Mercurial > repos > blastem
view backend_x86.c @ 1925:039553703c20
Don't apply address and cd register changes to the 'live' registers until pending flag is cleared, but do preserve the upper address bits in the latch. Fixes regression in Overdrive 2 while preserving fix to Mona in 344 bytes
| author | Michael Pavone <pavone@retrodev.com> |
|---|---|
| date | Mon, 13 Apr 2020 20:43:25 -0700 |
| parents | 2a5649a767e7 |
| children | 45c4b74e7676 |
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#include "backend.h" #include "gen_x86.h" #include <string.h> void cycles(cpu_options *opts, uint32_t num) { if (opts->limit < 0) { sub_ir(&opts->code, num*opts->clock_divider, opts->cycles, SZ_D); } else { add_ir(&opts->code, num*opts->clock_divider, opts->cycles, SZ_D); } } void check_cycles_int(cpu_options *opts, uint32_t address) { code_info *code = &opts->code; uint8_t cc; if (opts->limit < 0) { cmp_ir(code, 1, opts->cycles, SZ_D); cc = CC_NS; } else { cmp_rr(code, opts->cycles, opts->limit, SZ_D); cc = CC_A; } code_ptr jmp_off = code->cur+1; jcc(code, cc, jmp_off+1); mov_ir(code, address, opts->scratch1, SZ_D); call(code, opts->handle_cycle_limit_int); *jmp_off = code->cur - (jmp_off+1); } void retranslate_calc(cpu_options *opts) { code_info *code = &opts->code; code_info tmp = *code; uint8_t cc; if (opts->limit < 0) { cmp_ir(code, 1, opts->cycles, SZ_D); cc = CC_NS; } else { cmp_rr(code, opts->cycles, opts->limit, SZ_D); cc = CC_A; } jcc(code, cc, code->cur+2); opts->move_pc_off = code->cur - tmp.cur; mov_ir(code, 0x1234, opts->scratch1, SZ_D); opts->move_pc_size = code->cur - tmp.cur - opts->move_pc_off; *code = tmp; } void patch_for_retranslate(cpu_options *opts, code_ptr native_address, code_ptr handler) { if (!is_mov_ir(native_address)) { //instruction is not already patched for either retranslation or a breakpoint //copy original mov_ir instruction containing PC to beginning of native code area memmove(native_address, native_address + opts->move_pc_off, opts->move_pc_size); } //jump to the retranslation handler code_info tmp = { .cur = native_address + opts->move_pc_size, .last = native_address + 256, .stack_off = 0 }; jmp(&tmp, handler); } void check_cycles(cpu_options * opts) { code_info *code = &opts->code; uint8_t cc; if (opts->limit < 0) { cmp_ir(code, 1, opts->cycles, SZ_D); cc = CC_NS; } else { cmp_rr(code, opts->cycles, opts->limit, SZ_D); cc = CC_A; } check_alloc_code(code, MAX_INST_LEN*2); code_ptr jmp_off = code->cur+1; jcc(code, cc, jmp_off+1); call(code, opts->handle_cycle_limit); *jmp_off = code->cur - (jmp_off+1); } void log_address(cpu_options *opts, uint32_t address, char * format) { code_info *code = &opts->code; call(code, opts->save_context); push_r(code, opts->context_reg); mov_rr(code, opts->cycles, RDX, SZ_D); mov_ir(code, (int64_t)format, RDI, SZ_PTR); mov_ir(code, address, RSI, SZ_D); call_args_abi(code, (code_ptr)printf, 3, RDI, RSI, RDX); pop_r(code, opts->context_reg); call(code, opts->load_context); } void check_code_prologue(code_info *code) { check_alloc_code(code, MAX_INST_LEN*4); } code_ptr gen_mem_fun(cpu_options * opts, memmap_chunk const * memmap, uint32_t num_chunks, ftype fun_type, code_ptr *after_inc) { code_info *code = &opts->code; code_ptr start = code->cur; check_cycles(opts); uint8_t is_write = fun_type == WRITE_16 || fun_type == WRITE_8; uint8_t adr_reg = is_write ? opts->scratch2 : opts->scratch1; uint8_t size = (fun_type == READ_16 || fun_type == WRITE_16) ? SZ_W : SZ_B; if (size != SZ_B && opts->align_error_mask) { test_ir(code, opts->align_error_mask, adr_reg, SZ_D); jcc(code, CC_NZ, is_write ? opts->handle_align_error_write : opts->handle_align_error_read); } cycles(opts, opts->bus_cycles); if (after_inc) { *after_inc = code->cur; } if (opts->address_size == SZ_D && opts->address_mask != 0xFFFFFFFF) { and_ir(code, opts->address_mask, adr_reg, SZ_D); } else if (opts->address_size == SZ_W && opts->address_mask != 0xFFFF) { and_ir(code, opts->address_mask, adr_reg, SZ_W); } code_ptr lb_jcc = NULL, ub_jcc = NULL; uint16_t access_flag = is_write ? MMAP_WRITE : MMAP_READ; uint32_t ram_flags_off = opts->ram_flags_off; uint32_t min_address = 0; uint32_t max_address = opts->max_address; for (uint32_t chunk = 0; chunk < num_chunks; chunk++) { if (memmap[chunk].start > min_address) { cmp_ir(code, memmap[chunk].start, adr_reg, opts->address_size); lb_jcc = code->cur + 1; jcc(code, CC_C, code->cur + 2); } else { min_address = memmap[chunk].end; } if (memmap[chunk].end < max_address) { cmp_ir(code, memmap[chunk].end, adr_reg, opts->address_size); ub_jcc = code->cur + 1; jcc(code, CC_NC, code->cur + 2); } else { max_address = memmap[chunk].start; } if (memmap[chunk].mask != opts->address_mask) { and_ir(code, memmap[chunk].mask, adr_reg, opts->address_size); } void * cfun; switch (fun_type) { case READ_16: cfun = memmap[chunk].read_16; break; case READ_8: cfun = memmap[chunk].read_8; break; case WRITE_16: cfun = memmap[chunk].write_16; break; case WRITE_8: cfun = memmap[chunk].write_8; break; default: cfun = NULL; } if(memmap[chunk].flags & access_flag) { if (memmap[chunk].flags & MMAP_PTR_IDX) { if (memmap[chunk].flags & MMAP_FUNC_NULL) { cmp_irdisp(code, 0, opts->context_reg, opts->mem_ptr_off + sizeof(void*) * memmap[chunk].ptr_index, SZ_PTR); code_ptr not_null = code->cur + 1; jcc(code, CC_NZ, code->cur + 2); call(code, opts->save_context); if (is_write) { call_args_abi(code, cfun, 3, opts->scratch2, opts->context_reg, opts->scratch1); mov_rr(code, RAX, opts->context_reg, SZ_PTR); } else { push_r(code, opts->context_reg); call_args_abi(code, cfun, 2, opts->scratch1, opts->context_reg); pop_r(code, opts->context_reg); mov_rr(code, RAX, opts->scratch1, size); } jmp(code, opts->load_context); *not_null = code->cur - (not_null + 1); } if ((opts->byte_swap || memmap[chunk].flags & MMAP_BYTESWAP) && size == SZ_B) { xor_ir(code, 1, adr_reg, opts->address_size); } if (opts->address_size != SZ_D) { movzx_rr(code, adr_reg, adr_reg, opts->address_size, SZ_D); } if (is_write && (memmap[chunk].flags & MMAP_CODE)) { push_r(code, adr_reg); } add_rdispr(code, opts->context_reg, opts->mem_ptr_off + sizeof(void*) * memmap[chunk].ptr_index, adr_reg, SZ_PTR); if (is_write) { mov_rrind(code, opts->scratch1, opts->scratch2, size); if (memmap[chunk].flags & MMAP_CODE) { pop_r(code, adr_reg); } } else { mov_rindr(code, opts->scratch1, opts->scratch1, size); } } else { uint8_t tmp_size = size; if (size == SZ_B) { if ((memmap[chunk].flags & MMAP_ONLY_ODD) || (memmap[chunk].flags & MMAP_ONLY_EVEN)) { bt_ir(code, 0, adr_reg, opts->address_size); code_ptr good_addr = code->cur + 1; jcc(code, (memmap[chunk].flags & MMAP_ONLY_ODD) ? CC_C : CC_NC, code->cur + 2); if (!is_write) { mov_ir(code, 0xFF, opts->scratch1, SZ_B); } retn(code); *good_addr = code->cur - (good_addr + 1); shr_ir(code, 1, adr_reg, opts->address_size); } else if (opts->byte_swap || memmap[chunk].flags & MMAP_BYTESWAP) { xor_ir(code, 1, adr_reg, opts->address_size); } } else if ((memmap[chunk].flags & MMAP_ONLY_ODD) || (memmap[chunk].flags & MMAP_ONLY_EVEN)) { tmp_size = SZ_B; shr_ir(code, 1, adr_reg, opts->address_size); if ((memmap[chunk].flags & MMAP_ONLY_EVEN) && is_write) { shr_ir(code, 8, opts->scratch1, SZ_W); } } if (opts->address_size != SZ_D) { movzx_rr(code, adr_reg, adr_reg, opts->address_size, SZ_D); } if ((intptr_t)memmap[chunk].buffer <= 0x7FFFFFFF && (intptr_t)memmap[chunk].buffer >= -2147483648) { if (is_write) { mov_rrdisp(code, opts->scratch1, opts->scratch2, (intptr_t)memmap[chunk].buffer, tmp_size); } else { mov_rdispr(code, opts->scratch1, (intptr_t)memmap[chunk].buffer, opts->scratch1, tmp_size); } } else { if (is_write) { push_r(code, opts->scratch2); mov_ir(code, (intptr_t)memmap[chunk].buffer, opts->scratch2, SZ_PTR); add_rdispr(code, RSP, 0, opts->scratch2, SZ_PTR); mov_rrind(code, opts->scratch1, opts->scratch2, tmp_size); if (is_write && (memmap[chunk].flags & MMAP_CODE)) { pop_r(code, opts->scratch2); } else { add_ir(code, sizeof(void*), RSP, SZ_PTR); code->stack_off -= sizeof(void *); } } else { push_r(code, opts->scratch2); mov_ir(code, (intptr_t)memmap[chunk].buffer, opts->scratch2, SZ_PTR); mov_rindexr(code, opts->scratch2, opts->scratch1, 1, opts->scratch1, tmp_size); pop_r(code, opts->scratch2); } } if (size != tmp_size && !is_write) { if (memmap[chunk].flags & MMAP_ONLY_EVEN) { shl_ir(code, 8, opts->scratch1, SZ_W); mov_ir(code, 0xFF, opts->scratch1, SZ_B); } else { or_ir(code, 0xFF00, opts->scratch1, SZ_W); } } } if (is_write && (memmap[chunk].flags & MMAP_CODE)) { mov_rr(code, opts->scratch2, opts->scratch1, opts->address_size); shr_ir(code, opts->ram_flags_shift, opts->scratch1, opts->address_size); bt_rrdisp(code, opts->scratch1, opts->context_reg, ram_flags_off, opts->address_size); code_ptr not_code = code->cur + 1; jcc(code, CC_NC, code->cur + 2); if (memmap[chunk].mask != opts->address_mask) { or_ir(code, memmap[chunk].start, opts->scratch2, opts->address_size); } call(code, opts->save_context); call_args(code, opts->handle_code_write, 2, opts->scratch2, opts->context_reg); mov_rr(code, RAX, opts->context_reg, SZ_PTR); jmp(code, opts->load_context); *not_code = code->cur - (not_code+1); } retn(code); } else if (cfun) { call(code, opts->save_context); if (is_write) { call_args_abi(code, cfun, 3, opts->scratch2, opts->context_reg, opts->scratch1); mov_rr(code, RAX, opts->context_reg, SZ_PTR); } else { push_r(code, opts->context_reg); call_args_abi(code, cfun, 2, opts->scratch1, opts->context_reg); pop_r(code, opts->context_reg); mov_rr(code, RAX, opts->scratch1, size); } jmp(code, opts->load_context); } else { //Not sure the best course of action here if (!is_write) { mov_ir(code, size == SZ_B ? 0xFF : 0xFFFF, opts->scratch1, size); } retn(code); } if (memmap[chunk].flags & MMAP_CODE) { if (memmap[chunk].mask == opts->address_mask) { ram_flags_off += (memmap[chunk].end - memmap[chunk].start) / (1 << opts->ram_flags_shift) / 8; ; } else { ram_flags_off += (memmap[chunk].mask + 1) / (1 << opts->ram_flags_shift) / 8;; } } if (lb_jcc) { *lb_jcc = code->cur - (lb_jcc+1); lb_jcc = NULL; } if (ub_jcc) { *ub_jcc = code->cur - (ub_jcc+1); ub_jcc = NULL; } } if (!is_write) { mov_ir(code, size == SZ_B ? 0xFF : 0xFFFF, opts->scratch1, size); } retn(code); return start; }