/* * 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 . */ #include "meta.h" static int metaSaveJsonVarToIdx(SMeta *pMeta, const SMetaEntry *pCtbEntry, const SSchema *pSchema); static int metaDelJsonVarFromIdx(SMeta *pMeta, const SMetaEntry *pCtbEntry, const SSchema *pSchema); static int metaSaveToTbDb(SMeta *pMeta, const SMetaEntry *pME); static int metaUpdateUidIdx(SMeta *pMeta, const SMetaEntry *pME); static int metaUpdateNameIdx(SMeta *pMeta, const SMetaEntry *pME); static int metaUpdateTtlIdx(SMeta *pMeta, const SMetaEntry *pME); static int metaSaveToSkmDb(SMeta *pMeta, const SMetaEntry *pME); static int metaUpdateCtbIdx(SMeta *pMeta, const SMetaEntry *pME); static int metaUpdateSuidIdx(SMeta *pMeta, const SMetaEntry *pME); static int metaUpdateTagIdx(SMeta *pMeta, const SMetaEntry *pCtbEntry); static int metaDropTableByUid(SMeta *pMeta, tb_uid_t uid, int *type); static void metaGetEntryInfo(const SMetaEntry *pEntry, SMetaInfo *pInfo) { pInfo->uid = pEntry->uid; pInfo->version = pEntry->version; if (pEntry->type == TSDB_SUPER_TABLE) { pInfo->suid = pEntry->uid; pInfo->skmVer = pEntry->stbEntry.schemaRow.version; } else if (pEntry->type == TSDB_CHILD_TABLE) { pInfo->suid = pEntry->ctbEntry.suid; pInfo->skmVer = 0; } else if (pEntry->type == TSDB_NORMAL_TABLE) { pInfo->suid = 0; pInfo->skmVer = pEntry->ntbEntry.schemaRow.version; } else { ASSERT(0); } } static int metaUpdateMetaRsp(tb_uid_t uid, char *tbName, SSchemaWrapper *pSchema, STableMetaRsp *pMetaRsp) { pMetaRsp->pSchemas = taosMemoryMalloc(pSchema->nCols * sizeof(SSchema)); if (NULL == pMetaRsp->pSchemas) { terrno = TSDB_CODE_VND_OUT_OF_MEMORY; return -1; } strncpy(pMetaRsp->tbName, tbName, TSDB_TABLE_NAME_LEN); pMetaRsp->numOfColumns = pSchema->nCols; pMetaRsp->tableType = TSDB_NORMAL_TABLE; pMetaRsp->sversion = pSchema->version; pMetaRsp->tuid = uid; memcpy(pMetaRsp->pSchemas, pSchema->pSchema, pSchema->nCols * sizeof(SSchema)); return 0; } static int metaSaveJsonVarToIdx(SMeta *pMeta, const SMetaEntry *pCtbEntry, const SSchema *pSchema) { #ifdef USE_INVERTED_INDEX if (pMeta->pTagIvtIdx == NULL || pCtbEntry == NULL) { return -1; } void *data = pCtbEntry->ctbEntry.pTags; const char *tagName = pSchema->name; tb_uid_t suid = pCtbEntry->ctbEntry.suid; tb_uid_t tuid = pCtbEntry->uid; const void *pTagData = pCtbEntry->ctbEntry.pTags; int32_t nTagData = 0; SArray *pTagVals = NULL; if (tTagToValArray((const STag *)data, &pTagVals) != 0) { return -1; } SIndexMultiTerm *terms = indexMultiTermCreate(); int16_t nCols = taosArrayGetSize(pTagVals); for (int i = 0; i < nCols; i++) { STagVal *pTagVal = (STagVal *)taosArrayGet(pTagVals, i); char type = pTagVal->type; char *key = pTagVal->pKey; int32_t nKey = strlen(key); SIndexTerm *term = NULL; if (type == TSDB_DATA_TYPE_NULL) { term = indexTermCreate(suid, ADD_VALUE, TSDB_DATA_TYPE_VARCHAR, key, nKey, NULL, 0); } else if (type == TSDB_DATA_TYPE_NCHAR) { if (pTagVal->nData > 0) { char *val = taosMemoryCalloc(1, pTagVal->nData + VARSTR_HEADER_SIZE); int32_t len = taosUcs4ToMbs((TdUcs4 *)pTagVal->pData, pTagVal->nData, val + VARSTR_HEADER_SIZE); memcpy(val, (uint16_t *)&len, VARSTR_HEADER_SIZE); type = TSDB_DATA_TYPE_VARCHAR; term = indexTermCreate(suid, ADD_VALUE, type, key, nKey, val, len); taosMemoryFree(val); } else if (pTagVal->nData == 0) { term = indexTermCreate(suid, ADD_VALUE, TSDB_DATA_TYPE_VARCHAR, key, nKey, pTagVal->pData, 0); } } else if (type == TSDB_DATA_TYPE_DOUBLE) { double val = *(double *)(&pTagVal->i64); int len = sizeof(val); term = indexTermCreate(suid, ADD_VALUE, type, key, nKey, (const char *)&val, len); } else if (type == TSDB_DATA_TYPE_BOOL) { int val = *(int *)(&pTagVal->i64); int len = sizeof(val); term = indexTermCreate(suid, ADD_VALUE, TSDB_DATA_TYPE_BOOL, key, nKey, (const char *)&val, len); } if (term != NULL) { indexMultiTermAdd(terms, term); } } indexJsonPut(pMeta->pTagIvtIdx, terms, tuid); indexMultiTermDestroy(terms); taosArrayDestroy(pTagVals); #endif return 0; } int metaDelJsonVarFromIdx(SMeta *pMeta, const SMetaEntry *pCtbEntry, const SSchema *pSchema) { #ifdef USE_INVERTED_INDEX if (pMeta->pTagIvtIdx == NULL || pCtbEntry == NULL) { return -1; } void *data = pCtbEntry->ctbEntry.pTags; const char *tagName = pSchema->name; tb_uid_t suid = pCtbEntry->ctbEntry.suid; tb_uid_t tuid = pCtbEntry->uid; const void *pTagData = pCtbEntry->ctbEntry.pTags; int32_t nTagData = 0; SArray *pTagVals = NULL; if (tTagToValArray((const STag *)data, &pTagVals) != 0) { return -1; } SIndexMultiTerm *terms = indexMultiTermCreate(); int16_t nCols = taosArrayGetSize(pTagVals); for (int i = 0; i < nCols; i++) { STagVal *pTagVal = (STagVal *)taosArrayGet(pTagVals, i); char type = pTagVal->type; char *key = pTagVal->pKey; int32_t nKey = strlen(key); SIndexTerm *term = NULL; if (type == TSDB_DATA_TYPE_NULL) { term = indexTermCreate(suid, DEL_VALUE, TSDB_DATA_TYPE_VARCHAR, key, nKey, NULL, 0); } else if (type == TSDB_DATA_TYPE_NCHAR) { if (pTagVal->nData > 0) { char *val = taosMemoryCalloc(1, pTagVal->nData + VARSTR_HEADER_SIZE); int32_t len = taosUcs4ToMbs((TdUcs4 *)pTagVal->pData, pTagVal->nData, val + VARSTR_HEADER_SIZE); memcpy(val, (uint16_t *)&len, VARSTR_HEADER_SIZE); type = TSDB_DATA_TYPE_VARCHAR; term = indexTermCreate(suid, DEL_VALUE, type, key, nKey, val, len); taosMemoryFree(val); } else if (pTagVal->nData == 0) { term = indexTermCreate(suid, DEL_VALUE, TSDB_DATA_TYPE_VARCHAR, key, nKey, pTagVal->pData, 0); } } else if (type == TSDB_DATA_TYPE_DOUBLE) { double val = *(double *)(&pTagVal->i64); int len = sizeof(val); term = indexTermCreate(suid, DEL_VALUE, type, key, nKey, (const char *)&val, len); } else if (type == TSDB_DATA_TYPE_BOOL) { int val = *(int *)(&pTagVal->i64); int len = sizeof(val); term = indexTermCreate(suid, DEL_VALUE, TSDB_DATA_TYPE_BOOL, key, nKey, (const char *)&val, len); } if (term != NULL) { indexMultiTermAdd(terms, term); } } indexJsonPut(pMeta->pTagIvtIdx, terms, tuid); indexMultiTermDestroy(terms); taosArrayDestroy(pTagVals); #endif return 0; } int metaCreateSTable(SMeta *pMeta, int64_t version, SVCreateStbReq *pReq) { SMetaEntry me = {0}; int kLen = 0; int vLen = 0; const void *pKey = NULL; const void *pVal = NULL; void *pBuf = NULL; int32_t szBuf = 0; void *p = NULL; // validate req void *pData = NULL; int nData = 0; if (tdbTbGet(pMeta->pNameIdx, pReq->name, strlen(pReq->name) + 1, &pData, &nData) == 0) { tb_uid_t uid = *(tb_uid_t *)pData; tdbFree(pData); SMetaInfo info; metaGetInfo(pMeta, uid, &info); if (info.uid == info.suid) { return 0; } else { terrno = TSDB_CODE_TDB_TABLE_ALREADY_EXIST; return -1; } } // set structs me.version = version; me.type = TSDB_SUPER_TABLE; me.uid = pReq->suid; me.name = pReq->name; me.stbEntry.schemaRow = pReq->schemaRow; me.stbEntry.schemaTag = pReq->schemaTag; if (pReq->rollup) { TABLE_SET_ROLLUP(me.flags); me.stbEntry.rsmaParam = pReq->rsmaParam; } if (metaHandleEntry(pMeta, &me) < 0) goto _err; ++pMeta->pVnode->config.vndStats.numOfSTables; metaDebug("vgId:%d, stb:%s is created, suid:%" PRId64, TD_VID(pMeta->pVnode), pReq->name, pReq->suid); return 0; _err: metaError("vgId:%d, failed to create stb:%s uid:%" PRId64 " since %s", TD_VID(pMeta->pVnode), pReq->name, pReq->suid, tstrerror(terrno)); return -1; } int metaDropSTable(SMeta *pMeta, int64_t verison, SVDropStbReq *pReq, SArray *tbUidList) { void *pKey = NULL; int nKey = 0; void *pData = NULL; int nData = 0; int c = 0; int rc = 0; // check if super table exists rc = tdbTbGet(pMeta->pNameIdx, pReq->name, strlen(pReq->name) + 1, &pData, &nData); if (rc < 0 || *(tb_uid_t *)pData != pReq->suid) { tdbFree(pData); terrno = TSDB_CODE_TDB_STB_NOT_EXIST; return -1; } // drop all child tables TBC *pCtbIdxc = NULL; tdbTbcOpen(pMeta->pCtbIdx, &pCtbIdxc, &pMeta->txn); rc = tdbTbcMoveTo(pCtbIdxc, &(SCtbIdxKey){.suid = pReq->suid, .uid = INT64_MIN}, sizeof(SCtbIdxKey), &c); if (rc < 0) { tdbTbcClose(pCtbIdxc); metaWLock(pMeta); goto _drop_super_table; } for (;;) { rc = tdbTbcNext(pCtbIdxc, &pKey, &nKey, NULL, NULL); if (rc < 0) break; if (((SCtbIdxKey *)pKey)->suid < pReq->suid) { continue; } else if (((SCtbIdxKey *)pKey)->suid > pReq->suid) { break; } taosArrayPush(tbUidList, &(((SCtbIdxKey *)pKey)->uid)); } tdbTbcClose(pCtbIdxc); metaWLock(pMeta); for (int32_t iChild = 0; iChild < taosArrayGetSize(tbUidList); iChild++) { tb_uid_t uid = *(tb_uid_t *)taosArrayGet(tbUidList, iChild); metaDropTableByUid(pMeta, uid, NULL); } // drop super table _drop_super_table: tdbTbGet(pMeta->pUidIdx, &pReq->suid, sizeof(tb_uid_t), &pData, &nData); tdbTbDelete(pMeta->pTbDb, &(STbDbKey){.version = ((SUidIdxVal *)pData)[0].version, .uid = pReq->suid}, sizeof(STbDbKey), &pMeta->txn); tdbTbDelete(pMeta->pNameIdx, pReq->name, strlen(pReq->name) + 1, &pMeta->txn); tdbTbDelete(pMeta->pUidIdx, &pReq->suid, sizeof(tb_uid_t), &pMeta->txn); tdbTbDelete(pMeta->pSuidIdx, &pReq->suid, sizeof(tb_uid_t), &pMeta->txn); metaULock(pMeta); _exit: tdbFree(pKey); tdbFree(pData); metaDebug("vgId:%d, super table %s uid:%" PRId64 " is dropped", TD_VID(pMeta->pVnode), pReq->name, pReq->suid); return 0; } int metaAlterSTable(SMeta *pMeta, int64_t version, SVCreateStbReq *pReq) { SMetaEntry oStbEntry = {0}; SMetaEntry nStbEntry = {0}; TBC *pUidIdxc = NULL; TBC *pTbDbc = NULL; const void *pData; int nData; int64_t oversion; SDecoder dc = {0}; int32_t ret; int32_t c = -2; tdbTbcOpen(pMeta->pUidIdx, &pUidIdxc, &pMeta->txn); ret = tdbTbcMoveTo(pUidIdxc, &pReq->suid, sizeof(tb_uid_t), &c); if (ret < 0 || c) { tdbTbcClose(pUidIdxc); terrno = TSDB_CODE_TDB_STB_NOT_EXIST; return -1; } ret = tdbTbcGet(pUidIdxc, NULL, NULL, &pData, &nData); if (ret < 0) { tdbTbcClose(pUidIdxc); terrno = TSDB_CODE_TDB_STB_NOT_EXIST; return -1; } oversion = ((SUidIdxVal *)pData)[0].version; tdbTbcOpen(pMeta->pTbDb, &pTbDbc, &pMeta->txn); ret = tdbTbcMoveTo(pTbDbc, &((STbDbKey){.uid = pReq->suid, .version = oversion}), sizeof(STbDbKey), &c); ASSERT(ret == 0 && c == 0); ret = tdbTbcGet(pTbDbc, NULL, NULL, &pData, &nData); ASSERT(ret == 0); oStbEntry.pBuf = taosMemoryMalloc(nData); memcpy(oStbEntry.pBuf, pData, nData); tDecoderInit(&dc, oStbEntry.pBuf, nData); metaDecodeEntry(&dc, &oStbEntry); nStbEntry.version = version; nStbEntry.type = TSDB_SUPER_TABLE; nStbEntry.uid = pReq->suid; nStbEntry.name = pReq->name; nStbEntry.stbEntry.schemaRow = pReq->schemaRow; nStbEntry.stbEntry.schemaTag = pReq->schemaTag; metaWLock(pMeta); // compare two entry if (oStbEntry.stbEntry.schemaRow.version != pReq->schemaRow.version) { metaSaveToSkmDb(pMeta, &nStbEntry); } // update table.db metaSaveToTbDb(pMeta, &nStbEntry); // update uid index metaUpdateUidIdx(pMeta, &nStbEntry); metaStatsCacheDrop(pMeta, nStbEntry.uid); metaULock(pMeta); if (oStbEntry.pBuf) taosMemoryFree(oStbEntry.pBuf); tDecoderClear(&dc); tdbTbcClose(pTbDbc); tdbTbcClose(pUidIdxc); return 0; } int metaCreateTable(SMeta *pMeta, int64_t version, SVCreateTbReq *pReq, STableMetaRsp **pMetaRsp) { SMetaEntry me = {0}; SMetaReader mr = {0}; // validate message if (pReq->type != TSDB_CHILD_TABLE && pReq->type != TSDB_NORMAL_TABLE) { terrno = TSDB_CODE_INVALID_MSG; goto _err; } if (pReq->type == TSDB_CHILD_TABLE) { tb_uid_t suid = metaGetTableEntryUidByName(pMeta, pReq->ctb.stbName); if (suid != pReq->ctb.suid) { terrno = TSDB_CODE_PAR_TABLE_NOT_EXIST; return -1; } } // validate req metaReaderInit(&mr, pMeta, 0); if (metaGetTableEntryByName(&mr, pReq->name) == 0) { pReq->uid = mr.me.uid; if (pReq->type == TSDB_CHILD_TABLE) { pReq->ctb.suid = mr.me.ctbEntry.suid; } terrno = TSDB_CODE_TDB_TABLE_ALREADY_EXIST; metaReaderClear(&mr); return -1; } else if (terrno == TSDB_CODE_PAR_TABLE_NOT_EXIST) { terrno = TSDB_CODE_SUCCESS; } metaReaderClear(&mr); // build SMetaEntry me.version = version; me.type = pReq->type; me.uid = pReq->uid; me.name = pReq->name; if (me.type == TSDB_CHILD_TABLE) { me.ctbEntry.ctime = pReq->ctime; me.ctbEntry.ttlDays = pReq->ttl; me.ctbEntry.commentLen = pReq->commentLen; me.ctbEntry.comment = pReq->comment; me.ctbEntry.suid = pReq->ctb.suid; me.ctbEntry.pTags = pReq->ctb.pTag; #ifdef TAG_FILTER_DEBUG SArray *pTagVals = NULL; int32_t code = tTagToValArray((STag *)pReq->ctb.pTag, &pTagVals); for (int i = 0; i < taosArrayGetSize(pTagVals); i++) { STagVal *pTagVal = (STagVal *)taosArrayGet(pTagVals, i); if (IS_VAR_DATA_TYPE(pTagVal->type)) { char *buf = taosMemoryCalloc(pTagVal->nData + 1, 1); memcpy(buf, pTagVal->pData, pTagVal->nData); metaDebug("metaTag table:%s varchar index:%d cid:%d type:%d value:%s", pReq->name, i, pTagVal->cid, pTagVal->type, buf); taosMemoryFree(buf); } else { double val = 0; GET_TYPED_DATA(val, double, pTagVal->type, &pTagVal->i64); metaDebug("metaTag table:%s number index:%d cid:%d type:%d value:%f", pReq->name, i, pTagVal->cid, pTagVal->type, val); } } #endif ++pMeta->pVnode->config.vndStats.numOfCTables; } else { me.ntbEntry.ctime = pReq->ctime; me.ntbEntry.ttlDays = pReq->ttl; me.ntbEntry.commentLen = pReq->commentLen; me.ntbEntry.comment = pReq->comment; me.ntbEntry.schemaRow = pReq->ntb.schemaRow; me.ntbEntry.ncid = me.ntbEntry.schemaRow.pSchema[me.ntbEntry.schemaRow.nCols - 1].colId + 1; ++pMeta->pVnode->config.vndStats.numOfNTables; pMeta->pVnode->config.vndStats.numOfNTimeSeries += me.ntbEntry.schemaRow.nCols - 1; } if (metaHandleEntry(pMeta, &me) < 0) goto _err; if (pMetaRsp) { *pMetaRsp = taosMemoryCalloc(1, sizeof(STableMetaRsp)); if (*pMetaRsp) { if (me.type == TSDB_CHILD_TABLE) { (*pMetaRsp)->tableType = TSDB_CHILD_TABLE; (*pMetaRsp)->tuid = pReq->uid; (*pMetaRsp)->suid = pReq->ctb.suid; strcpy((*pMetaRsp)->tbName, pReq->name); } else { metaUpdateMetaRsp(pReq->uid, pReq->name, &pReq->ntb.schemaRow, *pMetaRsp); } } } metaDebug("vgId:%d, table:%s uid %" PRId64 " is created, type:%" PRId8, TD_VID(pMeta->pVnode), pReq->name, pReq->uid, pReq->type); return 0; _err: metaError("vgId:%d, failed to create table:%s type:%s since %s", TD_VID(pMeta->pVnode), pReq->name, pReq->type == TSDB_CHILD_TABLE ? "child table" : "normal table", tstrerror(terrno)); return -1; } int metaDropTable(SMeta *pMeta, int64_t version, SVDropTbReq *pReq, SArray *tbUids, tb_uid_t *tbUid) { void *pData = NULL; int nData = 0; int rc = 0; tb_uid_t uid; int type; rc = tdbTbGet(pMeta->pNameIdx, pReq->name, strlen(pReq->name) + 1, &pData, &nData); if (rc < 0) { terrno = TSDB_CODE_VND_TABLE_NOT_EXIST; return -1; } uid = *(tb_uid_t *)pData; metaWLock(pMeta); metaDropTableByUid(pMeta, uid, &type); metaULock(pMeta); if ((type == TSDB_CHILD_TABLE || type == TSDB_NORMAL_TABLE) && tbUids) { taosArrayPush(tbUids, &uid); } if ((type == TSDB_CHILD_TABLE) && tbUid) { *tbUid = uid; } tdbFree(pData); return 0; } int metaTtlDropTable(SMeta *pMeta, int64_t ttl, SArray *tbUids) { int ret = metaTtlSmaller(pMeta, ttl, tbUids); if (ret != 0) { return ret; } if (taosArrayGetSize(tbUids) == 0) { return 0; } metaWLock(pMeta); for (int i = 0; i < taosArrayGetSize(tbUids); ++i) { tb_uid_t *uid = (tb_uid_t *)taosArrayGet(tbUids, i); metaDropTableByUid(pMeta, *uid, NULL); metaDebug("ttl drop table:%" PRId64, *uid); } metaULock(pMeta); return 0; } static void metaBuildTtlIdxKey(STtlIdxKey *ttlKey, const SMetaEntry *pME) { int64_t ttlDays; int64_t ctime; if (pME->type == TSDB_CHILD_TABLE) { ctime = pME->ctbEntry.ctime; ttlDays = pME->ctbEntry.ttlDays; } else if (pME->type == TSDB_NORMAL_TABLE) { ctime = pME->ntbEntry.ctime; ttlDays = pME->ntbEntry.ttlDays; } else { ASSERT(0); } if (ttlDays <= 0) return; ttlKey->dtime = ctime / 1000 + ttlDays * tsTtlUnit; ttlKey->uid = pME->uid; } static int metaDeleteTtlIdx(SMeta *pMeta, const SMetaEntry *pME) { STtlIdxKey ttlKey = {0}; metaBuildTtlIdxKey(&ttlKey, pME); if (ttlKey.dtime == 0) return 0; return tdbTbDelete(pMeta->pTtlIdx, &ttlKey, sizeof(ttlKey), &pMeta->txn); } static int metaDropTableByUid(SMeta *pMeta, tb_uid_t uid, int *type) { void *pData = NULL; int nData = 0; int rc = 0; SMetaEntry e = {0}; SDecoder dc = {0}; rc = tdbTbGet(pMeta->pUidIdx, &uid, sizeof(uid), &pData, &nData); if (rc < 0) { return -1; } int64_t version = ((SUidIdxVal *)pData)[0].version; tdbTbGet(pMeta->pTbDb, &(STbDbKey){.version = version, .uid = uid}, sizeof(STbDbKey), &pData, &nData); tDecoderInit(&dc, pData, nData); metaDecodeEntry(&dc, &e); if (type) *type = e.type; if (e.type == TSDB_CHILD_TABLE) { void *tData = NULL; int tLen = 0; if (tdbTbGet(pMeta->pUidIdx, &e.ctbEntry.suid, sizeof(tb_uid_t), &tData, &tLen) == 0) { version = ((SUidIdxVal *)tData)[0].version; STbDbKey tbDbKey = {.uid = e.ctbEntry.suid, .version = version}; if (tdbTbGet(pMeta->pTbDb, &tbDbKey, sizeof(tbDbKey), &tData, &tLen) == 0) { SDecoder tdc = {0}; SMetaEntry stbEntry = {0}; tDecoderInit(&tdc, tData, tLen); metaDecodeEntry(&tdc, &stbEntry); const SSchema *pTagColumn = &stbEntry.stbEntry.schemaTag.pSchema[0]; if (pTagColumn->type == TSDB_DATA_TYPE_JSON) { metaDelJsonVarFromIdx(pMeta, &e, pTagColumn); } tDecoderClear(&tdc); } tdbFree(tData); } } tdbTbDelete(pMeta->pTbDb, &(STbDbKey){.version = version, .uid = uid}, sizeof(STbDbKey), &pMeta->txn); tdbTbDelete(pMeta->pNameIdx, e.name, strlen(e.name) + 1, &pMeta->txn); tdbTbDelete(pMeta->pUidIdx, &uid, sizeof(uid), &pMeta->txn); if (e.type != TSDB_SUPER_TABLE) metaDeleteTtlIdx(pMeta, &e); if (e.type == TSDB_CHILD_TABLE) { tdbTbDelete(pMeta->pCtbIdx, &(SCtbIdxKey){.suid = e.ctbEntry.suid, .uid = uid}, sizeof(SCtbIdxKey), &pMeta->txn); --pMeta->pVnode->config.vndStats.numOfCTables; } else if (e.type == TSDB_NORMAL_TABLE) { // drop schema.db (todo) --pMeta->pVnode->config.vndStats.numOfNTables; pMeta->pVnode->config.vndStats.numOfNTimeSeries -= e.ntbEntry.schemaRow.nCols - 1; } else if (e.type == TSDB_SUPER_TABLE) { tdbTbDelete(pMeta->pSuidIdx, &e.uid, sizeof(tb_uid_t), &pMeta->txn); // drop schema.db (todo) metaStatsCacheDrop(pMeta, uid); --pMeta->pVnode->config.vndStats.numOfSTables; } metaCacheDrop(pMeta, uid); tDecoderClear(&dc); tdbFree(pData); return 0; } static int metaAlterTableColumn(SMeta *pMeta, int64_t version, SVAlterTbReq *pAlterTbReq, STableMetaRsp *pMetaRsp) { void *pVal = NULL; int nVal = 0; const void *pData = NULL; int nData = 0; int ret = 0; tb_uid_t uid; int64_t oversion; SSchema *pColumn = NULL; SMetaEntry entry = {0}; SSchemaWrapper *pSchema; int c; // search name index ret = tdbTbGet(pMeta->pNameIdx, pAlterTbReq->tbName, strlen(pAlterTbReq->tbName) + 1, &pVal, &nVal); if (ret < 0) { terrno = TSDB_CODE_VND_TABLE_NOT_EXIST; return -1; } uid = *(tb_uid_t *)pVal; tdbFree(pVal); pVal = NULL; // search uid index TBC *pUidIdxc = NULL; tdbTbcOpen(pMeta->pUidIdx, &pUidIdxc, &pMeta->txn); tdbTbcMoveTo(pUidIdxc, &uid, sizeof(uid), &c); ASSERT(c == 0); tdbTbcGet(pUidIdxc, NULL, NULL, &pData, &nData); oversion = ((SUidIdxVal *)pData)[0].version; // search table.db TBC *pTbDbc = NULL; tdbTbcOpen(pMeta->pTbDb, &pTbDbc, &pMeta->txn); tdbTbcMoveTo(pTbDbc, &((STbDbKey){.uid = uid, .version = oversion}), sizeof(STbDbKey), &c); ASSERT(c == 0); tdbTbcGet(pTbDbc, NULL, NULL, &pData, &nData); // get table entry SDecoder dc = {0}; entry.pBuf = taosMemoryMalloc(nData); memcpy(entry.pBuf, pData, nData); tDecoderInit(&dc, entry.pBuf, nData); ret = metaDecodeEntry(&dc, &entry); ASSERT(ret == 0); if (entry.type != TSDB_NORMAL_TABLE) { terrno = TSDB_CODE_VND_INVALID_TABLE_ACTION; goto _err; } // search the column to add/drop/update pSchema = &entry.ntbEntry.schemaRow; int32_t iCol = 0; for (;;) { pColumn = NULL; if (iCol >= pSchema->nCols) break; pColumn = &pSchema->pSchema[iCol]; ASSERT(pAlterTbReq->colName); if (strcmp(pColumn->name, pAlterTbReq->colName) == 0) break; iCol++; } entry.version = version; int tlen; SSchema *pNewSchema = NULL; switch (pAlterTbReq->action) { case TSDB_ALTER_TABLE_ADD_COLUMN: if (pColumn) { terrno = TSDB_CODE_VND_COL_ALREADY_EXISTS; goto _err; } pSchema->version++; pSchema->nCols++; pNewSchema = taosMemoryMalloc(sizeof(SSchema) * pSchema->nCols); memcpy(pNewSchema, pSchema->pSchema, sizeof(SSchema) * (pSchema->nCols - 1)); pSchema->pSchema = pNewSchema; pSchema->pSchema[entry.ntbEntry.schemaRow.nCols - 1].bytes = pAlterTbReq->bytes; pSchema->pSchema[entry.ntbEntry.schemaRow.nCols - 1].type = pAlterTbReq->type; pSchema->pSchema[entry.ntbEntry.schemaRow.nCols - 1].flags = pAlterTbReq->flags; pSchema->pSchema[entry.ntbEntry.schemaRow.nCols - 1].colId = entry.ntbEntry.ncid++; strcpy(pSchema->pSchema[entry.ntbEntry.schemaRow.nCols - 1].name, pAlterTbReq->colName); ++pMeta->pVnode->config.vndStats.numOfNTimeSeries; break; case TSDB_ALTER_TABLE_DROP_COLUMN: if (pColumn == NULL) { terrno = TSDB_CODE_VND_TABLE_COL_NOT_EXISTS; goto _err; } if (pColumn->colId == 0) { terrno = TSDB_CODE_VND_INVALID_TABLE_ACTION; goto _err; } if (tqCheckColModifiable(pMeta->pVnode->pTq, uid, pColumn->colId) != 0) { terrno = TSDB_CODE_VND_COL_SUBSCRIBED; goto _err; } pSchema->version++; tlen = (pSchema->nCols - iCol - 1) * sizeof(SSchema); if (tlen) { memmove(pColumn, pColumn + 1, tlen); } pSchema->nCols--; --pMeta->pVnode->config.vndStats.numOfNTimeSeries; break; case TSDB_ALTER_TABLE_UPDATE_COLUMN_BYTES: if (pColumn == NULL) { terrno = TSDB_CODE_VND_TABLE_COL_NOT_EXISTS; goto _err; } if (!IS_VAR_DATA_TYPE(pColumn->type) || pColumn->bytes > pAlterTbReq->colModBytes) { terrno = TSDB_CODE_VND_INVALID_TABLE_ACTION; goto _err; } if (tqCheckColModifiable(pMeta->pVnode->pTq, uid, pColumn->colId) != 0) { terrno = TSDB_CODE_VND_COL_SUBSCRIBED; goto _err; } pSchema->version++; pColumn->bytes = pAlterTbReq->colModBytes; break; case TSDB_ALTER_TABLE_UPDATE_COLUMN_NAME: if (pColumn == NULL) { terrno = TSDB_CODE_VND_TABLE_COL_NOT_EXISTS; goto _err; } if (tqCheckColModifiable(pMeta->pVnode->pTq, uid, pColumn->colId) != 0) { terrno = TSDB_CODE_VND_COL_SUBSCRIBED; goto _err; } pSchema->version++; strcpy(pColumn->name, pAlterTbReq->colNewName); break; } entry.version = version; // do actual write metaWLock(pMeta); // save to table db metaSaveToTbDb(pMeta, &entry); metaUpdateUidIdx(pMeta, &entry); metaSaveToSkmDb(pMeta, &entry); metaULock(pMeta); metaUpdateMetaRsp(uid, pAlterTbReq->tbName, pSchema, pMetaRsp); if (entry.pBuf) taosMemoryFree(entry.pBuf); if (pNewSchema) taosMemoryFree(pNewSchema); tdbTbcClose(pTbDbc); tdbTbcClose(pUidIdxc); tDecoderClear(&dc); return 0; _err: if (entry.pBuf) taosMemoryFree(entry.pBuf); tdbTbcClose(pTbDbc); tdbTbcClose(pUidIdxc); tDecoderClear(&dc); return -1; } static int metaUpdateTableTagVal(SMeta *pMeta, int64_t version, SVAlterTbReq *pAlterTbReq) { SMetaEntry ctbEntry = {0}; SMetaEntry stbEntry = {0}; void *pVal = NULL; int nVal = 0; int ret; int c; tb_uid_t uid; int64_t oversion; const void *pData = NULL; int nData = 0; if (pAlterTbReq->tagName == NULL) { terrno = TSDB_CODE_INVALID_MSG; return -1; } // search name index ret = tdbTbGet(pMeta->pNameIdx, pAlterTbReq->tbName, strlen(pAlterTbReq->tbName) + 1, &pVal, &nVal); if (ret < 0) { terrno = TSDB_CODE_VND_TABLE_NOT_EXIST; return -1; } uid = *(tb_uid_t *)pVal; tdbFree(pVal); pVal = NULL; // search uid index TBC *pUidIdxc = NULL; tdbTbcOpen(pMeta->pUidIdx, &pUidIdxc, &pMeta->txn); tdbTbcMoveTo(pUidIdxc, &uid, sizeof(uid), &c); ASSERT(c == 0); tdbTbcGet(pUidIdxc, NULL, NULL, &pData, &nData); oversion = ((SUidIdxVal *)pData)[0].version; // search table.db TBC *pTbDbc = NULL; SDecoder dc1 = {0}; SDecoder dc2 = {0}; /* get ctbEntry */ tdbTbcOpen(pMeta->pTbDb, &pTbDbc, &pMeta->txn); tdbTbcMoveTo(pTbDbc, &((STbDbKey){.uid = uid, .version = oversion}), sizeof(STbDbKey), &c); ASSERT(c == 0); tdbTbcGet(pTbDbc, NULL, NULL, &pData, &nData); ctbEntry.pBuf = taosMemoryMalloc(nData); memcpy(ctbEntry.pBuf, pData, nData); tDecoderInit(&dc1, ctbEntry.pBuf, nData); metaDecodeEntry(&dc1, &ctbEntry); /* get stbEntry*/ tdbTbGet(pMeta->pUidIdx, &ctbEntry.ctbEntry.suid, sizeof(tb_uid_t), &pVal, &nVal); tdbTbGet(pMeta->pTbDb, &((STbDbKey){.uid = ctbEntry.ctbEntry.suid, .version = ((SUidIdxVal *)pVal)[0].version}), sizeof(STbDbKey), (void **)&stbEntry.pBuf, &nVal); tdbFree(pVal); tDecoderInit(&dc2, stbEntry.pBuf, nVal); metaDecodeEntry(&dc2, &stbEntry); SSchemaWrapper *pTagSchema = &stbEntry.stbEntry.schemaTag; SSchema *pColumn = NULL; int32_t iCol = 0; for (;;) { pColumn = NULL; if (iCol >= pTagSchema->nCols) break; pColumn = &pTagSchema->pSchema[iCol]; if (strcmp(pColumn->name, pAlterTbReq->tagName) == 0) break; iCol++; } if (pColumn == NULL) { terrno = TSDB_CODE_VND_TABLE_COL_NOT_EXISTS; goto _err; } ctbEntry.version = version; if (pTagSchema->nCols == 1 && pTagSchema->pSchema[0].type == TSDB_DATA_TYPE_JSON) { ctbEntry.ctbEntry.pTags = taosMemoryMalloc(pAlterTbReq->nTagVal); if (ctbEntry.ctbEntry.pTags == NULL) { terrno = TSDB_CODE_OUT_OF_MEMORY; goto _err; } memcpy((void *)ctbEntry.ctbEntry.pTags, pAlterTbReq->pTagVal, pAlterTbReq->nTagVal); } else { const STag *pOldTag = (const STag *)ctbEntry.ctbEntry.pTags; STag *pNewTag = NULL; SArray *pTagArray = taosArrayInit(pTagSchema->nCols, sizeof(STagVal)); if (!pTagArray) { terrno = TSDB_CODE_OUT_OF_MEMORY; goto _err; } for (int32_t i = 0; i < pTagSchema->nCols; i++) { SSchema *pCol = &pTagSchema->pSchema[i]; if (iCol == i) { if (pAlterTbReq->isNull) { continue; } STagVal val = {0}; val.type = pCol->type; val.cid = pCol->colId; if (IS_VAR_DATA_TYPE(pCol->type)) { val.pData = pAlterTbReq->pTagVal; val.nData = pAlterTbReq->nTagVal; } else { memcpy(&val.i64, pAlterTbReq->pTagVal, pAlterTbReq->nTagVal); } taosArrayPush(pTagArray, &val); } else { STagVal val = {.cid = pCol->colId}; if (tTagGet(pOldTag, &val)) { taosArrayPush(pTagArray, &val); } } } if ((terrno = tTagNew(pTagArray, pTagSchema->version, false, &pNewTag)) < 0) { taosArrayDestroy(pTagArray); goto _err; } ctbEntry.ctbEntry.pTags = (uint8_t *)pNewTag; taosArrayDestroy(pTagArray); } metaWLock(pMeta); // save to table.db metaSaveToTbDb(pMeta, &ctbEntry); // save to uid.idx metaUpdateUidIdx(pMeta, &ctbEntry); if (iCol == 0) { metaUpdateTagIdx(pMeta, &ctbEntry); } ASSERT(ctbEntry.ctbEntry.pTags); SCtbIdxKey ctbIdxKey = {.suid = ctbEntry.ctbEntry.suid, .uid = uid}; tdbTbUpsert(pMeta->pCtbIdx, &ctbIdxKey, sizeof(ctbIdxKey), ctbEntry.ctbEntry.pTags, ((STag *)(ctbEntry.ctbEntry.pTags))->len, &pMeta->txn); metaULock(pMeta); tDecoderClear(&dc1); tDecoderClear(&dc2); taosMemoryFree((void *)ctbEntry.ctbEntry.pTags); if (ctbEntry.pBuf) taosMemoryFree(ctbEntry.pBuf); if (stbEntry.pBuf) tdbFree(stbEntry.pBuf); tdbTbcClose(pTbDbc); tdbTbcClose(pUidIdxc); return 0; _err: tDecoderClear(&dc1); tDecoderClear(&dc2); if (ctbEntry.pBuf) taosMemoryFree(ctbEntry.pBuf); if (stbEntry.pBuf) tdbFree(stbEntry.pBuf); tdbTbcClose(pTbDbc); tdbTbcClose(pUidIdxc); return -1; } static int metaUpdateTableOptions(SMeta *pMeta, int64_t version, SVAlterTbReq *pAlterTbReq) { void *pVal = NULL; int nVal = 0; const void *pData = NULL; int nData = 0; int ret = 0; tb_uid_t uid; int64_t oversion; SMetaEntry entry = {0}; int c = 0; // search name index ret = tdbTbGet(pMeta->pNameIdx, pAlterTbReq->tbName, strlen(pAlterTbReq->tbName) + 1, &pVal, &nVal); if (ret < 0) { terrno = TSDB_CODE_VND_TABLE_NOT_EXIST; return -1; } uid = *(tb_uid_t *)pVal; tdbFree(pVal); pVal = NULL; // search uid index TBC *pUidIdxc = NULL; tdbTbcOpen(pMeta->pUidIdx, &pUidIdxc, &pMeta->txn); tdbTbcMoveTo(pUidIdxc, &uid, sizeof(uid), &c); ASSERT(c == 0); tdbTbcGet(pUidIdxc, NULL, NULL, &pData, &nData); oversion = ((SUidIdxVal *)pData)[0].version; // search table.db TBC *pTbDbc = NULL; tdbTbcOpen(pMeta->pTbDb, &pTbDbc, &pMeta->txn); tdbTbcMoveTo(pTbDbc, &((STbDbKey){.uid = uid, .version = oversion}), sizeof(STbDbKey), &c); ASSERT(c == 0); tdbTbcGet(pTbDbc, NULL, NULL, &pData, &nData); // get table entry SDecoder dc = {0}; entry.pBuf = taosMemoryMalloc(nData); memcpy(entry.pBuf, pData, nData); tDecoderInit(&dc, entry.pBuf, nData); ret = metaDecodeEntry(&dc, &entry); ASSERT(ret == 0); entry.version = version; metaWLock(pMeta); // build SMetaEntry if (entry.type == TSDB_CHILD_TABLE) { if (pAlterTbReq->updateTTL) { metaDeleteTtlIdx(pMeta, &entry); entry.ctbEntry.ttlDays = pAlterTbReq->newTTL; metaUpdateTtlIdx(pMeta, &entry); } if (pAlterTbReq->newCommentLen >= 0) { entry.ctbEntry.commentLen = pAlterTbReq->newCommentLen; entry.ctbEntry.comment = pAlterTbReq->newComment; } } else { if (pAlterTbReq->updateTTL) { metaDeleteTtlIdx(pMeta, &entry); entry.ntbEntry.ttlDays = pAlterTbReq->newTTL; metaUpdateTtlIdx(pMeta, &entry); } if (pAlterTbReq->newCommentLen >= 0) { entry.ntbEntry.commentLen = pAlterTbReq->newCommentLen; entry.ntbEntry.comment = pAlterTbReq->newComment; } } // save to table db metaSaveToTbDb(pMeta, &entry); metaUpdateUidIdx(pMeta, &entry); metaULock(pMeta); tdbTbcClose(pTbDbc); tdbTbcClose(pUidIdxc); tDecoderClear(&dc); if (entry.pBuf) taosMemoryFree(entry.pBuf); return 0; } int metaAlterTable(SMeta *pMeta, int64_t version, SVAlterTbReq *pReq, STableMetaRsp *pMetaRsp) { switch (pReq->action) { case TSDB_ALTER_TABLE_ADD_COLUMN: case TSDB_ALTER_TABLE_DROP_COLUMN: case TSDB_ALTER_TABLE_UPDATE_COLUMN_BYTES: case TSDB_ALTER_TABLE_UPDATE_COLUMN_NAME: return metaAlterTableColumn(pMeta, version, pReq, pMetaRsp); case TSDB_ALTER_TABLE_UPDATE_TAG_VAL: return metaUpdateTableTagVal(pMeta, version, pReq); case TSDB_ALTER_TABLE_UPDATE_OPTIONS: return metaUpdateTableOptions(pMeta, version, pReq); default: terrno = TSDB_CODE_VND_INVALID_TABLE_ACTION; return -1; break; } } static int metaSaveToTbDb(SMeta *pMeta, const SMetaEntry *pME) { STbDbKey tbDbKey; void *pKey = NULL; void *pVal = NULL; int kLen = 0; int vLen = 0; SEncoder coder = {0}; // set key and value tbDbKey.version = pME->version; tbDbKey.uid = pME->uid; metaDebug("vgId:%d, start to save table version:%" PRId64 " uid:%" PRId64, TD_VID(pMeta->pVnode), pME->version, pME->uid); pKey = &tbDbKey; kLen = sizeof(tbDbKey); int32_t ret = 0; tEncodeSize(metaEncodeEntry, pME, vLen, ret); if (ret < 0) { goto _err; } pVal = taosMemoryMalloc(vLen); if (pVal == NULL) { terrno = TSDB_CODE_OUT_OF_MEMORY; goto _err; } tEncoderInit(&coder, pVal, vLen); if (metaEncodeEntry(&coder, pME) < 0) { goto _err; } tEncoderClear(&coder); // write to table.db if (tdbTbInsert(pMeta->pTbDb, pKey, kLen, pVal, vLen, &pMeta->txn) < 0) { goto _err; } taosMemoryFree(pVal); return 0; _err: metaError("vgId:%d, failed to save table version:%" PRId64 "uid:%" PRId64 " %s", TD_VID(pMeta->pVnode), pME->version, pME->uid, tstrerror(terrno)); taosMemoryFree(pVal); return -1; } static int metaUpdateUidIdx(SMeta *pMeta, const SMetaEntry *pME) { // upsert cache SMetaInfo info; metaGetEntryInfo(pME, &info); metaCacheUpsert(pMeta, &info); SUidIdxVal uidIdxVal = {.suid = info.suid, .version = info.version, .skmVer = info.skmVer}; return tdbTbUpsert(pMeta->pUidIdx, &pME->uid, sizeof(tb_uid_t), &uidIdxVal, sizeof(uidIdxVal), &pMeta->txn); } static int metaUpdateSuidIdx(SMeta *pMeta, const SMetaEntry *pME) { return tdbTbInsert(pMeta->pSuidIdx, &pME->uid, sizeof(tb_uid_t), NULL, 0, &pMeta->txn); } static int metaUpdateNameIdx(SMeta *pMeta, const SMetaEntry *pME) { return tdbTbInsert(pMeta->pNameIdx, pME->name, strlen(pME->name) + 1, &pME->uid, sizeof(tb_uid_t), &pMeta->txn); } static int metaUpdateTtlIdx(SMeta *pMeta, const SMetaEntry *pME) { STtlIdxKey ttlKey = {0}; metaBuildTtlIdxKey(&ttlKey, pME); if (ttlKey.dtime == 0) return 0; return tdbTbInsert(pMeta->pTtlIdx, &ttlKey, sizeof(ttlKey), NULL, 0, &pMeta->txn); } static int metaUpdateCtbIdx(SMeta *pMeta, const SMetaEntry *pME) { SCtbIdxKey ctbIdxKey = {.suid = pME->ctbEntry.suid, .uid = pME->uid}; return tdbTbInsert(pMeta->pCtbIdx, &ctbIdxKey, sizeof(ctbIdxKey), pME->ctbEntry.pTags, ((STag *)(pME->ctbEntry.pTags))->len, &pMeta->txn); } int metaCreateTagIdxKey(tb_uid_t suid, int32_t cid, const void *pTagData, int32_t nTagData, int8_t type, tb_uid_t uid, STagIdxKey **ppTagIdxKey, int32_t *nTagIdxKey) { if (IS_VAR_DATA_TYPE(type)) { *nTagIdxKey = sizeof(STagIdxKey) + nTagData + VARSTR_HEADER_SIZE + sizeof(tb_uid_t); } else { *nTagIdxKey = sizeof(STagIdxKey) + nTagData + sizeof(tb_uid_t); } *ppTagIdxKey = (STagIdxKey *)taosMemoryMalloc(*nTagIdxKey); if (*ppTagIdxKey == NULL) { terrno = TSDB_CODE_OUT_OF_MEMORY; return -1; } (*ppTagIdxKey)->suid = suid; (*ppTagIdxKey)->cid = cid; (*ppTagIdxKey)->isNull = (pTagData == NULL) ? 1 : 0; (*ppTagIdxKey)->type = type; // refactor if (IS_VAR_DATA_TYPE(type)) { memcpy((*ppTagIdxKey)->data, (uint16_t *)&nTagData, VARSTR_HEADER_SIZE); memcpy((*ppTagIdxKey)->data + VARSTR_HEADER_SIZE, pTagData, nTagData); *(tb_uid_t *)((*ppTagIdxKey)->data + VARSTR_HEADER_SIZE + nTagData) = uid; } else { memcpy((*ppTagIdxKey)->data, pTagData, nTagData); *(tb_uid_t *)((*ppTagIdxKey)->data + nTagData) = uid; } return 0; } static void metaDestroyTagIdxKey(STagIdxKey *pTagIdxKey) { if (pTagIdxKey) taosMemoryFree(pTagIdxKey); } static int metaUpdateTagIdx(SMeta *pMeta, const SMetaEntry *pCtbEntry) { void *pData = NULL; int nData = 0; STbDbKey tbDbKey = {0}; SMetaEntry stbEntry = {0}; STagIdxKey *pTagIdxKey = NULL; int32_t nTagIdxKey; const SSchema *pTagColumn; const void *pTagData = NULL; int32_t nTagData = 0; SDecoder dc = {0}; int32_t ret = 0; // get super table if (tdbTbGet(pMeta->pUidIdx, &pCtbEntry->ctbEntry.suid, sizeof(tb_uid_t), &pData, &nData) != 0) { ret = -1; goto end; } tbDbKey.uid = pCtbEntry->ctbEntry.suid; tbDbKey.version = ((SUidIdxVal *)pData)[0].version; tdbTbGet(pMeta->pTbDb, &tbDbKey, sizeof(tbDbKey), &pData, &nData); tDecoderInit(&dc, pData, nData); metaDecodeEntry(&dc, &stbEntry); pTagColumn = &stbEntry.stbEntry.schemaTag.pSchema[0]; STagVal tagVal = {.cid = pTagColumn->colId}; if (pTagColumn->type != TSDB_DATA_TYPE_JSON) { tTagGet((const STag *)pCtbEntry->ctbEntry.pTags, &tagVal); if (IS_VAR_DATA_TYPE(pTagColumn->type)) { pTagData = tagVal.pData; nTagData = (int32_t)tagVal.nData; } else { pTagData = &(tagVal.i64); nTagData = tDataTypes[pTagColumn->type].bytes; } } else { // pTagData = pCtbEntry->ctbEntry.pTags; // nTagData = ((const STag *)pCtbEntry->ctbEntry.pTags)->len; pTagData = pCtbEntry->ctbEntry.pTags; nTagData = ((const STag *)pCtbEntry->ctbEntry.pTags)->len; ret = metaSaveJsonVarToIdx(pMeta, pCtbEntry, pTagColumn); goto end; } if (metaCreateTagIdxKey(pCtbEntry->ctbEntry.suid, pTagColumn->colId, pTagData, nTagData, pTagColumn->type, pCtbEntry->uid, &pTagIdxKey, &nTagIdxKey) < 0) { ret = -1; goto end; } tdbTbUpsert(pMeta->pTagIdx, pTagIdxKey, nTagIdxKey, NULL, 0, &pMeta->txn); end: metaDestroyTagIdxKey(pTagIdxKey); tDecoderClear(&dc); tdbFree(pData); return ret; } static int metaSaveToSkmDb(SMeta *pMeta, const SMetaEntry *pME) { SEncoder coder = {0}; void *pVal = NULL; int vLen = 0; int rcode = 0; SSkmDbKey skmDbKey = {0}; const SSchemaWrapper *pSW; if (pME->type == TSDB_SUPER_TABLE) { pSW = &pME->stbEntry.schemaRow; } else if (pME->type == TSDB_NORMAL_TABLE) { pSW = &pME->ntbEntry.schemaRow; } else { ASSERT(0); } skmDbKey.uid = pME->uid; skmDbKey.sver = pSW->version; // if receive tmq meta message is: create stable1 then delete stable1 then create stable1 with multi vgroups if (tdbTbGet(pMeta->pSkmDb, &skmDbKey, sizeof(skmDbKey), NULL, NULL) == 0) { return rcode; } // encode schema int32_t ret = 0; tEncodeSize(tEncodeSSchemaWrapper, pSW, vLen, ret); if (ret < 0) return -1; pVal = taosMemoryMalloc(vLen); if (pVal == NULL) { rcode = -1; terrno = TSDB_CODE_OUT_OF_MEMORY; goto _exit; } tEncoderInit(&coder, pVal, vLen); tEncodeSSchemaWrapper(&coder, pSW); if (tdbTbInsert(pMeta->pSkmDb, &skmDbKey, sizeof(skmDbKey), pVal, vLen, &pMeta->txn) < 0) { rcode = -1; goto _exit; } metaDebug("vgId:%d, set schema:(%" PRId64 ") sver:%d since %s", TD_VID(pMeta->pVnode), pME->uid, pSW->version, tstrerror(terrno)); _exit: taosMemoryFree(pVal); tEncoderClear(&coder); return rcode; } int metaHandleEntry(SMeta *pMeta, const SMetaEntry *pME) { metaWLock(pMeta); // save to table.db if (metaSaveToTbDb(pMeta, pME) < 0) goto _err; // update uid.idx if (metaUpdateUidIdx(pMeta, pME) < 0) goto _err; // update name.idx if (metaUpdateNameIdx(pMeta, pME) < 0) goto _err; if (pME->type == TSDB_CHILD_TABLE) { // update ctb.idx if (metaUpdateCtbIdx(pMeta, pME) < 0) goto _err; // update tag.idx if (metaUpdateTagIdx(pMeta, pME) < 0) goto _err; } else { // update schema.db if (metaSaveToSkmDb(pMeta, pME) < 0) goto _err; if (pME->type == TSDB_SUPER_TABLE) { if (metaUpdateSuidIdx(pMeta, pME) < 0) goto _err; } } if (pME->type != TSDB_SUPER_TABLE) { if (metaUpdateTtlIdx(pMeta, pME) < 0) goto _err; } metaULock(pMeta); return 0; _err: metaULock(pMeta); return -1; } // refactor later void *metaGetIdx(SMeta *pMeta) { return pMeta->pTagIdx; } void *metaGetIvtIdx(SMeta *pMeta) { return pMeta->pTagIvtIdx; }