/* * 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" #include "ttimer.h" #define STREAM_TASK_INPUT_QUEUEU_CAPACITY 20480 #define STREAM_TASK_INPUT_QUEUEU_CAPACITY_IN_SIZE (50) #define ONE_MB_F (1048576.0) #define QUEUE_MEM_SIZE_IN_MB(_q) (taosQueueMemorySize(_q) / ONE_MB_F) int32_t streamInit() { int8_t old; while (1) { old = atomic_val_compare_exchange_8(&streamEnv.inited, 0, 2); if (old != 2) break; } if (old == 0) { streamEnv.timer = taosTmrInit(10000, 100, 10000, "STREAM"); if (streamEnv.timer == NULL) { atomic_store_8(&streamEnv.inited, 0); return -1; } atomic_store_8(&streamEnv.inited, 1); } return 0; } void streamCleanUp() { int8_t old; while (1) { old = atomic_val_compare_exchange_8(&streamEnv.inited, 1, 2); if (old != 2) break; } if (old == 1) { taosTmrCleanUp(streamEnv.timer); atomic_store_8(&streamEnv.inited, 0); } } void streamSchedByTimer(void* param, void* tmrId) { SStreamTask* pTask = (void*)param; if (streamTaskShouldStop(&pTask->status) || streamTaskShouldPause(&pTask->status)) { streamMetaReleaseTask(NULL, pTask); return; } if (atomic_load_8(&pTask->triggerStatus) == TASK_TRIGGER_STATUS__ACTIVE) { SStreamTrigger* trigger = taosAllocateQitem(sizeof(SStreamTrigger), DEF_QITEM, 0); if (trigger == NULL) return; trigger->type = STREAM_INPUT__GET_RES; trigger->pBlock = taosMemoryCalloc(1, sizeof(SSDataBlock)); if (trigger->pBlock == NULL) { taosFreeQitem(trigger); return; } trigger->pBlock->info.type = STREAM_GET_ALL; atomic_store_8(&pTask->triggerStatus, TASK_TRIGGER_STATUS__INACTIVE); if (tAppendDataToInputQueue(pTask, (SStreamQueueItem*)trigger) < 0) { taosTmrReset(streamSchedByTimer, (int32_t)pTask->triggerParam, pTask, streamEnv.timer, &pTask->timer); return; } streamSchedExec(pTask); } taosTmrReset(streamSchedByTimer, (int32_t)pTask->triggerParam, pTask, streamEnv.timer, &pTask->timer); } int32_t streamSetupTrigger(SStreamTask* pTask) { if (pTask->triggerParam != 0) { int32_t ref = atomic_add_fetch_32(&pTask->refCnt, 1); ASSERT(ref == 2); pTask->timer = taosTmrStart(streamSchedByTimer, (int32_t)pTask->triggerParam, pTask, streamEnv.timer); pTask->triggerStatus = TASK_TRIGGER_STATUS__INACTIVE; } return 0; } int32_t streamSchedExec(SStreamTask* pTask) { int8_t schedStatus = atomic_val_compare_exchange_8(&pTask->status.schedStatus, TASK_SCHED_STATUS__INACTIVE, TASK_SCHED_STATUS__WAITING); if (schedStatus == TASK_SCHED_STATUS__INACTIVE) { SStreamTaskRunReq* pRunReq = rpcMallocCont(sizeof(SStreamTaskRunReq)); if (pRunReq == NULL) { terrno = TSDB_CODE_OUT_OF_MEMORY; atomic_store_8(&pTask->status.schedStatus, TASK_SCHED_STATUS__INACTIVE); return -1; } pRunReq->head.vgId = pTask->nodeId; pRunReq->streamId = pTask->id.streamId; pRunReq->taskId = pTask->id.taskId; SRpcMsg msg = {.msgType = TDMT_STREAM_TASK_RUN, .pCont = pRunReq, .contLen = sizeof(SStreamTaskRunReq)}; tmsgPutToQueue(pTask->pMsgCb, STREAM_QUEUE, &msg); qDebug("trigger to run s-task:%s", pTask->id.idStr); } return 0; } int32_t streamTaskEnqueueBlocks(SStreamTask* pTask, const SStreamDispatchReq* pReq, SRpcMsg* pRsp) { int8_t status = 0; SStreamDataBlock* pBlock = createStreamDataFromDispatchMsg(pReq, STREAM_INPUT__DATA_BLOCK, pReq->dataSrcVgId); if (pBlock == NULL) { streamTaskInputFail(pTask); status = TASK_INPUT_STATUS__FAILED; qError("vgId:%d, s-task:%s failed to receive dispatch msg, reason: out of memory", pTask->pMeta->vgId, pTask->id.idStr); } else { int32_t code = tAppendDataToInputQueue(pTask, (SStreamQueueItem*)pBlock); // input queue is full, upstream is blocked now status = (code == TSDB_CODE_SUCCESS)? TASK_INPUT_STATUS__NORMAL:TASK_INPUT_STATUS__BLOCKED; } // rsp by input status void* buf = rpcMallocCont(sizeof(SMsgHead) + sizeof(SStreamDispatchRsp)); ((SMsgHead*)buf)->vgId = htonl(pReq->upstreamNodeId); SStreamDispatchRsp* pDispatchRsp = POINTER_SHIFT(buf, sizeof(SMsgHead)); pDispatchRsp->inputStatus = status; pDispatchRsp->streamId = htobe64(pReq->streamId); pDispatchRsp->upstreamNodeId = htonl(pReq->upstreamNodeId); pDispatchRsp->upstreamTaskId = htonl(pReq->upstreamTaskId); pDispatchRsp->downstreamNodeId = htonl(pTask->nodeId); pDispatchRsp->downstreamTaskId = htonl(pTask->id.taskId); pRsp->pCont = buf; pRsp->contLen = sizeof(SMsgHead) + sizeof(SStreamDispatchRsp); tmsgSendRsp(pRsp); return status == TASK_INPUT_STATUS__NORMAL ? 0 : -1; } int32_t streamTaskEnqueueRetrieve(SStreamTask* pTask, SStreamRetrieveReq* pReq, SRpcMsg* pRsp) { SStreamDataBlock* pData = taosAllocateQitem(sizeof(SStreamDataBlock), DEF_QITEM, 0); int8_t status = TASK_INPUT_STATUS__NORMAL; // enqueue if (pData != NULL) { qDebug("s-task:%s (child %d) recv retrieve req from task:0x%x, reqId %" PRId64, pTask->id.idStr, pTask->selfChildId, pReq->srcTaskId, pReq->reqId); pData->type = STREAM_INPUT__DATA_RETRIEVE; pData->srcVgId = 0; // decode /*pData->blocks = pReq->data;*/ /*pBlock->sourceVer = pReq->sourceVer;*/ streamRetrieveReqToData(pReq, pData); if (tAppendDataToInputQueue(pTask, (SStreamQueueItem*)pData) == 0) { status = TASK_INPUT_STATUS__NORMAL; } else { status = TASK_INPUT_STATUS__FAILED; } } else { /*streamTaskInputFail(pTask);*/ /*status = TASK_INPUT_STATUS__FAILED;*/ } // rsp by input status void* buf = rpcMallocCont(sizeof(SMsgHead) + sizeof(SStreamRetrieveRsp)); ((SMsgHead*)buf)->vgId = htonl(pReq->srcNodeId); SStreamRetrieveRsp* pCont = POINTER_SHIFT(buf, sizeof(SMsgHead)); pCont->streamId = pReq->streamId; pCont->rspToTaskId = pReq->srcTaskId; pCont->rspFromTaskId = pReq->dstTaskId; pRsp->pCont = buf; pRsp->contLen = sizeof(SMsgHead) + sizeof(SStreamRetrieveRsp); tmsgSendRsp(pRsp); return status == TASK_INPUT_STATUS__NORMAL ? 0 : -1; } // todo add log int32_t streamTaskOutputResultBlock(SStreamTask* pTask, SStreamDataBlock* pBlock) { int32_t code = 0; if (pTask->outputType == TASK_OUTPUT__TABLE) { pTask->tbSink.tbSinkFunc(pTask, pTask->tbSink.vnode, 0, pBlock->blocks); destroyStreamDataBlock(pBlock); } else if (pTask->outputType == TASK_OUTPUT__SMA) { pTask->smaSink.smaSink(pTask->smaSink.vnode, pTask->smaSink.smaId, pBlock->blocks); destroyStreamDataBlock(pBlock); } else { ASSERT(pTask->outputType == TASK_OUTPUT__FIXED_DISPATCH || pTask->outputType == TASK_OUTPUT__SHUFFLE_DISPATCH); code = taosWriteQitem(pTask->outputQueue->queue, pBlock); if (code != 0) { // todo failed to add it into the output queue, free it. return code; } streamDispatchStreamBlock(pTask); } return 0; } int32_t streamProcessDispatchMsg(SStreamTask* pTask, SStreamDispatchReq* pReq, SRpcMsg* pRsp, bool exec) { qDebug("s-task:%s receive dispatch msg from taskId:0x%x(vgId:%d), msgLen:%" PRId64, pTask->id.idStr, pReq->upstreamTaskId, pReq->upstreamNodeId, pReq->totalLen); // todo add the input queue buffer limitation streamTaskEnqueueBlocks(pTask, pReq, pRsp); tDeleteStreamDispatchReq(pReq); if (exec) { if (streamTryExec(pTask) < 0) { return -1; } } else { streamSchedExec(pTask); } return 0; } int32_t streamProcessDispatchRsp(SStreamTask* pTask, SStreamDispatchRsp* pRsp, int32_t code) { qDebug("s-task:%s receive dispatch rsp, output status:%d code:%d", pTask->id.idStr, pRsp->inputStatus, code); if (pTask->outputType == TASK_OUTPUT__SHUFFLE_DISPATCH) { int32_t leftRsp = atomic_sub_fetch_32(&pTask->shuffleDispatcher.waitingRspCnt, 1); qDebug("s-task:%s is shuffle, left waiting rsp %d", pTask->id.idStr, leftRsp); if (leftRsp > 0) { return 0; } } int8_t old = atomic_exchange_8(&pTask->outputStatus, pRsp->inputStatus); ASSERT(old == TASK_OUTPUT_STATUS__WAIT); // the input queue of the (down stream) task that receive the output data is full, so the TASK_INPUT_STATUS_BLOCKED is rsp // todo we need to send EMPTY PACKAGE to detect if the input queue is available for output of upstream task, every 50 ms. if (pRsp->inputStatus == TASK_INPUT_STATUS__BLOCKED) { // TODO: init recover timer qError("s-task:%s inputQ of downstream task:0x%x is full, need to block output", pTask->id.idStr, pRsp->downstreamTaskId); atomic_store_8(&pTask->outputStatus, TASK_OUTPUT_STATUS__NORMAL); qError("s-task:%s ignore error, and reset task output status:%d", pTask->id.idStr, pTask->outputStatus); return 0; } // otherwise, continue dispatch the first block to down stream task in pipeline streamDispatchStreamBlock(pTask); return 0; } int32_t streamProcessRunReq(SStreamTask* pTask) { if (streamTryExec(pTask) < 0) { return -1; } /*if (pTask->outputType == TASK_OUTPUT__FIXED_DISPATCH || pTask->outputType == TASK_OUTPUT__SHUFFLE_DISPATCH) {*/ /*streamDispatchStreamBlock(pTask);*/ /*}*/ return 0; } int32_t streamProcessRetrieveReq(SStreamTask* pTask, SStreamRetrieveReq* pReq, SRpcMsg* pRsp) { qDebug("s-task:%s receive retrieve req from node %d taskId:0x%x", pTask->id.idStr, pReq->srcNodeId, pReq->srcTaskId); streamTaskEnqueueRetrieve(pTask, pReq, pRsp); ASSERT(pTask->taskLevel != TASK_LEVEL__SINK); streamSchedExec(pTask); return 0; } bool tInputQueueIsFull(const SStreamTask* pTask) { bool isFull = taosQueueItemSize((pTask->inputQueue->queue)) >= STREAM_TASK_INPUT_QUEUEU_CAPACITY; double size = QUEUE_MEM_SIZE_IN_MB(pTask->inputQueue->queue); return (isFull || size >= STREAM_TASK_INPUT_QUEUEU_CAPACITY_IN_SIZE); } int32_t tAppendDataToInputQueue(SStreamTask* pTask, SStreamQueueItem* pItem) { int8_t type = pItem->type; int32_t total = taosQueueItemSize(pTask->inputQueue->queue) + 1; double size = QUEUE_MEM_SIZE_IN_MB(pTask->inputQueue->queue); if (type == STREAM_INPUT__DATA_SUBMIT) { SStreamDataSubmit* px = (SStreamDataSubmit*)pItem; if ((pTask->taskLevel == TASK_LEVEL__SOURCE) && tInputQueueIsFull(pTask)) { qError("s-task:%s input queue is full, capacity(size:%d num:%dMiB), current(blocks:%d, size:%.2fMiB) stop to push data", pTask->id.idStr, STREAM_TASK_INPUT_QUEUEU_CAPACITY, STREAM_TASK_INPUT_QUEUEU_CAPACITY_IN_SIZE, total, size); streamDataSubmitDestroy(px); taosFreeQitem(pItem); return -1; } int32_t code = taosWriteQitem(pTask->inputQueue->queue, pItem); if (code != TSDB_CODE_SUCCESS) { streamDataSubmitDestroy(px); taosFreeQitem(pItem); return code; } qDebug("s-task:%s submit enqueue msgLen:%d ver:%" PRId64 ", total in queue:%d, size:%.2fMiB", pTask->id.idStr, px->submit.msgLen, px->submit.ver, total, size + px->submit.msgLen/1048576.0); } else if (type == STREAM_INPUT__DATA_BLOCK || type == STREAM_INPUT__DATA_RETRIEVE || type == STREAM_INPUT__REF_DATA_BLOCK) { if ((pTask->taskLevel == TASK_LEVEL__SOURCE) && (tInputQueueIsFull(pTask))) { qError("s-task:%s input queue is full, capacity:%d size:%d MiB, current(blocks:%d, size:%.2fMiB) abort", pTask->id.idStr, STREAM_TASK_INPUT_QUEUEU_CAPACITY, STREAM_TASK_INPUT_QUEUEU_CAPACITY_IN_SIZE, total, size); destroyStreamDataBlock((SStreamDataBlock*) pItem); return -1; } qDebug("s-task:%s data block enqueue, current(blocks:%d, size:%.2fMiB)", pTask->id.idStr, total, size); int32_t code = taosWriteQitem(pTask->inputQueue->queue, pItem); if (code != TSDB_CODE_SUCCESS) { destroyStreamDataBlock((SStreamDataBlock*) pItem); return code; } } else if (type == STREAM_INPUT__CHECKPOINT) { taosWriteQitem(pTask->inputQueue->queue, pItem); } else if (type == STREAM_INPUT__GET_RES) { // use the default memory limit, refactor later. taosWriteQitem(pTask->inputQueue->queue, pItem); qDebug("s-task:%s data res enqueue, current(blocks:%d, size:%.2fMiB)", pTask->id.idStr, total, size); } if (type != STREAM_INPUT__GET_RES && type != STREAM_INPUT__CHECKPOINT && pTask->triggerParam != 0) { atomic_val_compare_exchange_8(&pTask->triggerStatus, TASK_TRIGGER_STATUS__INACTIVE, TASK_TRIGGER_STATUS__ACTIVE); } return 0; } static void* streamQueueCurItem(SStreamQueue* queue) { return queue->qItem; } 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); } } void streamTaskInputFail(SStreamTask* pTask) { atomic_store_8(&pTask->inputStatus, TASK_INPUT_STATUS__FAILED); }