/* * 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 "mndDnode.h" #include "mndMnode.h" #include "mndShow.h" #include "mndTrans.h" #include "ttime.h" #include "tep.h" #define TSDB_DNODE_VER 1 #define TSDB_DNODE_RESERVE_SIZE 64 #define TSDB_CONFIG_OPTION_LEN 16 #define TSDB_CONIIG_VALUE_LEN 48 #define TSDB_CONFIG_NUMBER 8 static const char *offlineReason[] = { "", "status msg timeout", "status not received", "version not match", "dnodeId not match", "clusterId not match", "interval not match", "timezone not match", "locale not match", "charset not match", "unknown", }; static const char *dnodeStatus[] = {"offline", "ready", "creating", "dropping"}; static int32_t mndCreateDefaultDnode(SMnode *pMnode); static SSdbRaw *mndDnodeActionEncode(SDnodeObj *pDnode); static SSdbRow *mndDnodeActionDecode(SSdbRaw *pRaw); static int32_t mndDnodeActionInsert(SSdb *pSdb, SDnodeObj *pDnode); static int32_t mndDnodeActionDelete(SSdb *pSdb, SDnodeObj *pDnode); static int32_t mndDnodeActionUpdate(SSdb *pSdb, SDnodeObj *pOldDnode, SDnodeObj *pNewDnode); static int32_t mndProcessCreateDnodeMsg(SMnodeMsg *pMsg); static int32_t mndProcessDropDnodeMsg(SMnodeMsg *pMsg); static int32_t mndProcessConfigDnodeMsg(SMnodeMsg *pMsg); static int32_t mndProcessConfigDnodeRsp(SMnodeMsg *pMsg); static int32_t mndProcessStatusMsg(SMnodeMsg *pMsg); static int32_t mndGetConfigMeta(SMnodeMsg *pMsg, SShowObj *pShow, STableMetaMsg *pMeta); static int32_t mndRetrieveConfigs(SMnodeMsg *pMsg, SShowObj *pShow, char *data, int32_t rows); static void mndCancelGetNextConfig(SMnode *pMnode, void *pIter); static int32_t mndGetDnodeMeta(SMnodeMsg *pMsg, SShowObj *pShow, STableMetaMsg *pMeta); static int32_t mndRetrieveDnodes(SMnodeMsg *pMsg, SShowObj *pShow, char *data, int32_t rows); static void mndCancelGetNextDnode(SMnode *pMnode, void *pIter); int32_t mndInitDnode(SMnode *pMnode) { SSdbTable table = {.sdbType = SDB_DNODE, .keyType = SDB_KEY_INT32, .deployFp = (SdbDeployFp)mndCreateDefaultDnode, .encodeFp = (SdbEncodeFp)mndDnodeActionEncode, .decodeFp = (SdbDecodeFp)mndDnodeActionDecode, .insertFp = (SdbInsertFp)mndDnodeActionInsert, .updateFp = (SdbUpdateFp)mndDnodeActionUpdate, .deleteFp = (SdbDeleteFp)mndDnodeActionDelete}; mndSetMsgHandle(pMnode, TSDB_MSG_TYPE_CREATE_DNODE, mndProcessCreateDnodeMsg); mndSetMsgHandle(pMnode, TSDB_MSG_TYPE_DROP_DNODE, mndProcessDropDnodeMsg); mndSetMsgHandle(pMnode, TSDB_MSG_TYPE_CONFIG_DNODE, mndProcessConfigDnodeMsg); mndSetMsgHandle(pMnode, TSDB_MSG_TYPE_CONFIG_DNODE_IN_RSP, mndProcessConfigDnodeRsp); mndSetMsgHandle(pMnode, TSDB_MSG_TYPE_STATUS, mndProcessStatusMsg); mndAddShowMetaHandle(pMnode, TSDB_MGMT_TABLE_VARIABLES, mndGetConfigMeta); mndAddShowRetrieveHandle(pMnode, TSDB_MGMT_TABLE_VARIABLES, mndRetrieveConfigs); mndAddShowFreeIterHandle(pMnode, TSDB_MGMT_TABLE_VARIABLES, mndCancelGetNextConfig); mndAddShowMetaHandle(pMnode, TSDB_MGMT_TABLE_DNODE, mndGetDnodeMeta); mndAddShowRetrieveHandle(pMnode, TSDB_MGMT_TABLE_DNODE, mndRetrieveDnodes); mndAddShowFreeIterHandle(pMnode, TSDB_MGMT_TABLE_DNODE, mndCancelGetNextDnode); return sdbSetTable(pMnode->pSdb, table); } void mndCleanupDnode(SMnode *pMnode) {} static int32_t mndCreateDefaultDnode(SMnode *pMnode) { SDnodeObj dnodeObj = {0}; dnodeObj.id = 1; dnodeObj.createdTime = taosGetTimestampMs(); dnodeObj.updateTime = dnodeObj.createdTime; dnodeObj.port = pMnode->replicas[0].port; memcpy(&dnodeObj.fqdn, pMnode->replicas[0].fqdn, TSDB_FQDN_LEN); SSdbRaw *pRaw = mndDnodeActionEncode(&dnodeObj); if (pRaw == NULL) return -1; sdbSetRawStatus(pRaw, SDB_STATUS_READY); mDebug("dnode:%d, will be created while deploy sdb", dnodeObj.id); return sdbWrite(pMnode->pSdb, pRaw); } static SSdbRaw *mndDnodeActionEncode(SDnodeObj *pDnode) { SSdbRaw *pRaw = sdbAllocRaw(SDB_DNODE, TSDB_DNODE_VER, sizeof(SDnodeObj) + TSDB_DNODE_RESERVE_SIZE); if (pRaw == NULL) return NULL; int32_t dataPos = 0; SDB_SET_INT32(pRaw, dataPos, pDnode->id); SDB_SET_INT64(pRaw, dataPos, pDnode->createdTime) SDB_SET_INT64(pRaw, dataPos, pDnode->updateTime) SDB_SET_INT16(pRaw, dataPos, pDnode->port) SDB_SET_BINARY(pRaw, dataPos, pDnode->fqdn, TSDB_FQDN_LEN) SDB_SET_RESERVE(pRaw, dataPos, TSDB_DNODE_RESERVE_SIZE) SDB_SET_DATALEN(pRaw, dataPos); return pRaw; } static SSdbRow *mndDnodeActionDecode(SSdbRaw *pRaw) { int8_t sver = 0; if (sdbGetRawSoftVer(pRaw, &sver) != 0) return NULL; if (sver != TSDB_DNODE_VER) { terrno = TSDB_CODE_SDB_INVALID_DATA_VER; mError("failed to decode dnode since %s", terrstr()); return NULL; } SSdbRow *pRow = sdbAllocRow(sizeof(SDnodeObj)); SDnodeObj *pDnode = sdbGetRowObj(pRow); if (pDnode == NULL) return NULL; int32_t dataPos = 0; SDB_GET_INT32(pRaw, pRow, dataPos, &pDnode->id) SDB_GET_INT64(pRaw, pRow, dataPos, &pDnode->createdTime) SDB_GET_INT64(pRaw, pRow, dataPos, &pDnode->updateTime) SDB_GET_INT16(pRaw, pRow, dataPos, &pDnode->port) SDB_GET_BINARY(pRaw, pRow, dataPos, pDnode->fqdn, TSDB_FQDN_LEN) SDB_GET_RESERVE(pRaw, pRow, dataPos, TSDB_DNODE_RESERVE_SIZE) return pRow; } static int32_t mndDnodeActionInsert(SSdb *pSdb, SDnodeObj *pDnode) { mTrace("dnode:%d, perform insert action", pDnode->id); pDnode->rebootTime = 0; pDnode->lastAccessTime = 0; pDnode->accessTimes = 0; pDnode->numOfMnodes = 0; pDnode->numOfVnodes = 0; pDnode->numOfQnodes = 0; pDnode->numOfSupportMnodes = 0; pDnode->numOfSupportVnodes = 0; pDnode->numOfSupportQnodes = 0; pDnode->numOfCores = 0; pDnode->status = DND_STATUS_OFFLINE; pDnode->offlineReason = DND_REASON_STATUS_NOT_RECEIVED; snprintf(pDnode->ep, TSDB_EP_LEN, "%s:%u", pDnode->fqdn, pDnode->port); return 0; } static int32_t mndDnodeActionDelete(SSdb *pSdb, SDnodeObj *pDnode) { mTrace("dnode:%d, perform delete action", pDnode->id); return 0; } static int32_t mndDnodeActionUpdate(SSdb *pSdb, SDnodeObj *pOldDnode, SDnodeObj *pNewDnode) { mTrace("dnode:%d, perform update action", pOldDnode->id); pOldDnode->updateTime = pNewDnode->updateTime; return 0; } SDnodeObj *mndAcquireDnode(SMnode *pMnode, int32_t dnodeId) { SSdb *pSdb = pMnode->pSdb; return sdbAcquire(pSdb, SDB_DNODE, &dnodeId); } void mndReleaseDnode(SMnode *pMnode, SDnodeObj *pDnode) { SSdb *pSdb = pMnode->pSdb; sdbRelease(pSdb, pDnode); } SEpSet mndGetDnodeEpset(SDnodeObj *pDnode) { SEpSet epSet = {.inUse = 0, .numOfEps = 1, .port[0] = pDnode->port}; memcpy(epSet.fqdn[0], pDnode->fqdn, TSDB_FQDN_LEN); return epSet; } static SDnodeObj *mndAcquireDnodeByEp(SMnode *pMnode, char *pEpStr) { SSdb *pSdb = pMnode->pSdb; void *pIter = NULL; while (1) { SDnodeObj *pDnode = NULL; pIter = sdbFetch(pSdb, SDB_DNODE, pIter, (void **)&pDnode); if (pIter == NULL) break; if (strncasecmp(pEpStr, pDnode->ep, TSDB_EP_LEN) == 0) { sdbCancelFetch(pSdb, pIter); return pDnode; } } return NULL; } int32_t mndGetDnodeSize(SMnode *pMnode) { SSdb *pSdb = pMnode->pSdb; return sdbGetSize(pSdb, SDB_DNODE); } bool mndIsDnodeInReadyStatus(SMnode *pMnode, SDnodeObj *pDnode) { int64_t ms = taosGetTimestampMs(); int64_t interval = ABS(pDnode->lastAccessTime - ms); if (interval > 3000 * pMnode->cfg.statusInterval) { return false; } return true; } static void mndGetDnodeData(SMnode *pMnode, SDnodeEps *pEps, int32_t numOfEps) { SSdb *pSdb = pMnode->pSdb; int32_t i = 0; void *pIter = NULL; while (1) { SDnodeObj *pDnode = NULL; pIter = sdbFetch(pSdb, SDB_DNODE, pIter, (void **)&pDnode); if (pIter == NULL) break; if (i >= numOfEps) { sdbCancelFetch(pSdb, pIter); sdbRelease(pSdb, pDnode); break; } SDnodeEp *pEp = &pEps->eps[i]; pEp->id = htonl(pDnode->id); pEp->port = htons(pDnode->port); memcpy(pEp->fqdn, pDnode->fqdn, TSDB_FQDN_LEN); pEp->isMnode = 0; if (mndIsMnode(pMnode, pDnode->id)) { pEp->isMnode = 1; } i++; sdbRelease(pSdb, pDnode); } pEps->num = htonl(i); } static int32_t mndCheckClusterCfgPara(SMnode *pMnode, const SClusterCfg *pCfg) { if (pCfg->statusInterval != pMnode->cfg.statusInterval) { mError("statusInterval [%d - %d] cfg inconsistent", pCfg->statusInterval, pMnode->cfg.statusInterval); return DND_REASON_STATUS_INTERVAL_NOT_MATCH; } int64_t checkTime = 0; char timestr[32] = "1970-01-01 00:00:00.00"; (void)taosParseTime(timestr, &checkTime, (int32_t)strlen(timestr), TSDB_TIME_PRECISION_MILLI, 0); if ((0 != strcasecmp(pCfg->timezone, pMnode->cfg.timezone)) && (checkTime != pCfg->checkTime)) { mError("timezone [%s - %s] [%" PRId64 " - %" PRId64 "] cfg inconsistent", pCfg->timezone, pMnode->cfg.timezone, pCfg->checkTime, checkTime); return DND_REASON_TIME_ZONE_NOT_MATCH; } if (0 != strcasecmp(pCfg->locale, pMnode->cfg.locale)) { mError("locale [%s - %s] cfg inconsistent", pCfg->locale, pMnode->cfg.locale); return DND_REASON_LOCALE_NOT_MATCH; } if (0 != strcasecmp(pCfg->charset, pMnode->cfg.charset)) { mError("charset [%s - %s] cfg inconsistent.", pCfg->charset, pMnode->cfg.charset); return DND_REASON_CHARSET_NOT_MATCH; } return 0; } static void mndParseStatusMsg(SStatusMsg *pStatus) { pStatus->sver = htonl(pStatus->sver); pStatus->dnodeId = htonl(pStatus->dnodeId); pStatus->clusterId = htonl(pStatus->clusterId); pStatus->rebootTime = htobe64(pStatus->rebootTime); pStatus->numOfCores = htons(pStatus->numOfCores); pStatus->numOfSupportMnodes = htons(pStatus->numOfSupportMnodes); pStatus->numOfSupportVnodes = htons(pStatus->numOfSupportVnodes); pStatus->numOfSupportQnodes = htons(pStatus->numOfSupportQnodes); pStatus->clusterCfg.statusInterval = htonl(pStatus->clusterCfg.statusInterval); pStatus->clusterCfg.checkTime = htobe64(pStatus->clusterCfg.checkTime); } static int32_t mndProcessStatusMsg(SMnodeMsg *pMsg) { SMnode *pMnode = pMsg->pMnode; SStatusMsg *pStatus = pMsg->rpcMsg.pCont; mndParseStatusMsg(pStatus); SDnodeObj *pDnode = NULL; if (pStatus->dnodeId == 0) { pDnode = mndAcquireDnodeByEp(pMnode, pStatus->dnodeEp); if (pDnode == NULL) { mDebug("dnode:%s, not created yet", pStatus->dnodeEp); terrno = TSDB_CODE_MND_DNODE_NOT_EXIST; return -1; } } else { pDnode = mndAcquireDnode(pMnode, pStatus->dnodeId); if (pDnode == NULL) { pDnode = mndAcquireDnodeByEp(pMnode, pStatus->dnodeEp); if (pDnode != NULL && pDnode->status != DND_STATUS_READY) { pDnode->offlineReason = DND_REASON_DNODE_ID_NOT_MATCH; } mError("dnode:%d, %s not exist", pStatus->dnodeId, pStatus->dnodeEp); mndReleaseDnode(pMnode, pDnode); terrno = TSDB_CODE_MND_DNODE_NOT_EXIST; return -1; } } if (pStatus->sver != pMnode->cfg.sver) { if (pDnode != NULL && pDnode->status != DND_STATUS_READY) { pDnode->offlineReason = DND_REASON_VERSION_NOT_MATCH; } mndReleaseDnode(pMnode, pDnode); mError("dnode:%d, status msg version:%d not match cluster:%d", pStatus->dnodeId, pStatus->sver, pMnode->cfg.sver); terrno = TSDB_CODE_MND_INVALID_MSG_VERSION; return -1; } if (pStatus->dnodeId == 0) { mDebug("dnode:%d %s, first access, set clusterId %d", pDnode->id, pDnode->ep, pMnode->clusterId); } else { if (pStatus->clusterId != pMnode->clusterId) { if (pDnode != NULL && pDnode->status != DND_STATUS_READY) { pDnode->offlineReason = DND_REASON_CLUSTER_ID_NOT_MATCH; } mError("dnode:%d, clusterId %d not match exist %d", pDnode->id, pStatus->clusterId, pMnode->clusterId); mndReleaseDnode(pMnode, pDnode); terrno != TSDB_CODE_MND_INVALID_CLUSTER_ID; return -1; } else { pDnode->accessTimes++; mTrace("dnode:%d, status received, access times %d", pDnode->id, pDnode->accessTimes); } } if (pDnode->status == DND_STATUS_OFFLINE) { // Verify whether the cluster parameters are consistent when status change from offline to ready int32_t ret = mndCheckClusterCfgPara(pMnode, &pStatus->clusterCfg); if (0 != ret) { pDnode->offlineReason = ret; mError("dnode:%d, cluster cfg inconsistent since:%s", pDnode->id, offlineReason[ret]); mndReleaseDnode(pMnode, pDnode); terrno = TSDB_CODE_MND_INVALID_CLUSTER_CFG; return -1; } mInfo("dnode:%d, from offline to online", pDnode->id); } pDnode->rebootTime = pStatus->rebootTime; pDnode->numOfCores = pStatus->numOfCores; pDnode->numOfSupportMnodes = pStatus->numOfSupportMnodes; pDnode->numOfSupportVnodes = pStatus->numOfSupportVnodes; pDnode->numOfSupportQnodes = pStatus->numOfSupportQnodes; pDnode->lastAccessTime = taosGetTimestampMs(); pDnode->status = DND_STATUS_READY; int32_t numOfEps = mndGetDnodeSize(pMnode); int32_t contLen = sizeof(SStatusRsp) + numOfEps * sizeof(SDnodeEp); SStatusRsp *pRsp = rpcMallocCont(contLen); if (pRsp == NULL) { mndReleaseDnode(pMnode, pDnode); terrno = TSDB_CODE_OUT_OF_MEMORY; return -1; } pRsp->dnodeCfg.dnodeId = htonl(pDnode->id); pRsp->dnodeCfg.dropped = 0; pRsp->dnodeCfg.clusterId = htonl(pMnode->clusterId); mndGetDnodeData(pMnode, &pRsp->dnodeEps, numOfEps); pMsg->contLen = contLen; pMsg->pCont = pRsp; mndReleaseDnode(pMnode, pDnode); return 0; } static int32_t mndCreateDnode(SMnode *pMnode, SMnodeMsg *pMsg, SCreateDnodeMsg *pCreate) { SDnodeObj dnodeObj = {0}; dnodeObj.id = sdbGetMaxId(pMnode->pSdb, SDB_DNODE); dnodeObj.createdTime = taosGetTimestampMs(); dnodeObj.updateTime = dnodeObj.createdTime; taosGetFqdnPortFromEp(pCreate->ep, dnodeObj.fqdn, &dnodeObj.port); if (dnodeObj.fqdn[0] == 0 || dnodeObj.port <= 0) { terrno = TSDB_CODE_MND_INVALID_DNODE_EP; mError("dnode:%s, failed to create since %s", pCreate->ep, terrstr()); return terrno; } STrans *pTrans = mndTransCreate(pMnode, TRN_POLICY_ROLLBACK, pMsg->rpcMsg.handle); if (pTrans == NULL) { mError("dnode:%s, failed to create since %s", pCreate->ep, terrstr()); return -1; } mDebug("trans:%d, used to create dnode:%s", pTrans->id, pCreate->ep); SSdbRaw *pRedoRaw = mndDnodeActionEncode(&dnodeObj); if (pRedoRaw == NULL || mndTransAppendRedolog(pTrans, pRedoRaw) != 0) { mError("trans:%d, failed to append redo log since %s", pTrans->id, terrstr()); mndTransDrop(pTrans); return -1; } sdbSetRawStatus(pRedoRaw, SDB_STATUS_READY); if (mndTransPrepare(pMnode, pTrans) != 0) { mError("trans:%d, failed to prepare since %s", pTrans->id, terrstr()); mndTransDrop(pTrans); return -1; } mndTransDrop(pTrans); return 0; } static int32_t mndProcessCreateDnodeMsg(SMnodeMsg *pMsg) { SMnode *pMnode = pMsg->pMnode; SCreateDnodeMsg *pCreate = pMsg->rpcMsg.pCont; mDebug("dnode:%s, start to create", pCreate->ep); if (pCreate->ep[0] == 0) { terrno = TSDB_CODE_MND_INVALID_DNODE_EP; mError("dnode:%s, failed to create since %s", pCreate->ep, terrstr()); return -1; } SDnodeObj *pDnode = mndAcquireDnodeByEp(pMnode, pCreate->ep); if (pDnode != NULL) { mError("dnode:%d, already exist", pDnode->id); mndReleaseDnode(pMnode, pDnode); terrno = TSDB_CODE_MND_DNODE_ALREADY_EXIST; return -1; } int32_t code = mndCreateDnode(pMnode, pMsg, pCreate); if (code != 0) { mError("dnode:%s, failed to create since %s", pCreate->ep, terrstr()); return -1; } return TSDB_CODE_MND_ACTION_IN_PROGRESS; } static int32_t mndDropDnode(SMnode *pMnode, SMnodeMsg *pMsg, SDnodeObj *pDnode) { STrans *pTrans = mndTransCreate(pMnode, TRN_POLICY_ROLLBACK, pMsg->rpcMsg.handle); if (pTrans == NULL) { mError("dnode:%d, failed to drop since %s", pDnode->id, terrstr()); return -1; } mDebug("trans:%d, used to drop dnode:%d", pTrans->id, pDnode->id); SSdbRaw *pRedoRaw = mndDnodeActionEncode(pDnode); if (pRedoRaw == NULL || mndTransAppendRedolog(pTrans, pRedoRaw) != 0) { mError("trans:%d, failed to append redo log since %s", pTrans->id, terrstr()); mndTransDrop(pTrans); return -1; } sdbSetRawStatus(pRedoRaw, SDB_STATUS_DROPPED); if (mndTransPrepare(pMnode, pTrans) != 0) { mError("trans:%d, failed to prepare since %s", pTrans->id, terrstr()); mndTransDrop(pTrans); return -1; } mndTransDrop(pTrans); return 0; } static int32_t mndProcessDropDnodeMsg(SMnodeMsg *pMsg) { SMnode *pMnode = pMsg->pMnode; SDropDnodeMsg *pDrop = pMsg->rpcMsg.pCont; pDrop->dnodeId = htonl(pDrop->dnodeId); mDebug("dnode:%d, start to drop", pDrop->dnodeId); if (pDrop->dnodeId <= 0) { terrno = TSDB_CODE_MND_INVALID_DNODE_ID; mError("dnode:%d, failed to drop since %s", pDrop->dnodeId, terrstr()); return -1; } SDnodeObj *pDnode = mndAcquireDnode(pMnode, pDrop->dnodeId); if (pDnode == NULL) { terrno = TSDB_CODE_MND_DNODE_NOT_EXIST; mError("dnode:%d, failed to drop since %s", pDrop->dnodeId, terrstr()); return -1; } int32_t code = mndDropDnode(pMnode, pMsg, pDnode); if (code != 0) { mndReleaseDnode(pMnode, pDnode); mError("dnode:%d, failed to drop since %s", pDrop->dnodeId, terrstr()); return -1; } mndReleaseDnode(pMnode, pDnode); return TSDB_CODE_MND_ACTION_IN_PROGRESS; } static int32_t mndProcessConfigDnodeMsg(SMnodeMsg *pMsg) { SMnode *pMnode = pMsg->pMnode; SCfgDnodeMsg *pCfg = pMsg->rpcMsg.pCont; pCfg->dnodeId = htonl(pCfg->dnodeId); SDnodeObj *pDnode = mndAcquireDnode(pMnode, pCfg->dnodeId); if (pDnode == NULL) { terrno = TSDB_CODE_MND_DNODE_NOT_EXIST; mError("dnode:%d, failed to config since %s ", pCfg->dnodeId, terrstr()); return -1; } SEpSet epSet = mndGetDnodeEpset(pDnode); mndReleaseDnode(pMnode, pDnode); SCfgDnodeMsg *pCfgDnode = rpcMallocCont(sizeof(SCfgDnodeMsg)); pCfgDnode->dnodeId = htonl(pCfg->dnodeId); memcpy(pCfgDnode->config, pCfg->config, TSDB_DNODE_CONFIG_LEN); SRpcMsg rpcMsg = {.msgType = TSDB_MSG_TYPE_CONFIG_DNODE_IN, .pCont = pCfgDnode, .contLen = sizeof(SCfgDnodeMsg), .ahandle = pMsg->rpcMsg.ahandle}; mInfo("dnode:%d, app:%p config:%s req send to dnode", pCfg->dnodeId, rpcMsg.ahandle, pCfg->config); mndSendMsgToDnode(pMnode, &epSet, &rpcMsg); return 0; } static int32_t mndProcessConfigDnodeRsp(SMnodeMsg *pMsg) { mInfo("app:%p config rsp from dnode", pMsg->rpcMsg.ahandle); } static int32_t mndGetConfigMeta(SMnodeMsg *pMsg, SShowObj *pShow, STableMetaMsg *pMeta) { int32_t cols = 0; SSchema *pSchema = pMeta->pSchema; pShow->bytes[cols] = TSDB_CONFIG_OPTION_LEN + VARSTR_HEADER_SIZE; pSchema[cols].type = TSDB_DATA_TYPE_BINARY; tstrncpy(pSchema[cols].name, "name", sizeof(pSchema[cols].name)); pSchema[cols].bytes = htons(pShow->bytes[cols]); cols++; pShow->bytes[cols] = TSDB_CONIIG_VALUE_LEN + VARSTR_HEADER_SIZE; pSchema[cols].type = TSDB_DATA_TYPE_BINARY; tstrncpy(pSchema[cols].name, "value", sizeof(pSchema[cols].name)); pSchema[cols].bytes = htons(pShow->bytes[cols]); cols++; pMeta->numOfColumns = htons(cols); pShow->numOfColumns = cols; pShow->offset[0] = 0; for (int32_t i = 1; i < cols; ++i) { pShow->offset[i] = pShow->offset[i - 1] + pShow->bytes[i - 1]; } pShow->numOfRows = TSDB_CONFIG_NUMBER; pShow->rowSize = pShow->offset[cols - 1] + pShow->bytes[cols - 1]; strcpy(pMeta->tbFname, mndShowStr(pShow->type)); return 0; } static int32_t mndRetrieveConfigs(SMnodeMsg *pMsg, SShowObj *pShow, char *data, int32_t rows) { SMnode *pMnode = pMsg->pMnode; int32_t numOfRows = 0; char *cfgOpts[TSDB_CONFIG_NUMBER] = {0}; char cfgVals[TSDB_CONFIG_NUMBER][TSDB_CONIIG_VALUE_LEN + 1] = {0}; char *pWrite; int32_t cols = 0; cfgOpts[numOfRows] = "statusInterval"; snprintf(cfgVals[numOfRows], TSDB_CONIIG_VALUE_LEN, "%d", pMnode->cfg.statusInterval); numOfRows++; cfgOpts[numOfRows] = "timezone"; snprintf(cfgVals[numOfRows], TSDB_CONIIG_VALUE_LEN, "%s", pMnode->cfg.timezone); numOfRows++; cfgOpts[numOfRows] = "locale"; snprintf(cfgVals[numOfRows], TSDB_CONIIG_VALUE_LEN, "%s", pMnode->cfg.locale); numOfRows++; cfgOpts[numOfRows] = "charset"; snprintf(cfgVals[numOfRows], TSDB_CONIIG_VALUE_LEN, "%s", pMnode->cfg.charset); numOfRows++; for (int32_t i = 0; i < numOfRows; i++) { cols = 0; pWrite = data + pShow->offset[cols] * rows + pShow->bytes[cols] * numOfRows; STR_WITH_MAXSIZE_TO_VARSTR(pWrite, cfgOpts[i], TSDB_CONFIG_OPTION_LEN); cols++; pWrite = data + pShow->offset[cols] * rows + pShow->bytes[cols] * numOfRows; STR_WITH_MAXSIZE_TO_VARSTR(pWrite, cfgVals[i], TSDB_CONIIG_VALUE_LEN); cols++; } mndVacuumResult(data, pShow->numOfColumns, numOfRows, rows, pShow); pShow->numOfReads += numOfRows; return numOfRows; } static void mndCancelGetNextConfig(SMnode *pMnode, void *pIter) {} static int32_t mndGetDnodeMeta(SMnodeMsg *pMsg, SShowObj *pShow, STableMetaMsg *pMeta) { SMnode *pMnode = pMsg->pMnode; SSdb *pSdb = pMnode->pSdb; int32_t cols = 0; SSchema *pSchema = pMeta->pSchema; pShow->bytes[cols] = 2; pSchema[cols].type = TSDB_DATA_TYPE_SMALLINT; strcpy(pSchema[cols].name, "id"); pSchema[cols].bytes = htons(pShow->bytes[cols]); cols++; pShow->bytes[cols] = TSDB_EP_LEN + VARSTR_HEADER_SIZE; pSchema[cols].type = TSDB_DATA_TYPE_BINARY; strcpy(pSchema[cols].name, "end point"); pSchema[cols].bytes = htons(pShow->bytes[cols]); cols++; pShow->bytes[cols] = 2; pSchema[cols].type = TSDB_DATA_TYPE_SMALLINT; strcpy(pSchema[cols].name, "vnodes"); pSchema[cols].bytes = htons(pShow->bytes[cols]); cols++; pShow->bytes[cols] = 2; pSchema[cols].type = TSDB_DATA_TYPE_SMALLINT; strcpy(pSchema[cols].name, "max vnodes"); pSchema[cols].bytes = htons(pShow->bytes[cols]); cols++; pShow->bytes[cols] = 10 + VARSTR_HEADER_SIZE; pSchema[cols].type = TSDB_DATA_TYPE_BINARY; strcpy(pSchema[cols].name, "status"); pSchema[cols].bytes = htons(pShow->bytes[cols]); cols++; pShow->bytes[cols] = 8; pSchema[cols].type = TSDB_DATA_TYPE_TIMESTAMP; strcpy(pSchema[cols].name, "create time"); pSchema[cols].bytes = htons(pShow->bytes[cols]); cols++; pShow->bytes[cols] = 24 + VARSTR_HEADER_SIZE; pSchema[cols].type = TSDB_DATA_TYPE_BINARY; strcpy(pSchema[cols].name, "offline reason"); pSchema[cols].bytes = htons(pShow->bytes[cols]); cols++; pMeta->numOfColumns = htons(cols); pShow->numOfColumns = cols; pShow->offset[0] = 0; for (int32_t i = 1; i < cols; ++i) { pShow->offset[i] = pShow->offset[i - 1] + pShow->bytes[i - 1]; } pShow->numOfRows = sdbGetSize(pSdb, SDB_DNODE); pShow->rowSize = pShow->offset[cols - 1] + pShow->bytes[cols - 1]; strcpy(pMeta->tbFname, mndShowStr(pShow->type)); return 0; } static int32_t mndRetrieveDnodes(SMnodeMsg *pMsg, SShowObj *pShow, char *data, int32_t rows) { SMnode *pMnode = pMsg->pMnode; SSdb *pSdb = pMnode->pSdb; int32_t numOfRows = 0; int32_t cols = 0; SDnodeObj *pDnode = NULL; char *pWrite; while (numOfRows < rows) { pShow->pIter = sdbFetch(pSdb, SDB_DNODE, pShow->pIter, (void **)&pDnode); if (pShow->pIter == NULL) break; cols = 0; pWrite = data + pShow->offset[cols] * rows + pShow->bytes[cols] * numOfRows; *(int16_t *)pWrite = pDnode->id; cols++; pWrite = data + pShow->offset[cols] * rows + pShow->bytes[cols] * numOfRows; STR_WITH_MAXSIZE_TO_VARSTR(pWrite, pDnode->ep, pShow->bytes[cols]); cols++; pWrite = data + pShow->offset[cols] * rows + pShow->bytes[cols] * numOfRows; *(int16_t *)pWrite = pDnode->numOfVnodes; cols++; pWrite = data + pShow->offset[cols] * rows + pShow->bytes[cols] * numOfRows; *(int16_t *)pWrite = pDnode->numOfSupportVnodes; cols++; pWrite = data + pShow->offset[cols] * rows + pShow->bytes[cols] * numOfRows; const char *status = dnodeStatus[pDnode->status]; STR_TO_VARSTR(pWrite, status); cols++; pWrite = data + pShow->offset[cols] * rows + pShow->bytes[cols] * numOfRows; *(int64_t *)pWrite = pDnode->createdTime; cols++; pWrite = data + pShow->offset[cols] * rows + pShow->bytes[cols] * numOfRows; if (pDnode->status == DND_STATUS_READY) { STR_TO_VARSTR(pWrite, ""); } else { STR_TO_VARSTR(pWrite, offlineReason[pDnode->offlineReason]); } cols++; numOfRows++; sdbRelease(pSdb, pDnode); } mndVacuumResult(data, pShow->numOfColumns, numOfRows, rows, pShow); pShow->numOfReads += numOfRows; return numOfRows; } static void mndCancelGetNextDnode(SMnode *pMnode, void *pIter) { SSdb *pSdb = pMnode->pSdb; sdbCancelFetch(pSdb, pIter); }