/* * 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 . */ #ifndef _TD_SCHEDULER_H_ #define _TD_SCHEDULER_H_ #ifdef __cplusplus extern "C" { #endif #include "catalog.h" #include "planner.h" typedef struct SSchedulerCfg { uint32_t maxJobNum; int32_t maxNodeTableNum; } SSchedulerCfg; typedef struct SQueryProfileSummary { int64_t startTs; // Object created and added into the message queue int64_t endTs; // the timestamp when the task is completed int64_t cputime; // total cpu cost, not execute elapsed time int64_t loadRemoteDataDuration; // remote io time int64_t loadNativeDataDuration; // native disk io time uint64_t loadNativeData; // blocks + SMA + header files uint64_t loadRemoteData; // remote data acquired by exchange operator. uint64_t waitDuration; // the time to waiting to be scheduled in queue does matter, so we need to record it int64_t addQTs; // the time to be added into the message queue, used to calculate the waiting duration in queue. uint64_t totalRows; uint64_t loadRows; uint32_t totalBlocks; uint32_t loadBlocks; uint32_t loadBlockAgg; uint32_t skipBlocks; uint64_t resultSize; // generated result size in Kb. } SQueryProfileSummary; typedef struct SQueryResult { int32_t code; uint64_t numOfRows; int32_t msgSize; char *msg; void *res; } SQueryResult; typedef struct STaskInfo { SQueryNodeAddr addr; SSubQueryMsg *msg; } STaskInfo; int32_t schedulerInit(SSchedulerCfg *cfg); /** * Process the query job, generated according to the query physical plan. * This is a synchronized API, and is also thread-safety. * @param nodeList Qnode/Vnode address list, element is SQueryNodeAddr * @return */ int32_t schedulerExecJob(void *transport, SArray *nodeList, SQueryPlan *pDag, int64_t *pJob, const char *sql, int64_t startTs, SQueryResult *pRes); /** * Process the query job, generated according to the query physical plan. * This is a asynchronized API, and is also thread-safety. * @param pNodeList Qnode/Vnode address list, element is SQueryNodeAddr * @return */ int32_t schedulerAsyncExecJob(void *transport, SArray *pNodeList, SQueryPlan* pDag, const char* sql, int64_t *pJob); /** * Fetch query result from the remote query executor * @param pJob * @param data * @return */ int32_t schedulerFetchRows(int64_t job, void **data); int32_t schedulerGetTasksStatus(int64_t job, SArray *pSub); /** * Cancel query job * @param pJob * @return */ //int32_t scheduleCancelJob(void *pJob); /** * Free the query job * @param pJob */ void schedulerFreeJob(int64_t job); void schedulerDestroy(void); /** * convert dag to task list * @param pDag * @param pTasks SArray** * @return */ int32_t schedulerConvertDagToTaskList(SQueryPlan* pDag, SArray **pTasks); /** * make one task info's multiple copies * @param src * @param dst SArray** * @return */ int32_t schedulerCopyTask(STaskInfo *src, SArray **dst, int32_t copyNum); void schedulerFreeTaskList(SArray *taskList); #ifdef __cplusplus } #endif #endif /*_TD_SCHEDULER_H_*/