/* sl_malloc.c - malloc routines using a per-thread slab */ /* $OpenLDAP$ */ /* This work is part of OpenLDAP Software . * * Copyright 2003-2009 The OpenLDAP Foundation. * All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted only as authorized by the OpenLDAP * Public License. * * A copy of this license is available in the file LICENSE in the * top-level directory of the distribution or, alternatively, at * . */ #include "portable.h" #include #include #include "slap.h" static struct slab_object * slap_replenish_sopool(struct slab_heap* sh); #ifdef SLAPD_UNUSED static void print_slheap(int level, void *ctx); #endif void slap_sl_mem_destroy( void *key, void *data ) { struct slab_heap *sh = data; int pad = 2*sizeof(int)-1, pad_shift; int order_start = -1, i; struct slab_object *so; if (sh->sh_stack) { ber_memfree_x(sh->sh_base, NULL); ber_memfree_x(sh, NULL); } else { pad_shift = pad - 1; do { order_start++; } while (pad_shift >>= 1); for (i = 0; i <= sh->sh_maxorder - order_start; i++) { so = LDAP_LIST_FIRST(&sh->sh_free[i]); while (so) { struct slab_object *so_tmp = so; so = LDAP_LIST_NEXT(so, so_link); LDAP_LIST_INSERT_HEAD(&sh->sh_sopool, so_tmp, so_link); } ch_free(sh->sh_map[i]); } ch_free(sh->sh_free); ch_free(sh->sh_map); so = LDAP_LIST_FIRST(&sh->sh_sopool); while (so) { struct slab_object *so_tmp = so; so = LDAP_LIST_NEXT(so, so_link); if (!so_tmp->so_blockhead) { LDAP_LIST_REMOVE(so_tmp, so_link); } } so = LDAP_LIST_FIRST(&sh->sh_sopool); while (so) { struct slab_object *so_tmp = so; so = LDAP_LIST_NEXT(so, so_link); ch_free(so_tmp); } ber_memfree_x(sh->sh_base, NULL); ber_memfree_x(sh, NULL); } } BerMemoryFunctions slap_sl_mfuncs = { slap_sl_malloc, slap_sl_calloc, slap_sl_realloc, slap_sl_free }; void slap_sl_mem_init() { ber_set_option( NULL, LBER_OPT_MEMORY_FNS, &slap_sl_mfuncs ); } #ifdef NO_THREADS static struct slab_heap *slheap; #endif void * slap_sl_mem_create( ber_len_t size, int stack, void *ctx, int new ) { struct slab_heap *sh; ber_len_t size_shift; int pad = 2*sizeof(int)-1, pad_shift; int order = -1, order_start = -1, order_end = -1; int i; struct slab_object *so; #ifdef NO_THREADS sh = slheap; #else void *sh_tmp = NULL; ldap_pvt_thread_pool_getkey( ctx, (void *)slap_sl_mem_init, &sh_tmp, NULL ); sh = sh_tmp; #endif if ( !new ) return sh; /* round up to doubleword boundary */ size += pad; size &= ~pad; if (stack) { if (!sh) { sh = ch_malloc(sizeof(struct slab_heap)); sh->sh_base = ch_malloc(size); #ifdef NO_THREADS slheap = sh; #else ldap_pvt_thread_pool_setkey(ctx, (void *)slap_sl_mem_init, (void *)sh, slap_sl_mem_destroy, NULL, NULL); #endif } else if ( size > (char *)sh->sh_end - (char *)sh->sh_base ) { void *newptr; newptr = ch_realloc( sh->sh_base, size ); if ( newptr == NULL ) return NULL; sh->sh_base = newptr; } sh->sh_last = sh->sh_base; sh->sh_end = (char *) sh->sh_base + size; sh->sh_stack = stack; return sh; } else { size_shift = size - 1; do { order_end++; } while (size_shift >>= 1); pad_shift = pad - 1; do { order_start++; } while (pad_shift >>= 1); order = order_end - order_start + 1; if (!sh) { sh = (struct slab_heap *) ch_malloc(sizeof(struct slab_heap)); sh->sh_base = ch_malloc(size); #ifdef NO_THREADS slheap = sh; #else ldap_pvt_thread_pool_setkey(ctx, (void *)slap_sl_mem_init, (void *)sh, slap_sl_mem_destroy, NULL, NULL); #endif } else { for (i = 0; i <= sh->sh_maxorder - order_start; i++) { so = LDAP_LIST_FIRST(&sh->sh_free[i]); while (so) { struct slab_object *so_tmp = so; so = LDAP_LIST_NEXT(so, so_link); LDAP_LIST_INSERT_HEAD(&sh->sh_sopool, so_tmp, so_link); } ch_free(sh->sh_map[i]); } ch_free(sh->sh_free); ch_free(sh->sh_map); so = LDAP_LIST_FIRST(&sh->sh_sopool); while (so) { struct slab_object *so_tmp = so; so = LDAP_LIST_NEXT(so, so_link); if (!so_tmp->so_blockhead) { LDAP_LIST_REMOVE(so_tmp, so_link); } } so = LDAP_LIST_FIRST(&sh->sh_sopool); while (so) { struct slab_object *so_tmp = so; so = LDAP_LIST_NEXT(so, so_link); ch_free(so_tmp); } if (size > (char *)sh->sh_end - (char *)sh->sh_base) { void *newptr; newptr = ch_realloc( sh->sh_base, size ); if ( newptr == NULL ) return NULL; sh->sh_base = newptr; } } sh->sh_end = (char *)sh->sh_base + size; sh->sh_maxorder = order_end; sh->sh_free = (struct sh_freelist *) ch_malloc(order * sizeof(struct sh_freelist)); for (i = 0; i < order; i++) { LDAP_LIST_INIT(&sh->sh_free[i]); } LDAP_LIST_INIT(&sh->sh_sopool); if (LDAP_LIST_EMPTY(&sh->sh_sopool)) { slap_replenish_sopool(sh); } so = LDAP_LIST_FIRST(&sh->sh_sopool); LDAP_LIST_REMOVE(so, so_link); so->so_ptr = sh->sh_base; LDAP_LIST_INSERT_HEAD(&sh->sh_free[order-1], so, so_link); sh->sh_map = (unsigned char **) ch_malloc(order * sizeof(unsigned char *)); for (i = 0; i < order; i++) { int shiftamt = order_start + 1 + i; int nummaps = size >> shiftamt; assert(nummaps); nummaps >>= 3; if (!nummaps) nummaps = 1; sh->sh_map[i] = (unsigned char *) ch_malloc(nummaps); memset(sh->sh_map[i], 0, nummaps); } sh->sh_stack = stack; return sh; } } void slap_sl_mem_detach( void *ctx, void *memctx ) { #ifdef NO_THREADS slheap = NULL; #else /* separate from context */ ldap_pvt_thread_pool_setkey( ctx, (void *)slap_sl_mem_init, NULL, 0, NULL, NULL ); #endif } void * slap_sl_malloc( ber_len_t size, void *ctx ) { struct slab_heap *sh = ctx; ber_len_t size_shift; int pad = 2*sizeof(int)-1, pad_shift; int order = -1, order_start = -1; struct slab_object *so_new, *so_left, *so_right; ber_len_t *ptr, *newptr; unsigned long diff; int i, j; #ifdef SLAP_NO_SL_MALLOC newptr = ber_memalloc_x( size, NULL ); if ( newptr ) return newptr; assert( 0 ); exit( EXIT_FAILURE ); #endif /* ber_set_option calls us like this */ if (!ctx) { newptr = ber_memalloc_x( size, NULL ); if ( newptr ) return newptr; assert( 0 ); exit( EXIT_FAILURE ); } /* round up to doubleword boundary */ size += sizeof(ber_len_t) + pad; size &= ~pad; if (sh->sh_stack) { if ((char *)sh->sh_last + size >= (char *)sh->sh_end) { Debug(LDAP_DEBUG_TRACE, "slap_sl_malloc of %lu bytes failed, using ch_malloc\n", (long)size, 0, 0); return ch_malloc(size); } newptr = sh->sh_last; *newptr++ = size - sizeof(ber_len_t); sh->sh_last = (char *) sh->sh_last + size; return( (void *)newptr ); } else { size_shift = size - 1; do { order++; } while (size_shift >>= 1); pad_shift = pad - 1; do { order_start++; } while (pad_shift >>= 1); for (i = order; i <= sh->sh_maxorder && LDAP_LIST_EMPTY(&sh->sh_free[i-order_start]); i++); if (i == order) { so_new = LDAP_LIST_FIRST(&sh->sh_free[i-order_start]); LDAP_LIST_REMOVE(so_new, so_link); ptr = so_new->so_ptr; diff = (unsigned long)((char*)ptr - (char*)sh->sh_base) >> (order + 1); sh->sh_map[order-order_start][diff>>3] |= (1 << (diff & 0x7)); *ptr++ = size - sizeof(ber_len_t); LDAP_LIST_INSERT_HEAD(&sh->sh_sopool, so_new, so_link); return((void*)ptr); } else if (i <= sh->sh_maxorder) { for (j = i; j > order; j--) { so_left = LDAP_LIST_FIRST(&sh->sh_free[j-order_start]); LDAP_LIST_REMOVE(so_left, so_link); if (LDAP_LIST_EMPTY(&sh->sh_sopool)) { slap_replenish_sopool(sh); } so_right = LDAP_LIST_FIRST(&sh->sh_sopool); LDAP_LIST_REMOVE(so_right, so_link); so_right->so_ptr = (void *)((char *)so_left->so_ptr + (1 << j)); if (j == order + 1) { ptr = so_left->so_ptr; diff = (unsigned long)((char*)ptr - (char*)sh->sh_base) >> (order+1); sh->sh_map[order-order_start][diff>>3] |= (1 << (diff & 0x7)); *ptr++ = size - sizeof(ber_len_t); LDAP_LIST_INSERT_HEAD( &sh->sh_free[j-1-order_start], so_right, so_link); LDAP_LIST_INSERT_HEAD(&sh->sh_sopool, so_left, so_link); return((void*)ptr); } else { LDAP_LIST_INSERT_HEAD( &sh->sh_free[j-1-order_start], so_right, so_link); LDAP_LIST_INSERT_HEAD( &sh->sh_free[j-1-order_start], so_left, so_link); } } } else { Debug( LDAP_DEBUG_TRACE, "slap_sl_malloc of %lu bytes failed, using ch_malloc\n", (long)size, 0, 0); return (void*)ch_malloc(size); } } /* FIXME: missing return; guessing... */ return NULL; } void * slap_sl_calloc( ber_len_t n, ber_len_t size, void *ctx ) { void *newptr; newptr = slap_sl_malloc( n*size, ctx ); if ( newptr ) { memset( newptr, 0, n*size ); } return newptr; } void * slap_sl_realloc(void *ptr, ber_len_t size, void *ctx) { struct slab_heap *sh = ctx; int pad = 2*sizeof(int) -1; ber_len_t *p = (ber_len_t *)ptr, *newptr; if (ptr == NULL) return slap_sl_malloc(size, ctx); #ifdef SLAP_NO_SL_MALLOC newptr = ber_memrealloc_x( ptr, size, NULL ); if ( newptr ) return newptr; assert( 0 ); exit( EXIT_FAILURE ); #endif /* Not our memory? */ if (!sh || ptr < sh->sh_base || ptr >= sh->sh_end) { /* duplicate of realloc behavior, oh well */ newptr = ber_memrealloc_x(ptr, size, NULL); if (newptr) { return newptr; } Debug(LDAP_DEBUG_ANY, "ch_realloc of %lu bytes failed\n", (long) size, 0, 0); assert(0); exit( EXIT_FAILURE ); } if (size == 0) { slap_sl_free(ptr, ctx); return NULL; } if (sh->sh_stack) { /* round up to doubleword boundary */ size += pad + sizeof( ber_len_t ); size &= ~pad; /* Never shrink blocks */ if (size <= p[-1]) { newptr = p; /* If reallocing the last block, we can grow it */ } else if ((char *)ptr + p[-1] == sh->sh_last && (char *)ptr + size < (char *)sh->sh_end ) { newptr = p; sh->sh_last = (char *)sh->sh_last + size - p[-1]; p[-1] = size; /* Nowhere to grow, need to alloc and copy */ } else { newptr = slap_sl_malloc(size, ctx); AC_MEMCPY(newptr, ptr, p[-1]); } return newptr; } else { void *newptr2; newptr2 = slap_sl_malloc(size, ctx); if (size < p[-1]) { AC_MEMCPY(newptr2, ptr, size); } else { AC_MEMCPY(newptr2, ptr, p[-1]); } slap_sl_free(ptr, ctx); return newptr2; } } void slap_sl_free(void *ptr, void *ctx) { struct slab_heap *sh = ctx; int size, size_shift, order_size; int pad = 2*sizeof(int)-1, pad_shift; ber_len_t *p = (ber_len_t *)ptr, *tmpp; int order_start = -1, order = -1; struct slab_object *so; unsigned long diff; int i, inserted = 0; if (!ptr) return; #ifdef SLAP_NO_SL_MALLOC ber_memfree_x( ptr, NULL ); return; #endif if (!sh || ptr < sh->sh_base || ptr >= sh->sh_end) { ber_memfree_x(ptr, NULL); } else if (sh->sh_stack && (char *)ptr + p[-1] == sh->sh_last) { p--; sh->sh_last = p; } else if (!sh->sh_stack) { size = *(--p); size_shift = size + sizeof(ber_len_t) - 1; do { order++; } while (size_shift >>= 1); pad_shift = pad - 1; do { order_start++; } while (pad_shift >>= 1); for (i = order, tmpp = p; i <= sh->sh_maxorder; i++) { order_size = 1 << (i+1); diff = (unsigned long)((char*)tmpp - (char*)sh->sh_base) >> (i+1); sh->sh_map[i-order_start][diff>>3] &= (~(1 << (diff & 0x7))); if (diff == ((diff>>1)<<1)) { if (!(sh->sh_map[i-order_start][(diff+1)>>3] & (1<<((diff+1)&0x7)))) { so = LDAP_LIST_FIRST(&sh->sh_free[i-order_start]); while (so) { if ((char*)so->so_ptr == (char*)tmpp) { LDAP_LIST_REMOVE( so, so_link ); } else if ((char*)so->so_ptr == (char*)tmpp + order_size) { LDAP_LIST_REMOVE(so, so_link); break; } so = LDAP_LIST_NEXT(so, so_link); } if (so) { if (i < sh->sh_maxorder) { inserted = 1; so->so_ptr = tmpp; LDAP_LIST_INSERT_HEAD(&sh->sh_free[i-order_start+1], so, so_link); } continue; } else { if (LDAP_LIST_EMPTY(&sh->sh_sopool)) { slap_replenish_sopool(sh); } so = LDAP_LIST_FIRST(&sh->sh_sopool); LDAP_LIST_REMOVE(so, so_link); so->so_ptr = tmpp; LDAP_LIST_INSERT_HEAD(&sh->sh_free[i-order_start], so, so_link); break; Debug(LDAP_DEBUG_TRACE, "slap_sl_free: " "free object not found while bit is clear.\n", 0, 0, 0); assert(so != NULL); } } else { if (!inserted) { if (LDAP_LIST_EMPTY(&sh->sh_sopool)) { slap_replenish_sopool(sh); } so = LDAP_LIST_FIRST(&sh->sh_sopool); LDAP_LIST_REMOVE(so, so_link); so->so_ptr = tmpp; LDAP_LIST_INSERT_HEAD(&sh->sh_free[i-order_start], so, so_link); } break; } } else { if (!(sh->sh_map[i-order_start][(diff-1)>>3] & (1<<((diff-1)&0x7)))) { so = LDAP_LIST_FIRST(&sh->sh_free[i-order_start]); while (so) { if ((char*)so->so_ptr == (char*)tmpp) { LDAP_LIST_REMOVE(so, so_link); } else if ((char*)tmpp == (char *)so->so_ptr + order_size) { LDAP_LIST_REMOVE(so, so_link); tmpp = so->so_ptr; break; } so = LDAP_LIST_NEXT(so, so_link); } if (so) { if (i < sh->sh_maxorder) { inserted = 1; LDAP_LIST_INSERT_HEAD(&sh->sh_free[i-order_start+1], so, so_link); continue; } } else { if (LDAP_LIST_EMPTY(&sh->sh_sopool)) { slap_replenish_sopool(sh); } so = LDAP_LIST_FIRST(&sh->sh_sopool); LDAP_LIST_REMOVE(so, so_link); so->so_ptr = tmpp; LDAP_LIST_INSERT_HEAD(&sh->sh_free[i-order_start], so, so_link); break; Debug(LDAP_DEBUG_TRACE, "slap_sl_free: " "free object not found while bit is clear.\n", 0, 0, 0 ); assert(so != NULL); } } else { if ( !inserted ) { if (LDAP_LIST_EMPTY(&sh->sh_sopool)) { slap_replenish_sopool(sh); } so = LDAP_LIST_FIRST(&sh->sh_sopool); LDAP_LIST_REMOVE(so, so_link); so->so_ptr = tmpp; LDAP_LIST_INSERT_HEAD(&sh->sh_free[i-order_start], so, so_link); } break; } } } } } void * slap_sl_context( void *ptr ) { struct slab_heap *sh; void *ctx, *sh_tmp; if ( slapMode & SLAP_TOOL_MODE ) return NULL; #ifdef NO_THREADS sh = slheap; #else ctx = ldap_pvt_thread_pool_context(); sh_tmp = NULL; ldap_pvt_thread_pool_getkey( ctx, (void *)slap_sl_mem_init, &sh_tmp, NULL); sh = sh_tmp; #endif if (sh && ptr >= sh->sh_base && ptr <= sh->sh_end) { return sh; } return NULL; } static struct slab_object * slap_replenish_sopool( struct slab_heap* sh ) { struct slab_object *so_block; int i; so_block = (struct slab_object *)ch_malloc( SLAP_SLAB_SOBLOCK * sizeof(struct slab_object)); if ( so_block == NULL ) { return NULL; } so_block[0].so_blockhead = 1; LDAP_LIST_INSERT_HEAD(&sh->sh_sopool, &so_block[0], so_link); for (i = 1; i < SLAP_SLAB_SOBLOCK; i++) { so_block[i].so_blockhead = 0; LDAP_LIST_INSERT_HEAD(&sh->sh_sopool, &so_block[i], so_link ); } return so_block; } #ifdef SLAPD_UNUSED static void print_slheap(int level, void *ctx) { struct slab_heap *sh = ctx; int order_start = -1; int pad = 2*sizeof(int)-1, pad_shift; struct slab_object *so; int i, j, once = 0; if (!ctx) { Debug(level, "NULL memctx\n", 0, 0, 0); return; } pad_shift = pad - 1; do { order_start++; } while (pad_shift >>= 1); Debug(level, "sh->sh_maxorder=%d\n", sh->sh_maxorder, 0, 0); for (i = order_start; i <= sh->sh_maxorder; i++) { once = 0; Debug(level, "order=%d\n", i, 0, 0); for (j = 0; j < (1<<(sh->sh_maxorder-i))/8; j++) { Debug(level, "%02x ", sh->sh_map[i-order_start][j], 0, 0); once = 1; } if (!once) { Debug(level, "%02x ", sh->sh_map[i-order_start][0], 0, 0); } Debug(level, "\n", 0, 0, 0); Debug(level, "free list:\n", 0, 0, 0); so = LDAP_LIST_FIRST(&sh->sh_free[i-order_start]); while (so) { Debug(level, "%lx\n", (unsigned long) so->so_ptr, 0, 0); so = LDAP_LIST_NEXT(so, so_link); } } } #endif