#include "qworker.h" #include #include "executor.h" #include "planner.h" #include "query.h" #include "qworkerInt.h" #include "qworkerMsg.h" #include "tmsg.h" #include "tname.h" #include "dataSinkMgt.h" SQWDebug gQWDebug = {0}; int32_t qwValidateStatus(QW_FPARAMS_DEF, int8_t oriStatus, int8_t newStatus) { int32_t code = 0; if (oriStatus == newStatus) { QW_ERR_JRET(TSDB_CODE_QRY_APP_ERROR); } switch (oriStatus) { case JOB_TASK_STATUS_NULL: if (newStatus != JOB_TASK_STATUS_EXECUTING && newStatus != JOB_TASK_STATUS_FAILED && newStatus != JOB_TASK_STATUS_NOT_START) { QW_ERR_JRET(TSDB_CODE_QRY_APP_ERROR); } break; case JOB_TASK_STATUS_NOT_START: if (newStatus != JOB_TASK_STATUS_CANCELLED) { QW_ERR_JRET(TSDB_CODE_QRY_APP_ERROR); } break; case JOB_TASK_STATUS_EXECUTING: if (newStatus != JOB_TASK_STATUS_PARTIAL_SUCCEED && newStatus != JOB_TASK_STATUS_SUCCEED && newStatus != JOB_TASK_STATUS_FAILED && newStatus != JOB_TASK_STATUS_CANCELLING && newStatus != JOB_TASK_STATUS_CANCELLED && newStatus != JOB_TASK_STATUS_DROPPING) { QW_ERR_JRET(TSDB_CODE_QRY_APP_ERROR); } break; case JOB_TASK_STATUS_PARTIAL_SUCCEED: if (newStatus != JOB_TASK_STATUS_EXECUTING && newStatus != JOB_TASK_STATUS_SUCCEED && newStatus != JOB_TASK_STATUS_CANCELLED) { QW_ERR_JRET(TSDB_CODE_QRY_APP_ERROR); } break; case JOB_TASK_STATUS_SUCCEED: if (newStatus != JOB_TASK_STATUS_CANCELLED && newStatus != JOB_TASK_STATUS_DROPPING) { QW_ERR_JRET(TSDB_CODE_QRY_APP_ERROR); } break; case JOB_TASK_STATUS_FAILED: case JOB_TASK_STATUS_CANCELLING: if (newStatus != JOB_TASK_STATUS_CANCELLED) { QW_ERR_JRET(TSDB_CODE_QRY_APP_ERROR); } break; case JOB_TASK_STATUS_CANCELLED: case JOB_TASK_STATUS_DROPPING: QW_ERR_JRET(TSDB_CODE_QRY_APP_ERROR); break; default: QW_TASK_ELOG("invalid task status:%d", oriStatus); return TSDB_CODE_QRY_APP_ERROR; } return TSDB_CODE_SUCCESS; _return: QW_TASK_ELOG("invalid task status update from %d to %d", oriStatus, newStatus); QW_RET(code); } int32_t qwSetTaskStatus(QW_FPARAMS_DEF, SQWTaskStatus *task, int8_t status) { int32_t code = 0; int8_t origStatus = 0; while (true) { origStatus = atomic_load_8(&task->status); QW_ERR_RET(qwValidateStatus(QW_FPARAMS(), origStatus, status)); if (origStatus != atomic_val_compare_exchange_8(&task->status, origStatus, status)) { continue; } QW_TASK_DLOG("task status updated from %d to %d", origStatus, status); break; } return TSDB_CODE_SUCCESS; } int32_t qwAddSchedulerImpl(QW_FPARAMS_DEF, int32_t rwType, SQWSchStatus **sch) { SQWSchStatus newSch = {0}; newSch.tasksHash = taosHashInit(mgmt->cfg.maxSchTaskNum, taosGetDefaultHashFunction(TSDB_DATA_TYPE_BINARY), false, HASH_NO_LOCK); if (NULL == newSch.tasksHash) { QW_SCH_ELOG("taosHashInit %d failed", mgmt->cfg.maxSchTaskNum); QW_ERR_RET(TSDB_CODE_QRY_OUT_OF_MEMORY); } QW_LOCK(QW_WRITE, &mgmt->schLock); int32_t code = taosHashPut(mgmt->schHash, &sId, sizeof(sId), &newSch, sizeof(newSch)); if (0 != code) { if (!HASH_NODE_EXIST(code)) { QW_UNLOCK(QW_WRITE, &mgmt->schLock); QW_SCH_ELOG("taosHashPut new sch to scheduleHash failed, errno:%d", errno); taosHashCleanup(newSch.tasksHash); QW_ERR_RET(TSDB_CODE_QRY_OUT_OF_MEMORY); } taosHashCleanup(newSch.tasksHash); } QW_UNLOCK(QW_WRITE, &mgmt->schLock); return TSDB_CODE_SUCCESS; } int32_t qwAcquireSchedulerImpl(QW_FPARAMS_DEF, int32_t rwType, SQWSchStatus **sch, int32_t nOpt) { while (true) { QW_LOCK(rwType, &mgmt->schLock); *sch = taosHashGet(mgmt->schHash, &sId, sizeof(sId)); if (NULL == (*sch)) { QW_UNLOCK(rwType, &mgmt->schLock); if (QW_NOT_EXIST_ADD == nOpt) { QW_ERR_RET(qwAddSchedulerImpl(QW_FPARAMS(), rwType, sch)); nOpt = QW_NOT_EXIST_RET_ERR; continue; } else if (QW_NOT_EXIST_RET_ERR == nOpt) { QW_RET(TSDB_CODE_QRY_SCH_NOT_EXIST); } else { QW_TASK_ELOG("unknown notExistOpt:%d", nOpt); QW_ERR_RET(TSDB_CODE_QRY_APP_ERROR); } } break; } return TSDB_CODE_SUCCESS; } int32_t qwAcquireAddScheduler(QW_FPARAMS_DEF, int32_t rwType, SQWSchStatus **sch) { return qwAcquireSchedulerImpl(QW_FPARAMS(), rwType, sch, QW_NOT_EXIST_ADD); } int32_t qwAcquireScheduler(QW_FPARAMS_DEF, int32_t rwType, SQWSchStatus **sch) { return qwAcquireSchedulerImpl(QW_FPARAMS(), rwType, sch, QW_NOT_EXIST_RET_ERR); } void qwReleaseScheduler(int32_t rwType, SQWorkerMgmt *mgmt) { QW_UNLOCK(rwType, &mgmt->schLock); } int32_t qwAcquireTaskStatus(QW_FPARAMS_DEF, int32_t rwType, SQWSchStatus *sch, SQWTaskStatus **task) { char id[sizeof(qId) + sizeof(tId)] = {0}; QW_SET_QTID(id, qId, tId); QW_LOCK(rwType, &sch->tasksLock); *task = taosHashGet(sch->tasksHash, id, sizeof(id)); if (NULL == (*task)) { QW_UNLOCK(rwType, &sch->tasksLock); QW_ERR_RET(TSDB_CODE_QRY_TASK_NOT_EXIST); } return TSDB_CODE_SUCCESS; } int32_t qwAddTaskStatusImpl(QW_FPARAMS_DEF, SQWSchStatus *sch, int32_t rwType, int32_t status, SQWTaskStatus **task) { int32_t code = 0; char id[sizeof(qId) + sizeof(tId)] = {0}; QW_SET_QTID(id, qId, tId); SQWTaskStatus ntask = {0}; ntask.status = status; QW_LOCK(QW_WRITE, &sch->tasksLock); code = taosHashPut(sch->tasksHash, id, sizeof(id), &ntask, sizeof(ntask)); if (0 != code) { QW_UNLOCK(QW_WRITE, &sch->tasksLock); if (HASH_NODE_EXIST(code)) { if (rwType && task) { QW_RET(qwAcquireTaskStatus(QW_FPARAMS(), rwType, sch, task)); } else { QW_TASK_ELOG("task status already exist, id:%s", id); QW_ERR_RET(TSDB_CODE_QRY_TASK_ALREADY_EXIST); } } else { QW_TASK_ELOG("taosHashPut to tasksHash failed, code:%x", code); QW_ERR_RET(TSDB_CODE_QRY_OUT_OF_MEMORY); } } QW_UNLOCK(QW_WRITE, &sch->tasksLock); if (rwType && task) { QW_ERR_RET(qwAcquireTaskStatus(QW_FPARAMS(), rwType, sch, task)); } return TSDB_CODE_SUCCESS; } int32_t qwAddTaskStatus(QW_FPARAMS_DEF, int32_t status) { SQWSchStatus *tsch = NULL; int32_t code = 0; QW_ERR_RET(qwAcquireAddScheduler(QW_FPARAMS(), QW_READ, &tsch)); QW_ERR_JRET(qwAddTaskStatusImpl(QW_FPARAMS(), tsch, 0, status, NULL)); _return: qwReleaseScheduler(QW_READ, mgmt); QW_RET(code); } int32_t qwAddAcquireTaskStatus(QW_FPARAMS_DEF, int32_t rwType, SQWSchStatus *sch, int32_t status, SQWTaskStatus **task) { return qwAddTaskStatusImpl(QW_FPARAMS(), sch, rwType, status, task); } void qwReleaseTaskStatus(int32_t rwType, SQWSchStatus *sch) { QW_UNLOCK(rwType, &sch->tasksLock); } int32_t qwAcquireTaskCtx(QW_FPARAMS_DEF, SQWTaskCtx **ctx) { char id[sizeof(qId) + sizeof(tId)] = {0}; QW_SET_QTID(id, qId, tId); //QW_LOCK(rwType, &mgmt->ctxLock); *ctx = taosHashAcquire(mgmt->ctxHash, id, sizeof(id)); if (NULL == (*ctx)) { //QW_UNLOCK(rwType, &mgmt->ctxLock); QW_TASK_DLOG_E("task ctx not exist, may be dropped"); QW_ERR_RET(TSDB_CODE_QRY_TASK_CTX_NOT_EXIST); } return TSDB_CODE_SUCCESS; } int32_t qwGetTaskCtx(QW_FPARAMS_DEF, SQWTaskCtx **ctx) { char id[sizeof(qId) + sizeof(tId)] = {0}; QW_SET_QTID(id, qId, tId); *ctx = taosHashGet(mgmt->ctxHash, id, sizeof(id)); if (NULL == (*ctx)) { QW_TASK_DLOG_E("task ctx not exist, may be dropped"); QW_ERR_RET(TSDB_CODE_QRY_TASK_CTX_NOT_EXIST); } return TSDB_CODE_SUCCESS; } int32_t qwAddTaskCtxImpl(QW_FPARAMS_DEF, bool acquire, int32_t status, SQWTaskCtx **ctx) { char id[sizeof(qId) + sizeof(tId)] = {0}; QW_SET_QTID(id, qId, tId); SQWTaskCtx nctx = {0}; //QW_LOCK(QW_WRITE, &mgmt->ctxLock); int32_t code = taosHashPut(mgmt->ctxHash, id, sizeof(id), &nctx, sizeof(SQWTaskCtx)); if (0 != code) { //QW_UNLOCK(QW_WRITE, &mgmt->ctxLock); if (HASH_NODE_EXIST(code)) { if (acquire && ctx) { QW_RET(qwAcquireTaskCtx(QW_FPARAMS(), ctx)); } else if (ctx) { QW_RET(qwGetTaskCtx(QW_FPARAMS(), ctx)); } else { QW_TASK_ELOG("task ctx already exist, id:%s", id); QW_ERR_RET(TSDB_CODE_QRY_TASK_ALREADY_EXIST); } } else { QW_TASK_ELOG("taosHashPut to ctxHash failed, code:%x", code); QW_ERR_RET(TSDB_CODE_QRY_OUT_OF_MEMORY); } } //QW_UNLOCK(QW_WRITE, &mgmt->ctxLock); if (acquire && ctx) { QW_RET(qwAcquireTaskCtx(QW_FPARAMS(), ctx)); } else if (ctx) { QW_RET(qwGetTaskCtx(QW_FPARAMS(), ctx)); } return TSDB_CODE_SUCCESS; } int32_t qwAddTaskCtx(QW_FPARAMS_DEF) { QW_RET(qwAddTaskCtxImpl(QW_FPARAMS(), false, 0, NULL)); } int32_t qwAddAcquireTaskCtx(QW_FPARAMS_DEF, SQWTaskCtx **ctx) { return qwAddTaskCtxImpl(QW_FPARAMS(), true, 0, ctx); } int32_t qwAddGetTaskCtx(QW_FPARAMS_DEF, SQWTaskCtx **ctx) { return qwAddTaskCtxImpl(QW_FPARAMS(), false, 0, ctx); } void qwReleaseTaskCtx(SQWorkerMgmt *mgmt, void *ctx) { //QW_UNLOCK(rwType, &mgmt->ctxLock); taosHashRelease(mgmt->ctxHash, ctx); } void qwFreeTaskHandle(QW_FPARAMS_DEF, qTaskInfo_t *taskHandle) { // RC WARNING qTaskInfo_t otaskHandle = atomic_load_ptr(taskHandle); if (otaskHandle && atomic_val_compare_exchange_ptr(taskHandle, otaskHandle, NULL)) { qDestroyTask(otaskHandle); } } int32_t qwKillTaskHandle(QW_FPARAMS_DEF, SQWTaskCtx *ctx) { int32_t code = 0; // RC WARNING qTaskInfo_t taskHandle = atomic_load_ptr(&ctx->taskHandle); if (taskHandle && atomic_val_compare_exchange_ptr(&ctx->taskHandle, taskHandle, NULL)) { code = qAsyncKillTask(taskHandle); atomic_store_ptr(&ctx->taskHandle, taskHandle); } QW_RET(code); } void qwFreeTask(QW_FPARAMS_DEF, SQWTaskCtx *ctx) { qwFreeTaskHandle(QW_FPARAMS(), &ctx->taskHandle); if (ctx->sinkHandle) { dsDestroyDataSinker(ctx->sinkHandle); ctx->sinkHandle = NULL; } } // Note: NEED CTX HASH LOCKED BEFORE ENTRANCE int32_t qwDropTaskCtx(QW_FPARAMS_DEF, int32_t rwType) { char id[sizeof(qId) + sizeof(tId)] = {0}; QW_SET_QTID(id, qId, tId); SQWTaskCtx octx; SQWTaskCtx *ctx = taosHashGet(mgmt->ctxHash, id, sizeof(id)); if (NULL == ctx) { QW_ERR_RET(TSDB_CODE_QRY_TASK_CTX_NOT_EXIST); } octx = *ctx; atomic_store_ptr(&ctx->taskHandle, NULL); atomic_store_ptr(&ctx->sinkHandle, NULL); QW_SET_EVENT_PROCESSED(ctx, QW_EVENT_DROP); if (rwType) { QW_UNLOCK(rwType, &ctx->lock); } if (taosHashRemove(mgmt->ctxHash, id, sizeof(id))) { QW_TASK_ELOG_E("taosHashRemove from ctx hash failed"); QW_ERR_RET(TSDB_CODE_QRY_TASK_CTX_NOT_EXIST); } if (octx.taskHandle) { qDestroyTask(octx.taskHandle); } if (octx.sinkHandle) { dsDestroyDataSinker(octx.sinkHandle); } QW_TASK_DLOG_E("task ctx dropped"); return TSDB_CODE_SUCCESS; } int32_t qwDropTaskStatus(QW_FPARAMS_DEF) { SQWSchStatus *sch = NULL; SQWTaskStatus *task = NULL; int32_t code = 0; char id[sizeof(qId) + sizeof(tId)] = {0}; QW_SET_QTID(id, qId, tId); if (qwAcquireScheduler(QW_FPARAMS(), QW_WRITE, &sch)) { QW_TASK_WLOG_E("scheduler does not exist"); return TSDB_CODE_SUCCESS; } if (qwAcquireTaskStatus(QW_FPARAMS(), QW_WRITE, sch, &task)) { qwReleaseScheduler(QW_WRITE, mgmt); QW_TASK_WLOG_E("task does not exist"); return TSDB_CODE_SUCCESS; } if (taosHashRemove(sch->tasksHash, id, sizeof(id))) { QW_TASK_ELOG_E("taosHashRemove task from hash failed"); QW_ERR_JRET(TSDB_CODE_QRY_APP_ERROR); } QW_TASK_DLOG_E("task status dropped"); _return: qwReleaseTaskStatus(QW_WRITE, sch); qwReleaseScheduler(QW_WRITE, mgmt); QW_RET(code); } int32_t qwUpdateTaskStatus(QW_FPARAMS_DEF, int8_t status) { SQWSchStatus *sch = NULL; SQWTaskStatus *task = NULL; int32_t code = 0; QW_ERR_RET(qwAcquireScheduler(QW_FPARAMS(), QW_READ, &sch)); QW_ERR_JRET(qwAcquireTaskStatus(QW_FPARAMS(), QW_READ, sch, &task)); QW_ERR_JRET(qwSetTaskStatus(QW_FPARAMS(), task, status)); _return: qwReleaseTaskStatus(QW_READ, sch); qwReleaseScheduler(QW_READ, mgmt); QW_RET(code); } int32_t qwExecTask(QW_FPARAMS_DEF, SQWTaskCtx *ctx) { int32_t code = 0; bool qcontinue = true; SSDataBlock* pRes = NULL; uint64_t useconds = 0; int32_t i = 0; int32_t execNum = 0; qTaskInfo_t *taskHandle = &ctx->taskHandle; DataSinkHandle sinkHandle = ctx->sinkHandle; while (true) { QW_TASK_DLOG("start to execTask in executor, loopIdx:%d", i++); code = qExecTask(*taskHandle, &pRes, &useconds); if (code) { QW_TASK_ELOG("qExecTask failed, code:%x", code); QW_ERR_JRET(code); } ++execNum; if (NULL == pRes) { QW_TASK_DLOG("task query done, useconds:%"PRIu64, useconds); dsEndPut(sinkHandle, useconds); if (TASK_TYPE_TEMP == ctx->taskType) { qwFreeTaskHandle(QW_FPARAMS(), taskHandle); } break; } SInputData inputData = {.pData = pRes, .pTableRetrieveTsMap = NULL}; code = dsPutDataBlock(sinkHandle, &inputData, &qcontinue); if (code) { QW_TASK_ELOG("dsPutDataBlock failed, code:%x", code); QW_ERR_JRET(code); } QW_TASK_DLOG("data put into sink, rows:%d, continueExecTask:%d", pRes->info.rows, qcontinue); if (!qcontinue) { break; } if (QW_IS_EVENT_RECEIVED(ctx, QW_EVENT_READY) && execNum >= QW_DEFAULT_SHORT_RUN_TIMES) { break; } if (QW_IS_EVENT_RECEIVED(ctx, QW_EVENT_FETCH)) { break; } } _return: QW_RET(code); } int32_t qwGetResFromSink(QW_FPARAMS_DEF, SQWTaskCtx *ctx, int32_t *dataLen, void **rspMsg, SOutputData *pOutput) { int32_t len = 0; SRetrieveTableRsp *rsp = NULL; bool queryEnd = false; int32_t code = 0; if (ctx->emptyRes) { QW_TASK_DLOG("query empty result, query end, phase:%d", ctx->phase); QW_ERR_RET(qwUpdateTaskStatus(QW_FPARAMS(), JOB_TASK_STATUS_SUCCEED)); QW_ERR_RET(qwMallocFetchRsp(len, &rsp)); *rspMsg = rsp; *dataLen = 0; pOutput->queryEnd = true; return TSDB_CODE_SUCCESS; } dsGetDataLength(ctx->sinkHandle, &len, &queryEnd); if (len < 0) { QW_TASK_ELOG("invalid length from dsGetDataLength, length:%d", len); QW_ERR_RET(TSDB_CODE_QRY_INVALID_INPUT); } if (len == 0) { if (queryEnd) { code = dsGetDataBlock(ctx->sinkHandle, pOutput); if (code) { QW_TASK_ELOG("dsGetDataBlock failed, code:%x", code); QW_ERR_RET(code); } QW_TASK_DLOG("no data in sink and query end, phase:%d", ctx->phase); QW_ERR_RET(qwUpdateTaskStatus(QW_FPARAMS(), JOB_TASK_STATUS_SUCCEED)); QW_ERR_RET(qwMallocFetchRsp(len, &rsp)); *rspMsg = rsp; *dataLen = 0; return TSDB_CODE_SUCCESS; } pOutput->bufStatus = DS_BUF_EMPTY; QW_TASK_DLOG("no res data in sink, need response later, queryEnd:%d", queryEnd); return TSDB_CODE_SUCCESS; } // Got data from sink *dataLen = len; QW_TASK_DLOG("task got data in sink, dataLength:%d", len); QW_ERR_RET(qwMallocFetchRsp(len, &rsp)); *rspMsg = rsp; pOutput->pData = rsp->data; code = dsGetDataBlock(ctx->sinkHandle, pOutput); if (code) { QW_TASK_ELOG("dsGetDataBlock failed, code:%x", code); QW_ERR_RET(code); } queryEnd = pOutput->queryEnd; pOutput->queryEnd = false; if (DS_BUF_EMPTY == pOutput->bufStatus && queryEnd) { pOutput->queryEnd = true; QW_SCH_TASK_DLOG("task all fetched, status:%d", JOB_TASK_STATUS_SUCCEED); QW_ERR_RET(qwUpdateTaskStatus(QW_FPARAMS(), JOB_TASK_STATUS_SUCCEED)); } return TSDB_CODE_SUCCESS; } int32_t qwHandlePrePhaseEvents(QW_FPARAMS_DEF, int8_t phase, SQWPhaseInput *input, SQWPhaseOutput *output) { int32_t code = 0; int8_t status = 0; SQWTaskCtx *ctx = NULL; bool locked = false; void *dropConnection = NULL; void *cancelConnection = NULL; QW_SCH_TASK_DLOG("start to handle event at phase %d", phase); output->needStop = false; if (QW_PHASE_PRE_QUERY == phase) { QW_ERR_JRET(qwAddAcquireTaskCtx(QW_FPARAMS(), &ctx)); } else { QW_ERR_JRET(qwAcquireTaskCtx(QW_FPARAMS(), &ctx)); } QW_LOCK(QW_WRITE, &ctx->lock); locked = true; switch (phase) { case QW_PHASE_PRE_QUERY: { atomic_store_8(&ctx->phase, phase); if (QW_IS_EVENT_PROCESSED(ctx, QW_EVENT_CANCEL) || QW_IS_EVENT_PROCESSED(ctx, QW_EVENT_DROP)) { QW_TASK_ELOG("task already cancelled/dropped at wrong phase, phase:%d", phase); output->needStop = true; output->rspCode = TSDB_CODE_QRY_TASK_STATUS_ERROR; break; } if (QW_IS_EVENT_RECEIVED(ctx, QW_EVENT_DROP)) { QW_ERR_JRET(qwDropTaskStatus(QW_FPARAMS())); QW_ERR_JRET(qwDropTaskCtx(QW_FPARAMS(), QW_WRITE)); output->needStop = true; output->rspCode = TSDB_CODE_QRY_TASK_DROPPED; QW_SET_RSP_CODE(ctx, output->rspCode); dropConnection = ctx->dropConnection; // Note: ctx freed, no need to unlock it locked = false; break; } else if (QW_IS_EVENT_RECEIVED(ctx, QW_EVENT_CANCEL)) { QW_ERR_JRET(qwAddTaskStatus(QW_FPARAMS(), JOB_TASK_STATUS_CANCELLED)); QW_SET_EVENT_PROCESSED(ctx, QW_EVENT_CANCEL); output->needStop = true; output->rspCode = TSDB_CODE_QRY_TASK_CANCELLED; QW_SET_RSP_CODE(ctx, output->rspCode); cancelConnection = ctx->cancelConnection; break; } if (ctx->rspCode) { QW_TASK_ELOG("task already failed at wrong phase, code:%x, phase:%d", ctx->rspCode, phase); output->needStop = true; output->rspCode = ctx->rspCode; QW_ERR_JRET(output->rspCode); } if (!output->needStop) { QW_ERR_JRET(qwAddTaskStatus(QW_FPARAMS(), JOB_TASK_STATUS_EXECUTING)); } break; } case QW_PHASE_PRE_FETCH: { if (QW_IS_EVENT_PROCESSED(ctx, QW_EVENT_DROP)) { QW_TASK_WLOG("task already dropped, phase:%d", phase); output->needStop = true; output->rspCode = TSDB_CODE_QRY_TASK_DROPPED; QW_ERR_JRET(TSDB_CODE_QRY_TASK_DROPPED); } if (QW_IS_EVENT_PROCESSED(ctx, QW_EVENT_CANCEL)) { QW_TASK_WLOG("task already cancelled, phase:%d", phase); output->needStop = true; output->rspCode = TSDB_CODE_QRY_TASK_CANCELLED; QW_ERR_JRET(TSDB_CODE_QRY_TASK_CANCELLED); } if (QW_IS_EVENT_RECEIVED(ctx, QW_EVENT_DROP)) { QW_TASK_ELOG("drop event at wrong phase, phase:%d", phase); output->needStop = true; output->rspCode = TSDB_CODE_QRY_TASK_STATUS_ERROR; QW_ERR_JRET(TSDB_CODE_QRY_TASK_CANCELLED); } else if (QW_IS_EVENT_RECEIVED(ctx, QW_EVENT_CANCEL)) { QW_TASK_ELOG("cancel event at wrong phase, phase:%d", phase); output->needStop = true; output->rspCode = TSDB_CODE_QRY_TASK_STATUS_ERROR; QW_ERR_JRET(TSDB_CODE_QRY_TASK_CANCELLED); } if (ctx->rspCode) { QW_TASK_ELOG("task already failed, code:%x, phase:%d", ctx->rspCode, phase); output->needStop = true; output->rspCode = ctx->rspCode; QW_ERR_JRET(output->rspCode); } if (QW_IS_EVENT_RECEIVED(ctx, QW_EVENT_FETCH)) { QW_TASK_WLOG("last fetch not finished, phase:%d", phase); output->needStop = true; output->rspCode = TSDB_CODE_QRY_DUPLICATTED_OPERATION; QW_ERR_JRET(TSDB_CODE_QRY_DUPLICATTED_OPERATION); } if (!QW_IS_EVENT_PROCESSED(ctx, QW_EVENT_READY)) { QW_TASK_ELOG("query rsp are not ready, phase:%d", phase); output->needStop = true; output->rspCode = TSDB_CODE_QRY_TASK_MSG_ERROR; QW_ERR_JRET(TSDB_CODE_QRY_TASK_MSG_ERROR); } break; } case QW_PHASE_PRE_CQUERY: { atomic_store_8(&ctx->phase, phase); if (QW_IS_EVENT_PROCESSED(ctx, QW_EVENT_CANCEL)) { QW_TASK_WLOG("task already cancelled, phase:%d", phase); output->needStop = true; output->rspCode = TSDB_CODE_QRY_TASK_CANCELLED; QW_ERR_JRET(TSDB_CODE_QRY_TASK_CANCELLED); } if (QW_IS_EVENT_PROCESSED(ctx, QW_EVENT_DROP)) { QW_TASK_WLOG("task already dropped, phase:%d", phase); output->needStop = true; output->rspCode = TSDB_CODE_QRY_TASK_DROPPED; QW_ERR_JRET(TSDB_CODE_QRY_TASK_DROPPED); } if (QW_IS_EVENT_RECEIVED(ctx, QW_EVENT_DROP)) { QW_ERR_JRET(qwDropTaskStatus(QW_FPARAMS())); QW_ERR_JRET(qwDropTaskCtx(QW_FPARAMS(), QW_WRITE)); output->rspCode = TSDB_CODE_QRY_TASK_DROPPED; output->needStop = true; QW_SET_RSP_CODE(ctx, output->rspCode); dropConnection = ctx->dropConnection; // Note: ctx freed, no need to unlock it locked = false; QW_ERR_JRET(output->rspCode); } else if (QW_IS_EVENT_RECEIVED(ctx, QW_EVENT_CANCEL)) { QW_ERR_JRET(qwUpdateTaskStatus(QW_FPARAMS(), JOB_TASK_STATUS_CANCELLED)); qwFreeTask(QW_FPARAMS(), ctx); QW_SET_EVENT_PROCESSED(ctx, QW_EVENT_CANCEL); output->needStop = true; output->rspCode = TSDB_CODE_QRY_TASK_CANCELLED; QW_SET_RSP_CODE(ctx, output->rspCode); cancelConnection = ctx->cancelConnection; QW_ERR_JRET(output->rspCode); } if (ctx->rspCode) { QW_TASK_ELOG("task already failed, code:%x, phase:%d", ctx->rspCode, phase); output->needStop = true; output->rspCode = ctx->rspCode; QW_ERR_JRET(output->rspCode); } break; } } _return: if (ctx) { if (output->rspCode) { QW_UPDATE_RSP_CODE(ctx, output->rspCode); } if (locked) { QW_UNLOCK(QW_WRITE, &ctx->lock); } qwReleaseTaskCtx(mgmt, ctx); } if (code) { output->needStop = true; if (TSDB_CODE_SUCCESS == output->rspCode) { output->rspCode = code; } } if (dropConnection) { qwBuildAndSendDropRsp(dropConnection, output->rspCode); QW_TASK_DLOG("drop msg rsped, code:%x", output->rspCode); } if (cancelConnection) { qwBuildAndSendCancelRsp(cancelConnection, output->rspCode); QW_TASK_DLOG("cancel msg rsped, code:%x", output->rspCode); } QW_SCH_TASK_DLOG("end to handle event at phase %d", phase); QW_RET(code); } int32_t qwHandlePostPhaseEvents(QW_FPARAMS_DEF, int8_t phase, SQWPhaseInput *input, SQWPhaseOutput *output) { int32_t code = 0; int8_t status = 0; SQWTaskCtx *ctx = NULL; bool locked = false; void *readyConnection = NULL; void *dropConnection = NULL; void *cancelConnection = NULL; QW_SCH_TASK_DLOG("start to handle event at phase %d", phase); output->needStop = false; QW_ERR_JRET(qwAcquireTaskCtx(QW_FPARAMS(), &ctx)); QW_LOCK(QW_WRITE, &ctx->lock); locked = true; if (QW_IS_EVENT_PROCESSED(ctx, QW_EVENT_DROP)) { QW_TASK_WLOG("task already dropped, phase:%d", phase); output->needStop = true; output->rspCode = TSDB_CODE_QRY_TASK_DROPPED; QW_ERR_JRET(TSDB_CODE_QRY_TASK_DROPPED); } if (QW_IS_EVENT_PROCESSED(ctx, QW_EVENT_CANCEL)) { QW_TASK_WLOG("task already cancelled, phase:%d", phase); output->needStop = true; output->rspCode = TSDB_CODE_QRY_TASK_CANCELLED; QW_ERR_JRET(TSDB_CODE_QRY_TASK_CANCELLED); } if (input->code) { output->rspCode = input->code; } if (QW_PHASE_POST_QUERY == phase) { if (NULL == ctx->taskHandle && NULL == ctx->sinkHandle) { ctx->emptyRes = true; } if (QW_IS_EVENT_RECEIVED(ctx, QW_EVENT_READY)) { readyConnection = ctx->readyConnection; QW_SET_EVENT_PROCESSED(ctx, QW_EVENT_READY); } } if (QW_IS_EVENT_RECEIVED(ctx, QW_EVENT_DROP)) { QW_ERR_JRET(qwDropTaskStatus(QW_FPARAMS())); QW_ERR_JRET(qwDropTaskCtx(QW_FPARAMS(), QW_WRITE)); output->rspCode = TSDB_CODE_QRY_TASK_DROPPED; output->needStop = true; QW_SET_RSP_CODE(ctx, output->rspCode); dropConnection = ctx->dropConnection; // Note: ctx freed, no need to unlock it locked = false; QW_ERR_JRET(output->rspCode); } else if (QW_IS_EVENT_RECEIVED(ctx, QW_EVENT_CANCEL)) { QW_ERR_JRET(qwUpdateTaskStatus(QW_FPARAMS(), JOB_TASK_STATUS_CANCELLED)); qwFreeTask(QW_FPARAMS(), ctx); QW_SET_EVENT_PROCESSED(ctx, QW_EVENT_CANCEL); output->needStop = true; output->rspCode = TSDB_CODE_QRY_TASK_CANCELLED; QW_SET_RSP_CODE(ctx, output->rspCode); cancelConnection = ctx->cancelConnection; QW_ERR_JRET(output->rspCode); } if (ctx->rspCode) { QW_TASK_ELOG("task failed, code:%x, phase:%d", ctx->rspCode, phase); output->needStop = true; output->rspCode = ctx->rspCode; QW_ERR_JRET(output->rspCode); } if (QW_PHASE_POST_QUERY == phase && (!output->needStop)) { QW_ERR_JRET(qwUpdateTaskStatus(QW_FPARAMS(), input->taskStatus)); } _return: if (ctx) { if (output->rspCode) { QW_UPDATE_RSP_CODE(ctx, output->rspCode); } if (QW_PHASE_POST_FETCH != phase) { atomic_store_8(&ctx->phase, phase); } if (locked) { QW_UNLOCK(QW_WRITE, &ctx->lock); } qwReleaseTaskCtx(mgmt, ctx); } if (code) { output->needStop = true; if (TSDB_CODE_SUCCESS == output->rspCode) { output->rspCode = code; } } if (readyConnection) { qwBuildAndSendReadyRsp(readyConnection, output->rspCode); QW_TASK_DLOG("ready msg rsped, code:%x", output->rspCode); } if (dropConnection) { qwBuildAndSendDropRsp(dropConnection, output->rspCode); QW_TASK_DLOG("drop msg rsped, code:%x", output->rspCode); } if (cancelConnection) { qwBuildAndSendCancelRsp(cancelConnection, output->rspCode); QW_TASK_DLOG("cancel msg rsped, code:%x", output->rspCode); } QW_SCH_TASK_DLOG("end to handle event at phase %d", phase); QW_RET(code); } int32_t qwProcessQuery(QW_FPARAMS_DEF, SQWMsg *qwMsg, int8_t taskType) { int32_t code = 0; bool queryRsped = false; bool needStop = false; struct SSubplan *plan = NULL; int32_t rspCode = 0; SQWPhaseInput input = {0}; SQWPhaseOutput output = {0}; qTaskInfo_t pTaskInfo = NULL; DataSinkHandle sinkHandle = NULL; SQWTaskCtx *ctx = NULL; QW_ERR_JRET(qwHandlePrePhaseEvents(QW_FPARAMS(), QW_PHASE_PRE_QUERY, &input, &output)); needStop = output.needStop; code = output.rspCode; if (needStop) { QW_TASK_DLOG("task need stop, phase:%d", QW_PHASE_PRE_QUERY); QW_ERR_JRET(code); } QW_ERR_JRET(qwGetTaskCtx(QW_FPARAMS(), &ctx)); atomic_store_8(&ctx->taskType, taskType); code = qStringToSubplan(qwMsg->msg, &plan); if (TSDB_CODE_SUCCESS != code) { QW_TASK_ELOG("task string to subplan failed, code:%s", tstrerror(code)); QW_ERR_JRET(code); } code = qCreateExecTask(qwMsg->node, 0, (struct SSubplan *)plan, &pTaskInfo, &sinkHandle); if (code) { QW_TASK_ELOG("qCreateExecTask failed, code:%s", tstrerror(code)); QW_ERR_JRET(code); } if (NULL == sinkHandle || NULL == pTaskInfo) { QW_TASK_ELOG("create task result error, taskHandle:%p, sinkHandle:%p", pTaskInfo, sinkHandle); QW_ERR_JRET(TSDB_CODE_QRY_APP_ERROR); } //TODO OPTIMIZE EMTYP RESULT QUERY RSP TO AVOID FURTHER FETCH QW_ERR_JRET(qwBuildAndSendQueryRsp(qwMsg->connection, code)); QW_TASK_DLOG("query msg rsped, code:%d", code); queryRsped = true; atomic_store_ptr(&ctx->taskHandle, pTaskInfo); atomic_store_ptr(&ctx->sinkHandle, sinkHandle); if (pTaskInfo && sinkHandle) { QW_ERR_JRET(qwExecTask(QW_FPARAMS(), ctx)); } _return: if (code) { rspCode = code; } if (!queryRsped) { qwBuildAndSendQueryRsp(qwMsg->connection, rspCode); QW_TASK_DLOG("query msg rsped, code:%x", rspCode); } input.code = rspCode; input.taskStatus = rspCode ? JOB_TASK_STATUS_FAILED : JOB_TASK_STATUS_PARTIAL_SUCCEED; QW_ERR_RET(qwHandlePostPhaseEvents(QW_FPARAMS(), QW_PHASE_POST_QUERY, &input, &output)); QW_RET(rspCode); } int32_t qwProcessReady(QW_FPARAMS_DEF, SQWMsg *qwMsg) { int32_t code = 0; SQWTaskCtx *ctx = NULL; int8_t phase = 0; bool needRsp = false; int32_t rspCode = 0; QW_ERR_JRET(qwAcquireTaskCtx(QW_FPARAMS(), &ctx)); QW_LOCK(QW_WRITE, &ctx->lock); if (QW_IS_EVENT_PROCESSED(ctx, QW_EVENT_CANCEL) || QW_IS_EVENT_PROCESSED(ctx, QW_EVENT_DROP) || QW_IS_EVENT_RECEIVED(ctx, QW_EVENT_CANCEL) || QW_IS_EVENT_RECEIVED(ctx, QW_EVENT_DROP)) { QW_TASK_WLOG("task already cancelled/dropped, phase:%d", phase); QW_ERR_JRET(TSDB_CODE_QRY_TASK_CANCELLED); } phase = QW_GET_PHASE(ctx); if (phase == QW_PHASE_PRE_QUERY) { QW_SET_EVENT_RECEIVED(ctx, QW_EVENT_READY); ctx->readyConnection = qwMsg->connection; QW_TASK_DLOG("ready msg not rsped, phase:%d", phase); } else if (phase == QW_PHASE_POST_QUERY) { QW_SET_EVENT_PROCESSED(ctx, QW_EVENT_READY); needRsp = true; rspCode = ctx->rspCode; } else { QW_TASK_ELOG("invalid phase when got ready msg, phase:%d", phase); QW_SET_EVENT_PROCESSED(ctx, QW_EVENT_READY); needRsp = true; rspCode = TSDB_CODE_QRY_TASK_STATUS_ERROR; QW_ERR_JRET(TSDB_CODE_QRY_TASK_STATUS_ERROR); } _return: if (code && ctx) { QW_UPDATE_RSP_CODE(ctx, code); } if (ctx) { QW_UNLOCK(QW_WRITE, &ctx->lock); qwReleaseTaskCtx(mgmt, ctx); } if (needRsp) { qwBuildAndSendReadyRsp(qwMsg->connection, rspCode); QW_TASK_DLOG("ready msg rsped, code:%x", rspCode); } QW_RET(code); } int32_t qwProcessCQuery(QW_FPARAMS_DEF, SQWMsg *qwMsg) { SQWTaskCtx *ctx = NULL; int32_t code = 0; bool queryRsped = false; bool needStop = false; struct SSubplan *plan = NULL; SQWPhaseInput input = {0}; SQWPhaseOutput output = {0}; void *rsp = NULL; int32_t dataLen = 0; do { QW_ERR_JRET(qwHandlePrePhaseEvents(QW_FPARAMS(), QW_PHASE_PRE_CQUERY, &input, &output)); needStop = output.needStop; code = output.rspCode; if (needStop) { QW_TASK_DLOG("task need stop, phase:%d", QW_PHASE_PRE_CQUERY); QW_ERR_JRET(code); } QW_ERR_JRET(qwGetTaskCtx(QW_FPARAMS(), &ctx)); atomic_store_8(&ctx->queryInQueue, 0); atomic_store_8(&ctx->queryContinue, 0); DataSinkHandle sinkHandle = ctx->sinkHandle; QW_ERR_JRET(qwExecTask(QW_FPARAMS(), ctx)); if (QW_IS_EVENT_RECEIVED(ctx, QW_EVENT_FETCH)) { SOutputData sOutput = {0}; QW_ERR_JRET(qwGetResFromSink(QW_FPARAMS(), ctx, &dataLen, &rsp, &sOutput)); if ((!sOutput.queryEnd) && (DS_BUF_LOW == sOutput.bufStatus || DS_BUF_EMPTY == sOutput.bufStatus)) { QW_TASK_DLOG("task not end, need to continue, bufStatus:%d", sOutput.bufStatus); // RC WARNING atomic_store_8(&ctx->queryContinue, 1); } if (sOutput.queryEnd) { needStop = true; } if (rsp) { qwBuildFetchRsp(rsp, &sOutput, dataLen); QW_SET_EVENT_PROCESSED(ctx, QW_EVENT_FETCH); qwBuildAndSendFetchRsp(qwMsg->connection, rsp, dataLen, code); QW_TASK_DLOG("fetch msg rsped, code:%x, dataLen:%d", code, dataLen); } else { atomic_store_8(&ctx->queryContinue, 1); } } _return: if (NULL == ctx) { break; } if (code && QW_IS_EVENT_RECEIVED(ctx, QW_EVENT_FETCH)) { QW_SET_EVENT_PROCESSED(ctx, QW_EVENT_FETCH); qwFreeFetchRsp(rsp); rsp = NULL; qwBuildAndSendFetchRsp(qwMsg->connection, rsp, 0, code); QW_TASK_DLOG("fetch msg rsped, code:%x, dataLen:%d", code, 0); } QW_LOCK(QW_WRITE, &ctx->lock); if (needStop || code || 0 == atomic_load_8(&ctx->queryContinue)) { atomic_store_8(&ctx->phase, 0); QW_UNLOCK(QW_WRITE,&ctx->lock); break; } QW_UNLOCK(QW_WRITE,&ctx->lock); } while (true); input.code = code; qwHandlePostPhaseEvents(QW_FPARAMS(), QW_PHASE_POST_CQUERY, &input, &output); QW_RET(code); } int32_t qwProcessFetch(QW_FPARAMS_DEF, SQWMsg *qwMsg) { int32_t code = 0; int32_t needRsp = true; void *data = NULL; int32_t sinkStatus = 0; int32_t dataLen = 0; bool queryEnd = false; bool needStop = false; bool locked = false; SQWTaskCtx *ctx = NULL; int8_t status = 0; void *rsp = NULL; SQWPhaseInput input = {0}; SQWPhaseOutput output = {0}; QW_ERR_JRET(qwHandlePrePhaseEvents(QW_FPARAMS(), QW_PHASE_PRE_FETCH, &input, &output)); needStop = output.needStop; code = output.rspCode; if (needStop) { QW_TASK_DLOG("task need stop, phase:%d", QW_PHASE_PRE_FETCH); QW_ERR_JRET(code); } QW_ERR_JRET(qwGetTaskCtx(QW_FPARAMS(), &ctx)); SOutputData sOutput = {0}; QW_ERR_JRET(qwGetResFromSink(QW_FPARAMS(), ctx, &dataLen, &rsp, &sOutput)); if (NULL == rsp) { QW_SET_EVENT_RECEIVED(ctx, QW_EVENT_FETCH); } else { qwBuildFetchRsp(rsp, &sOutput, dataLen); } if ((!sOutput.queryEnd) && (DS_BUF_LOW == sOutput.bufStatus || DS_BUF_EMPTY == sOutput.bufStatus)) { QW_TASK_DLOG("task not end, need to continue, bufStatus:%d", sOutput.bufStatus); QW_LOCK(QW_WRITE, &ctx->lock); locked = true; // RC WARNING if (QW_IS_QUERY_RUNNING(ctx)) { atomic_store_8(&ctx->queryContinue, 1); } else if (0 == atomic_load_8(&ctx->queryInQueue)) { if (!ctx->multiExec) { QW_ERR_JRET(qwUpdateTaskStatus(QW_FPARAMS(), JOB_TASK_STATUS_EXECUTING)); ctx->multiExec = true; } atomic_store_8(&ctx->queryInQueue, 1); QW_ERR_JRET(qwBuildAndSendCQueryMsg(QW_FPARAMS(), qwMsg->connection)); QW_TASK_DLOG("schedule query in queue, phase:%d", ctx->phase); } } _return: if (locked) { QW_UNLOCK(QW_WRITE, &ctx->lock); } input.code = code; qwHandlePostPhaseEvents(QW_FPARAMS(), QW_PHASE_POST_FETCH, &input, &output); if (output.rspCode) { code = output.rspCode; } if (code) { qwFreeFetchRsp(rsp); rsp = NULL; dataLen = 0; qwBuildAndSendFetchRsp(qwMsg->connection, rsp, dataLen, code); QW_TASK_DLOG("fetch msg rsped, code:%x, dataLen:%d", code, dataLen); } else if (rsp) { qwBuildAndSendFetchRsp(qwMsg->connection, rsp, dataLen, code); QW_TASK_DLOG("fetch msg rsped, code:%x, dataLen:%d", code, dataLen); } QW_RET(code); } int32_t qwProcessDrop(QW_FPARAMS_DEF, SQWMsg *qwMsg) { int32_t code = 0; bool needRsp = false; SQWTaskCtx *ctx = NULL; bool locked = false; QW_ERR_JRET(qwAddAcquireTaskCtx(QW_FPARAMS(), &ctx)); QW_LOCK(QW_WRITE, &ctx->lock); locked = true; if (QW_IS_EVENT_RECEIVED(ctx, QW_EVENT_DROP)) { QW_TASK_WLOG("task already dropping, phase:%d", ctx->phase); QW_ERR_JRET(TSDB_CODE_QRY_DUPLICATTED_OPERATION); } if (QW_IS_QUERY_RUNNING(ctx)) { QW_ERR_JRET(qwKillTaskHandle(QW_FPARAMS(), ctx)); QW_ERR_JRET(qwUpdateTaskStatus(QW_FPARAMS(), JOB_TASK_STATUS_DROPPING)); } else if (ctx->phase > 0) { QW_ERR_JRET(qwDropTaskStatus(QW_FPARAMS())); QW_ERR_JRET(qwDropTaskCtx(QW_FPARAMS(), QW_WRITE)); QW_SET_RSP_CODE(ctx, TSDB_CODE_QRY_TASK_DROPPED); locked = false; needRsp = true; } if (!needRsp) { ctx->dropConnection = qwMsg->connection; QW_SET_EVENT_RECEIVED(ctx, QW_EVENT_DROP); } _return: if (code) { QW_UPDATE_RSP_CODE(ctx, code); } if (locked) { QW_UNLOCK(QW_WRITE, &ctx->lock); } if (ctx) { qwReleaseTaskCtx(mgmt, ctx); } if (TSDB_CODE_SUCCESS != code || needRsp) { QW_ERR_RET(qwBuildAndSendDropRsp(qwMsg->connection, code)); QW_TASK_DLOG("drop msg rsped, code:%x", code); } QW_RET(code); } int32_t qWorkerInit(int8_t nodeType, int32_t nodeId, SQWorkerCfg *cfg, void **qWorkerMgmt, void *nodeObj, putReqToQueryQFp fp) { if (NULL == qWorkerMgmt || NULL == nodeObj || NULL == fp) { qError("invalid param to init qworker"); QW_RET(TSDB_CODE_QRY_INVALID_INPUT); } SQWorkerMgmt *mgmt = calloc(1, sizeof(SQWorkerMgmt)); if (NULL == mgmt) { qError("calloc %d failed", (int32_t)sizeof(SQWorkerMgmt)); QW_RET(TSDB_CODE_QRY_OUT_OF_MEMORY); } if (cfg) { mgmt->cfg = *cfg; if (0 == mgmt->cfg.maxSchedulerNum) { mgmt->cfg.maxSchedulerNum = QW_DEFAULT_SCHEDULER_NUMBER; } if (0 == mgmt->cfg.maxTaskNum) { mgmt->cfg.maxTaskNum = QW_DEFAULT_TASK_NUMBER; } if (0 == mgmt->cfg.maxSchTaskNum) { mgmt->cfg.maxSchTaskNum = QW_DEFAULT_SCH_TASK_NUMBER; } } else { mgmt->cfg.maxSchedulerNum = QW_DEFAULT_SCHEDULER_NUMBER; mgmt->cfg.maxTaskNum = QW_DEFAULT_TASK_NUMBER; mgmt->cfg.maxSchTaskNum = QW_DEFAULT_SCH_TASK_NUMBER; } mgmt->schHash = taosHashInit(mgmt->cfg.maxSchedulerNum, taosGetDefaultHashFunction(TSDB_DATA_TYPE_UBIGINT), false, HASH_ENTRY_LOCK); if (NULL == mgmt->schHash) { tfree(mgmt); qError("init %d scheduler hash failed", mgmt->cfg.maxSchedulerNum); QW_ERR_RET(TSDB_CODE_QRY_OUT_OF_MEMORY); } mgmt->ctxHash = taosHashInit(mgmt->cfg.maxTaskNum, taosGetDefaultHashFunction(TSDB_DATA_TYPE_BINARY), false, HASH_ENTRY_LOCK); if (NULL == mgmt->ctxHash) { qError("init %d task ctx hash failed", mgmt->cfg.maxTaskNum); taosHashCleanup(mgmt->schHash); mgmt->schHash = NULL; tfree(mgmt); QW_ERR_RET(TSDB_CODE_QRY_OUT_OF_MEMORY); } mgmt->nodeType = nodeType; mgmt->nodeId = nodeId; mgmt->nodeObj = nodeObj; mgmt->putToQueueFp = fp; *qWorkerMgmt = mgmt; qDebug("qworker initialized for node, type:%d, id:%d, handle:%p", mgmt->nodeType, mgmt->nodeId, mgmt); return TSDB_CODE_SUCCESS; } void qWorkerDestroy(void **qWorkerMgmt) { if (NULL == qWorkerMgmt || NULL == *qWorkerMgmt) { return; } SQWorkerMgmt *mgmt = *qWorkerMgmt; //TODO STOP ALL QUERY //TODO FREE ALL tfree(*qWorkerMgmt); } int32_t qwGetSchTasksStatus(SQWorkerMgmt *mgmt, uint64_t sId, uint64_t qId, uint64_t tId, SSchedulerStatusRsp **rsp) { SQWSchStatus *sch = NULL; int32_t taskNum = 0; /* QW_ERR_RET(qwAcquireScheduler(QW_READ, mgmt, sId, &sch)); sch->lastAccessTs = taosGetTimestampSec(); QW_LOCK(QW_READ, &sch->tasksLock); taskNum = taosHashGetSize(sch->tasksHash); int32_t size = sizeof(SSchedulerStatusRsp) + sizeof((*rsp)->status[0]) * taskNum; *rsp = calloc(1, size); if (NULL == *rsp) { qError("calloc %d failed", size); QW_UNLOCK(QW_READ, &sch->tasksLock); qwReleaseScheduler(QW_READ, mgmt); return TSDB_CODE_QRY_OUT_OF_MEMORY; } void *key = NULL; size_t keyLen = 0; int32_t i = 0; void *pIter = taosHashIterate(sch->tasksHash, NULL); while (pIter) { SQWTaskStatus *taskStatus = (SQWTaskStatus *)pIter; taosHashGetKey(pIter, &key, &keyLen); QW_GET_QTID(key, (*rsp)->status[i].queryId, (*rsp)->status[i].taskId); (*rsp)->status[i].status = taskStatus->status; pIter = taosHashIterate(sch->tasksHash, pIter); } QW_UNLOCK(QW_READ, &sch->tasksLock); qwReleaseScheduler(QW_READ, mgmt); (*rsp)->num = taskNum; */ return TSDB_CODE_SUCCESS; } int32_t qwUpdateSchLastAccess(SQWorkerMgmt *mgmt, uint64_t sId, uint64_t qId, uint64_t tId) { SQWSchStatus *sch = NULL; /* QW_ERR_RET(qwAcquireScheduler(QW_READ, mgmt, sId, &sch)); sch->lastAccessTs = taosGetTimestampSec(); qwReleaseScheduler(QW_READ, mgmt); */ return TSDB_CODE_SUCCESS; } int32_t qwGetTaskStatus(SQWorkerMgmt *mgmt, uint64_t sId, uint64_t qId, uint64_t tId, int8_t *taskStatus) { SQWSchStatus *sch = NULL; SQWTaskStatus *task = NULL; int32_t code = 0; /* if (qwAcquireScheduler(QW_READ, mgmt, sId, &sch)) { *taskStatus = JOB_TASK_STATUS_NULL; return TSDB_CODE_SUCCESS; } if (qwAcquireTask(mgmt, QW_READ, sch, queryId, taskId, &task)) { qwReleaseScheduler(QW_READ, mgmt); *taskStatus = JOB_TASK_STATUS_NULL; return TSDB_CODE_SUCCESS; } *taskStatus = task->status; qwReleaseTask(QW_READ, sch); qwReleaseScheduler(QW_READ, mgmt); */ QW_RET(code); } int32_t qwCancelTask(SQWorkerMgmt *mgmt, uint64_t sId, uint64_t qId, uint64_t tId) { SQWSchStatus *sch = NULL; SQWTaskStatus *task = NULL; int32_t code = 0; /* QW_ERR_RET(qwAcquireAddScheduler(QW_READ, mgmt, sId, &sch)); QW_ERR_JRET(qwAcquireAddTask(mgmt, QW_READ, sch, qId, tId, JOB_TASK_STATUS_NOT_START, &task)); QW_LOCK(QW_WRITE, &task->lock); task->cancel = true; int8_t oriStatus = task->status; int8_t newStatus = 0; if (task->status == JOB_TASK_STATUS_CANCELLED || task->status == JOB_TASK_STATUS_NOT_START || task->status == JOB_TASK_STATUS_CANCELLING || task->status == JOB_TASK_STATUS_DROPPING) { QW_UNLOCK(QW_WRITE, &task->lock); qwReleaseTask(QW_READ, sch); qwReleaseScheduler(QW_READ, mgmt); return TSDB_CODE_SUCCESS; } else if (task->status == JOB_TASK_STATUS_FAILED || task->status == JOB_TASK_STATUS_SUCCEED || task->status == JOB_TASK_STATUS_PARTIAL_SUCCEED) { QW_ERR_JRET(qwUpdateTaskStatus(QW_FPARAMS(), JOB_TASK_STATUS_CANCELLED)); } else { QW_ERR_JRET(qwUpdateTaskStatus(QW_FPARAMS(), JOB_TASK_STATUS_CANCELLING)); } QW_UNLOCK(QW_WRITE, &task->lock); qwReleaseTask(QW_READ, sch); qwReleaseScheduler(QW_READ, mgmt); if (oriStatus == JOB_TASK_STATUS_EXECUTING) { //TODO call executer to cancel subquery async } return TSDB_CODE_SUCCESS; _return: if (task) { QW_UNLOCK(QW_WRITE, &task->lock); qwReleaseTask(QW_READ, sch); } if (sch) { qwReleaseScheduler(QW_READ, mgmt); } */ QW_RET(code); }