mirror of
https://git.code.sf.net/p/quake/quakeforge
synced 2024-11-29 23:52:22 +00:00
0a847f92f1
This reduces the overhead needed to manage the memory blocks as the blocks are guaranteed to be page-aligned. Also, the superblock is now alllocated from within one of the memory blocks it manages. While this does slightly reduce the available cachelines within the first block (by one or two depending on 32 vs 64 bit pointers), it removes the need for an extra memory allocation (probably via malloc) for the superblock.
424 lines
11 KiB
C
424 lines
11 KiB
C
/*
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cmem.c
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Cache-line aligned memory allocator
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Copyright (C) 2020 Bill Currie <bill@taniwha.org>
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This program is free software; you can redistribute it and/or
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modify it under the terms of the GNU General Public License
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as published by the Free Software Foundation; either version 2
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of the License, or (at your option) any later version.
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This program is distributed in the hope that it will be useful,
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but WITHOUT ANY WARRANTY; without even the implied warranty of
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MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.
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See the GNU General Public License for more details.
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You should have received a copy of the GNU General Public License
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along with this program; if not, write to:
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Free Software Foundation, Inc.
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59 Temple Place - Suite 330
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Boston, MA 02111-1307, USA
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*/
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#ifdef HAVE_CONFIG_H
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# include "config.h"
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#endif
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#include "QF/alloc.h"
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#include "QF/cmem.h"
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#include "QF/sys.h"
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static size_t __attribute__((const))
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ilog2 (size_t x)
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{
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size_t l = 0;
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while (x >>= 1) {
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l++;
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}
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return l;
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}
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static void
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link_free_line (memsuper_t *super, memline_t *line)
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{
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size_t ind = ilog2 (line->size) - 6;
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if (super->free_lines[ind]) {
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super->free_lines[ind]->free_prev = &line->free_next;
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}
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line->free_next = super->free_lines[ind];
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line->free_prev = &super->free_lines[ind];
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super->free_lines[ind] = line;
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}
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static void
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unlink_free_line (memline_t *line)
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{
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if (line->free_next) {
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line->free_next->free_prev = line->free_prev;
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}
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*line->free_prev = line->free_next;
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}
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static void
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unlink_line (memline_t *line)
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{
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if (line->block_next) {
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line->block_next->block_prev = line->block_prev;
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}
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*line->block_prev = line->block_next;
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unlink_free_line (line);
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}
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static memblock_t *
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init_block (memsuper_t *super, void *mem, size_t alloc_size)
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{
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memblock_t *block = mem;
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memset (block, 0, sizeof (memblock_t));
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if (super->memblocks) {
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super->memblocks->prev = &block->next;
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}
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block->next = super->memblocks;
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block->prev = &super->memblocks;
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super->memblocks = block;
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block->size = super->page_size - sizeof (*block);
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block->post_size = alloc_size - super->page_size;
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memline_t *line = (memline_t *) (block + 1);
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line->block = block;
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line->size = block->size;
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line->block_next = 0;
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line->block_prev = &block->free_lines;
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block->free_lines = line;
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link_free_line (super, line);
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return block;
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}
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static memblock_t *
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block_alloc (memsuper_t *super, size_t size)
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{
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memblock_t *block;
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memblock_t *best = 0;
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size_t best_size = ~0u;
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for (block = super->memblocks; block; block = block->next) {
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if (block->post_free && block->post_size >= size
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&& block->post_size < best_size) {
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best = block;
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best_size = block->post_size;
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}
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}
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if (best) {
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best->post_free = 0;
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return best;
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}
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size_t page_size = super->page_size;
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size_t alloc_size = page_size + size;
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void *mem = Sys_Alloc (alloc_size);
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block = init_block (super, mem, alloc_size);
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return block;
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}
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static void *
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alloc_line (memline_t *line, size_t size)
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{
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void *mem = line;
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if (line->size > size) {
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// split the line block and insert the new block into the list
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memline_t *split = (memline_t *)((size_t) line + size);
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split->block = line->block;
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split->size = line->size - size;
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line->size = size;
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split->block_next = line->block_next;
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if (split->block_next) {
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split->block_next->block_prev = &split->block_next;
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}
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line->block_next = split;
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split->block_prev = &line->block_next;
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split->free_next = line->free_next;
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if (split->free_next) {
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split->free_next->free_prev = &split->free_next;
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}
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line->free_next = split;
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split->free_prev = &line->free_next;
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}
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line->block->allocated += line->size;
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unlink_line (line);
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return mem;
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}
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static void
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line_free (memsuper_t *super, memblock_t *block, void *mem)
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{
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//FIXME right now, can free only single lines (need allocated lines to
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// have a control block)
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size_t size = MEM_LINE_SIZE;
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memline_t **l;
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memline_t *line = 0;
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block->allocated -= size;
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for (l = &block->free_lines; *l; l = &(*l)->block_next) {
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line = *l;
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if (line->block_next && line->block_next < line) {
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*(int *)0 = 0;
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}
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if ((size_t) mem + size < (size_t) line) {
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// line to be freed is below the free line
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break;
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}
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if ((size_t) mem + size == (size_t) line) {
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// line to be freed is immediately below the free line
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// merge with the free line by "allocating" the line and then
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// "freeing" it with the line to be freed
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size += line->size;
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unlink_line (line); // does not modify line->block_next
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line = line->block_next;
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break;
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}
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if ((size_t) line + line->size == (size_t) mem) {
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// line to be freed is immediately above the free line
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// merge with the free line by growing the line
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line->size += size;
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if (line->block_next
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&& (size_t) line->block_next == (size_t) mem + size) {
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// the line to be freed connects two free lines
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line->size += line->block_next->size;
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unlink_line (line->block_next);
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}
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// the line changed size so needs to be relinked in the super
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unlink_free_line (line);
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link_free_line (super, line);
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return;
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}
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if ((size_t) mem >= (size_t) line
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&& (size_t) mem < (size_t) line + line->size) {
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*(int *) 0 = 0;
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}
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line = 0;
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}
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memline_t *memline = (memline_t *) mem;
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memline->block_next = line;
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if (memline->block_next) {
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memline->block_next->block_prev = &memline->block_next;
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}
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memline->block_prev = l;
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memline->size = size;
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memline->block = block;
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*l = memline;
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link_free_line (super, memline);
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}
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static memsline_t *
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sline_new (memsuper_t *super, size_t size_ind)
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{
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size_t size = 4 << size_ind;
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size_t free_loc = (sizeof (memsline_t) + size - 1) & ~(size - 1);
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memsline_t *sline = cmemalloc (super, MEM_LINE_SIZE);
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sline->size = size_ind;
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sline->list = free_loc >> 2;
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while (free_loc + size < MEM_LINE_SIZE) {
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*(uint16_t *)((size_t) sline + free_loc) = free_loc + size;
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free_loc += size;
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}
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*(uint16_t *)((size_t) sline + free_loc) = 0;
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if (super->last_freed[size_ind]) {
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super->last_freed[size_ind]->prev = (size_t) &sline->next >> 6;
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}
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sline->next = super->last_freed[size_ind];
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sline->prev = (size_t) &super->last_freed[size_ind] >> 6;
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super->last_freed[size_ind] = sline;
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return sline;
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}
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void *
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cmemalloc (memsuper_t *super, size_t size)
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{
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size_t ind = 0;
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// allocation sizes start at 4 (sizeof(float)) and go up in powers of two
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while ((4u << ind) < size) {
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ind++;
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}
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// round size up
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if (size > MEM_LINE_SIZE * 8 || size > super->page_size / 8) {
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// the object is large enough it could cause excessive fragmentation,
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memblock_t *block = block_alloc (super, 4 << ind);
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if (!block) {
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return 0;
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}
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return (void *) ((size_t) block + super->page_size);
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} else {
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size = 4 << ind;
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if (size >= MEM_LINE_SIZE) {
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// whole cache lines are required for this object
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// convert from byte log2 to cache-line log2
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ind -= 4;
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memline_t *line = 0;
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while (!line && ind < MAX_CACHE_LINES) {
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line = super->free_lines[ind++];
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}
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while (line && line->size < size) {
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line = line->free_next;
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}
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if (!line) {
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// need a new line, one that doesn't make me fe... wrong song
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void *mem;
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/* The cache-line pool is page aligned for two reasons:
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* 1) so it fits exactly within a page
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* 2) the control block can be found easily
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* And the reason the pool is exactly one page large is so no
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* allocated line is ever page-aligned as that would make the
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* line indistinguishable from a large block.
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*/
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mem = Sys_Alloc (super->page_size);
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// sets super->free_lines, the block is guarnateed to be big
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// enough to hold the requested allocation as otherwise a full
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// block allocation would have been used
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memblock_t *block = init_block (super, mem, super->page_size);
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line = block->free_lines;
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}
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return alloc_line (line, size);
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} else {
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void *mem = 0;
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memsline_t **sline = &super->last_freed[ind];
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if (!*sline) {
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*sline = sline_new (super, ind);
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}
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if (*sline) {
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size_t list = (*sline)->list << 2;
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mem = (void *) ((size_t) *sline + list);
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(*sline)->list = *(uint16_t *) mem >> 2;
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if (!(*sline)->list) {
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// the sub-line is full, so remove it from the free
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// list. Freeing a block from the line will add it back
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// to the list
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memsline_t *s = *sline;
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if ((*sline)->next) {
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(*sline)->next->prev = (*sline)->prev;
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}
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*sline = (*sline)->next;
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s->next = 0;
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s->prev = 0;
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}
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}
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return mem;
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}
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}
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return 0;
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}
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static void
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unlink_block (memblock_t *block)
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{
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if (!block->free_lines || block->free_lines->block_next) {
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*(int *) 0 = 0;
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}
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unlink_line (block->free_lines);
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if (block->next) {
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block->next->prev = block->prev;
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}
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*block->prev = block->next;
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}
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void
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cmemfree (memsuper_t *super, void *mem)
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{
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memsline_t **super_sline;
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memsline_t *sline;
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memblock_t *block;
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if ((size_t) mem & (MEM_LINE_SIZE - 1)) {
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// sub line block
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sline = (memsline_t *) ((size_t) mem & ~(MEM_LINE_SIZE - 1));
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*(uint16_t *) mem = sline->list << 2;
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sline->list = ((size_t) mem & (MEM_LINE_SIZE - 1)) >> 2;
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super_sline = &super->last_freed[sline->size];
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if (*super_sline != sline) {
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if (sline->next) {
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sline->next->prev = sline->prev;
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}
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if (sline->prev) {
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*(memsline_t **) (size_t)(sline->prev << 6) = sline->next;
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}
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if (*super_sline) {
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(*super_sline)->prev = (size_t) &sline->next >> 6;
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}
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sline->next = *super_sline;
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sline->prev = (size_t) super_sline >> 6;
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(*super_sline) = sline;
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}
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return;
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} else if ((size_t) mem & super->page_mask) {
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// cache line
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block = (memblock_t *) ((size_t) mem & ~super->page_mask);
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line_free (super, block, mem);
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} else {
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// large block
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block = (memblock_t *) ((size_t) mem - super->page_size);
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block->post_free = 1;
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}
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if (!block->allocated && (!block->post_size || block->post_free)) {
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unlink_block (block);
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Sys_Free (block, super->page_size + block->post_size);
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}
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}
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memsuper_t *
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new_memsuper (void)
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{
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// Temporary superblock used to bootstrap a pool
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memsuper_t bootstrap = { };
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bootstrap.page_size = Sys_PageSize ();
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bootstrap.page_mask = (bootstrap.page_size - 1);
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// Allocate the real superblock from the pool. As a superblock is only
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// two cache lines large (for 64-byte cache lines), it will always be
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// allocated using a block's cache lines, and thus will be inside the first
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// block.
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memsuper_t *super = cmemalloc (&bootstrap, sizeof (*super));
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*super = bootstrap;
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// The block used to allocate the real superblock points to the bootstrap
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// superblock, but needs to point to the real superblock.
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super->memblocks->prev = &super->memblocks;
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// Any free cache line block chains will also point to the bootstrap
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// block instead of the resl superblock, so fix them up too (there should
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// be only one, but no harm in being paranoid)
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for (int i = 0; i < MAX_CACHE_LINES; i++) {
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if (super->free_lines[i]) {
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super->free_lines[i]->free_prev = &super->free_lines[i];
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}
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}
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return super;
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}
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void
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delete_memsuper (memsuper_t *super)
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{
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// The block holding the superblock is always the last block in the list
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while (super->memblocks && super->memblocks->next) {
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memblock_t *t = super->memblocks;
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super->memblocks = super->memblocks->next;
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Sys_Free (t, super->page_size + t->post_size);
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}
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memblock_t *block = super->memblocks;
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Sys_Free (block, super->page_size + block->post_size);
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}
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