/* * 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 "tsdbDef.h" static const char *TSDB_SMA_DNAME[] = { "", // TSDB_SMA_TYPE_BLOCK "tsma", // TSDB_SMA_TYPE_TIME_RANGE "rsma", // TSDB_SMA_TYPE_ROLLUP }; #undef _TEST_SMA_PRINT_DEBUG_LOG_ #define SMA_STORAGE_TSDB_DAYS 30 #define SMA_STORAGE_TSDB_TIMES 10 #define SMA_STORAGE_SPLIT_HOURS 24 #define SMA_KEY_LEN 18 // tableUid_colId_TSKEY 8+2+8 #define SMA_STATE_HASH_SLOT 4 #define SMA_STATE_ITEM_HASH_SLOT 32 #define SMA_TEST_INDEX_NAME "smaTestIndexName" // TODO: just for test #define SMA_TEST_INDEX_UID 2000000001 // TODO: just for test typedef enum { SMA_STORAGE_LEVEL_TSDB = 0, // use days of self-defined e.g. vnode${N}/tsdb/tsma/sma_index_uid/v2f200.tsma SMA_STORAGE_LEVEL_DFILESET = 1 // use days of TS data e.g. vnode${N}/tsdb/tsma/sma_index_uid/v2f1906.tsma } ESmaStorageLevel; typedef struct { STsdb * pTsdb; SDBFile dFile; int32_t interval; // interval with the precision of DB } STSmaWriteH; typedef struct { int32_t iter; int32_t fid; } SmaFsIter; typedef struct { STsdb * pTsdb; SDBFile dFile; int32_t interval; // interval with the precision of DB int32_t blockSize; // size of SMA block item int8_t storageLevel; int8_t days; SmaFsIter smaFsIter; } STSmaReadH; typedef struct { /** * @brief The field 'state' is here to demonstrate if one smaIndex is ready to provide service. * - TSDB_SMA_STAT_EXPIRED: 1) If sma calculation of history TS data is not finished; 2) Or if the TSDB is open, * without information about its previous state. * - TSDB_SMA_STAT_OK: 1) The sma calculation of history data is finished; 2) Or recevied information from * Streaming Module or TSDB local persistence. */ int8_t state; // ETsdbSmaStat SHashObj *expiredWindows; // key: skey of time window, value: N/A STSma * pSma; } SSmaStatItem; struct SSmaStat { SHashObj *smaStatItems; // key: indexUid, value: SSmaStatItem T_REF_DECLARE() }; // declaration of static functions // expired window static int32_t tsdbUpdateExpiredWindow(STsdb *pTsdb, ETsdbSmaType smaType, char *msg); static int32_t tsdbInitSmaStat(SSmaStat **pSmaStat); static int32_t tsdbDestroySmaState(SSmaStat *pSmaStat); static SSmaEnv *tsdbNewSmaEnv(const STsdb *pTsdb, const char *path); static int32_t tsdbInitSmaEnv(STsdb *pTsdb, const char *path, SSmaEnv **pEnv); static int32_t tsdbResetExpiredWindow(STsdb *pTsdb, SSmaStat *pStat, int64_t indexUid, TSKEY skey); static int32_t tsdbRefSmaStat(STsdb *pTsdb, SSmaStat *pStat); static int32_t tsdbUnRefSmaStat(STsdb *pTsdb, SSmaStat *pStat); // read data // TODO: This is the basic params, and should wrap the params to a queryHandle. static int32_t tsdbGetTSmaDataImpl(STsdb *pTsdb, STSmaDataWrapper *pData, int64_t indexUid, int64_t interval, int8_t intervalUnit, tb_uid_t tableUid, col_id_t colId, TSKEY querySKey, int32_t nMaxResult); // insert data static int32_t tsdbInitTSmaWriteH(STSmaWriteH *pSmaH, STsdb *pTsdb, STSmaDataWrapper *pData); static void tsdbDestroyTSmaWriteH(STSmaWriteH *pSmaH); static int32_t tsdbInitTSmaReadH(STSmaReadH *pSmaH, STsdb *pTsdb, int64_t interval, int8_t intervalUnit); static int32_t tsdbGetSmaStorageLevel(int64_t interval, int8_t intervalUnit); static int32_t tsdbInsertTSmaDataSection(STSmaWriteH *pSmaH, STSmaDataWrapper *pData); static int32_t tsdbInsertTSmaBlocks(STSmaWriteH *pSmaH, void *smaKey, uint32_t keyLen, void *pData, uint32_t dataLen); static int64_t tsdbGetIntervalByPrecision(int64_t interval, uint8_t intervalUnit, int8_t precision); static int32_t tsdbGetTSmaDays(STsdb *pTsdb, int64_t interval, int32_t storageLevel); static int32_t tsdbSetTSmaDataFile(STSmaWriteH *pSmaH, STSmaDataWrapper *pData, int32_t storageLevel, int32_t fid); static int32_t tsdbInitTSmaFile(STSmaReadH *pSmaH, TSKEY skey); static bool tsdbSetAndOpenTSmaFile(STSmaReadH *pReadH, TSKEY *queryKey); static void tsdbGetSmaDir(int32_t vgId, ETsdbSmaType smaType, char dirName[]); static int32_t tsdbInsertTSmaDataImpl(STsdb *pTsdb, char *msg); static int32_t tsdbInsertRSmaDataImpl(STsdb *pTsdb, char *msg); // implementation static void tsdbGetSmaDir(int32_t vgId, ETsdbSmaType smaType, char dirName[]) { snprintf(dirName, TSDB_FILENAME_LEN, "vnode/vnode%d/tsdb/%s", vgId, TSDB_SMA_DNAME[smaType]); } static SSmaEnv *tsdbNewSmaEnv(const STsdb *pTsdb, const char *path) { SSmaEnv *pEnv = NULL; pEnv = (SSmaEnv *)calloc(1, sizeof(SSmaEnv)); if (pEnv == NULL) { terrno = TSDB_CODE_OUT_OF_MEMORY; return NULL; } int code = pthread_rwlock_init(&(pEnv->lock), NULL); if (code) { terrno = TAOS_SYSTEM_ERROR(code); free(pEnv); return NULL; } ASSERT(path && (strlen(path) > 0)); pEnv->path = strdup(path); if (pEnv->path == NULL) { tsdbFreeSmaEnv(pEnv); return NULL; } if (tsdbInitSmaStat(&pEnv->pStat) != TSDB_CODE_SUCCESS) { tsdbFreeSmaEnv(pEnv); return NULL; } if (tsdbOpenBDBEnv(&pEnv->dbEnv, pEnv->path) != TSDB_CODE_SUCCESS) { tsdbFreeSmaEnv(pEnv); return NULL; } return pEnv; } static int32_t tsdbInitSmaEnv(STsdb *pTsdb, const char *path, SSmaEnv **pEnv) { if (!pEnv) { terrno = TSDB_CODE_INVALID_PTR; return TSDB_CODE_FAILED; } if (*pEnv == NULL) { if ((*pEnv = tsdbNewSmaEnv(pTsdb, path)) == NULL) { return TSDB_CODE_FAILED; } } return TSDB_CODE_SUCCESS; } /** * @brief Release resources allocated for its member fields, not including itself. * * @param pSmaEnv * @return int32_t */ void tsdbDestroySmaEnv(SSmaEnv *pSmaEnv) { if (pSmaEnv) { tsdbDestroySmaState(pSmaEnv->pStat); tfree(pSmaEnv->pStat); tfree(pSmaEnv->path); pthread_rwlock_destroy(&(pSmaEnv->lock)); tsdbCloseBDBEnv(pSmaEnv->dbEnv); } } void *tsdbFreeSmaEnv(SSmaEnv *pSmaEnv) { tsdbDestroySmaEnv(pSmaEnv); tfree(pSmaEnv); return NULL; } static int32_t tsdbRefSmaStat(STsdb *pTsdb, SSmaStat *pStat) { if (pStat == NULL) return 0; int ref = T_REF_INC(pStat); tsdbDebug("vgId:%d ref sma stat %p ref %d", REPO_ID(pTsdb), pStat, ref); return 0; } static int32_t tsdbUnRefSmaStat(STsdb *pTsdb, SSmaStat *pStat) { if (pStat == NULL) return 0; int ref = T_REF_DEC(pStat); tsdbDebug("vgId:%d unref sma stat %p ref %d", REPO_ID(pTsdb), pStat, ref); return 0; } static int32_t tsdbInitSmaStat(SSmaStat **pSmaStat) { ASSERT(pSmaStat != NULL); if (*pSmaStat != NULL) { // no lock return TSDB_CODE_SUCCESS; } /** * 1. Lazy mode utilized when init SSmaStat to update expired window(or hungry mode when tsdbNew). * 2. Currently, there is mutex lock when init SSmaEnv, thus no need add lock on SSmaStat, and please add lock if * tsdbInitSmaStat invoked in other multithread environment later. */ if (*pSmaStat == NULL) { *pSmaStat = (SSmaStat *)calloc(1, sizeof(SSmaStat)); if (*pSmaStat == NULL) { terrno = TSDB_CODE_OUT_OF_MEMORY; return TSDB_CODE_FAILED; } (*pSmaStat)->smaStatItems = taosHashInit(SMA_STATE_HASH_SLOT, taosGetDefaultHashFunction(TSDB_DATA_TYPE_BINARY), true, HASH_ENTRY_LOCK); if ((*pSmaStat)->smaStatItems == NULL) { tfree(*pSmaStat); return TSDB_CODE_FAILED; } } return TSDB_CODE_SUCCESS; } static SSmaStatItem *tsdbNewSmaStatItem(int8_t state) { SSmaStatItem *pItem = NULL; pItem = (SSmaStatItem *)calloc(1, sizeof(SSmaStatItem)); if (pItem) { pItem->state = state; pItem->expiredWindows = taosHashInit(SMA_STATE_ITEM_HASH_SLOT, taosGetDefaultHashFunction(TSDB_DATA_TYPE_TIMESTAMP), true, HASH_ENTRY_LOCK); if (!pItem->expiredWindows) { tfree(pItem); } } return pItem; } /** * @brief Release resources allocated for its member fields, not including itself. * * @param pSmaStat * @return int32_t */ int32_t tsdbDestroySmaState(SSmaStat *pSmaStat) { if (pSmaStat) { // TODO: use taosHashSetFreeFp when taosHashSetFreeFp is ready. void *item = taosHashIterate(pSmaStat->smaStatItems, NULL); while (item != NULL) { SSmaStatItem *pItem = *(SSmaStatItem **)item; if (pItem != NULL) { tdDestroyTSma(pItem->pSma); tfree(pItem->pSma); taosHashCleanup(pItem->expiredWindows); tfree(pItem); } item = taosHashIterate(pSmaStat->smaStatItems, item); } taosHashCleanup(pSmaStat->smaStatItems); } } static int32_t tsdbCheckAndInitSmaEnv(STsdb *pTsdb, int8_t smaType) { SSmaEnv *pEnv = NULL; // return if already init switch (smaType) { case TSDB_SMA_TYPE_TIME_RANGE: if ((pEnv = (SSmaEnv *)atomic_load_ptr(&pTsdb->pTSmaEnv)) != NULL) { return TSDB_CODE_SUCCESS; } break; case TSDB_SMA_TYPE_ROLLUP: if ((pEnv = (SSmaEnv *)atomic_load_ptr(&pTsdb->pRSmaEnv)) != NULL) { return TSDB_CODE_SUCCESS; } break; default: terrno = TSDB_CODE_INVALID_PARA; return TSDB_CODE_FAILED; } // init sma env tsdbLockRepo(pTsdb); pEnv = (smaType == TSDB_SMA_TYPE_TIME_RANGE) ? atomic_load_ptr(&pTsdb->pTSmaEnv) : atomic_load_ptr(&pTsdb->pRSmaEnv); if (pEnv == NULL) { char rname[TSDB_FILENAME_LEN] = {0}; char aname[TSDB_FILENAME_LEN] = {0}; // use TSDB_FILENAME_LEN currently SDiskID did = {0}; tfsAllocDisk(pTsdb->pTfs, TFS_PRIMARY_LEVEL, &did); if (did.level < 0 || did.id < 0) { tsdbUnlockRepo(pTsdb); return TSDB_CODE_FAILED; } tsdbGetSmaDir(REPO_ID(pTsdb), smaType, rname); tfsAbsoluteName(pTsdb->pTfs, did, rname, aname); if (tfsMkdirRecurAt(pTsdb->pTfs, rname, did) != TSDB_CODE_SUCCESS) { tsdbUnlockRepo(pTsdb); return TSDB_CODE_FAILED; } if (tsdbInitSmaEnv(pTsdb, aname, &pEnv) != TSDB_CODE_SUCCESS) { tsdbUnlockRepo(pTsdb); return TSDB_CODE_FAILED; } (smaType == TSDB_SMA_TYPE_TIME_RANGE) ? atomic_store_ptr(&pTsdb->pTSmaEnv, pEnv) : atomic_store_ptr(&pTsdb->pRSmaEnv, pEnv); } tsdbUnlockRepo(pTsdb); return TSDB_CODE_SUCCESS; }; /** * @brief Update expired window according to msg from stream computing module. * * @param pTsdb * @param smaType ETsdbSmaType * @param msg * @return int32_t */ int32_t tsdbUpdateExpiredWindow(STsdb *pTsdb, ETsdbSmaType smaType, char *msg) { if (!msg || !pTsdb->pMeta) { terrno = TSDB_CODE_INVALID_PTR; return TSDB_CODE_FAILED; } if (tsdbCheckAndInitSmaEnv(pTsdb, smaType) != TSDB_CODE_SUCCESS) { terrno = TSDB_CODE_TDB_INIT_FAILED; return TSDB_CODE_FAILED; } // TODO: decode the msg from Stream Computing module => start int64_t indexUid = SMA_TEST_INDEX_UID; const int32_t SMA_TEST_EXPIRED_WINDOW_SIZE = 10; TSKEY expiredWindows[SMA_TEST_EXPIRED_WINDOW_SIZE]; TSKEY skey1 = 1646987196 * 1e3; for (int32_t i = 0; i < SMA_TEST_EXPIRED_WINDOW_SIZE; ++i) { expiredWindows[i] = skey1 + i; } // TODO: decode the msg <= end SSmaEnv * pEnv = REPO_SMA_ENV(pTsdb, smaType); SSmaStat *pStat = SMA_ENV_STAT(pEnv); SHashObj *pItemsHash = SMA_ENV_STAT_ITEMS(pEnv); TASSERT(pEnv != NULL && pStat != NULL && pItemsHash != NULL); tsdbRefSmaStat(pTsdb, pStat); SSmaStatItem *pItem = taosHashGet(pItemsHash, &indexUid, sizeof(indexUid)); if (pItem == NULL) { pItem = tsdbNewSmaStatItem(TSDB_SMA_STAT_EXPIRED); // TODO use the real state if (pItem == NULL) { // Response to stream computing: OOM // For query, if the indexUid not found, the TSDB should tell query module to query raw TS data. tsdbUnRefSmaStat(pTsdb, pStat); return TSDB_CODE_FAILED; } // cache smaMeta STSma *pSma = metaGetSmaInfoByIndex(pTsdb->pMeta, indexUid); if (pSma == NULL) { terrno = TSDB_CODE_TDB_NO_SMA_INDEX_IN_META; taosHashCleanup(pItem->expiredWindows); free(pItem); tsdbUnRefSmaStat(pTsdb, pStat); tsdbWarn("vgId:%d update expired window failed for smaIndex %" PRIi64 " since %s", REPO_ID(pTsdb), indexUid, tstrerror(terrno)); return TSDB_CODE_FAILED; } pItem->pSma = pSma; if (taosHashPut(pItemsHash, &indexUid, sizeof(indexUid), &pItem, sizeof(pItem)) != 0) { // If error occurs during put smaStatItem, free the resources of pItem taosHashCleanup(pItem->expiredWindows); free(pItem); tsdbUnRefSmaStat(pTsdb, pStat); return TSDB_CODE_FAILED; } } int8_t state = TSDB_SMA_STAT_EXPIRED; for (int32_t i = 0; i < SMA_TEST_EXPIRED_WINDOW_SIZE; ++i) { if (taosHashPut(pItem->expiredWindows, expiredWindows + i, sizeof(TSKEY), &state, sizeof(state)) != 0) { // If error occurs during taosHashPut expired windows, remove the smaIndex from pTsdb->pSmaStat, thus TSDB would // tell query module to query raw TS data. // N.B. // 1) It is assumed to be extemely little probability event of fail to taosHashPut. // 2) This would solve the inconsistency to some extent, but not completely, unless we record all expired // windows failed to put into hash table. taosHashCleanup(pItem->expiredWindows); tfree(pItem->pSma); taosHashRemove(pItemsHash, &indexUid, sizeof(indexUid)); tsdbUnRefSmaStat(pTsdb, pStat); return TSDB_CODE_FAILED; } tsdbDebug("vgId:%d smaIndex %" PRIi64 " tsKey %" PRIi64 " is put to hash", REPO_ID(pTsdb), indexUid, expiredWindows[i]); } tsdbUnRefSmaStat(pTsdb, pStat); return TSDB_CODE_SUCCESS; } static int32_t tsdbResetExpiredWindow(STsdb *pTsdb, SSmaStat *pStat, int64_t indexUid, TSKEY skey) { SSmaStatItem *pItem = NULL; tsdbRefSmaStat(pTsdb, pStat); if (pStat && pStat->smaStatItems) { pItem = taosHashGet(pStat->smaStatItems, &indexUid, sizeof(indexUid)); } if ((pItem != NULL) && ((pItem = *(SSmaStatItem **)pItem) != NULL)) { // pItem resides in hash buffer all the time unless drop sma index // TODO: multithread protect if (taosHashRemove(pItem->expiredWindows, &skey, sizeof(TSKEY)) != 0) { // error handling tsdbUnRefSmaStat(pTsdb, pStat); tsdbWarn("vgId:%d remove skey %" PRIi64 " from expired window for sma index %" PRIi64 " failed", REPO_ID(pTsdb), skey, indexUid); return TSDB_CODE_FAILED; } } else { // error handling tsdbUnRefSmaStat(pTsdb, pStat); tsdbWarn("vgId:%d expired window %" PRIi64 " not exists for sma index %" PRIi64, REPO_ID(pTsdb), skey, indexUid); return TSDB_CODE_FAILED; } tsdbUnRefSmaStat(pTsdb, pStat); return TSDB_CODE_SUCCESS; } /** * @brief Judge the tSma storage level * * @param interval * @param intervalUnit * @return int32_t */ static int32_t tsdbGetSmaStorageLevel(int64_t interval, int8_t intervalUnit) { // TODO: configurable for SMA_STORAGE_SPLIT_HOURS? switch (intervalUnit) { case TIME_UNIT_HOUR: if (interval < SMA_STORAGE_SPLIT_HOURS) { return SMA_STORAGE_LEVEL_DFILESET; } break; case TIME_UNIT_MINUTE: if (interval < 60 * SMA_STORAGE_SPLIT_HOURS) { return SMA_STORAGE_LEVEL_DFILESET; } break; case TIME_UNIT_SECOND: if (interval < 3600 * SMA_STORAGE_SPLIT_HOURS) { return SMA_STORAGE_LEVEL_DFILESET; } break; case TIME_UNIT_MILLISECOND: if (interval < 3600 * 1e3 * SMA_STORAGE_SPLIT_HOURS) { return SMA_STORAGE_LEVEL_DFILESET; } break; case TIME_UNIT_MICROSECOND: if (interval < 3600 * 1e6 * SMA_STORAGE_SPLIT_HOURS) { return SMA_STORAGE_LEVEL_DFILESET; } break; case TIME_UNIT_NANOSECOND: if (interval < 3600 * 1e9 * SMA_STORAGE_SPLIT_HOURS) { return SMA_STORAGE_LEVEL_DFILESET; } break; default: break; } return SMA_STORAGE_LEVEL_TSDB; } /** * @brief Insert TSma data blocks to DB File build by B+Tree * * @param pSmaH * @param smaKey tableUid-colId-skeyOfWindow(8-2-8) * @param keyLen * @param pData * @param dataLen * @return int32_t */ static int32_t tsdbInsertTSmaBlocks(STSmaWriteH *pSmaH, void *smaKey, uint32_t keyLen, void *pData, uint32_t dataLen) { SDBFile *pDBFile = &pSmaH->dFile; tsdbDebug("vgId:%d insert sma data blocks into %s: smaKey %" PRIx64 "-%" PRIu16 "-%" PRIx64 ", dataLen %d", REPO_ID(pSmaH->pTsdb), pDBFile->path, *(tb_uid_t *)smaKey, *(uint16_t *)POINTER_SHIFT(smaKey, 8), *(int64_t *)POINTER_SHIFT(smaKey, 10), dataLen); // TODO: insert sma data blocks into B+Tree(TDB) if (tsdbSaveSmaToDB(pDBFile, smaKey, keyLen, pData, dataLen) != 0) { return TSDB_CODE_FAILED; } #ifdef _TEST_SMA_PRINT_DEBUG_LOG_ uint32_t valueSize = 0; void * data = tsdbGetSmaDataByKey(pDBFile, smaKey, keyLen, &valueSize); ASSERT(data != NULL); for (uint32_t v = 0; v < valueSize; v += 8) { tsdbWarn("vgId:%d insert sma data val[%d] %" PRIi64, REPO_ID(pSmaH->pTsdb), v, *(int64_t *)POINTER_SHIFT(data, v)); } #endif return TSDB_CODE_SUCCESS; } /** * @brief Approximate value for week/month/year. * * @param interval * @param intervalUnit * @param precision * @return int64_t */ static int64_t tsdbGetIntervalByPrecision(int64_t interval, uint8_t intervalUnit, int8_t precision) { switch (intervalUnit) { case TIME_UNIT_YEAR: // approximate value interval *= 365 * 86400 * 1e3; break; case TIME_UNIT_MONTH: // approximate value interval *= 30 * 86400 * 1e3; break; case TIME_UNIT_WEEK: // approximate value interval *= 7 * 86400 * 1e3; break; case TIME_UNIT_DAY: // the interval for tSma calculation must <= day interval *= 86400 * 1e3; break; case TIME_UNIT_HOUR: interval *= 3600 * 1e3; break; case TIME_UNIT_MINUTE: interval *= 60 * 1e3; break; case TIME_UNIT_SECOND: interval *= 1e3; break; default: break; } switch (precision) { case TSDB_TIME_PRECISION_MILLI: if (TIME_UNIT_MICROSECOND == intervalUnit) { // us return interval / 1e3; } else if (TIME_UNIT_NANOSECOND == intervalUnit) { // nano second return interval / 1e6; } else { // ms return interval; } break; case TSDB_TIME_PRECISION_MICRO: if (TIME_UNIT_MICROSECOND == intervalUnit) { // us return interval; } else if (TIME_UNIT_NANOSECOND == intervalUnit) { // ns return interval / 1e3; } else { // ms return interval * 1e3; } break; case TSDB_TIME_PRECISION_NANO: if (TIME_UNIT_MICROSECOND == intervalUnit) { // us return interval * 1e3; } else if (TIME_UNIT_NANOSECOND == intervalUnit) { // ns return interval; } else { // ms return interval * 1e6; } break; default: // ms if (TIME_UNIT_MICROSECOND == intervalUnit) { // us return interval / 1e3; } else if (TIME_UNIT_NANOSECOND == intervalUnit) { // ns return interval / 1e6; } else { // ms return interval; } break; } return interval; } /** * @brief Split the TSma data blocks into expected size and insert into B+Tree. * * @param pSmaH * @param pData * @param nOffset The nOffset of blocks since fid changes. * @param nBlocks The nBlocks with the same fid since nOffset. * @return int32_t */ static int32_t tsdbInsertTSmaDataSection(STSmaWriteH *pSmaH, STSmaDataWrapper *pData) { STsdb *pTsdb = pSmaH->pTsdb; tsdbDebug("tsdbInsertTSmaDataSection: index %" PRIi64 ", skey %" PRIi64, pData->indexUid, pData->skey); // TODO: check the data integrity int32_t len = 0; while (true) { if (len >= pData->dataLen) { break; } assert(pData->dataLen > 0); STSmaTbData *pTbData = (STSmaTbData *)POINTER_SHIFT(pData->data, len); int32_t tbLen = 0; while (true) { if (tbLen >= pTbData->dataLen) { break; } assert(pTbData->dataLen > 0); STSmaColData *pColData = (STSmaColData *)POINTER_SHIFT(pTbData->data, tbLen); char smaKey[SMA_KEY_LEN] = {0}; void * pSmaKey = &smaKey; #if 0 printf("tsdbInsertTSmaDataSection: index %" PRIi64 ", skey %" PRIi64 " table[%" PRIi64 "]col[%" PRIu16 "]\n", pData->indexUid, pData->skey, pTbData->tableUid, pColData->colId); #endif tsdbEncodeTSmaKey(pTbData->tableUid, pColData->colId, pData->skey, (void **)&pSmaKey); if (tsdbInsertTSmaBlocks(pSmaH, smaKey, SMA_KEY_LEN, pColData->data, pColData->blockSize) < 0) { tsdbWarn("vgId:%d insert tSma blocks failed since %s", REPO_ID(pTsdb), tstrerror(terrno)); } tbLen += (sizeof(STSmaColData) + pColData->blockSize); } len += (sizeof(STSmaTbData) + pTbData->dataLen); } return TSDB_CODE_SUCCESS; } static int32_t tsdbInitTSmaWriteH(STSmaWriteH *pSmaH, STsdb *pTsdb, STSmaDataWrapper *pData) { pSmaH->pTsdb = pTsdb; pSmaH->interval = tsdbGetIntervalByPrecision(pData->interval, pData->intervalUnit, REPO_CFG(pTsdb)->precision); return TSDB_CODE_SUCCESS; } static void tsdbDestroyTSmaWriteH(STSmaWriteH *pSmaH) { if (pSmaH) { tsdbCloseDBF(&pSmaH->dFile); } } static int32_t tsdbSetTSmaDataFile(STSmaWriteH *pSmaH, STSmaDataWrapper *pData, int32_t storageLevel, int32_t fid) { STsdb *pTsdb = pSmaH->pTsdb; ASSERT(pSmaH->dFile.path == NULL && pSmaH->dFile.pDB == NULL); pSmaH->dFile.fid = fid; char tSmaFile[TSDB_FILENAME_LEN] = {0}; snprintf(tSmaFile, TSDB_FILENAME_LEN, "v%df%d.tsma", REPO_ID(pTsdb), fid); pSmaH->dFile.path = strdup(tSmaFile); return TSDB_CODE_SUCCESS; } /** * @brief * * @param pTsdb * @param interval Interval calculated by DB's precision * @param storageLevel * @return int32_t */ static int32_t tsdbGetTSmaDays(STsdb *pTsdb, int64_t interval, int32_t storageLevel) { STsdbCfg *pCfg = REPO_CFG(pTsdb); int32_t daysPerFile = pCfg->daysPerFile; if (storageLevel == SMA_STORAGE_LEVEL_TSDB) { int32_t days = SMA_STORAGE_TSDB_TIMES * (interval / tsTickPerDay[pCfg->precision]); daysPerFile = days > SMA_STORAGE_TSDB_DAYS ? days : SMA_STORAGE_TSDB_DAYS; } return daysPerFile; } /** * @brief Insert/Update Time-range-wise SMA data. * - If interval < SMA_STORAGE_SPLIT_HOURS(e.g. 24), save the SMA data as a part of DFileSet to e.g. * v3f1900.tsma.${sma_index_name}. The days is the same with that for TS data files. * - If interval >= SMA_STORAGE_SPLIT_HOURS, save the SMA data to e.g. vnode3/tsma/v3f632.tsma.${sma_index_name}. The * days is 30 times of the interval, and the minimum days is SMA_STORAGE_TSDB_DAYS(30d). * - The destination file of one data block for some interval is determined by its start TS key. * * @param pTsdb * @param msg * @return int32_t */ static int32_t tsdbInsertTSmaDataImpl(STsdb *pTsdb, char *msg) { STsdbCfg * pCfg = REPO_CFG(pTsdb); STSmaDataWrapper *pData = (STSmaDataWrapper *)msg; if (!atomic_load_ptr(&pTsdb->pTSmaEnv)) { terrno = TSDB_CODE_INVALID_PTR; tsdbWarn("vgId:%d insert tSma data failed since pTSmaEnv is NULL", REPO_ID(pTsdb)); return terrno; } if (pData->dataLen <= 0) { TASSERT(0); terrno = TSDB_CODE_INVALID_PARA; return TSDB_CODE_FAILED; } STSmaWriteH tSmaH = {0}; if (tsdbInitTSmaWriteH(&tSmaH, pTsdb, pData) != 0) { return TSDB_CODE_FAILED; } // Step 1: Judge the storage level and days int32_t storageLevel = tsdbGetSmaStorageLevel(pData->interval, pData->intervalUnit); int32_t daysPerFile = tsdbGetTSmaDays(pTsdb, tSmaH.interval, storageLevel); int32_t fid = (int32_t)(TSDB_KEY_FID(pData->skey, daysPerFile, pCfg->precision)); // Step 2: Set the DFile for storage of SMA index, and iterate/split the TSma data and store to B+Tree index file // - Set and open the DFile or the B+Tree file // TODO: tsdbStartTSmaCommit(); tsdbSetTSmaDataFile(&tSmaH, pData, storageLevel, fid); if (tsdbOpenDBF(pTsdb->pTSmaEnv->dbEnv, &tSmaH.dFile) != 0) { tsdbWarn("vgId:%d open DB file %s failed since %s", REPO_ID(pTsdb), tSmaH.dFile.path ? tSmaH.dFile.path : "path is NULL", tstrerror(terrno)); tsdbDestroyTSmaWriteH(&tSmaH); return TSDB_CODE_FAILED; } if (tsdbInsertTSmaDataSection(&tSmaH, pData) != 0) { tsdbWarn("vgId:%d insert tSma data section failed since %s", REPO_ID(pTsdb), tstrerror(terrno)); tsdbDestroyTSmaWriteH(&tSmaH); return TSDB_CODE_FAILED; } // TODO:tsdbEndTSmaCommit(); // Step 3: reset the SSmaStat tsdbResetExpiredWindow(pTsdb, SMA_ENV_STAT(pTsdb->pTSmaEnv), pData->indexUid, pData->skey); tsdbDestroyTSmaWriteH(&tSmaH); return TSDB_CODE_SUCCESS; } static int32_t tsdbSetRSmaDataFile(STSmaWriteH *pSmaH, STSmaDataWrapper *pData, int32_t fid) { STsdb *pTsdb = pSmaH->pTsdb; char tSmaFile[TSDB_FILENAME_LEN] = {0}; snprintf(tSmaFile, TSDB_FILENAME_LEN, "v%df%d.rsma", REPO_ID(pTsdb), fid); pSmaH->dFile.path = strdup(tSmaFile); return TSDB_CODE_SUCCESS; } static int32_t tsdbInsertRSmaDataImpl(STsdb *pTsdb, char *msg) { STsdbCfg * pCfg = REPO_CFG(pTsdb); STSmaDataWrapper *pData = (STSmaDataWrapper *)msg; STSmaWriteH tSmaH = {0}; tsdbInitTSmaWriteH(&tSmaH, pTsdb, pData); if (pData->dataLen <= 0) { TASSERT(0); terrno = TSDB_CODE_INVALID_PARA; return terrno; } // Step 1: Judge the storage level int32_t storageLevel = tsdbGetSmaStorageLevel(pData->interval, pData->intervalUnit); int32_t daysPerFile = storageLevel == SMA_STORAGE_LEVEL_TSDB ? SMA_STORAGE_TSDB_DAYS : pCfg->daysPerFile; // Step 2: Set the DFile for storage of SMA index, and iterate/split the TSma data and store to B+Tree index file // - Set and open the DFile or the B+Tree file int32_t fid = (int32_t)(TSDB_KEY_FID(pData->skey, daysPerFile, pCfg->precision)); // Save all the TSma data to one file // TODO: tsdbStartTSmaCommit(); tsdbSetTSmaDataFile(&tSmaH, pData, storageLevel, fid); tsdbInsertTSmaDataSection(&tSmaH, pData); // TODO:tsdbEndTSmaCommit(); // reset the SSmaStat tsdbResetExpiredWindow(pTsdb, SMA_ENV_STAT(pTsdb->pRSmaEnv), pData->indexUid, pData->skey); return TSDB_CODE_SUCCESS; } /** * @brief * * @param pSmaH * @param pTsdb * @param interval * @param intervalUnit * @return int32_t */ static int32_t tsdbInitTSmaReadH(STSmaReadH *pSmaH, STsdb *pTsdb, int64_t interval, int8_t intervalUnit) { pSmaH->pTsdb = pTsdb; pSmaH->interval = tsdbGetIntervalByPrecision(interval, intervalUnit, REPO_CFG(pTsdb)->precision); pSmaH->storageLevel = tsdbGetSmaStorageLevel(interval, intervalUnit); pSmaH->days = tsdbGetTSmaDays(pTsdb, pSmaH->interval, pSmaH->storageLevel); } /** * @brief Init of tSma FS * * @param pReadH * @param skey * @return int32_t */ static int32_t tsdbInitTSmaFile(STSmaReadH *pSmaH, TSKEY skey) { int32_t fid = (int32_t)(TSDB_KEY_FID(skey, pSmaH->days, REPO_CFG(pSmaH->pTsdb)->precision)); char tSmaFile[TSDB_FILENAME_LEN] = {0}; snprintf(tSmaFile, TSDB_FILENAME_LEN, "v%df%d.tsma", REPO_ID(pSmaH->pTsdb), fid); pSmaH->dFile.path = strdup(tSmaFile); pSmaH->smaFsIter.iter = 0; pSmaH->smaFsIter.fid = fid; } /** * @brief Set and open tSma file if it has key locates in queryWin. * * @param pReadH * @param param * @param queryWin * @return true * @return false */ static bool tsdbSetAndOpenTSmaFile(STSmaReadH *pReadH, TSKEY *queryKey) { SArray *smaFs = pReadH->pTsdb->fs->cstatus->sf; int32_t nSmaFs = taosArrayGetSize(smaFs); tsdbCloseDBF(&pReadH->dFile); #if 0 while (pReadH->smaFsIter.iter < nSmaFs) { void *pSmaFile = taosArrayGet(smaFs, pReadH->smaFsIter.iter); if (pSmaFile) { // match(indexName, queryWindow) // TODO: select the file by index_name ... pReadH->dFile = pSmaFile; ++pReadH->smaFsIter.iter; break; } ++pReadH->smaFsIter.iter; } if (pReadH->pDFile != NULL) { tsdbDebug("vg%d: smaFile %s matched", REPO_ID(pReadH->pTsdb), "[pSmaFile dir]"); return true; } #endif return false; } /** * @brief * * @param pTsdb Return the data between queryWin and fill the pData. * @param pData * @param indexUid * @param interval * @param intervalUnit * @param tableUid * @param colId * @param pQuerySKey * @param nMaxResult The query invoker should control the nMaxResult need to return to avoid OOM. * @return int32_t */ static int32_t tsdbGetTSmaDataImpl(STsdb *pTsdb, STSmaDataWrapper *pData, int64_t indexUid, int64_t interval, int8_t intervalUnit, tb_uid_t tableUid, col_id_t colId, TSKEY querySKey, int32_t nMaxResult) { if (!atomic_load_ptr(&pTsdb->pTSmaEnv)) { terrno = TSDB_CODE_INVALID_PTR; tsdbWarn("vgId:%d getTSmaDataImpl failed since pTSmaEnv is NULL", REPO_ID(pTsdb)); return TSDB_CODE_FAILED; } tsdbRefSmaStat(pTsdb, SMA_ENV_STAT(pTsdb->pTSmaEnv)); SSmaStatItem *pItem = taosHashGet(SMA_ENV_STAT_ITEMS(pTsdb->pTSmaEnv), &indexUid, sizeof(indexUid)); if ((pItem == NULL) || ((pItem = *(SSmaStatItem **)pItem) == NULL)) { // Normally pItem should not be NULL, mark all windows as expired and notify query module to fetch raw TS data if // it's NULL. tsdbUnRefSmaStat(pTsdb, SMA_ENV_STAT(pTsdb->pTSmaEnv)); terrno = TSDB_CODE_TDB_INVALID_ACTION; tsdbDebug("vgId:%d getTSmaDataImpl failed since no index %" PRIi64, REPO_ID(pTsdb), indexUid); return TSDB_CODE_FAILED; } #if 0 int32_t nQueryWin = taosArrayGetSize(pQuerySKey); for (int32_t n = 0; n < nQueryWin; ++n) { TSKEY skey = taosArrayGet(pQuerySKey, n); if (taosHashGet(pItem->expiredWindows, &skey, sizeof(TSKEY)) != NULL) { // TODO: mark this window as expired. } } #endif #if 1 if (taosHashGet(pItem->expiredWindows, &querySKey, sizeof(TSKEY)) != NULL) { // TODO: mark this window as expired. tsdbDebug("vgId:%d skey %" PRIi64 " of window exists in expired window for index %" PRIi64, REPO_ID(pTsdb), querySKey, indexUid); } else { tsdbDebug("vgId:%d skey %" PRIi64 " of window not in expired window for index %" PRIi64, REPO_ID(pTsdb), querySKey, indexUid); } tsdbUnRefSmaStat(pTsdb, SMA_ENV_STAT(pTsdb->pTSmaEnv)); #endif STSmaReadH tReadH = {0}; tsdbInitTSmaReadH(&tReadH, pTsdb, interval, intervalUnit); tsdbCloseDBF(&tReadH.dFile); tsdbInitTSmaFile(&tReadH, querySKey); if (tsdbOpenDBF(SMA_ENV_ENV(pTsdb->pTSmaEnv), &tReadH.dFile) != 0) { tsdbWarn("vgId:%d open DBF %s failed since %s", REPO_ID(pTsdb), tReadH.dFile.path, tstrerror(terrno)); return TSDB_CODE_FAILED; } char smaKey[SMA_KEY_LEN] = {0}; void *pSmaKey = &smaKey; tsdbEncodeTSmaKey(tableUid, colId, querySKey, (void **)&pSmaKey); tsdbDebug("vgId:%d get sma data from %s: smaKey %" PRIx64 "-%" PRIu16 "-%" PRIx64 ", keyLen %d", REPO_ID(pTsdb), tReadH.dFile.path, *(tb_uid_t *)smaKey, *(uint16_t *)POINTER_SHIFT(smaKey, 8), *(int64_t *)POINTER_SHIFT(smaKey, 10), SMA_KEY_LEN); void * result = NULL; uint32_t valueSize = 0; if ((result = tsdbGetSmaDataByKey(&tReadH.dFile, smaKey, SMA_KEY_LEN, &valueSize)) == NULL) { tsdbWarn("vgId:%d get sma data failed from smaIndex %" PRIi64 ", smaKey %" PRIx64 "-%" PRIu16 "-%" PRIx64 " since %s", REPO_ID(pTsdb), indexUid, *(tb_uid_t *)smaKey, *(uint16_t *)POINTER_SHIFT(smaKey, 8), *(int64_t *)POINTER_SHIFT(smaKey, 10), tstrerror(terrno)); tsdbCloseDBF(&tReadH.dFile); return TSDB_CODE_FAILED; } #ifdef _TEST_SMA_PRINT_DEBUG_LOG_ for (uint32_t v = 0; v < valueSize; v += 8) { tsdbWarn("vgId:%d get sma data v[%d]=%" PRIi64, REPO_ID(pTsdb), v, *(int64_t *)POINTER_SHIFT(result, v)); } #endif tfree(result); // TODO: fill the result to output #if 0 int32_t nResult = 0; int64_t lastKey = 0; while (true) { if (nResult >= nMaxResult) { break; } // set and open the file according to the STSma param if (tsdbSetAndOpenTSmaFile(&tReadH, queryWin)) { char bTree[100] = "\0"; while (strncmp(bTree, "has more nodes", 100) == 0) { if (nResult >= nMaxResult) { break; } // tsdbGetDataFromBTree(bTree, queryWin, lastKey) // fill the pData ++nResult; } } } #endif // read data from file and fill the result tsdbCloseDBF(&tReadH.dFile); return TSDB_CODE_SUCCESS; } #if 0 /** * @brief Get the start TS key of the last data block of one interval/sliding. * * @param pTsdb * @param param * @param result * @return int32_t * 1) Return 0 and fill the result if the check procedure is normal; * 2) Return -1 if error occurs during the check procedure. */ int32_t tsdbGetTSmaStatus(STsdb *pTsdb, void *smaIndex, void *result) { const char *procedure = ""; if (strncmp(procedure, "get the start TS key of the last data block", 100) != 0) { return -1; } // fill the result return TSDB_CODE_SUCCESS; } /** * @brief Remove the tSma data files related to param between pWin. * * @param pTsdb * @param param * @param pWin * @return int32_t */ int32_t tsdbRemoveTSmaData(STsdb *pTsdb, void *smaIndex, STimeWindow *pWin) { // for ("tSmaFiles of param-interval-sliding between pWin") { // // remove the tSmaFile // } return TSDB_CODE_SUCCESS; } #endif /** * @brief Insert/Update tSma(Time-range-wise SMA) data from stream computing engine * * @param pTsdb * @param param * @param msg * @return int32_t * TODO: Who is responsible for resource allocate and release? */ int32_t tsdbInsertTSmaData(STsdb *pTsdb, char *msg) { int32_t code = TSDB_CODE_SUCCESS; if ((code = tsdbInsertTSmaDataImpl(pTsdb, msg)) < 0) { tsdbWarn("vgId:%d insert tSma data failed since %s", REPO_ID(pTsdb), tstrerror(terrno)); } return code; } int32_t tsdbUpdateSmaWindow(STsdb *pTsdb, int8_t smaType, char *msg) { int32_t code = TSDB_CODE_SUCCESS; if ((code = tsdbUpdateExpiredWindow(pTsdb, smaType, msg)) < 0) { tsdbWarn("vgId:%d update expired sma window failed since %s", REPO_ID(pTsdb), tstrerror(terrno)); } return code; } /** * @brief Insert Time-range-wise Rollup Sma(RSma) data * * @param pTsdb * @param msg * @return int32_t */ int32_t tsdbInsertRSmaData(STsdb *pTsdb, char *msg) { int32_t code = TSDB_CODE_SUCCESS; if ((code = tsdbInsertRSmaDataImpl(pTsdb, msg)) < 0) { tsdbWarn("vgId:%d insert rSma data failed since %s", REPO_ID(pTsdb), tstrerror(terrno)); } return code; } int32_t tsdbGetTSmaData(STsdb *pTsdb, STSmaDataWrapper *pData, int64_t indexUid, int64_t interval, int8_t intervalUnit, tb_uid_t tableUid, col_id_t colId, TSKEY querySKey, int32_t nMaxResult) { int32_t code = TSDB_CODE_SUCCESS; if ((code = tsdbGetTSmaDataImpl(pTsdb, pData, indexUid, interval, intervalUnit, tableUid, colId, querySKey, nMaxResult)) < 0) { tsdbWarn("vgId:%d get tSma data failed since %s", REPO_ID(pTsdb), tstrerror(terrno)); } return code; }