/* * 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 "functionMgt.h" #include "builtins.h" #include "functionMgtInt.h" #include "taos.h" #include "taoserror.h" #include "thash.h" #include "tudf.h" typedef struct SFuncMgtService { SHashObj* pFuncNameHashTable; } SFuncMgtService; typedef struct SUdfInfo { SDataType outputDt; int8_t funcType; } SUdfInfo; static SFuncMgtService gFunMgtService; static TdThreadOnce functionHashTableInit = PTHREAD_ONCE_INIT; static int32_t initFunctionCode = 0; static void doInitFunctionTable() { gFunMgtService.pFuncNameHashTable = taosHashInit(funcMgtBuiltinsNum, taosGetDefaultHashFunction(TSDB_DATA_TYPE_BINARY), true, HASH_NO_LOCK); if (NULL == gFunMgtService.pFuncNameHashTable) { initFunctionCode = TSDB_CODE_FAILED; return; } for (int32_t i = 0; i < funcMgtBuiltinsNum; ++i) { if (TSDB_CODE_SUCCESS != taosHashPut(gFunMgtService.pFuncNameHashTable, funcMgtBuiltins[i].name, strlen(funcMgtBuiltins[i].name), &i, sizeof(int32_t))) { initFunctionCode = TSDB_CODE_FAILED; return; } } } static bool isSpecificClassifyFunc(int32_t funcId, uint64_t classification) { if (fmIsUserDefinedFunc(funcId)) { return FUNC_MGT_AGG_FUNC == classification ? FUNC_AGGREGATE_UDF_ID == funcId : (FUNC_MGT_SCALAR_FUNC == classification ? FUNC_SCALAR_UDF_ID == funcId : false); } if (funcId < 0 || funcId >= funcMgtBuiltinsNum) { return false; } return FUNC_MGT_TEST_MASK(funcMgtBuiltins[funcId].classification, classification); } int32_t fmFuncMgtInit() { taosThreadOnce(&functionHashTableInit, doInitFunctionTable); return initFunctionCode; } int32_t fmGetFuncInfo(SFunctionNode* pFunc, char* pMsg, int32_t msgLen) { void* pVal = taosHashGet(gFunMgtService.pFuncNameHashTable, pFunc->functionName, strlen(pFunc->functionName)); if (NULL != pVal) { pFunc->funcId = *(int32_t*)pVal; pFunc->funcType = funcMgtBuiltins[pFunc->funcId].type; return funcMgtBuiltins[pFunc->funcId].translateFunc(pFunc, pMsg, msgLen); } return TSDB_CODE_FUNC_NOT_BUILTIN_FUNTION; } bool fmIsBuiltinFunc(const char* pFunc) { return NULL != taosHashGet(gFunMgtService.pFuncNameHashTable, pFunc, strlen(pFunc)); } EFuncDataRequired fmFuncDataRequired(SFunctionNode* pFunc, STimeWindow* pTimeWindow) { if (fmIsUserDefinedFunc(pFunc->funcId) || pFunc->funcId < 0 || pFunc->funcId >= funcMgtBuiltinsNum) { return FUNC_DATA_REQUIRED_DATA_LOAD; } if (NULL == funcMgtBuiltins[pFunc->funcId].dataRequiredFunc) { return FUNC_DATA_REQUIRED_DATA_LOAD; } return funcMgtBuiltins[pFunc->funcId].dataRequiredFunc(pFunc, pTimeWindow); } int32_t fmGetFuncExecFuncs(int32_t funcId, SFuncExecFuncs* pFpSet) { if (fmIsUserDefinedFunc(funcId) || funcId < 0 || funcId >= funcMgtBuiltinsNum) { return TSDB_CODE_FAILED; } pFpSet->getEnv = funcMgtBuiltins[funcId].getEnvFunc; pFpSet->init = funcMgtBuiltins[funcId].initFunc; pFpSet->process = funcMgtBuiltins[funcId].processFunc; pFpSet->finalize = funcMgtBuiltins[funcId].finalizeFunc; pFpSet->combine = funcMgtBuiltins[funcId].combineFunc; return TSDB_CODE_SUCCESS; } int32_t fmGetUdafExecFuncs(int32_t funcId, SFuncExecFuncs* pFpSet) { if (!fmIsUserDefinedFunc(funcId)) { return TSDB_CODE_FAILED; } pFpSet->getEnv = udfAggGetEnv; pFpSet->init = udfAggInit; pFpSet->process = udfAggProcess; pFpSet->finalize = udfAggFinalize; return TSDB_CODE_SUCCESS; } int32_t fmGetScalarFuncExecFuncs(int32_t funcId, SScalarFuncExecFuncs* pFpSet) { if (fmIsUserDefinedFunc(funcId) || funcId < 0 || funcId >= funcMgtBuiltinsNum) { return TSDB_CODE_FAILED; } pFpSet->process = funcMgtBuiltins[funcId].sprocessFunc; pFpSet->getEnv = funcMgtBuiltins[funcId].getEnvFunc; return TSDB_CODE_SUCCESS; } bool fmIsAggFunc(int32_t funcId) { return isSpecificClassifyFunc(funcId, FUNC_MGT_AGG_FUNC); } bool fmIsScalarFunc(int32_t funcId) { return isSpecificClassifyFunc(funcId, FUNC_MGT_SCALAR_FUNC); } bool fmIsVectorFunc(int32_t funcId) { return !fmIsScalarFunc(funcId); } bool fmIsSelectFunc(int32_t funcId) { return isSpecificClassifyFunc(funcId, FUNC_MGT_SELECT_FUNC); } bool fmIsTimelineFunc(int32_t funcId) { return isSpecificClassifyFunc(funcId, FUNC_MGT_TIMELINE_FUNC); } bool fmIsPseudoColumnFunc(int32_t funcId) { return isSpecificClassifyFunc(funcId, FUNC_MGT_PSEUDO_COLUMN_FUNC); } bool fmIsScanPseudoColumnFunc(int32_t funcId) { return isSpecificClassifyFunc(funcId, FUNC_MGT_SCAN_PC_FUNC); } bool fmIsWindowPseudoColumnFunc(int32_t funcId) { return isSpecificClassifyFunc(funcId, FUNC_MGT_WINDOW_PC_FUNC); } bool fmIsWindowClauseFunc(int32_t funcId) { return fmIsAggFunc(funcId) || fmIsWindowPseudoColumnFunc(funcId); } bool fmIsIndefiniteRowsFunc(int32_t funcId) { return isSpecificClassifyFunc(funcId, FUNC_MGT_INDEFINITE_ROWS_FUNC); } bool fmIsSpecialDataRequiredFunc(int32_t funcId) { return isSpecificClassifyFunc(funcId, FUNC_MGT_SPECIAL_DATA_REQUIRED); } bool fmIsDynamicScanOptimizedFunc(int32_t funcId) { return isSpecificClassifyFunc(funcId, FUNC_MGT_DYNAMIC_SCAN_OPTIMIZED); } bool fmIsMultiResFunc(int32_t funcId) { return isSpecificClassifyFunc(funcId, FUNC_MGT_MULTI_RES_FUNC); } bool fmIsRepeatScanFunc(int32_t funcId) { return isSpecificClassifyFunc(funcId, FUNC_MGT_REPEAT_SCAN_FUNC); } bool fmIsUserDefinedFunc(int32_t funcId) { return funcId > FUNC_UDF_ID_START; } void fmFuncMgtDestroy() { void* m = gFunMgtService.pFuncNameHashTable; if (m != NULL && atomic_val_compare_exchange_ptr((void**)&gFunMgtService.pFuncNameHashTable, m, 0) == m) { taosHashCleanup(m); } } int32_t fmSetInvertFunc(int32_t funcId, SFuncExecFuncs* pFpSet) { if (fmIsUserDefinedFunc(funcId) || funcId < 0 || funcId >= funcMgtBuiltinsNum) { return TSDB_CODE_FAILED; } pFpSet->process = funcMgtBuiltins[funcId].invertFunc; return TSDB_CODE_SUCCESS; } int32_t fmSetNormalFunc(int32_t funcId, SFuncExecFuncs* pFpSet) { if (fmIsUserDefinedFunc(funcId) || funcId < 0 || funcId >= funcMgtBuiltinsNum) { return TSDB_CODE_FAILED; } pFpSet->process = funcMgtBuiltins[funcId].processFunc; return TSDB_CODE_SUCCESS; } bool fmIsInvertible(int32_t funcId) { bool res = false; switch (funcMgtBuiltins[funcId].type) { case FUNCTION_TYPE_COUNT: case FUNCTION_TYPE_SUM: case FUNCTION_TYPE_STDDEV: case FUNCTION_TYPE_AVG: case FUNCTION_TYPE_WSTARTTS: case FUNCTION_TYPE_WENDTS: case FUNCTION_TYPE_WDURATION: res = true; break; default: break; } return res; } static int32_t getFuncInfo(SFunctionNode* pFunc) { char msg[64] = {0}; if (NULL != gFunMgtService.pFuncNameHashTable) { return fmGetFuncInfo(pFunc, msg, sizeof(msg)); } for (int32_t i = 0; i < funcMgtBuiltinsNum; ++i) { if (0 == strcmp(funcMgtBuiltins[i].name, pFunc->functionName)) { pFunc->funcId = i; pFunc->funcType = funcMgtBuiltins[pFunc->funcId].type; return funcMgtBuiltins[pFunc->funcId].translateFunc(pFunc, msg, sizeof(msg)); } } return TSDB_CODE_FUNC_NOT_BUILTIN_FUNTION; } static SFunctionNode* createFunction(const char* pName, SNodeList* pParameterList) { SFunctionNode* pFunc = nodesMakeNode(QUERY_NODE_FUNCTION); if (NULL == pFunc) { return NULL; } strcpy(pFunc->functionName, pName); pFunc->pParameterList = pParameterList; if (TSDB_CODE_SUCCESS != getFuncInfo(pFunc)) { pFunc->pParameterList = NULL; nodesDestroyNode(pFunc); return NULL; } return pFunc; } static SColumnNode* createColumnByFunc(const SFunctionNode* pFunc) { SColumnNode* pCol = nodesMakeNode(QUERY_NODE_COLUMN); if (NULL == pCol) { return NULL; } strcpy(pCol->colName, pFunc->node.aliasName); pCol->node.resType = pFunc->node.resType; return pCol; } bool fmIsDistExecFunc(int32_t funcId) { if (fmIsUserDefinedFunc(funcId)) { return false; } if (!fmIsVectorFunc(funcId)) { return true; } return (NULL != funcMgtBuiltins[funcId].pPartialFunc && NULL != funcMgtBuiltins[funcId].pMergeFunc); } static int32_t createPartialFunction(const SFunctionNode* pSrcFunc, SFunctionNode** pPartialFunc) { SNodeList* pParameterList = nodesCloneList(pSrcFunc->pParameterList); if (NULL == pParameterList) { return TSDB_CODE_OUT_OF_MEMORY; } *pPartialFunc = createFunction(funcMgtBuiltins[pSrcFunc->funcId].pPartialFunc, pParameterList); if (NULL == *pPartialFunc) { nodesDestroyList(pParameterList); return TSDB_CODE_OUT_OF_MEMORY; } snprintf((*pPartialFunc)->node.aliasName, sizeof((*pPartialFunc)->node.aliasName), "%s.%p", (*pPartialFunc)->functionName, pSrcFunc); return TSDB_CODE_SUCCESS; } static int32_t createMergeFunction(const SFunctionNode* pSrcFunc, const SFunctionNode* pPartialFunc, SFunctionNode** pMergeFunc) { SNodeList* pParameterList = NULL; nodesListMakeStrictAppend(&pParameterList, createColumnByFunc(pPartialFunc)); *pMergeFunc = createFunction(funcMgtBuiltins[pSrcFunc->funcId].pMergeFunc, pParameterList); if (NULL == *pMergeFunc) { nodesDestroyList(pParameterList); return TSDB_CODE_OUT_OF_MEMORY; } strcpy((*pMergeFunc)->node.aliasName, pSrcFunc->node.aliasName); return TSDB_CODE_SUCCESS; } int32_t fmGetDistMethod(const SFunctionNode* pFunc, SFunctionNode** pPartialFunc, SFunctionNode** pMergeFunc) { if (!fmIsDistExecFunc(pFunc->funcId)) { return TSDB_CODE_FAILED; } int32_t code = createPartialFunction(pFunc, pPartialFunc); if (TSDB_CODE_SUCCESS == code) { code = createMergeFunction(pFunc, *pPartialFunc, pMergeFunc); } if (TSDB_CODE_SUCCESS != code) { nodesDestroyNode(*pPartialFunc); nodesDestroyNode(*pMergeFunc); } return code; }