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/* |
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* main_beos.cpp - Emulation core, BeOS implementation |
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* |
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* SheepShaver (C) 1997-2008 Christian Bauer and Marc Hellwig |
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* |
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* This program is free software; you can redistribute it and/or modify |
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* it under the terms of the GNU General Public License as published by |
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* the Free Software Foundation; either version 2 of the License, or |
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* (at your option) any later version. |
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* |
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* This program is distributed in the hope that it will be useful, |
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* but WITHOUT ANY WARRANTY; without even the implied warranty of |
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* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the |
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* GNU General Public License for more details. |
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* |
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* You should have received a copy of the GNU General Public License |
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* along with this program; if not, write to the Free Software |
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* Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA |
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*/ |
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|
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/* |
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* NOTES: |
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* |
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* SheepShaver uses three run-time environments, reflected by the value of XLM_RUN_MODE. |
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* The two modes which are also present in the original MacOS, are: |
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* MODE_68K - 68k emulator is active |
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* MODE_NATIVE - 68k emulator is inactive |
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* In the original MacOS, these two modes have different memory mappings and exception |
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* tables. Under SheepShaver, the only difference is the handling of interrupts (see below). |
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* SheepShaver extends the 68k emulator with special opcodes (EMUL_OP) to perform faster |
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* mode switches when patching 68k routines with PowerPC code and adds a third run mode: |
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* MODE_EMUL_OP - 68k emulator active, but native register usage |
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* |
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* Switches between MODE_68K and MODE_NATIVE are only done with the Mixed Mode Manager |
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* (via nanokernel patches). The switch from MODE_68K to MODE_EMUL_OP occurs when executin |
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* one of the EMUL_OP 68k opcodes. When the opcode routine is done, it returns to MODE_68K. |
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* |
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* The Execute68k() routine allows EMUL_OP routines to execute 68k subroutines. It switches |
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* from MODE_EMUL_OP back to MODE_68K, so it must not be used by native routines (executing |
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* in MODE_NATIVE) nor by any other thread than the emul_thread (because the 68k emulator |
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* is not reentrant). When the 68k subroutine returns, it switches back to MODE_EMUL_OP. |
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* It is OK for a 68k routine called with Execute68k() to contain an EMUL_OP opcode. |
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* |
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* The handling of interrupts depends on the current run mode: |
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* MODE_68K - The USR1 signal handler sets one bit in the processor's CR. The 68k emulator |
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* will then execute the 68k interrupt routine when fetching the next instruction. |
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* MODE_NATIVE - The USR1 signal handler switches back to the original stack (signals run |
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* on a separate signal stack) and enters the External Interrupt routine in the |
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* nanokernel. |
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* MODE_EMUL_OP - The USR1 signal handler directly executes the 68k interrupt routine |
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* with Execute68k(). Before doing this, it must first check the current 68k interrupt |
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* level which is stored in XLM_68K_R25. This variable is set to the current level |
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* when entering EMUL_OP mode. Execute68k() also uses it to restore the level so that |
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* Execute68k()'d routines will run at the same interrupt level as the EMUL_OP routine |
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* it was called from. |
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*/ |
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|
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#include <Path.h> |
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#include <unistd.h> |
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#include <signal.h> |
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#include <stdio.h> |
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#include <stdlib.h> |
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#include <string.h> |
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#include <time.h> |
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|
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#include "sysdeps.h" |
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#include "main.h" |
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#include "version.h" |
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#include "prefs.h" |
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#include "prefs_editor.h" |
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#include "cpu_emulation.h" |
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#include "emul_op.h" |
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#include "xlowmem.h" |
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#include "xpram.h" |
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#include "timer.h" |
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#include "adb.h" |
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#include "video.h" |
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#include "sys.h" |
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#include "macos_util.h" |
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#include "rom_patches.h" |
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#include "user_strings.h" |
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|
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#include "sheep_driver.h" |
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|
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#define DEBUG 0 |
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#include "debug.h" |
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|
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// Enable Execute68k() safety checks? |
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#define SAFE_EXEC_68K 0 |
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|
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// Save FP regs in Execute68k()? |
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#define SAVE_FP_EXEC_68K 0 |
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|
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// Interrupts in EMUL_OP mode? |
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#define INTERRUPTS_IN_EMUL_OP_MODE 1 |
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|
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// Interrupts in native mode? |
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#define INTERRUPTS_IN_NATIVE_MODE 1 |
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|
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|
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// Constants |
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const char APP_SIGNATURE[] = "application/x-vnd.cebix-SheepShaver"; |
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const char ROM_FILE_NAME[] = "ROM"; |
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const char ROM_FILE_NAME2[] = "Mac OS ROM"; |
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const char KERNEL_AREA_NAME[] = "Macintosh Kernel Data"; |
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const char KERNEL_AREA2_NAME[] = "Macintosh Kernel Data 2"; |
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const char RAM_AREA_NAME[] = "Macintosh RAM"; |
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const char ROM_AREA_NAME[] = "Macintosh ROM"; |
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const char DR_CACHE_AREA_NAME[] = "Macintosh DR Cache"; |
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const char DR_EMULATOR_AREA_NAME[] = "Macintosh DR Emulator"; |
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const char SHEEP_AREA_NAME[] = "SheepShaver Virtual Stack"; |
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|
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const uintptr ROM_BASE = 0x40800000; // Base address of ROM |
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|
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const uint32 SIG_STACK_SIZE = 8192; // Size of signal stack |
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|
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const uint32 MSG_START = 'strt'; // Emulator start message |
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|
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|
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// Application object |
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class SheepShaver : public BApplication { |
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public: |
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SheepShaver() : BApplication(APP_SIGNATURE) |
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{ |
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// Find application directory and cwd to it |
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app_info the_info; |
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GetAppInfo(&the_info); |
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BEntry the_file(&the_info.ref); |
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BEntry the_dir; |
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the_file.GetParent(&the_dir); |
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BPath the_path; |
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the_dir.GetPath(&the_path); |
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chdir(the_path.Path()); |
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|
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// Initialize other variables |
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sheep_fd = -1; |
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emulator_data = NULL; |
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kernel_area = kernel_area2 = rom_area = ram_area = dr_cache_area = dr_emulator_area = -1; |
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emul_thread = nvram_thread = tick_thread = -1; |
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ReadyForSignals = false; |
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AllowQuitting = true; |
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NVRAMThreadActive = true; |
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TickThreadActive = true; |
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memset(last_xpram, 0, XPRAM_SIZE); |
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} |
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virtual void ReadyToRun(void); |
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virtual void MessageReceived(BMessage *msg); |
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void StartEmulator(void); |
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virtual bool QuitRequested(void); |
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virtual void Quit(void); |
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|
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thread_id emul_thread; // Emulator thread |
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thread_id nvram_thread; // NVRAM watchdog thread |
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thread_id tick_thread; // 60Hz thread |
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|
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KernelData *kernel_data; // Pointer to Kernel Data |
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EmulatorData *emulator_data; |
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|
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bool ReadyForSignals; // Flag: emul_thread ready to receive signals |
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bool AllowQuitting; // Flag: Alt-Q quitting allowed |
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bool NVRAMThreadActive; // nvram_thread will exit when this is false |
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bool TickThreadActive; // tick_thread will exit when this is false |
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|
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uint8 last_xpram[XPRAM_SIZE]; // Buffer for monitoring XPRAM changes |
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|
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private: |
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static status_t emul_func(void *arg); |
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static status_t nvram_func(void *arg); |
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static status_t tick_func(void *arg); |
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static void sigusr1_invoc(int sig, void *arg, vregs *r); |
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void sigusr1_handler(vregs *r); |
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static void sigsegv_invoc(int sig, void *arg, vregs *r); |
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static void sigill_invoc(int sig, void *arg, vregs *r); |
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void jump_to_rom(uint32 entry); |
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|
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void init_rom(void); |
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void load_rom(void); |
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|
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int sheep_fd; // FD of sheep driver |
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|
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area_id kernel_area; // Kernel Data area ID |
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area_id kernel_area2; // Alternate Kernel Data area ID |
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area_id rom_area; // ROM area ID |
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area_id ram_area; // RAM area ID |
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area_id dr_cache_area; // DR Cache area ID |
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area_id dr_emulator_area; // DR Emulator area ID |
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|
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struct sigaction sigusr1_action; // Interrupt signal (of emulator thread) |
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struct sigaction sigsegv_action; // Data access exception signal (of emulator thread) |
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struct sigaction sigill_action; // Illegal instruction exception signal (of emulator thread) |
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|
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// Exceptions |
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class area_error {}; |
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class file_open_error {}; |
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class file_read_error {}; |
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class rom_size_error {}; |
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}; |
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|
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|
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// Global variables |
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SheepShaver *the_app; // Pointer to application object |
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#if !EMULATED_PPC |
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void *TOC; // TOC pointer |
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#endif |
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uint32 RAMBase; // Base address of Mac RAM |
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uint32 RAMSize; // Size of Mac RAM |
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uint32 ROMBase; // Base address of Mac ROM |
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uint32 KernelDataAddr; // Address of Kernel Data |
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uint32 BootGlobsAddr; // Address of BootGlobs structure at top of Mac RAM |
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uint32 DRCacheAddr; // Address of DR Cache |
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uint32 DREmulatorAddr; // Address of DR Emulator |
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uint32 PVR; // Theoretical PVR |
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int64 CPUClockSpeed; // Processor clock speed (Hz) |
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int64 BusClockSpeed; // Bus clock speed (Hz) |
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int64 TimebaseSpeed; // Timebase clock speed (Hz) |
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system_info SysInfo; // System information |
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uint8 *RAMBaseHost; // Base address of Mac RAM (host address space) |
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uint8 *ROMBaseHost; // Base address of Mac ROM (host address space) |
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|
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static void *sig_stack = NULL; // Stack for signal handlers |
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static void *extra_stack = NULL; // Stack for SIGSEGV inside interrupt handler |
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uint32 SheepMem::page_size; // Size of a native page |
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uintptr SheepMem::zero_page = 0; // Address of ro page filled in with zeros |
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uintptr SheepMem::base; // Address of SheepShaver data |
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uintptr SheepMem::proc; // Bottom address of SheepShave procedures |
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uintptr SheepMem::data; // Top of SheepShaver data (stack like storage) |
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static area_id SheepMemArea; // SheepShaver data area ID |
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|
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|
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// Prototypes |
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static void sigsegv_handler(vregs *r); |
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static void sigill_handler(vregs *r); |
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|
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|
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/* |
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* Create application object and start it |
237 |
*/ |
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|
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int main(int argc, char **argv) |
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{ |
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tzset(); |
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the_app = new SheepShaver(); |
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the_app->Run(); |
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delete the_app; |
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return 0; |
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} |
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|
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|
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/* |
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* Run application |
251 |
*/ |
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|
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#if !EMULATED_PPC |
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static asm void *get_toc(void) |
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{ |
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mr r3,r2 |
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blr |
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} |
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#endif |
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|
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void SheepShaver::ReadyToRun(void) |
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{ |
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// Print some info |
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printf(GetString(STR_ABOUT_TEXT1), VERSION_MAJOR, VERSION_MINOR); |
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printf(" %s\n", GetString(STR_ABOUT_TEXT2)); |
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|
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#if !EMULATED_PPC |
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// Get TOC pointer |
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TOC = get_toc(); |
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#endif |
271 |
|
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// Get system info |
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get_system_info(&SysInfo); |
274 |
switch (SysInfo.cpu_type) { |
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case B_CPU_PPC_601: |
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PVR = 0x00010000; |
277 |
break; |
278 |
case B_CPU_PPC_603: |
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PVR = 0x00030000; |
280 |
break; |
281 |
case B_CPU_PPC_603e: |
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PVR = 0x00060000; |
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break; |
284 |
case B_CPU_PPC_604: |
285 |
PVR = 0x00040000; |
286 |
break; |
287 |
case B_CPU_PPC_604e: |
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PVR = 0x00090000; |
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break; |
290 |
case B_CPU_PPC_750: |
291 |
PVR = 0x00080000; |
292 |
break; |
293 |
default: |
294 |
PVR = 0x00040000; |
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break; |
296 |
} |
297 |
CPUClockSpeed = SysInfo.cpu_clock_speed; |
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BusClockSpeed = SysInfo.bus_clock_speed; |
299 |
TimebaseSpeed = BusClockSpeed / 4; |
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|
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// Delete old areas |
302 |
area_id old_kernel_area = find_area(KERNEL_AREA_NAME); |
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if (old_kernel_area > 0) |
304 |
delete_area(old_kernel_area); |
305 |
area_id old_kernel2_area = find_area(KERNEL_AREA2_NAME); |
306 |
if (old_kernel2_area > 0) |
307 |
delete_area(old_kernel2_area); |
308 |
area_id old_ram_area = find_area(RAM_AREA_NAME); |
309 |
if (old_ram_area > 0) |
310 |
delete_area(old_ram_area); |
311 |
area_id old_rom_area = find_area(ROM_AREA_NAME); |
312 |
if (old_rom_area > 0) |
313 |
delete_area(old_rom_area); |
314 |
area_id old_dr_cache_area = find_area(DR_CACHE_AREA_NAME); |
315 |
if (old_dr_cache_area > 0) |
316 |
delete_area(old_dr_cache_area); |
317 |
area_id old_dr_emulator_area = find_area(DR_EMULATOR_AREA_NAME); |
318 |
if (old_dr_emulator_area > 0) |
319 |
delete_area(old_dr_emulator_area); |
320 |
|
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// Read preferences |
322 |
int argc = 0; |
323 |
char **argv = NULL; |
324 |
PrefsInit(NULL, argc, argv); |
325 |
|
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// Init system routines |
327 |
SysInit(); |
328 |
|
329 |
// Test amount of RAM available for areas |
330 |
if (SysInfo.max_pages * B_PAGE_SIZE < 16 * 1024 * 1024) { |
331 |
ErrorAlert(GetString(STR_NOT_ENOUGH_MEMORY_ERR)); |
332 |
PostMessage(B_QUIT_REQUESTED); |
333 |
return; |
334 |
} |
335 |
|
336 |
// Show preferences editor (or start emulator directly) |
337 |
if (!PrefsFindBool("nogui")) |
338 |
PrefsEditor(MSG_START); |
339 |
else |
340 |
PostMessage(MSG_START); |
341 |
} |
342 |
|
343 |
|
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/* |
345 |
* Message received |
346 |
*/ |
347 |
|
348 |
void SheepShaver::MessageReceived(BMessage *msg) |
349 |
{ |
350 |
switch (msg->what) { |
351 |
case MSG_START: |
352 |
StartEmulator(); |
353 |
break; |
354 |
default: |
355 |
BApplication::MessageReceived(msg); |
356 |
} |
357 |
} |
358 |
|
359 |
|
360 |
/* |
361 |
* Start emulator |
362 |
*/ |
363 |
|
364 |
void SheepShaver::StartEmulator(void) |
365 |
{ |
366 |
char str[256]; |
367 |
|
368 |
// Open sheep driver and remap low memory |
369 |
sheep_fd = open("/dev/sheep", 0); |
370 |
if (sheep_fd < 0) { |
371 |
sprintf(str, GetString(STR_NO_SHEEP_DRIVER_ERR), strerror(sheep_fd), sheep_fd); |
372 |
ErrorAlert(str); |
373 |
PostMessage(B_QUIT_REQUESTED); |
374 |
return; |
375 |
} |
376 |
status_t res = ioctl(sheep_fd, SHEEP_UP); |
377 |
if (res < 0) { |
378 |
sprintf(str, GetString(STR_SHEEP_UP_ERR), strerror(res), res); |
379 |
ErrorAlert(str); |
380 |
PostMessage(B_QUIT_REQUESTED); |
381 |
return; |
382 |
} |
383 |
|
384 |
// Create areas for Kernel Data |
385 |
kernel_data = (KernelData *)KERNEL_DATA_BASE; |
386 |
kernel_area = create_area(KERNEL_AREA_NAME, &kernel_data, B_EXACT_ADDRESS, KERNEL_AREA_SIZE, B_NO_LOCK, B_READ_AREA | B_WRITE_AREA); |
387 |
if (kernel_area < 0) { |
388 |
sprintf(str, GetString(STR_NO_KERNEL_DATA_ERR), strerror(kernel_area), kernel_area); |
389 |
ErrorAlert(str); |
390 |
PostMessage(B_QUIT_REQUESTED); |
391 |
return; |
392 |
} |
393 |
emulator_data = &kernel_data->ed; |
394 |
KernelDataAddr = (uint32)kernel_data; |
395 |
D(bug("Kernel Data area %ld at %p, Emulator Data at %p\n", kernel_area, kernel_data, emulator_data)); |
396 |
|
397 |
void *kernel_data2 = (void *)KERNEL_DATA2_BASE; |
398 |
kernel_area2 = clone_area(KERNEL_AREA2_NAME, &kernel_data2, B_EXACT_ADDRESS, B_READ_AREA | B_WRITE_AREA, kernel_area); |
399 |
if (kernel_area2 < 0) { |
400 |
sprintf(str, GetString(STR_NO_KERNEL_DATA_ERR), strerror(kernel_area2), kernel_area2); |
401 |
ErrorAlert(str); |
402 |
PostMessage(B_QUIT_REQUESTED); |
403 |
return; |
404 |
} |
405 |
D(bug("Kernel Data 2 area %ld at %p\n", kernel_area2, kernel_data2)); |
406 |
|
407 |
// Create area for SheepShaver data |
408 |
if (!SheepMem::Init()) { |
409 |
sprintf(str, GetString(STR_NO_SHEEP_MEM_AREA_ERR), strerror(SheepMemArea), SheepMemArea); |
410 |
ErrorAlert(str); |
411 |
PostMessage(B_QUIT_REQUESTED); |
412 |
return; |
413 |
} |
414 |
|
415 |
// Create area for Mac RAM |
416 |
RAMSize = PrefsFindInt32("ramsize") & 0xfff00000; // Round down to 1MB boundary |
417 |
if (RAMSize < 8*1024*1024) { |
418 |
WarningAlert(GetString(STR_SMALL_RAM_WARN)); |
419 |
RAMSize = 8*1024*1024; |
420 |
} |
421 |
|
422 |
RAMBase = 0x10000000; |
423 |
ram_area = create_area(RAM_AREA_NAME, (void **)&RAMBase, B_BASE_ADDRESS, RAMSize, B_NO_LOCK, B_READ_AREA | B_WRITE_AREA); |
424 |
if (ram_area < 0) { |
425 |
sprintf(str, GetString(STR_NO_RAM_AREA_ERR), strerror(ram_area), ram_area); |
426 |
ErrorAlert(str); |
427 |
PostMessage(B_QUIT_REQUESTED); |
428 |
return; |
429 |
} |
430 |
RAMBaseHost = (uint8 *)RAMBase; |
431 |
D(bug("RAM area %ld at %p\n", ram_area, RAMBaseHost)); |
432 |
|
433 |
// Create area and load Mac ROM |
434 |
try { |
435 |
init_rom(); |
436 |
} catch (area_error) { |
437 |
ErrorAlert(GetString(STR_NO_ROM_AREA_ERR)); |
438 |
PostMessage(B_QUIT_REQUESTED); |
439 |
return; |
440 |
} catch (file_open_error) { |
441 |
ErrorAlert(GetString(STR_NO_ROM_FILE_ERR)); |
442 |
PostMessage(B_QUIT_REQUESTED); |
443 |
return; |
444 |
} catch (file_read_error) { |
445 |
ErrorAlert(GetString(STR_ROM_FILE_READ_ERR)); |
446 |
PostMessage(B_QUIT_REQUESTED); |
447 |
return; |
448 |
} catch (rom_size_error) { |
449 |
ErrorAlert(GetString(STR_ROM_SIZE_ERR)); |
450 |
PostMessage(B_QUIT_REQUESTED); |
451 |
return; |
452 |
} |
453 |
|
454 |
// Create area for DR Cache |
455 |
DRCacheAddr = DR_CACHE_BASE; |
456 |
dr_cache_area = create_area(DR_CACHE_AREA_NAME, (void **)&DRCacheAddr, B_EXACT_ADDRESS, DR_CACHE_SIZE, B_NO_LOCK, B_READ_AREA | B_WRITE_AREA); |
457 |
if (dr_cache_area < 0) { |
458 |
sprintf(str, GetString(STR_NO_KERNEL_DATA_ERR), strerror(dr_cache_area), dr_cache_area); |
459 |
ErrorAlert(str); |
460 |
PostMessage(B_QUIT_REQUESTED); |
461 |
return; |
462 |
} |
463 |
D(bug("DR Cache area %ld at %p\n", dr_cache_area, DRCacheAddr)); |
464 |
|
465 |
// Create area for DR Emulator |
466 |
DREmulatorAddr = DR_EMULATOR_BASE; |
467 |
dr_emulator_area = create_area(DR_EMULATOR_AREA_NAME, (void **)&DREmulatorAddr, B_EXACT_ADDRESS, DR_EMULATOR_SIZE, B_NO_LOCK, B_READ_AREA | B_WRITE_AREA); |
468 |
if (dr_emulator_area < 0) { |
469 |
sprintf(str, GetString(STR_NO_KERNEL_DATA_ERR), strerror(dr_emulator_area), dr_emulator_area); |
470 |
ErrorAlert(str); |
471 |
PostMessage(B_QUIT_REQUESTED); |
472 |
return; |
473 |
} |
474 |
D(bug("DR Emulator area %ld at %p\n", dr_emulator_area, DREmulatorAddr)); |
475 |
|
476 |
// Initialize everything |
477 |
if (!InitAll(NULL)) { |
478 |
PostMessage(B_QUIT_REQUESTED); |
479 |
return; |
480 |
} |
481 |
D(bug("Initialization complete\n")); |
482 |
|
483 |
// Clear caches (as we loaded and patched code) and write protect ROM |
484 |
#if !EMULATED_PPC |
485 |
clear_caches(ROMBaseHost, ROM_AREA_SIZE, B_INVALIDATE_ICACHE | B_FLUSH_DCACHE); |
486 |
#endif |
487 |
set_area_protection(rom_area, B_READ_AREA); |
488 |
|
489 |
// Initialize extra low memory |
490 |
D(bug("Initializing extra Low Memory...\n")); |
491 |
WriteMacInt32(XLM_SHEEP_OBJ, (uint32)this); // Pointer to SheepShaver object |
492 |
D(bug("Extra Low Memory initialized\n")); |
493 |
|
494 |
// Disallow quitting with Alt-Q from now on |
495 |
AllowQuitting = false; |
496 |
|
497 |
// Start 60Hz interrupt |
498 |
tick_thread = spawn_thread(tick_func, "60Hz", B_URGENT_DISPLAY_PRIORITY, this); |
499 |
resume_thread(tick_thread); |
500 |
|
501 |
// Start NVRAM watchdog thread |
502 |
memcpy(last_xpram, XPRAM, XPRAM_SIZE); |
503 |
nvram_thread = spawn_thread(nvram_func, "NVRAM Watchdog", B_LOW_PRIORITY, this); |
504 |
resume_thread(nvram_thread); |
505 |
|
506 |
// Start emulator thread |
507 |
emul_thread = spawn_thread(emul_func, "MacOS", B_NORMAL_PRIORITY, this); |
508 |
resume_thread(emul_thread); |
509 |
} |
510 |
|
511 |
|
512 |
/* |
513 |
* Quit requested |
514 |
*/ |
515 |
|
516 |
bool SheepShaver::QuitRequested(void) |
517 |
{ |
518 |
if (AllowQuitting) |
519 |
return BApplication::QuitRequested(); |
520 |
else |
521 |
return false; |
522 |
} |
523 |
|
524 |
void SheepShaver::Quit(void) |
525 |
{ |
526 |
status_t l; |
527 |
|
528 |
// Stop 60Hz interrupt |
529 |
if (tick_thread > 0) { |
530 |
TickThreadActive = false; |
531 |
wait_for_thread(tick_thread, &l); |
532 |
} |
533 |
|
534 |
// Stop NVRAM watchdog |
535 |
if (nvram_thread > 0) { |
536 |
status_t l; |
537 |
NVRAMThreadActive = false; |
538 |
suspend_thread(nvram_thread); // Wake thread up from snooze() |
539 |
snooze(1000); |
540 |
resume_thread(nvram_thread); |
541 |
while (wait_for_thread(nvram_thread, &l) == B_INTERRUPTED) ; |
542 |
} |
543 |
|
544 |
// Wait for emulator thread to finish |
545 |
if (emul_thread > 0) |
546 |
wait_for_thread(emul_thread, &l); |
547 |
|
548 |
// Deinitialize everything |
549 |
ExitAll(); |
550 |
|
551 |
// Delete SheepShaver globals |
552 |
SheepMem::Exit(); |
553 |
|
554 |
// Delete DR Emulator area |
555 |
if (dr_emulator_area >= 0) |
556 |
delete_area(dr_emulator_area); |
557 |
|
558 |
// Delete DR Cache area |
559 |
if (dr_cache_area >= 0) |
560 |
delete_area(dr_cache_area); |
561 |
|
562 |
// Delete ROM area |
563 |
if (rom_area >= 0) |
564 |
delete_area(rom_area); |
565 |
|
566 |
// Delete RAM area |
567 |
if (ram_area >= 0) |
568 |
delete_area(ram_area); |
569 |
|
570 |
// Delete Kernel Data area2 |
571 |
if (kernel_area2 >= 0) |
572 |
delete_area(kernel_area2); |
573 |
if (kernel_area >= 0) |
574 |
delete_area(kernel_area); |
575 |
|
576 |
// Unmap low memory and close sheep driver |
577 |
if (sheep_fd >= 0) { |
578 |
ioctl(sheep_fd, SHEEP_DOWN); |
579 |
close(sheep_fd); |
580 |
} |
581 |
|
582 |
// Exit system routines |
583 |
SysExit(); |
584 |
|
585 |
// Exit preferences |
586 |
PrefsExit(); |
587 |
|
588 |
BApplication::Quit(); |
589 |
} |
590 |
|
591 |
|
592 |
/* |
593 |
* Create area for ROM (sets rom_area) and load ROM file |
594 |
* |
595 |
* area_error : Cannot create area |
596 |
* file_open_error: Cannot open ROM file |
597 |
* file_read_error: Cannot read ROM file |
598 |
*/ |
599 |
|
600 |
void SheepShaver::init_rom(void) |
601 |
{ |
602 |
// Size of a native page |
603 |
page_size = B_PAGE_SIZE; |
604 |
|
605 |
// Create area for ROM |
606 |
ROMBase = ROM_BASE; |
607 |
rom_area = create_area(ROM_AREA_NAME, (void **)&ROMBase, B_EXACT_ADDRESS, ROM_AREA_SIZE, B_NO_LOCK, B_READ_AREA | B_WRITE_AREA); |
608 |
if (rom_area < 0) |
609 |
throw area_error(); |
610 |
ROMBaseHost = (uint8 *)ROMBase; |
611 |
D(bug("ROM area %ld at %p\n", rom_area, rom_addr)); |
612 |
|
613 |
// Load ROM |
614 |
load_rom(); |
615 |
} |
616 |
|
617 |
|
618 |
/* |
619 |
* Load ROM file |
620 |
* |
621 |
* file_open_error: Cannot open ROM file (nor use built-in ROM) |
622 |
* file_read_error: Cannot read ROM file |
623 |
*/ |
624 |
|
625 |
void SheepShaver::load_rom(void) |
626 |
{ |
627 |
// Get rom file path from preferences |
628 |
const char *rom_path = PrefsFindString("rom"); |
629 |
|
630 |
// Try to open ROM file |
631 |
BFile file(rom_path && *rom_path ? rom_path : ROM_FILE_NAME, B_READ_ONLY); |
632 |
if (file.InitCheck() != B_NO_ERROR) { |
633 |
|
634 |
// Failed, then ask memory_mess driver for ROM |
635 |
uint8 *rom = new uint8[ROM_SIZE]; // Reading directly into the area doesn't work |
636 |
ssize_t actual = read(sheep_fd, (void *)rom, ROM_SIZE); |
637 |
if (actual == ROM_SIZE) { |
638 |
memcpy(ROMBaseHost, rom, ROM_SIZE); |
639 |
delete[] rom; |
640 |
return; |
641 |
} else |
642 |
throw file_open_error(); |
643 |
} |
644 |
|
645 |
printf(GetString(STR_READING_ROM_FILE)); |
646 |
|
647 |
// Get file size |
648 |
off_t rom_size = 0; |
649 |
file.GetSize(&rom_size); |
650 |
|
651 |
uint8 *rom = new uint8[ROM_SIZE]; // Reading directly into the area doesn't work |
652 |
ssize_t actual = file.Read((void *)rom, ROM_SIZE); |
653 |
|
654 |
// Decode Mac ROM |
655 |
if (!DecodeROM(rom, actual)) { |
656 |
if (rom_size != 4*1024*1024) |
657 |
throw rom_size_error(); |
658 |
else |
659 |
throw file_read_error(); |
660 |
} |
661 |
delete[] rom; |
662 |
} |
663 |
|
664 |
|
665 |
/* |
666 |
* Emulator thread function |
667 |
*/ |
668 |
|
669 |
status_t SheepShaver::emul_func(void *arg) |
670 |
{ |
671 |
SheepShaver *obj = (SheepShaver *)arg; |
672 |
|
673 |
// Install interrupt signal handler |
674 |
sigemptyset(&obj->sigusr1_action.sa_mask); |
675 |
obj->sigusr1_action.sa_handler = (__signal_func_ptr)(obj->sigusr1_invoc); |
676 |
obj->sigusr1_action.sa_flags = 0; |
677 |
obj->sigusr1_action.sa_userdata = arg; |
678 |
sigaction(SIGUSR1, &obj->sigusr1_action, NULL); |
679 |
|
680 |
// Install data access signal handler |
681 |
sigemptyset(&obj->sigsegv_action.sa_mask); |
682 |
obj->sigsegv_action.sa_handler = (__signal_func_ptr)(obj->sigsegv_invoc); |
683 |
obj->sigsegv_action.sa_flags = 0; |
684 |
obj->sigsegv_action.sa_userdata = arg; |
685 |
sigaction(SIGSEGV, &obj->sigsegv_action, NULL); |
686 |
|
687 |
#if !EMULATED_PPC |
688 |
// Install illegal instruction signal handler |
689 |
sigemptyset(&obj->sigill_action.sa_mask); |
690 |
obj->sigill_action.sa_handler = (__signal_func_ptr)(obj->sigill_invoc); |
691 |
obj->sigill_action.sa_flags = 0; |
692 |
obj->sigill_action.sa_userdata = arg; |
693 |
sigaction(SIGILL, &obj->sigill_action, NULL); |
694 |
#endif |
695 |
|
696 |
// Exceptions will send signals |
697 |
disable_debugger(true); |
698 |
|
699 |
// Install signal stack |
700 |
sig_stack = malloc(SIG_STACK_SIZE); |
701 |
extra_stack = malloc(SIG_STACK_SIZE); |
702 |
set_signal_stack(sig_stack, SIG_STACK_SIZE); |
703 |
|
704 |
// We're now ready to receive signals |
705 |
obj->ReadyForSignals = true; |
706 |
|
707 |
// Jump to ROM boot routine |
708 |
D(bug("Jumping to ROM\n")); |
709 |
obj->jump_to_rom(ROMBase + 0x310000); |
710 |
D(bug("Returned from ROM\n")); |
711 |
|
712 |
// We're no longer ready to receive signals |
713 |
obj->ReadyForSignals = false; |
714 |
obj->AllowQuitting = true; |
715 |
|
716 |
// Quit program |
717 |
be_app->PostMessage(B_QUIT_REQUESTED); |
718 |
return 0; |
719 |
} |
720 |
|
721 |
|
722 |
/* |
723 |
* Jump into Mac ROM, start 680x0 emulator |
724 |
* (also contains other EMUL_RETURN and EMUL_OP routines) |
725 |
*/ |
726 |
|
727 |
#if EMULATED_PPC |
728 |
extern void emul_ppc(uint32 start); |
729 |
extern void init_emul_ppc(void); |
730 |
void SheepShaver::jump_to_rom(uint32 entry) |
731 |
{ |
732 |
init_emul_ppc(); |
733 |
emul_ppc(entry); |
734 |
} |
735 |
#else |
736 |
asm void SheepShaver::jump_to_rom(register uint32 entry) |
737 |
{ |
738 |
// Create stack frame |
739 |
mflr r0 |
740 |
stw r0,8(r1) |
741 |
mfcr r0 |
742 |
stw r0,4(r1) |
743 |
stwu r1,-(56+19*4+18*8)(r1) |
744 |
|
745 |
// Save PowerPC registers |
746 |
stmw r13,56(r1) |
747 |
stfd f14,56+19*4+0*8(r1) |
748 |
stfd f15,56+19*4+1*8(r1) |
749 |
stfd f16,56+19*4+2*8(r1) |
750 |
stfd f17,56+19*4+3*8(r1) |
751 |
stfd f18,56+19*4+4*8(r1) |
752 |
stfd f19,56+19*4+5*8(r1) |
753 |
stfd f20,56+19*4+6*8(r1) |
754 |
stfd f21,56+19*4+7*8(r1) |
755 |
stfd f22,56+19*4+8*8(r1) |
756 |
stfd f23,56+19*4+9*8(r1) |
757 |
stfd f24,56+19*4+10*8(r1) |
758 |
stfd f25,56+19*4+11*8(r1) |
759 |
stfd f26,56+19*4+12*8(r1) |
760 |
stfd f27,56+19*4+13*8(r1) |
761 |
stfd f28,56+19*4+14*8(r1) |
762 |
stfd f29,56+19*4+15*8(r1) |
763 |
stfd f30,56+19*4+16*8(r1) |
764 |
stfd f31,56+19*4+17*8(r1) |
765 |
|
766 |
// Move entry address to ctr, get pointer to Emulator Data |
767 |
mtctr r4 |
768 |
lwz r4,SheepShaver.emulator_data(r3) |
769 |
|
770 |
// Skip over EMUL_RETURN routine and get its address |
771 |
bl @1 |
772 |
|
773 |
|
774 |
/* |
775 |
* EMUL_RETURN: Returned from emulator |
776 |
*/ |
777 |
|
778 |
// Restore PowerPC registers |
779 |
lwz r1,XLM_EMUL_RETURN_STACK |
780 |
lwz r2,XLM_TOC |
781 |
lmw r13,56(r1) |
782 |
lfd f14,56+19*4+0*8(r1) |
783 |
lfd f15,56+19*4+1*8(r1) |
784 |
lfd f16,56+19*4+2*8(r1) |
785 |
lfd f17,56+19*4+3*8(r1) |
786 |
lfd f18,56+19*4+4*8(r1) |
787 |
lfd f19,56+19*4+5*8(r1) |
788 |
lfd f20,56+19*4+6*8(r1) |
789 |
lfd f21,56+19*4+7*8(r1) |
790 |
lfd f22,56+19*4+8*8(r1) |
791 |
lfd f23,56+19*4+9*8(r1) |
792 |
lfd f24,56+19*4+10*8(r1) |
793 |
lfd f25,56+19*4+11*8(r1) |
794 |
lfd f26,56+19*4+12*8(r1) |
795 |
lfd f27,56+19*4+13*8(r1) |
796 |
lfd f28,56+19*4+14*8(r1) |
797 |
lfd f29,56+19*4+15*8(r1) |
798 |
lfd f30,56+19*4+16*8(r1) |
799 |
lfd f31,56+19*4+17*8(r1) |
800 |
|
801 |
// Exiting from 68k emulator |
802 |
li r0,1 |
803 |
stw r0,XLM_IRQ_NEST |
804 |
li r0,MODE_NATIVE |
805 |
stw r0,XLM_RUN_MODE |
806 |
|
807 |
// Return to caller of jump_to_rom() |
808 |
lwz r0,56+19*4+18*8+8(r1) |
809 |
mtlr r0 |
810 |
lwz r0,56+19*4+18*8+4(r1) |
811 |
mtcrf 0xff,r0 |
812 |
addi r1,r1,56+19*4+18*8 |
813 |
blr |
814 |
|
815 |
|
816 |
// Save address of EMUL_RETURN routine for 68k emulator patch |
817 |
@1 mflr r0 |
818 |
stw r0,XLM_EMUL_RETURN_PROC |
819 |
|
820 |
// Skip over EXEC_RETURN routine and get its address |
821 |
bl @2 |
822 |
|
823 |
|
824 |
/* |
825 |
* EXEC_RETURN: Returned from 68k routine executed with Execute68k() |
826 |
*/ |
827 |
|
828 |
// Save r25 (contains current 68k interrupt level) |
829 |
stw r25,XLM_68K_R25 |
830 |
|
831 |
// Reentering EMUL_OP mode |
832 |
li r0,MODE_EMUL_OP |
833 |
stw r0,XLM_RUN_MODE |
834 |
|
835 |
// Save 68k registers |
836 |
lwz r4,56+19*4+18*8+12(r1) |
837 |
stw r8,M68kRegisters.d[0](r4) |
838 |
stw r9,M68kRegisters.d[1](r4) |
839 |
stw r10,M68kRegisters.d[2](r4) |
840 |
stw r11,M68kRegisters.d[3](r4) |
841 |
stw r12,M68kRegisters.d[4](r4) |
842 |
stw r13,M68kRegisters.d[5](r4) |
843 |
stw r14,M68kRegisters.d[6](r4) |
844 |
stw r15,M68kRegisters.d[7](r4) |
845 |
stw r16,M68kRegisters.a[0](r4) |
846 |
stw r17,M68kRegisters.a[1](r4) |
847 |
stw r18,M68kRegisters.a[2](r4) |
848 |
stw r19,M68kRegisters.a[3](r4) |
849 |
stw r20,M68kRegisters.a[4](r4) |
850 |
stw r21,M68kRegisters.a[5](r4) |
851 |
stw r22,M68kRegisters.a[6](r4) |
852 |
|
853 |
// Restore PowerPC registers |
854 |
lmw r13,56(r1) |
855 |
#if SAVE_FP_EXEC_68K |
856 |
lfd f14,56+19*4+0*8(r1) |
857 |
lfd f15,56+19*4+1*8(r1) |
858 |
lfd f16,56+19*4+2*8(r1) |
859 |
lfd f17,56+19*4+3*8(r1) |
860 |
lfd f18,56+19*4+4*8(r1) |
861 |
lfd f19,56+19*4+5*8(r1) |
862 |
lfd f20,56+19*4+6*8(r1) |
863 |
lfd f21,56+19*4+7*8(r1) |
864 |
lfd f22,56+19*4+8*8(r1) |
865 |
lfd f23,56+19*4+9*8(r1) |
866 |
lfd f24,56+19*4+10*8(r1) |
867 |
lfd f25,56+19*4+11*8(r1) |
868 |
lfd f26,56+19*4+12*8(r1) |
869 |
lfd f27,56+19*4+13*8(r1) |
870 |
lfd f28,56+19*4+14*8(r1) |
871 |
lfd f29,56+19*4+15*8(r1) |
872 |
lfd f30,56+19*4+16*8(r1) |
873 |
lfd f31,56+19*4+17*8(r1) |
874 |
#endif |
875 |
|
876 |
// Return to caller |
877 |
lwz r0,56+19*4+18*8+8(r1) |
878 |
mtlr r0 |
879 |
addi r1,r1,56+19*4+18*8 |
880 |
blr |
881 |
|
882 |
|
883 |
// Stave address of EXEC_RETURN routine for 68k emulator patch |
884 |
@2 mflr r0 |
885 |
stw r0,XLM_EXEC_RETURN_PROC |
886 |
|
887 |
// Skip over EMUL_BREAK/EMUL_OP routine and get its address |
888 |
bl @3 |
889 |
|
890 |
|
891 |
/* |
892 |
* EMUL_BREAK/EMUL_OP: Execute native routine, selector in r5 (my own private mode switch) |
893 |
* |
894 |
* 68k registers are stored in a M68kRegisters struct on the stack |
895 |
* which the native routine may read and modify |
896 |
*/ |
897 |
|
898 |
// Save r25 (contains current 68k interrupt level) |
899 |
stw r25,XLM_68K_R25 |
900 |
|
901 |
// Entering EMUL_OP mode within 68k emulator |
902 |
li r0,MODE_EMUL_OP |
903 |
stw r0,XLM_RUN_MODE |
904 |
|
905 |
// Create PowerPC stack frame, reserve space for M68kRegisters |
906 |
mr r3,r1 |
907 |
subi r1,r1,56 // Fake "caller" frame |
908 |
rlwinm r1,r1,0,0,29 // Align stack |
909 |
|
910 |
mfcr r0 |
911 |
rlwinm r0,r0,0,11,8 |
912 |
stw r0,4(r1) |
913 |
mfxer r0 |
914 |
stw r0,16(r1) |
915 |
stw r2,12(r1) |
916 |
stwu r1,-(56+16*4+15*8)(r1) |
917 |
lwz r2,XLM_TOC |
918 |
|
919 |
// Save 68k registers |
920 |
stw r8,56+M68kRegisters.d[0](r1) |
921 |
stw r9,56+M68kRegisters.d[1](r1) |
922 |
stw r10,56+M68kRegisters.d[2](r1) |
923 |
stw r11,56+M68kRegisters.d[3](r1) |
924 |
stw r12,56+M68kRegisters.d[4](r1) |
925 |
stw r13,56+M68kRegisters.d[5](r1) |
926 |
stw r14,56+M68kRegisters.d[6](r1) |
927 |
stw r15,56+M68kRegisters.d[7](r1) |
928 |
stw r16,56+M68kRegisters.a[0](r1) |
929 |
stw r17,56+M68kRegisters.a[1](r1) |
930 |
stw r18,56+M68kRegisters.a[2](r1) |
931 |
stw r19,56+M68kRegisters.a[3](r1) |
932 |
stw r20,56+M68kRegisters.a[4](r1) |
933 |
stw r21,56+M68kRegisters.a[5](r1) |
934 |
stw r22,56+M68kRegisters.a[6](r1) |
935 |
stw r3,56+M68kRegisters.a[7](r1) |
936 |
stfd f0,56+16*4+0*8(r1) |
937 |
stfd f1,56+16*4+1*8(r1) |
938 |
stfd f2,56+16*4+2*8(r1) |
939 |
stfd f3,56+16*4+3*8(r1) |
940 |
stfd f4,56+16*4+4*8(r1) |
941 |
stfd f5,56+16*4+5*8(r1) |
942 |
stfd f6,56+16*4+6*8(r1) |
943 |
stfd f7,56+16*4+7*8(r1) |
944 |
mffs f0 |
945 |
stfd f8,56+16*4+8*8(r1) |
946 |
stfd f9,56+16*4+9*8(r1) |
947 |
stfd f10,56+16*4+10*8(r1) |
948 |
stfd f11,56+16*4+11*8(r1) |
949 |
stfd f12,56+16*4+12*8(r1) |
950 |
stfd f13,56+16*4+13*8(r1) |
951 |
stfd f0,56+16*4+14*8(r1) |
952 |
|
953 |
// Execute native routine |
954 |
addi r3,r1,56 |
955 |
mr r4,r24 |
956 |
bl EmulOp |
957 |
|
958 |
// Restore 68k registers |
959 |
lwz r8,56+M68kRegisters.d[0](r1) |
960 |
lwz r9,56+M68kRegisters.d[1](r1) |
961 |
lwz r10,56+M68kRegisters.d[2](r1) |
962 |
lwz r11,56+M68kRegisters.d[3](r1) |
963 |
lwz r12,56+M68kRegisters.d[4](r1) |
964 |
lwz r13,56+M68kRegisters.d[5](r1) |
965 |
lwz r14,56+M68kRegisters.d[6](r1) |
966 |
lwz r15,56+M68kRegisters.d[7](r1) |
967 |
lwz r16,56+M68kRegisters.a[0](r1) |
968 |
lwz r17,56+M68kRegisters.a[1](r1) |
969 |
lwz r18,56+M68kRegisters.a[2](r1) |
970 |
lwz r19,56+M68kRegisters.a[3](r1) |
971 |
lwz r20,56+M68kRegisters.a[4](r1) |
972 |
lwz r21,56+M68kRegisters.a[5](r1) |
973 |
lwz r22,56+M68kRegisters.a[6](r1) |
974 |
lwz r3,56+M68kRegisters.a[7](r1) |
975 |
lfd f13,56+16*4+14*8(r1) |
976 |
lfd f0,56+16*4+0*8(r1) |
977 |
lfd f1,56+16*4+1*8(r1) |
978 |
lfd f2,56+16*4+2*8(r1) |
979 |
lfd f3,56+16*4+3*8(r1) |
980 |
lfd f4,56+16*4+4*8(r1) |
981 |
lfd f5,56+16*4+5*8(r1) |
982 |
lfd f6,56+16*4+6*8(r1) |
983 |
lfd f7,56+16*4+7*8(r1) |
984 |
mtfsf 0xff,f13 |
985 |
lfd f8,56+16*4+8*8(r1) |
986 |
lfd f9,56+16*4+9*8(r1) |
987 |
lfd f10,56+16*4+10*8(r1) |
988 |
lfd f11,56+16*4+11*8(r1) |
989 |
lfd f12,56+16*4+12*8(r1) |
990 |
lfd f13,56+16*4+13*8(r1) |
991 |
|
992 |
// Delete PowerPC stack frame |
993 |
lwz r2,56+16*4+15*8+12(r1) |
994 |
lwz r0,56+16*4+15*8+16(r1) |
995 |
mtxer r0 |
996 |
lwz r0,56+16*4+15*8+4(r1) |
997 |
mtcrf 0xff,r0 |
998 |
mr r1,r3 |
999 |
|
1000 |
// Reeintering 68k emulator |
1001 |
li r0,MODE_68K |
1002 |
stw r0,XLM_RUN_MODE |
1003 |
|
1004 |
// Set r0 to 0 for 68k emulator |
1005 |
li r0,0 |
1006 |
|
1007 |
// Execute next 68k opcode |
1008 |
rlwimi r29,r27,3,13,28 |
1009 |
lhau r27,2(r24) |
1010 |
mtlr r29 |
1011 |
blr |
1012 |
|
1013 |
|
1014 |
// Save address of EMUL_BREAK/EMUL_OP routine for 68k emulator patch |
1015 |
@3 mflr r0 |
1016 |
stw r0,XLM_EMUL_OP_PROC |
1017 |
|
1018 |
// Save stack pointer for EMUL_RETURN |
1019 |
stw r1,XLM_EMUL_RETURN_STACK |
1020 |
|
1021 |
// Preset registers for ROM boot routine |
1022 |
lis r3,0x40b0 // Pointer to ROM boot structure |
1023 |
ori r3,r3,0xd000 |
1024 |
|
1025 |
// 68k emulator is now active |
1026 |
li r0,MODE_68K |
1027 |
stw r0,XLM_RUN_MODE |
1028 |
|
1029 |
// Jump to ROM |
1030 |
bctr |
1031 |
} |
1032 |
#endif |
1033 |
|
1034 |
|
1035 |
#if !EMULATED_PPC |
1036 |
/* |
1037 |
* Execute 68k subroutine (must be ended with RTS) |
1038 |
* This must only be called by the emul_thread when in EMUL_OP mode |
1039 |
* r->a[7] is unused, the routine runs on the caller's stack |
1040 |
*/ |
1041 |
|
1042 |
#if SAFE_EXEC_68K |
1043 |
void execute_68k(uint32 pc, M68kRegisters *r); |
1044 |
|
1045 |
void Execute68k(uint32 pc, M68kRegisters *r) |
1046 |
{ |
1047 |
if (*(uint32 *)XLM_RUN_MODE != MODE_EMUL_OP) |
1048 |
printf("FATAL: Execute68k() not called from EMUL_OP mode\n"); |
1049 |
if (find_thread(NULL) != the_app->emul_thread) |
1050 |
printf("FATAL: Execute68k() not called from emul_thread\n"); |
1051 |
execute_68k(pc, r); |
1052 |
} |
1053 |
|
1054 |
asm void execute_68k(register uint32 pc, register M68kRegisters *r) |
1055 |
#else |
1056 |
asm void Execute68k(register uint32 pc, register M68kRegisters *r) |
1057 |
#endif |
1058 |
{ |
1059 |
// Create stack frame |
1060 |
mflr r0 |
1061 |
stw r0,8(r1) |
1062 |
stw r4,12(r1) |
1063 |
stwu r1,-(56+19*4+18*8)(r1) |
1064 |
|
1065 |
// Save PowerPC registers |
1066 |
stmw r13,56(r1) |
1067 |
#if SAVE_FP_EXEC_68K |
1068 |
stfd f14,56+19*4+0*8(r1) |
1069 |
stfd f15,56+19*4+1*8(r1) |
1070 |
stfd f16,56+19*4+2*8(r1) |
1071 |
stfd f17,56+19*4+3*8(r1) |
1072 |
stfd f18,56+19*4+4*8(r1) |
1073 |
stfd f19,56+19*4+5*8(r1) |
1074 |
stfd f20,56+19*4+6*8(r1) |
1075 |
stfd f21,56+19*4+7*8(r1) |
1076 |
stfd f22,56+19*4+8*8(r1) |
1077 |
stfd f23,56+19*4+9*8(r1) |
1078 |
stfd f24,56+19*4+10*8(r1) |
1079 |
stfd f25,56+19*4+11*8(r1) |
1080 |
stfd f26,56+19*4+12*8(r1) |
1081 |
stfd f27,56+19*4+13*8(r1) |
1082 |
stfd f28,56+19*4+14*8(r1) |
1083 |
stfd f29,56+19*4+15*8(r1) |
1084 |
stfd f30,56+19*4+16*8(r1) |
1085 |
stfd f31,56+19*4+17*8(r1) |
1086 |
#endif |
1087 |
|
1088 |
// Set up registers for 68k emulator |
1089 |
lwz r31,XLM_KERNEL_DATA // Pointer to Kernel Data |
1090 |
addi r31,r31,0x1000 |
1091 |
li r0,0 |
1092 |
mtcrf 0xff,r0 |
1093 |
creqv 11,11,11 // Supervisor mode |
1094 |
lwz r8,M68kRegisters.d[0](r4) |
1095 |
lwz r9,M68kRegisters.d[1](r4) |
1096 |
lwz r10,M68kRegisters.d[2](r4) |
1097 |
lwz r11,M68kRegisters.d[3](r4) |
1098 |
lwz r12,M68kRegisters.d[4](r4) |
1099 |
lwz r13,M68kRegisters.d[5](r4) |
1100 |
lwz r14,M68kRegisters.d[6](r4) |
1101 |
lwz r15,M68kRegisters.d[7](r4) |
1102 |
lwz r16,M68kRegisters.a[0](r4) |
1103 |
lwz r17,M68kRegisters.a[1](r4) |
1104 |
lwz r18,M68kRegisters.a[2](r4) |
1105 |
lwz r19,M68kRegisters.a[3](r4) |
1106 |
lwz r20,M68kRegisters.a[4](r4) |
1107 |
lwz r21,M68kRegisters.a[5](r4) |
1108 |
lwz r22,M68kRegisters.a[6](r4) |
1109 |
li r23,0 |
1110 |
mr r24,r3 |
1111 |
lwz r25,XLM_68K_R25 // MSB of SR |
1112 |
li r26,0 |
1113 |
li r28,0 // VBR |
1114 |
lwz r29,0x74(r31) // Pointer to opcode table |
1115 |
lwz r30,0x78(r31) // Address of emulator |
1116 |
|
1117 |
// Push return address (points to EXEC_RETURN opcode) on stack |
1118 |
li r0,XLM_EXEC_RETURN_OPCODE |
1119 |
stwu r0,-4(r1) |
1120 |
|
1121 |
// Reentering 68k emulator |
1122 |
li r0,MODE_68K |
1123 |
stw r0,XLM_RUN_MODE |
1124 |
|
1125 |
// Set r0 to 0 for 68k emulator |
1126 |
li r0,0 |
1127 |
|
1128 |
// Execute 68k opcode |
1129 |
lha r27,0(r24) |
1130 |
rlwimi r29,r27,3,13,28 |
1131 |
lhau r27,2(r24) |
1132 |
mtlr r29 |
1133 |
blr |
1134 |
} |
1135 |
|
1136 |
|
1137 |
/* |
1138 |
* Execute 68k A-Trap from EMUL_OP routine |
1139 |
* r->a[7] is unused, the routine runs on the caller's stack |
1140 |
*/ |
1141 |
|
1142 |
void Execute68kTrap(uint16 trap, M68kRegisters *r) |
1143 |
{ |
1144 |
uint16 proc[2] = {trap, M68K_RTS}; |
1145 |
Execute68k((uint32)proc, r); |
1146 |
} |
1147 |
|
1148 |
|
1149 |
/* |
1150 |
* Quit emulator (must only be called from main thread) |
1151 |
*/ |
1152 |
|
1153 |
asm void QuitEmulator(void) |
1154 |
{ |
1155 |
lwz r0,XLM_EMUL_RETURN_PROC |
1156 |
mtlr r0 |
1157 |
blr |
1158 |
} |
1159 |
#endif |
1160 |
|
1161 |
|
1162 |
/* |
1163 |
* Dump 68k registers |
1164 |
*/ |
1165 |
|
1166 |
void Dump68kRegs(M68kRegisters *r) |
1167 |
{ |
1168 |
// Display 68k registers |
1169 |
for (int i=0; i<8; i++) { |
1170 |
printf("d%d: %08lx", i, r->d[i]); |
1171 |
if (i == 3 || i == 7) |
1172 |
printf("\n"); |
1173 |
else |
1174 |
printf(", "); |
1175 |
} |
1176 |
for (int i=0; i<8; i++) { |
1177 |
printf("a%d: %08lx", i, r->a[i]); |
1178 |
if (i == 3 || i == 7) |
1179 |
printf("\n"); |
1180 |
else |
1181 |
printf(", "); |
1182 |
} |
1183 |
} |
1184 |
|
1185 |
|
1186 |
/* |
1187 |
* Make code executable |
1188 |
*/ |
1189 |
|
1190 |
void MakeExecutable(int dummy, uint32 start, uint32 length) |
1191 |
{ |
1192 |
if ((start >= ROMBase) && (start < (ROMBase + ROM_SIZE))) |
1193 |
return; |
1194 |
clear_caches((void *)start, length, B_INVALIDATE_ICACHE | B_FLUSH_DCACHE); |
1195 |
} |
1196 |
|
1197 |
|
1198 |
/* |
1199 |
* NVRAM watchdog thread (saves NVRAM every minute) |
1200 |
*/ |
1201 |
|
1202 |
status_t SheepShaver::nvram_func(void *arg) |
1203 |
{ |
1204 |
SheepShaver *obj = (SheepShaver *)arg; |
1205 |
|
1206 |
while (obj->NVRAMThreadActive) { |
1207 |
snooze(60*1000000); |
1208 |
if (memcmp(obj->last_xpram, XPRAM, XPRAM_SIZE)) { |
1209 |
memcpy(obj->last_xpram, XPRAM, XPRAM_SIZE); |
1210 |
SaveXPRAM(); |
1211 |
} |
1212 |
} |
1213 |
return 0; |
1214 |
} |
1215 |
|
1216 |
|
1217 |
/* |
1218 |
* 60Hz thread (really 60.15Hz) |
1219 |
*/ |
1220 |
|
1221 |
status_t SheepShaver::tick_func(void *arg) |
1222 |
{ |
1223 |
SheepShaver *obj = (SheepShaver *)arg; |
1224 |
int tick_counter = 0; |
1225 |
bigtime_t current = system_time(); |
1226 |
|
1227 |
while (obj->TickThreadActive) { |
1228 |
|
1229 |
// Wait |
1230 |
current += 16625; |
1231 |
snooze_until(current, B_SYSTEM_TIMEBASE); |
1232 |
|
1233 |
// Pseudo Mac 1Hz interrupt, update local time |
1234 |
if (++tick_counter > 60) { |
1235 |
tick_counter = 0; |
1236 |
WriteMacInt32(0x20c, TimerDateTime()); |
1237 |
} |
1238 |
|
1239 |
// 60Hz interrupt |
1240 |
if (ReadMacInt32(XLM_IRQ_NEST) == 0) { |
1241 |
SetInterruptFlag(INTFLAG_VIA); |
1242 |
TriggerInterrupt(); |
1243 |
} |
1244 |
} |
1245 |
return 0; |
1246 |
} |
1247 |
|
1248 |
|
1249 |
/* |
1250 |
* Trigger signal USR1 from another thread |
1251 |
*/ |
1252 |
|
1253 |
void TriggerInterrupt(void) |
1254 |
{ |
1255 |
idle_resume(); |
1256 |
#if 0 |
1257 |
WriteMacInt32(0x16a, ReadMacInt32(0x16a) + 1); |
1258 |
#else |
1259 |
if (the_app->emul_thread > 0 && the_app->ReadyForSignals) |
1260 |
send_signal(the_app->emul_thread, SIGUSR1); |
1261 |
#endif |
1262 |
} |
1263 |
|
1264 |
|
1265 |
/* |
1266 |
* Mutexes |
1267 |
*/ |
1268 |
|
1269 |
struct B2_mutex { |
1270 |
int dummy; //!! |
1271 |
}; |
1272 |
|
1273 |
B2_mutex *B2_create_mutex(void) |
1274 |
{ |
1275 |
return new B2_mutex; |
1276 |
} |
1277 |
|
1278 |
void B2_lock_mutex(B2_mutex *mutex) |
1279 |
{ |
1280 |
} |
1281 |
|
1282 |
void B2_unlock_mutex(B2_mutex *mutex) |
1283 |
{ |
1284 |
} |
1285 |
|
1286 |
void B2_delete_mutex(B2_mutex *mutex) |
1287 |
{ |
1288 |
delete mutex; |
1289 |
} |
1290 |
|
1291 |
|
1292 |
/* |
1293 |
* Set/clear interrupt flags (must be done atomically!) |
1294 |
*/ |
1295 |
|
1296 |
volatile uint32 InterruptFlags = 0; |
1297 |
|
1298 |
void SetInterruptFlag(uint32 flag) |
1299 |
{ |
1300 |
atomic_or((int32 *)&InterruptFlags, flag); |
1301 |
} |
1302 |
|
1303 |
void ClearInterruptFlag(uint32 flag) |
1304 |
{ |
1305 |
atomic_and((int32 *)&InterruptFlags, ~flag); |
1306 |
} |
1307 |
|
1308 |
|
1309 |
/* |
1310 |
* Disable interrupts |
1311 |
*/ |
1312 |
|
1313 |
void DisableInterrupt(void) |
1314 |
{ |
1315 |
atomic_add((int32 *)XLM_IRQ_NEST, 1); |
1316 |
} |
1317 |
|
1318 |
|
1319 |
/* |
1320 |
* Enable interrupts |
1321 |
*/ |
1322 |
|
1323 |
void EnableInterrupt(void) |
1324 |
{ |
1325 |
atomic_add((int32 *)XLM_IRQ_NEST, -1); |
1326 |
} |
1327 |
|
1328 |
|
1329 |
/* |
1330 |
* USR1 handler |
1331 |
*/ |
1332 |
|
1333 |
void SheepShaver::sigusr1_invoc(int sig, void *arg, vregs *r) |
1334 |
{ |
1335 |
((SheepShaver *)arg)->sigusr1_handler(r); |
1336 |
} |
1337 |
|
1338 |
#if !EMULATED_PPC |
1339 |
static asm void ppc_interrupt(register uint32 entry) |
1340 |
{ |
1341 |
fralloc |
1342 |
|
1343 |
// Get address of return routine |
1344 |
bl @1 |
1345 |
|
1346 |
// Return routine |
1347 |
frfree |
1348 |
blr |
1349 |
|
1350 |
@1 |
1351 |
// Prepare registers for nanokernel interrupt routine |
1352 |
mtctr r1 |
1353 |
lwz r1,XLM_KERNEL_DATA |
1354 |
stw r6,0x018(r1) |
1355 |
mfctr r6 |
1356 |
stw r6,0x004(r1) |
1357 |
lwz r6,0x65c(r1) |
1358 |
stw r7,0x13c(r6) |
1359 |
stw r8,0x144(r6) |
1360 |
stw r9,0x14c(r6) |
1361 |
stw r10,0x154(r6) |
1362 |
stw r11,0x15c(r6) |
1363 |
stw r12,0x164(r6) |
1364 |
stw r13,0x16c(r6) |
1365 |
|
1366 |
mflr r10 |
1367 |
mfcr r13 |
1368 |
lwz r7,0x660(r1) |
1369 |
mflr r12 |
1370 |
rlwimi. r7,r7,8,0,0 |
1371 |
li r11,0 |
1372 |
ori r11,r11,0xf072 // MSR (SRR1) |
1373 |
mtcrf 0x70,r11 |
1374 |
li r8,0 |
1375 |
|
1376 |
// Enter nanokernel |
1377 |
mtlr r3 |
1378 |
blr |
1379 |
} |
1380 |
#endif |
1381 |
|
1382 |
void SheepShaver::sigusr1_handler(vregs *r) |
1383 |
{ |
1384 |
// Do nothing if interrupts are disabled |
1385 |
if ((*(int32 *)XLM_IRQ_NEST) > 0) |
1386 |
return; |
1387 |
|
1388 |
// Interrupt action depends on current run mode |
1389 |
switch (*(uint32 *)XLM_RUN_MODE) { |
1390 |
case MODE_68K: |
1391 |
// 68k emulator active, trigger 68k interrupt level 1 |
1392 |
*(uint16 *)(kernel_data->v[0x67c >> 2]) = 1; |
1393 |
r->cr |= kernel_data->v[0x674 >> 2]; |
1394 |
break; |
1395 |
|
1396 |
#if INTERRUPTS_IN_NATIVE_MODE |
1397 |
case MODE_NATIVE: |
1398 |
// 68k emulator inactive, in nanokernel? |
1399 |
if (r->r1 != KernelDataAddr) { |
1400 |
// No, prepare for 68k interrupt level 1 |
1401 |
*(uint16 *)(kernel_data->v[0x67c >> 2]) = 1; |
1402 |
*(uint32 *)(kernel_data->v[0x658 >> 2] + 0xdc) |= kernel_data->v[0x674 >> 2]; |
1403 |
|
1404 |
// Execute nanokernel interrupt routine (this will activate the 68k emulator) |
1405 |
atomic_add((int32 *)XLM_IRQ_NEST, 1); |
1406 |
if (ROMType == ROMTYPE_NEWWORLD) |
1407 |
ppc_interrupt(ROMBase + 0x312b1c); |
1408 |
else |
1409 |
ppc_interrupt(ROMBase + 0x312a3c); |
1410 |
} |
1411 |
break; |
1412 |
#endif |
1413 |
|
1414 |
#if INTERRUPTS_IN_EMUL_OP_MODE |
1415 |
case MODE_EMUL_OP: |
1416 |
// 68k emulator active, within EMUL_OP routine, execute 68k interrupt routine directly when interrupt level is 0 |
1417 |
if ((*(uint32 *)XLM_68K_R25 & 7) == 0) { |
1418 |
|
1419 |
// Set extra stack for SIGSEGV handler |
1420 |
set_signal_stack(extra_stack, SIG_STACK_SIZE); |
1421 |
#if 1 |
1422 |
// Execute full 68k interrupt routine |
1423 |
M68kRegisters r; |
1424 |
uint32 old_r25 = *(uint32 *)XLM_68K_R25; // Save interrupt level |
1425 |
*(uint32 *)XLM_68K_R25 = 0x21; // Execute with interrupt level 1 |
1426 |
static const uint16 proc[] = { |
1427 |
0x3f3c, 0x0000, // move.w #$0000,-(sp) (fake format word) |
1428 |
0x487a, 0x000a, // pea @1(pc) (return address) |
1429 |
0x40e7, // move sr,-(sp) (saved SR) |
1430 |
0x2078, 0x0064, // move.l $64,a0 |
1431 |
0x4ed0, // jmp (a0) |
1432 |
M68K_RTS // @1 |
1433 |
}; |
1434 |
Execute68k((uint32)proc, &r); |
1435 |
*(uint32 *)XLM_68K_R25 = old_r25; // Restore interrupt level |
1436 |
#else |
1437 |
// Only update cursor |
1438 |
if (HasMacStarted()) { |
1439 |
if (InterruptFlags & INTFLAG_VIA) { |
1440 |
ClearInterruptFlag(INTFLAG_VIA); |
1441 |
ADBInterrupt(); |
1442 |
ExecuteNative(NATIVE_VIDEO_VBL); |
1443 |
} |
1444 |
} |
1445 |
#endif |
1446 |
// Reset normal signal stack |
1447 |
set_signal_stack(sig_stack, SIG_STACK_SIZE); |
1448 |
} |
1449 |
break; |
1450 |
#endif |
1451 |
} |
1452 |
} |
1453 |
|
1454 |
|
1455 |
/* |
1456 |
* SIGSEGV handler |
1457 |
*/ |
1458 |
|
1459 |
static uint32 segv_r[32]; |
1460 |
|
1461 |
#if !EMULATED_PPC |
1462 |
asm void SheepShaver::sigsegv_invoc(register int sig, register void *arg, register vregs *r) |
1463 |
{ |
1464 |
mflr r0 |
1465 |
stw r0,8(r1) |
1466 |
stwu r1,-56(r1) |
1467 |
|
1468 |
lwz r3,segv_r(r2) |
1469 |
stmw r13,13*4(r3) |
1470 |
|
1471 |
mr r3,r5 |
1472 |
bl sigsegv_handler |
1473 |
|
1474 |
lwz r3,segv_r(r2) |
1475 |
lmw r13,13*4(r3) |
1476 |
|
1477 |
lwz r0,56+8(r1) |
1478 |
mtlr r0 |
1479 |
addi r1,r1,56 |
1480 |
blr |
1481 |
} |
1482 |
#endif |
1483 |
|
1484 |
static void sigsegv_handler(vregs *r) |
1485 |
{ |
1486 |
char str[256]; |
1487 |
|
1488 |
// Fetch volatile registers |
1489 |
segv_r[0] = r->r0; |
1490 |
segv_r[1] = r->r1; |
1491 |
segv_r[2] = r->r2; |
1492 |
segv_r[3] = r->r3; |
1493 |
segv_r[4] = r->r4; |
1494 |
segv_r[5] = r->r5; |
1495 |
segv_r[6] = r->r6; |
1496 |
segv_r[7] = r->r7; |
1497 |
segv_r[8] = r->r8; |
1498 |
segv_r[9] = r->r9; |
1499 |
segv_r[10] = r->r10; |
1500 |
segv_r[11] = r->r11; |
1501 |
segv_r[12] = r->r12; |
1502 |
|
1503 |
// Get opcode and divide into fields |
1504 |
uint32 opcode = *(uint32 *)r->pc; |
1505 |
uint32 primop = opcode >> 26; |
1506 |
uint32 exop = (opcode >> 1) & 0x3ff; |
1507 |
uint32 ra = (opcode >> 16) & 0x1f; |
1508 |
uint32 rb = (opcode >> 11) & 0x1f; |
1509 |
uint32 rd = (opcode >> 21) & 0x1f; |
1510 |
uint32 imm = opcode & 0xffff; |
1511 |
|
1512 |
// Fault in Mac ROM or RAM? |
1513 |
bool mac_fault = (r->pc >= ROMBase) && (r->pc < (ROMBase + ROM_AREA_SIZE)) || (r->pc >= RAMBase) && (r->pc < (RAMBase + RAMSize)); |
1514 |
if (mac_fault) { |
1515 |
|
1516 |
// "VM settings" during MacOS 8 installation |
1517 |
if (r->pc == ROMBase + 0x488160 && segv_r[20] == 0xf8000000) { |
1518 |
r->pc += 4; |
1519 |
segv_r[8] = 0; |
1520 |
goto rti; |
1521 |
|
1522 |
// MacOS 8.5 installation |
1523 |
} else if (r->pc == ROMBase + 0x488140 && segv_r[16] == 0xf8000000) { |
1524 |
r->pc += 4; |
1525 |
segv_r[8] = 0; |
1526 |
goto rti; |
1527 |
|
1528 |
// MacOS 8 serial drivers on startup |
1529 |
} else if (r->pc == ROMBase + 0x48e080 && (segv_r[8] == 0xf3012002 || segv_r[8] == 0xf3012000)) { |
1530 |
r->pc += 4; |
1531 |
segv_r[8] = 0; |
1532 |
goto rti; |
1533 |
|
1534 |
// MacOS 8.1 serial drivers on startup |
1535 |
} else if (r->pc == ROMBase + 0x48c5e0 && (segv_r[20] == 0xf3012002 || segv_r[20] == 0xf3012000)) { |
1536 |
r->pc += 4; |
1537 |
goto rti; |
1538 |
} else if (r->pc == ROMBase + 0x4a10a0 && (segv_r[20] == 0xf3012002 || segv_r[20] == 0xf3012000)) { |
1539 |
r->pc += 4; |
1540 |
goto rti; |
1541 |
} |
1542 |
} |
1543 |
|
1544 |
// Analyze opcode |
1545 |
enum { |
1546 |
TYPE_UNKNOWN, |
1547 |
TYPE_LOAD, |
1548 |
TYPE_STORE |
1549 |
} transfer_type = TYPE_UNKNOWN; |
1550 |
enum { |
1551 |
SIZE_UNKNOWN, |
1552 |
SIZE_BYTE, |
1553 |
SIZE_HALFWORD, |
1554 |
SIZE_WORD |
1555 |
} transfer_size = SIZE_UNKNOWN; |
1556 |
enum { |
1557 |
MODE_UNKNOWN, |
1558 |
MODE_NORM, |
1559 |
MODE_U, |
1560 |
MODE_X, |
1561 |
MODE_UX |
1562 |
} addr_mode = MODE_UNKNOWN; |
1563 |
switch (primop) { |
1564 |
case 31: |
1565 |
switch (exop) { |
1566 |
case 23: // lwzx |
1567 |
transfer_type = TYPE_LOAD; transfer_size = SIZE_WORD; addr_mode = MODE_X; break; |
1568 |
case 55: // lwzux |
1569 |
transfer_type = TYPE_LOAD; transfer_size = SIZE_WORD; addr_mode = MODE_UX; break; |
1570 |
case 87: // lbzx |
1571 |
transfer_type = TYPE_LOAD; transfer_size = SIZE_BYTE; addr_mode = MODE_X; break; |
1572 |
case 119: // lbzux |
1573 |
transfer_type = TYPE_LOAD; transfer_size = SIZE_BYTE; addr_mode = MODE_UX; break; |
1574 |
case 151: // stwx |
1575 |
transfer_type = TYPE_STORE; transfer_size = SIZE_WORD; addr_mode = MODE_X; break; |
1576 |
case 183: // stwux |
1577 |
transfer_type = TYPE_STORE; transfer_size = SIZE_WORD; addr_mode = MODE_UX; break; |
1578 |
case 215: // stbx |
1579 |
transfer_type = TYPE_STORE; transfer_size = SIZE_BYTE; addr_mode = MODE_X; break; |
1580 |
case 247: // stbux |
1581 |
transfer_type = TYPE_STORE; transfer_size = SIZE_BYTE; addr_mode = MODE_UX; break; |
1582 |
case 279: // lhzx |
1583 |
transfer_type = TYPE_LOAD; transfer_size = SIZE_HALFWORD; addr_mode = MODE_X; break; |
1584 |
case 311: // lhzux |
1585 |
transfer_type = TYPE_LOAD; transfer_size = SIZE_HALFWORD; addr_mode = MODE_UX; break; |
1586 |
case 343: // lhax |
1587 |
transfer_type = TYPE_LOAD; transfer_size = SIZE_HALFWORD; addr_mode = MODE_X; break; |
1588 |
case 375: // lhaux |
1589 |
transfer_type = TYPE_LOAD; transfer_size = SIZE_HALFWORD; addr_mode = MODE_UX; break; |
1590 |
case 407: // sthx |
1591 |
transfer_type = TYPE_STORE; transfer_size = SIZE_HALFWORD; addr_mode = MODE_X; break; |
1592 |
case 439: // sthux |
1593 |
transfer_type = TYPE_STORE; transfer_size = SIZE_HALFWORD; addr_mode = MODE_UX; break; |
1594 |
} |
1595 |
break; |
1596 |
|
1597 |
case 32: // lwz |
1598 |
transfer_type = TYPE_LOAD; transfer_size = SIZE_WORD; addr_mode = MODE_NORM; break; |
1599 |
case 33: // lwzu |
1600 |
transfer_type = TYPE_LOAD; transfer_size = SIZE_WORD; addr_mode = MODE_U; break; |
1601 |
case 34: // lbz |
1602 |
transfer_type = TYPE_LOAD; transfer_size = SIZE_BYTE; addr_mode = MODE_NORM; break; |
1603 |
case 35: // lbzu |
1604 |
transfer_type = TYPE_LOAD; transfer_size = SIZE_BYTE; addr_mode = MODE_U; break; |
1605 |
case 36: // stw |
1606 |
transfer_type = TYPE_STORE; transfer_size = SIZE_WORD; addr_mode = MODE_NORM; break; |
1607 |
case 37: // stwu |
1608 |
transfer_type = TYPE_STORE; transfer_size = SIZE_WORD; addr_mode = MODE_U; break; |
1609 |
case 38: // stb |
1610 |
transfer_type = TYPE_STORE; transfer_size = SIZE_BYTE; addr_mode = MODE_NORM; break; |
1611 |
case 39: // stbu |
1612 |
transfer_type = TYPE_STORE; transfer_size = SIZE_BYTE; addr_mode = MODE_U; break; |
1613 |
case 40: // lhz |
1614 |
transfer_type = TYPE_LOAD; transfer_size = SIZE_HALFWORD; addr_mode = MODE_NORM; break; |
1615 |
case 41: // lhzu |
1616 |
transfer_type = TYPE_LOAD; transfer_size = SIZE_HALFWORD; addr_mode = MODE_U; break; |
1617 |
case 42: // lha |
1618 |
transfer_type = TYPE_LOAD; transfer_size = SIZE_HALFWORD; addr_mode = MODE_NORM; break; |
1619 |
case 43: // lhau |
1620 |
transfer_type = TYPE_LOAD; transfer_size = SIZE_HALFWORD; addr_mode = MODE_U; break; |
1621 |
case 44: // sth |
1622 |
transfer_type = TYPE_STORE; transfer_size = SIZE_HALFWORD; addr_mode = MODE_NORM; break; |
1623 |
case 45: // sthu |
1624 |
transfer_type = TYPE_STORE; transfer_size = SIZE_HALFWORD; addr_mode = MODE_U; break; |
1625 |
} |
1626 |
|
1627 |
// Calculate effective address |
1628 |
uint32 addr = 0; |
1629 |
switch (addr_mode) { |
1630 |
case MODE_X: |
1631 |
case MODE_UX: |
1632 |
if (ra == 0) |
1633 |
addr = segv_r[rb]; |
1634 |
else |
1635 |
addr = segv_r[ra] + segv_r[rb]; |
1636 |
break; |
1637 |
case MODE_NORM: |
1638 |
case MODE_U: |
1639 |
if (ra == 0) |
1640 |
addr = (int32)(int16)imm; |
1641 |
else |
1642 |
addr = segv_r[ra] + (int32)(int16)imm; |
1643 |
break; |
1644 |
default: |
1645 |
break; |
1646 |
} |
1647 |
|
1648 |
// Ignore ROM writes |
1649 |
if (transfer_type == TYPE_STORE && addr >= ROMBase && addr < ROMBase + ROM_SIZE) { |
1650 |
D(bug("WARNING: %s write access to ROM at %p, pc %p\n", transfer_size == SIZE_BYTE ? "Byte" : transfer_size == SIZE_HALFWORD ? "Halfword" : "Word", addr, r->pc)); |
1651 |
if (addr_mode == MODE_U || addr_mode == MODE_UX) |
1652 |
segv_r[ra] = addr; |
1653 |
r->pc += 4; |
1654 |
goto rti; |
1655 |
} |
1656 |
|
1657 |
// Fault in Mac ROM or RAM? |
1658 |
if (mac_fault) { |
1659 |
|
1660 |
// Ignore illegal memory accesses? |
1661 |
if (PrefsFindBool("ignoresegv")) { |
1662 |
if (addr_mode == MODE_U || addr_mode == MODE_UX) |
1663 |
segv_r[ra] = addr; |
1664 |
if (transfer_type == TYPE_LOAD) |
1665 |
segv_r[rd] = 0; |
1666 |
r->pc += 4; |
1667 |
goto rti; |
1668 |
} |
1669 |
|
1670 |
// In GUI mode, show error alert |
1671 |
if (!PrefsFindBool("nogui")) { |
1672 |
if (transfer_type == TYPE_LOAD || transfer_type == TYPE_STORE) |
1673 |
sprintf(str, GetString(STR_MEM_ACCESS_ERR), transfer_size == SIZE_BYTE ? "byte" : transfer_size == SIZE_HALFWORD ? "halfword" : "word", transfer_type == TYPE_LOAD ? GetString(STR_MEM_ACCESS_READ) : GetString(STR_MEM_ACCESS_WRITE), addr, r->pc, segv_r[24], segv_r[1]); |
1674 |
else |
1675 |
sprintf(str, GetString(STR_UNKNOWN_SEGV_ERR), r->pc, segv_r[24], segv_r[1], opcode); |
1676 |
ErrorAlert(str); |
1677 |
QuitEmulator(); |
1678 |
return; |
1679 |
} |
1680 |
} |
1681 |
|
1682 |
// For all other errors, jump into debugger |
1683 |
sprintf(str, "SIGSEGV\n" |
1684 |
" pc %08lx lr %08lx ctr %08lx msr %08lx\n" |
1685 |
" xer %08lx cr %08lx fpscr %08lx\n" |
1686 |
" r0 %08lx r1 %08lx r2 %08lx r3 %08lx\n" |
1687 |
" r4 %08lx r5 %08lx r6 %08lx r7 %08lx\n" |
1688 |
" r8 %08lx r9 %08lx r10 %08lx r11 %08lx\n" |
1689 |
" r12 %08lx r13 %08lx r14 %08lx r15 %08lx\n" |
1690 |
" r16 %08lx r17 %08lx r18 %08lx r19 %08lx\n" |
1691 |
" r20 %08lx r21 %08lx r22 %08lx r23 %08lx\n" |
1692 |
" r24 %08lx r25 %08lx r26 %08lx r27 %08lx\n" |
1693 |
" r28 %08lx r29 %08lx r30 %08lx r31 %08lx\n", |
1694 |
r->pc, r->lr, r->ctr, r->msr, |
1695 |
r->xer, r->cr, r->fpscr, |
1696 |
r->r0, r->r1, r->r2, r->r3, |
1697 |
r->r4, r->r5, r->r6, r->r7, |
1698 |
r->r8, r->r9, r->r10, r->r11, |
1699 |
r->r12, segv_r[13], segv_r[14], segv_r[15], |
1700 |
segv_r[16], segv_r[17], segv_r[18], segv_r[19], |
1701 |
segv_r[20], segv_r[21], segv_r[22], segv_r[23], |
1702 |
segv_r[24], segv_r[25], segv_r[26], segv_r[27], |
1703 |
segv_r[28], segv_r[29], segv_r[30], segv_r[31]); |
1704 |
VideoQuitFullScreen(); |
1705 |
disable_debugger(false); |
1706 |
debugger(str); |
1707 |
exit(1); |
1708 |
return; |
1709 |
|
1710 |
rti: |
1711 |
// Restore volatile registers |
1712 |
r->r0 = segv_r[0]; |
1713 |
r->r1 = segv_r[1]; |
1714 |
r->r2 = segv_r[2]; |
1715 |
r->r3 = segv_r[3]; |
1716 |
r->r4 = segv_r[4]; |
1717 |
r->r5 = segv_r[5]; |
1718 |
r->r6 = segv_r[6]; |
1719 |
r->r7 = segv_r[7]; |
1720 |
r->r8 = segv_r[8]; |
1721 |
r->r9 = segv_r[9]; |
1722 |
r->r10 = segv_r[10]; |
1723 |
r->r11 = segv_r[11]; |
1724 |
r->r12 = segv_r[12]; |
1725 |
} |
1726 |
|
1727 |
|
1728 |
/* |
1729 |
* SIGILL handler |
1730 |
*/ |
1731 |
|
1732 |
#if !EMULATED_PPC |
1733 |
asm void SheepShaver::sigill_invoc(register int sig, register void *arg, register vregs *r) |
1734 |
{ |
1735 |
mflr r0 |
1736 |
stw r0,8(r1) |
1737 |
stwu r1,-56(r1) |
1738 |
|
1739 |
lwz r3,segv_r(r2) |
1740 |
stmw r13,13*4(r3) |
1741 |
|
1742 |
mr r3,r5 |
1743 |
bl sigill_handler |
1744 |
|
1745 |
lwz r3,segv_r(r2) |
1746 |
lmw r13,13*4(r3) |
1747 |
|
1748 |
lwz r0,56+8(r1) |
1749 |
mtlr r0 |
1750 |
addi r1,r1,56 |
1751 |
blr |
1752 |
} |
1753 |
#endif |
1754 |
|
1755 |
static void sigill_handler(vregs *r) |
1756 |
{ |
1757 |
char str[256]; |
1758 |
|
1759 |
// Fetch volatile registers |
1760 |
segv_r[0] = r->r0; |
1761 |
segv_r[1] = r->r1; |
1762 |
segv_r[2] = r->r2; |
1763 |
segv_r[3] = r->r3; |
1764 |
segv_r[4] = r->r4; |
1765 |
segv_r[5] = r->r5; |
1766 |
segv_r[6] = r->r6; |
1767 |
segv_r[7] = r->r7; |
1768 |
segv_r[8] = r->r8; |
1769 |
segv_r[9] = r->r9; |
1770 |
segv_r[10] = r->r10; |
1771 |
segv_r[11] = r->r11; |
1772 |
segv_r[12] = r->r12; |
1773 |
|
1774 |
// Get opcode and divide into fields |
1775 |
uint32 opcode = *(uint32 *)r->pc; |
1776 |
uint32 primop = opcode >> 26; |
1777 |
uint32 exop = (opcode >> 1) & 0x3ff; |
1778 |
uint32 ra = (opcode >> 16) & 0x1f; |
1779 |
uint32 rb = (opcode >> 11) & 0x1f; |
1780 |
uint32 rd = (opcode >> 21) & 0x1f; |
1781 |
uint32 imm = opcode & 0xffff; |
1782 |
|
1783 |
// Fault in Mac ROM or RAM? |
1784 |
bool mac_fault = (r->pc >= ROMBase) && (r->pc < (ROMBase + ROM_AREA_SIZE)) || (r->pc >= RAMBase) && (r->pc < (RAMBase + RAMSize)); |
1785 |
if (mac_fault) { |
1786 |
|
1787 |
switch (primop) { |
1788 |
case 9: // POWER instructions |
1789 |
case 22: |
1790 |
power_inst: sprintf(str, GetString(STR_POWER_INSTRUCTION_ERR), r->pc, segv_r[1], opcode); |
1791 |
ErrorAlert(str); |
1792 |
QuitEmulator(); |
1793 |
return; |
1794 |
|
1795 |
case 31: |
1796 |
switch (exop) { |
1797 |
case 83: // mfmsr |
1798 |
segv_r[rd] = 0xf072; |
1799 |
r->pc += 4; |
1800 |
goto rti; |
1801 |
|
1802 |
case 210: // mtsr |
1803 |
case 242: // mtsrin |
1804 |
case 306: // tlbie |
1805 |
r->pc += 4; |
1806 |
goto rti; |
1807 |
|
1808 |
case 339: { // mfspr |
1809 |
int spr = ra | (rb << 5); |
1810 |
switch (spr) { |
1811 |
case 0: // MQ |
1812 |
case 22: // DEC |
1813 |
case 952: // MMCR0 |
1814 |
case 953: // PMC1 |
1815 |
case 954: // PMC2 |
1816 |
case 955: // SIA |
1817 |
case 956: // MMCR1 |
1818 |
case 957: // PMC3 |
1819 |
case 958: // PMC4 |
1820 |
case 959: // SDA |
1821 |
r->pc += 4; |
1822 |
goto rti; |
1823 |
case 25: // SDR1 |
1824 |
segv_r[rd] = 0xdead001f; |
1825 |
r->pc += 4; |
1826 |
goto rti; |
1827 |
case 287: // PVR |
1828 |
segv_r[rd] = PVR; |
1829 |
r->pc += 4; |
1830 |
goto rti; |
1831 |
} |
1832 |
break; |
1833 |
} |
1834 |
|
1835 |
case 467: { // mtspr |
1836 |
int spr = ra | (rb << 5); |
1837 |
switch (spr) { |
1838 |
case 0: // MQ |
1839 |
case 22: // DEC |
1840 |
case 275: // SPRG3 |
1841 |
case 528: // IBAT0U |
1842 |
case 529: // IBAT0L |
1843 |
case 530: // IBAT1U |
1844 |
case 531: // IBAT1L |
1845 |
case 532: // IBAT2U |
1846 |
case 533: // IBAT2L |
1847 |
case 534: // IBAT3U |
1848 |
case 535: // IBAT3L |
1849 |
case 536: // DBAT0U |
1850 |
case 537: // DBAT0L |
1851 |
case 538: // DBAT1U |
1852 |
case 539: // DBAT1L |
1853 |
case 540: // DBAT2U |
1854 |
case 541: // DBAT2L |
1855 |
case 542: // DBAT3U |
1856 |
case 543: // DBAT3L |
1857 |
case 952: // MMCR0 |
1858 |
case 953: // PMC1 |
1859 |
case 954: // PMC2 |
1860 |
case 955: // SIA |
1861 |
case 956: // MMCR1 |
1862 |
case 957: // PMC3 |
1863 |
case 958: // PMC4 |
1864 |
case 959: // SDA |
1865 |
r->pc += 4; |
1866 |
goto rti; |
1867 |
} |
1868 |
break; |
1869 |
} |
1870 |
|
1871 |
case 29: case 107: case 152: case 153: // POWER instructions |
1872 |
case 184: case 216: case 217: case 248: |
1873 |
case 264: case 277: case 331: case 360: |
1874 |
case 363: case 488: case 531: case 537: |
1875 |
case 541: case 664: case 665: case 696: |
1876 |
case 728: case 729: case 760: case 920: |
1877 |
case 921: case 952: |
1878 |
goto power_inst; |
1879 |
} |
1880 |
} |
1881 |
|
1882 |
// In GUI mode, show error alert |
1883 |
if (!PrefsFindBool("nogui")) { |
1884 |
sprintf(str, GetString(STR_UNKNOWN_SEGV_ERR), r->pc, segv_r[24], segv_r[1], opcode); |
1885 |
ErrorAlert(str); |
1886 |
QuitEmulator(); |
1887 |
return; |
1888 |
} |
1889 |
} |
1890 |
|
1891 |
// For all other errors, jump into debugger |
1892 |
sprintf(str, "SIGILL\n" |
1893 |
" pc %08lx lr %08lx ctr %08lx msr %08lx\n" |
1894 |
" xer %08lx cr %08lx fpscr %08lx\n" |
1895 |
" r0 %08lx r1 %08lx r2 %08lx r3 %08lx\n" |
1896 |
" r4 %08lx r5 %08lx r6 %08lx r7 %08lx\n" |
1897 |
" r8 %08lx r9 %08lx r10 %08lx r11 %08lx\n" |
1898 |
" r12 %08lx r13 %08lx r14 %08lx r15 %08lx\n" |
1899 |
" r16 %08lx r17 %08lx r18 %08lx r19 %08lx\n" |
1900 |
" r20 %08lx r21 %08lx r22 %08lx r23 %08lx\n" |
1901 |
" r24 %08lx r25 %08lx r26 %08lx r27 %08lx\n" |
1902 |
" r28 %08lx r29 %08lx r30 %08lx r31 %08lx\n", |
1903 |
r->pc, r->lr, r->ctr, r->msr, |
1904 |
r->xer, r->cr, r->fpscr, |
1905 |
r->r0, r->r1, r->r2, r->r3, |
1906 |
r->r4, r->r5, r->r6, r->r7, |
1907 |
r->r8, r->r9, r->r10, r->r11, |
1908 |
r->r12, segv_r[13], segv_r[14], segv_r[15], |
1909 |
segv_r[16], segv_r[17], segv_r[18], segv_r[19], |
1910 |
segv_r[20], segv_r[21], segv_r[22], segv_r[23], |
1911 |
segv_r[24], segv_r[25], segv_r[26], segv_r[27], |
1912 |
segv_r[28], segv_r[29], segv_r[30], segv_r[31]); |
1913 |
VideoQuitFullScreen(); |
1914 |
disable_debugger(false); |
1915 |
debugger(str); |
1916 |
exit(1); |
1917 |
return; |
1918 |
|
1919 |
rti: |
1920 |
// Restore volatile registers |
1921 |
r->r0 = segv_r[0]; |
1922 |
r->r1 = segv_r[1]; |
1923 |
r->r2 = segv_r[2]; |
1924 |
r->r3 = segv_r[3]; |
1925 |
r->r4 = segv_r[4]; |
1926 |
r->r5 = segv_r[5]; |
1927 |
r->r6 = segv_r[6]; |
1928 |
r->r7 = segv_r[7]; |
1929 |
r->r8 = segv_r[8]; |
1930 |
r->r9 = segv_r[9]; |
1931 |
r->r10 = segv_r[10]; |
1932 |
r->r11 = segv_r[11]; |
1933 |
r->r12 = segv_r[12]; |
1934 |
} |
1935 |
|
1936 |
|
1937 |
/* |
1938 |
* Helpers to share 32-bit addressable data with MacOS |
1939 |
*/ |
1940 |
|
1941 |
bool SheepMem::Init(void) |
1942 |
{ |
1943 |
// Delete old area |
1944 |
area_id old_sheep_area = find_area(SHEEP_AREA_NAME); |
1945 |
if (old_sheep_area > 0) |
1946 |
delete_area(old_sheep_area); |
1947 |
|
1948 |
// Create area for SheepShaver data |
1949 |
proc = base = 0x60000000; |
1950 |
SheepMemArea = create_area(SHEEP_AREA_NAME, (void **)&base, B_BASE_ADDRESS, size, B_NO_LOCK, B_READ_AREA | B_WRITE_AREA); |
1951 |
if (SheepMemArea < 0) |
1952 |
return false; |
1953 |
|
1954 |
// Create read-only area with all bits set to 0 |
1955 |
static const uint8 const_zero_page[4096] = {0,}; |
1956 |
zero_page = const_zero_page; |
1957 |
|
1958 |
D(bug("SheepShaver area %ld at %p\n", SheepMemArea, base)); |
1959 |
data = base + size; |
1960 |
return true; |
1961 |
} |
1962 |
|
1963 |
void SheepMem::Exit(void) |
1964 |
{ |
1965 |
if (SheepMemArea >= 0) |
1966 |
delete_area(SheepMemArea); |
1967 |
} |
1968 |
|
1969 |
|
1970 |
/* |
1971 |
* Display error alert |
1972 |
*/ |
1973 |
|
1974 |
void ErrorAlert(const char *text) |
1975 |
{ |
1976 |
if (PrefsFindBool("nogui")) { |
1977 |
printf(GetString(STR_SHELL_ERROR_PREFIX), text); |
1978 |
return; |
1979 |
} |
1980 |
char str[256]; |
1981 |
sprintf(str, GetString(STR_GUI_ERROR_PREFIX), text); |
1982 |
VideoQuitFullScreen(); |
1983 |
BAlert *alert = new BAlert(GetString(STR_ERROR_ALERT_TITLE), str, GetString(STR_QUIT_BUTTON), NULL, NULL, B_WIDTH_AS_USUAL, B_STOP_ALERT); |
1984 |
alert->Go(); |
1985 |
} |
1986 |
|
1987 |
|
1988 |
/* |
1989 |
* Display warning alert |
1990 |
*/ |
1991 |
|
1992 |
void WarningAlert(const char *text) |
1993 |
{ |
1994 |
if (PrefsFindBool("nogui")) { |
1995 |
printf(GetString(STR_SHELL_WARNING_PREFIX), text); |
1996 |
return; |
1997 |
} |
1998 |
char str[256]; |
1999 |
sprintf(str, GetString(STR_GUI_WARNING_PREFIX), text); |
2000 |
BAlert *alert = new BAlert(GetString(STR_WARNING_ALERT_TITLE), str, GetString(STR_OK_BUTTON), NULL, NULL, B_WIDTH_AS_USUAL, B_INFO_ALERT); |
2001 |
alert->Go(); |
2002 |
} |
2003 |
|
2004 |
|
2005 |
/* |
2006 |
* Display choice alert |
2007 |
*/ |
2008 |
|
2009 |
bool ChoiceAlert(const char *text, const char *pos, const char *neg) |
2010 |
{ |
2011 |
char str[256]; |
2012 |
sprintf(str, GetString(STR_GUI_WARNING_PREFIX), text); |
2013 |
BAlert *alert = new BAlert(GetString(STR_WARNING_ALERT_TITLE), str, pos, neg, NULL, B_WIDTH_AS_USUAL, B_INFO_ALERT); |
2014 |
return alert->Go() == 0; |
2015 |
} |