/* * 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 "tdbInt.h" struct SPCache { int pageSize; int cacheSize; int extraSize; pthread_mutex_t mutex; int nFree; SPage * pFree; int nPage; int nHash; SPage ** pgHash; int nRecyclable; SPage lru; }; #define PCACHE_PAGE_HASH(pPgid) \ ({ \ u32 *t = (u32 *)((pPgid)->fileid); \ t[0] + t[1] + t[2] + t[3] + t[4] + t[5] + (pPgid)->pgno; \ }) #define PAGE_IS_PINNED(pPage) ((pPage)->pLruNext == NULL) static int tdbPCacheOpenImpl(SPCache *pCache); static void tdbPCacheInitLock(SPCache *pCache); static void tdbPCacheClearLock(SPCache *pCache); static void tdbPCacheLock(SPCache *pCache); static void tdbPCacheUnlock(SPCache *pCache); static bool tdbPCacheLocked(SPCache *pCache); static SPage *tdbPCacheFetchImpl(SPCache *pCache, const SPgid *pPgid, bool alcNewPage); static void tdbPCachePinPage(SPage *pPage); static void tdbPCacheRemovePageFromHash(SPage *pPage); static void tdbPCacheAddPageToHash(SPage *pPage); int tdbPCacheOpen(int pageSize, int cacheSize, int extraSize, SPCache **ppCache) { SPCache *pCache; void * pPtr; SPage * pPgHdr; pCache = (SPCache *)calloc(1, sizeof(*pCache)); if (pCache == NULL) { return -1; } pCache->pageSize = pageSize; pCache->cacheSize = cacheSize; pCache->extraSize = extraSize; if (tdbPCacheOpenImpl(pCache) < 0) { free(pCache); return -1; } *ppCache = pCache; return 0; } int tdbPCacheClose(SPCache *pCache) { /* TODO */ return 0; } SPage *tdbPCacheFetch(SPCache *pCache, const SPgid *pPgid, bool alcNewPage) { SPage *pPage; tdbPCacheLock(pCache); pPage = tdbPCacheFetchImpl(pCache, pPgid, alcNewPage); tdbPCacheUnlock(pCache); return pPage; } void tdbPCacheFetchFinish(SPCache *pCache, SPage *pPage) { /* TODO */ pPage->nRef++; // TODO: do we need atomic operation??? } void tdbPCacheRelease(SPage *pHdr) { // TODO } static void tdbPCacheInitLock(SPCache *pCache) { pthread_mutex_init(&(pCache->mutex), NULL); } static void tdbPCacheClearLock(SPCache *pCache) { pthread_mutex_destroy(&(pCache->mutex)); } static void tdbPCacheLock(SPCache *pCache) { pthread_mutex_lock(&(pCache->mutex)); } static void tdbPCacheUnlock(SPCache *pCache) { pthread_mutex_unlock(&(pCache->mutex)); } static bool tdbPCacheLocked(SPCache *pCache) { assert(0); // TODO return true; } static SPage *tdbPCacheFetchImpl(SPCache *pCache, const SPgid *pPgid, bool alcNewPage) { SPage *pPage; // 1. Search the hash table pPage = pCache->pgHash[PCACHE_PAGE_HASH(pPgid) % pCache->nHash]; while (pPage) { if (TDB_IS_SAME_PAGE(&(pPage->pgid), pPgid)) break; pPage = pPage->pHashNext; } if (pPage || !alcNewPage) { if (pPage) { tdbPCachePinPage(pPage); } return pPage; } // 2. Try to allocate a new page from the free list if (pCache->pFree) { pPage = pCache->pFree; pCache->pFree = pPage->pFreeNext; pCache->nFree--; pPage->pLruNext = NULL; } // 3. Try to Recycle a page if (!pPage && !pCache->lru.pLruPrev->isAnchor) { pPage = pCache->lru.pLruPrev; tdbPCacheRemovePageFromHash(pPage); tdbPCachePinPage(pPage); } // 4. Try a stress allocation (TODO) // 5. Page here are just created from a free list // or by recycling or allocated streesly, // need to initialize it if (pPage) { memcpy(&(pPage->pgid), pPgid, sizeof(*pPgid)); pPage->pLruNext = NULL; pPage->pPager = NULL; tdbPCacheAddPageToHash(pPage); } return pPage; } static void tdbPCachePinPage(SPage *pPage) { SPCache *pCache; pCache = pPage->pCache; if (!PAGE_IS_PINNED(pPage)) { pPage->pLruPrev->pLruNext = pPage->pLruNext; pPage->pLruNext->pLruPrev = pPage->pLruPrev; pPage->pLruNext = NULL; pCache->nRecyclable--; } } static void tdbPCacheRemovePageFromHash(SPage *pPage) { SPCache *pCache; SPage ** ppPage; int h; pCache = pPage->pCache; h = PCACHE_PAGE_HASH(&(pPage->pgid)); for (ppPage = &(pCache->pgHash[h % pCache->nHash]); *ppPage != pPage; ppPage = &((*ppPage)->pHashNext)) ; ASSERT(*ppPage == pPage); *ppPage = pPage->pHashNext; pCache->nPage--; } static void tdbPCacheAddPageToHash(SPage *pPage) { SPCache *pCache; int h; pCache = pPage->pCache; h = PCACHE_PAGE_HASH(&(pPage->pgid)) % pCache->nHash; pPage->pHashNext = pCache->pgHash[h]; pCache->pgHash[h] = pPage; pCache->nPage++; } static int tdbPCacheOpenImpl(SPCache *pCache) { SPage *pPage; u8 * pPtr; int tsize; tdbPCacheInitLock(pCache); // Open the free list pCache->nFree = 0; pCache->pFree = NULL; for (int i = 0; i < pCache->cacheSize; i++) { tsize = pCache->pageSize + sizeof(SPage) + pCache->extraSize; pPtr = (u8 *)calloc(1, tsize); if (pPtr == NULL) { // TODO return -1; } pPage = (SPage *)(&(pPtr[pCache->pageSize])); pPage->pData = (void *)pPtr; pPage->pExtra = (void *)(&(pPage[1])); // pPage->pgid = 0; pPage->isAnchor = 0; pPage->isLocalPage = 1; pPage->pCache = pCache; pPage->pHashNext = NULL; pPage->pLruNext = NULL; pPage->pLruPrev = NULL; pPage->pDirtyNext = NULL; pPage->pFreeNext = pCache->pFree; pCache->pFree = pPage; pCache->nFree++; } // Open the hash table pCache->nPage = 0; pCache->nHash = pCache->cacheSize; pCache->pgHash = (SPage **)calloc(pCache->nHash, sizeof(SPage *)); if (pCache->pgHash == NULL) { // TODO return -1; } // Open LRU list pCache->nRecyclable = 0; pCache->lru.isAnchor = 1; pCache->lru.pLruNext = &(pCache->lru); pCache->lru.pLruPrev = &(pCache->lru); return 0; }