/* * 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 . */ #define _DEFAULT_SOURCE #include "mmInt.h" static inline void mmSendRsp(SNodeMsg *pMsg, int32_t code) { SRpcMsg rsp = {.handle = pMsg->rpcMsg.handle, .ahandle = pMsg->rpcMsg.ahandle, .code = code, .pCont = pMsg->pRsp, .contLen = pMsg->rspLen}; tmsgSendRsp(&rsp); } static void mmProcessQueue(SQueueInfo *pInfo, SNodeMsg *pMsg) { SMnodeMgmt *pMgmt = pInfo->ahandle; dTrace("msg:%p, get from mnode queue", pMsg); SRpcMsg *pRpc = &pMsg->rpcMsg; int32_t code = -1; if (pMsg->rpcMsg.msgType == TDMT_DND_ALTER_MNODE) { code = mmProcessAlterReq(pMgmt, pMsg); } else if (pMsg->rpcMsg.msgType == TDMT_MON_MM_INFO) { code = mmProcessGetMonMmInfoReq(pMgmt->pWrapper, pMsg); } else { pMsg->pNode = pMgmt->pMnode; code = mndProcessMsg(pMsg); } if (pRpc->msgType & 1U) { if (pRpc->handle != NULL && code != TSDB_CODE_MND_ACTION_IN_PROGRESS) { if (code != 0 && terrno != 0) code = terrno; mmSendRsp(pMsg, code); } } dTrace("msg:%p, is freed, result:0x%04x:%s", pMsg, code & 0XFFFF, tstrerror(code)); rpcFreeCont(pRpc->pCont); taosFreeQitem(pMsg); } static void mmProcessQueryQueue(SQueueInfo *pInfo, SNodeMsg *pMsg) { SMnodeMgmt *pMgmt = pInfo->ahandle; dTrace("msg:%p, get from mnode-query queue", pMsg); SRpcMsg *pRpc = &pMsg->rpcMsg; int32_t code = -1; pMsg->pNode = pMgmt->pMnode; code = mndProcessMsg(pMsg); if (pRpc->msgType & 1U) { if (pRpc->handle != NULL && code != 0) { dError("msg:%p, failed to process since %s", pMsg, terrstr()); mmSendRsp(pMsg, code); } } dTrace("msg:%p, is freed, result:0x%04x:%s", pMsg, code & 0XFFFF, tstrerror(code)); rpcFreeCont(pRpc->pCont); taosFreeQitem(pMsg); } static void mmPutMsgToWorker(SSingleWorker *pWorker, SNodeMsg *pMsg) { dTrace("msg:%p, put into worker %s", pMsg, pWorker->name); taosWriteQitem(pWorker->queue, pMsg); } int32_t mmProcessWriteMsg(SMgmtWrapper *pWrapper, SNodeMsg *pMsg) { SMnodeMgmt *pMgmt = pWrapper->pMgmt; mmPutMsgToWorker(&pMgmt->writeWorker, pMsg); return 0; } int32_t mmProcessSyncMsg(SMgmtWrapper *pWrapper, SNodeMsg *pMsg) { SMnodeMgmt *pMgmt = pWrapper->pMgmt; mmPutMsgToWorker(&pMgmt->syncWorker, pMsg); return 0; } int32_t mmProcessReadMsg(SMgmtWrapper *pWrapper, SNodeMsg *pMsg) { SMnodeMgmt *pMgmt = pWrapper->pMgmt; mmPutMsgToWorker(&pMgmt->readWorker, pMsg); return 0; } int32_t mmProcessQueryMsg(SMgmtWrapper *pWrapper, SNodeMsg *pMsg) { SMnodeMgmt *pMgmt = pWrapper->pMgmt; mmPutMsgToWorker(&pMgmt->queryWorker, pMsg); return 0; } int32_t mmProcessMonitorMsg(SMgmtWrapper *pWrapper, SNodeMsg *pMsg) { SMnodeMgmt *pMgmt = pWrapper->pMgmt; mmPutMsgToWorker(&pMgmt->monitorWorker, pMsg); return 0; } static int32_t mmPutRpcMsgToWorker(SSingleWorker *pWorker, SRpcMsg *pRpc) { SNodeMsg *pMsg = taosAllocateQitem(sizeof(SNodeMsg)); if (pMsg == NULL) return -1; dTrace("msg:%p, is created and put into worker:%s, type:%s", pMsg, pWorker->name, TMSG_INFO(pRpc->msgType)); pMsg->rpcMsg = *pRpc; taosWriteQitem(pWorker->queue, pMsg); return 0; } int32_t mmPutMsgToQueryQueue(SMgmtWrapper *pWrapper, SRpcMsg *pRpc) { SMnodeMgmt *pMgmt = pWrapper->pMgmt; return mmPutRpcMsgToWorker(&pMgmt->queryWorker, pRpc); } int32_t mmPutMsgToWriteQueue(SMgmtWrapper *pWrapper, SRpcMsg *pRpc) { SMnodeMgmt *pMgmt = pWrapper->pMgmt; return mmPutRpcMsgToWorker(&pMgmt->writeWorker, pRpc); } int32_t mmPutMsgToReadQueue(SMgmtWrapper *pWrapper, SRpcMsg *pRpc) { SMnodeMgmt *pMgmt = pWrapper->pMgmt; return mmPutRpcMsgToWorker(&pMgmt->readWorker, pRpc); } int32_t mmPutMsgToSyncQueue(SMgmtWrapper *pWrapper, SRpcMsg *pRpc) { SMnodeMgmt *pMgmt = pWrapper->pMgmt; return mmPutRpcMsgToWorker(&pMgmt->syncWorker, pRpc); } int32_t mmStartWorker(SMnodeMgmt *pMgmt) { SSingleWorkerCfg qCfg = {.min = tsNumOfMnodeQueryThreads, .max = tsNumOfMnodeQueryThreads, .name = "mnode-query", .fp = (FItem)mmProcessQueryQueue, .param = pMgmt}; if (tSingleWorkerInit(&pMgmt->queryWorker, &qCfg) != 0) { dError("failed to start mnode-query worker since %s", terrstr()); return -1; } SSingleWorkerCfg rCfg = {.min = tsNumOfMnodeReadThreads, .max = tsNumOfMnodeReadThreads, .name = "mnode-read", .fp = (FItem)mmProcessQueue, .param = pMgmt}; if (tSingleWorkerInit(&pMgmt->readWorker, &rCfg) != 0) { dError("failed to start mnode-read worker since %s", terrstr()); return -1; } SSingleWorkerCfg wCfg = {.min = 1, .max = 1, .name = "mnode-write", .fp = (FItem)mmProcessQueue, .param = pMgmt}; if (tSingleWorkerInit(&pMgmt->writeWorker, &wCfg) != 0) { dError("failed to start mnode-write worker since %s", terrstr()); return -1; } SSingleWorkerCfg sCfg = {.min = 1, .max = 1, .name = "mnode-sync", .fp = (FItem)mmProcessQueue, .param = pMgmt}; if (tSingleWorkerInit(&pMgmt->syncWorker, &sCfg) != 0) { dError("failed to start mnode mnode-sync worker since %s", terrstr()); return -1; } if (tsMultiProcess) { SSingleWorkerCfg mCfg = {.min = 1, .max = 1, .name = "mnode-monitor", .fp = (FItem)mmProcessQueue, .param = pMgmt}; if (tSingleWorkerInit(&pMgmt->monitorWorker, &mCfg) != 0) { dError("failed to start mnode mnode-monitor worker since %s", terrstr()); return -1; } } dDebug("mnode workers are initialized"); return 0; } void mmStopWorker(SMnodeMgmt *pMgmt) { tSingleWorkerCleanup(&pMgmt->monitorWorker); tSingleWorkerCleanup(&pMgmt->queryWorker); tSingleWorkerCleanup(&pMgmt->readWorker); tSingleWorkerCleanup(&pMgmt->writeWorker); tSingleWorkerCleanup(&pMgmt->syncWorker); dDebug("mnode workers are closed"); }