rockbox/apps/plugins/doom/z_zone.c

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/* Emacs style mode select -*- C++ -*-
*-----------------------------------------------------------------------------
*
*
* PrBoom a Doom port merged with LxDoom and LSDLDoom
* based on BOOM, a modified and improved DOOM engine
* Copyright (C) 1999 by
* id Software, Chi Hoang, Lee Killough, Jim Flynn, Rand Phares, Ty Halderman
* Copyright (C) 1999-2000 by
* Jess Haas, Nicolas Kalkhof, Colin Phipps, Florian Schulze
*
* 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 the Free Software
* Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA
* 02111-1307, USA.
*
* DESCRIPTION:
* Zone Memory Allocation. Neat.
*
* Neat enough to be rewritten by Lee Killough...
*
* Must not have been real neat :)
*
* Made faster and more general, and added wrappers for all of Doom's
* memory allocation functions, including malloc() and similar functions.
* Added line and file numbers, in case of error. Added performance
* statistics and tunables.
*-----------------------------------------------------------------------------
*/
#include "z_zone.h"
#include "z_bmalloc.h"
#include "doomdef.h"
#include "i_system.h"
#include "rockmacros.h"
#include "m_argv.h"
// Tunables
// Alignment of zone memory (benefit may be negated by HEADER_SIZE, CHUNK_SIZE)
#define CACHE_ALIGN 32
// Minimum chunk size at which blocks are allocated
#define CHUNK_SIZE 32
// Minimum size a block must be to become part of a split
#define MIN_BLOCK_SPLIT (1024)
// Minimum RAM machine is assumed to have
/* cph - Select zone size. 6megs is usable, but with the SDL version
* storing sounds in the zone, 8 is more sensible */
#define MIN_RAM (8*1024*1024)
// Amount to subtract when retrying failed attempts to allocate initial pool
#define RETRY_AMOUNT (256*1024)
// signature for block header
#define ZONEID 0x931d4a11
// Number of mallocs & frees kept in history buffer (must be a power of 2)
#define ZONE_HISTORY 4
// End Tunables
typedef struct memblock {
#ifdef ZONEIDCHECK
unsigned id;
#endif
struct memblock *next,*prev;
size_t size;
void **user;
unsigned char tag,vm;
#ifdef INSTRUMENTED
unsigned short extra;
const char *file;
int line;
#endif
} memblock_t;
/* size of block header
* cph - base on sizeof(memblock_t), which can be larger than CHUNK_SIZE on
* 64bit architectures */
static const size_t HEADER_SIZE IDATA_ATTR= (sizeof(memblock_t)+CHUNK_SIZE-1) & ~(CHUNK_SIZE-1);
static memblock_t *rover IBSS_ATTR; // roving pointer to memory blocks
static memblock_t *zone IBSS_ATTR; // pointer to first block
static memblock_t *zonebase IBSS_ATTR; // pointer to entire zone memory
static size_t zonebase_size IBSS_ATTR; // zone memory allocated size
#ifdef INSTRUMENTED
// statistics for evaluating performance
static size_t free_memory;
static size_t active_memory;
static size_t purgable_memory;
static size_t inactive_memory;
static size_t virtual_memory;
static void Z_PrintStats(void) // Print allocation statistics
{
unsigned long total_memory = free_memory + active_memory +
purgable_memory + inactive_memory +
virtual_memory;
double s = 100.0 / total_memory;
doom_printf("%-5u\t%6.01f%%\tstatic\n"
"%-5u\t%6.01f%%\tpurgable\n"
"%-5u\t%6.01f%%\tfree\n"
"%-5u\t%6.01f%%\tfragmentary\n"
"%-5u\t%6.01f%%\tvirtual\n"
"%-5lu\t\ttotal\n",
active_memory,
active_memory*s,
purgable_memory,
purgable_memory*s,
free_memory,
free_memory*s,
inactive_memory,
inactive_memory*s,
virtual_memory,
virtual_memory*s,
total_memory
);
}
#ifdef HEAPDUMP
void W_PrintLump(FILE* fp, void* p);
void Z_DumpMemory(void)
{
static int dump;
memblock_t* block = zone;
char buf[80];
FILE* fp;
size_t total_cache = 0, total_free = 0, total_malloc = 0;
sprintf(buf, "memdump.%d", dump++);
fp = fopen(buf, "w");
do {
switch (block->tag) {
case PU_FREE:
fprintf(fp, "free %d\n", block->size);
total_free += block->size;
break;
case PU_CACHE:
fprintf(fp, "cache %s:%d:%d\n", block->file, block->line, block->size);
total_cache += block->size;
break;
case PU_LEVEL:
fprintf(fp, "level %s:%d:%d\n", block->file, block->line, block->size);
total_malloc += block->size;
break;
default:
fprintf(fp, "malloc %s:%d:%d", block->file, block->line, block->size);
total_malloc += block->size;
if (!strcmp(block->file,"w_wad.c")) W_PrintLump(fp, (char*)block + HEADER_SIZE);
fputc('\n', fp);
break;
}
block=block->next;
} while (block != zone);
fprintf(fp, "malloc %d, cache %d, free %d, total %d\n",
total_malloc, total_cache, total_free,
total_malloc + total_cache + total_free);
fclose(fp);
}
#endif
#endif
#ifdef INSTRUMENTED
// killough 4/26/98: Add history information
enum {malloc_history, free_history, NUM_HISTORY_TYPES};
static const char *file_history[NUM_HISTORY_TYPES][ZONE_HISTORY];
static int line_history[NUM_HISTORY_TYPES][ZONE_HISTORY];
static int history_index[NUM_HISTORY_TYPES];
static const char *const desc[NUM_HISTORY_TYPES] = {"malloc()'s", "free()'s"};
void Z_DumpHistory(char *buf)
{
int i,j;
char s[1024];
strcat(buf,"\n");
for (i=0;i<NUM_HISTORY_TYPES;i++)
{
sprintf(s,"\nLast several %s:\n\n", desc[i]);
strcat(buf,s);
for (j=0; j<ZONE_HISTORY; j++)
{
int k = (history_index[i]-j-1) & (ZONE_HISTORY-1);
if (file_history[i][k])
{
sprintf(s, "File: %s, Line: %d\n", file_history[i][k],
line_history[i][k]);
strcat(buf,s);
}
}
}
}
#else
void Z_DumpHistory(char *buf)
{
(void)buf;
}
#endif
void Z_Close(void)
{
// (free)(zonebase);
zone = rover = zonebase = NULL;
}
void Z_Init(void)
{
unsigned int size;
#ifdef INSTRUMENTED
if (!(HEADER_SIZE >= sizeof(memblock_t) && MIN_RAM > LEAVE_ASIDE))
I_Error("Z_Init: Sanity check failed");
#endif
// atexit(Z_Close); // exit handler
// Allocate the memory
zonebase=rb->plugin_get_audio_buffer(&size);
size-=2*(HEADER_SIZE + CACHE_ALIGN); // Leave space for header and CACHE_ALIGN
size = (size+CHUNK_SIZE-1) & ~(CHUNK_SIZE-1); // round to chunk size
size += HEADER_SIZE + CACHE_ALIGN;
zonebase_size=size;
printf("Z_Init: Allocated %dKb zone memory\n", (long unsigned)size >> 10);
// Align on cache boundary
zone = (memblock_t *) ((unsigned long)zonebase + CACHE_ALIGN -
((unsigned long)zonebase & (CACHE_ALIGN-1)));
rover = zone; // Rover points to base of zone mem
zone->next = zone->prev = zone; // Single node
zone->size = size; // All memory in one block
zone->tag = PU_FREE; // A free block
zone->vm = 0;
#ifdef ZONEIDCHECK
zone->id = 0;
#endif
#ifdef INSTRUMENTED
free_memory = size;
inactive_memory = zonebase_size - size;
active_memory = purgable_memory = virtual_memory = 0;
#endif
}
/* Z_Malloc
* You can pass a NULL user if the tag is < PU_PURGELEVEL.
*
* cph - the algorithm here was a very simple first-fit round-robin
* one - just keep looping around, freeing everything we can until
* we get a large enough space
*
* This has been changed now; we still do the round-robin first-fit,
* but we only free the blocks we actually end up using; we don't
* free all the stuff we just pass on the way.
*/
void *(Z_Malloc)(size_t size, int tag, void **user
#ifdef INSTRUMENTED
, const char *file, int line
#endif
)
{
register memblock_t *block;
memblock_t *start, *first_of_free;
register size_t contig_free;
#ifdef INSTRUMENTED
size_t size_orig = size;
#ifdef CHECKHEAP
Z_CheckHeap();
#endif
file_history[malloc_history][history_index[malloc_history]] = file;
line_history[malloc_history][history_index[malloc_history]++] = line;
history_index[malloc_history] &= ZONE_HISTORY-1;
#endif
#ifdef ZONEIDCHECK
if (tag >= PU_PURGELEVEL && !user)
I_Error ("Z_Malloc: An owner is required for purgable blocks"
#ifdef INSTRUMENTED
"Source: %s:%d", file, line
#endif
);
#endif
if (!size)
return user ? *user = NULL : NULL; // malloc(0) returns NULL
size = (size+CHUNK_SIZE-1) & ~(CHUNK_SIZE-1); // round to chunk size
block = rover;
if (block->prev->tag == PU_FREE)
block = block->prev;
start = block;
first_of_free = NULL; contig_free = 0;
do {
/* If we just wrapped, we're not contiguous with the previous block */
if (block == zone) contig_free = 0;
if (block->tag < PU_PURGELEVEL && block->tag != PU_FREE) {
/* Not free(able), so no free space here */
contig_free = 0;
} else {
/* Add to contiguous chunk of free space */
if (!contig_free) first_of_free = block;
contig_free += block->size;
/* First fit */
if (contig_free >= size)
break;
}
}
while ((block = block->next) != start); // detect cycles as failure
if (contig_free >= size) {
/* We have a block of free(able) memory on the heap which will suffice */
block = first_of_free;
/* If the previous block is adjacent and free, step back and include it */
if (block != zone && block->prev->tag == PU_FREE)
block = block->prev;
/* Free current block if needed */
if (block->tag != PU_FREE) Z_Free((char *) block + HEADER_SIZE);
/* Note: guaranteed that block->prev is either
* not free or not contiguous
*
* At every step, block->next must be not free, else it would
* have been merged with our block
* No range check needed because we know it works by the previous loop */
while (block->size < size)
Z_Free((char *)(block->next) + HEADER_SIZE);
/* Now, carve up the block */
{
size_t extra = block->size - size;
if (extra >= MIN_BLOCK_SPLIT + HEADER_SIZE) {
memblock_t *newb = (memblock_t *)((char *) block +
HEADER_SIZE + size);
(newb->next = block->next)->prev = newb;
(newb->prev = block)->next = newb; // Split up block
block->size = size;
newb->size = extra - HEADER_SIZE;
newb->tag = PU_FREE;
newb->vm = 0;
#ifdef INSTRUMENTED
inactive_memory += HEADER_SIZE;
free_memory -= HEADER_SIZE;
#endif
}
rover = block->next; // set roving pointer for next search
#ifdef INSTRUMENTED
inactive_memory += block->extra = block->size - size_orig;
if (tag >= PU_PURGELEVEL)
purgable_memory += size_orig;
else
active_memory += size_orig;
free_memory -= block->size;
#endif
}
} else { // We don't have enough contiguous free blocks
I_Error ("Z_Malloc: Failure trying to allocate %d bytes",(unsigned long) size);
rb->sleep(300);
}
#ifdef INSTRUMENTED
block->file = file;
block->line = line;
#endif
#ifdef ZONEIDCHECK
block->id = ZONEID; // signature required in block header
#endif
block->tag = tag; // tag
block->user = user; // user
block = (memblock_t *)((char *) block + HEADER_SIZE);
if (user) // if there is a user
*user = block; // set user to point to new block
#ifdef INSTRUMENTED
Z_PrintStats(); // print memory allocation stats
// scramble memory -- weed out any bugs
memset(block, gametic & 0xff, size);
#endif
return block;
}
void (Z_Free)(void *p
#ifdef INSTRUMENTED
, const char *file, int line
#endif
)
{
#ifdef INSTRUMENTED
#ifdef CHECKHEAP
Z_CheckHeap();
#endif
file_history[free_history][history_index[free_history]] = file;
line_history[free_history][history_index[free_history]++] = line;
history_index[free_history] &= ZONE_HISTORY-1;
#endif
if (p)
{
memblock_t *other, *block = (memblock_t *)((char *) p - HEADER_SIZE);
#ifdef ZONEIDCHECK
if (block->id != ZONEID)
I_Error("Z_Free: freed a pointer without ZONEID"
#ifdef INSTRUMENTED
"\nSource: %s:%d"
"\nSource of malloc: %s:%d"
, file, line, block->file, block->line
#endif
);
block->id = 0; // Nullify id so another free fails
#endif
#ifdef INSTRUMENTED
/* scramble memory -- weed out any bugs */
memset(p, gametic & 0xff, block->size);
#endif
if (block->user) // Nullify user if one exists
*block->user = NULL;
{
#ifdef INSTRUMENTED
free_memory += block->size;
inactive_memory -= block->extra;
if (block->tag >= PU_PURGELEVEL)
purgable_memory -= block->size - block->extra;
else
active_memory -= block->size - block->extra;
#endif
block->tag = PU_FREE; // Mark block freed
if (block != zone)
{
other = block->prev; // Possibly merge with previous block
if (other->tag == PU_FREE)
{
if (rover == block) // Move back rover if it points at block
rover = other;
(other->next = block->next)->prev = other;
other->size += block->size + HEADER_SIZE;
block = other;
#ifdef INSTRUMENTED
inactive_memory -= HEADER_SIZE;
free_memory += HEADER_SIZE;
#endif
}
}
other = block->next; // Possibly merge with next block
if (other->tag == PU_FREE && other != zone)
{
if (rover == other) // Move back rover if it points at next block
rover = block;
(block->next = other->next)->prev = block;
block->size += other->size + HEADER_SIZE;
#ifdef INSTRUMENTED
inactive_memory -= HEADER_SIZE;
free_memory += HEADER_SIZE;
#endif
}
}
#ifdef INSTRUMENTED
Z_PrintStats(); // print memory allocation stats
#endif
}
}
void (Z_FreeTags)(int lowtag, int hightag
#ifdef INSTRUMENTED
, const char *file, int line
#endif
)
{
/* cph - move rover to start of zone; we like to encourage static
* data to stay in one place, at the start of the heap
*/
memblock_t *block = rover = zone;
#ifdef HEAPDUMP
Z_DumpMemory();
#endif
if (lowtag <= PU_FREE)
lowtag = PU_FREE+1;
do // Scan through list, searching for tags in range
if (block->tag >= lowtag && block->tag <= hightag)
{
memblock_t *prev = block->prev, *cur = block;
#ifdef INSTRUMENTED
(Z_Free)((char *) block + HEADER_SIZE, file, line);
#else
(Z_Free)((char *) block + HEADER_SIZE);
#endif
/* cph - be more careful here, we were skipping blocks!
* If the current block was not merged with the previous,
* cur is still a valid pointer, prev->next == cur, and cur is
* already free so skip to the next.
* If the current block was merged with the previous,
* the next block to analyse is prev->next.
* Note that the while() below does the actual step forward
*/
block = (prev->next == cur) ? cur : prev;
}
while ((block=block->next) != zone);
}
void (Z_ChangeTag)(void *ptr, int tag
#ifdef INSTRUMENTED
, const char *file, int line
#endif
)
{
memblock_t *block = (memblock_t *)((char *) ptr - HEADER_SIZE);
#ifdef INSTRUMENTED
#ifdef CHECKHEAP
Z_CheckHeap();
#endif
#endif
#ifdef ZONEIDCHECK
if (block->id != ZONEID)
I_Error ("Z_ChangeTag: freed a pointer without ZONEID"
#ifdef INSTRUMENTED
"\nSource: %s:%d"
"\nSource of malloc: %s:%d"
, file, line, block->file, block->line
#endif
);
if (tag >= PU_PURGELEVEL && !block->user)
I_Error ("Z_ChangeTag: an owner is required for purgable blocks\n"
#ifdef INSTRUMENTED
"Source: %s:%d"
"\nSource of malloc: %s:%d"
, file, line, block->file, block->line
#endif
);
#endif // ZONEIDCHECK
{
#ifdef INSTRUMENTED
if (block->tag < PU_PURGELEVEL && tag >= PU_PURGELEVEL)
{
active_memory -= block->size - block->extra;
purgable_memory += block->size - block->extra;
}
else
if (block->tag >= PU_PURGELEVEL && tag < PU_PURGELEVEL)
{
active_memory += block->size - block->extra;
purgable_memory -= block->size - block->extra;
}
#endif
}
block->tag = tag;
}
void *(Z_Realloc)(void *ptr, size_t n, int tag, void **user
#ifdef INSTRUMENTED
, const char *file, int line
#endif
)
{
void *p = (Z_Malloc)(n, tag, user DA(file, line));
if (ptr)
{
memblock_t *block = (memblock_t *)((char *) ptr - HEADER_SIZE);
memcpy(p, ptr, n <= block->size ? n : block->size);
(Z_Free)(ptr DA(file, line));
if (user) // in case Z_Free nullified same user
*user=p;
}
return p;
}
void *(Z_Calloc)(size_t n1, size_t n2, int tag, void **user
#ifdef INSTRUMENTED
, const char *file, int line
#endif
)
{
return
(n1*=n2) ? memset((Z_Malloc)(n1, tag, user DA(file, line)), 0, n1) : NULL;
}
char *(Z_Strdup)(const char *s, int tag, void **user
#ifdef INSTRUMENTED
, const char *file, int line
#endif
)
{
return strcpy((Z_Malloc)(strlen(s)+1, tag, user DA(file, line)), s);
}
void (Z_CheckHeap)(
#ifdef INSTRUMENTED
const char *file, int line
#endif
)
{
memblock_t *block = zone; // Start at base of zone mem
do // Consistency check (last node treated special)
if ((block->next != zone &&
(memblock_t *)((char *) block+HEADER_SIZE+block->size) != block->next)
|| block->next->prev != block || block->prev->next != block)
I_Error("Z_ChkHp: B size %d touch %d\n", block+HEADER_SIZE+block->size, block->next
#ifdef INSTRUMENTED
"Source: %s:%d"
"\nSource of offending block: %s:%d"
, file, line, block->file, block->line
#endif
);
while ((block=block->next) != zone);
}