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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) 1997-2004 Christian Bauer and Marc Hellwig |
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* SheepShaver (C) 1997-2005 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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#include <stdio.h> |
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#include <stdlib.h> |
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#ifdef HAVE_MALLOC_H |
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#include <malloc.h> |
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#endif |
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|
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#ifdef USE_SDL_VIDEO |
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#include <SDL_events.h> |
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// PowerPC EmulOp to exit from emulation looop |
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const uint32 POWERPC_EXEC_RETURN = POWERPC_EMUL_OP | 1; |
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|
93 |
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// Enable interrupt routine safety checks? |
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#define SAFE_INTERRUPT_PPC 1 |
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|
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// Enable Execute68k() safety checks? |
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#define SAFE_EXEC_68K 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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// Enable native EMUL_OPs to be run without a mode switch |
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#define ENABLE_NATIVE_EMUL_OP 1 |
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|
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// Pointer to Kernel Data |
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static KernelData * const kernel_data = (KernelData *)KERNEL_DATA_BASE; |
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static KernelData * kernel_data; |
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|
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// SIGSEGV handler |
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sigsegv_return_t sigsegv_handler(sigsegv_address_t, sigsegv_address_t); |
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void init_decoder(); |
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void execute_sheep(uint32 opcode); |
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|
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// Filter out EMUL_OP routines that only call native code |
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bool filter_execute_emul_op(uint32 emul_op); |
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|
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// "Native" EMUL_OP routines |
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void execute_emul_op_microseconds(); |
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void execute_emul_op_idle_time_1(); |
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void execute_emul_op_idle_time_2(); |
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|
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// CPU context to preserve on interrupt |
154 |
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class interrupt_context { |
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uint32 gpr[32]; |
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uint32 pc; |
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uint32 lr; |
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uint32 ctr; |
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uint32 cr; |
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uint32 xer; |
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sheepshaver_cpu *cpu; |
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const char *where; |
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public: |
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interrupt_context(sheepshaver_cpu *_cpu, const char *_where); |
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~interrupt_context(); |
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}; |
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|
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public: |
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|
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// Constructor |
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// Execute MacOS/PPC code |
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uint32 execute_macos_code(uint32 tvect, int nargs, uint32 const *args); |
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|
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#if PPC_ENABLE_JIT |
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// Compile one instruction |
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virtual int compile1(codegen_context_t & cg_context); |
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|
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#endif |
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// Resource manager thunk |
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void get_resource(uint32 old_get_resource); |
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|
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// Handle MacOS interrupt |
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void interrupt(uint32 entry); |
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void handle_interrupt(); |
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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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}; |
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|
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// Memory allocator returning areas aligned on 16-byte boundaries |
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void *operator new(size_t size) |
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{ |
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void *p; |
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// Memory allocator returning areas aligned on 16-byte boundaries |
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void *operator new(size_t size); |
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void operator delete(void *p); |
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}; |
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|
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#if defined(HAVE_POSIX_MEMALIGN) |
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if (posix_memalign(&p, 16, size) != 0) |
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// Memory allocator returning sheepshaver_cpu objects aligned on 16-byte boundaries |
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// FORMAT: [ alignment ] magic identifier, offset to malloc'ed data, sheepshaver_cpu data |
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void *sheepshaver_cpu::operator new(size_t size) |
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{ |
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const int ALIGN = 16; |
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|
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// Allocate enough space for sheepshaver_cpu data + signature + align pad |
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uint8 *ptr = (uint8 *)malloc(size + ALIGN * 2); |
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if (ptr == NULL) |
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throw std::bad_alloc(); |
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#elif defined(HAVE_MEMALIGN) |
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p = memalign(16, size); |
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#elif defined(HAVE_VALLOC) |
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p = valloc(size); // page-aligned! |
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#else |
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/* XXX: handle padding ourselves */ |
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p = malloc(size); |
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#endif |
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|
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return p; |
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// Align memory |
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int ofs = 0; |
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while ((((uintptr)ptr) % ALIGN) != 0) |
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ofs++, ptr++; |
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|
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// Insert signature and offset |
203 |
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struct aligned_block_t { |
204 |
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uint32 pad[(ALIGN - 8) / 4]; |
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uint32 signature; |
206 |
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uint32 offset; |
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uint8 data[sizeof(sheepshaver_cpu)]; |
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}; |
209 |
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aligned_block_t *blk = (aligned_block_t *)ptr; |
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blk->signature = FOURCC('S','C','P','U'); |
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blk->offset = ofs + (&blk->data[0] - (uint8 *)blk); |
212 |
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assert((((uintptr)&blk->data) % ALIGN) == 0); |
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return &blk->data[0]; |
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} |
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|
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void operator delete(void *p) |
217 |
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{ |
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#if defined(HAVE_MEMALIGN) || defined(HAVE_VALLOC) |
219 |
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#if defined(__GLIBC__) |
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// this is known to work only with GNU libc |
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free(p); |
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#endif |
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#else |
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free(p); |
237 |
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#endif |
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void sheepshaver_cpu::operator delete(void *p) |
217 |
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{ |
218 |
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uint32 *blk = (uint32 *)p; |
219 |
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assert(blk[-2] == FOURCC('S','C','P','U')); |
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void *ptr = (void *)(((uintptr)p) - blk[-1]); |
221 |
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free(ptr); |
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} |
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sheepshaver_cpu::sheepshaver_cpu() |
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typedef bit_field< 20, 25 > NATIVE_OP_field; |
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typedef bit_field< 26, 31 > EMUL_OP_field; |
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|
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// "Native" EMUL_OP routines |
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#define GPR_A(REG) gpr(16 + (REG)) |
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#define GPR_D(REG) gpr( 8 + (REG)) |
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|
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void sheepshaver_cpu::execute_emul_op_microseconds() |
282 |
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{ |
283 |
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Microseconds(GPR_A(0), GPR_D(0)); |
284 |
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} |
285 |
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|
286 |
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void sheepshaver_cpu::execute_emul_op_idle_time_1() |
287 |
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{ |
288 |
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// Sleep if no events pending |
289 |
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if (ReadMacInt32(0x14c) == 0) |
290 |
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Delay_usec(16667); |
291 |
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GPR_A(0) = ReadMacInt32(0x2b6); |
292 |
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} |
293 |
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|
294 |
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void sheepshaver_cpu::execute_emul_op_idle_time_2() |
295 |
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{ |
296 |
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// Sleep if no events pending |
297 |
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if (ReadMacInt32(0x14c) == 0) |
298 |
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Delay_usec(16667); |
299 |
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GPR_D(0) = (uint32)-2; |
300 |
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} |
301 |
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|
302 |
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// Filter out EMUL_OP routines that only call native code |
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bool sheepshaver_cpu::filter_execute_emul_op(uint32 emul_op) |
304 |
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{ |
305 |
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switch (emul_op) { |
306 |
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case OP_MICROSECONDS: |
307 |
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execute_emul_op_microseconds(); |
308 |
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return true; |
309 |
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case OP_IDLE_TIME: |
310 |
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execute_emul_op_idle_time_1(); |
311 |
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return true; |
312 |
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case OP_IDLE_TIME_2: |
313 |
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execute_emul_op_idle_time_2(); |
314 |
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return true; |
315 |
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} |
316 |
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return false; |
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} |
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|
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// Execute EMUL_OP routine |
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void sheepshaver_cpu::execute_emul_op(uint32 emul_op) |
263 |
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{ |
322 |
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#if ENABLE_NATIVE_EMUL_OP |
323 |
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// First, filter out EMUL_OPs that can be executed without a mode switch |
324 |
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if (filter_execute_emul_op(emul_op)) |
325 |
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return; |
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#endif |
327 |
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|
264 |
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M68kRegisters r68; |
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WriteMacInt32(XLM_68K_R25, gpr(25)); |
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WriteMacInt32(XLM_RUN_MODE, MODE_EMUL_OP); |
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for (int i = 0; i < 7; i++) |
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r68.a[i] = gpr(16 + i); |
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r68.a[7] = gpr(1); |
272 |
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uint32 saved_cr = get_cr() & CR_field<2>::mask(); |
272 |
> |
uint32 saved_cr = get_cr() & 0xff9fffff; // mask_operand::compute(11, 8) |
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uint32 saved_xer = get_xer(); |
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EmulOp(&r68, gpr(24), emul_op); |
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set_cr(saved_cr); |
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} |
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|
315 |
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// Compile one instruction |
316 |
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#if PPC_ENABLE_JIT |
317 |
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int sheepshaver_cpu::compile1(codegen_context_t & cg_context) |
318 |
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{ |
382 |
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#if PPC_ENABLE_JIT |
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const instr_info_t *ii = cg_context.instr_info; |
320 |
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if (ii->mnemo != PPC_I(SHEEP)) |
321 |
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return COMPILE_FAILURE; |
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|
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default: { // EMUL_OP |
444 |
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uint32 emul_op = EMUL_OP_field::extract(opcode) - 3; |
509 |
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#if ENABLE_NATIVE_EMUL_OP |
510 |
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typedef void (*emul_op_func_t)(dyngen_cpu_base); |
511 |
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emul_op_func_t emul_op_func = 0; |
512 |
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switch (emul_op) { |
513 |
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case OP_MICROSECONDS: |
514 |
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emul_op_func = (emul_op_func_t)nv_mem_fun(&sheepshaver_cpu::execute_emul_op_microseconds).ptr(); |
515 |
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break; |
516 |
– |
case OP_IDLE_TIME: |
517 |
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emul_op_func = (emul_op_func_t)nv_mem_fun(&sheepshaver_cpu::execute_emul_op_idle_time_1).ptr(); |
518 |
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break; |
519 |
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case OP_IDLE_TIME_2: |
520 |
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emul_op_func = (emul_op_func_t)nv_mem_fun(&sheepshaver_cpu::execute_emul_op_idle_time_2).ptr(); |
521 |
– |
break; |
522 |
– |
} |
523 |
– |
if (emul_op_func) { |
524 |
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dg.gen_invoke_CPU(emul_op_func); |
525 |
– |
cg_context.done_compile = false; |
526 |
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status = COMPILE_CODE_OK; |
527 |
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break; |
528 |
– |
} |
529 |
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#endif |
445 |
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#if PPC_REENTRANT_JIT |
446 |
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// Try to execute EmulOp trampoline |
447 |
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dg.gen_set_PC_im(cg_context.pc + 4); |
461 |
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} |
462 |
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} |
463 |
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return status; |
549 |
– |
#endif |
550 |
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return COMPILE_FAILURE; |
464 |
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} |
552 |
– |
|
553 |
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// CPU context to preserve on interrupt |
554 |
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sheepshaver_cpu::interrupt_context::interrupt_context(sheepshaver_cpu *_cpu, const char *_where) |
555 |
– |
{ |
556 |
– |
#if SAFE_INTERRUPT_PPC >= 2 |
557 |
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cpu = _cpu; |
558 |
– |
where = _where; |
559 |
– |
|
560 |
– |
// Save interrupt context |
561 |
– |
memcpy(&gpr[0], &cpu->gpr(0), sizeof(gpr)); |
562 |
– |
pc = cpu->pc(); |
563 |
– |
lr = cpu->lr(); |
564 |
– |
ctr = cpu->ctr(); |
565 |
– |
cr = cpu->get_cr(); |
566 |
– |
xer = cpu->get_xer(); |
567 |
– |
#endif |
568 |
– |
} |
569 |
– |
|
570 |
– |
sheepshaver_cpu::interrupt_context::~interrupt_context() |
571 |
– |
{ |
572 |
– |
#if SAFE_INTERRUPT_PPC >= 2 |
573 |
– |
// Check whether CPU context was preserved by interrupt |
574 |
– |
if (memcmp(&gpr[0], &cpu->gpr(0), sizeof(gpr)) != 0) { |
575 |
– |
printf("FATAL: %s: interrupt clobbers registers\n", where); |
576 |
– |
for (int i = 0; i < 32; i++) |
577 |
– |
if (gpr[i] != cpu->gpr(i)) |
578 |
– |
printf(" r%d: %08x -> %08x\n", i, gpr[i], cpu->gpr(i)); |
579 |
– |
} |
580 |
– |
if (pc != cpu->pc()) |
581 |
– |
printf("FATAL: %s: interrupt clobbers PC\n", where); |
582 |
– |
if (lr != cpu->lr()) |
583 |
– |
printf("FATAL: %s: interrupt clobbers LR\n", where); |
584 |
– |
if (ctr != cpu->ctr()) |
585 |
– |
printf("FATAL: %s: interrupt clobbers CTR\n", where); |
586 |
– |
if (cr != cpu->get_cr()) |
587 |
– |
printf("FATAL: %s: interrupt clobbers CR\n", where); |
588 |
– |
if (xer != cpu->get_xer()) |
589 |
– |
printf("FATAL: %s: interrupt clobbers XER\n", where); |
465 |
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#endif |
591 |
– |
} |
466 |
|
|
467 |
|
// Handle MacOS interrupt |
468 |
|
void sheepshaver_cpu::interrupt(uint32 entry) |
472 |
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const clock_t interrupt_start = clock(); |
473 |
|
#endif |
474 |
|
|
601 |
– |
#if SAFE_INTERRUPT_PPC |
602 |
– |
static int depth = 0; |
603 |
– |
if (depth != 0) |
604 |
– |
printf("FATAL: sheepshaver_cpu::interrupt() called more than once: %d\n", depth); |
605 |
– |
depth++; |
606 |
– |
#endif |
607 |
– |
|
475 |
|
// Save program counters and branch registers |
476 |
|
uint32 saved_pc = pc(); |
477 |
|
uint32 saved_lr = lr(); |
525 |
|
#if EMUL_TIME_STATS |
526 |
|
interrupt_time += (clock() - interrupt_start); |
527 |
|
#endif |
661 |
– |
|
662 |
– |
#if SAFE_INTERRUPT_PPC |
663 |
– |
depth--; |
664 |
– |
#endif |
528 |
|
} |
529 |
|
|
530 |
|
// Execute 68k routine |
755 |
|
const uintptr addr = (uintptr)fault_address; |
756 |
|
#if HAVE_SIGSEGV_SKIP_INSTRUCTION |
757 |
|
// Ignore writes to ROM |
758 |
< |
if ((addr - ROM_BASE) < ROM_SIZE) |
758 |
> |
if ((addr - (uintptr)ROMBaseHost) < ROM_SIZE) |
759 |
|
return SIGSEGV_RETURN_SKIP_INSTRUCTION; |
760 |
|
|
761 |
|
// Get program counter of target CPU |
802 |
|
#error "FIXME: You don't have the capability to skip instruction within signal handlers" |
803 |
|
#endif |
804 |
|
|
805 |
< |
printf("SIGSEGV\n"); |
806 |
< |
printf(" pc %p\n", fault_instruction); |
807 |
< |
printf(" ea %p\n", fault_address); |
805 |
> |
fprintf(stderr, "SIGSEGV\n"); |
806 |
> |
fprintf(stderr, " pc %p\n", fault_instruction); |
807 |
> |
fprintf(stderr, " ea %p\n", fault_address); |
808 |
|
dump_registers(); |
809 |
|
ppc_cpu->dump_log(); |
810 |
|
enter_mon(); |
815 |
|
|
816 |
|
void init_emul_ppc(void) |
817 |
|
{ |
818 |
+ |
// Get pointer to KernelData in host address space |
819 |
+ |
kernel_data = (KernelData *)Mac2HostAddr(KERNEL_DATA_BASE); |
820 |
+ |
|
821 |
|
// Initialize main CPU emulator |
822 |
|
ppc_cpu = new sheepshaver_cpu(); |
823 |
|
ppc_cpu->set_register(powerpc_registers::GPR(3), any_register((uint32)ROM_BASE + 0x30d000)); |
915 |
|
|
916 |
|
void TriggerInterrupt(void) |
917 |
|
{ |
918 |
+ |
idle_resume(); |
919 |
|
#if 0 |
920 |
|
WriteMacInt32(0x16a, ReadMacInt32(0x16a) + 1); |
921 |
|
#else |
925 |
|
#endif |
926 |
|
} |
927 |
|
|
928 |
< |
void sheepshaver_cpu::handle_interrupt(void) |
928 |
> |
void HandleInterrupt(powerpc_registers *r) |
929 |
|
{ |
930 |
|
#ifdef USE_SDL_VIDEO |
931 |
|
// We must fill in the events queue in the same thread that did call SDL_SetVideoMode() |
936 |
|
if (int32(ReadMacInt32(XLM_IRQ_NEST)) > 0) |
937 |
|
return; |
938 |
|
|
939 |
< |
// Current interrupt nest level |
1073 |
< |
static int interrupt_depth = 0; |
1074 |
< |
++interrupt_depth; |
939 |
> |
// Update interrupt count |
940 |
|
#if EMUL_TIME_STATS |
941 |
|
interrupt_count++; |
942 |
|
#endif |
943 |
|
|
1079 |
– |
// Disable MacOS stack sniffer |
1080 |
– |
WriteMacInt32(0x110, 0); |
1081 |
– |
|
944 |
|
// Interrupt action depends on current run mode |
945 |
|
switch (ReadMacInt32(XLM_RUN_MODE)) { |
946 |
|
case MODE_68K: |
947 |
|
// 68k emulator active, trigger 68k interrupt level 1 |
948 |
|
WriteMacInt16(tswap32(kernel_data->v[0x67c >> 2]), 1); |
949 |
< |
set_cr(get_cr() | tswap32(kernel_data->v[0x674 >> 2])); |
949 |
> |
r->cr.set(r->cr.get() | tswap32(kernel_data->v[0x674 >> 2])); |
950 |
|
break; |
951 |
|
|
952 |
|
#if INTERRUPTS_IN_NATIVE_MODE |
953 |
|
case MODE_NATIVE: |
954 |
|
// 68k emulator inactive, in nanokernel? |
955 |
< |
if (gpr(1) != KernelDataAddr && interrupt_depth == 1) { |
1094 |
< |
interrupt_context ctx(this, "PowerPC mode"); |
955 |
> |
if (r->gpr[1] != KernelDataAddr) { |
956 |
|
|
957 |
|
// Prepare for 68k interrupt level 1 |
958 |
|
WriteMacInt16(tswap32(kernel_data->v[0x67c >> 2]), 1); |
974 |
|
case MODE_EMUL_OP: |
975 |
|
// 68k emulator active, within EMUL_OP routine, execute 68k interrupt routine directly when interrupt level is 0 |
976 |
|
if ((ReadMacInt32(XLM_68K_R25) & 7) == 0) { |
1116 |
– |
interrupt_context ctx(this, "68k mode"); |
977 |
|
#if EMUL_TIME_STATS |
978 |
|
const clock_t interrupt_start = clock(); |
979 |
|
#endif |
982 |
|
M68kRegisters r; |
983 |
|
uint32 old_r25 = ReadMacInt32(XLM_68K_R25); // Save interrupt level |
984 |
|
WriteMacInt32(XLM_68K_R25, 0x21); // Execute with interrupt level 1 |
985 |
< |
static const uint8 proc[] = { |
985 |
> |
static const uint8 proc_template[] = { |
986 |
|
0x3f, 0x3c, 0x00, 0x00, // move.w #$0000,-(sp) (fake format word) |
987 |
|
0x48, 0x7a, 0x00, 0x0a, // pea @1(pc) (return address) |
988 |
|
0x40, 0xe7, // move sr,-(sp) (saved SR) |
990 |
|
0x4e, 0xd0, // jmp (a0) |
991 |
|
M68K_RTS >> 8, M68K_RTS & 0xff // @1 |
992 |
|
}; |
993 |
< |
Execute68k((uint32)proc, &r); |
993 |
> |
BUILD_SHEEPSHAVER_PROCEDURE(proc); |
994 |
> |
Execute68k(proc, &r); |
995 |
|
WriteMacInt32(XLM_68K_R25, old_r25); // Restore interrupt level |
996 |
|
#else |
997 |
|
// Only update cursor |
1010 |
|
break; |
1011 |
|
#endif |
1012 |
|
} |
1152 |
– |
|
1153 |
– |
// We are done with this interrupt |
1154 |
– |
--interrupt_depth; |
1013 |
|
} |
1014 |
|
|
1015 |
|
static void get_resource(void); |
1037 |
|
VideoVBL(); |
1038 |
|
break; |
1039 |
|
case NATIVE_VIDEO_DO_DRIVER_IO: |
1040 |
< |
gpr(3) = (int32)(int16)VideoDoDriverIO((void *)gpr(3), (void *)gpr(4), |
1041 |
< |
(void *)gpr(5), gpr(6), gpr(7)); |
1040 |
> |
gpr(3) = (int32)(int16)VideoDoDriverIO(gpr(3), gpr(4), gpr(5), gpr(6), gpr(7)); |
1041 |
> |
break; |
1042 |
> |
case NATIVE_ETHER_AO_GET_HWADDR: |
1043 |
> |
AO_get_ethernet_address(gpr(3)); |
1044 |
> |
break; |
1045 |
> |
case NATIVE_ETHER_AO_ADD_MULTI: |
1046 |
> |
AO_enable_multicast(gpr(3)); |
1047 |
> |
break; |
1048 |
> |
case NATIVE_ETHER_AO_DEL_MULTI: |
1049 |
> |
AO_disable_multicast(gpr(3)); |
1050 |
> |
break; |
1051 |
> |
case NATIVE_ETHER_AO_SEND_PACKET: |
1052 |
> |
AO_transmit_packet(gpr(3)); |
1053 |
|
break; |
1185 |
– |
#ifdef WORDS_BIGENDIAN |
1054 |
|
case NATIVE_ETHER_IRQ: |
1055 |
|
EtherIRQ(); |
1056 |
|
break; |
1072 |
|
case NATIVE_ETHER_RSRV: |
1073 |
|
gpr(3) = ether_rsrv((queue_t *)gpr(3)); |
1074 |
|
break; |
1207 |
– |
#else |
1208 |
– |
case NATIVE_ETHER_INIT: |
1209 |
– |
// FIXME: needs more complicated thunks |
1210 |
– |
gpr(3) = false; |
1211 |
– |
break; |
1212 |
– |
#endif |
1075 |
|
case NATIVE_SYNC_HOOK: |
1076 |
|
gpr(3) = NQD_sync_hook(gpr(3)); |
1077 |
|
break; |
1127 |
|
break; |
1128 |
|
} |
1129 |
|
case NATIVE_MAKE_EXECUTABLE: |
1130 |
< |
MakeExecutable(0, (void *)gpr(4), gpr(5)); |
1130 |
> |
MakeExecutable(0, gpr(4), gpr(5)); |
1131 |
|
break; |
1132 |
|
case NATIVE_CHECK_LOAD_INVOC: |
1133 |
|
check_load_invoc(gpr(3), gpr(4), gpr(5)); |