/* * 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_INT_H_ #define _TD_SCHEDULER_INT_H_ #ifdef __cplusplus extern "C" { #endif #include "os.h" #include "tarray.h" #include "planner.h" #include "scheduler.h" #include "thash.h" #include "trpc.h" #include "command.h" #define SCHEDULE_DEFAULT_MAX_JOB_NUM 1000 #define SCHEDULE_DEFAULT_MAX_TASK_NUM 1000 #define SCHEDULE_DEFAULT_MAX_NODE_TABLE_NUM 200 // unit is TSDB_TABLE_NUM_UNIT #define SCH_DEFAULT_TASK_TIMEOUT_USEC 10000000 #define SCH_MAX_TASK_TIMEOUT_USEC 60000000 #define SCH_MAX_CANDIDATE_EP_NUM TSDB_MAX_REPLICA enum { SCH_READ = 1, SCH_WRITE, }; enum { SCH_EXEC_CB = 1, SCH_FETCH_CB, }; typedef enum { SCH_OP_NULL = 0, SCH_OP_EXEC, SCH_OP_FETCH, SCH_OP_GET_STATUS, } SCH_OP_TYPE; typedef struct SSchDebug { bool lockEnable; bool apiEnable; } SSchDebug; typedef struct SSchTrans { void *pTrans; void *pHandle; } SSchTrans; typedef struct SSchHbTrans { SRWLatch lock; int64_t taskNum; SRpcCtx rpcCtx; SSchTrans trans; } SSchHbTrans; typedef struct SSchApiStat { #if defined(WINDOWS) || defined(_TD_DARWIN_64) size_t avoidCompilationErrors; #endif } SSchApiStat; typedef struct SSchRuntimeStat { #if defined(WINDOWS) || defined(_TD_DARWIN_64) size_t avoidCompilationErrors; #endif } SSchRuntimeStat; typedef struct SSchJobStat { #if defined(WINDOWS) || defined(_TD_DARWIN_64) size_t avoidCompilationErrors; #endif } SSchJobStat; typedef struct SSchStat { SSchApiStat api; SSchRuntimeStat runtime; SSchJobStat job; } SSchStat; typedef struct SSchResInfo { SExecResult* execRes; void** fetchRes; schedulerExecFp execFp; schedulerFetchFp fetchFp; void* cbParam; } SSchResInfo; typedef struct SSchOpEvent { SCH_OP_TYPE type; bool begin; SSchedulerReq *pReq; } SSchOpEvent; typedef int32_t (*schStatusEnterFp)(void* pHandle, void* pParam); typedef int32_t (*schStatusLeaveFp)(void* pHandle, void* pParam); typedef int32_t (*schStatusEventFp)(void* pHandle, void* pParam, void* pEvent); typedef struct SSchStatusFps { EJobTaskType status; schStatusEnterFp enterFp; schStatusLeaveFp leaveFp; schStatusEventFp eventFp; } SSchStatusFps; typedef struct SSchedulerMgmt { uint64_t taskId; // sequential taksId uint64_t sId; // schedulerId SSchedulerCfg cfg; bool exit; int32_t jobRef; int32_t jobNum; SSchStat stat; SRWLatch hbLock; SHashObj *hbConnections; } SSchedulerMgmt; typedef struct SSchCallbackParamHeader { bool isHbParam; } SSchCallbackParamHeader; typedef struct SSchTaskCallbackParam { SSchCallbackParamHeader head; uint64_t queryId; int64_t refId; uint64_t taskId; int32_t execId; void *pTrans; } SSchTaskCallbackParam; typedef struct SSchHbCallbackParam { SSchCallbackParamHeader head; SQueryNodeEpId nodeEpId; void *pTrans; } SSchHbCallbackParam; typedef struct SSchFlowControl { SRWLatch lock; bool sorted; int32_t tableNumSum; uint32_t execTaskNum; SArray *taskList; // Element is SSchTask* } SSchFlowControl; typedef struct SSchNodeInfo { SQueryNodeAddr addr; void *handle; } SSchNodeInfo; typedef struct SSchLevel { int32_t level; int8_t status; SRWLatch lock; int32_t taskFailed; int32_t taskSucceed; int32_t taskNum; int32_t taskLaunchedNum; int32_t taskDoneNum; SArray *subTasks; // Element is SSchTask } SSchLevel; typedef struct SSchTaskProfile { int64_t startTs; int64_t* execTime; int64_t waitTime; int64_t endTs; } SSchTaskProfile; typedef struct SSchTask { uint64_t taskId; // task id SRWLatch lock; // task reentrant lock int32_t maxExecTimes; // task may exec times int32_t execId; // task current execute try index SSchLevel *level; // level SRWLatch planLock; // task update plan lock SSubplan *plan; // subplan char *msg; // operator tree int32_t msgLen; // msg length int8_t status; // task status int32_t lastMsgType; // last sent msg type int64_t timeoutUsec; // taks timeout useconds before reschedule SQueryNodeAddr succeedAddr; // task executed success node address int8_t candidateIdx; // current try condidation index SArray *candidateAddrs; // condidate node addresses, element is SQueryNodeAddr SHashObj *execNodes; // all tried node for current task, element is SSchNodeInfo SSchTaskProfile profile; // task execution profile int32_t childReady; // child task ready number SArray *children; // the datasource tasks,from which to fetch the result, element is SQueryTask* SArray *parents; // the data destination tasks, get data from current task, element is SQueryTask* void* handle; // task send handle bool registerdHb; // registered in hb } SSchTask; typedef struct SSchJobAttr { EExplainMode explainMode; bool queryJob; bool needFetch; bool needFlowCtrl; } SSchJobAttr; typedef struct { int32_t op; SRWLatch lock; bool syncReq; } SSchOpStatus; typedef struct SSchJob { int64_t refId; uint64_t queryId; SSchJobAttr attr; int32_t levelNum; int32_t taskNum; SRequestConnInfo conn; SArray *nodeList; // qnode/vnode list, SArray SArray *levels; // starting from 0. SArray SQueryPlan *pDag; SArray *dataSrcTasks; // SArray int32_t levelIdx; SEpSet dataSrcEps; SHashObj *taskList; SHashObj *execTasks; // executing and executed tasks, key:taskid, value:SQueryTask* SHashObj *flowCtrl; // key is ep, element is SSchFlowControl SExplainCtx *explainCtx; int8_t status; SQueryNodeAddr resNode; tsem_t rspSem; SSchOpStatus opStatus; schedulerChkKillFp chkKillFp; void* chkKillParam; SSchTask *fetchTask; int32_t errCode; SRWLatch resLock; SExecResult execRes; void *resData; //TODO free it or not int32_t resNumOfRows; SSchResInfo userRes; const char *sql; SQueryProfileSummary summary; } SSchJob; extern SSchedulerMgmt schMgmt; #define SCH_TASK_TIMEOUT(_task) ((taosGetTimestampUs() - (_task)->profile.execTime[(_task)->execId % (_task)->maxExecTimes]) > (_task)->timeoutUsec) #define SCH_TASK_READY_FOR_LAUNCH(readyNum, task) ((readyNum) >= taosArrayGetSize((task)->children)) #define SCH_LOCK_TASK(_task) SCH_LOCK(SCH_WRITE, &(_task)->lock) #define SCH_UNLOCK_TASK(_task) SCH_UNLOCK(SCH_WRITE, &(_task)->lock) #define SCH_TASK_ID(_task) ((_task) ? (_task)->taskId : -1) #define SCH_TASK_EID(_task) ((_task) ? (_task)->execId : -1) #define SCH_IS_DATA_BIND_QRY_TASK(task) ((task)->plan->subplanType == SUBPLAN_TYPE_SCAN) #define SCH_IS_DATA_BIND_TASK(task) (((task)->plan->subplanType == SUBPLAN_TYPE_SCAN) || ((task)->plan->subplanType == SUBPLAN_TYPE_MODIFY)) #define SCH_IS_LEAF_TASK(_job, _task) (((_task)->level->level + 1) == (_job)->levelNum) #define SCH_SET_TASK_STATUS(task, st) atomic_store_8(&(task)->status, st) #define SCH_GET_TASK_STATUS(task) atomic_load_8(&(task)->status) #define SCH_GET_TASK_STATUS_STR(task) jobTaskStatusStr(SCH_GET_TASK_STATUS(task)) #define SCH_GET_TASK_HANDLE(_task) ((_task) ? (_task)->handle : NULL) #define SCH_SET_TASK_HANDLE(_task, _handle) ((_task)->handle = (_handle)) #define SCH_SET_JOB_STATUS(job, st) atomic_store_8(&(job)->status, st) #define SCH_GET_JOB_STATUS(job) atomic_load_8(&(job)->status) #define SCH_GET_JOB_STATUS_STR(job) jobTaskStatusStr(SCH_GET_JOB_STATUS(job)) #define SCH_JOB_IN_SYNC_OP(job) ((job)->opStatus.op && (job)->opStatus.syncReq) #define SCH_JOB_IN_ASYNC_EXEC_OP(job) ((SCH_OP_EXEC == atomic_val_compare_exchange_32(&(job)->opStatus.op, SCH_OP_EXEC, SCH_OP_NULL)) && (!(job)->opStatus.syncReq)) #define SCH_JOB_IN_ASYNC_FETCH_OP(job) ((SCH_OP_FETCH == atomic_val_compare_exchange_32(&(job)->opStatus.op, SCH_OP_FETCH, SCH_OP_NULL)) && (!(job)->opStatus.syncReq)) #define SCH_SET_JOB_NEED_FLOW_CTRL(_job) (_job)->attr.needFlowCtrl = true #define SCH_JOB_NEED_FLOW_CTRL(_job) ((_job)->attr.needFlowCtrl) #define SCH_TASK_NEED_FLOW_CTRL(_job, _task) (SCH_IS_DATA_BIND_QRY_TASK(_task) && SCH_JOB_NEED_FLOW_CTRL(_job) && SCH_IS_LEVEL_UNFINISHED((_task)->level)) #define SCH_FETCH_TYPE(_pSrcTask) (SCH_IS_DATA_BIND_QRY_TASK(_pSrcTask) ? TDMT_SCH_FETCH : TDMT_SCH_MERGE_FETCH) #define SCH_TASK_NEED_FETCH(_task) ((_task)->plan->subplanType != SUBPLAN_TYPE_MODIFY) #define SCH_TASK_MAX_EXEC_TIMES(_levelIdx, _levelNum) (SCH_MAX_CANDIDATE_EP_NUM * ((_levelNum) - (_levelIdx))) #define SCH_SET_JOB_TYPE(_job, type) do { if ((type) != SUBPLAN_TYPE_MODIFY) { (_job)->attr.queryJob = true; } } while (0) #define SCH_IS_QUERY_JOB(_job) ((_job)->attr.queryJob) #define SCH_JOB_NEED_FETCH(_job) ((_job)->attr.needFetch) #define SCH_JOB_NEED_WAIT(_job) (!SCH_IS_QUERY_JOB(_job)) #define SCH_JOB_NEED_DROP(_job) (SCH_IS_QUERY_JOB(_job)) #define SCH_IS_EXPLAIN_JOB(_job) (EXPLAIN_MODE_ANALYZE == (_job)->attr.explainMode) #define SCH_NETWORK_ERR(_code) ((_code) == TSDB_CODE_RPC_BROKEN_LINK || (_code) == TSDB_CODE_RPC_NETWORK_UNAVAIL) #define SCH_MERGE_TASK_NETWORK_ERR(_task, _code, _len) (SCH_NETWORK_ERR(_code) && (((_len) > 0) || (!SCH_IS_DATA_BIND_TASK(_task)))) #define SCH_REDIRECT_MSGTYPE(_msgType) ((_msgType) == TDMT_SCH_QUERY || (_msgType) == TDMT_SCH_MERGE_QUERY || (_msgType) == TDMT_SCH_FETCH || (_msgType) == TDMT_SCH_MERGE_FETCH) #define SCH_TASK_NEED_REDIRECT(_task, _msgType, _code, _rspLen) (SCH_REDIRECT_MSGTYPE(_msgType) && (NEED_SCHEDULER_REDIRECT_ERROR(_code) || SCH_MERGE_TASK_NETWORK_ERR((_task), (_code), (_rspLen)))) #define SCH_NEED_RETRY(_msgType, _code) ((SCH_NETWORK_ERR(_code) && SCH_REDIRECT_MSGTYPE(_msgType)) || (_code) == TSDB_CODE_SCH_TIMEOUT_ERROR) #define SCH_IS_LEVEL_UNFINISHED(_level) ((_level)->taskLaunchedNum < (_level)->taskNum) #define SCH_GET_CUR_EP(_addr) (&(_addr)->epSet.eps[(_addr)->epSet.inUse]) #define SCH_SWITCH_EPSET(_addr) ((_addr)->epSet.inUse = ((_addr)->epSet.inUse + 1) % (_addr)->epSet.numOfEps) #define SCH_TASK_NUM_OF_EPS(_addr) ((_addr)->epSet.numOfEps) #define SCH_LOG_TASK_START_TS(_task) \ do { \ int64_t us = taosGetTimestampUs(); \ int32_t idx = (_task)->execId % (_task)->maxExecTimes; \ (_task)->profile.execTime[idx] = us; \ if (0 == (_task)->execId) { \ (_task)->profile.startTs = us; \ } \ } while (0) #define SCH_LOG_TASK_WAIT_TS(_task) \ do { \ int64_t us = taosGetTimestampUs(); \ int32_t idx = (_task)->execId % (_task)->maxExecTimes; \ (_task)->profile.waitTime += us - (_task)->profile.execTime[idx]; \ } while (0) #define SCH_LOG_TASK_END_TS(_task) \ do { \ int64_t us = taosGetTimestampUs(); \ int32_t idx = (_task)->execId % (_task)->maxExecTimes; \ (_task)->profile.execTime[idx] = us - (_task)->profile.execTime[idx]; \ (_task)->profile.endTs = us; \ } while (0) #define SCH_JOB_ELOG(param, ...) qError("QID:0x%" PRIx64 " " param, pJob->queryId, __VA_ARGS__) #define SCH_JOB_DLOG(param, ...) qDebug("QID:0x%" PRIx64 " " param, pJob->queryId, __VA_ARGS__) #define SCH_TASK_ELOG(param, ...) \ qError("QID:0x%" PRIx64 ",TID:0x%" PRIx64 ",EID:%d " param, pJob->queryId, SCH_TASK_ID(pTask), SCH_TASK_EID(pTask),__VA_ARGS__) #define SCH_TASK_DLOG(param, ...) \ qDebug("QID:0x%" PRIx64 ",TID:0x%" PRIx64 ",EID:%d " param, pJob->queryId, SCH_TASK_ID(pTask), SCH_TASK_EID(pTask),__VA_ARGS__) #define SCH_TASK_DLOGL(param, ...) \ qDebugL("QID:0x%" PRIx64 ",TID:0x%" PRIx64 ",EID:%d " param, pJob->queryId, SCH_TASK_ID(pTask), SCH_TASK_EID(pTask),__VA_ARGS__) #define SCH_TASK_WLOG(param, ...) \ qWarn("QID:0x%" PRIx64 ",TID:0x%" PRIx64 ",EID:%d " param, pJob->queryId, SCH_TASK_ID(pTask), SCH_TASK_EID(pTask),__VA_ARGS__) #define SCH_SET_ERRNO(_err) do { if (TSDB_CODE_SCH_IGNORE_ERROR != (_err)) { terrno = (_err); } } while (0) #define SCH_ERR_RET(c) do { int32_t _code = c; if (_code != TSDB_CODE_SUCCESS) { SCH_SET_ERRNO(_code); return _code; } } while (0) #define SCH_RET(c) do { int32_t _code = c; if (_code != TSDB_CODE_SUCCESS) { SCH_SET_ERRNO(_code); } return _code; } while (0) #define SCH_ERR_JRET(c) do { code = c; if (code != TSDB_CODE_SUCCESS) { SCH_SET_ERRNO(code); goto _return; } } while (0) #define SCH_LOCK_DEBUG(...) do { if (gSCHDebug.lockEnable) { qDebug(__VA_ARGS__); } } while (0) #define TD_RWLATCH_WRITE_FLAG_COPY 0x40000000 #define SCH_LOCK(type, _lock) do { \ if (SCH_READ == (type)) { \ assert(atomic_load_32(_lock) >= 0); \ SCH_LOCK_DEBUG("SCH RLOCK%p:%d, %s:%d B", (_lock), atomic_load_32(_lock), __FILE__, __LINE__); \ taosRLockLatch(_lock); \ SCH_LOCK_DEBUG("SCH RLOCK%p:%d, %s:%d E", (_lock), atomic_load_32(_lock), __FILE__, __LINE__); \ assert(atomic_load_32(_lock) > 0); \ } else { \ assert(atomic_load_32(_lock) >= 0); \ SCH_LOCK_DEBUG("SCH WLOCK%p:%d, %s:%d B", (_lock), atomic_load_32(_lock), __FILE__, __LINE__); \ taosWLockLatch(_lock); \ SCH_LOCK_DEBUG("SCH WLOCK%p:%d, %s:%d E", (_lock), atomic_load_32(_lock), __FILE__, __LINE__); \ assert(atomic_load_32(_lock) == TD_RWLATCH_WRITE_FLAG_COPY); \ } \ } while (0) #define SCH_UNLOCK(type, _lock) do { \ if (SCH_READ == (type)) { \ assert(atomic_load_32((_lock)) > 0); \ SCH_LOCK_DEBUG("SCH RULOCK%p:%d, %s:%d B", (_lock), atomic_load_32(_lock), __FILE__, __LINE__); \ taosRUnLockLatch(_lock); \ SCH_LOCK_DEBUG("SCH RULOCK%p:%d, %s:%d E", (_lock), atomic_load_32(_lock), __FILE__, __LINE__); \ assert(atomic_load_32((_lock)) >= 0); \ } else { \ assert(atomic_load_32((_lock)) & TD_RWLATCH_WRITE_FLAG_COPY); \ SCH_LOCK_DEBUG("SCH WULOCK%p:%d, %s:%d B", (_lock), atomic_load_32(_lock), __FILE__, __LINE__); \ taosWUnLockLatch(_lock); \ SCH_LOCK_DEBUG("SCH WULOCK%p:%d, %s:%d E", (_lock), atomic_load_32(_lock), __FILE__, __LINE__); \ assert(atomic_load_32((_lock)) >= 0); \ } \ } while (0) void schDeregisterTaskHb(SSchJob *pJob, SSchTask *pTask); void schCleanClusterHb(void* pTrans); int32_t schLaunchTask(SSchJob *job, SSchTask *task); int32_t schBuildAndSendMsg(SSchJob *job, SSchTask *task, SQueryNodeAddr *addr, int32_t msgType); SSchJob *schAcquireJob(int64_t refId); int32_t schReleaseJob(int64_t refId); void schFreeFlowCtrl(SSchJob *pJob); int32_t schChkJobNeedFlowCtrl(SSchJob *pJob, SSchLevel *pLevel); int32_t schDecTaskFlowQuota(SSchJob *pJob, SSchTask *pTask); int32_t schCheckIncTaskFlowQuota(SSchJob *pJob, SSchTask *pTask, bool *enough); int32_t schLaunchTasksInFlowCtrlList(SSchJob *pJob, SSchTask *pTask); int32_t schLaunchTaskImpl(SSchJob *pJob, SSchTask *pTask); int32_t schLaunchFetchTask(SSchJob *pJob); int32_t schProcessOnTaskFailure(SSchJob *pJob, SSchTask *pTask, int32_t errCode); int32_t schBuildAndSendHbMsg(SQueryNodeEpId *nodeEpId, SArray* taskAction); int32_t schCloneSMsgSendInfo(void *src, void **dst); int32_t schValidateAndBuildJob(SQueryPlan *pDag, SSchJob *pJob); void schFreeJobImpl(void *job); int32_t schMakeHbRpcCtx(SSchJob *pJob, SSchTask *pTask, SRpcCtx *pCtx); int32_t schEnsureHbConnection(SSchJob *pJob, SSchTask *pTask); int32_t schUpdateHbConnection(SQueryNodeEpId *epId, SSchTrans *trans); int32_t schHandleHbCallback(void *param, SDataBuf *pMsg, int32_t code); void schFreeRpcCtx(SRpcCtx *pCtx); int32_t schGetCallbackFp(int32_t msgType, __async_send_cb_fn_t *fp); bool schJobNeedToStop(SSchJob *pJob, int8_t *pStatus); int32_t schProcessOnTaskSuccess(SSchJob *pJob, SSchTask *pTask); int32_t schSaveJobQueryRes(SSchJob *pJob, SQueryTableRsp *rsp); int32_t schProcessOnExplainDone(SSchJob *pJob, SSchTask *pTask, SRetrieveTableRsp *pRsp); void schProcessOnDataFetched(SSchJob *job); int32_t schGetTaskInJob(SSchJob *pJob, uint64_t taskId, SSchTask **pTask); void schFreeRpcCtxVal(const void *arg); int32_t schMakeBrokenLinkVal(SSchJob *pJob, SSchTask *pTask, SRpcBrokenlinkVal *brokenVal, bool isHb); int32_t schAppendTaskExecNode(SSchJob *pJob, SSchTask *pTask, SQueryNodeAddr *addr, int32_t execId); int32_t schExecStaticExplainJob(SSchedulerReq *pReq, int64_t *job, bool sync); int32_t schUpdateJobStatus(SSchJob *pJob, int8_t newStatus); int32_t schCancelJob(SSchJob *pJob); int32_t schProcessOnJobDropped(SSchJob *pJob, int32_t errCode); uint64_t schGenTaskId(void); void schCloseJobRef(void); int32_t schAsyncExecJob(SSchedulerReq *pReq, int64_t *pJob); int32_t schJobFetchRows(SSchJob *pJob); int32_t schJobFetchRowsA(SSchJob *pJob); int32_t schUpdateTaskHandle(SSchJob *pJob, SSchTask *pTask, bool dropExecNode, void *handle, int32_t execId); int32_t schProcessOnTaskStatusRsp(SQueryNodeEpId* pEpId, SArray* pStatusList); void schFreeSMsgSendInfo(SMsgSendInfo *msgSendInfo); char* schGetOpStr(SCH_OP_TYPE type); int32_t schBeginOperation(SSchJob *pJob, SCH_OP_TYPE type, bool sync); int32_t schInitJob(int64_t *pJobId, SSchedulerReq *pReq); int32_t schExecJob(SSchJob *pJob, SSchedulerReq *pReq); int32_t schDumpJobExecRes(SSchJob* pJob, SExecResult* pRes); int32_t schUpdateTaskCandidateAddr(SSchJob *pJob, SSchTask *pTask, SEpSet* pEpSet); int32_t schHandleRedirect(SSchJob *pJob, SSchTask *pTask, SDataBuf* pData, int32_t rspCode); void schProcessOnOpEnd(SSchJob *pJob, SCH_OP_TYPE type, SSchedulerReq* pReq, int32_t errCode); int32_t schProcessOnOpBegin(SSchJob* pJob, SCH_OP_TYPE type, SSchedulerReq* pReq); void schProcessOnCbEnd(SSchJob *pJob, SSchTask *pTask, int32_t errCode); int32_t schProcessOnCbBegin(SSchJob** job, SSchTask** task, uint64_t qId, int64_t rId, uint64_t tId); void schDropTaskOnExecNode(SSchJob *pJob, SSchTask *pTask); bool schJobDone(SSchJob *pJob); int32_t schRemoveTaskFromExecList(SSchJob *pJob, SSchTask *pTask); int32_t schLaunchJobLowerLevel(SSchJob *pJob, SSchTask *pTask); int32_t schSwitchJobStatus(SSchJob* pJob, int32_t status, void* param); int32_t schHandleOpBeginEvent(int64_t jobId, SSchJob** job, SCH_OP_TYPE type, SSchedulerReq* pReq); int32_t schHandleOpEndEvent(SSchJob* pJob, SCH_OP_TYPE type, SSchedulerReq* pReq, int32_t errCode); int32_t schHandleTaskRetry(SSchJob *pJob, SSchTask *pTask); void schUpdateJobErrCode(SSchJob *pJob, int32_t errCode); int32_t schTaskCheckSetRetry(SSchJob *pJob, SSchTask *pTask, int32_t errCode, bool *needRetry); int32_t schProcessOnJobFailure(SSchJob *pJob, int32_t errCode); int32_t schProcessOnJobPartialSuccess(SSchJob *pJob); void schFreeTask(SSchJob *pJob, SSchTask *pTask); void schDropTaskInHashList(SSchJob *pJob, SHashObj *list); int32_t schLaunchLevelTasks(SSchJob *pJob, SSchLevel *level); int32_t schGetTaskFromList(SHashObj *pTaskList, uint64_t taskId, SSchTask **pTask); int32_t schInitTask(SSchJob *pJob, SSchTask *pTask, SSubplan *pPlan, SSchLevel *pLevel, int32_t levelNum); int32_t schSwitchTaskCandidateAddr(SSchJob *pJob, SSchTask *pTask); void schDirectPostJobRes(SSchedulerReq* pReq, int32_t errCode); bool schChkCurrentOp(SSchJob *pJob, int32_t op, bool sync); extern SSchDebug gSCHDebug; #ifdef __cplusplus } #endif #endif /*_TD_SCHEDULER_INT_H_*/