/* * 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 . */ #ifndef TDENGINE_VNODEREAD_H #define TDENGINE_VNODEREAD_H #ifdef __cplusplus extern "C" { #endif #include "os.h" #include "qresultBuf.h" #include "qinterpolation.h" #include "vnodeTagMgmt.h" /* * use to keep the first point position, consisting of position in blk and block * id, file id */ typedef struct { int32_t pos; int32_t slot; int32_t fileId; } SPositionInfo; typedef struct SLoadDataBlockInfo { int32_t fileListIndex; /* index of this file in files list of this vnode */ int32_t fileId; int32_t slotIdx; int32_t sid; bool tsLoaded; // if timestamp column of current block is loaded or not } SLoadDataBlockInfo; typedef struct SLoadCompBlockInfo { int32_t sid; /* meter sid */ int32_t fileId; int32_t fileListIndex; } SLoadCompBlockInfo; /* * the header file info for one vnode */ typedef struct SHeaderFileInfo { int32_t fileID; // file id } SHeaderFileInfo; typedef struct SQueryCostSummary { double cacheTimeUs; double fileTimeUs; int64_t numOfFiles; // opened files during query int64_t numOfTables; // num of queries tables int64_t numOfSeek; // number of seek operation int64_t readDiskBlocks; // accessed disk block int64_t skippedFileBlocks; // skipped blocks int64_t blocksInCache; // accessed cache blocks int64_t readField; // field size int64_t totalFieldSize; // total read fields size double loadFieldUs; // total elapsed time to read fields info int64_t totalBlockSize; // read data blocks double loadBlocksUs; // total elapsed time to read data blocks int64_t totalGenData; // in-memory generated data int64_t readCompInfo; // read compblock info int64_t totalCompInfoSize; // total comp block size double loadCompInfoUs; // total elapsed time to read comp block info int64_t tmpBufferInDisk; // size of buffer for intermediate result } SQueryCostSummary; typedef struct SPosInfo { int16_t pageId; int16_t rowId; } SPosInfo; typedef struct STimeWindow { TSKEY skey; TSKEY ekey; } STimeWindow; typedef struct SWindowStatus { bool closed; } SWindowStatus; typedef struct SWindowResult { uint16_t numOfRows; SPosInfo pos; // Position of current result in disk-based output buffer SResultInfo* resultInfo; // For each result column, there is a resultInfo STimeWindow window; // The time window that current result covers. SWindowStatus status; } SWindowResult; /* * header files info, avoid to iterate the directory, the data is acquired * during in query preparation function */ typedef struct SQueryFilesInfo { SHeaderFileInfo* pFileInfo; uint32_t numOfFiles; // the total available number of files for this virtual node during query execution int32_t current; // the memory mapped header file, NOTE: only one header file can be mmap. int32_t vnodeId; int32_t headerFd; // header file fd int64_t headerFileSize; int32_t dataFd; int32_t lastFd; char headerFilePath[PATH_MAX]; // current opened header file name char dataFilePath[PATH_MAX]; // current opened data file name char lastFilePath[PATH_MAX]; // current opened last file path char dbFilePathPrefix[PATH_MAX]; } SQueryFilesInfo; typedef struct SWindowResInfo { SWindowResult* pResult; // reference to SQuerySupporter->pResult void* hashList; // hash list for quick access int16_t type; // data type for hash key int32_t capacity; // max capacity int32_t curIndex; // current start active index int32_t size; int64_t startTime; // start time of the first time window for sliding query int64_t prevSKey; // previous (not completed) sliding window start key int64_t threshold; // threshold for return completed results. } SWindowResInfo; typedef struct SQueryRuntimeEnv { SPositionInfo startPos; /* the start position, used for secondary/third iteration */ SPositionInfo endPos; /* the last access position in query, served as the start pos of reversed order query */ SPositionInfo nextPos; /* start position of the next scan */ SData* colDataBuffer[TSDB_MAX_COLUMNS]; SResultInfo* resultInfo; // todo refactor to merge with SWindowResInfo uint8_t blockStatus; // Indicate if data block is loaded, the block is first/last/internal block int32_t unzipBufSize; SData* primaryColBuffer; char* unzipBuffer; char* secondaryUnzipBuffer; SQuery* pQuery; SMeterObj* pMeterObj; SQLFunctionCtx* pCtx; SLoadDataBlockInfo loadBlockInfo; /* record current block load information */ SLoadCompBlockInfo loadCompBlockInfo; /* record current compblock information in SQuery */ SQueryFilesInfo vnodeFileInfo; int16_t numOfRowsPerPage; int16_t offset[TSDB_MAX_COLUMNS]; uint16_t scanFlag; // denotes reversed scan of data or not SInterpolationInfo interpoInfo; SData** pInterpoBuf; SWindowResInfo windowResInfo; STSBuf* pTSBuf; STSCursor cur; SQueryCostSummary summary; bool stableQuery; // is super table query or not SQueryDiskbasedResultBuf* pResultBuf; // query result buffer based on blocked-wised disk file /* * Temporarily hold the in-memory cache block info during scan cache blocks * Here we do not use the cache block info from pMeterObj, simple because it may change anytime * during the query by the submit/insert handling threads. * So we keep a copy of the support structure as well as the cache block data itself. */ SCacheBlock cacheBlock; } SQueryRuntimeEnv; /* intermediate pos during multimeter query involves interval */ typedef struct SMeterQueryInfo { int64_t lastKey; int64_t skey; int64_t ekey; int32_t numOfRes; int16_t queryRangeSet; // denote if the query range is set, only available for interval query int64_t tag; STSCursor cur; int32_t sid; // for retrieve the page id list SWindowResInfo windowResInfo; } SMeterQueryInfo; typedef struct SMeterDataInfo { uint64_t offsetInHeaderFile; int32_t numOfBlocks; int32_t start; // start block index SCompBlock* pBlock; int32_t meterOrderIdx; SMeterObj* pMeterObj; int32_t groupIdx; // group id in meter list SMeterQueryInfo* pMeterQInfo; } SMeterDataInfo; typedef struct STableQuerySupportObj { void* pMetersHashTable; // meter table hash list SMeterSidExtInfo** pMeterSidExtInfo; int32_t numOfMeters; /* * multimeter query resultset. * In multimeter queries, the result is temporarily stored on this structure, instead of * directly put result into output buffer, since we have no idea how many number of * rows may be generated by a specific subgroup. When query on all subgroups is executed, * the result is copy to output buffer. This attribution is not used during single meter query processing. */ SQueryRuntimeEnv runtimeEnv; int64_t rawSKey; int64_t rawEKey; int32_t subgroupIdx; int32_t offset; /* offset in group result set of subgroup */ tSidSet* pSidSet; /* * the query is executed position on which meter of the whole list. * when the index reaches the last one of the list, it means the query is completed. * We later may refactor to remove this attribution by using another flag to denote * whether a multimeter query is completed or not. */ int32_t meterIdx; int32_t numOfGroupResultPages; int32_t groupResultSize; SMeterDataInfo* pMeterDataInfo; TSKEY* tsList; } STableQuerySupportObj; typedef struct _qinfo { uint64_t signature; int32_t refCount; // QInfo reference count, when the value is 0, it can be released safely char user[TSDB_TABLE_ID_LEN + 1]; char sql[TSDB_SHOW_SQL_LEN]; uint8_t stream; uint16_t port; uint32_t ip; uint64_t startTime; int64_t useconds; int killed; struct _qinfo *prev, *next; SQuery query; int totalPoints; int pointsRead; int pointsReturned; int pointsInterpo; int code; char bufIndex; char changed; char over; SMeterObj* pObj; sem_t dataReady; STableQuerySupportObj* pTableQuerySupporter; int (*fp)(SMeterObj*, SQuery*); } SQInfo; int32_t vnodeQueryTablePrepare(SQInfo* pQInfo, SMeterObj* pMeterObj, STableQuerySupportObj* pSMultiMeterObj, void* param); void vnodeQueryFreeQInfoEx(SQInfo* pQInfo); bool vnodeParametersSafetyCheck(SQuery* pQuery); int32_t vnodeSTableQueryPrepare(SQInfo* pQInfo, SQuery* pQuery, void* param); /** * decrease the numofQuery of each table that is queried, enable the * remove/close operation can be executed * @param pQInfo */ void vnodeDecMeterRefcnt(SQInfo* pQInfo); /* sql query handle in dnode */ void vnodeSingleTableQuery(SSchedMsg* pMsg); /* * handle multi-meter query process */ void vnodeMultiMeterQuery(SSchedMsg* pMsg); #ifdef __cplusplus } #endif #endif // TDENGINE_VNODEREAD_H