/* * 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 "streamInc.h" // maximum allowed processed block batches. One block may include several submit blocks #define MAX_STREAM_EXEC_BATCH_NUM 32 #define MIN_STREAM_EXEC_BATCH_NUM 4 #define MAX_STREAM_RESULT_DUMP_THRESHOLD 100 static int32_t updateCheckPointInfo(SStreamTask* pTask); bool streamTaskShouldStop(const SStreamStatus* pStatus) { int32_t status = atomic_load_8((int8_t*)&pStatus->taskStatus); return (status == TASK_STATUS__STOP) || (status == TASK_STATUS__DROPPING); } bool streamTaskShouldPause(const SStreamStatus* pStatus) { int32_t status = atomic_load_8((int8_t*)&pStatus->taskStatus); return (status == TASK_STATUS__PAUSE); } static int32_t doDumpResult(SStreamTask* pTask, SStreamQueueItem* pItem, SArray* pRes, int32_t size, int64_t* totalSize, int32_t* totalBlocks) { int32_t code = updateCheckPointInfo(pTask); if (code != TSDB_CODE_SUCCESS) { taosArrayDestroyEx(pRes, (FDelete)blockDataFreeRes); return code; } int32_t numOfBlocks = taosArrayGetSize(pRes); if (numOfBlocks > 0) { SStreamDataBlock* pStreamBlocks = createStreamBlockFromResults(pItem, pTask, size, pRes); if (pStreamBlocks == NULL) { qError("s-task:%s failed to create result stream data block, code:%s", pTask->id.idStr, tstrerror(terrno)); taosArrayDestroyEx(pRes, (FDelete)blockDataFreeRes); return -1; } qDebug("s-task:%s dump stream result data blocks, num:%d, size:%.2fMiB", pTask->id.idStr, numOfBlocks, size / 1048576.0); code = streamTaskOutputResultBlock(pTask, pStreamBlocks); if (code == TSDB_CODE_UTIL_QUEUE_OUT_OF_MEMORY) { // back pressure and record position destroyStreamDataBlock(pStreamBlocks); return -1; } *totalSize += size; *totalBlocks += numOfBlocks; } else { taosArrayDestroyEx(pRes, (FDelete)blockDataFreeRes); } return TSDB_CODE_SUCCESS; } static int32_t streamTaskExecImpl(SStreamTask* pTask, SStreamQueueItem* pItem, int64_t* totalSize, int32_t* totalBlocks) { int32_t code = TSDB_CODE_SUCCESS; void* pExecutor = pTask->exec.pExecutor; *totalBlocks = 0; *totalSize = 0; int32_t size = 0; int32_t numOfBlocks = 0; SArray* pRes = NULL; while (1) { if (pRes == NULL) { pRes = taosArrayInit(4, sizeof(SSDataBlock)); } if (streamTaskShouldStop(&pTask->status)) { taosArrayDestroyEx(pRes, (FDelete)blockDataFreeRes); return 0; } SSDataBlock* output = NULL; uint64_t ts = 0; if ((code = qExecTask(pExecutor, &output, &ts)) < 0) { if (code == TSDB_CODE_QRY_IN_EXEC) { resetTaskInfo(pExecutor); } qError("unexpected stream execution, s-task:%s since %s", pTask->id.idStr, terrstr()); continue; } if (output == NULL) { if (pItem->type == STREAM_INPUT__DATA_RETRIEVE) { SSDataBlock block = {0}; const SStreamDataBlock* pRetrieveBlock = (const SStreamDataBlock*)pItem; ASSERT(taosArrayGetSize(pRetrieveBlock->blocks) == 1); assignOneDataBlock(&block, taosArrayGet(pRetrieveBlock->blocks, 0)); block.info.type = STREAM_PULL_OVER; block.info.childId = pTask->selfChildId; taosArrayPush(pRes, &block); numOfBlocks += 1; qDebug("s-task:%s(child %d) processed retrieve, reqId:0x%" PRIx64, pTask->id.idStr, pTask->selfChildId, pRetrieveBlock->reqId); } break; } if (output->info.type == STREAM_RETRIEVE) { if (streamBroadcastToChildren(pTask, output) < 0) { // TODO } continue; } SSDataBlock block = {0}; assignOneDataBlock(&block, output); block.info.childId = pTask->selfChildId; size += blockDataGetSize(output) + sizeof(SSDataBlock) + sizeof(SColumnInfoData) * blockDataGetNumOfCols(&block); numOfBlocks += 1; taosArrayPush(pRes, &block); qDebug("s-task:%s (child %d) executed and get %d result blocks, size:%.2fMiB", pTask->id.idStr, pTask->selfChildId, numOfBlocks, size / 1048576.0); // current output should be dispatched to down stream nodes if (numOfBlocks >= MAX_STREAM_RESULT_DUMP_THRESHOLD) { ASSERT(numOfBlocks == taosArrayGetSize(pRes)); code = doDumpResult(pTask, pItem, pRes, size, totalSize, totalBlocks); if (code != TSDB_CODE_SUCCESS) { return code; } pRes = NULL; size = 0; numOfBlocks = 0; } } if (numOfBlocks > 0) { ASSERT(numOfBlocks == taosArrayGetSize(pRes)); code = doDumpResult(pTask, pItem, pRes, size, totalSize, totalBlocks); } else { taosArrayDestroyEx(pRes, (FDelete)blockDataFreeRes); } return code; } int32_t streamScanExec(SStreamTask* pTask, int32_t batchSz) { int32_t code = 0; ASSERT(pTask->taskLevel == TASK_LEVEL__SOURCE); void* exec = pTask->exec.pExecutor; qSetStreamOpOpen(exec); bool finished = false; while (1) { SArray* pRes = taosArrayInit(0, sizeof(SSDataBlock)); if (pRes == NULL) { terrno = TSDB_CODE_OUT_OF_MEMORY; return -1; } int32_t batchCnt = 0; while (1) { if (streamTaskShouldStop(&pTask->status) || streamTaskShouldPause(&pTask->status)) { taosArrayDestroyEx(pRes, (FDelete)blockDataFreeRes); return 0; } SSDataBlock* output = NULL; uint64_t ts = 0; if (qExecTask(exec, &output, &ts) < 0) { continue; } if (output == NULL) { if (qStreamRecoverScanFinished(exec)) { finished = true; } else { qSetStreamOpOpen(exec); } break; } SSDataBlock block = {0}; assignOneDataBlock(&block, output); block.info.childId = pTask->selfChildId; taosArrayPush(pRes, &block); batchCnt++; qDebug("s-task:%s scan exec numOfBlocks:%d, limit:%d", pTask->id.idStr, batchCnt, batchSz); if (batchCnt >= batchSz) { break; } } if (taosArrayGetSize(pRes) == 0) { if (finished) { taosArrayDestroy(pRes); qDebug("s-task:%s finish recover exec task ", pTask->id.idStr); break; } else { qDebug("s-task:%s continue recover exec task ", pTask->id.idStr); continue; } } SStreamDataBlock* qRes = taosAllocateQitem(sizeof(SStreamDataBlock), DEF_QITEM, 0); if (qRes == NULL) { taosArrayDestroyEx(pRes, (FDelete)blockDataFreeRes); terrno = TSDB_CODE_OUT_OF_MEMORY; return -1; } qRes->type = STREAM_INPUT__DATA_BLOCK; qRes->blocks = pRes; code = streamTaskOutputResultBlock(pTask, qRes); if (code == TSDB_CODE_UTIL_QUEUE_OUT_OF_MEMORY) { taosArrayDestroyEx(pRes, (FDelete)blockDataFreeRes); taosFreeQitem(qRes); return code; } // // if (pTask->outputType == TASK_OUTPUT__FIXED_DISPATCH || pTask->outputType == TASK_OUTPUT__SHUFFLE_DISPATCH) { // qDebug("s-task:%s scan exec dispatch blocks:%d", pTask->id.idStr, batchCnt); // streamDispatchStreamBlock(pTask); // } if (finished) { break; } } return 0; } #if 0 int32_t streamBatchExec(SStreamTask* pTask, int32_t batchLimit) { // fetch all queue item, merge according to batchLimit int32_t numOfItems = taosReadAllQitems(pTask->inputQueue1, pTask->inputQall); if (numOfItems == 0) { qDebug("task: %d, stream task exec over, queue empty", pTask->id.taskId); return 0; } SStreamQueueItem* pMerged = NULL; SStreamQueueItem* pItem = NULL; taosGetQitem(pTask->inputQall, (void**)&pItem); if (pItem == NULL) { if (pMerged != NULL) { // process merged item } else { return 0; } } // if drop if (pItem->type == STREAM_INPUT__DESTROY) { // set status drop return -1; } if (pTask->taskLevel == TASK_LEVEL__SINK) { ASSERT(((SStreamQueueItem*)pItem)->type == STREAM_INPUT__DATA_BLOCK); streamTaskOutputResultBlock(pTask, (SStreamDataBlock*)pItem); } // exec impl // output // try dispatch return 0; } #endif int32_t updateCheckPointInfo(SStreamTask* pTask) { int64_t ckId = 0; int64_t dataVer = 0; qGetCheckpointVersion(pTask->exec.pExecutor, &dataVer, &ckId); SCheckpointInfo* pCkInfo = &pTask->chkInfo; if (ckId > pCkInfo->id) { // save it since the checkpoint is updated qDebug("s-task:%s exec end, start to update check point, ver from %" PRId64 " to %" PRId64 ", checkPoint id:%" PRId64 " -> %" PRId64, pTask->id.idStr, pCkInfo->version, dataVer, pCkInfo->id, ckId); pTask->chkInfo = (SCheckpointInfo){.version = dataVer, .id = ckId, .currentVer = pCkInfo->currentVer}; taosWLockLatch(&pTask->pMeta->lock); streamMetaSaveTask(pTask->pMeta, pTask); if (streamMetaCommit(pTask->pMeta) < 0) { taosWUnLockLatch(&pTask->pMeta->lock); qError("s-task:%s failed to commit stream meta, since %s", pTask->id.idStr, terrstr()); return -1; } else { taosWUnLockLatch(&pTask->pMeta->lock); qDebug("s-task:%s update checkpoint ver succeed", pTask->id.idStr); } } return TSDB_CODE_SUCCESS; } /** * todo: the batch of blocks should be tuned dynamic, according to the total elapsed time of each batch of blocks, the * appropriate batch of blocks should be handled in 5 to 10 sec. */ int32_t streamExecForAll(SStreamTask* pTask) { const char* id = pTask->id.idStr; while (1) { int32_t batchSize = 1; int16_t times = 0; SStreamQueueItem* pInput = NULL; // merge multiple input data if possible in the input queue. qDebug("s-task:%s start to extract data block from inputQ", id); while (1) { if (streamTaskShouldPause(&pTask->status)) { if (batchSize > 1) { break; } else { return 0; } } SStreamQueueItem* qItem = streamQueueNextItem(pTask->inputQueue); if (qItem == NULL) { if (pTask->taskLevel == TASK_LEVEL__SOURCE && batchSize < MIN_STREAM_EXEC_BATCH_NUM && times < 5) { times++; taosMsleep(10); qDebug("===stream===try again batchSize:%d", batchSize); continue; } qDebug("===stream===break batchSize:%d", batchSize); break; } if (pInput == NULL) { pInput = qItem; streamQueueProcessSuccess(pTask->inputQueue); if (pTask->taskLevel == TASK_LEVEL__SINK) { break; } } else { // todo we need to sort the data block, instead of just appending into the array list. void* newRet = NULL; if ((newRet = streamMergeQueueItem(pInput, qItem)) == NULL) { streamQueueProcessFail(pTask->inputQueue); break; } else { batchSize++; pInput = newRet; streamQueueProcessSuccess(pTask->inputQueue); if (batchSize > MAX_STREAM_EXEC_BATCH_NUM) { qDebug("s-task:%s batch size limit:%d reached, start to process blocks", id, MAX_STREAM_EXEC_BATCH_NUM); break; } } } } if (streamTaskShouldStop(&pTask->status)) { if (pInput) { streamFreeQitem(pInput); } return 0; } if (pInput == NULL) { break; } if (pTask->taskLevel == TASK_LEVEL__SINK) { ASSERT(pInput->type == STREAM_INPUT__DATA_BLOCK); qDebug("s-task:%s sink task start to sink %d blocks", id, batchSize); streamTaskOutputResultBlock(pTask, (SStreamDataBlock*)pInput); continue; } // wait for the task to be ready to go while (pTask->taskLevel == TASK_LEVEL__SOURCE) { int8_t status = atomic_load_8(&pTask->status.taskStatus); if (status != TASK_STATUS__NORMAL && status != TASK_STATUS__PAUSE) { qError("stream task wait for the end of fill history, s-task:%s, status:%d", id, atomic_load_8(&pTask->status.taskStatus)); taosMsleep(100); } else { break; } } int64_t st = taosGetTimestampMs(); qDebug("s-task:%s start to process batch of blocks, num:%d", id, batchSize); { // set input void* pExecutor = pTask->exec.pExecutor; const SStreamQueueItem* pItem = pInput; if (pItem->type == STREAM_INPUT__GET_RES) { const SStreamTrigger* pTrigger = (const SStreamTrigger*)pInput; qSetMultiStreamInput(pExecutor, pTrigger->pBlock, 1, STREAM_INPUT__DATA_BLOCK); } else if (pItem->type == STREAM_INPUT__DATA_SUBMIT) { ASSERT(pTask->taskLevel == TASK_LEVEL__SOURCE); const SStreamDataSubmit* pSubmit = (const SStreamDataSubmit*)pInput; qSetMultiStreamInput(pExecutor, &pSubmit->submit, 1, STREAM_INPUT__DATA_SUBMIT); qDebug("s-task:%s set submit blocks as source block completed, %p %p len:%d ver:%" PRId64, id, pSubmit, pSubmit->submit.msgStr, pSubmit->submit.msgLen, pSubmit->submit.ver); } else if (pItem->type == STREAM_INPUT__DATA_BLOCK || pItem->type == STREAM_INPUT__DATA_RETRIEVE) { const SStreamDataBlock* pBlock = (const SStreamDataBlock*)pInput; SArray* pBlockList = pBlock->blocks; int32_t numOfBlocks = taosArrayGetSize(pBlockList); qDebug("s-task:%s set sdata blocks as input num:%d, ver:%" PRId64, id, numOfBlocks, pBlock->sourceVer); qSetMultiStreamInput(pExecutor, pBlockList->pData, numOfBlocks, STREAM_INPUT__DATA_BLOCK); } else if (pItem->type == STREAM_INPUT__MERGED_SUBMIT) { const SStreamMergedSubmit* pMerged = (const SStreamMergedSubmit*)pInput; SArray* pBlockList = pMerged->submits; int32_t numOfBlocks = taosArrayGetSize(pBlockList); qDebug("s-task:%s %p set (merged) submit blocks as a batch, numOfBlocks:%d", id, pTask, numOfBlocks); qSetMultiStreamInput(pExecutor, pBlockList->pData, numOfBlocks, STREAM_INPUT__MERGED_SUBMIT); } else if (pItem->type == STREAM_INPUT__REF_DATA_BLOCK) { const SStreamRefDataBlock* pRefBlock = (const SStreamRefDataBlock*)pInput; qSetMultiStreamInput(pExecutor, pRefBlock->pBlock, 1, STREAM_INPUT__DATA_BLOCK); } else { ASSERT(0); } } int64_t resSize = 0; int32_t totalBlocks = 0; streamTaskExecImpl(pTask, pInput, &resSize, &totalBlocks); double el = (taosGetTimestampMs() - st) / 1000.0; qDebug("s-task:%s batch of input blocks exec end, elapsed time:%.2fs, result size:%.2fMiB, numOfBlocks:%d", id, el, resSize / 1048576.0, totalBlocks); streamFreeQitem(pInput); } return 0; } int32_t streamTryExec(SStreamTask* pTask) { // this function may be executed by multi-threads, so status check is required. int8_t schedStatus = atomic_val_compare_exchange_8(&pTask->status.schedStatus, TASK_SCHED_STATUS__WAITING, TASK_SCHED_STATUS__ACTIVE); if (schedStatus == TASK_SCHED_STATUS__WAITING) { int32_t code = streamExecForAll(pTask); if (code < 0) { atomic_store_8(&pTask->status.schedStatus, TASK_SCHED_STATUS__FAILED); return -1; } // todo the task should be commit here atomic_store_8(&pTask->status.schedStatus, TASK_SCHED_STATUS__INACTIVE); qDebug("s-task:%s exec completed", pTask->id.idStr); if (!taosQueueEmpty(pTask->inputQueue->queue) && (!streamTaskShouldStop(&pTask->status)) && (!streamTaskShouldPause(&pTask->status))) { streamSchedExec(pTask); } } return 0; }