/* * 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 "mndAcct.h" #include "mndAuth.h" #include "mndBnode.h" #include "mndCluster.h" #include "mndConsumer.h" #include "mndDb.h" #include "mndDnode.h" #include "mndFunc.h" #include "mndGrant.h" #include "mndInfoSchema.h" #include "mndMnode.h" #include "mndOffset.h" #include "mndPerfSchema.h" #include "mndProfile.h" #include "mndQnode.h" #include "mndQuery.h" #include "mndShow.h" #include "mndSma.h" #include "mndSnode.h" #include "mndStb.h" #include "mndStream.h" #include "mndSubscribe.h" #include "mndSync.h" #include "mndTelem.h" #include "mndTopic.h" #include "mndTrans.h" #include "mndUser.h" #include "mndVgroup.h" static void *mndBuildTimerMsg(int32_t *pContLen) { SMTimerReq timerReq = {0}; int32_t contLen = tSerializeSMTimerMsg(NULL, 0, &timerReq); if (contLen <= 0) return NULL; void *pReq = rpcMallocCont(contLen); if (pReq == NULL) return NULL; tSerializeSMTimerMsg(pReq, contLen, &timerReq); *pContLen = contLen; return pReq; } static void mndPullupTrans(SMnode *pMnode) { int32_t contLen = 0; void *pReq = mndBuildTimerMsg(&contLen); SRpcMsg rpcMsg = {.msgType = TDMT_MND_TRANS_TIMER, .pCont = pReq, .contLen = contLen}; tmsgPutToQueue(&pMnode->msgCb, WRITE_QUEUE, &rpcMsg); } static void mndCalMqRebalance(SMnode *pMnode) { int32_t contLen = 0; void *pReq = mndBuildTimerMsg(&contLen); SRpcMsg rpcMsg = {.msgType = TDMT_MND_MQ_TIMER, .pCont = pReq, .contLen = contLen}; tmsgPutToQueue(&pMnode->msgCb, READ_QUEUE, &rpcMsg); } static void mndPullupTelem(SMnode *pMnode) { int32_t contLen = 0; void *pReq = mndBuildTimerMsg(&contLen); SRpcMsg rpcMsg = {.msgType = TDMT_MND_TELEM_TIMER, .pCont = pReq, .contLen = contLen}; tmsgPutToQueue(&pMnode->msgCb, READ_QUEUE, &rpcMsg); } static void *mndThreadFp(void *param) { SMnode *pMnode = param; int64_t lastTime = 0; setThreadName("mnode-timer"); while (1) { lastTime++; taosMsleep(100); if (pMnode->stopped) break; if (!mndIsMaster(pMnode)) continue; if (lastTime % (tsTransPullupInterval * 10) == 0) { mndPullupTrans(pMnode); } if (lastTime % (tsMqRebalanceInterval * 10) == 0) { mndCalMqRebalance(pMnode); } if (lastTime % (tsTelemInterval * 10) == 0) { mndPullupTelem(pMnode); } } return NULL; } static int32_t mndInitTimer(SMnode *pMnode) { TdThreadAttr thAttr; taosThreadAttrInit(&thAttr); taosThreadAttrSetDetachState(&thAttr, PTHREAD_CREATE_JOINABLE); if (taosThreadCreate(&pMnode->thread, &thAttr, mndThreadFp, pMnode) != 0) { mError("failed to create timer thread since %s", strerror(errno)); return -1; } taosThreadAttrDestroy(&thAttr); tmsgReportStartup("mnode-timer", "initialized"); return 0; } static void mndCleanupTimer(SMnode *pMnode) { pMnode->stopped = true; if (taosCheckPthreadValid(pMnode->thread)) { taosThreadJoin(pMnode->thread, NULL); taosThreadClear(&pMnode->thread); } } static int32_t mndCreateDir(SMnode *pMnode, const char *path) { pMnode->path = strdup(path); if (pMnode->path == NULL) { terrno = TSDB_CODE_OUT_OF_MEMORY; return -1; } if (taosMkDir(pMnode->path) != 0) { terrno = TAOS_SYSTEM_ERROR(errno); return -1; } return 0; } static int32_t mndInitSdb(SMnode *pMnode) { SSdbOpt opt = {0}; opt.path = pMnode->path; opt.pMnode = pMnode; pMnode->pSdb = sdbInit(&opt); if (pMnode->pSdb == NULL) { return -1; } return 0; } static int32_t mndDeploySdb(SMnode *pMnode) { return sdbDeploy(pMnode->pSdb); } static int32_t mndReadSdb(SMnode *pMnode) { return sdbReadFile(pMnode->pSdb); } static void mndCleanupSdb(SMnode *pMnode) { if (pMnode->pSdb) { sdbCleanup(pMnode->pSdb); pMnode->pSdb = NULL; } } static int32_t mndAllocStep(SMnode *pMnode, char *name, MndInitFp initFp, MndCleanupFp cleanupFp) { SMnodeStep step = {0}; step.name = name; step.initFp = initFp; step.cleanupFp = cleanupFp; if (taosArrayPush(pMnode->pSteps, &step) == NULL) { terrno = TSDB_CODE_OUT_OF_MEMORY; return -1; } return 0; } static int32_t mndInitSteps(SMnode *pMnode, bool deploy) { if (mndAllocStep(pMnode, "mnode-sdb", mndInitSdb, mndCleanupSdb) != 0) return -1; if (mndAllocStep(pMnode, "mnode-trans", mndInitTrans, mndCleanupTrans) != 0) return -1; if (mndAllocStep(pMnode, "mnode-cluster", mndInitCluster, mndCleanupCluster) != 0) return -1; if (mndAllocStep(pMnode, "mnode-mnode", mndInitMnode, mndCleanupMnode) != 0) return -1; if (mndAllocStep(pMnode, "mnode-qnode", mndInitQnode, mndCleanupQnode) != 0) return -1; if (mndAllocStep(pMnode, "mnode-qnode", mndInitSnode, mndCleanupSnode) != 0) return -1; if (mndAllocStep(pMnode, "mnode-qnode", mndInitBnode, mndCleanupBnode) != 0) return -1; if (mndAllocStep(pMnode, "mnode-dnode", mndInitDnode, mndCleanupDnode) != 0) return -1; if (mndAllocStep(pMnode, "mnode-user", mndInitUser, mndCleanupUser) != 0) return -1; if (mndAllocStep(pMnode, "mnode-grant", mndInitGrant, mndCleanupGrant) != 0) return -1; if (mndAllocStep(pMnode, "mnode-auth", mndInitAuth, mndCleanupAuth) != 0) return -1; if (mndAllocStep(pMnode, "mnode-acct", mndInitAcct, mndCleanupAcct) != 0) return -1; if (mndAllocStep(pMnode, "mnode-stream", mndInitStream, mndCleanupStream) != 0) return -1; if (mndAllocStep(pMnode, "mnode-topic", mndInitTopic, mndCleanupTopic) != 0) return -1; if (mndAllocStep(pMnode, "mnode-consumer", mndInitConsumer, mndCleanupConsumer) != 0) return -1; if (mndAllocStep(pMnode, "mnode-subscribe", mndInitSubscribe, mndCleanupSubscribe) != 0) return -1; if (mndAllocStep(pMnode, "mnode-offset", mndInitOffset, mndCleanupOffset) != 0) return -1; if (mndAllocStep(pMnode, "mnode-vgroup", mndInitVgroup, mndCleanupVgroup) != 0) return -1; if (mndAllocStep(pMnode, "mnode-stb", mndInitStb, mndCleanupStb) != 0) return -1; if (mndAllocStep(pMnode, "mnode-stb", mndInitSma, mndCleanupSma) != 0) return -1; if (mndAllocStep(pMnode, "mnode-infos", mndInitInfos, mndCleanupInfos) != 0) return -1; if (mndAllocStep(pMnode, "mnode-perfs", mndInitPerfs, mndCleanupPerfs) != 0) return -1; if (mndAllocStep(pMnode, "mnode-db", mndInitDb, mndCleanupDb) != 0) return -1; if (mndAllocStep(pMnode, "mnode-func", mndInitFunc, mndCleanupFunc) != 0) return -1; if (deploy) { if (mndAllocStep(pMnode, "mnode-sdb-deploy", mndDeploySdb, NULL) != 0) return -1; } else { if (mndAllocStep(pMnode, "mnode-sdb-read", mndReadSdb, NULL) != 0) return -1; } if (mndAllocStep(pMnode, "mnode-profile", mndInitProfile, mndCleanupProfile) != 0) return -1; if (mndAllocStep(pMnode, "mnode-show", mndInitShow, mndCleanupShow) != 0) return -1; if (mndAllocStep(pMnode, "mnode-query", mndInitQuery, mndCleanupQuery) != 0) return -1; if (mndAllocStep(pMnode, "mnode-sync", mndInitSync, mndCleanupSync) != 0) return -1; if (mndAllocStep(pMnode, "mnode-telem", mndInitTelem, mndCleanupTelem) != 0) return -1; return 0; } static void mndCleanupSteps(SMnode *pMnode, int32_t pos) { if (pMnode->pSteps == NULL) return; if (pos == -1) { pos = taosArrayGetSize(pMnode->pSteps) - 1; } for (int32_t s = pos; s >= 0; s--) { SMnodeStep *pStep = taosArrayGet(pMnode->pSteps, s); mDebug("%s will cleanup", pStep->name); if (pStep->cleanupFp != NULL) { (*pStep->cleanupFp)(pMnode); } } taosArrayClear(pMnode->pSteps); taosArrayDestroy(pMnode->pSteps); pMnode->pSteps = NULL; } static int32_t mndExecSteps(SMnode *pMnode) { int32_t size = taosArrayGetSize(pMnode->pSteps); for (int32_t pos = 0; pos < size; pos++) { SMnodeStep *pStep = taosArrayGet(pMnode->pSteps, pos); if (pStep->initFp == NULL) continue; if ((*pStep->initFp)(pMnode) != 0) { int32_t code = terrno; mError("%s exec failed since %s, start to cleanup", pStep->name, terrstr()); mndCleanupSteps(pMnode, pos); terrno = code; return -1; } else { mDebug("%s is initialized", pStep->name); tmsgReportStartup(pStep->name, "initialized"); } } pMnode->clusterId = mndGetClusterId(pMnode); return 0; } static void mndSetOptions(SMnode *pMnode, const SMnodeOpt *pOption) { pMnode->replica = pOption->replica; pMnode->selfIndex = pOption->selfIndex; memcpy(&pMnode->replicas, pOption->replicas, sizeof(SReplica) * TSDB_MAX_REPLICA); pMnode->msgCb = pOption->msgCb; pMnode->selfId = pOption->replicas[pOption->selfIndex].id; } SMnode *mndOpen(const char *path, const SMnodeOpt *pOption) { mDebug("start to open mnode in %s", path); SMnode *pMnode = taosMemoryCalloc(1, sizeof(SMnode)); if (pMnode == NULL) { terrno = TSDB_CODE_OUT_OF_MEMORY; mError("failed to open mnode since %s", terrstr()); return NULL; } char timestr[24] = "1970-01-01 00:00:00.00"; (void)taosParseTime(timestr, &pMnode->checkTime, (int32_t)strlen(timestr), TSDB_TIME_PRECISION_MILLI, 0); mndSetOptions(pMnode, pOption); pMnode->pSteps = taosArrayInit(24, sizeof(SMnodeStep)); if (pMnode->pSteps == NULL) { taosMemoryFree(pMnode); terrno = TSDB_CODE_OUT_OF_MEMORY; mError("failed to open mnode since %s", terrstr()); return NULL; } int32_t code = mndCreateDir(pMnode, path); if (code != 0) { code = terrno; mError("failed to open mnode since %s", terrstr()); mndClose(pMnode); terrno = code; return NULL; } code = mndInitSteps(pMnode, pOption->deploy); if (code != 0) { code = terrno; mError("failed to open mnode since %s", terrstr()); mndClose(pMnode); terrno = code; return NULL; } code = mndExecSteps(pMnode); if (code != 0) { code = terrno; mError("failed to open mnode since %s", terrstr()); mndClose(pMnode); terrno = code; return NULL; } mndUpdateMnodeRole(pMnode); mDebug("mnode open successfully "); return pMnode; } void mndClose(SMnode *pMnode) { if (pMnode != NULL) { mDebug("start to close mnode"); mndCleanupSteps(pMnode, -1); taosMemoryFreeClear(pMnode->path); taosMemoryFreeClear(pMnode); mDebug("mnode is closed"); } } int32_t mndAlter(SMnode *pMnode, const SMnodeOpt *pOption) { mDebug("start to alter mnode"); mDebug("mnode is altered"); return 0; } int32_t mndStart(SMnode *pMnode) { return mndInitTimer(pMnode); } void mndStop(SMnode *pMnode) { return mndCleanupTimer(pMnode); } int32_t mndProcessMsg(SRpcMsg *pMsg) { SMnode *pMnode = pMsg->info.node; void *ahandle = pMsg->info.ahandle; mTrace("msg:%p, will be processed, type:%s app:%p", pMsg, TMSG_INFO(pMsg->msgType), ahandle); if (IsReq(pMsg)) { if (!mndIsMaster(pMnode)) { terrno = TSDB_CODE_APP_NOT_READY; mDebug("msg:%p, failed to process since %s, app:%p", pMsg, terrstr(), ahandle); return -1; } if (pMsg->contLen == 0 || pMsg->pCont == NULL) { terrno = TSDB_CODE_INVALID_MSG_LEN; mError("msg:%p, failed to process since %s, app:%p", pMsg, terrstr(), ahandle); return -1; } } MndMsgFp fp = pMnode->msgFp[TMSG_INDEX(pMsg->msgType)]; if (fp == NULL) { terrno = TSDB_CODE_MSG_NOT_PROCESSED; mError("msg:%p, failed to process since no msg handle, app:%p", pMsg, ahandle); return -1; } int32_t code = (*fp)(pMsg); if (code == TSDB_CODE_MND_ACTION_IN_PROGRESS) { terrno = code; mTrace("msg:%p, in progress, app:%p", pMsg, ahandle); } else if (code != 0) { if (terrno != TSDB_CODE_OPS_NOT_SUPPORT) { mError("msg:%p, failed to process since %s, app:%p", pMsg, terrstr(), ahandle); } else { mTrace("msg:%p, failed to process since %s, app:%p", pMsg, terrstr(), ahandle); } } else { mTrace("msg:%p, is processed, app:%p", pMsg, ahandle); } return code; } void mndSetMsgHandle(SMnode *pMnode, tmsg_t msgType, MndMsgFp fp) { tmsg_t type = TMSG_INDEX(msgType); if (type >= 0 && type < TDMT_MAX) { pMnode->msgFp[type] = fp; } } // Note: uid 0 is reserved int64_t mndGenerateUid(char *name, int32_t len) { int32_t hashval = MurmurHash3_32(name, len); do { int64_t us = taosGetTimestampUs(); int64_t x = (us & 0x000000FFFFFFFFFF) << 24; int64_t uuid = x + ((hashval & ((1ul << 16) - 1ul)) << 8) + (taosRand() & ((1ul << 8) - 1ul)); if (uuid) { return llabs(uuid); } } while (true); } int32_t mndGetMonitorInfo(SMnode *pMnode, SMonClusterInfo *pClusterInfo, SMonVgroupInfo *pVgroupInfo, SMonGrantInfo *pGrantInfo) { if (!mndIsMaster(pMnode)) return -1; SSdb *pSdb = pMnode->pSdb; int64_t ms = taosGetTimestampMs(); pClusterInfo->dnodes = taosArrayInit(sdbGetSize(pSdb, SDB_DNODE), sizeof(SMonDnodeDesc)); pClusterInfo->mnodes = taosArrayInit(sdbGetSize(pSdb, SDB_MNODE), sizeof(SMonMnodeDesc)); pVgroupInfo->vgroups = taosArrayInit(sdbGetSize(pSdb, SDB_VGROUP), sizeof(SMonVgroupDesc)); if (pClusterInfo->dnodes == NULL || pClusterInfo->mnodes == NULL || pVgroupInfo->vgroups == NULL) { return -1; } // cluster info tstrncpy(pClusterInfo->version, version, sizeof(pClusterInfo->version)); pClusterInfo->monitor_interval = tsMonitorInterval; pClusterInfo->connections_total = mndGetNumOfConnections(pMnode); void *pIter = NULL; while (1) { SDnodeObj *pObj = NULL; pIter = sdbFetch(pSdb, SDB_DNODE, pIter, (void **)&pObj); if (pIter == NULL) break; SMonDnodeDesc desc = {0}; desc.dnode_id = pObj->id; tstrncpy(desc.dnode_ep, pObj->ep, sizeof(desc.dnode_ep)); if (mndIsDnodeOnline(pMnode, pObj, ms)) { tstrncpy(desc.status, "ready", sizeof(desc.status)); } else { tstrncpy(desc.status, "offline", sizeof(desc.status)); } taosArrayPush(pClusterInfo->dnodes, &desc); sdbRelease(pSdb, pObj); } pIter = NULL; while (1) { SMnodeObj *pObj = NULL; pIter = sdbFetch(pSdb, SDB_MNODE, pIter, (void **)&pObj); if (pIter == NULL) break; SMonMnodeDesc desc = {0}; desc.mnode_id = pObj->id; tstrncpy(desc.mnode_ep, pObj->pDnode->ep, sizeof(desc.mnode_ep)); tstrncpy(desc.role, syncStr(pObj->role), sizeof(desc.role)); taosArrayPush(pClusterInfo->mnodes, &desc); sdbRelease(pSdb, pObj); if (pObj->role == TAOS_SYNC_STATE_LEADER) { pClusterInfo->first_ep_dnode_id = pObj->id; tstrncpy(pClusterInfo->first_ep, pObj->pDnode->ep, sizeof(pClusterInfo->first_ep)); pClusterInfo->master_uptime = (ms - pObj->roleTime) / (86400000.0f); } } // vgroup info pIter = NULL; while (1) { SVgObj *pVgroup = NULL; pIter = sdbFetch(pSdb, SDB_VGROUP, pIter, (void **)&pVgroup); if (pIter == NULL) break; pClusterInfo->vgroups_total++; SMonVgroupDesc desc = {0}; desc.vgroup_id = pVgroup->vgId; SName name = {0}; tNameFromString(&name, pVgroup->dbName, T_NAME_ACCT | T_NAME_DB | T_NAME_TABLE); tNameGetDbName(&name, desc.database_name); desc.tables_num = pVgroup->numOfTables; pGrantInfo->timeseries_used += pVgroup->numOfTimeSeries; tstrncpy(desc.status, "unsynced", sizeof(desc.status)); for (int32_t i = 0; i < pVgroup->replica; ++i) { SVnodeGid *pVgid = &pVgroup->vnodeGid[i]; SMonVnodeDesc *pVnDesc = &desc.vnodes[i]; pVnDesc->dnode_id = pVgid->dnodeId; tstrncpy(pVnDesc->vnode_role, syncStr(pVgid->role), sizeof(pVnDesc->vnode_role)); if (pVgid->role == TAOS_SYNC_STATE_LEADER) { tstrncpy(desc.status, "ready", sizeof(desc.status)); pClusterInfo->vgroups_alive++; } if (pVgid->role != TAOS_SYNC_STATE_ERROR) { pClusterInfo->vnodes_alive++; } pClusterInfo->vnodes_total++; } taosArrayPush(pVgroupInfo->vgroups, &desc); sdbRelease(pSdb, pVgroup); } // grant info pGrantInfo->expire_time = (pMnode->grant.expireTimeMS - ms) / 86400000.0f; pGrantInfo->timeseries_total = pMnode->grant.timeseriesAllowed; if (pMnode->grant.expireTimeMS == 0) { pGrantInfo->expire_time = INT32_MAX; pGrantInfo->timeseries_total = INT32_MAX; } return 0; } int32_t mndGetLoad(SMnode *pMnode, SMnodeLoad *pLoad) { pLoad->syncState = pMnode->syncMgmt.state; return 0; }