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| use crate::cpu::arith::*; | |
| use crate::cpu::cpu::js; | |
| use crate::cpu::cpu::*; | |
| use crate::cpu::fpu::*; | |
| use crate::cpu::global_pointers::*; | |
| use crate::cpu::misc_instr::*; | |
| use crate::cpu::string::*; | |
| use crate::prefix; | |
| use crate::softfloat::F80; | |
| pub unsafe fn instr_00_mem(addr: i32, r: i32) { safe_read_write8(addr, &|x| add8(x, read_reg8(r))) } | |
| pub unsafe fn instr_00_reg(r1: i32, r: i32) { write_reg8(r1, add8(read_reg8(r1), read_reg8(r))); } | |
| pub unsafe fn instr16_01_mem(addr: i32, r: i32) { | |
| safe_read_write16(addr, &|x| add16(x, read_reg16(r))) | |
| } | |
| pub unsafe fn instr16_01_reg(r1: i32, r: i32) { | |
| write_reg16(r1, add16(read_reg16(r1), read_reg16(r))); | |
| } | |
| pub unsafe fn instr32_01_mem(addr: i32, r: i32) { | |
| safe_read_write32(addr, &|x| add32(x, read_reg32(r))) | |
| } | |
| pub unsafe fn instr32_01_reg(r1: i32, r: i32) { | |
| write_reg32(r1, add32(read_reg32(r1), read_reg32(r))); | |
| } | |
| pub unsafe fn instr_02_mem(addr: i32, r: i32) { | |
| write_reg8( | |
| r, | |
| add8(read_reg8(r), return_on_pagefault!(safe_read8(addr))), | |
| ); | |
| } | |
| pub unsafe fn instr_02_reg(r1: i32, r: i32) { write_reg8(r, add8(read_reg8(r), read_reg8(r1))); } | |
| pub unsafe fn instr16_03_mem(addr: i32, r: i32) { | |
| write_reg16( | |
| r, | |
| add16(read_reg16(r), return_on_pagefault!(safe_read16(addr))), | |
| ); | |
| } | |
| pub unsafe fn instr16_03_reg(r1: i32, r: i32) { | |
| write_reg16(r, add16(read_reg16(r), read_reg16(r1))); | |
| } | |
| pub unsafe fn instr32_03_mem(addr: i32, r: i32) { | |
| write_reg32( | |
| r, | |
| add32(read_reg32(r), return_on_pagefault!(safe_read32s(addr))), | |
| ); | |
| } | |
| pub unsafe fn instr32_03_reg(r1: i32, r: i32) { | |
| write_reg32(r, add32(read_reg32(r), read_reg32(r1))); | |
| } | |
| pub unsafe fn instr_04(imm8: i32) { write_reg8(AL, add8(read_reg8(AL), imm8)); } | |
| pub unsafe fn instr16_05(imm16: i32) { write_reg16(AX, add16(read_reg16(AX), imm16)); } | |
| pub unsafe fn instr32_05(imm32: i32) { write_reg32(EAX, add32(read_reg32(EAX), imm32)); } | |
| pub unsafe fn instr16_06() { | |
| return_on_pagefault!(push16(*sreg.offset(ES as isize) as i32)); | |
| } | |
| pub unsafe fn instr32_06() { return_on_pagefault!(push32_sreg(ES)) } | |
| pub unsafe fn instr16_07() { | |
| if !switch_seg(ES, return_on_pagefault!(safe_read16(get_stack_pointer(0)))) { | |
| return; | |
| } | |
| adjust_stack_reg(2); | |
| } | |
| pub unsafe fn instr32_07() { | |
| if !switch_seg( | |
| ES, | |
| return_on_pagefault!(safe_read32s(get_stack_pointer(0))) & 0xFFFF, | |
| ) { | |
| return; | |
| } | |
| adjust_stack_reg(4); | |
| } | |
| pub unsafe fn instr_08_mem(addr: i32, r: i32) { safe_read_write8(addr, &|x| or8(x, read_reg8(r))) } | |
| pub unsafe fn instr_08_reg(r1: i32, r: i32) { write_reg8(r1, or8(read_reg8(r1), read_reg8(r))); } | |
| pub unsafe fn instr16_09_mem(addr: i32, r: i32) { | |
| safe_read_write16(addr, &|x| or16(x, read_reg16(r))) | |
| } | |
| pub unsafe fn instr16_09_reg(r1: i32, r: i32) { | |
| write_reg16(r1, or16(read_reg16(r1), read_reg16(r))); | |
| } | |
| pub unsafe fn instr32_09_mem(addr: i32, r: i32) { | |
| safe_read_write32(addr, &|x| or32(x, read_reg32(r))) | |
| } | |
| pub unsafe fn instr32_09_reg(r1: i32, r: i32) { | |
| write_reg32(r1, or32(read_reg32(r1), read_reg32(r))); | |
| } | |
| pub unsafe fn instr_0A_mem(addr: i32, r: i32) { | |
| write_reg8(r, or8(read_reg8(r), return_on_pagefault!(safe_read8(addr)))); | |
| } | |
| pub unsafe fn instr_0A_reg(r1: i32, r: i32) { write_reg8(r, or8(read_reg8(r), read_reg8(r1))); } | |
| pub unsafe fn instr16_0B_mem(addr: i32, r: i32) { | |
| write_reg16( | |
| r, | |
| or16(read_reg16(r), return_on_pagefault!(safe_read16(addr))), | |
| ); | |
| } | |
| pub unsafe fn instr16_0B_reg(r1: i32, r: i32) { | |
| write_reg16(r, or16(read_reg16(r), read_reg16(r1))); | |
| } | |
| pub unsafe fn instr32_0B_mem(addr: i32, r: i32) { | |
| write_reg32( | |
| r, | |
| or32(read_reg32(r), return_on_pagefault!(safe_read32s(addr))), | |
| ); | |
| } | |
| pub unsafe fn instr32_0B_reg(r1: i32, r: i32) { | |
| write_reg32(r, or32(read_reg32(r), read_reg32(r1))); | |
| } | |
| pub unsafe fn instr_0C(imm8: i32) { write_reg8(AL, or8(read_reg8(AL), imm8)); } | |
| pub unsafe fn instr16_0D(imm16: i32) { write_reg16(AX, or16(read_reg16(AX), imm16)); } | |
| pub unsafe fn instr32_0D(imm32: i32) { write_reg32(EAX, or32(read_reg32(EAX), imm32)); } | |
| pub unsafe fn instr16_0E() { | |
| return_on_pagefault!(push16(*sreg.offset(CS as isize) as i32)); | |
| } | |
| pub unsafe fn instr32_0E() { return_on_pagefault!(push32_sreg(CS)) } | |
| pub unsafe fn instr16_0F() { run_instruction0f_16(return_on_pagefault!(read_imm8())); } | |
| pub unsafe fn instr32_0F() { run_instruction0f_32(return_on_pagefault!(read_imm8())); } | |
| pub unsafe fn instr_10_mem(addr: i32, r: i32) { safe_read_write8(addr, &|x| adc8(x, read_reg8(r))) } | |
| pub unsafe fn instr_10_reg(r1: i32, r: i32) { write_reg8(r1, adc8(read_reg8(r1), read_reg8(r))); } | |
| pub unsafe fn instr16_11_mem(addr: i32, r: i32) { | |
| safe_read_write16(addr, &|x| adc16(x, read_reg16(r))) | |
| } | |
| pub unsafe fn instr16_11_reg(r1: i32, r: i32) { | |
| write_reg16(r1, adc16(read_reg16(r1), read_reg16(r))); | |
| } | |
| pub unsafe fn instr32_11_mem(addr: i32, r: i32) { | |
| safe_read_write32(addr, &|x| adc32(x, read_reg32(r))) | |
| } | |
| pub unsafe fn instr32_11_reg(r1: i32, r: i32) { | |
| write_reg32(r1, adc32(read_reg32(r1), read_reg32(r))); | |
| } | |
| pub unsafe fn instr_12_mem(addr: i32, r: i32) { | |
| write_reg8( | |
| r, | |
| adc8(read_reg8(r), return_on_pagefault!(safe_read8(addr))), | |
| ); | |
| } | |
| pub unsafe fn instr_12_reg(r1: i32, r: i32) { write_reg8(r, adc8(read_reg8(r), read_reg8(r1))); } | |
| pub unsafe fn instr16_13_mem(addr: i32, r: i32) { | |
| write_reg16( | |
| r, | |
| adc16(read_reg16(r), return_on_pagefault!(safe_read16(addr))), | |
| ); | |
| } | |
| pub unsafe fn instr16_13_reg(r1: i32, r: i32) { | |
| write_reg16(r, adc16(read_reg16(r), read_reg16(r1))); | |
| } | |
| pub unsafe fn instr32_13_mem(addr: i32, r: i32) { | |
| write_reg32( | |
| r, | |
| adc32(read_reg32(r), return_on_pagefault!(safe_read32s(addr))), | |
| ); | |
| } | |
| pub unsafe fn instr32_13_reg(r1: i32, r: i32) { | |
| write_reg32(r, adc32(read_reg32(r), read_reg32(r1))); | |
| } | |
| pub unsafe fn instr_14(imm8: i32) { write_reg8(AL, adc8(read_reg8(AL), imm8)); } | |
| pub unsafe fn instr16_15(imm16: i32) { write_reg16(AX, adc16(read_reg16(AX), imm16)); } | |
| pub unsafe fn instr32_15(imm32: i32) { write_reg32(EAX, adc32(read_reg32(EAX), imm32)); } | |
| pub unsafe fn instr16_16() { | |
| return_on_pagefault!(push16(*sreg.offset(SS as isize) as i32)); | |
| } | |
| pub unsafe fn instr32_16() { return_on_pagefault!(push32_sreg(SS)) } | |
| pub unsafe fn instr16_17() { | |
| if !switch_seg(SS, return_on_pagefault!(safe_read16(get_stack_pointer(0)))) { | |
| return; | |
| } | |
| adjust_stack_reg(2); | |
| } | |
| pub unsafe fn instr32_17() { | |
| if !switch_seg( | |
| SS, | |
| return_on_pagefault!(safe_read32s(get_stack_pointer(0))) & 0xFFFF, | |
| ) { | |
| return; | |
| } | |
| adjust_stack_reg(4); | |
| } | |
| pub unsafe fn instr_18_mem(addr: i32, r: i32) { safe_read_write8(addr, &|x| sbb8(x, read_reg8(r))) } | |
| pub unsafe fn instr_18_reg(r1: i32, r: i32) { write_reg8(r1, sbb8(read_reg8(r1), read_reg8(r))); } | |
| pub unsafe fn instr16_19_mem(addr: i32, r: i32) { | |
| safe_read_write16(addr, &|x| sbb16(x, read_reg16(r))) | |
| } | |
| pub unsafe fn instr16_19_reg(r1: i32, r: i32) { | |
| write_reg16(r1, sbb16(read_reg16(r1), read_reg16(r))); | |
| } | |
| pub unsafe fn instr32_19_mem(addr: i32, r: i32) { | |
| safe_read_write32(addr, &|x| sbb32(x, read_reg32(r))) | |
| } | |
| pub unsafe fn instr32_19_reg(r1: i32, r: i32) { | |
| write_reg32(r1, sbb32(read_reg32(r1), read_reg32(r))); | |
| } | |
| pub unsafe fn instr_1A_mem(addr: i32, r: i32) { | |
| write_reg8( | |
| r, | |
| sbb8(read_reg8(r), return_on_pagefault!(safe_read8(addr))), | |
| ); | |
| } | |
| pub unsafe fn instr_1A_reg(r1: i32, r: i32) { write_reg8(r, sbb8(read_reg8(r), read_reg8(r1))); } | |
| pub unsafe fn instr16_1B_mem(addr: i32, r: i32) { | |
| write_reg16( | |
| r, | |
| sbb16(read_reg16(r), return_on_pagefault!(safe_read16(addr))), | |
| ); | |
| } | |
| pub unsafe fn instr16_1B_reg(r1: i32, r: i32) { | |
| write_reg16(r, sbb16(read_reg16(r), read_reg16(r1))); | |
| } | |
| pub unsafe fn instr32_1B_mem(addr: i32, r: i32) { | |
| write_reg32( | |
| r, | |
| sbb32(read_reg32(r), return_on_pagefault!(safe_read32s(addr))), | |
| ); | |
| } | |
| pub unsafe fn instr32_1B_reg(r1: i32, r: i32) { | |
| write_reg32(r, sbb32(read_reg32(r), read_reg32(r1))); | |
| } | |
| pub unsafe fn instr_1C(imm8: i32) { write_reg8(AL, sbb8(read_reg8(AL), imm8)); } | |
| pub unsafe fn instr16_1D(imm16: i32) { write_reg16(AX, sbb16(read_reg16(AX), imm16)); } | |
| pub unsafe fn instr32_1D(imm32: i32) { write_reg32(EAX, sbb32(read_reg32(EAX), imm32)); } | |
| pub unsafe fn instr16_1E() { | |
| return_on_pagefault!(push16(*sreg.offset(DS as isize) as i32)); | |
| } | |
| pub unsafe fn instr32_1E() { return_on_pagefault!(push32_sreg(DS)) } | |
| pub unsafe fn instr16_1F() { | |
| if !switch_seg(DS, return_on_pagefault!(safe_read16(get_stack_pointer(0)))) { | |
| return; | |
| } | |
| adjust_stack_reg(2); | |
| } | |
| pub unsafe fn instr32_1F() { | |
| if !switch_seg( | |
| DS, | |
| return_on_pagefault!(safe_read32s(get_stack_pointer(0))) & 0xFFFF, | |
| ) { | |
| return; | |
| } | |
| adjust_stack_reg(4); | |
| } | |
| pub unsafe fn instr_20_mem(addr: i32, r: i32) { safe_read_write8(addr, &|x| and8(x, read_reg8(r))) } | |
| pub unsafe fn instr_20_reg(r1: i32, r: i32) { write_reg8(r1, and8(read_reg8(r1), read_reg8(r))); } | |
| pub unsafe fn instr16_21_mem(addr: i32, r: i32) { | |
| safe_read_write16(addr, &|x| and16(x, read_reg16(r))) | |
| } | |
| pub unsafe fn instr16_21_reg(r1: i32, r: i32) { | |
| write_reg16(r1, and16(read_reg16(r1), read_reg16(r))); | |
| } | |
| pub unsafe fn instr32_21_mem(addr: i32, r: i32) { | |
| safe_read_write32(addr, &|x| and32(x, read_reg32(r))) | |
| } | |
| pub unsafe fn instr32_21_reg(r1: i32, r: i32) { | |
| write_reg32(r1, and32(read_reg32(r1), read_reg32(r))); | |
| } | |
| pub unsafe fn instr_22_mem(addr: i32, r: i32) { | |
| write_reg8( | |
| r, | |
| and8(read_reg8(r), return_on_pagefault!(safe_read8(addr))), | |
| ); | |
| } | |
| pub unsafe fn instr_22_reg(r1: i32, r: i32) { write_reg8(r, and8(read_reg8(r), read_reg8(r1))); } | |
| pub unsafe fn instr16_23_mem(addr: i32, r: i32) { | |
| write_reg16( | |
| r, | |
| and16(read_reg16(r), return_on_pagefault!(safe_read16(addr))), | |
| ); | |
| } | |
| pub unsafe fn instr16_23_reg(r1: i32, r: i32) { | |
| write_reg16(r, and16(read_reg16(r), read_reg16(r1))); | |
| } | |
| pub unsafe fn instr32_23_mem(addr: i32, r: i32) { | |
| write_reg32( | |
| r, | |
| and32(read_reg32(r), return_on_pagefault!(safe_read32s(addr))), | |
| ); | |
| } | |
| pub unsafe fn instr32_23_reg(r1: i32, r: i32) { | |
| write_reg32(r, and32(read_reg32(r), read_reg32(r1))); | |
| } | |
| pub unsafe fn instr_24(imm8: i32) { write_reg8(AL, and8(read_reg8(AL), imm8)); } | |
| pub unsafe fn instr16_25(imm16: i32) { write_reg16(AX, and16(read_reg16(AX), imm16)); } | |
| pub unsafe fn instr32_25(imm32: i32) { write_reg32(EAX, and32(read_reg32(EAX), imm32)); } | |
| pub unsafe fn instr_26() { segment_prefix_op(ES); } | |
| pub unsafe fn instr_27() { bcd_daa(); } | |
| pub unsafe fn instr_28_mem(addr: i32, r: i32) { safe_read_write8(addr, &|x| sub8(x, read_reg8(r))) } | |
| pub unsafe fn instr_28_reg(r1: i32, r: i32) { write_reg8(r1, sub8(read_reg8(r1), read_reg8(r))); } | |
| pub unsafe fn instr16_29_mem(addr: i32, r: i32) { | |
| safe_read_write16(addr, &|x| sub16(x, read_reg16(r))) | |
| } | |
| pub unsafe fn instr16_29_reg(r1: i32, r: i32) { | |
| write_reg16(r1, sub16(read_reg16(r1), read_reg16(r))); | |
| } | |
| pub unsafe fn instr32_29_mem(addr: i32, r: i32) { | |
| safe_read_write32(addr, &|x| sub32(x, read_reg32(r))) | |
| } | |
| pub unsafe fn instr32_29_reg(r1: i32, r: i32) { | |
| write_reg32(r1, sub32(read_reg32(r1), read_reg32(r))); | |
| } | |
| pub unsafe fn instr_2A_mem(addr: i32, r: i32) { | |
| write_reg8( | |
| r, | |
| sub8(read_reg8(r), return_on_pagefault!(safe_read8(addr))), | |
| ); | |
| } | |
| pub unsafe fn instr_2A_reg(r1: i32, r: i32) { write_reg8(r, sub8(read_reg8(r), read_reg8(r1))); } | |
| pub unsafe fn instr16_2B_mem(addr: i32, r: i32) { | |
| write_reg16( | |
| r, | |
| sub16(read_reg16(r), return_on_pagefault!(safe_read16(addr))), | |
| ); | |
| } | |
| pub unsafe fn instr16_2B_reg(r1: i32, r: i32) { | |
| write_reg16(r, sub16(read_reg16(r), read_reg16(r1))); | |
| } | |
| pub unsafe fn instr32_2B_mem(addr: i32, r: i32) { | |
| write_reg32( | |
| r, | |
| sub32(read_reg32(r), return_on_pagefault!(safe_read32s(addr))), | |
| ); | |
| } | |
| pub unsafe fn instr32_2B_reg(r1: i32, r: i32) { | |
| write_reg32(r, sub32(read_reg32(r), read_reg32(r1))); | |
| } | |
| pub unsafe fn instr_2C(imm8: i32) { write_reg8(AL, sub8(read_reg8(AL), imm8)); } | |
| pub unsafe fn instr16_2D(imm16: i32) { write_reg16(AX, sub16(read_reg16(AX), imm16)); } | |
| pub unsafe fn instr32_2D(imm32: i32) { write_reg32(EAX, sub32(read_reg32(EAX), imm32)); } | |
| pub unsafe fn instr_2E() { segment_prefix_op(CS); } | |
| pub unsafe fn instr_2F() { bcd_das(); } | |
| pub unsafe fn instr_30_mem(addr: i32, r: i32) { safe_read_write8(addr, &|x| xor8(x, read_reg8(r))) } | |
| pub unsafe fn instr_30_reg(r1: i32, r: i32) { write_reg8(r1, xor8(read_reg8(r1), read_reg8(r))); } | |
| pub unsafe fn instr16_31_mem(addr: i32, r: i32) { | |
| safe_read_write16(addr, &|x| xor16(x, read_reg16(r))) | |
| } | |
| pub unsafe fn instr16_31_reg(r1: i32, r: i32) { | |
| write_reg16(r1, xor16(read_reg16(r1), read_reg16(r))); | |
| } | |
| pub unsafe fn instr32_31_mem(addr: i32, r: i32) { | |
| safe_read_write32(addr, &|x| xor32(x, read_reg32(r))) | |
| } | |
| pub unsafe fn instr32_31_reg(r1: i32, r: i32) { | |
| write_reg32(r1, xor32(read_reg32(r1), read_reg32(r))); | |
| } | |
| pub unsafe fn instr_32_mem(addr: i32, r: i32) { | |
| write_reg8( | |
| r, | |
| xor8(read_reg8(r), return_on_pagefault!(safe_read8(addr))), | |
| ); | |
| } | |
| pub unsafe fn instr_32_reg(r1: i32, r: i32) { write_reg8(r, xor8(read_reg8(r), read_reg8(r1))); } | |
| pub unsafe fn instr16_33_mem(addr: i32, r: i32) { | |
| write_reg16( | |
| r, | |
| xor16(read_reg16(r), return_on_pagefault!(safe_read16(addr))), | |
| ); | |
| } | |
| pub unsafe fn instr16_33_reg(r1: i32, r: i32) { | |
| write_reg16(r, xor16(read_reg16(r), read_reg16(r1))); | |
| } | |
| pub unsafe fn instr32_33_mem(addr: i32, r: i32) { | |
| write_reg32( | |
| r, | |
| xor32(read_reg32(r), return_on_pagefault!(safe_read32s(addr))), | |
| ); | |
| } | |
| pub unsafe fn instr32_33_reg(r1: i32, r: i32) { | |
| write_reg32(r, xor32(read_reg32(r), read_reg32(r1))); | |
| } | |
| pub unsafe fn instr_34(imm8: i32) { write_reg8(AL, xor8(read_reg8(AL), imm8)); } | |
| pub unsafe fn instr16_35(imm16: i32) { write_reg16(AX, xor16(read_reg16(AX), imm16)); } | |
| pub unsafe fn instr32_35(imm32: i32) { write_reg32(EAX, xor32(read_reg32(EAX), imm32)); } | |
| pub unsafe fn instr_36() { segment_prefix_op(SS); } | |
| pub unsafe fn instr_37() { bcd_aaa(); } | |
| pub unsafe fn instr_38_mem(addr: i32, r: i32) { | |
| cmp8(return_on_pagefault!(safe_read8(addr)), read_reg8(r)); | |
| } | |
| pub unsafe fn instr_38_reg(r1: i32, r: i32) { cmp8(read_reg8(r1), read_reg8(r)); } | |
| pub unsafe fn instr16_39_mem(addr: i32, r: i32) { | |
| cmp16(return_on_pagefault!(safe_read16(addr)), read_reg16(r)); | |
| } | |
| pub unsafe fn instr16_39_reg(r1: i32, r: i32) { cmp16(read_reg16(r1), read_reg16(r)); } | |
| pub unsafe fn instr32_39_mem(addr: i32, r: i32) { | |
| cmp32(return_on_pagefault!(safe_read32s(addr)), read_reg32(r)); | |
| } | |
| pub unsafe fn instr32_39_reg(r1: i32, r: i32) { cmp32(read_reg32(r1), read_reg32(r)); } | |
| pub unsafe fn instr_3A_mem(addr: i32, r: i32) { | |
| cmp8(read_reg8(r), return_on_pagefault!(safe_read8(addr))); | |
| } | |
| pub unsafe fn instr_3A_reg(r1: i32, r: i32) { cmp8(read_reg8(r), read_reg8(r1)); } | |
| pub unsafe fn instr16_3B_mem(addr: i32, r: i32) { | |
| cmp16(read_reg16(r), return_on_pagefault!(safe_read16(addr))); | |
| } | |
| pub unsafe fn instr16_3B_reg(r1: i32, r: i32) { cmp16(read_reg16(r), read_reg16(r1)); } | |
| pub unsafe fn instr32_3B_mem(addr: i32, r: i32) { | |
| cmp32(read_reg32(r), return_on_pagefault!(safe_read32s(addr))); | |
| } | |
| pub unsafe fn instr32_3B_reg(r1: i32, r: i32) { cmp32(read_reg32(r), read_reg32(r1)); } | |
| pub unsafe fn instr_3C(imm8: i32) { cmp8(read_reg8(AL), imm8); } | |
| pub unsafe fn instr16_3D(imm16: i32) { cmp16(read_reg16(AX), imm16); } | |
| pub unsafe fn instr32_3D(imm32: i32) { cmp32(read_reg32(EAX), imm32); } | |
| pub unsafe fn instr_3E() { segment_prefix_op(DS); } | |
| pub unsafe fn instr_3F() { bcd_aas(); } | |
| pub unsafe fn instr16_40() { write_reg16(AX, inc16(read_reg16(AX))); } | |
| pub unsafe fn instr32_40() { write_reg32(EAX, inc32(read_reg32(EAX))); } | |
| pub unsafe fn instr16_41() { write_reg16(CX, inc16(read_reg16(CX))); } | |
| pub unsafe fn instr32_41() { write_reg32(ECX, inc32(read_reg32(ECX))); } | |
| pub unsafe fn instr16_42() { write_reg16(DX, inc16(read_reg16(DX))); } | |
| pub unsafe fn instr32_42() { write_reg32(EDX, inc32(read_reg32(EDX))); } | |
| pub unsafe fn instr16_43() { write_reg16(BX, inc16(read_reg16(BX))); } | |
| pub unsafe fn instr32_43() { write_reg32(EBX, inc32(read_reg32(EBX))); } | |
| pub unsafe fn instr16_44() { write_reg16(SP, inc16(read_reg16(SP))); } | |
| pub unsafe fn instr32_44() { write_reg32(ESP, inc32(read_reg32(ESP))); } | |
| pub unsafe fn instr16_45() { write_reg16(BP, inc16(read_reg16(BP))); } | |
| pub unsafe fn instr32_45() { write_reg32(EBP, inc32(read_reg32(EBP))); } | |
| pub unsafe fn instr16_46() { write_reg16(SI, inc16(read_reg16(SI))); } | |
| pub unsafe fn instr32_46() { write_reg32(ESI, inc32(read_reg32(ESI))); } | |
| pub unsafe fn instr16_47() { write_reg16(DI, inc16(read_reg16(DI))); } | |
| pub unsafe fn instr32_47() { write_reg32(EDI, inc32(read_reg32(EDI))); } | |
| pub unsafe fn instr16_48() { write_reg16(AX, dec16(read_reg16(AX))); } | |
| pub unsafe fn instr32_48() { write_reg32(EAX, dec32(read_reg32(EAX))); } | |
| pub unsafe fn instr16_49() { write_reg16(CX, dec16(read_reg16(CX))); } | |
| pub unsafe fn instr32_49() { write_reg32(ECX, dec32(read_reg32(ECX))); } | |
| pub unsafe fn instr16_4A() { write_reg16(DX, dec16(read_reg16(DX))); } | |
| pub unsafe fn instr32_4A() { write_reg32(EDX, dec32(read_reg32(EDX))); } | |
| pub unsafe fn instr16_4B() { write_reg16(BX, dec16(read_reg16(BX))); } | |
| pub unsafe fn instr32_4B() { write_reg32(EBX, dec32(read_reg32(EBX))); } | |
| pub unsafe fn instr16_4C() { write_reg16(SP, dec16(read_reg16(SP))); } | |
| pub unsafe fn instr32_4C() { write_reg32(ESP, dec32(read_reg32(ESP))); } | |
| pub unsafe fn instr16_4D() { write_reg16(BP, dec16(read_reg16(BP))); } | |
| pub unsafe fn instr32_4D() { write_reg32(EBP, dec32(read_reg32(EBP))); } | |
| pub unsafe fn instr16_4E() { write_reg16(SI, dec16(read_reg16(SI))); } | |
| pub unsafe fn instr32_4E() { write_reg32(ESI, dec32(read_reg32(ESI))); } | |
| pub unsafe fn instr16_4F() { write_reg16(DI, dec16(read_reg16(DI))); } | |
| pub unsafe fn instr32_4F() { write_reg32(EDI, dec32(read_reg32(EDI))); } | |
| pub unsafe fn push16_reg(r: i32) { | |
| return_on_pagefault!(push16(read_reg16(r))); | |
| } | |
| pub unsafe fn push32_reg(r: i32) { | |
| return_on_pagefault!(push32(read_reg32(r))); | |
| } | |
| pub unsafe fn instr16_50() { push16_reg(AX) } | |
| pub unsafe fn instr32_50() { push32_reg(EAX) } | |
| pub unsafe fn instr16_51() { push16_reg(CX) } | |
| pub unsafe fn instr32_51() { push32_reg(ECX) } | |
| pub unsafe fn instr16_52() { push16_reg(DX) } | |
| pub unsafe fn instr32_52() { push32_reg(EDX) } | |
| pub unsafe fn instr16_53() { push16_reg(BX) } | |
| pub unsafe fn instr32_53() { push32_reg(EBX) } | |
| pub unsafe fn instr16_54() { push16_reg(SP) } | |
| pub unsafe fn instr32_54() { push32_reg(ESP) } | |
| pub unsafe fn instr16_55() { push16_reg(BP) } | |
| pub unsafe fn instr32_55() { push32_reg(EBP) } | |
| pub unsafe fn instr16_56() { push16_reg(SI) } | |
| pub unsafe fn instr32_56() { push32_reg(ESI) } | |
| pub unsafe fn instr16_57() { push16_reg(DI) } | |
| pub unsafe fn instr32_57() { push32_reg(EDI) } | |
| pub unsafe fn instr16_58() { write_reg16(AX, return_on_pagefault!(pop16())); } | |
| pub unsafe fn instr32_58() { write_reg32(EAX, return_on_pagefault!(pop32s())); } | |
| pub unsafe fn instr16_59() { write_reg16(CX, return_on_pagefault!(pop16())); } | |
| pub unsafe fn instr32_59() { write_reg32(ECX, return_on_pagefault!(pop32s())); } | |
| pub unsafe fn instr16_5A() { write_reg16(DX, return_on_pagefault!(pop16())); } | |
| pub unsafe fn instr32_5A() { write_reg32(EDX, return_on_pagefault!(pop32s())); } | |
| pub unsafe fn instr16_5B() { write_reg16(BX, return_on_pagefault!(pop16())); } | |
| pub unsafe fn instr32_5B() { write_reg32(EBX, return_on_pagefault!(pop32s())); } | |
| pub unsafe fn instr16_5C() { | |
| write_reg16(SP, return_on_pagefault!(safe_read16(get_stack_pointer(0)))); | |
| } | |
| pub unsafe fn instr32_5C() { | |
| write_reg32( | |
| ESP, | |
| return_on_pagefault!(safe_read32s(get_stack_pointer(0))), | |
| ); | |
| } | |
| pub unsafe fn instr16_5D() { write_reg16(BP, return_on_pagefault!(pop16())); } | |
| pub unsafe fn instr32_5D() { write_reg32(EBP, return_on_pagefault!(pop32s())); } | |
| pub unsafe fn instr16_5E() { write_reg16(SI, return_on_pagefault!(pop16())); } | |
| pub unsafe fn instr32_5E() { write_reg32(ESI, return_on_pagefault!(pop32s())); } | |
| pub unsafe fn instr16_5F() { write_reg16(DI, return_on_pagefault!(pop16())); } | |
| pub unsafe fn instr32_5F() { write_reg32(EDI, return_on_pagefault!(pop32s())); } | |
| pub unsafe fn instr16_60() { pusha16(); } | |
| pub unsafe fn instr32_60() { pusha32(); } | |
| pub unsafe fn instr16_61() { popa16(); } | |
| pub unsafe fn instr32_61() { popa32(); } | |
| pub unsafe fn instr_62_reg(_r2: i32, _r: i32) { | |
| // bound | |
| dbg_log!("Unimplemented BOUND instruction"); | |
| dbg_assert!(false); | |
| } | |
| pub unsafe fn instr_62_mem(_addr: i32, _r: i32) { | |
| dbg_log!("Unimplemented BOUND instruction"); | |
| dbg_assert!(false); | |
| } | |
| pub unsafe fn arpl(seg: i32, r16: i32) -> i32 { | |
| *flags_changed &= !FLAG_ZERO; | |
| if (seg & 3) < (r16 & 3) { | |
| *flags |= FLAG_ZERO; | |
| seg & !3 | r16 & 3 | |
| } | |
| else { | |
| *flags &= !FLAG_ZERO; | |
| seg | |
| } | |
| } | |
| pub unsafe fn instr_63_mem(addr: i32, r: i32) { | |
| if !*protected_mode || vm86_mode() { | |
| dbg_log!("arpl #ud"); | |
| trigger_ud(); | |
| return; | |
| } | |
| safe_read_write16(addr, &|x| arpl(x, read_reg16(r))) | |
| } | |
| pub unsafe fn instr_63_reg(r1: i32, r: i32) { | |
| if !*protected_mode || vm86_mode() { | |
| dbg_log!("arpl #ud"); | |
| trigger_ud(); | |
| return; | |
| } | |
| write_reg16(r1, arpl(read_reg16(r1), read_reg16(r))); | |
| } | |
| pub unsafe fn instr_64() { segment_prefix_op(FS); } | |
| pub unsafe fn instr_65() { segment_prefix_op(GS); } | |
| pub unsafe fn instr_66() { | |
| // Operand-size override prefix | |
| *prefixes |= prefix::PREFIX_MASK_OPSIZE; | |
| run_prefix_instruction(); | |
| *prefixes = 0; | |
| } | |
| pub unsafe fn instr_67() { | |
| // Address-size override prefix | |
| *prefixes |= prefix::PREFIX_MASK_ADDRSIZE; | |
| run_prefix_instruction(); | |
| *prefixes = 0; | |
| } | |
| pub unsafe fn instr16_68(imm16: i32) { | |
| return_on_pagefault!(push16(imm16)); | |
| } | |
| pub unsafe fn instr32_68(imm32: i32) { | |
| return_on_pagefault!(push32(imm32)); | |
| } | |
| pub unsafe fn instr16_69_mem(addr: i32, r: i32, imm: i32) { | |
| write_reg16(r, imul_reg16(return_on_pagefault!(safe_read16(addr)), imm)); | |
| } | |
| pub unsafe fn instr16_69_reg(r1: i32, r: i32, imm: i32) { | |
| write_reg16(r, imul_reg16(read_reg16(r1), imm)); | |
| } | |
| pub unsafe fn instr32_69_mem(addr: i32, r: i32, imm: i32) { | |
| write_reg32(r, imul_reg32(return_on_pagefault!(safe_read32s(addr)), imm)); | |
| } | |
| pub unsafe fn instr32_69_reg(r1: i32, r: i32, imm: i32) { | |
| write_reg32(r, imul_reg32(read_reg32(r1), imm)); | |
| } | |
| pub unsafe fn instr16_6A(imm8: i32) { | |
| return_on_pagefault!(push16(imm8 & 0xFFFF)); | |
| } | |
| pub unsafe fn instr32_6A(imm8: i32) { | |
| return_on_pagefault!(push32(imm8)); | |
| } | |
| pub unsafe fn instr16_6B_mem(addr: i32, r: i32, imm: i32) { | |
| write_reg16(r, imul_reg16(return_on_pagefault!(safe_read16(addr)), imm)); | |
| } | |
| pub unsafe fn instr16_6B_reg(r1: i32, r: i32, imm: i32) { | |
| write_reg16(r, imul_reg16(read_reg16(r1), imm)); | |
| } | |
| pub unsafe fn instr32_6B_mem(addr: i32, r: i32, imm: i32) { | |
| write_reg32(r, imul_reg32(return_on_pagefault!(safe_read32s(addr)), imm)); | |
| } | |
| pub unsafe fn instr32_6B_reg(r1: i32, r: i32, imm: i32) { | |
| write_reg32(r, imul_reg32(read_reg32(r1), imm)); | |
| } | |
| pub unsafe fn instr_6C() { insb_no_rep(is_asize_32()); } | |
| pub unsafe fn instr_F26C() { insb_rep(is_asize_32()); } | |
| pub unsafe fn instr_F36C() { insb_rep(is_asize_32()); } | |
| pub unsafe fn instr16_6D() { insw_no_rep(is_asize_32()); } | |
| pub unsafe fn instr32_6D() { insd_no_rep(is_asize_32()); } | |
| pub unsafe fn instr16_F26D() { insw_rep(is_asize_32()); } | |
| pub unsafe fn instr16_F36D() { insw_rep(is_asize_32()); } | |
| pub unsafe fn instr32_F26D() { insd_rep(is_asize_32()); } | |
| pub unsafe fn instr32_F36D() { insd_rep(is_asize_32()); } | |
| pub unsafe fn instr_6E() { outsb_no_rep(is_asize_32(), segment_prefix(DS)); } | |
| pub unsafe fn instr_F26E() { outsb_rep(is_asize_32(), segment_prefix(DS)); } | |
| pub unsafe fn instr_F36E() { outsb_rep(is_asize_32(), segment_prefix(DS)); } | |
| pub unsafe fn instr16_6F() { outsw_no_rep(is_asize_32(), segment_prefix(DS)); } | |
| pub unsafe fn instr32_6F() { outsd_no_rep(is_asize_32(), segment_prefix(DS)); } | |
| pub unsafe fn instr16_F26F() { outsw_rep(is_asize_32(), segment_prefix(DS)); } | |
| pub unsafe fn instr16_F36F() { outsw_rep(is_asize_32(), segment_prefix(DS)); } | |
| pub unsafe fn instr32_F26F() { outsd_rep(is_asize_32(), segment_prefix(DS)); } | |
| pub unsafe fn instr32_F36F() { outsd_rep(is_asize_32(), segment_prefix(DS)); } | |
| pub unsafe fn instr16_70(imm8: i32) { jmpcc16(test_o(), imm8); } | |
| pub unsafe fn instr16_71(imm8: i32) { jmpcc16(!test_o(), imm8); } | |
| pub unsafe fn instr16_72(imm8: i32) { jmpcc16(test_b(), imm8); } | |
| pub unsafe fn instr16_73(imm8: i32) { jmpcc16(!test_b(), imm8); } | |
| pub unsafe fn instr16_74(imm8: i32) { jmpcc16(test_z(), imm8); } | |
| pub unsafe fn instr16_75(imm8: i32) { jmpcc16(!test_z(), imm8); } | |
| pub unsafe fn instr16_76(imm8: i32) { jmpcc16(test_be(), imm8); } | |
| pub unsafe fn instr16_77(imm8: i32) { jmpcc16(!test_be(), imm8); } | |
| pub unsafe fn instr16_78(imm8: i32) { jmpcc16(test_s(), imm8); } | |
| pub unsafe fn instr16_79(imm8: i32) { jmpcc16(!test_s(), imm8); } | |
| pub unsafe fn instr16_7A(imm8: i32) { jmpcc16(test_p(), imm8); } | |
| pub unsafe fn instr16_7B(imm8: i32) { jmpcc16(!test_p(), imm8); } | |
| pub unsafe fn instr16_7C(imm8: i32) { jmpcc16(test_l(), imm8); } | |
| pub unsafe fn instr16_7D(imm8: i32) { jmpcc16(!test_l(), imm8); } | |
| pub unsafe fn instr16_7E(imm8: i32) { jmpcc16(test_le(), imm8); } | |
| pub unsafe fn instr16_7F(imm8: i32) { jmpcc16(!test_le(), imm8); } | |
| pub unsafe fn instr32_70(imm8: i32) { jmpcc32(test_o(), imm8); } | |
| pub unsafe fn instr32_71(imm8: i32) { jmpcc32(!test_o(), imm8); } | |
| pub unsafe fn instr32_72(imm8: i32) { jmpcc32(test_b(), imm8); } | |
| pub unsafe fn instr32_73(imm8: i32) { jmpcc32(!test_b(), imm8); } | |
| pub unsafe fn instr32_74(imm8: i32) { jmpcc32(test_z(), imm8); } | |
| pub unsafe fn instr32_75(imm8: i32) { jmpcc32(!test_z(), imm8); } | |
| pub unsafe fn instr32_76(imm8: i32) { jmpcc32(test_be(), imm8); } | |
| pub unsafe fn instr32_77(imm8: i32) { jmpcc32(!test_be(), imm8); } | |
| pub unsafe fn instr32_78(imm8: i32) { jmpcc32(test_s(), imm8); } | |
| pub unsafe fn instr32_79(imm8: i32) { jmpcc32(!test_s(), imm8); } | |
| pub unsafe fn instr32_7A(imm8: i32) { jmpcc32(test_p(), imm8); } | |
| pub unsafe fn instr32_7B(imm8: i32) { jmpcc32(!test_p(), imm8); } | |
| pub unsafe fn instr32_7C(imm8: i32) { jmpcc32(test_l(), imm8); } | |
| pub unsafe fn instr32_7D(imm8: i32) { jmpcc32(!test_l(), imm8); } | |
| pub unsafe fn instr32_7E(imm8: i32) { jmpcc32(test_le(), imm8); } | |
| pub unsafe fn instr32_7F(imm8: i32) { jmpcc32(!test_le(), imm8); } | |
| pub unsafe fn instr_80_0_mem(addr: i32, imm: i32) { safe_read_write8(addr, &|x| add8(x, imm)) } | |
| pub unsafe fn instr_80_0_reg(r1: i32, imm: i32) { write_reg8(r1, add8(read_reg8(r1), imm)); } | |
| pub unsafe fn instr_80_1_mem(addr: i32, imm: i32) { safe_read_write8(addr, &|x| or8(x, imm)) } | |
| pub unsafe fn instr_80_1_reg(r1: i32, imm: i32) { write_reg8(r1, or8(read_reg8(r1), imm)); } | |
| pub unsafe fn instr_80_2_mem(addr: i32, imm: i32) { safe_read_write8(addr, &|x| adc8(x, imm)) } | |
| pub unsafe fn instr_80_2_reg(r1: i32, imm: i32) { write_reg8(r1, adc8(read_reg8(r1), imm)); } | |
| pub unsafe fn instr_80_3_mem(addr: i32, imm: i32) { safe_read_write8(addr, &|x| sbb8(x, imm)) } | |
| pub unsafe fn instr_80_3_reg(r1: i32, imm: i32) { write_reg8(r1, sbb8(read_reg8(r1), imm)); } | |
| pub unsafe fn instr_80_4_mem(addr: i32, imm: i32) { safe_read_write8(addr, &|x| and8(x, imm)) } | |
| pub unsafe fn instr_80_4_reg(r1: i32, imm: i32) { write_reg8(r1, and8(read_reg8(r1), imm)); } | |
| pub unsafe fn instr_80_5_mem(addr: i32, imm: i32) { safe_read_write8(addr, &|x| sub8(x, imm)) } | |
| pub unsafe fn instr_80_5_reg(r1: i32, imm: i32) { write_reg8(r1, sub8(read_reg8(r1), imm)); } | |
| pub unsafe fn instr_80_6_mem(addr: i32, imm: i32) { safe_read_write8(addr, &|x| xor8(x, imm)) } | |
| pub unsafe fn instr_80_6_reg(r1: i32, imm: i32) { write_reg8(r1, xor8(read_reg8(r1), imm)); } | |
| pub unsafe fn instr_80_7_reg(r: i32, imm: i32) { cmp8(read_reg8(r), imm); } | |
| pub unsafe fn instr_80_7_mem(addr: i32, imm: i32) { | |
| cmp8(return_on_pagefault!(safe_read8(addr)), imm); | |
| } | |
| pub unsafe fn instr16_81_0_mem(addr: i32, imm: i32) { safe_read_write16(addr, &|x| add16(x, imm)) } | |
| pub unsafe fn instr16_81_0_reg(r1: i32, imm: i32) { write_reg16(r1, add16(read_reg16(r1), imm)); } | |
| pub unsafe fn instr16_81_1_mem(addr: i32, imm: i32) { safe_read_write16(addr, &|x| or16(x, imm)) } | |
| pub unsafe fn instr16_81_1_reg(r1: i32, imm: i32) { write_reg16(r1, or16(read_reg16(r1), imm)); } | |
| pub unsafe fn instr16_81_2_mem(addr: i32, imm: i32) { safe_read_write16(addr, &|x| adc16(x, imm)) } | |
| pub unsafe fn instr16_81_2_reg(r1: i32, imm: i32) { write_reg16(r1, adc16(read_reg16(r1), imm)); } | |
| pub unsafe fn instr16_81_3_mem(addr: i32, imm: i32) { safe_read_write16(addr, &|x| sbb16(x, imm)) } | |
| pub unsafe fn instr16_81_3_reg(r1: i32, imm: i32) { write_reg16(r1, sbb16(read_reg16(r1), imm)); } | |
| pub unsafe fn instr16_81_4_mem(addr: i32, imm: i32) { safe_read_write16(addr, &|x| and16(x, imm)) } | |
| pub unsafe fn instr16_81_4_reg(r1: i32, imm: i32) { write_reg16(r1, and16(read_reg16(r1), imm)); } | |
| pub unsafe fn instr16_81_5_mem(addr: i32, imm: i32) { safe_read_write16(addr, &|x| sub16(x, imm)) } | |
| pub unsafe fn instr16_81_5_reg(r1: i32, imm: i32) { write_reg16(r1, sub16(read_reg16(r1), imm)); } | |
| pub unsafe fn instr16_81_6_mem(addr: i32, imm: i32) { safe_read_write16(addr, &|x| xor16(x, imm)) } | |
| pub unsafe fn instr16_81_6_reg(r1: i32, imm: i32) { write_reg16(r1, xor16(read_reg16(r1), imm)); } | |
| pub unsafe fn instr16_81_7_reg(r: i32, imm: i32) { cmp16(read_reg16(r), imm); } | |
| pub unsafe fn instr16_81_7_mem(addr: i32, imm: i32) { | |
| cmp16(return_on_pagefault!(safe_read16(addr)), imm); | |
| } | |
| pub unsafe fn instr32_81_0_mem(addr: i32, imm: i32) { safe_read_write32(addr, &|x| add32(x, imm)) } | |
| pub unsafe fn instr32_81_0_reg(r1: i32, imm: i32) { write_reg32(r1, add32(read_reg32(r1), imm)); } | |
| pub unsafe fn instr32_81_1_mem(addr: i32, imm: i32) { safe_read_write32(addr, &|x| or32(x, imm)) } | |
| pub unsafe fn instr32_81_1_reg(r1: i32, imm: i32) { write_reg32(r1, or32(read_reg32(r1), imm)); } | |
| pub unsafe fn instr32_81_2_mem(addr: i32, imm: i32) { safe_read_write32(addr, &|x| adc32(x, imm)) } | |
| pub unsafe fn instr32_81_2_reg(r1: i32, imm: i32) { write_reg32(r1, adc32(read_reg32(r1), imm)); } | |
| pub unsafe fn instr32_81_3_mem(addr: i32, imm: i32) { safe_read_write32(addr, &|x| sbb32(x, imm)) } | |
| pub unsafe fn instr32_81_3_reg(r1: i32, imm: i32) { write_reg32(r1, sbb32(read_reg32(r1), imm)); } | |
| pub unsafe fn instr32_81_4_mem(addr: i32, imm: i32) { safe_read_write32(addr, &|x| and32(x, imm)) } | |
| pub unsafe fn instr32_81_4_reg(r1: i32, imm: i32) { write_reg32(r1, and32(read_reg32(r1), imm)); } | |
| pub unsafe fn instr32_81_5_mem(addr: i32, imm: i32) { safe_read_write32(addr, &|x| sub32(x, imm)) } | |
| pub unsafe fn instr32_81_5_reg(r1: i32, imm: i32) { write_reg32(r1, sub32(read_reg32(r1), imm)); } | |
| pub unsafe fn instr32_81_6_mem(addr: i32, imm: i32) { safe_read_write32(addr, &|x| xor32(x, imm)) } | |
| pub unsafe fn instr32_81_6_reg(r1: i32, imm: i32) { write_reg32(r1, xor32(read_reg32(r1), imm)); } | |
| pub unsafe fn instr32_81_7_reg(r: i32, imm: i32) { cmp32(read_reg32(r), imm); } | |
| pub unsafe fn instr32_81_7_mem(addr: i32, imm: i32) { | |
| cmp32(return_on_pagefault!(safe_read32s(addr)), imm); | |
| } | |
| pub unsafe fn instr_82_0_mem(addr: i32, imm: i32) { safe_read_write8(addr, &|x| add8(x, imm)) } | |
| pub unsafe fn instr_82_0_reg(r1: i32, imm: i32) { write_reg8(r1, add8(read_reg8(r1), imm)); } | |
| pub unsafe fn instr_82_1_mem(addr: i32, imm: i32) { safe_read_write8(addr, &|x| or8(x, imm)) } | |
| pub unsafe fn instr_82_1_reg(r1: i32, imm: i32) { write_reg8(r1, or8(read_reg8(r1), imm)); } | |
| pub unsafe fn instr_82_2_mem(addr: i32, imm: i32) { safe_read_write8(addr, &|x| adc8(x, imm)) } | |
| pub unsafe fn instr_82_2_reg(r1: i32, imm: i32) { write_reg8(r1, adc8(read_reg8(r1), imm)); } | |
| pub unsafe fn instr_82_3_mem(addr: i32, imm: i32) { safe_read_write8(addr, &|x| sbb8(x, imm)) } | |
| pub unsafe fn instr_82_3_reg(r1: i32, imm: i32) { write_reg8(r1, sbb8(read_reg8(r1), imm)); } | |
| pub unsafe fn instr_82_4_mem(addr: i32, imm: i32) { safe_read_write8(addr, &|x| and8(x, imm)) } | |
| pub unsafe fn instr_82_4_reg(r1: i32, imm: i32) { write_reg8(r1, and8(read_reg8(r1), imm)); } | |
| pub unsafe fn instr_82_5_mem(addr: i32, imm: i32) { safe_read_write8(addr, &|x| sub8(x, imm)) } | |
| pub unsafe fn instr_82_5_reg(r1: i32, imm: i32) { write_reg8(r1, sub8(read_reg8(r1), imm)); } | |
| pub unsafe fn instr_82_6_mem(addr: i32, imm: i32) { safe_read_write8(addr, &|x| xor8(x, imm)) } | |
| pub unsafe fn instr_82_6_reg(r1: i32, imm: i32) { write_reg8(r1, xor8(read_reg8(r1), imm)); } | |
| pub unsafe fn instr_82_7_reg(r: i32, imm: i32) { cmp8(read_reg8(r), imm); } | |
| pub unsafe fn instr_82_7_mem(addr: i32, imm: i32) { | |
| cmp8(return_on_pagefault!(safe_read8(addr)), imm); | |
| } | |
| pub unsafe fn instr16_83_0_mem(addr: i32, imm: i32) { | |
| safe_read_write16(addr, &|x| add16(x, imm & 0xFFFF)) | |
| } | |
| pub unsafe fn instr16_83_0_reg(r1: i32, imm: i32) { | |
| write_reg16(r1, add16(read_reg16(r1), imm & 0xFFFF)); | |
| } | |
| pub unsafe fn instr16_83_1_mem(addr: i32, imm: i32) { | |
| safe_read_write16(addr, &|x| or16(x, imm & 0xFFFF)) | |
| } | |
| pub unsafe fn instr16_83_1_reg(r1: i32, imm: i32) { | |
| write_reg16(r1, or16(read_reg16(r1), imm & 0xFFFF)); | |
| } | |
| pub unsafe fn instr16_83_2_mem(addr: i32, imm: i32) { | |
| safe_read_write16(addr, &|x| adc16(x, imm & 0xFFFF)) | |
| } | |
| pub unsafe fn instr16_83_2_reg(r1: i32, imm: i32) { | |
| write_reg16(r1, adc16(read_reg16(r1), imm & 0xFFFF)); | |
| } | |
| pub unsafe fn instr16_83_3_mem(addr: i32, imm: i32) { | |
| safe_read_write16(addr, &|x| sbb16(x, imm & 0xFFFF)) | |
| } | |
| pub unsafe fn instr16_83_3_reg(r1: i32, imm: i32) { | |
| write_reg16(r1, sbb16(read_reg16(r1), imm & 0xFFFF)); | |
| } | |
| pub unsafe fn instr16_83_4_mem(addr: i32, imm: i32) { | |
| safe_read_write16(addr, &|x| and16(x, imm & 0xFFFF)) | |
| } | |
| pub unsafe fn instr16_83_4_reg(r1: i32, imm: i32) { | |
| write_reg16(r1, and16(read_reg16(r1), imm & 0xFFFF)); | |
| } | |
| pub unsafe fn instr16_83_5_mem(addr: i32, imm: i32) { | |
| safe_read_write16(addr, &|x| sub16(x, imm & 0xFFFF)) | |
| } | |
| pub unsafe fn instr16_83_5_reg(r1: i32, imm: i32) { | |
| write_reg16(r1, sub16(read_reg16(r1), imm & 0xFFFF)); | |
| } | |
| pub unsafe fn instr16_83_6_mem(addr: i32, imm: i32) { | |
| safe_read_write16(addr, &|x| xor16(x, imm & 0xFFFF)) | |
| } | |
| pub unsafe fn instr16_83_6_reg(r1: i32, imm: i32) { | |
| write_reg16(r1, xor16(read_reg16(r1), imm & 0xFFFF)); | |
| } | |
| pub unsafe fn instr16_83_7_reg(r: i32, imm: i32) { cmp16(read_reg16(r), imm & 0xFFFF); } | |
| pub unsafe fn instr16_83_7_mem(addr: i32, imm: i32) { | |
| cmp16(return_on_pagefault!(safe_read16(addr)), imm & 0xFFFF); | |
| } | |
| pub unsafe fn instr32_83_0_mem(addr: i32, imm: i32) { safe_read_write32(addr, &|x| add32(x, imm)) } | |
| pub unsafe fn instr32_83_0_reg(r1: i32, imm: i32) { write_reg32(r1, add32(read_reg32(r1), imm)); } | |
| pub unsafe fn instr32_83_1_mem(addr: i32, imm: i32) { safe_read_write32(addr, &|x| or32(x, imm)) } | |
| pub unsafe fn instr32_83_1_reg(r1: i32, imm: i32) { write_reg32(r1, or32(read_reg32(r1), imm)); } | |
| pub unsafe fn instr32_83_2_mem(addr: i32, imm: i32) { safe_read_write32(addr, &|x| adc32(x, imm)) } | |
| pub unsafe fn instr32_83_2_reg(r1: i32, imm: i32) { write_reg32(r1, adc32(read_reg32(r1), imm)); } | |
| pub unsafe fn instr32_83_3_mem(addr: i32, imm: i32) { safe_read_write32(addr, &|x| sbb32(x, imm)) } | |
| pub unsafe fn instr32_83_3_reg(r1: i32, imm: i32) { write_reg32(r1, sbb32(read_reg32(r1), imm)); } | |
| pub unsafe fn instr32_83_4_mem(addr: i32, imm: i32) { safe_read_write32(addr, &|x| and32(x, imm)) } | |
| pub unsafe fn instr32_83_4_reg(r1: i32, imm: i32) { write_reg32(r1, and32(read_reg32(r1), imm)); } | |
| pub unsafe fn instr32_83_5_mem(addr: i32, imm: i32) { safe_read_write32(addr, &|x| sub32(x, imm)) } | |
| pub unsafe fn instr32_83_5_reg(r1: i32, imm: i32) { write_reg32(r1, sub32(read_reg32(r1), imm)); } | |
| pub unsafe fn instr32_83_6_mem(addr: i32, imm: i32) { safe_read_write32(addr, &|x| xor32(x, imm)) } | |
| pub unsafe fn instr32_83_6_reg(r1: i32, imm: i32) { write_reg32(r1, xor32(read_reg32(r1), imm)); } | |
| pub unsafe fn instr32_83_7_reg(r: i32, imm: i32) { cmp32(read_reg32(r), imm); } | |
| pub unsafe fn instr32_83_7_mem(addr: i32, imm: i32) { | |
| cmp32(return_on_pagefault!(safe_read32s(addr)), imm); | |
| } | |
| pub unsafe fn instr_84_mem(addr: i32, r: i32) { | |
| test8(return_on_pagefault!(safe_read8(addr)), read_reg8(r)); | |
| } | |
| pub unsafe fn instr_84_reg(r1: i32, r: i32) { test8(read_reg8(r1), read_reg8(r)); } | |
| pub unsafe fn instr16_85_mem(addr: i32, r: i32) { | |
| test16(return_on_pagefault!(safe_read16(addr)), read_reg16(r)); | |
| } | |
| pub unsafe fn instr16_85_reg(r1: i32, r: i32) { test16(read_reg16(r1), read_reg16(r)); } | |
| pub unsafe fn instr32_85_mem(addr: i32, r: i32) { | |
| test32(return_on_pagefault!(safe_read32s(addr)), read_reg32(r)); | |
| } | |
| pub unsafe fn instr32_85_reg(r1: i32, r: i32) { test32(read_reg32(r1), read_reg32(r)); } | |
| pub unsafe fn instr_86_mem(addr: i32, r: i32) { safe_read_write8(addr, &|x| xchg8(x, r)) } | |
| pub unsafe fn instr_86_reg(r1: i32, r: i32) { write_reg8(r1, xchg8(read_reg8(r1), r)); } | |
| pub unsafe fn instr16_87_mem(addr: i32, r: i32) { safe_read_write16(addr, &|x| xchg16(x, r)) } | |
| pub unsafe fn instr16_87_reg(r1: i32, r: i32) { write_reg16(r1, xchg16(read_reg16(r1), r)); } | |
| pub unsafe fn instr32_87_mem(addr: i32, r: i32) { safe_read_write32(addr, &|x| xchg32(x, r)) } | |
| pub unsafe fn instr32_87_reg(r1: i32, r: i32) { write_reg32(r1, xchg32(read_reg32(r1), r)); } | |
| pub unsafe fn instr_88_reg(r2: i32, r: i32) { write_reg8(r2, read_reg8(r)); } | |
| pub unsafe fn instr_88_mem(addr: i32, r: i32) { | |
| return_on_pagefault!(safe_write8(addr, read_reg8(r))); | |
| } | |
| pub unsafe fn instr16_89_reg(r2: i32, r: i32) { write_reg16(r2, read_reg16(r)); } | |
| pub unsafe fn instr16_89_mem(addr: i32, r: i32) { | |
| return_on_pagefault!(safe_write16(addr, read_reg16(r))); | |
| } | |
| pub unsafe fn instr32_89_reg(r2: i32, r: i32) { write_reg32(r2, read_reg32(r)); } | |
| pub unsafe fn instr32_89_mem(addr: i32, r: i32) { | |
| return_on_pagefault!(safe_write32(addr, read_reg32(r))); | |
| } | |
| pub unsafe fn instr_8A_mem(addr: i32, r: i32) { | |
| write_reg8(r, return_on_pagefault!(safe_read8(addr))); | |
| } | |
| pub unsafe fn instr_8A_reg(r1: i32, r: i32) { write_reg8(r, read_reg8(r1)); } | |
| pub unsafe fn instr16_8B_mem(addr: i32, r: i32) { | |
| write_reg16(r, return_on_pagefault!(safe_read16(addr))); | |
| } | |
| pub unsafe fn instr16_8B_reg(r1: i32, r: i32) { write_reg16(r, read_reg16(r1)); } | |
| pub unsafe fn instr32_8B_mem(addr: i32, r: i32) { | |
| write_reg32(r, return_on_pagefault!(safe_read32s(addr))); | |
| } | |
| pub unsafe fn instr32_8B_reg(r1: i32, r: i32) { write_reg32(r, read_reg32(r1)); } | |
| pub unsafe fn instr_8C_check_sreg(seg: i32) -> bool { | |
| if seg >= 6 { | |
| dbg_log!("mov sreg #ud"); | |
| trigger_ud(); | |
| return false; | |
| } | |
| else { | |
| return true; | |
| }; | |
| } | |
| pub unsafe fn instr16_8C_reg(r: i32, seg: i32) { | |
| if instr_8C_check_sreg(seg) { | |
| write_reg16(r, *sreg.offset(seg as isize) as i32); | |
| }; | |
| } | |
| pub unsafe fn instr16_8C_mem(addr: i32, seg: i32) { | |
| if instr_8C_check_sreg(seg) { | |
| return_on_pagefault!(safe_write16(addr, *sreg.offset(seg as isize) as i32)); | |
| }; | |
| } | |
| pub unsafe fn instr32_8C_reg(r: i32, seg: i32) { | |
| if instr_8C_check_sreg(seg) { | |
| write_reg32(r, *sreg.offset(seg as isize) as i32); | |
| }; | |
| } | |
| pub unsafe fn instr32_8C_mem(addr: i32, seg: i32) { | |
| if instr_8C_check_sreg(seg) { | |
| return_on_pagefault!(safe_write16(addr, *sreg.offset(seg as isize) as i32)); | |
| }; | |
| } | |
| pub unsafe fn instr16_8D_reg(_r: i32, _r2: i32) { | |
| dbg_log!("lea #ud"); | |
| trigger_ud(); | |
| } | |
| pub unsafe fn instr16_8D_mem(modrm_byte: i32, r: i32) { | |
| // lea | |
| *prefixes |= prefix::SEG_PREFIX_ZERO; | |
| if let Ok(addr) = modrm_resolve(modrm_byte) { | |
| write_reg16(r, addr); | |
| } | |
| *prefixes = 0; | |
| } | |
| pub unsafe fn instr32_8D_reg(_r: i32, _r2: i32) { | |
| dbg_log!("lea #ud"); | |
| trigger_ud(); | |
| } | |
| pub unsafe fn instr32_8D_mem(modrm_byte: i32, r: i32) { | |
| // lea | |
| // override prefix, so modrm_resolve does not return the segment part | |
| *prefixes |= prefix::SEG_PREFIX_ZERO; | |
| if let Ok(addr) = modrm_resolve(modrm_byte) { | |
| write_reg32(r, addr); | |
| } | |
| *prefixes = 0; | |
| } | |
| pub unsafe fn instr_8E_mem(addr: i32, r: i32) { | |
| if r == ES || r == SS || r == DS || r == FS || r == GS { | |
| if !switch_seg(r, return_on_pagefault!(safe_read16(addr))) { | |
| return; | |
| } | |
| } | |
| else { | |
| dbg_log!("mov sreg #ud"); | |
| trigger_ud(); | |
| } | |
| } | |
| pub unsafe fn instr_8E_reg(r1: i32, r: i32) { | |
| if r == ES || r == SS || r == DS || r == FS || r == GS { | |
| switch_seg(r, read_reg16(r1)); | |
| } | |
| else { | |
| dbg_log!("mov sreg #ud"); | |
| trigger_ud(); | |
| } | |
| } | |
| pub unsafe fn instr16_8F_0_mem(modrm_byte: i32) { | |
| // pop | |
| // Update esp *before* resolving the address | |
| adjust_stack_reg(2); | |
| match modrm_resolve(modrm_byte) { | |
| Err(()) => { | |
| // a pagefault happened, reset esp | |
| adjust_stack_reg(-2); | |
| }, | |
| Ok(addr) => { | |
| adjust_stack_reg(-2); | |
| let stack_value = return_on_pagefault!(safe_read16(get_stack_pointer(0))); | |
| return_on_pagefault!(safe_write16(addr, stack_value)); | |
| adjust_stack_reg(2); | |
| }, | |
| } | |
| } | |
| pub unsafe fn instr16_8F_0_reg(r: i32) { write_reg16(r, return_on_pagefault!(pop16())); } | |
| pub unsafe fn instr32_8F_0_mem(modrm_byte: i32) { | |
| // Update esp *before* resolving the address | |
| adjust_stack_reg(4); | |
| match modrm_resolve(modrm_byte) { | |
| Err(()) => { | |
| // a pagefault happened, reset esp | |
| adjust_stack_reg(-4); | |
| }, | |
| Ok(addr) => { | |
| adjust_stack_reg(-4); | |
| let stack_value = return_on_pagefault!(safe_read32s(get_stack_pointer(0))); | |
| return_on_pagefault!(safe_write32(addr, stack_value)); | |
| adjust_stack_reg(4); | |
| }, | |
| } | |
| } | |
| pub unsafe fn instr32_8F_0_reg(r: i32) { write_reg32(r, return_on_pagefault!(pop32s())); } | |
| pub unsafe fn instr_90() {} | |
| pub unsafe fn instr16_91() { xchg16r(CX); } | |
| pub unsafe fn instr32_91() { xchg32r(ECX); } | |
| pub unsafe fn instr16_92() { xchg16r(DX); } | |
| pub unsafe fn instr32_92() { xchg32r(EDX); } | |
| pub unsafe fn instr16_93() { xchg16r(BX); } | |
| pub unsafe fn instr32_93() { xchg32r(EBX); } | |
| pub unsafe fn instr16_94() { xchg16r(SP); } | |
| pub unsafe fn instr32_94() { xchg32r(ESP); } | |
| pub unsafe fn instr16_95() { xchg16r(BP); } | |
| pub unsafe fn instr32_95() { xchg32r(EBP); } | |
| pub unsafe fn instr16_96() { xchg16r(SI); } | |
| pub unsafe fn instr32_96() { xchg32r(ESI); } | |
| pub unsafe fn instr16_97() { xchg16r(DI); } | |
| pub unsafe fn instr32_97() { xchg32r(EDI); } | |
| pub unsafe fn instr16_98() { write_reg16(AX, read_reg8(AL) << 24 >> 24); } | |
| pub unsafe fn instr32_98() { write_reg32(EAX, read_reg16(AX) as i16 as i32); } | |
| pub unsafe fn instr16_99() { write_reg16(DX, read_reg16(AX) as i16 as i32 >> 15); } | |
| pub unsafe fn instr32_99() { write_reg32(EDX, read_reg32(EAX) >> 31); } | |
| pub unsafe fn instr16_9A(new_ip: i32, new_cs: i32) { | |
| // callf | |
| far_jump(new_ip, new_cs, true, false); | |
| } | |
| pub unsafe fn instr32_9A(new_ip: i32, new_cs: i32) { | |
| if !*protected_mode || vm86_mode() { | |
| if 0 != new_ip as u32 & 0xFFFF0000 { | |
| dbg_assert!(false); | |
| } | |
| } | |
| far_jump(new_ip, new_cs, true, true); | |
| } | |
| pub unsafe fn instr_9B() { | |
| // fwait: check for pending fpu exceptions | |
| if *cr & (CR0_MP | CR0_TS) == CR0_MP | CR0_TS { | |
| // Note: Different from task_switch_test | |
| // Triggers when TS and MP bits are set (EM bit is ignored) | |
| trigger_nm(); | |
| } | |
| else { | |
| fwait(); | |
| }; | |
| } | |
| unsafe fn instr_pushf_popf_check() -> bool { 0 != *flags & FLAG_VM && getiopl() < 3 } | |
| pub unsafe fn instr16_9C() { | |
| // pushf | |
| if instr_pushf_popf_check() { | |
| dbg_assert!(*protected_mode); | |
| dbg_log!("pushf #gp"); | |
| trigger_gp(0); | |
| } | |
| else { | |
| return_on_pagefault!(push16(get_eflags() & 0xFFFF)); | |
| }; | |
| } | |
| pub unsafe fn instr32_9C() { | |
| // pushf | |
| if instr_pushf_popf_check() { | |
| // trap to virtual 8086 monitor | |
| dbg_assert!(*protected_mode); | |
| dbg_log!("pushf #gp"); | |
| trigger_gp(0); | |
| } | |
| else { | |
| // vm and rf flag are cleared in image stored on the stack | |
| return_on_pagefault!(push32(get_eflags() & 0xFCFFFF)); | |
| }; | |
| } | |
| pub unsafe fn instr16_9D() { | |
| // popf | |
| if instr_pushf_popf_check() { | |
| dbg_log!("popf #gp"); | |
| trigger_gp(0); | |
| return; | |
| } | |
| let old_eflags = *flags; | |
| update_eflags(*flags & !0xFFFF | return_on_pagefault!(pop16())); | |
| if old_eflags & FLAG_INTERRUPT == 0 && *flags & FLAG_INTERRUPT != 0 { | |
| handle_irqs(); | |
| } | |
| } | |
| pub unsafe fn instr32_9D() { | |
| // popf | |
| if instr_pushf_popf_check() { | |
| dbg_log!("popf #gp"); | |
| trigger_gp(0); | |
| return; | |
| } | |
| let old_eflags = *flags; | |
| update_eflags(return_on_pagefault!(pop32s())); | |
| if old_eflags & FLAG_INTERRUPT == 0 && *flags & FLAG_INTERRUPT != 0 { | |
| handle_irqs(); | |
| } | |
| } | |
| pub unsafe fn instr_9E() { | |
| // sahf | |
| *flags = *flags & !255 | read_reg8(AH); | |
| *flags = *flags & FLAGS_MASK | FLAGS_DEFAULT; | |
| *flags_changed &= !255; | |
| } | |
| pub unsafe fn instr_9F() { | |
| // lahf | |
| write_reg8(AH, get_eflags()); | |
| } | |
| pub unsafe fn instr_A0(moffs: i32) { | |
| // mov | |
| let data = return_on_pagefault!(safe_read8(return_on_pagefault!(get_seg_prefix_ds(moffs)))); | |
| write_reg8(AL, data); | |
| } | |
| pub unsafe fn instr16_A1(moffs: i32) { | |
| // mov | |
| let data = return_on_pagefault!(safe_read16(return_on_pagefault!(get_seg_prefix_ds(moffs)))); | |
| write_reg16(AX, data); | |
| } | |
| pub unsafe fn instr32_A1(moffs: i32) { | |
| let data = return_on_pagefault!(safe_read32s(return_on_pagefault!(get_seg_prefix_ds(moffs)))); | |
| write_reg32(EAX, data); | |
| } | |
| pub unsafe fn instr_A2(moffs: i32) { | |
| // mov | |
| return_on_pagefault!(safe_write8( | |
| return_on_pagefault!(get_seg_prefix_ds(moffs)), | |
| read_reg8(AL) | |
| )); | |
| } | |
| pub unsafe fn instr16_A3(moffs: i32) { | |
| // mov | |
| return_on_pagefault!(safe_write16( | |
| return_on_pagefault!(get_seg_prefix_ds(moffs)), | |
| read_reg16(AX) | |
| )); | |
| } | |
| pub unsafe fn instr32_A3(moffs: i32) { | |
| return_on_pagefault!(safe_write32( | |
| return_on_pagefault!(get_seg_prefix_ds(moffs)), | |
| read_reg32(EAX) | |
| )); | |
| } | |
| pub unsafe fn instr_A4() { movsb_no_rep(is_asize_32(), segment_prefix(DS)); } | |
| pub unsafe fn instr_F2A4() { movsb_rep(is_asize_32(), segment_prefix(DS)); } | |
| pub unsafe fn instr_F3A4() { movsb_rep(is_asize_32(), segment_prefix(DS)); } | |
| pub unsafe fn instr16_A5() { movsw_no_rep(is_asize_32(), segment_prefix(DS)); } | |
| pub unsafe fn instr32_A5() { movsd_no_rep(is_asize_32(), segment_prefix(DS)); } | |
| pub unsafe fn instr16_F2A5() { movsw_rep(is_asize_32(), segment_prefix(DS)); } | |
| pub unsafe fn instr16_F3A5() { movsw_rep(is_asize_32(), segment_prefix(DS)); } | |
| pub unsafe fn instr32_F2A5() { movsd_rep(is_asize_32(), segment_prefix(DS)); } | |
| pub unsafe fn instr32_F3A5() { movsd_rep(is_asize_32(), segment_prefix(DS)); } | |
| pub unsafe fn instr_A6() { cmpsb_no_rep(is_asize_32(), segment_prefix(DS)); } | |
| pub unsafe fn instr_F2A6() { cmpsb_repnz(is_asize_32(), segment_prefix(DS)); } | |
| pub unsafe fn instr_F3A6() { cmpsb_repz(is_asize_32(), segment_prefix(DS)); } | |
| pub unsafe fn instr16_A7() { cmpsw_no_rep(is_asize_32(), segment_prefix(DS)); } | |
| pub unsafe fn instr32_A7() { cmpsd_no_rep(is_asize_32(), segment_prefix(DS)); } | |
| pub unsafe fn instr16_F2A7() { cmpsw_repnz(is_asize_32(), segment_prefix(DS)); } | |
| pub unsafe fn instr16_F3A7() { cmpsw_repz(is_asize_32(), segment_prefix(DS)); } | |
| pub unsafe fn instr32_F2A7() { cmpsd_repnz(is_asize_32(), segment_prefix(DS)); } | |
| pub unsafe fn instr32_F3A7() { cmpsd_repz(is_asize_32(), segment_prefix(DS)); } | |
| pub unsafe fn instr_A8(imm8: i32) { test8(read_reg8(AL), imm8); } | |
| pub unsafe fn instr16_A9(imm16: i32) { test16(read_reg16(AX), imm16); } | |
| pub unsafe fn instr32_A9(imm32: i32) { test32(read_reg32(EAX), imm32); } | |
| pub unsafe fn instr_AA() { stosb_no_rep(is_asize_32()); } | |
| pub unsafe fn instr_F2AA() { stosb_rep(is_asize_32()); } | |
| pub unsafe fn instr_F3AA() { stosb_rep(is_asize_32()); } | |
| pub unsafe fn instr16_AB() { stosw_no_rep(is_asize_32()); } | |
| pub unsafe fn instr32_AB() { stosd_no_rep(is_asize_32()); } | |
| pub unsafe fn instr16_F2AB() { stosw_rep(is_asize_32()); } | |
| pub unsafe fn instr16_F3AB() { stosw_rep(is_asize_32()); } | |
| pub unsafe fn instr32_F2AB() { stosd_rep(is_asize_32()); } | |
| pub unsafe fn instr32_F3AB() { stosd_rep(is_asize_32()); } | |
| pub unsafe fn instr_AC() { lodsb_no_rep(is_asize_32(), segment_prefix(DS)); } | |
| pub unsafe fn instr_F2AC() { lodsb_rep(is_asize_32(), segment_prefix(DS)); } | |
| pub unsafe fn instr_F3AC() { lodsb_rep(is_asize_32(), segment_prefix(DS)); } | |
| pub unsafe fn instr16_AD() { lodsw_no_rep(is_asize_32(), segment_prefix(DS)); } | |
| pub unsafe fn instr32_AD() { lodsd_no_rep(is_asize_32(), segment_prefix(DS)); } | |
| pub unsafe fn instr16_F2AD() { lodsw_rep(is_asize_32(), segment_prefix(DS)); } | |
| pub unsafe fn instr16_F3AD() { lodsw_rep(is_asize_32(), segment_prefix(DS)); } | |
| pub unsafe fn instr32_F2AD() { lodsd_rep(is_asize_32(), segment_prefix(DS)); } | |
| pub unsafe fn instr32_F3AD() { lodsd_rep(is_asize_32(), segment_prefix(DS)); } | |
| pub unsafe fn instr_AE() { scasb_no_rep(is_asize_32()); } | |
| pub unsafe fn instr_F2AE() { scasb_repnz(is_asize_32()); } | |
| pub unsafe fn instr_F3AE() { scasb_repz(is_asize_32()); } | |
| pub unsafe fn instr16_AF() { scasw_no_rep(is_asize_32()); } | |
| pub unsafe fn instr32_AF() { scasd_no_rep(is_asize_32()); } | |
| pub unsafe fn instr16_F2AF() { scasw_repnz(is_asize_32()); } | |
| pub unsafe fn instr16_F3AF() { scasw_repz(is_asize_32()); } | |
| pub unsafe fn instr32_F2AF() { scasd_repnz(is_asize_32()); } | |
| pub unsafe fn instr32_F3AF() { scasd_repz(is_asize_32()); } | |
| pub unsafe fn instr_B0(imm8: i32) { write_reg8(AL, imm8); } | |
| pub unsafe fn instr_B1(imm8: i32) { write_reg8(CL, imm8); } | |
| pub unsafe fn instr_B2(imm8: i32) { write_reg8(DL, imm8); } | |
| pub unsafe fn instr_B3(imm8: i32) { write_reg8(BL, imm8); } | |
| pub unsafe fn instr_B4(imm8: i32) { write_reg8(AH, imm8); } | |
| pub unsafe fn instr_B5(imm8: i32) { write_reg8(CH, imm8); } | |
| pub unsafe fn instr_B6(imm8: i32) { write_reg8(DH, imm8); } | |
| pub unsafe fn instr_B7(imm8: i32) { write_reg8(BH, imm8); } | |
| pub unsafe fn instr16_B8(imm: i32) { write_reg16(AX, imm); } | |
| pub unsafe fn instr32_B8(imm: i32) { write_reg32(EAX, imm); } | |
| pub unsafe fn instr16_B9(imm: i32) { write_reg16(CX, imm); } | |
| pub unsafe fn instr32_B9(imm: i32) { write_reg32(ECX, imm); } | |
| pub unsafe fn instr16_BA(imm: i32) { write_reg16(DX, imm); } | |
| pub unsafe fn instr32_BA(imm: i32) { write_reg32(EDX, imm); } | |
| pub unsafe fn instr16_BB(imm: i32) { write_reg16(BX, imm); } | |
| pub unsafe fn instr32_BB(imm: i32) { write_reg32(EBX, imm); } | |
| pub unsafe fn instr16_BC(imm: i32) { write_reg16(SP, imm); } | |
| pub unsafe fn instr32_BC(imm: i32) { write_reg32(ESP, imm); } | |
| pub unsafe fn instr16_BD(imm: i32) { write_reg16(BP, imm); } | |
| pub unsafe fn instr32_BD(imm: i32) { write_reg32(EBP, imm); } | |
| pub unsafe fn instr16_BE(imm: i32) { write_reg16(SI, imm); } | |
| pub unsafe fn instr32_BE(imm: i32) { write_reg32(ESI, imm); } | |
| pub unsafe fn instr16_BF(imm: i32) { write_reg16(DI, imm); } | |
| pub unsafe fn instr32_BF(imm: i32) { write_reg32(EDI, imm); } | |
| pub unsafe fn instr_C0_0_mem(addr: i32, imm: i32) { safe_read_write8(addr, &|x| rol8(x, imm & 31)) } | |
| pub unsafe fn instr_C0_0_reg(r1: i32, imm: i32) { write_reg8(r1, rol8(read_reg8(r1), imm & 31)); } | |
| pub unsafe fn instr_C0_1_mem(addr: i32, imm: i32) { safe_read_write8(addr, &|x| ror8(x, imm & 31)) } | |
| pub unsafe fn instr_C0_1_reg(r1: i32, imm: i32) { write_reg8(r1, ror8(read_reg8(r1), imm & 31)); } | |
| pub unsafe fn instr_C0_2_mem(addr: i32, imm: i32) { safe_read_write8(addr, &|x| rcl8(x, imm & 31)) } | |
| pub unsafe fn instr_C0_2_reg(r1: i32, imm: i32) { write_reg8(r1, rcl8(read_reg8(r1), imm & 31)); } | |
| pub unsafe fn instr_C0_3_mem(addr: i32, imm: i32) { safe_read_write8(addr, &|x| rcr8(x, imm & 31)) } | |
| pub unsafe fn instr_C0_3_reg(r1: i32, imm: i32) { write_reg8(r1, rcr8(read_reg8(r1), imm & 31)); } | |
| pub unsafe fn instr_C0_4_mem(addr: i32, imm: i32) { safe_read_write8(addr, &|x| shl8(x, imm & 31)) } | |
| pub unsafe fn instr_C0_4_reg(r1: i32, imm: i32) { write_reg8(r1, shl8(read_reg8(r1), imm & 31)); } | |
| pub unsafe fn instr_C0_5_mem(addr: i32, imm: i32) { safe_read_write8(addr, &|x| shr8(x, imm & 31)) } | |
| pub unsafe fn instr_C0_5_reg(r1: i32, imm: i32) { write_reg8(r1, shr8(read_reg8(r1), imm & 31)); } | |
| pub unsafe fn instr_C0_6_mem(addr: i32, imm: i32) { safe_read_write8(addr, &|x| shl8(x, imm & 31)) } | |
| pub unsafe fn instr_C0_6_reg(r1: i32, imm: i32) { write_reg8(r1, shl8(read_reg8(r1), imm & 31)); } | |
| pub unsafe fn instr_C0_7_mem(addr: i32, imm: i32) { safe_read_write8(addr, &|x| sar8(x, imm & 31)) } | |
| pub unsafe fn instr_C0_7_reg(r1: i32, imm: i32) { write_reg8(r1, sar8(read_reg8(r1), imm & 31)); } | |
| pub unsafe fn instr16_C1_0_mem(addr: i32, imm: i32) { | |
| safe_read_write16(addr, &|x| rol16(x, imm & 31)) | |
| } | |
| pub unsafe fn instr16_C1_0_reg(r1: i32, imm: i32) { | |
| write_reg16(r1, rol16(read_reg16(r1), imm & 31)); | |
| } | |
| pub unsafe fn instr16_C1_1_mem(addr: i32, imm: i32) { | |
| safe_read_write16(addr, &|x| ror16(x, imm & 31)) | |
| } | |
| pub unsafe fn instr16_C1_1_reg(r1: i32, imm: i32) { | |
| write_reg16(r1, ror16(read_reg16(r1), imm & 31)); | |
| } | |
| pub unsafe fn instr16_C1_2_mem(addr: i32, imm: i32) { | |
| safe_read_write16(addr, &|x| rcl16(x, imm & 31)) | |
| } | |
| pub unsafe fn instr16_C1_2_reg(r1: i32, imm: i32) { | |
| write_reg16(r1, rcl16(read_reg16(r1), imm & 31)); | |
| } | |
| pub unsafe fn instr16_C1_3_mem(addr: i32, imm: i32) { | |
| safe_read_write16(addr, &|x| rcr16(x, imm & 31)) | |
| } | |
| pub unsafe fn instr16_C1_3_reg(r1: i32, imm: i32) { | |
| write_reg16(r1, rcr16(read_reg16(r1), imm & 31)); | |
| } | |
| pub unsafe fn instr16_C1_4_mem(addr: i32, imm: i32) { | |
| safe_read_write16(addr, &|x| shl16(x, imm & 31)) | |
| } | |
| pub unsafe fn instr16_C1_4_reg(r1: i32, imm: i32) { | |
| write_reg16(r1, shl16(read_reg16(r1), imm & 31)); | |
| } | |
| pub unsafe fn instr16_C1_5_mem(addr: i32, imm: i32) { | |
| safe_read_write16(addr, &|x| shr16(x, imm & 31)) | |
| } | |
| pub unsafe fn instr16_C1_5_reg(r1: i32, imm: i32) { | |
| write_reg16(r1, shr16(read_reg16(r1), imm & 31)); | |
| } | |
| pub unsafe fn instr16_C1_6_mem(addr: i32, imm: i32) { | |
| safe_read_write16(addr, &|x| shl16(x, imm & 31)) | |
| } | |
| pub unsafe fn instr16_C1_6_reg(r1: i32, imm: i32) { | |
| write_reg16(r1, shl16(read_reg16(r1), imm & 31)); | |
| } | |
| pub unsafe fn instr16_C1_7_mem(addr: i32, imm: i32) { | |
| safe_read_write16(addr, &|x| sar16(x, imm & 31)) | |
| } | |
| pub unsafe fn instr16_C1_7_reg(r1: i32, imm: i32) { | |
| write_reg16(r1, sar16(read_reg16(r1), imm & 31)); | |
| } | |
| pub unsafe fn instr32_C1_0_mem(addr: i32, imm: i32) { | |
| safe_read_write32(addr, &|x| rol32(x, imm & 31)) | |
| } | |
| pub unsafe fn instr32_C1_0_reg(r1: i32, imm: i32) { | |
| write_reg32(r1, rol32(read_reg32(r1), imm & 31)); | |
| } | |
| pub unsafe fn instr32_C1_1_mem(addr: i32, imm: i32) { | |
| safe_read_write32(addr, &|x| ror32(x, imm & 31)) | |
| } | |
| pub unsafe fn instr32_C1_1_reg(r1: i32, imm: i32) { | |
| write_reg32(r1, ror32(read_reg32(r1), imm & 31)); | |
| } | |
| pub unsafe fn instr32_C1_2_mem(addr: i32, imm: i32) { | |
| safe_read_write32(addr, &|x| rcl32(x, imm & 31)) | |
| } | |
| pub unsafe fn instr32_C1_2_reg(r1: i32, imm: i32) { | |
| write_reg32(r1, rcl32(read_reg32(r1), imm & 31)); | |
| } | |
| pub unsafe fn instr32_C1_3_mem(addr: i32, imm: i32) { | |
| safe_read_write32(addr, &|x| rcr32(x, imm & 31)) | |
| } | |
| pub unsafe fn instr32_C1_3_reg(r1: i32, imm: i32) { | |
| write_reg32(r1, rcr32(read_reg32(r1), imm & 31)); | |
| } | |
| pub unsafe fn instr32_C1_4_mem(addr: i32, imm: i32) { | |
| safe_read_write32(addr, &|x| shl32(x, imm & 31)) | |
| } | |
| pub unsafe fn instr32_C1_4_reg(r1: i32, imm: i32) { | |
| write_reg32(r1, shl32(read_reg32(r1), imm & 31)); | |
| } | |
| pub unsafe fn instr32_C1_5_mem(addr: i32, imm: i32) { | |
| safe_read_write32(addr, &|x| shr32(x, imm & 31)) | |
| } | |
| pub unsafe fn instr32_C1_5_reg(r1: i32, imm: i32) { | |
| write_reg32(r1, shr32(read_reg32(r1), imm & 31)); | |
| } | |
| pub unsafe fn instr32_C1_6_mem(addr: i32, imm: i32) { | |
| safe_read_write32(addr, &|x| shl32(x, imm & 31)) | |
| } | |
| pub unsafe fn instr32_C1_6_reg(r1: i32, imm: i32) { | |
| write_reg32(r1, shl32(read_reg32(r1), imm & 31)); | |
| } | |
| pub unsafe fn instr32_C1_7_mem(addr: i32, imm: i32) { | |
| safe_read_write32(addr, &|x| sar32(x, imm & 31)) | |
| } | |
| pub unsafe fn instr32_C1_7_reg(r1: i32, imm: i32) { | |
| write_reg32(r1, sar32(read_reg32(r1), imm & 31)); | |
| } | |
| pub unsafe fn instr16_C2(imm16: i32) { | |
| // retn | |
| let cs = get_seg_cs(); | |
| *instruction_pointer = cs + return_on_pagefault!(pop16()); | |
| dbg_assert!(*is_32 || get_real_eip() < 0x10000); | |
| adjust_stack_reg(imm16); | |
| } | |
| pub unsafe fn instr32_C2(imm16: i32) { | |
| // retn | |
| let cs = get_seg_cs(); | |
| let ip = return_on_pagefault!(pop32s()); | |
| dbg_assert!(*is_32 || ip < 0x10000); | |
| *instruction_pointer = cs + ip; | |
| adjust_stack_reg(imm16); | |
| } | |
| pub unsafe fn instr16_C3() { | |
| // retn | |
| let cs = get_seg_cs(); | |
| *instruction_pointer = cs + return_on_pagefault!(pop16()); | |
| } | |
| pub unsafe fn instr32_C3() { | |
| // retn | |
| let cs = get_seg_cs(); | |
| let ip = return_on_pagefault!(pop32s()); | |
| dbg_assert!(*is_32 || ip < 0x10000); | |
| *instruction_pointer = cs + ip; | |
| } | |
| pub unsafe fn instr16_C4_reg(_unused1: i32, _unused2: i32) { trigger_ud(); } | |
| pub unsafe fn instr16_C4_mem(addr: i32, r: i32) { lss16(addr, r, ES); } | |
| pub unsafe fn instr32_C4_reg(_unused1: i32, _unused2: i32) { trigger_ud(); } | |
| pub unsafe fn instr32_C4_mem(addr: i32, r: i32) { lss32(addr, r, ES); } | |
| pub unsafe fn instr16_C5_reg(_unused1: i32, _unused2: i32) { trigger_ud(); } | |
| pub unsafe fn instr16_C5_mem(addr: i32, r: i32) { lss16(addr, r, DS); } | |
| pub unsafe fn instr32_C5_reg(_unused1: i32, _unused2: i32) { trigger_ud(); } | |
| pub unsafe fn instr32_C5_mem(addr: i32, r: i32) { lss32(addr, r, DS); } | |
| pub unsafe fn instr_C6_0_reg(r: i32, imm: i32) { write_reg8(r, imm); } | |
| pub unsafe fn instr_C6_0_mem(addr: i32, imm: i32) { | |
| return_on_pagefault!(safe_write8(addr, imm)); | |
| } | |
| pub unsafe fn instr16_C7_0_reg(r: i32, imm: i32) { write_reg16(r, imm); } | |
| pub unsafe fn instr16_C7_0_mem(addr: i32, imm: i32) { | |
| return_on_pagefault!(safe_write16(addr, imm)); | |
| } | |
| pub unsafe fn instr32_C7_0_reg(r: i32, imm: i32) { write_reg32(r, imm); } | |
| pub unsafe fn instr32_C7_0_mem(addr: i32, imm: i32) { | |
| return_on_pagefault!(safe_write32(addr, imm)); | |
| } | |
| pub unsafe fn instr16_C8(size: i32, nesting: i32) { enter16(size, nesting); } | |
| pub unsafe fn instr32_C8(size: i32, nesting: i32) { enter32(size, nesting); } | |
| pub unsafe fn instr16_C9() { | |
| // leave | |
| let old_vbp = if *stack_size_32 { read_reg32(EBP) } else { read_reg16(BP) }; | |
| let new_bp = return_on_pagefault!(safe_read16(get_seg_ss() + old_vbp)); | |
| set_stack_reg(old_vbp + 2); | |
| write_reg16(BP, new_bp); | |
| } | |
| pub unsafe fn instr32_C9() { | |
| let old_vbp = if *stack_size_32 { read_reg32(EBP) } else { read_reg16(BP) }; | |
| let new_ebp = return_on_pagefault!(safe_read32s(get_seg_ss() + old_vbp)); | |
| set_stack_reg(old_vbp + 4); | |
| write_reg32(EBP, new_ebp); | |
| } | |
| pub unsafe fn instr16_CA(imm16: i32) { | |
| // retf | |
| let ip = return_on_pagefault!(safe_read16(get_stack_pointer(0))); | |
| let cs = return_on_pagefault!(safe_read16(get_stack_pointer(2))); | |
| far_return(ip, cs, imm16, false); | |
| } | |
| pub unsafe fn instr32_CA(imm16: i32) { | |
| // retf | |
| let ip = return_on_pagefault!(safe_read32s(get_stack_pointer(0))); | |
| let cs = return_on_pagefault!(safe_read32s(get_stack_pointer(4))) & 0xFFFF; | |
| far_return(ip, cs, imm16, true); | |
| dbg_assert!(*is_32 || get_real_eip() < 0x10000); | |
| } | |
| pub unsafe fn instr16_CB() { | |
| // retf | |
| let ip = return_on_pagefault!(safe_read16(get_stack_pointer(0))); | |
| let cs = return_on_pagefault!(safe_read16(get_stack_pointer(2))); | |
| far_return(ip, cs, 0, false); | |
| dbg_assert!(*is_32 || get_real_eip() < 0x10000); | |
| } | |
| pub unsafe fn instr32_CB() { | |
| // retf | |
| let ip = return_on_pagefault!(safe_read32s(get_stack_pointer(0))); | |
| let cs = return_on_pagefault!(safe_read32s(get_stack_pointer(4))) & 0xFFFF; | |
| far_return(ip, cs, 0, true); | |
| dbg_assert!(*is_32 || get_real_eip() < 0x10000); | |
| } | |
| pub unsafe fn instr_CC() { | |
| // INT3 | |
| // TODO: inhibit iopl checks | |
| dbg_log!("INT3"); | |
| call_interrupt_vector(3, true, None); | |
| } | |
| pub unsafe fn instr_CD(imm8: i32) { | |
| // INT | |
| call_interrupt_vector(imm8, true, None); | |
| } | |
| pub unsafe fn instr_CE() { | |
| // INTO | |
| dbg_log!("INTO"); | |
| if getof() { | |
| // TODO: inhibit iopl checks | |
| call_interrupt_vector(CPU_EXCEPTION_OF, true, None); | |
| }; | |
| } | |
| pub unsafe fn instr16_CF() { | |
| // iret | |
| iret16(); | |
| } | |
| pub unsafe fn instr32_CF() { iret32(); } | |
| pub unsafe fn instr_D0_0_mem(addr: i32) { safe_read_write8(addr, &|x| rol8(x, 1)) } | |
| pub unsafe fn instr_D0_0_reg(r1: i32) { write_reg8(r1, rol8(read_reg8(r1), 1)); } | |
| pub unsafe fn instr_D0_1_mem(addr: i32) { safe_read_write8(addr, &|x| ror8(x, 1)) } | |
| pub unsafe fn instr_D0_1_reg(r1: i32) { write_reg8(r1, ror8(read_reg8(r1), 1)); } | |
| pub unsafe fn instr_D0_2_mem(addr: i32) { safe_read_write8(addr, &|x| rcl8(x, 1)) } | |
| pub unsafe fn instr_D0_2_reg(r1: i32) { write_reg8(r1, rcl8(read_reg8(r1), 1)); } | |
| pub unsafe fn instr_D0_3_mem(addr: i32) { safe_read_write8(addr, &|x| rcr8(x, 1)) } | |
| pub unsafe fn instr_D0_3_reg(r1: i32) { write_reg8(r1, rcr8(read_reg8(r1), 1)); } | |
| pub unsafe fn instr_D0_4_mem(addr: i32) { safe_read_write8(addr, &|x| shl8(x, 1)) } | |
| pub unsafe fn instr_D0_4_reg(r1: i32) { write_reg8(r1, shl8(read_reg8(r1), 1)); } | |
| pub unsafe fn instr_D0_5_mem(addr: i32) { safe_read_write8(addr, &|x| shr8(x, 1)) } | |
| pub unsafe fn instr_D0_5_reg(r1: i32) { write_reg8(r1, shr8(read_reg8(r1), 1)); } | |
| pub unsafe fn instr_D0_6_mem(addr: i32) { safe_read_write8(addr, &|x| shl8(x, 1)) } | |
| pub unsafe fn instr_D0_6_reg(r1: i32) { write_reg8(r1, shl8(read_reg8(r1), 1)); } | |
| pub unsafe fn instr_D0_7_mem(addr: i32) { safe_read_write8(addr, &|x| sar8(x, 1)) } | |
| pub unsafe fn instr_D0_7_reg(r1: i32) { write_reg8(r1, sar8(read_reg8(r1), 1)); } | |
| pub unsafe fn instr16_D1_0_mem(addr: i32) { safe_read_write16(addr, &|x| rol16(x, 1)) } | |
| pub unsafe fn instr16_D1_0_reg(r1: i32) { write_reg16(r1, rol16(read_reg16(r1), 1)); } | |
| pub unsafe fn instr16_D1_1_mem(addr: i32) { safe_read_write16(addr, &|x| ror16(x, 1)) } | |
| pub unsafe fn instr16_D1_1_reg(r1: i32) { write_reg16(r1, ror16(read_reg16(r1), 1)); } | |
| pub unsafe fn instr16_D1_2_mem(addr: i32) { safe_read_write16(addr, &|x| rcl16(x, 1)) } | |
| pub unsafe fn instr16_D1_2_reg(r1: i32) { write_reg16(r1, rcl16(read_reg16(r1), 1)); } | |
| pub unsafe fn instr16_D1_3_mem(addr: i32) { safe_read_write16(addr, &|x| rcr16(x, 1)) } | |
| pub unsafe fn instr16_D1_3_reg(r1: i32) { write_reg16(r1, rcr16(read_reg16(r1), 1)); } | |
| pub unsafe fn instr16_D1_4_mem(addr: i32) { safe_read_write16(addr, &|x| shl16(x, 1)) } | |
| pub unsafe fn instr16_D1_4_reg(r1: i32) { write_reg16(r1, shl16(read_reg16(r1), 1)); } | |
| pub unsafe fn instr16_D1_5_mem(addr: i32) { safe_read_write16(addr, &|x| shr16(x, 1)) } | |
| pub unsafe fn instr16_D1_5_reg(r1: i32) { write_reg16(r1, shr16(read_reg16(r1), 1)); } | |
| pub unsafe fn instr16_D1_6_mem(addr: i32) { safe_read_write16(addr, &|x| shl16(x, 1)) } | |
| pub unsafe fn instr16_D1_6_reg(r1: i32) { write_reg16(r1, shl16(read_reg16(r1), 1)); } | |
| pub unsafe fn instr16_D1_7_mem(addr: i32) { safe_read_write16(addr, &|x| sar16(x, 1)) } | |
| pub unsafe fn instr16_D1_7_reg(r1: i32) { write_reg16(r1, sar16(read_reg16(r1), 1)); } | |
| pub unsafe fn instr32_D1_0_mem(addr: i32) { safe_read_write32(addr, &|x| rol32(x, 1)) } | |
| pub unsafe fn instr32_D1_0_reg(r1: i32) { write_reg32(r1, rol32(read_reg32(r1), 1)); } | |
| pub unsafe fn instr32_D1_1_mem(addr: i32) { safe_read_write32(addr, &|x| ror32(x, 1)) } | |
| pub unsafe fn instr32_D1_1_reg(r1: i32) { write_reg32(r1, ror32(read_reg32(r1), 1)); } | |
| pub unsafe fn instr32_D1_2_mem(addr: i32) { safe_read_write32(addr, &|x| rcl32(x, 1)) } | |
| pub unsafe fn instr32_D1_2_reg(r1: i32) { write_reg32(r1, rcl32(read_reg32(r1), 1)); } | |
| pub unsafe fn instr32_D1_3_mem(addr: i32) { safe_read_write32(addr, &|x| rcr32(x, 1)) } | |
| pub unsafe fn instr32_D1_3_reg(r1: i32) { write_reg32(r1, rcr32(read_reg32(r1), 1)); } | |
| pub unsafe fn instr32_D1_4_mem(addr: i32) { safe_read_write32(addr, &|x| shl32(x, 1)) } | |
| pub unsafe fn instr32_D1_4_reg(r1: i32) { write_reg32(r1, shl32(read_reg32(r1), 1)); } | |
| pub unsafe fn instr32_D1_5_mem(addr: i32) { safe_read_write32(addr, &|x| shr32(x, 1)) } | |
| pub unsafe fn instr32_D1_5_reg(r1: i32) { write_reg32(r1, shr32(read_reg32(r1), 1)); } | |
| pub unsafe fn instr32_D1_6_mem(addr: i32) { safe_read_write32(addr, &|x| shl32(x, 1)) } | |
| pub unsafe fn instr32_D1_6_reg(r1: i32) { write_reg32(r1, shl32(read_reg32(r1), 1)); } | |
| pub unsafe fn instr32_D1_7_mem(addr: i32) { safe_read_write32(addr, &|x| sar32(x, 1)) } | |
| pub unsafe fn instr32_D1_7_reg(r1: i32) { write_reg32(r1, sar32(read_reg32(r1), 1)); } | |
| pub unsafe fn instr_D2_0_mem(addr: i32) { safe_read_write8(addr, &|x| rol8(x, read_reg8(CL) & 31)) } | |
| pub unsafe fn instr_D2_0_reg(r1: i32) { write_reg8(r1, rol8(read_reg8(r1), read_reg8(CL) & 31)); } | |
| pub unsafe fn instr_D2_1_mem(addr: i32) { safe_read_write8(addr, &|x| ror8(x, read_reg8(CL) & 31)) } | |
| pub unsafe fn instr_D2_1_reg(r1: i32) { write_reg8(r1, ror8(read_reg8(r1), read_reg8(CL) & 31)); } | |
| pub unsafe fn instr_D2_2_mem(addr: i32) { safe_read_write8(addr, &|x| rcl8(x, read_reg8(CL) & 31)) } | |
| pub unsafe fn instr_D2_2_reg(r1: i32) { write_reg8(r1, rcl8(read_reg8(r1), read_reg8(CL) & 31)); } | |
| pub unsafe fn instr_D2_3_mem(addr: i32) { safe_read_write8(addr, &|x| rcr8(x, read_reg8(CL) & 31)) } | |
| pub unsafe fn instr_D2_3_reg(r1: i32) { write_reg8(r1, rcr8(read_reg8(r1), read_reg8(CL) & 31)); } | |
| pub unsafe fn instr_D2_4_mem(addr: i32) { safe_read_write8(addr, &|x| shl8(x, read_reg8(CL) & 31)) } | |
| pub unsafe fn instr_D2_4_reg(r1: i32) { write_reg8(r1, shl8(read_reg8(r1), read_reg8(CL) & 31)); } | |
| pub unsafe fn instr_D2_5_mem(addr: i32) { safe_read_write8(addr, &|x| shr8(x, read_reg8(CL) & 31)) } | |
| pub unsafe fn instr_D2_5_reg(r1: i32) { write_reg8(r1, shr8(read_reg8(r1), read_reg8(CL) & 31)); } | |
| pub unsafe fn instr_D2_6_mem(addr: i32) { safe_read_write8(addr, &|x| shl8(x, read_reg8(CL) & 31)) } | |
| pub unsafe fn instr_D2_6_reg(r1: i32) { write_reg8(r1, shl8(read_reg8(r1), read_reg8(CL) & 31)); } | |
| pub unsafe fn instr_D2_7_mem(addr: i32) { safe_read_write8(addr, &|x| sar8(x, read_reg8(CL) & 31)) } | |
| pub unsafe fn instr_D2_7_reg(r1: i32) { write_reg8(r1, sar8(read_reg8(r1), read_reg8(CL) & 31)); } | |
| pub unsafe fn instr16_D3_0_mem(addr: i32) { | |
| safe_read_write16(addr, &|x| rol16(x, read_reg8(CL) & 31)) | |
| } | |
| pub unsafe fn instr16_D3_0_reg(r1: i32) { | |
| write_reg16(r1, rol16(read_reg16(r1), read_reg8(CL) & 31)); | |
| } | |
| pub unsafe fn instr16_D3_1_mem(addr: i32) { | |
| safe_read_write16(addr, &|x| ror16(x, read_reg8(CL) & 31)) | |
| } | |
| pub unsafe fn instr16_D3_1_reg(r1: i32) { | |
| write_reg16(r1, ror16(read_reg16(r1), read_reg8(CL) & 31)); | |
| } | |
| pub unsafe fn instr16_D3_2_mem(addr: i32) { | |
| safe_read_write16(addr, &|x| rcl16(x, read_reg8(CL) & 31)) | |
| } | |
| pub unsafe fn instr16_D3_2_reg(r1: i32) { | |
| write_reg16(r1, rcl16(read_reg16(r1), read_reg8(CL) & 31)); | |
| } | |
| pub unsafe fn instr16_D3_3_mem(addr: i32) { | |
| safe_read_write16(addr, &|x| rcr16(x, read_reg8(CL) & 31)) | |
| } | |
| pub unsafe fn instr16_D3_3_reg(r1: i32) { | |
| write_reg16(r1, rcr16(read_reg16(r1), read_reg8(CL) & 31)); | |
| } | |
| pub unsafe fn instr16_D3_4_mem(addr: i32) { | |
| safe_read_write16(addr, &|x| shl16(x, read_reg8(CL) & 31)) | |
| } | |
| pub unsafe fn instr16_D3_4_reg(r1: i32) { | |
| write_reg16(r1, shl16(read_reg16(r1), read_reg8(CL) & 31)); | |
| } | |
| pub unsafe fn instr16_D3_5_mem(addr: i32) { | |
| safe_read_write16(addr, &|x| shr16(x, read_reg8(CL) & 31)) | |
| } | |
| pub unsafe fn instr16_D3_5_reg(r1: i32) { | |
| write_reg16(r1, shr16(read_reg16(r1), read_reg8(CL) & 31)); | |
| } | |
| pub unsafe fn instr16_D3_6_mem(addr: i32) { | |
| safe_read_write16(addr, &|x| shl16(x, read_reg8(CL) & 31)) | |
| } | |
| pub unsafe fn instr16_D3_6_reg(r1: i32) { | |
| write_reg16(r1, shl16(read_reg16(r1), read_reg8(CL) & 31)); | |
| } | |
| pub unsafe fn instr16_D3_7_mem(addr: i32) { | |
| safe_read_write16(addr, &|x| sar16(x, read_reg8(CL) & 31)) | |
| } | |
| pub unsafe fn instr16_D3_7_reg(r1: i32) { | |
| write_reg16(r1, sar16(read_reg16(r1), read_reg8(CL) & 31)); | |
| } | |
| pub unsafe fn instr32_D3_0_mem(addr: i32) { | |
| safe_read_write32(addr, &|x| rol32(x, read_reg8(CL) & 31)) | |
| } | |
| pub unsafe fn instr32_D3_0_reg(r1: i32) { | |
| write_reg32(r1, rol32(read_reg32(r1), read_reg8(CL) & 31)); | |
| } | |
| pub unsafe fn instr32_D3_1_mem(addr: i32) { | |
| safe_read_write32(addr, &|x| ror32(x, read_reg8(CL) & 31)) | |
| } | |
| pub unsafe fn instr32_D3_1_reg(r1: i32) { | |
| write_reg32(r1, ror32(read_reg32(r1), read_reg8(CL) & 31)); | |
| } | |
| pub unsafe fn instr32_D3_2_mem(addr: i32) { | |
| safe_read_write32(addr, &|x| rcl32(x, read_reg8(CL) & 31)) | |
| } | |
| pub unsafe fn instr32_D3_2_reg(r1: i32) { | |
| write_reg32(r1, rcl32(read_reg32(r1), read_reg8(CL) & 31)); | |
| } | |
| pub unsafe fn instr32_D3_3_mem(addr: i32) { | |
| safe_read_write32(addr, &|x| rcr32(x, read_reg8(CL) & 31)) | |
| } | |
| pub unsafe fn instr32_D3_3_reg(r1: i32) { | |
| write_reg32(r1, rcr32(read_reg32(r1), read_reg8(CL) & 31)); | |
| } | |
| pub unsafe fn instr32_D3_4_mem(addr: i32) { | |
| safe_read_write32(addr, &|x| shl32(x, read_reg8(CL) & 31)) | |
| } | |
| pub unsafe fn instr32_D3_4_reg(r1: i32) { | |
| write_reg32(r1, shl32(read_reg32(r1), read_reg8(CL) & 31)); | |
| } | |
| pub unsafe fn instr32_D3_5_mem(addr: i32) { | |
| safe_read_write32(addr, &|x| shr32(x, read_reg8(CL) & 31)) | |
| } | |
| pub unsafe fn instr32_D3_5_reg(r1: i32) { | |
| write_reg32(r1, shr32(read_reg32(r1), read_reg8(CL) & 31)); | |
| } | |
| pub unsafe fn instr32_D3_6_mem(addr: i32) { | |
| safe_read_write32(addr, &|x| shl32(x, read_reg8(CL) & 31)) | |
| } | |
| pub unsafe fn instr32_D3_6_reg(r1: i32) { | |
| write_reg32(r1, shl32(read_reg32(r1), read_reg8(CL) & 31)); | |
| } | |
| pub unsafe fn instr32_D3_7_mem(addr: i32) { | |
| safe_read_write32(addr, &|x| sar32(x, read_reg8(CL) & 31)) | |
| } | |
| pub unsafe fn instr32_D3_7_reg(r1: i32) { | |
| write_reg32(r1, sar32(read_reg32(r1), read_reg8(CL) & 31)); | |
| } | |
| pub unsafe fn instr_D4(arg: i32) { bcd_aam(arg); } | |
| pub unsafe fn instr_D5(arg: i32) { bcd_aad(arg); } | |
| pub unsafe fn instr_D6() { | |
| // salc | |
| write_reg8(AL, -(getcf() as i32)); | |
| } | |
| pub unsafe fn instr_D7() { | |
| // xlat | |
| dbg_assert!(!in_jit); | |
| if is_asize_32() { | |
| write_reg8( | |
| AL, | |
| return_on_pagefault!(safe_read8( | |
| return_on_pagefault!(get_seg_prefix(DS)) + read_reg32(EBX) + read_reg8(AL), | |
| )), | |
| ) | |
| } | |
| else { | |
| write_reg8( | |
| AL, | |
| return_on_pagefault!(safe_read8( | |
| return_on_pagefault!(get_seg_prefix(DS)) | |
| + (read_reg16(BX) + read_reg8(AL) & 0xFFFF), | |
| )), | |
| ) | |
| }; | |
| } | |
| pub unsafe fn instr_D8_0_mem(addr: i32) { fpu_fadd(0, return_on_pagefault!(fpu_load_m32(addr))); } | |
| pub unsafe fn instr_D8_0_reg(r: i32) { fpu_fadd(0, fpu_get_sti(r)); } | |
| pub unsafe fn instr_D8_1_mem(addr: i32) { fpu_fmul(0, return_on_pagefault!(fpu_load_m32(addr))); } | |
| pub unsafe fn instr_D8_1_reg(r: i32) { fpu_fmul(0, fpu_get_sti(r)); } | |
| pub unsafe fn instr_D8_2_mem(addr: i32) { fpu_fcom(return_on_pagefault!(fpu_load_m32(addr))); } | |
| pub unsafe fn instr_D8_2_reg(r: i32) { fpu_fcom(fpu_get_sti(r)); } | |
| pub unsafe fn instr_D8_3_mem(addr: i32) { fpu_fcomp(return_on_pagefault!(fpu_load_m32(addr))); } | |
| pub unsafe fn instr_D8_3_reg(r: i32) { fpu_fcomp(fpu_get_sti(r)); } | |
| pub unsafe fn instr_D8_4_mem(addr: i32) { fpu_fsub(0, return_on_pagefault!(fpu_load_m32(addr))); } | |
| pub unsafe fn instr_D8_4_reg(r: i32) { fpu_fsub(0, fpu_get_sti(r)); } | |
| pub unsafe fn instr_D8_5_mem(addr: i32) { fpu_fsubr(0, return_on_pagefault!(fpu_load_m32(addr))); } | |
| pub unsafe fn instr_D8_5_reg(r: i32) { fpu_fsubr(0, fpu_get_sti(r)); } | |
| pub unsafe fn instr_D8_6_mem(addr: i32) { fpu_fdiv(0, return_on_pagefault!(fpu_load_m32(addr))); } | |
| pub unsafe fn instr_D8_6_reg(r: i32) { fpu_fdiv(0, fpu_get_sti(r)); } | |
| pub unsafe fn instr_D8_7_mem(addr: i32) { fpu_fdivr(0, return_on_pagefault!(fpu_load_m32(addr))); } | |
| pub unsafe fn instr_D8_7_reg(r: i32) { fpu_fdivr(0, fpu_get_sti(r)); } | |
| pub unsafe fn instr16_D9_0_mem(addr: i32) { fpu_fldm32(addr); } | |
| pub unsafe fn instr16_D9_0_reg(r: i32) { fpu_push(fpu_get_sti(r)); } | |
| pub unsafe fn instr16_D9_1_mem(_addr: i32) { | |
| dbg_log!("d9/1"); | |
| trigger_ud(); | |
| } | |
| pub unsafe fn instr16_D9_1_reg(r: i32) { fpu_fxch(r); } | |
| pub unsafe fn instr16_D9_2_mem(addr: i32) { fpu_fstm32(addr); } | |
| pub unsafe fn instr16_D9_2_reg(r: i32) { | |
| if r != 0 { | |
| trigger_ud(); | |
| }; | |
| } | |
| pub unsafe fn instr16_D9_3_mem(addr: i32) { fpu_fstm32p(addr); } | |
| pub unsafe fn instr16_D9_3_reg(r: i32) { fpu_fstp(r) } | |
| pub unsafe fn instr16_D9_4_mem(addr: i32) { fpu_fldenv16(addr); } | |
| pub unsafe fn instr32_D9_4_mem(addr: i32) { fpu_fldenv32(addr); } | |
| pub unsafe fn instr16_D9_4_reg(r: i32) { | |
| match r { | |
| 0 => fpu_fchs(), | |
| 1 => fpu_fabs(), | |
| 4 => fpu_ftst(), | |
| 5 => fpu_fxam(), | |
| _ => { | |
| dbg_log!("{:x}", r); | |
| trigger_ud(); | |
| }, | |
| }; | |
| } | |
| pub unsafe fn instr16_D9_5_mem(addr: i32) { fpu_fldcw(addr); } | |
| pub unsafe fn instr16_D9_5_reg(r: i32) { | |
| // fld1/fldl2t/fldl2e/fldpi/fldlg2/fldln2/fldz | |
| match r { | |
| 0 => fpu_push(F80::ONE), | |
| 1 => fpu_push(F80::LN_10 / F80::LN_2), | |
| 2 => fpu_push(F80::LOG2_E), | |
| 3 => fpu_push(F80::PI), | |
| 4 => fpu_push(F80::LN_2 / F80::LN_10), | |
| 5 => fpu_push(F80::LN_2), | |
| 6 => fpu_push(F80::ZERO), | |
| 7 => { | |
| dbg_log!("d9/5/7"); | |
| trigger_ud(); | |
| }, | |
| _ => {}, | |
| }; | |
| } | |
| pub unsafe fn instr16_D9_6_mem(addr: i32) { fpu_fstenv16(addr); } | |
| pub unsafe fn instr32_D9_6_mem(addr: i32) { fpu_fstenv32(addr); } | |
| pub unsafe fn instr16_D9_6_reg(r: i32) { | |
| match r { | |
| 0 => fpu_f2xm1(), | |
| 1 => fpu_fyl2x(), | |
| 2 => fpu_fptan(), | |
| 3 => fpu_fpatan(), | |
| 4 => fpu_fxtract(), | |
| 5 => fpu_fprem(true), // fprem1 | |
| 6 => fpu_fdecstp(), | |
| 7 => fpu_fincstp(), | |
| _ => { | |
| dbg_assert!(false); | |
| }, | |
| }; | |
| } | |
| pub unsafe fn instr16_D9_7_mem(addr: i32) { fpu_fstcw(addr); } | |
| pub unsafe fn instr16_D9_7_reg(r: i32) { | |
| match r { | |
| 0 => fpu_fprem(false), | |
| 1 => fpu_fyl2xp1(), | |
| 2 => fpu_fsqrt(), | |
| 3 => fpu_fsincos(), | |
| 4 => fpu_frndint(), | |
| 5 => fpu_fscale(), | |
| 6 => fpu_fsin(), | |
| 7 => fpu_fcos(), | |
| _ => { | |
| dbg_assert!(false); | |
| }, | |
| }; | |
| } | |
| pub unsafe fn instr32_D9_0_reg(r: i32) { instr16_D9_0_reg(r) } | |
| pub unsafe fn instr32_D9_1_reg(r: i32) { instr16_D9_1_reg(r) } | |
| pub unsafe fn instr32_D9_2_reg(r: i32) { instr16_D9_2_reg(r) } | |
| pub unsafe fn instr32_D9_3_reg(r: i32) { instr16_D9_3_reg(r) } | |
| pub unsafe fn instr32_D9_4_reg(r: i32) { instr16_D9_4_reg(r) } | |
| pub unsafe fn instr32_D9_5_reg(r: i32) { instr16_D9_5_reg(r) } | |
| pub unsafe fn instr32_D9_6_reg(r: i32) { instr16_D9_6_reg(r) } | |
| pub unsafe fn instr32_D9_7_reg(r: i32) { instr16_D9_7_reg(r) } | |
| pub unsafe fn instr32_D9_0_mem(r: i32) { instr16_D9_0_mem(r) } | |
| pub unsafe fn instr32_D9_1_mem(r: i32) { instr16_D9_1_mem(r) } | |
| pub unsafe fn instr32_D9_2_mem(r: i32) { instr16_D9_2_mem(r) } | |
| pub unsafe fn instr32_D9_3_mem(r: i32) { instr16_D9_3_mem(r) } | |
| pub unsafe fn instr32_D9_5_mem(r: i32) { instr16_D9_5_mem(r) } | |
| pub unsafe fn instr32_D9_7_mem(r: i32) { instr16_D9_7_mem(r) } | |
| pub unsafe fn instr_DA_0_mem(addr: i32) { fpu_fadd(0, return_on_pagefault!(fpu_load_i32(addr))); } | |
| pub unsafe fn instr_DA_1_mem(addr: i32) { fpu_fmul(0, return_on_pagefault!(fpu_load_i32(addr))); } | |
| pub unsafe fn instr_DA_2_mem(addr: i32) { fpu_fcom(return_on_pagefault!(fpu_load_i32(addr))); } | |
| pub unsafe fn instr_DA_3_mem(addr: i32) { fpu_fcomp(return_on_pagefault!(fpu_load_i32(addr))); } | |
| pub unsafe fn instr_DA_4_mem(addr: i32) { fpu_fsub(0, return_on_pagefault!(fpu_load_i32(addr))); } | |
| pub unsafe fn instr_DA_5_mem(addr: i32) { fpu_fsubr(0, return_on_pagefault!(fpu_load_i32(addr))); } | |
| pub unsafe fn instr_DA_6_mem(addr: i32) { fpu_fdiv(0, return_on_pagefault!(fpu_load_i32(addr))); } | |
| pub unsafe fn instr_DA_7_mem(addr: i32) { fpu_fdivr(0, return_on_pagefault!(fpu_load_i32(addr))); } | |
| pub unsafe fn instr_DA_0_reg(r: i32) { fpu_fcmovcc(test_b(), r); } | |
| pub unsafe fn instr_DA_1_reg(r: i32) { fpu_fcmovcc(test_z(), r); } | |
| pub unsafe fn instr_DA_2_reg(r: i32) { fpu_fcmovcc(test_be(), r); } | |
| pub unsafe fn instr_DA_3_reg(r: i32) { fpu_fcmovcc(test_p(), r); } | |
| pub unsafe fn instr_DA_4_reg(_r: i32) { trigger_ud(); } | |
| pub unsafe fn instr_DA_5_reg(r: i32) { | |
| if r == 1 { | |
| fpu_fucompp(); | |
| } | |
| else { | |
| trigger_ud(); | |
| }; | |
| } | |
| pub unsafe fn instr_DA_6_reg(_r: i32) { trigger_ud(); } | |
| pub unsafe fn instr_DA_7_reg(_r: i32) { trigger_ud(); } | |
| pub unsafe fn instr_DB_0_mem(addr: i32) { fpu_fildm32(addr); } | |
| pub unsafe fn instr_DB_1_mem(addr: i32) { fpu_fisttpm32(addr); } | |
| pub unsafe fn instr_DB_2_mem(addr: i32) { fpu_fistm32(addr); } | |
| pub unsafe fn instr_DB_3_mem(addr: i32) { fpu_fistm32p(addr); } | |
| pub unsafe fn instr_DB_4_mem(_addr: i32) { trigger_ud(); } | |
| pub unsafe fn instr_DB_5_mem(addr: i32) { fpu_fldm80(addr); } | |
| pub unsafe fn instr_DB_6_mem(_addr: i32) { trigger_ud(); } | |
| pub unsafe fn instr_DB_7_mem(addr: i32) { fpu_fst80p(addr); } | |
| pub unsafe fn instr_DB_0_reg(r: i32) { fpu_fcmovcc(!test_b(), r); } | |
| pub unsafe fn instr_DB_1_reg(r: i32) { fpu_fcmovcc(!test_z(), r); } | |
| pub unsafe fn instr_DB_2_reg(r: i32) { fpu_fcmovcc(!test_be(), r); } | |
| pub unsafe fn instr_DB_3_reg(r: i32) { fpu_fcmovcc(!test_p(), r); } | |
| pub unsafe fn instr_DB_4_reg(r: i32) { | |
| if r == 3 { | |
| fpu_finit(); | |
| } | |
| else if r == 4 || r == 1 || r == 0 { | |
| // fsetpm, fdisi, fneni; treated as nop | |
| } | |
| else if r == 2 { | |
| fpu_fclex(); | |
| } | |
| else { | |
| trigger_ud(); | |
| }; | |
| } | |
| pub unsafe fn instr_DB_5_reg(r: i32) { fpu_fucomi(r); } | |
| pub unsafe fn instr_DB_6_reg(r: i32) { fpu_fcomi(r); } | |
| pub unsafe fn instr_DB_7_reg(_r: i32) { trigger_ud(); } | |
| pub unsafe fn instr_DC_0_mem(addr: i32) { fpu_fadd(0, return_on_pagefault!(fpu_load_m64(addr))); } | |
| pub unsafe fn instr_DC_1_mem(addr: i32) { fpu_fmul(0, return_on_pagefault!(fpu_load_m64(addr))); } | |
| pub unsafe fn instr_DC_2_mem(addr: i32) { fpu_fcom(return_on_pagefault!(fpu_load_m64(addr))); } | |
| pub unsafe fn instr_DC_3_mem(addr: i32) { fpu_fcomp(return_on_pagefault!(fpu_load_m64(addr))); } | |
| pub unsafe fn instr_DC_4_mem(addr: i32) { fpu_fsub(0, return_on_pagefault!(fpu_load_m64(addr))); } | |
| pub unsafe fn instr_DC_5_mem(addr: i32) { fpu_fsubr(0, return_on_pagefault!(fpu_load_m64(addr))); } | |
| pub unsafe fn instr_DC_6_mem(addr: i32) { fpu_fdiv(0, return_on_pagefault!(fpu_load_m64(addr))); } | |
| pub unsafe fn instr_DC_7_mem(addr: i32) { fpu_fdivr(0, return_on_pagefault!(fpu_load_m64(addr))); } | |
| pub unsafe fn instr_DC_0_reg(r: i32) { fpu_fadd(r, fpu_get_sti(r)); } | |
| pub unsafe fn instr_DC_1_reg(r: i32) { fpu_fmul(r, fpu_get_sti(r)); } | |
| pub unsafe fn instr_DC_2_reg(r: i32) { fpu_fcom(fpu_get_sti(r)); } | |
| pub unsafe fn instr_DC_3_reg(r: i32) { fpu_fcomp(fpu_get_sti(r)); } | |
| pub unsafe fn instr_DC_4_reg(r: i32) { fpu_fsub(r, fpu_get_sti(r)); } | |
| pub unsafe fn instr_DC_5_reg(r: i32) { fpu_fsubr(r, fpu_get_sti(r)); } | |
| pub unsafe fn instr_DC_6_reg(r: i32) { fpu_fdiv(r, fpu_get_sti(r)); } | |
| pub unsafe fn instr_DC_7_reg(r: i32) { fpu_fdivr(r, fpu_get_sti(r)); } | |
| pub unsafe fn instr16_DD_0_mem(addr: i32) { fpu_fldm64(addr); } | |
| pub unsafe fn instr16_DD_1_mem(addr: i32) { fpu_fisttpm64(addr); } | |
| pub unsafe fn instr16_DD_2_mem(addr: i32) { fpu_fstm64(addr); } | |
| pub unsafe fn instr16_DD_3_mem(addr: i32) { fpu_fstm64p(addr); } | |
| pub unsafe fn instr16_DD_4_mem(addr: i32) { fpu_frstor16(addr); } | |
| pub unsafe fn instr32_DD_4_mem(addr: i32) { fpu_frstor32(addr); } | |
| pub unsafe fn instr16_DD_5_mem(_addr: i32) { | |
| dbg_log!("dd/5"); | |
| trigger_ud(); | |
| } | |
| pub unsafe fn instr16_DD_6_mem(addr: i32) { fpu_fsave16(addr); } | |
| pub unsafe fn instr32_DD_6_mem(addr: i32) { fpu_fsave32(addr); } | |
| pub unsafe fn instr16_DD_7_mem(addr: i32) { fpu_fnstsw_mem(addr); } | |
| pub unsafe fn instr16_DD_0_reg(r: i32) { fpu_ffree(r); } | |
| pub unsafe fn instr16_DD_1_reg(r: i32) { fpu_fxch(r) } | |
| pub unsafe fn instr16_DD_2_reg(r: i32) { fpu_fst(r); } | |
| pub unsafe fn instr16_DD_3_reg(r: i32) { fpu_fstp(r); } | |
| pub unsafe fn instr16_DD_4_reg(r: i32) { fpu_fucom(r); } | |
| pub unsafe fn instr16_DD_5_reg(r: i32) { fpu_fucomp(r); } | |
| pub unsafe fn instr16_DD_6_reg(_r: i32) { trigger_ud(); } | |
| pub unsafe fn instr16_DD_7_reg(_r: i32) { trigger_ud(); } | |
| pub unsafe fn instr32_DD_0_reg(r: i32) { instr16_DD_0_reg(r) } | |
| pub unsafe fn instr32_DD_1_reg(r: i32) { instr16_DD_1_reg(r) } | |
| pub unsafe fn instr32_DD_2_reg(r: i32) { instr16_DD_2_reg(r) } | |
| pub unsafe fn instr32_DD_3_reg(r: i32) { instr16_DD_3_reg(r) } | |
| pub unsafe fn instr32_DD_4_reg(r: i32) { instr16_DD_4_reg(r) } | |
| pub unsafe fn instr32_DD_5_reg(r: i32) { instr16_DD_5_reg(r) } | |
| pub unsafe fn instr32_DD_6_reg(r: i32) { instr16_DD_6_reg(r) } | |
| pub unsafe fn instr32_DD_7_reg(r: i32) { instr16_DD_7_reg(r) } | |
| pub unsafe fn instr32_DD_0_mem(r: i32) { instr16_DD_0_mem(r) } | |
| pub unsafe fn instr32_DD_1_mem(r: i32) { instr16_DD_1_mem(r) } | |
| pub unsafe fn instr32_DD_2_mem(r: i32) { instr16_DD_2_mem(r) } | |
| pub unsafe fn instr32_DD_3_mem(r: i32) { instr16_DD_3_mem(r) } | |
| pub unsafe fn instr32_DD_5_mem(r: i32) { instr16_DD_5_mem(r) } | |
| pub unsafe fn instr32_DD_7_mem(r: i32) { instr16_DD_7_mem(r) } | |
| pub unsafe fn instr_DE_0_mem(addr: i32) { fpu_fadd(0, return_on_pagefault!(fpu_load_i16(addr))); } | |
| pub unsafe fn instr_DE_1_mem(addr: i32) { fpu_fmul(0, return_on_pagefault!(fpu_load_i16(addr))); } | |
| pub unsafe fn instr_DE_2_mem(addr: i32) { fpu_fcom(return_on_pagefault!(fpu_load_i16(addr))); } | |
| pub unsafe fn instr_DE_3_mem(addr: i32) { fpu_fcomp(return_on_pagefault!(fpu_load_i16(addr))); } | |
| pub unsafe fn instr_DE_4_mem(addr: i32) { fpu_fsub(0, return_on_pagefault!(fpu_load_i16(addr))); } | |
| pub unsafe fn instr_DE_5_mem(addr: i32) { fpu_fsubr(0, return_on_pagefault!(fpu_load_i16(addr))); } | |
| pub unsafe fn instr_DE_6_mem(addr: i32) { fpu_fdiv(0, return_on_pagefault!(fpu_load_i16(addr))); } | |
| pub unsafe fn instr_DE_7_mem(addr: i32) { fpu_fdivr(0, return_on_pagefault!(fpu_load_i16(addr))); } | |
| pub unsafe fn instr_DE_0_reg(r: i32) { | |
| fpu_fadd(r, fpu_get_sti(r)); | |
| fpu_pop(); | |
| } | |
| pub unsafe fn instr_DE_1_reg(r: i32) { | |
| fpu_fmul(r, fpu_get_sti(r)); | |
| fpu_pop(); | |
| } | |
| pub unsafe fn instr_DE_2_reg(r: i32) { | |
| fpu_fcom(fpu_get_sti(r)); | |
| fpu_pop(); | |
| } | |
| pub unsafe fn instr_DE_3_reg(r: i32) { | |
| if r == 1 { | |
| fpu_fcomp(fpu_get_sti(r)); | |
| fpu_pop(); | |
| } | |
| else { | |
| trigger_ud(); | |
| } | |
| } | |
| pub unsafe fn instr_DE_4_reg(r: i32) { | |
| fpu_fsub(r, fpu_get_sti(r)); | |
| fpu_pop(); | |
| } | |
| pub unsafe fn instr_DE_5_reg(r: i32) { | |
| fpu_fsubr(r, fpu_get_sti(r)); | |
| fpu_pop(); | |
| } | |
| pub unsafe fn instr_DE_6_reg(r: i32) { | |
| fpu_fdiv(r, fpu_get_sti(r)); | |
| fpu_pop(); | |
| } | |
| pub unsafe fn instr_DE_7_reg(r: i32) { | |
| fpu_fdivr(r, fpu_get_sti(r)); | |
| fpu_pop(); | |
| } | |
| pub unsafe fn instr_DF_0_mem(addr: i32) { fpu_fildm16(addr) } | |
| pub unsafe fn instr_DF_1_mem(addr: i32) { fpu_fisttpm16(addr); } | |
| pub unsafe fn instr_DF_2_mem(addr: i32) { fpu_fistm16(addr); } | |
| pub unsafe fn instr_DF_3_mem(addr: i32) { fpu_fistm16p(addr); } | |
| pub unsafe fn instr_DF_4_mem(_addr: i32) { | |
| dbg_log!("fbld"); | |
| fpu_unimpl(); | |
| } | |
| pub unsafe fn instr_DF_5_mem(addr: i32) { fpu_fildm64(addr); } | |
| pub unsafe fn instr_DF_6_mem(addr: i32) { fpu_fbstp(addr); } | |
| pub unsafe fn instr_DF_7_mem(addr: i32) { fpu_fistm64p(addr); } | |
| pub unsafe fn instr_DF_0_reg(r: i32) { | |
| fpu_ffree(r); | |
| fpu_pop(); | |
| } | |
| pub unsafe fn instr_DF_1_reg(r: i32) { fpu_fxch(r) } | |
| pub unsafe fn instr_DF_2_reg(r: i32) { fpu_fstp(r); } | |
| pub unsafe fn instr_DF_3_reg(r: i32) { fpu_fstp(r); } | |
| pub unsafe fn instr_DF_4_reg(r: i32) { | |
| if r == 0 { | |
| fpu_fnstsw_reg(); | |
| } | |
| else { | |
| trigger_ud(); | |
| }; | |
| } | |
| pub unsafe fn instr_DF_5_reg(r: i32) { fpu_fucomip(r); } | |
| pub unsafe fn instr_DF_6_reg(r: i32) { fpu_fcomip(r); } | |
| pub unsafe fn instr_DF_7_reg(_r: i32) { trigger_ud(); } | |
| pub unsafe fn instr16_E0(imm8s: i32) { loopne16(imm8s); } | |
| pub unsafe fn instr16_E1(imm8s: i32) { loope16(imm8s); } | |
| pub unsafe fn instr16_E2(imm8s: i32) { loop16(imm8s); } | |
| pub unsafe fn instr16_E3(imm8s: i32) { jcxz16(imm8s); } | |
| pub unsafe fn instr32_E0(imm8s: i32) { loopne32(imm8s); } | |
| pub unsafe fn instr32_E1(imm8s: i32) { loope32(imm8s); } | |
| pub unsafe fn instr32_E2(imm8s: i32) { loop32(imm8s); } | |
| pub unsafe fn instr32_E3(imm8s: i32) { jcxz32(imm8s); } | |
| pub unsafe fn instr_E4(port: i32) { | |
| if test_privileges_for_io(port, 1) { | |
| write_reg8(AL, io_port_read8(port)); | |
| } | |
| } | |
| pub unsafe fn instr16_E5(port: i32) { | |
| if test_privileges_for_io(port, 2) { | |
| write_reg16(AX, io_port_read16(port)); | |
| } | |
| } | |
| pub unsafe fn instr32_E5(port: i32) { | |
| if test_privileges_for_io(port, 4) { | |
| write_reg32(EAX, io_port_read32(port)); | |
| } | |
| } | |
| pub unsafe fn instr_E6(port: i32) { | |
| if test_privileges_for_io(port, 1) { | |
| io_port_write8(port, read_reg8(AL)); | |
| } | |
| } | |
| pub unsafe fn instr16_E7(port: i32) { | |
| if test_privileges_for_io(port, 2) { | |
| io_port_write16(port, read_reg16(AX)); | |
| } | |
| } | |
| pub unsafe fn instr32_E7(port: i32) { | |
| if test_privileges_for_io(port, 4) { | |
| io_port_write32(port, read_reg32(EAX)); | |
| } | |
| } | |
| pub unsafe fn instr16_E8(imm16: i32) { | |
| // call | |
| return_on_pagefault!(push16(get_real_eip())); | |
| jmp_rel16(imm16); | |
| } | |
| pub unsafe fn instr32_E8(imm32s: i32) { | |
| // call | |
| return_on_pagefault!(push32(get_real_eip())); | |
| *instruction_pointer = *instruction_pointer + imm32s; | |
| dbg_assert!(*is_32 || get_real_eip() < 0x10000); | |
| } | |
| pub unsafe fn instr16_E9(imm16: i32) { | |
| // jmp | |
| jmp_rel16(imm16); | |
| } | |
| pub unsafe fn instr32_E9(imm32s: i32) { | |
| // jmp | |
| *instruction_pointer = *instruction_pointer + imm32s; | |
| dbg_assert!(*is_32 || get_real_eip() < 0x10000); | |
| } | |
| pub unsafe fn instr16_EA(new_ip: i32, cs: i32) { | |
| // jmpf | |
| far_jump(new_ip, cs, false, false); | |
| } | |
| pub unsafe fn instr32_EA(new_ip: i32, cs: i32) { | |
| // jmpf | |
| far_jump(new_ip, cs, false, true); | |
| } | |
| pub unsafe fn instr16_EB(imm8: i32) { | |
| // jmp near | |
| jmp_rel16(imm8); | |
| dbg_assert!(*is_32 || get_real_eip() < 0x10000); | |
| } | |
| pub unsafe fn instr32_EB(imm8: i32) { | |
| // jmp near | |
| *instruction_pointer = *instruction_pointer + imm8; | |
| dbg_assert!(*is_32 || get_real_eip() < 0x10000); | |
| } | |
| pub unsafe fn instr_EC() { | |
| let port = read_reg16(DX); | |
| if test_privileges_for_io(port, 1) { | |
| write_reg8(AL, io_port_read8(port)); | |
| } | |
| } | |
| pub unsafe fn instr16_ED() { | |
| let port = read_reg16(DX); | |
| if test_privileges_for_io(port, 2) { | |
| write_reg16(AX, io_port_read16(port)); | |
| } | |
| } | |
| pub unsafe fn instr32_ED() { | |
| let port = read_reg16(DX); | |
| if test_privileges_for_io(port, 4) { | |
| write_reg32(EAX, io_port_read32(port)); | |
| } | |
| } | |
| pub unsafe fn instr_EE() { | |
| let port = read_reg16(DX); | |
| if test_privileges_for_io(port, 1) { | |
| io_port_write8(port, read_reg8(AL)); | |
| } | |
| } | |
| pub unsafe fn instr16_EF() { | |
| let port = read_reg16(DX); | |
| if test_privileges_for_io(port, 2) { | |
| io_port_write16(port, read_reg16(AX)); | |
| } | |
| } | |
| pub unsafe fn instr32_EF() { | |
| let port = read_reg16(DX); | |
| if test_privileges_for_io(port, 4) { | |
| io_port_write32(port, read_reg32(EAX)); | |
| } | |
| } | |
| pub unsafe fn instr_F0() { | |
| // lock | |
| if false { | |
| dbg_log!("lock"); | |
| } | |
| // TODO | |
| // This triggers UD when used with | |
| // some instructions that don't write to memory | |
| run_prefix_instruction(); | |
| } | |
| pub unsafe fn instr_F1() { | |
| // INT1 | |
| // https://code.google.com/p/corkami/wiki/x86oddities#IceBP | |
| dbg_assert!(false); | |
| } | |
| pub unsafe fn instr_F2() { | |
| // repnz | |
| dbg_assert!(*prefixes & prefix::PREFIX_MASK_REP == 0); | |
| *prefixes |= prefix::PREFIX_REPNZ; | |
| run_prefix_instruction(); | |
| *prefixes = 0; | |
| } | |
| pub unsafe fn instr_F3() { | |
| // repz | |
| dbg_assert!(*prefixes & prefix::PREFIX_MASK_REP == 0); | |
| *prefixes |= prefix::PREFIX_REPZ; | |
| run_prefix_instruction(); | |
| *prefixes = 0; | |
| } | |
| pub unsafe fn instr_F4() { | |
| if 0 != *cpl { | |
| dbg_log!("#gp hlt with cpl != 0"); | |
| trigger_gp(0); | |
| return; | |
| } | |
| *in_hlt = true; | |
| // Try an hlt loop right now: This will run timer interrupts, and if one is | |
| // due it will immediately call call_interrupt_vector and continue | |
| // execution without an unnecessary cycle through do_run | |
| if *flags & FLAG_INTERRUPT != 0 { | |
| js::run_hardware_timers(*acpi_enabled, js::microtick()); | |
| handle_irqs(); | |
| } | |
| else { | |
| // execution can never resume (until NMIs are supported) | |
| js::cpu_event_halt(); | |
| } | |
| } | |
| pub unsafe fn instr_F5() { | |
| // cmc | |
| *flags = (*flags | 1) ^ getcf() as i32; | |
| *flags_changed &= !1; | |
| } | |
| pub unsafe fn instr_F6_0_mem(addr: i32, imm: i32) { | |
| test8(return_on_pagefault!(safe_read8(addr)), imm); | |
| } | |
| pub unsafe fn instr_F6_0_reg(r1: i32, imm: i32) { test8(read_reg8(r1), imm); } | |
| pub unsafe fn instr_F6_1_mem(addr: i32, imm: i32) { | |
| test8(return_on_pagefault!(safe_read8(addr)), imm); | |
| } | |
| pub unsafe fn instr_F6_1_reg(r1: i32, imm: i32) { test8(read_reg8(r1), imm); } | |
| pub unsafe fn instr_F6_2_mem(addr: i32) { safe_read_write8(addr, &|x| !x & 0xFF) } | |
| pub unsafe fn instr_F6_2_reg(r1: i32) { write_reg8(r1, !read_reg8(r1)); } | |
| pub unsafe fn instr_F6_3_mem(addr: i32) { safe_read_write8(addr, &|x| neg8(x)) } | |
| pub unsafe fn instr_F6_3_reg(r1: i32) { write_reg8(r1, neg8(read_reg8(r1))); } | |
| pub unsafe fn instr_F6_4_mem(addr: i32) { mul8(return_on_pagefault!(safe_read8(addr))); } | |
| pub unsafe fn instr_F6_4_reg(r1: i32) { mul8(read_reg8(r1)); } | |
| pub unsafe fn instr_F6_5_mem(addr: i32) { | |
| imul8(return_on_pagefault!(safe_read8(addr)) << 24 >> 24); | |
| } | |
| pub unsafe fn instr_F6_5_reg(r1: i32) { imul8(read_reg8(r1) << 24 >> 24); } | |
| pub unsafe fn instr_F6_6_mem(addr: i32) { div8(return_on_pagefault!(safe_read8(addr)) as u32); } | |
| pub unsafe fn instr_F6_6_reg(r1: i32) { div8(read_reg8(r1) as u32); } | |
| pub unsafe fn instr_F6_7_mem(addr: i32) { | |
| idiv8(return_on_pagefault!(safe_read8(addr)) << 24 >> 24); | |
| } | |
| pub unsafe fn instr_F6_7_reg(r1: i32) { idiv8(read_reg8(r1) << 24 >> 24); } | |
| pub unsafe fn instr16_F7_0_mem(addr: i32, imm: i32) { | |
| test16(return_on_pagefault!(safe_read16(addr)), imm); | |
| } | |
| pub unsafe fn instr16_F7_0_reg(r1: i32, imm: i32) { test16(read_reg16(r1), imm); } | |
| pub unsafe fn instr16_F7_1_mem(addr: i32, imm: i32) { | |
| test16(return_on_pagefault!(safe_read16(addr)), imm); | |
| } | |
| pub unsafe fn instr16_F7_1_reg(r1: i32, imm: i32) { test16(read_reg16(r1), imm); } | |
| pub unsafe fn instr16_F7_2_mem(addr: i32) { safe_read_write16(addr, &|x| !x & 0xFFFF) } | |
| pub unsafe fn instr16_F7_2_reg(r1: i32) { write_reg16(r1, !read_reg16(r1)); } | |
| pub unsafe fn instr16_F7_3_mem(addr: i32) { safe_read_write16(addr, &|x| neg16(x)) } | |
| pub unsafe fn instr16_F7_3_reg(r1: i32) { write_reg16(r1, neg16(read_reg16(r1))); } | |
| pub unsafe fn instr16_F7_4_mem(addr: i32) { mul16(return_on_pagefault!(safe_read16(addr)) as u32); } | |
| pub unsafe fn instr16_F7_4_reg(r1: i32) { mul16(read_reg16(r1) as u32); } | |
| pub unsafe fn instr16_F7_5_mem(addr: i32) { | |
| imul16(return_on_pagefault!(safe_read16(addr)) << 16 >> 16); | |
| } | |
| pub unsafe fn instr16_F7_5_reg(r1: i32) { imul16(read_reg16(r1) << 16 >> 16); } | |
| pub unsafe fn instr16_F7_6_mem(addr: i32) { div16(return_on_pagefault!(safe_read16(addr)) as u32); } | |
| pub unsafe fn instr16_F7_6_reg(r1: i32) { div16(read_reg16(r1) as u32); } | |
| pub unsafe fn instr16_F7_7_mem(addr: i32) { | |
| idiv16(return_on_pagefault!(safe_read16(addr)) << 16 >> 16); | |
| } | |
| pub unsafe fn instr16_F7_7_reg(r1: i32) { idiv16(read_reg16(r1) << 16 >> 16); } | |
| pub unsafe fn instr32_F7_0_mem(addr: i32, imm: i32) { | |
| test32(return_on_pagefault!(safe_read32s(addr)), imm); | |
| } | |
| pub unsafe fn instr32_F7_0_reg(r1: i32, imm: i32) { test32(read_reg32(r1), imm); } | |
| pub unsafe fn instr32_F7_1_mem(addr: i32, imm: i32) { | |
| test32(return_on_pagefault!(safe_read32s(addr)), imm); | |
| } | |
| pub unsafe fn instr32_F7_1_reg(r1: i32, imm: i32) { test32(read_reg32(r1), imm); } | |
| pub unsafe fn instr32_F7_2_mem(addr: i32) { safe_read_write32(addr, &|x| !x) } | |
| pub unsafe fn instr32_F7_2_reg(r1: i32) { write_reg32(r1, !read_reg32(r1)); } | |
| pub unsafe fn instr32_F7_3_mem(addr: i32) { safe_read_write32(addr, &|x| neg32(x)) } | |
| pub unsafe fn instr32_F7_3_reg(r1: i32) { write_reg32(r1, neg32(read_reg32(r1))); } | |
| pub unsafe fn instr32_F7_4_mem(addr: i32) { mul32(return_on_pagefault!(safe_read32s(addr))); } | |
| pub unsafe fn instr32_F7_4_reg(r1: i32) { mul32(read_reg32(r1)); } | |
| pub unsafe fn instr32_F7_5_mem(addr: i32) { imul32(return_on_pagefault!(safe_read32s(addr))); } | |
| pub unsafe fn instr32_F7_5_reg(r1: i32) { imul32(read_reg32(r1)); } | |
| pub unsafe fn instr32_F7_6_mem(addr: i32) { | |
| div32(return_on_pagefault!(safe_read32s(addr)) as u32); | |
| } | |
| pub unsafe fn instr32_F7_6_reg(r1: i32) { div32(read_reg32(r1) as u32); } | |
| pub unsafe fn instr32_F7_7_mem(addr: i32) { idiv32(return_on_pagefault!(safe_read32s(addr))); } | |
| pub unsafe fn instr32_F7_7_reg(r1: i32) { idiv32(read_reg32(r1)); } | |
| pub unsafe fn instr_F8() { | |
| // clc | |
| *flags &= !FLAG_CARRY; | |
| *flags_changed &= !1; | |
| } | |
| pub unsafe fn instr_F9() { | |
| // stc | |
| *flags |= FLAG_CARRY; | |
| *flags_changed &= !1; | |
| } | |
| pub unsafe fn instr_FA_without_fault() -> bool { | |
| // cli | |
| if !*protected_mode | |
| || if 0 != *flags & FLAG_VM { getiopl() == 3 } else { getiopl() >= *cpl as i32 } | |
| { | |
| *flags &= !FLAG_INTERRUPT; | |
| return true; | |
| } | |
| else if false | |
| && getiopl() < 3 | |
| && if 0 != *flags & FLAG_VM { | |
| 0 != *cr.offset(4) & CR4_VME | |
| } | |
| else { | |
| *cpl == 3 && 0 != *cr.offset(4) & CR4_PVI | |
| } | |
| { | |
| *flags &= !FLAG_VIF; | |
| return true; | |
| } | |
| else { | |
| dbg_log!("cli #gp"); | |
| return false; | |
| }; | |
| } | |
| pub unsafe fn instr_FA() { | |
| if !instr_FA_without_fault() { | |
| trigger_gp(0); | |
| } | |
| } | |
| pub unsafe fn instr_FB_without_fault() -> bool { | |
| // sti | |
| if !*protected_mode | |
| || if 0 != *flags & FLAG_VM { getiopl() == 3 } else { getiopl() >= *cpl as i32 } | |
| { | |
| *flags |= FLAG_INTERRUPT; | |
| return true; | |
| } | |
| else if false | |
| && getiopl() < 3 | |
| && *flags & FLAG_VIP == 0 | |
| && if 0 != *flags & FLAG_VM { | |
| 0 != *cr.offset(4) & CR4_VME | |
| } | |
| else { | |
| *cpl == 3 && 0 != *cr.offset(4) & CR4_PVI | |
| } | |
| { | |
| *flags |= FLAG_VIF; | |
| return true; | |
| } | |
| else { | |
| dbg_log!("sti #gp"); | |
| return false; | |
| }; | |
| } | |
| pub unsafe fn instr_FB() { | |
| if !instr_FB_without_fault() { | |
| trigger_gp(0); | |
| } | |
| else { | |
| *prefixes = 0; | |
| *previous_ip = *instruction_pointer; | |
| *instruction_counter += 1; | |
| run_instruction(return_on_pagefault!(read_imm8()) | (is_osize_32() as i32) << 8); | |
| handle_irqs(); | |
| } | |
| } | |
| pub unsafe fn instr_FC() { | |
| // cld | |
| *flags &= !FLAG_DIRECTION; | |
| } | |
| pub unsafe fn instr_FD() { | |
| // std | |
| *flags |= FLAG_DIRECTION; | |
| } | |
| pub unsafe fn instr_FE_0_mem(addr: i32) { safe_read_write8(addr, &|x| inc8(x)) } | |
| pub unsafe fn instr_FE_0_reg(r1: i32) { write_reg8(r1, inc8(read_reg8(r1))); } | |
| pub unsafe fn instr_FE_1_mem(addr: i32) { safe_read_write8(addr, &|x| dec8(x)) } | |
| pub unsafe fn instr_FE_1_reg(r1: i32) { write_reg8(r1, dec8(read_reg8(r1))); } | |
| pub unsafe fn instr16_FF_0_mem(addr: i32) { safe_read_write16(addr, &|x| inc16(x)) } | |
| pub unsafe fn instr16_FF_0_reg(r1: i32) { write_reg16(r1, inc16(read_reg16(r1))); } | |
| pub unsafe fn instr16_FF_1_mem(addr: i32) { safe_read_write16(addr, &|x| dec16(x)) } | |
| pub unsafe fn instr16_FF_1_reg(r1: i32) { write_reg16(r1, dec16(read_reg16(r1))); } | |
| pub unsafe fn instr16_FF_2_helper(data: i32) { | |
| // call near | |
| let cs = get_seg_cs(); | |
| return_on_pagefault!(push16(get_real_eip())); | |
| *instruction_pointer = cs + data; | |
| dbg_assert!(*is_32 || get_real_eip() < 0x10000); | |
| } | |
| pub unsafe fn instr16_FF_2_mem(addr: i32) { | |
| instr16_FF_2_helper(return_on_pagefault!(safe_read16(addr))); | |
| } | |
| pub unsafe fn instr16_FF_2_reg(r1: i32) { instr16_FF_2_helper(read_reg16(r1)); } | |
| pub unsafe fn instr16_FF_3_reg(_r: i32) { | |
| dbg_log!("callf #ud"); | |
| trigger_ud(); | |
| } | |
| pub unsafe fn instr16_FF_3_mem(addr: i32) { | |
| // callf | |
| let new_ip = return_on_pagefault!(safe_read16(addr)); | |
| let new_cs = return_on_pagefault!(safe_read16(addr + 2)); | |
| far_jump(new_ip, new_cs, true, false); | |
| } | |
| pub unsafe fn instr16_FF_4_helper(data: i32) { | |
| // jmp near | |
| *instruction_pointer = get_seg_cs() + data; | |
| dbg_assert!(*is_32 || get_real_eip() < 0x10000); | |
| } | |
| pub unsafe fn instr16_FF_4_mem(addr: i32) { | |
| instr16_FF_4_helper(return_on_pagefault!(safe_read16(addr))); | |
| } | |
| pub unsafe fn instr16_FF_4_reg(r1: i32) { instr16_FF_4_helper(read_reg16(r1)); } | |
| pub unsafe fn instr16_FF_5_reg(_r: i32) { | |
| dbg_log!("jmpf #ud"); | |
| trigger_ud(); | |
| } | |
| pub unsafe fn instr16_FF_5_mem(addr: i32) { | |
| // jmpf | |
| let new_ip = return_on_pagefault!(safe_read16(addr)); | |
| let new_cs = return_on_pagefault!(safe_read16(addr + 2)); | |
| far_jump(new_ip, new_cs, false, false); | |
| } | |
| pub unsafe fn instr16_FF_6_mem(addr: i32) { | |
| return_on_pagefault!(push16(return_on_pagefault!(safe_read16(addr)))); | |
| } | |
| pub unsafe fn instr16_FF_6_reg(r1: i32) { | |
| return_on_pagefault!(push16(read_reg16(r1))); | |
| } | |
| pub unsafe fn instr32_FF_0_mem(addr: i32) { safe_read_write32(addr, &|x| inc32(x)) } | |
| pub unsafe fn instr32_FF_0_reg(r1: i32) { write_reg32(r1, inc32(read_reg32(r1))); } | |
| pub unsafe fn instr32_FF_1_mem(addr: i32) { safe_read_write32(addr, &|x| dec32(x)) } | |
| pub unsafe fn instr32_FF_1_reg(r1: i32) { write_reg32(r1, dec32(read_reg32(r1))); } | |
| pub unsafe fn instr32_FF_2_helper(data: i32) { | |
| // call near | |
| let cs = get_seg_cs(); | |
| return_on_pagefault!(push32(get_real_eip())); | |
| dbg_assert!(*is_32 || data < 0x10000); | |
| *instruction_pointer = cs + data; | |
| } | |
| pub unsafe fn instr32_FF_2_mem(addr: i32) { | |
| instr32_FF_2_helper(return_on_pagefault!(safe_read32s(addr))); | |
| } | |
| pub unsafe fn instr32_FF_2_reg(r1: i32) { instr32_FF_2_helper(read_reg32(r1)); } | |
| pub unsafe fn instr32_FF_3_reg(_r: i32) { | |
| dbg_log!("callf #ud"); | |
| trigger_ud(); | |
| } | |
| pub unsafe fn instr32_FF_3_mem(addr: i32) { | |
| // callf | |
| let new_ip = return_on_pagefault!(safe_read32s(addr)); | |
| let new_cs = return_on_pagefault!(safe_read16(addr + 4)); | |
| if !*protected_mode || vm86_mode() { | |
| if 0 != new_ip as u32 & 0xFFFF0000 { | |
| dbg_assert!(false); | |
| } | |
| } | |
| far_jump(new_ip, new_cs, true, true); | |
| } | |
| pub unsafe fn instr32_FF_4_helper(data: i32) { | |
| // jmp near | |
| dbg_assert!(*is_32 || data < 0x10000); | |
| *instruction_pointer = get_seg_cs() + data; | |
| } | |
| pub unsafe fn instr32_FF_4_mem(addr: i32) { | |
| instr32_FF_4_helper(return_on_pagefault!(safe_read32s(addr))); | |
| } | |
| pub unsafe fn instr32_FF_4_reg(r1: i32) { instr32_FF_4_helper(read_reg32(r1)); } | |
| pub unsafe fn instr32_FF_5_reg(_r: i32) { | |
| dbg_log!("jmpf #ud"); | |
| trigger_ud(); | |
| } | |
| pub unsafe fn instr32_FF_5_mem(addr: i32) { | |
| // jmpf | |
| let new_ip = return_on_pagefault!(safe_read32s(addr)); | |
| let new_cs = return_on_pagefault!(safe_read16(addr + 4)); | |
| if !*protected_mode || vm86_mode() { | |
| if 0 != new_ip as u32 & 0xFFFF0000 { | |
| dbg_assert!(false); | |
| } | |
| } | |
| far_jump(new_ip, new_cs, false, true); | |
| } | |
| pub unsafe fn instr32_FF_6_mem(addr: i32) { | |
| return_on_pagefault!(push32(return_on_pagefault!(safe_read32s(addr)))); | |
| } | |
| pub unsafe fn instr32_FF_6_reg(r1: i32) { | |
| return_on_pagefault!(push32(read_reg32(r1))); | |
| } | |