/* * 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_SDB_H_ #define _TD_SDB_H_ #include "os.h" #include "thash.h" #include "tlockfree.h" #include "tlog.h" #include "tmsg.h" #ifdef __cplusplus extern "C" { #endif // clang-format off #define mFatal(...) { if (mDebugFlag & DEBUG_FATAL) { taosPrintLog("MND FATAL ", DEBUG_FATAL, 255, __VA_ARGS__); }} #define mError(...) { if (mDebugFlag & DEBUG_ERROR) { taosPrintLog("MND ERROR ", DEBUG_ERROR, 255, __VA_ARGS__); }} #define mWarn(...) { if (mDebugFlag & DEBUG_WARN) { taosPrintLog("MND WARN ", DEBUG_WARN, 255, __VA_ARGS__); }} #define mInfo(...) { if (mDebugFlag & DEBUG_INFO) { taosPrintLog("MND ", DEBUG_INFO, 255, __VA_ARGS__); }} #define mDebug(...) { if (mDebugFlag & DEBUG_DEBUG) { taosPrintLog("MND ", DEBUG_DEBUG, mDebugFlag, __VA_ARGS__); }} #define mTrace(...) { if (mDebugFlag & DEBUG_TRACE) { taosPrintLog("MND ", DEBUG_TRACE, mDebugFlag, __VA_ARGS__); }} // clang-format on #define SDB_GET_VAL(pData, dataPos, val, pos, func, type) \ { \ if (func(pRaw, dataPos, val) != 0) { \ goto pos; \ } \ dataPos += sizeof(type); \ } #define SDB_GET_BINARY(pRaw, dataPos, val, valLen, pos) \ { \ if (sdbGetRawBinary(pRaw, dataPos, val, valLen) != 0) { \ goto pos; \ } \ dataPos += valLen; \ } #define SDB_GET_INT64(pData, dataPos, val, pos) SDB_GET_VAL(pData, dataPos, val, pos, sdbGetRawInt64, int64_t) #define SDB_GET_INT32(pData, dataPos, val, pos) SDB_GET_VAL(pData, dataPos, val, pos, sdbGetRawInt32, int32_t) #define SDB_GET_INT16(pData, dataPos, val, pos) SDB_GET_VAL(pData, dataPos, val, pos, sdbGetRawInt16, int16_t) #define SDB_GET_INT8(pData, dataPos, val, pos) SDB_GET_VAL(pData, dataPos, val, pos, sdbGetRawInt8, int8_t) #define SDB_GET_RESERVE(pRaw, dataPos, valLen, pos) \ { \ char val[valLen] = {0}; \ SDB_GET_BINARY(pRaw, dataPos, val, valLen, pos) \ } #define SDB_SET_VAL(pRaw, dataPos, val, pos, func, type) \ { \ if (func(pRaw, dataPos, val) != 0) { \ goto pos; \ } \ dataPos += sizeof(type); \ } #define SDB_SET_INT64(pRaw, dataPos, val, pos) SDB_SET_VAL(pRaw, dataPos, val, pos, sdbSetRawInt64, int64_t) #define SDB_SET_INT32(pRaw, dataPos, val, pos) SDB_SET_VAL(pRaw, dataPos, val, pos, sdbSetRawInt32, int32_t) #define SDB_SET_INT16(pRaw, dataPos, val, pos) SDB_SET_VAL(pRaw, dataPos, val, pos, sdbSetRawInt16, int16_t) #define SDB_SET_INT8(pRaw, dataPos, val, pos) SDB_SET_VAL(pRaw, dataPos, val, pos, sdbSetRawInt8, int8_t) #define SDB_SET_BINARY(pRaw, dataPos, val, valLen, pos) \ { \ if (sdbSetRawBinary(pRaw, dataPos, val, valLen) != 0) { \ goto pos; \ } \ dataPos += valLen; \ } #define SDB_SET_RESERVE(pRaw, dataPos, valLen, pos) \ { \ char val[valLen] = {0}; \ SDB_SET_BINARY(pRaw, dataPos, val, valLen, pos) \ } #define SDB_SET_DATALEN(pRaw, dataLen, pos) \ { \ if (sdbSetRawDataLen(pRaw, dataLen) != 0) { \ goto pos; \ } \ } typedef struct SMnode SMnode; typedef struct SSdb SSdb; typedef struct SSdbRaw SSdbRaw; typedef struct SSdbRow SSdbRow; typedef int32_t (*SdbInsertFp)(SSdb *pSdb, void *pObj); typedef int32_t (*SdbUpdateFp)(SSdb *pSdb, void *pSrcObj, void *pDstObj); typedef int32_t (*SdbDeleteFp)(SSdb *pSdb, void *pObj, bool callFunc); typedef int32_t (*SdbDeployFp)(SMnode *pMnode); typedef SSdbRow *(*SdbDecodeFp)(SSdbRaw *pRaw); typedef SSdbRaw *(*SdbEncodeFp)(void *pObj); typedef bool (*sdbTraverseFp)(SMnode *pMnode, void *pObj, void *p1, void *p2, void *p3); typedef enum { SDB_KEY_BINARY = 1, SDB_KEY_INT32 = 2, SDB_KEY_INT64 = 3, } EKeyType; typedef enum { SDB_STATUS_INIT = 0, SDB_STATUS_CREATING = 1, SDB_STATUS_DROPPING = 2, SDB_STATUS_DROPPED = 3, SDB_STATUS_READY = 4, } ESdbStatus; typedef enum { SDB_TRANS = 0, SDB_CLUSTER = 1, SDB_MNODE = 2, SDB_QNODE = 3, SDB_SNODE = 4, SDB_BNODE = 5, SDB_DNODE = 6, SDB_USER = 7, SDB_AUTH = 8, SDB_ACCT = 9, SDB_STREAM = 10, SDB_OFFSET = 11, SDB_SUBSCRIBE = 12, SDB_CONSUMER = 13, SDB_TOPIC = 14, SDB_VGROUP = 15, SDB_SMA = 16, SDB_STB = 17, SDB_DB = 18, SDB_FUNC = 19, SDB_MAX = 20 } ESdbType; typedef struct SSdbRaw { int8_t type; int8_t status; int8_t sver; int8_t reserved; int32_t dataLen; char pData[]; } SSdbRaw; typedef struct SSdbRow { ESdbType type; ESdbStatus status; int32_t refCount; char pObj[]; } SSdbRow; typedef struct SSdb { SMnode *pMnode; char *currDir; char *tmpDir; int64_t lastCommitVer; int64_t lastCommitTerm; int64_t curVer; int64_t curTerm; int64_t curConfig; int64_t tableVer[SDB_MAX]; int64_t maxId[SDB_MAX]; EKeyType keyTypes[SDB_MAX]; SHashObj *hashObjs[SDB_MAX]; TdThreadRwlock locks[SDB_MAX]; SdbInsertFp insertFps[SDB_MAX]; SdbUpdateFp updateFps[SDB_MAX]; SdbDeleteFp deleteFps[SDB_MAX]; SdbDeployFp deployFps[SDB_MAX]; SdbEncodeFp encodeFps[SDB_MAX]; SdbDecodeFp decodeFps[SDB_MAX]; TdThreadMutex filelock; } SSdb; typedef struct SSdbIter { TdFilePtr file; int64_t total; char *name; } SSdbIter; typedef struct { ESdbType sdbType; EKeyType keyType; SdbDeployFp deployFp; SdbEncodeFp encodeFp; SdbDecodeFp decodeFp; SdbInsertFp insertFp; SdbUpdateFp updateFp; SdbDeleteFp deleteFp; } SSdbTable; typedef struct SSdbOpt { const char *path; SMnode *pMnode; } SSdbOpt; /** * @brief Initialize and start the sdb. * * @param pOption Option of the sdb. * @return SSdb* The sdb object. */ SSdb *sdbInit(SSdbOpt *pOption); /** * @brief Stop and cleanup the sdb. * * @param pSdb The sdb object to close. */ void sdbCleanup(SSdb *pSdb); /** * @brief Set the properties of sdb table. * * @param pSdb The sdb object. * @param table The properties of the table. * @return int32_t 0 for success, -1 for failure. */ int32_t sdbSetTable(SSdb *pSdb, SSdbTable table); /** * @brief Set the initial rows of sdb. * * @param pSdb The sdb object. * @return int32_t 0 for success, -1 for failure. */ int32_t sdbDeploy(SSdb *pSdb); /** * @brief Load sdb from file. * * @param pSdb The sdb object. * @return int32_t 0 for success, -1 for failure. */ int32_t sdbReadFile(SSdb *pSdb); /** * @brief Write sdb file. * * @param pSdb The sdb object. * @return int32_t 0 for success, -1 for failure. */ int32_t sdbWriteFile(SSdb *pSdb); /** * @brief Parse and write raw data to sdb, then free the pRaw object * * @param pSdb The sdb object. * @param pRaw The raw data. * @return int32_t 0 for success, -1 for failure. */ int32_t sdbWrite(SSdb *pSdb, SSdbRaw *pRaw); /** * @brief Parse and write raw data to sdb. * * @param pSdb The sdb object. * @param pRaw The raw data. * @return int32_t 0 for success, -1 for failure. */ int32_t sdbWriteWithoutFree(SSdb *pSdb, SSdbRaw *pRaw); /** * @brief Acquire a row from sdb * * @param pSdb The sdb object. * @param type The type of the row. * @param pKey The key value of the row. * @return void* The object of the row. */ void *sdbAcquire(SSdb *pSdb, ESdbType type, const void *pKey); /** * @brief Release a row from sdb. * * @param pSdb The sdb object. * @param pObj The object of the row. */ void sdbRelease(SSdb *pSdb, void *pObj); /** * @brief Traverse a sdb table * * @param pSdb The sdb object. * @param type The type of the table. * @param pIter The initial iterator of the table. * @param pObj The object of the row just fetched. * @return void* The next iterator of the table. */ void *sdbFetch(SSdb *pSdb, ESdbType type, void *pIter, void **ppObj); void *sdbFetchAll(SSdb *pSdb, ESdbType type, void *pIter, void **ppObj, ESdbStatus *status) ; /** * @brief Cancel a traversal * * @param pSdb The sdb object. * @param type The initial iterator of table. */ void sdbCancelFetch(SSdb *pSdb, void *pIter); /** * @brief Traverse a sdb * * @param pSdb The sdb object. * @param type The initial iterator of table. * @param fp The function pointer. * @param p1 The callback param. * @param p2 The callback param. * @param p3 The callback param. */ void sdbTraverse(SSdb *pSdb, ESdbType type, sdbTraverseFp fp, void *p1, void *p2, void *p3); /** * @brief Get the number of rows in the table * * @param pSdb The sdb object. * @param pIter The type of the table. * @return int32_t The number of rows in the table */ int32_t sdbGetSize(SSdb *pSdb, ESdbType type); /** * @brief Get the max id of the table, keyType of table should be INT32 * * @param pSdb The sdb object. * @param pIter The type of the table. * @return int32_t The max id of the table */ int32_t sdbGetMaxId(SSdb *pSdb, ESdbType type); /** * @brief Get the version of the table * * @param pSdb The sdb object. * @param pIter The type of the table. * @return int32_t The version of the table */ int64_t sdbGetTableVer(SSdb *pSdb, ESdbType type); /** * @brief Update the index of sdb * * @param pSdb The sdb object. * @param index The update value of the apply index. * @return int32_t The current index of sdb */ void sdbSetApplyIndex(SSdb *pSdb, int64_t index); void sdbSetApplyTerm(SSdb *pSdb, int64_t term); void sdbSetCurConfig(SSdb *pSdb, int64_t config); int64_t sdbGetApplyIndex(SSdb *pSdb); int64_t sdbGetApplyTerm(SSdb *pSdb); int64_t sdbGetCommitIndex(SSdb *pSdb); int64_t sdbGetCommitTerm(SSdb *pSdb); int64_t sdbGetCurConfig(SSdb *pSdb); SSdbRaw *sdbAllocRaw(ESdbType type, int8_t sver, int32_t dataLen); void sdbFreeRaw(SSdbRaw *pRaw); int32_t sdbSetRawInt8(SSdbRaw *pRaw, int32_t dataPos, int8_t val); int32_t sdbSetRawInt16(SSdbRaw *pRaw, int32_t dataPos, int16_t val); int32_t sdbSetRawInt32(SSdbRaw *pRaw, int32_t dataPos, int32_t val); int32_t sdbSetRawInt64(SSdbRaw *pRaw, int32_t dataPos, int64_t val); int32_t sdbSetRawBinary(SSdbRaw *pRaw, int32_t dataPos, const char *pVal, int32_t valLen); int32_t sdbSetRawDataLen(SSdbRaw *pRaw, int32_t dataLen); int32_t sdbSetRawStatus(SSdbRaw *pRaw, ESdbStatus status); int32_t sdbGetRawInt8(SSdbRaw *pRaw, int32_t dataPos, int8_t *val); int32_t sdbGetRawInt16(SSdbRaw *pRaw, int32_t dataPos, int16_t *val); int32_t sdbGetRawInt32(SSdbRaw *pRaw, int32_t dataPos, int32_t *val); int32_t sdbGetRawInt64(SSdbRaw *pRaw, int32_t dataPos, int64_t *val); int32_t sdbGetRawBinary(SSdbRaw *pRaw, int32_t dataPos, char *pVal, int32_t valLen); int32_t sdbGetRawSoftVer(SSdbRaw *pRaw, int8_t *sver); int32_t sdbGetRawTotalSize(SSdbRaw *pRaw); SSdbRow *sdbAllocRow(int32_t objSize); void *sdbGetRowObj(SSdbRow *pRow); void sdbFreeRow(SSdb *pSdb, SSdbRow *pRow, bool callFunc); int32_t sdbStartRead(SSdb *pSdb, SSdbIter **ppIter); int32_t sdbStopRead(SSdb *pSdb, SSdbIter *pIter); int32_t sdbDoRead(SSdb *pSdb, SSdbIter *pIter, void **ppBuf, int32_t *len); int32_t sdbStartWrite(SSdb *pSdb, SSdbIter **ppIter); int32_t sdbStopWrite(SSdb *pSdb, SSdbIter *pIter, bool isApply); int32_t sdbDoWrite(SSdb *pSdb, SSdbIter *pIter, void *pBuf, int32_t len); const char *sdbTableName(ESdbType type); const char *sdbStatusName(ESdbStatus status); void sdbPrintOper(SSdb *pSdb, SSdbRow *pRow, const char *oper); int32_t sdbGetIdFromRaw(SSdb *pSdb, SSdbRaw *pRaw); #ifdef __cplusplus } #endif #endif /*_TD_SDB_H_*/