3 * mem.c is responsible for creating and maintaining the overall system memory
4 * map, as visible from the SH4 processor.
6 * Copyright (c) 2005 Nathan Keynes.
8 * This program is free software; you can redistribute it and/or modify
9 * it under the terms of the GNU General Public License as published by
10 * the Free Software Foundation; either version 2 of the License, or
11 * (at your option) any later version.
13 * This program is distributed in the hope that it will be useful,
14 * but WITHOUT ANY WARRANTY; without even the implied warranty of
15 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
16 * GNU General Public License for more details.
18 #define MODULE mem_module
20 #include <sys/types.h>
23 #include <glib/gstrfuncs.h>
36 #include "dreamcast.h"
39 #define PAGE_SIZE 4096
42 sh4ptr_t *page_map = NULL;
43 mem_region_fn_t *ext_address_space = NULL;
45 extern struct mem_region_fn mem_region_unmapped;
47 int mem_load(FILE *f);
48 void mem_save(FILE *f);
49 struct dreamcast_module mem_module =
50 { "MEM", mem_init, mem_reset, NULL, NULL, NULL, mem_save, mem_load };
52 struct mem_region mem_rgn[MAX_MEM_REGIONS];
53 struct mmio_region *io_rgn[MAX_IO_REGIONS];
54 struct mmio_region *P4_io[4096];
56 uint32_t num_io_rgns = 0, num_mem_rgns = 0;
58 DEFINE_HOOK( mem_page_remapped_hook, mem_page_remapped_hook_t );
59 static void mem_page_remapped( sh4addr_t addr, mem_region_fn_t fn )
61 CALL_HOOKS( mem_page_remapped_hook, addr, fn );
64 /********************* The "unmapped" address space ********************/
65 /* Always reads as 0, writes have no effect */
66 int32_t FASTCALL unmapped_read_long( sh4addr_t addr )
70 void FASTCALL unmapped_write_long( sh4addr_t addr, uint32_t val )
73 void FASTCALL unmapped_read_burst( unsigned char *dest, sh4addr_t addr )
75 memset( dest, 0, 32 );
77 void FASTCALL unmapped_write_burst( sh4addr_t addr, unsigned char *src )
81 void FASTCALL unmapped_prefetch( sh4addr_t addr )
86 struct mem_region_fn mem_region_unmapped = {
87 unmapped_read_long, unmapped_write_long,
88 unmapped_read_long, unmapped_write_long,
89 unmapped_read_long, unmapped_write_long,
90 unmapped_read_burst, unmapped_write_burst,
93 void *mem_alloc_pages( int n )
95 void *mem = mmap( NULL, n * 4096,
96 PROT_READ|PROT_WRITE, MAP_ANON|MAP_PRIVATE, -1, 0 );
97 if( mem == MAP_FAILED ) {
98 ERROR( "Memory allocation failure! (%s)", strerror(errno) );
104 void mem_unprotect( void *region, uint32_t size )
106 /* Force page alignment */
107 uintptr_t i = (uintptr_t)region;
108 uintptr_t mask = ~(PAGE_SIZE-1);
109 void *ptr = (void *)(i & mask);
110 size_t len = i & (PAGE_SIZE-1) + size;
111 len = (len + (PAGE_SIZE-1)) & mask;
113 int status = mprotect( ptr, len, PROT_READ|PROT_WRITE|PROT_EXEC );
114 assert( status == 0 );
117 void mem_init( void )
120 mem_region_fn_t *ptr;
121 page_map = mmap( NULL, sizeof(sh4ptr_t) * LXDREAM_PAGE_TABLE_ENTRIES,
122 PROT_READ|PROT_WRITE, MAP_ANON|MAP_PRIVATE, -1, 0 );
123 if( page_map == MAP_FAILED ) {
124 FATAL( "Unable to allocate page map! (%s)", strerror(errno) );
126 memset( page_map, 0, sizeof(sh4ptr_t) * LXDREAM_PAGE_TABLE_ENTRIES );
128 ext_address_space = mmap( NULL, sizeof(mem_region_fn_t) * LXDREAM_PAGE_TABLE_ENTRIES,
129 PROT_READ|PROT_WRITE, MAP_ANON|MAP_PRIVATE, -1, 0 );
130 if( ext_address_space == MAP_FAILED ) {
131 FATAL( "Unable to allocate external memory map (%s)", strerror(errno) );
134 for( ptr = ext_address_space, i = LXDREAM_PAGE_TABLE_ENTRIES; i > 0; ptr++, i-- ) {
135 *ptr = &mem_region_unmapped;
139 void mem_reset( void )
141 /* Restore all mmio registers to their initial settings */
143 for( i=1; i<num_io_rgns; i++ ) {
144 for( j=0; io_rgn[i]->ports[j].id != NULL; j++ ) {
145 if( io_rgn[i]->ports[j].def_val != UNDEFINED &&
146 io_rgn[i]->ports[j].def_val != *io_rgn[i]->ports[j].val ) {
147 io_rgn[i]->fn.write_long( io_rgn[i]->ports[j].offset,
148 io_rgn[i]->ports[j].def_val );
154 void mem_save( FILE *f )
156 int i, num_ram_regions = 0;
159 /* All RAM regions (ROM and non-memory regions don't need to be saved)
160 * Flash is questionable - for now we save it too */
161 for( i=0; i<num_mem_rgns; i++ ) {
162 if( mem_rgn[i].flags == MEM_FLAG_RAM ) {
166 fwrite( &num_ram_regions, sizeof(num_ram_regions), 1, f );
168 for( i=0; i<num_mem_rgns; i++ ) {
169 if( mem_rgn[i].flags == MEM_FLAG_RAM ) {
170 fwrite_string( mem_rgn[i].name, f );
171 fwrite( &mem_rgn[i].base, sizeof(uint32_t), 1, f );
172 fwrite( &mem_rgn[i].flags, sizeof(uint32_t), 1, f );
173 fwrite( &mem_rgn[i].size, sizeof(uint32_t), 1, f );
174 fwrite_gzip( mem_rgn[i].mem, mem_rgn[i].size, 1, f );
178 /* All MMIO regions */
179 fwrite( &num_io_rgns, sizeof(num_io_rgns), 1, f );
180 for( i=0; i<num_io_rgns; i++ ) {
181 fwrite_string( io_rgn[i]->id, f );
182 fwrite( &io_rgn[i]->base, sizeof( uint32_t ), 1, f );
184 fwrite( &len, sizeof(len), 1, f );
185 fwrite_gzip( io_rgn[i]->mem, len, 1, f );
189 int mem_load( FILE *f )
196 int mem_region_loaded[MAX_MEM_REGIONS];
198 /* All RAM regions */
199 memset( mem_region_loaded, 0, sizeof(mem_region_loaded) );
200 fread( &len, sizeof(len), 1, f );
201 for( i=0; i<len; i++ ) {
202 fread_string( tmp, sizeof(tmp), f );
204 for( j=0; j<num_mem_rgns; j++ ) {
205 if( strcasecmp( mem_rgn[j].name, tmp ) == 0 ) {
206 fread( &base, sizeof(base), 1, f );
207 fread( &flags, sizeof(flags), 1, f );
208 fread( &size, sizeof(size), 1, f );
209 if( base != mem_rgn[j].base ||
210 flags != mem_rgn[j].flags ||
211 size != mem_rgn[j].size ) {
212 ERROR( "Bad memory block %d %s (not mapped to expected region)", i, tmp );
215 if( flags != MEM_FLAG_RAM ) {
216 ERROR( "Unexpected memory block %d %s (Not a RAM region)", i, tmp );
219 fread_gzip( mem_rgn[j].mem, size, 1, f );
220 mem_region_loaded[j] = 1;
224 /* Make sure we got all the memory regions we expected */
225 for( i=0; i<num_mem_rgns; i++ ) {
226 if( mem_rgn[i].flags == MEM_FLAG_RAM &&
227 mem_region_loaded[i] == 0 ) {
228 ERROR( "Missing memory block %s (not found in save state)", mem_rgn[i].name );
233 /* All MMIO regions */
234 fread( &len, sizeof(len), 1, f );
235 if( len != num_io_rgns ) {
236 ERROR( "Unexpected IO region count %d (expected %d)", len, num_io_rgns );
240 for( i=0; i<len; i++ ) {
241 fread_string( tmp, sizeof(tmp), f );
242 fread( &base, sizeof(base), 1, f );
243 fread( &size, sizeof(size), 1, f );
244 if( strcmp( io_rgn[i]->id, tmp ) != 0 ||
245 base != io_rgn[i]->base ||
247 ERROR( "Bad MMIO region %d %s", i, tmp );
250 fread_gzip( io_rgn[i]->mem, size, 1, f );
255 int mem_save_block( const gchar *file, uint32_t start, uint32_t length )
258 int len = 4096, total = 0;
259 uint32_t addr = start;
260 FILE *f = fopen(file,"w");
265 while( total < length ) {
266 region = mem_get_region(addr);
267 len = 4096 - (addr & 0x0FFF);
268 if( len > (length-total) )
269 len = (length-total);
270 if( fwrite( region, len, 1, f ) != 1 ) {
271 ERROR( "Unexpected error writing blocks: %d (%s)", len, strerror(errno) );
279 INFO( "Saved %d of %d bytes to %08X", total, length, start );
283 int mem_load_block( const gchar *file, uint32_t start, uint32_t length )
286 int len = 4096, total = 0;
287 uint32_t addr = start;
289 FILE *f = fopen(file,"r");
292 WARN( "Unable to load file '%s': %s", file, strerror(errno) );
295 fstat( fileno(f), &st );
296 if( length == 0 || length == -1 || length > st.st_size )
299 while( total < length ) {
300 region = mem_get_region(addr);
301 len = 4096 - (addr & 0x0FFF);
302 if( len > (length-total) )
303 len = (length-total);
304 if( fread( region, len, 1, f ) != 1 ) {
305 ERROR( "Unexpected error reading: %d (%s)", len, strerror(errno) );
313 INFO( "Loaded %d of %d bytes to %08X", total, length, start );
317 struct mem_region *mem_map_region( void *mem, uint32_t base, uint32_t size,
318 const char *name, mem_region_fn_t fn, int flags,
319 uint32_t repeat_offset, uint32_t repeat_until )
322 mem_rgn[num_mem_rgns].base = base;
323 mem_rgn[num_mem_rgns].size = size;
324 mem_rgn[num_mem_rgns].flags = flags;
325 mem_rgn[num_mem_rgns].name = name;
326 mem_rgn[num_mem_rgns].mem = mem;
327 mem_rgn[num_mem_rgns].fn = fn;
328 fn->prefetch = unmapped_prefetch;
332 for( i=0; i<size>>LXDREAM_PAGE_BITS; i++ ) {
334 page_map[(base>>LXDREAM_PAGE_BITS)+i] = mem + (i<<LXDREAM_PAGE_BITS);
336 ext_address_space[(base>>LXDREAM_PAGE_BITS)+i] = fn;
337 mem_page_remapped( base + (i<<LXDREAM_PAGE_BITS), fn );
339 base += repeat_offset;
340 } while( base <= repeat_until );
342 return &mem_rgn[num_mem_rgns-1];
345 gboolean mem_load_rom( void *output, const gchar *file, uint32_t size, uint32_t crc )
347 if( file != NULL && file[0] != '\0' ) {
348 FILE *f = fopen(file,"r");
353 ERROR( "Unable to load file '%s': %s", file, strerror(errno) );
357 fstat( fileno(f), &st );
358 if( st.st_size != size ) {
359 ERROR( "File '%s' is invalid, expected %d bytes but was %d bytes long.", file, size, st.st_size );
364 if( fread( output, 1, size, f ) != size ) {
365 ERROR( "Failed to load file '%s': %s", file, strerror(errno) );
370 /* CRC check only if we loaded something */
371 calc_crc = crc32(0L, output, size);
372 if( calc_crc != crc ) {
373 WARN( "Bios CRC Mismatch in %s: %08X (expected %08X)",
374 file, calc_crc, crc);
376 /* Even if the CRC fails, continue normally */
382 sh4ptr_t mem_get_region_by_name( const char *name )
385 for( i=0; i<num_mem_rgns; i++ ) {
386 if( strcmp( mem_rgn[i].name, name ) == 0 )
387 return mem_rgn[i].mem;
392 void register_io_region( struct mmio_region *io )
397 io->mem = mem_alloc_pages(2);
398 io->save_mem = io->mem + LXDREAM_PAGE_SIZE;
399 io->index = (struct mmio_port **)malloc(1024*sizeof(struct mmio_port *));
401 memset( io->index, 0, 1024*sizeof(struct mmio_port *) );
402 for( i=0; io->ports[i].id != NULL; i++ ) {
403 io->ports[i].val = (uint32_t *)(io->mem + io->ports[i].offset);
404 *io->ports[i].val = io->ports[i].def_val;
405 io->index[io->ports[i].offset>>2] = &io->ports[i];
407 memcpy( io->save_mem, io->mem, LXDREAM_PAGE_SIZE );
408 if( (io->base & 0xFF000000) == 0xFF000000 ) {
409 /* P4 area (on-chip I/O channels */
410 P4_io[(io->base&0x1FFFFFFF)>>19] = io;
412 page_map[io->base>>12] = (sh4ptr_t)(uintptr_t)num_io_rgns;
413 ext_address_space[io->base>>12] = &io->fn;
414 mem_page_remapped( io->base, &io->fn );
416 io_rgn[num_io_rgns] = io;
420 void register_io_regions( struct mmio_region **io )
422 while( *io ) register_io_region( *io++ );
425 gboolean mem_has_page( uint32_t addr )
427 return ext_address_space[ (addr&0x1FFFFFFF)>>12 ] != &mem_region_unmapped;
430 sh4ptr_t mem_get_region( uint32_t addr )
432 sh4ptr_t page = page_map[ (addr & 0x1FFFFFFF) >> 12 ];
433 if( ((uintptr_t)page) < MAX_IO_REGIONS ) { /* IO Region */
436 return page+(addr&0xFFF);
440 void mem_write_long( sh4addr_t addr, uint32_t value )
442 ext_address_space[(addr&0x1FFFFFFF)>>12]->write_long(addr, value);
445 struct mmio_region *mem_get_io_region_by_name( const gchar *name )
448 for( i=0; i<num_io_rgns; i++ ) {
449 if( strcasecmp(io_rgn[i]->id, name) == 0 ) {
456 void mem_set_trace( const gchar *tracelist, gboolean flag )
458 if( tracelist != NULL ) {
459 gchar ** tracev = g_strsplit_set( tracelist, ",:; \t\r\n", 0 );
461 for( i=0; tracev[i] != NULL; i++ ) {
462 // Special case "all" - trace everything
463 if( strcasecmp(tracev[i], "all") == 0 ) {
465 for( j=0; j<num_io_rgns; j++ ) {
466 io_rgn[j]->trace_flag = flag ? 1 : 0;
470 struct mmio_region *region = mem_get_io_region_by_name( tracev[i] );
471 if( region == NULL ) {
472 WARN( "Unknown IO region '%s'", tracev[i] );
474 region->trace_flag = flag ? 1 : 0;
477 g_strfreev( tracev );
.