/* -*- Mode: C++; tab-width: 8; indent-tabs-mode: nil; c-basic-offset: 4 -*- * * ***** BEGIN LICENSE BLOCK ***** * Version: MPL 1.1/GPL 2.0/LGPL 2.1 * * The contents of this file are subject to the Mozilla Public License Version * 1.1 (the "License"); you may not use this file except in compliance with * the License. You may obtain a copy of the License at * http://www.mozilla.org/MPL/ * * Software distributed under the License is distributed on an "AS IS" basis, * WITHOUT WARRANTY OF ANY KIND, either express or implied. See the License * for the specific language governing rights and limitations under the * License. * * The Original Code is Mozilla Communicator client code, released * March 31, 1998. * * The Initial Developer of the Original Code is * Netscape Communications Corporation. * Portions created by the Initial Developer are Copyright (C) 1998 * the Initial Developer. All Rights Reserved. * * Contributor(s): * * Alternatively, the contents of this file may be used under the terms of * either of the GNU General Public License Version 2 or later (the "GPL"), * or the GNU Lesser General Public License Version 2.1 or later (the "LGPL"), * in which case the provisions of the GPL or the LGPL are applicable instead * of those above. If you wish to allow use of your version of this file only * under the terms of either the GPL or the LGPL, and not to allow others to * use your version of this file under the terms of the MPL, indicate your * decision by deleting the provisions above and replace them with the notice * and other provisions required by the GPL or the LGPL. If you do not delete * the provisions above, a recipient may use your version of this file under * the terms of any one of the MPL, the GPL or the LGPL. * * ***** END LICENSE BLOCK ***** */ /* * Lifetime-based fast allocation, inspired by much prior art, including * "Fast Allocation and Deallocation of Memory Based on Object Lifetimes" * David R. Hanson, Software -- Practice and Experience, Vol. 20(1). */ #include #include #include "jstypes.h" #include "jsstdint.h" #include "jsbit.h" #include "jsarena.h" /* Added by JSIFY */ #include "jsutil.h" /* Added by JSIFY */ #ifdef JS_ARENAMETER static JSArenaStats *arena_stats_list; #define COUNT(pool,what) (pool)->stats.what++ #else #define COUNT(pool,what) /* nothing */ #endif #define JS_ARENA_DEFAULT_ALIGN sizeof(double) JS_PUBLIC_API(void) JS_InitArenaPool(JSArenaPool *pool, const char *name, size_t size, size_t align, size_t *quotap) { if (align == 0) align = JS_ARENA_DEFAULT_ALIGN; pool->mask = JS_BITMASK(JS_CeilingLog2(align)); pool->first.next = NULL; pool->first.base = pool->first.avail = pool->first.limit = JS_ARENA_ALIGN(pool, &pool->first + 1); pool->current = &pool->first; pool->arenasize = size; pool->quotap = quotap; #ifdef JS_ARENAMETER memset(&pool->stats, 0, sizeof pool->stats); pool->stats.name = strdup(name); pool->stats.next = arena_stats_list; arena_stats_list = &pool->stats; #endif } /* * An allocation that consumes more than pool->arenasize also has a header * pointing back to its previous arena's next member. This header is not * included in [a->base, a->limit), so its space can't be wrongly claimed. * * As the header is a pointer, it must be well-aligned. If pool->mask is * greater than or equal to POINTER_MASK, the header just preceding a->base * for an oversized arena a is well-aligned, because a->base is well-aligned. * However, we may need to add more space to pad the JSArena ** back-pointer * so that it lies just behind a->base, because a might not be aligned such * that (jsuword)(a + 1) is on a pointer boundary. * * By how much must we pad? Let M be the alignment modulus for pool and P * the modulus for a pointer. Given M >= P, the base of an oversized arena * that satisfies M is well-aligned for P. * * On the other hand, if M < P, we must include enough space in the header * size to align the back-pointer on a P boundary so that it can be found by * subtracting P from a->base. This means a->base must be on a P boundary, * even though subsequent allocations from a may be aligned on a lesser (M) * boundary. Given powers of two M and P as above, the extra space needed * when M < P is P-M or POINTER_MASK - pool->mask. * * The size of a header including padding is given by the HEADER_SIZE macro, * below, for any pool (for any value of M). * * The mask to align a->base for any pool is (pool->mask | POINTER_MASK), or * HEADER_BASE_MASK(pool). * * PTR_TO_HEADER computes the address of the back-pointer, given an oversized * allocation at p. By definition, p must be a->base for the arena a that * contains p. GET_HEADER and SET_HEADER operate on an oversized arena a, in * the case of SET_HEADER with back-pointer ap. */ #define POINTER_MASK ((jsuword)(JS_ALIGN_OF_POINTER - 1)) #define HEADER_SIZE(pool) (sizeof(JSArena **) \ + (((pool)->mask < POINTER_MASK) \ ? POINTER_MASK - (pool)->mask \ : 0)) #define HEADER_BASE_MASK(pool) ((pool)->mask | POINTER_MASK) #define PTR_TO_HEADER(pool,p) (JS_ASSERT(((jsuword)(p) \ & HEADER_BASE_MASK(pool)) \ == 0), \ (JSArena ***)(p) - 1) #define GET_HEADER(pool,a) (*PTR_TO_HEADER(pool, (a)->base)) #define SET_HEADER(pool,a,ap) (*PTR_TO_HEADER(pool, (a)->base) = (ap)) JS_PUBLIC_API(void *) JS_ArenaAllocate(JSArenaPool *pool, size_t nb) { JSArena **ap, *a, *b; jsuword extra, hdrsz, gross; void *p; /* * Search pool from current forward till we find or make enough space. * * NB: subtract nb from a->limit in the loop condition, instead of adding * nb to a->avail, to avoid overflowing a 32-bit address space (possible * when running a 32-bit program on a 64-bit system where the kernel maps * the heap up against the top of the 32-bit address space). * * Thanks to Juergen Kreileder , who brought this up in * https://bugzilla.mozilla.org/show_bug.cgi?id=279273. */ JS_ASSERT((nb & pool->mask) == 0); for (a = pool->current; nb > a->limit || a->avail > a->limit - nb; pool->current = a) { ap = &a->next; if (!*ap) { /* Not enough space in pool, so we must malloc. */ extra = (nb > pool->arenasize) ? HEADER_SIZE(pool) : 0; hdrsz = sizeof *a + extra + pool->mask; gross = hdrsz + JS_MAX(nb, pool->arenasize); if (gross < nb) return NULL; if (pool->quotap) { if (gross > *pool->quotap) return NULL; b = (JSArena *) js_malloc(gross); if (!b) return NULL; *pool->quotap -= gross; } else { b = (JSArena *) js_malloc(gross); if (!b) return NULL; } b->next = NULL; b->limit = (jsuword)b + gross; JS_COUNT_ARENA(pool,++); COUNT(pool, nmallocs); /* If oversized, store ap in the header, just before a->base. */ *ap = a = b; JS_ASSERT(gross <= JS_UPTRDIFF(a->limit, a)); if (extra) { a->base = a->avail = ((jsuword)a + hdrsz) & ~HEADER_BASE_MASK(pool); SET_HEADER(pool, a, ap); } else { a->base = a->avail = JS_ARENA_ALIGN(pool, a + 1); } continue; } a = *ap; /* move to next arena */ } p = (void *)a->avail; a->avail += nb; JS_ASSERT(a->base <= a->avail && a->avail <= a->limit); return p; } JS_PUBLIC_API(void *) JS_ArenaRealloc(JSArenaPool *pool, void *p, size_t size, size_t incr) { JSArena **ap, *a, *b; jsuword boff, aoff, extra, hdrsz, gross, growth; /* * Use the oversized-single-allocation header to avoid searching for ap. * See JS_ArenaAllocate, the SET_HEADER call. */ if (size > pool->arenasize) { ap = *PTR_TO_HEADER(pool, p); a = *ap; } else { ap = &pool->first.next; while ((a = *ap) != pool->current) ap = &a->next; } JS_ASSERT(a->base == (jsuword)p); boff = JS_UPTRDIFF(a->base, a); aoff = JS_ARENA_ALIGN(pool, size + incr); JS_ASSERT(aoff > pool->arenasize); extra = HEADER_SIZE(pool); /* oversized header holds ap */ hdrsz = sizeof *a + extra + pool->mask; /* header and alignment slop */ gross = hdrsz + aoff; JS_ASSERT(gross > aoff); if (pool->quotap) { growth = gross - (a->limit - (jsuword) a); if (growth > *pool->quotap) return NULL; a = (JSArena *) js_realloc(a, gross); if (!a) return NULL; *pool->quotap -= growth; } else { a = (JSArena *) js_realloc(a, gross); if (!a) return NULL; } #ifdef JS_ARENAMETER pool->stats.nreallocs++; #endif if (a != *ap) { /* Oops, realloc moved the allocation: update other pointers to a. */ if (pool->current == *ap) pool->current = a; b = a->next; if (b && b->avail - b->base > pool->arenasize) { JS_ASSERT(GET_HEADER(pool, b) == &(*ap)->next); SET_HEADER(pool, b, &a->next); } /* Now update *ap, the next link of the arena before a. */ *ap = a; } a->base = ((jsuword)a + hdrsz) & ~HEADER_BASE_MASK(pool); a->limit = (jsuword)a + gross; a->avail = a->base + aoff; JS_ASSERT(a->base <= a->avail && a->avail <= a->limit); /* Check whether realloc aligned differently, and copy if necessary. */ if (boff != JS_UPTRDIFF(a->base, a)) memmove((void *)a->base, (char *)a + boff, size); /* Store ap in the oversized-load arena header. */ SET_HEADER(pool, a, ap); return (void *)a->base; } JS_PUBLIC_API(void *) JS_ArenaGrow(JSArenaPool *pool, void *p, size_t size, size_t incr) { void *newp; /* * If p points to an oversized allocation, it owns an entire arena, so we * can simply realloc the arena. */ if (size > pool->arenasize) return JS_ArenaRealloc(pool, p, size, incr); JS_ARENA_ALLOCATE(newp, pool, size + incr); if (newp) memcpy(newp, p, size); return newp; } /* * Free tail arenas linked after head, which may not be the true list head. * Reset pool->current to point to head in case it pointed at a tail arena. */ static void FreeArenaList(JSArenaPool *pool, JSArena *head) { JSArena **ap, *a; ap = &head->next; a = *ap; if (!a) return; #ifdef DEBUG do { JS_ASSERT(a->base <= a->avail && a->avail <= a->limit); a->avail = a->base; JS_CLEAR_UNUSED(a); } while ((a = a->next) != NULL); a = *ap; #endif do { *ap = a->next; if (pool->quotap) *pool->quotap += a->limit - (jsuword) a; JS_CLEAR_ARENA(a); JS_COUNT_ARENA(pool,--); js_free(a); } while ((a = *ap) != NULL); pool->current = head; } JS_PUBLIC_API(void) JS_ArenaRelease(JSArenaPool *pool, char *mark) { JSArena *a; for (a = &pool->first; a; a = a->next) { JS_ASSERT(a->base <= a->avail && a->avail <= a->limit); if (JS_ARENA_MARK_MATCH(a, mark)) { a->avail = JS_ARENA_ALIGN(pool, mark); JS_ASSERT(a->avail <= a->limit); FreeArenaList(pool, a); return; } } } JS_PUBLIC_API(void) JS_FreeArenaPool(JSArenaPool *pool) { FreeArenaList(pool, &pool->first); COUNT(pool, ndeallocs); } JS_PUBLIC_API(void) JS_FinishArenaPool(JSArenaPool *pool) { FreeArenaList(pool, &pool->first); #ifdef JS_ARENAMETER { JSArenaStats *stats, **statsp; if (pool->stats.name) { js_free(pool->stats.name); pool->stats.name = NULL; } for (statsp = &arena_stats_list; (stats = *statsp) != 0; statsp = &stats->next) { if (stats == &pool->stats) { *statsp = stats->next; return; } } } #endif } JS_PUBLIC_API(void) JS_ArenaFinish() { } JS_PUBLIC_API(void) JS_ArenaShutDown(void) { } #ifdef JS_ARENAMETER JS_PUBLIC_API(void) JS_ArenaCountAllocation(JSArenaPool *pool, size_t nb) { pool->stats.nallocs++; pool->stats.nbytes += nb; if (nb > pool->stats.maxalloc) pool->stats.maxalloc = nb; pool->stats.variance += nb * nb; } JS_PUBLIC_API(void) JS_ArenaCountInplaceGrowth(JSArenaPool *pool, size_t size, size_t incr) { pool->stats.ninplace++; } JS_PUBLIC_API(void) JS_ArenaCountGrowth(JSArenaPool *pool, size_t size, size_t incr) { pool->stats.ngrows++; pool->stats.nbytes += incr; pool->stats.variance -= size * size; size += incr; if (size > pool->stats.maxalloc) pool->stats.maxalloc = size; pool->stats.variance += size * size; } JS_PUBLIC_API(void) JS_ArenaCountRelease(JSArenaPool *pool, char *mark) { pool->stats.nreleases++; } JS_PUBLIC_API(void) JS_ArenaCountRetract(JSArenaPool *pool, char *mark) { pool->stats.nfastrels++; } #include JS_PUBLIC_API(void) JS_DumpArenaStats(FILE *fp) { JSArenaStats *stats; double mean, sigma; for (stats = arena_stats_list; stats; stats = stats->next) { mean = JS_MeanAndStdDev(stats->nallocs, stats->nbytes, stats->variance, &sigma); fprintf(fp, "\n%s allocation statistics:\n", stats->name); fprintf(fp, " number of arenas: %u\n", stats->narenas); fprintf(fp, " number of allocations: %u\n", stats->nallocs); fprintf(fp, " number of malloc calls: %u\n", stats->nmallocs); fprintf(fp, " number of deallocations: %u\n", stats->ndeallocs); fprintf(fp, " number of allocation growths: %u\n", stats->ngrows); fprintf(fp, " number of in-place growths: %u\n", stats->ninplace); fprintf(fp, " number of realloc'ing growths: %u\n", stats->nreallocs); fprintf(fp, "number of released allocations: %u\n", stats->nreleases); fprintf(fp, " number of fast releases: %u\n", stats->nfastrels); fprintf(fp, " total bytes allocated: %u\n", stats->nbytes); fprintf(fp, " mean allocation size: %g\n", mean); fprintf(fp, " standard deviation: %g\n", sigma); fprintf(fp, " maximum allocation size: %u\n", stats->maxalloc); } } #endif /* JS_ARENAMETER */