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cen64.c
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cen64.c
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//
// cen64.c: CEN64 entry point.
//
// CEN64: Cycle-Accurate Nintendo 64 Emulator.
// Copyright (C) 2015, Tyler J. Stachecki.
//
// This file is subject to the terms and conditions defined in
// 'LICENSE', which is part of this source code package.
//
#include "common.h"
#include "bus/controller.h"
#include "cen64.h"
#include "device/cart_db.h"
#include "device/device.h"
#include "device/options.h"
#include "device/sha1.h"
#include "device/sha1_sums.h"
#include "os/common/alloc.h"
#include "os/common/rom_file.h"
#include "os/common/save_file.h"
#include "os/cpuid.h"
#include "pi/is_viewer.h"
#include "thread.h"
#include <stdlib.h>
cen64_cold static int check_extensions(void);
cen64_cold static int load_roms(const char *ddipl_path, const char *ddrom_path,
const char *pifrom_path, const char *cart_path, struct rom_file *ddipl,
const struct dd_variant **dd_variant,
struct rom_file *ddrom, struct rom_file *pifrom, struct rom_file *cart);
cen64_cold static int load_paks(struct controller *controller);
cen64_cold static int validate_sha(struct rom_file *rom, const uint8_t *good_sum);
cen64_cold static int run_device(struct cen64_device *device, bool no_video);
cen64_cold static CEN64_THREAD_RETURN_TYPE run_device_thread(void *opaque);
// Called when another simulation instance is desired.
int cen64_main(int argc, const char **argv) {
struct controller controller[4] = { { 0, }, };
struct cen64_options options = default_cen64_options;
options.controller = controller;
struct rom_file ddipl, ddrom, pifrom, cart;
const struct dd_variant *dd_variant;
struct cen64_mem cen64_device_mem;
struct cen64_device *device;
int status;
const struct cart_db_entry *cart_info;
struct save_file eeprom;
struct save_file sram;
struct save_file flashram;
struct is_viewer is, *is_in = NULL;
if (!cart_db_is_well_formed()) {
printf("Internal cart detection database is not well-formed.\n");
return EXIT_FAILURE;
}
if (cen64_alloc_init()) {
printf("Failed to initialize the low-level allocators.\n");
return EXIT_FAILURE;
}
if (check_extensions()) {
return EXIT_FAILURE;
}
if (argc < 3) {
print_command_line_usage(argv[0]);
cen64_alloc_cleanup();
return EXIT_SUCCESS;
}
if (parse_options(&options, argc - 1, argv + 1)) {
printf("Invalid command line argument(s) specified.\n");
print_command_line_usage(argv[0]);
cen64_alloc_cleanup();
return EXIT_FAILURE;
}
memset(&ddipl, 0, sizeof(ddipl));
memset(&ddrom, 0, sizeof(ddrom));
memset(&cart, 0, sizeof(cart));
memset(&eeprom, 0, sizeof(eeprom));
memset(&sram, 0, sizeof(sram));
memset(&flashram, 0, sizeof(flashram));
memset(&is, 0, sizeof(is));
dd_variant = NULL;
if (load_roms(options.ddipl_path, options.ddrom_path, options.pifrom_path,
options.cart_path, &ddipl, &dd_variant, &ddrom, &pifrom, &cart)) {
cen64_alloc_cleanup();
return EXIT_FAILURE;
}
if (cart.size >= 0x40 && (cart_info = cart_db_get_entry(cart.ptr)) != NULL) {
printf("Detected cart: %s[%s] - %s\n", cart_info->rom_id, cart_info->regions, cart_info->description);
switch (cart_info->save_type) {
case CART_DB_SAVE_TYPE_EEPROM_4KBIT:
if (options.eeprom_path == NULL) {
printf("Warning: cart saves to 4kbit EEPROM, but none specified (see -eep4k)\n");
open_save_file(NULL, 0x200, &eeprom, NULL);
} else {
if (options.eeprom_size != 0x200)
printf("Warning: cart saves to 4kbit EEPROM, but different size specified (see -eep4k)\n");
}
break;
case CART_DB_SAVE_TYPE_EEPROM_16KBIT:
if (options.eeprom_path == NULL) {
printf("Warning: cart saves to 16kbit EEPROM, but none specified (see -eep16k)\n");
open_save_file(NULL, 0x800, &eeprom, NULL);
} else {
if (options.eeprom_size != 0x800)
printf("Warning: cart saves to 16kbit EEPROM, but different size specified (see -eep16k)\n");
}
break;
case CART_DB_SAVE_TYPE_FLASH_1MBIT:
if (options.flashram_path == NULL) {
int created;
printf("Warning: cart saves to Flash, but none specified (see -flash)\n");
open_save_file(NULL, FLASHRAM_SIZE, &flashram, &created);
if (created) {
memset(flashram.ptr, 0xFF, FLASHRAM_SIZE);
}
}
break;
case CART_DB_SAVE_TYPE_SRAM_256KBIT:
if (options.sram_path == NULL) {
printf("Warning: cart saves to SRAM, but none specified (see -sram)\n");
open_save_file(NULL, 0x8000, &sram, NULL);
}
break;
}
}
if (load_paks(controller)) {
cen64_alloc_cleanup();
return EXIT_FAILURE;
}
if (options.eeprom_path != NULL &&
open_save_file(options.eeprom_path, options.eeprom_size, &eeprom, NULL)) {
cen64_alloc_cleanup();
return EXIT_FAILURE;
}
if (options.sram_path != NULL &&
open_save_file(options.sram_path, 0x8000, &sram, NULL)) {
cen64_alloc_cleanup();
return EXIT_FAILURE;
}
if (options.flashram_path != NULL) {
int created;
if (open_save_file(options.flashram_path, FLASHRAM_SIZE, &flashram, &created)) {
cen64_alloc_cleanup();
return EXIT_FAILURE;
}
if (created)
memset(flashram.ptr, 0xFF, FLASHRAM_SIZE);
}
if (options.is_viewer_present) {
if (!is_viewer_init(&is)) {
cen64_alloc_cleanup();
return EXIT_FAILURE;
} else {
is_in = &is;
}
}
// Allocate memory for and create the device.
if (cen64_alloc(&cen64_device_mem, sizeof(*device), false) == NULL) {
printf("Failed to allocate enough memory for a device.\n");
status = EXIT_FAILURE;
}
else {
device = (struct cen64_device *) cen64_device_mem.ptr;
if (device_create(device, &ddipl, dd_variant, &ddrom,
&pifrom, &cart, &eeprom, &sram,
&flashram, is_in, controller,
options.no_audio, options.no_video, options.enable_profiling) == NULL) {
printf("Failed to create a device.\n");
status = EXIT_FAILURE;
}
else {
device->multithread = options.multithread;
status = run_device(device, options.no_video);
device_destroy(device, options.cart_path);
}
cen64_free(&cen64_device_mem);
}
// Release resources.
if (options.ddipl_path)
close_rom_file(&ddipl);
if (options.ddrom_path)
close_rom_file(&ddrom);
if (options.cart_path)
close_rom_file(&cart);
close_rom_file(&pifrom);
cen64_alloc_cleanup();
return status;
}
enum cpu_extensions {
EXT_NONE = 0, EXT_SSE2, EXT_SSE3, EXT_SSSE3, EXT_SSE41, EXT_AVX
};
static const char *_cpu_extensions_str(enum cpu_extensions ext) {
switch (ext) {
case EXT_NONE:
return "None";
case EXT_SSE2:
return "SSE2";
case EXT_SSE3:
return "SSE3";
case EXT_SSSE3:
return "SSSE3";
case EXT_SSE41:
return "SSE4.1";
case EXT_AVX:
return "AVX";
}
return "Unknown";
}
// check compiled CPU extensions vs what's supported by running CPU
// returns 0 if the CPU supports the compiled extensions, 1 if not
int check_extensions(void) {
struct cen64_cpuid_t cpuid;
enum cpu_extensions max_supported = EXT_NONE, compiled = EXT_NONE;
// get feature bits
cen64_cpuid(1, 0, &cpuid);
if (cpuid.edx & (1 << 26))
max_supported = EXT_SSE2;
if (cpuid.ecx & (1 << 0))
max_supported = EXT_SSE3;
if (cpuid.ecx & (1 << 9))
max_supported = EXT_SSSE3;
if (cpuid.ecx & (1 << 19))
max_supported = EXT_SSE41;
if (cpuid.ecx & (1 << 28))
max_supported = EXT_AVX;
#ifdef __SSE2__
compiled = EXT_SSE2;
#endif
#ifdef __SSE3__
compiled = EXT_SSE3;
#endif
#ifdef __SSSE3__
compiled = EXT_SSSE3;
#endif
#ifdef __SSE4_1__
compiled = EXT_SSE41;
#endif
#ifdef __AVX__
compiled = EXT_AVX;
#endif
if (compiled > max_supported) {
printf("Error: cen64 is compiled with extensions not supported by your CPU.\n");
printf("cen64 will not run until you recompile using older extensions.\n");
printf("\n");
printf("cen64 compiled with: %s\n", _cpu_extensions_str(compiled));
printf("Your CPU supports: %s\n", _cpu_extensions_str(max_supported));
return 1;
}
if (compiled < max_supported) {
printf("Warning: cen64 is not using the fastest extensions supported by your CPU.\n");
printf("cen64 will run, but you can get better performance by recompiling.\n");
printf("\n");
printf("cen64 compiled with: %s\n", _cpu_extensions_str(compiled));
printf("Your CPU supports: %s\n", _cpu_extensions_str(max_supported));
}
return 0;
}
// Load any ROM images required for simulation.
int load_roms(const char *ddipl_path, const char *ddrom_path,
const char *pifrom_path, const char *cart_path, struct rom_file *ddipl,
const struct dd_variant **dd_variant,
struct rom_file *ddrom, struct rom_file *pifrom, struct rom_file *cart) {
memset(ddipl, 0, sizeof(*ddipl));
if (ddipl_path && open_rom_file(ddipl_path, ddipl)) {
printf("Failed to load DD IPL ROM: %s.\n", ddipl_path);
return 1;
}
*dd_variant = NULL;
if (ddipl_path != NULL) {
*dd_variant = dd_identify_variant(ddipl);
if (*dd_variant != NULL)
printf("DD variant: %s\n", (*dd_variant)->description);
}
if (ddrom_path && open_rom_file(ddrom_path, ddrom)) {
printf("Failed to load DD ROM: %s.\n", ddrom_path);
if (ddipl_path)
close_rom_file(ddipl);
return 2;
}
if (open_rom_file(pifrom_path, pifrom)) {
printf("Failed to load PIF ROM: %s.\n", pifrom_path);
if (ddipl_path)
close_rom_file(ddipl);
if (ddrom_path)
close_rom_file(ddrom);
return 3;
}
if (validate_sha(pifrom, sha1_pifrom_ntsc))
printf("Using NTSC-U PIFROM\n");
else if (validate_sha(pifrom, sha1_pifrom_ntsc_j))
printf("Using NTSC-J PIFROM\n");
else if (validate_sha(pifrom, sha1_pifrom_pal))
printf("Using PAL PIFROM\n");
else {
printf("Unknown or corrupted PIFROM: %s.\n", pifrom_path);
#if 0
if (ddipl_path)
close_rom_file(ddipl);
if (ddrom_path)
close_rom_file(ddrom);
return 5;
#endif
}
if (cart_path && open_rom_file(cart_path, cart)) {
printf("Failed to load cart: %s.\n", cart_path);
if (ddipl_path)
close_rom_file(ddipl);
if (ddrom_path)
close_rom_file(ddrom);
close_rom_file(pifrom);
return 4;
}
return 0;
}
int load_paks(struct controller *controller) {
int i;
for (i = 0; i < 4; ++i) {
if (controller[i].pak == PAK_MEM && controller[i].mempak_path != NULL) {
int created = 0;
if (open_save_file(controller[i].mempak_path, MEMPAK_SIZE, &controller[i].mempak_save, &created) != 0) {
printf("Can't open mempak file %s\n", controller[i].mempak_path);
return -1;
}
if (created)
controller_pak_format(controller[i].mempak_save.ptr);
}
else if (controller[i].pak == PAK_TRANSFER) {
if (controller[i].tpak_rom_path != NULL) {
if (open_rom_file(controller[i].tpak_rom_path,
&controller[i].tpak_rom)) {
printf("Can't open transfer pak ROM\n");
return -1;
}
} else {
printf("No ROM supplied for transfer pak.\n");
printf("The game will run but probably won't do anything interest\n");
}
if (controller[i].tpak_save_path != NULL) {
if (open_gb_save(controller[i].tpak_save_path,
&controller[i].tpak_save)) {
printf("Can't open transfer pak save\n");
return -1;
}
} else {
printf("No save supplied for transfer pak. Just FYI.\n");
}
gb_init(&controller[i]);
}
}
return 0;
}
int validate_sha(struct rom_file *rom, const uint8_t *good_sum) {
uint8_t sha1_calc[20];
sha1(rom->ptr, rom->size, sha1_calc);
return memcmp(sha1_calc, good_sum, SHA1_SIZE) == 0;
}
// Spins the device until an exit request is received.
int run_device(struct cen64_device *device, bool no_video) {
cen64_thread thread;
device->running = true;
if (cen64_thread_create(&thread, run_device_thread, device)) {
printf("Failed to create the main emulation thread.\n");
device_destroy(device, NULL);
return 1;
}
cen64_thread_setname(thread, "device");
if (no_video)
pause();
else
cen64_gl_window_thread(device);
device->running = false;
cen64_thread_join(&thread);
return 0;
}
CEN64_THREAD_RETURN_TYPE run_device_thread(void *opaque) {
cen64_thread_setname(NULL, "device");
struct cen64_device *device = (struct cen64_device *) opaque;
device_run(device);
return CEN64_THREAD_RETURN_VAL;
}