quakeforge/libs/util/cmem.c

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/*
cmem.c
Cache-line aligned memory allocator
Copyright (C) 2020 Bill Currie <bill@taniwha.org>
This program is free software; you can redistribute it and/or
modify it under the terms of the GNU General Public License
as published by the Free Software Foundation; either version 2
of the License, or (at your option) any later version.
This program is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.
See the GNU General Public License for more details.
You should have received a copy of the GNU General Public License
along with this program; if not, write to:
Free Software Foundation, Inc.
59 Temple Place - Suite 330
Boston, MA 02111-1307, USA
*/
#ifdef HAVE_CONFIG_H
# include "config.h"
#endif
#include <unistd.h>
#include <malloc.h>
#include "QF/alloc.h"
#include "QF/cmem.h"
#include "QF/sys.h"
#ifdef _WIN32
#define cmem_alloc(align, size) _aligned_malloc(size, align)
#define cmem_free(mem) _aligned_free(mem)
#else
#define cmem_alloc(align, size) aligned_alloc(align, size)
#define cmem_free(mem) free(mem)
#endif
static size_t __attribute__((const))
ilog2 (size_t x)
{
size_t l = 0;
while (x >>= 1) {
l++;
}
return l;
}
memsuper_t *
new_memsuper (void)
{
memsuper_t *super = cmem_alloc (MEM_LINE_SIZE, sizeof (*super));
memset (super, 0, sizeof (*super));
super->page_size = Sys_PageSize ();
super->page_mask = (super->page_size - 1);
return super;
}
void
delete_memsuper (memsuper_t *super)
{
while (super->memblocks) {
memblock_t *t = super->memblocks;
super->memblocks = super->memblocks->next;
cmem_free (t->mem);
}
cmem_free (super);
}
static void
link_free_line (memsuper_t *super, memline_t *line)
{
size_t ind = ilog2 (line->size) - 6;
if (super->free_lines[ind]) {
super->free_lines[ind]->free_prev = &line->free_next;
}
line->free_next = super->free_lines[ind];
line->free_prev = &super->free_lines[ind];
super->free_lines[ind] = line;
}
static void
unlink_free_line (memline_t *line)
{
if (line->free_next) {
line->free_next->free_prev = line->free_prev;
}
*line->free_prev = line->free_next;
}
static void
unlink_line (memline_t *line)
{
if (line->block_next) {
line->block_next->block_prev = line->block_prev;
}
*line->block_prev = line->block_next;
unlink_free_line (line);
}
static memblock_t *
init_block (memsuper_t *super, void *mem, size_t alloc_size)
{
size_t size = super->page_size;
size_t mask = super->page_mask;
size_t ptr = (size_t) mem;
memblock_t *block;
block = (memblock_t *) (((ptr + size) & ~mask) - sizeof (memblock_t));
memset (block, 0, sizeof (memblock_t));
if (super->memblocks) {
super->memblocks->prev = &block->next;
}
block->next = super->memblocks;
block->prev = &super->memblocks;
super->memblocks = block;
block->mem = mem;
block->pre_size = (size_t) block - (size_t) mem;
block->post_size = alloc_size - block->pre_size - sizeof (memblock_t);
if (!((size_t) mem & mask) && block->pre_size) {
// can't use the first cache line of the page as it would be
// indistinguishable from a large block
block->pre_size -= MEM_LINE_SIZE;
}
if (block->pre_size) {
memline_t *line = (memline_t *) ((size_t) block - block->pre_size);
line->block = block;
line->size = block->pre_size;
line->block_next = 0;
line->block_prev = &block->free_lines;
block->free_lines = line;
link_free_line (super, line);
}
return block;
}
static memblock_t *
block_alloc (memsuper_t *super, size_t size)
{
memblock_t *block;
memblock_t *best = 0;
size_t best_size = ~0u;
for (block = super->memblocks; block; block = block->next) {
if (block->post_free && block->post_size >= size
&& block->post_size < best_size) {
best = block;
best_size = block->post_size;
}
}
if (best) {
best->post_free = 0;
return best;
}
size_t page_size = super->page_size;
size_t alloc_size = sizeof (memblock_t) + page_size + size;
void *mem = cmem_alloc (MEM_LINE_SIZE, alloc_size);
block = init_block (super, mem, alloc_size);
return block;
}
static void *
alloc_line (memline_t *line, size_t size)
{
void *mem = line;
if (line->size > size) {
// split the line block and insert the new block into the list
memline_t *split = (memline_t *)((size_t) line + size);
split->block = line->block;
split->size = line->size - size;
line->size = size;
split->block_next = line->block_next;
if (split->block_next) {
split->block_next->block_prev = &split->block_next;
}
line->block_next = split;
split->block_prev = &line->block_next;
split->free_next = line->free_next;
if (split->free_next) {
split->free_next->free_prev = &split->free_next;
}
line->free_next = split;
split->free_prev = &line->free_next;
}
line->block->pre_allocated += line->size;
unlink_line (line);
return mem;
}
static void
line_free (memsuper_t *super, memblock_t *block, void *mem)
{
//FIXME right now, can free only single lines (need allocated lines to
// have a control block)
size_t size = MEM_LINE_SIZE;
memline_t **l;
memline_t *line = 0;
block->pre_allocated -= size;
for (l = &block->free_lines; *l; l = &(*l)->block_next) {
line = *l;
if (line->block_next && line->block_next < line) {
*(int *)0 = 0;
}
if ((size_t) mem + size < (size_t) line) {
// line to be freed is below the free line
break;
}
if ((size_t) mem + size == (size_t) line) {
// line to be freed is immediately below the free line
// merge with the free line by "allocating" the line and then
// "freeing" it with the line to be freed
size += line->size;
unlink_line (line); // does not modify line->block_next
line = line->block_next;
break;
}
if ((size_t) line + line->size == (size_t) mem) {
// line to be freed is immediately above the free line
// merge with the free line by growing the line
line->size += size;
if (line->block_next
&& (size_t) line->block_next == (size_t) mem + size) {
// the line to be freed connects two free lines
line->size += line->block_next->size;
unlink_line (line->block_next);
}
// the line changed size so needs to be relinked in the super
unlink_free_line (line);
link_free_line (super, line);
return;
}
if ((size_t) mem >= (size_t) line
&& (size_t) mem < (size_t) line + line->size) {
*(int *) 0 = 0;
}
line = 0;
}
memline_t *memline = (memline_t *) mem;
memline->block_next = line;
if (memline->block_next) {
memline->block_next->block_prev = &memline->block_next;
}
memline->block_prev = l;
memline->size = size;
memline->block = block;
*l = memline;
link_free_line (super, memline);
}
static memsline_t *
sline_new (memsuper_t *super, size_t size_ind)
{
size_t size = 4 << size_ind;
size_t free_loc = (sizeof (memsline_t) + size - 1) & ~(size - 1);
memsline_t *sline = cmemalloc (super, MEM_LINE_SIZE);
sline->size = size_ind;
sline->list = free_loc >> 2;
while (free_loc + size < MEM_LINE_SIZE) {
*(uint16_t *)((size_t) sline + free_loc) = free_loc + size;
free_loc += size;
}
*(uint16_t *)((size_t) sline + free_loc) = 0;
if (super->last_freed[size_ind]) {
super->last_freed[size_ind]->prev = (size_t) &sline->next >> 6;
}
sline->next = super->last_freed[size_ind];
sline->prev = (size_t) &super->last_freed[size_ind] >> 6;
super->last_freed[size_ind] = sline;
return sline;
}
void *
cmemalloc (memsuper_t *super, size_t size)
{
size_t ind = 0;
// allocation sizes start at 4 (sizeof(float)) and go up in powers of two
while ((4u << ind) < size) {
ind++;
}
// round size up
if (size > MEM_LINE_SIZE * 8 || size > super->page_size / 8) {
// the object is large enough it could cause excessive fragmentation,
memblock_t *block = block_alloc (super, 4 << ind);
if (!block) {
return 0;
}
return block + 1;
} else {
size = 4 << ind;
if (size >= MEM_LINE_SIZE) {
// whole cache lines are required for this object
// convert from byte log2 to cache-line log2
ind -= 4;
memline_t *line = 0;
while (!line && ind < MAX_CACHE_LINES) {
line = super->free_lines[ind++];
}
while (line && line->size < size) {
line = line->free_next;
}
if (!line) {
// need a new line, one that doesn't make me fe... wrong song
void *mem;
/* The cache-line pool is page aligned for two reasons:
* 1) so it fits exactly within a page
* 2) the control block can be found easily
* And the reason the pool is exactly one page large is so no
* allocated line is ever page-aligned as that would make the
* line indistinguishable from a large block.
*/
mem = cmem_alloc (super->page_size, super->page_size);
// sets super->free_lines, the block is guarnateed to be big
// enough to hold the requested allocation as otherwise a full
// block allocation would have been used
memblock_t *block = init_block (super, mem, super->page_size);
line = block->free_lines;
}
2021-01-09 11:42:23 +00:00
return alloc_line (line, size);
} else {
void *mem = 0;
memsline_t **sline = &super->last_freed[ind];
if (!*sline) {
*sline = sline_new (super, ind);
}
if (*sline) {
size_t list = (*sline)->list << 2;
mem = (void *) ((size_t) *sline + list);
(*sline)->list = *(uint16_t *) mem >> 2;
if (!(*sline)->list) {
// the sub-line is full, so remove it from the free
// list. Freeing a block from the line will add it back
// to the list
memsline_t *s = *sline;
if ((*sline)->next) {
(*sline)->next->prev = (*sline)->prev;
}
*sline = (*sline)->next;
s->next = 0;
s->prev = 0;
}
}
return mem;
}
}
return 0;
}
static void
unlink_block (memblock_t *block)
{
if (block->pre_size) {
if (!block->free_lines || block->free_lines->block_next) {
*(int *) 0 = 0;
}
unlink_line (block->free_lines);
}
if (block->next) {
block->next->prev = block->prev;
}
*block->prev = block->next;
}
void
cmemfree (memsuper_t *super, void *mem)
{
memsline_t **super_sline;
memsline_t *sline;
memblock_t *block;
if ((size_t) mem & (MEM_LINE_SIZE - 1)) {
// sub line block
sline = (memsline_t *) ((size_t) mem & ~(MEM_LINE_SIZE - 1));
*(uint16_t *) mem = sline->list << 2;
sline->list = ((size_t) mem & (MEM_LINE_SIZE - 1)) >> 2;
super_sline = &super->last_freed[sline->size];
if (*super_sline != sline) {
if (sline->next) {
sline->next->prev = sline->prev;
}
if (sline->prev) {
*(memsline_t **) (size_t)(sline->prev << 6) = sline->next;
}
if (*super_sline) {
(*super_sline)->prev = (size_t) &sline->next >> 6;
}
sline->next = *super_sline;
sline->prev = (size_t) super_sline >> 6;
(*super_sline) = sline;
}
return;
} else if ((size_t) mem & super->page_mask) {
// cache line
size_t page_size = super->page_size;
size_t page_mask = super->page_mask;
block = (memblock_t *) (((size_t) mem + page_size) & ~page_mask) - 1;
line_free (super, block, mem);
} else {
// large block
block = (memblock_t *) mem - 1;
block->post_free = 1;
}
if (!block->pre_allocated && (!block->post_size || block->post_free)) {
unlink_block (block);
cmem_free (block->mem);
}
}