/* zn_malloc.c - zone-based malloc routines */ /* $OpenLDAP$*/ /* This work is part of OpenLDAP Software . * * Copyright 2003-2020 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 * . */ /* Portions Copyright 2004 IBM Corporation * 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. */ /* ACKNOWLEDGEMENTS * This work originally developed by Jong-Hyuk Choi for inclusion in * OpenLDAP Software. */ #include "portable.h" #include #include #include #include #include "slap.h" #ifdef SLAP_ZONE_ALLOC #include static int slap_zone_cmp(const void *v1, const void *v2); void * slap_replenish_zopool(void *ctx); static void slap_zo_release(void *data) { struct zone_object *zo = (struct zone_object *)data; ch_free( zo ); } void slap_zn_mem_destroy( void *ctx ) { struct zone_heap *zh = ctx; int pad = 2*sizeof(int)-1, pad_shift; int order_start = -1, i, j; struct zone_object *zo; pad_shift = pad - 1; do { order_start++; } while (pad_shift >>= 1); ldap_pvt_thread_mutex_lock( &zh->zh_mutex ); for (i = 0; i < zh->zh_zoneorder - order_start + 1; i++) { zo = LDAP_LIST_FIRST(&zh->zh_free[i]); while (zo) { struct zone_object *zo_tmp = zo; zo = LDAP_LIST_NEXT(zo, zo_link); LDAP_LIST_REMOVE(zo_tmp, zo_link); LDAP_LIST_INSERT_HEAD(&zh->zh_zopool, zo_tmp, zo_link); } } ch_free(zh->zh_free); for (i = 0; i < zh->zh_numzones; i++) { for (j = 0; j < zh->zh_zoneorder - order_start + 1; j++) { ch_free(zh->zh_maps[i][j]); } ch_free(zh->zh_maps[i]); munmap(zh->zh_zones[i], zh->zh_zonesize); ldap_pvt_thread_rdwr_destroy(&zh->zh_znlock[i]); } ch_free(zh->zh_maps); ch_free(zh->zh_zones); ch_free(zh->zh_seqno); ch_free(zh->zh_znlock); avl_free(zh->zh_zonetree, slap_zo_release); zo = LDAP_LIST_FIRST(&zh->zh_zopool); while (zo) { struct zone_object *zo_tmp = zo; zo = LDAP_LIST_NEXT(zo, zo_link); if (!zo_tmp->zo_blockhead) { LDAP_LIST_REMOVE(zo_tmp, zo_link); } } zo = LDAP_LIST_FIRST(&zh->zh_zopool); while (zo) { struct zone_object *zo_tmp = zo; zo = LDAP_LIST_NEXT(zo, zo_link); ch_free(zo_tmp); } ldap_pvt_thread_mutex_unlock(&zh->zh_mutex); ldap_pvt_thread_rdwr_destroy(&zh->zh_lock); ldap_pvt_thread_mutex_destroy(&zh->zh_mutex); ch_free(zh); } void * slap_zn_mem_create( ber_len_t initsize, ber_len_t maxsize, ber_len_t deltasize, ber_len_t zonesize ) { struct zone_heap *zh = NULL; ber_len_t zpad; int pad = 2*sizeof(int)-1, pad_shift; int size_shift; int order = -1, order_start = -1, order_end = -1; int i, j; struct zone_object *zo; Debug(LDAP_DEBUG_NONE, "--> slap_zn_mem_create: initsize=%d, maxsize=%d\n", initsize, maxsize ); Debug(LDAP_DEBUG_NONE, "++> slap_zn_mem_create: deltasize=%d, zonesize=%d\n", deltasize, zonesize ); zh = (struct zone_heap *)ch_calloc(1, sizeof(struct zone_heap)); zh->zh_fd = open("/dev/zero", O_RDWR); if ( zonesize ) { zh->zh_zonesize = zonesize; } else { zh->zh_zonesize = SLAP_ZONE_SIZE; } zpad = zh->zh_zonesize - 1; zh->zh_numzones = ((initsize + zpad) & ~zpad) / zh->zh_zonesize; if ( maxsize && maxsize >= initsize ) { zh->zh_maxzones = ((maxsize + zpad) & ~zpad) / zh->zh_zonesize; } else { zh->zh_maxzones = ((initsize + zpad) & ~zpad) / zh->zh_zonesize; } if ( deltasize ) { zh->zh_deltazones = ((deltasize + zpad) & ~zpad) / zh->zh_zonesize; } else { zh->zh_deltazones = ((SLAP_ZONE_DELTA+zpad) & ~zpad) / zh->zh_zonesize; } size_shift = zh->zh_zonesize - 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; zh->zh_zones = (void **)ch_malloc(zh->zh_maxzones * sizeof(void*)); zh->zh_znlock = (ldap_pvt_thread_rdwr_t *)ch_malloc( zh->zh_maxzones * sizeof(ldap_pvt_thread_rdwr_t *)); zh->zh_maps = (unsigned char ***)ch_malloc( zh->zh_maxzones * sizeof(unsigned char**)); zh->zh_zoneorder = order_end; zh->zh_free = (struct zh_freelist *) ch_malloc(order * sizeof(struct zh_freelist)); zh->zh_seqno = (unsigned long *)ch_calloc(zh->zh_maxzones, sizeof(unsigned long)); for (i = 0; i < order; i++) { LDAP_LIST_INIT(&zh->zh_free[i]); } LDAP_LIST_INIT(&zh->zh_zopool); for (i = 0; i < zh->zh_numzones; i++) { zh->zh_zones[i] = mmap(0, zh->zh_zonesize, PROT_READ | PROT_WRITE, MAP_PRIVATE, zh->zh_fd, 0); zh->zh_maps[i] = (unsigned char **) ch_malloc(order * sizeof(unsigned char *)); for (j = 0; j < order; j++) { int shiftamt = order_start + 1 + j; int nummaps = zh->zh_zonesize >> shiftamt; assert(nummaps); nummaps >>= 3; if (!nummaps) nummaps = 1; zh->zh_maps[i][j] = (unsigned char *)ch_malloc(nummaps); memset(zh->zh_maps[i][j], 0, nummaps); } if (LDAP_LIST_EMPTY(&zh->zh_zopool)) { slap_replenish_zopool(zh); } zo = LDAP_LIST_FIRST(&zh->zh_zopool); LDAP_LIST_REMOVE(zo, zo_link); zo->zo_ptr = zh->zh_zones[i]; zo->zo_idx = i; LDAP_LIST_INSERT_HEAD(&zh->zh_free[order-1], zo, zo_link); if (LDAP_LIST_EMPTY(&zh->zh_zopool)) { slap_replenish_zopool(zh); } zo = LDAP_LIST_FIRST(&zh->zh_zopool); LDAP_LIST_REMOVE(zo, zo_link); zo->zo_ptr = zh->zh_zones[i]; zo->zo_siz = zh->zh_zonesize; zo->zo_idx = i; avl_insert(&zh->zh_zonetree, zo, slap_zone_cmp, avl_dup_error); ldap_pvt_thread_rdwr_init(&zh->zh_znlock[i]); } LDAP_STAILQ_INIT(&zh->zh_latency_history_queue); ldap_pvt_thread_mutex_init(&zh->zh_mutex); ldap_pvt_thread_rdwr_init(&zh->zh_lock); return zh; } void * slap_zn_malloc( ber_len_t size, void *ctx ) { struct zone_heap *zh = ctx; ber_len_t size_shift; int pad = 2*sizeof(int)-1, pad_shift; int order = -1, order_start = -1; struct zone_object *zo, *zo_new, *zo_left, *zo_right; ber_len_t *ptr, *new; int idx; unsigned long diff; int i, j, k; Debug(LDAP_DEBUG_NONE, "--> slap_zn_malloc: size=%d\n", size ); if (!zh) return ber_memalloc_x(size, NULL); /* round up to doubleword boundary */ size += 2*sizeof(ber_len_t) + pad; size &= ~pad; size_shift = size - 1; do { order++; } while (size_shift >>= 1); pad_shift = pad - 1; do { order_start++; } while (pad_shift >>= 1); retry: ldap_pvt_thread_mutex_lock( &zh->zh_mutex ); for (i = order; i <= zh->zh_zoneorder && LDAP_LIST_EMPTY(&zh->zh_free[i-order_start]); i++); if (i == order) { zo_new = LDAP_LIST_FIRST(&zh->zh_free[i-order_start]); LDAP_LIST_REMOVE(zo_new, zo_link); ptr = zo_new->zo_ptr; idx = zo_new->zo_idx; diff = (unsigned long)((char*)ptr - (char*)zh->zh_zones[idx]) >> (order + 1); zh->zh_maps[idx][order-order_start][diff>>3] |= (1 << (diff & 0x7)); *ptr++ = zh->zh_seqno[idx]; *ptr++ = size - 2*sizeof(ber_len_t); zo_new->zo_ptr = NULL; zo_new->zo_idx = -1; LDAP_LIST_INSERT_HEAD(&zh->zh_zopool, zo_new, zo_link); ldap_pvt_thread_mutex_unlock( &zh->zh_mutex ); Debug(LDAP_DEBUG_NONE, "slap_zn_malloc: returning 0x%x, 0x%x\n", ptr, (int)ptr>>(zh->zh_zoneorder+1) ); return((void*)ptr); } else if (i <= zh->zh_zoneorder) { for (j = i; j > order; j--) { zo_left = LDAP_LIST_FIRST(&zh->zh_free[j-order_start]); LDAP_LIST_REMOVE(zo_left, zo_link); if (LDAP_LIST_EMPTY(&zh->zh_zopool)) { slap_replenish_zopool(zh); } zo_right = LDAP_LIST_FIRST(&zh->zh_zopool); LDAP_LIST_REMOVE(zo_right, zo_link); zo_right->zo_ptr = zo_left->zo_ptr + (1 << j); zo_right->zo_idx = zo_left->zo_idx; Debug(LDAP_DEBUG_NONE, "slap_zn_malloc: split (left=0x%x, right=0x%x)\n", zo_left->zo_ptr, zo_right->zo_ptr ); if (j == order + 1) { ptr = zo_left->zo_ptr; diff = (unsigned long)((char*)ptr - (char*)zh->zh_zones[zo_left->zo_idx]) >> (order+1); zh->zh_maps[zo_left->zo_idx][order-order_start][diff>>3] |= (1 << (diff & 0x7)); *ptr++ = zh->zh_seqno[zo_left->zo_idx]; *ptr++ = size - 2*sizeof(ber_len_t); LDAP_LIST_INSERT_HEAD( &zh->zh_free[j-1-order_start], zo_right, zo_link); LDAP_LIST_INSERT_HEAD(&zh->zh_zopool, zo_left, zo_link); ldap_pvt_thread_mutex_unlock( &zh->zh_mutex ); Debug(LDAP_DEBUG_NONE, "slap_zn_malloc: returning 0x%x, 0x%x\n", ptr, (int)ptr>>(zh->zh_zoneorder+1) ); return((void*)ptr); } else { LDAP_LIST_INSERT_HEAD( &zh->zh_free[j-1-order_start], zo_right, zo_link); LDAP_LIST_INSERT_HEAD( &zh->zh_free[j-1-order_start], zo_left, zo_link); } } assert(0); } else { if ( zh->zh_maxzones < zh->zh_numzones + zh->zh_deltazones ) { ldap_pvt_thread_mutex_unlock( &zh->zh_mutex ); Debug( LDAP_DEBUG_TRACE, "zn_malloc %lu: ch_malloc\n", (long)size ); Debug(LDAP_DEBUG_NONE, "slap_zn_malloc: returning 0x%x, 0x%x\n", ptr, (int)ptr>>(zh->zh_zoneorder+1) ); return (void*)ch_malloc(size); } for (i = zh->zh_numzones; i < zh->zh_numzones+zh->zh_deltazones; i++) { zh->zh_zones[i] = mmap(0, zh->zh_zonesize, PROT_READ | PROT_WRITE, MAP_PRIVATE, zh->zh_fd, 0); zh->zh_maps[i] = (unsigned char **) ch_malloc((zh->zh_zoneorder - order_start + 1) * sizeof(unsigned char *)); for (j = 0; j < zh->zh_zoneorder-order_start+1; j++) { int shiftamt = order_start + 1 + j; int nummaps = zh->zh_zonesize >> shiftamt; assert(nummaps); nummaps >>= 3; if (!nummaps) nummaps = 1; zh->zh_maps[i][j] = (unsigned char *)ch_malloc(nummaps); memset(zh->zh_maps[i][j], 0, nummaps); } if (LDAP_LIST_EMPTY(&zh->zh_zopool)) { slap_replenish_zopool(zh); } zo = LDAP_LIST_FIRST(&zh->zh_zopool); LDAP_LIST_REMOVE(zo, zo_link); zo->zo_ptr = zh->zh_zones[i]; zo->zo_idx = i; LDAP_LIST_INSERT_HEAD(&zh-> zh_free[zh->zh_zoneorder-order_start],zo,zo_link); if (LDAP_LIST_EMPTY(&zh->zh_zopool)) { slap_replenish_zopool(zh); } zo = LDAP_LIST_FIRST(&zh->zh_zopool); LDAP_LIST_REMOVE(zo, zo_link); zo->zo_ptr = zh->zh_zones[i]; zo->zo_siz = zh->zh_zonesize; zo->zo_idx = i; avl_insert(&zh->zh_zonetree, zo, slap_zone_cmp, avl_dup_error); ldap_pvt_thread_rdwr_init(&zh->zh_znlock[i]); } zh->zh_numzones += zh->zh_deltazones; ldap_pvt_thread_mutex_unlock( &zh->zh_mutex ); goto retry; } } void * slap_zn_calloc( ber_len_t n, ber_len_t size, void *ctx ) { void *new; new = slap_zn_malloc( n*size, ctx ); if ( new ) { memset( new, 0, n*size ); } return new; } void * slap_zn_realloc(void *ptr, ber_len_t size, void *ctx) { struct zone_heap *zh = ctx; int pad = 2*sizeof(int)-1, pad_shift; int order_start = -1, order = -1; struct zone_object zoi, *zoo; ber_len_t *p = (ber_len_t *)ptr, *new; unsigned long diff; int i; void *newptr = NULL; struct zone_heap *zone = NULL; Debug(LDAP_DEBUG_NONE, "--> slap_zn_realloc: ptr=0x%x, size=%d\n", ptr, size ); if (ptr == NULL) return slap_zn_malloc(size, zh); zoi.zo_ptr = p; zoi.zo_idx = -1; if (zh) { ldap_pvt_thread_mutex_lock( &zh->zh_mutex ); zoo = avl_find(zh->zh_zonetree, &zoi, slap_zone_cmp); ldap_pvt_thread_mutex_unlock( &zh->zh_mutex ); } /* Not our memory? */ if (!zoo) { /* duplicate of realloc behavior, oh well */ new = ber_memrealloc_x(ptr, size, NULL); if (new) { return new; } Debug(LDAP_DEBUG_ANY, "ch_realloc of %lu bytes failed\n", (long) size ); assert(0); exit( EXIT_FAILURE ); } assert(zoo->zo_idx != -1); zone = zh->zh_zones[zoo->zo_idx]; if (size == 0) { slap_zn_free(ptr, zh); return NULL; } newptr = slap_zn_malloc(size, zh); if (size < p[-1]) { AC_MEMCPY(newptr, ptr, size); } else { AC_MEMCPY(newptr, ptr, p[-1]); } slap_zn_free(ptr, zh); return newptr; } void slap_zn_free(void *ptr, void *ctx) { struct zone_heap *zh = 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 zone_object zoi, *zoo, *zo; unsigned long diff; int i, k, inserted = 0, idx; struct zone_heap *zone = NULL; zoi.zo_ptr = p; zoi.zo_idx = -1; Debug(LDAP_DEBUG_NONE, "--> slap_zn_free: ptr=0x%x\n", ptr ); if (zh) { ldap_pvt_thread_mutex_lock( &zh->zh_mutex ); zoo = avl_find(zh->zh_zonetree, &zoi, slap_zone_cmp); ldap_pvt_thread_mutex_unlock( &zh->zh_mutex ); } if (!zoo) { ber_memfree_x(ptr, NULL); } else { idx = zoo->zo_idx; assert(idx != -1); zone = zh->zh_zones[idx]; size = *(--p); size_shift = size + 2*sizeof(ber_len_t) - 1; do { order++; } while (size_shift >>= 1); pad_shift = pad - 1; do { order_start++; } while (pad_shift >>= 1); ldap_pvt_thread_mutex_lock( &zh->zh_mutex ); for (i = order, tmpp = p; i <= zh->zh_zoneorder; i++) { order_size = 1 << (i+1); diff = (unsigned long)((char*)tmpp - (char*)zone) >> (i+1); zh->zh_maps[idx][i-order_start][diff>>3] &= (~(1 << (diff & 0x7))); if (diff == ((diff>>1)<<1)) { if (!(zh->zh_maps[idx][i-order_start][(diff+1)>>3] & (1<<((diff+1)&0x7)))) { zo = LDAP_LIST_FIRST(&zh->zh_free[i-order_start]); while (zo) { if ((char*)zo->zo_ptr == (char*)tmpp) { LDAP_LIST_REMOVE( zo, zo_link ); } else if ((char*)zo->zo_ptr == (char*)tmpp + order_size) { LDAP_LIST_REMOVE(zo, zo_link); break; } zo = LDAP_LIST_NEXT(zo, zo_link); } if (zo) { if (i < zh->zh_zoneorder) { inserted = 1; zo->zo_ptr = tmpp; Debug(LDAP_DEBUG_NONE, "slap_zn_free: merging 0x%x\n", zo->zo_ptr ); LDAP_LIST_INSERT_HEAD(&zh->zh_free[i-order_start+1], zo, zo_link); } continue; } else { if (LDAP_LIST_EMPTY(&zh->zh_zopool)) { slap_replenish_zopool(zh); } zo = LDAP_LIST_FIRST(&zh->zh_zopool); LDAP_LIST_REMOVE(zo, zo_link); zo->zo_ptr = tmpp; zo->zo_idx = idx; Debug(LDAP_DEBUG_NONE, "slap_zn_free: merging 0x%x\n", zo->zo_ptr ); LDAP_LIST_INSERT_HEAD(&zh->zh_free[i-order_start], zo, zo_link); break; Debug(LDAP_DEBUG_ANY, "slap_zn_free: " "free object not found while bit is clear.\n" ); assert(zo != NULL); } } else { if (!inserted) { if (LDAP_LIST_EMPTY(&zh->zh_zopool)) { slap_replenish_zopool(zh); } zo = LDAP_LIST_FIRST(&zh->zh_zopool); LDAP_LIST_REMOVE(zo, zo_link); zo->zo_ptr = tmpp; zo->zo_idx = idx; Debug(LDAP_DEBUG_NONE, "slap_zn_free: merging 0x%x\n", zo->zo_ptr ); LDAP_LIST_INSERT_HEAD(&zh->zh_free[i-order_start], zo, zo_link); } break; } } else { if (!(zh->zh_maps[idx][i-order_start][(diff-1)>>3] & (1<<((diff-1)&0x7)))) { zo = LDAP_LIST_FIRST(&zh->zh_free[i-order_start]); while (zo) { if ((char*)zo->zo_ptr == (char*)tmpp) { LDAP_LIST_REMOVE(zo, zo_link); } else if ((char*)tmpp == zo->zo_ptr + order_size) { LDAP_LIST_REMOVE(zo, zo_link); tmpp = zo->zo_ptr; break; } zo = LDAP_LIST_NEXT(zo, zo_link); } if (zo) { if (i < zh->zh_zoneorder) { inserted = 1; Debug(LDAP_DEBUG_NONE, "slap_zn_free: merging 0x%x\n", zo->zo_ptr ); LDAP_LIST_INSERT_HEAD(&zh->zh_free[i-order_start+1], zo, zo_link); continue; } } else { if (LDAP_LIST_EMPTY(&zh->zh_zopool)) { slap_replenish_zopool(zh); } zo = LDAP_LIST_FIRST(&zh->zh_zopool); LDAP_LIST_REMOVE(zo, zo_link); zo->zo_ptr = tmpp; zo->zo_idx = idx; Debug(LDAP_DEBUG_NONE, "slap_zn_free: merging 0x%x\n", zo->zo_ptr ); LDAP_LIST_INSERT_HEAD(&zh->zh_free[i-order_start], zo, zo_link); break; Debug(LDAP_DEBUG_ANY, "slap_zn_free: " "free object not found while bit is clear.\n" ); assert(zo != NULL); } } else { if ( !inserted ) { if (LDAP_LIST_EMPTY(&zh->zh_zopool)) { slap_replenish_zopool(zh); } zo = LDAP_LIST_FIRST(&zh->zh_zopool); LDAP_LIST_REMOVE(zo, zo_link); zo->zo_ptr = tmpp; zo->zo_idx = idx; Debug(LDAP_DEBUG_NONE, "slap_zn_free: merging 0x%x\n", zo->zo_ptr ); LDAP_LIST_INSERT_HEAD(&zh->zh_free[i-order_start], zo, zo_link); } break; } } } ldap_pvt_thread_mutex_unlock( &zh->zh_mutex ); } } static int slap_zone_cmp(const void *v1, const void *v2) { const struct zone_object *zo1 = v1; const struct zone_object *zo2 = v2; char *ptr1; char *ptr2; ber_len_t zpad; zpad = zo2->zo_siz - 1; ptr1 = (char*)(((unsigned long)zo1->zo_ptr + zpad) & ~zpad); ptr2 = (char*)zo2->zo_ptr + ((char*)ptr1 - (char*)zo1->zo_ptr); ptr2 = (char*)(((unsigned long)ptr2 + zpad) & ~zpad); return (int)((char*)ptr1 - (char*)ptr2); } void * slap_replenish_zopool( void *ctx ) { struct zone_heap* zh = ctx; struct zone_object *zo_block; int i; zo_block = (struct zone_object *)ch_malloc( SLAP_ZONE_ZOBLOCK * sizeof(struct zone_object)); if ( zo_block == NULL ) { return NULL; } zo_block[0].zo_blockhead = 1; LDAP_LIST_INSERT_HEAD(&zh->zh_zopool, &zo_block[0], zo_link); for (i = 1; i < SLAP_ZONE_ZOBLOCK; i++) { zo_block[i].zo_blockhead = 0; LDAP_LIST_INSERT_HEAD(&zh->zh_zopool, &zo_block[i], zo_link ); } return zo_block; } int slap_zn_invalidate( void *ctx, void *ptr ) { struct zone_heap* zh = ctx; struct zone_object zoi, *zoo; struct zone_heap *zone = NULL; int seqno = *((ber_len_t*)ptr - 2); int idx = -1, rc = 0; int pad = 2*sizeof(int)-1, pad_shift; int order_start = -1, i; struct zone_object *zo; pad_shift = pad - 1; do { order_start++; } while (pad_shift >>= 1); zoi.zo_ptr = ptr; zoi.zo_idx = -1; ldap_pvt_thread_mutex_lock( &zh->zh_mutex ); zoo = avl_find(zh->zh_zonetree, &zoi, slap_zone_cmp); if (zoo) { idx = zoo->zo_idx; assert(idx != -1); madvise(zh->zh_zones[idx], zh->zh_zonesize, MADV_DONTNEED); for (i = 0; i < zh->zh_zoneorder - order_start + 1; i++) { int shiftamt = order_start + 1 + i; int nummaps = zh->zh_zonesize >> shiftamt; assert(nummaps); nummaps >>= 3; if (!nummaps) nummaps = 1; memset(zh->zh_maps[idx][i], 0, nummaps); zo = LDAP_LIST_FIRST(&zh->zh_free[i]); while (zo) { struct zone_object *zo_tmp = zo; zo = LDAP_LIST_NEXT(zo, zo_link); if (zo_tmp && zo_tmp->zo_idx == idx) { LDAP_LIST_REMOVE(zo_tmp, zo_link); LDAP_LIST_INSERT_HEAD(&zh->zh_zopool, zo_tmp, zo_link); } } } if (LDAP_LIST_EMPTY(&zh->zh_zopool)) { slap_replenish_zopool(zh); } zo = LDAP_LIST_FIRST(&zh->zh_zopool); LDAP_LIST_REMOVE(zo, zo_link); zo->zo_ptr = zh->zh_zones[idx]; zo->zo_idx = idx; LDAP_LIST_INSERT_HEAD(&zh->zh_free[zh->zh_zoneorder-order_start], zo, zo_link); zh->zh_seqno[idx]++; } else { Debug(LDAP_DEBUG_NONE, "zone not found for (ctx=0x%x, ptr=0x%x) !\n", ctx, ptr ); } ldap_pvt_thread_mutex_unlock( &zh->zh_mutex ); Debug(LDAP_DEBUG_NONE, "zone %d invalidate\n", idx ); return rc; } int slap_zn_validate( void *ctx, void *ptr, int seqno ) { struct zone_heap* zh = ctx; struct zone_object zoi, *zoo; struct zone_heap *zone = NULL; int idx, rc = 0; zoi.zo_ptr = ptr; zoi.zo_idx = -1; zoo = avl_find(zh->zh_zonetree, &zoi, slap_zone_cmp); if (zoo) { idx = zoo->zo_idx; assert(idx != -1); assert(seqno <= zh->zh_seqno[idx]); rc = (seqno == zh->zh_seqno[idx]); } return rc; } int slap_zh_rlock( void *ctx ) { struct zone_heap* zh = ctx; ldap_pvt_thread_rdwr_rlock(&zh->zh_lock); } int slap_zh_runlock( void *ctx ) { struct zone_heap* zh = ctx; ldap_pvt_thread_rdwr_runlock(&zh->zh_lock); } int slap_zh_wlock( void *ctx ) { struct zone_heap* zh = ctx; ldap_pvt_thread_rdwr_wlock(&zh->zh_lock); } int slap_zh_wunlock( void *ctx ) { struct zone_heap* zh = ctx; ldap_pvt_thread_rdwr_wunlock(&zh->zh_lock); } int slap_zn_rlock( void *ctx, void *ptr ) { struct zone_heap* zh = ctx; struct zone_object zoi, *zoo; struct zone_heap *zone = NULL; int idx; zoi.zo_ptr = ptr; zoi.zo_idx = -1; ldap_pvt_thread_mutex_lock( &zh->zh_mutex ); zoo = avl_find(zh->zh_zonetree, &zoi, slap_zone_cmp); ldap_pvt_thread_mutex_unlock( &zh->zh_mutex ); if (zoo) { idx = zoo->zo_idx; assert(idx != -1); ldap_pvt_thread_rdwr_rlock(&zh->zh_znlock[idx]); } } int slap_zn_runlock( void *ctx, void *ptr ) { struct zone_heap* zh = ctx; struct zone_object zoi, *zoo; struct zone_heap *zone = NULL; int idx; zoi.zo_ptr = ptr; zoi.zo_idx = -1; ldap_pvt_thread_mutex_lock( &zh->zh_mutex ); zoo = avl_find(zh->zh_zonetree, &zoi, slap_zone_cmp); ldap_pvt_thread_mutex_unlock( &zh->zh_mutex ); if (zoo) { idx = zoo->zo_idx; assert(idx != -1); ldap_pvt_thread_rdwr_runlock(&zh->zh_znlock[idx]); } } int slap_zn_wlock( void *ctx, void *ptr ) { struct zone_heap* zh = ctx; struct zone_object zoi, *zoo; struct zone_heap *zone = NULL; int idx; zoi.zo_ptr = ptr; zoi.zo_idx = -1; ldap_pvt_thread_mutex_lock( &zh->zh_mutex ); zoo = avl_find(zh->zh_zonetree, &zoi, slap_zone_cmp); ldap_pvt_thread_mutex_unlock( &zh->zh_mutex ); if (zoo) { idx = zoo->zo_idx; assert(idx != -1); ldap_pvt_thread_rdwr_wlock(&zh->zh_znlock[idx]); } } int slap_zn_wunlock( void *ctx, void *ptr ) { struct zone_heap* zh = ctx; struct zone_object zoi, *zoo; struct zone_heap *zone = NULL; int idx; zoi.zo_ptr = ptr; zoi.zo_idx = -1; ldap_pvt_thread_mutex_lock( &zh->zh_mutex ); zoo = avl_find(zh->zh_zonetree, &zoi, slap_zone_cmp); ldap_pvt_thread_mutex_unlock( &zh->zh_mutex ); if (zoo) { idx = zoo->zo_idx; assert(idx != -1); ldap_pvt_thread_rdwr_wunlock(&zh->zh_znlock[idx]); } } #define T_SEC_IN_USEC 1000000 static int slap_timediff(struct timeval *tv_begin, struct timeval *tv_end) { uint64_t t_begin, t_end, t_diff; t_begin = T_SEC_IN_USEC * tv_begin->tv_sec + tv_begin->tv_usec; t_end = T_SEC_IN_USEC * tv_end->tv_sec + tv_end->tv_usec; t_diff = t_end - t_begin; if ( t_diff < 0 ) t_diff = 0; return (int)t_diff; } void slap_set_timing(struct timeval *tv_set) { gettimeofday(tv_set, (struct timezone *)NULL); } int slap_measure_timing(struct timeval *tv_set, struct timeval *tv_measure) { gettimeofday(tv_measure, (struct timezone *)NULL); return(slap_timediff(tv_set, tv_measure)); } #define EMA_WEIGHT 0.999000 #define SLAP_ZN_LATENCY_HISTORY_QLEN 500 int slap_zn_latency_history(void* ctx, int ea_latency) { /* TODO: monitor /proc/stat (swap) as well */ struct zone_heap* zh = ctx; double t_diff = 0.0; zh->zh_ema_latency = (double)ea_latency * (1.0 - EMA_WEIGHT) + zh->zh_ema_latency * EMA_WEIGHT; if (!zh->zh_swapping && zh->zh_ema_samples++ % 100 == 99) { struct zone_latency_history *zlh_entry; zlh_entry = ch_calloc(1, sizeof(struct zone_latency_history)); zlh_entry->zlh_latency = zh->zh_ema_latency; LDAP_STAILQ_INSERT_TAIL( &zh->zh_latency_history_queue, zlh_entry, zlh_next); zh->zh_latency_history_qlen++; while (zh->zh_latency_history_qlen > SLAP_ZN_LATENCY_HISTORY_QLEN) { struct zone_latency_history *zlh; zlh = LDAP_STAILQ_FIRST(&zh->zh_latency_history_queue); LDAP_STAILQ_REMOVE_HEAD( &zh->zh_latency_history_queue, zlh_next); zh->zh_latency_history_qlen--; ch_free(zlh); } if (zh->zh_latency_history_qlen == SLAP_ZN_LATENCY_HISTORY_QLEN) { struct zone_latency_history *zlh_first, *zlh_last; zlh_first = LDAP_STAILQ_FIRST(&zh->zh_latency_history_queue); zlh_last = LDAP_STAILQ_LAST(&zh->zh_latency_history_queue, zone_latency_history, zlh_next); t_diff = zlh_last->zlh_latency - zlh_first->zlh_latency; } if (t_diff >= 2000) { zh->zh_latency_jump++; } else { zh->zh_latency_jump = 0; } if (zh->zh_latency_jump > 3) { zh->zh_latency_jump = 0; zh->zh_swapping = 1; } } return zh->zh_swapping; } #endif /* SLAP_ZONE_ALLOC */