/* * 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 "tsdb.h" #include "tsdbDataFileRW.h" #include "tsdbReadUtil.h" #include "vnd.h" #define ROCKS_BATCH_SIZE (4096) static int32_t tsdbOpenBICache(STsdb *pTsdb) { int32_t code = 0; SLRUCache *pCache = taosLRUCacheInit(10 * 1024 * 1024, 0, .5); if (pCache == NULL) { code = TSDB_CODE_OUT_OF_MEMORY; goto _err; } taosLRUCacheSetStrictCapacity(pCache, false); taosThreadMutexInit(&pTsdb->biMutex, NULL); _err: pTsdb->biCache = pCache; return code; } static void tsdbCloseBICache(STsdb *pTsdb) { SLRUCache *pCache = pTsdb->biCache; if (pCache) { int32_t elems = taosLRUCacheGetElems(pCache); tsdbTrace("vgId:%d, elems: %d", TD_VID(pTsdb->pVnode), elems); taosLRUCacheEraseUnrefEntries(pCache); elems = taosLRUCacheGetElems(pCache); tsdbTrace("vgId:%d, elems: %d", TD_VID(pTsdb->pVnode), elems); taosLRUCacheCleanup(pCache); taosThreadMutexDestroy(&pTsdb->biMutex); } } #define ROCKS_KEY_LEN (sizeof(tb_uid_t) + sizeof(int16_t) + sizeof(int8_t)) typedef struct { tb_uid_t uid; int16_t cid; int8_t ltype; } SLastKey; static void tsdbGetRocksPath(STsdb *pTsdb, char *path) { SVnode *pVnode = pTsdb->pVnode; vnodeGetPrimaryDir(pTsdb->path, pVnode->diskPrimary, pVnode->pTfs, path, TSDB_FILENAME_LEN); int32_t offset = strlen(path); snprintf(path + offset, TSDB_FILENAME_LEN - offset - 1, "%scache.rdb", TD_DIRSEP); } static const char *myCmpName(void *state) { (void)state; return "myCmp"; } static void myCmpDestroy(void *state) { (void)state; } static int myCmp(void *state, const char *a, size_t alen, const char *b, size_t blen) { (void)state; (void)alen; (void)blen; SLastKey *lhs = (SLastKey *)a; SLastKey *rhs = (SLastKey *)b; if (lhs->uid < rhs->uid) { return -1; } else if (lhs->uid > rhs->uid) { return 1; } if (lhs->cid < rhs->cid) { return -1; } else if (lhs->cid > rhs->cid) { return 1; } if (lhs->ltype < rhs->ltype) { return -1; } else if (lhs->ltype > rhs->ltype) { return 1; } return 0; } static int32_t tsdbOpenRocksCache(STsdb *pTsdb) { int32_t code = 0; rocksdb_comparator_t *cmp = rocksdb_comparator_create(NULL, myCmpDestroy, myCmp, myCmpName); if (NULL == cmp) { code = TSDB_CODE_OUT_OF_MEMORY; return code; } rocksdb_cache_t *cache = rocksdb_cache_create_lru(5 * 1024 * 1024); pTsdb->rCache.blockcache = cache; rocksdb_block_based_table_options_t *tableoptions = rocksdb_block_based_options_create(); pTsdb->rCache.tableoptions = tableoptions; rocksdb_options_t *options = rocksdb_options_create(); if (NULL == options) { code = TSDB_CODE_OUT_OF_MEMORY; goto _err; } rocksdb_options_set_create_if_missing(options, 1); rocksdb_options_set_comparator(options, cmp); rocksdb_block_based_options_set_block_cache(tableoptions, cache); rocksdb_options_set_block_based_table_factory(options, tableoptions); rocksdb_options_set_info_log_level(options, 2); // WARN_LEVEL // rocksdb_options_set_inplace_update_support(options, 1); // rocksdb_options_set_allow_concurrent_memtable_write(options, 0); rocksdb_writeoptions_t *writeoptions = rocksdb_writeoptions_create(); if (NULL == writeoptions) { code = TSDB_CODE_OUT_OF_MEMORY; goto _err2; } rocksdb_writeoptions_disable_WAL(writeoptions, 1); rocksdb_readoptions_t *readoptions = rocksdb_readoptions_create(); if (NULL == readoptions) { code = TSDB_CODE_OUT_OF_MEMORY; goto _err3; } char *err = NULL; char cachePath[TSDB_FILENAME_LEN] = {0}; tsdbGetRocksPath(pTsdb, cachePath); rocksdb_t *db = rocksdb_open(options, cachePath, &err); if (NULL == db) { tsdbError("vgId:%d, %s failed at line %d since %s", TD_VID(pTsdb->pVnode), __func__, __LINE__, err); rocksdb_free(err); code = TSDB_CODE_OUT_OF_MEMORY; goto _err4; } rocksdb_flushoptions_t *flushoptions = rocksdb_flushoptions_create(); if (NULL == flushoptions) { code = TSDB_CODE_OUT_OF_MEMORY; goto _err5; } rocksdb_writebatch_t *writebatch = rocksdb_writebatch_create(); rocksdb_writebatch_t *rwritebatch = rocksdb_writebatch_create(); pTsdb->rCache.writebatch = writebatch; pTsdb->rCache.rwritebatch = rwritebatch; pTsdb->rCache.my_comparator = cmp; pTsdb->rCache.options = options; pTsdb->rCache.writeoptions = writeoptions; pTsdb->rCache.readoptions = readoptions; pTsdb->rCache.flushoptions = flushoptions; pTsdb->rCache.db = db; taosThreadMutexInit(&pTsdb->rCache.rMutex, NULL); pTsdb->rCache.pTSchema = NULL; return code; _err5: rocksdb_close(pTsdb->rCache.db); _err4: rocksdb_readoptions_destroy(readoptions); _err3: rocksdb_writeoptions_destroy(writeoptions); _err2: rocksdb_options_destroy(options); rocksdb_block_based_options_destroy(tableoptions); rocksdb_cache_destroy(cache); _err: rocksdb_comparator_destroy(cmp); return code; } static void tsdbCloseRocksCache(STsdb *pTsdb) { rocksdb_close(pTsdb->rCache.db); rocksdb_flushoptions_destroy(pTsdb->rCache.flushoptions); rocksdb_writebatch_destroy(pTsdb->rCache.writebatch); rocksdb_writebatch_destroy(pTsdb->rCache.rwritebatch); rocksdb_readoptions_destroy(pTsdb->rCache.readoptions); rocksdb_writeoptions_destroy(pTsdb->rCache.writeoptions); rocksdb_options_destroy(pTsdb->rCache.options); rocksdb_block_based_options_destroy(pTsdb->rCache.tableoptions); rocksdb_cache_destroy(pTsdb->rCache.blockcache); rocksdb_comparator_destroy(pTsdb->rCache.my_comparator); taosThreadMutexDestroy(&pTsdb->rCache.rMutex); taosMemoryFree(pTsdb->rCache.pTSchema); } static void rocksMayWrite(STsdb *pTsdb, bool force, bool read, bool lock) { rocksdb_writebatch_t *wb = pTsdb->rCache.writebatch; if (read) { if (lock) { taosThreadMutexLock(&pTsdb->lruMutex); } wb = pTsdb->rCache.rwritebatch; } else { if (lock) { taosThreadMutexLock(&pTsdb->rCache.rMutex); } } int count = rocksdb_writebatch_count(wb); if ((force && count > 0) || count >= ROCKS_BATCH_SIZE) { char *err = NULL; rocksdb_write(pTsdb->rCache.db, pTsdb->rCache.writeoptions, wb, &err); if (NULL != err) { tsdbError("vgId:%d, %s failed at line %d, count: %d since %s", TD_VID(pTsdb->pVnode), __func__, __LINE__, count, err); rocksdb_free(err); // pTsdb->flushState.flush_count = 0; } rocksdb_writebatch_clear(wb); } if (lock) { if (read) { taosThreadMutexUnlock(&pTsdb->lruMutex); } else { taosThreadMutexUnlock(&pTsdb->rCache.rMutex); } } } static SLastCol *tsdbCacheDeserialize(char const *value) { if (!value) { return NULL; } SLastCol *pLastCol = (SLastCol *)value; SColVal *pColVal = &pLastCol->colVal; if (IS_VAR_DATA_TYPE(pColVal->type)) { if (pColVal->value.nData > 0) { pColVal->value.pData = (char *)value + sizeof(*pLastCol); } else { pColVal->value.pData = NULL; } } return pLastCol; } static void tsdbCacheSerialize(SLastCol *pLastCol, char **value, size_t *size) { SColVal *pColVal = &pLastCol->colVal; size_t length = sizeof(*pLastCol); if (IS_VAR_DATA_TYPE(pColVal->type)) { length += pColVal->value.nData; } *value = taosMemoryMalloc(length); *(SLastCol *)(*value) = *pLastCol; if (IS_VAR_DATA_TYPE(pColVal->type)) { uint8_t *pVal = pColVal->value.pData; SColVal *pDColVal = &((SLastCol *)(*value))->colVal; pDColVal->value.pData = *value + sizeof(*pLastCol); if (pColVal->value.nData > 0) { memcpy(pDColVal->value.pData, pVal, pColVal->value.nData); } else { pDColVal->value.pData = NULL; } } *size = length; } static void tsdbCachePutBatch(SLastCol *pLastCol, const void *key, size_t klen, SCacheFlushState *state) { STsdb *pTsdb = state->pTsdb; SRocksCache *rCache = &pTsdb->rCache; rocksdb_writebatch_t *wb = rCache->writebatch; char *rocks_value = NULL; size_t vlen = 0; tsdbCacheSerialize(pLastCol, &rocks_value, &vlen); taosThreadMutexLock(&rCache->rMutex); rocksdb_writebatch_put(wb, (char *)key, klen, rocks_value, vlen); taosMemoryFree(rocks_value); if (++state->flush_count >= ROCKS_BATCH_SIZE) { char *err = NULL; rocksdb_write(rCache->db, rCache->writeoptions, wb, &err); if (NULL != err) { tsdbError("vgId:%d, %s failed at line %d, count: %d since %s", TD_VID(pTsdb->pVnode), __func__, __LINE__, state->flush_count, err); rocksdb_free(err); } rocksdb_writebatch_clear(wb); state->flush_count = 0; } taosThreadMutexUnlock(&rCache->rMutex); } int tsdbCacheFlushDirty(const void *key, size_t klen, void *value, void *ud) { SLastCol *pLastCol = (SLastCol *)value; if (pLastCol->dirty) { tsdbCachePutBatch(pLastCol, key, klen, (SCacheFlushState *)ud); pLastCol->dirty = 0; } return 0; } int32_t tsdbCacheCommit(STsdb *pTsdb) { int32_t code = 0; char *err = NULL; SLRUCache *pCache = pTsdb->lruCache; rocksdb_writebatch_t *wb = pTsdb->rCache.writebatch; taosThreadMutexLock(&pTsdb->lruMutex); taosLRUCacheApply(pCache, tsdbCacheFlushDirty, &pTsdb->flushState); rocksMayWrite(pTsdb, true, false, false); rocksMayWrite(pTsdb, true, true, false); rocksdb_flush(pTsdb->rCache.db, pTsdb->rCache.flushoptions, &err); taosThreadMutexUnlock(&pTsdb->lruMutex); if (NULL != err) { tsdbError("vgId:%d, %s failed at line %d since %s", TD_VID(pTsdb->pVnode), __func__, __LINE__, err); rocksdb_free(err); code = -1; } return code; } static SLastCol *tsdbCacheLookup(STsdb *pTsdb, tb_uid_t uid, int16_t cid, int8_t ltype) { SLastCol *pLastCol = NULL; char *err = NULL; size_t vlen = 0; SLastKey *key = &(SLastKey){.ltype = ltype, .uid = uid, .cid = cid}; size_t klen = ROCKS_KEY_LEN; char *value = NULL; value = rocksdb_get(pTsdb->rCache.db, pTsdb->rCache.readoptions, (char *)key, klen, &vlen, &err); if (NULL != err) { tsdbError("vgId:%d, %s failed at line %d since %s", TD_VID(pTsdb->pVnode), __func__, __LINE__, err); rocksdb_free(err); } pLastCol = tsdbCacheDeserialize(value); return pLastCol; } static void reallocVarData(SColVal *pColVal) { if (IS_VAR_DATA_TYPE(pColVal->type)) { uint8_t *pVal = pColVal->value.pData; pColVal->value.pData = taosMemoryMalloc(pColVal->value.nData); if (pColVal->value.nData) { memcpy(pColVal->value.pData, pVal, pColVal->value.nData); } } } static void tsdbCacheDeleter(const void *key, size_t klen, void *value, void *ud) { SLastCol *pLastCol = (SLastCol *)value; if (pLastCol->dirty) { tsdbCachePutBatch(pLastCol, key, klen, (SCacheFlushState *)ud); } if (IS_VAR_DATA_TYPE(pLastCol->colVal.type) /* && pLastCol->colVal.value.nData > 0*/) { taosMemoryFree(pLastCol->colVal.value.pData); } taosMemoryFree(value); } typedef struct { int idx; SLastKey key; } SIdxKey; int32_t tsdbCacheUpdate(STsdb *pTsdb, tb_uid_t suid, tb_uid_t uid, TSDBROW *pRow) { int32_t code = 0; // 1, fetch schema STSchema *pTSchema = NULL; int32_t sver = TSDBROW_SVERSION(pRow); code = metaGetTbTSchemaEx(pTsdb->pVnode->pMeta, suid, uid, sver, &pTSchema); if (code != TSDB_CODE_SUCCESS) { terrno = code; return -1; } // 2, iterate col values into array SArray *aColVal = taosArrayInit(32, sizeof(SColVal)); STSDBRowIter iter = {0}; tsdbRowIterOpen(&iter, pRow, pTSchema); for (SColVal *pColVal = tsdbRowIterNext(&iter); pColVal; pColVal = tsdbRowIterNext(&iter)) { taosArrayPush(aColVal, pColVal); } tsdbRowClose(&iter); // 3, build keys & multi get from rocks int num_keys = TARRAY_SIZE(aColVal); TSKEY keyTs = TSDBROW_TS(pRow); SArray *remainCols = NULL; SLRUCache *pCache = pTsdb->lruCache; taosThreadMutexLock(&pTsdb->lruMutex); for (int i = 0; i < num_keys; ++i) { SColVal *pColVal = (SColVal *)taosArrayGet(aColVal, i); int16_t cid = pColVal->cid; SLastKey *key = &(SLastKey){.ltype = 0, .uid = uid, .cid = cid}; size_t klen = ROCKS_KEY_LEN; LRUHandle *h = taosLRUCacheLookup(pCache, key, klen); if (h) { SLastCol *pLastCol = (SLastCol *)taosLRUCacheValue(pCache, h); if (pLastCol->ts <= keyTs) { uint8_t *pVal = NULL; int nData = pLastCol->colVal.value.nData; if (IS_VAR_DATA_TYPE(pColVal->type)) { pVal = pLastCol->colVal.value.pData; } pLastCol->ts = keyTs; pLastCol->colVal = *pColVal; if (IS_VAR_DATA_TYPE(pColVal->type)) { if (nData < pColVal->value.nData) { taosMemoryFree(pVal); pLastCol->colVal.value.pData = taosMemoryCalloc(1, pColVal->value.nData); } else { pLastCol->colVal.value.pData = pVal; } if (pColVal->value.nData) { memcpy(pLastCol->colVal.value.pData, pColVal->value.pData, pColVal->value.nData); } } if (!pLastCol->dirty) { pLastCol->dirty = 1; } } taosLRUCacheRelease(pCache, h, false); } else { if (!remainCols) { remainCols = taosArrayInit(num_keys * 2, sizeof(SIdxKey)); } taosArrayPush(remainCols, &(SIdxKey){i, *key}); } if (COL_VAL_IS_VALUE(pColVal)) { key->ltype = 1; LRUHandle *h = taosLRUCacheLookup(pCache, key, klen); if (h) { SLastCol *pLastCol = (SLastCol *)taosLRUCacheValue(pCache, h); if (pLastCol->ts <= keyTs) { uint8_t *pVal = NULL; int nData = pLastCol->colVal.value.nData; if (IS_VAR_DATA_TYPE(pColVal->type)) { pVal = pLastCol->colVal.value.pData; } pLastCol->ts = keyTs; pLastCol->colVal = *pColVal; if (IS_VAR_DATA_TYPE(pColVal->type)) { if (nData < pColVal->value.nData) { taosMemoryFree(pVal); pLastCol->colVal.value.pData = taosMemoryCalloc(1, pColVal->value.nData); } else { pLastCol->colVal.value.pData = pVal; } if (pColVal->value.nData) { memcpy(pLastCol->colVal.value.pData, pColVal->value.pData, pColVal->value.nData); } } if (!pLastCol->dirty) { pLastCol->dirty = 1; } } taosLRUCacheRelease(pCache, h, false); } else { if (!remainCols) { remainCols = taosArrayInit(num_keys * 2, sizeof(SIdxKey)); } taosArrayPush(remainCols, &(SIdxKey){i, *key}); } } } if (remainCols) { num_keys = TARRAY_SIZE(remainCols); } if (remainCols && num_keys > 0) { char **keys_list = taosMemoryCalloc(num_keys, sizeof(char *)); size_t *keys_list_sizes = taosMemoryCalloc(num_keys, sizeof(size_t)); for (int i = 0; i < num_keys; ++i) { SIdxKey *idxKey = &((SIdxKey *)TARRAY_DATA(remainCols))[i]; keys_list[i] = (char *)&idxKey->key; keys_list_sizes[i] = ROCKS_KEY_LEN; } char **values_list = taosMemoryCalloc(num_keys, sizeof(char *)); size_t *values_list_sizes = taosMemoryCalloc(num_keys, sizeof(size_t)); char **errs = taosMemoryCalloc(num_keys, sizeof(char *)); rocksdb_multi_get(pTsdb->rCache.db, pTsdb->rCache.readoptions, num_keys, (const char *const *)keys_list, keys_list_sizes, values_list, values_list_sizes, errs); for (int i = 0; i < num_keys; ++i) { rocksdb_free(errs[i]); } taosMemoryFree(errs); taosMemoryFree(keys_list); taosMemoryFree(keys_list_sizes); taosMemoryFree(values_list_sizes); rocksdb_writebatch_t *wb = pTsdb->rCache.writebatch; for (int i = 0; i < num_keys; ++i) { SIdxKey *idxKey = &((SIdxKey *)TARRAY_DATA(remainCols))[i]; SColVal *pColVal = (SColVal *)TARRAY_DATA(aColVal) + idxKey->idx; // SColVal *pColVal = (SColVal *)taosArrayGet(aColVal, idxKey->idx); SLastCol *pLastCol = tsdbCacheDeserialize(values_list[i]); if (idxKey->key.ltype == 0) { if (NULL == pLastCol || pLastCol->ts <= keyTs) { char *value = NULL; size_t vlen = 0; tsdbCacheSerialize(&(SLastCol){.ts = keyTs, .colVal = *pColVal}, &value, &vlen); // SLastKey key = (SLastKey){.ltype = 0, .uid = uid, .cid = pColVal->cid}; taosThreadMutexLock(&pTsdb->rCache.rMutex); rocksdb_writebatch_put(wb, (char *)&idxKey->key, ROCKS_KEY_LEN, value, vlen); taosThreadMutexUnlock(&pTsdb->rCache.rMutex); pLastCol = (SLastCol *)value; SLastCol *pTmpLastCol = taosMemoryCalloc(1, sizeof(SLastCol)); *pTmpLastCol = *pLastCol; pLastCol = pTmpLastCol; reallocVarData(&pLastCol->colVal); size_t charge = sizeof(*pLastCol); if (IS_VAR_DATA_TYPE(pLastCol->colVal.type)) { charge += pLastCol->colVal.value.nData; } LRUStatus status = taosLRUCacheInsert(pTsdb->lruCache, &idxKey->key, ROCKS_KEY_LEN, pLastCol, charge, tsdbCacheDeleter, NULL, TAOS_LRU_PRIORITY_LOW, &pTsdb->flushState); if (status != TAOS_LRU_STATUS_OK) { code = -1; } taosMemoryFree(value); } } else { if (COL_VAL_IS_VALUE(pColVal)) { if (NULL == pLastCol || pLastCol->ts <= keyTs) { char *value = NULL; size_t vlen = 0; tsdbCacheSerialize(&(SLastCol){.ts = keyTs, .colVal = *pColVal}, &value, &vlen); // SLastKey key = (SLastKey){.ltype = 1, .uid = uid, .cid = pColVal->cid}; taosThreadMutexLock(&pTsdb->rCache.rMutex); rocksdb_writebatch_put(wb, (char *)&idxKey->key, ROCKS_KEY_LEN, value, vlen); taosThreadMutexUnlock(&pTsdb->rCache.rMutex); pLastCol = (SLastCol *)value; SLastCol *pTmpLastCol = taosMemoryCalloc(1, sizeof(SLastCol)); *pTmpLastCol = *pLastCol; pLastCol = pTmpLastCol; reallocVarData(&pLastCol->colVal); size_t charge = sizeof(*pLastCol); if (IS_VAR_DATA_TYPE(pLastCol->colVal.type)) { charge += pLastCol->colVal.value.nData; } LRUStatus status = taosLRUCacheInsert(pTsdb->lruCache, &idxKey->key, ROCKS_KEY_LEN, pLastCol, charge, tsdbCacheDeleter, NULL, TAOS_LRU_PRIORITY_LOW, &pTsdb->flushState); if (status != TAOS_LRU_STATUS_OK) { code = -1; } taosMemoryFree(value); } } } rocksdb_free(values_list[i]); } rocksMayWrite(pTsdb, true, false, true); taosMemoryFree(values_list); taosArrayDestroy(remainCols); } taosThreadMutexUnlock(&pTsdb->lruMutex); _exit: taosArrayDestroy(aColVal); taosMemoryFree(pTSchema); return code; } static int32_t mergeLastCid(tb_uid_t uid, STsdb *pTsdb, SArray **ppLastArray, SCacheRowsReader *pr, int16_t *aCols, int nCols, int16_t *slotIds); static int32_t mergeLastRowCid(tb_uid_t uid, STsdb *pTsdb, SArray **ppLastArray, SCacheRowsReader *pr, int16_t *aCols, int nCols, int16_t *slotIds); #if 1 int32_t tsdbCacheGetSlow(STsdb *pTsdb, tb_uid_t uid, SArray *pLastArray, SCacheRowsReader *pr, int8_t ltype) { rocksdb_writebatch_t *wb = NULL; int32_t code = 0; SArray *pCidList = pr->pCidList; int num_keys = TARRAY_SIZE(pCidList); char **keys_list = taosMemoryMalloc(num_keys * sizeof(char *)); size_t *keys_list_sizes = taosMemoryMalloc(num_keys * sizeof(size_t)); char *key_list = taosMemoryMalloc(num_keys * ROCKS_KEY_LEN); for (int i = 0; i < num_keys; ++i) { int16_t cid = *(int16_t *)taosArrayGet(pCidList, i); memcpy(key_list + i * ROCKS_KEY_LEN, &(SLastKey){.ltype = ltype, .uid = uid, .cid = cid}, ROCKS_KEY_LEN); keys_list[i] = key_list + i * ROCKS_KEY_LEN; keys_list_sizes[i] = ROCKS_KEY_LEN; } char **values_list = taosMemoryCalloc(num_keys, sizeof(char *)); size_t *values_list_sizes = taosMemoryCalloc(num_keys, sizeof(size_t)); char **errs = taosMemoryMalloc(num_keys * sizeof(char *)); rocksdb_multi_get(pTsdb->rCache.db, pTsdb->rCache.readoptions, num_keys, (const char *const *)keys_list, keys_list_sizes, values_list, values_list_sizes, errs); for (int i = 0; i < num_keys; ++i) { if (errs[i]) { rocksdb_free(errs[i]); } } taosMemoryFree(key_list); taosMemoryFree(keys_list); taosMemoryFree(keys_list_sizes); taosMemoryFree(errs); for (int i = 0; i < num_keys; ++i) { bool freeCol = true; SArray *pTmpColArray = NULL; SLastCol *pLastCol = tsdbCacheDeserialize(values_list[i]); int16_t cid = *(int16_t *)taosArrayGet(pCidList, i); SLastCol noneCol = {.ts = TSKEY_MIN, .colVal = COL_VAL_NONE(cid, pr->pSchema->columns[pr->pSlotIds[i]].type)}; if (pLastCol) { reallocVarData(&pLastCol->colVal); } else { taosThreadMutexLock(&pTsdb->rCache.rMutex); pLastCol = tsdbCacheLookup(pTsdb, uid, cid, ltype); if (!pLastCol) { // recalc: load from tsdb int16_t aCols[1] = {cid}; int16_t slotIds[1] = {pr->pSlotIds[i]}; pTmpColArray = NULL; if (ltype) { mergeLastCid(uid, pTsdb, &pTmpColArray, pr, aCols, 1, slotIds); } else { mergeLastRowCid(uid, pTsdb, &pTmpColArray, pr, aCols, 1, slotIds); } if (pTmpColArray && TARRAY_SIZE(pTmpColArray) >= 1) { pLastCol = taosArrayGet(pTmpColArray, 0); freeCol = false; } // still null, then make up a none col value if (!pLastCol) { pLastCol = &noneCol; freeCol = false; } // store result back to rocks cache wb = pTsdb->rCache.rwritebatch; char *value = NULL; size_t vlen = 0; tsdbCacheSerialize(pLastCol, &value, &vlen); SLastKey *key = &(SLastKey){.ltype = ltype, .uid = uid, .cid = pLastCol->colVal.cid}; size_t klen = ROCKS_KEY_LEN; rocksdb_writebatch_put(wb, (char *)key, klen, value, vlen); taosMemoryFree(value); } else { reallocVarData(&pLastCol->colVal); } if (wb) { rocksMayWrite(pTsdb, false, true, false); } taosThreadMutexUnlock(&pTsdb->rCache.rMutex); } taosArrayPush(pLastArray, pLastCol); taosArrayDestroy(pTmpColArray); if (freeCol) { taosMemoryFree(pLastCol); } } taosMemoryFree(values_list); taosMemoryFree(values_list_sizes); return code; } #endif static SLastCol *tsdbCacheLoadCol(STsdb *pTsdb, SCacheRowsReader *pr, int16_t slotid, tb_uid_t uid, int16_t cid, int8_t ltype) { SLastCol *pLastCol = tsdbCacheLookup(pTsdb, uid, cid, ltype); if (!pLastCol) { rocksdb_writebatch_t *wb = NULL; taosThreadMutexLock(&pTsdb->rCache.rMutex); pLastCol = tsdbCacheLookup(pTsdb, uid, cid, ltype); if (!pLastCol) { // recalc: load from tsdb int16_t aCols[1] = {cid}; int16_t slotIds[1] = {slotid}; SArray *pTmpColArray = NULL; if (ltype) { mergeLastCid(uid, pTsdb, &pTmpColArray, pr, aCols, 1, slotIds); } else { mergeLastRowCid(uid, pTsdb, &pTmpColArray, pr, aCols, 1, slotIds); } if (pTmpColArray && TARRAY_SIZE(pTmpColArray) >= 1) { pLastCol = taosArrayGet(pTmpColArray, 0); } // still null, then make up a none col value SLastCol noneCol = {.ts = TSKEY_MIN, .colVal = COL_VAL_NONE(cid, pr->pSchema->columns[slotid].type)}; if (!pLastCol) { pLastCol = &noneCol; } // store result back to rocks cache wb = pTsdb->rCache.rwritebatch; char *value = NULL; size_t vlen = 0; tsdbCacheSerialize(pLastCol, &value, &vlen); SLastKey *key = &(SLastKey){.ltype = ltype, .uid = uid, .cid = pLastCol->colVal.cid}; size_t klen = ROCKS_KEY_LEN; rocksdb_writebatch_put(wb, (char *)key, klen, value, vlen); taosMemoryFree(value); SLastCol *pTmpLastCol = taosMemoryCalloc(1, sizeof(SLastCol)); *pTmpLastCol = *pLastCol; pLastCol = pTmpLastCol; taosArrayDestroy(pTmpColArray); } if (wb) { rocksMayWrite(pTsdb, false, true, false); } taosThreadMutexUnlock(&pTsdb->rCache.rMutex); } return pLastCol; } static int32_t tsdbCacheLoadFromRaw(STsdb *pTsdb, tb_uid_t uid, SArray *pLastArray, SArray *remainCols, SCacheRowsReader *pr, int8_t ltype) { int32_t code = 0; rocksdb_writebatch_t *wb = NULL; SArray *pTmpColArray = NULL; int num_keys = TARRAY_SIZE(remainCols); int16_t *aCols = taosMemoryMalloc(num_keys * sizeof(int16_t)); int16_t *slotIds = taosMemoryMalloc(num_keys * sizeof(int16_t)); for (int i = 0; i < num_keys; ++i) { SIdxKey *idxKey = taosArrayGet(remainCols, i); aCols[i] = idxKey->key.cid; slotIds[i] = pr->pSlotIds[idxKey->idx]; } if (ltype) { mergeLastCid(uid, pTsdb, &pTmpColArray, pr, aCols, num_keys, slotIds); } else { mergeLastRowCid(uid, pTsdb, &pTmpColArray, pr, aCols, num_keys, slotIds); } SLRUCache *pCache = pTsdb->lruCache; for (int i = 0; i < num_keys; ++i) { SIdxKey *idxKey = taosArrayGet(remainCols, i); SLastCol *pLastCol = NULL; if (pTmpColArray && TARRAY_SIZE(pTmpColArray) >= i + 1) { pLastCol = taosArrayGet(pTmpColArray, i); } // still null, then make up a none col value SLastCol noneCol = {.ts = TSKEY_MIN, .colVal = COL_VAL_NONE(idxKey->key.cid, pr->pSchema->columns[slotIds[i]].type)}; if (!pLastCol) { pLastCol = &noneCol; reallocVarData(&pLastCol->colVal); } taosArraySet(pLastArray, idxKey->idx, pLastCol); // taosArrayRemove(remainCols, i); if (!pTmpColArray) { continue; } SLastCol *pTmpLastCol = taosMemoryCalloc(1, sizeof(SLastCol)); *pTmpLastCol = *pLastCol; pLastCol = pTmpLastCol; reallocVarData(&pLastCol->colVal); size_t charge = sizeof(*pLastCol); if (IS_VAR_DATA_TYPE(pLastCol->colVal.type)) { charge += pLastCol->colVal.value.nData; } LRUStatus status = taosLRUCacheInsert(pCache, &idxKey->key, ROCKS_KEY_LEN, pLastCol, charge, tsdbCacheDeleter, NULL, TAOS_LRU_PRIORITY_LOW, &pTsdb->flushState); if (status != TAOS_LRU_STATUS_OK) { code = -1; } // store result back to rocks cache wb = pTsdb->rCache.rwritebatch; char *value = NULL; size_t vlen = 0; tsdbCacheSerialize(pLastCol, &value, &vlen); SLastKey *key = &idxKey->key; size_t klen = ROCKS_KEY_LEN; rocksdb_writebatch_put(wb, (char *)key, klen, value, vlen); taosMemoryFree(value); } if (wb) { rocksMayWrite(pTsdb, false, true, false); } taosArrayDestroy(pTmpColArray); taosMemoryFree(aCols); taosMemoryFree(slotIds); return code; } static int32_t tsdbCacheLoadFromRocks(STsdb *pTsdb, tb_uid_t uid, SArray *pLastArray, SArray *remainCols, SCacheRowsReader *pr, int8_t ltype) { int32_t code = 0; int num_keys = TARRAY_SIZE(remainCols); char **keys_list = taosMemoryMalloc(num_keys * sizeof(char *)); size_t *keys_list_sizes = taosMemoryMalloc(num_keys * sizeof(size_t)); char *key_list = taosMemoryMalloc(num_keys * ROCKS_KEY_LEN); for (int i = 0; i < num_keys; ++i) { int16_t cid = *(int16_t *)taosArrayGet(remainCols, i); memcpy(key_list + i * ROCKS_KEY_LEN, &((SIdxKey *)taosArrayGet(remainCols, i))->key, ROCKS_KEY_LEN); keys_list[i] = key_list + i * ROCKS_KEY_LEN; keys_list_sizes[i] = ROCKS_KEY_LEN; } char **values_list = taosMemoryCalloc(num_keys, sizeof(char *)); size_t *values_list_sizes = taosMemoryCalloc(num_keys, sizeof(size_t)); char **errs = taosMemoryMalloc(num_keys * sizeof(char *)); rocksdb_multi_get(pTsdb->rCache.db, pTsdb->rCache.readoptions, num_keys, (const char *const *)keys_list, keys_list_sizes, values_list, values_list_sizes, errs); for (int i = 0; i < num_keys; ++i) { if (errs[i]) { rocksdb_free(errs[i]); } } taosMemoryFree(key_list); taosMemoryFree(keys_list); taosMemoryFree(keys_list_sizes); taosMemoryFree(errs); SLRUCache *pCache = pTsdb->lruCache; for (int i = 0, j = 0; i < num_keys && j < TARRAY_SIZE(remainCols); ++i) { SLastCol *pLastCol = tsdbCacheDeserialize(values_list[i]); SIdxKey *idxKey = &((SIdxKey *)TARRAY_DATA(remainCols))[j]; if (pLastCol) { SLastCol *pTmpLastCol = taosMemoryCalloc(1, sizeof(SLastCol)); *pTmpLastCol = *pLastCol; pLastCol = pTmpLastCol; reallocVarData(&pLastCol->colVal); size_t charge = sizeof(*pLastCol); if (IS_VAR_DATA_TYPE(pLastCol->colVal.type)) { charge += pLastCol->colVal.value.nData; } LRUStatus status = taosLRUCacheInsert(pCache, &idxKey->key, ROCKS_KEY_LEN, pLastCol, charge, tsdbCacheDeleter, NULL, TAOS_LRU_PRIORITY_LOW, &pTsdb->flushState); if (status != TAOS_LRU_STATUS_OK) { code = -1; } SLastCol lastCol = *pLastCol; reallocVarData(&lastCol.colVal); taosArraySet(pLastArray, idxKey->idx, &lastCol); taosArrayRemove(remainCols, j); taosMemoryFree(values_list[i]); } else { ++j; } } taosMemoryFree(values_list); taosMemoryFree(values_list_sizes); if (TARRAY_SIZE(remainCols) > 0) { code = tsdbCacheLoadFromRaw(pTsdb, uid, pLastArray, remainCols, pr, ltype); } return code; } int32_t tsdbCacheGetBatch(STsdb *pTsdb, tb_uid_t uid, SArray *pLastArray, SCacheRowsReader *pr, int8_t ltype) { int32_t code = 0; SArray *remainCols = NULL; SLRUCache *pCache = pTsdb->lruCache; SArray *pCidList = pr->pCidList; int num_keys = TARRAY_SIZE(pCidList); for (int i = 0; i < num_keys; ++i) { int16_t cid = ((int16_t *)TARRAY_DATA(pCidList))[i]; SLastKey *key = &(SLastKey){.ltype = ltype, .uid = uid, .cid = cid}; LRUHandle *h = taosLRUCacheLookup(pCache, key, ROCKS_KEY_LEN); if (h) { SLastCol *pLastCol = (SLastCol *)taosLRUCacheValue(pCache, h); SLastCol lastCol = *pLastCol; reallocVarData(&lastCol.colVal); taosArrayPush(pLastArray, &lastCol); taosLRUCacheRelease(pCache, h, false); } else { SLastCol noneCol = {.ts = TSKEY_MIN, .colVal = COL_VAL_NONE(cid, pr->pSchema->columns[pr->pSlotIds[i]].type)}; taosArrayPush(pLastArray, &noneCol); if (!remainCols) { remainCols = taosArrayInit(num_keys, sizeof(SIdxKey)); } taosArrayPush(remainCols, &(SIdxKey){i, *key}); } } if (remainCols && TARRAY_SIZE(remainCols) > 0) { taosThreadMutexLock(&pTsdb->lruMutex); for (int i = 0; i < TARRAY_SIZE(remainCols);) { SIdxKey *idxKey = &((SIdxKey *)TARRAY_DATA(remainCols))[i]; LRUHandle *h = taosLRUCacheLookup(pCache, &idxKey->key, ROCKS_KEY_LEN); if (h) { SLastCol *pLastCol = (SLastCol *)taosLRUCacheValue(pCache, h); SLastCol lastCol = *pLastCol; reallocVarData(&lastCol.colVal); taosArraySet(pLastArray, idxKey->idx, &lastCol); taosLRUCacheRelease(pCache, h, false); taosArrayRemove(remainCols, i); } else { ++i; } } code = tsdbCacheLoadFromRocks(pTsdb, uid, pLastArray, remainCols, pr, ltype); taosThreadMutexUnlock(&pTsdb->lruMutex); if (remainCols) { taosArrayDestroy(remainCols); } } return code; } int32_t tsdbCacheDel(STsdb *pTsdb, tb_uid_t suid, tb_uid_t uid, TSKEY sKey, TSKEY eKey) { int32_t code = 0; // fetch schema STSchema *pTSchema = NULL; int sver = -1; code = metaGetTbTSchemaEx(pTsdb->pVnode->pMeta, suid, uid, sver, &pTSchema); if (code != TSDB_CODE_SUCCESS) { terrno = code; return -1; } // build keys & multi get from rocks int num_keys = pTSchema->numOfCols; char **keys_list = taosMemoryCalloc(num_keys * 2, sizeof(char *)); size_t *keys_list_sizes = taosMemoryCalloc(num_keys * 2, sizeof(size_t)); const size_t klen = ROCKS_KEY_LEN; for (int i = 0; i < num_keys; ++i) { int16_t cid = pTSchema->columns[i].colId; char *keys = taosMemoryCalloc(2, sizeof(SLastKey)); ((SLastKey *)keys)[0] = (SLastKey){.ltype = 1, .uid = uid, .cid = cid}; ((SLastKey *)keys)[1] = (SLastKey){.ltype = 0, .uid = uid, .cid = cid}; keys_list[i] = keys; keys_list[num_keys + i] = keys + sizeof(SLastKey); keys_list_sizes[i] = klen; keys_list_sizes[num_keys + i] = klen; } char **values_list = taosMemoryCalloc(num_keys * 2, sizeof(char *)); size_t *values_list_sizes = taosMemoryCalloc(num_keys * 2, sizeof(size_t)); char **errs = taosMemoryCalloc(num_keys * 2, sizeof(char *)); taosThreadMutexLock(&pTsdb->lruMutex); taosThreadMutexLock(&pTsdb->rCache.rMutex); rocksMayWrite(pTsdb, true, false, false); rocksdb_multi_get(pTsdb->rCache.db, pTsdb->rCache.readoptions, num_keys * 2, (const char *const *)keys_list, keys_list_sizes, values_list, values_list_sizes, errs); taosThreadMutexUnlock(&pTsdb->rCache.rMutex); for (int i = 0; i < num_keys * 2; ++i) { if (errs[i]) { rocksdb_free(errs[i]); } } taosMemoryFree(errs); rocksdb_writebatch_t *wb = pTsdb->rCache.writebatch; for (int i = 0; i < num_keys; ++i) { SLastCol *pLastCol = tsdbCacheDeserialize(values_list[i]); taosThreadMutexLock(&pTsdb->rCache.rMutex); if (NULL != pLastCol && (pLastCol->ts <= eKey && pLastCol->ts >= sKey)) { rocksdb_writebatch_delete(wb, keys_list[i], klen); } pLastCol = tsdbCacheDeserialize(values_list[i + num_keys]); if (NULL != pLastCol && (pLastCol->ts <= eKey && pLastCol->ts >= sKey)) { rocksdb_writebatch_delete(wb, keys_list[num_keys + i], klen); } taosThreadMutexUnlock(&pTsdb->rCache.rMutex); rocksdb_free(values_list[i]); rocksdb_free(values_list[i + num_keys]); // taosThreadMutexLock(&pTsdb->lruMutex); LRUHandle *h = taosLRUCacheLookup(pTsdb->lruCache, keys_list[i], klen); if (h) { SLastCol *pLastCol = (SLastCol *)taosLRUCacheValue(pTsdb->lruCache, h); if (pLastCol->dirty) { pLastCol->dirty = 0; } taosLRUCacheRelease(pTsdb->lruCache, h, true); } taosLRUCacheErase(pTsdb->lruCache, keys_list[i], klen); h = taosLRUCacheLookup(pTsdb->lruCache, keys_list[num_keys + i], klen); if (h) { SLastCol *pLastCol = (SLastCol *)taosLRUCacheValue(pTsdb->lruCache, h); if (pLastCol->dirty) { pLastCol->dirty = 0; } taosLRUCacheRelease(pTsdb->lruCache, h, true); } taosLRUCacheErase(pTsdb->lruCache, keys_list[num_keys + i], klen); // taosThreadMutexUnlock(&pTsdb->lruMutex); } for (int i = 0; i < num_keys; ++i) { taosMemoryFree(keys_list[i]); } taosMemoryFree(keys_list); taosMemoryFree(keys_list_sizes); taosMemoryFree(values_list); taosMemoryFree(values_list_sizes); rocksMayWrite(pTsdb, true, false, true); taosThreadMutexUnlock(&pTsdb->lruMutex); _exit: taosMemoryFree(pTSchema); return code; } int32_t tsdbOpenCache(STsdb *pTsdb) { int32_t code = 0; SLRUCache *pCache = NULL; size_t cfgCapacity = pTsdb->pVnode->config.cacheLastSize * 1024 * 1024; pCache = taosLRUCacheInit(cfgCapacity, 0, .5); if (pCache == NULL) { code = TSDB_CODE_OUT_OF_MEMORY; goto _err; } code = tsdbOpenBICache(pTsdb); if (code != TSDB_CODE_SUCCESS) { code = TSDB_CODE_OUT_OF_MEMORY; goto _err; } code = tsdbOpenRocksCache(pTsdb); if (code != TSDB_CODE_SUCCESS) { code = TSDB_CODE_OUT_OF_MEMORY; goto _err; } taosLRUCacheSetStrictCapacity(pCache, false); taosThreadMutexInit(&pTsdb->lruMutex, NULL); pTsdb->flushState.pTsdb = pTsdb; pTsdb->flushState.flush_count = 0; _err: pTsdb->lruCache = pCache; return code; } void tsdbCloseCache(STsdb *pTsdb) { SLRUCache *pCache = pTsdb->lruCache; if (pCache) { taosLRUCacheEraseUnrefEntries(pCache); taosLRUCacheCleanup(pCache); taosThreadMutexDestroy(&pTsdb->lruMutex); } tsdbCloseBICache(pTsdb); tsdbCloseRocksCache(pTsdb); } static void getTableCacheKey(tb_uid_t uid, int cacheType, char *key, int *len) { if (cacheType == 0) { // last_row *(uint64_t *)key = (uint64_t)uid; } else { // last *(uint64_t *)key = ((uint64_t)uid) | 0x8000000000000000; } *len = sizeof(uint64_t); } static void deleteTableCacheLast(const void *key, size_t keyLen, void *value, void *ud) { (void)ud; SArray *pLastArray = (SArray *)value; int16_t nCol = taosArrayGetSize(pLastArray); for (int16_t iCol = 0; iCol < nCol; ++iCol) { SLastCol *pLastCol = (SLastCol *)taosArrayGet(pLastArray, iCol); if (IS_VAR_DATA_TYPE(pLastCol->colVal.type) && pLastCol->colVal.value.nData > 0) { taosMemoryFree(pLastCol->colVal.value.pData); } } taosArrayDestroy(value); } int32_t tsdbCacheDeleteLastrow(SLRUCache *pCache, tb_uid_t uid, TSKEY eKey) { int32_t code = 0; char key[32] = {0}; int keyLen = 0; // getTableCacheKey(uid, "lr", key, &keyLen); getTableCacheKey(uid, 0, key, &keyLen); LRUHandle *h = taosLRUCacheLookup(pCache, key, keyLen); if (h) { SArray *pLast = (SArray *)taosLRUCacheValue(pCache, h); bool invalidate = false; int16_t nCol = taosArrayGetSize(pLast); for (int16_t iCol = 0; iCol < nCol; ++iCol) { SLastCol *tTsVal = (SLastCol *)taosArrayGet(pLast, iCol); if (eKey >= tTsVal->ts) { invalidate = true; break; } } taosLRUCacheRelease(pCache, h, invalidate); if (invalidate) { taosLRUCacheErase(pCache, key, keyLen); } } return code; } int32_t tsdbCacheDeleteLast(SLRUCache *pCache, tb_uid_t uid, TSKEY eKey) { int32_t code = 0; char key[32] = {0}; int keyLen = 0; // getTableCacheKey(uid, "l", key, &keyLen); getTableCacheKey(uid, 1, key, &keyLen); LRUHandle *h = taosLRUCacheLookup(pCache, key, keyLen); if (h) { SArray *pLast = (SArray *)taosLRUCacheValue(pCache, h); bool invalidate = false; int16_t nCol = taosArrayGetSize(pLast); for (int16_t iCol = 0; iCol < nCol; ++iCol) { SLastCol *tTsVal = (SLastCol *)taosArrayGet(pLast, iCol); if (eKey >= tTsVal->ts) { invalidate = true; break; } } taosLRUCacheRelease(pCache, h, invalidate); if (invalidate) { taosLRUCacheErase(pCache, key, keyLen); } } return code; } int32_t tsdbCacheInsertLastrow(SLRUCache *pCache, STsdb *pTsdb, tb_uid_t uid, TSDBROW *row, bool dup) { int32_t code = 0; STSRow *cacheRow = NULL; char key[32] = {0}; int keyLen = 0; // getTableCacheKey(uid, "lr", key, &keyLen); getTableCacheKey(uid, 0, key, &keyLen); LRUHandle *h = taosLRUCacheLookup(pCache, key, keyLen); if (h) { STSchema *pTSchema = metaGetTbTSchema(pTsdb->pVnode->pMeta, uid, -1, 1); TSKEY keyTs = TSDBROW_TS(row); bool invalidate = false; SArray *pLast = (SArray *)taosLRUCacheValue(pCache, h); int16_t nCol = taosArrayGetSize(pLast); int16_t iCol = 0; if (nCol <= 0) { nCol = pTSchema->numOfCols; STColumn *pTColumn = &pTSchema->columns[0]; SColVal tColVal = COL_VAL_VALUE(pTColumn->colId, pTColumn->type, (SValue){.val = keyTs}); if (taosArrayPush(pLast, &(SLastCol){.ts = keyTs, .colVal = tColVal}) == NULL) { terrno = TSDB_CODE_OUT_OF_MEMORY; code = TSDB_CODE_OUT_OF_MEMORY; goto _invalidate; } for (iCol = 1; iCol < nCol; ++iCol) { SColVal colVal = {0}; tsdbRowGetColVal(row, pTSchema, iCol, &colVal); SLastCol lastCol = {.ts = keyTs, .colVal = colVal}; if (IS_VAR_DATA_TYPE(colVal.type) && colVal.value.nData > 0) { lastCol.colVal.value.pData = taosMemoryMalloc(colVal.value.nData); if (lastCol.colVal.value.pData == NULL) { terrno = TSDB_CODE_OUT_OF_MEMORY; code = TSDB_CODE_OUT_OF_MEMORY; goto _invalidate; } memcpy(lastCol.colVal.value.pData, colVal.value.pData, colVal.value.nData); } if (taosArrayPush(pLast, &lastCol) == NULL) { code = TSDB_CODE_OUT_OF_MEMORY; goto _invalidate; } } goto _invalidate; } if (nCol != pTSchema->numOfCols) { invalidate = true; goto _invalidate; } SLastCol *tTsVal = (SLastCol *)taosArrayGet(pLast, iCol); if (keyTs > tTsVal->ts) { STColumn *pTColumn = &pTSchema->columns[0]; SColVal tColVal = COL_VAL_VALUE(pTColumn->colId, pTColumn->type, (SValue){.val = keyTs}); taosArraySet(pLast, iCol, &(SLastCol){.ts = keyTs, .colVal = tColVal}); } for (++iCol; iCol < nCol; ++iCol) { SLastCol *tTsVal1 = (SLastCol *)taosArrayGet(pLast, iCol); if (keyTs >= tTsVal1->ts) { SColVal *tColVal = &tTsVal1->colVal; SColVal colVal = {0}; tsdbRowGetColVal(row, pTSchema, iCol, &colVal); if (colVal.cid != tColVal->cid) { invalidate = true; goto _invalidate; } if (!COL_VAL_IS_NONE(&colVal)) { if (keyTs == tTsVal1->ts && !COL_VAL_IS_NONE(tColVal)) { invalidate = true; break; } else { // new inserting key is greater than cached, update cached entry SLastCol lastCol = {.ts = keyTs, .colVal = colVal}; if (IS_VAR_DATA_TYPE(colVal.type) && colVal.value.nData > 0) { SLastCol *pLastCol = (SLastCol *)taosArrayGet(pLast, iCol); if (pLastCol->colVal.value.nData > 0 && NULL != pLastCol->colVal.value.pData) taosMemoryFree(pLastCol->colVal.value.pData); lastCol.colVal.value.pData = taosMemoryMalloc(colVal.value.nData); if (lastCol.colVal.value.pData == NULL) { terrno = TSDB_CODE_OUT_OF_MEMORY; code = TSDB_CODE_OUT_OF_MEMORY; goto _invalidate; } memcpy(lastCol.colVal.value.pData, colVal.value.pData, colVal.value.nData); } taosArraySet(pLast, iCol, &lastCol); } } } } _invalidate: taosMemoryFreeClear(pTSchema); taosLRUCacheRelease(pCache, h, invalidate); if (invalidate) { taosLRUCacheErase(pCache, key, keyLen); } } return code; } int32_t tsdbCacheInsertLast(SLRUCache *pCache, tb_uid_t uid, TSDBROW *row, STsdb *pTsdb) { int32_t code = 0; STSRow *cacheRow = NULL; char key[32] = {0}; int keyLen = 0; // getTableCacheKey(uid, "l", key, &keyLen); getTableCacheKey(uid, 1, key, &keyLen); LRUHandle *h = taosLRUCacheLookup(pCache, key, keyLen); if (h) { STSchema *pTSchema = metaGetTbTSchema(pTsdb->pVnode->pMeta, uid, -1, 1); TSKEY keyTs = TSDBROW_TS(row); bool invalidate = false; SArray *pLast = (SArray *)taosLRUCacheValue(pCache, h); int16_t nCol = taosArrayGetSize(pLast); int16_t iCol = 0; if (nCol <= 0) { nCol = pTSchema->numOfCols; STColumn *pTColumn = &pTSchema->columns[0]; SColVal tColVal = COL_VAL_VALUE(pTColumn->colId, pTColumn->type, (SValue){.val = keyTs}); if (taosArrayPush(pLast, &(SLastCol){.ts = keyTs, .colVal = tColVal}) == NULL) { terrno = TSDB_CODE_OUT_OF_MEMORY; code = TSDB_CODE_OUT_OF_MEMORY; goto _invalidate; } for (iCol = 1; iCol < nCol; ++iCol) { SColVal colVal = {0}; tsdbRowGetColVal(row, pTSchema, iCol, &colVal); SLastCol lastCol = {.ts = keyTs, .colVal = colVal}; if (IS_VAR_DATA_TYPE(colVal.type) && colVal.value.nData > 0) { lastCol.colVal.value.pData = taosMemoryMalloc(colVal.value.nData); if (lastCol.colVal.value.pData == NULL) { terrno = TSDB_CODE_OUT_OF_MEMORY; code = TSDB_CODE_OUT_OF_MEMORY; goto _invalidate; } memcpy(lastCol.colVal.value.pData, colVal.value.pData, colVal.value.nData); } if (taosArrayPush(pLast, &lastCol) == NULL) { code = TSDB_CODE_OUT_OF_MEMORY; goto _invalidate; } } goto _invalidate; } if (nCol != pTSchema->numOfCols) { invalidate = true; goto _invalidate; } SLastCol *tTsVal = (SLastCol *)taosArrayGet(pLast, iCol); if (keyTs > tTsVal->ts) { STColumn *pTColumn = &pTSchema->columns[0]; SColVal tColVal = COL_VAL_VALUE(pTColumn->colId, pTColumn->type, (SValue){.val = keyTs}); taosArraySet(pLast, iCol, &(SLastCol){.ts = keyTs, .colVal = tColVal}); } for (++iCol; iCol < nCol; ++iCol) { SLastCol *tTsVal1 = (SLastCol *)taosArrayGet(pLast, iCol); if (keyTs >= tTsVal1->ts) { SColVal *tColVal = &tTsVal1->colVal; SColVal colVal = {0}; tsdbRowGetColVal(row, pTSchema, iCol, &colVal); if (colVal.cid != tColVal->cid) { invalidate = true; goto _invalidate; } if (COL_VAL_IS_VALUE(&colVal)) { if (keyTs == tTsVal1->ts && COL_VAL_IS_VALUE(tColVal)) { invalidate = true; break; } else { SLastCol lastCol = {.ts = keyTs, .colVal = colVal}; if (IS_VAR_DATA_TYPE(colVal.type) && colVal.value.nData > 0) { SLastCol *pLastCol = (SLastCol *)taosArrayGet(pLast, iCol); if (pLastCol->colVal.value.nData > 0 && NULL != pLastCol->colVal.value.pData) taosMemoryFree(pLastCol->colVal.value.pData); lastCol.colVal.value.pData = taosMemoryMalloc(colVal.value.nData); if (lastCol.colVal.value.pData == NULL) { terrno = TSDB_CODE_OUT_OF_MEMORY; code = TSDB_CODE_OUT_OF_MEMORY; goto _invalidate; } memcpy(lastCol.colVal.value.pData, colVal.value.pData, colVal.value.nData); } taosArraySet(pLast, iCol, &lastCol); } } } } _invalidate: taosMemoryFreeClear(pTSchema); taosLRUCacheRelease(pCache, h, invalidate); if (invalidate) { taosLRUCacheErase(pCache, key, keyLen); } } return code; } static tb_uid_t getTableSuidByUid(tb_uid_t uid, STsdb *pTsdb) { tb_uid_t suid = 0; SMetaReader mr = {0}; metaReaderDoInit(&mr, pTsdb->pVnode->pMeta, 0); if (metaReaderGetTableEntryByUidCache(&mr, uid) < 0) { metaReaderClear(&mr); // table not esist return 0; } if (mr.me.type == TSDB_CHILD_TABLE) { suid = mr.me.ctbEntry.suid; } else if (mr.me.type == TSDB_NORMAL_TABLE) { suid = 0; } else { suid = 0; } metaReaderClear(&mr); return suid; } static int32_t getTableDelDataFromDelIdx(SDelFReader *pDelReader, SDelIdx *pDelIdx, SArray *aDelData) { int32_t code = 0; if (pDelIdx) { code = tsdbReadDelDatav1(pDelReader, pDelIdx, aDelData, INT64_MAX); } return code; } static int32_t getTableDelDataFromTbData(STbData *pTbData, SArray *aDelData) { int32_t code = 0; SDelData *pDelData = pTbData ? pTbData->pHead : NULL; for (; pDelData; pDelData = pDelData->pNext) { taosArrayPush(aDelData, pDelData); } return code; } static int32_t getTableDelData(STbData *pMem, STbData *pIMem, SDelFReader *pDelReader, SDelIdx *pDelIdx, SArray *aDelData) { int32_t code = 0; if (pDelIdx) { code = getTableDelDataFromDelIdx(pDelReader, pDelIdx, aDelData); if (code) goto _err; } if (pMem) { code = getTableDelDataFromTbData(pMem, aDelData); if (code) goto _err; } if (pIMem) { code = getTableDelDataFromTbData(pIMem, aDelData); if (code) goto _err; } _err: return code; } static int32_t getTableDelSkyline(STbData *pMem, STbData *pIMem, SDelFReader *pDelReader, SDelIdx *pDelIdx, SArray *aSkyline) { int32_t code = 0; SArray *aDelData = NULL; aDelData = taosArrayInit(32, sizeof(SDelData)); code = getTableDelData(pMem, pIMem, pDelReader, pDelIdx, aDelData); if (code) goto _err; size_t nDelData = taosArrayGetSize(aDelData); if (nDelData > 0) { code = tsdbBuildDeleteSkyline(aDelData, 0, (int32_t)(nDelData - 1), aSkyline); if (code) goto _err; } _err: if (aDelData) { taosArrayDestroy(aDelData); } return code; } static void freeTableInfoFunc(void *param) { void **p = (void **)param; taosMemoryFreeClear(*p); } static STableLoadInfo *getTableLoadInfo(SCacheRowsReader *pReader, uint64_t uid) { if (!pReader->pTableMap) { pReader->pTableMap = tSimpleHashInit(pReader->numOfTables, taosGetDefaultHashFunction(TSDB_DATA_TYPE_BIGINT)); tSimpleHashSetFreeFp(pReader->pTableMap, freeTableInfoFunc); } STableLoadInfo *pInfo = NULL; STableLoadInfo **ppInfo = tSimpleHashGet(pReader->pTableMap, &uid, sizeof(uid)); if (!ppInfo) { pInfo = taosMemoryCalloc(1, sizeof(STableLoadInfo)); tSimpleHashPut(pReader->pTableMap, &uid, sizeof(uint64_t), &pInfo, POINTER_BYTES); return pInfo; } return *ppInfo; } static uint64_t *getUidList(SCacheRowsReader *pReader) { if (!pReader->uidList) { int32_t numOfTables = pReader->numOfTables; pReader->uidList = taosMemoryMalloc(numOfTables * sizeof(uint64_t)); for (int32_t i = 0; i < numOfTables; ++i) { uint64_t uid = pReader->pTableList[i].uid; pReader->uidList[i] = uid; } taosSort(pReader->uidList, numOfTables, sizeof(uint64_t), uidComparFunc); } return pReader->uidList; } static int32_t loadTombFromBlk(const TTombBlkArray *pTombBlkArray, SCacheRowsReader *pReader, void *pFileReader, bool isFile) { int32_t code = 0; uint64_t *uidList = getUidList(pReader); int32_t numOfTables = pReader->numOfTables; int64_t suid = pReader->info.suid; for (int i = 0, j = 0; i < pTombBlkArray->size && j < numOfTables; ++i) { STombBlk *pTombBlk = &pTombBlkArray->data[i]; if (pTombBlk->maxTbid.suid < suid || (pTombBlk->maxTbid.suid == suid && pTombBlk->maxTbid.uid < uidList[0])) { continue; } if (pTombBlk->minTbid.suid > suid || (pTombBlk->minTbid.suid == suid && pTombBlk->minTbid.uid > uidList[numOfTables - 1])) { break; } STombBlock block = {0}; code = isFile ? tsdbDataFileReadTombBlock(pFileReader, &pTombBlkArray->data[i], &block) : tsdbSttFileReadTombBlock(pFileReader, &pTombBlkArray->data[i], &block); if (code != TSDB_CODE_SUCCESS) { return code; } uint64_t uid = uidList[j]; STableLoadInfo *pInfo = getTableLoadInfo(pReader, uid); if (pInfo->pTombData == NULL) { pInfo->pTombData = taosArrayInit(4, sizeof(SDelData)); } STombRecord record = {0}; bool finished = false; for (int32_t k = 0; k < TARRAY2_SIZE(block.suid); ++k) { code = tTombBlockGet(&block, k, &record); if (code != TSDB_CODE_SUCCESS) { finished = true; break; } if (record.suid < suid) { continue; } if (record.suid > suid) { finished = true; break; } bool newTable = false; if (uid < record.uid) { while (j < numOfTables && uidList[j] < record.uid) { ++j; newTable = true; } if (j >= numOfTables) { finished = true; break; } uid = uidList[j]; } if (record.uid < uid) { continue; } if (newTable) { pInfo = getTableLoadInfo(pReader, uid); if (pInfo->pTombData == NULL) { pInfo->pTombData = taosArrayInit(4, sizeof(SDelData)); } } if (record.version <= pReader->info.verRange.maxVer) { tsdbError("tomb xx load/cache: vgId:%d fid:%d commit %" PRId64 "~%" PRId64 "~%" PRId64 " tomb records", TD_VID(pReader->pTsdb->pVnode), pReader->pCurFileSet->fid, record.skey, record.ekey, uid); SDelData delData = {.version = record.version, .sKey = record.skey, .eKey = record.ekey}; taosArrayPush(pInfo->pTombData, &delData); } } tTombBlockDestroy(&block); if (finished) { return code; } } return TSDB_CODE_SUCCESS; } static int32_t loadDataTomb(SCacheRowsReader *pReader, SDataFileReader *pFileReader) { int32_t code = 0; const TTombBlkArray *pBlkArray = NULL; code = tsdbDataFileReadTombBlk(pFileReader, &pBlkArray); if (code != TSDB_CODE_SUCCESS) { return code; } return loadTombFromBlk(pBlkArray, pReader, pFileReader, true); } static int32_t loadSttTomb(STsdbReader *pTsdbReader, SSttFileReader *pSttFileReader, SSttBlockLoadInfo *pLoadInfo) { int32_t code = 0; SCacheRowsReader *pReader = (SCacheRowsReader *)pTsdbReader; const TTombBlkArray *pBlkArray = NULL; code = tsdbSttFileReadTombBlk(pSttFileReader, &pBlkArray); if (code != TSDB_CODE_SUCCESS) { return code; } return loadTombFromBlk(pBlkArray, pReader, pSttFileReader, false); } typedef struct { SMergeTree mergeTree; SMergeTree *pMergeTree; } SFSLastIter; static int32_t lastIterOpen(SFSLastIter *iter, STFileSet *pFileSet, STsdb *pTsdb, STSchema *pTSchema, tb_uid_t suid, tb_uid_t uid, SCacheRowsReader *pr, int64_t lastTs, int16_t *aCols, int nCols) { int32_t code = 0; pr->pLDataIterArray = destroySttBlockReader(pr->pLDataIterArray, NULL); pr->pLDataIterArray = taosArrayInit(4, POINTER_BYTES); SMergeTreeConf conf = { .uid = uid, .suid = suid, .pTsdb = pTsdb, .timewindow = (STimeWindow){.skey = lastTs, .ekey = TSKEY_MAX}, .verRange = (SVersionRange){.minVer = 0, .maxVer = UINT64_MAX}, .strictTimeRange = false, .pSchema = pTSchema, .pCurrentFileset = pFileSet, .backward = 1, .pSttFileBlockIterArray = pr->pLDataIterArray, .pCols = aCols, .numOfCols = nCols, .loadTombFn = loadSttTomb, .pReader = pr, .idstr = pr->idstr, }; code = tMergeTreeOpen2(&iter->mergeTree, &conf); if (code != TSDB_CODE_SUCCESS) { return -1; } iter->pMergeTree = &iter->mergeTree; return code; } static int32_t lastIterClose(SFSLastIter **iter) { int32_t code = 0; if ((*iter)->pMergeTree) { tMergeTreeClose((*iter)->pMergeTree); (*iter)->pMergeTree = NULL; } *iter = NULL; return code; } static int32_t lastIterNext(SFSLastIter *iter, TSDBROW **ppRow) { int32_t code = 0; bool hasVal = tMergeTreeNext(iter->pMergeTree); if (!hasVal) { *ppRow = NULL; return code; } *ppRow = tMergeTreeGetRow(iter->pMergeTree); return code; } typedef enum SFSNEXTROWSTATES { SFSNEXTROW_FS, SFSNEXTROW_FILESET, SFSNEXTROW_INDEXLIST, SFSNEXTROW_BRINBLOCK, SFSNEXTROW_BRINRECORD, SFSNEXTROW_BLOCKDATA, SFSNEXTROW_BLOCKROW, SFSNEXTROW_NEXTSTTROW } SFSNEXTROWSTATES; struct CacheNextRowIter; typedef struct SFSNextRowIter { SFSNEXTROWSTATES state; // [input] SBlockIdx *pBlockIdxExp; // [input] STSchema *pTSchema; // [input] tb_uid_t suid; tb_uid_t uid; int32_t iFileSet; STFileSet *pFileSet; TFileSetArray *aDFileSet; SArray *pIndexList; int32_t iBrinIndex; SBrinBlock brinBlock; int32_t iBrinRecord; SBrinRecord brinRecord; SBlockData blockData; SBlockData *pBlockData; int32_t nRow; int32_t iRow; TSDBROW row; int64_t lastTs; SFSLastIter lastIter; SFSLastIter *pLastIter; int8_t lastEmpty; TSDBROW *pLastRow; SRow *pTSRow; SRowMerger rowMerger; SCacheRowsReader *pr; struct CacheNextRowIter *pRowIter; } SFSNextRowIter; static void clearLastFileSet(SFSNextRowIter *state); static int32_t getNextRowFromFS(void *iter, TSDBROW **ppRow, bool *pIgnoreEarlierTs, bool isLast, int16_t *aCols, int nCols) { SFSNextRowIter *state = (SFSNextRowIter *)iter; int32_t code = 0; STsdb *pTsdb = state->pr->pTsdb; if (SFSNEXTROW_FS == state->state) { state->iFileSet = TARRAY2_SIZE(state->aDFileSet); state->state = SFSNEXTROW_FILESET; } if (SFSNEXTROW_FILESET == state->state) { _next_fileset: if (--state->iFileSet < 0) { clearLastFileSet(state); *ppRow = NULL; return code; } else { state->pFileSet = TARRAY2_GET(state->aDFileSet, state->iFileSet); } STFileObj **pFileObj = state->pFileSet->farr; if (pFileObj[0] != NULL || pFileObj[3] != NULL) { if (state->pFileSet != state->pr->pCurFileSet) { SDataFileReaderConfig conf = {.tsdb = pTsdb, .szPage = pTsdb->pVnode->config.tsdbPageSize}; const char *filesName[4] = {0}; if (pFileObj[0] != NULL) { conf.files[0].file = *pFileObj[0]->f; conf.files[0].exist = true; filesName[0] = pFileObj[0]->fname; conf.files[1].file = *pFileObj[1]->f; conf.files[1].exist = true; filesName[1] = pFileObj[1]->fname; conf.files[2].file = *pFileObj[2]->f; conf.files[2].exist = true; filesName[2] = pFileObj[2]->fname; } if (pFileObj[3] != NULL) { conf.files[3].exist = true; conf.files[3].file = *pFileObj[3]->f; filesName[3] = pFileObj[3]->fname; } code = tsdbDataFileReaderOpen(filesName, &conf, &state->pr->pFileReader); if (code != TSDB_CODE_SUCCESS) { goto _err; } state->pr->pCurFileSet = state->pFileSet; loadDataTomb(state->pr, state->pr->pFileReader); int32_t code = tsdbDataFileReadBrinBlk(state->pr->pFileReader, &state->pr->pBlkArray); if (code != TSDB_CODE_SUCCESS) { goto _err; } } if (!state->pIndexList) { state->pIndexList = taosArrayInit(1, sizeof(SBrinBlk)); } else { taosArrayClear(state->pIndexList); } const TBrinBlkArray *pBlkArray = state->pr->pBlkArray; for (int i = TARRAY2_SIZE(pBlkArray) - 1; i >= 0; --i) { SBrinBlk *pBrinBlk = &pBlkArray->data[i]; if (state->suid >= pBrinBlk->minTbid.suid && state->suid <= pBrinBlk->maxTbid.suid) { if (state->uid >= pBrinBlk->minTbid.uid && state->uid <= pBrinBlk->maxTbid.uid) { taosArrayPush(state->pIndexList, pBrinBlk); } } else if (state->suid > pBrinBlk->maxTbid.suid || (state->suid == pBrinBlk->maxTbid.suid && state->uid > pBrinBlk->maxTbid.uid)) { break; } } int indexSize = TARRAY_SIZE(state->pIndexList); if (indexSize <= 0) { goto _check_stt_data; } state->state = SFSNEXTROW_INDEXLIST; state->iBrinIndex = indexSize; } _check_stt_data: if (state->pFileSet != state->pr->pCurFileSet) { state->pr->pCurFileSet = state->pFileSet; } code = lastIterOpen(&state->lastIter, state->pFileSet, pTsdb, state->pTSchema, state->suid, state->uid, state->pr, state->lastTs, aCols, nCols); if (code != TSDB_CODE_SUCCESS) { goto _err; } code = lastIterNext(&state->lastIter, &state->pLastRow); if (code != TSDB_CODE_SUCCESS) { goto _err; } if (!state->pLastRow) { state->lastEmpty = 1; if (SFSNEXTROW_INDEXLIST != state->state) { clearLastFileSet(state); goto _next_fileset; } } else { state->lastEmpty = 0; if (SFSNEXTROW_INDEXLIST != state->state) { state->state = SFSNEXTROW_NEXTSTTROW; *ppRow = state->pLastRow; state->pLastRow = NULL; return code; } } state->pLastIter = &state->lastIter; } if (SFSNEXTROW_NEXTSTTROW == state->state) { code = lastIterNext(&state->lastIter, &state->pLastRow); if (code != TSDB_CODE_SUCCESS) { goto _err; } if (!state->pLastRow) { if (state->pLastIter) { lastIterClose(&state->pLastIter); } clearLastFileSet(state); state->state = SFSNEXTROW_FILESET; goto _next_fileset; } else { *ppRow = state->pLastRow; state->pLastRow = NULL; return code; } } if (SFSNEXTROW_INDEXLIST == state->state) { SBrinBlk *pBrinBlk = NULL; _next_brinindex: if (--state->iBrinIndex < 0) { if (state->pLastRow) { state->state = SFSNEXTROW_NEXTSTTROW; *ppRow = state->pLastRow; state->pLastRow = NULL; return code; } clearLastFileSet(state); goto _next_fileset; } else { pBrinBlk = taosArrayGet(state->pIndexList, state->iBrinIndex); } code = tsdbDataFileReadBrinBlock(state->pr->pFileReader, pBrinBlk, &state->brinBlock); if (code != TSDB_CODE_SUCCESS) { goto _err; } state->iBrinRecord = BRIN_BLOCK_SIZE(&state->brinBlock) - 1; state->state = SFSNEXTROW_BRINBLOCK; } if (SFSNEXTROW_BRINBLOCK == state->state) { _next_brinrecord: if (state->iBrinRecord < 0) { // empty brin block, goto _next_brinindex tBrinBlockClear(&state->brinBlock); goto _next_brinindex; } code = tBrinBlockGet(&state->brinBlock, state->iBrinRecord, &state->brinRecord); if (code != TSDB_CODE_SUCCESS) { goto _err; } SBrinRecord *pRecord = &state->brinRecord; if (pRecord->uid != state->uid) { // TODO: goto next brin block early --state->iBrinRecord; goto _next_brinrecord; } state->state = SFSNEXTROW_BRINRECORD; } if (SFSNEXTROW_BRINRECORD == state->state) { SBrinRecord *pRecord = &state->brinRecord; if (!state->pBlockData) { state->pBlockData = &state->blockData; code = tBlockDataCreate(&state->blockData); if (code) goto _err; } else { tBlockDataReset(state->pBlockData); } if (aCols[0] == PRIMARYKEY_TIMESTAMP_COL_ID) { --nCols; ++aCols; } code = tsdbDataFileReadBlockDataByColumn(state->pr->pFileReader, pRecord, state->pBlockData, state->pTSchema, aCols, nCols); if (code != TSDB_CODE_SUCCESS) { goto _err; } state->nRow = state->blockData.nRow; state->iRow = state->nRow - 1; state->state = SFSNEXTROW_BLOCKROW; } if (SFSNEXTROW_BLOCKROW == state->state) { if (state->iRow < 0) { --state->iBrinRecord; goto _next_brinrecord; } state->row = tsdbRowFromBlockData(state->pBlockData, state->iRow); if (!state->pLastIter) { *ppRow = &state->row; --state->iRow; return code; } if (!state->pLastRow) { // get next row from fslast and process with fs row, --state->Row if select fs row code = lastIterNext(&state->lastIter, &state->pLastRow); if (code != TSDB_CODE_SUCCESS) { goto _err; } } if (!state->pLastRow) { if (state->pLastIter) { lastIterClose(&state->pLastIter); } *ppRow = &state->row; --state->iRow; return code; } // process state->pLastRow & state->row TSKEY rowTs = TSDBROW_TS(&state->row); TSKEY lastRowTs = TSDBROW_TS(state->pLastRow); if (lastRowTs > rowTs) { *ppRow = state->pLastRow; state->pLastRow = NULL; return code; } else if (lastRowTs < rowTs) { *ppRow = &state->row; --state->iRow; return code; } else { // TODO: merge rows and *ppRow = mergedRow SRowMerger *pMerger = &state->rowMerger; tsdbRowMergerInit(pMerger, state->pTSchema); code = tsdbRowMergerAdd(pMerger, &state->row, state->pTSchema); if (code != TSDB_CODE_SUCCESS) { goto _err; } code = tsdbRowMergerAdd(pMerger, state->pLastRow, state->pTSchema); if (code != TSDB_CODE_SUCCESS) { goto _err; } if (state->pTSRow) { taosMemoryFree(state->pTSRow); state->pTSRow = NULL; } code = tsdbRowMergerGetRow(pMerger, &state->pTSRow); if (code != TSDB_CODE_SUCCESS) { goto _err; } state->row = tsdbRowFromTSRow(TSDBROW_VERSION(&state->row), state->pTSRow); *ppRow = &state->row; --state->iRow; tsdbRowMergerClear(pMerger); return code; } } _err: clearLastFileSet(state); *ppRow = NULL; return code; } typedef enum SMEMNEXTROWSTATES { SMEMNEXTROW_ENTER, SMEMNEXTROW_NEXT, } SMEMNEXTROWSTATES; typedef struct SMemNextRowIter { SMEMNEXTROWSTATES state; STbData *pMem; // [input] STbDataIter iter; // mem buffer skip list iterator int64_t lastTs; } SMemNextRowIter; static int32_t getNextRowFromMem(void *iter, TSDBROW **ppRow, bool *pIgnoreEarlierTs, bool isLast, int16_t *aCols, int nCols) { SMemNextRowIter *state = (SMemNextRowIter *)iter; int32_t code = 0; *pIgnoreEarlierTs = false; switch (state->state) { case SMEMNEXTROW_ENTER: { if (state->pMem != NULL) { if (state->pMem->maxKey <= state->lastTs) { *ppRow = NULL; *pIgnoreEarlierTs = true; return code; } tsdbTbDataIterOpen(state->pMem, NULL, 1, &state->iter); TSDBROW *pMemRow = tsdbTbDataIterGet(&state->iter); if (pMemRow) { *ppRow = pMemRow; state->state = SMEMNEXTROW_NEXT; return code; } } *ppRow = NULL; return code; } case SMEMNEXTROW_NEXT: if (tsdbTbDataIterNext(&state->iter)) { *ppRow = tsdbTbDataIterGet(&state->iter); return code; } else { *ppRow = NULL; return code; } default: ASSERT(0); break; } _err: *ppRow = NULL; return code; } static bool tsdbKeyDeleted(TSDBKEY *key, SArray *pSkyline, int64_t *iSkyline) { bool deleted = false; while (*iSkyline > 0) { TSDBKEY *pItemBack = (TSDBKEY *)taosArrayGet(pSkyline, *iSkyline); TSDBKEY *pItemFront = (TSDBKEY *)taosArrayGet(pSkyline, *iSkyline - 1); if (key->ts > pItemBack->ts) { return false; } else if (key->ts >= pItemFront->ts && key->ts <= pItemBack->ts) { if (key->version <= pItemFront->version || (key->ts == pItemBack->ts && key->version <= pItemBack->version)) { // if (key->version <= pItemFront->version || key->version <= pItemBack->version) { return true; } else { if (*iSkyline > 1) { --*iSkyline; } else { return false; } } } else { if (*iSkyline > 1) { --*iSkyline; } else { return false; } } } return deleted; } typedef int32_t (*_next_row_fn_t)(void *iter, TSDBROW **ppRow, bool *pIgnoreEarlierTs, bool isLast, int16_t *aCols, int nCols); typedef int32_t (*_next_row_clear_fn_t)(void *iter); typedef struct { TSDBROW *pRow; bool stop; bool next; bool ignoreEarlierTs; void *iter; _next_row_fn_t nextRowFn; _next_row_clear_fn_t nextRowClearFn; } TsdbNextRowState; typedef struct CacheNextRowIter { SArray *pMemDelData; SArray *pSkyline; int64_t iSkyline; SBlockIdx idx; SMemNextRowIter memState; SMemNextRowIter imemState; SFSNextRowIter fsState; TSDBROW memRow, imemRow, fsLastRow, fsRow; TsdbNextRowState input[3]; SCacheRowsReader *pr; STsdb *pTsdb; } CacheNextRowIter; int32_t clearNextRowFromFS(void *iter) { int32_t code = 0; SFSNextRowIter *state = (SFSNextRowIter *)iter; if (!state) { return code; } if (state->pLastIter) { lastIterClose(&state->pLastIter); } if (state->pBlockData) { tBlockDataDestroy(state->pBlockData); state->pBlockData = NULL; } if (state->pTSRow) { taosMemoryFree(state->pTSRow); state->pTSRow = NULL; } if (state->pRowIter->pSkyline) { taosArrayDestroy(state->pRowIter->pSkyline); state->pRowIter->pSkyline = NULL; } return code; } static void clearLastFileSet(SFSNextRowIter *state) { if (state->pLastIter) { lastIterClose(&state->pLastIter); } if (state->pBlockData) { tBlockDataDestroy(state->pBlockData); state->pBlockData = NULL; } if (state->pr->pFileReader) { tsdbDataFileReaderClose(&state->pr->pFileReader); state->pr->pFileReader = NULL; state->pr->pCurFileSet = NULL; } if (state->pTSRow) { taosMemoryFree(state->pTSRow); state->pTSRow = NULL; } if (state->pRowIter->pSkyline) { taosArrayDestroy(state->pRowIter->pSkyline); state->pRowIter->pSkyline = NULL; void *pe = NULL; int32_t iter = 0; while ((pe = tSimpleHashIterate(state->pr->pTableMap, pe, &iter)) != NULL) { STableLoadInfo *pInfo = *(STableLoadInfo **)pe; pInfo->pTombData = taosArrayDestroy(pInfo->pTombData); } } } static int32_t nextRowIterOpen(CacheNextRowIter *pIter, tb_uid_t uid, STsdb *pTsdb, STSchema *pTSchema, tb_uid_t suid, SArray *pLDataIterArray, STsdbReadSnap *pReadSnap, int64_t lastTs, SCacheRowsReader *pr) { int code = 0; STbData *pMem = NULL; if (pReadSnap->pMem) { pMem = tsdbGetTbDataFromMemTable(pReadSnap->pMem, suid, uid); } STbData *pIMem = NULL; if (pReadSnap->pIMem) { pIMem = tsdbGetTbDataFromMemTable(pReadSnap->pIMem, suid, uid); } pIter->pTsdb = pTsdb; pIter->pMemDelData = NULL; loadMemTombData(&pIter->pMemDelData, pMem, pIMem, pr->info.verRange.maxVer); pIter->idx = (SBlockIdx){.suid = suid, .uid = uid}; pIter->fsState.pRowIter = pIter; pIter->fsState.state = SFSNEXTROW_FS; pIter->fsState.aDFileSet = pReadSnap->pfSetArray; pIter->fsState.pBlockIdxExp = &pIter->idx; pIter->fsState.pTSchema = pTSchema; pIter->fsState.suid = suid; pIter->fsState.uid = uid; pIter->fsState.lastTs = lastTs; pIter->fsState.pr = pr; pIter->input[0] = (TsdbNextRowState){&pIter->memRow, true, false, false, &pIter->memState, getNextRowFromMem, NULL}; pIter->input[1] = (TsdbNextRowState){&pIter->imemRow, true, false, false, &pIter->imemState, getNextRowFromMem, NULL}; pIter->input[2] = (TsdbNextRowState){&pIter->fsRow, false, true, false, &pIter->fsState, getNextRowFromFS, clearNextRowFromFS}; if (pMem) { pIter->memState.pMem = pMem; pIter->memState.state = SMEMNEXTROW_ENTER; pIter->memState.lastTs = lastTs; pIter->input[0].stop = false; pIter->input[0].next = true; } if (pIMem) { pIter->imemState.pMem = pIMem; pIter->imemState.state = SMEMNEXTROW_ENTER; pIter->imemState.lastTs = lastTs; pIter->input[1].stop = false; pIter->input[1].next = true; } pIter->pr = pr; _err: return code; } static int32_t nextRowIterClose(CacheNextRowIter *pIter) { int code = 0; for (int i = 0; i < 3; ++i) { if (pIter->input[i].nextRowClearFn) { pIter->input[i].nextRowClearFn(pIter->input[i].iter); } } if (pIter->pSkyline) { taosArrayDestroy(pIter->pSkyline); } if (pIter->pMemDelData) { taosArrayDestroy(pIter->pMemDelData); } _err: return code; } // iterate next row non deleted backward ts, version (from high to low) static int32_t nextRowIterGet(CacheNextRowIter *pIter, TSDBROW **ppRow, bool *pIgnoreEarlierTs, bool isLast, int16_t *aCols, int nCols) { int code = 0; for (;;) { for (int i = 0; i < 3; ++i) { if (pIter->input[i].next && !pIter->input[i].stop) { code = pIter->input[i].nextRowFn(pIter->input[i].iter, &pIter->input[i].pRow, &pIter->input[i].ignoreEarlierTs, isLast, aCols, nCols); if (code) goto _err; if (pIter->input[i].pRow == NULL) { pIter->input[i].stop = true; pIter->input[i].next = false; } } } if (pIter->input[0].stop && pIter->input[1].stop && pIter->input[2].stop) { *ppRow = NULL; *pIgnoreEarlierTs = (pIter->input[0].ignoreEarlierTs || pIter->input[1].ignoreEarlierTs || pIter->input[2].ignoreEarlierTs); return code; } // select maxpoint(s) from mem, imem, fs and last TSDBROW *max[4] = {0}; int iMax[4] = {-1, -1, -1, -1}; int nMax = 0; TSKEY maxKey = TSKEY_MIN; for (int i = 0; i < 3; ++i) { if (!pIter->input[i].stop && pIter->input[i].pRow != NULL) { TSDBKEY key = TSDBROW_KEY(pIter->input[i].pRow); // merging & deduplicating on client side if (maxKey <= key.ts) { if (maxKey < key.ts) { nMax = 0; maxKey = key.ts; } iMax[nMax] = i; max[nMax++] = pIter->input[i].pRow; } else { pIter->input[i].next = false; } } } // delete detection TSDBROW *merge[4] = {0}; int iMerge[4] = {-1, -1, -1, -1}; int nMerge = 0; for (int i = 0; i < nMax; ++i) { TSDBKEY maxKey1 = TSDBROW_KEY(max[i]); if (!pIter->pSkyline) { pIter->pSkyline = taosArrayInit(32, sizeof(TSDBKEY)); uint64_t uid = pIter->idx.uid; STableLoadInfo *pInfo = getTableLoadInfo(pIter->pr, uid); if (pInfo->pTombData == NULL) { pInfo->pTombData = taosArrayInit(4, sizeof(SDelData)); } taosArrayAddAll(pInfo->pTombData, pIter->pMemDelData); size_t delSize = TARRAY_SIZE(pInfo->pTombData); if (delSize > 0) { code = tsdbBuildDeleteSkyline(pInfo->pTombData, 0, (int32_t)(delSize - 1), pIter->pSkyline); } pIter->iSkyline = taosArrayGetSize(pIter->pSkyline) - 1; } bool deleted = tsdbKeyDeleted(&maxKey1, pIter->pSkyline, &pIter->iSkyline); if (!deleted) { iMerge[nMerge] = iMax[i]; merge[nMerge++] = max[i]; } pIter->input[iMax[i]].next = deleted; } if (nMerge > 0) { pIter->input[iMerge[0]].next = true; *ppRow = merge[0]; return code; } } _err: return code; } static int32_t initLastColArray(STSchema *pTSchema, SArray **ppColArray) { SArray *pColArray = taosArrayInit(pTSchema->numOfCols, sizeof(SLastCol)); if (NULL == pColArray) { return TSDB_CODE_OUT_OF_MEMORY; } for (int32_t i = 0; i < pTSchema->numOfCols; ++i) { SLastCol col = {.ts = 0, .colVal = COL_VAL_NULL(pTSchema->columns[i].colId, pTSchema->columns[i].type)}; taosArrayPush(pColArray, &col); } *ppColArray = pColArray; return TSDB_CODE_SUCCESS; } static int32_t initLastColArrayPartial(STSchema *pTSchema, SArray **ppColArray, int16_t *slotIds, int nCols) { SArray *pColArray = taosArrayInit(nCols, sizeof(SLastCol)); if (NULL == pColArray) { return TSDB_CODE_OUT_OF_MEMORY; } for (int32_t i = 0; i < nCols; ++i) { int16_t slotId = slotIds[i]; SLastCol col = {.ts = 0, .colVal = COL_VAL_NULL(pTSchema->columns[slotId].colId, pTSchema->columns[slotId].type)}; taosArrayPush(pColArray, &col); } *ppColArray = pColArray; return TSDB_CODE_SUCCESS; } static int32_t cloneTSchema(STSchema *pSrc, STSchema **ppDst) { int32_t len = sizeof(STSchema) + sizeof(STColumn) * pSrc->numOfCols; *ppDst = taosMemoryMalloc(len); if (NULL == *ppDst) { return TSDB_CODE_OUT_OF_MEMORY; } memcpy(*ppDst, pSrc, len); return TSDB_CODE_SUCCESS; } static int32_t updateTSchema(int32_t sversion, SCacheRowsReader *pReader, uint64_t uid) { if (NULL == pReader->pCurrSchema && sversion == pReader->pSchema->version) { return cloneTSchema(pReader->pSchema, &pReader->pCurrSchema); } if (NULL != pReader->pCurrSchema && sversion == pReader->pCurrSchema->version) { return TSDB_CODE_SUCCESS; } taosMemoryFreeClear(pReader->pCurrSchema); return metaGetTbTSchemaEx(pReader->pTsdb->pVnode->pMeta, pReader->info.suid, uid, sversion, &pReader->pCurrSchema); } static int32_t mergeLastCid(tb_uid_t uid, STsdb *pTsdb, SArray **ppLastArray, SCacheRowsReader *pr, int16_t *aCols, int nCols, int16_t *slotIds) { STSchema *pTSchema = pr->pSchema; // metaGetTbTSchema(pTsdb->pVnode->pMeta, uid, -1, 1); int16_t nLastCol = nCols; int16_t noneCol = 0; bool setNoneCol = false; bool hasRow = false; bool ignoreEarlierTs = false; SArray *pColArray = NULL; SColVal *pColVal = &(SColVal){0}; int32_t code = initLastColArrayPartial(pTSchema, &pColArray, slotIds, nCols); if (TSDB_CODE_SUCCESS != code) { return code; } SArray *aColArray = taosArrayInit(nCols, sizeof(int16_t)); if (NULL == aColArray) { taosArrayDestroy(pColArray); return TSDB_CODE_OUT_OF_MEMORY; } for (int i = 0; i < nCols; ++i) { taosArrayPush(aColArray, &aCols[i]); } TSKEY lastRowTs = TSKEY_MAX; CacheNextRowIter iter = {0}; nextRowIterOpen(&iter, uid, pTsdb, pTSchema, pr->info.suid, pr->pLDataIterArray, pr->pReadSnap, pr->lastTs, pr); do { TSDBROW *pRow = NULL; nextRowIterGet(&iter, &pRow, &ignoreEarlierTs, true, TARRAY_DATA(aColArray), TARRAY_SIZE(aColArray)); if (!pRow) { break; } hasRow = true; int32_t sversion = TSDBROW_SVERSION(pRow); if (sversion != -1) { code = updateTSchema(sversion, pr, uid); if (TSDB_CODE_SUCCESS != code) { goto _err; } pTSchema = pr->pCurrSchema; } // int16_t nCol = pTSchema->numOfCols; TSKEY rowTs = TSDBROW_TS(pRow); if (lastRowTs == TSKEY_MAX) { lastRowTs = rowTs; for (int16_t iCol = noneCol; iCol < nCols; ++iCol) { if (iCol >= nLastCol) { break; } SLastCol *pCol = taosArrayGet(pColArray, iCol); if (pCol->colVal.cid != pTSchema->columns[slotIds[iCol]].colId) { continue; } if (slotIds[iCol] == 0) { STColumn *pTColumn = &pTSchema->columns[0]; *pColVal = COL_VAL_VALUE(pTColumn->colId, pTColumn->type, (SValue){.val = rowTs}); taosArraySet(pColArray, 0, &(SLastCol){.ts = rowTs, .colVal = *pColVal}); continue; } tsdbRowGetColVal(pRow, pTSchema, slotIds[iCol], pColVal); *pCol = (SLastCol){.ts = rowTs, .colVal = *pColVal}; if (IS_VAR_DATA_TYPE(pColVal->type) /*&& pColVal->value.nData > 0*/) { pCol->colVal.value.pData = taosMemoryMalloc(pCol->colVal.value.nData); if (pCol->colVal.value.pData == NULL) { terrno = TSDB_CODE_OUT_OF_MEMORY; code = TSDB_CODE_OUT_OF_MEMORY; goto _err; } if (pColVal->value.nData > 0) { memcpy(pCol->colVal.value.pData, pColVal->value.pData, pColVal->value.nData); } } if (!COL_VAL_IS_VALUE(pColVal)) { if (!setNoneCol) { noneCol = iCol; setNoneCol = true; } } else { int32_t aColIndex = taosArraySearchIdx(aColArray, &pColVal->cid, compareInt16Val, TD_EQ); if (aColIndex >= 0) { taosArrayRemove(aColArray, aColIndex); } } } if (!setNoneCol) { // done, goto return pColArray break; } else { continue; } } // merge into pColArray setNoneCol = false; for (int16_t iCol = noneCol; iCol < nCols; ++iCol) { if (iCol >= nLastCol) { break; } // high version's column value SLastCol *lastColVal = (SLastCol *)taosArrayGet(pColArray, iCol); if (lastColVal->colVal.cid != pTSchema->columns[slotIds[iCol]].colId) { continue; } SColVal *tColVal = &lastColVal->colVal; tsdbRowGetColVal(pRow, pTSchema, slotIds[iCol], pColVal); if (!COL_VAL_IS_VALUE(tColVal) && COL_VAL_IS_VALUE(pColVal)) { SLastCol lastCol = {.ts = rowTs, .colVal = *pColVal}; if (IS_VAR_DATA_TYPE(pColVal->type) && pColVal->value.nData > 0) { SLastCol *pLastCol = (SLastCol *)taosArrayGet(pColArray, iCol); taosMemoryFree(pLastCol->colVal.value.pData); lastCol.colVal.value.pData = taosMemoryMalloc(lastCol.colVal.value.nData); if (lastCol.colVal.value.pData == NULL) { terrno = TSDB_CODE_OUT_OF_MEMORY; code = TSDB_CODE_OUT_OF_MEMORY; goto _err; } memcpy(lastCol.colVal.value.pData, pColVal->value.pData, pColVal->value.nData); } taosArraySet(pColArray, iCol, &lastCol); int32_t aColIndex = taosArraySearchIdx(aColArray, &lastCol.colVal.cid, compareInt16Val, TD_EQ); taosArrayRemove(aColArray, aColIndex); } else if (!COL_VAL_IS_VALUE(tColVal) && !COL_VAL_IS_VALUE(pColVal) && !setNoneCol) { noneCol = iCol; setNoneCol = true; } } } while (setNoneCol); if (!hasRow) { if (ignoreEarlierTs) { taosArrayDestroy(pColArray); pColArray = NULL; } else { taosArrayClear(pColArray); } } *ppLastArray = pColArray; nextRowIterClose(&iter); taosArrayDestroy(aColArray); return code; _err: nextRowIterClose(&iter); // taosMemoryFreeClear(pTSchema); *ppLastArray = NULL; taosArrayDestroy(pColArray); taosArrayDestroy(aColArray); return code; } static int32_t mergeLastRowCid(tb_uid_t uid, STsdb *pTsdb, SArray **ppLastArray, SCacheRowsReader *pr, int16_t *aCols, int nCols, int16_t *slotIds) { STSchema *pTSchema = pr->pSchema; // metaGetTbTSchema(pTsdb->pVnode->pMeta, uid, -1, 1); int16_t nLastCol = nCols; int16_t noneCol = 0; bool setNoneCol = false; bool hasRow = false; bool ignoreEarlierTs = false; SArray *pColArray = NULL; SColVal *pColVal = &(SColVal){0}; int32_t code = initLastColArrayPartial(pTSchema, &pColArray, slotIds, nCols); if (TSDB_CODE_SUCCESS != code) { return code; } SArray *aColArray = taosArrayInit(nCols, sizeof(int16_t)); if (NULL == aColArray) { taosArrayDestroy(pColArray); return TSDB_CODE_OUT_OF_MEMORY; } for (int i = 0; i < nCols; ++i) { taosArrayPush(aColArray, &aCols[i]); } TSKEY lastRowTs = TSKEY_MAX; CacheNextRowIter iter = {0}; nextRowIterOpen(&iter, uid, pTsdb, pTSchema, pr->info.suid, pr->pLDataIterArray, pr->pReadSnap, pr->lastTs, pr); do { TSDBROW *pRow = NULL; nextRowIterGet(&iter, &pRow, &ignoreEarlierTs, false, TARRAY_DATA(aColArray), TARRAY_SIZE(aColArray)); if (!pRow) { break; } hasRow = true; int32_t sversion = TSDBROW_SVERSION(pRow); if (sversion != -1) { code = updateTSchema(sversion, pr, uid); if (TSDB_CODE_SUCCESS != code) { goto _err; } pTSchema = pr->pCurrSchema; } // int16_t nCol = pTSchema->numOfCols; TSKEY rowTs = TSDBROW_TS(pRow); lastRowTs = rowTs; for (int16_t iCol = noneCol; iCol < nCols; ++iCol) { if (iCol >= nLastCol) { break; } SLastCol *pCol = taosArrayGet(pColArray, iCol); if (pCol->colVal.cid != pTSchema->columns[slotIds[iCol]].colId) { continue; } if (slotIds[iCol] == 0) { STColumn *pTColumn = &pTSchema->columns[0]; *pColVal = COL_VAL_VALUE(pTColumn->colId, pTColumn->type, (SValue){.val = rowTs}); taosArraySet(pColArray, 0, &(SLastCol){.ts = rowTs, .colVal = *pColVal}); continue; } tsdbRowGetColVal(pRow, pTSchema, slotIds[iCol], pColVal); *pCol = (SLastCol){.ts = rowTs, .colVal = *pColVal}; if (IS_VAR_DATA_TYPE(pColVal->type) /*&& pColVal->value.nData > 0*/) { pCol->colVal.value.pData = taosMemoryMalloc(pCol->colVal.value.nData); if (pCol->colVal.value.pData == NULL) { terrno = TSDB_CODE_OUT_OF_MEMORY; code = TSDB_CODE_OUT_OF_MEMORY; goto _err; } if (pColVal->value.nData > 0) { memcpy(pCol->colVal.value.pData, pColVal->value.pData, pColVal->value.nData); } } int32_t aColIndex = taosArraySearchIdx(aColArray, &pColVal->cid, compareInt16Val, TD_EQ); if (aColIndex >= 0) { taosArrayRemove(aColArray, aColIndex); } } break; } while (1); if (!hasRow) { if (ignoreEarlierTs) { taosArrayDestroy(pColArray); pColArray = NULL; } else { taosArrayClear(pColArray); } } *ppLastArray = pColArray; nextRowIterClose(&iter); taosArrayDestroy(aColArray); return code; _err: nextRowIterClose(&iter); *ppLastArray = NULL; taosArrayDestroy(pColArray); taosArrayDestroy(aColArray); return code; } int32_t tsdbCacheRelease(SLRUCache *pCache, LRUHandle *h) { int32_t code = 0; taosLRUCacheRelease(pCache, h, false); return code; } void tsdbCacheSetCapacity(SVnode *pVnode, size_t capacity) { taosLRUCacheSetCapacity(pVnode->pTsdb->lruCache, capacity); } size_t tsdbCacheGetCapacity(SVnode *pVnode) { return taosLRUCacheGetCapacity(pVnode->pTsdb->lruCache); } size_t tsdbCacheGetUsage(SVnode *pVnode) { size_t usage = 0; if (pVnode->pTsdb != NULL) { usage = taosLRUCacheGetUsage(pVnode->pTsdb->lruCache); } return usage; } int32_t tsdbCacheGetElems(SVnode *pVnode) { int32_t elems = 0; if (pVnode->pTsdb != NULL) { elems = taosLRUCacheGetElems(pVnode->pTsdb->lruCache); } return elems; } static void getBICacheKey(int32_t fid, int64_t commitID, char *key, int *len) { struct { int32_t fid; int64_t commitID; } biKey = {0}; biKey.fid = fid; biKey.commitID = commitID; *len = sizeof(biKey); memcpy(key, &biKey, *len); } static int32_t tsdbCacheLoadBlockIdx(SDataFReader *pFileReader, SArray **aBlockIdx) { SArray *pArray = taosArrayInit(8, sizeof(SBlockIdx)); int32_t code = tsdbReadBlockIdx(pFileReader, pArray); if (code != TSDB_CODE_SUCCESS) { taosArrayDestroy(pArray); code = TSDB_CODE_OUT_OF_MEMORY; return code; } *aBlockIdx = pArray; return code; } static void deleteBICache(const void *key, size_t keyLen, void *value, void *ud) { (void)ud; SArray *pArray = (SArray *)value; taosArrayDestroy(pArray); } int32_t tsdbCacheGetBlockIdx(SLRUCache *pCache, SDataFReader *pFileReader, LRUHandle **handle) { int32_t code = 0; char key[128] = {0}; int keyLen = 0; getBICacheKey(pFileReader->pSet->fid, pFileReader->pSet->pHeadF->commitID, key, &keyLen); LRUHandle *h = taosLRUCacheLookup(pCache, key, keyLen); if (!h) { STsdb *pTsdb = pFileReader->pTsdb; taosThreadMutexLock(&pTsdb->biMutex); h = taosLRUCacheLookup(pCache, key, keyLen); if (!h) { SArray *pArray = NULL; code = tsdbCacheLoadBlockIdx(pFileReader, &pArray); // if table's empty or error, return code of -1 if (code != TSDB_CODE_SUCCESS || pArray == NULL) { taosThreadMutexUnlock(&pTsdb->biMutex); *handle = NULL; return 0; } size_t charge = pArray->capacity * pArray->elemSize + sizeof(*pArray); _taos_lru_deleter_t deleter = deleteBICache; LRUStatus status = taosLRUCacheInsert(pCache, key, keyLen, pArray, charge, deleter, &h, TAOS_LRU_PRIORITY_LOW, NULL); if (status != TAOS_LRU_STATUS_OK) { code = -1; } } taosThreadMutexUnlock(&pTsdb->biMutex); } tsdbTrace("bi cache:%p, ref", pCache); *handle = h; return code; } int32_t tsdbBICacheRelease(SLRUCache *pCache, LRUHandle *h) { int32_t code = 0; taosLRUCacheRelease(pCache, h, false); tsdbTrace("bi cache:%p, release", pCache); return code; }