/* * 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 "executor.h" #include "os.h" #include "query.h" #include "tdatablock.h" #include "tmsg.h" #include "tmsgcb.h" #include "tqueue.h" #include "trpc.h" #ifdef __cplusplus extern "C" { #endif #ifndef _STREAM_H_ #define _STREAM_H_ typedef struct SStreamTask SStreamTask; enum { STREAM_STATUS__NORMAL = 0, STREAM_STATUS__RECOVER, }; enum { TASK_STATUS__NORMAL = 0, TASK_STATUS__DROPPING, TASK_STATUS__FAIL, TASK_STATUS__STOP, TASK_STATUS__PREPARE_RECOVER, TASK_STATUS__RECOVERING, }; enum { TASK_EXEC_STATUS__IDLE = 1, TASK_EXEC_STATUS__EXECUTING, TASK_EXEC_STATUS__CLOSING, }; enum { TASK_INPUT_STATUS__NORMAL = 1, TASK_INPUT_STATUS__BLOCKED, TASK_INPUT_STATUS__RECOVER, TASK_INPUT_STATUS__PROCESSING, TASK_INPUT_STATUS__STOP, TASK_INPUT_STATUS__FAILED, }; enum { TASK_OUTPUT_STATUS__NORMAL = 1, TASK_OUTPUT_STATUS__WAIT, TASK_OUTPUT_STATUS__BLOCKED, }; typedef struct { int8_t type; } SStreamQueueItem; typedef struct { int8_t type; int64_t ver; int32_t* dataRef; SSubmitReq* data; } SStreamDataSubmit; typedef struct { int8_t type; int64_t ver; SArray* dataRefs; // SArray SArray* reqs; // SArray } SStreamMergedSubmit; typedef struct { int8_t type; int32_t srcVgId; int32_t childId; int64_t sourceVer; int64_t reqId; SArray* blocks; // SArray } SStreamDataBlock; typedef struct { int8_t type; } SStreamCheckpoint; typedef struct { int8_t type; SSDataBlock* pBlock; } SStreamTrigger; enum { STREAM_QUEUE__SUCESS = 1, STREAM_QUEUE__FAILED, STREAM_QUEUE__PROCESSING, }; typedef struct { STaosQueue* queue; STaosQall* qall; void* qItem; int8_t status; } SStreamQueue; int32_t streamInit(); void streamCleanUp(); SStreamQueue* streamQueueOpen(); void streamQueueClose(SStreamQueue* queue); static FORCE_INLINE void streamQueueProcessSuccess(SStreamQueue* queue) { ASSERT(atomic_load_8(&queue->status) == STREAM_QUEUE__PROCESSING); queue->qItem = NULL; atomic_store_8(&queue->status, STREAM_QUEUE__SUCESS); } static FORCE_INLINE void streamQueueProcessFail(SStreamQueue* queue) { ASSERT(atomic_load_8(&queue->status) == STREAM_QUEUE__PROCESSING); atomic_store_8(&queue->status, STREAM_QUEUE__FAILED); } static FORCE_INLINE void* streamQueueCurItem(SStreamQueue* queue) { return queue->qItem; } static FORCE_INLINE void* streamQueueNextItem(SStreamQueue* queue) { int8_t dequeueFlag = atomic_exchange_8(&queue->status, STREAM_QUEUE__PROCESSING); if (dequeueFlag == STREAM_QUEUE__FAILED) { ASSERT(queue->qItem != NULL); return streamQueueCurItem(queue); } else { queue->qItem = NULL; taosGetQitem(queue->qall, &queue->qItem); if (queue->qItem == NULL) { taosReadAllQitems(queue->queue, queue->qall); taosGetQitem(queue->qall, &queue->qItem); } return streamQueueCurItem(queue); } } SStreamDataSubmit* streamDataSubmitNew(SSubmitReq* pReq); void streamDataSubmitRefDec(SStreamDataSubmit* pDataSubmit); SStreamDataSubmit* streamSubmitRefClone(SStreamDataSubmit* pSubmit); typedef struct { char* qmsg; // followings are not applicable to encoder and decoder void* executor; } STaskExec; typedef struct { int32_t taskId; int32_t nodeId; SEpSet epSet; } STaskDispatcherFixedEp; typedef struct { // int8_t hashMethod; char stbFullName[TSDB_TABLE_FNAME_LEN]; SUseDbRsp dbInfo; } STaskDispatcherShuffle; typedef void FTbSink(SStreamTask* pTask, void* vnode, int64_t ver, void* data); typedef struct { int64_t stbUid; char stbFullName[TSDB_TABLE_FNAME_LEN]; SSchemaWrapper* pSchemaWrapper; // not applicable to encoder and decoder void* vnode; FTbSink* tbSinkFunc; STSchema* pTSchema; SHashObj* pHash; // groupId to tbuid } STaskSinkTb; typedef void FSmaSink(void* vnode, int64_t smaId, const SArray* data); typedef struct { int64_t smaId; // following are not applicable to encoder and decoder void* vnode; FSmaSink* smaSink; } STaskSinkSma; typedef struct { int8_t reserved; } STaskSinkFetch; enum { TASK_SOURCE__SCAN = 1, TASK_SOURCE__PIPE, TASK_SOURCE__MERGE, }; enum { TASK_EXEC__NONE = 1, TASK_EXEC__PIPE, TASK_EXEC__MERGE, }; enum { TASK_DISPATCH__NONE = 1, TASK_DISPATCH__FIXED, TASK_DISPATCH__SHUFFLE, }; enum { TASK_SINK__NONE = 1, TASK_SINK__TABLE, TASK_SINK__SMA, TASK_SINK__FETCH, }; enum { TASK_INPUT_TYPE__SUMBIT_BLOCK = 1, TASK_INPUT_TYPE__DATA_BLOCK, }; enum { TASK_TRIGGER_STATUS__IN_ACTIVE = 1, TASK_TRIGGER_STATUS__ACTIVE, }; typedef struct { int32_t nodeId; int32_t childId; int32_t taskId; int64_t checkpointVer; int64_t processedVer; SEpSet epSet; } SStreamChildEpInfo; typedef struct SStreamTask { int64_t streamId; int32_t taskId; int8_t isDataScan; int8_t execType; int8_t sinkType; int8_t dispatchType; int8_t isStreamDistributed; int16_t dispatchMsgType; int8_t taskStatus; int8_t execStatus; // node info int32_t selfChildId; int32_t nodeId; SEpSet epSet; // used for semi or single task, // while final task should have processedVer for each child int64_t recoverSnapVer; int64_t startVer; int64_t checkpointVer; int64_t processedVer; int32_t numOfVgroups; // children info SArray* childEpInfo; // SArray // exec STaskExec exec; // TODO: unify sink and dispatch // local sink union { STaskSinkTb tbSink; STaskSinkSma smaSink; STaskSinkFetch fetchSink; }; // remote dispatcher union { STaskDispatcherFixedEp fixedEpDispatcher; STaskDispatcherShuffle shuffleDispatcher; }; int8_t inputStatus; int8_t outputStatus; SStreamQueue* inputQueue; SStreamQueue* outputQueue; // trigger int8_t triggerStatus; int64_t triggerParam; void* timer; // application storage // void* ahandle; // msg handle SMsgCb* pMsgCb; } SStreamTask; int32_t tEncodeStreamEpInfo(SEncoder* pEncoder, const SStreamChildEpInfo* pInfo); int32_t tDecodeStreamEpInfo(SDecoder* pDecoder, SStreamChildEpInfo* pInfo); SStreamTask* tNewSStreamTask(int64_t streamId); int32_t tEncodeSStreamTask(SEncoder* pEncoder, const SStreamTask* pTask); int32_t tDecodeSStreamTask(SDecoder* pDecoder, SStreamTask* pTask); void tFreeSStreamTask(SStreamTask* pTask); static FORCE_INLINE int32_t streamTaskInput(SStreamTask* pTask, SStreamQueueItem* pItem) { #if 0 while (1) { int8_t inputStatus = atomic_val_compare_exchange_8(&pTask->inputStatus, TASK_INPUT_STATUS__NORMAL, TASK_INPUT_STATUS__PROCESSING); if (inputStatus == TASK_INPUT_STATUS__NORMAL) { break; } ASSERT(0); } #endif if (pItem->type == STREAM_INPUT__DATA_SUBMIT) { SStreamDataSubmit* pSubmitClone = streamSubmitRefClone((SStreamDataSubmit*)pItem); if (pSubmitClone == NULL) { qDebug("task %d %p submit enqueue failed since out of memory", pTask->taskId, pTask); terrno = TSDB_CODE_OUT_OF_MEMORY; atomic_store_8(&pTask->inputStatus, TASK_INPUT_STATUS__FAILED); return -1; } qDebug("task %d %p submit enqueue %p %p %p", pTask->taskId, pTask, pItem, pSubmitClone, pSubmitClone->data); taosWriteQitem(pTask->inputQueue->queue, pSubmitClone); // qStreamInput(pTask->exec.executor, pSubmitClone); } else if (pItem->type == STREAM_INPUT__DATA_BLOCK || pItem->type == STREAM_INPUT__DATA_RETRIEVE) { taosWriteQitem(pTask->inputQueue->queue, pItem); // qStreamInput(pTask->exec.executor, pItem); } else if (pItem->type == STREAM_INPUT__CHECKPOINT) { taosWriteQitem(pTask->inputQueue->queue, pItem); // qStreamInput(pTask->exec.executor, pItem); } else if (pItem->type == STREAM_INPUT__GET_RES) { taosWriteQitem(pTask->inputQueue->queue, pItem); // qStreamInput(pTask->exec.executor, pItem); } if (pItem->type != STREAM_INPUT__GET_RES && pItem->type != STREAM_INPUT__CHECKPOINT && pTask->triggerParam != 0) { atomic_val_compare_exchange_8(&pTask->triggerStatus, TASK_TRIGGER_STATUS__IN_ACTIVE, TASK_TRIGGER_STATUS__ACTIVE); } #if 0 // TODO: back pressure atomic_store_8(&pTask->inputStatus, TASK_INPUT_STATUS__NORMAL); #endif return 0; } static FORCE_INLINE void streamTaskInputFail(SStreamTask* pTask) { atomic_store_8(&pTask->inputStatus, TASK_INPUT_STATUS__FAILED); } static FORCE_INLINE int32_t streamTaskOutput(SStreamTask* pTask, SStreamDataBlock* pBlock) { if (pTask->sinkType == TASK_SINK__TABLE) { ASSERT(pTask->dispatchType == TASK_DISPATCH__NONE); pTask->tbSink.tbSinkFunc(pTask, pTask->tbSink.vnode, 0, pBlock->blocks); taosArrayDestroyEx(pBlock->blocks, (FDelete)blockDataFreeRes); taosFreeQitem(pBlock); } else if (pTask->sinkType == TASK_SINK__SMA) { ASSERT(pTask->dispatchType == TASK_DISPATCH__NONE); pTask->smaSink.smaSink(pTask->smaSink.vnode, pTask->smaSink.smaId, pBlock->blocks); taosArrayDestroyEx(pBlock->blocks, (FDelete)blockDataFreeRes); taosFreeQitem(pBlock); } else { ASSERT(pTask->dispatchType != TASK_DISPATCH__NONE); taosWriteQitem(pTask->outputQueue->queue, pBlock); } return 0; } typedef struct { int32_t reserved; } SStreamTaskDeployRsp; typedef struct { // SMsgHead head; SStreamTask* task; } SStreamTaskDeployReq; typedef struct { SMsgHead head; int64_t streamId; int32_t taskId; } SStreamTaskRunReq; typedef struct { int64_t streamId; int32_t taskId; int32_t dataSrcVgId; int32_t upstreamTaskId; int32_t upstreamChildId; int32_t upstreamNodeId; #if 0 int64_t sourceVer; #endif int32_t blockNum; SArray* dataLen; // SArray SArray* data; // SArray } SStreamDispatchReq; typedef struct { int64_t streamId; int32_t taskId; int8_t inputStatus; } SStreamDispatchRsp; typedef struct { int64_t streamId; int64_t reqId; int32_t srcTaskId; int32_t srcNodeId; int32_t dstTaskId; int32_t dstNodeId; int32_t retrieveLen; SRetrieveTableRsp* pRetrieve; } SStreamRetrieveReq; typedef struct { int64_t streamId; int32_t childId; int32_t rspFromTaskId; int32_t rspToTaskId; } SStreamRetrieveRsp; typedef struct { int64_t streamId; int32_t taskId; int32_t sourceTaskId; int32_t sourceVg; } SStreamTaskRecoverReq; typedef struct { int64_t streamId; int32_t taskId; int8_t inputStatus; } SStreamTaskRecoverRsp; int32_t tEncodeStreamTaskRecoverReq(SEncoder* pEncoder, const SStreamTaskRecoverReq* pReq); int32_t tDecodeStreamTaskRecoverReq(SDecoder* pDecoder, SStreamTaskRecoverReq* pReq); int32_t tEncodeStreamTaskRecoverRsp(SEncoder* pEncoder, const SStreamTaskRecoverRsp* pRsp); int32_t tDecodeStreamTaskRecoverRsp(SDecoder* pDecoder, SStreamTaskRecoverRsp* pRsp); typedef struct { int64_t streamId; int32_t taskId; } SMStreamTaskRecoverReq; typedef struct { int64_t streamId; int32_t taskId; } SMStreamTaskRecoverRsp; int32_t tEncodeSMStreamTaskRecoverReq(SEncoder* pEncoder, const SMStreamTaskRecoverReq* pReq); int32_t tDecodeSMStreamTaskRecoverReq(SDecoder* pDecoder, SMStreamTaskRecoverReq* pReq); int32_t tEncodeSMStreamTaskRecoverRsp(SEncoder* pEncoder, const SMStreamTaskRecoverRsp* pRsp); int32_t tDecodeSMStreamTaskRecoverRsp(SDecoder* pDecoder, SMStreamTaskRecoverRsp* pRsp); typedef struct { int64_t streamId; } SPStreamTaskRecoverReq; typedef struct { int8_t reserved; } SPStreamTaskRecoverRsp; int32_t tDecodeStreamDispatchReq(SDecoder* pDecoder, SStreamDispatchReq* pReq); int32_t tDecodeStreamRetrieveReq(SDecoder* pDecoder, SStreamRetrieveReq* pReq); int32_t streamLaunchByWrite(SStreamTask* pTask, int32_t vgId); int32_t streamSetupTrigger(SStreamTask* pTask); int32_t streamProcessRunReq(SStreamTask* pTask); int32_t streamProcessDispatchReq(SStreamTask* pTask, SStreamDispatchReq* pReq, SRpcMsg* pMsg); int32_t streamProcessDispatchRsp(SStreamTask* pTask, SStreamDispatchRsp* pRsp); int32_t streamProcessRecoverReq(SStreamTask* pTask, SStreamTaskRecoverReq* pReq, SRpcMsg* pMsg); int32_t streamProcessRecoverRsp(SStreamTask* pTask, SStreamTaskRecoverRsp* pRsp); int32_t streamProcessRetrieveReq(SStreamTask* pTask, SStreamRetrieveReq* pReq, SRpcMsg* pMsg); int32_t streamProcessRetrieveRsp(SStreamTask* pTask, SStreamRetrieveRsp* pRsp); #ifdef __cplusplus } #endif #endif /* ifndef _STREAM_H_ */