/* * 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 "catalog.h" #include "command.h" #include "query.h" #include "schInt.h" #include "tmsg.h" #include "tref.h" #include "trpc.h" void schFreeTask(SSchJob *pJob, SSchTask *pTask) { schDeregisterTaskHb(pJob, pTask); if (pTask->candidateAddrs) { taosArrayDestroy(pTask->candidateAddrs); } taosMemoryFreeClear(pTask->msg); if (pTask->children) { taosArrayDestroy(pTask->children); } if (pTask->parents) { taosArrayDestroy(pTask->parents); } if (pTask->execNodes) { taosHashCleanup(pTask->execNodes); } taosArrayDestroy(pTask->profile.execTime); } void schInitTaskRetryTimes(SSchJob *pJob, SSchTask *pTask, SSchLevel *pLevel) { if (SCH_IS_DATA_BIND_TASK(pTask) || (!SCH_IS_QUERY_JOB(pJob)) || (SCH_ALL != schMgmt.cfg.schPolicy)) { pTask->maxRetryTimes = SCH_DEFAULT_MAX_RETRY_NUM; } else { int32_t nodeNum = taosArrayGetSize(pJob->nodeList); pTask->maxRetryTimes = TMAX(nodeNum, SCH_DEFAULT_MAX_RETRY_NUM); } pTask->maxExecTimes = pTask->maxRetryTimes * (pLevel->level + 1); } int32_t schInitTask(SSchJob *pJob, SSchTask *pTask, SSubplan *pPlan, SSchLevel *pLevel) { int32_t code = 0; pTask->plan = pPlan; pTask->level = pLevel; pTask->execId = -1; pTask->timeoutUsec = SCH_DEFAULT_TASK_TIMEOUT_USEC; pTask->taskId = schGenTaskId(); schInitTaskRetryTimes(pJob, pTask, pLevel); pTask->execNodes = taosHashInit(pTask->maxExecTimes, taosGetDefaultHashFunction(TSDB_DATA_TYPE_INT), true, HASH_NO_LOCK); pTask->profile.execTime = taosArrayInit(pTask->maxExecTimes, sizeof(int64_t)); if (NULL == pTask->execNodes || NULL == pTask->profile.execTime) { SCH_ERR_JRET(TSDB_CODE_QRY_OUT_OF_MEMORY); } SCH_SET_TASK_STATUS(pTask, JOB_TASK_STATUS_INIT); SCH_TASK_DLOG("task initialized, max times %d:%d", pTask->maxRetryTimes, pTask->maxExecTimes); return TSDB_CODE_SUCCESS; _return: taosArrayDestroy(pTask->profile.execTime); taosHashCleanup(pTask->execNodes); SCH_RET(code); } int32_t schRecordTaskSucceedNode(SSchJob *pJob, SSchTask *pTask) { SQueryNodeAddr *addr = taosArrayGet(pTask->candidateAddrs, pTask->candidateIdx); if (NULL == addr) { SCH_TASK_ELOG("taosArrayGet candidate addr failed, idx:%d, size:%d", pTask->candidateIdx, (int32_t)taosArrayGetSize(pTask->candidateAddrs)); SCH_ERR_RET(TSDB_CODE_SCH_INTERNAL_ERROR); } pTask->succeedAddr = *addr; return TSDB_CODE_SUCCESS; } int32_t schAppendTaskExecNode(SSchJob *pJob, SSchTask *pTask, SQueryNodeAddr *addr, int32_t execId) { SSchNodeInfo nodeInfo = {.addr = *addr, .handle = SCH_GET_TASK_HANDLE(pTask)}; if (taosHashPut(pTask->execNodes, &execId, sizeof(execId), &nodeInfo, sizeof(nodeInfo))) { SCH_TASK_ELOG("taosHashPut nodeInfo to execNodes failed, errno:%d", errno); SCH_ERR_RET(TSDB_CODE_QRY_OUT_OF_MEMORY); } SCH_TASK_DLOG("task execNode added, execId:%d, handle:%p", execId, nodeInfo.handle); return TSDB_CODE_SUCCESS; } int32_t schDropTaskExecNode(SSchJob *pJob, SSchTask *pTask, void *handle, int32_t execId) { if (NULL == pTask->execNodes) { return TSDB_CODE_SUCCESS; } if (taosHashRemove(pTask->execNodes, &execId, sizeof(execId))) { SCH_TASK_DLOG("execId %d already not in execNodeList", execId); } else { SCH_TASK_DLOG("execId %d removed from execNodeList", execId); } if ((execId != pTask->execId) || pTask->waitRetry) { // ignore it SCH_TASK_DLOG("execId %d is already not current execId %d, waitRetry %d", execId, pTask->execId, pTask->waitRetry); SCH_ERR_RET(TSDB_CODE_SCH_IGNORE_ERROR); } return TSDB_CODE_SUCCESS; } int32_t schUpdateTaskExecNode(SSchJob *pJob, SSchTask *pTask, void *handle, int32_t execId) { if (taosHashGetSize(pTask->execNodes) <= 0) { return TSDB_CODE_SUCCESS; } if ((execId != pTask->execId) || pTask->waitRetry) { // ignore it SCH_TASK_DLOG("handle not updated since execId %d is already not current execId %d, waitRetry %d", execId, pTask->execId, pTask->waitRetry); return TSDB_CODE_SUCCESS; } SSchNodeInfo *nodeInfo = taosHashGet(pTask->execNodes, &execId, sizeof(execId)); if (NULL == nodeInfo) { // ignore it SCH_TASK_DLOG("handle not updated since execId %d already not exist, current execId %d, waitRetry %d", execId, pTask->execId, pTask->waitRetry); return TSDB_CODE_SUCCESS; } nodeInfo->handle = handle; SCH_TASK_DLOG("handle updated to %p for execId %d", handle, execId); return TSDB_CODE_SUCCESS; } int32_t schUpdateTaskHandle(SSchJob *pJob, SSchTask *pTask, bool dropExecNode, void *handle, int32_t execId) { if (dropExecNode) { SCH_RET(schDropTaskExecNode(pJob, pTask, handle, execId)); } SCH_SET_TASK_HANDLE(pTask, handle); schUpdateTaskExecNode(pJob, pTask, handle, execId); return TSDB_CODE_SUCCESS; } int32_t schProcessOnTaskFailure(SSchJob *pJob, SSchTask *pTask, int32_t errCode) { if (TSDB_CODE_SCH_IGNORE_ERROR == errCode) { return TSDB_CODE_SCH_IGNORE_ERROR; } int8_t jobStatus = 0; if (schJobNeedToStop(pJob, &jobStatus)) { SCH_TASK_DLOG("no more task failure processing cause of job status %s", jobTaskStatusStr(jobStatus)); SCH_ERR_RET(TSDB_CODE_SCH_IGNORE_ERROR); } int8_t taskStatus = SCH_GET_TASK_STATUS(pTask); if (taskStatus == JOB_TASK_STATUS_FAIL || taskStatus == JOB_TASK_STATUS_SUCC) { SCH_TASK_ELOG("task already done, status:%s", jobTaskStatusStr(taskStatus)); SCH_ERR_RET(TSDB_CODE_SCH_STATUS_ERROR); } if (errCode == TSDB_CODE_SCH_TIMEOUT_ERROR) { SCH_LOG_TASK_WAIT_TS(pTask); } else { SCH_LOG_TASK_END_TS(pTask); } bool needRetry = false; bool moved = false; int32_t taskDone = 0; SCH_TASK_DLOG("taskOnFailure, code:%s", tstrerror(errCode)); SCH_ERR_RET(schTaskCheckSetRetry(pJob, pTask, errCode, &needRetry)); if (!needRetry) { SCH_TASK_ELOG("task failed and no more retry, code:%s", tstrerror(errCode)); SCH_SET_TASK_STATUS(pTask, JOB_TASK_STATUS_FAIL); if (SCH_JOB_NEED_WAIT(pJob)) { SCH_LOCK(SCH_WRITE, &pTask->level->lock); pTask->level->taskFailed++; taskDone = pTask->level->taskSucceed + pTask->level->taskFailed; SCH_UNLOCK(SCH_WRITE, &pTask->level->lock); schUpdateJobErrCode(pJob, errCode); if (taskDone < pTask->level->taskNum) { SCH_TASK_DLOG("need to wait other tasks, doneNum:%d, allNum:%d", taskDone, pTask->level->taskNum); SCH_RET(TSDB_CODE_SCH_IGNORE_ERROR); } SCH_RET(atomic_load_32(&pJob->errCode)); } } else { SCH_ERR_RET(schHandleTaskRetry(pJob, pTask)); return TSDB_CODE_SUCCESS; } SCH_RET(errCode); } // Note: no more task error processing, handled in function internal int32_t schProcessOnTaskSuccess(SSchJob *pJob, SSchTask *pTask) { bool moved = false; int32_t code = 0; SCH_TASK_DLOG("taskOnSuccess, status:%s", SCH_GET_TASK_STATUS_STR(pTask)); SCH_LOG_TASK_END_TS(pTask); SCH_SET_TASK_STATUS(pTask, JOB_TASK_STATUS_PART_SUCC); SCH_ERR_RET(schRecordTaskSucceedNode(pJob, pTask)); SCH_ERR_RET(schLaunchTasksInFlowCtrlList(pJob, pTask)); int32_t parentNum = pTask->parents ? (int32_t)taosArrayGetSize(pTask->parents) : 0; if (parentNum == 0) { int32_t taskDone = 0; if (SCH_JOB_NEED_WAIT(pJob)) { SCH_LOCK(SCH_WRITE, &pTask->level->lock); pTask->level->taskSucceed++; taskDone = pTask->level->taskSucceed + pTask->level->taskFailed; SCH_UNLOCK(SCH_WRITE, &pTask->level->lock); if (taskDone < pTask->level->taskNum) { SCH_TASK_DLOG("wait all tasks, done:%d, all:%d", taskDone, pTask->level->taskNum); return TSDB_CODE_SUCCESS; } else if (taskDone > pTask->level->taskNum) { SCH_TASK_ELOG("taskDone number invalid, done:%d, total:%d", taskDone, pTask->level->taskNum); } if (pTask->level->taskFailed > 0) { SCH_RET(schHandleJobFailure(pJob, pJob->errCode)); } else { SCH_RET(schSwitchJobStatus(pJob, JOB_TASK_STATUS_PART_SUCC, NULL)); } } else { pJob->resNode = pTask->succeedAddr; } pJob->fetchTask = pTask; SCH_RET(schSwitchJobStatus(pJob, JOB_TASK_STATUS_PART_SUCC, NULL)); } /* if (SCH_IS_DATA_SRC_TASK(task) && job->dataSrcEps.numOfEps < SCH_MAX_CANDIDATE_EP_NUM) { strncpy(job->dataSrcEps.fqdn[job->dataSrcEps.numOfEps], task->execAddr.fqdn, sizeof(task->execAddr.fqdn)); job->dataSrcEps.port[job->dataSrcEps.numOfEps] = task->execAddr.port; ++job->dataSrcEps.numOfEps; } */ for (int32_t i = 0; i < parentNum; ++i) { SSchTask *parent = *(SSchTask **)taosArrayGet(pTask->parents, i); SCH_LOCK(SCH_WRITE, &parent->planLock); SDownstreamSourceNode source = { .type = QUERY_NODE_DOWNSTREAM_SOURCE, .taskId = pTask->taskId, .schedId = schMgmt.sId, .execId = pTask->execId, .addr = pTask->succeedAddr, .fetchMsgType = SCH_FETCH_TYPE(pTask), }; qSetSubplanExecutionNode(parent->plan, pTask->plan->id.groupId, &source); SCH_UNLOCK(SCH_WRITE, &parent->planLock); int32_t readyNum = atomic_add_fetch_32(&parent->childReady, 1); if (SCH_TASK_READY_FOR_LAUNCH(readyNum, parent)) { SCH_TASK_DLOG("all %d children task done, start to launch parent task 0x%" PRIx64, readyNum, parent->taskId); SCH_ERR_RET(schLaunchTask(pJob, parent)); } } SCH_ERR_RET(schLaunchJobLowerLevel(pJob, pTask)); return TSDB_CODE_SUCCESS; } int32_t schRescheduleTask(SSchJob *pJob, SSchTask *pTask) { if (!schMgmt.cfg.enableReSchedule) { return TSDB_CODE_SUCCESS; } if (SCH_IS_DATA_BIND_TASK(pTask)) { return TSDB_CODE_SUCCESS; } if (SCH_TASK_TIMEOUT(pTask) && JOB_TASK_STATUS_EXEC == pTask->status && pJob->fetchTask != pTask && taosArrayGetSize(pTask->candidateAddrs) > 1) { SCH_TASK_DLOG("task execId %d will be rescheduled now", pTask->execId); schDropTaskOnExecNode(pJob, pTask); taosHashClear(pTask->execNodes); SCH_ERR_RET(schProcessOnTaskFailure(pJob, pTask, TSDB_CODE_SCH_TIMEOUT_ERROR)); } return TSDB_CODE_SUCCESS; } int32_t schDoTaskRedirect(SSchJob *pJob, SSchTask *pTask, SDataBuf *pData, int32_t rspCode) { int32_t code = 0; SCH_TASK_DLOG("task will be redirected now, status:%s", SCH_GET_TASK_STATUS_STR(pTask)); if (NULL == pData) { pTask->retryTimes = 0; } if (((pTask->execId + 1) >= pTask->maxExecTimes) || ((pTask->retryTimes + 1) > pTask->maxRetryTimes)) { SCH_TASK_DLOG("task no more retry since reach max times %d:%d, execId %d", pTask->maxRetryTimes, pTask->maxExecTimes, pTask->execId); schHandleJobFailure(pJob, rspCode); return TSDB_CODE_SUCCESS; } pTask->waitRetry = true; schDropTaskOnExecNode(pJob, pTask); taosHashClear(pTask->execNodes); SCH_ERR_JRET(schRemoveTaskFromExecList(pJob, pTask)); schDeregisterTaskHb(pJob, pTask); atomic_sub_fetch_32(&pTask->level->taskLaunchedNum, 1); taosMemoryFreeClear(pTask->msg); pTask->msgLen = 0; pTask->lastMsgType = 0; memset(&pTask->succeedAddr, 0, sizeof(pTask->succeedAddr)); if (SCH_IS_DATA_BIND_TASK(pTask)) { if (pData) { SCH_ERR_JRET(schUpdateTaskCandidateAddr(pJob, pTask, pData->pEpSet)); } if (SCH_TASK_NEED_FLOW_CTRL(pJob, pTask)) { if (JOB_TASK_STATUS_EXEC == SCH_GET_TASK_STATUS(pTask)) { SCH_ERR_JRET(schLaunchTasksInFlowCtrlList(pJob, pTask)); } } SCH_SET_TASK_STATUS(pTask, JOB_TASK_STATUS_INIT); SCH_ERR_JRET(schLaunchTask(pJob, pTask)); return TSDB_CODE_SUCCESS; } // merge plan pTask->childReady = 0; qClearSubplanExecutionNode(pTask->plan); // Note: current error task and upper level merge task if ((pData && 0 == pData->len) || NULL == pData) { SCH_ERR_JRET(schSwitchTaskCandidateAddr(pJob, pTask)); } SCH_SET_TASK_STATUS(pTask, JOB_TASK_STATUS_INIT); int32_t childrenNum = taosArrayGetSize(pTask->children); for (int32_t i = 0; i < childrenNum; ++i) { SSchTask *pChild = taosArrayGetP(pTask->children, i); SCH_LOCK_TASK(pChild); schDoTaskRedirect(pJob, pChild, NULL, rspCode); SCH_UNLOCK_TASK(pChild); } return TSDB_CODE_SUCCESS; _return: SCH_RET(schProcessOnTaskFailure(pJob, pTask, code)); } int32_t schHandleRedirect(SSchJob *pJob, SSchTask *pTask, SDataBuf *pData, int32_t rspCode) { int32_t code = 0; if (JOB_TASK_STATUS_PART_SUCC == pJob->status) { SCH_LOCK(SCH_WRITE, &pJob->resLock); if (pJob->fetched) { SCH_UNLOCK(SCH_WRITE, &pJob->resLock); SCH_TASK_ELOG("already fetched while got error %s", tstrerror(rspCode)); SCH_ERR_JRET(rspCode); } SCH_UNLOCK(SCH_WRITE, &pJob->resLock); schUpdateJobStatus(pJob, JOB_TASK_STATUS_EXEC); } if (SCH_IS_DATA_BIND_TASK(pTask)) { if (NULL == pData->pEpSet) { SCH_TASK_ELOG("no epset updated while got error %s", tstrerror(rspCode)); SCH_ERR_JRET(rspCode); } } code = schDoTaskRedirect(pJob, pTask, pData, rspCode); taosMemoryFree(pData->pData); SCH_RET(code); _return: taosMemoryFree(pData->pData); SCH_RET(schProcessOnTaskFailure(pJob, pTask, code)); } int32_t schPushTaskToExecList(SSchJob *pJob, SSchTask *pTask) { int32_t code = taosHashPut(pJob->execTasks, &pTask->taskId, sizeof(pTask->taskId), &pTask, POINTER_BYTES); if (0 != code) { if (HASH_NODE_EXIST(code)) { SCH_TASK_ELOG("task already in execTask list, code:%x", code); SCH_ERR_RET(TSDB_CODE_SCH_INTERNAL_ERROR); } SCH_TASK_ELOG("taosHashPut task to execTask list failed, errno:%d", errno); SCH_ERR_RET(TSDB_CODE_QRY_OUT_OF_MEMORY); } SCH_TASK_DLOG("task added to execTask list, numOfTasks:%d", taosHashGetSize(pJob->execTasks)); return TSDB_CODE_SUCCESS; } /* int32_t schMoveTaskToSuccList(SSchJob *pJob, SSchTask *pTask, bool *moved) { if (0 != taosHashRemove(pJob->execTasks, &pTask->taskId, sizeof(pTask->taskId))) { SCH_TASK_WLOG("remove task from execTask list failed, may not exist, status:%s", SCH_GET_TASK_STATUS_STR(pTask)); } else { SCH_TASK_DLOG("task removed from execTask list, numOfTasks:%d", taosHashGetSize(pJob->execTasks)); } int32_t code = taosHashPut(pJob->succTasks, &pTask->taskId, sizeof(pTask->taskId), &pTask, POINTER_BYTES); if (0 != code) { if (HASH_NODE_EXIST(code)) { *moved = true; SCH_TASK_ELOG("task already in succTask list, status:%s", SCH_GET_TASK_STATUS_STR(pTask)); SCH_ERR_RET(TSDB_CODE_SCH_STATUS_ERROR); } SCH_TASK_ELOG("taosHashPut task to succTask list failed, errno:%d", errno); SCH_ERR_RET(TSDB_CODE_QRY_OUT_OF_MEMORY); } *moved = true; SCH_TASK_DLOG("task moved to succTask list, numOfTasks:%d", taosHashGetSize(pJob->succTasks)); return TSDB_CODE_SUCCESS; } int32_t schMoveTaskToFailList(SSchJob *pJob, SSchTask *pTask, bool *moved) { *moved = false; if (0 != taosHashRemove(pJob->execTasks, &pTask->taskId, sizeof(pTask->taskId))) { SCH_TASK_WLOG("remove task from execTask list failed, may not exist, status:%s", SCH_GET_TASK_STATUS_STR(pTask)); } int32_t code = taosHashPut(pJob->failTasks, &pTask->taskId, sizeof(pTask->taskId), &pTask, POINTER_BYTES); if (0 != code) { if (HASH_NODE_EXIST(code)) { *moved = true; SCH_TASK_WLOG("task already in failTask list, status:%s", SCH_GET_TASK_STATUS_STR(pTask)); SCH_ERR_RET(TSDB_CODE_SCH_STATUS_ERROR); } SCH_TASK_ELOG("taosHashPut task to failTask list failed, errno:%d", errno); SCH_ERR_RET(TSDB_CODE_QRY_OUT_OF_MEMORY); } *moved = true; SCH_TASK_DLOG("task moved to failTask list, numOfTasks:%d", taosHashGetSize(pJob->failTasks)); return TSDB_CODE_SUCCESS; } int32_t schMoveTaskToExecList(SSchJob *pJob, SSchTask *pTask, bool *moved) { if (0 != taosHashRemove(pJob->succTasks, &pTask->taskId, sizeof(pTask->taskId))) { SCH_TASK_WLOG("remove task from succTask list failed, may not exist, status:%s", SCH_GET_TASK_STATUS_STR(pTask)); } int32_t code = taosHashPut(pJob->execTasks, &pTask->taskId, sizeof(pTask->taskId), &pTask, POINTER_BYTES); if (0 != code) { if (HASH_NODE_EXIST(code)) { *moved = true; SCH_TASK_ELOG("task already in execTask list, status:%s", SCH_GET_TASK_STATUS_STR(pTask)); SCH_ERR_RET(TSDB_CODE_SCH_STATUS_ERROR); } SCH_TASK_ELOG("taosHashPut task to execTask list failed, errno:%d", errno); SCH_ERR_RET(TSDB_CODE_QRY_OUT_OF_MEMORY); } *moved = true; SCH_TASK_DLOG("task moved to execTask list, numOfTasks:%d", taosHashGetSize(pJob->execTasks)); return TSDB_CODE_SUCCESS; } */ int32_t schTaskCheckSetRetry(SSchJob *pJob, SSchTask *pTask, int32_t errCode, bool *needRetry) { if (TSDB_CODE_SCH_TIMEOUT_ERROR == errCode) { pTask->maxExecTimes++; pTask->maxRetryTimes++; if (pTask->timeoutUsec < SCH_MAX_TASK_TIMEOUT_USEC) { pTask->timeoutUsec *= 2; if (pTask->timeoutUsec > SCH_MAX_TASK_TIMEOUT_USEC) { pTask->timeoutUsec = SCH_MAX_TASK_TIMEOUT_USEC; } } } if ((pTask->retryTimes + 1) > pTask->maxRetryTimes) { *needRetry = false; SCH_TASK_DLOG("task no more retry since reach max retry times, retryTimes:%d/%d", pTask->retryTimes, pTask->maxRetryTimes); return TSDB_CODE_SUCCESS; } if ((pTask->execId + 1) >= pTask->maxExecTimes) { *needRetry = false; SCH_TASK_DLOG("task no more retry since reach max exec times, execId:%d/%d", pTask->execId, pTask->maxExecTimes); return TSDB_CODE_SUCCESS; } if (!SCH_NEED_RETRY(pTask->lastMsgType, errCode)) { *needRetry = false; SCH_TASK_DLOG("task no more retry cause of errCode, errCode:%x - %s", errCode, tstrerror(errCode)); return TSDB_CODE_SUCCESS; } /* if (SCH_IS_DATA_BIND_TASK(pTask)) { if ((pTask->execId + 1) >= SCH_TASK_NUM_OF_EPS(&pTask->plan->execNode)) { *needRetry = false; SCH_TASK_DLOG("task no more retry since all ep tried, execId:%d, epNum:%d", pTask->execId, SCH_TASK_NUM_OF_EPS(&pTask->plan->execNode)); return TSDB_CODE_SUCCESS; } } else { int32_t candidateNum = taosArrayGetSize(pTask->candidateAddrs); if ((pTask->candidateIdx + 1) >= candidateNum && (TSDB_CODE_SCH_TIMEOUT_ERROR != errCode)) { *needRetry = false; SCH_TASK_DLOG("task no more retry since all candiates tried, candidateIdx:%d, candidateNum:%d", pTask->candidateIdx, candidateNum); return TSDB_CODE_SUCCESS; } } */ *needRetry = true; SCH_TASK_DLOG("task need the %dth retry, errCode:%x - %s", pTask->execId + 1, errCode, tstrerror(errCode)); return TSDB_CODE_SUCCESS; } int32_t schHandleTaskRetry(SSchJob *pJob, SSchTask *pTask) { atomic_sub_fetch_32(&pTask->level->taskLaunchedNum, 1); SCH_ERR_RET(schRemoveTaskFromExecList(pJob, pTask)); SCH_SET_TASK_STATUS(pTask, JOB_TASK_STATUS_INIT); if (SCH_TASK_NEED_FLOW_CTRL(pJob, pTask)) { SCH_ERR_RET(schLaunchTasksInFlowCtrlList(pJob, pTask)); } schDeregisterTaskHb(pJob, pTask); if (SCH_IS_DATA_BIND_TASK(pTask)) { SQueryNodeAddr *addr = taosArrayGet(pTask->candidateAddrs, pTask->candidateIdx); SCH_SWITCH_EPSET(addr); } else { SCH_ERR_RET(schSwitchTaskCandidateAddr(pJob, pTask)); } SCH_ERR_RET(schLaunchTask(pJob, pTask)); return TSDB_CODE_SUCCESS; } int32_t schSetAddrsFromNodeList(SSchJob *pJob, SSchTask *pTask) { int32_t addNum = 0; int32_t nodeNum = 0; if (pJob->nodeList) { nodeNum = taosArrayGetSize(pJob->nodeList); for (int32_t i = 0; i < nodeNum; ++i) { SQueryNodeLoad *nload = taosArrayGet(pJob->nodeList, i); SQueryNodeAddr *naddr = &nload->addr; if (NULL == taosArrayPush(pTask->candidateAddrs, naddr)) { SCH_TASK_ELOG("taosArrayPush execNode to candidate addrs failed, addNum:%d, errno:%d", addNum, errno); SCH_ERR_RET(TSDB_CODE_QRY_OUT_OF_MEMORY); } SCH_TASK_TLOG("set %dth candidate addr, id %d, inUse:%d/%d, fqdn:%s, port:%d", i, naddr->nodeId, naddr->epSet.inUse, naddr->epSet.numOfEps, SCH_GET_CUR_EP(naddr)->fqdn, SCH_GET_CUR_EP(naddr)->port); ++addNum; } } if (addNum <= 0) { SCH_TASK_ELOG("no available execNode as candidates, nodeNum:%d", nodeNum); SCH_ERR_RET(TSDB_CODE_TSC_NO_EXEC_NODE); } return TSDB_CODE_SUCCESS; } int32_t schSetTaskCandidateAddrs(SSchJob *pJob, SSchTask *pTask) { if (NULL != pTask->candidateAddrs) { return TSDB_CODE_SUCCESS; } pTask->candidateIdx = 0; pTask->candidateAddrs = taosArrayInit(SCHEDULE_DEFAULT_MAX_NODE_NUM, sizeof(SQueryNodeAddr)); if (NULL == pTask->candidateAddrs) { SCH_TASK_ELOG("taosArrayInit %d condidate addrs failed", SCHEDULE_DEFAULT_MAX_NODE_NUM); SCH_ERR_RET(TSDB_CODE_QRY_OUT_OF_MEMORY); } if (pTask->plan->execNode.epSet.numOfEps > 0) { if (NULL == taosArrayPush(pTask->candidateAddrs, &pTask->plan->execNode)) { SCH_TASK_ELOG("taosArrayPush execNode to candidate addrs failed, errno:%d", errno); SCH_ERR_RET(TSDB_CODE_QRY_OUT_OF_MEMORY); } SCH_TASK_DLOG("use execNode in plan as candidate addr, numOfEps:%d", pTask->plan->execNode.epSet.numOfEps); return TSDB_CODE_SUCCESS; } if (SCH_IS_DATA_BIND_TASK(pTask)) { SCH_TASK_ELOG("no execNode specifed for data src task, numOfEps:%d", pTask->plan->execNode.epSet.numOfEps); SCH_ERR_RET(TSDB_CODE_QRY_APP_ERROR); } SCH_ERR_RET(schSetAddrsFromNodeList(pJob, pTask)); /* for (int32_t i = 0; i < job->dataSrcEps.numOfEps && addNum < SCH_MAX_CANDIDATE_EP_NUM; ++i) { strncpy(epSet->fqdn[epSet->numOfEps], job->dataSrcEps.fqdn[i], sizeof(job->dataSrcEps.fqdn[i])); epSet->port[epSet->numOfEps] = job->dataSrcEps.port[i]; ++epSet->numOfEps; } */ return TSDB_CODE_SUCCESS; } int32_t schUpdateTaskCandidateAddr(SSchJob *pJob, SSchTask *pTask, SEpSet *pEpSet) { if (NULL == pTask->candidateAddrs || 1 != taosArrayGetSize(pTask->candidateAddrs)) { SCH_TASK_ELOG("not able to update cndidate addr, addr num %d", (int32_t)(pTask->candidateAddrs ? taosArrayGetSize(pTask->candidateAddrs) : 0)); SCH_ERR_RET(TSDB_CODE_APP_ERROR); } SQueryNodeAddr *pAddr = taosArrayGet(pTask->candidateAddrs, 0); SEp *pOld = &pAddr->epSet.eps[pAddr->epSet.inUse]; SEp *pNew = &pEpSet->eps[pEpSet->inUse]; SCH_TASK_DLOG("update task ep from %s:%d to %s:%d", pOld->fqdn, pOld->port, pNew->fqdn, pNew->port); memcpy(&pAddr->epSet, pEpSet, sizeof(pAddr->epSet)); return TSDB_CODE_SUCCESS; } int32_t schSwitchTaskCandidateAddr(SSchJob *pJob, SSchTask *pTask) { int32_t candidateNum = taosArrayGetSize(pTask->candidateAddrs); if (candidateNum <= 1) { goto _return; } switch (schMgmt.cfg.schPolicy) { case SCH_LOAD_SEQ: case SCH_ALL: default: if (++pTask->candidateIdx >= candidateNum) { pTask->candidateIdx = 0; } break; case SCH_RANDOM: { int32_t lastIdx = pTask->candidateIdx; while (lastIdx == pTask->candidateIdx) { pTask->candidateIdx = taosRand() % candidateNum; } break; } } _return: SCH_TASK_DLOG("switch task candiateIdx to %d/%d", pTask->candidateIdx, candidateNum); return TSDB_CODE_SUCCESS; } int32_t schRemoveTaskFromExecList(SSchJob *pJob, SSchTask *pTask) { int32_t code = taosHashRemove(pJob->execTasks, &pTask->taskId, sizeof(pTask->taskId)); if (code) { SCH_TASK_ELOG("task failed to rm from execTask list, code:%x", code); SCH_ERR_RET(TSDB_CODE_SCH_INTERNAL_ERROR); } return TSDB_CODE_SUCCESS; } void schDropTaskOnExecNode(SSchJob *pJob, SSchTask *pTask) { if (NULL == pTask->execNodes) { SCH_TASK_DLOG("no exec address, status:%s", SCH_GET_TASK_STATUS_STR(pTask)); return; } int32_t size = (int32_t)taosHashGetSize(pTask->execNodes); if (size <= 0) { SCH_TASK_DLOG("task has no execNodes, no need to drop it, status:%s", SCH_GET_TASK_STATUS_STR(pTask)); return; } int32_t i = 0; SSchNodeInfo *nodeInfo = taosHashIterate(pTask->execNodes, NULL); while (nodeInfo) { if (nodeInfo->handle) { SCH_SET_TASK_HANDLE(pTask, nodeInfo->handle); schBuildAndSendMsg(pJob, pTask, &nodeInfo->addr, TDMT_SCH_DROP_TASK); SCH_TASK_DLOG("start to drop task's %dth execNode", i); } else { SCH_TASK_DLOG("no need to drop task %dth execNode", i); } ++i; nodeInfo = taosHashIterate(pTask->execNodes, nodeInfo); } SCH_TASK_DLOG("task has been dropped on %d exec nodes", size); } int32_t schProcessOnTaskStatusRsp(SQueryNodeEpId *pEpId, SArray *pStatusList) { int32_t taskNum = (int32_t)taosArrayGetSize(pStatusList); SSchTask *pTask = NULL; SSchJob *pJob = NULL; qDebug("%d task status in hb rsp from nodeId:%d, fqdn:%s, port:%d", taskNum, pEpId->nodeId, pEpId->ep.fqdn, pEpId->ep.port); for (int32_t i = 0; i < taskNum; ++i) { STaskStatus *pStatus = taosArrayGet(pStatusList, i); int32_t code = 0; qDebug("QID:0x%" PRIx64 ",TID:0x%" PRIx64 ",EID:%d task status in server: %s", pStatus->queryId, pStatus->taskId, pStatus->execId, jobTaskStatusStr(pStatus->status)); if (schProcessOnCbBegin(&pJob, &pTask, pStatus->queryId, pStatus->refId, pStatus->taskId)) { continue; } if (pStatus->execId != pTask->execId) { // TODO SCH_TASK_DLOG("execId %d mis-match current execId %d", pStatus->execId, pTask->execId); schProcessOnCbEnd(pJob, pTask, 0); continue; } if (pStatus->status == JOB_TASK_STATUS_FAIL) { // RECORD AND HANDLE ERROR!!!! schProcessOnCbEnd(pJob, pTask, 0); continue; } if (pStatus->status == JOB_TASK_STATUS_INIT) { code = schRescheduleTask(pJob, pTask); } schProcessOnCbEnd(pJob, pTask, code); } return TSDB_CODE_SUCCESS; } int32_t schLaunchTaskImpl(void *param) { SSchTaskCtx *pCtx = (SSchTaskCtx *)param; SSchJob *pJob = schAcquireJob(pCtx->jobRid); if (NULL == pJob) { taosMemoryFree(param); qDebug("job refId 0x%" PRIx64 " already not exist", pCtx->jobRid); SCH_RET(TSDB_CODE_SCH_JOB_IS_DROPPING); } SSchTask *pTask = pCtx->pTask; int8_t status = 0; int32_t code = 0; atomic_add_fetch_32(&pTask->level->taskLaunchedNum, 1); pTask->execId++; pTask->retryTimes++; pTask->waitRetry = false; SCH_TASK_DLOG("start to launch task, execId %d, retry %d", pTask->execId, pTask->retryTimes); SCH_LOG_TASK_START_TS(pTask); if (schJobNeedToStop(pJob, &status)) { SCH_TASK_DLOG("no need to launch task cause of job status %s", jobTaskStatusStr(status)); SCH_ERR_JRET(TSDB_CODE_SCH_IGNORE_ERROR); } // NOTE: race condition: the task should be put into the hash table before send msg to server if (SCH_GET_TASK_STATUS(pTask) != JOB_TASK_STATUS_EXEC) { SCH_ERR_JRET(schPushTaskToExecList(pJob, pTask)); SCH_SET_TASK_STATUS(pTask, JOB_TASK_STATUS_EXEC); } SSubplan *plan = pTask->plan; if (NULL == pTask->msg) { // TODO add more detailed reason for failure code = qSubPlanToString(plan, &pTask->msg, &pTask->msgLen); if (TSDB_CODE_SUCCESS != code) { SCH_TASK_ELOG("failed to create physical plan, code:%s, msg:%p, len:%d", tstrerror(code), pTask->msg, pTask->msgLen); SCH_ERR_JRET(code); } else { SCH_TASK_DLOGL("physical plan len:%d, %s", pTask->msgLen, pTask->msg); } } SCH_ERR_JRET(schSetTaskCandidateAddrs(pJob, pTask)); if (SCH_IS_QUERY_JOB(pJob)) { SCH_ERR_JRET(schEnsureHbConnection(pJob, pTask)); } SCH_ERR_JRET(schBuildAndSendMsg(pJob, pTask, NULL, plan->msgType)); _return: taosMemoryFree(param); if (pJob->taskNum >= SCH_MIN_AYSNC_EXEC_NUM) { if (code) { code = schProcessOnTaskFailure(pJob, pTask, code); } if (code) { code = schHandleJobFailure(pJob, code); } } schReleaseJob(pJob->refId); SCH_RET(code); } int32_t schAsyncLaunchTaskImpl(SSchJob *pJob, SSchTask *pTask) { SSchTaskCtx *param = taosMemoryCalloc(1, sizeof(SSchTaskCtx)); if (NULL == param) { SCH_ERR_RET(TSDB_CODE_OUT_OF_MEMORY); } param->jobRid = pJob->refId; param->pTask = pTask; if (pJob->taskNum >= SCH_MIN_AYSNC_EXEC_NUM) { taosAsyncExec(schLaunchTaskImpl, param, NULL); } else { SCH_ERR_RET(schLaunchTaskImpl(param)); } return TSDB_CODE_SUCCESS; } // Note: no more error processing, handled in function internal int32_t schLaunchTask(SSchJob *pJob, SSchTask *pTask) { bool enough = false; int32_t code = 0; SCH_SET_TASK_HANDLE(pTask, NULL); if (SCH_TASK_NEED_FLOW_CTRL(pJob, pTask)) { SCH_ERR_JRET(schCheckIncTaskFlowQuota(pJob, pTask, &enough)); if (enough) { SCH_ERR_JRET(schAsyncLaunchTaskImpl(pJob, pTask)); } } else { SCH_ERR_JRET(schAsyncLaunchTaskImpl(pJob, pTask)); } return TSDB_CODE_SUCCESS; _return: SCH_RET(schProcessOnTaskFailure(pJob, pTask, code)); } int32_t schLaunchLevelTasks(SSchJob *pJob, SSchLevel *level) { SCH_ERR_RET(schChkJobNeedFlowCtrl(pJob, level)); for (int32_t i = 0; i < level->taskNum; ++i) { SSchTask *pTask = taosArrayGet(level->subTasks, i); SCH_ERR_RET(schLaunchTask(pJob, pTask)); } return TSDB_CODE_SUCCESS; } void schDropTaskInHashList(SSchJob *pJob, SHashObj *list) { if (!SCH_JOB_NEED_DROP(pJob)) { return; } void *pIter = taosHashIterate(list, NULL); while (pIter) { SSchTask *pTask = *(SSchTask **)pIter; schDropTaskOnExecNode(pJob, pTask); pIter = taosHashIterate(list, pIter); } } // Note: no more error processing, handled in function internal int32_t schLaunchFetchTask(SSchJob *pJob) { int32_t code = 0; void *fetchRes = atomic_load_ptr(&pJob->fetchRes); if (fetchRes) { SCH_JOB_DLOG("res already fetched, res:%p", fetchRes); return TSDB_CODE_SUCCESS; } SCH_ERR_JRET(schBuildAndSendMsg(pJob, pJob->fetchTask, &pJob->resNode, SCH_FETCH_TYPE(pJob->fetchTask))); return TSDB_CODE_SUCCESS; _return: SCH_RET(schProcessOnTaskFailure(pJob, pJob->fetchTask, code)); }