/*- * Copyright (c) 1990, 1993, 1994 * The Regents of the University of California. All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * 3. All advertising materials mentioning features or use of this software * must display the following acknowledgement: * This product includes software developed by the University of * California, Berkeley and its contributors. * 4. Neither the name of the University nor the names of its contributors * may be used to endorse or promote products derived from this software * without specific prior written permission. * * THIS SOFTWARE IS PROVIDED BY THE REGENTS AND CONTRIBUTORS ``AS IS'' AND * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE * ARE DISCLAIMED. IN NO EVENT SHALL THE REGENTS OR CONTRIBUTORS BE LIABLE * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF * SUCH DAMAGE. */ #if defined(LIBC_SCCS) && !defined(lint) static char sccsid[] = "@(#)mpool.c 8.7 (Berkeley) 11/2/95"; #endif /* LIBC_SCCS and not lint */ #include #include #include #include #include #include #include #include "db-int.h" #include "mpool.h" static BKT *mpool_bkt __P((MPOOL *)); static BKT *mpool_look __P((MPOOL *, db_pgno_t)); static int mpool_write __P((MPOOL *, BKT *)); /* * mpool_open -- * Initialize a memory pool. */ MPOOL * mpool_open(key, fd, pagesize, maxcache) void *key; int fd; db_pgno_t pagesize, maxcache; { struct stat sb; MPOOL *mp; int entry; /* * Get information about the file. * * XXX * We don't currently handle pipes, although we should. */ if (fstat(fd, &sb)) return (NULL); if (!S_ISREG(sb.st_mode)) { errno = ESPIPE; return (NULL); } /* Allocate and initialize the MPOOL cookie. */ if ((mp = (MPOOL *)calloc(1, sizeof(MPOOL))) == NULL) return (NULL); TAILQ_INIT(&mp->lqh); for (entry = 0; entry < HASHSIZE; ++entry) TAILQ_INIT(&mp->hqh[entry]); mp->maxcache = maxcache; mp->npages = sb.st_size / pagesize; mp->pagesize = pagesize; mp->fd = fd; return (mp); } /* * mpool_filter -- * Initialize input/output filters. */ void mpool_filter(mp, pgin, pgout, pgcookie) MPOOL *mp; void (*pgin) __P((void *, db_pgno_t, void *)); void (*pgout) __P((void *, db_pgno_t, void *)); void *pgcookie; { mp->pgin = pgin; mp->pgout = pgout; mp->pgcookie = pgcookie; } /* * mpool_new -- * Get a new page of memory. */ void * mpool_new(mp, pgnoaddr, flags) MPOOL *mp; db_pgno_t *pgnoaddr; u_int flags; { struct _hqh *head; BKT *bp; if (mp->npages == MAX_PAGE_NUMBER) { (void)fprintf(stderr, "mpool_new: page allocation overflow.\n"); abort(); } #ifdef STATISTICS ++mp->pagenew; #endif /* * Get a BKT from the cache. Assign a new page number, attach * it to the head of the hash chain, the tail of the lru chain, * and return. */ if ((bp = mpool_bkt(mp)) == NULL) return (NULL); if (flags == MPOOL_PAGE_REQUEST) { mp->npages++; bp->pgno = *pgnoaddr; } else bp->pgno = *pgnoaddr = mp->npages++; bp->flags = MPOOL_PINNED | MPOOL_INUSE; head = &mp->hqh[HASHKEY(bp->pgno)]; TAILQ_INSERT_HEAD(head, bp, hq); TAILQ_INSERT_TAIL(&mp->lqh, bp, q); return (bp->page); } int mpool_delete(mp, page) MPOOL *mp; void *page; { struct _hqh *head; BKT *bp; bp = (void *)((char *)page - sizeof(BKT)); #ifdef DEBUG if (!(bp->flags & MPOOL_PINNED)) { (void)fprintf(stderr, "mpool_delete: page %d not pinned\n", bp->pgno); abort(); } #endif /* Remove from the hash and lru queues. */ head = &mp->hqh[HASHKEY(bp->pgno)]; TAILQ_REMOVE(head, bp, hq); TAILQ_REMOVE(&mp->lqh, bp, q); free(bp); return (RET_SUCCESS); } /* * mpool_get * Get a page. */ void * mpool_get(mp, pgno, flags) MPOOL *mp; db_pgno_t pgno; u_int flags; /* XXX not used? */ { struct _hqh *head; BKT *bp; off_t off; int nr; #ifdef STATISTICS ++mp->pageget; #endif /* Check for a page that is cached. */ if ((bp = mpool_look(mp, pgno)) != NULL) { #ifdef DEBUG if (!(flags & MPOOL_IGNOREPIN) && bp->flags & MPOOL_PINNED) { (void)fprintf(stderr, "mpool_get: page %d already pinned\n", bp->pgno); abort(); } #endif /* * Move the page to the head of the hash chain and the tail * of the lru chain. */ head = &mp->hqh[HASHKEY(bp->pgno)]; TAILQ_REMOVE(head, bp, hq); TAILQ_INSERT_HEAD(head, bp, hq); TAILQ_REMOVE(&mp->lqh, bp, q); TAILQ_INSERT_TAIL(&mp->lqh, bp, q); /* Return a pinned page. */ if (!(flags & MPOOL_IGNOREPIN)) bp->flags |= MPOOL_PINNED; return (bp->page); } /* Get a page from the cache. */ if ((bp = mpool_bkt(mp)) == NULL) return (NULL); /* Read in the contents. */ #ifdef STATISTICS ++mp->pageread; #endif off = mp->pagesize * pgno; if (off / mp->pagesize != pgno) { /* Run past the end of the file, or at least the part we can address without large-file support? */ errno = E2BIG; return NULL; } if (lseek(mp->fd, off, SEEK_SET) != off) return (NULL); if ((nr = read(mp->fd, bp->page, mp->pagesize)) != (ssize_t)mp->pagesize) { if (nr > 0) { /* A partial read is definitely bad. */ errno = EINVAL; return (NULL); } else { /* * A zero-length reads, means you need to create a * new page. */ memset(bp->page, 0, mp->pagesize); } } /* Set the page number, pin the page. */ bp->pgno = pgno; if (!(flags & MPOOL_IGNOREPIN)) bp->flags = MPOOL_PINNED; bp->flags |= MPOOL_INUSE; /* * Add the page to the head of the hash chain and the tail * of the lru chain. */ head = &mp->hqh[HASHKEY(bp->pgno)]; TAILQ_INSERT_HEAD(head, bp, hq); TAILQ_INSERT_TAIL(&mp->lqh, bp, q); /* Run through the user's filter. */ if (mp->pgin != NULL) (mp->pgin)(mp->pgcookie, bp->pgno, bp->page); return (bp->page); } /* * mpool_put * Return a page. */ int mpool_put(mp, page, flags) MPOOL *mp; void *page; u_int flags; { BKT *bp; #ifdef STATISTICS ++mp->pageput; #endif bp = (void *)((char *)page - sizeof(BKT)); #ifdef DEBUG if (!(bp->flags & MPOOL_PINNED)) { (void)fprintf(stderr, "mpool_put: page %d not pinned\n", bp->pgno); abort(); } #endif bp->flags &= ~MPOOL_PINNED; if (flags & MPOOL_DIRTY) bp->flags |= flags & MPOOL_DIRTY; return (RET_SUCCESS); } /* * mpool_close * Close the buffer pool. */ int mpool_close(mp) MPOOL *mp; { BKT *bp; /* Free up any space allocated to the lru pages. */ while ((bp = mp->lqh.tqh_first) != NULL) { TAILQ_REMOVE(&mp->lqh, mp->lqh.tqh_first, q); free(bp); } /* Free the MPOOL cookie. */ free(mp); return (RET_SUCCESS); } /* * mpool_sync * Sync the pool to disk. */ int mpool_sync(mp) MPOOL *mp; { BKT *bp; /* Walk the lru chain, flushing any dirty pages to disk. */ for (bp = mp->lqh.tqh_first; bp != NULL; bp = bp->q.tqe_next) if (bp->flags & MPOOL_DIRTY && mpool_write(mp, bp) == RET_ERROR) return (RET_ERROR); /* Sync the file descriptor. */ return (fsync(mp->fd) ? RET_ERROR : RET_SUCCESS); } /* * mpool_bkt * Get a page from the cache (or create one). */ static BKT * mpool_bkt(mp) MPOOL *mp; { struct _hqh *head; BKT *bp; /* If under the max cached, always create a new page. */ if (mp->curcache < mp->maxcache) goto new; /* * If the cache is max'd out, walk the lru list for a buffer we * can flush. If we find one, write it (if necessary) and take it * off any lists. If we don't find anything we grow the cache anyway. * The cache never shrinks. */ for (bp = mp->lqh.tqh_first; bp != NULL; bp = bp->q.tqe_next) if (!(bp->flags & MPOOL_PINNED)) { /* Flush if dirty. */ if (bp->flags & MPOOL_DIRTY && mpool_write(mp, bp) == RET_ERROR) return (NULL); #ifdef STATISTICS ++mp->pageflush; #endif /* Remove from the hash and lru queues. */ head = &mp->hqh[HASHKEY(bp->pgno)]; TAILQ_REMOVE(head, bp, hq); TAILQ_REMOVE(&mp->lqh, bp, q); #if defined(DEBUG) && !defined(DEBUG_IDX0SPLIT) { void *spage; spage = bp->page; memset(bp, 0xff, sizeof(BKT) + mp->pagesize); bp->page = spage; } #endif bp->flags = 0; return (bp); } new: if ((bp = (BKT *)malloc(sizeof(BKT) + mp->pagesize)) == NULL) return (NULL); #ifdef STATISTICS ++mp->pagealloc; #endif #if defined(DEBUG) || defined(PURIFY) || 1 memset(bp, 0xff, sizeof(BKT) + mp->pagesize); #endif bp->page = (char *)bp + sizeof(BKT); bp->flags = 0; ++mp->curcache; return (bp); } /* * mpool_write * Write a page to disk. */ static int mpool_write(mp, bp) MPOOL *mp; BKT *bp; { off_t off; #ifdef STATISTICS ++mp->pagewrite; #endif /* Run through the user's filter. */ if (mp->pgout) (mp->pgout)(mp->pgcookie, bp->pgno, bp->page); off = mp->pagesize * bp->pgno; if (off / mp->pagesize != bp->pgno) { /* Run past the end of the file, or at least the part we can address without large-file support? */ errno = E2BIG; return RET_ERROR; } if (lseek(mp->fd, off, SEEK_SET) != off) return (RET_ERROR); if (write(mp->fd, bp->page, mp->pagesize) != (ssize_t)mp->pagesize) return (RET_ERROR); /* * Re-run through the input filter since this page may soon be * accessed via the cache, and whatever the user's output filter * did may screw things up if we don't let the input filter * restore the in-core copy. */ if (mp->pgin) (mp->pgin)(mp->pgcookie, bp->pgno, bp->page); bp->flags &= ~MPOOL_DIRTY; return (RET_SUCCESS); } /* * mpool_look * Lookup a page in the cache. */ static BKT * mpool_look(mp, pgno) MPOOL *mp; db_pgno_t pgno; { struct _hqh *head; BKT *bp; head = &mp->hqh[HASHKEY(pgno)]; for (bp = head->tqh_first; bp != NULL; bp = bp->hq.tqe_next) if ((bp->pgno == pgno) && (bp->flags & MPOOL_INUSE)) { #ifdef STATISTICS ++mp->cachehit; #endif return (bp); } #ifdef STATISTICS ++mp->cachemiss; #endif return (NULL); } #ifdef STATISTICS /* * mpool_stat * Print out cache statistics. */ void mpool_stat(mp) MPOOL *mp; { BKT *bp; int cnt; char *sep; (void)fprintf(stderr, "%lu pages in the file\n", mp->npages); (void)fprintf(stderr, "page size %lu, cacheing %lu pages of %lu page max cache\n", mp->pagesize, mp->curcache, mp->maxcache); (void)fprintf(stderr, "%lu page puts, %lu page gets, %lu page new\n", mp->pageput, mp->pageget, mp->pagenew); (void)fprintf(stderr, "%lu page allocs, %lu page flushes\n", mp->pagealloc, mp->pageflush); if (mp->cachehit + mp->cachemiss) (void)fprintf(stderr, "%.0f%% cache hit rate (%lu hits, %lu misses)\n", ((double)mp->cachehit / (mp->cachehit + mp->cachemiss)) * 100, mp->cachehit, mp->cachemiss); (void)fprintf(stderr, "%lu page reads, %lu page writes\n", mp->pageread, mp->pagewrite); sep = ""; cnt = 0; for (bp = mp->lqh.tqh_first; bp != NULL; bp = bp->q.tqe_next) { (void)fprintf(stderr, "%s%d", sep, bp->pgno); if (bp->flags & MPOOL_DIRTY) (void)fprintf(stderr, "d"); if (bp->flags & MPOOL_PINNED) (void)fprintf(stderr, "P"); if (++cnt == 10) { sep = "\n"; cnt = 0; } else sep = ", "; } (void)fprintf(stderr, "\n"); } #else void mpool_stat(mp) MPOOL *mp; { } #endif