/* * 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 _TD_VNODE_TSDB_H_ #define _TD_VNODE_TSDB_H_ #ifdef __cplusplus extern "C" { #endif typedef struct SSmaStat SSmaStat; typedef struct SSmaEnv SSmaEnv; typedef struct SSmaEnvs SSmaEnvs; typedef enum { TSDB_FILE_HEAD = 0, // .head TSDB_FILE_DATA, // .data TSDB_FILE_LAST, // .last TSDB_FILE_SMAD, // .smad(Block-wise SMA) TSDB_FILE_SMAL, // .smal(Block-wise SMA) TSDB_FILE_MAX, // TSDB_FILE_META, // meta TSDB_FILE_TSMA, // v2t100.${sma_index_name}, Time-range-wise SMA TSDB_FILE_RSMA, // v2r100.${sma_index_name}, Time-range-wise Rollup SMA } E_TSDB_FILE_T; typedef struct { uint32_t magic; uint32_t fver; uint32_t len; uint32_t totalBlocks; uint32_t totalSubBlocks; uint32_t offset; uint64_t size; uint64_t tombSize; } SDFInfo; typedef struct { SDFInfo info; STfsFile f; TdFilePtr pFile; uint8_t state; } SDFile; struct SSmaEnvs { int16_t nTSma; int16_t nRSma; SSmaEnv *pTSmaEnv; SSmaEnv *pRSmaEnv; }; typedef struct { int fid; int8_t state; // -128~127 uint8_t ver; // 0~255, DFileSet version uint16_t reserve; SDFile files[TSDB_FILE_MAX]; } SDFileSet; typedef struct { int minFid; int midFid; int maxFid; TSKEY minKey; } SRtn; typedef struct STbData { tb_uid_t uid; TSKEY keyMin; TSKEY keyMax; int64_t nrows; SSkipList *pData; } STbData; typedef struct STsdbMemTable { T_REF_DECLARE() SRWLatch latch; TSKEY keyMin; TSKEY keyMax; uint64_t nRow; SMemAllocator *pMA; // Container SSkipList *pSlIdx; // SSkiplist SHashObj * pHashIdx; } STsdbMemTable; typedef struct { uint32_t version; // Commit version from 0 to increase int64_t totalPoints; // total points int64_t totalStorage; // Uncompressed total storage } STsdbFSMeta; // ================== typedef struct { STsdbFSMeta meta; // FS meta SArray * df; // data file array SArray * sf; // sma data file array v2f1900.index_name_1 } SFSStatus; typedef struct { TdThreadRwlock lock; SFSStatus *cstatus; // current status SHashObj * metaCache; // meta cache SHashObj * metaCacheComp; // meta cache for compact bool intxn; SFSStatus *nstatus; // new status } STsdbFS; struct STsdb { int32_t vgId; bool repoLocked; TdThreadMutex mutex; char * path; STsdbCfg config; STsdbMemTable * mem; STsdbMemTable * imem; SRtn rtn; SMemAllocatorFactory *pmaf; STsdbFS * fs; SMeta * pMeta; STfs * pTfs; SSmaEnvs smaEnvs; }; #define REPO_ID(r) ((r)->vgId) #define REPO_CFG(r) (&(r)->config) #define REPO_FS(r) ((r)->fs) #define REPO_META(r) ((r)->pMeta) #define REPO_TFS(r) ((r)->pTfs) #define IS_REPO_LOCKED(r) ((r)->repoLocked) #define REPO_TSMA_NUM(r) ((r)->smaEnvs.nTSma) #define REPO_RSMA_NUM(r) ((r)->smaEnvs.nRSma) #define REPO_TSMA_ENV(r) ((r)->smaEnvs.pTSmaEnv) #define REPO_RSMA_ENV(r) ((r)->smaEnvs.pRSmaEnv) int tsdbLockRepo(STsdb *pTsdb); int tsdbUnlockRepo(STsdb *pTsdb); static FORCE_INLINE STSchema *tsdbGetTableSchemaImpl(STable *pTable, bool lock, bool copy, int32_t version) { return pTable->pSchema; } // tsdbLog extern int32_t tsdbDebugFlag; #define tsdbFatal(...) do { if (tsdbDebugFlag & DEBUG_FATAL) { taosPrintLog("TSDB FATAL ", DEBUG_FATAL, 255, __VA_ARGS__); }} while(0) #define tsdbError(...) do { if (tsdbDebugFlag & DEBUG_ERROR) { taosPrintLog("TSDB ERROR ", DEBUG_ERROR, 255, __VA_ARGS__); }} while(0) #define tsdbWarn(...) do { if (tsdbDebugFlag & DEBUG_WARN) { taosPrintLog("TSDB WARN ", DEBUG_WARN, 255, __VA_ARGS__); }} while(0) #define tsdbInfo(...) do { if (tsdbDebugFlag & DEBUG_INFO) { taosPrintLog("TSDB ", DEBUG_INFO, 255, __VA_ARGS__); }} while(0) #define tsdbDebug(...) do { if (tsdbDebugFlag & DEBUG_DEBUG) { taosPrintLog("TSDB ", DEBUG_DEBUG, tsdbDebugFlag, __VA_ARGS__); }} while(0) #define tsdbTrace(...) do { if (tsdbDebugFlag & DEBUG_TRACE) { taosPrintLog("TSDB ", DEBUG_TRACE, tsdbDebugFlag, __VA_ARGS__); }} while(0) // tsdbMemTable.h typedef struct { int rowsInserted; int rowsUpdated; int rowsDeleteSucceed; int rowsDeleteFailed; int nOperations; TSKEY keyFirst; TSKEY keyLast; } SMergeInfo; static void * taosTMalloc(size_t size); static void * taosTCalloc(size_t nmemb, size_t size); static void * taosTRealloc(void *ptr, size_t size); static void * taosTZfree(void *ptr); static size_t taosTSizeof(void *ptr); static void taosTMemset(void *ptr, int c); STsdbMemTable *tsdbNewMemTable(STsdb *pTsdb); void tsdbFreeMemTable(STsdb *pTsdb, STsdbMemTable *pMemTable); int tsdbMemTableInsert(STsdb *pTsdb, STsdbMemTable *pMemTable, SSubmitReq *pMsg, SSubmitRsp *pRsp); int tsdbLoadDataFromCache(STable *pTable, SSkipListIterator *pIter, TSKEY maxKey, int maxRowsToRead, SDataCols *pCols, TKEY *filterKeys, int nFilterKeys, bool keepDup, SMergeInfo *pMergeInfo); static FORCE_INLINE STSRow *tsdbNextIterRow(SSkipListIterator *pIter) { if (pIter == NULL) return NULL; SSkipListNode *node = tSkipListIterGet(pIter); if (node == NULL) return NULL; return (STSRow *)SL_GET_NODE_DATA(node); } static FORCE_INLINE TSKEY tsdbNextIterKey(SSkipListIterator *pIter) { STSRow *row = tsdbNextIterRow(pIter); if (row == NULL) return TSDB_DATA_TIMESTAMP_NULL; return TD_ROW_KEY(row); } // tsdbOptions extern const STsdbCfg defautlTsdbOptions; int tsdbValidateOptions(const STsdbCfg *); void tsdbOptionsCopy(STsdbCfg *pDest, const STsdbCfg *pSrc); // tsdbReadImpl typedef struct SReadH SReadH; typedef struct { uint32_t len; uint32_t offset; uint32_t hasLast : 2; uint32_t numOfBlocks : 30; uint64_t uid; TSKEY maxKey; } SBlockIdx; #ifdef TD_REFACTOR_3 typedef struct { int64_t last : 1; int64_t offset : 63; int32_t algorithm : 8; int32_t numOfRows : 24; int32_t len; int32_t keyLen; // key column length, keyOffset = offset+sizeof(SBlockData)+sizeof(SBlockCol)*numOfCols int16_t numOfSubBlocks; int16_t numOfCols; // not including timestamp column TSKEY keyFirst; TSKEY keyLast; } SBlock; #else typedef enum { TSDB_SBLK_VER_0 = 0, TSDB_SBLK_VER_MAX, } ESBlockVer; #define SBlockVerLatest TSDB_SBLK_VER_0 typedef struct { uint8_t last : 1; uint8_t blkVer : 7; uint8_t numOfSubBlocks; col_id_t numOfCols; // not including timestamp column uint32_t len; // data block length uint32_t keyLen : 20; // key column length, keyOffset = offset+sizeof(SBlockData)+sizeof(SBlockCol)*numOfCols uint32_t algorithm : 4; uint32_t reserve : 8; col_id_t numOfBSma; uint16_t numOfRows; int64_t offset; uint64_t aggrStat : 1; uint64_t aggrOffset : 63; TSKEY keyFirst; TSKEY keyLast; } SBlockV0; #define SBlock SBlockV0 // latest SBlock definition #endif typedef struct { int32_t delimiter; // For recovery usage int32_t tid; uint64_t uid; SBlock blocks[]; } SBlockInfo; #ifdef TD_REFACTOR_3 typedef struct { int16_t colId; uint16_t bitmap : 1; // 0: has bitmap if has NULL/NORM rows, 1: no bitmap if all rows are NORM uint16_t reserve : 15; int32_t len; uint32_t type : 8; uint32_t offset : 24; int64_t sum; int64_t max; int64_t min; int16_t maxIndex; int16_t minIndex; int16_t numOfNull; uint8_t offsetH; char padding[1]; } SBlockCol; #else typedef struct { int16_t colId; uint16_t type : 6; uint16_t blen : 10; // bitmap length(TODO: full UT for the bitmap compress of various data input) uint32_t bitmap : 1; // 0: has bitmap if has NULL/NORM rows, 1: no bitmap if all rows are NORM uint32_t len : 31; // data length + bitmap length uint32_t offset; } SBlockColV0; #define SBlockCol SBlockColV0 // latest SBlockCol definition typedef struct { int16_t colId; int16_t maxIndex; int16_t minIndex; int16_t numOfNull; int64_t sum; int64_t max; int64_t min; } SAggrBlkColV0; #define SAggrBlkCol SAggrBlkColV0 // latest SAggrBlkCol definition #endif // Code here just for back-ward compatibility static FORCE_INLINE void tsdbSetBlockColOffset(SBlockCol *pBlockCol, uint32_t offset) { #ifdef TD_REFACTOR_3 pBlockCol->offset = offset & ((((uint32_t)1) << 24) - 1); pBlockCol->offsetH = (uint8_t)(offset >> 24); #else pBlockCol->offset = offset; #endif } static FORCE_INLINE uint32_t tsdbGetBlockColOffset(SBlockCol *pBlockCol) { #ifdef TD_REFACTOR_3 uint32_t offset1 = pBlockCol->offset; uint32_t offset2 = pBlockCol->offsetH; return (offset1 | (offset2 << 24)); #else return pBlockCol->offset; #endif } typedef struct { int32_t delimiter; // For recovery usage int32_t numOfCols; // For recovery usage uint64_t uid; // For recovery usage SBlockCol cols[]; } SBlockData; typedef void SAggrBlkData; // SBlockCol cols[]; struct SReadH { STsdb *pRepo; SDFileSet rSet; // FSET to read SArray *aBlkIdx; // SBlockIdx array STable *pTable; // table to read SBlockIdx *pBlkIdx; // current reading table SBlockIdx int cidx; SBlockInfo *pBlkInfo; SBlockData *pBlkData; // Block info SAggrBlkData *pAggrBlkData; // Aggregate Block info SDataCols *pDCols[2]; void *pBuf; // buffer void *pCBuf; // compression buffer void *pExBuf; // extra buffer }; #define TSDB_READ_REPO(rh) ((rh)->pRepo) #define TSDB_READ_REPO_ID(rh) REPO_ID(TSDB_READ_REPO(rh)) #define TSDB_READ_FSET(rh) (&((rh)->rSet)) #define TSDB_READ_TABLE(rh) ((rh)->pTable) #define TSDB_READ_HEAD_FILE(rh) TSDB_DFILE_IN_SET(TSDB_READ_FSET(rh), TSDB_FILE_HEAD) #define TSDB_READ_DATA_FILE(rh) TSDB_DFILE_IN_SET(TSDB_READ_FSET(rh), TSDB_FILE_DATA) #define TSDB_READ_LAST_FILE(rh) TSDB_DFILE_IN_SET(TSDB_READ_FSET(rh), TSDB_FILE_LAST) #define TSDB_READ_SMAD_FILE(rh) TSDB_DFILE_IN_SET(TSDB_READ_FSET(rh), TSDB_FILE_SMAD) #define TSDB_READ_SMAL_FILE(rh) TSDB_DFILE_IN_SET(TSDB_READ_FSET(rh), TSDB_FILE_SMAL) #define TSDB_READ_BUF(rh) ((rh)->pBuf) #define TSDB_READ_COMP_BUF(rh) ((rh)->pCBuf) #define TSDB_READ_EXBUF(rh) ((rh)->pExBuf) #define TSDB_BLOCK_STATIS_SIZE(ncols, blkVer) \ (sizeof(SBlockData) + sizeof(SBlockColV##blkVer) * (ncols) + sizeof(TSCKSUM)) static FORCE_INLINE size_t tsdbBlockStatisSize(int nCols, uint32_t blkVer) { switch (blkVer) { case TSDB_SBLK_VER_0: default: return TSDB_BLOCK_STATIS_SIZE(nCols, 0); } } #define TSDB_BLOCK_AGGR_SIZE(ncols, blkVer) (sizeof(SAggrBlkColV##blkVer) * (ncols) + sizeof(TSCKSUM)) static FORCE_INLINE size_t tsdbBlockAggrSize(int nCols, uint32_t blkVer) { switch (blkVer) { case TSDB_SBLK_VER_0: default: return TSDB_BLOCK_AGGR_SIZE(nCols, 0); } } int tsdbInitReadH(SReadH *pReadh, STsdb *pRepo); void tsdbDestroyReadH(SReadH *pReadh); int tsdbSetAndOpenReadFSet(SReadH *pReadh, SDFileSet *pSet); void tsdbCloseAndUnsetFSet(SReadH *pReadh); int tsdbLoadBlockIdx(SReadH *pReadh); int tsdbSetReadTable(SReadH *pReadh, STable *pTable); int tsdbLoadBlockInfo(SReadH *pReadh, void *pTarget); int tsdbLoadBlockData(SReadH *pReadh, SBlock *pBlock, SBlockInfo *pBlockInfo); int tsdbLoadBlockDataCols(SReadH *pReadh, SBlock *pBlock, SBlockInfo *pBlkInfo, const int16_t *colIds, int numOfColsIds); int tsdbLoadBlockStatis(SReadH *pReadh, SBlock *pBlock); int tsdbEncodeSBlockIdx(void **buf, SBlockIdx *pIdx); void *tsdbDecodeSBlockIdx(void *buf, SBlockIdx *pIdx); void tsdbGetBlockStatis(SReadH *pReadh, SDataStatis *pStatis, int numOfCols, SBlock *pBlock); static FORCE_INLINE int tsdbMakeRoom(void **ppBuf, size_t size) { void *pBuf = *ppBuf; size_t tsize = taosTSizeof(pBuf); if (tsize < size) { if (tsize == 0) tsize = 1024; while (tsize < size) { tsize *= 2; } *ppBuf = taosTRealloc(pBuf, tsize); if (*ppBuf == NULL) { terrno = TSDB_CODE_TDB_OUT_OF_MEMORY; return -1; } } return 0; } // tsdbMemory static FORCE_INLINE void *taosTMalloc(size_t size) { if (size <= 0) return NULL; void *ret = taosMemoryMalloc(size + sizeof(size_t)); if (ret == NULL) return NULL; *(size_t *)ret = size; return (void *)((char *)ret + sizeof(size_t)); } static FORCE_INLINE void *taosTCalloc(size_t nmemb, size_t size) { size_t tsize = nmemb * size; void * ret = taosTMalloc(tsize); if (ret == NULL) return NULL; taosTMemset(ret, 0); return ret; } static FORCE_INLINE size_t taosTSizeof(void *ptr) { return (ptr) ? (*(size_t *)((char *)ptr - sizeof(size_t))) : 0; } static FORCE_INLINE void taosTMemset(void *ptr, int c) { memset(ptr, c, taosTSizeof(ptr)); } static FORCE_INLINE void * taosTRealloc(void *ptr, size_t size) { if (ptr == NULL) return taosTMalloc(size); if (size <= taosTSizeof(ptr)) return ptr; void * tptr = (void *)((char *)ptr - sizeof(size_t)); size_t tsize = size + sizeof(size_t); void* tptr1 = taosMemoryRealloc(tptr, tsize); if (tptr1 == NULL) return NULL; tptr = tptr1; *(size_t *)tptr = size; return (void *)((char *)tptr + sizeof(size_t)); } static FORCE_INLINE void* taosTZfree(void* ptr) { if (ptr) { taosMemoryFree((void*)((char*)ptr - sizeof(size_t))); } return NULL; } // tsdbCommit typedef struct { uint64_t uid; int64_t offset; int64_t size; } SKVRecord; void tsdbGetRtnSnap(STsdb *pRepo, SRtn *pRtn); static FORCE_INLINE int TSDB_KEY_FID(TSKEY key, int32_t days, int8_t precision) { if (key < 0) { return (int)((key + 1) / tsTickPerDay[precision] / days - 1); } else { return (int)((key / tsTickPerDay[precision] / days)); } } static FORCE_INLINE int tsdbGetFidLevel(int fid, SRtn *pRtn) { if (fid >= pRtn->maxFid) { return 0; } else if (fid >= pRtn->midFid) { return 1; } else if (fid >= pRtn->minFid) { return 2; } else { return -1; } } // tsdbDBDef // typedef struct SDBFile SDBFile; // typedef DB_ENV* TDBEnv; // struct SDBFile { // int32_t fid; // DB* pDB; // char* path; // }; // int32_t tsdbOpenDBF(TDBEnv pEnv, SDBFile* pDBF); // void tsdbCloseDBF(SDBFile* pDBF); // int32_t tsdbOpenBDBEnv(DB_ENV** ppEnv, const char* path); // void tsdbCloseBDBEnv(DB_ENV* pEnv); // int32_t tsdbSaveSmaToDB(SDBFile* pDBF, void* key, uint32_t keySize, void* data, uint32_t dataSize); // void* tsdbGetSmaDataByKey(SDBFile* pDBF, void* key, uint32_t keySize, uint32_t* valueSize); // tsdbFile #define TSDB_FILE_HEAD_SIZE 512 #define TSDB_FILE_DELIMITER 0xF00AFA0F #define TSDB_FILE_INIT_MAGIC 0xFFFFFFFF #define TSDB_IVLD_FID INT_MIN #define TSDB_FILE_STATE_OK 0 #define TSDB_FILE_STATE_BAD 1 #define TSDB_FILE_INFO(tf) (&((tf)->info)) #define TSDB_FILE_F(tf) (&((tf)->f)) #define TSDB_FILE_PFILE(tf) ((tf)->pFile) #define TSDB_FILE_FULL_NAME(tf) (TSDB_FILE_F(tf)->aname) #define TSDB_FILE_OPENED(tf) (TSDB_FILE_PFILE(tf) != NULL) #define TSDB_FILE_CLOSED(tf) (!TSDB_FILE_OPENED(tf)) #define TSDB_FILE_SET_CLOSED(f) (TSDB_FILE_PFILE(f) = NULL) #define TSDB_FILE_LEVEL(tf) (TSDB_FILE_F(tf)->did.level) #define TSDB_FILE_ID(tf) (TSDB_FILE_F(tf)->did.id) #define TSDB_FILE_DID(tf) (TSDB_FILE_F(tf)->did) #define TSDB_FILE_REL_NAME(tf) (TSDB_FILE_F(tf)->rname) #define TSDB_FILE_ABS_NAME(tf) (TSDB_FILE_F(tf)->aname) #define TSDB_FILE_FSYNC(tf) taosFsyncFile(TSDB_FILE_PFILE(tf)) #define TSDB_FILE_STATE(tf) ((tf)->state) #define TSDB_FILE_SET_STATE(tf, s) ((tf)->state = (s)) #define TSDB_FILE_IS_OK(tf) (TSDB_FILE_STATE(tf) == TSDB_FILE_STATE_OK) #define TSDB_FILE_IS_BAD(tf) (TSDB_FILE_STATE(tf) == TSDB_FILE_STATE_BAD) typedef int32_t TSDB_FILE_T; typedef enum { TSDB_FS_VER_0 = 0, TSDB_FS_VER_MAX, } ETsdbFsVer; #define TSDB_LATEST_FVER TSDB_FS_VER_0 // latest version for DFile #define TSDB_LATEST_SFS_VER TSDB_FS_VER_0 // latest version for 'current' file static FORCE_INLINE uint32_t tsdbGetDFSVersion(TSDB_FILE_T fType) { // latest version for DFile switch (fType) { case TSDB_FILE_HEAD: // .head case TSDB_FILE_DATA: // .data case TSDB_FILE_LAST: // .last case TSDB_FILE_SMAD: // .smad(Block-wise SMA) case TSDB_FILE_SMAL: // .smal(Block-wise SMA) default: return TSDB_LATEST_FVER; } } void tsdbInitDFile(STsdb *pRepo, SDFile* pDFile, SDiskID did, int fid, uint32_t ver, TSDB_FILE_T ftype); void tsdbInitDFileEx(SDFile* pDFile, SDFile* pODFile); int tsdbEncodeSDFile(void** buf, SDFile* pDFile); void* tsdbDecodeSDFile(STsdb *pRepo, void* buf, SDFile* pDFile); int tsdbCreateDFile(STsdb *pRepo, SDFile* pDFile, bool updateHeader, TSDB_FILE_T fType); int tsdbUpdateDFileHeader(SDFile* pDFile); int tsdbLoadDFileHeader(SDFile* pDFile, SDFInfo* pInfo); int tsdbParseDFilename(const char* fname, int* vid, int* fid, TSDB_FILE_T* ftype, uint32_t* version); static FORCE_INLINE void tsdbSetDFileInfo(SDFile* pDFile, SDFInfo* pInfo) { pDFile->info = *pInfo; } static FORCE_INLINE int tsdbOpenDFile(SDFile* pDFile, int flags) { ASSERT(!TSDB_FILE_OPENED(pDFile)); pDFile->pFile = taosOpenFile(TSDB_FILE_FULL_NAME(pDFile), flags); if (pDFile->pFile == NULL) { terrno = TAOS_SYSTEM_ERROR(errno); return -1; } return 0; } static FORCE_INLINE void tsdbCloseDFile(SDFile* pDFile) { if (TSDB_FILE_OPENED(pDFile)) { taosCloseFile(&pDFile->pFile); TSDB_FILE_SET_CLOSED(pDFile); } } static FORCE_INLINE int64_t tsdbSeekDFile(SDFile* pDFile, int64_t offset, int whence) { // ASSERT(TSDB_FILE_OPENED(pDFile)); int64_t loffset = taosLSeekFile(TSDB_FILE_PFILE(pDFile), offset, whence); if (loffset < 0) { terrno = TAOS_SYSTEM_ERROR(errno); return -1; } return loffset; } static FORCE_INLINE int64_t tsdbWriteDFile(SDFile* pDFile, void* buf, int64_t nbyte) { ASSERT(TSDB_FILE_OPENED(pDFile)); int64_t nwrite = taosWriteFile(pDFile->pFile, buf, nbyte); if (nwrite < nbyte) { terrno = TAOS_SYSTEM_ERROR(errno); return -1; } return nwrite; } static FORCE_INLINE void tsdbUpdateDFileMagic(SDFile* pDFile, void* pCksm) { pDFile->info.magic = taosCalcChecksum(pDFile->info.magic, (uint8_t*)(pCksm), sizeof(TSCKSUM)); } static FORCE_INLINE int tsdbAppendDFile(SDFile* pDFile, void* buf, int64_t nbyte, int64_t* offset) { ASSERT(TSDB_FILE_OPENED(pDFile)); int64_t toffset; if ((toffset = tsdbSeekDFile(pDFile, 0, SEEK_END)) < 0) { return -1; } ASSERT(pDFile->info.size == toffset); if (offset) { *offset = toffset; } if (tsdbWriteDFile(pDFile, buf, nbyte) < 0) { return -1; } pDFile->info.size += nbyte; return (int)nbyte; } static FORCE_INLINE int tsdbRemoveDFile(SDFile* pDFile) { return tfsRemoveFile(TSDB_FILE_F(pDFile)); } static FORCE_INLINE int64_t tsdbReadDFile(SDFile* pDFile, void* buf, int64_t nbyte) { ASSERT(TSDB_FILE_OPENED(pDFile)); int64_t nread = taosReadFile(pDFile->pFile, buf, nbyte); if (nread < 0) { terrno = TAOS_SYSTEM_ERROR(errno); return -1; } return nread; } static FORCE_INLINE int tsdbCopyDFile(SDFile* pSrc, SDFile* pDest) { if (tfsCopyFile(TSDB_FILE_F(pSrc), TSDB_FILE_F(pDest)) < 0) { terrno = TAOS_SYSTEM_ERROR(errno); return -1; } tsdbSetDFileInfo(pDest, TSDB_FILE_INFO(pSrc)); return 0; } // =============== SDFileSet typedef struct { int fid; int8_t state; uint8_t ver; uint16_t reserve; #if 0 SDFInfo info; #endif STfsFile f; TdFilePtr pFile; } SSFile; // files split by days with fid #define TSDB_LATEST_FSET_VER 0 #define TSDB_FSET_FID(s) ((s)->fid) #define TSDB_FSET_STATE(s) ((s)->state) #define TSDB_FSET_VER(s) ((s)->ver) #define TSDB_DFILE_IN_SET(s, t) ((s)->files + (t)) #define TSDB_FSET_LEVEL(s) TSDB_FILE_LEVEL(TSDB_DFILE_IN_SET(s, 0)) #define TSDB_FSET_ID(s) TSDB_FILE_ID(TSDB_DFILE_IN_SET(s, 0)) #define TSDB_FSET_SET_CLOSED(s) \ do { \ for (TSDB_FILE_T ftype = TSDB_FILE_HEAD; ftype < TSDB_FILE_MAX; ftype++) { \ TSDB_FILE_SET_CLOSED(TSDB_DFILE_IN_SET(s, ftype)); \ } \ } while (0); #define TSDB_FSET_FSYNC(s) \ do { \ for (TSDB_FILE_T ftype = TSDB_FILE_HEAD; ftype < TSDB_FILE_MAX; ftype++) { \ TSDB_FILE_FSYNC(TSDB_DFILE_IN_SET(s, ftype)); \ } \ } while (0); void tsdbInitDFileSet(STsdb *pRepo, SDFileSet* pSet, SDiskID did, int fid, uint32_t ver); void tsdbInitDFileSetEx(SDFileSet* pSet, SDFileSet* pOSet); int tsdbEncodeDFileSet(void** buf, SDFileSet* pSet); void* tsdbDecodeDFileSet(STsdb *pRepo, void* buf, SDFileSet* pSet); int tsdbEncodeDFileSetEx(void** buf, SDFileSet* pSet); void* tsdbDecodeDFileSetEx(void* buf, SDFileSet* pSet); int tsdbApplyDFileSetChange(SDFileSet* from, SDFileSet* to); int tsdbCreateDFileSet(STsdb *pRepo, SDFileSet* pSet, bool updateHeader); int tsdbUpdateDFileSetHeader(SDFileSet* pSet); int tsdbScanAndTryFixDFileSet(STsdb* pRepo, SDFileSet* pSet); static FORCE_INLINE void tsdbCloseDFileSet(SDFileSet* pSet) { for (TSDB_FILE_T ftype = 0; ftype < TSDB_FILE_MAX; ftype++) { tsdbCloseDFile(TSDB_DFILE_IN_SET(pSet, ftype)); } } static FORCE_INLINE int tsdbOpenDFileSet(SDFileSet* pSet, int flags) { for (TSDB_FILE_T ftype = 0; ftype < TSDB_FILE_MAX; ftype++) { if (tsdbOpenDFile(TSDB_DFILE_IN_SET(pSet, ftype), flags) < 0) { tsdbCloseDFileSet(pSet); return -1; } } return 0; } static FORCE_INLINE void tsdbRemoveDFileSet(SDFileSet* pSet) { for (TSDB_FILE_T ftype = 0; ftype < TSDB_FILE_MAX; ftype++) { (void)tsdbRemoveDFile(TSDB_DFILE_IN_SET(pSet, ftype)); } } static FORCE_INLINE int tsdbCopyDFileSet(SDFileSet* pSrc, SDFileSet* pDest) { for (TSDB_FILE_T ftype = 0; ftype < TSDB_FILE_MAX; ftype++) { if (tsdbCopyDFile(TSDB_DFILE_IN_SET(pSrc, ftype), TSDB_DFILE_IN_SET(pDest, ftype)) < 0) { tsdbRemoveDFileSet(pDest); return -1; } } return 0; } static FORCE_INLINE void tsdbGetFidKeyRange(int days, int8_t precision, int fid, TSKEY* minKey, TSKEY* maxKey) { *minKey = fid * days * tsTickPerDay[precision]; *maxKey = *minKey + days * tsTickPerDay[precision] - 1; } static FORCE_INLINE bool tsdbFSetIsOk(SDFileSet* pSet) { for (TSDB_FILE_T ftype = 0; ftype < TSDB_FILE_MAX; ftype++) { if (TSDB_FILE_IS_BAD(TSDB_DFILE_IN_SET(pSet, ftype))) { return false; } } return true; } // tsdbFS // ================== TSDB global config extern bool tsdbForceKeepFile; // ================== CURRENT file header info typedef struct { uint32_t version; // Current file system version (relating to code) uint32_t len; // Encode content length (including checksum) } SFSHeader; // ================== TSDB File System Meta /** * @brief Directory structure of .tsma data files. * * /vnode2/tsdb $ tree tsma/ * tsma/ * ├── v2f100.index_name_1 * ├── v2f101.index_name_1 * ├── v2f102.index_name_1 * ├── v2f1900.index_name_3 * ├── v2f1901.index_name_3 * ├── v2f1902.index_name_3 * ├── v2f200.index_name_2 * ├── v2f201.index_name_2 * └── v2f202.index_name_2 * * 0 directories, 9 files */ #define FS_CURRENT_STATUS(pfs) ((pfs)->cstatus) #define FS_NEW_STATUS(pfs) ((pfs)->nstatus) #define FS_IN_TXN(pfs) (pfs)->intxn #define FS_VERSION(pfs) ((pfs)->cstatus->meta.version) #define FS_TXN_VERSION(pfs) ((pfs)->nstatus->meta.version) typedef struct { int direction; uint64_t version; // current FS version STsdbFS * pfs; int index; // used to position next fset when version the same int fid; // used to seek when version is changed SDFileSet *pSet; } SFSIter; #define TSDB_FS_ITER_FORWARD TSDB_ORDER_ASC #define TSDB_FS_ITER_BACKWARD TSDB_ORDER_DESC STsdbFS *tsdbNewFS(const STsdbCfg *pCfg); void * tsdbFreeFS(STsdbFS *pfs); int tsdbOpenFS(STsdb *pRepo); void tsdbCloseFS(STsdb *pRepo); void tsdbStartFSTxn(STsdb *pRepo, int64_t pointsAdd, int64_t storageAdd); int tsdbEndFSTxn(STsdb *pRepo); int tsdbEndFSTxnWithError(STsdbFS *pfs); void tsdbUpdateFSTxnMeta(STsdbFS *pfs, STsdbFSMeta *pMeta); // void tsdbUpdateMFile(STsdbFS *pfs, const SMFile *pMFile); int tsdbUpdateDFileSet(STsdbFS *pfs, const SDFileSet *pSet); void tsdbFSIterInit(SFSIter *pIter, STsdbFS *pfs, int direction); void tsdbFSIterSeek(SFSIter *pIter, int fid); SDFileSet *tsdbFSIterNext(SFSIter *pIter); int tsdbLoadMetaCache(STsdb *pRepo, bool recoverMeta); static FORCE_INLINE int tsdbRLockFS(STsdbFS *pFs) { int code = taosThreadRwlockRdlock(&(pFs->lock)); if (code != 0) { terrno = TAOS_SYSTEM_ERROR(code); return -1; } return 0; } static FORCE_INLINE int tsdbWLockFS(STsdbFS *pFs) { int code = taosThreadRwlockWrlock(&(pFs->lock)); if (code != 0) { terrno = TAOS_SYSTEM_ERROR(code); return -1; } return 0; } static FORCE_INLINE int tsdbUnLockFS(STsdbFS *pFs) { int code = taosThreadRwlockUnlock(&(pFs->lock)); if (code != 0) { terrno = TAOS_SYSTEM_ERROR(code); return -1; } return 0; } // tsdbSma // #define TSDB_SMA_TEST // remove after test finished // struct SSmaEnv { // TdThreadRwlock lock; // SDiskID did; // TDBEnv dbEnv; // TODO: If it's better to put it in smaIndex level? // char *path; // relative path // SSmaStat *pStat; // }; // #define SMA_ENV_LOCK(env) ((env)->lock) // #define SMA_ENV_DID(env) ((env)->did) // #define SMA_ENV_ENV(env) ((env)->dbEnv) // #define SMA_ENV_PATH(env) ((env)->path) // #define SMA_ENV_STAT(env) ((env)->pStat) // #define SMA_ENV_STAT_ITEMS(env) ((env)->pStat->smaStatItems) // void tsdbDestroySmaEnv(SSmaEnv *pSmaEnv); // void *tsdbFreeSmaEnv(SSmaEnv *pSmaEnv); // #if 0 // int32_t tsdbGetTSmaStatus(STsdb *pTsdb, STSma *param, void *result); // int32_t tsdbRemoveTSmaData(STsdb *pTsdb, STSma *param, STimeWindow *pWin); // #endif // // internal func // static FORCE_INLINE int32_t tsdbEncodeTSmaKey(int64_t groupId, TSKEY tsKey, void **pData) { // int32_t len = 0; // len += taosEncodeFixedI64(pData, tsKey); // len += taosEncodeFixedI64(pData, groupId); // return len; // } // static FORCE_INLINE int32_t tsdbRLockSma(SSmaEnv *pEnv) { // int code = taosThreadRwlockRdlock(&(pEnv->lock)); // if (code != 0) { // terrno = TAOS_SYSTEM_ERROR(code); // return -1; // } // return 0; // } // static FORCE_INLINE int32_t tsdbWLockSma(SSmaEnv *pEnv) { // int code = taosThreadRwlockWrlock(&(pEnv->lock)); // if (code != 0) { // terrno = TAOS_SYSTEM_ERROR(code); // return -1; // } // return 0; // } // static FORCE_INLINE int32_t tsdbUnLockSma(SSmaEnv *pEnv) { // int code = taosThreadRwlockUnlock(&(pEnv->lock)); // if (code != 0) { // terrno = TAOS_SYSTEM_ERROR(code); // return -1; // } // return 0; // } #ifdef __cplusplus } #endif #endif /*_TD_VNODE_TSDB_H_*/