplans = 2; dag->pSubplans = nodesMakeList(); SNodeListNode *scan = (SNodeListNode*)nodesMakeNode(QUERY_NODE_NODE_LIST); SNodeListNode *merge = (SNodeListNode*)nodesMakeNode(QUERY_NODE_NODE_LIST); SSubplan *scanPlan = (SSubplan *)taosMemoryCalloc(scanPlanNum, sizeof(SSubplan)); SSubplan *mergePlan = (SSubplan *)taosMemoryCalloc(1, sizeof(SSubplan)); merge->pNodeList = nodesMakeList(); scan->pNodeList = nodesMakeList(); mergePlan->pChildren = nodesMakeList(); for (int32_t i = 0; i < scanPlanNum; ++i) { scanPlan[i].id.queryId = qId; scanPlan[i].id.groupId = 0x0000000000000002; scanPlan[i].id.subplanId = 0x0000000000000003 + i; scanPlan[i].subplanType = SUBPLAN_TYPE_SCAN; scanPlan[i].execNode.nodeId = 1 + i; scanPlan[i].execNode.epSet.inUse = 0; scanPlan[i].execNodeStat.tableNum = taosRand() % 30; addEpIntoEpSet(&scanPlan[i].execNode.epSet, "ep0", 6030); addEpIntoEpSet(&scanPlan[i].execNode.epSet, "ep1", 6030); addEpIntoEpSet(&scanPlan[i].execNode.epSet, "ep2", 6030); scanPlan[i].execNode.epSet.inUse = taosRand() % 3; scanPlan[i].pChildren = NULL; scanPlan[i].level = 1; scanPlan[i].pParents = nodesMakeList(); scanPlan[i].pNode = (SPhysiNode*)taosMemoryCalloc(1, sizeof(SPhysiNode)); scanPlan[i].msgType = TDMT_SCH_QUERY; nodesListAppend(scanPlan[i].pParents, (SNode*)mergePlan); nodesListAppend(mergePlan->pChildren, (SNode*)(scanPlan + i)); nodesListAppend(scan->pNodeList, (SNode*)(scanPlan + i)); } mergePlan->id.queryId = qId; mergePlan->id.groupId = schtMergeTemplateId; mergePlan->id.subplanId = 0x5555; mergePlan->subplanType = SUBPLAN_TYPE_MERGE; mergePlan->level = 0; mergePlan->execNode.epSet.numOfEps = 0; mergePlan->pParents = NULL; mergePlan->pNode = (SPhysiNode*)taosMemoryCalloc(1, sizeof(SPhysiNode)); mergePlan->msgType = TDMT_SCH_QUERY; nodesListAppend(merge->pNodeList, (SNode*)mergePlan); nodesListAppend(dag->pSubplans, (SNode*)merge); nodesListAppend(dag->pSubplans, (SNode*)scan); } void schtFreeQueryDag(SQueryPlan *dag) { } void schtBuildInsertDag(SQueryPlan *dag) { uint64_t qId = 0x0000000000000002; dag->queryId = qId; dag->numOfSubplans = 2; dag->pSubplans = nodesMakeList(); SNodeListNode *inserta = (SNodeListNode*)nodesMakeNode(QUERY_NODE_NODE_LIST); SSubplan *insertPlan = (SSubplan *)taosMemoryCalloc(2, sizeof(SSubplan)); insertPlan[0].id.queryId = qId; insertPlan[0].id.groupId = 0x0000000000000003; insertPlan[0].id.subplanId = 0x0000000000000004; insertPlan[0].subplanType = SUBPLAN_TYPE_MODIFY; insertPlan[0].level = 0; insertPlan[0].execNode.nodeId = 1; insertPlan[0].execNode.epSet.inUse = 0; addEpIntoEpSet(&insertPlan[0].execNode.epSet, "ep0", 6030); insertPlan[0].pChildren = NULL; insertPlan[0].pParents = NULL; insertPlan[0].pNode = NULL; insertPlan[0].pDataSink = (SDataSinkNode*)taosMemoryCalloc(1, sizeof(SDataSinkNode)); insertPlan[0].msgType = TDMT_VND_SUBMIT; insertPlan[1].id.queryId = qId; insertPlan[1].id.groupId = 0x0000000000000003; insertPlan[1].id.subplanId = 0x0000000000000005; insertPlan[1].subplanType = SUBPLAN_TYPE_MODIFY; insertPlan[1].level = 0; insertPlan[1].execNode.nodeId = 1; insertPlan[1].execNode.epSet.inUse = 0; addEpIntoEpSet(&insertPlan[1].execNode.epSet, "ep0", 6030); insertPlan[1].pChildren = NULL; insertPlan[1].pParents = NULL; insertPlan[1].pNode = NULL; insertPlan[1].pDataSink = (SDataSinkNode*)taosMemoryCalloc(1, sizeof(SDataSinkNode)); insertPlan[1].msgType = TDMT_VND_SUBMIT; inserta->pNodeList = nodesMakeList(); nodesListAppend(inserta->pNodeList, (SNode*)insertPlan); insertPlan += 1; nodesListAppend(inserta->pNodeList, (SNode*)insertPlan); nodesListAppend(dag->pSubplans, (SNode*)inserta); } int32_t schtPlanToString(const SSubplan *subplan, char** str, int32_t* len) { *str = (char *)taosMemoryCalloc(1, 20); *len = 20; return 0; } void schtExecNode(SSubplan* subplan, uint64_t groupId, SQueryNodeAddr* ep) { } void schtRpcSendRequest(void *shandle, const SEpSet *pEpSet, SRpcMsg *pMsg, int64_t *pRid) { } void schtSetPlanToString() { static Stub stub; stub.set(qSubPlanToString, schtPlanToString); { #ifdef WINDOWS AddrAny any; std::map result; any.get_func_addr("qSubPlanToString", result); #endif #ifdef LINUX AddrAny any("libplanner.so"); std::map result; any.get_global_func_addr_dynsym("^qSubPlanToString$", result); #endif for (const auto& f : result) { stub.set(f.second, schtPlanToString); } } } void schtSetExecNode() { static Stub stub; stub.set(qSetSubplanExecutionNode, schtExecNode); { #ifdef WINDOWS AddrAny any; std::map result; any.get_func_addr("qSetSubplanExecutionNode", result); #endif #ifdef LINUX AddrAny any("libplanner.so"); std::map result; any.get_global_func_addr_dynsym("^qSetSubplanExecutionNode$", result); #endif for (const auto& f : result) { stub.set(f.second, schtExecNode); } } } void schtSetRpcSendRequest() { static Stub stub; stub.set(rpcSendRequest, schtRpcSendRequest); { #ifdef WINDOWS AddrAny any; std::map result; any.get_func_addr("rpcSendRequest", result); #endif #ifdef LINUX AddrAny any("libtransport.so"); std::map result; any.get_global_func_addr_dynsym("^rpcSendRequest$", result); #endif for (const auto& f : result) { stub.set(f.second, schtRpcSendRequest); } } } int32_t schtAsyncSendMsgToServer(void *pTransporter, SEpSet* epSet, int64_t* pTransporterId, SMsgSendInfo* pInfo) { if (pInfo) { taosMemoryFreeClear(pInfo->param); taosMemoryFreeClear(pInfo->msgInfo.pData); taosMemoryFree(pInfo); } return 0; } void schtSetAsyncSendMsgToServer() { static Stub stub; stub.set(asyncSendMsgToServer, schtAsyncSendMsgToServer); { #ifdef WINDOWS AddrAny any; std::map result; any.get_func_addr("asyncSendMsgToServer", result); #endif #ifdef LINUX AddrAny any("libtransport.so"); std::map result; any.get_global_func_addr_dynsym("^asyncSendMsgToServer$", result); #endif for (const auto& f : result) { stub.set(f.second, schtAsyncSendMsgToServer); } } } void *schtSendRsp(void *param) { SSchJob *pJob = NULL; int64_t job = 0; int32_t code = 0; while (true) { job = *(int64_t *)param; if (job) { break; } taosMsleep(1); } pJob = schAcquireJob(job); void *pIter = taosHashIterate(pJob->execTasks, NULL); while (pIter) { SSchTask *task = *(SSchTask **)pIter; SSubmitRsp rsp = {0}; rsp.affectedRows = 10; schHandleResponseMsg(pJob, task, TDMT_VND_SUBMIT_RSP, (char *)&rsp, sizeof(rsp), 0); pIter = taosHashIterate(pJob->execTasks, pIter); } schReleaseJob(job); return NULL; } void *schtCreateFetchRspThread(void *param) { int64_t job = *(int64_t *)param; SSchJob* pJob = schAcquireJob(job); taosSsleep(1); int32_t code = 0; SRetrieveTableRsp *rsp = (SRetrieveTableRsp *)taosMemoryCalloc(1, sizeof(SRetrieveTableRsp)); rsp->completed = 1; rsp->numOfRows = 10; code = schHandleResponseMsg(pJob, pJob->fetchTask, TDMT_SCH_FETCH_RSP, (char *)rsp, sizeof(*rsp), 0); schReleaseJob(job); assert(code == 0); return NULL; } void *schtFetchRspThread(void *aa) { SDataBuf dataBuf = {0}; SSchTaskCallbackParam* param = NULL; while (!schtTestStop) { if (0 == atomic_val_compare_exchange_32(&schtStartFetch, 1, 0)) { continue; } taosUsleep(1); param = (SSchTaskCallbackParam *)taosMemoryCalloc(1, sizeof(*param)); param->queryId = schtQueryId; param->taskId = schtFetchTaskId; int32_t code = 0; SRetrieveTableRsp *rsp = (SRetrieveTableRsp *)taosMemoryCalloc(1, sizeof(SRetrieveTableRsp)); rsp->completed = 1; rsp->numOfRows = 10; dataBuf.pData = rsp; dataBuf.len = sizeof(*rsp); code = schHandleCallback(param, &dataBuf, TDMT_SCH_FETCH_RSP, 0); assert(code == 0 || code); } return NULL; } void schtFreeQueryJob(int32_t freeThread) { static uint32_t freeNum = 0; int64_t job = queryJobRefId; if (job && atomic_val_compare_exchange_64(&queryJobRefId, job, 0)) { schedulerFreeJob(&job, 0); if (freeThread) { if (++freeNum % schtTestPrintNum == 0) { printf("FreeNum:%d\n", freeNum); } } } } void* schtRunJobThread(void *aa) { void *mockPointer = (void *)0x1; char *clusterId = "cluster1"; char *dbname = "1.db1"; char *tablename = "table1"; SVgroupInfo vgInfo = {0}; SQueryPlan dag; schtInitLogFile(); int32_t code = schedulerInit(); assert(code == 0); schtSetPlanToString(); schtSetExecNode(); schtSetAsyncSendMsgToServer(); SSchJob *pJob = NULL; SSchTaskCallbackParam *param = NULL; SHashObj *execTasks = NULL; SDataBuf dataBuf = {0}; uint32_t jobFinished = 0; int32_t queryDone = 0; while (!schtTestStop) { schtBuildQueryDag(&dag); SArray *qnodeList = taosArrayInit(1, sizeof(SEp)); SEp qnodeAddr = {0}; strcpy(qnodeAddr.fqdn, "qnode0.ep"); qnodeAddr.port = 6031; taosArrayPush(qnodeList, &qnodeAddr); queryDone = 0; SRequestConnInfo conn = {0}; conn.pTrans = mockPointer; SSchedulerReq req = {0}; req.syncReq = false; req.pConn = &conn; req.pNodeList = qnodeList; req.pDag = &dag; req.sql = "select * from tb"; req.execFp = schtQueryCb; req.cbParam = &queryDone; code = schedulerExecJob(&req, &queryJobRefId); assert(code == 0); pJob = schAcquireJob(queryJobRefId); if (NULL == pJob) { taosArrayDestroy(qnodeList); schtFreeQueryDag(&dag); continue; } execTasks = taosHashInit(5, taosGetDefaultHashFunction(TSDB_DATA_TYPE_UBIGINT), false, HASH_ENTRY_LOCK); void *pIter = taosHashIterate(pJob->execTasks, NULL); while (pIter) { SSchTask *task = *(SSchTask **)pIter; schtFetchTaskId = task->taskId - 1; taosHashPut(execTasks, &task->taskId, sizeof(task->taskId), task, sizeof(*task)); pIter = taosHashIterate(pJob->execTasks, pIter); } param = (SSchTaskCallbackParam *)taosMemoryCalloc(1, sizeof(*param)); param->refId = queryJobRefId; param->queryId = pJob->queryId; pIter = taosHashIterate(execTasks, NULL); while (pIter) { SSchTask *task = (SSchTask *)pIter; param->taskId = task->taskId; SQueryTableRsp rsp = {0}; dataBuf.pData = &rsp; dataBuf.len = sizeof(rsp); code = schHandleCallback(param, &dataBuf, TDMT_SCH_QUERY_RSP, 0); assert(code == 0 || code); pIter = taosHashIterate(execTasks, pIter); } param = (SSchTaskCallbackParam *)taosMemoryCalloc(1, sizeof(*param)); param->refId = queryJobRefId; param->queryId = pJob->queryId; pIter = taosHashIterate(execTasks, NULL); while (pIter) { SSchTask *task = (SSchTask *)pIter; param->taskId = task->taskId - 1; SQueryTableRsp rsp = {0}; dataBuf.pData = &rsp; dataBuf.len = sizeof(rsp); code = schHandleCallback(param, &dataBuf, TDMT_SCH_QUERY_RSP, 0); assert(code == 0 || code); pIter = taosHashIterate(execTasks, pIter); } while (true) { if (queryDone) { break; } taosUsleep(10000); } atomic_store_32(&schtStartFetch, 1); void *data = NULL; req.syncReq = true; req.pFetchRes = &data; code = schedulerFetchRows(queryJobRefId, &req); assert(code == 0 || code); if (0 == code) { SRetrieveTableRsp *pRsp = (SRetrieveTableRsp *)data; assert(pRsp->completed == 1); assert(pRsp->numOfRows == 10); } data = NULL; code = schedulerFetchRows(queryJobRefId, &req); assert(code == 0 || code); schtFreeQueryJob(0); taosHashCleanup(execTasks); taosArrayDestroy(qnodeList); schtFreeQueryDag(&dag); if (++jobFinished % schtTestPrintNum == 0) { printf("jobFinished:%d\n", jobFinished); } ++schtQueryId; } schedulerDestroy(); return NULL; } void* schtFreeJobThread(void *aa) { while (!schtTestStop) { taosUsleep(taosRand() % 100); schtFreeQueryJob(1); } return NULL; } } TEST(queryTest, normalCase) { void *mockPointer = (void *)0x1; char *clusterId = "cluster1"; char *dbname = "1.db1"; char *tablename = "table1"; SVgroupInfo vgInfo = {0}; int64_t job = 0; SQueryPlan dag; memset(&dag, 0, sizeof(dag)); SArray *qnodeList = taosArrayInit(1, sizeof(SEp)); SEp qnodeAddr = {0}; strcpy(qnodeAddr.fqdn, "qnode0.ep"); qnodeAddr.port = 6031; taosArrayPush(qnodeList, &qnodeAddr); int32_t code = schedulerInit(NULL); ASSERT_EQ(code, 0); schtBuildQueryDag(&dag); schtSetPlanToString(); schtSetExecNode(); schtSetAsyncSendMsgToServer(); int32_t queryDone = 0; SRequestConnInfo conn = {0}; conn.pTrans = mockPointer; SSchedulerReq req = {0}; req.pConn = &conn; req.pNodeList = qnodeList; req.pDag = &dag; req.sql = "select * from tb"; req.execFp = schtQueryCb; req.cbParam = &queryDone; code = schedulerExecJob(&req, &job); ASSERT_EQ(code, 0); SSchJob *pJob = schAcquireJob(job); void *pIter = taosHashIterate(pJob->execTasks, NULL); while (pIter) { SSchTask *task = *(SSchTask **)pIter; SQueryTableRsp rsp = {0}; code = schHandleResponseMsg(pJob, task, TDMT_SCH_QUERY_RSP, (char *)&rsp, sizeof(rsp), 0); ASSERT_EQ(code, 0); pIter = taosHashIterate(pJob->execTasks, pIter); } pIter = taosHashIterate(pJob->execTasks, NULL); while (pIter) { SSchTask *task = *(SSchTask **)pIter; SQueryTableRsp rsp = {0}; code = schHandleResponseMsg(pJob, task, TDMT_SCH_QUERY_RSP, (char *)&rsp, sizeof(rsp), 0); ASSERT_EQ(code, 0); pIter = taosHashIterate(pJob->execTasks, pIter); } while (true) { if (queryDone) { break; } taosUsleep(10000); } TdThreadAttr thattr; taosThreadAttrInit(&thattr); TdThread thread1; taosThreadCreate(&(thread1), &thattr, schtCreateFetchRspThread, &job); void *data = NULL; req.syncReq = true; req.pFetchRes = &data; code = schedulerFetchRows(job, &req); ASSERT_EQ(code, 0); SRetrieveTableRsp *pRsp = (SRetrieveTableRsp *)data; ASSERT_EQ(pRsp->completed, 1); ASSERT_EQ(pRsp->numOfRows, 10); taosMemoryFreeClear(data); data = NULL; code = schedulerFetchRows(job, &req); ASSERT_EQ(code, 0); ASSERT_TRUE(data == NULL); schReleaseJob(job); schedulerFreeJob(&job, 0); schtFreeQueryDag(&dag); schedulerDestroy(); } TEST(queryTest, readyFirstCase) { void *mockPointer = (void *)0x1; char *clusterId = "cluster1"; char *dbname = "1.db1"; char *tablename = "table1"; SVgroupInfo vgInfo = {0}; int64_t job = 0; SQueryPlan dag; memset(&dag, 0, sizeof(dag)); SArray *qnodeList = taosArrayInit(1, sizeof(SEp)); SEp qnodeAddr = {0}; strcpy(qnodeAddr.fqdn, "qnode0.ep"); qnodeAddr.port = 6031; taosArrayPush(qnodeList, &qnodeAddr); int32_t code = schedulerInit(NULL); ASSERT_EQ(code, 0); schtBuildQueryDag(&dag); schtSetPlanToString(); schtSetExecNode(); schtSetAsyncSendMsgToServer(); int32_t queryDone = 0; SRequestConnInfo conn = {0}; conn.pTrans = mockPointer; SSchedulerReq req = {0}; req.pConn = &conn; req.pNodeList = qnodeList; req.pDag = &dag; req.sql = "select * from tb"; req.execFp = schtQueryCb; req.cbParam = &queryDone; code = schedulerExecJob(&req, &job); ASSERT_EQ(code, 0); SSchJob *pJob = schAcquireJob(job); void *pIter = taosHashIterate(pJob->execTasks, NULL); while (pIter) { SSchTask *task = *(SSchTask **)pIter; SQueryTableRsp rsp = {0}; code = schHandleResponseMsg(pJob, task, TDMT_SCH_QUERY_RSP, (char *)&rsp, sizeof(rsp), 0); ASSERT_EQ(code, 0); pIter = taosHashIterate(pJob->execTasks, pIter); } pIter = taosHashIterate(pJob->execTasks, NULL); while (pIter) { SSchTask *task = *(SSchTask **)pIter; SQueryTableRsp rsp = {0}; code = schHandleResponseMsg(pJob, task, TDMT_SCH_QUERY_RSP, (char *)&rsp, sizeof(rsp), 0); ASSERT_EQ(code, 0); pIter = taosHashIterate(pJob->execTasks, pIter); } while (true) { if (queryDone) { break; } taosUsleep(10000); } TdThreadAttr thattr; taosThreadAttrInit(&thattr); TdThread thread1; taosThreadCreate(&(thread1), &thattr, schtCreateFetchRspThread, &job); void *data = NULL; req.syncReq = true; req.pFetchRes = &data; code = schedulerFetchRows(job, &req); ASSERT_EQ(code, 0); SRetrieveTableRsp *pRsp = (SRetrieveTableRsp *)data; ASSERT_EQ(pRsp->completed, 1); ASSERT_EQ(pRsp->numOfRows, 10); taosMemoryFreeClear(data); data = NULL; code = schedulerFetchRows(job, &req); ASSERT_EQ(code, 0); ASSERT_TRUE(data == NULL); schReleaseJob(job); schedulerFreeJob(&job, 0); schtFreeQueryDag(&dag); schedulerDestroy(); } TEST(queryTest, flowCtrlCase) { void *mockPointer = (void *)0x1; char *clusterId = "cluster1"; char *dbname = "1.db1"; char *tablename = "table1"; SVgroupInfo vgInfo = {0}; int64_t job = 0; SQueryPlan dag; schtInitLogFile(); taosSeedRand(taosGetTimestampSec()); SArray *qnodeList = taosArrayInit(1, sizeof(SEp)); SEp qnodeAddr = {0}; strcpy(qnodeAddr.fqdn, "qnode0.ep"); qnodeAddr.port = 6031; taosArrayPush(qnodeList, &qnodeAddr); int32_t code = schedulerInit(NULL); ASSERT_EQ(code, 0); schtBuildQueryFlowCtrlDag(&dag); schtSetPlanToString(); schtSetExecNode(); schtSetAsyncSendMsgToServer(); int32_t queryDone = 0; SRequestConnInfo conn = {0}; conn.pTrans = mockPointer; SSchedulerReq req = {0}; req.pConn = &conn; req.pNodeList = qnodeList; req.pDag = &dag; req.sql = "select * from tb"; req.execFp = schtQueryCb; req.cbParam = &queryDone; code = schedulerExecJob(&req, &job); ASSERT_EQ(code, 0); SSchJob *pJob = schAcquireJob(job); bool qDone = false; while (!qDone) { void *pIter = taosHashIterate(pJob->execTasks, NULL); if (NULL == pIter) { break; } while (pIter) { SSchTask *task = *(SSchTask **)pIter; taosHashCancelIterate(pJob->execTasks, pIter); if (task->lastMsgType == TDMT_SCH_QUERY) { SQueryTableRsp rsp = {0}; code = schHandleResponseMsg(pJob, task, TDMT_SCH_QUERY_RSP, (char *)&rsp, sizeof(rsp), 0); ASSERT_EQ(code, 0); } else { qDone = true; break; } pIter = NULL; } } while (true) { if (queryDone) { break; } taosUsleep(10000); } TdThreadAttr thattr; taosThreadAttrInit(&thattr); TdThread thread1; taosThreadCreate(&(thread1), &thattr, schtCreateFetchRspThread, &job); void *data = NULL; req.syncReq = true; req.pFetchRes = &data; code = schedulerFetchRows(job, &req); ASSERT_EQ(code, 0); SRetrieveTableRsp *pRsp = (SRetrieveTableRsp *)data; ASSERT_EQ(pRsp->completed, 1); ASSERT_EQ(pRsp->numOfRows, 10); taosMemoryFreeClear(data); data = NULL; code = schedulerFetchRows(job, &req); ASSERT_EQ(code, 0); ASSERT_TRUE(data == NULL); schReleaseJob(job); schedulerFreeJob(&job, 0); schtFreeQueryDag(&dag); schedulerDestroy(); } TEST(insertTest, normalCase) { void *mockPointer = (void *)0x1; char *clusterId = "cluster1"; char *dbname = "1.db1"; char *tablename = "table1"; SVgroupInfo vgInfo = {0}; SQueryPlan dag; uint64_t numOfRows = 0; SArray *qnodeList = taosArrayInit(1, sizeof(SEp)); SEp qnodeAddr = {0}; strcpy(qnodeAddr.fqdn, "qnode0.ep"); qnodeAddr.port = 6031; taosArrayPush(qnodeList, &qnodeAddr); int32_t code = schedulerInit(NULL); ASSERT_EQ(code, 0); schtBuildInsertDag(&dag); schtSetPlanToString(); schtSetAsyncSendMsgToServer(); TdThreadAttr thattr; taosThreadAttrInit(&thattr); TdThread thread1; taosThreadCreate(&(thread1), &thattr, schtSendRsp, &insertJobRefId); SExecResult res = {0}; SRequestConnInfo conn = {0}; conn.pTrans = mockPointer; SSchedulerReq req = {0}; req.pConn = &conn; req.pNodeList = qnodeList; req.pDag = &dag; req.sql = "insert into tb values(now,1)"; req.execFp = schtQueryCb; req.cbParam = NULL; code = schedulerExecJob(&req, &insertJobRefId); ASSERT_EQ(code, 0); ASSERT_EQ(res.numOfRows, 20); schedulerFreeJob(&insertJobRefId, 0); schedulerDestroy(); } TEST(multiThread, forceFree) { TdThreadAttr thattr; taosThreadAttrInit(&thattr); TdThread thread1, thread2, thread3; taosThreadCreate(&(thread1), &thattr, schtRunJobThread, NULL); taosThreadCreate(&(thread2), &thattr, schtFreeJobThread, NULL); taosThreadCreate(&(thread3), &thattr, schtFetchRspThread, NULL); while (true) { if (schtTestDeadLoop) { taosSsleep(1); } else { taosSsleep(schtTestMTRunSec); break; } } schtTestStop = true; taosSsleep(3); } int main(int argc, char** argv) { taosSeedRand(taosGetTimestampSec()); testing::InitGoogleTest(&argc, argv); return RUN_ALL_TESTS(); } #pragma GCC diagnostic pop