/* * 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 "dndMgmt.h" #include "dndBnode.h" #include "dndMnode.h" #include "dndQnode.h" #include "dndSnode.h" #include "dndTransport.h" #include "dndVnodes.h" #include "dndWorker.h" static void dndProcessMgmtQueue(SDnode *pDnode, SRpcMsg *pMsg); static int32_t dndReadDnodes(SDnode *pDnode); static int32_t dndWriteDnodes(SDnode *pDnode); static void *dnodeThreadRoutine(void *param); static int32_t dndProcessConfigDnodeReq(SDnode *pDnode, SRpcMsg *pReq); static void dndProcessStatusRsp(SDnode *pDnode, SRpcMsg *pRsp); static void dndProcessAuthRsp(SDnode *pDnode, SRpcMsg *pRsp); static void dndProcessGrantRsp(SDnode *pDnode, SRpcMsg *pRsp); int32_t dndGetDnodeId(SDnode *pDnode) { SDnodeMgmt *pMgmt = &pDnode->dmgmt; taosRLockLatch(&pMgmt->latch); int32_t dnodeId = pMgmt->dnodeId; taosRUnLockLatch(&pMgmt->latch); return dnodeId; } int64_t dndGetClusterId(SDnode *pDnode) { SDnodeMgmt *pMgmt = &pDnode->dmgmt; taosRLockLatch(&pMgmt->latch); int64_t clusterId = pMgmt->clusterId; taosRUnLockLatch(&pMgmt->latch); return clusterId; } void dndGetDnodeEp(SDnode *pDnode, int32_t dnodeId, char *pEp, char *pFqdn, uint16_t *pPort) { SDnodeMgmt *pMgmt = &pDnode->dmgmt; taosRLockLatch(&pMgmt->latch); SDnodeEp *pDnodeEp = taosHashGet(pMgmt->dnodeHash, &dnodeId, sizeof(int32_t)); if (pDnodeEp != NULL) { if (pPort != NULL) { *pPort = pDnodeEp->port; } if (pFqdn != NULL) { tstrncpy(pFqdn, pDnodeEp->fqdn, TSDB_FQDN_LEN); } if (pEp != NULL) { snprintf(pEp, TSDB_EP_LEN, "%s:%u", pDnodeEp->fqdn, pDnodeEp->port); } } taosRUnLockLatch(&pMgmt->latch); } void dndGetMnodeEpSet(SDnode *pDnode, SEpSet *pEpSet) { SDnodeMgmt *pMgmt = &pDnode->dmgmt; taosRLockLatch(&pMgmt->latch); *pEpSet = pMgmt->mnodeEpSet; taosRUnLockLatch(&pMgmt->latch); } void dndSendRedirectRsp(SDnode *pDnode, SRpcMsg *pReq) { tmsg_t msgType = pReq->msgType; SEpSet epSet = {0}; dndGetMnodeEpSet(pDnode, &epSet); dDebug("RPC %p, req:%s is redirected, num:%d use:%d", pReq->handle, TMSG_INFO(msgType), epSet.numOfEps, epSet.inUse); for (int32_t i = 0; i < epSet.numOfEps; ++i) { dDebug("mnode index:%d %s:%u", i, epSet.fqdn[i], epSet.port[i]); if (strcmp(epSet.fqdn[i], pDnode->opt.localFqdn) == 0 && epSet.port[i] == pDnode->opt.serverPort) { epSet.inUse = (i + 1) % epSet.numOfEps; } epSet.port[i] = htons(epSet.port[i]); } rpcSendRedirectRsp(pReq->handle, &epSet); } static void dndUpdateMnodeEpSet(SDnode *pDnode, SEpSet *pEpSet) { dInfo("mnode is changed, num:%d use:%d", pEpSet->numOfEps, pEpSet->inUse); SDnodeMgmt *pMgmt = &pDnode->dmgmt; taosWLockLatch(&pMgmt->latch); pMgmt->mnodeEpSet = *pEpSet; for (int32_t i = 0; i < pEpSet->numOfEps; ++i) { dInfo("mnode index:%d %s:%u", i, pEpSet->fqdn[i], pEpSet->port[i]); } taosWUnLockLatch(&pMgmt->latch); } static void dndPrintDnodes(SDnode *pDnode) { SDnodeMgmt *pMgmt = &pDnode->dmgmt; dDebug("print dnode ep list, num:%d", pMgmt->dnodeEps->num); for (int32_t i = 0; i < pMgmt->dnodeEps->num; i++) { SDnodeEp *pEp = &pMgmt->dnodeEps->eps[i]; dDebug("dnode:%d, fqdn:%s port:%u isMnode:%d", pEp->id, pEp->fqdn, pEp->port, pEp->isMnode); } } static void dndResetDnodes(SDnode *pDnode, SDnodeEps *pDnodeEps) { SDnodeMgmt *pMgmt = &pDnode->dmgmt; int32_t size = sizeof(SDnodeEps) + pDnodeEps->num * sizeof(SDnodeEp); if (pDnodeEps->num > pMgmt->dnodeEps->num) { SDnodeEps *tmp = calloc(1, size); if (tmp == NULL) return; tfree(pMgmt->dnodeEps); pMgmt->dnodeEps = tmp; } if (pMgmt->dnodeEps != pDnodeEps) { memcpy(pMgmt->dnodeEps, pDnodeEps, size); } pMgmt->mnodeEpSet.inUse = 0; pMgmt->mnodeEpSet.numOfEps = 0; int32_t mIndex = 0; for (int32_t i = 0; i < pMgmt->dnodeEps->num; i++) { SDnodeEp *pDnodeEp = &pMgmt->dnodeEps->eps[i]; if (!pDnodeEp->isMnode) continue; if (mIndex >= TSDB_MAX_REPLICA) continue; pMgmt->mnodeEpSet.numOfEps++; strcpy(pMgmt->mnodeEpSet.fqdn[mIndex], pDnodeEp->fqdn); pMgmt->mnodeEpSet.port[mIndex] = pDnodeEp->port; mIndex++; } for (int32_t i = 0; i < pMgmt->dnodeEps->num; ++i) { SDnodeEp *pDnodeEp = &pMgmt->dnodeEps->eps[i]; taosHashPut(pMgmt->dnodeHash, &pDnodeEp->id, sizeof(int32_t), pDnodeEp, sizeof(SDnodeEp)); } dndPrintDnodes(pDnode); } static bool dndIsEpChanged(SDnode *pDnode, int32_t dnodeId, char *pEp) { bool changed = false; SDnodeMgmt *pMgmt = &pDnode->dmgmt; taosRLockLatch(&pMgmt->latch); SDnodeEp *pDnodeEp = taosHashGet(pMgmt->dnodeHash, &dnodeId, sizeof(int32_t)); if (pDnodeEp != NULL) { char epstr[TSDB_EP_LEN + 1]; snprintf(epstr, TSDB_EP_LEN, "%s:%u", pDnodeEp->fqdn, pDnodeEp->port); changed = strcmp(pEp, epstr) != 0; } taosRUnLockLatch(&pMgmt->latch); return changed; } static int32_t dndReadDnodes(SDnode *pDnode) { SDnodeMgmt *pMgmt = &pDnode->dmgmt; int32_t code = TSDB_CODE_DND_DNODE_READ_FILE_ERROR; int32_t len = 0; int32_t maxLen = 256 * 1024; char *content = calloc(1, maxLen + 1); cJSON *root = NULL; FILE *fp = NULL; fp = fopen(pMgmt->file, "r"); if (fp == NULL) { dDebug("file %s not exist", pMgmt->file); code = 0; goto PRASE_DNODE_OVER; } len = (int32_t)fread(content, 1, maxLen, fp); if (len <= 0) { dError("failed to read %s since content is null", pMgmt->file); goto PRASE_DNODE_OVER; } content[len] = 0; root = cJSON_Parse(content); if (root == NULL) { dError("failed to read %s since invalid json format", pMgmt->file); goto PRASE_DNODE_OVER; } cJSON *dnodeId = cJSON_GetObjectItem(root, "dnodeId"); if (!dnodeId || dnodeId->type != cJSON_Number) { dError("failed to read %s since dnodeId not found", pMgmt->file); goto PRASE_DNODE_OVER; } pMgmt->dnodeId = dnodeId->valueint; cJSON *clusterId = cJSON_GetObjectItem(root, "clusterId"); if (!clusterId || clusterId->type != cJSON_String) { dError("failed to read %s since clusterId not found", pMgmt->file); goto PRASE_DNODE_OVER; } pMgmt->clusterId = atoll(clusterId->valuestring); cJSON *dropped = cJSON_GetObjectItem(root, "dropped"); if (!dropped || dropped->type != cJSON_Number) { dError("failed to read %s since dropped not found", pMgmt->file); goto PRASE_DNODE_OVER; } pMgmt->dropped = dropped->valueint; cJSON *dnodes = cJSON_GetObjectItem(root, "dnodes"); if (!dnodes || dnodes->type != cJSON_Array) { dError("failed to read %s since dnodes not found", pMgmt->file); goto PRASE_DNODE_OVER; } int32_t numOfDnodes = cJSON_GetArraySize(dnodes); if (numOfDnodes <= 0) { dError("failed to read %s since numOfDnodes:%d invalid", pMgmt->file, numOfDnodes); goto PRASE_DNODE_OVER; } pMgmt->dnodeEps = calloc(1, numOfDnodes * sizeof(SDnodeEp) + sizeof(SDnodeEps)); if (pMgmt->dnodeEps == NULL) { dError("failed to calloc dnodeEpList since %s", strerror(errno)); goto PRASE_DNODE_OVER; } pMgmt->dnodeEps->num = numOfDnodes; for (int32_t i = 0; i < numOfDnodes; ++i) { cJSON *node = cJSON_GetArrayItem(dnodes, i); if (node == NULL) break; SDnodeEp *pDnodeEp = &pMgmt->dnodeEps->eps[i]; cJSON *dnodeId = cJSON_GetObjectItem(node, "id"); if (!dnodeId || dnodeId->type != cJSON_Number) { dError("failed to read %s since dnodeId not found", pMgmt->file); goto PRASE_DNODE_OVER; } pDnodeEp->id = dnodeId->valueint; cJSON *dnodeFqdn = cJSON_GetObjectItem(node, "fqdn"); if (!dnodeFqdn || dnodeFqdn->type != cJSON_String || dnodeFqdn->valuestring == NULL) { dError("failed to read %s since dnodeFqdn not found", pMgmt->file); goto PRASE_DNODE_OVER; } tstrncpy(pDnodeEp->fqdn, dnodeFqdn->valuestring, TSDB_FQDN_LEN); cJSON *dnodePort = cJSON_GetObjectItem(node, "port"); if (!dnodePort || dnodePort->type != cJSON_Number) { dError("failed to read %s since dnodePort not found", pMgmt->file); goto PRASE_DNODE_OVER; } pDnodeEp->port = dnodePort->valueint; cJSON *isMnode = cJSON_GetObjectItem(node, "isMnode"); if (!isMnode || isMnode->type != cJSON_Number) { dError("failed to read %s since isMnode not found", pMgmt->file); goto PRASE_DNODE_OVER; } pDnodeEp->isMnode = isMnode->valueint; } code = 0; dInfo("succcessed to read file %s", pMgmt->file); dndPrintDnodes(pDnode); PRASE_DNODE_OVER: if (content != NULL) free(content); if (root != NULL) cJSON_Delete(root); if (fp != NULL) fclose(fp); if (dndIsEpChanged(pDnode, pMgmt->dnodeId, pDnode->opt.localEp)) { dError("localEp %s different with %s and need reconfigured", pDnode->opt.localEp, pMgmt->file); return -1; } if (pMgmt->dnodeEps == NULL) { pMgmt->dnodeEps = calloc(1, sizeof(SDnodeEps) + sizeof(SDnodeEp)); pMgmt->dnodeEps->num = 1; pMgmt->dnodeEps->eps[0].isMnode = 1; taosGetFqdnPortFromEp(pDnode->opt.firstEp, pMgmt->dnodeEps->eps[0].fqdn, &pMgmt->dnodeEps->eps[0].port); } dndResetDnodes(pDnode, pMgmt->dnodeEps); terrno = 0; return 0; } static int32_t dndWriteDnodes(SDnode *pDnode) { SDnodeMgmt *pMgmt = &pDnode->dmgmt; FILE *fp = fopen(pMgmt->file, "w"); if (fp == NULL) { dError("failed to write %s since %s", pMgmt->file, strerror(errno)); terrno = TAOS_SYSTEM_ERROR(errno); return -1; } int32_t len = 0; int32_t maxLen = 256 * 1024; char *content = calloc(1, maxLen + 1); len += snprintf(content + len, maxLen - len, "{\n"); len += snprintf(content + len, maxLen - len, " \"dnodeId\": %d,\n", pMgmt->dnodeId); len += snprintf(content + len, maxLen - len, " \"clusterId\": \"%" PRId64 "\",\n", pMgmt->clusterId); len += snprintf(content + len, maxLen - len, " \"dropped\": %d,\n", pMgmt->dropped); len += snprintf(content + len, maxLen - len, " \"dnodes\": [{\n"); for (int32_t i = 0; i < pMgmt->dnodeEps->num; ++i) { SDnodeEp *pDnodeEp = &pMgmt->dnodeEps->eps[i]; len += snprintf(content + len, maxLen - len, " \"id\": %d,\n", pDnodeEp->id); len += snprintf(content + len, maxLen - len, " \"fqdn\": \"%s\",\n", pDnodeEp->fqdn); len += snprintf(content + len, maxLen - len, " \"port\": %u,\n", pDnodeEp->port); len += snprintf(content + len, maxLen - len, " \"isMnode\": %d\n", pDnodeEp->isMnode); if (i < pMgmt->dnodeEps->num - 1) { len += snprintf(content + len, maxLen - len, " },{\n"); } else { len += snprintf(content + len, maxLen - len, " }]\n"); } } len += snprintf(content + len, maxLen - len, "}\n"); fwrite(content, 1, len, fp); taosFsyncFile(fileno(fp)); fclose(fp); free(content); terrno = 0; pMgmt->updateTime = taosGetTimestampMs(); dDebug("successed to write %s", pMgmt->file); return 0; } void dndSendStatusReq(SDnode *pDnode) { int32_t contLen = sizeof(SStatusReq) + TSDB_MAX_VNODES * sizeof(SVnodeLoad); SStatusReq *pStatus = rpcMallocCont(contLen); if (pStatus == NULL) { dError("failed to malloc status message"); return; } SDnodeMgmt *pMgmt = &pDnode->dmgmt; taosRLockLatch(&pMgmt->latch); pStatus->sver = htonl(pDnode->opt.sver); pStatus->dver = htobe64(pMgmt->dver); pStatus->dnodeId = htonl(pMgmt->dnodeId); pStatus->clusterId = htobe64(pMgmt->clusterId); pStatus->rebootTime = htobe64(pMgmt->rebootTime); pStatus->updateTime = htobe64(pMgmt->updateTime); pStatus->numOfCores = htonl(pDnode->opt.numOfCores); pStatus->numOfSupportVnodes = htonl(pDnode->opt.numOfSupportVnodes); tstrncpy(pStatus->dnodeEp, pDnode->opt.localEp, TSDB_EP_LEN); pStatus->clusterCfg.statusInterval = htonl(pDnode->opt.statusInterval); pStatus->clusterCfg.checkTime = 0; char timestr[32] = "1970-01-01 00:00:00.00"; (void)taosParseTime(timestr, &pStatus->clusterCfg.checkTime, (int32_t)strlen(timestr), TSDB_TIME_PRECISION_MILLI, 0); pStatus->clusterCfg.checkTime = htonl(pStatus->clusterCfg.checkTime); tstrncpy(pStatus->clusterCfg.timezone, pDnode->opt.timezone, TSDB_TIMEZONE_LEN); tstrncpy(pStatus->clusterCfg.locale, pDnode->opt.locale, TSDB_LOCALE_LEN); tstrncpy(pStatus->clusterCfg.charset, pDnode->opt.charset, TSDB_LOCALE_LEN); taosRUnLockLatch(&pMgmt->latch); dndGetVnodeLoads(pDnode, &pStatus->vnodeLoads); contLen = sizeof(SStatusReq) + pStatus->vnodeLoads.num * sizeof(SVnodeLoad); SRpcMsg rpcMsg = {.pCont = pStatus, .contLen = contLen, .msgType = TDMT_MND_STATUS, .ahandle = (void *)9527}; pMgmt->statusSent = 1; dTrace("pDnode:%p, send status req to mnode", pDnode); dndSendReqToMnode(pDnode, &rpcMsg); } static void dndUpdateDnodeCfg(SDnode *pDnode, SDnodeCfg *pCfg) { SDnodeMgmt *pMgmt = &pDnode->dmgmt; if (pMgmt->dnodeId == 0) { dInfo("set dnodeId:%d clusterId:%" PRId64, pCfg->dnodeId, pCfg->clusterId); taosWLockLatch(&pMgmt->latch); pMgmt->dnodeId = pCfg->dnodeId; pMgmt->clusterId = pCfg->clusterId; dndWriteDnodes(pDnode); taosWUnLockLatch(&pMgmt->latch); } } static void dndUpdateDnodeEps(SDnode *pDnode, SDnodeEps *pDnodeEps) { if (pDnodeEps == NULL || pDnodeEps->num <= 0) return; SDnodeMgmt *pMgmt = &pDnode->dmgmt; taosWLockLatch(&pMgmt->latch); if (pDnodeEps->num != pMgmt->dnodeEps->num) { dndResetDnodes(pDnode, pDnodeEps); dndWriteDnodes(pDnode); } else { int32_t size = pDnodeEps->num * sizeof(SDnodeEp) + sizeof(SDnodeEps); if (memcmp(pMgmt->dnodeEps, pDnodeEps, size) != 0) { dndResetDnodes(pDnode, pDnodeEps); dndWriteDnodes(pDnode); } } taosWUnLockLatch(&pMgmt->latch); } static void dndProcessStatusRsp(SDnode *pDnode, SRpcMsg *pRsp) { SDnodeMgmt *pMgmt = &pDnode->dmgmt; if (pRsp->code != TSDB_CODE_SUCCESS) { pMgmt->statusSent = 0; if (pRsp->code == TSDB_CODE_MND_DNODE_NOT_EXIST && !pMgmt->dropped && pMgmt->dnodeId > 0) { dInfo("dnode:%d, set to dropped since not exist in mnode", pMgmt->dnodeId); pMgmt->dropped = 1; dndWriteDnodes(pDnode); } return; } if (pRsp->pCont != NULL && pRsp->contLen != 0) { SStatusRsp *pStatus = pRsp->pCont; pMgmt->dver = htobe64(pStatus->dver); SDnodeCfg *pCfg = &pStatus->dnodeCfg; pCfg->dnodeId = htonl(pCfg->dnodeId); pCfg->clusterId = htobe64(pCfg->clusterId); dndUpdateDnodeCfg(pDnode, pCfg); SDnodeEps *pDnodeEps = &pStatus->dnodeEps; pDnodeEps->num = htonl(pDnodeEps->num); for (int32_t i = 0; i < pDnodeEps->num; ++i) { pDnodeEps->eps[i].id = htonl(pDnodeEps->eps[i].id); pDnodeEps->eps[i].port = htons(pDnodeEps->eps[i].port); } dndUpdateDnodeEps(pDnode, pDnodeEps); } pMgmt->statusSent = 0; } static void dndProcessAuthRsp(SDnode *pDnode, SRpcMsg *pReq) { dError("auth rsp is received, but not supported yet"); } static void dndProcessGrantRsp(SDnode *pDnode, SRpcMsg *pReq) { dError("grant rsp is received, but not supported yet"); } static int32_t dndProcessConfigDnodeReq(SDnode *pDnode, SRpcMsg *pReq) { dError("config req is received, but not supported yet"); SDCfgDnodeReq *pCfg = pReq->pCont; return TSDB_CODE_OPS_NOT_SUPPORT; } void dndProcessStartupReq(SDnode *pDnode, SRpcMsg *pReq) { dDebug("startup req is received"); SStartupReq *pStartup = rpcMallocCont(sizeof(SStartupReq)); dndGetStartup(pDnode, pStartup); dDebug("startup req is sent, step:%s desc:%s finished:%d", pStartup->name, pStartup->desc, pStartup->finished); SRpcMsg rpcRsp = {.handle = pReq->handle, .pCont = pStartup, .contLen = sizeof(SStartupReq)}; rpcSendResponse(&rpcRsp); } static void *dnodeThreadRoutine(void *param) { SDnode *pDnode = param; SDnodeMgmt *pMgmt = &pDnode->dmgmt; int32_t ms = pDnode->opt.statusInterval * 1000; while (true) { pthread_testcancel(); taosMsleep(ms); if (dndGetStat(pDnode) == DND_STAT_RUNNING && !pMgmt->statusSent && !pMgmt->dropped) { dndSendStatusReq(pDnode); } } } int32_t dndInitMgmt(SDnode *pDnode) { SDnodeMgmt *pMgmt = &pDnode->dmgmt; pMgmt->dnodeId = 0; pMgmt->rebootTime = taosGetTimestampMs(); pMgmt->dropped = 0; pMgmt->clusterId = 0; taosInitRWLatch(&pMgmt->latch); char path[PATH_MAX]; snprintf(path, PATH_MAX, "%s/dnode.json", pDnode->dir.dnode); pMgmt->file = strdup(path); if (pMgmt->file == NULL) { terrno = TSDB_CODE_OUT_OF_MEMORY; return -1; } pMgmt->dnodeHash = taosHashInit(4, taosGetDefaultHashFunction(TSDB_DATA_TYPE_INT), true, HASH_NO_LOCK); if (pMgmt->dnodeHash == NULL) { dError("failed to init dnode hash"); terrno = TSDB_CODE_OUT_OF_MEMORY; return -1; } if (dndReadDnodes(pDnode) != 0) { dError("failed to read file:%s since %s", pMgmt->file, terrstr()); return -1; } if (pMgmt->dropped) { dError("dnode will not start for its already dropped"); return -1; } if (dndInitWorker(pDnode, &pMgmt->mgmtWorker, DND_WORKER_SINGLE, "dnode-mgmt", 1, 1, dndProcessMgmtQueue) != 0) { dError("failed to start dnode mgmt worker since %s", terrstr()); return -1; } pMgmt->threadId = taosCreateThread(dnodeThreadRoutine, pDnode); if (pMgmt->threadId == NULL) { dError("failed to init dnode thread"); terrno = TSDB_CODE_OUT_OF_MEMORY; return -1; } dInfo("dnode-mgmt is initialized"); return 0; } void dndStopMgmt(SDnode *pDnode) { SDnodeMgmt *pMgmt = &pDnode->dmgmt; dndCleanupWorker(&pMgmt->mgmtWorker); if (pMgmt->threadId != NULL) { taosDestoryThread(pMgmt->threadId); pMgmt->threadId = NULL; } } void dndCleanupMgmt(SDnode *pDnode) { SDnodeMgmt *pMgmt = &pDnode->dmgmt; taosWLockLatch(&pMgmt->latch); if (pMgmt->dnodeEps != NULL) { free(pMgmt->dnodeEps); pMgmt->dnodeEps = NULL; } if (pMgmt->dnodeHash != NULL) { taosHashCleanup(pMgmt->dnodeHash); pMgmt->dnodeHash = NULL; } if (pMgmt->file != NULL) { free(pMgmt->file); pMgmt->file = NULL; } taosWUnLockLatch(&pMgmt->latch); dInfo("dnode-mgmt is cleaned up"); } void dndProcessMgmtMsg(SDnode *pDnode, SRpcMsg *pMsg, SEpSet *pEpSet) { SDnodeMgmt *pMgmt = &pDnode->dmgmt; if (pEpSet && pEpSet->numOfEps > 0 && pMsg->msgType == TDMT_MND_STATUS_RSP) { dndUpdateMnodeEpSet(pDnode, pEpSet); } if (dndWriteMsgToWorker(&pMgmt->mgmtWorker, pMsg, sizeof(SRpcMsg)) != 0) { if (pMsg->msgType & 1u) { SRpcMsg rsp = {.handle = pMsg->handle, .code = TSDB_CODE_OUT_OF_MEMORY}; rpcSendResponse(&rsp); } rpcFreeCont(pMsg->pCont); taosFreeQitem(pMsg); } } static void dndProcessMgmtQueue(SDnode *pDnode, SRpcMsg *pMsg) { int32_t code = 0; switch (pMsg->msgType) { case TDMT_DND_CREATE_MNODE: code = dndProcessCreateMnodeReq(pDnode, pMsg); break; case TDMT_DND_ALTER_MNODE: code = dndProcessAlterMnodeReq(pDnode, pMsg); break; case TDMT_DND_DROP_MNODE: code = dndProcessDropMnodeReq(pDnode, pMsg); break; case TDMT_DND_CREATE_QNODE: code = dndProcessCreateQnodeReq(pDnode, pMsg); break; case TDMT_DND_DROP_QNODE: code = dndProcessDropQnodeReq(pDnode, pMsg); break; case TDMT_DND_CREATE_SNODE: code = dndProcessCreateSnodeReq(pDnode, pMsg); break; case TDMT_DND_DROP_SNODE: code = dndProcessDropSnodeReq(pDnode, pMsg); break; case TDMT_DND_CREATE_BNODE: code = dndProcessCreateBnodeReq(pDnode, pMsg); break; case TDMT_DND_DROP_BNODE: code = dndProcessDropBnodeReq(pDnode, pMsg); break; case TDMT_DND_CONFIG_DNODE: code = dndProcessConfigDnodeReq(pDnode, pMsg); break; case TDMT_MND_STATUS_RSP: dndProcessStatusRsp(pDnode, pMsg); break; case TDMT_MND_AUTH_RSP: dndProcessAuthRsp(pDnode, pMsg); break; case TDMT_MND_GRANT_RSP: dndProcessGrantRsp(pDnode, pMsg); break; case TDMT_DND_CREATE_VNODE: code = dndProcessCreateVnodeReq(pDnode, pMsg); break; case TDMT_DND_ALTER_VNODE: code = dndProcessAlterVnodeReq(pDnode, pMsg); break; case TDMT_DND_DROP_VNODE: code = dndProcessDropVnodeReq(pDnode, pMsg); break; case TDMT_DND_AUTH_VNODE: code = dndProcessAuthVnodeReq(pDnode, pMsg); break; case TDMT_DND_SYNC_VNODE: code = dndProcessSyncVnodeReq(pDnode, pMsg); break; case TDMT_DND_COMPACT_VNODE: code = dndProcessCompactVnodeReq(pDnode, pMsg); break; default: terrno = TSDB_CODE_MSG_NOT_PROCESSED; code = -1; dError("RPC %p, dnode msg:%s not processed", pMsg->handle, TMSG_INFO(pMsg->msgType)); break; } if (pMsg->msgType & 1u) { if (code != 0) code = terrno; SRpcMsg rsp = {.code = code, .handle = pMsg->handle, .ahandle = pMsg->ahandle}; rpcSendResponse(&rsp); } rpcFreeCont(pMsg->pCont); pMsg->pCont = NULL; taosFreeQitem(pMsg); }