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/* |
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* sheepshaver_glue.cpp - Glue Kheperix CPU to SheepShaver CPU engine interface |
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* |
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* SheepShaver (C) 1997-2005 Christian Bauer and Marc Hellwig |
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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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#define DEBUG 0 |
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#include "debug.h" |
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|
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extern "C" { |
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#include "dis-asm.h" |
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} |
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|
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// Emulation time statistics |
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#ifndef EMUL_TIME_STATS |
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#define EMUL_TIME_STATS 0 |
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void interrupt(uint32 entry); |
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|
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// Make sure the SIGSEGV handler can access CPU registers |
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friend sigsegv_return_t sigsegv_handler(sigsegv_address_t, sigsegv_address_t); |
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friend sigsegv_return_t sigsegv_handler(sigsegv_info_t *sip); |
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}; |
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sheepshaver_cpu::sheepshaver_cpu() |
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ppc_cpu->dump_log(); |
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} |
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|
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/* |
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* Initialize CPU emulation |
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*/ |
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static int read_mem(bfd_vma memaddr, bfd_byte *myaddr, int length, struct disassemble_info *info) |
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{ |
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Mac2Host_memcpy(myaddr, memaddr, length); |
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return 0; |
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} |
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sigsegv_return_t sigsegv_handler(sigsegv_address_t fault_address, sigsegv_address_t fault_instruction) |
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static void dump_disassembly(const uint32 pc, const int prefix_count, const int suffix_count) |
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{ |
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struct disassemble_info info; |
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INIT_DISASSEMBLE_INFO(info, stderr, fprintf); |
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info.read_memory_func = read_mem; |
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|
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const int count = prefix_count + suffix_count + 1; |
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const uint32 base_addr = pc - prefix_count * 4; |
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for (int i = 0; i < count; i++) { |
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const bfd_vma addr = base_addr + i * 4; |
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fprintf(stderr, "%s0x%8llx: ", addr == pc ? " >" : " ", addr); |
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print_insn_ppc(addr, &info); |
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fprintf(stderr, "\n"); |
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} |
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} |
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|
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sigsegv_return_t sigsegv_handler(sigsegv_info_t *sip) |
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{ |
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#if ENABLE_VOSF |
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// Handle screen fault |
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extern bool Screen_fault_handler(sigsegv_address_t, sigsegv_address_t); |
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if (Screen_fault_handler(fault_address, fault_instruction)) |
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extern bool Screen_fault_handler(sigsegv_info_t *sip); |
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if (Screen_fault_handler(sip)) |
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return SIGSEGV_RETURN_SUCCESS; |
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#endif |
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|
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const uintptr addr = (uintptr)fault_address; |
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const uintptr addr = (uintptr)sigsegv_get_fault_address(sip); |
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#if HAVE_SIGSEGV_SKIP_INSTRUCTION |
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// Ignore writes to ROM |
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if ((addr - (uintptr)ROMBaseHost) < ROM_SIZE) |
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const uint32 pc = cpu->pc(); |
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|
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// Fault in Mac ROM or RAM? |
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bool mac_fault = (pc >= ROM_BASE) && (pc < (ROM_BASE + ROM_AREA_SIZE)) || (pc >= RAMBase) && (pc < (RAMBase + RAMSize)) || (pc >= DR_CACHE_BASE && pc < (DR_CACHE_BASE + DR_CACHE_SIZE)); |
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bool mac_fault = (pc >= ROMBase) && (pc < (ROMBase + ROM_AREA_SIZE)) || (pc >= RAMBase) && (pc < (RAMBase + RAMSize)) || (pc >= DR_CACHE_BASE && pc < (DR_CACHE_BASE + DR_CACHE_SIZE)); |
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if (mac_fault) { |
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// "VM settings" during MacOS 8 installation |
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if (pc == ROM_BASE + 0x488160 && cpu->gpr(20) == 0xf8000000) |
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if (pc == ROMBase + 0x488160 && cpu->gpr(20) == 0xf8000000) |
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return SIGSEGV_RETURN_SKIP_INSTRUCTION; |
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|
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// MacOS 8.5 installation |
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else if (pc == ROM_BASE + 0x488140 && cpu->gpr(16) == 0xf8000000) |
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else if (pc == ROMBase + 0x488140 && cpu->gpr(16) == 0xf8000000) |
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return SIGSEGV_RETURN_SKIP_INSTRUCTION; |
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|
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// MacOS 8 serial drivers on startup |
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else if (pc == ROM_BASE + 0x48e080 && (cpu->gpr(8) == 0xf3012002 || cpu->gpr(8) == 0xf3012000)) |
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else if (pc == ROMBase + 0x48e080 && (cpu->gpr(8) == 0xf3012002 || cpu->gpr(8) == 0xf3012000)) |
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return SIGSEGV_RETURN_SKIP_INSTRUCTION; |
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|
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// MacOS 8.1 serial drivers on startup |
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else if (pc == ROM_BASE + 0x48c5e0 && (cpu->gpr(20) == 0xf3012002 || cpu->gpr(20) == 0xf3012000)) |
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else if (pc == ROMBase + 0x48c5e0 && (cpu->gpr(20) == 0xf3012002 || cpu->gpr(20) == 0xf3012000)) |
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return SIGSEGV_RETURN_SKIP_INSTRUCTION; |
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else if (pc == ROM_BASE + 0x4a10a0 && (cpu->gpr(20) == 0xf3012002 || cpu->gpr(20) == 0xf3012000)) |
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else if (pc == ROMBase + 0x4a10a0 && (cpu->gpr(20) == 0xf3012002 || cpu->gpr(20) == 0xf3012000)) |
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return SIGSEGV_RETURN_SKIP_INSTRUCTION; |
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// MacOS 8.6 serial drivers on startup (with DR Cache and OldWorld ROM) |
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#endif |
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fprintf(stderr, "SIGSEGV\n"); |
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fprintf(stderr, " pc %p\n", fault_instruction); |
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fprintf(stderr, " ea %p\n", fault_address); |
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fprintf(stderr, " pc %p\n", sigsegv_get_fault_instruction_address(sip)); |
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fprintf(stderr, " ea %p\n", sigsegv_get_fault_address(sip)); |
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dump_registers(); |
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ppc_cpu->dump_log(); |
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dump_disassembly(pc, 8, 8); |
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|
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enter_mon(); |
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QuitEmulator(); |
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return SIGSEGV_RETURN_FAILURE; |
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} |
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|
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/* |
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* Initialize CPU emulation |
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*/ |
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|
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void init_emul_ppc(void) |
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{ |
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// Get pointer to KernelData in host address space |
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|
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// Initialize main CPU emulator |
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ppc_cpu = new sheepshaver_cpu(); |
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ppc_cpu->set_register(powerpc_registers::GPR(3), any_register((uint32)ROM_BASE + 0x30d000)); |
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ppc_cpu->set_register(powerpc_registers::GPR(3), any_register((uint32)ROMBase + 0x30d000)); |
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ppc_cpu->set_register(powerpc_registers::GPR(4), any_register(KernelDataAddr + 0x1000)); |
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WriteMacInt32(XLM_RUN_MODE, MODE_68K); |
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// Execute nanokernel interrupt routine (this will activate the 68k emulator) |
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DisableInterrupt(); |
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if (ROMType == ROMTYPE_NEWWORLD) |
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ppc_cpu->interrupt(ROM_BASE + 0x312b1c); |
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ppc_cpu->interrupt(ROMBase + 0x312b1c); |
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else |
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ppc_cpu->interrupt(ROM_BASE + 0x312a3c); |
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ppc_cpu->interrupt(ROMBase + 0x312a3c); |
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} |
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break; |
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#endif |