/* * 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 "parInsertUtil.h" #include "parToken.h" #include "scalar.h" #include "tglobal.h" #include "ttime.h" #define NEXT_TOKEN_WITH_PREV(pSql, token) \ do { \ int32_t index = 0; \ token = tStrGetToken(pSql, &index, true, NULL); \ pSql += index; \ } while (0) #define NEXT_TOKEN_WITH_PREV_EXT(pSql, token, pIgnoreComma) \ do { \ int32_t index = 0; \ token = tStrGetToken(pSql, &index, true, pIgnoreComma); \ pSql += index; \ } while (0) #define NEXT_TOKEN_KEEP_SQL(pSql, token, index) \ do { \ token = tStrGetToken(pSql, &index, false, NULL); \ } while (0) #define NEXT_VALID_TOKEN(pSql, token) \ do { \ (token).n = tGetToken(pSql, &(token).type); \ (token).z = (char*)pSql; \ pSql += (token).n; \ } while (TK_NK_SPACE == (token).type) typedef struct SInsertParseContext { SParseContext* pComCxt; SMsgBuf msg; char tmpTokenBuf[TSDB_MAX_BYTES_PER_ROW]; SBoundColInfo tags; // for stmt bool missCache; bool usingDuplicateTable; bool forceUpdate; } SInsertParseContext; typedef int32_t (*_row_append_fn_t)(SMsgBuf* pMsgBuf, const void* value, int32_t len, void* param); static uint8_t TRUE_VALUE = (uint8_t)TSDB_TRUE; static uint8_t FALSE_VALUE = (uint8_t)TSDB_FALSE; static bool isNullStr(SToken* pToken) { return ((pToken->type == TK_NK_STRING) && (strlen(TSDB_DATA_NULL_STR_L) == pToken->n) && (strncasecmp(TSDB_DATA_NULL_STR_L, pToken->z, pToken->n) == 0)); } static bool isNullValue(int8_t dataType, SToken* pToken) { return TK_NULL == pToken->type || (!IS_STR_DATA_TYPE(dataType) && isNullStr(pToken)); } static FORCE_INLINE int32_t toDouble(SToken* pToken, double* value, char** endPtr) { errno = 0; *value = taosStr2Double(pToken->z, endPtr); // not a valid integer number, return error if ((*endPtr - pToken->z) != pToken->n) { return TK_NK_ILLEGAL; } return pToken->type; } static int32_t skipInsertInto(const char** pSql, SMsgBuf* pMsg) { SToken token; NEXT_TOKEN(*pSql, token); if (TK_INSERT != token.type && TK_IMPORT != token.type) { return buildSyntaxErrMsg(pMsg, "keyword INSERT is expected", token.z); } NEXT_TOKEN(*pSql, token); if (TK_INTO != token.type) { return buildSyntaxErrMsg(pMsg, "keyword INTO is expected", token.z); } return TSDB_CODE_SUCCESS; } static int32_t skipParentheses(SInsertParseContext* pCxt, const char** pSql) { SToken token; int32_t expectRightParenthesis = 1; while (1) { NEXT_TOKEN(*pSql, token); if (TK_NK_LP == token.type) { ++expectRightParenthesis; } else if (TK_NK_RP == token.type && 0 == --expectRightParenthesis) { break; } if (0 == token.n) { return buildSyntaxErrMsg(&pCxt->msg, ") expected", NULL); } } return TSDB_CODE_SUCCESS; } static int32_t skipTableOptions(SInsertParseContext* pCxt, const char** pSql) { do { int32_t index = 0; SToken token; NEXT_TOKEN_KEEP_SQL(*pSql, token, index); if (TK_TTL == token.type || TK_COMMENT == token.type) { *pSql += index; NEXT_TOKEN_WITH_PREV(*pSql, token); } else { break; } } while (1); return TSDB_CODE_SUCCESS; } // pSql -> stb_name [(tag1_name, ...)] TAGS (tag1_value, ...) static int32_t ignoreUsingClause(SInsertParseContext* pCxt, const char** pSql) { int32_t code = TSDB_CODE_SUCCESS; SToken token; NEXT_TOKEN(*pSql, token); NEXT_TOKEN(*pSql, token); if (TK_NK_LP == token.type) { code = skipParentheses(pCxt, pSql); if (TSDB_CODE_SUCCESS == code) { NEXT_TOKEN(*pSql, token); } } // pSql -> TAGS (tag1_value, ...) if (TSDB_CODE_SUCCESS == code) { if (TK_TAGS != token.type) { code = buildSyntaxErrMsg(&pCxt->msg, "TAGS is expected", token.z); } else { NEXT_TOKEN(*pSql, token); } } if (TSDB_CODE_SUCCESS == code) { if (TK_NK_LP != token.type) { code = buildSyntaxErrMsg(&pCxt->msg, "( is expected", token.z); } else { code = skipParentheses(pCxt, pSql); } } if (TSDB_CODE_SUCCESS == code) { code = skipTableOptions(pCxt, pSql); } return code; } static int32_t parseDuplicateUsingClause(SInsertParseContext* pCxt, SVnodeModifyOpStmt* pStmt, bool* pDuplicate) { *pDuplicate = false; char tbFName[TSDB_TABLE_FNAME_LEN]; tNameExtractFullName(&pStmt->targetTableName, tbFName); STableMeta** pMeta = taosHashGet(pStmt->pSubTableHashObj, tbFName, strlen(tbFName)); if (NULL != pMeta) { *pDuplicate = true; int32_t code = ignoreUsingClause(pCxt, &pStmt->pSql); if (TSDB_CODE_SUCCESS == code) { return cloneTableMeta(*pMeta, &pStmt->pTableMeta); } } return TSDB_CODE_SUCCESS; } // pStmt->pSql -> field1_name, ...) static int32_t parseBoundColumns(SInsertParseContext* pCxt, const char** pSql, bool isTags, SSchema* pSchema, SBoundColInfo* pBoundInfo) { bool* pUseCols = taosMemoryCalloc(pBoundInfo->numOfCols, sizeof(bool)); if (NULL == pUseCols) { return TSDB_CODE_OUT_OF_MEMORY; } pBoundInfo->numOfBound = 0; int16_t lastColIdx = -1; // last column found int32_t code = TSDB_CODE_SUCCESS; while (TSDB_CODE_SUCCESS == code) { SToken token; NEXT_TOKEN(*pSql, token); if (TK_NK_RP == token.type) { break; } char tmpTokenBuf[TSDB_COL_NAME_LEN + 2] = {0}; // used for deleting Escape character backstick(`) strncpy(tmpTokenBuf, token.z, token.n); token.z = tmpTokenBuf; token.n = strdequote(token.z); int16_t t = lastColIdx + 1; int16_t index = insFindCol(&token, t, pBoundInfo->numOfCols, pSchema); if (index < 0 && t > 0) { index = insFindCol(&token, 0, t, pSchema); } if (index < 0) { code = generateSyntaxErrMsg(&pCxt->msg, TSDB_CODE_PAR_INVALID_COLUMN, token.z); } else if (pUseCols[index]) { code = buildSyntaxErrMsg(&pCxt->msg, "duplicated column name", token.z); } else { lastColIdx = index; pUseCols[index] = true; pBoundInfo->pColIndex[pBoundInfo->numOfBound] = index; ++pBoundInfo->numOfBound; } } if (TSDB_CODE_SUCCESS == code && !isTags && !pUseCols[0]) { code = buildInvalidOperationMsg(&pCxt->msg, "primary timestamp column can not be null"); } taosMemoryFree(pUseCols); return code; } static int parseTime(const char** end, SToken* pToken, int16_t timePrec, int64_t* time, SMsgBuf* pMsgBuf) { int32_t index = 0; int64_t interval; int64_t ts = 0; const char* pTokenEnd = *end; if (pToken->type == TK_NOW) { ts = taosGetTimestamp(timePrec); } else if (pToken->type == TK_TODAY) { ts = taosGetTimestampToday(timePrec); } else if (pToken->type == TK_NK_INTEGER) { if (TSDB_CODE_SUCCESS != toInteger(pToken->z, pToken->n, 10, &ts)) { return buildSyntaxErrMsg(pMsgBuf, "invalid timestamp format", pToken->z); } } 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] == '(' && pToken->z[k + 1] == ')') { // for insert NOW()/TODAY() *end = pTokenEnd = &pToken->z[k + 2]; k++; continue; } if (pToken->z[k] == ',') { *end = pTokenEnd; *time = ts; return 0; } break; } /* * time expression: * e.g., now+12a, now-5h */ index = 0; SToken token = tStrGetToken(pTokenEnd, &index, false, NULL); pTokenEnd += index; if (token.type == TK_NK_MINUS || token.type == TK_NK_PLUS) { index = 0; SToken valueToken = tStrGetToken(pTokenEnd, &index, false, NULL); pTokenEnd += index; if (valueToken.n < 2) { return buildSyntaxErrMsg(pMsgBuf, "value expected in timestamp", token.z); } char unit = 0; if (parseAbsoluteDuration(valueToken.z, valueToken.n, &interval, &unit, timePrec) != TSDB_CODE_SUCCESS) { return TSDB_CODE_TSC_INVALID_OPERATION; } if (token.type == TK_NK_PLUS) { ts += interval; } else { ts = ts - interval; } *end = pTokenEnd; } *time = ts; return TSDB_CODE_SUCCESS; } static int32_t parseTagToken(const char** end, SToken* pToken, SSchema* pSchema, int16_t timePrec, STagVal* val, SMsgBuf* pMsgBuf) { int64_t iv; uint64_t uv; char* endptr = NULL; if (isNullValue(pSchema->type, pToken)) { if (TSDB_DATA_TYPE_TIMESTAMP == pSchema->type && PRIMARYKEY_TIMESTAMP_COL_ID == pSchema->colId) { return buildSyntaxErrMsg(pMsgBuf, "primary timestamp should not be null", pToken->z); } return TSDB_CODE_SUCCESS; } // strcpy(val->colName, pSchema->name); val->cid = pSchema->colId; val->type = pSchema->type; switch (pSchema->type) { case TSDB_DATA_TYPE_BOOL: { if ((pToken->type == TK_NK_BOOL || pToken->type == TK_NK_STRING) && (pToken->n != 0)) { if (strncmp(pToken->z, "true", pToken->n) == 0) { *(int8_t*)(&val->i64) = TRUE_VALUE; } else if (strncmp(pToken->z, "false", pToken->n) == 0) { *(int8_t*)(&val->i64) = FALSE_VALUE; } else { return buildSyntaxErrMsg(pMsgBuf, "invalid bool data", pToken->z); } } else if (pToken->type == TK_NK_INTEGER) { *(int8_t*)(&val->i64) = ((taosStr2Int64(pToken->z, NULL, 10) == 0) ? FALSE_VALUE : TRUE_VALUE); } else if (pToken->type == TK_NK_FLOAT) { *(int8_t*)(&val->i64) = ((taosStr2Double(pToken->z, NULL) == 0) ? FALSE_VALUE : TRUE_VALUE); } else { return buildSyntaxErrMsg(pMsgBuf, "invalid bool data", pToken->z); } break; } case TSDB_DATA_TYPE_TINYINT: { if (TSDB_CODE_SUCCESS != toInteger(pToken->z, pToken->n, 10, &iv)) { return buildSyntaxErrMsg(pMsgBuf, "invalid tinyint data", pToken->z); } else if (!IS_VALID_TINYINT(iv)) { return buildSyntaxErrMsg(pMsgBuf, "tinyint data overflow", pToken->z); } *(int8_t*)(&val->i64) = iv; break; } case TSDB_DATA_TYPE_UTINYINT: { if (TSDB_CODE_SUCCESS != toUInteger(pToken->z, pToken->n, 10, &uv)) { return buildSyntaxErrMsg(pMsgBuf, "invalid unsigned tinyint data", pToken->z); } else if (uv > UINT8_MAX) { return buildSyntaxErrMsg(pMsgBuf, "unsigned tinyint data overflow", pToken->z); } *(uint8_t*)(&val->i64) = uv; break; } case TSDB_DATA_TYPE_SMALLINT: { if (TSDB_CODE_SUCCESS != toInteger(pToken->z, pToken->n, 10, &iv)) { return buildSyntaxErrMsg(pMsgBuf, "invalid smallint data", pToken->z); } else if (!IS_VALID_SMALLINT(iv)) { return buildSyntaxErrMsg(pMsgBuf, "smallint data overflow", pToken->z); } *(int16_t*)(&val->i64) = iv; break; } case TSDB_DATA_TYPE_USMALLINT: { if (TSDB_CODE_SUCCESS != toUInteger(pToken->z, pToken->n, 10, &uv)) { return buildSyntaxErrMsg(pMsgBuf, "invalid unsigned smallint data", pToken->z); } else if (uv > UINT16_MAX) { return buildSyntaxErrMsg(pMsgBuf, "unsigned smallint data overflow", pToken->z); } *(uint16_t*)(&val->i64) = uv; break; } case TSDB_DATA_TYPE_INT: { if (TSDB_CODE_SUCCESS != toInteger(pToken->z, pToken->n, 10, &iv)) { return buildSyntaxErrMsg(pMsgBuf, "invalid int data", pToken->z); } else if (!IS_VALID_INT(iv)) { return buildSyntaxErrMsg(pMsgBuf, "int data overflow", pToken->z); } *(int32_t*)(&val->i64) = iv; break; } case TSDB_DATA_TYPE_UINT: { if (TSDB_CODE_SUCCESS != toUInteger(pToken->z, pToken->n, 10, &uv)) { return buildSyntaxErrMsg(pMsgBuf, "invalid unsigned int data", pToken->z); } else if (uv > UINT32_MAX) { return buildSyntaxErrMsg(pMsgBuf, "unsigned int data overflow", pToken->z); } *(uint32_t*)(&val->i64) = uv; break; } case TSDB_DATA_TYPE_BIGINT: { if (TSDB_CODE_SUCCESS != toInteger(pToken->z, pToken->n, 10, &iv)) { return buildSyntaxErrMsg(pMsgBuf, "invalid bigint data", pToken->z); } val->i64 = iv; break; } case TSDB_DATA_TYPE_UBIGINT: { if (TSDB_CODE_SUCCESS != toUInteger(pToken->z, pToken->n, 10, &uv)) { return buildSyntaxErrMsg(pMsgBuf, "invalid unsigned bigint data", pToken->z); } *(uint64_t*)(&val->i64) = uv; break; } case TSDB_DATA_TYPE_FLOAT: { double dv; if (TK_NK_ILLEGAL == toDouble(pToken, &dv, &endptr)) { return buildSyntaxErrMsg(pMsgBuf, "illegal float data", pToken->z); } if (((dv == HUGE_VAL || dv == -HUGE_VAL) && errno == ERANGE) || dv > FLT_MAX || dv < -FLT_MAX || isinf(dv) || isnan(dv)) { return buildSyntaxErrMsg(pMsgBuf, "illegal float data", pToken->z); } *(float*)(&val->i64) = dv; break; } case TSDB_DATA_TYPE_DOUBLE: { double dv; if (TK_NK_ILLEGAL == toDouble(pToken, &dv, &endptr)) { return buildSyntaxErrMsg(pMsgBuf, "illegal double data", pToken->z); } if (((dv == HUGE_VAL || dv == -HUGE_VAL) && errno == ERANGE) || isinf(dv) || isnan(dv)) { return buildSyntaxErrMsg(pMsgBuf, "illegal double data", pToken->z); } *(double*)(&val->i64) = dv; break; } case TSDB_DATA_TYPE_BINARY: { // Too long values will raise the invalid sql error message if (pToken->n + VARSTR_HEADER_SIZE > pSchema->bytes) { return generateSyntaxErrMsg(pMsgBuf, TSDB_CODE_PAR_VALUE_TOO_LONG, pSchema->name); } val->pData = taosStrdup(pToken->z); val->nData = pToken->n; break; } case TSDB_DATA_TYPE_NCHAR: { int32_t output = 0; void* p = taosMemoryCalloc(1, pSchema->bytes - VARSTR_HEADER_SIZE); if (p == NULL) { return TSDB_CODE_OUT_OF_MEMORY; } if (!taosMbsToUcs4(pToken->z, pToken->n, (TdUcs4*)(p), pSchema->bytes - VARSTR_HEADER_SIZE, &output)) { if (errno == E2BIG) { taosMemoryFree(p); return generateSyntaxErrMsg(pMsgBuf, TSDB_CODE_PAR_VALUE_TOO_LONG, pSchema->name); } char buf[512] = {0}; snprintf(buf, tListLen(buf), " taosMbsToUcs4 error:%s", strerror(errno)); taosMemoryFree(p); return buildSyntaxErrMsg(pMsgBuf, buf, pToken->z); } val->pData = p; val->nData = output; break; } case TSDB_DATA_TYPE_TIMESTAMP: { if (parseTime(end, pToken, timePrec, &iv, pMsgBuf) != TSDB_CODE_SUCCESS) { return buildSyntaxErrMsg(pMsgBuf, "invalid timestamp", pToken->z); } val->i64 = iv; break; } } return TSDB_CODE_SUCCESS; } // input pStmt->pSql: [(tag1_name, ...)] TAGS (tag1_value, ...) ... // output pStmt->pSql: TAGS (tag1_value, ...) ... static int32_t parseBoundTagsClause(SInsertParseContext* pCxt, SVnodeModifyOpStmt* pStmt) { insInitBoundColsInfo(getNumOfTags(pStmt->pTableMeta), &pCxt->tags); SToken token; int32_t index = 0; NEXT_TOKEN_KEEP_SQL(pStmt->pSql, token, index); if (TK_NK_LP != token.type) { return TSDB_CODE_SUCCESS; } pStmt->pSql += index; return parseBoundColumns(pCxt, &pStmt->pSql, true, getTableTagSchema(pStmt->pTableMeta), &pCxt->tags); } static int32_t parseTagValue(SInsertParseContext* pCxt, SVnodeModifyOpStmt* pStmt, SSchema* pTagSchema, SToken* pToken, SArray* pTagName, SArray* pTagVals, STag** pTag) { if (!isNullValue(pTagSchema->type, pToken)) { taosArrayPush(pTagName, pTagSchema->name); } if (pTagSchema->type == TSDB_DATA_TYPE_JSON) { if (pToken->n > (TSDB_MAX_JSON_TAG_LEN - VARSTR_HEADER_SIZE) / TSDB_NCHAR_SIZE) { return buildSyntaxErrMsg(&pCxt->msg, "json string too long than 4095", pToken->z); } if (isNullValue(pTagSchema->type, pToken)) { return tTagNew(pTagVals, 1, true, pTag); } else { return parseJsontoTagData(pToken->z, pTagVals, pTag, &pCxt->msg); } } STagVal val = {0}; int32_t code = parseTagToken(&pStmt->pSql, pToken, pTagSchema, pStmt->pTableMeta->tableInfo.precision, &val, &pCxt->msg); if (TSDB_CODE_SUCCESS == code) { taosArrayPush(pTagVals, &val); } return code; } static int32_t buildCreateTbReq(SVnodeModifyOpStmt* pStmt, STag* pTag, SArray* pTagName) { pStmt->pCreateTblReq = taosMemoryCalloc(1, sizeof(SVCreateTbReq)); if (NULL == pStmt->pCreateTblReq) { return TSDB_CODE_OUT_OF_MEMORY; } insBuildCreateTbReq(pStmt->pCreateTblReq, pStmt->targetTableName.tname, pTag, pStmt->pTableMeta->suid, pStmt->usingTableName.tname, pTagName, pStmt->pTableMeta->tableInfo.numOfTags, TSDB_DEFAULT_TABLE_TTL); return TSDB_CODE_SUCCESS; } static int32_t checkAndTrimValue(SToken* pToken, char* tmpTokenBuf, SMsgBuf* pMsgBuf) { if ((pToken->type != TK_NOW && pToken->type != TK_TODAY && pToken->type != TK_NK_INTEGER && pToken->type != TK_NK_STRING && pToken->type != TK_NK_FLOAT && pToken->type != TK_NK_BOOL && pToken->type != TK_NULL && pToken->type != TK_NK_HEX && pToken->type != TK_NK_OCT && pToken->type != TK_NK_BIN) || (pToken->n == 0) || (pToken->type == TK_NK_RP)) { return buildSyntaxErrMsg(pMsgBuf, "invalid data or symbol", pToken->z); } // Remove quotation marks if (TK_NK_STRING == pToken->type) { if (pToken->n >= TSDB_MAX_BYTES_PER_ROW) { return buildSyntaxErrMsg(pMsgBuf, "too long string", pToken->z); } int32_t len = trimString(pToken->z, pToken->n, tmpTokenBuf, TSDB_MAX_BYTES_PER_ROW); pToken->z = tmpTokenBuf; pToken->n = len; } return TSDB_CODE_SUCCESS; } typedef struct SRewriteTagCondCxt { SArray* pTagVals; SArray* pTagName; int32_t code; } SRewriteTagCondCxt; static int32_t rewriteTagCondColumnImpl(STagVal* pVal, SNode** pNode) { SValueNode* pValue = (SValueNode*)nodesMakeNode(QUERY_NODE_VALUE); if (NULL == pValue) { return TSDB_CODE_OUT_OF_MEMORY; } pValue->node.resType.type = pVal->type; switch (pVal->type) { case TSDB_DATA_TYPE_BOOL: pValue->datum.b = *(int8_t*)(&pVal->i64); break; case TSDB_DATA_TYPE_TINYINT: pValue->datum.i = *(int8_t*)(&pVal->i64); break; case TSDB_DATA_TYPE_SMALLINT: pValue->datum.i = *(int16_t*)(&pVal->i64); break; case TSDB_DATA_TYPE_INT: pValue->datum.i = *(int32_t*)(&pVal->i64); break; case TSDB_DATA_TYPE_BIGINT: pValue->datum.i = pVal->i64; break; case TSDB_DATA_TYPE_FLOAT: pValue->datum.d = *(float*)(&pVal->i64); break; case TSDB_DATA_TYPE_DOUBLE: pValue->datum.d = *(double*)(&pVal->i64); break; case TSDB_DATA_TYPE_VARCHAR: case TSDB_DATA_TYPE_NCHAR: pValue->datum.p = taosMemoryCalloc(1, pVal->nData + VARSTR_HEADER_SIZE); if (NULL == pValue->datum.p) { return TSDB_CODE_OUT_OF_MEMORY; } varDataSetLen(pValue->datum.p, pVal->nData); memcpy(varDataVal(pValue->datum.p), pVal->pData, pVal->nData); break; case TSDB_DATA_TYPE_TIMESTAMP: pValue->datum.i = pVal->i64; break; case TSDB_DATA_TYPE_UTINYINT: pValue->datum.i = *(uint8_t*)(&pVal->i64); break; case TSDB_DATA_TYPE_USMALLINT: pValue->datum.i = *(uint16_t*)(&pVal->i64); break; case TSDB_DATA_TYPE_UINT: pValue->datum.i = *(uint32_t*)(&pVal->i64); break; case TSDB_DATA_TYPE_UBIGINT: pValue->datum.i = *(uint64_t*)(&pVal->i64); break; case TSDB_DATA_TYPE_JSON: case TSDB_DATA_TYPE_VARBINARY: case TSDB_DATA_TYPE_DECIMAL: case TSDB_DATA_TYPE_BLOB: case TSDB_DATA_TYPE_MEDIUMBLOB: default: return TSDB_CODE_FAILED; } return TSDB_CODE_SUCCESS; } static int32_t rewriteTagCondColumn(SArray* pTagVals, SArray* pTagName, SNode** pNode) { SColumnNode* pCol = (SColumnNode*)*pNode; int32_t ntags = taosArrayGetSize(pTagName); for (int32_t i = 0; i < ntags; ++i) { char* pTagColName = taosArrayGet(pTagName, i); if (0 == strcmp(pTagColName, pCol->colName)) { return rewriteTagCondColumnImpl(taosArrayGet(pTagVals, i), pNode); } } return TSDB_CODE_PAR_PERMISSION_DENIED; } static EDealRes rewriteTagCond(SNode** pNode, void* pContext) { if (QUERY_NODE_COLUMN == nodeType(*pNode)) { SRewriteTagCondCxt* pCxt = pContext; pCxt->code = rewriteTagCondColumn(pCxt->pTagVals, pCxt->pTagName, pNode); return (TSDB_CODE_SUCCESS == pCxt->code ? DEAL_RES_IGNORE_CHILD : DEAL_RES_ERROR); } return DEAL_RES_CONTINUE; } static int32_t setTagVal(SArray* pTagVals, SArray* pTagName, SNode* pCond) { SRewriteTagCondCxt cxt = {.code = TSDB_CODE_SUCCESS, .pTagVals = pTagVals, .pTagName = pTagName}; nodesRewriteExpr(&pCond, rewriteTagCond, &cxt); return cxt.code; } static int32_t checkTagCondResult(SNode* pResult) { return (QUERY_NODE_VALUE == nodeType(pResult) && ((SValueNode*)pResult)->datum.b) ? TSDB_CODE_SUCCESS : TSDB_CODE_PAR_PERMISSION_DENIED; } int32_t checkSubtablePrivilege(SArray* pTagVals, SArray* pTagName, SNode* pCond) { int32_t code = setTagVal(pTagVals, pTagName, pCond); SNode* pNew = NULL; if (TSDB_CODE_SUCCESS == code) { code = scalarCalculateConstants(pCond, &pNew); } if (TSDB_CODE_SUCCESS == code) { code = checkTagCondResult(pNew); } nodesDestroyNode(pNew); return code; } // pSql -> tag1_value, ...) static int32_t parseTagsClauseImpl(SInsertParseContext* pCxt, SVnodeModifyOpStmt* pStmt) { int32_t code = TSDB_CODE_SUCCESS; SSchema* pSchema = getTableTagSchema(pStmt->pTableMeta); SArray* pTagVals = taosArrayInit(pCxt->tags.numOfBound, sizeof(STagVal)); SArray* pTagName = taosArrayInit(8, TSDB_COL_NAME_LEN); SToken token; bool isParseBindParam = false; bool isJson = false; STag* pTag = NULL; for (int i = 0; TSDB_CODE_SUCCESS == code && i < pCxt->tags.numOfBound; ++i) { NEXT_TOKEN_WITH_PREV(pStmt->pSql, token); if (token.type == TK_NK_QUESTION) { isParseBindParam = true; if (NULL == pCxt->pComCxt->pStmtCb) { code = buildSyntaxErrMsg(&pCxt->msg, "? only used in stmt", token.z); break; } continue; } if (isParseBindParam) { code = buildInvalidOperationMsg(&pCxt->msg, "no mix usage for ? and tag values"); break; } SSchema* pTagSchema = &pSchema[pCxt->tags.pColIndex[i]]; isJson = pTagSchema->type == TSDB_DATA_TYPE_JSON; code = checkAndTrimValue(&token, pCxt->tmpTokenBuf, &pCxt->msg); if (TSDB_CODE_SUCCESS == code) { code = parseTagValue(pCxt, pStmt, pTagSchema, &token, pTagName, pTagVals, &pTag); } } if (TSDB_CODE_SUCCESS == code && !isParseBindParam && !isJson) { code = tTagNew(pTagVals, 1, false, &pTag); } if (TSDB_CODE_SUCCESS == code && !isParseBindParam) { code = buildCreateTbReq(pStmt, pTag, pTagName); pTag = NULL; } for (int i = 0; i < taosArrayGetSize(pTagVals); ++i) { STagVal* p = (STagVal*)taosArrayGet(pTagVals, i); if (IS_VAR_DATA_TYPE(p->type)) { taosMemoryFreeClear(p->pData); } } taosArrayDestroy(pTagVals); taosArrayDestroy(pTagName); tTagFree(pTag); return code; } // input pStmt->pSql: TAGS (tag1_value, ...) [table_options] ... // output pStmt->pSql: [table_options] ... static int32_t parseTagsClause(SInsertParseContext* pCxt, SVnodeModifyOpStmt* pStmt) { SToken token; NEXT_TOKEN(pStmt->pSql, token); if (TK_TAGS != token.type) { return buildSyntaxErrMsg(&pCxt->msg, "TAGS is expected", token.z); } NEXT_TOKEN(pStmt->pSql, token); if (TK_NK_LP != token.type) { return buildSyntaxErrMsg(&pCxt->msg, "( is expected", token.z); } int32_t code = parseTagsClauseImpl(pCxt, pStmt); if (TSDB_CODE_SUCCESS == code) { NEXT_VALID_TOKEN(pStmt->pSql, token); if (TK_NK_COMMA == token.type) { code = generateSyntaxErrMsg(&pCxt->msg, TSDB_CODE_PAR_TAGS_NOT_MATCHED); } else if (TK_NK_RP != token.type) { code = buildSyntaxErrMsg(&pCxt->msg, ") is expected", token.z); } } return code; } static int32_t storeTableMeta(SInsertParseContext* pCxt, SVnodeModifyOpStmt* pStmt) { pStmt->pTableMeta->suid = pStmt->pTableMeta->uid; pStmt->pTableMeta->uid = pStmt->totalTbNum; pStmt->pTableMeta->tableType = TSDB_CHILD_TABLE; STableMeta* pBackup = NULL; if (TSDB_CODE_SUCCESS != cloneTableMeta(pStmt->pTableMeta, &pBackup)) { return TSDB_CODE_OUT_OF_MEMORY; } char tbFName[TSDB_TABLE_FNAME_LEN]; tNameExtractFullName(&pStmt->targetTableName, tbFName); return taosHashPut(pStmt->pSubTableHashObj, tbFName, strlen(tbFName), &pBackup, POINTER_BYTES); } static int32_t parseTableOptions(SInsertParseContext* pCxt, SVnodeModifyOpStmt* pStmt) { do { int32_t index = 0; SToken token; NEXT_TOKEN_KEEP_SQL(pStmt->pSql, token, index); if (TK_TTL == token.type) { pStmt->pSql += index; NEXT_TOKEN_WITH_PREV(pStmt->pSql, token); if (TK_NK_INTEGER != token.type) { return buildSyntaxErrMsg(&pCxt->msg, "Invalid option ttl", token.z); } pStmt->pCreateTblReq->ttl = taosStr2Int32(token.z, NULL, 10); if (pStmt->pCreateTblReq->ttl < 0) { return buildSyntaxErrMsg(&pCxt->msg, "Invalid option ttl", token.z); } } else if (TK_COMMENT == token.type) { pStmt->pSql += index; NEXT_TOKEN(pStmt->pSql, token); if (TK_NK_STRING != token.type) { return buildSyntaxErrMsg(&pCxt->msg, "Invalid option comment", token.z); } if (token.n >= TSDB_TB_COMMENT_LEN) { return buildSyntaxErrMsg(&pCxt->msg, "comment too long", token.z); } int32_t len = trimString(token.z, token.n, pCxt->tmpTokenBuf, TSDB_TB_COMMENT_LEN); pStmt->pCreateTblReq->comment = strndup(pCxt->tmpTokenBuf, len); if (NULL == pStmt->pCreateTblReq->comment) { return TSDB_CODE_OUT_OF_MEMORY; } pStmt->pCreateTblReq->commentLen = len; } else { break; } } while (1); return TSDB_CODE_SUCCESS; } // input pStmt->pSql: // 1. [(tag1_name, ...)] ... // 2. VALUES ... | FILE ... // output pStmt->pSql: // 1. [(field1_name, ...)] // 2. VALUES ... | FILE ... static int32_t parseUsingClauseBottom(SInsertParseContext* pCxt, SVnodeModifyOpStmt* pStmt) { if (!pStmt->usingTableProcessing || pCxt->usingDuplicateTable) { return TSDB_CODE_SUCCESS; } int32_t code = parseBoundTagsClause(pCxt, pStmt); if (TSDB_CODE_SUCCESS == code) { code = parseTagsClause(pCxt, pStmt); } if (TSDB_CODE_SUCCESS == code) { code = parseTableOptions(pCxt, pStmt); } return code; } static void setUserAuthInfo(SParseContext* pCxt, SName* pTbName, SUserAuthInfo* pInfo) { snprintf(pInfo->user, sizeof(pInfo->user), "%s", pCxt->pUser); memcpy(&pInfo->tbName, pTbName, sizeof(SName)); pInfo->type = AUTH_TYPE_WRITE; } static int32_t checkAuth(SParseContext* pCxt, SName* pTbName, bool* pMissCache) { int32_t code = TSDB_CODE_SUCCESS; SUserAuthInfo authInfo = {0}; setUserAuthInfo(pCxt, pTbName, &authInfo); SUserAuthRes authRes = {0}; bool exists = true; if (pCxt->async) { code = catalogChkAuthFromCache(pCxt->pCatalog, &authInfo, &authRes, &exists); } else { SRequestConnInfo conn = {.pTrans = pCxt->pTransporter, .requestId = pCxt->requestId, .requestObjRefId = pCxt->requestRid, .mgmtEps = pCxt->mgmtEpSet}; code = catalogChkAuth(pCxt->pCatalog, &conn, &authInfo, &authRes); } if (TSDB_CODE_SUCCESS == code) { if (!exists) { *pMissCache = true; } else if (!authRes.pass) { code = TSDB_CODE_PAR_PERMISSION_DENIED; } } return code; } static int32_t getTableMeta(SInsertParseContext* pCxt, SName* pTbName, bool isStb, STableMeta** pTableMeta, bool* pMissCache) { SParseContext* pComCxt = pCxt->pComCxt; int32_t code = TSDB_CODE_SUCCESS; if (pComCxt->async) { if (isStb) { code = catalogGetCachedSTableMeta(pComCxt->pCatalog, pTbName, pTableMeta); } else { code = catalogGetCachedTableMeta(pComCxt->pCatalog, pTbName, pTableMeta); } } else { SRequestConnInfo conn = {.pTrans = pComCxt->pTransporter, .requestId = pComCxt->requestId, .requestObjRefId = pComCxt->requestRid, .mgmtEps = pComCxt->mgmtEpSet}; if (isStb) { code = catalogGetSTableMeta(pComCxt->pCatalog, &conn, pTbName, pTableMeta); } else { code = catalogGetTableMeta(pComCxt->pCatalog, &conn, pTbName, pTableMeta); } } if (TSDB_CODE_SUCCESS == code) { if (NULL == *pTableMeta) { *pMissCache = true; } else if (isStb && TSDB_SUPER_TABLE != (*pTableMeta)->tableType) { code = buildInvalidOperationMsg(&pCxt->msg, "create table only from super table is allowed"); } else if (!isStb && TSDB_SUPER_TABLE == (*pTableMeta)->tableType) { code = buildInvalidOperationMsg(&pCxt->msg, "insert data into super table is not supported"); } } return code; } static int32_t getTableVgroup(SParseContext* pCxt, SVnodeModifyOpStmt* pStmt, bool isStb, bool* pMissCache) { int32_t code = TSDB_CODE_SUCCESS; SVgroupInfo vg; bool exists = true; if (pCxt->async) { code = catalogGetCachedTableHashVgroup(pCxt->pCatalog, &pStmt->targetTableName, &vg, &exists); } else { SRequestConnInfo conn = {.pTrans = pCxt->pTransporter, .requestId = pCxt->requestId, .requestObjRefId = pCxt->requestRid, .mgmtEps = pCxt->mgmtEpSet}; code = catalogGetTableHashVgroup(pCxt->pCatalog, &conn, &pStmt->targetTableName, &vg); } if (TSDB_CODE_SUCCESS == code) { if (exists) { if (isStb) { pStmt->pTableMeta->vgId = vg.vgId; } code = taosHashPut(pStmt->pVgroupsHashObj, (const char*)&vg.vgId, sizeof(vg.vgId), (char*)&vg, sizeof(vg)); } *pMissCache = !exists; } return code; } static int32_t getTableMetaAndVgroupImpl(SParseContext* pCxt, SVnodeModifyOpStmt* pStmt, bool* pMissCache) { SVgroupInfo vg; int32_t code = catalogGetCachedTableVgMeta(pCxt->pCatalog, &pStmt->targetTableName, &vg, &pStmt->pTableMeta); if (TSDB_CODE_SUCCESS == code) { if (NULL != pStmt->pTableMeta) { code = taosHashPut(pStmt->pVgroupsHashObj, (const char*)&vg.vgId, sizeof(vg.vgId), (char*)&vg, sizeof(vg)); } *pMissCache = (NULL == pStmt->pTableMeta); } return code; } static int32_t getTableMetaAndVgroup(SInsertParseContext* pCxt, SVnodeModifyOpStmt* pStmt, bool* pMissCache) { SParseContext* pComCxt = pCxt->pComCxt; int32_t code = TSDB_CODE_SUCCESS; if (pComCxt->async) { code = getTableMetaAndVgroupImpl(pComCxt, pStmt, pMissCache); } else { code = getTableMeta(pCxt, &pStmt->targetTableName, false, &pStmt->pTableMeta, pMissCache); if (TSDB_CODE_SUCCESS == code && !pCxt->missCache) { code = getTableVgroup(pCxt->pComCxt, pStmt, false, &pCxt->missCache); } } return code; } static int32_t collectUseTable(const SName* pName, SHashObj* pTable) { char fullName[TSDB_TABLE_FNAME_LEN]; tNameExtractFullName(pName, fullName); return taosHashPut(pTable, fullName, strlen(fullName), pName, sizeof(SName)); } static int32_t collectUseDatabase(const SName* pName, SHashObj* pDbs) { char dbFName[TSDB_DB_FNAME_LEN] = {0}; tNameGetFullDbName(pName, dbFName); return taosHashPut(pDbs, dbFName, strlen(dbFName), dbFName, sizeof(dbFName)); } static int32_t getTargetTableSchema(SInsertParseContext* pCxt, SVnodeModifyOpStmt* pStmt) { if (pCxt->forceUpdate) { pCxt->missCache = true; return TSDB_CODE_SUCCESS; } int32_t code = checkAuth(pCxt->pComCxt, &pStmt->targetTableName, &pCxt->missCache); if (TSDB_CODE_SUCCESS == code && !pCxt->missCache) { code = getTableMetaAndVgroup(pCxt, pStmt, &pCxt->missCache); } if (TSDB_CODE_SUCCESS == code && !pCxt->pComCxt->async) { code = collectUseDatabase(&pStmt->targetTableName, pStmt->pDbFNameHashObj); if (TSDB_CODE_SUCCESS == code) { code = collectUseTable(&pStmt->targetTableName, pStmt->pTableNameHashObj); } } return code; } static int32_t preParseUsingTableName(SInsertParseContext* pCxt, SVnodeModifyOpStmt* pStmt, SToken* pTbName) { return insCreateSName(&pStmt->usingTableName, pTbName, pCxt->pComCxt->acctId, pCxt->pComCxt->db, &pCxt->msg); } static int32_t getUsingTableSchema(SInsertParseContext* pCxt, SVnodeModifyOpStmt* pStmt) { if (pCxt->forceUpdate) { pCxt->missCache = true; return TSDB_CODE_SUCCESS; } int32_t code = checkAuth(pCxt->pComCxt, &pStmt->targetTableName, &pCxt->missCache); if (TSDB_CODE_SUCCESS == code && !pCxt->missCache) { code = getTableMeta(pCxt, &pStmt->usingTableName, true, &pStmt->pTableMeta, &pCxt->missCache); } if (TSDB_CODE_SUCCESS == code && !pCxt->missCache) { code = getTableVgroup(pCxt->pComCxt, pStmt, true, &pCxt->missCache); } if (TSDB_CODE_SUCCESS == code && !pCxt->pComCxt->async) { code = collectUseDatabase(&pStmt->usingTableName, pStmt->pDbFNameHashObj); if (TSDB_CODE_SUCCESS == code) { code = collectUseTable(&pStmt->usingTableName, pStmt->pTableNameHashObj); } } return code; } static int32_t parseUsingTableNameImpl(SInsertParseContext* pCxt, SVnodeModifyOpStmt* pStmt) { SToken token; NEXT_TOKEN(pStmt->pSql, token); int32_t code = preParseUsingTableName(pCxt, pStmt, &token); if (TSDB_CODE_SUCCESS == code) { code = getUsingTableSchema(pCxt, pStmt); } if (TSDB_CODE_SUCCESS == code && !pCxt->missCache) { code = storeTableMeta(pCxt, pStmt); } return code; } // input pStmt->pSql: // 1(care). [USING stb_name [(tag1_name, ...)] TAGS (tag1_value, ...) [table_options]] ... // 2. VALUES ... | FILE ... // output pStmt->pSql: // 1. [(tag1_name, ...)] TAGS (tag1_value, ...) [table_options]] ... // 2. VALUES ... | FILE ... static int32_t parseUsingTableName(SInsertParseContext* pCxt, SVnodeModifyOpStmt* pStmt) { SToken token; int32_t index = 0; NEXT_TOKEN_KEEP_SQL(pStmt->pSql, token, index); if (TK_USING != token.type) { return getTargetTableSchema(pCxt, pStmt); } pStmt->usingTableProcessing = true; // pStmt->pSql -> stb_name [(tag1_name, ...) pStmt->pSql += index; int32_t code = parseDuplicateUsingClause(pCxt, pStmt, &pCxt->usingDuplicateTable); if (TSDB_CODE_SUCCESS == code && !pCxt->usingDuplicateTable) { return parseUsingTableNameImpl(pCxt, pStmt); } return code; } static int32_t preParseTargetTableName(SInsertParseContext* pCxt, SVnodeModifyOpStmt* pStmt, SToken* pTbName) { return insCreateSName(&pStmt->targetTableName, pTbName, pCxt->pComCxt->acctId, pCxt->pComCxt->db, &pCxt->msg); } // input pStmt->pSql: // 1(care). [(field1_name, ...)] ... // 2. [ USING ... ] ... // 3. VALUES ... | FILE ... // output pStmt->pSql: // 1. [ USING ... ] ... // 2. VALUES ... | FILE ... static int32_t preParseBoundColumnsClause(SInsertParseContext* pCxt, SVnodeModifyOpStmt* pStmt) { SToken token; int32_t index = 0; NEXT_TOKEN_KEEP_SQL(pStmt->pSql, token, index); if (TK_NK_LP != token.type) { return TSDB_CODE_SUCCESS; } // pStmt->pSql -> field1_name, ...) pStmt->pSql += index; pStmt->pBoundCols = pStmt->pSql; return skipParentheses(pCxt, &pStmt->pSql); } static int32_t getTableDataCxt(SInsertParseContext* pCxt, SVnodeModifyOpStmt* pStmt, STableDataCxt** pTableCxt) { if (pCxt->pComCxt->async) { return insGetTableDataCxt(pStmt->pTableBlockHashObj, &pStmt->pTableMeta->uid, sizeof(pStmt->pTableMeta->uid), pStmt->pTableMeta, &pStmt->pCreateTblReq, pTableCxt, false); } char tbFName[TSDB_TABLE_FNAME_LEN]; tNameExtractFullName(&pStmt->targetTableName, tbFName); if (pStmt->usingTableProcessing) { pStmt->pTableMeta->uid = 0; } return insGetTableDataCxt(pStmt->pTableBlockHashObj, tbFName, strlen(tbFName), pStmt->pTableMeta, &pStmt->pCreateTblReq, pTableCxt, NULL != pCxt->pComCxt->pStmtCb); } static int32_t parseBoundColumnsClause(SInsertParseContext* pCxt, SVnodeModifyOpStmt* pStmt, STableDataCxt* pTableCxt) { SToken token; int32_t index = 0; NEXT_TOKEN_KEEP_SQL(pStmt->pSql, token, index); if (TK_NK_LP == token.type) { pStmt->pSql += index; if (NULL != pStmt->pBoundCols) { return buildSyntaxErrMsg(&pCxt->msg, "keyword VALUES or FILE is expected", token.z); } // pStmt->pSql -> field1_name, ...) return parseBoundColumns(pCxt, &pStmt->pSql, false, getTableColumnSchema(pStmt->pTableMeta), &pTableCxt->boundColsInfo); } if (NULL != pStmt->pBoundCols) { return parseBoundColumns(pCxt, &pStmt->pBoundCols, false, getTableColumnSchema(pStmt->pTableMeta), &pTableCxt->boundColsInfo); } return TSDB_CODE_SUCCESS; } int32_t initTableColSubmitData(STableDataCxt* pTableCxt) { if (0 == (pTableCxt->pData->flags & SUBMIT_REQ_COLUMN_DATA_FORMAT)) { return TSDB_CODE_SUCCESS; } for (int32_t i = 0; i < pTableCxt->boundColsInfo.numOfBound; ++i) { SSchema* pSchema = &pTableCxt->pMeta->schema[pTableCxt->boundColsInfo.pColIndex[i]]; SColData* pCol = taosArrayReserve(pTableCxt->pData->aCol, 1); if (NULL == pCol) { return TSDB_CODE_OUT_OF_MEMORY; } tColDataInit(pCol, pSchema->colId, pSchema->type, 0); } return TSDB_CODE_SUCCESS; } // input pStmt->pSql: // 1. [(tag1_name, ...)] ... // 2. VALUES ... | FILE ... // output pStmt->pSql: VALUES ... | FILE ... static int32_t parseSchemaClauseBottom(SInsertParseContext* pCxt, SVnodeModifyOpStmt* pStmt, STableDataCxt** pTableCxt) { int32_t code = parseUsingClauseBottom(pCxt, pStmt); if (TSDB_CODE_SUCCESS == code) { code = getTableDataCxt(pCxt, pStmt, pTableCxt); } if (TSDB_CODE_SUCCESS == code) { code = parseBoundColumnsClause(pCxt, pStmt, *pTableCxt); } if (TSDB_CODE_SUCCESS == code) { code = initTableColSubmitData(*pTableCxt); } return code; } // input pStmt->pSql: [(field1_name, ...)] [ USING ... ] VALUES ... | FILE ... // output pStmt->pSql: // 1. [(tag1_name, ...)] ... // 2. VALUES ... | FILE ... static int32_t parseSchemaClauseTop(SInsertParseContext* pCxt, SVnodeModifyOpStmt* pStmt, SToken* pTbName) { int32_t code = preParseTargetTableName(pCxt, pStmt, pTbName); if (TSDB_CODE_SUCCESS == code) { // option: [(field1_name, ...)] code = preParseBoundColumnsClause(pCxt, pStmt); } if (TSDB_CODE_SUCCESS == code) { // option: [USING stb_name] code = parseUsingTableName(pCxt, pStmt); } return code; } static int32_t parseValueTokenImpl(SInsertParseContext* pCxt, const char** pSql, SToken* pToken, SSchema* pSchema, int16_t timePrec, SColVal* pVal) { switch (pSchema->type) { case TSDB_DATA_TYPE_BOOL: { if ((pToken->type == TK_NK_BOOL || pToken->type == TK_NK_STRING) && (pToken->n != 0)) { if (strncmp(pToken->z, "true", pToken->n) == 0) { pVal->value.val = TRUE_VALUE; } else if (strncmp(pToken->z, "false", pToken->n) == 0) { pVal->value.val = FALSE_VALUE; } else { return buildSyntaxErrMsg(&pCxt->msg, "invalid bool data", pToken->z); } } else if (pToken->type == TK_NK_INTEGER) { pVal->value.val = ((taosStr2Int64(pToken->z, NULL, 10) == 0) ? FALSE_VALUE : TRUE_VALUE); } else if (pToken->type == TK_NK_FLOAT) { pVal->value.val = ((taosStr2Double(pToken->z, NULL) == 0) ? FALSE_VALUE : TRUE_VALUE); } else { return buildSyntaxErrMsg(&pCxt->msg, "invalid bool data", pToken->z); } break; } case TSDB_DATA_TYPE_TINYINT: { if (TSDB_CODE_SUCCESS != toInteger(pToken->z, pToken->n, 10, &pVal->value.val)) { return buildSyntaxErrMsg(&pCxt->msg, "invalid tinyint data", pToken->z); } else if (!IS_VALID_TINYINT(pVal->value.val)) { return buildSyntaxErrMsg(&pCxt->msg, "tinyint data overflow", pToken->z); } break; } case TSDB_DATA_TYPE_UTINYINT: { if (TSDB_CODE_SUCCESS != toUInteger(pToken->z, pToken->n, 10, &pVal->value.val)) { return buildSyntaxErrMsg(&pCxt->msg, "invalid unsigned tinyint data", pToken->z); } else if (pVal->value.val > UINT8_MAX) { return buildSyntaxErrMsg(&pCxt->msg, "unsigned tinyint data overflow", pToken->z); } break; } case TSDB_DATA_TYPE_SMALLINT: { if (TSDB_CODE_SUCCESS != toInteger(pToken->z, pToken->n, 10, &pVal->value.val)) { return buildSyntaxErrMsg(&pCxt->msg, "invalid smallint data", pToken->z); } else if (!IS_VALID_SMALLINT(pVal->value.val)) { return buildSyntaxErrMsg(&pCxt->msg, "smallint data overflow", pToken->z); } break; } case TSDB_DATA_TYPE_USMALLINT: { if (TSDB_CODE_SUCCESS != toUInteger(pToken->z, pToken->n, 10, &pVal->value.val)) { return buildSyntaxErrMsg(&pCxt->msg, "invalid unsigned smallint data", pToken->z); } else if (pVal->value.val > UINT16_MAX) { return buildSyntaxErrMsg(&pCxt->msg, "unsigned smallint data overflow", pToken->z); } break; } case TSDB_DATA_TYPE_INT: { if (TSDB_CODE_SUCCESS != toInteger(pToken->z, pToken->n, 10, &pVal->value.val)) { return buildSyntaxErrMsg(&pCxt->msg, "invalid int data", pToken->z); } else if (!IS_VALID_INT(pVal->value.val)) { return buildSyntaxErrMsg(&pCxt->msg, "int data overflow", pToken->z); } break; } case TSDB_DATA_TYPE_UINT: { if (TSDB_CODE_SUCCESS != toUInteger(pToken->z, pToken->n, 10, &pVal->value.val)) { return buildSyntaxErrMsg(&pCxt->msg, "invalid unsigned int data", pToken->z); } else if (pVal->value.val > UINT32_MAX) { return buildSyntaxErrMsg(&pCxt->msg, "unsigned int data overflow", pToken->z); } break; } case TSDB_DATA_TYPE_BIGINT: { if (TSDB_CODE_SUCCESS != toInteger(pToken->z, pToken->n, 10, &pVal->value.val)) { return buildSyntaxErrMsg(&pCxt->msg, "invalid bigint data", pToken->z); } break; } case TSDB_DATA_TYPE_UBIGINT: { if (TSDB_CODE_SUCCESS != toUInteger(pToken->z, pToken->n, 10, &pVal->value.val)) { return buildSyntaxErrMsg(&pCxt->msg, "invalid unsigned bigint data", pToken->z); } break; } case TSDB_DATA_TYPE_FLOAT: { char* endptr = NULL; double dv; if (TK_NK_ILLEGAL == toDouble(pToken, &dv, &endptr)) { return buildSyntaxErrMsg(&pCxt->msg, "illegal float data", pToken->z); } if (((dv == HUGE_VAL || dv == -HUGE_VAL) && errno == ERANGE) || dv > FLT_MAX || dv < -FLT_MAX || isinf(dv) || isnan(dv)) { return buildSyntaxErrMsg(&pCxt->msg, "illegal float data", pToken->z); } float f = dv; memcpy(&pVal->value.val, &f, sizeof(f)); break; } case TSDB_DATA_TYPE_DOUBLE: { char* endptr = NULL; double dv; if (TK_NK_ILLEGAL == toDouble(pToken, &dv, &endptr)) { return buildSyntaxErrMsg(&pCxt->msg, "illegal double data", pToken->z); } if (((dv == HUGE_VAL || dv == -HUGE_VAL) && errno == ERANGE) || isinf(dv) || isnan(dv)) { return buildSyntaxErrMsg(&pCxt->msg, "illegal double data", pToken->z); } pVal->value.val = *(int64_t*)&dv; break; } case TSDB_DATA_TYPE_BINARY: { // Too long values will raise the invalid sql error message if (pToken->n + VARSTR_HEADER_SIZE > pSchema->bytes) { return generateSyntaxErrMsg(&pCxt->msg, TSDB_CODE_PAR_VALUE_TOO_LONG, pSchema->name); } pVal->value.pData = taosMemoryMalloc(pToken->n); if (NULL == pVal->value.pData) { return TSDB_CODE_OUT_OF_MEMORY; } memcpy(pVal->value.pData, pToken->z, pToken->n); pVal->value.nData = pToken->n; break; } case TSDB_DATA_TYPE_NCHAR: { // if the converted output len is over than pColumnModel->bytes, return error: 'Argument list too long' int32_t len = 0; char* pUcs4 = taosMemoryCalloc(1, pSchema->bytes - VARSTR_HEADER_SIZE); if (NULL == pUcs4) { return TSDB_CODE_OUT_OF_MEMORY; } if (!taosMbsToUcs4(pToken->z, pToken->n, (TdUcs4*)pUcs4, pSchema->bytes - VARSTR_HEADER_SIZE, &len)) { taosMemoryFree(pUcs4); if (errno == E2BIG) { return generateSyntaxErrMsg(&pCxt->msg, TSDB_CODE_PAR_VALUE_TOO_LONG, pSchema->name); } char buf[512] = {0}; snprintf(buf, tListLen(buf), "%s", strerror(errno)); return buildSyntaxErrMsg(&pCxt->msg, buf, pToken->z); } pVal->value.pData = pUcs4; pVal->value.nData = len; break; } case TSDB_DATA_TYPE_JSON: { if (pToken->n > (TSDB_MAX_JSON_TAG_LEN - VARSTR_HEADER_SIZE) / TSDB_NCHAR_SIZE) { return buildSyntaxErrMsg(&pCxt->msg, "json string too long than 4095", pToken->z); } pVal->value.pData = taosMemoryMalloc(pToken->n); if (NULL == pVal->value.pData) { return TSDB_CODE_OUT_OF_MEMORY; } memcpy(pVal->value.pData, pToken->z, pToken->n); pVal->value.nData = pToken->n; break; } case TSDB_DATA_TYPE_TIMESTAMP: { if (parseTime(pSql, pToken, timePrec, &pVal->value.val, &pCxt->msg) != TSDB_CODE_SUCCESS) { return buildSyntaxErrMsg(&pCxt->msg, "invalid timestamp", pToken->z); } break; } default: return TSDB_CODE_FAILED; } pVal->flag = CV_FLAG_VALUE; return TSDB_CODE_SUCCESS; } static int32_t parseValueToken(SInsertParseContext* pCxt, const char** pSql, SToken* pToken, SSchema* pSchema, int16_t timePrec, SColVal* pVal) { int32_t code = checkAndTrimValue(pToken, pCxt->tmpTokenBuf, &pCxt->msg); if (TSDB_CODE_SUCCESS == code && isNullValue(pSchema->type, pToken)) { if (TSDB_DATA_TYPE_TIMESTAMP == pSchema->type && PRIMARYKEY_TIMESTAMP_COL_ID == pSchema->colId) { return buildSyntaxErrMsg(&pCxt->msg, "primary timestamp should not be null", pToken->z); } pVal->flag = CV_FLAG_NULL; return TSDB_CODE_SUCCESS; } if (TSDB_CODE_SUCCESS == code && IS_NUMERIC_TYPE(pSchema->type) && pToken->n == 0) { return buildSyntaxErrMsg(&pCxt->msg, "invalid numeric data", pToken->z); } if (TSDB_CODE_SUCCESS == code) { code = parseValueTokenImpl(pCxt, pSql, pToken, pSchema, timePrec, pVal); } return code; } static void clearColValArray(SArray* pCols) { int32_t num = taosArrayGetSize(pCols); for (int32_t i = 0; i < num; ++i) { SColVal* pCol = taosArrayGet(pCols, i); if (IS_VAR_DATA_TYPE(pCol->type)) { taosMemoryFreeClear(pCol->value.pData); } } } static int parseOneRow(SInsertParseContext* pCxt, const char** pSql, STableDataCxt* pTableCxt, bool* pGotRow, SToken* pToken) { SBoundColInfo* pCols = &pTableCxt->boundColsInfo; bool isParseBindParam = false; SSchema* pSchemas = getTableColumnSchema(pTableCxt->pMeta); int32_t code = TSDB_CODE_SUCCESS; // 1. set the parsed value from sql string for (int i = 0; i < pCols->numOfBound && TSDB_CODE_SUCCESS == code; ++i) { const char* pOrigSql = *pSql; bool ignoreComma = false; NEXT_TOKEN_WITH_PREV_EXT(*pSql, *pToken, &ignoreComma); if (ignoreComma) { code = buildSyntaxErrMsg(&pCxt->msg, "invalid data or symbol", pOrigSql); break; } SSchema* pSchema = &pSchemas[pCols->pColIndex[i]]; SColVal* pVal = taosArrayGet(pTableCxt->pValues, pCols->pColIndex[i]); if (pToken->type == TK_NK_QUESTION) { isParseBindParam = true; if (NULL == pCxt->pComCxt->pStmtCb) { code = buildSyntaxErrMsg(&pCxt->msg, "? only used in stmt", pToken->z); break; } } else { if (TK_NK_RP == pToken->type) { code = generateSyntaxErrMsg(&pCxt->msg, TSDB_CODE_PAR_INVALID_COLUMNS_NUM); break; } if (isParseBindParam) { code = buildInvalidOperationMsg(&pCxt->msg, "no mix usage for ? and values"); break; } if (TSDB_CODE_SUCCESS == code) { code = parseValueToken(pCxt, pSql, pToken, pSchema, getTableInfo(pTableCxt->pMeta).precision, pVal); } } if (TSDB_CODE_SUCCESS == code && i < pCols->numOfBound - 1) { NEXT_VALID_TOKEN(*pSql, *pToken); if (TK_NK_COMMA != pToken->type) { code = buildSyntaxErrMsg(&pCxt->msg, ", expected", pToken->z); } } } if (TSDB_CODE_SUCCESS == code && !isParseBindParam) { SRow** pRow = taosArrayReserve(pTableCxt->pData->aRowP, 1); code = tRowBuild(pTableCxt->pValues, pTableCxt->pSchema, pRow); if (TSDB_CODE_SUCCESS == code) { insCheckTableDataOrder(pTableCxt, TD_ROW_KEY(*pRow)); } } if (TSDB_CODE_SUCCESS == code && !isParseBindParam) { *pGotRow = true; } clearColValArray(pTableCxt->pValues); return code; } // pSql -> (field1_value, ...) [(field1_value2, ...) ...] static int32_t parseValues(SInsertParseContext* pCxt, SVnodeModifyOpStmt* pStmt, STableDataCxt* pTableCxt, int32_t* pNumOfRows, SToken* pToken) { int32_t code = TSDB_CODE_SUCCESS; (*pNumOfRows) = 0; while (TSDB_CODE_SUCCESS == code) { int32_t index = 0; NEXT_TOKEN_KEEP_SQL(pStmt->pSql, *pToken, index); if (TK_NK_LP != pToken->type) { break; } pStmt->pSql += index; bool gotRow = false; if (TSDB_CODE_SUCCESS == code) { code = parseOneRow(pCxt, &pStmt->pSql, pTableCxt, &gotRow, pToken); } if (TSDB_CODE_SUCCESS == code) { NEXT_VALID_TOKEN(pStmt->pSql, *pToken); if (TK_NK_COMMA == pToken->type) { code = generateSyntaxErrMsg(&pCxt->msg, TSDB_CODE_PAR_INVALID_COLUMNS_NUM); } else if (TK_NK_RP != pToken->type) { code = buildSyntaxErrMsg(&pCxt->msg, ") expected", pToken->z); } } if (TSDB_CODE_SUCCESS == code && gotRow) { (*pNumOfRows)++; } } if (TSDB_CODE_SUCCESS == code && 0 == (*pNumOfRows) && (!TSDB_QUERY_HAS_TYPE(pStmt->insertType, TSDB_QUERY_TYPE_STMT_INSERT))) { code = buildSyntaxErrMsg(&pCxt->msg, "no any data points", NULL); } return code; } // VALUES (field1_value, ...) [(field1_value2, ...) ...] static int32_t parseValuesClause(SInsertParseContext* pCxt, SVnodeModifyOpStmt* pStmt, STableDataCxt* pTableCxt, SToken* pToken) { int32_t numOfRows = 0; int32_t code = parseValues(pCxt, pStmt, pTableCxt, &numOfRows, pToken); if (TSDB_CODE_SUCCESS == code) { pStmt->totalRowsNum += numOfRows; pStmt->totalTbNum += 1; TSDB_QUERY_SET_TYPE(pStmt->insertType, TSDB_QUERY_TYPE_INSERT); } return code; } static int32_t parseCsvFile(SInsertParseContext* pCxt, SVnodeModifyOpStmt* pStmt, STableDataCxt* pTableCxt, int32_t* pNumOfRows) { int32_t code = TSDB_CODE_SUCCESS; (*pNumOfRows) = 0; char* pLine = NULL; int64_t readLen = 0; bool firstLine = (pStmt->fileProcessing == false); pStmt->fileProcessing = false; while (TSDB_CODE_SUCCESS == code && (readLen = taosGetLineFile(pStmt->fp, &pLine)) != -1) { if (('\r' == pLine[readLen - 1]) || ('\n' == pLine[readLen - 1])) { pLine[--readLen] = '\0'; } if (readLen == 0) { firstLine = false; continue; } bool gotRow = false; if (TSDB_CODE_SUCCESS == code) { SToken token; strtolower(pLine, pLine); const char* pRow = pLine; code = parseOneRow(pCxt, (const char**)&pRow, pTableCxt, &gotRow, &token); if (code && firstLine) { firstLine = false; code = 0; continue; } } if (TSDB_CODE_SUCCESS == code && gotRow) { (*pNumOfRows)++; } if (TSDB_CODE_SUCCESS == code && (*pNumOfRows) > tsMaxMemUsedByInsert * 1024 * 1024) { pStmt->fileProcessing = true; break; } firstLine = false; } taosMemoryFree(pLine); if (TSDB_CODE_SUCCESS == code && 0 == (*pNumOfRows) && (!TSDB_QUERY_HAS_TYPE(pStmt->insertType, TSDB_QUERY_TYPE_STMT_INSERT)) && !pStmt->fileProcessing) { code = buildSyntaxErrMsg(&pCxt->msg, "no any data points", NULL); } return code; } static int32_t parseDataFromFileImpl(SInsertParseContext* pCxt, SVnodeModifyOpStmt* pStmt, STableDataCxt* pTableCxt) { int32_t numOfRows = 0; int32_t code = parseCsvFile(pCxt, pStmt, pTableCxt, &numOfRows); if (TSDB_CODE_SUCCESS == code) { pStmt->totalRowsNum += numOfRows; pStmt->totalTbNum += 1; TSDB_QUERY_SET_TYPE(pStmt->insertType, TSDB_QUERY_TYPE_FILE_INSERT); if (!pStmt->fileProcessing) { taosCloseFile(&pStmt->fp); } else { parserDebug("0x%" PRIx64 " insert from csv. File is too large, do it in batches.", pCxt->pComCxt->requestId); } } return code; } static int32_t parseDataFromFile(SInsertParseContext* pCxt, SVnodeModifyOpStmt* pStmt, SToken* pFilePath, STableDataCxt* pTableCxt) { char filePathStr[TSDB_FILENAME_LEN] = {0}; if (TK_NK_STRING == pFilePath->type) { trimString(pFilePath->z, pFilePath->n, filePathStr, sizeof(filePathStr)); } else { strncpy(filePathStr, pFilePath->z, pFilePath->n); } pStmt->fp = taosOpenFile(filePathStr, TD_FILE_READ | TD_FILE_STREAM); if (NULL == pStmt->fp) { return TAOS_SYSTEM_ERROR(errno); } return parseDataFromFileImpl(pCxt, pStmt, pTableCxt); } static int32_t parseFileClause(SInsertParseContext* pCxt, SVnodeModifyOpStmt* pStmt, STableDataCxt* pTableCxt, SToken* pToken) { if (tsUseAdapter) { return buildInvalidOperationMsg(&pCxt->msg, "proxy mode does not support csv loading"); } NEXT_TOKEN(pStmt->pSql, *pToken); if (0 == pToken->n || (TK_NK_STRING != pToken->type && TK_NK_ID != pToken->type)) { return buildSyntaxErrMsg(&pCxt->msg, "file path is required following keyword FILE", pToken->z); } return parseDataFromFile(pCxt, pStmt, pToken, pTableCxt); } // VALUES (field1_value, ...) [(field1_value2, ...) ...] | FILE csv_file_path static int32_t parseDataClause(SInsertParseContext* pCxt, SVnodeModifyOpStmt* pStmt, STableDataCxt* pTableCxt) { SToken token; NEXT_TOKEN(pStmt->pSql, token); switch (token.type) { case TK_VALUES: return parseValuesClause(pCxt, pStmt, pTableCxt, &token); case TK_FILE: return parseFileClause(pCxt, pStmt, pTableCxt, &token); default: break; } return buildSyntaxErrMsg(&pCxt->msg, "keyword VALUES or FILE is expected", token.z); } // input pStmt->pSql: // 1. [(tag1_name, ...)] ... // 2. VALUES ... | FILE ... static int32_t parseInsertTableClauseBottom(SInsertParseContext* pCxt, SVnodeModifyOpStmt* pStmt) { STableDataCxt* pTableCxt = NULL; int32_t code = parseSchemaClauseBottom(pCxt, pStmt, &pTableCxt); if (TSDB_CODE_SUCCESS == code) { code = parseDataClause(pCxt, pStmt, pTableCxt); } return code; } static void resetEnvPreTable(SInsertParseContext* pCxt, SVnodeModifyOpStmt* pStmt) { insDestroyBoundColInfo(&pCxt->tags); taosMemoryFreeClear(pStmt->pTableMeta); tdDestroySVCreateTbReq(pStmt->pCreateTblReq); taosMemoryFreeClear(pStmt->pCreateTblReq); pCxt->missCache = false; pCxt->usingDuplicateTable = false; pStmt->pBoundCols = NULL; pStmt->usingTableProcessing = false; pStmt->fileProcessing = false; } // input pStmt->pSql: [(field1_name, ...)] [ USING ... ] VALUES ... | FILE ... static int32_t parseInsertTableClause(SInsertParseContext* pCxt, SVnodeModifyOpStmt* pStmt, SToken* pTbName) { resetEnvPreTable(pCxt, pStmt); int32_t code = parseSchemaClauseTop(pCxt, pStmt, pTbName); if (TSDB_CODE_SUCCESS == code && !pCxt->missCache) { code = parseInsertTableClauseBottom(pCxt, pStmt); } return code; } static int32_t checkTableClauseFirstToken(SInsertParseContext* pCxt, SVnodeModifyOpStmt* pStmt, SToken* pTbName, bool* pHasData) { // no data in the sql string anymore. if (0 == pTbName->n) { if (0 != pTbName->type && '\0' != pStmt->pSql[0]) { return buildSyntaxErrMsg(&pCxt->msg, "invalid charactor in SQL", pTbName->z); } if (0 == pStmt->totalRowsNum && (!TSDB_QUERY_HAS_TYPE(pStmt->insertType, TSDB_QUERY_TYPE_STMT_INSERT))) { return buildInvalidOperationMsg(&pCxt->msg, "no data in sql"); } *pHasData = false; return TSDB_CODE_SUCCESS; } if (TSDB_QUERY_HAS_TYPE(pStmt->insertType, TSDB_QUERY_TYPE_STMT_INSERT) && pStmt->totalTbNum > 0) { return buildInvalidOperationMsg(&pCxt->msg, "single table allowed in one stmt"); } if (TK_NK_QUESTION == pTbName->type) { if (NULL == pCxt->pComCxt->pStmtCb) { return buildSyntaxErrMsg(&pCxt->msg, "? only used in stmt", pTbName->z); } char* tbName = NULL; int32_t code = (*pCxt->pComCxt->pStmtCb->getTbNameFn)(pCxt->pComCxt->pStmtCb->pStmt, &tbName); if (TSDB_CODE_SUCCESS == code) { pTbName->z = tbName; pTbName->n = strlen(tbName); } else { return code; } } *pHasData = true; return TSDB_CODE_SUCCESS; } static int32_t setStmtInfo(SInsertParseContext* pCxt, SVnodeModifyOpStmt* pStmt) { SBoundColInfo* tags = taosMemoryMalloc(sizeof(pCxt->tags)); if (NULL == tags) { return TSDB_CODE_OUT_OF_MEMORY; } memcpy(tags, &pCxt->tags, sizeof(pCxt->tags)); SStmtCallback* pStmtCb = pCxt->pComCxt->pStmtCb; int32_t code = (*pStmtCb->setInfoFn)(pStmtCb->pStmt, pStmt->pTableMeta, tags, &pStmt->targetTableName, pStmt->usingTableProcessing, pStmt->pVgroupsHashObj, pStmt->pTableBlockHashObj, pStmt->usingTableName.tname); memset(&pCxt->tags, 0, sizeof(pCxt->tags)); pStmt->pVgroupsHashObj = NULL; pStmt->pTableBlockHashObj = NULL; return code; } static int32_t parseInsertBodyBottom(SInsertParseContext* pCxt, SVnodeModifyOpStmt* pStmt) { if (TSDB_QUERY_HAS_TYPE(pStmt->insertType, TSDB_QUERY_TYPE_STMT_INSERT)) { return setStmtInfo(pCxt, pStmt); } // merge according to vgId int32_t code = insMergeTableDataCxt(pStmt->pTableBlockHashObj, &pStmt->pVgDataBlocks); if (TSDB_CODE_SUCCESS == code) { code = insBuildVgDataBlocks(pStmt->pVgroupsHashObj, pStmt->pVgDataBlocks, &pStmt->pDataBlocks); } return code; } // 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, SVnodeModifyOpStmt* pStmt) { SToken token; int32_t code = TSDB_CODE_SUCCESS; bool hasData = true; // for each table while (TSDB_CODE_SUCCESS == code && hasData && !pCxt->missCache && !pStmt->fileProcessing) { // pStmt->pSql -> tb_name ... NEXT_TOKEN(pStmt->pSql, token); code = checkTableClauseFirstToken(pCxt, pStmt, &token, &hasData); if (TSDB_CODE_SUCCESS == code && hasData) { code = parseInsertTableClause(pCxt, pStmt, &token); } } if (TSDB_CODE_SUCCESS == code && !pCxt->missCache) { code = parseInsertBodyBottom(pCxt, pStmt); } return code; } static void destroySubTableHashElem(void* p) { taosMemoryFree(*(STableMeta**)p); } static int32_t createVnodeModifOpStmt(SInsertParseContext* pCxt, bool reentry, SNode** pOutput) { SVnodeModifyOpStmt* pStmt = (SVnodeModifyOpStmt*)nodesMakeNode(QUERY_NODE_VNODE_MODIFY_STMT); if (NULL == pStmt) { return TSDB_CODE_OUT_OF_MEMORY; } if (pCxt->pComCxt->pStmtCb) { TSDB_QUERY_SET_TYPE(pStmt->insertType, TSDB_QUERY_TYPE_STMT_INSERT); } pStmt->pSql = pCxt->pComCxt->pSql; pStmt->freeHashFunc = insDestroyTableDataCxtHashMap; pStmt->freeArrayFunc = insDestroyVgroupDataCxtList; if (!reentry) { pStmt->pVgroupsHashObj = taosHashInit(128, taosGetDefaultHashFunction(TSDB_DATA_TYPE_INT), true, HASH_NO_LOCK); pStmt->pTableBlockHashObj = taosHashInit(128, taosGetDefaultHashFunction(TSDB_DATA_TYPE_BIGINT), true, HASH_NO_LOCK); } pStmt->pSubTableHashObj = taosHashInit(128, taosGetDefaultHashFunction(TSDB_DATA_TYPE_VARCHAR), true, HASH_NO_LOCK); pStmt->pTableNameHashObj = taosHashInit(128, taosGetDefaultHashFunction(TSDB_DATA_TYPE_VARCHAR), true, HASH_NO_LOCK); pStmt->pDbFNameHashObj = taosHashInit(64, taosGetDefaultHashFunction(TSDB_DATA_TYPE_VARCHAR), true, HASH_NO_LOCK); if ((!reentry && (NULL == pStmt->pVgroupsHashObj || NULL == pStmt->pTableBlockHashObj)) || NULL == pStmt->pSubTableHashObj || NULL == pStmt->pTableNameHashObj || NULL == pStmt->pDbFNameHashObj) { nodesDestroyNode((SNode*)pStmt); return TSDB_CODE_OUT_OF_MEMORY; } taosHashSetFreeFp(pStmt->pSubTableHashObj, destroySubTableHashElem); *pOutput = (SNode*)pStmt; return TSDB_CODE_SUCCESS; } static int32_t createInsertQuery(SInsertParseContext* pCxt, SQuery** pOutput) { SQuery* pQuery = (SQuery*)nodesMakeNode(QUERY_NODE_QUERY); if (NULL == pQuery) { return TSDB_CODE_OUT_OF_MEMORY; } pQuery->execMode = QUERY_EXEC_MODE_SCHEDULE; pQuery->haveResultSet = false; pQuery->msgType = TDMT_VND_SUBMIT; int32_t code = createVnodeModifOpStmt(pCxt, false, &pQuery->pRoot); if (TSDB_CODE_SUCCESS == code) { *pOutput = pQuery; } else { nodesDestroyNode((SNode*)pQuery); } return code; } static int32_t checkAuthFromMetaData(const SArray* pUsers) { if (1 != taosArrayGetSize(pUsers)) { return TSDB_CODE_FAILED; } SMetaRes* pRes = taosArrayGet(pUsers, 0); if (TSDB_CODE_SUCCESS == pRes->code) { return (*(bool*)pRes->pRes) ? TSDB_CODE_SUCCESS : TSDB_CODE_PAR_PERMISSION_DENIED; } return pRes->code; } static int32_t getTableMetaFromMetaData(const SArray* pTables, STableMeta** pMeta) { if (1 != taosArrayGetSize(pTables)) { return TSDB_CODE_FAILED; } taosMemoryFreeClear(*pMeta); SMetaRes* pRes = taosArrayGet(pTables, 0); if (TSDB_CODE_SUCCESS == pRes->code) { *pMeta = tableMetaDup((const STableMeta*)pRes->pRes); if (NULL == *pMeta) { return TSDB_CODE_OUT_OF_MEMORY; } } return pRes->code; } static int32_t getTableVgroupFromMetaData(const SArray* pTables, SVnodeModifyOpStmt* pStmt, bool isStb) { if (1 != taosArrayGetSize(pTables)) { return TSDB_CODE_FAILED; } SMetaRes* pRes = taosArrayGet(pTables, 0); if (TSDB_CODE_SUCCESS != pRes->code) { return pRes->code; } SVgroupInfo* pVg = pRes->pRes; if (isStb) { pStmt->pTableMeta->vgId = pVg->vgId; } return taosHashPut(pStmt->pVgroupsHashObj, (const char*)&pVg->vgId, sizeof(pVg->vgId), (char*)pVg, sizeof(SVgroupInfo)); } static int32_t getTableSchemaFromMetaData(SInsertParseContext* pCxt, const SMetaData* pMetaData, SVnodeModifyOpStmt* pStmt, bool isStb) { int32_t code = checkAuthFromMetaData(pMetaData->pUser); if (TSDB_CODE_SUCCESS == code) { code = getTableMetaFromMetaData(pMetaData->pTableMeta, &pStmt->pTableMeta); } if (TSDB_CODE_SUCCESS == code && !isStb && TSDB_SUPER_TABLE == pStmt->pTableMeta->tableType) { code = buildInvalidOperationMsg(&pCxt->msg, "insert data into super table is not supported"); } if (TSDB_CODE_SUCCESS == code && isStb) { code = storeTableMeta(pCxt, pStmt); } if (TSDB_CODE_SUCCESS == code) { code = getTableVgroupFromMetaData(pMetaData->pTableHash, pStmt, isStb); } return code; } static void destoryTablesReq(void* p) { STablesReq* pRes = (STablesReq*)p; taosArrayDestroy(pRes->pTables); } static void clearCatalogReq(SCatalogReq* pCatalogReq) { if (NULL == pCatalogReq) { return; } taosArrayDestroyEx(pCatalogReq->pTableMeta, destoryTablesReq); pCatalogReq->pTableMeta = NULL; taosArrayDestroyEx(pCatalogReq->pTableHash, destoryTablesReq); pCatalogReq->pTableHash = NULL; taosArrayDestroy(pCatalogReq->pUser); pCatalogReq->pUser = NULL; } static int32_t setVnodeModifOpStmt(SInsertParseContext* pCxt, SCatalogReq* pCatalogReq, const SMetaData* pMetaData, SVnodeModifyOpStmt* pStmt) { clearCatalogReq(pCatalogReq); if (pStmt->usingTableProcessing) { return getTableSchemaFromMetaData(pCxt, pMetaData, pStmt, true); } return getTableSchemaFromMetaData(pCxt, pMetaData, pStmt, false); } static int32_t resetVnodeModifOpStmt(SInsertParseContext* pCxt, SQuery* pQuery) { nodesDestroyNode(pQuery->pRoot); int32_t code = createVnodeModifOpStmt(pCxt, true, &pQuery->pRoot); if (TSDB_CODE_SUCCESS == code) { SVnodeModifyOpStmt* pStmt = (SVnodeModifyOpStmt*)pQuery->pRoot; (*pCxt->pComCxt->pStmtCb->getExecInfoFn)(pCxt->pComCxt->pStmtCb->pStmt, &pStmt->pVgroupsHashObj, &pStmt->pTableBlockHashObj); if (NULL == pStmt->pVgroupsHashObj) { pStmt->pVgroupsHashObj = taosHashInit(128, taosGetDefaultHashFunction(TSDB_DATA_TYPE_INT), true, HASH_NO_LOCK); } if (NULL == pStmt->pTableBlockHashObj) { pStmt->pTableBlockHashObj = taosHashInit(128, taosGetDefaultHashFunction(TSDB_DATA_TYPE_BINARY), true, HASH_NO_LOCK); } if (NULL == pStmt->pVgroupsHashObj || NULL == pStmt->pTableBlockHashObj) { code = TSDB_CODE_OUT_OF_MEMORY; } } return code; } static int32_t initInsertQuery(SInsertParseContext* pCxt, SCatalogReq* pCatalogReq, const SMetaData* pMetaData, SQuery** pQuery) { if (NULL == *pQuery) { return createInsertQuery(pCxt, pQuery); } if (NULL != pCxt->pComCxt->pStmtCb) { return resetVnodeModifOpStmt(pCxt, *pQuery); } SVnodeModifyOpStmt* pStmt = (SVnodeModifyOpStmt*)(*pQuery)->pRoot; if (!pStmt->fileProcessing) { return setVnodeModifOpStmt(pCxt, pCatalogReq, pMetaData, pStmt); } return TSDB_CODE_SUCCESS; } static int32_t setRefreshMate(SQuery* pQuery) { SVnodeModifyOpStmt* pStmt = (SVnodeModifyOpStmt*)pQuery->pRoot; if (taosHashGetSize(pStmt->pTableNameHashObj) > 0) { taosArrayDestroy(pQuery->pTableList); pQuery->pTableList = taosArrayInit(taosHashGetSize(pStmt->pTableNameHashObj), sizeof(SName)); SName* pTable = taosHashIterate(pStmt->pTableNameHashObj, NULL); while (NULL != pTable) { taosArrayPush(pQuery->pTableList, pTable); pTable = taosHashIterate(pStmt->pTableNameHashObj, pTable); } } if (taosHashGetSize(pStmt->pDbFNameHashObj) > 0) { taosArrayDestroy(pQuery->pDbList); pQuery->pDbList = taosArrayInit(taosHashGetSize(pStmt->pDbFNameHashObj), TSDB_DB_FNAME_LEN); char* pDb = taosHashIterate(pStmt->pDbFNameHashObj, NULL); while (NULL != pDb) { taosArrayPush(pQuery->pDbList, pDb); pDb = taosHashIterate(pStmt->pDbFNameHashObj, pDb); } } return TSDB_CODE_SUCCESS; } // INSERT INTO // tb_name // [USING stb_name [(tag1_name, ...)] TAGS (tag1_value, ...) [table_options]] // [(field1_name, ...)] // VALUES (field1_value, ...) [(field1_value2, ...) ...] | FILE csv_file_path // [...]; static int32_t parseInsertSqlFromStart(SInsertParseContext* pCxt, SVnodeModifyOpStmt* pStmt) { int32_t code = skipInsertInto(&pStmt->pSql, &pCxt->msg); if (TSDB_CODE_SUCCESS == code) { code = parseInsertBody(pCxt, pStmt); } return code; } static int32_t parseInsertSqlFromCsv(SInsertParseContext* pCxt, SVnodeModifyOpStmt* pStmt) { STableDataCxt* pTableCxt = NULL; int32_t code = getTableDataCxt(pCxt, pStmt, &pTableCxt); if (TSDB_CODE_SUCCESS == code) { code = parseDataFromFileImpl(pCxt, pStmt, pTableCxt); } if (TSDB_CODE_SUCCESS == code) { if (pStmt->fileProcessing) { code = parseInsertBodyBottom(pCxt, pStmt); } else { code = parseInsertBody(pCxt, pStmt); } } return code; } static int32_t parseInsertSqlFromTable(SInsertParseContext* pCxt, SVnodeModifyOpStmt* pStmt) { int32_t code = parseInsertTableClauseBottom(pCxt, pStmt); if (TSDB_CODE_SUCCESS == code) { code = parseInsertBody(pCxt, pStmt); } return code; } static int32_t parseInsertSqlImpl(SInsertParseContext* pCxt, SVnodeModifyOpStmt* pStmt) { if (pStmt->pSql == pCxt->pComCxt->pSql || NULL != pCxt->pComCxt->pStmtCb) { return parseInsertSqlFromStart(pCxt, pStmt); } if (pStmt->fileProcessing) { return parseInsertSqlFromCsv(pCxt, pStmt); } return parseInsertSqlFromTable(pCxt, pStmt); } static int32_t buildInsertTableReq(SName* pName, SArray** pTables) { *pTables = taosArrayInit(1, sizeof(SName)); if (NULL == *pTables) { return TSDB_CODE_OUT_OF_MEMORY; } taosArrayPush(*pTables, pName); return TSDB_CODE_SUCCESS; } static int32_t buildInsertDbReq(SName* pName, SArray** pDbs) { if (NULL == *pDbs) { *pDbs = taosArrayInit(1, sizeof(STablesReq)); if (NULL == *pDbs) { return TSDB_CODE_OUT_OF_MEMORY; } } STablesReq req = {0}; tNameGetFullDbName(pName, req.dbFName); buildInsertTableReq(pName, &req.pTables); taosArrayPush(*pDbs, &req); return TSDB_CODE_SUCCESS; } static int32_t buildInsertUserAuthReq(const char* pUser, SName* pName, SArray** pUserAuth) { *pUserAuth = taosArrayInit(1, sizeof(SUserAuthInfo)); if (NULL == *pUserAuth) { return TSDB_CODE_OUT_OF_MEMORY; } SUserAuthInfo userAuth = {.type = AUTH_TYPE_WRITE}; snprintf(userAuth.user, sizeof(userAuth.user), "%s", pUser); memcpy(&userAuth.tbName, pName, sizeof(SName)); taosArrayPush(*pUserAuth, &userAuth); return TSDB_CODE_SUCCESS; } static int32_t buildInsertCatalogReq(SInsertParseContext* pCxt, SVnodeModifyOpStmt* pStmt, SCatalogReq* pCatalogReq) { int32_t code = buildInsertUserAuthReq(pCxt->pComCxt->pUser, &pStmt->targetTableName, &pCatalogReq->pUser); if (TSDB_CODE_SUCCESS == code) { if (0 == pStmt->usingTableName.type) { code = buildInsertDbReq(&pStmt->targetTableName, &pCatalogReq->pTableMeta); } else { code = buildInsertDbReq(&pStmt->usingTableName, &pCatalogReq->pTableMeta); } } if (TSDB_CODE_SUCCESS == code) { code = buildInsertDbReq(&pStmt->targetTableName, &pCatalogReq->pTableHash); } return code; } static int32_t setNextStageInfo(SInsertParseContext* pCxt, SQuery* pQuery, SCatalogReq* pCatalogReq) { SVnodeModifyOpStmt* pStmt = (SVnodeModifyOpStmt*)pQuery->pRoot; if (pCxt->missCache) { parserDebug("0x%" PRIx64 " %d rows of %d tables have been inserted before cache miss", pCxt->pComCxt->requestId, pStmt->totalRowsNum, pStmt->totalTbNum); pQuery->execStage = QUERY_EXEC_STAGE_PARSE; return buildInsertCatalogReq(pCxt, pStmt, pCatalogReq); } parserDebug("0x%" PRIx64 " %d rows of %d tables have been inserted", pCxt->pComCxt->requestId, pStmt->totalRowsNum, pStmt->totalTbNum); pQuery->execStage = QUERY_EXEC_STAGE_SCHEDULE; return TSDB_CODE_SUCCESS; } int32_t parseInsertSql(SParseContext* pCxt, SQuery** pQuery, SCatalogReq* pCatalogReq, const SMetaData* pMetaData) { SInsertParseContext context = {.pComCxt = pCxt, .msg = {.buf = pCxt->pMsg, .len = pCxt->msgLen}, .missCache = false, .usingDuplicateTable = false, .forceUpdate = (NULL != pCatalogReq ? pCatalogReq->forceUpdate : false)}; int32_t code = initInsertQuery(&context, pCatalogReq, pMetaData, pQuery); if (TSDB_CODE_SUCCESS == code) { code = parseInsertSqlImpl(&context, (SVnodeModifyOpStmt*)(*pQuery)->pRoot); } if (TSDB_CODE_SUCCESS == code) { code = setNextStageInfo(&context, *pQuery, pCatalogReq); } if ((TSDB_CODE_SUCCESS == code || NEED_CLIENT_HANDLE_ERROR(code)) && QUERY_EXEC_STAGE_SCHEDULE == (*pQuery)->execStage) { code = setRefreshMate(*pQuery); } insDestroyBoundColInfo(&context.tags); return code; }