/* $Xorg: cache.c,v 1.4 2001/02/09 02:05:42 xorgcvs Exp $ */ /* Copyright 1987, 1998 The Open Group Permission to use, copy, modify, distribute, and sell this software and its documentation for any purpose is hereby granted without fee, provided that the above copyright notice appear in all copies and that both that copyright notice and this permission notice appear in supporting documentation. The above copyright notice and this permission notice shall be included in all copies or substantial portions of the Software. THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE OPEN GROUP BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. Except as contained in this notice, the name of The Open Group shall not be used in advertising or otherwise to promote the sale, use or other dealings in this Software without prior written authorization from The Open Group. * Copyright 1990, 1991 Network Computing Devices; * Portions Copyright 1987 by Digital Equipment Corporation * * Permission to use, copy, modify, distribute, and sell this software and its * documentation for any purpose is hereby granted without fee, provided that * the above copyright notice appear in all copies and that both that * copyright notice and this permission notice appear in supporting * documentation, and that the names of Network Computing Devices, * or Digital not be used in advertising or * publicity pertaining to distribution of the software without specific, * written prior permission. Network Computing Devices, or Digital * make no representations about the * suitability of this software for any purpose. It is provided "as is" * without express or implied warranty. * * NETWORK COMPUTING DEVICES, AND DIGITAL DISCLAIM ALL WARRANTIES WITH * REGARD TO THIS SOFTWARE, INCLUDING ALL IMPLIED WARRANTIES OF MERCHANTABILITY * AND FITNESS, IN NO EVENT SHALL NETWORK COMPUTING DEVICES, OR DIGITAL BE * LIABLE FOR ANY SPECIAL, INDIRECT OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES * WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN ACTION * OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF OR IN * CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE. * * @(#)cache.c 4.2 91/05/02 * */ /* $XFree86: xc/programs/xfs/difs/cache.c,v 1.6 2001/12/14 20:01:33 dawes Exp $ */ #include "cachestr.h" #include "misc.h" #define INITBUCKETS 64 #define INITHASHSIZE 6 #define MAXHASHSIZE 11 #define ENTRYOFFSET 22 #define CACHE_ENTRY_MASK 0x3FFFFF #define CACHE_ENTRY_BITS(id) ((id) & 0x1fc00000) #define CACHE_ID(id) ((int)(CACHE_ENTRY_BITS(id) >> ENTRYOFFSET)) #define NullCacheEntry ((CacheEntryPtr) 0) #define MAX_NUM_CACHES 32 /* XXX make this dynamic? */ static CachePtr caches[MAX_NUM_CACHES]; static int num_caches = 1; /*- * Notes on cache implementation * * This is basically the X11 resource code, with some modifications * to handle aging. * * Its currently optimized for lookup & store. Flushing old stuff * is a lot slower than it should probably be, but there's tradeoffs * in tuning. */ Cache CacheInit(unsigned long maxsize) { Cache id = (Cache) num_caches; CachePtr cache; cache = (CachePtr) fsalloc(sizeof(CacheRec)); if (!cache) return (Cache) 0; cache->entries = (CacheEntryPtr *) fsalloc(INITBUCKETS * sizeof(CacheEntryPtr)); bzero((char *) cache->entries, (INITBUCKETS * sizeof(CacheEntryPtr))); if (!cache->entries) { fsfree(cache); return (Cache) 0; } caches[id] = cache; cache->elements = 0; cache->buckets = INITBUCKETS; cache->hashsize = INITHASHSIZE; cache->maxsize = maxsize; cache->cursize = 0; cache->nextid = id << ENTRYOFFSET; cache->id = id; num_caches++; return id; } static int hash(CacheID cid) { CachePtr cache = caches[CACHE_ID(cid)]; switch (cache->hashsize) { #ifdef DEBUG /* only need this if INITHASHSIZE < 6 */ case 2: return ((int) (0x03 & (cid ^ (cid >> 2) ^ (cid >> 8)))); case 3: return ((int) (0x07 & (cid ^ (cid >> 3) ^ (cid >> 9)))); case 4: return ((int) (0x0F & (cid ^ (cid >> 4) ^ (cid >> 10)))); case 5: return ((int) (0x01F & (cid ^ (cid >> 5) ^ (cid >> 11)))); #endif case 6: return ((int) (0x03F & (cid ^ (cid >> 6) ^ (cid >> 12)))); case 7: return ((int) (0x07F & (cid ^ (cid >> 7) ^ (cid >> 13)))); case 8: return ((int) (0x0FF & (cid ^ (cid >> 8) ^ (cid >> 16)))); case 9: return ((int) (0x1FF & (cid ^ (cid >> 9)))); case 10: return ((int) (0x3FF & (cid ^ (cid >> 10)))); case 11: return ((int) (0x7FF & (cid ^ (cid >> 11)))); } return -1; } static void rebuild_cache(CachePtr cache) { int j; CacheEntryPtr cp, next, **tails, *entries, **tptr, *cptr; assert(cache); j = 2 * cache->buckets; tails = (CacheEntryPtr **) ALLOCATE_LOCAL(j * sizeof(CacheEntryPtr *)); if (!tails) return; entries = (CacheEntryPtr *) fsalloc(j * sizeof(CacheEntryPtr)); if (entries) { DEALLOCATE_LOCAL(tails); return; } for (cptr = entries, tptr = tails; --j >= 0; cptr++, tptr++) { *cptr = NullCacheEntry; *tptr = cptr; } cache->hashsize++; for (j = cache->buckets, cptr = cache->entries; --j >= 0; cptr++) { for (cp = *cptr; cp; cp = next) { next = cp->next; cp->next = NullCacheEntry; tptr = &tails[hash(cp->id)]; **tptr = cp; *tptr = &cp->next; } } DEALLOCATE_LOCAL(tails); cache->buckets *= 2; fsfree(cache->entries); cache->entries = entries; } /* * throws out all existing entries */ void CacheReset(void) { CacheEntryPtr cp; CachePtr cache; int i, j; for (j = 0; j < num_caches; j++) { cache = caches[j]; if (!cache) continue; for (i = 0; i < cache->buckets; i++) { for (cp = cache->entries[i]; cp; cp = cp->next) { cache->elements--; cache->cursize -= cp->size; (*cp->free_func) (cp->id, cp->data, CacheWasReset); fsfree(cp); } cache->entries[i] = (CacheEntryPtr) 0; } assert(cache->cursize == 0); } } static void flush_cache(CachePtr cache, unsigned long needed) { /* XXX -- try to set oldprev properly inside search loop */ CacheEntryPtr cp, oldest, *oldprev; int oldbucket = -1, i; while ((cache->cursize + needed) > cache->maxsize) { oldest = (CacheEntryPtr) 0; /* find oldest */ for (i = 0; i < cache->buckets; i++) { cp = cache->entries[i]; if (!cp) continue; if (!oldest) { oldbucket = i; oldest = cp; } while (cp) { if (cp->timestamp < oldest->timestamp) { oldest = cp; oldbucket = i; } cp = cp->next; } } /* fixup list */ oldprev = &cache->entries[oldbucket]; cp = *oldprev; for (; (cp = *oldprev) != 0; oldprev = &cp->next) { if (cp == oldest) { *oldprev = oldest->next; break; } } /* clobber it */ cache->elements--; cache->cursize -= oldest->size; (*oldest->free_func) (oldest->id, oldest->data, CacheEntryOld); fsfree(oldest); } } void CacheResize(Cache cid, unsigned newsize) { CachePtr cache = caches[cid]; if (!cache) return; if (newsize < cache->maxsize) { /* have to toss some stuff */ flush_cache(cache, cache->maxsize - newsize); } cache->maxsize = newsize; } CacheID CacheStoreMemory( Cache cid, pointer data, unsigned long size, CacheFree free_func) { CacheID id; CacheEntryPtr cp, *head; CachePtr cache = caches[cid]; if (size > cache->maxsize) /* beyond cache limits */ return (CacheID) 0; if ((cache->elements >= 4 * cache->buckets) && (cache->hashsize < MAXHASHSIZE)) { rebuild_cache(cache); } id = cache->nextid++; if ((cache->cursize + size) > cache->maxsize) { flush_cache(cache, size); } head = &cache->entries[hash(id)]; cp = (CacheEntryPtr) fsalloc(sizeof(CacheEntryRec)); if (!cp) { return (CacheID) 0; } cp->next = *head; cp->id = id; cp->timestamp = GetTimeInMillis(); cp->free_func = free_func; cp->size = size; cp->data = data; cache->cursize += size; cache->elements++; *head = cp; return id; } pointer CacheFetchMemory( CacheID cid, Bool update) { CachePtr cache = caches[CACHE_ID(cid)]; CacheEntryPtr cp, *head; head = &cache->entries[hash(cid)]; for (cp = *head; cp; cp = cp->next) { if (cp->id == cid) { if (update) { cp->timestamp = GetTimeInMillis(); if (cp != *head) { /* put it in the front */ cp->next = *head; *head = cp; } } return cp->data; } } return (pointer) 0; } void CacheFreeMemory( CacheID cid, Bool notify) { CachePtr cache = caches[CACHE_ID(cid)]; CacheEntryPtr cp, *prev, *head; int *elptr; int elements; Bool found = FALSE; head = &cache->entries[hash(cid)]; elptr = &cache->elements; prev = head; while ((cp = *prev) != NullCacheEntry) { if (cp->id == cid) { *prev = cp->next; elements = --*elptr; if (notify) { (*(cp->free_func)) (cid, cp->data, CacheEntryFreed); } cache->cursize -= cp->size; fsfree(cp); if (*elptr != elements) prev = head; found = TRUE; } else { prev = &cp->next; } } if (!found) FatalError("freeing cache entry %d which isn't there\n", cid); } /* ARGSUSED */ void CacheSimpleFree( CacheID cid, pointer data, int reason) { fsfree(data); }