/* * 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 "insertParser.h" #include "dataBlockMgt.h" #include "parserInt.h" #include "parserUtil.h" #include "queryInfoUtil.h" #include "tglobal.h" #include "ttime.h" #include "ttoken.h" #include "ttypes.h" #define NEXT_TOKEN(pSql, sToken) \ do { \ int32_t index = 0; \ sToken = tStrGetToken(pSql, &index, false); \ pSql += index; \ } while (0) #define NEXT_TOKEN_KEEP_SQL(pSql, sToken, index) \ do { \ sToken = tStrGetToken(pSql, &index, false); \ } while (0) #define CHECK_CODE(expr) \ do { \ int32_t code = expr; \ if (TSDB_CODE_SUCCESS != code) { \ return code; \ } \ } while (0) enum { TSDB_USE_SERVER_TS = 0, TSDB_USE_CLI_TS = 1, }; typedef struct SInsertParseContext { SParseContext* pComCxt; // input char *pSql; // input SMsgBuf msg; // input STableMeta* pTableMeta; // each table SParsedDataColInfo tags; // each table SKVRowBuilder tagsBuilder; // each table SHashObj* pVgroupsHashObj; // global SHashObj* pTableBlockHashObj; // global SArray* pTableDataBlocks; // global SArray* pVgDataBlocks; // global int32_t totalNum; SInsertStmtInfo* pOutput; } SInsertParseContext; static int32_t skipInsertInto(SInsertParseContext* pCxt) { SToken sToken; NEXT_TOKEN(pCxt->pSql, sToken); if (TK_INSERT != sToken.type) { return buildSyntaxErrMsg(&pCxt->msg, "keyword INSERT is expected", sToken.z); } NEXT_TOKEN(pCxt->pSql, sToken); if (TK_INTO != sToken.type) { return buildSyntaxErrMsg(&pCxt->msg, "keyword INTO is expected", sToken.z); } return TSDB_CODE_SUCCESS; } static int32_t buildName(SInsertParseContext* pCxt, SToken* pStname, char* fullDbName, char* tableName) { if (parserValidateIdToken(pStname) != TSDB_CODE_SUCCESS) { return buildSyntaxErrMsg(&pCxt->msg, "invalid table name", pStname->z); } char* p = strnchr(pStname->z, TS_PATH_DELIMITER[0], pStname->n, false); if (NULL != p) { // db.table int32_t n = sprintf(fullDbName, "%d.", pCxt->pComCxt->ctx.acctId); strncpy(fullDbName + n, pStname->z, p - pStname->z); strncpy(tableName, p + 1, pStname->n - (p - pStname->z) - 1); } else { snprintf(fullDbName, TSDB_DB_FNAME_LEN, "%d.%s", pCxt->pComCxt->ctx.acctId, pCxt->pComCxt->ctx.db); strncpy(tableName, pStname->z, pStname->n); } return TSDB_CODE_SUCCESS; } static int32_t getTableMeta(SInsertParseContext* pCxt, SToken* pTname) { SName name = {0}; createSName(&name, pTname, &pCxt->pComCxt->ctx, &pCxt->msg); char tableName[TSDB_TABLE_FNAME_LEN] = {0}; tNameExtractFullName(&name, tableName); SParseBasicCtx* pBasicCtx = &pCxt->pComCxt->ctx; CHECK_CODE(catalogGetTableMeta(pBasicCtx->pCatalog, pBasicCtx->pTransporter, &pBasicCtx->mgmtEpSet, &name, &pCxt->pTableMeta)); SVgroupInfo vg; CHECK_CODE(catalogGetTableHashVgroup(pBasicCtx->pCatalog, pBasicCtx->pTransporter, &pBasicCtx->mgmtEpSet, &name, &vg)); CHECK_CODE(taosHashPut(pCxt->pVgroupsHashObj, (const char*)&vg.vgId, sizeof(vg.vgId), (char*)&vg, sizeof(vg))); return TSDB_CODE_SUCCESS; } static int32_t findCol(SToken* pColname, int32_t start, int32_t end, SSchema* pSchema) { while (start < end) { if (strlen(pSchema[start].name) == pColname->n && strncmp(pColname->z, pSchema[start].name, pColname->n) == 0) { return start; } ++start; } return -1; } static void buildMsgHeader(SVgDataBlocks* blocks) { SMsgDesc* desc = (SMsgDesc*)blocks->pData; desc->numOfVnodes = htonl(1); SSubmitMsg* submit = (SSubmitMsg*)(desc + 1); submit->header.vgId = htonl(blocks->vg.vgId); submit->header.contLen = htonl(blocks->size - sizeof(SMsgDesc)); submit->length = submit->header.contLen; submit->numOfBlocks = htonl(blocks->numOfTables); SSubmitBlk* blk = (SSubmitBlk*)(submit + 1); int32_t numOfBlocks = blocks->numOfTables; while (numOfBlocks--) { int32_t dataLen = blk->dataLen; blk->uid = htobe64(blk->uid); blk->tid = htonl(blk->tid); blk->padding = htonl(blk->padding); blk->sversion = htonl(blk->sversion); blk->dataLen = htonl(blk->dataLen); blk->schemaLen = htonl(blk->schemaLen); blk->numOfRows = htons(blk->numOfRows); blk = (SSubmitBlk*)(blk->data + dataLen); } } static int32_t buildOutput(SInsertParseContext* pCxt) { size_t numOfVg = taosArrayGetSize(pCxt->pVgDataBlocks); pCxt->pOutput->pDataBlocks = taosArrayInit(numOfVg, POINTER_BYTES); if (NULL == pCxt->pOutput->pDataBlocks) { return TSDB_CODE_TSC_OUT_OF_MEMORY; } for (size_t i = 0; i < numOfVg; ++i) { STableDataBlocks* src = taosArrayGetP(pCxt->pVgDataBlocks, i); SVgDataBlocks* dst = calloc(1, sizeof(SVgDataBlocks)); if (NULL == dst) { return TSDB_CODE_TSC_OUT_OF_MEMORY; } taosHashGetClone(pCxt->pVgroupsHashObj, (const char*)&src->vgId, sizeof(src->vgId), &dst->vg); dst->numOfTables = src->numOfTables; dst->size = src->size; SWAP(dst->pData, src->pData, char*); buildMsgHeader(dst); taosArrayPush(pCxt->pOutput->pDataBlocks, &dst); } return TSDB_CODE_SUCCESS; } static int32_t checkTimestamp(STableDataBlocks *pDataBlocks, const char *start) { // once the data block is disordered, we do NOT keep previous timestamp any more if (!pDataBlocks->ordered) { return TSDB_CODE_SUCCESS; } TSKEY k = *(TSKEY *)start; if (k == INT64_MIN) { if (pDataBlocks->tsSource == TSDB_USE_CLI_TS) { return TSDB_CODE_FAILED; // client time/server time can not be mixed } pDataBlocks->tsSource = TSDB_USE_SERVER_TS; } else { if (pDataBlocks->tsSource == TSDB_USE_SERVER_TS) { return TSDB_CODE_FAILED; // client time/server time can not be mixed } pDataBlocks->tsSource = TSDB_USE_CLI_TS; } if (k <= pDataBlocks->prevTS && (pDataBlocks->tsSource == TSDB_USE_CLI_TS)) { pDataBlocks->ordered = false; } pDataBlocks->prevTS = k; return TSDB_CODE_SUCCESS; } static int parseTime(char **end, SToken *pToken, int16_t timePrec, int64_t *time, SMsgBuf* pMsgBuf) { int32_t index = 0; SToken sToken; int64_t interval; int64_t ts = 0; char* pTokenEnd = *end; if (pToken->type == TK_NOW) { ts = taosGetTimestamp(timePrec); } else if (pToken->type == TK_INTEGER) { bool isSigned = false; toInteger(pToken->z, pToken->n, 10, &ts, &isSigned); } else { // parse the RFC-3339/ISO-8601 timestamp format string if (taosParseTime(pToken->z, time, pToken->n, timePrec, tsDaylight) != TSDB_CODE_SUCCESS) { return buildSyntaxErrMsg(pMsgBuf, "invalid timestamp format", pToken->z); } return TSDB_CODE_SUCCESS; } for (int k = pToken->n; pToken->z[k] != '\0'; k++) { if (pToken->z[k] == ' ' || pToken->z[k] == '\t') continue; if (pToken->z[k] == ',') { *end = pTokenEnd; *time = ts; return 0; } break; } /* * time expression: * e.g., now+12a, now-5h */ SToken valueToken; index = 0; sToken = tStrGetToken(pTokenEnd, &index, false); pTokenEnd += index; if (sToken.type == TK_MINUS || sToken.type == TK_PLUS) { index = 0; valueToken = tStrGetToken(pTokenEnd, &index, false); pTokenEnd += index; if (valueToken.n < 2) { return buildSyntaxErrMsg(pMsgBuf, "value expected in timestamp", sToken.z); } char unit = 0; if (parseAbsoluteDuration(valueToken.z, valueToken.n, &interval, &unit, timePrec) != TSDB_CODE_SUCCESS) { return TSDB_CODE_TSC_INVALID_OPERATION; } if (sToken.type == TK_PLUS) { ts += interval; } else { ts = ts - interval; } *end = pTokenEnd; } *time = ts; return TSDB_CODE_SUCCESS; } typedef struct SMemParam { SMemRow row; SSchema* schema; int32_t toffset; uint8_t compareStat; int32_t dataLen; int32_t kvLen; } SMemParam; static FORCE_INLINE int32_t MemRowAppend(const void *value, int32_t len, void *param) { SMemParam* pa = (SMemParam*)param; if (TSDB_DATA_TYPE_BINARY == pa->schema->type) { char *rowEnd = memRowEnd(pa->row); STR_WITH_SIZE_TO_VARSTR(rowEnd, value, len); appendMemRowColValEx(pa->row, rowEnd, true, pa->schema->colId, pa->schema->type, pa->toffset, &pa->dataLen, &pa->kvLen, pa->compareStat); } else if (TSDB_DATA_TYPE_NCHAR == pa->schema->type) { // if the converted output len is over than pColumnModel->bytes, return error: 'Argument list too long' int32_t output = 0; char * rowEnd = memRowEnd(pa->row); if (!taosMbsToUcs4(value, len, (char *)varDataVal(rowEnd), pa->schema->bytes - VARSTR_HEADER_SIZE, &output)) { return TSDB_CODE_TSC_SQL_SYNTAX_ERROR; } varDataSetLen(rowEnd, output); appendMemRowColValEx(pa->row, rowEnd, false, pa->schema->colId, pa->schema->type, pa->toffset, &pa->dataLen, &pa->kvLen, pa->compareStat); } else { appendMemRowColValEx(pa->row, value, true, pa->schema->colId, pa->schema->type, pa->toffset, &pa->dataLen, &pa->kvLen, pa->compareStat); } return TSDB_CODE_SUCCESS; } // pSql -> tag1_name, ...) static int32_t parseBoundColumns(SInsertParseContext* pCxt, SParsedDataColInfo* pColList, SSchema* pSchema) { int32_t nCols = pColList->numOfCols; pColList->numOfBound = 0; memset(pColList->boundedColumns, 0, sizeof(int32_t) * nCols); for (int32_t i = 0; i < nCols; ++i) { pColList->cols[i].valStat = VAL_STAT_NONE; } SToken sToken; bool isOrdered = true; int32_t lastColIdx = -1; // last column found while (1) { NEXT_TOKEN(pCxt->pSql, sToken); if (TK_RP == sToken.type) { break; } int32_t t = lastColIdx + 1; int32_t index = findCol(&sToken, t, nCols, pSchema); if (index < 0 && t > 0) { index = findCol(&sToken, 0, t, pSchema); isOrdered = false; } if (index < 0) { return buildSyntaxErrMsg(&pCxt->msg, "invalid column/tag name", sToken.z); } if (pColList->cols[index].valStat == VAL_STAT_HAS) { return buildSyntaxErrMsg(&pCxt->msg, "duplicated column name", sToken.z); } lastColIdx = index; pColList->cols[index].valStat = VAL_STAT_HAS; pColList->boundedColumns[pColList->numOfBound] = index; ++pColList->numOfBound; } pColList->orderStatus = isOrdered ? ORDER_STATUS_ORDERED : ORDER_STATUS_DISORDERED; if (!isOrdered) { pColList->colIdxInfo = calloc(pColList->numOfBound, sizeof(SBoundIdxInfo)); if (NULL == pColList->colIdxInfo) { return TSDB_CODE_TSC_OUT_OF_MEMORY; } SBoundIdxInfo* pColIdx = pColList->colIdxInfo; for (uint16_t i = 0; i < pColList->numOfBound; ++i) { pColIdx[i].schemaColIdx = (uint16_t)pColList->boundedColumns[i]; pColIdx[i].boundIdx = i; } qsort(pColIdx, pColList->numOfBound, sizeof(SBoundIdxInfo), schemaIdxCompar); for (uint16_t i = 0; i < pColList->numOfBound; ++i) { pColIdx[i].finalIdx = i; } qsort(pColIdx, pColList->numOfBound, sizeof(SBoundIdxInfo), boundIdxCompar); } memset(&pColList->boundedColumns[pColList->numOfBound], 0, sizeof(int32_t) * (pColList->numOfCols - pColList->numOfBound)); return TSDB_CODE_SUCCESS; } // pSql -> tag1_value, ...) static int32_t parseTagsClause(SInsertParseContext* pCxt, SSchema* pTagsSchema, uint8_t precision) { if (tdInitKVRowBuilder(&pCxt->tagsBuilder) < 0) { return TSDB_CODE_TSC_OUT_OF_MEMORY; } SKvParam param = {.builder = &pCxt->tagsBuilder}; SToken sToken; char tmpTokenBuf[TSDB_MAX_BYTES_PER_ROW] = {0}; // used for deleting Escape character: \\, \', \" for (int i = 0; i < pCxt->tags.numOfBound; ++i) { NEXT_TOKEN(pCxt->pSql, sToken); SSchema* pSchema = &pTagsSchema[pCxt->tags.boundedColumns[i]]; param.schema = pSchema; CHECK_CODE(parseValueToken(&pCxt->pSql, &sToken, pSchema, precision, tmpTokenBuf, KvRowAppend, ¶m, &pCxt->msg)); } SKVRow row = tdGetKVRowFromBuilder(&pCxt->tagsBuilder); if (NULL == row) { return buildInvalidOperationMsg(&pCxt->msg, "tag value expected"); } tdSortKVRowByColIdx(row); // todo construct payload tfree(row); } // pSql -> stb_name [(tag1_name, ...)] TAGS (tag1_value, ...) static int32_t parseUsingClause(SInsertParseContext* pCxt, SToken* pTbnameToken) { SToken sToken; // pSql -> stb_name [(tag1_name, ...)] TAGS (tag1_value, ...) NEXT_TOKEN(pCxt->pSql, sToken); CHECK_CODE(getTableMeta(pCxt, &sToken)); if (TSDB_SUPER_TABLE != pCxt->pTableMeta->tableType) { return buildInvalidOperationMsg(&pCxt->msg, "create table only from super table is allowed"); } SSchema* pTagsSchema = getTableTagSchema(pCxt->pTableMeta); setBoundColumnInfo(&pCxt->tags, pTagsSchema, getNumOfTags(pCxt->pTableMeta)); // pSql -> [(tag1_name, ...)] TAGS (tag1_value, ...) NEXT_TOKEN(pCxt->pSql, sToken); if (TK_LP == sToken.type) { CHECK_CODE(parseBoundColumns(pCxt, &pCxt->tags, pTagsSchema)); NEXT_TOKEN(pCxt->pSql, sToken); } if (TK_TAGS != sToken.type) { return buildSyntaxErrMsg(&pCxt->msg, "TAGS is expected", sToken.z); } // pSql -> (tag1_value, ...) NEXT_TOKEN(pCxt->pSql, sToken); if (TK_LP != sToken.type) { return buildSyntaxErrMsg(&pCxt->msg, "( is expected", sToken.z); } CHECK_CODE(parseTagsClause(pCxt, pTagsSchema, getTableInfo(pCxt->pTableMeta).precision)); return TSDB_CODE_SUCCESS; } static int parseOneRow(SInsertParseContext* pCxt, STableDataBlocks* pDataBlocks, int16_t timePrec, int32_t* len, char* tmpTokenBuf) { SParsedDataColInfo* spd = &pDataBlocks->boundColumnInfo; SMemRowBuilder* pBuilder = &pDataBlocks->rowBuilder; char *row = pDataBlocks->pData + pDataBlocks->size; // skip the SSubmitBlk header initSMemRow(row, pBuilder->memRowType, pDataBlocks, spd->numOfBound); bool isParseBindParam = false; SSchema* schema = getTableColumnSchema(pDataBlocks->pTableMeta); SMemParam param = {.row = row}; SToken sToken = {0}; // 1. set the parsed value from sql string for (int i = 0; i < spd->numOfBound; ++i) { NEXT_TOKEN(pCxt->pSql, sToken); SSchema *pSchema = &schema[spd->boundedColumns[i]]; param.schema = pSchema; param.compareStat = pBuilder->compareStat; getMemRowAppendInfo(schema, pBuilder->memRowType, spd, i, ¶m.toffset); CHECK_CODE(parseValueToken(&pCxt->pSql, &sToken, pSchema, timePrec, tmpTokenBuf, MemRowAppend, ¶m, &pCxt->msg)); if (PRIMARYKEY_TIMESTAMP_COL_ID == pSchema->colId) { TSKEY tsKey = memRowKey(row); if (checkTimestamp(pDataBlocks, (const char *)&tsKey) != TSDB_CODE_SUCCESS) { buildSyntaxErrMsg(&pCxt->msg, "client time/server time can not be mixed up", sToken.z); return TSDB_CODE_TSC_INVALID_TIME_STAMP; } } } if (!isParseBindParam) { // 2. check and set convert flag if (pBuilder->compareStat == ROW_COMPARE_NEED) { convertMemRow(row, spd->allNullLen + TD_MEM_ROW_DATA_HEAD_SIZE, pBuilder->kvRowInitLen); } // 3. set the null value for the columns that do not assign values if ((spd->numOfBound < spd->numOfCols) && isDataRow(row) && !isNeedConvertRow(row)) { SDataRow dataRow = memRowDataBody(row); for (int32_t i = 0; i < spd->numOfCols; ++i) { if (spd->cols[i].valStat == VAL_STAT_NONE) { tdAppendDataColVal(dataRow, getNullValue(schema[i].type), true, schema[i].type, spd->cols[i].toffset); } } } } *len = getExtendedRowSize(pDataBlocks); return TSDB_CODE_SUCCESS; } // pSql -> (field1_value, ...) [(field1_value2, ...) ...] static int32_t parseValues(SInsertParseContext* pCxt, STableDataBlocks* pDataBlock, int maxRows, int32_t* numOfRows) { STableComInfo tinfo = getTableInfo(pDataBlock->pTableMeta); int32_t extendedRowSize = getExtendedRowSize(pDataBlock); CHECK_CODE(initMemRowBuilder(&pDataBlock->rowBuilder, 0, tinfo.numOfColumns, pDataBlock->boundColumnInfo.numOfBound, pDataBlock->boundColumnInfo.allNullLen)); (*numOfRows) = 0; char tmpTokenBuf[TSDB_MAX_BYTES_PER_ROW] = {0}; // used for deleting Escape character: \\, \', \" SToken sToken; while (1) { int32_t index = 0; NEXT_TOKEN_KEEP_SQL(pCxt->pSql, sToken, index); if (TK_LP != sToken.type) { break; } pCxt->pSql += index; if ((*numOfRows) >= maxRows || pDataBlock->size + extendedRowSize >= pDataBlock->nAllocSize) { int32_t tSize; CHECK_CODE(allocateMemIfNeed(pDataBlock, extendedRowSize, &tSize)); ASSERT(tSize >= maxRows); maxRows = tSize; } int32_t len = 0; CHECK_CODE(parseOneRow(pCxt, pDataBlock, tinfo.precision, &len, tmpTokenBuf)); pDataBlock->size += len; NEXT_TOKEN(pCxt->pSql, sToken); if (TK_RP != sToken.type) { return buildSyntaxErrMsg(&pCxt->msg, ") expected", sToken.z); } (*numOfRows)++; } if (0 == (*numOfRows)) { return buildSyntaxErrMsg(&pCxt->msg, "no any data points", NULL); } return TSDB_CODE_SUCCESS; } static int32_t parseValuesClause(SInsertParseContext* pCxt, STableDataBlocks* dataBuf) { int32_t maxNumOfRows; CHECK_CODE(allocateMemIfNeed(dataBuf, getExtendedRowSize(dataBuf), &maxNumOfRows)); int32_t numOfRows = 0; CHECK_CODE(parseValues(pCxt, dataBuf, maxNumOfRows, &numOfRows)); SSubmitBlk *pBlocks = (SSubmitBlk *)(dataBuf->pData); if (TSDB_CODE_SUCCESS != setBlockInfo(pBlocks, dataBuf->pTableMeta, numOfRows)) { return buildInvalidOperationMsg(&pCxt->msg, "too many rows in sql, total number of rows should be less than 32767"); } dataBuf->numOfTables = 1; pCxt->totalNum += numOfRows; return TSDB_CODE_SUCCESS; } static void destroyInsertParseContextForTable(SInsertParseContext* pCxt) { tfree(pCxt->pTableMeta); destroyBoundColumnInfo(&pCxt->tags); tdDestroyKVRowBuilder(&pCxt->tagsBuilder); } static void destroyInsertParseContext(SInsertParseContext* pCxt) { destroyInsertParseContextForTable(pCxt); taosHashCleanup(pCxt->pVgroupsHashObj); taosHashCleanup(pCxt->pTableBlockHashObj); destroyBlockArrayList(pCxt->pTableDataBlocks); destroyBlockArrayList(pCxt->pVgDataBlocks); } // tb_name // [USING stb_name [(tag1_name, ...)] TAGS (tag1_value, ...)] // [(field1_name, ...)] // VALUES (field1_value, ...) [(field1_value2, ...) ...] | FILE csv_file_path // [...]; static int32_t parseInsertBody(SInsertParseContext* pCxt) { // for each table while (1) { destroyInsertParseContextForTable(pCxt); SToken sToken; // pSql -> tb_name ... NEXT_TOKEN(pCxt->pSql, sToken); // no data in the sql string anymore. if (sToken.n == 0) { if (0 == pCxt->totalNum) { return buildInvalidOperationMsg(&pCxt->msg, "no data in sql");; } break; } SToken tbnameToken = sToken; NEXT_TOKEN(pCxt->pSql, sToken); // USING cluase if (TK_USING == sToken.type) { CHECK_CODE(parseUsingClause(pCxt, &tbnameToken)); NEXT_TOKEN(pCxt->pSql, sToken); } else { CHECK_CODE(getTableMeta(pCxt, &tbnameToken)); } STableDataBlocks *dataBuf = NULL; CHECK_CODE(getDataBlockFromList(pCxt->pTableBlockHashObj, pCxt->pTableMeta->uid, TSDB_DEFAULT_PAYLOAD_SIZE, sizeof(SSubmitBlk), getTableInfo(pCxt->pTableMeta).rowSize, pCxt->pTableMeta, &dataBuf, NULL)); if (TK_LP == sToken.type) { // pSql -> field1_name, ...) CHECK_CODE(parseBoundColumns(pCxt, &dataBuf->boundColumnInfo, getTableColumnSchema(pCxt->pTableMeta))); NEXT_TOKEN(pCxt->pSql, sToken); } if (TK_VALUES == sToken.type) { // pSql -> (field1_value, ...) [(field1_value2, ...) ...] CHECK_CODE(parseValuesClause(pCxt, dataBuf)); pCxt->pOutput->insertType = TSDB_QUERY_TYPE_INSERT; continue; } // FILE csv_file_path if (TK_FILE == sToken.type) { // pSql -> csv_file_path NEXT_TOKEN(pCxt->pSql, sToken); if (0 == sToken.n || (TK_STRING != sToken.type && TK_ID != sToken.type)) { return buildSyntaxErrMsg(&pCxt->msg, "file path is required following keyword FILE", sToken.z); } // todo pCxt->pOutput->insertType = TSDB_QUERY_TYPE_FILE_INSERT; continue; } return buildSyntaxErrMsg(&pCxt->msg, "keyword VALUES or FILE is expected", sToken.z); } // merge according to vgId if (!TSDB_QUERY_HAS_TYPE(pCxt->pOutput->insertType, TSDB_QUERY_TYPE_STMT_INSERT) && taosHashGetSize(pCxt->pTableBlockHashObj) > 0) { CHECK_CODE(mergeTableDataBlocks(pCxt->pTableBlockHashObj, pCxt->pOutput->schemaAttache, pCxt->pOutput->payloadType, &pCxt->pVgDataBlocks)); } return buildOutput(pCxt); } // INSERT INTO // tb_name // [USING stb_name [(tag1_name, ...)] TAGS (tag1_value, ...)] // [(field1_name, ...)] // VALUES (field1_value, ...) [(field1_value2, ...) ...] | FILE csv_file_path // [...]; int32_t parseInsertSql(SParseContext* pContext, SInsertStmtInfo** pInfo) { SInsertParseContext context = { .pComCxt = pContext, .pSql = (char*) pContext->pSql, .msg = {.buf = pContext->pMsg, .len = pContext->msgLen}, .pTableMeta = NULL, .pVgroupsHashObj = taosHashInit(128, taosGetDefaultHashFunction(TSDB_DATA_TYPE_INT), true, false), .pTableBlockHashObj = taosHashInit(128, taosGetDefaultHashFunction(TSDB_DATA_TYPE_BIGINT), true, false), .totalNum = 0, .pOutput = calloc(1, sizeof(SInsertStmtInfo)) }; if (NULL == context.pVgroupsHashObj || NULL == context.pTableBlockHashObj || NULL == context.pOutput) { terrno = TSDB_CODE_TSC_OUT_OF_MEMORY; return TSDB_CODE_FAILED; } *pInfo = context.pOutput; context.pOutput->nodeType = TSDB_SQL_INSERT; context.pOutput->schemaAttache = pContext->schemaAttached; context.pOutput->payloadType = PAYLOAD_TYPE_KV; int32_t code = skipInsertInto(&context); if (TSDB_CODE_SUCCESS == code) { code = parseInsertBody(&context); } destroyInsertParseContext(&context); terrno = code; return (TSDB_CODE_SUCCESS == code ? TSDB_CODE_SUCCESS : TSDB_CODE_FAILED); }