/* * 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 "dndVnodes.h" #include "dndTransport.h" typedef struct { int32_t vgId; int32_t vgVersion; int8_t dropped; uint64_t dbUid; char db[TSDB_DB_FNAME_LEN]; char path[PATH_MAX + 20]; } SWrapperCfg; typedef struct { int32_t vgId; int32_t refCount; int32_t vgVersion; int8_t dropped; int8_t accessState; uint64_t dbUid; char *db; char *path; SVnode *pImpl; STaosQueue *pWriteQ; STaosQueue *pSyncQ; STaosQueue *pApplyQ; STaosQueue *pQueryQ; STaosQueue* pFetchQ; } SVnodeObj; typedef struct { int32_t vnodeNum; int32_t opened; int32_t failed; int32_t threadIndex; pthread_t thread; SDnode *pDnode; SWrapperCfg *pCfgs; } SVnodeThread; static int32_t dndInitVnodeReadWorker(SDnode *pDnode); static int32_t dndInitVnodeWriteWorker(SDnode *pDnode); static int32_t dndInitVnodeSyncWorker(SDnode *pDnode); static void dndCleanupVnodeReadWorker(SDnode *pDnode); static void dndCleanupVnodeWriteWorker(SDnode *pDnode); static void dndCleanupVnodeSyncWorker(SDnode *pDnode); static int32_t dndAllocVnodeQueryQueue(SDnode *pDnode, SVnodeObj *pVnode); static int32_t dndAllocVnodeFetchQueue(SDnode *pDnode, SVnodeObj *pVnode); static int32_t dndAllocVnodeWriteQueue(SDnode *pDnode, SVnodeObj *pVnode); static int32_t dndAllocVnodeApplyQueue(SDnode *pDnode, SVnodeObj *pVnode); static int32_t dndAllocVnodeSyncQueue(SDnode *pDnode, SVnodeObj *pVnode); static void dndFreeVnodeQueryQueue(SDnode *pDnode, SVnodeObj *pVnode); static void dndFreeVnodeFetchQueue(SDnode *pDnode, SVnodeObj *pVnode); static void dndFreeVnodeWriteQueue(SDnode *pDnode, SVnodeObj *pVnode); static void dndFreeVnodeApplyQueue(SDnode *pDnode, SVnodeObj *pVnode); static void dndFreeVnodeSyncQueue(SDnode *pDnode, SVnodeObj *pVnode); static void dndProcessVnodeQueryQueue(SVnodeObj *pVnode, SRpcMsg *pMsg); static void dndProcessVnodeFetchQueue(SVnodeObj *pVnode, SRpcMsg *pMsg); static void dndProcessVnodeWriteQueue(SVnodeObj *pVnode, STaosQall *qall, int32_t numOfMsgs); static void dndProcessVnodeApplyQueue(SVnodeObj *pVnode, STaosQall *qall, int32_t numOfMsgs); static void dndProcessVnodeSyncQueue(SVnodeObj *pVnode, STaosQall *qall, int32_t numOfMsgs); void dndProcessVnodeQueryMsg(SDnode *pDnode, SRpcMsg *pMsg, SEpSet *pEpSet); void dndProcessVnodeFetchMsg(SDnode *pDnode, SRpcMsg *pMsg, SEpSet *pEpSet); void dndProcessVnodeWriteMsg(SDnode *pDnode, SRpcMsg *pMsg, SEpSet *pEpSet); void dndProcessVnodeSyncMsg(SDnode *pDnode, SRpcMsg *pMsg, SEpSet *pEpSet); static int32_t dndPutMsgIntoVnodeApplyQueue(SDnode *pDnode, int32_t vgId, SRpcMsg *pMsg); static SVnodeObj *dndAcquireVnode(SDnode *pDnode, int32_t vgId); static void dndReleaseVnode(SDnode *pDnode, SVnodeObj *pVnode); static int32_t dndOpenVnode(SDnode *pDnode, SWrapperCfg *pCfg, SVnode *pImpl); static void dndCloseVnode(SDnode *pDnode, SVnodeObj *pVnode); static SVnodeObj **dndGetVnodesFromHash(SDnode *pDnode, int32_t *numOfVnodes); static int32_t dndGetVnodesFromFile(SDnode *pDnode, SWrapperCfg **ppCfgs, int32_t *numOfVnodes); static int32_t dndWriteVnodesToFile(SDnode *pDnode); static int32_t dndOpenVnodes(SDnode *pDnode); static void dndCloseVnodes(SDnode *pDnode); static SVnodeObj *dndAcquireVnode(SDnode *pDnode, int32_t vgId) { SVnodesMgmt *pMgmt = &pDnode->vmgmt; SVnodeObj *pVnode = NULL; int32_t refCount = 0; taosRLockLatch(&pMgmt->latch); taosHashGetClone(pMgmt->hash, &vgId, sizeof(int32_t), (void *)&pVnode); if (pVnode == NULL) { terrno = TSDB_CODE_VND_INVALID_VGROUP_ID; } else { refCount = atomic_add_fetch_32(&pVnode->refCount, 1); } taosRUnLockLatch(&pMgmt->latch); if (pVnode != NULL) { dTrace("vgId:%d, acquire vnode, refCount:%d", pVnode->vgId, refCount); } return pVnode; } static void dndReleaseVnode(SDnode *pDnode, SVnodeObj *pVnode) { if (pVnode == NULL) return; SVnodesMgmt *pMgmt = &pDnode->vmgmt; taosRLockLatch(&pMgmt->latch); int32_t refCount = atomic_sub_fetch_32(&pVnode->refCount, 1); taosRUnLockLatch(&pMgmt->latch); dTrace("vgId:%d, release vnode, refCount:%d", pVnode->vgId, refCount); } static int32_t dndOpenVnode(SDnode *pDnode, SWrapperCfg *pCfg, SVnode *pImpl) { SVnodesMgmt *pMgmt = &pDnode->vmgmt; SVnodeObj *pVnode = calloc(1, sizeof(SVnodeObj)); if (pVnode == NULL) { terrno = TSDB_CODE_OUT_OF_MEMORY; return -1; } pVnode->vgId = pCfg->vgId; pVnode->refCount = 1; pVnode->dropped = 0; pVnode->accessState = TSDB_VN_ALL_ACCCESS; pVnode->pImpl = pImpl; pVnode->vgVersion = pCfg->vgVersion; pVnode->dbUid = pCfg->dbUid; pVnode->db = tstrdup(pCfg->db); pVnode->path = tstrdup(pCfg->path); if (pVnode->path == NULL || pVnode->db == NULL) { terrno = TSDB_CODE_OUT_OF_MEMORY; return -1; } if (dndAllocVnodeQueryQueue(pDnode, pVnode) != 0) { return -1; } if (dndAllocVnodeFetchQueue(pDnode, pVnode) != 0) { return -1; } if (dndAllocVnodeWriteQueue(pDnode, pVnode) != 0) { return -1; } if (dndAllocVnodeApplyQueue(pDnode, pVnode) != 0) { return -1; } if (dndAllocVnodeSyncQueue(pDnode, pVnode) != 0) { return -1; } taosWLockLatch(&pMgmt->latch); int32_t code = taosHashPut(pMgmt->hash, &pVnode->vgId, sizeof(int32_t), &pVnode, sizeof(SVnodeObj *)); taosWUnLockLatch(&pMgmt->latch); if (code != 0) { terrno = TSDB_CODE_OUT_OF_MEMORY; } return code; } static void dndCloseVnode(SDnode *pDnode, SVnodeObj *pVnode) { SVnodesMgmt *pMgmt = &pDnode->vmgmt; taosWLockLatch(&pMgmt->latch); taosHashRemove(pMgmt->hash, &pVnode->vgId, sizeof(int32_t)); taosWUnLockLatch(&pMgmt->latch); dndReleaseVnode(pDnode, pVnode); while (pVnode->refCount > 0) taosMsleep(10); while (!taosQueueEmpty(pVnode->pWriteQ)) taosMsleep(10); while (!taosQueueEmpty(pVnode->pSyncQ)) taosMsleep(10); while (!taosQueueEmpty(pVnode->pApplyQ)) taosMsleep(10); while (!taosQueueEmpty(pVnode->pQueryQ)) taosMsleep(10); while (!taosQueueEmpty(pVnode->pFetchQ)) taosMsleep(10); dndFreeVnodeQueryQueue(pDnode, pVnode); dndFreeVnodeFetchQueue(pDnode, pVnode); dndFreeVnodeWriteQueue(pDnode, pVnode); dndFreeVnodeApplyQueue(pDnode, pVnode); dndFreeVnodeSyncQueue(pDnode, pVnode); vnodeClose(pVnode->pImpl); pVnode->pImpl = NULL; free(pVnode->path); free(pVnode->db); free(pVnode); } static SVnodeObj **dndGetVnodesFromHash(SDnode *pDnode, int32_t *numOfVnodes) { SVnodesMgmt *pMgmt = &pDnode->vmgmt; taosRLockLatch(&pMgmt->latch); int32_t num = 0; int32_t size = taosHashGetSize(pMgmt->hash); SVnodeObj **pVnodes = calloc(size, sizeof(SVnodeObj *)); void *pIter = taosHashIterate(pMgmt->hash, NULL); while (pIter) { SVnodeObj **ppVnode = pIter; SVnodeObj *pVnode = *ppVnode; if (pVnode && num < size) { int32_t refCount = atomic_add_fetch_32(&pVnode->refCount, 1); dTrace("vgId:%d, acquire vnode, refCount:%d", pVnode->vgId, refCount); pVnodes[num] = (*ppVnode); num++; pIter = taosHashIterate(pMgmt->hash, pIter); } else { taosHashCancelIterate(pMgmt->hash, pIter); } } taosRUnLockLatch(&pMgmt->latch); *numOfVnodes = num; return pVnodes; } static int32_t dndGetVnodesFromFile(SDnode *pDnode, SWrapperCfg **ppCfgs, int32_t *numOfVnodes) { int32_t code = TSDB_CODE_DND_VNODE_READ_FILE_ERROR; int32_t len = 0; int32_t maxLen = 30000; char *content = calloc(1, maxLen + 1); cJSON *root = NULL; FILE *fp = NULL; char file[PATH_MAX + 20] = {0}; SWrapperCfg *pCfgs = NULL; snprintf(file, PATH_MAX + 20, "%s/vnodes.json", pDnode->dir.vnodes); fp = fopen(file, "r"); if (fp == NULL) { dDebug("file %s not exist", file); code = 0; goto PRASE_VNODE_OVER; } len = (int32_t)fread(content, 1, maxLen, fp); if (len <= 0) { dError("failed to read %s since content is null", file); goto PRASE_VNODE_OVER; } content[len] = 0; root = cJSON_Parse(content); if (root == NULL) { dError("failed to read %s since invalid json format", file); goto PRASE_VNODE_OVER; } cJSON *vnodes = cJSON_GetObjectItem(root, "vnodes"); if (!vnodes || vnodes->type != cJSON_Array) { dError("failed to read %s since vnodes not found", file); goto PRASE_VNODE_OVER; } int32_t vnodesNum = cJSON_GetArraySize(vnodes); if (vnodesNum <= 0) { dError("failed to read %s since vnodes size:%d invalid", file, vnodesNum); goto PRASE_VNODE_OVER; } pCfgs = calloc(vnodesNum, sizeof(SWrapperCfg)); if (pCfgs == NULL) { dError("failed to read %s since out of memory", file); goto PRASE_VNODE_OVER; } for (int32_t i = 0; i < vnodesNum; ++i) { cJSON *vnode = cJSON_GetArrayItem(vnodes, i); SWrapperCfg *pCfg = &pCfgs[i]; cJSON *vgId = cJSON_GetObjectItem(vnode, "vgId"); if (!vgId || vgId->type != cJSON_Number) { dError("failed to read %s since vgId not found", file); goto PRASE_VNODE_OVER; } pCfg->vgId = vgId->valueint; snprintf(pCfg->path, sizeof(pCfg->path), "%s/vnode%d", pDnode->dir.vnodes, pCfg->vgId); cJSON *dropped = cJSON_GetObjectItem(vnode, "dropped"); if (!dropped || dropped->type != cJSON_Number) { dError("failed to read %s since dropped not found", file); goto PRASE_VNODE_OVER; } pCfg->dropped = dropped->valueint; cJSON *vgVersion = cJSON_GetObjectItem(vnode, "vgVersion"); if (!vgVersion || vgVersion->type != cJSON_Number) { dError("failed to read %s since vgVersion not found", file); goto PRASE_VNODE_OVER; } pCfg->vgVersion = vgVersion->valueint; cJSON *dbUid = cJSON_GetObjectItem(vnode, "dbUid"); if (!dbUid || dbUid->type != cJSON_String) { dError("failed to read %s since dbUid not found", file); goto PRASE_VNODE_OVER; } pCfg->dbUid = atoll(dbUid->valuestring); cJSON *db = cJSON_GetObjectItem(vnode, "db"); if (!db || db->type != cJSON_String) { dError("failed to read %s since db not found", file); goto PRASE_VNODE_OVER; } tstrncpy(pCfg->db, db->valuestring, TSDB_DB_FNAME_LEN); } *ppCfgs = pCfgs; *numOfVnodes = vnodesNum; code = 0; dInfo("succcessed to read file %s", file); PRASE_VNODE_OVER: if (content != NULL) free(content); if (root != NULL) cJSON_Delete(root); if (fp != NULL) fclose(fp); return code; } static int32_t dndWriteVnodesToFile(SDnode *pDnode) { char file[PATH_MAX + 20] = {0}; char realfile[PATH_MAX + 20] = {0}; snprintf(file, PATH_MAX + 20, "%s/vnodes.json.bak", pDnode->dir.vnodes); snprintf(realfile, PATH_MAX + 20, "%s/vnodes.json", pDnode->dir.vnodes); FILE *fp = fopen(file, "w"); if (fp == NULL) { terrno = TAOS_SYSTEM_ERROR(errno); dError("failed to write %s since %s", file, terrstr()); return -1; } int32_t numOfVnodes = 0; SVnodeObj **pVnodes = dndGetVnodesFromHash(pDnode, &numOfVnodes); int32_t len = 0; int32_t maxLen = 65536; char *content = calloc(1, maxLen + 1); len += snprintf(content + len, maxLen - len, "{\n"); len += snprintf(content + len, maxLen - len, " \"vnodes\": [\n"); for (int32_t i = 0; i < numOfVnodes; ++i) { SVnodeObj *pVnode = pVnodes[i]; len += snprintf(content + len, maxLen - len, " {\n"); len += snprintf(content + len, maxLen - len, " \"vgId\": %d,\n", pVnode->vgId); len += snprintf(content + len, maxLen - len, " \"dropped\": %d,\n", pVnode->dropped); len += snprintf(content + len, maxLen - len, " \"vgVersion\": %d,\n", pVnode->vgVersion); len += snprintf(content + len, maxLen - len, " \"dbUid\": \"%" PRIu64 "\",\n", pVnode->dbUid); len += snprintf(content + len, maxLen - len, " \"db\": \"%s\"\n", pVnode->db); if (i < numOfVnodes - 1) { len += snprintf(content + len, maxLen - len, " },\n"); } else { len += snprintf(content + len, maxLen - len, " }\n"); } } 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; for (int32_t i = 0; i < numOfVnodes; ++i) { SVnodeObj *pVnode = pVnodes[i]; dndReleaseVnode(pDnode, pVnode); } if (pVnodes != NULL) { free(pVnodes); } dDebug("successed to write %s", realfile); return taosRenameFile(file, realfile); } static void *dnodeOpenVnodeFunc(void *param) { SVnodeThread *pThread = param; SDnode *pDnode = pThread->pDnode; SVnodesMgmt *pMgmt = &pDnode->vmgmt; dDebug("thread:%d, start to open %d vnodes", pThread->threadIndex, pThread->vnodeNum); setThreadName("open-vnodes"); for (int32_t v = 0; v < pThread->vnodeNum; ++v) { SWrapperCfg *pCfg = &pThread->pCfgs[v]; char stepDesc[TSDB_STEP_DESC_LEN] = {0}; snprintf(stepDesc, TSDB_STEP_DESC_LEN, "vgId:%d, start to restore, %d of %d have been opened", pCfg->vgId, pMgmt->openVnodes, pMgmt->totalVnodes); dndReportStartup(pDnode, "open-vnodes", stepDesc); SVnode *pImpl = vnodeOpen(pCfg->path, NULL); if (pImpl == NULL) { dError("vgId:%d, failed to open vnode by thread:%d", pCfg->vgId, pThread->threadIndex); pThread->failed++; } else { dndOpenVnode(pDnode, pCfg, pImpl); dDebug("vgId:%d, is opened by thread:%d", pCfg->vgId, pThread->threadIndex); pThread->opened++; } atomic_add_fetch_32(&pMgmt->openVnodes, 1); } dDebug("thread:%d, total vnodes:%d, opened:%d failed:%d", pThread->threadIndex, pThread->vnodeNum, pThread->opened, pThread->failed); return NULL; } static int32_t dndOpenVnodes(SDnode *pDnode) { SVnodesMgmt *pMgmt = &pDnode->vmgmt; taosInitRWLatch(&pMgmt->latch); pMgmt->hash = taosHashInit(TSDB_MIN_VNODES, taosGetDefaultHashFunction(TSDB_DATA_TYPE_INT), true, HASH_NO_LOCK); if (pMgmt->hash == NULL) { dError("failed to init vnode hash"); terrno = TSDB_CODE_OUT_OF_MEMORY; return -1; } SWrapperCfg *pCfgs = NULL; int32_t numOfVnodes = 0; if (dndGetVnodesFromFile(pDnode, &pCfgs, &numOfVnodes) != 0) { dInfo("failed to get vnode list from disk since %s", terrstr()); return -1; } pMgmt->totalVnodes = numOfVnodes; int32_t threadNum = pDnode->opt.numOfCores; int32_t vnodesPerThread = numOfVnodes / threadNum + 1; SVnodeThread *threads = calloc(threadNum, sizeof(SVnodeThread)); for (int32_t t = 0; t < threadNum; ++t) { threads[t].threadIndex = t; threads[t].pDnode = pDnode; threads[t].pCfgs = calloc(vnodesPerThread, sizeof(SWrapperCfg)); } for (int32_t v = 0; v < numOfVnodes; ++v) { int32_t t = v % threadNum; SVnodeThread *pThread = &threads[t]; pThread->pCfgs[pThread->vnodeNum++] = pCfgs[v]; } dInfo("start %d threads to open %d vnodes", threadNum, numOfVnodes); for (int32_t t = 0; t < threadNum; ++t) { SVnodeThread *pThread = &threads[t]; if (pThread->vnodeNum == 0) continue; pthread_attr_t thAttr; pthread_attr_init(&thAttr); pthread_attr_setdetachstate(&thAttr, PTHREAD_CREATE_JOINABLE); if (pthread_create(&pThread->thread, &thAttr, dnodeOpenVnodeFunc, pThread) != 0) { dError("thread:%d, failed to create thread to open vnode, reason:%s", pThread->threadIndex, strerror(errno)); } pthread_attr_destroy(&thAttr); } for (int32_t t = 0; t < threadNum; ++t) { SVnodeThread *pThread = &threads[t]; if (pThread->vnodeNum > 0 && taosCheckPthreadValid(pThread->thread)) { pthread_join(pThread->thread, NULL); } free(pThread->pCfgs); } free(threads); free(pCfgs); if (pMgmt->openVnodes != pMgmt->totalVnodes) { dError("there are total vnodes:%d, opened:%d", pMgmt->totalVnodes, pMgmt->openVnodes); return -1; } else { dInfo("total vnodes:%d open successfully", pMgmt->totalVnodes); return 0; } } static void dndCloseVnodes(SDnode *pDnode) { SVnodesMgmt *pMgmt = &pDnode->vmgmt; int32_t numOfVnodes = 0; SVnodeObj **pVnodes = dndGetVnodesFromHash(pDnode, &numOfVnodes); for (int32_t i = 0; i < numOfVnodes; ++i) { dndReleaseVnode(pDnode, pVnodes[i]); dndCloseVnode(pDnode, pVnodes[i]); } if (pVnodes != NULL) { free(pVnodes); } if (pMgmt->hash != NULL) { taosHashCleanup(pMgmt->hash); pMgmt->hash = NULL; } dInfo("total vnodes:%d are all closed", numOfVnodes); } static SCreateVnodeMsg *dndParseCreateVnodeReq(SRpcMsg *rpcMsg) { SCreateVnodeMsg *pCreate = rpcMsg->pCont; pCreate->vgId = htonl(pCreate->vgId); pCreate->dnodeId = htonl(pCreate->dnodeId); pCreate->dbUid = htobe64(pCreate->dbUid); pCreate->vgVersion = htonl(pCreate->vgVersion); pCreate->cacheBlockSize = htonl(pCreate->cacheBlockSize); pCreate->totalBlocks = htonl(pCreate->totalBlocks); pCreate->daysPerFile = htonl(pCreate->daysPerFile); pCreate->daysToKeep0 = htonl(pCreate->daysToKeep0); pCreate->daysToKeep1 = htonl(pCreate->daysToKeep1); pCreate->daysToKeep2 = htonl(pCreate->daysToKeep2); pCreate->minRows = htonl(pCreate->minRows); pCreate->maxRows = htonl(pCreate->maxRows); pCreate->commitTime = htonl(pCreate->commitTime); pCreate->fsyncPeriod = htonl(pCreate->fsyncPeriod); for (int r = 0; r < pCreate->replica; ++r) { SReplica *pReplica = &pCreate->replicas[r]; pReplica->id = htonl(pReplica->id); pReplica->port = htons(pReplica->port); } return pCreate; } static void dndGenerateVnodeCfg(SCreateVnodeMsg *pCreate, SVnodeCfg *pCfg) { pCfg->wsize = pCreate->cacheBlockSize; pCfg->ssize = pCreate->cacheBlockSize; pCfg->wsize = pCreate->cacheBlockSize; pCfg->lsize = pCreate->cacheBlockSize; pCfg->isHeapAllocator = true; pCfg->ttl = 4; pCfg->keep = pCreate->daysToKeep0; pCfg->isWeak = true; pCfg->tsdbCfg.keep = pCreate->daysToKeep0; pCfg->tsdbCfg.keep1 = pCreate->daysToKeep2; pCfg->tsdbCfg.keep2 = pCreate->daysToKeep0; pCfg->tsdbCfg.lruCacheSize = pCreate->cacheBlockSize; pCfg->metaCfg.lruSize = pCreate->cacheBlockSize; pCfg->walCfg.fsyncPeriod = pCreate->fsyncPeriod; pCfg->walCfg.level = pCreate->walLevel; pCfg->walCfg.retentionPeriod = 10; pCfg->walCfg.retentionSize = 128; pCfg->walCfg.rollPeriod = 128; pCfg->walCfg.segSize = 128; pCfg->walCfg.vgId = pCreate->vgId; } static void dndGenerateWrapperCfg(SDnode *pDnode, SCreateVnodeMsg *pCreate, SWrapperCfg *pCfg) { memcpy(pCfg->db, pCreate->db, TSDB_DB_FNAME_LEN); pCfg->dbUid = pCreate->dbUid; pCfg->dropped = 0; snprintf(pCfg->path, sizeof(pCfg->path), "%s/vnode%d", pDnode->dir.vnodes, pCreate->vgId); pCfg->vgId = pCreate->vgId; pCfg->vgVersion = pCreate->vgVersion; } static SDropVnodeMsg *vnodeParseDropVnodeReq(SRpcMsg *rpcMsg) { SDropVnodeMsg *pDrop = rpcMsg->pCont; pDrop->vgId = htonl(pDrop->vgId); return pDrop; } static SAuthVnodeMsg *vnodeParseAuthVnodeReq(SRpcMsg *rpcMsg) { SAuthVnodeMsg *pAuth = rpcMsg->pCont; pAuth->vgId = htonl(pAuth->vgId); return pAuth; } int32_t dndProcessCreateVnodeReq(SDnode *pDnode, SRpcMsg *rpcMsg) { SCreateVnodeMsg *pCreate = dndParseCreateVnodeReq(rpcMsg); dDebug("vgId:%d, create vnode req is received", pCreate->vgId); SVnodeCfg vnodeCfg = {0}; dndGenerateVnodeCfg(pCreate, &vnodeCfg); SWrapperCfg wrapperCfg = {0}; dndGenerateWrapperCfg(pDnode, pCreate, &wrapperCfg); SVnodeObj *pVnode = dndAcquireVnode(pDnode, pCreate->vgId); if (pVnode != NULL) { dDebug("vgId:%d, already exist, return success", pCreate->vgId); dndReleaseVnode(pDnode, pVnode); return 0; } SVnode *pImpl = vnodeOpen(wrapperCfg.path, NULL /*pCfg*/); if (pImpl == NULL) { return -1; } int32_t code = dndOpenVnode(pDnode, &wrapperCfg, pImpl); if (code != 0) { vnodeClose(pImpl); vnodeDestroy(wrapperCfg.path); terrno = code; return code; } code = dndWriteVnodesToFile(pDnode); if (code != 0) { vnodeClose(pImpl); vnodeDestroy(wrapperCfg.path); terrno = code; return code; } return 0; } int32_t dndProcessAlterVnodeReq(SDnode *pDnode, SRpcMsg *rpcMsg) { SAlterVnodeMsg *pAlter = (SAlterVnodeMsg *)dndParseCreateVnodeReq(rpcMsg); dDebug("vgId:%d, alter vnode req is received", pAlter->vgId); SVnodeCfg vnodeCfg = {0}; dndGenerateVnodeCfg(pAlter, &vnodeCfg); SWrapperCfg wrapperCfg = {0}; dndGenerateWrapperCfg(pDnode, pAlter, &wrapperCfg); SVnodeObj *pVnode = dndAcquireVnode(pDnode, pAlter->vgId); if (pVnode == NULL) { dDebug("vgId:%d, failed to alter vnode since %s", pAlter->vgId, terrstr()); return terrno; } if (wrapperCfg.vgVersion == pVnode->vgVersion) { dndReleaseVnode(pDnode, pVnode); dDebug("vgId:%d, no need to alter vnode cfg for version unchanged ", pAlter->vgId); return 0; } if (vnodeAlter(pVnode->pImpl, &vnodeCfg) != 0) { dError("vgId:%d, failed to alter vnode since %s", pAlter->vgId, terrstr()); dndReleaseVnode(pDnode, pVnode); return terrno; } int32_t oldVersion = pVnode->vgVersion; pVnode->vgVersion = wrapperCfg.vgVersion; int32_t code = dndWriteVnodesToFile(pDnode); if (code != 0) { pVnode->vgVersion = oldVersion; } dndReleaseVnode(pDnode, pVnode); return code; } int32_t dndProcessDropVnodeReq(SDnode *pDnode, SRpcMsg *rpcMsg) { SDropVnodeMsg *pDrop = vnodeParseDropVnodeReq(rpcMsg); int32_t vgId = pDrop->vgId; dDebug("vgId:%d, drop vnode req is received", vgId); SVnodeObj *pVnode = dndAcquireVnode(pDnode, vgId); if (pVnode == NULL) { dDebug("vgId:%d, failed to drop since %s", vgId, terrstr()); return 0; } pVnode->dropped = 1; if (dndWriteVnodesToFile(pDnode) != 0) { pVnode->dropped = 0; return terrno; } dndReleaseVnode(pDnode, pVnode); dndCloseVnode(pDnode, pVnode); vnodeClose(pVnode->pImpl); vnodeDestroy(pVnode->path); dndWriteVnodesToFile(pDnode); return 0; } int32_t dndProcessAuthVnodeReq(SDnode *pDnode, SRpcMsg *rpcMsg) { SAuthVnodeMsg *pAuth = (SAuthVnodeMsg *)vnodeParseAuthVnodeReq(rpcMsg); int32_t code = 0; int32_t vgId = pAuth->vgId; dDebug("vgId:%d, auth vnode req is received", vgId); SVnodeObj *pVnode = dndAcquireVnode(pDnode, vgId); if (pVnode == NULL) { dDebug("vgId:%d, failed to auth since %s", vgId, terrstr()); return terrno; } pVnode->accessState = pAuth->accessState; dndReleaseVnode(pDnode, pVnode); return 0; } int32_t dndProcessSyncVnodeReq(SDnode *pDnode, SRpcMsg *rpcMsg) { SAuthVnodeMsg *pAuth = (SAuthVnodeMsg *)vnodeParseAuthVnodeReq(rpcMsg); int32_t vgId = pAuth->vgId; dDebug("vgId:%d, auth vnode req is received", vgId); SVnodeObj *pVnode = dndAcquireVnode(pDnode, vgId); if (pVnode == NULL) { dDebug("vgId:%d, failed to auth since %s", vgId, terrstr()); return terrno; } if (vnodeSync(pVnode->pImpl) != 0) { dError("vgId:%d, failed to auth vnode since %s", vgId, terrstr()); dndReleaseVnode(pDnode, pVnode); return terrno; } dndReleaseVnode(pDnode, pVnode); return 0; } int32_t dndProcessCompactVnodeReq(SDnode *pDnode, SRpcMsg *rpcMsg) { SCompactVnodeMsg *pCompact = (SCompactVnodeMsg *)vnodeParseDropVnodeReq(rpcMsg); int32_t vgId = pCompact->vgId; dDebug("vgId:%d, compact vnode req is received", vgId); SVnodeObj *pVnode = dndAcquireVnode(pDnode, vgId); if (pVnode == NULL) { dDebug("vgId:%d, failed to compact since %s", vgId, terrstr()); return terrno; } if (vnodeCompact(pVnode->pImpl) != 0) { dError("vgId:%d, failed to compact vnode since %s", vgId, terrstr()); dndReleaseVnode(pDnode, pVnode); return terrno; } dndReleaseVnode(pDnode, pVnode); return 0; } static void dndProcessVnodeQueryQueue(SVnodeObj *pVnode, SRpcMsg *pMsg) { SRpcMsg *pRsp = NULL; vnodeProcessQueryReq(pVnode->pImpl, pMsg, &pRsp); } static void dndProcessVnodeFetchQueue(SVnodeObj *pVnode, SRpcMsg *pMsg) { SRpcMsg *pRsp = NULL; vnodeProcessFetchReq(pVnode->pImpl, pMsg, &pRsp); } static void dndProcessVnodeWriteQueue(SVnodeObj *pVnode, STaosQall *qall, int32_t numOfMsgs) { SArray *pArray = taosArrayInit(numOfMsgs, sizeof(SRpcMsg *)); for (int32_t i = 0; i < numOfMsgs; ++i) { SRpcMsg *pMsg = NULL; taosGetQitem(qall, (void **)&pMsg); void *ptr = taosArrayPush(pArray, &pMsg); assert(ptr != NULL); } vnodeProcessWMsgs(pVnode->pImpl, pArray); for (size_t i = 0; i < numOfMsgs; i++) { SRpcMsg *pRsp = NULL; SRpcMsg *pMsg = *(SRpcMsg **)taosArrayGet(pArray, i); int32_t code = vnodeApplyWMsg(pVnode->pImpl, pMsg, &pRsp); if (pRsp != NULL) { pRsp->ahandle = pMsg->ahandle; rpcSendResponse(pRsp); free(pRsp); } else { if (code != 0) code = terrno; SRpcMsg rpcRsp = {.handle = pMsg->handle, .ahandle = pMsg->ahandle, .code = code}; rpcSendResponse(&rpcRsp); } } for (size_t i = 0; i < numOfMsgs; i++) { SRpcMsg *pMsg = *(SRpcMsg **)taosArrayGet(pArray, i); rpcFreeCont(pMsg->pCont); taosFreeQitem(pMsg); } taosArrayDestroy(pArray); } static void dndProcessVnodeApplyQueue(SVnodeObj *pVnode, STaosQall *qall, int32_t numOfMsgs) { SRpcMsg *pMsg = NULL; for (int32_t i = 0; i < numOfMsgs; ++i) { taosGetQitem(qall, (void **)&pMsg); SRpcMsg *pRsp = NULL; (void)vnodeApplyWMsg(pVnode->pImpl, pMsg, &pRsp); } } static void dndProcessVnodeSyncQueue(SVnodeObj *pVnode, STaosQall *qall, int32_t numOfMsgs) { SRpcMsg *pMsg = NULL; for (int32_t i = 0; i < numOfMsgs; ++i) { taosGetQitem(qall, (void **)&pMsg); SRpcMsg *pRsp = NULL; (void)vnodeProcessSyncReq(pVnode->pImpl, pMsg, &pRsp); } } static int32_t dndWriteRpcMsgToVnodeQueue(STaosQueue *pQueue, SRpcMsg *pRpcMsg) { int32_t code = 0; if (pQueue == NULL) { code = TSDB_CODE_MSG_NOT_PROCESSED; } else { SRpcMsg *pMsg = taosAllocateQitem(sizeof(SRpcMsg)); if (pMsg == NULL) { code = TSDB_CODE_OUT_OF_MEMORY; } else { *pMsg = *pRpcMsg; if (taosWriteQitem(pQueue, pMsg) != 0) { code = TSDB_CODE_OUT_OF_MEMORY; } } } if (code != TSDB_CODE_SUCCESS) { SRpcMsg rsp = {.handle = pRpcMsg->handle, .code = code}; rpcSendResponse(&rsp); rpcFreeCont(pRpcMsg->pCont); } } static SVnodeObj *dndAcquireVnodeFromMsg(SDnode *pDnode, SRpcMsg *pMsg) { SMsgHead *pHead = (SMsgHead *)pMsg->pCont; pHead->contLen = htonl(pHead->contLen); pHead->vgId = htonl(pHead->vgId); SVnodeObj *pVnode = dndAcquireVnode(pDnode, pHead->vgId); if (pVnode == NULL) { SRpcMsg rsp = {.handle = pMsg->handle, .code = TSDB_CODE_VND_INVALID_VGROUP_ID}; rpcSendResponse(&rsp); rpcFreeCont(pMsg->pCont); } return pVnode; } void dndProcessVnodeWriteMsg(SDnode *pDnode, SRpcMsg *pMsg, SEpSet *pEpSet) { SVnodeObj *pVnode = dndAcquireVnodeFromMsg(pDnode, pMsg); if (pVnode != NULL) { dndWriteRpcMsgToVnodeQueue(pVnode->pWriteQ, pMsg); dndReleaseVnode(pDnode, pVnode); } } void dndProcessVnodeSyncMsg(SDnode *pDnode, SRpcMsg *pMsg, SEpSet *pEpSet) { SVnodeObj *pVnode = dndAcquireVnodeFromMsg(pDnode, pMsg); if (pVnode != NULL) { dndWriteRpcMsgToVnodeQueue(pVnode->pSyncQ, pMsg); dndReleaseVnode(pDnode, pVnode); } } void dndProcessVnodeQueryMsg(SDnode *pDnode, SRpcMsg *pMsg, SEpSet *pEpSet) { SVnodeObj *pVnode = dndAcquireVnodeFromMsg(pDnode, pMsg); if (pVnode != NULL) { dndWriteRpcMsgToVnodeQueue(pVnode->pQueryQ, pMsg); dndReleaseVnode(pDnode, pVnode); } } void dndProcessVnodeFetchMsg(SDnode *pDnode, SRpcMsg *pMsg, SEpSet *pEpSet) { SVnodeObj *pVnode = dndAcquireVnodeFromMsg(pDnode, pMsg); if (pVnode != NULL) { dndWriteRpcMsgToVnodeQueue(pVnode->pFetchQ, pMsg); dndReleaseVnode(pDnode, pVnode); } } static int32_t dndPutMsgIntoVnodeApplyQueue(SDnode *pDnode, int32_t vgId, SRpcMsg *pMsg) { SVnodeObj *pVnode = dndAcquireVnode(pDnode, vgId); if (pVnode == NULL) { return -1; } int32_t code = taosWriteQitem(pVnode->pApplyQ, pMsg); dndReleaseVnode(pDnode, pVnode); return code; } static int32_t dndAllocVnodeQueryQueue(SDnode *pDnode, SVnodeObj *pVnode) { SVnodesMgmt *pMgmt = &pDnode->vmgmt; pVnode->pQueryQ = tWorkerAllocQueue(&pMgmt->queryPool, pVnode, (FProcessItem)dndProcessVnodeQueryQueue); if (pVnode->pQueryQ == NULL) { terrno = TSDB_CODE_OUT_OF_MEMORY; return -1; } return 0; } static void dndFreeVnodeQueryQueue(SDnode *pDnode, SVnodeObj *pVnode) { SVnodesMgmt *pMgmt = &pDnode->vmgmt; tWorkerFreeQueue(&pMgmt->queryPool, pVnode->pQueryQ); pVnode->pQueryQ = NULL; } static int32_t dndAllocVnodeFetchQueue(SDnode *pDnode, SVnodeObj *pVnode) { SVnodesMgmt *pMgmt = &pDnode->vmgmt; pVnode->pFetchQ = tWorkerAllocQueue(&pMgmt->fetchPool, pVnode, (FProcessItem)dndProcessVnodeFetchQueue); if (pVnode->pFetchQ == NULL) { terrno = TSDB_CODE_OUT_OF_MEMORY; return -1; } return 0; } static void dndFreeVnodeFetchQueue(SDnode *pDnode, SVnodeObj *pVnode) { SVnodesMgmt *pMgmt = &pDnode->vmgmt; tWorkerFreeQueue(&pMgmt->fetchPool, pVnode->pFetchQ); pVnode->pFetchQ = NULL; } static int32_t dndInitVnodeReadWorker(SDnode *pDnode) { SVnodesMgmt *pMgmt = &pDnode->vmgmt; int32_t maxFetchThreads = 4; float threadsForQuery = MAX(pDnode->opt.numOfCores * pDnode->opt.ratioOfQueryCores, 1); SWorkerPool *pPool = &pMgmt->queryPool; pPool->name = "vnode-query"; pPool->min = (int32_t)threadsForQuery; pPool->max = pPool->min; if (tWorkerInit(pPool) != 0) { terrno = TSDB_CODE_OUT_OF_MEMORY; return -1; } pPool = &pMgmt->fetchPool; pPool->name = "vnode-fetch"; pPool->min = MIN(maxFetchThreads, pDnode->opt.numOfCores); pPool->max = pPool->min; if (tWorkerInit(pPool) != 0) { terrno = TSDB_CODE_OUT_OF_MEMORY; return -1; } dDebug("vnode read worker is initialized"); return 0; } static void dndCleanupVnodeReadWorker(SDnode *pDnode) { SVnodesMgmt *pMgmt = &pDnode->vmgmt; tWorkerCleanup(&pMgmt->fetchPool); tWorkerCleanup(&pMgmt->queryPool); dDebug("vnode close worker is initialized"); } static int32_t dndAllocVnodeWriteQueue(SDnode *pDnode, SVnodeObj *pVnode) { SVnodesMgmt *pMgmt = &pDnode->vmgmt; pVnode->pWriteQ = tMWorkerAllocQueue(&pMgmt->writePool, pVnode, (FProcessItems)dndProcessVnodeWriteQueue); if (pVnode->pWriteQ == NULL) { terrno = TSDB_CODE_OUT_OF_MEMORY; return -1; } return 0; } static void dndFreeVnodeWriteQueue(SDnode *pDnode, SVnodeObj *pVnode) { SVnodesMgmt *pMgmt = &pDnode->vmgmt; tMWorkerFreeQueue(&pMgmt->writePool, pVnode->pWriteQ); pVnode->pWriteQ = NULL; } static int32_t dndAllocVnodeApplyQueue(SDnode *pDnode, SVnodeObj *pVnode) { SVnodesMgmt *pMgmt = &pDnode->vmgmt; pVnode->pApplyQ = tMWorkerAllocQueue(&pMgmt->writePool, pVnode, (FProcessItems)dndProcessVnodeApplyQueue); if (pVnode->pApplyQ == NULL) { terrno = TSDB_CODE_OUT_OF_MEMORY; return -1; } return 0; } static void dndFreeVnodeApplyQueue(SDnode *pDnode, SVnodeObj *pVnode) { SVnodesMgmt *pMgmt = &pDnode->vmgmt; tMWorkerFreeQueue(&pMgmt->writePool, pVnode->pApplyQ); pVnode->pApplyQ = NULL; } static int32_t dndInitVnodeWriteWorker(SDnode *pDnode) { SVnodesMgmt *pMgmt = &pDnode->vmgmt; SMWorkerPool *pPool = &pMgmt->writePool; pPool->name = "vnode-write"; pPool->max = pDnode->opt.numOfCores; if (tMWorkerInit(pPool) != 0) { terrno = TSDB_CODE_OUT_OF_MEMORY; return -1; } dDebug("vnode write worker is initialized"); return 0; } static void dndCleanupVnodeWriteWorker(SDnode *pDnode) { SVnodesMgmt *pMgmt = &pDnode->vmgmt; tMWorkerCleanup(&pMgmt->writePool); dDebug("vnode write worker is closed"); } static int32_t dndAllocVnodeSyncQueue(SDnode *pDnode, SVnodeObj *pVnode) { SVnodesMgmt *pMgmt = &pDnode->vmgmt; pVnode->pSyncQ = tMWorkerAllocQueue(&pMgmt->syncPool, pVnode, (FProcessItems)dndProcessVnodeSyncQueue); if (pVnode->pSyncQ == NULL) { terrno = TSDB_CODE_OUT_OF_MEMORY; return -1; } return 0; } static void dndFreeVnodeSyncQueue(SDnode *pDnode, SVnodeObj *pVnode) { SVnodesMgmt *pMgmt = &pDnode->vmgmt; tMWorkerFreeQueue(&pMgmt->syncPool, pVnode->pSyncQ); pVnode->pSyncQ = NULL; } static int32_t dndInitVnodeSyncWorker(SDnode *pDnode) { int32_t maxThreads = pDnode->opt.numOfCores / 2; if (maxThreads < 1) maxThreads = 1; SVnodesMgmt *pMgmt = &pDnode->vmgmt; SMWorkerPool *pPool = &pMgmt->syncPool; pPool->name = "vnode-sync"; pPool->max = maxThreads; if (tMWorkerInit(pPool) != 0) { terrno = TSDB_CODE_OUT_OF_MEMORY; return -1; } dDebug("vnode sync worker is initialized"); return 0; } static void dndCleanupVnodeSyncWorker(SDnode *pDnode) { SVnodesMgmt *pMgmt = &pDnode->vmgmt; tMWorkerCleanup(&pMgmt->syncPool); dDebug("vnode sync worker is closed"); } int32_t dndInitVnodes(SDnode *pDnode) { dInfo("dnode-vnodes start to init"); if (dndInitVnodeReadWorker(pDnode) != 0) { dError("failed to init vnodes read worker since %s", terrstr()); return -1; } if (dndInitVnodeWriteWorker(pDnode) != 0) { dError("failed to init vnodes write worker since %s", terrstr()); return -1; } if (dndInitVnodeSyncWorker(pDnode) != 0) { dError("failed to init vnodes sync worker since %s", terrstr()); return -1; } if (dndOpenVnodes(pDnode) != 0) { dError("failed to open vnodes since %s", terrstr()); return -1; } dInfo("dnode-vnodes is initialized"); return 0; } void dndCleanupVnodes(SDnode *pDnode) { dInfo("dnode-vnodes start to clean up"); dndCloseVnodes(pDnode); dndCleanupVnodeReadWorker(pDnode); dndCleanupVnodeWriteWorker(pDnode); dndCleanupVnodeSyncWorker(pDnode); dInfo("dnode-vnodes is cleaned up"); } void dndGetVnodeLoads(SDnode *pDnode, SVnodeLoads *pLoads) { SVnodesMgmt *pMgmt = &pDnode->vmgmt; taosRLockLatch(&pMgmt->latch); pLoads->num = taosHashGetSize(pMgmt->hash); int32_t v = 0; void *pIter = taosHashIterate(pMgmt->hash, NULL); while (pIter) { SVnodeObj **ppVnode = pIter; if (ppVnode == NULL || *ppVnode == NULL) continue; SVnodeObj *pVnode = *ppVnode; SVnodeLoad *pLoad = &pLoads->data[v++]; vnodeGetLoad(pVnode->pImpl, pLoad); pLoad->vgId = htonl(pLoad->vgId); pLoad->totalStorage = htobe64(pLoad->totalStorage); pLoad->compStorage = htobe64(pLoad->compStorage); pLoad->pointsWritten = htobe64(pLoad->pointsWritten); pLoad->tablesNum = htobe64(pLoad->tablesNum); pIter = taosHashIterate(pMgmt->hash, pIter); } taosRUnLockLatch(&pMgmt->latch); }