#include "tmsg.h" #include "tglobal.h" #include "parserInt.h" #include "ttime.h" #include "astToMsg.h" #include "astGenerator.h" #include "parserUtil.h" #include "queryInfoUtil.h" /* is contained in pFieldList or not */ static bool has(SArray* pFieldList, int32_t startIndex, const char* name) { size_t numOfCols = taosArrayGetSize(pFieldList); for (int32_t j = startIndex; j < numOfCols; ++j) { TAOS_FIELD* field = taosArrayGet(pFieldList, j); if (strncasecmp(name, field->name, sizeof(field->name) - 1) == 0) return true; } return false; } static int32_t setShowInfo(SShowInfo* pShowInfo, SParseContext* pCtx, void** output, int32_t* outputLen, SEpSet* pEpSet, void** pExtension, SMsgBuf* pMsgBuf) { const char* msg1 = "invalid name"; const char* msg2 = "wildcard string should be less than %d characters"; const char* msg3 = "database name too long"; const char* msg4 = "pattern is invalid"; const char* msg5 = "database name is empty"; const char* msg6 = "pattern string is empty"; const char* msg7 = "db is not specified"; /* * database prefix in pInfo->pMiscInfo->a[0] * wildcard in like clause in pInfo->pMiscInfo->a[1] */ int16_t showType = pShowInfo->showType; if (showType == TSDB_MGMT_TABLE_TABLE) { SArray* array = NULL; SName name = {0}; if (pCtx->db == NULL && pShowInfo->prefix.n == 0) { return buildInvalidOperationMsg(pMsgBuf, msg7); } SVShowTablesReq* pShowReq = calloc(1, sizeof(SVShowTablesReq)); if (pShowInfo->prefix.n > 0) { tNameSetDbName(&name, pCtx->acctId, pShowInfo->prefix.z, pShowInfo->prefix.n); } else { tNameSetDbName(&name, pCtx->acctId, pCtx->db, strlen(pCtx->db)); } char dbFname[TSDB_DB_FNAME_LEN] = {0}; tNameGetFullDbName(&name, dbFname); catalogGetDBVgroup(pCtx->pCatalog, pCtx->pTransporter, &pCtx->mgmtEpSet, dbFname, false, &array); SVgroupInfo* info = taosArrayGet(array, 0); pShowReq->head.vgId = htonl(info->vgId); pEpSet->numOfEps = info->numOfEps; pEpSet->inUse = info->inUse; for (int32_t i = 0; i < pEpSet->numOfEps; ++i) { strncpy(pEpSet->fqdn[i], info->epAddr[i].fqdn, tListLen(pEpSet->fqdn[i])); pEpSet->port[i] = info->epAddr[i].port; } *outputLen = sizeof(SVShowTablesReq); *output = pShowReq; *pExtension = array; } else { if (showType == TSDB_MGMT_TABLE_STB || showType == TSDB_MGMT_TABLE_VGROUP) { SToken* pDbPrefixToken = &pShowInfo->prefix; if (pDbPrefixToken->type != 0) { if (pDbPrefixToken->n >= TSDB_DB_NAME_LEN) { // db name is too long return buildInvalidOperationMsg(pMsgBuf, msg3); } if (pDbPrefixToken->n <= 0) { return buildInvalidOperationMsg(pMsgBuf, msg5); } if (parserValidateIdToken(pDbPrefixToken) != TSDB_CODE_SUCCESS) { return buildInvalidOperationMsg(pMsgBuf, msg1); } // int32_t ret = tNameSetDbName(&pTableMetaInfo->name, getAccountId(pRequest->pTsc), pDbPrefixToken); // if (ret != TSDB_CODE_SUCCESS) { // return buildInvalidOperationMsg(pMsgBuf, msg1); // } } // show table/stable like 'xxxx', set the like pattern for show tables SToken* pPattern = &pShowInfo->pattern; if (pPattern->type != 0) { if (pPattern->type == TK_ID && pPattern->z[0] == TS_ESCAPE_CHAR) { return buildInvalidOperationMsg(pMsgBuf, msg4); } pPattern->n = strdequote(pPattern->z); if (pPattern->n <= 0) { return buildInvalidOperationMsg(pMsgBuf, msg6); } if (pPattern->n > tsMaxWildCardsLen) { char tmp[64] = {0}; sprintf(tmp, msg2, tsMaxWildCardsLen); return buildInvalidOperationMsg(pMsgBuf, tmp); } } } else if (showType == TSDB_MGMT_TABLE_VNODES) { if (pShowInfo->prefix.type == 0) { return buildInvalidOperationMsg(pMsgBuf, "No specified dnode ep"); } if (pShowInfo->prefix.type == TK_STRING) { pShowInfo->prefix.n = strdequote(pShowInfo->prefix.z); } } *pEpSet = pCtx->mgmtEpSet; *output = buildShowMsg(pShowInfo, pCtx, pMsgBuf); if (*output == NULL) { return terrno; } *outputLen = sizeof(SShowReq) /* + htons(pShowMsg->payloadLen)*/; } return TSDB_CODE_SUCCESS; } // can only perform the parameters based on the macro definitation static int32_t doCheckDbOptions(SCreateDbReq* pCreate, SMsgBuf* pMsgBuf) { char msg[512] = {0}; if (pCreate->walLevel != -1 && (pCreate->walLevel < TSDB_MIN_WAL_LEVEL || pCreate->walLevel > TSDB_MAX_WAL_LEVEL)) { snprintf(msg, tListLen(msg), "invalid db option walLevel: %d, only 1-2 allowed", pCreate->walLevel); return buildInvalidOperationMsg(pMsgBuf, msg); } if (pCreate->replications != -1 && (pCreate->replications < TSDB_MIN_DB_REPLICA_OPTION || pCreate->replications > TSDB_MAX_DB_REPLICA_OPTION)) { snprintf(msg, tListLen(msg), "invalid db option replications: %d valid range: [%d, %d]", pCreate->replications, TSDB_MIN_DB_REPLICA_OPTION, TSDB_MAX_DB_REPLICA_OPTION); return buildInvalidOperationMsg(pMsgBuf, msg); } int32_t blocks = ntohl(pCreate->totalBlocks); if (blocks != -1 && (blocks < TSDB_MIN_TOTAL_BLOCKS || blocks > TSDB_MAX_TOTAL_BLOCKS)) { snprintf(msg, tListLen(msg), "invalid db option totalBlocks: %d valid range: [%d, %d]", blocks, TSDB_MIN_TOTAL_BLOCKS, TSDB_MAX_TOTAL_BLOCKS); return buildInvalidOperationMsg(pMsgBuf, msg); } if (pCreate->quorum != -1 && (pCreate->quorum < TSDB_MIN_DB_QUORUM_OPTION || pCreate->quorum > TSDB_MAX_DB_QUORUM_OPTION)) { snprintf(msg, tListLen(msg), "invalid db option quorum: %d valid range: [%d, %d]", pCreate->quorum, TSDB_MIN_DB_QUORUM_OPTION, TSDB_MAX_DB_QUORUM_OPTION); return buildInvalidOperationMsg(pMsgBuf, msg); } int32_t val = htonl(pCreate->daysPerFile); if (val != -1 && (val < TSDB_MIN_DAYS_PER_FILE || val > TSDB_MAX_DAYS_PER_FILE)) { snprintf(msg, tListLen(msg), "invalid db option daysPerFile: %d valid range: [%d, %d]", val, TSDB_MIN_DAYS_PER_FILE, TSDB_MAX_DAYS_PER_FILE); return buildInvalidOperationMsg(pMsgBuf, msg); } val = htonl(pCreate->cacheBlockSize); if (val != -1 && (val < TSDB_MIN_CACHE_BLOCK_SIZE || val > TSDB_MAX_CACHE_BLOCK_SIZE)) { snprintf(msg, tListLen(msg), "invalid db option cacheBlockSize: %d valid range: [%d, %d]", val, TSDB_MIN_CACHE_BLOCK_SIZE, TSDB_MAX_CACHE_BLOCK_SIZE); return buildInvalidOperationMsg(pMsgBuf, msg); } if (pCreate->precision != TSDB_TIME_PRECISION_MILLI && pCreate->precision != TSDB_TIME_PRECISION_MICRO && pCreate->precision != TSDB_TIME_PRECISION_NANO) { snprintf(msg, tListLen(msg), "invalid db option timePrecision: %d valid value: [%d, %d, %d]", pCreate->precision, TSDB_TIME_PRECISION_MILLI, TSDB_TIME_PRECISION_MICRO, TSDB_TIME_PRECISION_NANO); return buildInvalidOperationMsg(pMsgBuf, msg); } val = htonl(pCreate->commitTime); if (val != -1 && (val < TSDB_MIN_COMMIT_TIME || val > TSDB_MAX_COMMIT_TIME)) { snprintf(msg, tListLen(msg), "invalid db option commitTime: %d valid range: [%d, %d]", val, TSDB_MIN_COMMIT_TIME, TSDB_MAX_COMMIT_TIME); return buildInvalidOperationMsg(pMsgBuf, msg); } val = htonl(pCreate->fsyncPeriod); if (val != -1 && (val < TSDB_MIN_FSYNC_PERIOD || val > TSDB_MAX_FSYNC_PERIOD)) { snprintf(msg, tListLen(msg), "invalid db option fsyncPeriod: %d valid range: [%d, %d]", val, TSDB_MIN_FSYNC_PERIOD, TSDB_MAX_FSYNC_PERIOD); return buildInvalidOperationMsg(pMsgBuf, msg); } if (pCreate->compression != -1 && (pCreate->compression < TSDB_MIN_COMP_LEVEL || pCreate->compression > TSDB_MAX_COMP_LEVEL)) { snprintf(msg, tListLen(msg), "invalid db option compression: %d valid range: [%d, %d]", pCreate->compression, TSDB_MIN_COMP_LEVEL, TSDB_MAX_COMP_LEVEL); return buildInvalidOperationMsg(pMsgBuf, msg); } val = htonl(pCreate->numOfVgroups); if (val < TSDB_MIN_VNODES_PER_DB || val > TSDB_MAX_VNODES_PER_DB) { snprintf(msg, tListLen(msg), "invalid number of vgroups for DB:%d valid range: [%d, %d]", val, TSDB_MIN_VNODES_PER_DB, TSDB_MAX_VNODES_PER_DB); } val = htonl(pCreate->maxRows); if (val < TSDB_MIN_MAX_ROW_FBLOCK || val > TSDB_MAX_MAX_ROW_FBLOCK) { snprintf(msg, tListLen(msg), "invalid number of max rows in file block for DB:%d valid range: [%d, %d]", val, TSDB_MIN_MAX_ROW_FBLOCK, TSDB_MAX_MAX_ROW_FBLOCK); } val = htonl(pCreate->minRows); if (val < TSDB_MIN_MIN_ROW_FBLOCK || val > TSDB_MAX_MIN_ROW_FBLOCK) { snprintf(msg, tListLen(msg), "invalid number of min rows in file block for DB:%d valid range: [%d, %d]", val, TSDB_MIN_MIN_ROW_FBLOCK, TSDB_MAX_MIN_ROW_FBLOCK); } return TSDB_CODE_SUCCESS; } static int32_t validateTableColumns(SArray* pFieldList, int32_t maxRowLength, int32_t maxColumns, SMsgBuf* pMsgBuf) { const char* msg2 = "row length exceeds max length"; const char* msg3 = "duplicated column names"; const char* msg4 = "invalid data type"; const char* msg5 = "invalid binary/nchar column length"; const char* msg6 = "invalid column name"; const char* msg7 = "too many columns"; const char* msg8 = "illegal number of columns"; size_t numOfCols = taosArrayGetSize(pFieldList); if (numOfCols > maxColumns) { return buildInvalidOperationMsg(pMsgBuf, msg7); } int32_t rowLen = 0; for (int32_t i = 0; i < numOfCols; ++i) { TAOS_FIELD* pField = taosArrayGet(pFieldList, i); if (!isValidDataType(pField->type)) { return buildInvalidOperationMsg(pMsgBuf, msg4); } if (pField->bytes == 0) { return buildInvalidOperationMsg(pMsgBuf, msg5); } if ((pField->type == TSDB_DATA_TYPE_BINARY && (pField->bytes <= 0 || pField->bytes > TSDB_MAX_BINARY_LEN)) || (pField->type == TSDB_DATA_TYPE_NCHAR && (pField->bytes <= 0 || pField->bytes > TSDB_MAX_NCHAR_LEN))) { return buildInvalidOperationMsg(pMsgBuf, msg5); } SToken nameToken = {.z = pField->name, .n = strlen(pField->name), .type = TK_ID}; if (parserValidateNameToken(&nameToken) != TSDB_CODE_SUCCESS) { return buildInvalidOperationMsg(pMsgBuf, msg6); } // field name must be unique if (has(pFieldList, i + 1, pField->name) == true) { return buildInvalidOperationMsg(pMsgBuf, msg3); } rowLen += pField->bytes; } // max row length must be less than TSDB_MAX_BYTES_PER_ROW if (rowLen > maxRowLength) { return buildInvalidOperationMsg(pMsgBuf, msg2); } return TSDB_CODE_SUCCESS; } static int32_t validateTableColumnInfo(SArray* pFieldList, SMsgBuf* pMsgBuf) { assert(pFieldList != NULL && pMsgBuf != NULL); const char* msg1 = "first column must be timestamp"; const char* msg2 = "illegal number of columns"; // first column must be timestamp SField* pField = taosArrayGet(pFieldList, 0); if (pField->type != TSDB_DATA_TYPE_TIMESTAMP) { return buildInvalidOperationMsg(pMsgBuf, msg1); } // number of fields no less than 2 size_t numOfCols = taosArrayGetSize(pFieldList); if (numOfCols <= 1) { return buildInvalidOperationMsg(pMsgBuf, msg2); } return validateTableColumns(pFieldList, TSDB_MAX_BYTES_PER_ROW, TSDB_MAX_COLUMNS, pMsgBuf); } static int32_t validateTagParams(SArray* pTagsList, SArray* pFieldList, SMsgBuf* pMsgBuf) { assert(pTagsList != NULL); const char* msg1 = "invalid number of tag columns"; const char* msg3 = "duplicated column names"; // number of fields at least 1 size_t numOfTags = taosArrayGetSize(pTagsList); if (numOfTags < 1) { return buildInvalidOperationMsg(pMsgBuf, msg1); } // field name must be unique for (int32_t i = 0; i < numOfTags; ++i) { SField* p = taosArrayGet(pTagsList, i); if (has(pFieldList, 0, p->name) == true) { return buildInvalidOperationMsg(pMsgBuf, msg3); } } return validateTableColumns(pFieldList, TSDB_MAX_TAGS_LEN, TSDB_MAX_TAGS, pMsgBuf); } int32_t doCheckForCreateTable(SCreateTableSql* pCreateTable, SMsgBuf* pMsgBuf) { const char* msg1 = "invalid table name"; SArray* pFieldList = pCreateTable->colInfo.pColumns; SArray* pTagList = pCreateTable->colInfo.pTagColumns; assert(pFieldList != NULL); // if sql specifies db, use it, otherwise use default db SToken* pNameToken = &(pCreateTable->name); if (parserValidateIdToken(pNameToken) != TSDB_CODE_SUCCESS) { return buildInvalidOperationMsg(pMsgBuf, msg1); } if (validateTableColumnInfo(pFieldList, pMsgBuf) != TSDB_CODE_SUCCESS || (pTagList != NULL && validateTagParams(pTagList, pFieldList, pMsgBuf) != TSDB_CODE_SUCCESS)) { return TSDB_CODE_TSC_INVALID_OPERATION; } return TSDB_CODE_SUCCESS; } typedef struct SVgroupTablesBatch { SVCreateTbBatchReq req; SVgroupInfo info; } SVgroupTablesBatch; static SArray* doSerializeVgroupCreateTableInfo(SHashObj* pVgroupHashmap); static int32_t doParseSerializeTagValue(SSchema* pTagSchema, int32_t numOfInputTag, SKVRowBuilder* pKvRowBuilder, SArray* pTagValList, int32_t tsPrecision, SMsgBuf* pMsgBuf) { const char* msg1 = "illegal value or data overflow"; int32_t code = TSDB_CODE_SUCCESS; for (int32_t i = 0; i < numOfInputTag; ++i) { SSchema* pSchema = &pTagSchema[i]; char* endPtr = NULL; char tmpTokenBuf[TSDB_MAX_TAGS_LEN] = {0}; SKvParam param = {.builder = pKvRowBuilder, .schema = pSchema}; SToken* pItem = taosArrayGet(pTagValList, i); code = parseValueToken(&endPtr, pItem, pSchema, tsPrecision, tmpTokenBuf, KvRowAppend, ¶m, pMsgBuf); if (code != TSDB_CODE_SUCCESS) { return buildInvalidOperationMsg(pMsgBuf, msg1); } } return code; } static void addCreateTbReqIntoVgroup(SHashObj* pVgroupHashmap, const SName* pTableName, SKVRow row, uint64_t suid, SVgroupInfo* pVgInfo) { struct SVCreateTbReq req = {0}; req.type = TD_CHILD_TABLE; req.name = strdup(tNameGetTableName(pTableName)); req.ctbCfg.suid = suid; req.ctbCfg.pTag = row; SVgroupTablesBatch* pTableBatch = taosHashGet(pVgroupHashmap, &pVgInfo->vgId, sizeof(pVgInfo->vgId)); if (pTableBatch == NULL) { SVgroupTablesBatch tBatch = {0}; tBatch.info = *pVgInfo; tBatch.req.pArray = taosArrayInit(4, sizeof(struct SVCreateTbReq)); taosArrayPush(tBatch.req.pArray, &req); taosHashPut(pVgroupHashmap, &pVgInfo->vgId, sizeof(pVgInfo->vgId), &tBatch, sizeof(tBatch)); } else { // add to the correct vgroup assert(pVgInfo->vgId == pTableBatch->info.vgId); taosArrayPush(pTableBatch->req.pArray, &req); } } static void destroyCreateTbReqBatch(SVgroupTablesBatch* pTbBatch) { size_t size = taosArrayGetSize(pTbBatch->req.pArray); for(int32_t i = 0; i < size; ++i) { SVCreateTbReq* pTableReq = taosArrayGet(pTbBatch->req.pArray, i); tfree(pTableReq->name); if (pTableReq->type == TSDB_NORMAL_TABLE) { tfree(pTableReq->ntbCfg.pSchema); } else if (pTableReq->type == TSDB_CHILD_TABLE) { tfree(pTableReq->ctbCfg.pTag); } else { assert(0); } } taosArrayDestroy(pTbBatch->req.pArray); } static int32_t doCheckAndBuildCreateCTableReq(SCreateTableSql* pCreateTable, SParseContext* pCtx, SMsgBuf* pMsgBuf, SArray** pBufArray) { const char* msg1 = "invalid table name"; const char* msg2 = "tags number not matched"; const char* msg3 = "tag value too long"; const char* msg4 = "illegal value or data overflow"; int32_t code = 0; STableMeta* pSuperTableMeta = NULL; SHashObj* pVgroupHashmap = taosHashInit(4, taosGetDefaultHashFunction(TSDB_DATA_TYPE_INT), false, HASH_NO_LOCK); // super table name, create table by using dst size_t numOfTables = taosArrayGetSize(pCreateTable->childTableInfo); for (int32_t j = 0; j < numOfTables; ++j) { SCreatedTableInfo* pCreateTableInfo = taosArrayGet(pCreateTable->childTableInfo, j); SToken* pSTableNameToken = &pCreateTableInfo->stbName; code = parserValidateNameToken(pSTableNameToken); if (code != TSDB_CODE_SUCCESS) { code = buildInvalidOperationMsg(pMsgBuf, msg1); goto _error; } SName name = {0}; code = createSName(&name, pSTableNameToken, pCtx, pMsgBuf); if (code != TSDB_CODE_SUCCESS) { goto _error; } SKVRowBuilder kvRowBuilder = {0}; if (tdInitKVRowBuilder(&kvRowBuilder) < 0) { code = TSDB_CODE_TSC_OUT_OF_MEMORY; goto _error; } SArray* pValList = pCreateTableInfo->pTagVals; size_t numOfInputTag = taosArrayGetSize(pValList); code = catalogGetTableMeta(pCtx->pCatalog, pCtx->pTransporter, &pCtx->mgmtEpSet, &name, &pSuperTableMeta); if (code != TSDB_CODE_SUCCESS) { goto _error; } assert(pSuperTableMeta != NULL); // too long tag values will return invalid sql, not be truncated automatically SSchema* pTagSchema = getTableTagSchema(pSuperTableMeta); STableComInfo tinfo = getTableInfo(pSuperTableMeta); SArray* pNameList = NULL; size_t numOfBoundTags = 0; int32_t schemaSize = getNumOfTags(pSuperTableMeta); if (pCreateTableInfo->pTagNames) { pNameList = pCreateTableInfo->pTagNames; numOfBoundTags = taosArrayGetSize(pNameList); if (numOfInputTag != numOfBoundTags || schemaSize < numOfInputTag) { tdDestroyKVRowBuilder(&kvRowBuilder); code = buildInvalidOperationMsg(pMsgBuf, msg2); goto _error; } bool findColumnIndex = false; for (int32_t i = 0; i < numOfBoundTags; ++i) { SToken* sToken = taosArrayGet(pNameList, i); char tmpTokenBuf[TSDB_MAX_BYTES_PER_ROW] = {0}; // create tmp buf to avoid alter orginal sqlstr strncpy(tmpTokenBuf, sToken->z, sToken->n); sToken->z = tmpTokenBuf; // if (TK_STRING == sToken->type) { // tscDequoteAndTrimToken(sToken); // } // if (TK_ID == sToken->type) { // tscRmEscapeAndTrimToken(sToken); // } SListItem* pItem = taosArrayGet(pValList, i); findColumnIndex = false; // todo speedup by using hash list for (int32_t t = 0; t < schemaSize; ++t) { if (strncmp(sToken->z, pTagSchema[t].name, sToken->n) == 0 && strlen(pTagSchema[t].name) == sToken->n) { SSchema* pSchema = &pTagSchema[t]; char tagVal[TSDB_MAX_TAGS_LEN] = {0}; if (pSchema->type == TSDB_DATA_TYPE_BINARY || pSchema->type == TSDB_DATA_TYPE_NCHAR) { if (pItem->pVar.nLen > pSchema->bytes) { tdDestroyKVRowBuilder(&kvRowBuilder); code = buildInvalidOperationMsg(pMsgBuf, msg3); goto _error; } } else if (pSchema->type == TSDB_DATA_TYPE_TIMESTAMP) { if (pItem->pVar.nType == TSDB_DATA_TYPE_BINARY) { // code = convertTimestampStrToInt64(&(pItem->pVar), tinfo.precision); // if (code != TSDB_CODE_SUCCESS) { // return buildInvalidOperationMsg(pMsgBuf, msg4); // } } else if (pItem->pVar.nType == TSDB_DATA_TYPE_TIMESTAMP) { pItem->pVar.i = convertTimePrecision(pItem->pVar.i, TSDB_TIME_PRECISION_NANO, tinfo.precision); } } code = taosVariantDump(&(pItem->pVar), tagVal, pSchema->type, true); // check again after the convert since it may be converted from binary to nchar. if (IS_VAR_DATA_TYPE(pSchema->type)) { int16_t len = varDataTLen(tagVal); if (len > pSchema->bytes) { tdDestroyKVRowBuilder(&kvRowBuilder); code = buildInvalidOperationMsg(pMsgBuf, msg3); goto _error; } } if (code != TSDB_CODE_SUCCESS) { tdDestroyKVRowBuilder(&kvRowBuilder); code = buildInvalidOperationMsg(pMsgBuf, msg4); goto _error; } tdAddColToKVRow(&kvRowBuilder, pSchema->colId, pSchema->type, tagVal); findColumnIndex = true; break; } } if (!findColumnIndex) { tdDestroyKVRowBuilder(&kvRowBuilder); // return buildInvalidOperationMsg(pMsgBuf, "invalid tag name", sToken->z); } } } else { if (schemaSize != numOfInputTag) { tdDestroyKVRowBuilder(&kvRowBuilder); code = buildInvalidOperationMsg(pMsgBuf, msg2); goto _error; } code = doParseSerializeTagValue(pTagSchema, numOfInputTag, &kvRowBuilder, pValList, tinfo.precision, pMsgBuf); if (code != TSDB_CODE_SUCCESS) { tdDestroyKVRowBuilder(&kvRowBuilder); goto _error; } } SKVRow row = tdGetKVRowFromBuilder(&kvRowBuilder); tdDestroyKVRowBuilder(&kvRowBuilder); if (row == NULL) { code = TSDB_CODE_QRY_OUT_OF_MEMORY; goto _error; } tdSortKVRowByColIdx(row); SName tableName = {0}; code = createSName(&tableName, &pCreateTableInfo->name, pCtx, pMsgBuf); if (code != TSDB_CODE_SUCCESS) { goto _error; } // Find a appropriate vgroup to accommodate this table , according to the table name SVgroupInfo info = {0}; code = catalogGetTableHashVgroup(pCtx->pCatalog, pCtx->pTransporter, &pCtx->mgmtEpSet, &tableName, &info); if (code != TSDB_CODE_SUCCESS) { goto _error; } addCreateTbReqIntoVgroup(pVgroupHashmap, &tableName, row, pSuperTableMeta->uid, &info); tfree(pSuperTableMeta); } *pBufArray = doSerializeVgroupCreateTableInfo(pVgroupHashmap); if (*pBufArray == NULL) { code = terrno; goto _error; } taosHashCleanup(pVgroupHashmap); return TSDB_CODE_SUCCESS; _error: taosHashCleanup(pVgroupHashmap); tfree(pSuperTableMeta); terrno = code; return code; } static int32_t serializeVgroupTablesBatchImpl(SVgroupTablesBatch* pTbBatch, SArray* pBufArray) { int tlen = sizeof(SMsgHead) + tSVCreateTbBatchReqSerialize(NULL, &(pTbBatch->req)); void* buf = malloc(tlen); if (buf == NULL) { // TODO: handle error } ((SMsgHead*)buf)->vgId = htonl(pTbBatch->info.vgId); ((SMsgHead*)buf)->contLen = htonl(tlen); void* pBuf = POINTER_SHIFT(buf, sizeof(SMsgHead)); tSVCreateTbBatchReqSerialize(&pBuf, &(pTbBatch->req)); SVgDataBlocks* pVgData = calloc(1, sizeof(SVgDataBlocks)); pVgData->vg = pTbBatch->info; pVgData->pData = buf; pVgData->size = tlen; pVgData->numOfTables = (int32_t) taosArrayGetSize(pTbBatch->req.pArray); taosArrayPush(pBufArray, &pVgData); } static int32_t doBuildSingleTableBatchReq(SName* pTableName, SArray* pColumns, SVgroupInfo* pVgroupInfo, SVgroupTablesBatch* pBatch) { struct SVCreateTbReq req = {0}; req.type = TD_NORMAL_TABLE; req.name = strdup(tNameGetTableName(pTableName)); req.ntbCfg.nCols = taosArrayGetSize(pColumns); int32_t num = req.ntbCfg.nCols; req.ntbCfg.pSchema = calloc(num, sizeof(SSchema)); for(int32_t i = 0; i < num; ++i) { SSchema* pSchema = taosArrayGet(pColumns, i); memcpy(&req.ntbCfg.pSchema[i], pSchema, sizeof(SSchema)); } pBatch->info = *pVgroupInfo; pBatch->req.pArray = taosArrayInit(1, sizeof(struct SVCreateTbReq)); if (pBatch->req.pArray == NULL) { return TSDB_CODE_QRY_OUT_OF_MEMORY; } taosArrayPush(pBatch->req.pArray, &req); return TSDB_CODE_SUCCESS; } int32_t doCheckAndBuildCreateTableReq(SCreateTableSql* pCreateTable, SParseContext* pCtx, SMsgBuf* pMsgBuf, char** pOutput, int32_t* len) { SArray* pBufArray = NULL; int32_t code = 0; // it is a sql statement to create a normal table if (pCreateTable->childTableInfo == NULL) { assert(taosArrayGetSize(pCreateTable->colInfo.pColumns) > 0 && pCreateTable->colInfo.pTagColumns == NULL); code = doCheckForCreateTable(pCreateTable, pMsgBuf); if (code != TSDB_CODE_SUCCESS) { return code; } SName tableName = {0}; code = createSName(&tableName, &pCreateTable->name, pCtx, pMsgBuf); if (code != TSDB_CODE_SUCCESS) { return code; } SVgroupInfo info = {0}; catalogGetTableHashVgroup(pCtx->pCatalog, pCtx->pTransporter, &pCtx->mgmtEpSet, &tableName, &info); SVgroupTablesBatch tbatch = {0}; code = doBuildSingleTableBatchReq(&tableName, pCreateTable->colInfo.pColumns, &info, &tbatch); if (code != TSDB_CODE_SUCCESS) { return code; } pBufArray = taosArrayInit(1, POINTER_BYTES); if (pBufArray == NULL) { return TSDB_CODE_QRY_OUT_OF_MEMORY; } serializeVgroupTablesBatchImpl(&tbatch, pBufArray); destroyCreateTbReqBatch(&tbatch); } else { // it is a child table, created according to a super table code = doCheckAndBuildCreateCTableReq(pCreateTable, pCtx, pMsgBuf, &pBufArray); if (code != 0) { return code; } } SVnodeModifOpStmtInfo* pStmtInfo = calloc(1, sizeof(SVnodeModifOpStmtInfo)); pStmtInfo->nodeType = TSDB_SQL_CREATE_TABLE; pStmtInfo->pDataBlocks = pBufArray; *pOutput = (char*) pStmtInfo; *len = sizeof(SVnodeModifOpStmtInfo); return TSDB_CODE_SUCCESS; } SArray* doSerializeVgroupCreateTableInfo(SHashObj* pVgroupHashmap) { SArray* pBufArray = taosArrayInit(taosHashGetSize(pVgroupHashmap), sizeof(void*)); SVgroupTablesBatch* pTbBatch = NULL; do { pTbBatch = taosHashIterate(pVgroupHashmap, pTbBatch); if (pTbBatch == NULL) { break; } /*int32_t code = */serializeVgroupTablesBatchImpl(pTbBatch, pBufArray); destroyCreateTbReqBatch(pTbBatch); } while (true); return pBufArray; } SDclStmtInfo* qParserValidateDclSqlNode(SSqlInfo* pInfo, SParseContext* pCtx, char* msgBuf, int32_t msgBufLen) { int32_t code = 0; SDclStmtInfo* pDcl = calloc(1, sizeof(SDclStmtInfo)); SMsgBuf m = {.buf = msgBuf, .len = msgBufLen}; SMsgBuf* pMsgBuf = &m; pDcl->epSet = pCtx->mgmtEpSet; switch (pInfo->type) { case TSDB_SQL_CREATE_USER: case TSDB_SQL_ALTER_USER: { const char* msg1 = "not support options"; const char* msg2 = "invalid user/account name"; const char* msg3 = "name too long"; const char* msg4 = "invalid user rights"; SUserInfo* pUser = &pInfo->pMiscInfo->user; SToken* pName = &pUser->user; SToken* pPwd = &pUser->passwd; if (pName->n >= TSDB_USER_LEN) { code = buildInvalidOperationMsg(pMsgBuf, msg3); goto _error; } if (parserValidateIdToken(pName) != TSDB_CODE_SUCCESS) { code = buildInvalidOperationMsg(pMsgBuf, msg2); goto _error; } if (pInfo->type == TSDB_SQL_CREATE_USER) { if (parserValidatePassword(pPwd, pMsgBuf) != TSDB_CODE_SUCCESS) { code = TSDB_CODE_TSC_INVALID_OPERATION; goto _error; } } else { if (pUser->type == TSDB_ALTER_USER_PASSWD) { if (parserValidatePassword(pPwd, pMsgBuf) != TSDB_CODE_SUCCESS) { code = TSDB_CODE_TSC_INVALID_OPERATION; goto _error; } } else if (pUser->type == TSDB_ALTER_USER_PRIVILEGES) { assert(pPwd->type == TSDB_DATA_TYPE_NULL); SToken* pPrivilege = &pUser->privilege; if (strncasecmp(pPrivilege->z, "super", 5) == 0 && pPrivilege->n == 5) { // pCmd->count = 1; } else if (strncasecmp(pPrivilege->z, "normal", 4) == 0 && pPrivilege->n == 4) { // pCmd->count = 2; } else { code = buildInvalidOperationMsg(pMsgBuf, msg4); goto _error; } } else { code = buildInvalidOperationMsg(pMsgBuf, msg1); goto _error; } } pDcl->pMsg = (char*)buildUserManipulationMsg(pInfo, &pDcl->msgLen, pCtx->requestId, msgBuf, msgBufLen); pDcl->msgType = (pInfo->type == TSDB_SQL_CREATE_USER) ? TDMT_MND_CREATE_USER : TDMT_MND_ALTER_USER; break; } case TSDB_SQL_CREATE_ACCT: case TSDB_SQL_ALTER_ACCT: { const char* msg1 = "invalid state option, available options[no, r, w, all]"; const char* msg2 = "invalid user/account name"; const char* msg3 = "name too long"; SToken* pName = &pInfo->pMiscInfo->user.user; SToken* pPwd = &pInfo->pMiscInfo->user.passwd; if (parserValidatePassword(pPwd, pMsgBuf) != TSDB_CODE_SUCCESS) { code = TSDB_CODE_TSC_INVALID_OPERATION; goto _error; } if (pName->n >= TSDB_USER_LEN) { code = buildInvalidOperationMsg(pMsgBuf, msg3); goto _error; } if (parserValidateNameToken(pName) != TSDB_CODE_SUCCESS) { code = buildInvalidOperationMsg(pMsgBuf, msg2); goto _error; } SCreateAcctInfo* pAcctOpt = &pInfo->pMiscInfo->acctOpt; if (pAcctOpt->stat.n > 0) { if (pAcctOpt->stat.z[0] == 'r' && pAcctOpt->stat.n == 1) { } else if (pAcctOpt->stat.z[0] == 'w' && pAcctOpt->stat.n == 1) { } else if (strncmp(pAcctOpt->stat.z, "all", 3) == 0 && pAcctOpt->stat.n == 3) { } else if (strncmp(pAcctOpt->stat.z, "no", 2) == 0 && pAcctOpt->stat.n == 2) { } else { code = buildInvalidOperationMsg(pMsgBuf, msg1); goto _error; } } pDcl->pMsg = (char*)buildAcctManipulationMsg(pInfo, &pDcl->msgLen, pCtx->requestId, msgBuf, msgBufLen); pDcl->msgType = (pInfo->type == TSDB_SQL_CREATE_ACCT) ? TDMT_MND_CREATE_ACCT : TDMT_MND_ALTER_ACCT; break; } case TSDB_SQL_DROP_ACCT: case TSDB_SQL_DROP_USER: { pDcl->pMsg = (char*)buildDropUserMsg(pInfo, &pDcl->msgLen, pCtx->requestId, msgBuf, msgBufLen); pDcl->msgType = (pInfo->type == TSDB_SQL_DROP_ACCT) ? TDMT_MND_DROP_ACCT : TDMT_MND_DROP_USER; break; } case TSDB_SQL_SHOW: { SShowInfo* pShowInfo = &pInfo->pMiscInfo->showOpt; code = setShowInfo(pShowInfo, pCtx, (void**)&pDcl->pMsg, &pDcl->msgLen, &pDcl->epSet, &pDcl->pExtension, pMsgBuf); if (code != TSDB_CODE_SUCCESS) { goto _error; } pDcl->msgType = (pShowInfo->showType == TSDB_MGMT_TABLE_TABLE) ? TDMT_VND_SHOW_TABLES : TDMT_MND_SHOW; break; } case TSDB_SQL_USE_DB: { const char* msg = "invalid db name"; SToken* pToken = taosArrayGet(pInfo->pMiscInfo->a, 0); if (parserValidateNameToken(pToken) != TSDB_CODE_SUCCESS) { code = buildInvalidOperationMsg(pMsgBuf, msg); goto _error; } SName n = {0}; int32_t ret = tNameSetDbName(&n, pCtx->acctId, pToken->z, pToken->n); if (ret != TSDB_CODE_SUCCESS) { code = buildInvalidOperationMsg(pMsgBuf, msg); goto _error; } SUseDbReq* pUseDbMsg = (SUseDbReq*)calloc(1, sizeof(SUseDbReq)); tNameExtractFullName(&n, pUseDbMsg->db); pDcl->pMsg = (char*)pUseDbMsg; pDcl->msgLen = sizeof(SUseDbReq); pDcl->msgType = TDMT_MND_USE_DB; break; } case TSDB_SQL_ALTER_DB: case TSDB_SQL_CREATE_DB: { const char* msg1 = "invalid db name"; const char* msg2 = "name too long"; SCreateDbInfo* pCreateDB = &(pInfo->pMiscInfo->dbOpt); if (pCreateDB->dbname.n >= TSDB_DB_NAME_LEN) { code = buildInvalidOperationMsg(pMsgBuf, msg2); goto _error; } char buf[TSDB_DB_NAME_LEN] = {0}; SToken token = taosTokenDup(&pCreateDB->dbname, buf, tListLen(buf)); if (parserValidateNameToken(&token) != TSDB_CODE_SUCCESS) { code = buildInvalidOperationMsg(pMsgBuf, msg1); goto _error; } SCreateDbReq* pCreateMsg = buildCreateDbMsg(pCreateDB, pCtx, pMsgBuf); if (doCheckDbOptions(pCreateMsg, pMsgBuf) != TSDB_CODE_SUCCESS) { code = TSDB_CODE_TSC_INVALID_OPERATION; goto _error; } pDcl->pMsg = (char*)pCreateMsg; pDcl->msgLen = sizeof(SCreateDbReq); pDcl->msgType = (pInfo->type == TSDB_SQL_CREATE_DB) ? TDMT_MND_CREATE_DB : TDMT_MND_ALTER_DB; break; } case TSDB_SQL_DROP_DB: { const char* msg1 = "invalid database name"; assert(taosArrayGetSize(pInfo->pMiscInfo->a) == 1); SToken* dbName = taosArrayGet(pInfo->pMiscInfo->a, 0); SName name = {0}; code = tNameSetDbName(&name, pCtx->acctId, dbName->z, dbName->n); if (code != TSDB_CODE_SUCCESS) { code = buildInvalidOperationMsg(pMsgBuf, msg1); goto _error; } SDropDbReq* pDropDbMsg = (SDropDbReq*)calloc(1, sizeof(SDropDbReq)); code = tNameExtractFullName(&name, pDropDbMsg->db); pDropDbMsg->ignoreNotExists = pInfo->pMiscInfo->existsCheck ? 1 : 0; assert(code == TSDB_CODE_SUCCESS && name.type == TSDB_DB_NAME_T); pDcl->msgType = TDMT_MND_DROP_DB; pDcl->msgLen = sizeof(SDropDbReq); pDcl->pMsg = (char*)pDropDbMsg; break; } case TSDB_SQL_CREATE_STABLE: { SCreateTableSql* pCreateTable = pInfo->pCreateTableInfo; if ((code = doCheckForCreateTable(pCreateTable, pMsgBuf)) != TSDB_CODE_SUCCESS) { terrno = code; goto _error; } pDcl->pMsg = (char*)buildCreateStbMsg(pCreateTable, &pDcl->msgLen, pCtx, pMsgBuf); pDcl->msgType = TDMT_MND_CREATE_STB; break; } case TSDB_SQL_DROP_TABLE: { pDcl->pMsg = (char*)buildDropStableMsg(pInfo, &pDcl->msgLen, pCtx, pMsgBuf); if (pDcl->pMsg == NULL) { goto _error; } pDcl->msgType = TDMT_MND_DROP_STB; break; } case TSDB_SQL_CREATE_DNODE: { pDcl->pMsg = (char*)buildCreateDnodeMsg(pInfo, &pDcl->msgLen, pMsgBuf); if (pDcl->pMsg == NULL) { goto _error; } pDcl->msgType = TDMT_MND_CREATE_DNODE; break; } case TSDB_SQL_DROP_DNODE: { pDcl->pMsg = (char*)buildDropDnodeMsg(pInfo, &pDcl->msgLen, pMsgBuf); if (pDcl->pMsg == NULL) { goto _error; } pDcl->msgType = TDMT_MND_DROP_DNODE; break; } default: break; } return pDcl; _error: terrno = code; tfree(pDcl); return NULL; } SVnodeModifOpStmtInfo* qParserValidateCreateTbSqlNode(SSqlInfo* pInfo, SParseContext* pCtx, char* msgBuf, int32_t msgBufLen) { SCreateTableSql* pCreateTable = pInfo->pCreateTableInfo; assert(pCreateTable->type == TSDB_SQL_CREATE_TABLE); SMsgBuf m = {.buf = msgBuf, .len = msgBufLen}; SMsgBuf* pMsgBuf = &m; SVnodeModifOpStmtInfo* pModifSqlStmt = NULL; int32_t msgLen = 0; int32_t code = doCheckAndBuildCreateTableReq(pCreateTable, pCtx, pMsgBuf, (char**) &pModifSqlStmt, &msgLen); if (code != TSDB_CODE_SUCCESS) { terrno = code; tfree(pModifSqlStmt); return NULL; } return pModifSqlStmt; }