lxdream.org :: lxdream/src/sh4/xltcache.c r383:f597b73474cb (annotated)

tree revision 383:f597b73474cb

filename	src/sh4/xltcache.c
changeset	383:f597b73474cb
prev	376:8c7587af5a5d
next	400:049d72a7a229
author	nkeynes
date	Sun Sep 16 06:59:47 2007 +0000 (16 years ago)
permissions	-rw-r--r--
last change	Fix return value for "translated but not entry point" addresses

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nkeynes@359	1	/**
nkeynes@383	2	* $Id: xltcache.c,v 1.4 2007-09-16 06:59:47 nkeynes Exp $
nkeynes@359	3	*
nkeynes@359	4	* Translation cache management. This part is architecture independent.
nkeynes@359	5	*
nkeynes@359	6	* Copyright (c) 2005 Nathan Keynes.
nkeynes@359	7	*
nkeynes@359	8	* This program is free software; you can redistribute it and/or modify
nkeynes@359	9	* it under the terms of the GNU General Public License as published by
nkeynes@359	10	* the Free Software Foundation; either version 2 of the License, or
nkeynes@359	11	* (at your option) any later version.
nkeynes@359	12	*
nkeynes@359	13	* This program is distributed in the hope that it will be useful,
nkeynes@359	14	* but WITHOUT ANY WARRANTY; without even the implied warranty of
nkeynes@359	15	* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
nkeynes@359	16	* GNU General Public License for more details.
nkeynes@359	17	*/
nkeynes@359	18
nkeynes@359	19	#include "sh4/xltcache.h"
nkeynes@359	20	#include "dreamcast.h"
nkeynes@359	21	#include <sys/mman.h>
nkeynes@359	22	#include <assert.h>
nkeynes@359	23
nkeynes@359	24	#define XLAT_LUT_PAGE_BITS 12
nkeynes@359	25	#define XLAT_LUT_TOTAL_BITS 28
nkeynes@359	26	#define XLAT_LUT_PAGE(addr) (((addr)>>13) & 0xFFFF)
nkeynes@359	27	#define XLAT_LUT_ENTRY(addr) (((addr)&0x1FFE) >> 1)
nkeynes@359	28
nkeynes@359	29	#define XLAT_LUT_PAGES (1<<(XLAT_LUT_TOTAL_BITS-XLAT_LUT_PAGE_BITS))
nkeynes@359	30	#define XLAT_LUT_PAGE_ENTRIES (1<<XLAT_LUT_PAGE_BITS)
nkeynes@359	31	#define XLAT_LUT_PAGE_SIZE (XLAT_LUT_PAGE_ENTRIES * sizeof(void *))
nkeynes@359	32
nkeynes@359	33	#define XLAT_LUT_ENTRY_EMPTY (void *)0
nkeynes@359	34	#define XLAT_LUT_ENTRY_USED (void *)1
nkeynes@359	35
nkeynes@359	36	#define NEXT(block) ( (xlat_cache_block_t)&((block)->code[(block)->size]))
nkeynes@359	37	#define BLOCK_FOR_CODE(code) (((xlat_cache_block_t)code)-1)
nkeynes@359	38	#define IS_ENTRY_POINT(ent) (ent > XLAT_LUT_ENTRY_USED)
nkeynes@359	39	#define IS_ENTRY_USED(ent) (ent != XLAT_LUT_ENTRY_EMPTY)
nkeynes@359	40
nkeynes@359	41	#define MIN_BLOCK_SIZE 32
nkeynes@359	42	#define MIN_TOTAL_SIZE (sizeof(struct xlat_cache_block)+MIN_BLOCK_SIZE)
nkeynes@359	43
nkeynes@359	44	#define BLOCK_INACTIVE 0
nkeynes@359	45	#define BLOCK_ACTIVE 1
nkeynes@359	46	#define BLOCK_USED 2
nkeynes@359	47
nkeynes@359	48	xlat_cache_block_t xlat_new_cache;
nkeynes@359	49	xlat_cache_block_t xlat_new_cache_ptr;
nkeynes@359	50	xlat_cache_block_t xlat_new_create_ptr;
nkeynes@359	51	xlat_cache_block_t xlat_temp_cache;
nkeynes@359	52	xlat_cache_block_t xlat_temp_cache_ptr;
nkeynes@359	53	xlat_cache_block_t xlat_old_cache;
nkeynes@359	54	xlat_cache_block_t xlat_old_cache_ptr;
nkeynes@359	55	static void ***xlat_lut;
nkeynes@359	56	static void *xlat_lut2; / second-tier page info */
nkeynes@376	57	static gboolean xlat_initialized = FALSE;
nkeynes@359	58
nkeynes@359	59	void xlat_cache_init()
nkeynes@359	60	{
nkeynes@376	61	if( !xlat_initialized ) {
nkeynes@376	62	xlat_initialized = TRUE;
nkeynes@376	63	xlat_new_cache = mmap( NULL, XLAT_NEW_CACHE_SIZE, PROT_EXEC\|PROT_READ\|PROT_WRITE,
nkeynes@376	64	MAP_PRIVATE\|MAP_ANONYMOUS, -1, 0 );
nkeynes@376	65	xlat_temp_cache = mmap( NULL, XLAT_TEMP_CACHE_SIZE, PROT_EXEC\|PROT_READ\|PROT_WRITE,
nkeynes@376	66	MAP_PRIVATE\|MAP_ANONYMOUS, -1, 0 );
nkeynes@376	67	xlat_old_cache = mmap( NULL, XLAT_OLD_CACHE_SIZE, PROT_EXEC\|PROT_READ\|PROT_WRITE,
nkeynes@376	68	MAP_PRIVATE\|MAP_ANONYMOUS, -1, 0 );
nkeynes@376	69	xlat_new_cache_ptr = xlat_new_cache;
nkeynes@376	70	xlat_temp_cache_ptr = xlat_temp_cache;
nkeynes@376	71	xlat_old_cache_ptr = xlat_old_cache;
nkeynes@376	72	xlat_new_create_ptr = xlat_new_cache;
nkeynes@376	73
nkeynes@376	74	xlat_lut = mmap( NULL, XLAT_LUT_PAGESsizeof(void ), PROT_READ\|PROT_WRITE,
nkeynes@376	75	MAP_PRIVATE\|MAP_ANONYMOUS, -1, 0);
nkeynes@376	76	memset( xlat_lut, 0, XLAT_LUT_PAGESsizeof(void ) );
nkeynes@376	77	}
nkeynes@359	78	xlat_flush_cache();
nkeynes@359	79	}
nkeynes@359	80
nkeynes@359	81	/**
nkeynes@359	82	* Reset the cache structure to its default state
nkeynes@359	83	*/
nkeynes@359	84	void xlat_flush_cache()
nkeynes@359	85	{
nkeynes@359	86	xlat_cache_block_t tmp;
nkeynes@359	87	int i;
nkeynes@359	88	xlat_new_cache_ptr = xlat_new_cache;
nkeynes@359	89	xlat_new_cache_ptr->active = 0;
nkeynes@359	90	xlat_new_cache_ptr->size = XLAT_NEW_CACHE_SIZE - 2*sizeof(struct xlat_cache_block);
nkeynes@359	91	tmp = NEXT(xlat_new_cache_ptr);
nkeynes@359	92	tmp->active = 1;
nkeynes@359	93	tmp->size = 0;
nkeynes@359	94	xlat_temp_cache_ptr = xlat_temp_cache;
nkeynes@359	95	xlat_temp_cache_ptr->active = 0;
nkeynes@359	96	xlat_temp_cache_ptr->size = XLAT_TEMP_CACHE_SIZE - 2*sizeof(struct xlat_cache_block);
nkeynes@359	97	tmp = NEXT(xlat_temp_cache_ptr);
nkeynes@359	98	tmp->active = 1;
nkeynes@359	99	tmp->size = 0;
nkeynes@359	100	xlat_old_cache_ptr = xlat_old_cache;
nkeynes@359	101	xlat_old_cache_ptr->active = 0;
nkeynes@359	102	xlat_old_cache_ptr->size = XLAT_OLD_CACHE_SIZE - 2*sizeof(struct xlat_cache_block);
nkeynes@359	103	tmp = NEXT(xlat_old_cache_ptr);
nkeynes@359	104	tmp->active = 1;
nkeynes@359	105	tmp->size = 0;
nkeynes@359	106	for( i=0; i<XLAT_LUT_PAGES; i++ ) {
nkeynes@359	107	if( xlat_lut[i] != NULL ) {
nkeynes@359	108	memset( xlat_lut[i], 0, XLAT_LUT_PAGE_SIZE );
nkeynes@359	109	}
nkeynes@359	110	}
nkeynes@359	111	}
nkeynes@359	112
nkeynes@359	113	void xlat_flush_page( sh4addr_t address )
nkeynes@359	114	{
nkeynes@359	115	int i;
nkeynes@359	116	void **page = xlat_lut[XLAT_LUT_PAGE(address)];
nkeynes@359	117	for( i=0; i<XLAT_LUT_PAGE_ENTRIES; i++ ) {
nkeynes@359	118	if( IS_ENTRY_POINT(page[i]) ) {
nkeynes@359	119	BLOCK_FOR_CODE(page[i])->active = 0;
nkeynes@359	120	}
nkeynes@359	121	page[i] = NULL;
nkeynes@359	122	}
nkeynes@359	123	}
nkeynes@359	124
nkeynes@359	125	void *xlat_get_code( sh4addr_t address )
nkeynes@359	126	{
nkeynes@359	127	void **page = xlat_lut[XLAT_LUT_PAGE(address)];
nkeynes@359	128	if( page == NULL ) {
nkeynes@359	129	return NULL;
nkeynes@359	130	}
nkeynes@383	131	void *result = page[XLAT_LUT_ENTRY(address)];
nkeynes@383	132	if( result == ((void *)(1)) ) {
nkeynes@383	133	return NULL;
nkeynes@383	134	} else {
nkeynes@383	135	return result;
nkeynes@383	136	}
nkeynes@359	137	}
nkeynes@359	138
nkeynes@366	139	uint32_t xlat_get_block_size( void *block )
nkeynes@366	140	{
nkeynes@366	141	xlat_cache_block_t xlt = (xlat_cache_block_t)(((char *)block)-sizeof(struct xlat_cache_block));
nkeynes@366	142	return xlt->size;
nkeynes@366	143	}
nkeynes@366	144
nkeynes@359	145	/**
nkeynes@359	146	* Cut the specified block so that it has the given size, with the remaining data
nkeynes@359	147	* forming a new free block. If the free block would be less than the minimum size,
nkeynes@359	148	* the cut is not performed.
nkeynes@359	149	* @return the next block after the (possibly cut) block.
nkeynes@359	150	*/
nkeynes@359	151	static inline xlat_cache_block_t xlat_cut_block( xlat_cache_block_t block, int cutsize )
nkeynes@359	152	{
nkeynes@359	153	if( block->size > cutsize + MIN_TOTAL_SIZE ) {
nkeynes@359	154	int oldsize = block->size;
nkeynes@359	155	block->size = cutsize;
nkeynes@359	156	xlat_cache_block_t next = NEXT(block);
nkeynes@359	157	next->active = 0;
nkeynes@359	158	next->size = oldsize - cutsize - sizeof(struct xlat_cache_block);
nkeynes@359	159	return next;
nkeynes@359	160	} else {
nkeynes@359	161	return NEXT(block);
nkeynes@359	162	}
nkeynes@359	163	}
nkeynes@359	164
nkeynes@359	165	/**
nkeynes@359	166	* Promote a block in temp space (or elsewhere for that matter) to old space.
nkeynes@359	167	*
nkeynes@359	168	* @param block to promote.
nkeynes@359	169	*/
nkeynes@359	170	static void xlat_promote_to_old_space( xlat_cache_block_t block )
nkeynes@359	171	{
nkeynes@359	172	int allocation = -sizeof(struct xlat_cache_block);
nkeynes@359	173	int size = block->size;
nkeynes@359	174	xlat_cache_block_t curr = xlat_old_cache_ptr;
nkeynes@359	175	xlat_cache_block_t start_block = curr;
nkeynes@359	176	do {
nkeynes@359	177	allocation += curr->size + sizeof(struct xlat_cache_block);
nkeynes@359	178	curr = NEXT(curr);
nkeynes@359	179	if( allocation > size ) {
nkeynes@359	180	break; /* done */
nkeynes@359	181	}
nkeynes@359	182	if( curr->size == 0 ) { /* End-of-cache Sentinel */
nkeynes@359	183	/* Leave what we just released as free space and start again from the
nkeynes@359	184	* top of the cache
nkeynes@359	185	*/
nkeynes@359	186	start_block->active = 0;
nkeynes@359	187	start_block->size = allocation;
nkeynes@359	188	allocation = -sizeof(struct xlat_cache_block);
nkeynes@359	189	start_block = curr = xlat_old_cache;
nkeynes@359	190	}
nkeynes@359	191	} while(1);
nkeynes@359	192	start_block->active = 1;
nkeynes@359	193	start_block->size = allocation;
nkeynes@359	194	start_block->lut_entry = block->lut_entry;
nkeynes@359	195	*block->lut_entry = &start_block->code;
nkeynes@359	196	memcpy( start_block->code, block->code, block->size );
nkeynes@359	197	xlat_old_cache_ptr = xlat_cut_block(start_block, size );
nkeynes@359	198	if( xlat_old_cache_ptr->size == 0 ) {
nkeynes@359	199	xlat_old_cache_ptr = xlat_old_cache;
nkeynes@359	200	}
nkeynes@359	201	}
nkeynes@359	202
nkeynes@359	203	/**
nkeynes@359	204	* Similarly to the above method, promotes a block to temp space.
nkeynes@359	205	* TODO: Try to combine these - they're nearly identical
nkeynes@359	206	*/
nkeynes@359	207	void xlat_promote_to_temp_space( xlat_cache_block_t block )
nkeynes@359	208	{
nkeynes@359	209	int size = block->size;
nkeynes@359	210	int allocation = -sizeof(struct xlat_cache_block);
nkeynes@359	211	xlat_cache_block_t curr = xlat_temp_cache_ptr;
nkeynes@359	212	xlat_cache_block_t start_block = curr;
nkeynes@359	213	do {
nkeynes@359	214	if( curr->active == BLOCK_USED ) {
nkeynes@359	215	xlat_promote_to_old_space( curr );
nkeynes@359	216	}
nkeynes@359	217	allocation += curr->size + sizeof(struct xlat_cache_block);
nkeynes@359	218	curr = NEXT(curr);
nkeynes@359	219	if( allocation > size ) {
nkeynes@359	220	break; /* done */
nkeynes@359	221	}
nkeynes@359	222	if( curr->size == 0 ) { /* End-of-cache Sentinel */
nkeynes@359	223	/* Leave what we just released as free space and start again from the
nkeynes@359	224	* top of the cache
nkeynes@359	225	*/
nkeynes@359	226	start_block->active = 0;
nkeynes@359	227	start_block->size = allocation;
nkeynes@359	228	allocation = -sizeof(struct xlat_cache_block);
nkeynes@359	229	start_block = curr = xlat_temp_cache;
nkeynes@359	230	}
nkeynes@359	231	} while(1);
nkeynes@359	232	start_block->active = 1;
nkeynes@359	233	start_block->size = allocation;
nkeynes@359	234	start_block->lut_entry = block->lut_entry;
nkeynes@359	235	*block->lut_entry = &start_block->code;
nkeynes@359	236	memcpy( start_block->code, block->code, block->size );
nkeynes@359	237	xlat_temp_cache_ptr = xlat_cut_block(start_block, size );
nkeynes@359	238	if( xlat_temp_cache_ptr->size == 0 ) {
nkeynes@359	239	xlat_temp_cache_ptr = xlat_temp_cache;
nkeynes@359	240	}
nkeynes@359	241
nkeynes@359	242	}
nkeynes@359	243
nkeynes@359	244	/**
nkeynes@359	245	* Returns the next block in the new cache list that can be written to by the
nkeynes@359	246	* translator. If the next block is active, it is evicted first.
nkeynes@359	247	*/
nkeynes@359	248	xlat_cache_block_t xlat_start_block( sh4addr_t address )
nkeynes@359	249	{
nkeynes@359	250	if( xlat_new_cache_ptr->size == 0 ) {
nkeynes@359	251	xlat_new_cache_ptr = xlat_new_cache;
nkeynes@359	252	}
nkeynes@359	253
nkeynes@359	254	if( xlat_new_cache_ptr->active ) {
nkeynes@359	255	xlat_promote_to_temp_space( xlat_new_cache_ptr );
nkeynes@359	256	}
nkeynes@359	257	xlat_new_create_ptr = xlat_new_cache_ptr;
nkeynes@359	258	xlat_new_create_ptr->active = 1;
nkeynes@359	259	xlat_new_cache_ptr = NEXT(xlat_new_cache_ptr);
nkeynes@359	260
nkeynes@359	261	/* Add the LUT entry for the block */
nkeynes@359	262	if( xlat_lut[XLAT_LUT_PAGE(address)] == NULL ) {
nkeynes@359	263	xlat_lut[XLAT_LUT_PAGE(address)] =
nkeynes@359	264	mmap( NULL, XLAT_LUT_PAGE_SIZE, PROT_READ\|PROT_WRITE,
nkeynes@359	265	MAP_PRIVATE\|MAP_ANONYMOUS, -1, 0 );
nkeynes@359	266	memset( xlat_lut[XLAT_LUT_PAGE(address)], 0, XLAT_LUT_PAGE_SIZE );
nkeynes@359	267	}
nkeynes@359	268
nkeynes@359	269	if( IS_ENTRY_POINT(xlat_lut[XLAT_LUT_PAGE(address)][XLAT_LUT_ENTRY(address)]) ) {
nkeynes@359	270	xlat_cache_block_t oldblock = BLOCK_FOR_CODE(xlat_lut[XLAT_LUT_PAGE(address)][XLAT_LUT_ENTRY(address)]);
nkeynes@359	271	oldblock->active = 0;
nkeynes@359	272	}
nkeynes@359	273
nkeynes@359	274	xlat_lut[XLAT_LUT_PAGE(address)][XLAT_LUT_ENTRY(address)] =
nkeynes@359	275	&xlat_new_create_ptr->code;
nkeynes@359	276	xlat_new_create_ptr->lut_entry = xlat_lut[XLAT_LUT_PAGE(address)] + XLAT_LUT_ENTRY(address);
nkeynes@359	277
nkeynes@359	278	return xlat_new_create_ptr;
nkeynes@359	279	}
nkeynes@359	280
nkeynes@359	281	xlat_cache_block_t xlat_extend_block()
nkeynes@359	282	{
nkeynes@359	283	if( xlat_new_cache_ptr->size == 0 ) {
nkeynes@359	284	/* Migrate to the front of the cache to keep it contiguous */
nkeynes@359	285	xlat_new_create_ptr->active = 0;
nkeynes@359	286	char *olddata = xlat_new_create_ptr->code;
nkeynes@359	287	int oldsize = xlat_new_create_ptr->size;
nkeynes@359	288	int size = oldsize + MIN_BLOCK_SIZE; /* minimum expansion */
nkeynes@359	289	void **lut_entry = xlat_new_create_ptr->lut_entry;
nkeynes@359	290	int allocation = -sizeof(struct xlat_cache_block);
nkeynes@359	291	xlat_new_cache_ptr = xlat_new_cache;
nkeynes@359	292	do {
nkeynes@359	293	if( xlat_new_cache_ptr->active ) {
nkeynes@359	294	xlat_promote_to_temp_space( xlat_new_cache_ptr );
nkeynes@359	295	}
nkeynes@359	296	allocation += xlat_new_cache_ptr->size + sizeof(struct xlat_cache_block);
nkeynes@359	297	xlat_new_cache_ptr = NEXT(xlat_new_cache_ptr);
nkeynes@359	298	} while( allocation < size );
nkeynes@359	299	xlat_new_create_ptr = xlat_new_cache;
nkeynes@359	300	xlat_new_create_ptr->active = 1;
nkeynes@359	301	xlat_new_create_ptr->size = allocation;
nkeynes@359	302	xlat_new_create_ptr->lut_entry = lut_entry;
nkeynes@359	303	*lut_entry = &xlat_new_create_ptr->code;
nkeynes@359	304	memmove( xlat_new_create_ptr->code, olddata, oldsize );
nkeynes@359	305	} else {
nkeynes@359	306	if( xlat_new_cache_ptr->active ) {
nkeynes@359	307	xlat_promote_to_temp_space( xlat_new_cache_ptr );
nkeynes@359	308	}
nkeynes@359	309	xlat_new_create_ptr->size += xlat_new_cache_ptr->size + sizeof(struct xlat_cache_block);
nkeynes@359	310	xlat_new_cache_ptr = NEXT(xlat_new_cache_ptr);
nkeynes@359	311	}
nkeynes@359	312	return xlat_new_create_ptr;
nkeynes@359	313
nkeynes@359	314	}
nkeynes@359	315
nkeynes@359	316	void xlat_commit_block( uint32_t destsize, uint32_t srcsize )
nkeynes@359	317	{
nkeynes@359	318	void **ptr = xlat_new_create_ptr->lut_entry;
nkeynes@359	319	void **endptr = ptr + (srcsize>>2);
nkeynes@359	320	while( ptr < endptr ) {
nkeynes@359	321	if( *ptr == NULL ) {
nkeynes@359	322	*ptr = XLAT_LUT_ENTRY_USED;
nkeynes@359	323	}
nkeynes@359	324	ptr++;
nkeynes@359	325	}
nkeynes@359	326
nkeynes@359	327	xlat_new_cache_ptr = xlat_cut_block( xlat_new_create_ptr, destsize );
nkeynes@359	328	}
nkeynes@359	329
nkeynes@359	330	void xlat_delete_block( xlat_cache_block_t block )
nkeynes@359	331	{
nkeynes@359	332	block->active = 0;
nkeynes@359	333	*block->lut_entry = NULL;
nkeynes@359	334	}
nkeynes@359	335
nkeynes@359	336	void xlat_check_cache_integrity( xlat_cache_block_t cache, xlat_cache_block_t ptr, int size )
nkeynes@359	337	{
nkeynes@359	338	int foundptr = 0;
nkeynes@359	339	xlat_cache_block_t tail =
nkeynes@359	340	(xlat_cache_block_t)(((char *)cache) + size - sizeof(struct xlat_cache_block));
nkeynes@359	341
nkeynes@359	342	assert( tail->active == 1 );
nkeynes@359	343	assert( tail->size == 0 );
nkeynes@359	344	while( cache < tail ) {
nkeynes@359	345	assert( cache->active >= 0 && cache->active <= 2 );
nkeynes@359	346	assert( cache->size >= 0 && cache->size < size );
nkeynes@359	347	if( cache == ptr ) {
nkeynes@359	348	foundptr = 1;
nkeynes@359	349	}
nkeynes@359	350	cache = NEXT(cache);
nkeynes@359	351	}
nkeynes@359	352	assert( cache == tail );
nkeynes@359	353	assert( foundptr == 1 );
nkeynes@359	354	}
nkeynes@359	355
nkeynes@359	356	void xlat_check_integrity( )
nkeynes@359	357	{
nkeynes@359	358	xlat_check_cache_integrity( xlat_new_cache, xlat_new_cache_ptr, XLAT_NEW_CACHE_SIZE );
nkeynes@359	359	xlat_check_cache_integrity( xlat_temp_cache, xlat_temp_cache_ptr, XLAT_TEMP_CACHE_SIZE );
nkeynes@359	360	xlat_check_cache_integrity( xlat_old_cache, xlat_old_cache_ptr, XLAT_OLD_CACHE_SIZE );
nkeynes@359	361	}
nkeynes@376	362
nkeynes@376	363
nkeynes@376	364	void xlat_disasm_block( FILE out, void block )
nkeynes@376	365	{
nkeynes@376	366	uint32_t buflen = xlat_get_block_size(block);
nkeynes@376	367	x86_set_symtab( NULL, 0 );
nkeynes@376	368	x86_disasm_block( out, block, buflen );
nkeynes@376	369	}