/* * 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_QWORKER_INT_H_ #define _TD_QWORKER_INT_H_ #ifdef __cplusplus extern "C" { #endif #include "executor.h" #include "osDef.h" #include "plannodes.h" #include "qworker.h" #include "tlockfree.h" #include "tref.h" #include "trpc.h" #include "ttimer.h" #define QW_DEFAULT_SCHEDULER_NUMBER 100 #define QW_DEFAULT_TASK_NUMBER 10000 #define QW_DEFAULT_SCH_TASK_NUMBER 10000 #define QW_DEFAULT_SHORT_RUN_TIMES 2 #define QW_DEFAULT_HEARTBEAT_MSEC 5000 #define QW_SCH_TIMEOUT_MSEC 180000 #define QW_MIN_RES_ROWS 4096 enum { QW_PHASE_PRE_QUERY = 1, QW_PHASE_POST_QUERY, QW_PHASE_PRE_FETCH, QW_PHASE_POST_FETCH, QW_PHASE_PRE_CQUERY, QW_PHASE_POST_CQUERY, }; enum { QW_EVENT_CANCEL = 1, QW_EVENT_READY, QW_EVENT_FETCH, QW_EVENT_DROP, QW_EVENT_CQUERY, QW_EVENT_MAX, }; enum { QW_EVENT_NOT_RECEIVED = 0, QW_EVENT_RECEIVED, QW_EVENT_PROCESSED, }; enum { QW_READ = 1, QW_WRITE, }; enum { QW_NOT_EXIST_RET_ERR = 1, QW_NOT_EXIST_ADD, }; typedef struct SQWDebug { bool lockEnable; bool statusEnable; bool dumpEnable; bool sleepSimulate; bool deadSimulate; bool redirectSimulate; } SQWDebug; extern SQWDebug gQWDebug; typedef struct SQWHbParam { bool inUse; int32_t qwrId; int64_t refId; } SQWHbParam; typedef struct SQWHbInfo { SSchedulerHbRsp rsp; SRpcHandleInfo connInfo; } SQWHbInfo; typedef struct SQWPhaseInput { int32_t code; int32_t msgType; } SQWPhaseInput; typedef struct SQWPhaseOutput { #ifdef WINDOWS size_t avoidCompilationErrors; #endif } SQWPhaseOutput; typedef struct SQWTaskStatus { int64_t refId; // job's refId int32_t code; int8_t status; } SQWTaskStatus; typedef struct SQWTaskCtx { SRWLatch lock; int8_t phase; int8_t taskType; int8_t explain; int8_t needFetch; int8_t localExec; int32_t msgType; int32_t fetchType; int32_t execId; int32_t level; bool queryGotData; bool queryRsped; bool queryEnd; bool queryContinue; bool queryInQueue; int32_t rspCode; int64_t affectedRows; // for insert ...select stmt SRpcHandleInfo ctrlConnInfo; SRpcHandleInfo dataConnInfo; int8_t events[QW_EVENT_MAX]; SArray *explainRes; void *taskHandle; void *sinkHandle; STbVerInfo tbInfo; } SQWTaskCtx; typedef struct SQWSchStatus { int64_t hbBrokenTs; // timestamp in msecond SRWLatch hbConnLock; SRpcHandleInfo hbConnInfo; SQueryNodeEpId hbEpId; SRWLatch tasksLock; SHashObj *tasksHash; // key:queryId+taskId, value: SQWTaskStatus } SQWSchStatus; typedef struct SQWTimeInQ { uint64_t num; uint64_t total; } SQWTimeInQ; typedef struct SQWMsgStat { SQWTimeInQ waitTime[2]; uint64_t queryProcessed; uint64_t cqueryProcessed; uint64_t fetchProcessed; uint64_t rspProcessed; uint64_t cancelProcessed; uint64_t dropProcessed; uint64_t hbProcessed; uint64_t deleteProcessed; } SQWMsgStat; typedef struct SQWRTStat { uint64_t startTaskNum; uint64_t stopTaskNum; } SQWRTStat; typedef struct SQWStat { SQWMsgStat msgStat; SQWRTStat rtStat; } SQWStat; // Qnode/Vnode level task management typedef struct SQWorker { int64_t refId; SQWorkerCfg cfg; int8_t nodeType; int32_t nodeId; void *timer; tmr_h hbTimer; SRWLatch schLock; // SRWLatch ctxLock; SHashObj *schHash; // key: schedulerId, value: SQWSchStatus SHashObj *ctxHash; // key: queryId+taskId, value: SQWTaskCtx SMsgCb msgCb; SQWStat stat; int32_t *destroyed; } SQWorker; typedef struct SQWorkerMgmt { SRWLatch lock; int32_t qwRef; int32_t qwNum; SQWHbParam param[1024]; int32_t paramIdx; } SQWorkerMgmt; #define QW_FPARAMS_DEF SQWorker *mgmt, uint64_t sId, uint64_t qId, uint64_t tId, int64_t rId, int32_t eId #define QW_IDS() sId, qId, tId, rId, eId #define QW_FPARAMS() mgmt, QW_IDS() #define QW_STAT_INC(_item, _n) atomic_add_fetch_64(&(_item), _n) #define QW_STAT_DEC(_item, _n) atomic_sub_fetch_64(&(_item), _n) #define QW_STAT_GET(_item) atomic_load_64(&(_item)) #define QW_GET_EVENT(ctx, event) atomic_load_8(&(ctx)->events[event]) #define QW_EVENT_RECEIVED(ctx, event) (QW_GET_EVENT(ctx, event) == QW_EVENT_RECEIVED) #define QW_EVENT_PROCESSED(ctx, event) (QW_GET_EVENT(ctx, event) == QW_EVENT_PROCESSED) #define QW_SET_EVENT_RECEIVED(ctx, event) atomic_store_8(&(ctx)->events[event], QW_EVENT_RECEIVED) #define QW_SET_EVENT_PROCESSED(ctx, event) atomic_store_8(&(ctx)->events[event], QW_EVENT_PROCESSED) #define QW_GET_PHASE(ctx) atomic_load_8(&(ctx)->phase) #define QW_SET_PHASE(ctx, _value) \ do { \ if ((_value) != QW_PHASE_PRE_FETCH && (_value) != QW_PHASE_POST_FETCH) { \ atomic_store_8(&(ctx)->phase, _value); \ } \ } while (0) #define QW_SET_RSP_CODE(ctx, code) atomic_store_32(&(ctx)->rspCode, code) #define QW_UPDATE_RSP_CODE(ctx, code) atomic_val_compare_exchange_32(&(ctx)->rspCode, 0, code) #define QW_QUERY_RUNNING(ctx) (QW_GET_PHASE(ctx) == QW_PHASE_PRE_QUERY || QW_GET_PHASE(ctx) == QW_PHASE_PRE_CQUERY) #define QW_SET_QTID(id, qId, tId, eId) \ do { \ *(uint64_t *)(id) = (qId); \ *(uint64_t *)((char *)(id) + sizeof(qId)) = (tId); \ *(int32_t *)((char *)(id) + sizeof(qId) + sizeof(tId)) = (eId); \ } while (0) #define QW_GET_QTID(id, qId, tId, eId) \ do { \ (qId) = *(uint64_t *)(id); \ (tId) = *(uint64_t *)((char *)(id) + sizeof(qId)); \ (eId) = *(int32_t *)((char *)(id) + sizeof(qId) + sizeof(tId)); \ } while (0) #define QW_ERR_RET(c) \ do { \ int32_t _code = c; \ if (_code != TSDB_CODE_SUCCESS) { \ terrno = _code; \ return _code; \ } \ } while (0) #define QW_RET(c) \ do { \ int32_t _code = c; \ if (_code != TSDB_CODE_SUCCESS) { \ terrno = _code; \ } \ return _code; \ } while (0) #define QW_ERR_JRET(c) \ do { \ code = c; \ if (code != TSDB_CODE_SUCCESS) { \ terrno = code; \ goto _return; \ } \ } while (0) #define QW_ELOG(_param, ...) qError("QW:%p " _param, mgmt, __VA_ARGS__) #define QW_DLOG(_param, ...) qDebug("QW:%p " _param, mgmt, __VA_ARGS__) #define QW_TLOG(_param, ...) qTrace("QW:%p " _param, mgmt, __VA_ARGS__) #define QW_DUMP(_param, ...) \ do { \ if (gQWDebug.dumpEnable) { \ qDebug("QW:%p " _param, mgmt, __VA_ARGS__); \ } \ } while (0) #define QW_SCH_ELOG(param, ...) qError("QW:%p SID:%" PRIx64 " " param, mgmt, sId, __VA_ARGS__) #define QW_SCH_DLOG(param, ...) qDebug("QW:%p SID:%" PRIx64 " " param, mgmt, sId, __VA_ARGS__) #define QW_TASK_ELOG(param, ...) qError("QID:0x%" PRIx64 ",TID:0x%" PRIx64 ",EID:%d " param, qId, tId, eId, __VA_ARGS__) #define QW_TASK_WLOG(param, ...) qWarn("QID:0x%" PRIx64 ",TID:0x%" PRIx64 ",EID:%d " param, qId, tId, eId, __VA_ARGS__) #define QW_TASK_DLOG(param, ...) qDebug("QID:0x%" PRIx64 ",TID:0x%" PRIx64 ",EID:%d " param, qId, tId, eId, __VA_ARGS__) #define QW_TASK_DLOGL(param, ...) \ qDebugL("QID:0x%" PRIx64 ",TID:0x%" PRIx64 ",EID:%d " param, qId, tId, eId, __VA_ARGS__) #define QW_TASK_ELOG_E(param) qError("QID:0x%" PRIx64 ",TID:0x%" PRIx64 ",EID:%d " param, qId, tId, eId) #define QW_TASK_WLOG_E(param) qWarn("QID:0x%" PRIx64 ",TID:0x%" PRIx64 ",EID:%d " param, qId, tId, eId) #define QW_TASK_DLOG_E(param) qDebug("QID:0x%" PRIx64 ",TID:0x%" PRIx64 ",EID:%d " param, qId, tId, eId) #define QW_SCH_TASK_ELOG(param, ...) \ qError("QW:%p SID:0x%" PRIx64 ",QID:0x%" PRIx64 ",TID:0x%" PRIx64 ",EID:%d " param, mgmt, sId, qId, tId, eId, \ __VA_ARGS__) #define QW_SCH_TASK_WLOG(param, ...) \ qWarn("QW:%p SID:0x%" PRIx64 ",QID:0x%" PRIx64 ",TID:0x%" PRIx64 ",EID:%d " param, mgmt, sId, qId, tId, eId, \ __VA_ARGS__) #define QW_SCH_TASK_DLOG(param, ...) \ qDebug("QW:%p SID:0x%" PRIx64 ",QID:0x%" PRIx64 ",TID:0x%" PRIx64 ",EID:%d " param, mgmt, sId, qId, tId, eId, \ __VA_ARGS__) #define QW_LOCK_DEBUG(...) \ do { \ if (gQWDebug.lockEnable) { \ qDebug(__VA_ARGS__); \ } \ } while (0) #define TD_RWLATCH_WRITE_FLAG_COPY 0x40000000 #define QW_LOCK(type, _lock) \ do { \ if (QW_READ == (type)) { \ assert(atomic_load_32((_lock)) >= 0); \ QW_LOCK_DEBUG("QW RLOCK%p:%d, %s:%d B", (_lock), atomic_load_32(_lock), __FILE__, __LINE__); \ taosRLockLatch(_lock); \ QW_LOCK_DEBUG("QW 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); \ QW_LOCK_DEBUG("QW WLOCK%p:%d, %s:%d B", (_lock), atomic_load_32(_lock), __FILE__, __LINE__); \ taosWLockLatch(_lock); \ QW_LOCK_DEBUG("QW 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 QW_UNLOCK(type, _lock) \ do { \ if (QW_READ == (type)) { \ assert(atomic_load_32((_lock)) > 0); \ QW_LOCK_DEBUG("QW RULOCK%p:%d, %s:%d B", (_lock), atomic_load_32(_lock), __FILE__, __LINE__); \ taosRUnLockLatch(_lock); \ QW_LOCK_DEBUG("QW 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); \ QW_LOCK_DEBUG("QW WULOCK%p:%d, %s:%d B", (_lock), atomic_load_32(_lock), __FILE__, __LINE__); \ taosWUnLockLatch(_lock); \ QW_LOCK_DEBUG("QW WULOCK%p:%d, %s:%d E", (_lock), atomic_load_32(_lock), __FILE__, __LINE__); \ assert(atomic_load_32((_lock)) >= 0); \ } \ } while (0) extern SQWorkerMgmt gQwMgmt; static FORCE_INLINE SQWorker *qwAcquire(int64_t refId) { return (SQWorker *)taosAcquireRef(atomic_load_32(&gQwMgmt.qwRef), refId); } static FORCE_INLINE int32_t qwRelease(int64_t refId) { return taosReleaseRef(gQwMgmt.qwRef, refId); } char *qwPhaseStr(int32_t phase); char *qwBufStatusStr(int32_t bufStatus); int32_t qwAcquireAddScheduler(SQWorker *mgmt, uint64_t sId, int32_t rwType, SQWSchStatus **sch); void qwReleaseScheduler(int32_t rwType, SQWorker *mgmt); int32_t qwAddTaskStatus(QW_FPARAMS_DEF, int32_t status); int32_t qwAcquireTaskCtx(QW_FPARAMS_DEF, SQWTaskCtx **ctx); int32_t qwGetTaskCtx(QW_FPARAMS_DEF, SQWTaskCtx **ctx); int32_t qwAddAcquireTaskCtx(QW_FPARAMS_DEF, SQWTaskCtx **ctx); void qwReleaseTaskCtx(SQWorker *mgmt, void *ctx); int32_t qwKillTaskHandle(SQWTaskCtx *ctx); int32_t qwUpdateTaskStatus(QW_FPARAMS_DEF, int8_t status); int32_t qwDropTask(QW_FPARAMS_DEF); void qwSaveTbVersionInfo(qTaskInfo_t pTaskInfo, SQWTaskCtx *ctx); int32_t qwOpenRef(void); void qwSetHbParam(int64_t refId, SQWHbParam **pParam); int32_t qwUpdateTimeInQueue(SQWorker *mgmt, int64_t ts, EQueueType type); int64_t qwGetTimeInQueue(SQWorker *mgmt, EQueueType type); void qwClearExpiredSch(SQWorker *mgmt, SArray *pExpiredSch); int32_t qwAcquireScheduler(SQWorker *mgmt, uint64_t sId, int32_t rwType, SQWSchStatus **sch); void qwFreeTaskCtx(SQWTaskCtx *ctx); void qwDbgDumpMgmtInfo(SQWorker *mgmt); int32_t qwDbgValidateStatus(QW_FPARAMS_DEF, int8_t oriStatus, int8_t newStatus, bool *ignore); int32_t qwDbgBuildAndSendRedirectRsp(int32_t rspType, SRpcHandleInfo *pConn, int32_t code, SEpSet *pEpSet); int32_t qwAddTaskCtx(QW_FPARAMS_DEF); void qwDbgSimulateRedirect(SQWMsg *qwMsg, SQWTaskCtx *ctx, bool *rsped); void qwDbgSimulateSleep(void); void qwDbgSimulateDead(QW_FPARAMS_DEF, SQWTaskCtx *ctx, bool *rsped); #ifdef __cplusplus } #endif #endif /*_TD_QWORKER_INT_H_*/