294 lines
7.4 KiB
C
294 lines
7.4 KiB
C
/*
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* Copyright (c) 2020-2022 Apple Inc. All rights reserved.
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*
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* @APPLE_LICENSE_HEADER_START@
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*
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* This file contains Original Code and/or Modifications of Original Code
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* as defined in and that are subject to the Apple Public Source License
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* Version 2.0 (the 'License'). You may not use this file except in
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* compliance with the License. Please obtain a copy of the License at
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* http://www.opensource.apple.com/apsl/ and read it before using this
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* file.
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*
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* The Original Code and all software distributed under the License are
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* distributed on an 'AS IS' basis, WITHOUT WARRANTY OF ANY KIND, EITHER
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* EXPRESS OR IMPLIED, AND APPLE HEREBY DISCLAIMS ALL SUCH WARRANTIES,
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* INCLUDING WITHOUT LIMITATION, ANY WARRANTIES OF MERCHANTABILITY,
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* FITNESS FOR A PARTICULAR PURPOSE, QUIET ENJOYMENT OR NON-INFRINGEMENT.
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* Please see the License for the specific language governing rights and
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* limitations under the License.
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*
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* @APPLE_LICENSE_HEADER_END@
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*/
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#include <stdbool.h>
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#include <stdint.h>
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#include <kern/assert.h>
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#include <kern/locks.h>
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#include <os/atomic_private.h>
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#include "log_mem.h"
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#define BLOCK_INVALID ((size_t)-1)
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#define BLOCK_LEVEL_BASE(level) ((1 << (level)) - 1)
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#define BLOCK_SIZE(level) (1 << (level))
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#define BLOCK_PARENT(b) (((b) % 2 == 0) ? ((b) >> 1) - 1 : ((b) >> 1))
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#define BLOCK_LCHILD(b) (((b) << 1) + 1)
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#define BLOCK_BUDDY(b) (((b) & 0x1) ? (b) + 1 : (b) - 1)
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#define BLOCK_INDEX(lm, l, a, s) \
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(BLOCK_LEVEL_BASE(l) + ((uintptr_t)(a) - (uintptr_t)(lm)->lm_mem) / (s))
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#define MAP_SIZE(size_order, min_order) \
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MAX(1, (1 << ((size_order) - (min_order) + 1)) / 8)
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#define BITMAP_BUCKET_SIZE (8 * sizeof(((logmem_t *)0)->lm_mem_map[0]))
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#define BITMAP_BUCKET(i) ((i) / BITMAP_BUCKET_SIZE)
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#define BITMAP_BIT(i) (uint8_t)(1 << (BITMAP_BUCKET_SIZE - ((i) % BITMAP_BUCKET_SIZE) - 1))
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#define logmem_lock(lock, lm) if ((lock)) lck_spin_lock(&(lm)->lm_lock)
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#define logmem_unlock(lock, lm) if ((lock)) lck_spin_unlock(&(lm)->lm_lock)
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static LCK_GRP_DECLARE(logmem_lck_grp, "logmem_lck_grp");
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static bool
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bitmap_get(logmem_t *lm, size_t block)
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{
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return lm->lm_mem_map[BITMAP_BUCKET(block)] & BITMAP_BIT(block);
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}
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static void
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bitmap_set(logmem_t *lm, size_t block)
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{
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lm->lm_mem_map[BITMAP_BUCKET(block)] |= BITMAP_BIT(block);
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}
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static void
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bitmap_clear(logmem_t *lm, size_t block)
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{
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lm->lm_mem_map[BITMAP_BUCKET(block)] &= ~BITMAP_BIT(block);
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}
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static void
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bitmap_reserve_root(logmem_t *lm, size_t block)
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{
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const size_t top_block = BLOCK_LEVEL_BASE(lm->lm_cap_order - lm->lm_max_order);
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for (ssize_t next = BLOCK_PARENT(block); next >= top_block; next = BLOCK_PARENT(next)) {
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/*
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* If the rest of the root path is already marked as
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* allocated we are done.
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*/
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if (bitmap_get(lm, next)) {
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break;
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}
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bitmap_set(lm, next);
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}
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}
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static void
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bitmap_release_root(logmem_t *lm, size_t block)
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{
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const size_t top_block = BLOCK_LEVEL_BASE(lm->lm_cap_order - lm->lm_max_order);
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int buddy_allocated = 0;
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while (block > top_block) {
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buddy_allocated = bitmap_get(lm, BLOCK_BUDDY(block));
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block = BLOCK_PARENT(block);
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/*
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* If there is another allocation within the parent subtree
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* in place we cannot mark the rest of the root path as free.
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*/
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if (buddy_allocated) {
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break;
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}
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bitmap_clear(lm, block);
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}
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}
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static void
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bitmap_update_subtree(logmem_t *lm, size_t level, size_t block, void (*fun)(logmem_t *, size_t))
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{
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const size_t lcount = lm->lm_cap_order - lm->lm_min_order - level + 1;
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for (size_t l = 0, n = 1; l < lcount; l++, n <<= 1) {
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for (int i = 0; i < n; i++) {
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fun(lm, block + i);
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}
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block = BLOCK_LCHILD(block);
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}
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}
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static void
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bitmap_release_subtree(logmem_t *lm, size_t level, size_t block)
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{
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bitmap_update_subtree(lm, level, block, bitmap_clear);
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}
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static void
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bitmap_reserve_subtree(logmem_t *lm, size_t level, size_t block)
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{
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bitmap_update_subtree(lm, level, block, bitmap_set);
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}
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static size_t
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block_size_level(logmem_t *lm, size_t amount)
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{
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for (size_t l = lm->lm_min_order; l <= lm->lm_max_order; l++) {
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if (amount <= BLOCK_SIZE(l)) {
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return lm->lm_cap_order - l;
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}
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}
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return BLOCK_INVALID;
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}
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static size_t
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block_locate(logmem_t *lm, void *addr, size_t amount, size_t *block)
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{
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size_t level = block_size_level(lm, amount);
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if (level != BLOCK_INVALID) {
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*block = BLOCK_INDEX(lm, level, addr, amount);
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}
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return level;
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}
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static size_t
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block_reserve(logmem_t *lm, size_t level)
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{
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assert(level != BLOCK_INVALID);
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const size_t base = BLOCK_LEVEL_BASE(level);
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const size_t end = base + BLOCK_SIZE(level);
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for (size_t block = base; block < end; block++) {
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if (!bitmap_get(lm, block)) {
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bitmap_reserve_root(lm, block);
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bitmap_reserve_subtree(lm, level, block);
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return block - base;
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}
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}
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return BLOCK_INVALID;
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}
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static void *
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logmem_alloc_impl(logmem_t *lm, size_t *amount, bool lock_lm)
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{
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assert(amount);
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os_atomic_inc(&lm->lm_cnt_allocations, relaxed);
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if (!lm->lm_mem) {
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os_atomic_inc(&lm->lm_cnt_failed_lmoff, relaxed);
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return NULL;
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}
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if (*amount == 0 || *amount > BLOCK_SIZE(lm->lm_max_order)) {
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os_atomic_inc(&lm->lm_cnt_failed_size, relaxed);
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return NULL;
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}
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size_t level = block_size_level(lm, *amount);
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logmem_lock(lock_lm, lm);
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size_t block = block_reserve(lm, level);
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logmem_unlock(lock_lm, lm);
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if (block == BLOCK_INVALID) {
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os_atomic_inc(&lm->lm_cnt_failed_full, relaxed);
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return NULL;
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}
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*amount = BLOCK_SIZE(lm->lm_cap_order - level);
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os_atomic_sub(&lm->lm_cnt_free, (uint32_t)*amount, relaxed);
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return &lm->lm_mem[block * *amount];
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}
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void *
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logmem_alloc_locked(logmem_t *lm, size_t *amount)
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{
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return logmem_alloc_impl(lm, amount, true);
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}
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void *
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logmem_alloc(logmem_t *lm, size_t *amount)
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{
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return logmem_alloc_impl(lm, amount, false);
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}
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static void
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logmem_free_impl(logmem_t *lm, void *addr, size_t amount, bool lock_lm)
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{
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assert(addr);
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assert(amount > 0 && ((amount & (amount - 1)) == 0));
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size_t block = BLOCK_INVALID;
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size_t level = block_locate(lm, addr, amount, &block);
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assert(level != BLOCK_INVALID);
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assert(block != BLOCK_INVALID);
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assert(lm->lm_mem);
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logmem_lock(lock_lm, lm);
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bitmap_release_root(lm, block);
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bitmap_release_subtree(lm, level, block);
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logmem_unlock(lock_lm, lm);
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os_atomic_add(&lm->lm_cnt_free, (uint32_t)amount, relaxed);
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}
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void
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logmem_free_locked(logmem_t *lm, void *addr, size_t amount)
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{
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logmem_free_impl(lm, addr, amount, true);
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}
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void
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logmem_free(logmem_t *lm, void *addr, size_t amount)
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{
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logmem_free_impl(lm, addr, amount, false);
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}
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size_t
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logmem_required_size(size_t size_order, size_t min_order)
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{
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return round_page(BLOCK_SIZE(size_order)) + round_page(MAP_SIZE(size_order, min_order));
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}
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size_t
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logmem_max_size(const logmem_t *lm)
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{
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return BLOCK_SIZE(lm->lm_max_order);
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}
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bool
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logmem_empty(const logmem_t *lm)
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{
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return lm->lm_cnt_free == BLOCK_SIZE(lm->lm_cap_order);
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}
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bool
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logmem_ready(const logmem_t *lm)
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{
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return lm->lm_mem != NULL;
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}
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void
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logmem_init(logmem_t *lm, void *lm_mem, size_t lm_mem_size, size_t size_order, size_t min_order, size_t max_order)
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{
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assert(lm_mem_size >= logmem_required_size(size_order, min_order));
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assert(size_order >= max_order);
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assert(max_order >= min_order);
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bzero(lm, sizeof(*lm));
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bzero(lm_mem, lm_mem_size);
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lck_spin_init(&lm->lm_lock, &logmem_lck_grp, LCK_ATTR_NULL);
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lm->lm_mem = lm_mem;
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lm->lm_mem_map = (uint8_t *)((uintptr_t)lm_mem + round_page(BLOCK_SIZE(size_order)));
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lm->lm_mem_size = lm_mem_size;
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lm->lm_cap_order = size_order;
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lm->lm_min_order = min_order;
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lm->lm_max_order = max_order;
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lm->lm_cnt_free = BLOCK_SIZE(size_order);
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}
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