#![allow(non_snake_case)] use codegen; use codegen::{BitSize, ConditionNegate}; use cpu::cpu::{ FLAGS_ALL, FLAGS_DEFAULT, FLAGS_MASK, FLAG_ADJUST, FLAG_CARRY, FLAG_DIRECTION, FLAG_INTERRUPT, FLAG_IOPL, FLAG_OVERFLOW, FLAG_SUB, FLAG_VM, FLAG_ZERO, OPSIZE_8, OPSIZE_16, OPSIZE_32, }; use cpu::global_pointers; use jit::{Instruction, InstructionOperand, InstructionOperandDest, JitContext}; use modrm::{jit_add_seg_offset, jit_add_seg_offset_no_override, ModrmByte}; use prefix::SEG_PREFIX_ZERO; use prefix::{PREFIX_66, PREFIX_67, PREFIX_F2, PREFIX_F3}; use regs; use regs::{AX, BP, BX, CX, DI, DX, SI, SP}; use regs::{CS, DS, ES, FS, GS, SS}; use regs::{EAX, EBP, EBX, ECX, EDI, EDX, ESI, ESP}; use wasmgen::wasm_builder::{WasmBuilder, WasmLocal}; enum LocalOrImmediate<'a> { WasmLocal(&'a WasmLocal), Immediate(i32), } impl<'a> LocalOrImmediate<'a> { pub fn gen_get(&self, builder: &mut WasmBuilder) { match self { LocalOrImmediate::WasmLocal(l) => builder.get_local(l), LocalOrImmediate::Immediate(i) => builder.const_i32(*i), } } pub fn gen_get_mask255(&self, builder: &mut WasmBuilder) { match self { LocalOrImmediate::WasmLocal(l) => { builder.get_local(l); builder.const_i32(0xFF); builder.and_i32() }, LocalOrImmediate::Immediate(i) => builder.const_i32(*i & 0xFF), } } pub fn eq_local(&self, other_local: &WasmLocal) -> bool { match self { &LocalOrImmediate::WasmLocal(local) => local == other_local, LocalOrImmediate::Immediate(_) => false, } } pub fn is_zero(&self) -> bool { match self { LocalOrImmediate::Immediate(0) => true, _ => false, } } fn to_instruction_operand(&self, ctx: &mut JitContext) -> InstructionOperand { match self { &LocalOrImmediate::WasmLocal(source) => { local_to_instruction_operand(ctx, source).into() }, &LocalOrImmediate::Immediate(i) => InstructionOperand::Immediate(i), } } } fn local_to_instruction_operand(ctx: &mut JitContext, local: &WasmLocal) -> InstructionOperandDest { if ctx.register_locals.iter().any(|l| l == local) { // safe because register locals are alive for the duration of the entire function InstructionOperandDest::WasmLocal(local.unsafe_clone()) } else { InstructionOperandDest::Other } } pub fn jit_instruction(ctx: &mut JitContext, instr_flags: &mut u32) { ctx.cpu.prefixes = 0; ctx.start_of_current_instruction = ctx.cpu.eip; ::gen::jit::jit( ctx.cpu.read_imm8() as u32 | (ctx.cpu.osize_32() as u32) << 8, ctx, instr_flags, ); } pub fn jit_handle_prefix(ctx: &mut JitContext, instr_flags: &mut u32) { ::gen::jit::jit( ctx.cpu.read_imm8() as u32 | (ctx.cpu.osize_32() as u32) << 8, ctx, instr_flags, ); } pub fn jit_handle_segment_prefix(segment: u32, ctx: &mut JitContext, instr_flags: &mut u32) { dbg_assert!(segment <= 5); ctx.cpu.prefixes |= segment + 1; jit_handle_prefix(ctx, instr_flags) } pub fn instr16_0F_jit(ctx: &mut JitContext, instr_flags: &mut u32) { ::gen::jit0f::jit(ctx.cpu.read_imm8() as u32, ctx, instr_flags) } pub fn instr32_0F_jit(ctx: &mut JitContext, instr_flags: &mut u32) { ::gen::jit0f::jit(ctx.cpu.read_imm8() as u32 | 0x100, ctx, instr_flags) } pub fn instr_26_jit(ctx: &mut JitContext, instr_flags: &mut u32) { jit_handle_segment_prefix(ES, ctx, instr_flags) } pub fn instr_2E_jit(ctx: &mut JitContext, instr_flags: &mut u32) { jit_handle_segment_prefix(CS, ctx, instr_flags) } pub fn instr_36_jit(ctx: &mut JitContext, instr_flags: &mut u32) { jit_handle_segment_prefix(SS, ctx, instr_flags) } pub fn instr_3E_jit(ctx: &mut JitContext, instr_flags: &mut u32) { jit_handle_segment_prefix(DS, ctx, instr_flags) } pub fn instr_64_jit(ctx: &mut JitContext, instr_flags: &mut u32) { jit_handle_segment_prefix(FS, ctx, instr_flags) } pub fn instr_65_jit(ctx: &mut JitContext, instr_flags: &mut u32) { jit_handle_segment_prefix(GS, ctx, instr_flags) } pub fn instr_66_jit(ctx: &mut JitContext, instr_flags: &mut u32) { ctx.cpu.prefixes |= PREFIX_66; jit_handle_prefix(ctx, instr_flags) } pub fn instr_67_jit(ctx: &mut JitContext, instr_flags: &mut u32) { ctx.cpu.prefixes |= PREFIX_67; jit_handle_prefix(ctx, instr_flags) } pub fn instr_F0_jit(ctx: &mut JitContext, instr_flags: &mut u32) { // lock: Ignore jit_handle_prefix(ctx, instr_flags) } pub fn instr_F2_jit(ctx: &mut JitContext, instr_flags: &mut u32) { ctx.cpu.prefixes |= PREFIX_F2; jit_handle_prefix(ctx, instr_flags) } pub fn instr_F3_jit(ctx: &mut JitContext, instr_flags: &mut u32) { ctx.cpu.prefixes |= PREFIX_F3; jit_handle_prefix(ctx, instr_flags) } fn sse_read_f32_xmm_mem(ctx: &mut JitContext, name: &str, modrm_byte: ModrmByte, r: u32) { codegen::gen_modrm_resolve_safe_read32(ctx, modrm_byte); ctx.builder.reinterpret_i32_as_f32(); ctx.builder.const_i32(r as i32); ctx.builder.call_fn2_f32_i32(name); } fn sse_read_f32_xmm_xmm(ctx: &mut JitContext, name: &str, r1: u32, r2: u32) { ctx.builder .const_i32(global_pointers::get_reg_xmm_offset(r1) as i32); ctx.builder.load_aligned_f32(0); ctx.builder.const_i32(r2 as i32); ctx.builder.call_fn2_f32_i32(name); } fn sse_read64_xmm_mem(ctx: &mut JitContext, name: &str, modrm_byte: ModrmByte, r: u32) { codegen::gen_modrm_resolve_safe_read64(ctx, modrm_byte); ctx.builder.const_i32(r as i32); ctx.builder.call_fn2_i64_i32(name); } fn sse_read64_xmm_xmm(ctx: &mut JitContext, name: &str, r1: u32, r2: u32) { ctx.builder .const_i32(global_pointers::get_reg_xmm_offset(r1) as i32); ctx.builder.load_aligned_i64(0); ctx.builder.const_i32(r2 as i32); ctx.builder.call_fn2_i64_i32(name); } fn sse_read128_xmm_mem(ctx: &mut JitContext, name: &str, modrm_byte: ModrmByte, r: u32) { let dest = global_pointers::sse_scratch_register as u32; codegen::gen_modrm_resolve_safe_read128(ctx, modrm_byte, dest); ctx.builder.const_i32(dest as i32); ctx.builder.const_i32(r as i32); ctx.builder.call_fn2(name); } fn sse_read128_xmm_mem_imm( ctx: &mut JitContext, name: &str, modrm_byte: ModrmByte, r: u32, imm: u32, ) { let dest = global_pointers::sse_scratch_register as u32; codegen::gen_modrm_resolve_safe_read128(ctx, modrm_byte, dest); ctx.builder.const_i32(dest as i32); ctx.builder.const_i32(r as i32); ctx.builder.const_i32(imm as i32); ctx.builder.call_fn3(name); } fn sse_read128_xmm_xmm(ctx: &mut JitContext, name: &str, r1: u32, r2: u32) { // Make a copy to avoid aliasing problems: Called function expects a reg128, which must not // alias with memory codegen::gen_read_reg_xmm128_into_scratch(ctx, r1); let dest = global_pointers::sse_scratch_register; ctx.builder.const_i32(dest as i32); ctx.builder.const_i32(r2 as i32); ctx.builder.call_fn2(name); } fn sse_read128_xmm_xmm_imm(ctx: &mut JitContext, name: &str, r1: u32, r2: u32, imm: u32) { // Make a copy to avoid aliasing problems: Called function expects a reg128, which must not // alias with memory codegen::gen_read_reg_xmm128_into_scratch(ctx, r1); let dest = global_pointers::sse_scratch_register; ctx.builder.const_i32(dest as i32); ctx.builder.const_i32(r2 as i32); ctx.builder.const_i32(imm as i32); ctx.builder.call_fn3(name); } fn sse_mov_xmm_xmm(ctx: &mut JitContext, r1: u32, r2: u32) { ctx.builder .const_i32(global_pointers::get_reg_xmm_offset(r2) as i32); ctx.builder .const_i32(global_pointers::get_reg_xmm_offset(r1) as i32); ctx.builder.load_aligned_i64(0); ctx.builder.store_aligned_i64(0); ctx.builder .const_i32(global_pointers::get_reg_xmm_offset(r2) as i32 + 8); ctx.builder .const_i32(global_pointers::get_reg_xmm_offset(r1) as i32 + 8); ctx.builder.load_aligned_i64(0); ctx.builder.store_aligned_i64(0); } fn mmx_read64_mm_mem32(ctx: &mut JitContext, name: &str, modrm_byte: ModrmByte, r: u32) { codegen::gen_modrm_resolve_safe_read32(ctx, modrm_byte); ctx.builder.const_i32(r as i32); ctx.builder.call_fn2(name) } fn mmx_read64_mm_mm32(ctx: &mut JitContext, name: &str, r1: u32, r2: u32) { ctx.builder .const_i32(global_pointers::get_reg_mmx_offset(r1) as i32); ctx.builder.load_aligned_i32(0); ctx.builder.const_i32(r2 as i32); ctx.builder.call_fn2(name); } fn mmx_read64_mm_mem(ctx: &mut JitContext, name: &str, modrm_byte: ModrmByte, r: u32) { codegen::gen_modrm_resolve_safe_read64(ctx, modrm_byte); ctx.builder.const_i32(r as i32); ctx.builder.call_fn2_i64_i32(name) } fn mmx_read64_mm_mm(ctx: &mut JitContext, name: &str, r1: u32, r2: u32) { ctx.builder .const_i32(global_pointers::get_reg_mmx_offset(r1) as i32); ctx.builder.load_aligned_i64(0); ctx.builder.const_i32(r2 as i32); ctx.builder.call_fn2_i64_i32(name); } fn push16_reg_jit(ctx: &mut JitContext, r: u32) { codegen::gen_get_reg16(ctx, r); let value_local = ctx.builder.set_new_local(); codegen::gen_push16(ctx, &value_local); ctx.builder.free_local(value_local); } fn push32_reg_jit(ctx: &mut JitContext, r: u32) { let reg = ctx.reg(r); codegen::gen_push32(ctx, ®); } fn push16_imm_jit(ctx: &mut JitContext, imm: u32) { ctx.builder.const_i32(imm as i32); let value_local = ctx.builder.set_new_local(); codegen::gen_push16(ctx, &value_local); ctx.builder.free_local(value_local); } fn push32_imm_jit(ctx: &mut JitContext, imm: u32) { ctx.builder.const_i32(imm as i32); let value_local = ctx.builder.set_new_local(); codegen::gen_push32(ctx, &value_local); ctx.builder.free_local(value_local); } fn push16_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte) { codegen::gen_modrm_resolve_safe_read16(ctx, modrm_byte); let value_local = ctx.builder.set_new_local(); codegen::gen_push16(ctx, &value_local); ctx.builder.free_local(value_local); } fn push32_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte) { codegen::gen_modrm_resolve_safe_read32(ctx, modrm_byte); let value_local = ctx.builder.set_new_local(); codegen::gen_push32(ctx, &value_local); ctx.builder.free_local(value_local); } fn pop16_reg_jit(ctx: &mut JitContext, reg: u32) { codegen::gen_pop16(ctx); codegen::gen_set_reg16_unmasked(ctx, reg); } fn pop32_reg_jit(ctx: &mut JitContext, reg: u32) { codegen::gen_pop32s(ctx); codegen::gen_set_reg32(ctx, reg); } fn group_arith_al_imm8( ctx: &mut JitContext, op: &dyn Fn(&mut JitContext, &WasmLocal, &LocalOrImmediate), imm8: u32, ) { op( ctx, &ctx.reg(regs::EAX), &LocalOrImmediate::Immediate(imm8 as i32), ); codegen::gen_set_reg8_unmasked(ctx, regs::EAX); } fn group_arith_ax_imm16(ctx: &mut JitContext, op: &str, imm16: u32) { codegen::gen_get_reg16(ctx, regs::AX); ctx.builder.const_i32(imm16 as i32); ctx.builder.call_fn2_ret(op); codegen::gen_set_reg16(ctx, regs::AX); } fn group_arith_eax_imm32( ctx: &mut JitContext, op: &dyn Fn(&mut JitContext, &WasmLocal, &LocalOrImmediate), imm32: u32, ) { op( ctx, &ctx.reg(regs::EAX), &LocalOrImmediate::Immediate(imm32 as i32), ); } macro_rules! define_instruction_read8( ($fn:expr, $name_mem:ident, $name_reg:ident) => ( pub fn $name_mem(ctx: &mut JitContext, modrm_byte: ModrmByte, r: u32) { codegen::gen_modrm_resolve_safe_read8(ctx, modrm_byte); let dest_operand = ctx.builder.set_new_local(); let source_operand = codegen::gen_get_reg8_or_alias_to_reg32(ctx, r); $fn(ctx, &dest_operand, &LocalOrImmediate::WasmLocal(&source_operand)); ctx.builder.free_local(dest_operand); codegen::gen_free_reg8_or_alias(ctx, r, source_operand); } pub fn $name_reg(ctx: &mut JitContext, r1: u32, r2: u32) { let dest_operand = codegen::gen_get_reg8_or_alias_to_reg32(ctx, r1); let source_operand = codegen::gen_get_reg8_or_alias_to_reg32(ctx, r2); $fn(ctx, &dest_operand, &LocalOrImmediate::WasmLocal(&source_operand)); codegen::gen_free_reg8_or_alias(ctx, r1, dest_operand); codegen::gen_free_reg8_or_alias(ctx, r2, source_operand); } ); ($fn:expr, $name_mem:ident, $name_reg:ident, $imm:ident) => ( pub fn $name_mem(ctx: &mut JitContext, modrm_byte: ModrmByte, imm: u32) { codegen::gen_modrm_resolve_safe_read8(ctx, modrm_byte); let dest_operand = ctx.builder.set_new_local(); let imm = mask_imm!(imm, $imm); $fn(ctx, &dest_operand, &LocalOrImmediate::Immediate(imm as i32)); ctx.builder.free_local(dest_operand); } pub fn $name_reg(ctx: &mut JitContext, r1: u32, imm: u32) { let imm = mask_imm!(imm, $imm); let dest_operand = codegen::gen_get_reg8_or_alias_to_reg32(ctx, r1); $fn(ctx, &dest_operand, &LocalOrImmediate::Immediate(imm as i32)); codegen::gen_free_reg8_or_alias(ctx, r1, dest_operand); } ); ); macro_rules! define_instruction_read16( ($fn:expr, $name_mem:ident, $name_reg:ident) => ( pub fn $name_mem(ctx: &mut JitContext, modrm_byte: ModrmByte, r: u32) { codegen::gen_modrm_resolve_safe_read16(ctx, modrm_byte); let dest_operand = ctx.builder.set_new_local(); $fn( ctx, &dest_operand, &LocalOrImmediate::WasmLocal(&ctx.reg(r)), ); ctx.builder.free_local(dest_operand); } pub fn $name_reg(ctx: &mut JitContext, r1: u32, r2: u32) { $fn( ctx, &ctx.reg(r1), &LocalOrImmediate::WasmLocal(&ctx.reg(r2)) ); } ); ($fn:expr, $name_mem:ident, $name_reg:ident, $imm:ident) => ( pub fn $name_mem(ctx: &mut JitContext, modrm_byte: ModrmByte, imm: u32) { codegen::gen_modrm_resolve_safe_read16(ctx, modrm_byte); let dest_operand = ctx.builder.set_new_local(); let imm = mask_imm!(imm, $imm); $fn( ctx, &dest_operand, &LocalOrImmediate::Immediate(imm as i32), ); ctx.builder.free_local(dest_operand); } pub fn $name_reg(ctx: &mut JitContext, r: u32, imm: u32) { let imm = mask_imm!(imm, $imm); $fn( ctx, &ctx.reg(r), &LocalOrImmediate::Immediate(imm as i32), ); } ); ); macro_rules! define_instruction_read32( ($fn:expr, $name_mem:ident, $name_reg:ident) => ( pub fn $name_mem(ctx: &mut JitContext, modrm_byte: ModrmByte, r: u32) { codegen::gen_modrm_resolve_safe_read32(ctx, modrm_byte); let dest_operand = ctx.builder.set_new_local(); $fn( ctx, &dest_operand, &LocalOrImmediate::WasmLocal(&ctx.reg(r)), ); ctx.builder.free_local(dest_operand); } pub fn $name_reg(ctx: &mut JitContext, r1: u32, r2: u32) { $fn( ctx, &ctx.reg(r1), &LocalOrImmediate::WasmLocal(&ctx.reg(r2)) ); } ); ($fn:expr, $name_mem:ident, $name_reg:ident, $imm:ident) => ( pub fn $name_mem(ctx: &mut JitContext, modrm_byte: ModrmByte, imm: u32) { codegen::gen_modrm_resolve_safe_read32(ctx, modrm_byte); let dest_operand = ctx.builder.set_new_local(); let imm = mask_imm!(imm, $imm); $fn( ctx, &dest_operand, &LocalOrImmediate::Immediate(imm as i32), ); ctx.builder.free_local(dest_operand); } pub fn $name_reg(ctx: &mut JitContext, r: u32, imm: u32) { let imm = mask_imm!(imm, $imm); $fn( ctx, &ctx.reg(r), &LocalOrImmediate::Immediate(imm as i32), ); } ); ); macro_rules! define_instruction_write_reg8( ($fn:expr, $name_mem:ident, $name_reg:ident) => ( pub fn $name_mem(ctx: &mut JitContext, modrm_byte: ModrmByte, r: u32) { codegen::gen_modrm_resolve_safe_read8(ctx, modrm_byte); let source_operand = ctx.builder.set_new_local(); let dest_operand = codegen::gen_get_reg8_or_alias_to_reg32(ctx, r); $fn(ctx, &dest_operand, &LocalOrImmediate::WasmLocal(&source_operand)); codegen::gen_set_reg8_unmasked(ctx, r); ctx.builder.free_local(source_operand); codegen::gen_free_reg8_or_alias(ctx, r, dest_operand); } pub fn $name_reg(ctx: &mut JitContext, r1: u32, r2: u32) { let source_operand = codegen::gen_get_reg8_or_alias_to_reg32(ctx, r1); let dest_operand = codegen::gen_get_reg8_or_alias_to_reg32(ctx, r2); $fn(ctx, &dest_operand, &LocalOrImmediate::WasmLocal(&source_operand)); codegen::gen_set_reg8_unmasked(ctx, r2); codegen::gen_free_reg8_or_alias(ctx, r1, source_operand); codegen::gen_free_reg8_or_alias(ctx, r2, dest_operand); } ) ); macro_rules! define_instruction_write_reg16( ($fn:expr, $name_mem:ident, $name_reg:ident) => ( pub fn $name_mem(ctx: &mut JitContext, modrm_byte: ModrmByte, r: u32) { codegen::gen_get_reg16(ctx, r); codegen::gen_modrm_resolve_safe_read16(ctx, modrm_byte); ctx.builder.call_fn2_ret($fn); codegen::gen_set_reg16(ctx, r); } pub fn $name_reg(ctx: &mut JitContext, r1: u32, r2: u32) { codegen::gen_get_reg16(ctx, r2); codegen::gen_get_reg16(ctx, r1); ctx.builder.call_fn2_ret($fn); codegen::gen_set_reg16(ctx, r2); } ) ); macro_rules! define_instruction_write_reg32( ($fn:expr, $name_mem:ident, $name_reg:ident) => ( pub fn $name_mem(ctx: &mut JitContext, modrm_byte: ModrmByte, r: u32) { codegen::gen_modrm_resolve_safe_read32(ctx, modrm_byte); let source_operand = ctx.builder.set_new_local(); $fn( ctx, &ctx.reg(r), &LocalOrImmediate::WasmLocal(&source_operand), ); ctx.builder.free_local(source_operand); } pub fn $name_reg(ctx: &mut JitContext, r1: u32, r2: u32) { $fn( ctx, &ctx.reg(r2), &LocalOrImmediate::WasmLocal(&ctx.reg(r1)), ); } ); ); macro_rules! mask_imm( ($imm:expr, imm8_5bits) => { $imm & 31 }; ($imm:expr, imm8) => { $imm }; ($imm:expr, imm8s) => { $imm }; ($imm:expr, imm8s_16bits) => { $imm & 0xFFFF }; ($imm:expr, imm16) => { $imm }; ($imm:expr, imm32) => { $imm }; ); macro_rules! define_instruction_read_write_mem8( ($fn:expr, $name_mem:ident, $name_reg:ident, reg) => ( pub fn $name_mem(ctx: &mut JitContext, modrm_byte: ModrmByte, r: u32) { codegen::gen_modrm_resolve_with_local(ctx, modrm_byte, &|ctx, addr| { codegen::gen_safe_read_write(ctx, BitSize::BYTE, &addr, &|ref mut ctx| { let dest_operand = ctx.builder.set_new_local(); let source_operand = codegen::gen_get_reg8_or_alias_to_reg32(ctx, r); $fn(ctx, &dest_operand, &LocalOrImmediate::WasmLocal(&source_operand)); codegen::gen_free_reg8_or_alias(ctx, r, source_operand); ctx.builder.free_local(dest_operand); }); }); } pub fn $name_reg(ctx: &mut JitContext, r1: u32, r2: u32) { let source_operand = codegen::gen_get_reg8_or_alias_to_reg32(ctx, r2); let dest_operand = codegen::gen_get_reg8_or_alias_to_reg32(ctx, r1); $fn(ctx, &dest_operand, &LocalOrImmediate::WasmLocal(&source_operand)); codegen::gen_set_reg8_unmasked(ctx, r1); codegen::gen_free_reg8_or_alias(ctx, r2, source_operand); codegen::gen_free_reg8_or_alias(ctx, r1, dest_operand); } ); ($fn:expr, $name_mem:ident, $name_reg:ident, constant_one) => ( pub fn $name_mem(ctx: &mut JitContext, modrm_byte: ModrmByte) { codegen::gen_modrm_resolve_with_local(ctx, modrm_byte, &|ctx, addr| { codegen::gen_safe_read_write(ctx, BitSize::BYTE, &addr, &|ref mut ctx| { ctx.builder.const_i32(1); ctx.builder.call_fn2_ret($fn); }); }); } pub fn $name_reg(ctx: &mut JitContext, r1: u32) { codegen::gen_get_reg8(ctx, r1); ctx.builder.const_i32(1); ctx.builder.call_fn2_ret($fn); codegen::gen_set_reg8(ctx, r1); } ); ($fn:expr, $name_mem:ident, $name_reg:ident, cl) => ( pub fn $name_mem(ctx: &mut JitContext, modrm_byte: ModrmByte) { codegen::gen_modrm_resolve_with_local(ctx, modrm_byte, &|ctx, addr| { codegen::gen_safe_read_write(ctx, BitSize::BYTE, &addr, &|ref mut ctx| { codegen::gen_get_reg8(ctx, regs::CL); ctx.builder.const_i32(31); ctx.builder.and_i32(); ctx.builder.call_fn2_ret($fn); }); }); } pub fn $name_reg(ctx: &mut JitContext, r1: u32) { codegen::gen_get_reg8(ctx, r1); codegen::gen_get_reg8(ctx, regs::CL); ctx.builder.const_i32(31); ctx.builder.and_i32(); ctx.builder.call_fn2_ret($fn); codegen::gen_set_reg8(ctx, r1); } ); ($fn:expr, $name_mem:ident, $name_reg:ident, none) => ( pub fn $name_mem(ctx: &mut JitContext, modrm_byte: ModrmByte) { codegen::gen_modrm_resolve_with_local(ctx, modrm_byte, &|ctx, addr| { codegen::gen_safe_read_write(ctx, BitSize::BYTE, &addr, &|ref mut ctx| { ctx.builder.call_fn1_ret($fn); }); }); } pub fn $name_reg(ctx: &mut JitContext, r1: u32) { codegen::gen_get_reg8(ctx, r1); ctx.builder.call_fn1_ret($fn); codegen::gen_set_reg8(ctx, r1); } ); ($fn:expr, $name_mem:ident, $name_reg:ident, ximm8) => ( pub fn $name_mem(ctx: &mut JitContext, modrm_byte: ModrmByte, imm: u32) { codegen::gen_modrm_resolve_with_local(ctx, modrm_byte, &|ctx, addr| { codegen::gen_safe_read_write(ctx, BitSize::BYTE, &addr, &|ref mut ctx| { let dest_operand = ctx.builder.set_new_local(); $fn(ctx, &dest_operand, &LocalOrImmediate::Immediate(imm as i32)); ctx.builder.free_local(dest_operand); }); }); } pub fn $name_reg(ctx: &mut JitContext, r1: u32, imm: u32) { let dest_operand = codegen::gen_get_reg8_or_alias_to_reg32(ctx, r1); $fn(ctx, &dest_operand, &LocalOrImmediate::Immediate(imm as i32)); codegen::gen_set_reg8_unmasked(ctx, r1); codegen::gen_free_reg8_or_alias(ctx, r1, dest_operand); } ); ($fn:expr, $name_mem:ident, $name_reg:ident, $imm:ident) => ( pub fn $name_mem(ctx: &mut JitContext, modrm_byte: ModrmByte, imm: u32) { codegen::gen_modrm_resolve_with_local(ctx, modrm_byte, &|ctx, addr| { let imm = mask_imm!(imm, $imm) as i32; codegen::gen_safe_read_write(ctx, BitSize::BYTE, &addr, &|ref mut ctx| { ctx.builder.const_i32(imm as i32); ctx.builder.call_fn2_ret($fn); }); }); } pub fn $name_reg(ctx: &mut JitContext, r1: u32, imm: u32) { let imm = mask_imm!(imm, $imm); codegen::gen_get_reg8(ctx, r1); ctx.builder.const_i32(imm as i32); ctx.builder.call_fn2_ret($fn); codegen::gen_set_reg8(ctx, r1); } ); ); macro_rules! define_instruction_read_write_mem16( ($fn:expr, $name_mem:ident, $name_reg:ident, reg) => ( pub fn $name_mem(ctx: &mut JitContext, modrm_byte: ModrmByte, r: u32) { codegen::gen_modrm_resolve_with_local(ctx, modrm_byte, &|ctx, addr| { codegen::gen_safe_read_write(ctx, BitSize::WORD, &addr, &|ref mut ctx| { codegen::gen_get_reg16(ctx, r); ctx.builder.call_fn2_ret($fn); }); }); } pub fn $name_reg(ctx: &mut JitContext, r1: u32, r2: u32) { codegen::gen_get_reg16(ctx, r1); codegen::gen_get_reg16(ctx, r2); ctx.builder.call_fn2_ret($fn); codegen::gen_set_reg16(ctx, r1); } ); ($fn:expr, $name_mem:ident, $name_reg:ident, constant_one) => ( pub fn $name_mem(ctx: &mut JitContext, modrm_byte: ModrmByte) { codegen::gen_modrm_resolve_with_local(ctx, modrm_byte, &|ctx, addr| { codegen::gen_safe_read_write(ctx, BitSize::WORD, &addr, &|ref mut ctx| { ctx.builder.const_i32(1); ctx.builder.call_fn2_ret($fn); }); }); } pub fn $name_reg(ctx: &mut JitContext, r1: u32) { codegen::gen_get_reg16(ctx, r1); ctx.builder.const_i32(1); ctx.builder.call_fn2_ret($fn); codegen::gen_set_reg16(ctx, r1); } ); ($fn:expr, $name_mem:ident, $name_reg:ident, cl) => ( pub fn $name_mem(ctx: &mut JitContext, modrm_byte: ModrmByte) { codegen::gen_modrm_resolve_with_local(ctx, modrm_byte, &|ctx, addr| { codegen::gen_safe_read_write(ctx, BitSize::WORD, &addr, &|ref mut ctx| { codegen::gen_get_reg8(ctx, regs::CL); ctx.builder.const_i32(31); ctx.builder.and_i32(); ctx.builder.call_fn2_ret($fn); }); }); } pub fn $name_reg(ctx: &mut JitContext, r1: u32) { codegen::gen_get_reg16(ctx, r1); codegen::gen_get_reg8(ctx, regs::CL); ctx.builder.const_i32(31); ctx.builder.and_i32(); ctx.builder.call_fn2_ret($fn); codegen::gen_set_reg16(ctx, r1); } ); ($fn:expr, $name_mem:ident, $name_reg:ident, reg, cl) => ( pub fn $name_mem(ctx: &mut JitContext, modrm_byte: ModrmByte, r: u32) { codegen::gen_modrm_resolve_with_local(ctx, modrm_byte, &|ctx, addr| { codegen::gen_safe_read_write(ctx, BitSize::WORD, &addr, &|ref mut ctx| { codegen::gen_get_reg16(ctx, r); codegen::gen_get_reg8(ctx, regs::CL); ctx.builder.const_i32(31); ctx.builder.and_i32(); ctx.builder.call_fn3_ret($fn); }); }); } pub fn $name_reg(ctx: &mut JitContext, r1: u32, r2: u32) { codegen::gen_get_reg16(ctx, r1); codegen::gen_get_reg16(ctx, r2); codegen::gen_get_reg8(ctx, regs::CL); ctx.builder.const_i32(31); ctx.builder.and_i32(); ctx.builder.call_fn3_ret($fn); codegen::gen_set_reg16(ctx, r1); } ); ($fn:expr, $name_mem:ident, $name_reg:ident, reg, $imm:ident) => ( pub fn $name_mem(ctx: &mut JitContext, modrm_byte: ModrmByte, r: u32, imm: u32) { codegen::gen_modrm_resolve_with_local(ctx, modrm_byte, &|ctx, addr| { let imm = mask_imm!(imm, $imm); codegen::gen_safe_read_write(ctx, BitSize::WORD, &addr, &|ref mut ctx| { codegen::gen_get_reg16(ctx, r); ctx.builder.const_i32(imm as i32); ctx.builder.call_fn3_ret($fn); }); }); } pub fn $name_reg(ctx: &mut JitContext, r1: u32, r2: u32, imm: u32) { let imm = mask_imm!(imm, $imm); codegen::gen_get_reg16(ctx, r1); codegen::gen_get_reg16(ctx, r2); ctx.builder.const_i32(imm as i32); ctx.builder.call_fn3_ret($fn); codegen::gen_set_reg16(ctx, r1); } ); ($fn:expr, $name_mem:ident, $name_reg:ident, none) => ( pub fn $name_mem(ctx: &mut JitContext, modrm_byte: ModrmByte) { codegen::gen_modrm_resolve_with_local(ctx, modrm_byte, &|ctx, addr| { codegen::gen_safe_read_write(ctx, BitSize::WORD, &addr, &|ref mut ctx| { let mut dest_operand = ctx.builder.set_new_local(); $fn(ctx, &mut dest_operand); ctx.builder.get_local(&dest_operand); ctx.builder.free_local(dest_operand); }); }); } pub fn $name_reg(ctx: &mut JitContext, r1: u32) { $fn(ctx, &mut ctx.reg(r1)); } ); ($fn:expr, $name_mem:ident, $name_reg:ident, $imm:ident) => ( pub fn $name_mem(ctx: &mut JitContext, modrm_byte: ModrmByte, imm: u32) { codegen::gen_modrm_resolve_with_local(ctx, modrm_byte, &|ctx, addr| { let imm = mask_imm!(imm, $imm) as i32; codegen::gen_safe_read_write(ctx, BitSize::WORD, &addr, &|ref mut ctx| { ctx.builder.const_i32(imm as i32); ctx.builder.call_fn2_ret($fn); }); }); } pub fn $name_reg(ctx: &mut JitContext, r1: u32, imm: u32) { let imm = mask_imm!(imm, $imm); codegen::gen_get_reg16(ctx, r1); ctx.builder.const_i32(imm as i32); ctx.builder.call_fn2_ret($fn); codegen::gen_set_reg16(ctx, r1); } ); ); macro_rules! define_instruction_read_write_mem32( ($fn:expr, $name_mem:ident, $name_reg:ident, reg) => ( pub fn $name_mem(ctx: &mut JitContext, modrm_byte: ModrmByte, r: u32) { codegen::gen_modrm_resolve_with_local(ctx, modrm_byte, &|ctx, addr| { codegen::gen_safe_read_write(ctx, BitSize::DWORD, &addr, &|ref mut ctx| { let dest_operand = ctx.builder.set_new_local(); $fn( ctx, &dest_operand, &LocalOrImmediate::WasmLocal(&ctx.reg(r)), ); ctx.builder.get_local(&dest_operand); ctx.builder.free_local(dest_operand); }); }); } pub fn $name_reg(ctx: &mut JitContext, r1: u32, r2: u32) { $fn( ctx, &ctx.reg(r1), &LocalOrImmediate::WasmLocal(&ctx.reg(r2)), ); } ); ($fn:expr, $name_mem:ident, $name_reg:ident, constant_one) => ( pub fn $name_mem(ctx: &mut JitContext, modrm_byte: ModrmByte) { codegen::gen_modrm_resolve_with_local(ctx, modrm_byte, &|ctx, addr| { codegen::gen_safe_read_write(ctx, BitSize::DWORD, &addr, &|ref mut ctx| { let dest_operand = ctx.builder.set_new_local(); $fn(ctx, &dest_operand, &LocalOrImmediate::Immediate(1)); ctx.builder.get_local(&dest_operand); ctx.builder.free_local(dest_operand); }); }); } pub fn $name_reg(ctx: &mut JitContext, r1: u32) { $fn(ctx, &ctx.reg(r1), &LocalOrImmediate::Immediate(1)); } ); ($fn:expr, $name_mem:ident, $name_reg:ident, cl) => ( pub fn $name_mem(ctx: &mut JitContext, modrm_byte: ModrmByte) { codegen::gen_modrm_resolve_with_local(ctx, modrm_byte, &|ctx, addr| { codegen::gen_safe_read_write(ctx, BitSize::DWORD, &addr, &|ref mut ctx| { let dest_operand = ctx.builder.set_new_local(); $fn( ctx, &dest_operand, &LocalOrImmediate::WasmLocal(&ctx.reg(regs::ECX)), ); ctx.builder.get_local(&dest_operand); ctx.builder.free_local(dest_operand); }); }); } pub fn $name_reg(ctx: &mut JitContext, r1: u32) { $fn( ctx, &ctx.reg(r1), &LocalOrImmediate::WasmLocal(&ctx.reg(regs::ECX)), ); } ); ($fn:expr, $name_mem:ident, $name_reg:ident, reg, cl) => ( pub fn $name_mem(ctx: &mut JitContext, modrm_byte: ModrmByte, r: u32) { codegen::gen_modrm_resolve_with_local(ctx, modrm_byte, &|ctx, addr| { codegen::gen_safe_read_write(ctx, BitSize::DWORD, &addr, &|ref mut ctx| { codegen::gen_get_reg32(ctx, r); codegen::gen_get_reg8(ctx, regs::CL); ctx.builder.const_i32(31); ctx.builder.and_i32(); ctx.builder.call_fn3_ret($fn); }); }); } pub fn $name_reg(ctx: &mut JitContext, r1: u32, r2: u32) { codegen::gen_get_reg32(ctx, r1); codegen::gen_get_reg32(ctx, r2); codegen::gen_get_reg8(ctx, regs::CL); ctx.builder.const_i32(31); ctx.builder.and_i32(); ctx.builder.call_fn3_ret($fn); codegen::gen_set_reg32(ctx, r1); } ); ($fn:expr, $name_mem:ident, $name_reg:ident, reg, $imm:ident) => ( pub fn $name_mem(ctx: &mut JitContext, modrm_byte: ModrmByte, r: u32, imm: u32) { codegen::gen_modrm_resolve_with_local(ctx, modrm_byte, &|ctx, addr| { let imm = mask_imm!(imm, $imm) as i32; codegen::gen_safe_read_write(ctx, BitSize::DWORD, &addr, &|ref mut ctx| { codegen::gen_get_reg32(ctx, r); ctx.builder.const_i32(imm as i32); ctx.builder.call_fn3_ret($fn); }); }); } pub fn $name_reg(ctx: &mut JitContext, r1: u32, r2: u32, imm: u32) { let imm = mask_imm!(imm, $imm); codegen::gen_get_reg32(ctx, r1); codegen::gen_get_reg32(ctx, r2); ctx.builder.const_i32(imm as i32); ctx.builder.call_fn3_ret($fn); codegen::gen_set_reg32(ctx, r1); } ); ($fn:expr, $name_mem:ident, $name_reg:ident, none) => ( pub fn $name_mem(ctx: &mut JitContext, modrm_byte: ModrmByte) { codegen::gen_modrm_resolve_with_local(ctx, modrm_byte, &|ctx, addr| { codegen::gen_safe_read_write(ctx, BitSize::DWORD, &addr, &|ref mut ctx| { let mut dest_operand = ctx.builder.set_new_local(); $fn(ctx, &mut dest_operand); ctx.builder.get_local(&dest_operand); ctx.builder.free_local(dest_operand); }); }); } pub fn $name_reg(ctx: &mut JitContext, r1: u32) { $fn(ctx, &mut ctx.reg(r1)); } ); ($fn:expr, $name_mem:ident, $name_reg:ident, $imm:ident) => ( pub fn $name_mem(ctx: &mut JitContext, modrm_byte: ModrmByte, imm: u32) { codegen::gen_modrm_resolve_with_local(ctx, modrm_byte, &|ctx, addr| { let imm = mask_imm!(imm, $imm); codegen::gen_safe_read_write(ctx, BitSize::DWORD, &addr, &|ref mut ctx| { let dest_operand = ctx.builder.set_new_local(); $fn( ctx, &dest_operand, &LocalOrImmediate::Immediate(imm as i32), ); ctx.builder.get_local(&dest_operand); ctx.builder.free_local(dest_operand); }); }); } pub fn $name_reg(ctx: &mut JitContext, r1: u32, imm: u32) { let imm = mask_imm!(imm, $imm); $fn( ctx, &ctx.reg(r1), &LocalOrImmediate::Immediate(imm as i32), ); } ); ); fn gen_add8(ctx: &mut JitContext, dest_operand: &WasmLocal, source_operand: &LocalOrImmediate) { ctx.current_instruction = Instruction::Add { opsize: OPSIZE_8, dest: local_to_instruction_operand(ctx, dest_operand), source: if source_operand.eq_local(dest_operand) { InstructionOperand::Other // aliasing } else { source_operand.to_instruction_operand(ctx) }, is_inc: false, }; ctx.builder.const_i32(global_pointers::last_op1 as i32); ctx.builder.get_local(dest_operand); ctx.builder.const_i32(0xFF); ctx.builder.and_i32(); ctx.builder.store_aligned_i32(0); ctx.builder.const_i32(global_pointers::last_result as i32); ctx.builder.get_local(dest_operand); source_operand.gen_get(ctx.builder); ctx.builder.add_i32(); ctx.builder.const_i32(0xFF); ctx.builder.and_i32(); ctx.builder.store_aligned_i32(0); codegen::gen_set_last_op_size_and_flags_changed(ctx.builder, OPSIZE_8, FLAGS_ALL); ctx.builder .load_fixed_u8(global_pointers::last_result as u32); } fn gen_add32(ctx: &mut JitContext, dest_operand: &WasmLocal, source_operand: &LocalOrImmediate) { ctx.current_instruction = Instruction::Add { opsize: OPSIZE_32, dest: local_to_instruction_operand(ctx, dest_operand), source: if source_operand.eq_local(dest_operand) { InstructionOperand::Other // aliasing } else { source_operand.to_instruction_operand(ctx) }, is_inc: false, }; codegen::gen_set_last_op1(ctx.builder, &dest_operand); ctx.builder.get_local(&dest_operand); source_operand.gen_get(ctx.builder); ctx.builder.add_i32(); ctx.builder.set_local(dest_operand); codegen::gen_set_last_result(ctx.builder, &dest_operand); codegen::gen_set_last_op_size_and_flags_changed(ctx.builder, OPSIZE_32, FLAGS_ALL); } fn gen_sub8(ctx: &mut JitContext, dest_operand: &WasmLocal, source_operand: &LocalOrImmediate) { ctx.current_instruction = Instruction::Sub { opsize: OPSIZE_8, dest: local_to_instruction_operand(ctx, dest_operand), source: if source_operand.eq_local(dest_operand) { InstructionOperand::Other // aliasing } else { source_operand.to_instruction_operand(ctx) }, is_dec: false, }; ctx.builder.const_i32(global_pointers::last_op1 as i32); ctx.builder.get_local(dest_operand); ctx.builder.const_i32(0xFF); ctx.builder.and_i32(); ctx.builder.store_aligned_i32(0); ctx.builder.const_i32(global_pointers::last_result as i32); ctx.builder.get_local(dest_operand); source_operand.gen_get(ctx.builder); ctx.builder.sub_i32(); ctx.builder.const_i32(0xFF); ctx.builder.and_i32(); ctx.builder.store_aligned_i32(0); codegen::gen_set_last_op_size_and_flags_changed(ctx.builder, OPSIZE_8, FLAGS_ALL | FLAG_SUB); ctx.builder .load_fixed_u8(global_pointers::last_result as u32); } fn gen_sub32(ctx: &mut JitContext, dest_operand: &WasmLocal, source_operand: &LocalOrImmediate) { ctx.current_instruction = Instruction::Sub { opsize: OPSIZE_32, dest: local_to_instruction_operand(ctx, dest_operand), source: if source_operand.eq_local(dest_operand) { InstructionOperand::Other // aliasing } else { source_operand.to_instruction_operand(ctx) }, is_dec: false, }; codegen::gen_set_last_op1(ctx.builder, &dest_operand); ctx.builder.get_local(&dest_operand); source_operand.gen_get(ctx.builder); ctx.builder.sub_i32(); ctx.builder.set_local(dest_operand); codegen::gen_set_last_result(ctx.builder, &dest_operand); codegen::gen_set_last_op_size_and_flags_changed(ctx.builder, OPSIZE_32, FLAGS_ALL | FLAG_SUB); } fn gen_cmp( ctx: &mut JitContext, dest_operand: &WasmLocal, source_operand: &LocalOrImmediate, size: i32, ) { ctx.current_instruction = Instruction::Cmp { dest: local_to_instruction_operand(ctx, dest_operand), source: source_operand.to_instruction_operand(ctx), opsize: size, }; ctx.builder.const_i32(global_pointers::last_result as i32); if source_operand.is_zero() { ctx.builder.get_local(&dest_operand); } else { ctx.builder.get_local(&dest_operand); source_operand.gen_get(ctx.builder); ctx.builder.sub_i32(); } if size == OPSIZE_8 || size == OPSIZE_16 { ctx.builder .const_i32(if size == OPSIZE_8 { 0xFF } else { 0xFFFF }); ctx.builder.and_i32(); } ctx.builder.store_aligned_i32(0); ctx.builder.const_i32(global_pointers::last_op1 as i32); ctx.builder.get_local(&dest_operand); if size == OPSIZE_8 || size == OPSIZE_16 { ctx.builder .const_i32(if size == OPSIZE_8 { 0xFF } else { 0xFFFF }); ctx.builder.and_i32(); } ctx.builder.store_aligned_i32(0); codegen::gen_set_last_op_size_and_flags_changed(ctx.builder, size, FLAGS_ALL | FLAG_SUB); } fn gen_cmp8(ctx: &mut JitContext, dest: &WasmLocal, source: &LocalOrImmediate) { gen_cmp(ctx, dest, source, OPSIZE_8) } fn gen_cmp16(ctx: &mut JitContext, dest: &WasmLocal, source: &LocalOrImmediate) { gen_cmp(ctx, dest, source, OPSIZE_16) } fn gen_cmp32(ctx: &mut JitContext, dest: &WasmLocal, source: &LocalOrImmediate) { gen_cmp(ctx, dest, source, OPSIZE_32) } fn gen_adc8(ctx: &mut JitContext, dest_operand: &WasmLocal, source_operand: &LocalOrImmediate) { ctx.builder.get_local(dest_operand); ctx.builder.const_i32(0xFF); ctx.builder.and_i32(); source_operand.gen_get_mask255(ctx.builder); ctx.builder.call_fn2_ret("adc8"); ctx.builder.const_i32(0xFF); ctx.builder.and_i32(); } fn gen_adc32(ctx: &mut JitContext, dest_operand: &WasmLocal, source_operand: &LocalOrImmediate) { ctx.builder.get_local(&dest_operand); source_operand.gen_get(ctx.builder); ctx.builder.add_i32(); codegen::gen_getcf(ctx, ConditionNegate::False); ctx.builder.add_i32(); let res = ctx.builder.set_new_local(); codegen::gen_set_last_result(ctx.builder, &res); codegen::gen_set_last_op_size_and_flags_changed( ctx.builder, OPSIZE_32, FLAGS_ALL & !FLAG_CARRY & !FLAG_OVERFLOW & !FLAG_ADJUST, ); ctx.builder.const_i32(global_pointers::flags as i32); codegen::gen_get_flags(ctx.builder); ctx.builder .const_i32(!FLAG_CARRY & !FLAG_ADJUST & !FLAG_OVERFLOW); ctx.builder.and_i32(); // cf: (dest_operand ^ ((dest_operand ^ source_operand) & (source_operand ^ res))) >> op_size & FLAG_CARRY ctx.builder.get_local(&dest_operand); ctx.builder.get_local(&dest_operand); source_operand.gen_get(ctx.builder); ctx.builder.xor_i32(); source_operand.gen_get(ctx.builder); ctx.builder.get_local(&res); ctx.builder.xor_i32(); ctx.builder.and_i32(); ctx.builder.xor_i32(); ctx.builder.const_i32(31); ctx.builder.shr_u_i32(); ctx.builder.const_i32(FLAG_CARRY); ctx.builder.and_i32(); ctx.builder.or_i32(); // af: (dest_operand ^ source_operand ^ res) & FLAG_ADJUST ctx.builder.get_local(&dest_operand); source_operand.gen_get(ctx.builder); ctx.builder.get_local(&res); ctx.builder.xor_i32(); ctx.builder.xor_i32(); ctx.builder.const_i32(FLAG_ADJUST); ctx.builder.and_i32(); ctx.builder.or_i32(); // of: ((source_operand ^ res) & (dest_operand ^ res)) >> op_size << 11 & FLAG_OVERFLOW source_operand.gen_get(ctx.builder); ctx.builder.get_local(&res); ctx.builder.xor_i32(); ctx.builder.get_local(&dest_operand); ctx.builder.get_local(&res); ctx.builder.xor_i32(); ctx.builder.and_i32(); ctx.builder.const_i32(31 - 11); ctx.builder.shr_u_i32(); ctx.builder.const_i32(FLAG_OVERFLOW); ctx.builder.and_i32(); ctx.builder.or_i32(); ctx.builder.store_aligned_i32(0); ctx.builder.get_local(&res); ctx.builder.set_local(dest_operand); ctx.builder.free_local(res); } fn gen_sbb8(ctx: &mut JitContext, dest_operand: &WasmLocal, source_operand: &LocalOrImmediate) { ctx.builder.get_local(dest_operand); ctx.builder.const_i32(0xFF); ctx.builder.and_i32(); source_operand.gen_get_mask255(ctx.builder); ctx.builder.call_fn2_ret("sbb8"); ctx.builder.const_i32(0xFF); ctx.builder.and_i32(); } fn gen_sbb32(ctx: &mut JitContext, dest_operand: &WasmLocal, source_operand: &LocalOrImmediate) { ctx.builder.get_local(&dest_operand); source_operand.gen_get(ctx.builder); ctx.builder.sub_i32(); codegen::gen_getcf(ctx, ConditionNegate::False); ctx.builder.sub_i32(); let res = ctx.builder.set_new_local(); codegen::gen_set_last_result(ctx.builder, &res); codegen::gen_set_last_op_size_and_flags_changed( ctx.builder, OPSIZE_32, FLAGS_ALL & !FLAG_CARRY & !FLAG_OVERFLOW & !FLAG_ADJUST, ); ctx.builder.const_i32(global_pointers::flags as i32); codegen::gen_get_flags(ctx.builder); ctx.builder .const_i32(!FLAG_CARRY & !FLAG_ADJUST & !FLAG_OVERFLOW); ctx.builder.and_i32(); // cf: (res ^ ((res ^ source_operand) & (source_operand ^ dest_operand))) >> op_size & FLAG_CARRY ctx.builder.get_local(&res); ctx.builder.get_local(&res); source_operand.gen_get(ctx.builder); ctx.builder.xor_i32(); source_operand.gen_get(ctx.builder); ctx.builder.get_local(&dest_operand); ctx.builder.xor_i32(); ctx.builder.and_i32(); ctx.builder.xor_i32(); ctx.builder.const_i32(31); ctx.builder.shr_u_i32(); ctx.builder.const_i32(FLAG_CARRY); ctx.builder.and_i32(); ctx.builder.or_i32(); // af: (dest_operand ^ source_operand ^ res) & FLAG_ADJUST ctx.builder.get_local(&dest_operand); source_operand.gen_get(ctx.builder); ctx.builder.get_local(&res); ctx.builder.xor_i32(); ctx.builder.xor_i32(); ctx.builder.const_i32(FLAG_ADJUST); ctx.builder.and_i32(); ctx.builder.or_i32(); // of: ((source_operand ^ dest_operand) & (res ^ dest_operand)) >> op_size << 11 & FLAG_OVERFLOW source_operand.gen_get(ctx.builder); ctx.builder.get_local(&dest_operand); ctx.builder.xor_i32(); ctx.builder.get_local(&res); ctx.builder.get_local(&dest_operand); ctx.builder.xor_i32(); ctx.builder.and_i32(); ctx.builder.const_i32(31 - 11); ctx.builder.shr_u_i32(); ctx.builder.const_i32(FLAG_OVERFLOW); ctx.builder.and_i32(); ctx.builder.or_i32(); ctx.builder.store_aligned_i32(0); ctx.builder.get_local(&res); ctx.builder.set_local(dest_operand); ctx.builder.free_local(res); } fn gen_and8(ctx: &mut JitContext, dest_operand: &WasmLocal, source_operand: &LocalOrImmediate) { ctx.current_instruction = Instruction::Bitwise { opsize: OPSIZE_8, dest: local_to_instruction_operand(ctx, dest_operand), }; ctx.builder.const_i32(global_pointers::last_result as i32); ctx.builder.get_local(dest_operand); source_operand.gen_get(ctx.builder); ctx.builder.and_i32(); ctx.builder.store_aligned_i32(0); codegen::gen_set_last_op_size_and_flags_changed( ctx.builder, OPSIZE_8, FLAGS_ALL & !FLAG_CARRY & !FLAG_OVERFLOW & !FLAG_ADJUST, ); codegen::gen_clear_flags_bits(ctx.builder, FLAG_CARRY | FLAG_OVERFLOW | FLAG_ADJUST); ctx.builder .load_fixed_u8(global_pointers::last_result as u32); } fn gen_and32(ctx: &mut JitContext, dest_operand: &WasmLocal, source_operand: &LocalOrImmediate) { ctx.current_instruction = Instruction::Bitwise { opsize: OPSIZE_32, dest: local_to_instruction_operand(ctx, dest_operand), }; ctx.builder.get_local(&dest_operand); source_operand.gen_get(ctx.builder); ctx.builder.and_i32(); ctx.builder.set_local(dest_operand); codegen::gen_set_last_result(ctx.builder, &dest_operand); codegen::gen_set_last_op_size_and_flags_changed( ctx.builder, OPSIZE_32, FLAGS_ALL & !FLAG_CARRY & !FLAG_OVERFLOW & !FLAG_ADJUST, ); codegen::gen_clear_flags_bits(ctx.builder, FLAG_CARRY | FLAG_OVERFLOW | FLAG_ADJUST); } fn gen_test( ctx: &mut JitContext, dest_operand: &WasmLocal, source_operand: &LocalOrImmediate, size: i32, ) { let is_self_test = source_operand.eq_local(dest_operand); ctx.current_instruction = Instruction::Bitwise { opsize: size, dest: if is_self_test { local_to_instruction_operand(ctx, dest_operand) } else { InstructionOperandDest::Other }, }; ctx.builder.const_i32(global_pointers::last_result as i32); if is_self_test { ctx.builder.get_local(&dest_operand); } else { ctx.builder.get_local(&dest_operand); source_operand.gen_get(ctx.builder); ctx.builder.and_i32(); } ctx.builder.store_aligned_i32(0); codegen::gen_set_last_op_size_and_flags_changed( ctx.builder, size, FLAGS_ALL & !FLAG_CARRY & !FLAG_OVERFLOW & !FLAG_ADJUST, ); codegen::gen_clear_flags_bits(ctx.builder, FLAG_CARRY | FLAG_OVERFLOW | FLAG_ADJUST); } fn gen_test8(ctx: &mut JitContext, dest: &WasmLocal, source: &LocalOrImmediate) { gen_test(ctx, dest, source, OPSIZE_8) } fn gen_test16(ctx: &mut JitContext, dest: &WasmLocal, source: &LocalOrImmediate) { gen_test(ctx, dest, source, OPSIZE_16) } fn gen_test32(ctx: &mut JitContext, dest: &WasmLocal, source: &LocalOrImmediate) { gen_test(ctx, dest, source, OPSIZE_32) } fn gen_or8(ctx: &mut JitContext, dest_operand: &WasmLocal, source_operand: &LocalOrImmediate) { ctx.current_instruction = Instruction::Bitwise { opsize: OPSIZE_8, dest: local_to_instruction_operand(ctx, dest_operand), }; ctx.builder.const_i32(global_pointers::last_result as i32); ctx.builder.get_local(dest_operand); source_operand.gen_get(ctx.builder); ctx.builder.or_i32(); ctx.builder.store_aligned_i32(0); codegen::gen_set_last_op_size_and_flags_changed( ctx.builder, OPSIZE_8, FLAGS_ALL & !FLAG_CARRY & !FLAG_OVERFLOW & !FLAG_ADJUST, ); codegen::gen_clear_flags_bits(ctx.builder, FLAG_CARRY | FLAG_OVERFLOW | FLAG_ADJUST); ctx.builder .load_fixed_u8(global_pointers::last_result as u32); } fn gen_or32(ctx: &mut JitContext, dest_operand: &WasmLocal, source_operand: &LocalOrImmediate) { ctx.current_instruction = Instruction::Bitwise { opsize: OPSIZE_32, dest: local_to_instruction_operand(ctx, dest_operand), }; ctx.builder.get_local(&dest_operand); source_operand.gen_get(ctx.builder); ctx.builder.or_i32(); ctx.builder.set_local(dest_operand); codegen::gen_set_last_result(ctx.builder, &dest_operand); codegen::gen_set_last_op_size_and_flags_changed( ctx.builder, OPSIZE_32, FLAGS_ALL & !FLAG_CARRY & !FLAG_OVERFLOW & !FLAG_ADJUST, ); codegen::gen_clear_flags_bits(ctx.builder, FLAG_CARRY | FLAG_OVERFLOW | FLAG_ADJUST); } fn gen_xor8(ctx: &mut JitContext, dest_operand: &WasmLocal, source_operand: &LocalOrImmediate) { ctx.current_instruction = Instruction::Bitwise { opsize: OPSIZE_8, dest: local_to_instruction_operand(ctx, dest_operand), }; ctx.builder.const_i32(global_pointers::last_result as i32); ctx.builder.get_local(dest_operand); source_operand.gen_get(ctx.builder); ctx.builder.xor_i32(); ctx.builder.store_aligned_i32(0); codegen::gen_set_last_op_size_and_flags_changed( ctx.builder, OPSIZE_8, FLAGS_ALL & !FLAG_CARRY & !FLAG_OVERFLOW & !FLAG_ADJUST, ); codegen::gen_clear_flags_bits(ctx.builder, FLAG_CARRY | FLAG_OVERFLOW | FLAG_ADJUST); ctx.builder .load_fixed_u8(global_pointers::last_result as u32); } fn gen_xor32(ctx: &mut JitContext, dest_operand: &WasmLocal, source_operand: &LocalOrImmediate) { ctx.current_instruction = Instruction::Bitwise { opsize: OPSIZE_32, dest: local_to_instruction_operand(ctx, dest_operand), }; if source_operand.eq_local(dest_operand) { ctx.builder.const_i32(0); ctx.builder.set_local(dest_operand); // TODO: // - Set last_result to zero rather than reading from local // - Skip setting opsize (not relevant for SF, ZF, and PF on zero) } else { ctx.builder.get_local(&dest_operand); source_operand.gen_get(ctx.builder); ctx.builder.xor_i32(); ctx.builder.set_local(dest_operand); } codegen::gen_set_last_result(ctx.builder, &dest_operand); codegen::gen_set_last_op_size_and_flags_changed( ctx.builder, OPSIZE_32, FLAGS_ALL & !FLAG_CARRY & !FLAG_OVERFLOW & !FLAG_ADJUST, ); codegen::gen_clear_flags_bits(ctx.builder, FLAG_CARRY | FLAG_OVERFLOW | FLAG_ADJUST); } fn gen_rol32(ctx: &mut JitContext, dest_operand: &WasmLocal, source_operand: &LocalOrImmediate) { let builder = &mut ctx.builder; builder.get_local(dest_operand); match source_operand { LocalOrImmediate::WasmLocal(l) => { builder.get_local(l); builder.const_i32(31); builder.and_i32(); }, LocalOrImmediate::Immediate(i) => { builder.const_i32(*i & 31); }, } builder.const_i32(31); builder.and_i32(); builder.call_fn2_ret("rol32"); builder.set_local(dest_operand); } fn gen_ror32(ctx: &mut JitContext, dest_operand: &WasmLocal, source_operand: &LocalOrImmediate) { let builder = &mut ctx.builder; builder.get_local(dest_operand); match source_operand { LocalOrImmediate::WasmLocal(l) => { builder.get_local(l); builder.const_i32(31); builder.and_i32(); }, LocalOrImmediate::Immediate(i) => { builder.const_i32(*i & 31); }, } builder.const_i32(31); builder.and_i32(); builder.call_fn2_ret("ror32"); builder.set_local(dest_operand); } fn gen_rcl32(ctx: &mut JitContext, dest_operand: &WasmLocal, source_operand: &LocalOrImmediate) { let builder = &mut ctx.builder; builder.get_local(dest_operand); match source_operand { LocalOrImmediate::WasmLocal(l) => { builder.get_local(l); builder.const_i32(31); builder.and_i32(); }, LocalOrImmediate::Immediate(i) => { builder.const_i32(*i & 31); }, } builder.const_i32(31); builder.and_i32(); builder.call_fn2_ret("rcl32"); builder.set_local(dest_operand); } fn gen_rcr32(ctx: &mut JitContext, dest_operand: &WasmLocal, source_operand: &LocalOrImmediate) { let builder = &mut ctx.builder; builder.get_local(dest_operand); match source_operand { LocalOrImmediate::WasmLocal(l) => { builder.get_local(l); builder.const_i32(31); builder.and_i32(); }, LocalOrImmediate::Immediate(i) => { builder.const_i32(*i & 31); }, } builder.const_i32(31); builder.and_i32(); builder.call_fn2_ret("rcr32"); builder.set_local(dest_operand); } enum ShiftCount { Local(WasmLocal), Immediate(i32), } impl ShiftCount { pub fn gen_get(builder: &mut WasmBuilder, count: &ShiftCount) { match &count { ShiftCount::Local(l) => builder.get_local(l), ShiftCount::Immediate(i) => builder.const_i32(*i), } } pub fn gen_get_thirtytwo_minus(builder: &mut WasmBuilder, count: &ShiftCount) { match &count { ShiftCount::Local(l) => { builder.const_i32(32); builder.get_local(l); builder.sub_i32(); }, ShiftCount::Immediate(i) => builder.const_i32(32 - *i), } } pub fn gen_get_minus_one(builder: &mut WasmBuilder, count: &ShiftCount) { match &count { ShiftCount::Local(l) => { builder.get_local(l); builder.const_i32(1); builder.sub_i32() }, ShiftCount::Immediate(i) => builder.const_i32(*i - 1), } } } fn gen_shl32(ctx: &mut JitContext, dest_operand: &WasmLocal, source_operand: &LocalOrImmediate) { let builder = &mut ctx.builder; let count = match source_operand { LocalOrImmediate::WasmLocal(l) => { let exit = builder.block_void(); builder.get_local(l); builder.const_i32(31); // Note: mask can probably be avoided since wasm has the same semantics on shl_i32 builder.and_i32(); let count = builder.tee_new_local(); builder.eqz_i32(); builder.br_if(exit); ShiftCount::Local(count) }, LocalOrImmediate::Immediate(i) => { if *i & 31 == 0 { return; } ShiftCount::Immediate(*i & 31) }, }; builder.get_local(&dest_operand); ShiftCount::gen_get_thirtytwo_minus(builder, &count); builder.shr_u_i32(); builder.const_i32(1); builder.and_i32(); let b = builder.set_new_local(); builder.get_local(dest_operand); ShiftCount::gen_get(builder, &count); builder.shl_i32(); builder.set_local(dest_operand); codegen::gen_set_last_result(builder, dest_operand); codegen::gen_set_last_op_size_and_flags_changed( builder, OPSIZE_32, FLAGS_ALL & !FLAG_CARRY & !FLAG_OVERFLOW, ); builder.const_i32(global_pointers::flags as i32); codegen::gen_get_flags(builder); builder.const_i32(!(FLAG_CARRY | FLAG_OVERFLOW)); builder.and_i32(); builder.get_local(&b); builder.or_i32(); { builder.get_local(&b); builder.get_local(&dest_operand); builder.const_i32(31); builder.shr_u_i32(); builder.xor_i32(); builder.const_i32(11); builder.shl_i32(); builder.const_i32(FLAG_OVERFLOW); builder.and_i32(); builder.or_i32(); } builder.store_aligned_i32(0); builder.free_local(b); if let ShiftCount::Local(l) = count { builder.block_end(); builder.free_local(l); } } fn gen_shr32(ctx: &mut JitContext, dest_operand: &WasmLocal, source_operand: &LocalOrImmediate) { let builder = &mut ctx.builder; let count = match source_operand { LocalOrImmediate::WasmLocal(l) => { let exit = builder.block_void(); builder.get_local(l); builder.const_i32(31); // Note: mask can probably be avoided since wasm has the same semantics on shl_i32 builder.and_i32(); let count = builder.tee_new_local(); builder.eqz_i32(); builder.br_if(exit); ShiftCount::Local(count) }, LocalOrImmediate::Immediate(i) => { if *i & 31 == 0 { return; } ShiftCount::Immediate(*i & 31) }, }; builder.const_i32(global_pointers::flags as i32); codegen::gen_get_flags(builder); builder.const_i32(!(FLAG_CARRY | FLAG_OVERFLOW)); builder.and_i32(); { builder.get_local(dest_operand); ShiftCount::gen_get_minus_one(builder, &count); builder.shr_u_i32(); builder.const_i32(1); builder.and_i32(); builder.or_i32() } { builder.get_local(dest_operand); builder.const_i32(20); builder.shr_u_i32(); builder.const_i32(FLAG_OVERFLOW); builder.and_i32(); builder.or_i32() } builder.store_aligned_i32(0); builder.get_local(dest_operand); ShiftCount::gen_get(builder, &count); builder.shr_u_i32(); builder.set_local(dest_operand); codegen::gen_set_last_result(builder, dest_operand); codegen::gen_set_last_op_size_and_flags_changed( builder, OPSIZE_32, FLAGS_ALL & !FLAG_CARRY & !FLAG_OVERFLOW, ); if let ShiftCount::Local(l) = count { builder.block_end(); builder.free_local(l); } } fn gen_sar32(ctx: &mut JitContext, dest_operand: &WasmLocal, source_operand: &LocalOrImmediate) { let builder = &mut ctx.builder; let count = match source_operand { LocalOrImmediate::WasmLocal(l) => { let exit = builder.block_void(); builder.get_local(l); builder.const_i32(31); // Note: mask can probably be avoided since wasm has the same semantics on shl_i32 builder.and_i32(); let count = builder.tee_new_local(); builder.eqz_i32(); builder.br_if(exit); ShiftCount::Local(count) }, LocalOrImmediate::Immediate(i) => { if *i & 31 == 0 { return; } ShiftCount::Immediate(*i & 31) }, }; builder.const_i32(global_pointers::flags as i32); codegen::gen_get_flags(builder); builder.const_i32(!(FLAG_CARRY | FLAG_OVERFLOW)); builder.and_i32(); { builder.get_local(dest_operand); ShiftCount::gen_get_minus_one(builder, &count); builder.shr_u_i32(); builder.const_i32(1); builder.and_i32(); builder.or_i32() } builder.store_aligned_i32(0); builder.get_local(dest_operand); ShiftCount::gen_get(builder, &count); builder.shr_s_i32(); builder.set_local(dest_operand); codegen::gen_set_last_result(builder, dest_operand); codegen::gen_set_last_op_size_and_flags_changed( builder, OPSIZE_32, FLAGS_ALL & !FLAG_CARRY & !FLAG_OVERFLOW, ); if let ShiftCount::Local(l) = count { builder.block_end(); builder.free_local(l); } } fn gen_xadd32(ctx: &mut JitContext, dest_operand: &WasmLocal, r: u32) { ctx.builder.get_local(&ctx.register_locals[r as usize]); let tmp = ctx.builder.set_new_local(); ctx.builder.get_local(&dest_operand); codegen::gen_set_reg32(ctx, r); gen_add32(ctx, &dest_operand, &LocalOrImmediate::WasmLocal(&tmp)); ctx.builder.free_local(tmp); } fn gen_cmpxchg32(ctx: &mut JitContext, r: u32) { let source = ctx.builder.set_new_local(); ctx.builder.const_i32(global_pointers::last_result as i32); codegen::gen_get_reg32(ctx, regs::EAX); ctx.builder.get_local(&source); ctx.builder.sub_i32(); ctx.builder.store_aligned_i32(0); ctx.builder.const_i32(global_pointers::last_op1 as i32); codegen::gen_get_reg32(ctx, regs::EAX); ctx.builder.store_aligned_i32(0); codegen::gen_set_last_op_size_and_flags_changed(ctx.builder, OPSIZE_32, FLAGS_ALL | FLAG_SUB); codegen::gen_get_reg32(ctx, regs::EAX); ctx.builder.get_local(&source); ctx.builder.eq_i32(); ctx.builder.if_i32(); codegen::gen_get_reg32(ctx, r); ctx.builder.else_(); ctx.builder.get_local(&source); codegen::gen_set_reg32(ctx, regs::EAX); ctx.builder.get_local(&source); ctx.builder.block_end(); ctx.builder.free_local(source); } fn gen_mul32(ctx: &mut JitContext) { ctx.builder.extend_unsigned_i32_to_i64(); codegen::gen_get_reg32(ctx, regs::EAX); ctx.builder.extend_unsigned_i32_to_i64(); ctx.builder.mul_i64(); let result = ctx.builder.tee_new_local_i64(); ctx.builder.const_i64(32); ctx.builder.shr_u_i64(); ctx.builder.wrap_i64_to_i32(); codegen::gen_set_reg32(ctx, regs::EDX); ctx.builder.get_local_i64(&result); ctx.builder.free_local_i64(result); ctx.builder.wrap_i64_to_i32(); codegen::gen_set_reg32(ctx, regs::EAX); codegen::gen_get_reg32(ctx, regs::EDX); ctx.builder.if_void(); codegen::gen_set_flags_bits(ctx.builder, 1 | FLAG_OVERFLOW); ctx.builder.else_(); codegen::gen_clear_flags_bits(ctx.builder, 1 | FLAG_OVERFLOW); ctx.builder.block_end(); codegen::gen_set_last_result(ctx.builder, &ctx.register_locals[regs::EAX as usize]); codegen::gen_set_last_op_size_and_flags_changed( ctx.builder, OPSIZE_32, FLAGS_ALL & !1 & !FLAG_OVERFLOW, ); } fn gen_imul32(ctx: &mut JitContext) { ctx.builder.extend_signed_i32_to_i64(); codegen::gen_get_reg32(ctx, regs::EAX); ctx.builder.extend_signed_i32_to_i64(); ctx.builder.mul_i64(); let result = ctx.builder.tee_new_local_i64(); ctx.builder.const_i64(32); ctx.builder.shr_u_i64(); ctx.builder.wrap_i64_to_i32(); codegen::gen_set_reg32(ctx, regs::EDX); ctx.builder.get_local_i64(&result); ctx.builder.free_local_i64(result); ctx.builder.wrap_i64_to_i32(); codegen::gen_set_reg32(ctx, regs::EAX); codegen::gen_get_reg32(ctx, regs::EDX); codegen::gen_get_reg32(ctx, regs::EAX); ctx.builder.const_i32(31); ctx.builder.shr_s_i32(); ctx.builder.eq_i32(); ctx.builder.if_void(); codegen::gen_clear_flags_bits(ctx.builder, 1 | FLAG_OVERFLOW); ctx.builder.else_(); codegen::gen_set_flags_bits(ctx.builder, 1 | FLAG_OVERFLOW); ctx.builder.block_end(); codegen::gen_set_last_result(ctx.builder, &ctx.register_locals[regs::EAX as usize]); codegen::gen_set_last_op_size_and_flags_changed( ctx.builder, OPSIZE_32, FLAGS_ALL & !1 & !FLAG_OVERFLOW, ); } fn gen_imul_reg32( ctx: &mut JitContext, dest_operand: &WasmLocal, source_operand: &LocalOrImmediate, ) { gen_imul3_reg32(ctx.builder, dest_operand, dest_operand, source_operand); } fn gen_imul3_reg32( builder: &mut WasmBuilder, dest_operand: &WasmLocal, source_operand1: &WasmLocal, source_operand2: &LocalOrImmediate, ) { builder.get_local(&source_operand1); builder.extend_signed_i32_to_i64(); source_operand2.gen_get(builder); builder.extend_signed_i32_to_i64(); builder.mul_i64(); let result = builder.tee_new_local_i64(); builder.wrap_i64_to_i32(); builder.set_local(&dest_operand); codegen::gen_set_last_result(builder, &dest_operand); codegen::gen_set_last_op_size_and_flags_changed( builder, OPSIZE_32, FLAGS_ALL & !1 & !FLAG_OVERFLOW, ); builder.const_i32(global_pointers::flags as i32); builder.get_local_i64(&result); builder.wrap_i64_to_i32(); builder.extend_signed_i32_to_i64(); builder.get_local_i64(&result); builder.ne_i64(); builder.const_i32(1 | FLAG_OVERFLOW); builder.mul_i32(); codegen::gen_get_flags(builder); builder.const_i32(!1 & !FLAG_OVERFLOW); builder.and_i32(); builder.or_i32(); builder.store_aligned_i32(0); builder.free_local_i64(result); } fn gen_div32(ctx: &mut JitContext, source: &WasmLocal) { let done = ctx.builder.block_void(); { let exception = ctx.builder.block_void(); { ctx.builder.get_local(source); ctx.builder.eqz_i32(); ctx.builder.br_if(exception); codegen::gen_get_reg32(ctx, regs::EDX); ctx.builder.extend_unsigned_i32_to_i64(); ctx.builder.const_i64(32); ctx.builder.shl_i64(); codegen::gen_get_reg32(ctx, regs::EAX); ctx.builder.extend_unsigned_i32_to_i64(); ctx.builder.or_i64(); let dest_operand = ctx.builder.tee_new_local_i64(); ctx.builder.get_local(source); ctx.builder.extend_unsigned_i32_to_i64(); ctx.builder.div_i64(); let result = ctx.builder.tee_new_local_i64(); ctx.builder.const_i64(0xFFFF_FFFF); ctx.builder.gtu_i64(); ctx.builder.br_if(exception); ctx.builder.get_local_i64(&dest_operand); ctx.builder.get_local(source); ctx.builder.extend_unsigned_i32_to_i64(); ctx.builder.rem_i64(); ctx.builder.wrap_i64_to_i32(); codegen::gen_set_reg32(ctx, regs::EDX); ctx.builder.get_local_i64(&result); ctx.builder.wrap_i64_to_i32(); codegen::gen_set_reg32(ctx, regs::EAX); ctx.builder.br(done); ctx.builder.free_local_i64(dest_operand); ctx.builder.free_local_i64(result); } ctx.builder.block_end(); codegen::gen_trigger_de(ctx); } ctx.builder.block_end(); } fn gen_bt( builder: &mut WasmBuilder, bit_base: &WasmLocal, bit_offset: &LocalOrImmediate, offset_mask: u32, ) { builder.const_i32(global_pointers::flags as i32); codegen::gen_get_flags(builder); builder.const_i32(!1); builder.and_i32(); builder.get_local(bit_base); match bit_offset { LocalOrImmediate::WasmLocal(l) => { builder.get_local(l); builder.const_i32(offset_mask as i32); builder.and_i32(); }, LocalOrImmediate::Immediate(imm) => builder.const_i32(imm & offset_mask as i32), } builder.shr_u_i32(); builder.const_i32(1); builder.and_i32(); builder.or_i32(); builder.store_aligned_i32(0); codegen::gen_clear_flags_changed_bits(builder, 1); } fn gen_bts( builder: &mut WasmBuilder, dest_bit_base: &WasmLocal, bit_offset: &LocalOrImmediate, offset_mask: u32, ) { gen_bt(builder, dest_bit_base, bit_offset, offset_mask); builder.get_local(dest_bit_base); match bit_offset { LocalOrImmediate::WasmLocal(l) => { builder.const_i32(1); builder.get_local(l); builder.const_i32(offset_mask as i32); builder.and_i32(); builder.shl_i32(); }, LocalOrImmediate::Immediate(imm) => builder.const_i32(1 << (imm & offset_mask as i32)), } builder.or_i32(); builder.set_local(dest_bit_base); } fn gen_btc( builder: &mut WasmBuilder, dest_bit_base: &WasmLocal, bit_offset: &LocalOrImmediate, offset_mask: u32, ) { gen_bt(builder, dest_bit_base, bit_offset, offset_mask); builder.get_local(dest_bit_base); match bit_offset { LocalOrImmediate::WasmLocal(l) => { builder.const_i32(1); builder.get_local(l); builder.const_i32(offset_mask as i32); builder.and_i32(); builder.shl_i32(); }, LocalOrImmediate::Immediate(imm) => builder.const_i32(1 << (imm & offset_mask as i32)), } builder.xor_i32(); builder.set_local(dest_bit_base); } fn gen_btr( builder: &mut WasmBuilder, dest_bit_base: &WasmLocal, bit_offset: &LocalOrImmediate, offset_mask: u32, ) { gen_bt(builder, dest_bit_base, bit_offset, offset_mask); builder.get_local(dest_bit_base); match bit_offset { LocalOrImmediate::WasmLocal(l) => { builder.const_i32(1); builder.get_local(l); builder.const_i32(offset_mask as i32); builder.and_i32(); builder.shl_i32(); builder.const_i32(-1); builder.xor_i32(); }, LocalOrImmediate::Immediate(imm) => builder.const_i32(!(1 << (imm & offset_mask as i32))), } builder.and_i32(); builder.set_local(dest_bit_base); } fn gen_bit_rmw( ctx: &mut JitContext, modrm_byte: ModrmByte, op: &dyn Fn(&mut WasmBuilder, &WasmLocal, &LocalOrImmediate, u32), source_operand: &LocalOrImmediate, opsize: i32, ) { dbg_assert!(opsize == 16 || opsize == 32); codegen::gen_modrm_resolve(ctx, modrm_byte); match source_operand { LocalOrImmediate::WasmLocal(l) => { ctx.builder.get_local(l); if opsize == 16 { codegen::sign_extend_i16(ctx.builder); } ctx.builder.const_i32(3); ctx.builder.shr_s_i32(); ctx.builder.add_i32(); }, &LocalOrImmediate::Immediate(imm8) => { let offset = (imm8 as i32 & (opsize - 1)) >> 3; if offset != 0 { ctx.builder.const_i32(offset); ctx.builder.add_i32(); } }, } let address_local = ctx.builder.set_new_local(); codegen::gen_safe_read_write(ctx, BitSize::BYTE, &address_local, &|ref mut ctx| { let value_local = ctx.builder.set_new_local(); op(ctx.builder, &value_local, source_operand, 7); ctx.builder.get_local(&value_local); ctx.builder.free_local(value_local); }); ctx.builder.free_local(address_local); } fn gen_bsf32(ctx: &mut JitContext, dest_operand: &WasmLocal, source_operand: &LocalOrImmediate) { ctx.builder.get_local(&dest_operand); source_operand.gen_get(ctx.builder); ctx.builder.call_fn2_ret("bsf32"); ctx.builder.set_local(dest_operand); } fn gen_bsr32(ctx: &mut JitContext, dest_operand: &WasmLocal, source_operand: &LocalOrImmediate) { ctx.builder.get_local(&dest_operand); source_operand.gen_get(ctx.builder); ctx.builder.call_fn2_ret("bsr32"); ctx.builder.set_local(dest_operand); } fn gen_bswap(ctx: &mut JitContext, reg: i32) { let l = &ctx.register_locals[reg as usize]; ctx.builder.get_local(l); ctx.builder.const_i32(8); ctx.builder.rotl_i32(); ctx.builder.const_i32(0xFF00FF); ctx.builder.and_i32(); ctx.builder.get_local(l); ctx.builder.const_i32(24); ctx.builder.rotl_i32(); ctx.builder.const_i32(0xFF00FF00u32 as i32); ctx.builder.and_i32(); ctx.builder.or_i32(); ctx.builder.set_local(l); } define_instruction_read_write_mem8!(gen_add8, instr_00_mem_jit, instr_00_reg_jit, reg); define_instruction_read_write_mem16!("add16", instr16_01_mem_jit, instr16_01_reg_jit, reg); define_instruction_read_write_mem32!(gen_add32, instr32_01_mem_jit, instr32_01_reg_jit, reg); define_instruction_write_reg8!(gen_add8, instr_02_mem_jit, instr_02_reg_jit); define_instruction_write_reg16!("add16", instr16_03_mem_jit, instr16_03_reg_jit); define_instruction_write_reg32!(gen_add32, instr32_03_mem_jit, instr32_03_reg_jit); pub fn instr_04_jit(ctx: &mut JitContext, imm8: u32) { group_arith_al_imm8(ctx, &gen_add8, imm8); } pub fn instr16_05_jit(ctx: &mut JitContext, imm16: u32) { group_arith_ax_imm16(ctx, "add16", imm16); } pub fn instr32_05_jit(ctx: &mut JitContext, imm32: u32) { group_arith_eax_imm32(ctx, &gen_add32, imm32); } define_instruction_read_write_mem8!(gen_or8, instr_08_mem_jit, instr_08_reg_jit, reg); define_instruction_read_write_mem16!("or16", instr16_09_mem_jit, instr16_09_reg_jit, reg); define_instruction_read_write_mem32!(gen_or32, instr32_09_mem_jit, instr32_09_reg_jit, reg); define_instruction_write_reg8!(gen_or8, instr_0A_mem_jit, instr_0A_reg_jit); define_instruction_write_reg16!("or16", instr16_0B_mem_jit, instr16_0B_reg_jit); define_instruction_write_reg32!(gen_or32, instr32_0B_mem_jit, instr32_0B_reg_jit); pub fn instr_0C_jit(ctx: &mut JitContext, imm8: u32) { group_arith_al_imm8(ctx, &gen_or8, imm8); } pub fn instr16_0D_jit(ctx: &mut JitContext, imm16: u32) { group_arith_ax_imm16(ctx, "or16", imm16); } pub fn instr32_0D_jit(ctx: &mut JitContext, imm32: u32) { group_arith_eax_imm32(ctx, &gen_or32, imm32); } define_instruction_read_write_mem8!(gen_adc8, instr_10_mem_jit, instr_10_reg_jit, reg); define_instruction_read_write_mem16!("adc16", instr16_11_mem_jit, instr16_11_reg_jit, reg); define_instruction_read_write_mem32!(gen_adc32, instr32_11_mem_jit, instr32_11_reg_jit, reg); define_instruction_write_reg8!(gen_adc8, instr_12_mem_jit, instr_12_reg_jit); define_instruction_write_reg16!("adc16", instr16_13_mem_jit, instr16_13_reg_jit); define_instruction_write_reg32!(gen_adc32, instr32_13_mem_jit, instr32_13_reg_jit); pub fn instr_14_jit(ctx: &mut JitContext, imm8: u32) { group_arith_al_imm8(ctx, &gen_adc8, imm8); } pub fn instr16_15_jit(ctx: &mut JitContext, imm16: u32) { group_arith_ax_imm16(ctx, "adc16", imm16); } pub fn instr32_15_jit(ctx: &mut JitContext, imm32: u32) { group_arith_eax_imm32(ctx, &gen_adc32, imm32); } define_instruction_read_write_mem8!(gen_sbb8, instr_18_mem_jit, instr_18_reg_jit, reg); define_instruction_read_write_mem16!("sbb16", instr16_19_mem_jit, instr16_19_reg_jit, reg); define_instruction_read_write_mem32!(gen_sbb32, instr32_19_mem_jit, instr32_19_reg_jit, reg); define_instruction_write_reg8!(gen_sbb8, instr_1A_mem_jit, instr_1A_reg_jit); define_instruction_write_reg16!("sbb16", instr16_1B_mem_jit, instr16_1B_reg_jit); define_instruction_write_reg32!(gen_sbb32, instr32_1B_mem_jit, instr32_1B_reg_jit); pub fn instr_1C_jit(ctx: &mut JitContext, imm8: u32) { group_arith_al_imm8(ctx, &gen_sbb8, imm8); } pub fn instr16_1D_jit(ctx: &mut JitContext, imm16: u32) { group_arith_ax_imm16(ctx, "sbb16", imm16); } pub fn instr32_1D_jit(ctx: &mut JitContext, imm32: u32) { group_arith_eax_imm32(ctx, &gen_sbb32, imm32); } define_instruction_read_write_mem8!(gen_and8, instr_20_mem_jit, instr_20_reg_jit, reg); define_instruction_read_write_mem16!("and16", instr16_21_mem_jit, instr16_21_reg_jit, reg); define_instruction_read_write_mem32!(gen_and32, instr32_21_mem_jit, instr32_21_reg_jit, reg); define_instruction_write_reg8!(gen_and8, instr_22_mem_jit, instr_22_reg_jit); define_instruction_write_reg16!("and16", instr16_23_mem_jit, instr16_23_reg_jit); define_instruction_write_reg32!(gen_and32, instr32_23_mem_jit, instr32_23_reg_jit); pub fn instr_24_jit(ctx: &mut JitContext, imm8: u32) { group_arith_al_imm8(ctx, &gen_and8, imm8); } pub fn instr16_25_jit(ctx: &mut JitContext, imm16: u32) { group_arith_ax_imm16(ctx, "and16", imm16); } pub fn instr32_25_jit(ctx: &mut JitContext, imm32: u32) { group_arith_eax_imm32(ctx, &gen_and32, imm32); } define_instruction_read_write_mem8!(gen_sub8, instr_28_mem_jit, instr_28_reg_jit, reg); define_instruction_read_write_mem16!("sub16", instr16_29_mem_jit, instr16_29_reg_jit, reg); define_instruction_read_write_mem32!(gen_sub32, instr32_29_mem_jit, instr32_29_reg_jit, reg); define_instruction_write_reg8!(gen_sub8, instr_2A_mem_jit, instr_2A_reg_jit); define_instruction_write_reg16!("sub16", instr16_2B_mem_jit, instr16_2B_reg_jit); define_instruction_write_reg32!(gen_sub32, instr32_2B_mem_jit, instr32_2B_reg_jit); pub fn instr_2C_jit(ctx: &mut JitContext, imm8: u32) { group_arith_al_imm8(ctx, &gen_sub8, imm8); } pub fn instr16_2D_jit(ctx: &mut JitContext, imm16: u32) { group_arith_ax_imm16(ctx, "sub16", imm16); } pub fn instr32_2D_jit(ctx: &mut JitContext, imm32: u32) { group_arith_eax_imm32(ctx, &gen_sub32, imm32); } define_instruction_read_write_mem8!(gen_xor8, instr_30_mem_jit, instr_30_reg_jit, reg); define_instruction_read_write_mem16!("xor16", instr16_31_mem_jit, instr16_31_reg_jit, reg); define_instruction_read_write_mem32!(gen_xor32, instr32_31_mem_jit, instr32_31_reg_jit, reg); define_instruction_write_reg8!(gen_xor8, instr_32_mem_jit, instr_32_reg_jit); define_instruction_write_reg16!("xor16", instr16_33_mem_jit, instr16_33_reg_jit); define_instruction_write_reg32!(gen_xor32, instr32_33_mem_jit, instr32_33_reg_jit); pub fn instr_34_jit(ctx: &mut JitContext, imm8: u32) { group_arith_al_imm8(ctx, &gen_xor8, imm8); } pub fn instr16_35_jit(ctx: &mut JitContext, imm16: u32) { group_arith_ax_imm16(ctx, "xor16", imm16); } pub fn instr32_35_jit(ctx: &mut JitContext, imm32: u32) { group_arith_eax_imm32(ctx, &gen_xor32, imm32); } define_instruction_read8!(gen_cmp8, instr_38_mem_jit, instr_38_reg_jit); define_instruction_read16!(gen_cmp16, instr16_39_mem_jit, instr16_39_reg_jit); define_instruction_read32!(gen_cmp32, instr32_39_mem_jit, instr32_39_reg_jit); pub fn instr_3A_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte, r: u32) { let dest_operand = codegen::gen_get_reg8_or_alias_to_reg32(ctx, r); codegen::gen_modrm_resolve_safe_read8(ctx, modrm_byte); let source_operand = ctx.builder.set_new_local(); gen_cmp8( ctx, &dest_operand, &LocalOrImmediate::WasmLocal(&source_operand), ); codegen::gen_free_reg8_or_alias(ctx, r, dest_operand); ctx.builder.free_local(source_operand); } pub fn instr_3A_reg_jit(ctx: &mut JitContext, r1: u32, r2: u32) { let dest_operand = codegen::gen_get_reg8_or_alias_to_reg32(ctx, r2); let source_operand = codegen::gen_get_reg8_or_alias_to_reg32(ctx, r1); gen_cmp8( ctx, &dest_operand, &LocalOrImmediate::WasmLocal(&source_operand), ); codegen::gen_free_reg8_or_alias(ctx, r2, dest_operand); codegen::gen_free_reg8_or_alias(ctx, r1, source_operand); } pub fn instr16_3B_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte, r: u32) { codegen::gen_modrm_resolve_safe_read16(ctx, modrm_byte); let source_operand = ctx.builder.set_new_local(); gen_cmp16( ctx, &ctx.reg(r), &LocalOrImmediate::WasmLocal(&source_operand), ); ctx.builder.free_local(source_operand); } pub fn instr16_3B_reg_jit(ctx: &mut JitContext, r1: u32, r2: u32) { gen_cmp16( ctx, &ctx.reg(r2), &LocalOrImmediate::WasmLocal(&ctx.reg(r1)), ); } pub fn instr32_3B_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte, r: u32) { codegen::gen_modrm_resolve_safe_read32(ctx, modrm_byte); let source_operand = ctx.builder.set_new_local(); gen_cmp32( ctx, &ctx.reg(r), &LocalOrImmediate::WasmLocal(&source_operand), ); ctx.builder.free_local(source_operand); } pub fn instr32_3B_reg_jit(ctx: &mut JitContext, r1: u32, r2: u32) { gen_cmp32( ctx, &ctx.reg(r2), &LocalOrImmediate::WasmLocal(&ctx.reg(r1)), ); } pub fn instr_3C_jit(ctx: &mut JitContext, imm8: u32) { gen_cmp8(ctx, &ctx.reg(0), &LocalOrImmediate::Immediate(imm8 as i32)); } pub fn instr16_3D_jit(ctx: &mut JitContext, imm16: u32) { gen_cmp16(ctx, &ctx.reg(0), &LocalOrImmediate::Immediate(imm16 as i32)); } pub fn instr32_3D_jit(ctx: &mut JitContext, imm32: u32) { gen_cmp32(ctx, &ctx.reg(0), &LocalOrImmediate::Immediate(imm32 as i32)); } fn gen_inc(ctx: &mut JitContext, dest_operand: &WasmLocal, size: i32) { ctx.builder.const_i32(global_pointers::flags as i32); codegen::gen_get_flags(ctx.builder); ctx.builder.const_i32(!1); ctx.builder.and_i32(); codegen::gen_getcf(ctx, ConditionNegate::False); ctx.builder.or_i32(); ctx.builder.store_aligned_i32(0); ctx.builder.const_i32(global_pointers::last_op1 as i32); ctx.builder.get_local(&dest_operand); if size == OPSIZE_8 || size == OPSIZE_16 { ctx.builder .const_i32(if size == OPSIZE_8 { 0xFF } else { 0xFFFF }); ctx.builder.and_i32(); } ctx.builder.store_aligned_i32(0); ctx.builder.get_local(dest_operand); ctx.builder.const_i32(1); ctx.builder.add_i32(); if size == OPSIZE_16 { codegen::gen_set_reg16_local(ctx.builder, dest_operand); } else { ctx.builder.set_local(dest_operand); } ctx.builder.const_i32(global_pointers::last_result as i32); ctx.builder.get_local(&dest_operand); if size == OPSIZE_16 { ctx.builder.const_i32(0xFFFF); ctx.builder.and_i32(); } ctx.builder.store_aligned_i32(0); codegen::gen_set_last_op_size_and_flags_changed(ctx.builder, size, FLAGS_ALL & !1); ctx.current_instruction = Instruction::Add { opsize: size, dest: local_to_instruction_operand(ctx, dest_operand), source: InstructionOperand::Immediate(1), is_inc: true, }; } fn gen_inc16(ctx: &mut JitContext, dest_operand: &WasmLocal) { gen_inc(ctx, dest_operand, OPSIZE_16); } fn gen_inc32(ctx: &mut JitContext, dest_operand: &WasmLocal) { gen_inc(ctx, dest_operand, OPSIZE_32); } fn gen_dec(ctx: &mut JitContext, dest_operand: &WasmLocal, size: i32) { ctx.builder.const_i32(global_pointers::flags as i32); codegen::gen_get_flags(ctx.builder); ctx.builder.const_i32(!1); ctx.builder.and_i32(); codegen::gen_getcf(ctx, ConditionNegate::False); ctx.builder.or_i32(); ctx.builder.store_aligned_i32(0); ctx.builder.const_i32(global_pointers::last_op1 as i32); ctx.builder.get_local(&dest_operand); if size == OPSIZE_8 || size == OPSIZE_16 { ctx.builder .const_i32(if size == OPSIZE_8 { 0xFF } else { 0xFFFF }); ctx.builder.and_i32(); } ctx.builder.store_aligned_i32(0); ctx.builder.get_local(dest_operand); ctx.builder.const_i32(1); ctx.builder.sub_i32(); if size == OPSIZE_16 { codegen::gen_set_reg16_local(ctx.builder, dest_operand); } else { ctx.builder.set_local(dest_operand); } ctx.builder.const_i32(global_pointers::last_result as i32); ctx.builder.get_local(&dest_operand); if size == OPSIZE_16 { ctx.builder.const_i32(0xFFFF); ctx.builder.and_i32(); } ctx.builder.store_aligned_i32(0); codegen::gen_set_last_op_size_and_flags_changed(ctx.builder, size, FLAGS_ALL & !1 | FLAG_SUB); ctx.current_instruction = Instruction::Sub { opsize: size, dest: local_to_instruction_operand(ctx, dest_operand), source: InstructionOperand::Immediate(1), is_dec: true, }; } fn gen_dec16(ctx: &mut JitContext, dest_operand: &WasmLocal) { gen_dec(ctx, dest_operand, OPSIZE_16) } fn gen_dec32(ctx: &mut JitContext, dest_operand: &WasmLocal) { gen_dec(ctx, dest_operand, OPSIZE_32) } fn gen_inc16_r(ctx: &mut JitContext, r: u32) { gen_inc16(ctx, &mut ctx.reg(r)) } fn gen_inc32_r(ctx: &mut JitContext, r: u32) { gen_inc32(ctx, &mut ctx.reg(r)) } fn gen_dec16_r(ctx: &mut JitContext, r: u32) { gen_dec16(ctx, &mut ctx.reg(r)) } fn gen_dec32_r(ctx: &mut JitContext, r: u32) { gen_dec32(ctx, &mut ctx.reg(r)) } fn gen_not16(ctx: &mut JitContext, dest_operand: &WasmLocal) { let builder = &mut ctx.builder; builder.get_local(dest_operand); builder.const_i32(-1); builder.xor_i32(); codegen::gen_set_reg16_local(builder, dest_operand); } fn gen_not32(ctx: &mut JitContext, dest_operand: &WasmLocal) { let builder = &mut ctx.builder; builder.get_local(dest_operand); builder.const_i32(-1); builder.xor_i32(); builder.set_local(dest_operand); } fn gen_neg16(ctx: &mut JitContext, dest_operand: &WasmLocal) { let builder = &mut ctx.builder; builder.get_local(dest_operand); builder.call_fn1_ret("neg16"); codegen::gen_set_reg16_local(builder, dest_operand); } fn gen_neg32(ctx: &mut JitContext, dest_operand: &WasmLocal) { let builder = &mut ctx.builder; builder.const_i32(global_pointers::last_op1 as i32); builder.const_i32(0); builder.store_aligned_i32(0); builder.const_i32(0); builder.get_local(&dest_operand); builder.sub_i32(); builder.set_local(dest_operand); codegen::gen_set_last_result(builder, &dest_operand); codegen::gen_set_last_op_size_and_flags_changed(builder, OPSIZE_32, FLAGS_ALL | FLAG_SUB); } pub fn instr16_06_jit(ctx: &mut JitContext) { codegen::gen_get_sreg(ctx, regs::ES); let sreg = ctx.builder.set_new_local(); codegen::gen_push16(ctx, &sreg); ctx.builder.free_local(sreg); } pub fn instr32_06_jit(ctx: &mut JitContext) { codegen::gen_get_sreg(ctx, regs::ES); let sreg = ctx.builder.set_new_local(); codegen::gen_push32(ctx, &sreg); ctx.builder.free_local(sreg); } pub fn instr16_0E_jit(ctx: &mut JitContext) { codegen::gen_get_sreg(ctx, regs::CS); let sreg = ctx.builder.set_new_local(); codegen::gen_push16(ctx, &sreg); ctx.builder.free_local(sreg); } pub fn instr32_0E_jit(ctx: &mut JitContext) { codegen::gen_get_sreg(ctx, regs::CS); let sreg = ctx.builder.set_new_local(); codegen::gen_push32(ctx, &sreg); ctx.builder.free_local(sreg); } pub fn instr16_16_jit(ctx: &mut JitContext) { codegen::gen_get_sreg(ctx, regs::SS); let sreg = ctx.builder.set_new_local(); codegen::gen_push16(ctx, &sreg); ctx.builder.free_local(sreg); } pub fn instr32_16_jit(ctx: &mut JitContext) { codegen::gen_get_sreg(ctx, regs::SS); let sreg = ctx.builder.set_new_local(); codegen::gen_push32(ctx, &sreg); ctx.builder.free_local(sreg); } pub fn instr16_1E_jit(ctx: &mut JitContext) { codegen::gen_get_sreg(ctx, regs::DS); let sreg = ctx.builder.set_new_local(); codegen::gen_push16(ctx, &sreg); ctx.builder.free_local(sreg); } pub fn instr32_1E_jit(ctx: &mut JitContext) { codegen::gen_get_sreg(ctx, regs::DS); let sreg = ctx.builder.set_new_local(); codegen::gen_push32(ctx, &sreg); ctx.builder.free_local(sreg); } pub fn instr16_40_jit(ctx: &mut JitContext) { gen_inc16_r(ctx, AX); } pub fn instr32_40_jit(ctx: &mut JitContext) { gen_inc32_r(ctx, EAX); } pub fn instr16_41_jit(ctx: &mut JitContext) { gen_inc16_r(ctx, CX); } pub fn instr32_41_jit(ctx: &mut JitContext) { gen_inc32_r(ctx, ECX); } pub fn instr16_42_jit(ctx: &mut JitContext) { gen_inc16_r(ctx, DX); } pub fn instr32_42_jit(ctx: &mut JitContext) { gen_inc32_r(ctx, EDX); } pub fn instr16_43_jit(ctx: &mut JitContext) { gen_inc16_r(ctx, BX); } pub fn instr32_43_jit(ctx: &mut JitContext) { gen_inc32_r(ctx, EBX); } pub fn instr16_44_jit(ctx: &mut JitContext) { gen_inc16_r(ctx, SP); } pub fn instr32_44_jit(ctx: &mut JitContext) { gen_inc32_r(ctx, ESP); } pub fn instr16_45_jit(ctx: &mut JitContext) { gen_inc16_r(ctx, BP); } pub fn instr32_45_jit(ctx: &mut JitContext) { gen_inc32_r(ctx, EBP); } pub fn instr16_46_jit(ctx: &mut JitContext) { gen_inc16_r(ctx, SI); } pub fn instr32_46_jit(ctx: &mut JitContext) { gen_inc32_r(ctx, ESI); } pub fn instr16_47_jit(ctx: &mut JitContext) { gen_inc16_r(ctx, DI); } pub fn instr32_47_jit(ctx: &mut JitContext) { gen_inc32_r(ctx, EDI); } pub fn instr16_48_jit(ctx: &mut JitContext) { gen_dec16_r(ctx, AX); } pub fn instr32_48_jit(ctx: &mut JitContext) { gen_dec32_r(ctx, EAX); } pub fn instr16_49_jit(ctx: &mut JitContext) { gen_dec16_r(ctx, CX); } pub fn instr32_49_jit(ctx: &mut JitContext) { gen_dec32_r(ctx, ECX); } pub fn instr16_4A_jit(ctx: &mut JitContext) { gen_dec16_r(ctx, DX); } pub fn instr32_4A_jit(ctx: &mut JitContext) { gen_dec32_r(ctx, EDX); } pub fn instr16_4B_jit(ctx: &mut JitContext) { gen_dec16_r(ctx, BX); } pub fn instr32_4B_jit(ctx: &mut JitContext) { gen_dec32_r(ctx, EBX); } pub fn instr16_4C_jit(ctx: &mut JitContext) { gen_dec16_r(ctx, SP); } pub fn instr32_4C_jit(ctx: &mut JitContext) { gen_dec32_r(ctx, ESP); } pub fn instr16_4D_jit(ctx: &mut JitContext) { gen_dec16_r(ctx, BP); } pub fn instr32_4D_jit(ctx: &mut JitContext) { gen_dec32_r(ctx, EBP); } pub fn instr16_4E_jit(ctx: &mut JitContext) { gen_dec16_r(ctx, SI); } pub fn instr32_4E_jit(ctx: &mut JitContext) { gen_dec32_r(ctx, ESI); } pub fn instr16_4F_jit(ctx: &mut JitContext) { gen_dec16_r(ctx, DI); } pub fn instr32_4F_jit(ctx: &mut JitContext) { gen_dec32_r(ctx, EDI); } pub fn instr16_50_jit(ctx: &mut JitContext) { push16_reg_jit(ctx, AX); } pub fn instr32_50_jit(ctx: &mut JitContext) { push32_reg_jit(ctx, EAX); } pub fn instr16_51_jit(ctx: &mut JitContext) { push16_reg_jit(ctx, CX); } pub fn instr32_51_jit(ctx: &mut JitContext) { push32_reg_jit(ctx, ECX); } pub fn instr16_52_jit(ctx: &mut JitContext) { push16_reg_jit(ctx, DX); } pub fn instr32_52_jit(ctx: &mut JitContext) { push32_reg_jit(ctx, EDX); } pub fn instr16_53_jit(ctx: &mut JitContext) { push16_reg_jit(ctx, BX); } pub fn instr32_53_jit(ctx: &mut JitContext) { push32_reg_jit(ctx, EBX); } pub fn instr16_54_jit(ctx: &mut JitContext) { push16_reg_jit(ctx, SP); } pub fn instr32_54_jit(ctx: &mut JitContext) { push32_reg_jit(ctx, ESP); } pub fn instr16_55_jit(ctx: &mut JitContext) { push16_reg_jit(ctx, BP); } pub fn instr32_55_jit(ctx: &mut JitContext) { push32_reg_jit(ctx, EBP); } pub fn instr16_56_jit(ctx: &mut JitContext) { push16_reg_jit(ctx, SI); } pub fn instr32_56_jit(ctx: &mut JitContext) { push32_reg_jit(ctx, ESI); } pub fn instr16_57_jit(ctx: &mut JitContext) { push16_reg_jit(ctx, DI); } pub fn instr32_57_jit(ctx: &mut JitContext) { push32_reg_jit(ctx, EDI); } pub fn instr16_58_jit(ctx: &mut JitContext) { pop16_reg_jit(ctx, AX); } pub fn instr32_58_jit(ctx: &mut JitContext) { pop32_reg_jit(ctx, EAX); } pub fn instr16_59_jit(ctx: &mut JitContext) { pop16_reg_jit(ctx, CX); } pub fn instr32_59_jit(ctx: &mut JitContext) { pop32_reg_jit(ctx, ECX); } pub fn instr16_5A_jit(ctx: &mut JitContext) { pop16_reg_jit(ctx, DX); } pub fn instr32_5A_jit(ctx: &mut JitContext) { pop32_reg_jit(ctx, EDX); } pub fn instr16_5B_jit(ctx: &mut JitContext) { pop16_reg_jit(ctx, BX); } pub fn instr32_5B_jit(ctx: &mut JitContext) { pop32_reg_jit(ctx, EBX); } pub fn instr16_5C_jit(ctx: &mut JitContext) { pop16_reg_jit(ctx, SP); } pub fn instr32_5C_jit(ctx: &mut JitContext) { pop32_reg_jit(ctx, ESP); } pub fn instr16_5D_jit(ctx: &mut JitContext) { pop16_reg_jit(ctx, BP); } pub fn instr32_5D_jit(ctx: &mut JitContext) { pop32_reg_jit(ctx, EBP); } pub fn instr16_5E_jit(ctx: &mut JitContext) { pop16_reg_jit(ctx, SI); } pub fn instr32_5E_jit(ctx: &mut JitContext) { pop32_reg_jit(ctx, ESI); } pub fn instr16_5F_jit(ctx: &mut JitContext) { pop16_reg_jit(ctx, DI); } pub fn instr32_5F_jit(ctx: &mut JitContext) { pop32_reg_jit(ctx, EDI); } pub fn instr16_68_jit(ctx: &mut JitContext, imm16: u32) { push16_imm_jit(ctx, imm16) } pub fn instr32_68_jit(ctx: &mut JitContext, imm32: u32) { push32_imm_jit(ctx, imm32) } pub fn instr16_6A_jit(ctx: &mut JitContext, imm16: u32) { push16_imm_jit(ctx, imm16) } pub fn instr32_6A_jit(ctx: &mut JitContext, imm32: u32) { push32_imm_jit(ctx, imm32) } pub fn instr16_69_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte, r: u32, imm16: u32) { codegen::gen_modrm_resolve_safe_read16(ctx, modrm_byte); ctx.builder.const_i32(imm16 as i32); ctx.builder.call_fn2_ret("imul_reg16"); codegen::gen_set_reg16(ctx, r); } pub fn instr16_69_reg_jit(ctx: &mut JitContext, r1: u32, r2: u32, imm16: u32) { codegen::gen_get_reg16(ctx, r1); ctx.builder.const_i32(imm16 as i32); ctx.builder.call_fn2_ret("imul_reg16"); codegen::gen_set_reg16(ctx, r2); } pub fn instr32_69_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte, r: u32, imm32: u32) { codegen::gen_modrm_resolve_safe_read32(ctx, modrm_byte); let value_local = ctx.builder.set_new_local(); gen_imul3_reg32( ctx.builder, &ctx.register_locals[r as usize], &value_local, &LocalOrImmediate::Immediate(imm32 as i32), ); ctx.builder.free_local(value_local); } pub fn instr32_69_reg_jit(ctx: &mut JitContext, r1: u32, r2: u32, imm32: u32) { gen_imul3_reg32( ctx.builder, &ctx.register_locals[r2 as usize], &ctx.register_locals[r1 as usize], &LocalOrImmediate::Immediate(imm32 as i32), ); } pub fn instr16_6B_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte, r: u32, imm8s: u32) { codegen::gen_modrm_resolve_safe_read16(ctx, modrm_byte); ctx.builder.const_i32(imm8s as i32); ctx.builder.call_fn2_ret("imul_reg16"); codegen::gen_set_reg16(ctx, r); } pub fn instr16_6B_reg_jit(ctx: &mut JitContext, r1: u32, r2: u32, imm8s: u32) { codegen::gen_get_reg16(ctx, r1); ctx.builder.const_i32(imm8s as i32); ctx.builder.call_fn2_ret("imul_reg16"); codegen::gen_set_reg16(ctx, r2); } pub fn instr32_6B_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte, r: u32, imm8s: u32) { codegen::gen_modrm_resolve_safe_read32(ctx, modrm_byte); let value_local = ctx.builder.set_new_local(); gen_imul3_reg32( ctx.builder, &ctx.register_locals[r as usize], &value_local, &LocalOrImmediate::Immediate(imm8s as i32), ); ctx.builder.free_local(value_local); } pub fn instr32_6B_reg_jit(ctx: &mut JitContext, r1: u32, r2: u32, imm8s: u32) { gen_imul3_reg32( ctx.builder, &ctx.register_locals[r2 as usize], &ctx.register_locals[r1 as usize], &LocalOrImmediate::Immediate(imm8s as i32), ); } // Code for conditional jumps is generated automatically by the basic block codegen pub fn instr16_70_jit(_ctx: &mut JitContext, _imm: u32) {} pub fn instr32_70_jit(_ctx: &mut JitContext, _imm: u32) {} pub fn instr16_71_jit(_ctx: &mut JitContext, _imm: u32) {} pub fn instr32_71_jit(_ctx: &mut JitContext, _imm: u32) {} pub fn instr16_72_jit(_ctx: &mut JitContext, _imm: u32) {} pub fn instr32_72_jit(_ctx: &mut JitContext, _imm: u32) {} pub fn instr16_73_jit(_ctx: &mut JitContext, _imm: u32) {} pub fn instr32_73_jit(_ctx: &mut JitContext, _imm: u32) {} pub fn instr16_74_jit(_ctx: &mut JitContext, _imm: u32) {} pub fn instr32_74_jit(_ctx: &mut JitContext, _imm: u32) {} pub fn instr16_75_jit(_ctx: &mut JitContext, _imm: u32) {} pub fn instr32_75_jit(_ctx: &mut JitContext, _imm: u32) {} pub fn instr16_76_jit(_ctx: &mut JitContext, _imm: u32) {} pub fn instr32_76_jit(_ctx: &mut JitContext, _imm: u32) {} pub fn instr16_77_jit(_ctx: &mut JitContext, _imm: u32) {} pub fn instr32_77_jit(_ctx: &mut JitContext, _imm: u32) {} pub fn instr16_78_jit(_ctx: &mut JitContext, _imm: u32) {} pub fn instr32_78_jit(_ctx: &mut JitContext, _imm: u32) {} pub fn instr16_79_jit(_ctx: &mut JitContext, _imm: u32) {} pub fn instr32_79_jit(_ctx: &mut JitContext, _imm: u32) {} pub fn instr16_7A_jit(_ctx: &mut JitContext, _imm: u32) {} pub fn instr32_7A_jit(_ctx: &mut JitContext, _imm: u32) {} pub fn instr16_7B_jit(_ctx: &mut JitContext, _imm: u32) {} pub fn instr32_7B_jit(_ctx: &mut JitContext, _imm: u32) {} pub fn instr16_7C_jit(_ctx: &mut JitContext, _imm: u32) {} pub fn instr32_7C_jit(_ctx: &mut JitContext, _imm: u32) {} pub fn instr16_7D_jit(_ctx: &mut JitContext, _imm: u32) {} pub fn instr32_7D_jit(_ctx: &mut JitContext, _imm: u32) {} pub fn instr16_7E_jit(_ctx: &mut JitContext, _imm: u32) {} pub fn instr32_7E_jit(_ctx: &mut JitContext, _imm: u32) {} pub fn instr16_7F_jit(_ctx: &mut JitContext, _imm: u32) {} pub fn instr32_7F_jit(_ctx: &mut JitContext, _imm: u32) {} // loop/loopz/loopnz/jcxz: Conditional jump is generated in main loop pub fn instr16_E0_jit(ctx: &mut JitContext, _imm: u32) { codegen::decr_exc_asize(ctx) } pub fn instr32_E0_jit(ctx: &mut JitContext, _imm: u32) { codegen::decr_exc_asize(ctx) } pub fn instr16_E1_jit(ctx: &mut JitContext, _imm: u32) { codegen::decr_exc_asize(ctx) } pub fn instr32_E1_jit(ctx: &mut JitContext, _imm: u32) { codegen::decr_exc_asize(ctx) } pub fn instr16_E2_jit(ctx: &mut JitContext, _imm: u32) { codegen::decr_exc_asize(ctx) } pub fn instr32_E2_jit(ctx: &mut JitContext, _imm: u32) { codegen::decr_exc_asize(ctx) } pub fn instr16_E3_jit(_ctx: &mut JitContext, _imm: u32) {} pub fn instr32_E3_jit(_ctx: &mut JitContext, _imm: u32) {} define_instruction_read_write_mem8!(gen_add8, instr_80_0_mem_jit, instr_80_0_reg_jit, ximm8); define_instruction_read_write_mem8!(gen_or8, instr_80_1_mem_jit, instr_80_1_reg_jit, ximm8); define_instruction_read_write_mem8!(gen_adc8, instr_80_2_mem_jit, instr_80_2_reg_jit, ximm8); define_instruction_read_write_mem8!(gen_sbb8, instr_80_3_mem_jit, instr_80_3_reg_jit, ximm8); define_instruction_read_write_mem8!(gen_and8, instr_80_4_mem_jit, instr_80_4_reg_jit, ximm8); define_instruction_read_write_mem8!(gen_sub8, instr_80_5_mem_jit, instr_80_5_reg_jit, ximm8); define_instruction_read_write_mem8!(gen_xor8, instr_80_6_mem_jit, instr_80_6_reg_jit, ximm8); define_instruction_read_write_mem8!(gen_add8, instr_82_0_mem_jit, instr_82_0_reg_jit, ximm8); define_instruction_read_write_mem8!(gen_or8, instr_82_1_mem_jit, instr_82_1_reg_jit, ximm8); define_instruction_read_write_mem8!(gen_adc8, instr_82_2_mem_jit, instr_82_2_reg_jit, ximm8); define_instruction_read_write_mem8!(gen_sbb8, instr_82_3_mem_jit, instr_82_3_reg_jit, ximm8); define_instruction_read_write_mem8!(gen_and8, instr_82_4_mem_jit, instr_82_4_reg_jit, ximm8); define_instruction_read_write_mem8!(gen_sub8, instr_82_5_mem_jit, instr_82_5_reg_jit, ximm8); define_instruction_read_write_mem8!(gen_xor8, instr_82_6_mem_jit, instr_82_6_reg_jit, ximm8); define_instruction_read_write_mem16!("add16", instr16_81_0_mem_jit, instr16_81_0_reg_jit, imm16); define_instruction_read_write_mem32!(gen_add32, instr32_81_0_mem_jit, instr32_81_0_reg_jit, imm32); define_instruction_read_write_mem16!("or16", instr16_81_1_mem_jit, instr16_81_1_reg_jit, imm16); define_instruction_read_write_mem32!(gen_or32, instr32_81_1_mem_jit, instr32_81_1_reg_jit, imm32); define_instruction_read_write_mem16!("adc16", instr16_81_2_mem_jit, instr16_81_2_reg_jit, imm16); define_instruction_read_write_mem32!(gen_adc32, instr32_81_2_mem_jit, instr32_81_2_reg_jit, imm32); define_instruction_read_write_mem16!("sbb16", instr16_81_3_mem_jit, instr16_81_3_reg_jit, imm16); define_instruction_read_write_mem32!(gen_sbb32, instr32_81_3_mem_jit, instr32_81_3_reg_jit, imm32); define_instruction_read_write_mem16!("and16", instr16_81_4_mem_jit, instr16_81_4_reg_jit, imm16); define_instruction_read_write_mem32!(gen_and32, instr32_81_4_mem_jit, instr32_81_4_reg_jit, imm32); define_instruction_read_write_mem16!("sub16", instr16_81_5_mem_jit, instr16_81_5_reg_jit, imm16); define_instruction_read_write_mem32!(gen_sub32, instr32_81_5_mem_jit, instr32_81_5_reg_jit, imm32); define_instruction_read_write_mem16!("xor16", instr16_81_6_mem_jit, instr16_81_6_reg_jit, imm16); define_instruction_read_write_mem32!(gen_xor32, instr32_81_6_mem_jit, instr32_81_6_reg_jit, imm32); define_instruction_read_write_mem16!( "add16", instr16_83_0_mem_jit, instr16_83_0_reg_jit, imm8s_16bits ); define_instruction_read_write_mem32!(gen_add32, instr32_83_0_mem_jit, instr32_83_0_reg_jit, imm8s); define_instruction_read_write_mem16!( "or16", instr16_83_1_mem_jit, instr16_83_1_reg_jit, imm8s_16bits ); define_instruction_read_write_mem32!(gen_or32, instr32_83_1_mem_jit, instr32_83_1_reg_jit, imm8s); define_instruction_read_write_mem16!( "adc16", instr16_83_2_mem_jit, instr16_83_2_reg_jit, imm8s_16bits ); define_instruction_read_write_mem32!(gen_adc32, instr32_83_2_mem_jit, instr32_83_2_reg_jit, imm8s); define_instruction_read_write_mem16!( "sbb16", instr16_83_3_mem_jit, instr16_83_3_reg_jit, imm8s_16bits ); define_instruction_read_write_mem32!(gen_sbb32, instr32_83_3_mem_jit, instr32_83_3_reg_jit, imm8s); define_instruction_read_write_mem16!( "and16", instr16_83_4_mem_jit, instr16_83_4_reg_jit, imm8s_16bits ); define_instruction_read_write_mem32!(gen_and32, instr32_83_4_mem_jit, instr32_83_4_reg_jit, imm8s); define_instruction_read_write_mem16!( "sub16", instr16_83_5_mem_jit, instr16_83_5_reg_jit, imm8s_16bits ); define_instruction_read_write_mem32!(gen_sub32, instr32_83_5_mem_jit, instr32_83_5_reg_jit, imm8s); define_instruction_read_write_mem16!( "xor16", instr16_83_6_mem_jit, instr16_83_6_reg_jit, imm8s_16bits ); define_instruction_read_write_mem32!(gen_xor32, instr32_83_6_mem_jit, instr32_83_6_reg_jit, imm8s); define_instruction_read8!(gen_cmp8, instr_80_7_mem_jit, instr_80_7_reg_jit, imm8); define_instruction_read16!(gen_cmp16, instr16_81_7_mem_jit, instr16_81_7_reg_jit, imm16); define_instruction_read32!(gen_cmp32, instr32_81_7_mem_jit, instr32_81_7_reg_jit, imm32); define_instruction_read8!(gen_cmp8, instr_82_7_mem_jit, instr_82_7_reg_jit, imm8); define_instruction_read16!( gen_cmp16, instr16_83_7_mem_jit, instr16_83_7_reg_jit, imm8s_16bits ); define_instruction_read32!(gen_cmp32, instr32_83_7_mem_jit, instr32_83_7_reg_jit, imm8s); define_instruction_read8!(gen_test8, instr_84_mem_jit, instr_84_reg_jit); define_instruction_read16!(gen_test16, instr16_85_mem_jit, instr16_85_reg_jit); define_instruction_read32!(gen_test32, instr32_85_mem_jit, instr32_85_reg_jit); pub fn instr_86_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte, r: u32) { codegen::gen_modrm_resolve_with_local(ctx, modrm_byte, &|ctx, addr| { codegen::gen_safe_read_write(ctx, BitSize::BYTE, &addr, &|ref mut ctx| { codegen::gen_get_reg8(ctx, r); let tmp = ctx.builder.set_new_local(); codegen::gen_set_reg8(ctx, r); ctx.builder.get_local(&tmp); ctx.builder.free_local(tmp); }); }); } pub fn instr_86_reg_jit(ctx: &mut JitContext, r1: u32, r2: u32) { codegen::gen_get_reg8(ctx, r2); let tmp = ctx.builder.set_new_local(); codegen::gen_get_reg8(ctx, r1); codegen::gen_set_reg8(ctx, r2); ctx.builder.get_local(&tmp); codegen::gen_set_reg8(ctx, r1); ctx.builder.free_local(tmp); } pub fn instr16_87_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte, r: u32) { codegen::gen_modrm_resolve_with_local(ctx, modrm_byte, &|ctx, addr| { codegen::gen_safe_read_write(ctx, BitSize::WORD, &addr, &|ref mut ctx| { codegen::gen_get_reg16(ctx, r); let tmp = ctx.builder.set_new_local(); codegen::gen_set_reg16(ctx, r); ctx.builder.get_local(&tmp); ctx.builder.free_local(tmp); }); }); } pub fn instr32_87_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte, r: u32) { codegen::gen_modrm_resolve_with_local(ctx, modrm_byte, &|ctx, addr| { codegen::gen_safe_read_write(ctx, BitSize::DWORD, &addr, &|ref mut ctx| { codegen::gen_get_reg32(ctx, r); let tmp = ctx.builder.set_new_local(); codegen::gen_set_reg32(ctx, r); ctx.builder.get_local(&tmp); ctx.builder.free_local(tmp); }); }); } pub fn instr16_87_reg_jit(ctx: &mut JitContext, r1: u32, r2: u32) { codegen::gen_get_reg16(ctx, r2); let tmp = ctx.builder.set_new_local(); codegen::gen_get_reg16(ctx, r1); codegen::gen_set_reg16(ctx, r2); ctx.builder.get_local(&tmp); codegen::gen_set_reg16(ctx, r1); ctx.builder.free_local(tmp); } pub fn instr32_87_reg_jit(ctx: &mut JitContext, r1: u32, r2: u32) { codegen::gen_get_reg32(ctx, r2); let tmp = ctx.builder.set_new_local(); codegen::gen_get_reg32(ctx, r1); codegen::gen_set_reg32(ctx, r2); ctx.builder.get_local(&tmp); codegen::gen_set_reg32(ctx, r1); ctx.builder.free_local(tmp); } pub fn instr_88_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte, r: u32) { codegen::gen_modrm_resolve_with_local(ctx, modrm_byte, &|ctx, addr| { codegen::gen_get_reg8(ctx, r); let value_local = ctx.builder.set_new_local(); codegen::gen_safe_write8(ctx, &addr, &value_local); ctx.builder.free_local(value_local); }); } pub fn instr_88_reg_jit(ctx: &mut JitContext, r1: u32, r2: u32) { codegen::gen_set_reg8_r(ctx, r1, r2); } pub fn instr16_89_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte, r: u32) { codegen::gen_modrm_resolve_with_local(ctx, modrm_byte, &|ctx, addr| { codegen::gen_safe_write16(ctx, addr, &ctx.reg(r)); }); } pub fn instr16_89_reg_jit(ctx: &mut JitContext, r1: u32, r2: u32) { codegen::gen_set_reg16_r(ctx, r1, r2); } pub fn instr32_89_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte, r: u32) { codegen::gen_modrm_resolve_with_local(ctx, modrm_byte, &|ctx, addr| { codegen::gen_safe_write32(ctx, &addr, &ctx.reg(r)); }); } pub fn instr32_89_reg_jit(ctx: &mut JitContext, r1: u32, r2: u32) { codegen::gen_set_reg32_r(ctx, r1, r2); } pub fn instr_8A_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte, r: u32) { // Pseudo: reg8[r] = safe_read8(modrm_resolve(modrm_byte)); codegen::gen_modrm_resolve_safe_read8(ctx, modrm_byte); codegen::gen_set_reg8_unmasked(ctx, r); } pub fn instr_8A_reg_jit(ctx: &mut JitContext, r1: u32, r2: u32) { codegen::gen_set_reg8_r(ctx, r2, r1); } pub fn instr16_8B_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte, r: u32) { codegen::gen_modrm_resolve_safe_read16(ctx, modrm_byte); codegen::gen_set_reg16_unmasked(ctx, r); } pub fn instr16_8B_reg_jit(ctx: &mut JitContext, r1: u32, r2: u32) { codegen::gen_set_reg16_r(ctx, r2, r1); } pub fn instr32_8B_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte, r: u32) { codegen::gen_modrm_resolve_safe_read32(ctx, modrm_byte); codegen::gen_set_reg32(ctx, r); } pub fn instr32_8B_reg_jit(ctx: &mut JitContext, r1: u32, r2: u32) { codegen::gen_set_reg32_r(ctx, r2, r1); } pub fn instr16_8C_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte, r: u32) { codegen::gen_modrm_resolve(ctx, modrm_byte); let address_local = ctx.builder.set_new_local(); if r >= 6 { codegen::gen_trigger_ud(ctx); } else { codegen::gen_get_sreg(ctx, r); let value_local = ctx.builder.set_new_local(); codegen::gen_safe_write16(ctx, &address_local, &value_local); ctx.builder.free_local(value_local); } ctx.builder.free_local(address_local); } pub fn instr32_8C_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte, r: u32) { codegen::gen_modrm_resolve(ctx, modrm_byte); let address_local = ctx.builder.set_new_local(); if r >= 6 { codegen::gen_trigger_ud(ctx); } else { codegen::gen_get_sreg(ctx, r); let value_local = ctx.builder.set_new_local(); codegen::gen_safe_write16(ctx, &address_local, &value_local); ctx.builder.free_local(value_local); } ctx.builder.free_local(address_local); } pub fn instr16_8C_reg_jit(ctx: &mut JitContext, r1: u32, r2: u32) { if r2 >= 6 { codegen::gen_trigger_ud(ctx); } else { codegen::gen_get_sreg(ctx, r2); codegen::gen_set_reg16(ctx, r1); } } pub fn instr32_8C_reg_jit(ctx: &mut JitContext, r1: u32, r2: u32) { if r2 >= 6 { codegen::gen_trigger_ud(ctx); } else { codegen::gen_get_sreg(ctx, r2); codegen::gen_set_reg32(ctx, r1); } } pub fn instr16_8D_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte, reg: u32) { ctx.cpu.prefixes |= SEG_PREFIX_ZERO; codegen::gen_modrm_resolve(ctx, modrm_byte); codegen::gen_set_reg16(ctx, reg); } pub fn instr32_8D_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte, reg: u32) { if !modrm_byte.is_nop(reg) { ctx.cpu.prefixes |= SEG_PREFIX_ZERO; codegen::gen_modrm_resolve(ctx, modrm_byte); codegen::gen_set_reg32(ctx, reg); } } pub fn instr16_8D_reg_jit(ctx: &mut JitContext, _r1: u32, _r2: u32) { codegen::gen_trigger_ud(ctx); } pub fn instr32_8D_reg_jit(ctx: &mut JitContext, _r1: u32, _r2: u32) { codegen::gen_trigger_ud(ctx); } pub fn instr16_8F_0_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte) { // before gen_modrm_resolve, update esp to the new value codegen::gen_adjust_stack_reg(ctx, 2); codegen::gen_modrm_resolve(ctx, modrm_byte); let address_local = ctx.builder.set_new_local(); // pop takes care of updating esp, so undo the previous change codegen::gen_adjust_stack_reg(ctx, (-2i32) as u32); codegen::gen_pop16(ctx); let value_local = ctx.builder.set_new_local(); // undo the esp change of pop, as safe_write16 can fail codegen::gen_adjust_stack_reg(ctx, (-2i32) as u32); codegen::gen_safe_write16(ctx, &address_local, &value_local); ctx.builder.free_local(address_local); ctx.builder.free_local(value_local); // finally, actually update esp codegen::gen_adjust_stack_reg(ctx, 2); } pub fn instr16_8F_0_reg_jit(ctx: &mut JitContext, r: u32) { pop16_reg_jit(ctx, r); } pub fn instr32_8F_0_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte) { codegen::gen_adjust_stack_reg(ctx, 4); codegen::gen_modrm_resolve(ctx, modrm_byte); let address_local = ctx.builder.set_new_local(); codegen::gen_adjust_stack_reg(ctx, (-4i32) as u32); codegen::gen_pop32s(ctx); let value_local = ctx.builder.set_new_local(); codegen::gen_adjust_stack_reg(ctx, (-4i32) as u32); codegen::gen_safe_write32(ctx, &address_local, &value_local); ctx.builder.free_local(address_local); ctx.builder.free_local(value_local); codegen::gen_adjust_stack_reg(ctx, 4); } pub fn instr32_8F_0_reg_jit(ctx: &mut JitContext, r: u32) { pop32_reg_jit(ctx, r); } define_instruction_read_write_mem16!( "rol16", instr16_C1_0_mem_jit, instr16_C1_0_reg_jit, imm8_5bits ); define_instruction_read_write_mem32!( gen_rol32, instr32_C1_0_mem_jit, instr32_C1_0_reg_jit, imm8_5bits ); define_instruction_read_write_mem16!( "ror16", instr16_C1_1_mem_jit, instr16_C1_1_reg_jit, imm8_5bits ); define_instruction_read_write_mem32!( gen_ror32, instr32_C1_1_mem_jit, instr32_C1_1_reg_jit, imm8_5bits ); define_instruction_read_write_mem16!( "rcl16", instr16_C1_2_mem_jit, instr16_C1_2_reg_jit, imm8_5bits ); define_instruction_read_write_mem32!( gen_rcl32, instr32_C1_2_mem_jit, instr32_C1_2_reg_jit, imm8_5bits ); define_instruction_read_write_mem16!( "rcr16", instr16_C1_3_mem_jit, instr16_C1_3_reg_jit, imm8_5bits ); define_instruction_read_write_mem32!( gen_rcr32, instr32_C1_3_mem_jit, instr32_C1_3_reg_jit, imm8_5bits ); define_instruction_read_write_mem16!( "shl16", instr16_C1_4_mem_jit, instr16_C1_4_reg_jit, imm8_5bits ); define_instruction_read_write_mem32!( gen_shl32, instr32_C1_4_mem_jit, instr32_C1_4_reg_jit, imm8_5bits ); define_instruction_read_write_mem16!( "shr16", instr16_C1_5_mem_jit, instr16_C1_5_reg_jit, imm8_5bits ); define_instruction_read_write_mem32!( gen_shr32, instr32_C1_5_mem_jit, instr32_C1_5_reg_jit, imm8_5bits ); define_instruction_read_write_mem16!( "shl16", instr16_C1_6_mem_jit, instr16_C1_6_reg_jit, imm8_5bits ); define_instruction_read_write_mem32!( gen_shl32, instr32_C1_6_mem_jit, instr32_C1_6_reg_jit, imm8_5bits ); define_instruction_read_write_mem16!( "sar16", instr16_C1_7_mem_jit, instr16_C1_7_reg_jit, imm8_5bits ); define_instruction_read_write_mem32!( gen_sar32, instr32_C1_7_mem_jit, instr32_C1_7_reg_jit, imm8_5bits ); pub fn instr16_E8_jit(ctx: &mut JitContext, _imm: u32) { codegen::gen_get_real_eip(ctx); let value_local = ctx.builder.set_new_local(); codegen::gen_push16(ctx, &value_local); ctx.builder.free_local(value_local); } pub fn instr32_E8_jit(ctx: &mut JitContext, _imm: u32) { codegen::gen_get_real_eip(ctx); let value_local = ctx.builder.set_new_local(); codegen::gen_push32(ctx, &value_local); ctx.builder.free_local(value_local); } pub fn instr16_E9_jit(_ctx: &mut JitContext, _imm: u32) { // } pub fn instr32_E9_jit(_ctx: &mut JitContext, _imm: u32) { // } pub fn instr16_C2_jit(ctx: &mut JitContext, imm16: u32) { ctx.builder.const_i32(0); codegen::gen_pop16(ctx); codegen::gen_add_cs_offset(ctx); ctx.builder .store_aligned_i32(global_pointers::instruction_pointer as u32); codegen::gen_adjust_stack_reg(ctx, imm16); } pub fn instr32_C2_jit(ctx: &mut JitContext, imm16: u32) { ctx.builder.const_i32(0); codegen::gen_pop32s(ctx); codegen::gen_add_cs_offset(ctx); ctx.builder .store_aligned_i32(global_pointers::instruction_pointer as u32); codegen::gen_adjust_stack_reg(ctx, imm16); } pub fn instr16_C3_jit(ctx: &mut JitContext) { ctx.builder.const_i32(0); codegen::gen_pop16(ctx); codegen::gen_add_cs_offset(ctx); ctx.builder .store_aligned_i32(global_pointers::instruction_pointer as u32); } pub fn instr32_C3_jit(ctx: &mut JitContext) { ctx.builder.const_i32(0); codegen::gen_pop32s(ctx); codegen::gen_add_cs_offset(ctx); ctx.builder .store_aligned_i32(global_pointers::instruction_pointer as u32); } pub fn instr16_C9_jit(ctx: &mut JitContext) { codegen::gen_leave(ctx, false); } pub fn instr32_C9_jit(ctx: &mut JitContext) { codegen::gen_leave(ctx, true); } pub fn gen_mov_reg8_imm(ctx: &mut JitContext, r: u32, imm: u32) { ctx.builder.const_i32(imm as i32); codegen::gen_set_reg8_unmasked(ctx, r); } pub fn instr_B0_jit(ctx: &mut JitContext, imm: u32) { gen_mov_reg8_imm(ctx, 0, imm) } pub fn instr_B1_jit(ctx: &mut JitContext, imm: u32) { gen_mov_reg8_imm(ctx, 1, imm) } pub fn instr_B2_jit(ctx: &mut JitContext, imm: u32) { gen_mov_reg8_imm(ctx, 2, imm) } pub fn instr_B3_jit(ctx: &mut JitContext, imm: u32) { gen_mov_reg8_imm(ctx, 3, imm) } pub fn instr_B4_jit(ctx: &mut JitContext, imm: u32) { gen_mov_reg8_imm(ctx, 4, imm) } pub fn instr_B5_jit(ctx: &mut JitContext, imm: u32) { gen_mov_reg8_imm(ctx, 5, imm) } pub fn instr_B6_jit(ctx: &mut JitContext, imm: u32) { gen_mov_reg8_imm(ctx, 6, imm) } pub fn instr_B7_jit(ctx: &mut JitContext, imm: u32) { gen_mov_reg8_imm(ctx, 7, imm) } pub fn gen_mov_reg16_imm(ctx: &mut JitContext, r: u32, imm: u32) { ctx.builder.const_i32(imm as i32); codegen::gen_set_reg16_unmasked(ctx, r); } pub fn instr16_B8_jit(ctx: &mut JitContext, imm: u32) { gen_mov_reg16_imm(ctx, 0, imm) } pub fn instr16_B9_jit(ctx: &mut JitContext, imm: u32) { gen_mov_reg16_imm(ctx, 1, imm) } pub fn instr16_BA_jit(ctx: &mut JitContext, imm: u32) { gen_mov_reg16_imm(ctx, 2, imm) } pub fn instr16_BB_jit(ctx: &mut JitContext, imm: u32) { gen_mov_reg16_imm(ctx, 3, imm) } pub fn instr16_BC_jit(ctx: &mut JitContext, imm: u32) { gen_mov_reg16_imm(ctx, 4, imm) } pub fn instr16_BD_jit(ctx: &mut JitContext, imm: u32) { gen_mov_reg16_imm(ctx, 5, imm) } pub fn instr16_BE_jit(ctx: &mut JitContext, imm: u32) { gen_mov_reg16_imm(ctx, 6, imm) } pub fn instr16_BF_jit(ctx: &mut JitContext, imm: u32) { gen_mov_reg16_imm(ctx, 7, imm) } pub fn gen_mov_reg32_imm(ctx: &mut JitContext, r: u32, imm: u32) { ctx.builder.const_i32(imm as i32); codegen::gen_set_reg32(ctx, r); } pub fn instr32_B8_jit(ctx: &mut JitContext, imm: u32) { gen_mov_reg32_imm(ctx, 0, imm) } pub fn instr32_B9_jit(ctx: &mut JitContext, imm: u32) { gen_mov_reg32_imm(ctx, 1, imm) } pub fn instr32_BA_jit(ctx: &mut JitContext, imm: u32) { gen_mov_reg32_imm(ctx, 2, imm) } pub fn instr32_BB_jit(ctx: &mut JitContext, imm: u32) { gen_mov_reg32_imm(ctx, 3, imm) } pub fn instr32_BC_jit(ctx: &mut JitContext, imm: u32) { gen_mov_reg32_imm(ctx, 4, imm) } pub fn instr32_BD_jit(ctx: &mut JitContext, imm: u32) { gen_mov_reg32_imm(ctx, 5, imm) } pub fn instr32_BE_jit(ctx: &mut JitContext, imm: u32) { gen_mov_reg32_imm(ctx, 6, imm) } pub fn instr32_BF_jit(ctx: &mut JitContext, imm: u32) { gen_mov_reg32_imm(ctx, 7, imm) } define_instruction_read_write_mem8!("rol8", instr_C0_0_mem_jit, instr_C0_0_reg_jit, imm8_5bits); define_instruction_read_write_mem8!("ror8", instr_C0_1_mem_jit, instr_C0_1_reg_jit, imm8_5bits); define_instruction_read_write_mem8!("rcl8", instr_C0_2_mem_jit, instr_C0_2_reg_jit, imm8_5bits); define_instruction_read_write_mem8!("rcr8", instr_C0_3_mem_jit, instr_C0_3_reg_jit, imm8_5bits); define_instruction_read_write_mem8!("shl8", instr_C0_4_mem_jit, instr_C0_4_reg_jit, imm8_5bits); define_instruction_read_write_mem8!("shr8", instr_C0_5_mem_jit, instr_C0_5_reg_jit, imm8_5bits); define_instruction_read_write_mem8!("shl8", instr_C0_6_mem_jit, instr_C0_6_reg_jit, imm8_5bits); define_instruction_read_write_mem8!("sar8", instr_C0_7_mem_jit, instr_C0_7_reg_jit, imm8_5bits); define_instruction_read_write_mem8!("rol8", instr_D0_0_mem_jit, instr_D0_0_reg_jit, constant_one); define_instruction_read_write_mem8!("ror8", instr_D0_1_mem_jit, instr_D0_1_reg_jit, constant_one); define_instruction_read_write_mem8!("rcl8", instr_D0_2_mem_jit, instr_D0_2_reg_jit, constant_one); define_instruction_read_write_mem8!("rcr8", instr_D0_3_mem_jit, instr_D0_3_reg_jit, constant_one); define_instruction_read_write_mem8!("shl8", instr_D0_4_mem_jit, instr_D0_4_reg_jit, constant_one); define_instruction_read_write_mem8!("shr8", instr_D0_5_mem_jit, instr_D0_5_reg_jit, constant_one); define_instruction_read_write_mem8!("shl8", instr_D0_6_mem_jit, instr_D0_6_reg_jit, constant_one); define_instruction_read_write_mem8!("sar8", instr_D0_7_mem_jit, instr_D0_7_reg_jit, constant_one); define_instruction_read_write_mem16!( "rol16", instr16_D1_0_mem_jit, instr16_D1_0_reg_jit, constant_one ); define_instruction_read_write_mem32!( gen_rol32, instr32_D1_0_mem_jit, instr32_D1_0_reg_jit, constant_one ); define_instruction_read_write_mem16!( "ror16", instr16_D1_1_mem_jit, instr16_D1_1_reg_jit, constant_one ); define_instruction_read_write_mem32!( gen_ror32, instr32_D1_1_mem_jit, instr32_D1_1_reg_jit, constant_one ); define_instruction_read_write_mem16!( "rcl16", instr16_D1_2_mem_jit, instr16_D1_2_reg_jit, constant_one ); define_instruction_read_write_mem32!( gen_rcl32, instr32_D1_2_mem_jit, instr32_D1_2_reg_jit, constant_one ); define_instruction_read_write_mem16!( "rcr16", instr16_D1_3_mem_jit, instr16_D1_3_reg_jit, constant_one ); define_instruction_read_write_mem32!( gen_rcr32, instr32_D1_3_mem_jit, instr32_D1_3_reg_jit, constant_one ); define_instruction_read_write_mem16!( "shl16", instr16_D1_4_mem_jit, instr16_D1_4_reg_jit, constant_one ); define_instruction_read_write_mem32!( gen_shl32, instr32_D1_4_mem_jit, instr32_D1_4_reg_jit, constant_one ); define_instruction_read_write_mem16!( "shr16", instr16_D1_5_mem_jit, instr16_D1_5_reg_jit, constant_one ); define_instruction_read_write_mem32!( gen_shr32, instr32_D1_5_mem_jit, instr32_D1_5_reg_jit, constant_one ); define_instruction_read_write_mem16!( "shl16", instr16_D1_6_mem_jit, instr16_D1_6_reg_jit, constant_one ); define_instruction_read_write_mem32!( gen_shl32, instr32_D1_6_mem_jit, instr32_D1_6_reg_jit, constant_one ); define_instruction_read_write_mem16!( "sar16", instr16_D1_7_mem_jit, instr16_D1_7_reg_jit, constant_one ); define_instruction_read_write_mem32!( gen_sar32, instr32_D1_7_mem_jit, instr32_D1_7_reg_jit, constant_one ); define_instruction_read_write_mem8!("rol8", instr_D2_0_mem_jit, instr_D2_0_reg_jit, cl); define_instruction_read_write_mem8!("ror8", instr_D2_1_mem_jit, instr_D2_1_reg_jit, cl); define_instruction_read_write_mem8!("rcl8", instr_D2_2_mem_jit, instr_D2_2_reg_jit, cl); define_instruction_read_write_mem8!("rcr8", instr_D2_3_mem_jit, instr_D2_3_reg_jit, cl); define_instruction_read_write_mem8!("shl8", instr_D2_4_mem_jit, instr_D2_4_reg_jit, cl); define_instruction_read_write_mem8!("shr8", instr_D2_5_mem_jit, instr_D2_5_reg_jit, cl); define_instruction_read_write_mem8!("shl8", instr_D2_6_mem_jit, instr_D2_6_reg_jit, cl); define_instruction_read_write_mem8!("sar8", instr_D2_7_mem_jit, instr_D2_7_reg_jit, cl); define_instruction_read_write_mem16!("rol16", instr16_D3_0_mem_jit, instr16_D3_0_reg_jit, cl); define_instruction_read_write_mem32!(gen_rol32, instr32_D3_0_mem_jit, instr32_D3_0_reg_jit, cl); define_instruction_read_write_mem16!("ror16", instr16_D3_1_mem_jit, instr16_D3_1_reg_jit, cl); define_instruction_read_write_mem32!(gen_ror32, instr32_D3_1_mem_jit, instr32_D3_1_reg_jit, cl); define_instruction_read_write_mem16!("rcl16", instr16_D3_2_mem_jit, instr16_D3_2_reg_jit, cl); define_instruction_read_write_mem32!(gen_rcl32, instr32_D3_2_mem_jit, instr32_D3_2_reg_jit, cl); define_instruction_read_write_mem16!("rcr16", instr16_D3_3_mem_jit, instr16_D3_3_reg_jit, cl); define_instruction_read_write_mem32!(gen_rcr32, instr32_D3_3_mem_jit, instr32_D3_3_reg_jit, cl); define_instruction_read_write_mem16!("shl16", instr16_D3_4_mem_jit, instr16_D3_4_reg_jit, cl); define_instruction_read_write_mem32!(gen_shl32, instr32_D3_4_mem_jit, instr32_D3_4_reg_jit, cl); define_instruction_read_write_mem16!("shr16", instr16_D3_5_mem_jit, instr16_D3_5_reg_jit, cl); define_instruction_read_write_mem32!(gen_shr32, instr32_D3_5_mem_jit, instr32_D3_5_reg_jit, cl); define_instruction_read_write_mem16!("shl16", instr16_D3_6_mem_jit, instr16_D3_6_reg_jit, cl); define_instruction_read_write_mem32!(gen_shl32, instr32_D3_6_mem_jit, instr32_D3_6_reg_jit, cl); define_instruction_read_write_mem16!("sar16", instr16_D3_7_mem_jit, instr16_D3_7_reg_jit, cl); define_instruction_read_write_mem32!(gen_sar32, instr32_D3_7_mem_jit, instr32_D3_7_reg_jit, cl); pub fn instr_D7_jit(ctx: &mut JitContext) { if ctx.cpu.asize_32() { codegen::gen_get_reg32(ctx, regs::EBX); } else { codegen::gen_get_reg16(ctx, regs::BX); } codegen::gen_get_reg8(ctx, regs::AL); ctx.builder.add_i32(); if !ctx.cpu.asize_32() { ctx.builder.const_i32(0xFFFF); ctx.builder.and_i32(); } jit_add_seg_offset(ctx, regs::DS); let address_local = ctx.builder.set_new_local(); codegen::gen_safe_read8(ctx, &address_local); ctx.builder.free_local(address_local); codegen::gen_set_reg8(ctx, regs::AL); } fn instr_group_D8_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte, op: &str) { ctx.builder.const_i32(0); codegen::gen_fpu_load_m32(ctx, modrm_byte); ctx.builder.call_fn3_i32_i64_i32(op) } fn instr_group_D8_reg_jit(ctx: &mut JitContext, r: u32, op: &str) { ctx.builder.const_i32(0); codegen::gen_fpu_get_sti(ctx, r); ctx.builder.call_fn3_i32_i64_i32(op) } pub fn instr_D8_0_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte) { instr_group_D8_mem_jit(ctx, modrm_byte, "fpu_fadd") } pub fn instr_D8_0_reg_jit(ctx: &mut JitContext, r: u32) { instr_group_D8_reg_jit(ctx, r, "fpu_fadd") } pub fn instr_D8_1_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte) { instr_group_D8_mem_jit(ctx, modrm_byte, "fpu_fmul") } pub fn instr_D8_1_reg_jit(ctx: &mut JitContext, r: u32) { instr_group_D8_reg_jit(ctx, r, "fpu_fmul") } pub fn instr_D8_2_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte) { codegen::gen_fpu_load_m32(ctx, modrm_byte); ctx.builder.call_fn2_i64_i32("fpu_fcom") } pub fn instr_D8_2_reg_jit(ctx: &mut JitContext, r: u32) { codegen::gen_fpu_get_sti(ctx, r); ctx.builder.call_fn2_i64_i32("fpu_fcom") } pub fn instr_D8_3_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte) { codegen::gen_fpu_load_m32(ctx, modrm_byte); ctx.builder.call_fn2_i64_i32("fpu_fcomp") } pub fn instr_D8_3_reg_jit(ctx: &mut JitContext, r: u32) { codegen::gen_fpu_get_sti(ctx, r); ctx.builder.call_fn2_i64_i32("fpu_fcomp") } pub fn instr_D8_4_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte) { instr_group_D8_mem_jit(ctx, modrm_byte, "fpu_fsub") } pub fn instr_D8_4_reg_jit(ctx: &mut JitContext, r: u32) { instr_group_D8_reg_jit(ctx, r, "fpu_fsub") } pub fn instr_D8_5_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte) { instr_group_D8_mem_jit(ctx, modrm_byte, "fpu_fsubr") } pub fn instr_D8_5_reg_jit(ctx: &mut JitContext, r: u32) { instr_group_D8_reg_jit(ctx, r, "fpu_fsubr") } pub fn instr_D8_6_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte) { instr_group_D8_mem_jit(ctx, modrm_byte, "fpu_fdiv") } pub fn instr_D8_6_reg_jit(ctx: &mut JitContext, r: u32) { instr_group_D8_reg_jit(ctx, r, "fpu_fdiv") } pub fn instr_D8_7_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte) { instr_group_D8_mem_jit(ctx, modrm_byte, "fpu_fdivr") } pub fn instr_D8_7_reg_jit(ctx: &mut JitContext, r: u32) { instr_group_D8_reg_jit(ctx, r, "fpu_fdivr") } pub fn instr16_D9_0_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte) { codegen::gen_fpu_load_m32(ctx, modrm_byte); ctx.builder.call_fn2_i64_i32("fpu_push"); } pub fn instr16_D9_0_reg_jit(ctx: &mut JitContext, r: u32) { codegen::gen_fpu_get_sti(ctx, r); ctx.builder.call_fn2_i64_i32("fpu_push"); } pub fn instr32_D9_0_reg_jit(ctx: &mut JitContext, r: u32) { instr16_D9_0_reg_jit(ctx, r) } pub fn instr32_D9_0_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte) { instr16_D9_0_mem_jit(ctx, modrm_byte) } pub fn instr16_D9_1_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte) { codegen::gen_modrm_resolve(ctx, modrm_byte); codegen::gen_trigger_ud(ctx); } pub fn instr16_D9_1_reg_jit(ctx: &mut JitContext, r: u32) { ctx.builder.const_i32(r as i32); ctx.builder.call_fn1("fpu_fxch"); } pub fn instr32_D9_1_reg_jit(ctx: &mut JitContext, r: u32) { instr16_D9_1_reg_jit(ctx, r) } pub fn instr32_D9_1_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte) { instr16_D9_1_mem_jit(ctx, modrm_byte) } pub fn instr16_D9_2_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte) { codegen::gen_modrm_resolve(ctx, modrm_byte); let address_local = ctx.builder.set_new_local(); codegen::gen_fpu_get_sti(ctx, 0); ctx.builder.call_fn2_i64_i32_ret("f80_to_f32"); let value_local = ctx.builder.set_new_local(); codegen::gen_safe_write32(ctx, &address_local, &value_local); ctx.builder.free_local(address_local); ctx.builder.free_local(value_local); } pub fn instr16_D9_2_reg_jit(ctx: &mut JitContext, r: u32) { if r != 0 { codegen::gen_trigger_ud(ctx); } } pub fn instr32_D9_2_reg_jit(ctx: &mut JitContext, r: u32) { instr16_D9_2_reg_jit(ctx, r) } pub fn instr32_D9_2_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte) { instr16_D9_2_mem_jit(ctx, modrm_byte) } pub fn instr16_D9_3_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte) { codegen::gen_modrm_resolve(ctx, modrm_byte); let address_local = ctx.builder.set_new_local(); codegen::gen_fpu_get_sti(ctx, 0); ctx.builder.call_fn2_i64_i32_ret("f80_to_f32"); let value_local = ctx.builder.set_new_local(); codegen::gen_safe_write32(ctx, &address_local, &value_local); ctx.builder.free_local(address_local); ctx.builder.free_local(value_local); codegen::gen_fn0_const(ctx.builder, "fpu_pop"); } pub fn instr16_D9_3_reg_jit(ctx: &mut JitContext, r: u32) { codegen::gen_fn1_const(ctx.builder, "fpu_fstp", r); } pub fn instr32_D9_3_reg_jit(ctx: &mut JitContext, r: u32) { instr16_D9_3_reg_jit(ctx, r) } pub fn instr32_D9_3_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte) { instr16_D9_3_mem_jit(ctx, modrm_byte) } pub fn instr16_D9_4_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte) { codegen::gen_modrm_resolve(ctx, modrm_byte); codegen::gen_set_previous_eip_offset_from_eip_with_low_bits( ctx.builder, ctx.start_of_current_instruction as i32 & 0xFFF, ); codegen::gen_move_registers_from_locals_to_memory(ctx); ctx.builder.call_fn1("fpu_fldenv32"); codegen::gen_move_registers_from_memory_to_locals(ctx); codegen::gen_get_page_fault(ctx.builder); ctx.builder.if_void(); codegen::gen_debug_track_jit_exit(ctx.builder, ctx.start_of_current_instruction); ctx.builder.br(ctx.exit_label); ctx.builder.block_end(); } pub fn instr16_D9_4_reg_jit(ctx: &mut JitContext, r: u32) { match r { 0 | 1 | 4 | 5 => { ctx.builder.const_i32(r as i32); ctx.builder.call_fn1("instr16_D9_4_reg"); }, _ => codegen::gen_trigger_ud(ctx), } } pub fn instr32_D9_4_reg_jit(ctx: &mut JitContext, r: u32) { instr16_D9_4_reg_jit(ctx, r) } pub fn instr32_D9_4_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte) { instr16_D9_4_mem_jit(ctx, modrm_byte) } pub fn instr16_D9_5_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte) { codegen::gen_modrm_resolve_safe_read16(ctx, modrm_byte); ctx.builder.call_fn1("set_control_word"); } pub fn instr16_D9_5_reg_jit(ctx: &mut JitContext, r: u32) { if r == 7 { codegen::gen_trigger_ud(ctx); } else { codegen::gen_fn1_const(ctx.builder, "instr16_D9_5_reg", r); } } pub fn instr32_D9_5_reg_jit(ctx: &mut JitContext, r: u32) { instr16_D9_5_reg_jit(ctx, r) } pub fn instr32_D9_5_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte) { instr16_D9_5_mem_jit(ctx, modrm_byte) } pub fn instr16_D9_6_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte) { codegen::gen_modrm_resolve(ctx, modrm_byte); codegen::gen_set_previous_eip_offset_from_eip_with_low_bits( ctx.builder, ctx.start_of_current_instruction as i32 & 0xFFF, ); codegen::gen_move_registers_from_locals_to_memory(ctx); ctx.builder.call_fn1("fpu_fstenv32"); codegen::gen_move_registers_from_memory_to_locals(ctx); codegen::gen_get_page_fault(ctx.builder); ctx.builder.if_void(); codegen::gen_debug_track_jit_exit(ctx.builder, ctx.start_of_current_instruction); ctx.builder.br(ctx.exit_label); ctx.builder.block_end(); } pub fn instr16_D9_6_reg_jit(ctx: &mut JitContext, r: u32) { codegen::gen_fn1_const(ctx.builder, "instr16_D9_6_reg", r); } pub fn instr32_D9_6_reg_jit(ctx: &mut JitContext, r: u32) { instr16_D9_6_reg_jit(ctx, r) } pub fn instr32_D9_6_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte) { instr16_D9_6_mem_jit(ctx, modrm_byte) } pub fn instr16_D9_7_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte) { codegen::gen_modrm_resolve(ctx, modrm_byte); let address_local = ctx.builder.set_new_local(); ctx.builder .const_i32(global_pointers::fpu_control_word as i32); ctx.builder.load_aligned_u16(0); let value_local = ctx.builder.set_new_local(); codegen::gen_safe_write16(ctx, &address_local, &value_local); ctx.builder.free_local(address_local); ctx.builder.free_local(value_local); } pub fn instr16_D9_7_reg_jit(ctx: &mut JitContext, r: u32) { codegen::gen_fn1_const(ctx.builder, "instr16_D9_7_reg", r); } pub fn instr32_D9_7_reg_jit(ctx: &mut JitContext, r: u32) { instr16_D9_7_reg_jit(ctx, r) } pub fn instr32_D9_7_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte) { instr16_D9_7_mem_jit(ctx, modrm_byte) } pub fn instr_DA_0_reg_jit(ctx: &mut JitContext, r: u32) { codegen::gen_fn1_const(ctx.builder, "instr_DA_0_reg", r); } pub fn instr_DA_1_reg_jit(ctx: &mut JitContext, r: u32) { codegen::gen_fn1_const(ctx.builder, "instr_DA_1_reg", r); } pub fn instr_DA_2_reg_jit(ctx: &mut JitContext, r: u32) { codegen::gen_fn1_const(ctx.builder, "instr_DA_2_reg", r); } pub fn instr_DA_3_reg_jit(ctx: &mut JitContext, r: u32) { codegen::gen_fn1_const(ctx.builder, "instr_DA_3_reg", r); } pub fn instr_DA_4_reg_jit(ctx: &mut JitContext, _r: u32) { codegen::gen_trigger_ud(ctx) } pub fn instr_DA_5_reg_jit(ctx: &mut JitContext, r: u32) { if r == 1 { codegen::gen_fn0_const(ctx.builder, "fpu_fucompp") } else { codegen::gen_trigger_ud(ctx) } } pub fn instr_DA_6_reg_jit(ctx: &mut JitContext, _r: u32) { codegen::gen_trigger_ud(ctx) } pub fn instr_DA_7_reg_jit(ctx: &mut JitContext, _r: u32) { codegen::gen_trigger_ud(ctx) } pub fn instr_group_DA_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte, op: &str) { ctx.builder.const_i32(0); codegen::gen_fpu_load_i32(ctx, modrm_byte); ctx.builder.call_fn3_i32_i64_i32(op) } pub fn instr_DA_0_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte) { instr_group_DA_mem_jit(ctx, modrm_byte, "fpu_fadd") } pub fn instr_DA_1_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte) { instr_group_DA_mem_jit(ctx, modrm_byte, "fpu_fmul") } pub fn instr_DA_2_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte) { codegen::gen_fpu_load_i32(ctx, modrm_byte); ctx.builder.call_fn2_i64_i32("fpu_fcom") } pub fn instr_DA_3_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte) { codegen::gen_fpu_load_i32(ctx, modrm_byte); ctx.builder.call_fn2_i64_i32("fpu_fcomp") } pub fn instr_DA_4_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte) { instr_group_DA_mem_jit(ctx, modrm_byte, "fpu_fsub") } pub fn instr_DA_5_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte) { instr_group_DA_mem_jit(ctx, modrm_byte, "fpu_fsubr") } pub fn instr_DA_6_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte) { instr_group_DA_mem_jit(ctx, modrm_byte, "fpu_fdiv") } pub fn instr_DA_7_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte) { instr_group_DA_mem_jit(ctx, modrm_byte, "fpu_fdivr") } pub fn instr_DB_0_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte) { codegen::gen_fpu_load_i32(ctx, modrm_byte); ctx.builder.call_fn2_i64_i32("fpu_push"); } pub fn instr_DB_0_reg_jit(ctx: &mut JitContext, r: u32) { codegen::gen_fn1_const(ctx.builder, "instr_DB_0_reg", r); } pub fn instr_DB_2_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte) { codegen::gen_modrm_resolve(ctx, modrm_byte); let address_local = ctx.builder.set_new_local(); codegen::gen_fpu_get_sti(ctx, 0); ctx.builder.call_fn2_i64_i32_ret("fpu_convert_to_i32"); let value_local = ctx.builder.set_new_local(); codegen::gen_safe_write32(ctx, &address_local, &value_local); ctx.builder.free_local(address_local); ctx.builder.free_local(value_local); } pub fn instr_DB_2_reg_jit(ctx: &mut JitContext, r: u32) { codegen::gen_fn1_const(ctx.builder, "instr_DB_2_reg", r); } pub fn instr_DB_3_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte) { codegen::gen_modrm_resolve(ctx, modrm_byte); let address_local = ctx.builder.set_new_local(); codegen::gen_fpu_get_sti(ctx, 0); ctx.builder.call_fn2_i64_i32_ret("fpu_convert_to_i32"); let value_local = ctx.builder.set_new_local(); codegen::gen_safe_write32(ctx, &address_local, &value_local); ctx.builder.free_local(address_local); ctx.builder.free_local(value_local); codegen::gen_fn0_const(ctx.builder, "fpu_pop"); } pub fn instr_DB_3_reg_jit(ctx: &mut JitContext, r: u32) { codegen::gen_fn1_const(ctx.builder, "instr_DB_3_reg", r); } pub fn instr_DB_5_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte) { codegen::gen_modrm_resolve(ctx, modrm_byte); codegen::gen_set_previous_eip_offset_from_eip_with_low_bits( ctx.builder, ctx.start_of_current_instruction as i32 & 0xFFF, ); codegen::gen_move_registers_from_locals_to_memory(ctx); ctx.builder.call_fn1("fpu_fldm80"); codegen::gen_move_registers_from_memory_to_locals(ctx); codegen::gen_get_page_fault(ctx.builder); ctx.builder.if_void(); codegen::gen_debug_track_jit_exit(ctx.builder, ctx.start_of_current_instruction); ctx.builder.br(ctx.exit_label); ctx.builder.block_end(); } pub fn instr_DB_5_reg_jit(ctx: &mut JitContext, r: u32) { ctx.builder.const_i32(r as i32); ctx.builder.call_fn1("fpu_fucomi"); } pub fn instr_DB_6_mem_jit(ctx: &mut JitContext, _modrm_byte: ModrmByte) { codegen::gen_trigger_ud(ctx); } pub fn instr_DB_6_reg_jit(ctx: &mut JitContext, r: u32) { ctx.builder.const_i32(r as i32); ctx.builder.call_fn1("fpu_fcomi"); } fn instr_group_DC_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte, op: &str) { ctx.builder.const_i32(0); codegen::gen_fpu_load_m64(ctx, modrm_byte); ctx.builder.call_fn3_i32_i64_i32(op) } fn instr_group_DC_reg_jit(ctx: &mut JitContext, r: u32, op: &str) { ctx.builder.const_i32(r as i32); codegen::gen_fpu_get_sti(ctx, r); ctx.builder.call_fn3_i32_i64_i32(op) } pub fn instr_DC_0_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte) { instr_group_DC_mem_jit(ctx, modrm_byte, "fpu_fadd") } pub fn instr_DC_0_reg_jit(ctx: &mut JitContext, r: u32) { instr_group_DC_reg_jit(ctx, r, "fpu_fadd") } pub fn instr_DC_1_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte) { instr_group_DC_mem_jit(ctx, modrm_byte, "fpu_fmul") } pub fn instr_DC_1_reg_jit(ctx: &mut JitContext, r: u32) { instr_group_DC_reg_jit(ctx, r, "fpu_fmul") } pub fn instr_DC_2_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte) { codegen::gen_fpu_load_m64(ctx, modrm_byte); ctx.builder.call_fn2_i64_i32("fpu_fcom") } pub fn instr_DC_2_reg_jit(ctx: &mut JitContext, r: u32) { codegen::gen_fpu_get_sti(ctx, r); ctx.builder.call_fn2_i64_i32("fpu_fcom") } pub fn instr_DC_3_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte) { codegen::gen_fpu_load_m64(ctx, modrm_byte); ctx.builder.call_fn2_i64_i32("fpu_fcomp") } pub fn instr_DC_3_reg_jit(ctx: &mut JitContext, r: u32) { codegen::gen_fpu_get_sti(ctx, r); ctx.builder.call_fn2_i64_i32("fpu_fcomp") } pub fn instr_DC_4_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte) { instr_group_DC_mem_jit(ctx, modrm_byte, "fpu_fsub") } pub fn instr_DC_4_reg_jit(ctx: &mut JitContext, r: u32) { instr_group_DC_reg_jit(ctx, r, "fpu_fsub") } pub fn instr_DC_5_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte) { instr_group_DC_mem_jit(ctx, modrm_byte, "fpu_fsubr") } pub fn instr_DC_5_reg_jit(ctx: &mut JitContext, r: u32) { instr_group_DC_reg_jit(ctx, r, "fpu_fsubr") } pub fn instr_DC_6_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte) { instr_group_DC_mem_jit(ctx, modrm_byte, "fpu_fdiv") } pub fn instr_DC_6_reg_jit(ctx: &mut JitContext, r: u32) { instr_group_DC_reg_jit(ctx, r, "fpu_fdiv") } pub fn instr_DC_7_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte) { instr_group_DC_mem_jit(ctx, modrm_byte, "fpu_fdivr") } pub fn instr_DC_7_reg_jit(ctx: &mut JitContext, r: u32) { instr_group_DC_reg_jit(ctx, r, "fpu_fdivr") } pub fn instr16_DD_0_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte) { codegen::gen_fpu_load_m64(ctx, modrm_byte); ctx.builder.call_fn2_i64_i32("fpu_push"); } pub fn instr16_DD_0_reg_jit(ctx: &mut JitContext, r: u32) { codegen::gen_fn1_const(ctx.builder, "fpu_ffree", r); } pub fn instr32_DD_0_reg_jit(ctx: &mut JitContext, r: u32) { instr16_DD_0_reg_jit(ctx, r) } pub fn instr32_DD_0_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte) { instr16_DD_0_mem_jit(ctx, modrm_byte) } pub fn instr16_DD_2_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte) { codegen::gen_modrm_resolve(ctx, modrm_byte); let address_local = ctx.builder.set_new_local(); codegen::gen_fpu_get_sti(ctx, 0); ctx.builder.call_fn2_i64_i32_ret_i64("f80_to_f64"); let value_local = ctx.builder.set_new_local_i64(); codegen::gen_safe_write64(ctx, &address_local, &value_local); ctx.builder.free_local(address_local); ctx.builder.free_local_i64(value_local); } pub fn instr16_DD_2_reg_jit(ctx: &mut JitContext, r: u32) { codegen::gen_fn1_const(ctx.builder, "fpu_fst", r); } pub fn instr32_DD_2_reg_jit(ctx: &mut JitContext, r: u32) { instr16_DD_2_reg_jit(ctx, r) } pub fn instr32_DD_2_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte) { instr16_DD_2_mem_jit(ctx, modrm_byte) } pub fn instr16_DD_3_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte) { codegen::gen_modrm_resolve(ctx, modrm_byte); let address_local = ctx.builder.set_new_local(); codegen::gen_fpu_get_sti(ctx, 0); ctx.builder.call_fn2_i64_i32_ret_i64("f80_to_f64"); let value_local = ctx.builder.set_new_local_i64(); codegen::gen_safe_write64(ctx, &address_local, &value_local); codegen::gen_fn0_const(ctx.builder, "fpu_pop"); ctx.builder.free_local(address_local); ctx.builder.free_local_i64(value_local); } pub fn instr16_DD_3_reg_jit(ctx: &mut JitContext, r: u32) { codegen::gen_fn1_const(ctx.builder, "fpu_fstp", r); } pub fn instr32_DD_3_reg_jit(ctx: &mut JitContext, r: u32) { instr16_DD_3_reg_jit(ctx, r) } pub fn instr32_DD_3_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte) { instr16_DD_3_mem_jit(ctx, modrm_byte) } pub fn instr16_DD_5_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte) { codegen::gen_modrm_resolve(ctx, modrm_byte); codegen::gen_trigger_ud(ctx); } pub fn instr16_DD_5_reg_jit(ctx: &mut JitContext, r: u32) { ctx.builder.const_i32(r as i32); ctx.builder.call_fn1("fpu_fucomp"); } pub fn instr32_DD_5_reg_jit(ctx: &mut JitContext, r: u32) { instr16_DD_5_reg_jit(ctx, r) } pub fn instr32_DD_5_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte) { instr16_DD_5_mem_jit(ctx, modrm_byte) } fn instr_group_DE_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte, op: &str) { ctx.builder.const_i32(0); codegen::gen_fpu_load_i16(ctx, modrm_byte); ctx.builder.call_fn3_i32_i64_i32(op) } fn instr_group_DE_reg_jit(ctx: &mut JitContext, r: u32, op: &str) { ctx.builder.const_i32(r as i32); codegen::gen_fpu_get_sti(ctx, r); ctx.builder.call_fn3_i32_i64_i32(op); codegen::gen_fn0_const(ctx.builder, "fpu_pop") } pub fn instr_DE_0_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte) { instr_group_DE_mem_jit(ctx, modrm_byte, "fpu_fadd") } pub fn instr_DE_0_reg_jit(ctx: &mut JitContext, r: u32) { instr_group_DE_reg_jit(ctx, r, "fpu_fadd") } pub fn instr_DE_1_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte) { instr_group_DE_mem_jit(ctx, modrm_byte, "fpu_fmul") } pub fn instr_DE_1_reg_jit(ctx: &mut JitContext, r: u32) { instr_group_DE_reg_jit(ctx, r, "fpu_fmul") } pub fn instr_DE_2_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte) { codegen::gen_fpu_load_i16(ctx, modrm_byte); ctx.builder.call_fn2_i64_i32("fpu_fcom") } pub fn instr_DE_2_reg_jit(ctx: &mut JitContext, r: u32) { codegen::gen_fpu_get_sti(ctx, r); ctx.builder.call_fn2_i64_i32("fpu_fcom"); codegen::gen_fn0_const(ctx.builder, "fpu_pop") } pub fn instr_DE_3_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte) { codegen::gen_fpu_load_i16(ctx, modrm_byte); ctx.builder.call_fn2_i64_i32("fpu_fcomp") } pub fn instr_DE_3_reg_jit(ctx: &mut JitContext, r: u32) { if r == 1 { codegen::gen_fpu_get_sti(ctx, r); ctx.builder.call_fn2_i64_i32("fpu_fcomp"); codegen::gen_fn0_const(ctx.builder, "fpu_pop") } else { codegen::gen_trigger_ud(ctx); } } pub fn instr_DE_4_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte) { instr_group_DE_mem_jit(ctx, modrm_byte, "fpu_fsub") } pub fn instr_DE_4_reg_jit(ctx: &mut JitContext, r: u32) { instr_group_DE_reg_jit(ctx, r, "fpu_fsub") } pub fn instr_DE_5_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte) { instr_group_DE_mem_jit(ctx, modrm_byte, "fpu_fsubr") } pub fn instr_DE_5_reg_jit(ctx: &mut JitContext, r: u32) { instr_group_DE_reg_jit(ctx, r, "fpu_fsubr") } pub fn instr_DE_6_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte) { instr_group_DE_mem_jit(ctx, modrm_byte, "fpu_fdiv") } pub fn instr_DE_6_reg_jit(ctx: &mut JitContext, r: u32) { instr_group_DE_reg_jit(ctx, r, "fpu_fdiv") } pub fn instr_DE_7_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte) { instr_group_DE_mem_jit(ctx, modrm_byte, "fpu_fdivr") } pub fn instr_DE_7_reg_jit(ctx: &mut JitContext, r: u32) { instr_group_DE_reg_jit(ctx, r, "fpu_fdivr") } pub fn instr_DF_2_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte) { codegen::gen_modrm_resolve(ctx, modrm_byte); let address_local = ctx.builder.set_new_local(); codegen::gen_fpu_get_sti(ctx, 0); ctx.builder.call_fn2_i64_i32_ret("fpu_convert_to_i16"); let value_local = ctx.builder.set_new_local(); codegen::gen_safe_write16(ctx, &address_local, &value_local); ctx.builder.free_local(address_local); ctx.builder.free_local(value_local); } pub fn instr_DF_2_reg_jit(ctx: &mut JitContext, r: u32) { codegen::gen_fn1_const(ctx.builder, "fpu_fstp", r); } pub fn instr_DF_3_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte) { codegen::gen_modrm_resolve(ctx, modrm_byte); let address_local = ctx.builder.set_new_local(); codegen::gen_fpu_get_sti(ctx, 0); ctx.builder.call_fn2_i64_i32_ret("fpu_convert_to_i16"); let value_local = ctx.builder.set_new_local(); codegen::gen_safe_write16(ctx, &address_local, &value_local); ctx.builder.free_local(address_local); ctx.builder.free_local(value_local); codegen::gen_fn0_const(ctx.builder, "fpu_pop"); } pub fn instr_DF_3_reg_jit(ctx: &mut JitContext, r: u32) { codegen::gen_fn1_const(ctx.builder, "fpu_fstp", r); } pub fn instr_DF_4_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte) { dbg_log!("fbld"); codegen::gen_modrm_resolve(ctx, modrm_byte); codegen::gen_trigger_ud(ctx); } pub fn instr_DF_4_reg_jit(ctx: &mut JitContext, r: u32) { if r == 0 { ctx.builder.call_fn0_ret("fpu_load_status_word"); codegen::gen_set_reg16(ctx, regs::AX); } else { codegen::gen_trigger_ud(ctx); }; } pub fn instr_DF_5_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte) { codegen::gen_fpu_load_i64(ctx, modrm_byte); ctx.builder.call_fn2_i64_i32("fpu_push"); } pub fn instr_DF_5_reg_jit(ctx: &mut JitContext, r: u32) { codegen::gen_fn1_const(ctx.builder, "fpu_fucomip", r); } pub fn instr_DF_6_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte) { codegen::gen_modrm_resolve(ctx, modrm_byte); codegen::gen_set_previous_eip_offset_from_eip_with_low_bits( ctx.builder, ctx.start_of_current_instruction as i32 & 0xFFF, ); codegen::gen_move_registers_from_locals_to_memory(ctx); ctx.builder.call_fn1("fpu_fbstp"); codegen::gen_move_registers_from_memory_to_locals(ctx); codegen::gen_get_page_fault(ctx.builder); ctx.builder.if_void(); codegen::gen_debug_track_jit_exit(ctx.builder, ctx.start_of_current_instruction); ctx.builder.br(ctx.exit_label); ctx.builder.block_end(); } pub fn instr_DF_6_reg_jit(ctx: &mut JitContext, r: u32) { ctx.builder.const_i32(r as i32); ctx.builder.call_fn1("fpu_fcomip"); } pub fn instr_DF_7_reg_jit(ctx: &mut JitContext, _r: u32) { codegen::gen_trigger_ud(ctx); } pub fn instr_DF_7_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte) { codegen::gen_modrm_resolve(ctx, modrm_byte); let address_local = ctx.builder.set_new_local(); codegen::gen_fpu_get_sti(ctx, 0); ctx.builder.call_fn2_i64_i32_ret_i64("fpu_convert_to_i64"); let value_local = ctx.builder.set_new_local_i64(); codegen::gen_safe_write64(ctx, &address_local, &value_local); ctx.builder.free_local(address_local); ctx.builder.free_local_i64(value_local); codegen::gen_fn0_const(ctx.builder, "fpu_pop"); } pub fn instr16_EB_jit(_ctx: &mut JitContext, _imm8: u32) { // } pub fn instr32_EB_jit(_ctx: &mut JitContext, _imm8: u32) { // jmp near } define_instruction_read8!(gen_test8, instr_F6_0_mem_jit, instr_F6_0_reg_jit, imm8); define_instruction_read16!( gen_test16, instr16_F7_0_mem_jit, instr16_F7_0_reg_jit, imm16 ); define_instruction_read32!( gen_test32, instr32_F7_0_mem_jit, instr32_F7_0_reg_jit, imm32 ); pub fn instr_F6_1_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte, imm: u32) { instr_F6_0_mem_jit(ctx, modrm_byte, imm) } pub fn instr_F6_1_reg_jit(ctx: &mut JitContext, r: u32, imm: u32) { instr_F6_0_reg_jit(ctx, r, imm) } pub fn instr16_F7_1_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte, imm: u32) { instr16_F7_0_mem_jit(ctx, modrm_byte, imm) } pub fn instr16_F7_1_reg_jit(ctx: &mut JitContext, r: u32, imm: u32) { instr16_F7_0_reg_jit(ctx, r, imm) } pub fn instr32_F7_1_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte, imm: u32) { instr32_F7_0_mem_jit(ctx, modrm_byte, imm) } pub fn instr32_F7_1_reg_jit(ctx: &mut JitContext, r: u32, imm: u32) { instr32_F7_0_reg_jit(ctx, r, imm) } define_instruction_read_write_mem8!("not8", instr_F6_2_mem_jit, instr_F6_2_reg_jit, none); define_instruction_read_write_mem8!("neg8", instr_F6_3_mem_jit, instr_F6_3_reg_jit, none); define_instruction_read_write_mem16!(gen_not16, instr16_F7_2_mem_jit, instr16_F7_2_reg_jit, none); define_instruction_read_write_mem32!(gen_not32, instr32_F7_2_mem_jit, instr32_F7_2_reg_jit, none); define_instruction_read_write_mem16!(gen_neg16, instr16_F7_3_mem_jit, instr16_F7_3_reg_jit, none); define_instruction_read_write_mem32!(gen_neg32, instr32_F7_3_mem_jit, instr32_F7_3_reg_jit, none); pub fn instr16_F7_4_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte) { codegen::gen_modrm_resolve_safe_read16(ctx, modrm_byte); codegen::gen_move_registers_from_locals_to_memory(ctx); ctx.builder.call_fn1("mul16"); codegen::gen_move_registers_from_memory_to_locals(ctx); } pub fn instr16_F7_4_reg_jit(ctx: &mut JitContext, r: u32) { codegen::gen_get_reg16(ctx, r); codegen::gen_move_registers_from_locals_to_memory(ctx); ctx.builder.call_fn1("mul16"); codegen::gen_move_registers_from_memory_to_locals(ctx); } pub fn instr32_F7_4_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte) { codegen::gen_modrm_resolve_safe_read32(ctx, modrm_byte); gen_mul32(ctx); } pub fn instr32_F7_4_reg_jit(ctx: &mut JitContext, r: u32) { codegen::gen_get_reg32(ctx, r); gen_mul32(ctx); } pub fn instr16_F7_5_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte) { codegen::gen_modrm_resolve_safe_read16(ctx, modrm_byte); codegen::sign_extend_i16(ctx.builder); codegen::gen_move_registers_from_locals_to_memory(ctx); ctx.builder.call_fn1("imul16"); codegen::gen_move_registers_from_memory_to_locals(ctx); } pub fn instr16_F7_5_reg_jit(ctx: &mut JitContext, r: u32) { codegen::gen_get_reg16(ctx, r); codegen::sign_extend_i16(ctx.builder); codegen::gen_move_registers_from_locals_to_memory(ctx); ctx.builder.call_fn1("imul16"); codegen::gen_move_registers_from_memory_to_locals(ctx); } pub fn instr32_F7_5_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte) { codegen::gen_modrm_resolve_safe_read32(ctx, modrm_byte); gen_imul32(ctx); } pub fn instr32_F7_5_reg_jit(ctx: &mut JitContext, r: u32) { codegen::gen_get_reg32(ctx, r); gen_imul32(ctx); } pub fn instr16_F7_6_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte) { codegen::gen_modrm_resolve_safe_read16(ctx, modrm_byte); codegen::gen_move_registers_from_locals_to_memory(ctx); ctx.builder.call_fn1_ret("div16_without_fault"); codegen::gen_move_registers_from_memory_to_locals(ctx); ctx.builder.eqz_i32(); ctx.builder.if_void(); codegen::gen_trigger_de(ctx); ctx.builder.block_end(); } pub fn instr16_F7_6_reg_jit(ctx: &mut JitContext, r: u32) { codegen::gen_get_reg16(ctx, r); codegen::gen_move_registers_from_locals_to_memory(ctx); ctx.builder.call_fn1_ret("div16_without_fault"); codegen::gen_move_registers_from_memory_to_locals(ctx); ctx.builder.eqz_i32(); ctx.builder.if_void(); codegen::gen_trigger_de(ctx); ctx.builder.block_end(); } pub fn instr32_F7_6_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte) { if false { codegen::gen_modrm_resolve_safe_read32(ctx, modrm_byte); codegen::gen_move_registers_from_locals_to_memory(ctx); ctx.builder.call_fn1_ret("div32_without_fault"); codegen::gen_move_registers_from_memory_to_locals(ctx); ctx.builder.eqz_i32(); ctx.builder.if_void(); codegen::gen_trigger_de(ctx); ctx.builder.block_end(); } else { codegen::gen_modrm_resolve_safe_read32(ctx, modrm_byte); let source_operand = ctx.builder.set_new_local(); gen_div32(ctx, &source_operand); ctx.builder.free_local(source_operand); } } pub fn instr32_F7_6_reg_jit(ctx: &mut JitContext, r: u32) { if false { codegen::gen_get_reg32(ctx, r); codegen::gen_move_registers_from_locals_to_memory(ctx); ctx.builder.call_fn1_ret("div32_without_fault"); codegen::gen_move_registers_from_memory_to_locals(ctx); ctx.builder.eqz_i32(); ctx.builder.if_void(); codegen::gen_trigger_de(ctx); ctx.builder.block_end(); } else { gen_div32(ctx, &ctx.reg(r)); } } pub fn instr16_F7_7_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte) { codegen::gen_modrm_resolve_safe_read16(ctx, modrm_byte); codegen::sign_extend_i16(ctx.builder); codegen::gen_move_registers_from_locals_to_memory(ctx); ctx.builder.call_fn1_ret("idiv16_without_fault"); codegen::gen_move_registers_from_memory_to_locals(ctx); ctx.builder.eqz_i32(); ctx.builder.if_void(); codegen::gen_trigger_de(ctx); ctx.builder.block_end(); } pub fn instr16_F7_7_reg_jit(ctx: &mut JitContext, r: u32) { codegen::gen_get_reg16(ctx, r); codegen::sign_extend_i16(ctx.builder); codegen::gen_move_registers_from_locals_to_memory(ctx); ctx.builder.call_fn1_ret("idiv16_without_fault"); codegen::gen_move_registers_from_memory_to_locals(ctx); ctx.builder.eqz_i32(); ctx.builder.if_void(); codegen::gen_trigger_de(ctx); ctx.builder.block_end(); } pub fn instr32_F7_7_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte) { codegen::gen_modrm_resolve_safe_read32(ctx, modrm_byte); codegen::gen_move_registers_from_locals_to_memory(ctx); ctx.builder.call_fn1_ret("idiv32_without_fault"); codegen::gen_move_registers_from_memory_to_locals(ctx); ctx.builder.eqz_i32(); ctx.builder.if_void(); codegen::gen_trigger_de(ctx); ctx.builder.block_end(); } pub fn instr32_F7_7_reg_jit(ctx: &mut JitContext, r: u32) { codegen::gen_get_reg32(ctx, r); codegen::gen_move_registers_from_locals_to_memory(ctx); ctx.builder.call_fn1_ret("idiv32_without_fault"); codegen::gen_move_registers_from_memory_to_locals(ctx); ctx.builder.eqz_i32(); ctx.builder.if_void(); codegen::gen_trigger_de(ctx); ctx.builder.block_end(); } pub fn instr_F8_jit(ctx: &mut JitContext) { codegen::gen_clear_flags_changed_bits(ctx.builder, 1); codegen::gen_clear_flags_bits(ctx.builder, 1); } pub fn instr_F9_jit(ctx: &mut JitContext) { codegen::gen_clear_flags_changed_bits(ctx.builder, 1); codegen::gen_set_flags_bits(ctx.builder, 1); } pub fn instr_FA_jit(ctx: &mut JitContext) { ctx.builder.call_fn0_ret("instr_FA_without_fault"); ctx.builder.eqz_i32(); ctx.builder.if_void(); codegen::gen_trigger_gp(ctx, 0); ctx.builder.block_end(); } pub fn instr_FB_jit(ctx: &mut JitContext) { ctx.builder.call_fn0_ret("instr_FB_without_fault"); ctx.builder.eqz_i32(); ctx.builder.if_void(); codegen::gen_trigger_gp(ctx, 0); ctx.builder.block_end(); // handle_irqs is specially handled in jit to be called one instruction after this one } pub fn instr_FC_jit(ctx: &mut JitContext) { ctx.builder.const_i32(global_pointers::flags as i32); codegen::gen_get_flags(ctx.builder); ctx.builder.const_i32(!FLAG_DIRECTION); ctx.builder.and_i32(); ctx.builder.store_aligned_i32(0); } pub fn instr_FD_jit(ctx: &mut JitContext) { ctx.builder.const_i32(global_pointers::flags as i32); codegen::gen_get_flags(ctx.builder); ctx.builder.const_i32(FLAG_DIRECTION); ctx.builder.or_i32(); ctx.builder.store_aligned_i32(0); } define_instruction_read_write_mem8!("inc8", instr_FE_0_mem_jit, instr_FE_0_reg_jit, none); define_instruction_read_write_mem8!("dec8", instr_FE_1_mem_jit, instr_FE_1_reg_jit, none); define_instruction_read_write_mem16!(gen_inc16, instr16_FF_0_mem_jit, instr16_FF_0_reg_jit, none); define_instruction_read_write_mem32!(gen_inc32, instr32_FF_0_mem_jit, instr32_FF_0_reg_jit, none); define_instruction_read_write_mem16!(gen_dec16, instr16_FF_1_mem_jit, instr16_FF_1_reg_jit, none); define_instruction_read_write_mem32!(gen_dec32, instr32_FF_1_mem_jit, instr32_FF_1_reg_jit, none); pub fn instr16_FF_2_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte) { codegen::gen_modrm_resolve_safe_read16(ctx, modrm_byte); codegen::gen_add_cs_offset(ctx); let new_eip = ctx.builder.set_new_local(); codegen::gen_get_real_eip(ctx); let value_local = ctx.builder.set_new_local(); codegen::gen_push16(ctx, &value_local); ctx.builder.free_local(value_local); ctx.builder.const_i32(0); ctx.builder.get_local(&new_eip); ctx.builder .store_aligned_i32(global_pointers::instruction_pointer as u32); ctx.builder.free_local(new_eip); } pub fn instr16_FF_2_reg_jit(ctx: &mut JitContext, r: u32) { codegen::gen_get_real_eip(ctx); let value_local = ctx.builder.set_new_local(); codegen::gen_push16(ctx, &value_local); ctx.builder.free_local(value_local); ctx.builder.const_i32(0); codegen::gen_get_reg16(ctx, r); codegen::gen_add_cs_offset(ctx); ctx.builder .store_aligned_i32(global_pointers::instruction_pointer as u32); } pub fn instr32_FF_2_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte) { codegen::gen_modrm_resolve_safe_read32(ctx, modrm_byte); codegen::gen_add_cs_offset(ctx); let new_eip = ctx.builder.set_new_local(); codegen::gen_get_real_eip(ctx); let value_local = ctx.builder.set_new_local(); codegen::gen_push32(ctx, &value_local); ctx.builder.free_local(value_local); ctx.builder.const_i32(0); ctx.builder.get_local(&new_eip); ctx.builder .store_aligned_i32(global_pointers::instruction_pointer as u32); ctx.builder.free_local(new_eip); } pub fn instr32_FF_2_reg_jit(ctx: &mut JitContext, r: u32) { codegen::gen_get_real_eip(ctx); let value_local = ctx.builder.set_new_local(); codegen::gen_push32(ctx, &value_local); ctx.builder.free_local(value_local); ctx.builder.const_i32(0); codegen::gen_get_reg32(ctx, r); codegen::gen_add_cs_offset(ctx); ctx.builder .store_aligned_i32(global_pointers::instruction_pointer as u32); } pub fn instr16_FF_4_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte) { ctx.builder.const_i32(0); codegen::gen_modrm_resolve_safe_read16(ctx, modrm_byte); codegen::gen_add_cs_offset(ctx); ctx.builder .store_aligned_i32(global_pointers::instruction_pointer as u32); } pub fn instr16_FF_4_reg_jit(ctx: &mut JitContext, r: u32) { ctx.builder.const_i32(0); codegen::gen_get_reg16(ctx, r); codegen::gen_add_cs_offset(ctx); ctx.builder .store_aligned_i32(global_pointers::instruction_pointer as u32); } pub fn instr32_FF_4_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte) { ctx.builder.const_i32(0); codegen::gen_modrm_resolve_safe_read32(ctx, modrm_byte); codegen::gen_add_cs_offset(ctx); ctx.builder .store_aligned_i32(global_pointers::instruction_pointer as u32); } pub fn instr32_FF_4_reg_jit(ctx: &mut JitContext, r: u32) { ctx.builder.const_i32(0); codegen::gen_get_reg32(ctx, r); codegen::gen_add_cs_offset(ctx); ctx.builder .store_aligned_i32(global_pointers::instruction_pointer as u32); } pub fn instr16_FF_6_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte) { push16_mem_jit(ctx, modrm_byte) } pub fn instr16_FF_6_reg_jit(ctx: &mut JitContext, r: u32) { push16_reg_jit(ctx, r) } pub fn instr32_FF_6_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte) { push32_mem_jit(ctx, modrm_byte) } pub fn instr32_FF_6_reg_jit(ctx: &mut JitContext, r: u32) { push32_reg_jit(ctx, r) } // Code for conditional jumps is generated automatically by the basic block codegen pub fn instr16_0F80_jit(_ctx: &mut JitContext, _imm: u32) {} pub fn instr16_0F81_jit(_ctx: &mut JitContext, _imm: u32) {} pub fn instr16_0F82_jit(_ctx: &mut JitContext, _imm: u32) {} pub fn instr16_0F83_jit(_ctx: &mut JitContext, _imm: u32) {} pub fn instr16_0F84_jit(_ctx: &mut JitContext, _imm: u32) {} pub fn instr16_0F85_jit(_ctx: &mut JitContext, _imm: u32) {} pub fn instr16_0F86_jit(_ctx: &mut JitContext, _imm: u32) {} pub fn instr16_0F87_jit(_ctx: &mut JitContext, _imm: u32) {} pub fn instr16_0F88_jit(_ctx: &mut JitContext, _imm: u32) {} pub fn instr16_0F89_jit(_ctx: &mut JitContext, _imm: u32) {} pub fn instr16_0F8A_jit(_ctx: &mut JitContext, _imm: u32) {} pub fn instr16_0F8B_jit(_ctx: &mut JitContext, _imm: u32) {} pub fn instr16_0F8C_jit(_ctx: &mut JitContext, _imm: u32) {} pub fn instr16_0F8D_jit(_ctx: &mut JitContext, _imm: u32) {} pub fn instr16_0F8E_jit(_ctx: &mut JitContext, _imm: u32) {} pub fn instr16_0F8F_jit(_ctx: &mut JitContext, _imm: u32) {} pub fn instr32_0F80_jit(_ctx: &mut JitContext, _imm: u32) {} pub fn instr32_0F81_jit(_ctx: &mut JitContext, _imm: u32) {} pub fn instr32_0F82_jit(_ctx: &mut JitContext, _imm: u32) {} pub fn instr32_0F83_jit(_ctx: &mut JitContext, _imm: u32) {} pub fn instr32_0F84_jit(_ctx: &mut JitContext, _imm: u32) {} pub fn instr32_0F85_jit(_ctx: &mut JitContext, _imm: u32) {} pub fn instr32_0F86_jit(_ctx: &mut JitContext, _imm: u32) {} pub fn instr32_0F87_jit(_ctx: &mut JitContext, _imm: u32) {} pub fn instr32_0F88_jit(_ctx: &mut JitContext, _imm: u32) {} pub fn instr32_0F89_jit(_ctx: &mut JitContext, _imm: u32) {} pub fn instr32_0F8A_jit(_ctx: &mut JitContext, _imm: u32) {} pub fn instr32_0F8B_jit(_ctx: &mut JitContext, _imm: u32) {} pub fn instr32_0F8C_jit(_ctx: &mut JitContext, _imm: u32) {} pub fn instr32_0F8D_jit(_ctx: &mut JitContext, _imm: u32) {} pub fn instr32_0F8E_jit(_ctx: &mut JitContext, _imm: u32) {} pub fn instr32_0F8F_jit(_ctx: &mut JitContext, _imm: u32) {} pub fn instr_90_jit(_ctx: &mut JitContext) {} fn gen_xchg_reg16(ctx: &mut JitContext, r: u32) { codegen::gen_get_reg16(ctx, r); let tmp = ctx.builder.set_new_local(); codegen::gen_get_reg16(ctx, regs::AX); codegen::gen_set_reg16(ctx, r); ctx.builder.get_local(&tmp); codegen::gen_set_reg16(ctx, regs::AX); ctx.builder.free_local(tmp); } fn gen_xchg_reg32(ctx: &mut JitContext, r: u32) { codegen::gen_get_reg32(ctx, r); let tmp = ctx.builder.set_new_local(); codegen::gen_get_reg32(ctx, regs::EAX); codegen::gen_set_reg32(ctx, r); ctx.builder.get_local(&tmp); codegen::gen_set_reg32(ctx, regs::EAX); ctx.builder.free_local(tmp); } pub fn instr16_91_jit(ctx: &mut JitContext) { gen_xchg_reg16(ctx, regs::CX); } pub fn instr16_92_jit(ctx: &mut JitContext) { gen_xchg_reg16(ctx, regs::DX); } pub fn instr16_93_jit(ctx: &mut JitContext) { gen_xchg_reg16(ctx, regs::BX); } pub fn instr16_94_jit(ctx: &mut JitContext) { gen_xchg_reg16(ctx, regs::SP); } pub fn instr16_95_jit(ctx: &mut JitContext) { gen_xchg_reg16(ctx, regs::BP); } pub fn instr16_96_jit(ctx: &mut JitContext) { gen_xchg_reg16(ctx, regs::SI); } pub fn instr16_97_jit(ctx: &mut JitContext) { gen_xchg_reg16(ctx, regs::DI); } pub fn instr32_91_jit(ctx: &mut JitContext) { gen_xchg_reg32(ctx, regs::CX); } pub fn instr32_92_jit(ctx: &mut JitContext) { gen_xchg_reg32(ctx, regs::DX); } pub fn instr32_93_jit(ctx: &mut JitContext) { gen_xchg_reg32(ctx, regs::BX); } pub fn instr32_94_jit(ctx: &mut JitContext) { gen_xchg_reg32(ctx, regs::SP); } pub fn instr32_95_jit(ctx: &mut JitContext) { gen_xchg_reg32(ctx, regs::BP); } pub fn instr32_96_jit(ctx: &mut JitContext) { gen_xchg_reg32(ctx, regs::SI); } pub fn instr32_97_jit(ctx: &mut JitContext) { gen_xchg_reg32(ctx, regs::DI); } pub fn instr16_98_jit(ctx: &mut JitContext) { codegen::gen_get_reg32(ctx, regs::EAX); codegen::sign_extend_i8(ctx.builder); codegen::gen_set_reg16(ctx, regs::AX); } pub fn instr32_98_jit(ctx: &mut JitContext) { codegen::gen_get_reg32(ctx, regs::EAX); codegen::sign_extend_i16(ctx.builder); codegen::gen_set_reg32(ctx, regs::EAX); } pub fn instr16_99_jit(ctx: &mut JitContext) { codegen::gen_get_reg16(ctx, regs::AX); ctx.builder.const_i32(16); ctx.builder.shl_i32(); ctx.builder.const_i32(31); ctx.builder.shr_s_i32(); codegen::gen_set_reg16(ctx, regs::DX); } pub fn instr32_99_jit(ctx: &mut JitContext) { codegen::gen_get_reg32(ctx, regs::EAX); ctx.builder.const_i32(31); ctx.builder.shr_s_i32(); codegen::gen_set_reg32(ctx, regs::EDX); } fn gen_pushf_popf_check(ctx: &mut JitContext) { // 0 != *flags & FLAG_VM && getiopl() < 3 codegen::gen_get_flags(ctx.builder); ctx.builder.const_i32(FLAG_VM); ctx.builder.and_i32(); ctx.builder.const_i32(FLAG_VM); ctx.builder.eq_i32(); codegen::gen_get_flags(ctx.builder); ctx.builder.const_i32(FLAG_IOPL); ctx.builder.and_i32(); ctx.builder.const_i32(FLAG_IOPL); ctx.builder.ne_i32(); ctx.builder.and_i32(); } pub fn instr16_9C_jit(ctx: &mut JitContext) { gen_pushf_popf_check(ctx); ctx.builder.if_void(); codegen::gen_trigger_gp(ctx, 0); ctx.builder.else_(); ctx.builder.call_fn0_ret("get_eflags"); let value = ctx.builder.set_new_local(); codegen::gen_push16(ctx, &value); ctx.builder.block_end(); ctx.builder.free_local(value); } pub fn instr32_9C_jit(ctx: &mut JitContext) { gen_pushf_popf_check(ctx); ctx.builder.if_void(); codegen::gen_trigger_gp(ctx, 0); ctx.builder.else_(); ctx.builder.call_fn0_ret("get_eflags"); ctx.builder.const_i32(0xFCFFFF); ctx.builder.and_i32(); let value = ctx.builder.set_new_local(); codegen::gen_push32(ctx, &value); ctx.builder.block_end(); ctx.builder.free_local(value); } fn gen_popf(ctx: &mut JitContext, is_32: bool) { gen_pushf_popf_check(ctx); ctx.builder.if_void(); codegen::gen_trigger_gp(ctx, 0); ctx.builder.else_(); codegen::gen_get_flags(ctx.builder); let old_eflags = ctx.builder.set_new_local(); if is_32 { codegen::gen_pop32s(ctx); } else { ctx.builder.get_local(&old_eflags); ctx.builder.const_i32(!0xFFFF); ctx.builder.and_i32(); codegen::gen_pop16(ctx); ctx.builder.or_i32(); } ctx.builder.call_fn1("update_eflags"); ctx.builder.get_local(&old_eflags); ctx.builder.free_local(old_eflags); ctx.builder.const_i32(FLAG_INTERRUPT); ctx.builder.and_i32(); ctx.builder.eqz_i32(); codegen::gen_get_flags(ctx.builder); ctx.builder.const_i32(FLAG_INTERRUPT); ctx.builder.and_i32(); ctx.builder.eqz_i32(); ctx.builder.eqz_i32(); ctx.builder.and_i32(); ctx.builder.if_void(); { codegen::gen_set_eip_to_after_current_instruction(ctx); codegen::gen_debug_track_jit_exit(ctx.builder, ctx.start_of_current_instruction); codegen::gen_move_registers_from_locals_to_memory(ctx); codegen::gen_fn0_const(ctx.builder, "handle_irqs"); codegen::gen_update_instruction_counter(ctx); ctx.builder.return_(); } ctx.builder.block_end(); ctx.builder.block_end(); } pub fn instr16_9D_jit(ctx: &mut JitContext) { gen_popf(ctx, false) } pub fn instr32_9D_jit(ctx: &mut JitContext) { gen_popf(ctx, true) } pub fn instr_9E_jit(ctx: &mut JitContext) { ctx.builder.const_i32(global_pointers::flags as i32); codegen::gen_get_flags(ctx.builder); ctx.builder.const_i32(!0xFF); ctx.builder.and_i32(); codegen::gen_get_reg8(ctx, regs::AH); ctx.builder.or_i32(); ctx.builder.const_i32(FLAGS_MASK); ctx.builder.and_i32(); ctx.builder.const_i32(FLAGS_DEFAULT); ctx.builder.or_i32(); ctx.builder.store_aligned_i32(0); codegen::gen_clear_flags_changed_bits(ctx.builder, 0xFF); } pub fn instr_9F_jit(ctx: &mut JitContext) { ctx.builder.call_fn0_ret("get_eflags"); codegen::gen_set_reg8(ctx, regs::AH); } pub fn instr_A0_jit(ctx: &mut JitContext, immaddr: u32) { ctx.builder.const_i32(immaddr as i32); jit_add_seg_offset(ctx, regs::DS); let address_local = ctx.builder.set_new_local(); codegen::gen_safe_read8(ctx, &address_local); ctx.builder.free_local(address_local); codegen::gen_set_reg8(ctx, regs::AL); } pub fn instr16_A1_jit(ctx: &mut JitContext, immaddr: u32) { ctx.builder.const_i32(immaddr as i32); jit_add_seg_offset(ctx, regs::DS); let address_local = ctx.builder.set_new_local(); codegen::gen_safe_read16(ctx, &address_local); ctx.builder.free_local(address_local); codegen::gen_set_reg16(ctx, regs::AX); } pub fn instr32_A1_jit(ctx: &mut JitContext, immaddr: u32) { ctx.builder.const_i32(immaddr as i32); jit_add_seg_offset(ctx, regs::DS); let address_local = ctx.builder.set_new_local(); codegen::gen_safe_read32(ctx, &address_local); ctx.builder.free_local(address_local); codegen::gen_set_reg32(ctx, regs::EAX); } pub fn instr_A2_jit(ctx: &mut JitContext, immaddr: u32) { ctx.builder.const_i32(immaddr as i32); jit_add_seg_offset(ctx, regs::DS); let address_local = ctx.builder.set_new_local(); codegen::gen_safe_write8(ctx, &address_local, &ctx.reg(regs::EAX)); ctx.builder.free_local(address_local); } pub fn instr16_A3_jit(ctx: &mut JitContext, immaddr: u32) { ctx.builder.const_i32(immaddr as i32); jit_add_seg_offset(ctx, regs::DS); let address_local = ctx.builder.set_new_local(); codegen::gen_safe_write16(ctx, &address_local, &ctx.reg(regs::EAX)); ctx.builder.free_local(address_local); } pub fn instr32_A3_jit(ctx: &mut JitContext, immaddr: u32) { ctx.builder.const_i32(immaddr as i32); jit_add_seg_offset(ctx, regs::DS); let address_local = ctx.builder.set_new_local(); codegen::gen_safe_write32(ctx, &address_local, &ctx.reg(regs::EAX)); ctx.builder.free_local(address_local); } pub fn instr_A8_jit(ctx: &mut JitContext, imm8: u32) { gen_test8(ctx, &ctx.reg(0), &LocalOrImmediate::Immediate(imm8 as i32)); } pub fn instr16_A9_jit(ctx: &mut JitContext, imm16: u32) { gen_test16(ctx, &ctx.reg(0), &LocalOrImmediate::Immediate(imm16 as i32)); } pub fn instr32_A9_jit(ctx: &mut JitContext, imm32: u32) { gen_test32(ctx, &ctx.reg(0), &LocalOrImmediate::Immediate(imm32 as i32)); } #[derive(PartialEq)] enum String { INS, OUTS, MOVS, CMPS, STOS, LODS, SCAS, } fn gen_string_ins(ctx: &mut JitContext, ins: String, size: u8, prefix: u8) { dbg_assert!(prefix == 0 || prefix == 0xF2 || prefix == 0xF3); dbg_assert!(size == 8 || size == 16 || size == 32); if prefix == 0 { fn get_direction(ctx: &mut JitContext, size: u8) { let bytes: i32 = (size / 8).into(); dbg_assert!(bytes == 1 || bytes == 2 || bytes == 4); ctx.builder.const_i32(-bytes); ctx.builder.const_i32(bytes); codegen::gen_get_flags(ctx.builder); ctx.builder.const_i32(FLAG_DIRECTION); ctx.builder.and_i32(); ctx.builder.select(); } match &ins { String::LODS => { if ctx.cpu.asize_32() { codegen::gen_get_reg32(ctx, regs::ESI); } else { codegen::gen_get_reg16(ctx, regs::ESI); } jit_add_seg_offset(ctx, regs::DS); let address_local = ctx.builder.set_new_local(); if size == 8 { codegen::gen_safe_read8(ctx, &address_local); ctx.builder.free_local(address_local); codegen::gen_set_reg8_unmasked(ctx, regs::AL); } else if size == 16 { codegen::gen_safe_read16(ctx, &address_local); ctx.builder.free_local(address_local); codegen::gen_set_reg16(ctx, regs::AX); } else { codegen::gen_safe_read32(ctx, &address_local); ctx.builder.free_local(address_local); codegen::gen_set_reg32(ctx, regs::EAX); } codegen::gen_get_reg32(ctx, regs::ESI); get_direction(ctx, size); ctx.builder.add_i32(); if ctx.cpu.asize_32() { codegen::gen_set_reg32(ctx, regs::ESI); } else { codegen::gen_set_reg16(ctx, regs::ESI); } return; }, String::SCAS => { if ctx.cpu.asize_32() { codegen::gen_get_reg32(ctx, regs::EDI); } else { codegen::gen_get_reg16(ctx, regs::EDI); } jit_add_seg_offset_no_override(ctx, regs::ES); let address_local = ctx.builder.set_new_local(); if size == 8 { codegen::gen_safe_read8(ctx, &address_local); ctx.builder.free_local(address_local); let value = ctx.builder.set_new_local(); gen_cmp8( ctx, &ctx.reg(regs::EAX), &LocalOrImmediate::WasmLocal(&value), ); ctx.builder.free_local(value); } else if size == 16 { codegen::gen_safe_read16(ctx, &address_local); ctx.builder.free_local(address_local); let value = ctx.builder.set_new_local(); gen_cmp16( ctx, &ctx.reg(regs::EAX), &LocalOrImmediate::WasmLocal(&value), ); ctx.builder.free_local(value); } else { codegen::gen_safe_read32(ctx, &address_local); ctx.builder.free_local(address_local); let value = ctx.builder.set_new_local(); gen_cmp32( ctx, &ctx.reg(regs::EAX), &LocalOrImmediate::WasmLocal(&value), ); ctx.builder.free_local(value); } codegen::gen_get_reg32(ctx, regs::EDI); get_direction(ctx, size); ctx.builder.add_i32(); if ctx.cpu.asize_32() { codegen::gen_set_reg32(ctx, regs::EDI); } else { codegen::gen_set_reg16(ctx, regs::EDI); } return; }, String::STOS => { if ctx.cpu.asize_32() { codegen::gen_get_reg32(ctx, regs::EDI); } else { codegen::gen_get_reg16(ctx, regs::EDI); } jit_add_seg_offset_no_override(ctx, regs::ES); let address_local = ctx.builder.set_new_local(); if size == 8 { codegen::gen_safe_write8(ctx, &address_local, &ctx.reg(regs::AL)); ctx.builder.free_local(address_local); } else if size == 16 { codegen::gen_safe_write16(ctx, &address_local, &ctx.reg(regs::AX)); ctx.builder.free_local(address_local); } else { codegen::gen_safe_write32(ctx, &address_local, &ctx.reg(regs::EAX)); ctx.builder.free_local(address_local); } codegen::gen_get_reg32(ctx, regs::EDI); get_direction(ctx, size); ctx.builder.add_i32(); if ctx.cpu.asize_32() { codegen::gen_set_reg32(ctx, regs::EDI); } else { codegen::gen_set_reg16(ctx, regs::EDI); } return; }, String::MOVS => { if ctx.cpu.asize_32() { codegen::gen_get_reg32(ctx, regs::EDI); } else { codegen::gen_get_reg16(ctx, regs::EDI); } jit_add_seg_offset_no_override(ctx, regs::ES); let dest_address = ctx.builder.set_new_local(); if ctx.cpu.asize_32() { codegen::gen_get_reg32(ctx, regs::ESI); } else { codegen::gen_get_reg16(ctx, regs::ESI); } jit_add_seg_offset(ctx, regs::DS); let source_address = ctx.builder.set_new_local(); if size == 8 { codegen::gen_safe_read8(ctx, &source_address); ctx.builder.free_local(source_address); let value = ctx.builder.set_new_local(); codegen::gen_safe_write8(ctx, &dest_address, &value); ctx.builder.free_local(value); } else if size == 16 { codegen::gen_safe_read16(ctx, &source_address); ctx.builder.free_local(source_address); let value = ctx.builder.set_new_local(); codegen::gen_safe_write16(ctx, &dest_address, &value); ctx.builder.free_local(value); } else { codegen::gen_safe_read32(ctx, &source_address); ctx.builder.free_local(source_address); let value = ctx.builder.set_new_local(); codegen::gen_safe_write32(ctx, &dest_address, &value); ctx.builder.free_local(value); } ctx.builder.free_local(dest_address); codegen::gen_get_reg32(ctx, regs::EDI); get_direction(ctx, size); ctx.builder.add_i32(); if ctx.cpu.asize_32() { codegen::gen_set_reg32(ctx, regs::EDI); } else { codegen::gen_set_reg16(ctx, regs::EDI); } codegen::gen_get_reg32(ctx, regs::ESI); get_direction(ctx, size); ctx.builder.add_i32(); if ctx.cpu.asize_32() { codegen::gen_set_reg32(ctx, regs::ESI); } else { codegen::gen_set_reg16(ctx, regs::ESI); } return; }, _ => {}, } } let mut args = 0; args += 1; ctx.builder.const_i32(ctx.cpu.asize_32() as i32); if ins == String::OUTS || ins == String::CMPS || ins == String::LODS || ins == String::MOVS { args += 1; ctx.builder.const_i32(0); jit_add_seg_offset(ctx, regs::DS); } let name = format!( "{}{}{}", match ins { String::INS => "ins", String::OUTS => "outs", String::MOVS => "movs", String::CMPS => "cmps", String::STOS => "stos", String::LODS => "lods", String::SCAS => "scas", }, if size == 8 { "b" } else if size == 16 { "w" } else { "d" }, if prefix == 0xF2 || prefix == 0xF3 { match ins { String::CMPS | String::SCAS => { if prefix == 0xF2 { "_repnz" } else { "_repz" } }, _ => "_rep", } } else { "_no_rep" } ); codegen::gen_move_registers_from_locals_to_memory(ctx); if args == 1 { ctx.builder.call_fn1(&name) } else if args == 2 { ctx.builder.call_fn2(&name) } else { dbg_assert!(false); } codegen::gen_move_registers_from_memory_to_locals(ctx); } pub fn instr_6C_jit(ctx: &mut JitContext) { gen_string_ins(ctx, String::INS, 8, 0) } pub fn instr_F26C_jit(ctx: &mut JitContext) { gen_string_ins(ctx, String::INS, 8, 0xF2) } pub fn instr_F36C_jit(ctx: &mut JitContext) { gen_string_ins(ctx, String::INS, 8, 0xF3) } pub fn instr16_6D_jit(ctx: &mut JitContext) { gen_string_ins(ctx, String::INS, 16, 0) } pub fn instr16_F26D_jit(ctx: &mut JitContext) { gen_string_ins(ctx, String::INS, 16, 0xF2) } pub fn instr16_F36D_jit(ctx: &mut JitContext) { gen_string_ins(ctx, String::INS, 16, 0xF3) } pub fn instr32_6D_jit(ctx: &mut JitContext) { gen_string_ins(ctx, String::INS, 32, 0) } pub fn instr32_F26D_jit(ctx: &mut JitContext) { gen_string_ins(ctx, String::INS, 32, 0xF2) } pub fn instr32_F36D_jit(ctx: &mut JitContext) { gen_string_ins(ctx, String::INS, 32, 0xF3) } pub fn instr_6E_jit(ctx: &mut JitContext) { gen_string_ins(ctx, String::OUTS, 8, 0) } pub fn instr_F26E_jit(ctx: &mut JitContext) { gen_string_ins(ctx, String::OUTS, 8, 0xF2) } pub fn instr_F36E_jit(ctx: &mut JitContext) { gen_string_ins(ctx, String::OUTS, 8, 0xF3) } pub fn instr16_6F_jit(ctx: &mut JitContext) { gen_string_ins(ctx, String::OUTS, 16, 0) } pub fn instr16_F26F_jit(ctx: &mut JitContext) { gen_string_ins(ctx, String::OUTS, 16, 0xF2) } pub fn instr16_F36F_jit(ctx: &mut JitContext) { gen_string_ins(ctx, String::OUTS, 16, 0xF3) } pub fn instr32_6F_jit(ctx: &mut JitContext) { gen_string_ins(ctx, String::OUTS, 32, 0) } pub fn instr32_F26F_jit(ctx: &mut JitContext) { gen_string_ins(ctx, String::OUTS, 32, 0xF2) } pub fn instr32_F36F_jit(ctx: &mut JitContext) { gen_string_ins(ctx, String::OUTS, 32, 0xF3) } pub fn instr_A4_jit(ctx: &mut JitContext) { gen_string_ins(ctx, String::MOVS, 8, 0) } pub fn instr_F2A4_jit(ctx: &mut JitContext) { gen_string_ins(ctx, String::MOVS, 8, 0xF2) } pub fn instr_F3A4_jit(ctx: &mut JitContext) { gen_string_ins(ctx, String::MOVS, 8, 0xF3) } pub fn instr16_A5_jit(ctx: &mut JitContext) { gen_string_ins(ctx, String::MOVS, 16, 0) } pub fn instr16_F2A5_jit(ctx: &mut JitContext) { gen_string_ins(ctx, String::MOVS, 16, 0xF2) } pub fn instr16_F3A5_jit(ctx: &mut JitContext) { gen_string_ins(ctx, String::MOVS, 16, 0xF3) } pub fn instr32_A5_jit(ctx: &mut JitContext) { gen_string_ins(ctx, String::MOVS, 32, 0) } pub fn instr32_F2A5_jit(ctx: &mut JitContext) { gen_string_ins(ctx, String::MOVS, 32, 0xF2) } pub fn instr32_F3A5_jit(ctx: &mut JitContext) { gen_string_ins(ctx, String::MOVS, 32, 0xF3) } pub fn instr_A6_jit(ctx: &mut JitContext) { gen_string_ins(ctx, String::CMPS, 8, 0) } pub fn instr_F2A6_jit(ctx: &mut JitContext) { gen_string_ins(ctx, String::CMPS, 8, 0xF2) } pub fn instr_F3A6_jit(ctx: &mut JitContext) { gen_string_ins(ctx, String::CMPS, 8, 0xF3) } pub fn instr16_A7_jit(ctx: &mut JitContext) { gen_string_ins(ctx, String::CMPS, 16, 0) } pub fn instr16_F2A7_jit(ctx: &mut JitContext) { gen_string_ins(ctx, String::CMPS, 16, 0xF2) } pub fn instr16_F3A7_jit(ctx: &mut JitContext) { gen_string_ins(ctx, String::CMPS, 16, 0xF3) } pub fn instr32_A7_jit(ctx: &mut JitContext) { gen_string_ins(ctx, String::CMPS, 32, 0) } pub fn instr32_F2A7_jit(ctx: &mut JitContext) { gen_string_ins(ctx, String::CMPS, 32, 0xF2) } pub fn instr32_F3A7_jit(ctx: &mut JitContext) { gen_string_ins(ctx, String::CMPS, 32, 0xF3) } pub fn instr_AA_jit(ctx: &mut JitContext) { gen_string_ins(ctx, String::STOS, 8, 0) } pub fn instr_F2AA_jit(ctx: &mut JitContext) { gen_string_ins(ctx, String::STOS, 8, 0xF2) } pub fn instr_F3AA_jit(ctx: &mut JitContext) { gen_string_ins(ctx, String::STOS, 8, 0xF3) } pub fn instr16_AB_jit(ctx: &mut JitContext) { gen_string_ins(ctx, String::STOS, 16, 0) } pub fn instr16_F2AB_jit(ctx: &mut JitContext) { gen_string_ins(ctx, String::STOS, 16, 0xF2) } pub fn instr16_F3AB_jit(ctx: &mut JitContext) { gen_string_ins(ctx, String::STOS, 16, 0xF3) } pub fn instr32_AB_jit(ctx: &mut JitContext) { gen_string_ins(ctx, String::STOS, 32, 0) } pub fn instr32_F2AB_jit(ctx: &mut JitContext) { gen_string_ins(ctx, String::STOS, 32, 0xF2) } pub fn instr32_F3AB_jit(ctx: &mut JitContext) { gen_string_ins(ctx, String::STOS, 32, 0xF3) } pub fn instr_AC_jit(ctx: &mut JitContext) { gen_string_ins(ctx, String::LODS, 8, 0) } pub fn instr_F2AC_jit(ctx: &mut JitContext) { gen_string_ins(ctx, String::LODS, 8, 0xF2) } pub fn instr_F3AC_jit(ctx: &mut JitContext) { gen_string_ins(ctx, String::LODS, 8, 0xF3) } pub fn instr16_AD_jit(ctx: &mut JitContext) { gen_string_ins(ctx, String::LODS, 16, 0) } pub fn instr16_F2AD_jit(ctx: &mut JitContext) { gen_string_ins(ctx, String::LODS, 16, 0xF2) } pub fn instr16_F3AD_jit(ctx: &mut JitContext) { gen_string_ins(ctx, String::LODS, 16, 0xF3) } pub fn instr32_AD_jit(ctx: &mut JitContext) { gen_string_ins(ctx, String::LODS, 32, 0) } pub fn instr32_F2AD_jit(ctx: &mut JitContext) { gen_string_ins(ctx, String::LODS, 32, 0xF2) } pub fn instr32_F3AD_jit(ctx: &mut JitContext) { gen_string_ins(ctx, String::LODS, 32, 0xF3) } pub fn instr_AE_jit(ctx: &mut JitContext) { gen_string_ins(ctx, String::SCAS, 8, 0) } pub fn instr_F2AE_jit(ctx: &mut JitContext) { gen_string_ins(ctx, String::SCAS, 8, 0xF2) } pub fn instr_F3AE_jit(ctx: &mut JitContext) { gen_string_ins(ctx, String::SCAS, 8, 0xF3) } pub fn instr16_AF_jit(ctx: &mut JitContext) { gen_string_ins(ctx, String::SCAS, 16, 0) } pub fn instr16_F2AF_jit(ctx: &mut JitContext) { gen_string_ins(ctx, String::SCAS, 16, 0xF2) } pub fn instr16_F3AF_jit(ctx: &mut JitContext) { gen_string_ins(ctx, String::SCAS, 16, 0xF3) } pub fn instr32_AF_jit(ctx: &mut JitContext) { gen_string_ins(ctx, String::SCAS, 32, 0) } pub fn instr32_F2AF_jit(ctx: &mut JitContext) { gen_string_ins(ctx, String::SCAS, 32, 0xF2) } pub fn instr32_F3AF_jit(ctx: &mut JitContext) { gen_string_ins(ctx, String::SCAS, 32, 0xF3) } pub fn instr_0F31_jit(ctx: &mut JitContext) { ctx.builder.load_fixed_u8(global_pointers::cpl as u32); ctx.builder.eqz_i32(); dbg_assert!(regs::CR4_TSD < 0x100); ctx.builder .load_fixed_u8(global_pointers::get_creg_offset(4)); ctx.builder.const_i32(regs::CR4_TSD as i32); ctx.builder.and_i32(); ctx.builder.eqz_i32(); ctx.builder.or_i32(); ctx.builder.if_void(); ctx.builder.call_fn0_ret_i64("read_tsc"); let tsc = ctx.builder.tee_new_local_i64(); ctx.builder.wrap_i64_to_i32(); codegen::gen_set_reg32(ctx, regs::EAX); ctx.builder.get_local_i64(&tsc); ctx.builder.const_i64(32); ctx.builder.shr_u_i64(); ctx.builder.wrap_i64_to_i32(); codegen::gen_set_reg32(ctx, regs::EDX); ctx.builder.free_local_i64(tsc); ctx.builder.else_(); codegen::gen_trigger_gp(ctx, 0); ctx.builder.block_end(); } pub fn instr_0F18_mem_jit(_ctx: &mut JitContext, _modrm_byte: ModrmByte, _reg: u32) {} pub fn instr_0F18_reg_jit(_ctx: &mut JitContext, _r1: u32, _r2: u32) {} pub fn instr_0F19_mem_jit(_ctx: &mut JitContext, _modrm_byte: ModrmByte, _reg: u32) {} pub fn instr_0F19_reg_jit(_ctx: &mut JitContext, _r1: u32, _r2: u32) {} pub fn instr_0F1C_mem_jit(_ctx: &mut JitContext, _modrm_byte: ModrmByte, _reg: u32) {} pub fn instr_0F1C_reg_jit(_ctx: &mut JitContext, _r1: u32, _r2: u32) {} pub fn instr_0F1D_mem_jit(_ctx: &mut JitContext, _modrm_byte: ModrmByte, _reg: u32) {} pub fn instr_0F1D_reg_jit(_ctx: &mut JitContext, _r1: u32, _r2: u32) {} pub fn instr_0F1E_mem_jit(_ctx: &mut JitContext, _modrm_byte: ModrmByte, _reg: u32) {} pub fn instr_0F1E_reg_jit(_ctx: &mut JitContext, _r1: u32, _r2: u32) {} pub fn instr_0F1F_mem_jit(_ctx: &mut JitContext, _modrm_byte: ModrmByte, _reg: u32) {} pub fn instr_0F1F_reg_jit(_ctx: &mut JitContext, _r1: u32, _r2: u32) {} define_instruction_read_write_mem16!( "shld16", instr16_0FA4_mem_jit, instr16_0FA4_reg_jit, reg, imm8_5bits ); define_instruction_read_write_mem32!( "shld32", instr32_0FA4_mem_jit, instr32_0FA4_reg_jit, reg, imm8_5bits ); define_instruction_read_write_mem16!( "shld16", instr16_0FA5_mem_jit, instr16_0FA5_reg_jit, reg, cl ); define_instruction_read_write_mem32!( "shld32", instr32_0FA5_mem_jit, instr32_0FA5_reg_jit, reg, cl ); define_instruction_read_write_mem16!( "shrd16", instr16_0FAC_mem_jit, instr16_0FAC_reg_jit, reg, imm8_5bits ); define_instruction_read_write_mem32!( "shrd32", instr32_0FAC_mem_jit, instr32_0FAC_reg_jit, reg, imm8_5bits ); define_instruction_read_write_mem16!( "shrd16", instr16_0FAD_mem_jit, instr16_0FAD_reg_jit, reg, cl ); define_instruction_read_write_mem32!( "shrd32", instr32_0FAD_mem_jit, instr32_0FAD_reg_jit, reg, cl ); pub fn instr16_0FB1_reg_jit(ctx: &mut JitContext, r1: u32, r2: u32) { codegen::gen_get_reg16(ctx, r1); ctx.builder.const_i32(r2 as i32); codegen::gen_move_registers_from_locals_to_memory(ctx); ctx.builder.call_fn2_ret("cmpxchg16"); codegen::gen_move_registers_from_memory_to_locals(ctx); codegen::gen_set_reg16(ctx, r1); } pub fn instr16_0FB1_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte, r: u32) { codegen::gen_modrm_resolve(ctx, modrm_byte); let address_local = ctx.builder.set_new_local(); codegen::gen_safe_read_write(ctx, BitSize::WORD, &address_local, &|ref mut ctx| { ctx.builder.const_i32(r as i32); codegen::gen_move_registers_from_locals_to_memory(ctx); ctx.builder.call_fn2_ret("cmpxchg16"); codegen::gen_move_registers_from_memory_to_locals(ctx); }); ctx.builder.free_local(address_local); } pub fn instr32_0FB1_reg_jit(ctx: &mut JitContext, r1: u32, r2: u32) { codegen::gen_get_reg32(ctx, r1); gen_cmpxchg32(ctx, r2); codegen::gen_set_reg32(ctx, r1); } pub fn instr32_0FB1_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte, r: u32) { codegen::gen_modrm_resolve(ctx, modrm_byte); let address_local = ctx.builder.set_new_local(); codegen::gen_safe_read_write(ctx, BitSize::DWORD, &address_local, &|ref mut ctx| { gen_cmpxchg32(ctx, r); }); ctx.builder.free_local(address_local); } pub fn instr16_0FB6_reg_jit(ctx: &mut JitContext, r1: u32, r2: u32) { codegen::gen_get_reg8(ctx, r1); codegen::gen_set_reg16_unmasked(ctx, r2); } pub fn instr16_0FB6_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte, r: u32) { codegen::gen_modrm_resolve_safe_read8(ctx, modrm_byte); codegen::gen_set_reg16_unmasked(ctx, r); } pub fn instr32_0FB6_reg_jit(ctx: &mut JitContext, r1: u32, r2: u32) { codegen::gen_get_reg8(ctx, r1); codegen::gen_set_reg32(ctx, r2); } pub fn instr32_0FB6_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte, r: u32) { codegen::gen_modrm_resolve_safe_read8(ctx, modrm_byte); codegen::gen_set_reg32(ctx, r); } pub fn instr16_0FB7_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte, r: u32) { codegen::gen_modrm_resolve_safe_read16(ctx, modrm_byte); codegen::gen_set_reg16(ctx, r); } pub fn instr16_0FB7_reg_jit(ctx: &mut JitContext, r1: u32, r2: u32) { codegen::gen_get_reg16(ctx, r1); codegen::gen_set_reg16(ctx, r2); } pub fn instr32_0FB7_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte, r: u32) { codegen::gen_modrm_resolve_safe_read16(ctx, modrm_byte); codegen::gen_set_reg32(ctx, r); } pub fn instr32_0FB7_reg_jit(ctx: &mut JitContext, r1: u32, r2: u32) { codegen::gen_get_reg16(ctx, r1); codegen::gen_set_reg32(ctx, r2); } pub fn instr16_F30FB8_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte, r: u32) { codegen::gen_modrm_resolve_safe_read16(ctx, modrm_byte); ctx.builder.call_fn1_ret("popcnt"); codegen::gen_set_reg16(ctx, r); } pub fn instr16_F30FB8_reg_jit(ctx: &mut JitContext, r1: u32, r2: u32) { codegen::gen_get_reg16(ctx, r1); ctx.builder.call_fn1_ret("popcnt"); codegen::gen_set_reg16(ctx, r2); } pub fn instr32_F30FB8_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte, r: u32) { codegen::gen_modrm_resolve_safe_read32(ctx, modrm_byte); ctx.builder.call_fn1_ret("popcnt"); codegen::gen_set_reg32(ctx, r); } pub fn instr32_F30FB8_reg_jit(ctx: &mut JitContext, r1: u32, r2: u32) { codegen::gen_get_reg32(ctx, r1); ctx.builder.call_fn1_ret("popcnt"); codegen::gen_set_reg32(ctx, r2); } define_instruction_write_reg16!("bsf16", instr16_0FBC_mem_jit, instr16_0FBC_reg_jit); define_instruction_write_reg32!(gen_bsf32, instr32_0FBC_mem_jit, instr32_0FBC_reg_jit); define_instruction_write_reg16!("bsr16", instr16_0FBD_mem_jit, instr16_0FBD_reg_jit); define_instruction_write_reg32!(gen_bsr32, instr32_0FBD_mem_jit, instr32_0FBD_reg_jit); pub fn instr16_0FBE_reg_jit(ctx: &mut JitContext, r1: u32, r2: u32) { codegen::gen_get_reg8(ctx, r1); codegen::sign_extend_i8(ctx.builder); codegen::gen_set_reg16(ctx, r2); } pub fn instr16_0FBE_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte, r: u32) { codegen::gen_modrm_resolve_safe_read8(ctx, modrm_byte); // TODO: Could use sign-extended read codegen::sign_extend_i8(ctx.builder); codegen::gen_set_reg16(ctx, r); } pub fn instr32_0FBE_reg_jit(ctx: &mut JitContext, r1: u32, r2: u32) { match r1 { regs::AL | regs::CL | regs::DL | regs::BL => { ctx.builder.get_local(&ctx.register_locals[r1 as usize]); ctx.builder.const_i32(24); ctx.builder.shl_i32(); }, regs::AH | regs::CH | regs::DH | regs::BH => { ctx.builder .get_local(&ctx.register_locals[(r1 - 4) as usize]); ctx.builder.const_i32(16); ctx.builder.shl_i32(); }, _ => assert!(false), } ctx.builder.const_i32(24); ctx.builder.shr_s_i32(); codegen::gen_set_reg32(ctx, r2); } pub fn instr32_0FBE_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte, r: u32) { codegen::gen_modrm_resolve_safe_read8(ctx, modrm_byte); // TODO: Could use sign-extended read codegen::sign_extend_i8(ctx.builder); codegen::gen_set_reg32(ctx, r); } pub fn instr16_0FBF_reg_jit(ctx: &mut JitContext, r1: u32, r2: u32) { codegen::gen_get_reg16(ctx, r1); codegen::gen_set_reg16_unmasked(ctx, r2); } pub fn instr16_0FBF_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte, r: u32) { codegen::gen_modrm_resolve_safe_read16(ctx, modrm_byte); codegen::gen_set_reg16_unmasked(ctx, r); } pub fn instr32_0FBF_reg_jit(ctx: &mut JitContext, r1: u32, r2: u32) { codegen::gen_get_reg32(ctx, r1); codegen::sign_extend_i16(ctx.builder); codegen::gen_set_reg32(ctx, r2); } pub fn instr32_0FBF_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte, r: u32) { codegen::gen_modrm_resolve_safe_read16(ctx, modrm_byte); // TODO: Could use sign-extended read codegen::sign_extend_i16(ctx.builder); codegen::gen_set_reg32(ctx, r); } pub fn instr16_0FC1_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte, r: u32) { codegen::gen_modrm_resolve(ctx, modrm_byte); let address_local = ctx.builder.set_new_local(); codegen::gen_safe_read_write(ctx, BitSize::WORD, &address_local, &|ref mut ctx| { ctx.builder.const_i32(r as i32); codegen::gen_move_registers_from_locals_to_memory(ctx); ctx.builder.call_fn2_ret("xadd16"); codegen::gen_move_registers_from_memory_to_locals(ctx); }); ctx.builder.free_local(address_local); } pub fn instr16_0FC1_reg_jit(ctx: &mut JitContext, r1: u32, r2: u32) { codegen::gen_get_reg16(ctx, r1); ctx.builder.const_i32(r2 as i32); codegen::gen_move_registers_from_locals_to_memory(ctx); ctx.builder.call_fn2_ret("xadd16"); codegen::gen_move_registers_from_memory_to_locals(ctx); codegen::gen_set_reg16(ctx, r1); } pub fn instr32_0FC1_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte, r: u32) { codegen::gen_modrm_resolve(ctx, modrm_byte); let address_local = ctx.builder.set_new_local(); codegen::gen_safe_read_write(ctx, BitSize::DWORD, &address_local, &|ref mut ctx| { let dest_operand = ctx.builder.set_new_local(); gen_xadd32(ctx, &dest_operand, r); ctx.builder.get_local(&dest_operand); ctx.builder.free_local(dest_operand); }); ctx.builder.free_local(address_local); } pub fn instr32_0FC1_reg_jit(ctx: &mut JitContext, r1: u32, r2: u32) { codegen::gen_get_reg32(ctx, r1); let dest_operand = ctx.builder.set_new_local(); gen_xadd32(ctx, &dest_operand, r2); ctx.builder.get_local(&dest_operand); codegen::gen_set_reg32(ctx, r1); ctx.builder.free_local(dest_operand); } pub fn instr_0FC3_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte, r: u32) { codegen::gen_modrm_resolve(ctx, modrm_byte); let address_local = ctx.builder.set_new_local(); codegen::gen_safe_write32(ctx, &address_local, &ctx.reg(r)); ctx.builder.free_local(address_local); } pub fn instr_0FC3_reg_jit(ctx: &mut JitContext, _r1: u32, _r2: u32) { codegen::gen_trigger_ud(ctx) } pub fn instr16_0FC7_1_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte) { // cmpxchg8b codegen::gen_modrm_resolve(ctx, modrm_byte); let address_local = ctx.builder.set_new_local(); codegen::gen_safe_read_write(ctx, BitSize::QWORD, &address_local, &|ref mut ctx| { let dest_operand = ctx.builder.tee_new_local_i64(); codegen::gen_get_reg32(ctx, regs::EDX); ctx.builder.extend_unsigned_i32_to_i64(); ctx.builder.const_i64(32); ctx.builder.shl_i64(); codegen::gen_get_reg32(ctx, regs::EAX); ctx.builder.extend_unsigned_i32_to_i64(); ctx.builder.or_i64(); ctx.builder.eq_i64(); ctx.builder.if_i64(); { codegen::gen_set_flags_bits(ctx.builder, FLAG_ZERO); codegen::gen_get_reg32(ctx, regs::ECX); ctx.builder.extend_unsigned_i32_to_i64(); ctx.builder.const_i64(32); ctx.builder.shl_i64(); codegen::gen_get_reg32(ctx, regs::EBX); ctx.builder.extend_unsigned_i32_to_i64(); ctx.builder.or_i64(); } ctx.builder.else_(); { codegen::gen_clear_flags_bits(ctx.builder, FLAG_ZERO); ctx.builder.get_local_i64(&dest_operand); ctx.builder.wrap_i64_to_i32(); codegen::gen_set_reg32(ctx, regs::EAX); ctx.builder.get_local_i64(&dest_operand); ctx.builder.const_i64(32); ctx.builder.shr_u_i64(); ctx.builder.wrap_i64_to_i32(); codegen::gen_set_reg32(ctx, regs::EDX); ctx.builder.get_local_i64(&dest_operand); } ctx.builder.block_end(); codegen::gen_clear_flags_changed_bits(ctx.builder, FLAG_ZERO); ctx.builder.free_local_i64(dest_operand); }); ctx.builder.free_local(address_local); } pub fn instr16_0FC7_1_reg_jit(ctx: &mut JitContext, _r: u32) { codegen::gen_trigger_ud(ctx); } pub fn instr32_0FC7_1_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte) { instr16_0FC7_1_mem_jit(ctx, modrm_byte); } pub fn instr32_0FC7_1_reg_jit(ctx: &mut JitContext, _r: u32) { codegen::gen_trigger_ud(ctx); } pub fn instr_0FC2_reg_jit(ctx: &mut JitContext, r1: u32, r2: u32, imm8: u32) { sse_read128_xmm_xmm_imm(ctx, "instr_0FC2", r1, r2, imm8) } pub fn instr_0FC2_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte, r: u32, imm8: u32) { sse_read128_xmm_mem_imm(ctx, "instr_0FC2", modrm_byte, r, imm8) } pub fn instr_660FC2_reg_jit(ctx: &mut JitContext, r1: u32, r2: u32, imm8: u32) { sse_read128_xmm_xmm_imm(ctx, "instr_660FC2", r1, r2, imm8) } pub fn instr_660FC2_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte, r: u32, imm8: u32) { sse_read128_xmm_mem_imm(ctx, "instr_660FC2", modrm_byte, r, imm8) } pub fn instr_F20FC2_reg_jit(ctx: &mut JitContext, r1: u32, r2: u32, imm8: u32) { ctx.builder .const_i32(global_pointers::get_reg_xmm_offset(r1) as i32); ctx.builder.load_aligned_i64(0); ctx.builder.const_i32(r2 as i32); ctx.builder.const_i32(imm8 as i32); ctx.builder.call_fn3_i64_i32_i32("instr_F20FC2"); } pub fn instr_F20FC2_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte, r: u32, imm8: u32) { codegen::gen_modrm_resolve_safe_read64(ctx, modrm_byte); ctx.builder.const_i32(r as i32); ctx.builder.const_i32(imm8 as i32); ctx.builder.call_fn3_i64_i32_i32("instr_F20FC2"); } pub fn instr_F30FC2_reg_jit(ctx: &mut JitContext, r1: u32, r2: u32, imm8: u32) { ctx.builder .const_i32(global_pointers::get_reg_xmm_offset(r1) as i32); ctx.builder.load_aligned_i32(0); ctx.builder.const_i32(r2 as i32); ctx.builder.const_i32(imm8 as i32); ctx.builder.call_fn3("instr_F30FC2"); } pub fn instr_F30FC2_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte, r: u32, imm8: u32) { codegen::gen_modrm_resolve_safe_read32(ctx, modrm_byte); ctx.builder.const_i32(r as i32); ctx.builder.const_i32(imm8 as i32); ctx.builder.call_fn3("instr_F30FC2"); } pub fn instr_0FC6_reg_jit(ctx: &mut JitContext, r1: u32, r2: u32, imm8: u32) { sse_read128_xmm_xmm_imm(ctx, "instr_0FC6", r1, r2, imm8) } pub fn instr_0FC6_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte, r: u32, imm8: u32) { sse_read128_xmm_mem_imm(ctx, "instr_0FC6", modrm_byte, r, imm8) } pub fn instr_660FC6_reg_jit(ctx: &mut JitContext, r1: u32, r2: u32, imm8: u32) { sse_read128_xmm_xmm_imm(ctx, "instr_660FC6", r1, r2, imm8) } pub fn instr_660FC6_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte, r: u32, imm8: u32) { sse_read128_xmm_mem_imm(ctx, "instr_660FC6", modrm_byte, r, imm8) } pub fn instr_C6_0_reg_jit(ctx: &mut JitContext, r: u32, imm: u32) { // reg8[r] = imm; ctx.builder.const_i32(imm as i32); codegen::gen_set_reg8_unmasked(ctx, r); } pub fn instr_C6_0_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte, imm: u32) { codegen::gen_modrm_resolve_with_local(ctx, modrm_byte, &|ctx, addr| { ctx.builder.const_i32(imm as i32); let value_local = ctx.builder.set_new_local(); codegen::gen_safe_write8(ctx, &addr, &value_local); ctx.builder.free_local(value_local); }); } pub fn instr16_C7_0_reg_jit(ctx: &mut JitContext, r: u32, imm: u32) { // reg16[r] = imm; ctx.builder.const_i32(imm as i32); codegen::gen_set_reg16_unmasked(ctx, r); } pub fn instr16_C7_0_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte, imm: u32) { codegen::gen_modrm_resolve_with_local(ctx, modrm_byte, &|ctx, addr| { ctx.builder.const_i32(imm as i32); let value_local = ctx.builder.set_new_local(); codegen::gen_safe_write16(ctx, &addr, &value_local); ctx.builder.free_local(value_local); }); } pub fn instr32_C7_0_reg_jit(ctx: &mut JitContext, r: u32, imm: u32) { // reg32[r] = imm; ctx.builder.const_i32(imm as i32); codegen::gen_set_reg32(ctx, r); } pub fn instr32_C7_0_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte, imm: u32) { codegen::gen_modrm_resolve_with_local(ctx, modrm_byte, &|ctx, addr| { ctx.builder.const_i32(imm as i32); let value_local = ctx.builder.set_new_local(); codegen::gen_safe_write32(ctx, &addr, &value_local); ctx.builder.free_local(value_local); }); } pub fn instr_0FC8_jit(ctx: &mut JitContext) { gen_bswap(ctx, 0) } pub fn instr_0FC9_jit(ctx: &mut JitContext) { gen_bswap(ctx, 1) } pub fn instr_0FCA_jit(ctx: &mut JitContext) { gen_bswap(ctx, 2) } pub fn instr_0FCB_jit(ctx: &mut JitContext) { gen_bswap(ctx, 3) } pub fn instr_0FCC_jit(ctx: &mut JitContext) { gen_bswap(ctx, 4) } pub fn instr_0FCD_jit(ctx: &mut JitContext) { gen_bswap(ctx, 5) } pub fn instr_0FCE_jit(ctx: &mut JitContext) { gen_bswap(ctx, 6) } pub fn instr_0FCF_jit(ctx: &mut JitContext) { gen_bswap(ctx, 7) } define_instruction_write_reg16!("imul_reg16", instr16_0FAF_mem_jit, instr16_0FAF_reg_jit); define_instruction_write_reg32!(gen_imul_reg32, instr32_0FAF_mem_jit, instr32_0FAF_reg_jit); macro_rules! define_cmovcc16( ($cond:expr, $name_mem:ident, $name_reg:ident) => ( pub fn $name_mem(ctx: &mut JitContext, modrm_byte: ModrmByte, r: u32) { codegen::gen_modrm_resolve_safe_read16(ctx, modrm_byte); let value = ctx.builder.set_new_local(); codegen::gen_condition_fn(ctx, $cond); ctx.builder.if_void(); ctx.builder.get_local(&value); codegen::gen_set_reg16(ctx, r); ctx.builder.block_end(); ctx.builder.free_local(value); } pub fn $name_reg(ctx: &mut JitContext, r1: u32, r2: u32) { codegen::gen_condition_fn(ctx, $cond); ctx.builder.if_void(); codegen::gen_get_reg16(ctx, r1); codegen::gen_set_reg16(ctx, r2); ctx.builder.block_end(); } ); ); macro_rules! define_cmovcc32( ($cond:expr, $name_mem:ident, $name_reg:ident) => ( pub fn $name_mem(ctx: &mut JitContext, modrm_byte: ModrmByte, r: u32) { codegen::gen_modrm_resolve_safe_read32(ctx, modrm_byte); let value = ctx.builder.set_new_local(); codegen::gen_condition_fn(ctx, $cond); ctx.builder.if_void(); ctx.builder.get_local(&value); codegen::gen_set_reg32(ctx, r); ctx.builder.block_end(); ctx.builder.free_local(value); } pub fn $name_reg(ctx: &mut JitContext, r1: u32, r2: u32) { codegen::gen_condition_fn(ctx, $cond); ctx.builder.if_void(); codegen::gen_get_reg32(ctx, r1); codegen::gen_set_reg32(ctx, r2); ctx.builder.block_end(); } ); ); define_cmovcc16!(0x0, instr16_0F40_mem_jit, instr16_0F40_reg_jit); define_cmovcc16!(0x1, instr16_0F41_mem_jit, instr16_0F41_reg_jit); define_cmovcc16!(0x2, instr16_0F42_mem_jit, instr16_0F42_reg_jit); define_cmovcc16!(0x3, instr16_0F43_mem_jit, instr16_0F43_reg_jit); define_cmovcc16!(0x4, instr16_0F44_mem_jit, instr16_0F44_reg_jit); define_cmovcc16!(0x5, instr16_0F45_mem_jit, instr16_0F45_reg_jit); define_cmovcc16!(0x6, instr16_0F46_mem_jit, instr16_0F46_reg_jit); define_cmovcc16!(0x7, instr16_0F47_mem_jit, instr16_0F47_reg_jit); define_cmovcc16!(0x8, instr16_0F48_mem_jit, instr16_0F48_reg_jit); define_cmovcc16!(0x9, instr16_0F49_mem_jit, instr16_0F49_reg_jit); define_cmovcc16!(0xA, instr16_0F4A_mem_jit, instr16_0F4A_reg_jit); define_cmovcc16!(0xB, instr16_0F4B_mem_jit, instr16_0F4B_reg_jit); define_cmovcc16!(0xC, instr16_0F4C_mem_jit, instr16_0F4C_reg_jit); define_cmovcc16!(0xD, instr16_0F4D_mem_jit, instr16_0F4D_reg_jit); define_cmovcc16!(0xE, instr16_0F4E_mem_jit, instr16_0F4E_reg_jit); define_cmovcc16!(0xF, instr16_0F4F_mem_jit, instr16_0F4F_reg_jit); define_cmovcc32!(0x0, instr32_0F40_mem_jit, instr32_0F40_reg_jit); define_cmovcc32!(0x1, instr32_0F41_mem_jit, instr32_0F41_reg_jit); define_cmovcc32!(0x2, instr32_0F42_mem_jit, instr32_0F42_reg_jit); define_cmovcc32!(0x3, instr32_0F43_mem_jit, instr32_0F43_reg_jit); define_cmovcc32!(0x4, instr32_0F44_mem_jit, instr32_0F44_reg_jit); define_cmovcc32!(0x5, instr32_0F45_mem_jit, instr32_0F45_reg_jit); define_cmovcc32!(0x6, instr32_0F46_mem_jit, instr32_0F46_reg_jit); define_cmovcc32!(0x7, instr32_0F47_mem_jit, instr32_0F47_reg_jit); define_cmovcc32!(0x8, instr32_0F48_mem_jit, instr32_0F48_reg_jit); define_cmovcc32!(0x9, instr32_0F49_mem_jit, instr32_0F49_reg_jit); define_cmovcc32!(0xA, instr32_0F4A_mem_jit, instr32_0F4A_reg_jit); define_cmovcc32!(0xB, instr32_0F4B_mem_jit, instr32_0F4B_reg_jit); define_cmovcc32!(0xC, instr32_0F4C_mem_jit, instr32_0F4C_reg_jit); define_cmovcc32!(0xD, instr32_0F4D_mem_jit, instr32_0F4D_reg_jit); define_cmovcc32!(0xE, instr32_0F4E_mem_jit, instr32_0F4E_reg_jit); define_cmovcc32!(0xF, instr32_0F4F_mem_jit, instr32_0F4F_reg_jit); macro_rules! define_setcc( ($cond:expr, $name_mem:ident, $name_reg:ident) => ( pub fn $name_mem(ctx: &mut JitContext, modrm_byte: ModrmByte, _r: u32) { codegen::gen_modrm_resolve_with_local(ctx, modrm_byte, &|ctx, addr| { codegen::gen_condition_fn(ctx, $cond); ctx.builder.const_i32(0); ctx.builder.ne_i32(); let value_local = ctx.builder.set_new_local(); codegen::gen_safe_write8(ctx, &addr, &value_local); ctx.builder.free_local(value_local); }); } pub fn $name_reg(ctx: &mut JitContext, r1: u32, _r2: u32) { codegen::gen_condition_fn(ctx, $cond); ctx.builder.const_i32(0); ctx.builder.ne_i32(); codegen::gen_set_reg8_unmasked(ctx, r1); } ); ); define_setcc!(0x0, instr_0F90_mem_jit, instr_0F90_reg_jit); define_setcc!(0x1, instr_0F91_mem_jit, instr_0F91_reg_jit); define_setcc!(0x2, instr_0F92_mem_jit, instr_0F92_reg_jit); define_setcc!(0x3, instr_0F93_mem_jit, instr_0F93_reg_jit); define_setcc!(0x4, instr_0F94_mem_jit, instr_0F94_reg_jit); define_setcc!(0x5, instr_0F95_mem_jit, instr_0F95_reg_jit); define_setcc!(0x6, instr_0F96_mem_jit, instr_0F96_reg_jit); define_setcc!(0x7, instr_0F97_mem_jit, instr_0F97_reg_jit); define_setcc!(0x8, instr_0F98_mem_jit, instr_0F98_reg_jit); define_setcc!(0x9, instr_0F99_mem_jit, instr_0F99_reg_jit); define_setcc!(0xA, instr_0F9A_mem_jit, instr_0F9A_reg_jit); define_setcc!(0xB, instr_0F9B_mem_jit, instr_0F9B_reg_jit); define_setcc!(0xC, instr_0F9C_mem_jit, instr_0F9C_reg_jit); define_setcc!(0xD, instr_0F9D_mem_jit, instr_0F9D_reg_jit); define_setcc!(0xE, instr_0F9E_mem_jit, instr_0F9E_reg_jit); define_setcc!(0xF, instr_0F9F_mem_jit, instr_0F9F_reg_jit); pub fn instr_0F10_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte, r: u32) { let dest = global_pointers::get_reg_xmm_offset(r); codegen::gen_modrm_resolve_safe_read128(ctx, modrm_byte, dest); } pub fn instr_0F10_reg_jit(ctx: &mut JitContext, r1: u32, r2: u32) { sse_mov_xmm_xmm(ctx, r1, r2) } pub fn instr_660F10_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte, r: u32) { let dest = global_pointers::get_reg_xmm_offset(r); codegen::gen_modrm_resolve_safe_read128(ctx, modrm_byte, dest); } pub fn instr_660F10_reg_jit(ctx: &mut JitContext, r1: u32, r2: u32) { sse_mov_xmm_xmm(ctx, r1, r2) } pub fn instr_F20F10_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte, r: u32) { instr_F30F7E_mem_jit(ctx, modrm_byte, r) } pub fn instr_F20F10_reg_jit(ctx: &mut JitContext, r1: u32, r2: u32) { ctx.builder.const_i32(r1 as i32); ctx.builder.const_i32(r2 as i32); ctx.builder.call_fn2("instr_F20F10_reg"); } pub fn instr_F30F10_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte, r: u32) { instr_660F6E_mem_jit(ctx, modrm_byte, r) } pub fn instr_F30F10_reg_jit(ctx: &mut JitContext, r1: u32, r2: u32) { ctx.builder.const_i32(0); ctx.builder .load_fixed_i32(global_pointers::get_reg_xmm_offset(r1)); ctx.builder .store_aligned_i32(global_pointers::get_reg_xmm_offset(r2)); } pub fn instr_0F11_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte, r: u32) { instr_0F29_mem_jit(ctx, modrm_byte, r) } pub fn instr_0F11_reg_jit(ctx: &mut JitContext, r1: u32, r2: u32) { sse_mov_xmm_xmm(ctx, r2, r1) } pub fn instr_660F11_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte, r: u32) { instr_660F29_mem_jit(ctx, modrm_byte, r) } pub fn instr_660F11_reg_jit(ctx: &mut JitContext, r1: u32, r2: u32) { sse_mov_xmm_xmm(ctx, r2, r1) } pub fn instr_F20F11_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte, r: u32) { instr_660FD6_mem_jit(ctx, modrm_byte, r) } pub fn instr_F20F11_reg_jit(ctx: &mut JitContext, r1: u32, r2: u32) { ctx.builder.const_i32(r1 as i32); ctx.builder.const_i32(r2 as i32); ctx.builder.call_fn2("instr_F20F11_reg"); } pub fn instr_F30F11_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte, r: u32) { instr_660F7E_mem_jit(ctx, modrm_byte, r) } pub fn instr_F30F11_reg_jit(ctx: &mut JitContext, r1: u32, r2: u32) { ctx.builder.const_i32(0); ctx.builder .load_fixed_i32(global_pointers::get_reg_xmm_offset(r2)); ctx.builder .store_aligned_i32(global_pointers::get_reg_xmm_offset(r1)); } pub fn instr_0F12_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte, r: u32) { ctx.builder .const_i32(global_pointers::get_reg_xmm_offset(r) as i32); codegen::gen_modrm_resolve_safe_read64(ctx, modrm_byte); ctx.builder.store_aligned_i64(0); } pub fn instr_0F12_reg_jit(ctx: &mut JitContext, r1: u32, r2: u32) { ctx.builder .const_i32(global_pointers::get_reg_xmm_offset(r2) as i32); ctx.builder .const_i32(global_pointers::get_reg_xmm_offset(r1) as i32 + 8); ctx.builder.load_aligned_i64(0); ctx.builder.store_aligned_i64(0); } pub fn instr_660F12_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte, r: u32) { ctx.builder .const_i32(global_pointers::get_reg_xmm_offset(r) as i32); codegen::gen_modrm_resolve_safe_read64(ctx, modrm_byte); ctx.builder.store_aligned_i64(0); } pub fn instr_660F12_reg_jit(ctx: &mut JitContext, _r1: u32, _r2: u32) { codegen::gen_trigger_ud(ctx); } pub fn instr_0F13_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte, r: u32) { instr_660FD6_mem_jit(ctx, modrm_byte, r) } pub fn instr_0F13_reg_jit(ctx: &mut JitContext, _r1: u32, _r2: u32) { codegen::gen_trigger_ud(ctx); } pub fn instr_660F13_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte, r: u32) { instr_660FD6_mem_jit(ctx, modrm_byte, r) } pub fn instr_660F13_reg_jit(ctx: &mut JitContext, _r1: u32, _r2: u32) { codegen::gen_trigger_ud(ctx); } pub fn instr_0F14_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte, r: u32) { sse_read64_xmm_mem(ctx, "instr_0F14", modrm_byte, r); } pub fn instr_0F14_reg_jit(ctx: &mut JitContext, r1: u32, r2: u32) { sse_read64_xmm_xmm(ctx, "instr_0F14", r1, r2); } pub fn instr_660F14_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte, r: u32) { sse_read64_xmm_mem(ctx, "instr_660F14", modrm_byte, r); } pub fn instr_660F14_reg_jit(ctx: &mut JitContext, r1: u32, r2: u32) { sse_read64_xmm_xmm(ctx, "instr_660F14", r1, r2); } pub fn instr_0F15_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte, r: u32) { sse_read128_xmm_mem(ctx, "instr_0F15", modrm_byte, r); } pub fn instr_0F15_reg_jit(ctx: &mut JitContext, r1: u32, r2: u32) { sse_read128_xmm_xmm(ctx, "instr_0F15", r1, r2); } pub fn instr_660F15_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte, r: u32) { sse_read128_xmm_mem(ctx, "instr_660F15", modrm_byte, r); } pub fn instr_660F15_reg_jit(ctx: &mut JitContext, r1: u32, r2: u32) { sse_read128_xmm_xmm(ctx, "instr_660F15", r1, r2); } pub fn instr_0F16_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte, r: u32) { sse_read64_xmm_mem(ctx, "instr_0F16", modrm_byte, r); } pub fn instr_0F16_reg_jit(ctx: &mut JitContext, r1: u32, r2: u32) { sse_read64_xmm_xmm(ctx, "instr_0F16", r1, r2); } pub fn instr_660F16_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte, r: u32) { sse_read64_xmm_mem(ctx, "instr_0F16", modrm_byte, r); } pub fn instr_660F16_reg_jit(ctx: &mut JitContext, _r1: u32, _r2: u32) { codegen::gen_trigger_ud(ctx); } pub fn instr_0F17_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte, r: u32) { codegen::gen_modrm_resolve(ctx, modrm_byte); let address_local = ctx.builder.set_new_local(); ctx.builder .const_i32(global_pointers::get_reg_xmm_offset(r) as i32); ctx.builder.load_aligned_i64(8); let value_local = ctx.builder.set_new_local_i64(); codegen::gen_safe_write64(ctx, &address_local, &value_local); ctx.builder.free_local(address_local); ctx.builder.free_local_i64(value_local); } pub fn instr_0F17_reg_jit(ctx: &mut JitContext, _r1: u32, _r2: u32) { codegen::gen_trigger_ud(ctx); } pub fn instr_660F17_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte, r: u32) { instr_0F17_mem_jit(ctx, modrm_byte, r); } pub fn instr_660F17_reg_jit(ctx: &mut JitContext, _r1: u32, _r2: u32) { codegen::gen_trigger_ud(ctx); } pub fn instr_0F28_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte, r: u32) { let dest = global_pointers::get_reg_xmm_offset(r); codegen::gen_modrm_resolve_safe_read128(ctx, modrm_byte, dest); } pub fn instr_0F28_reg_jit(ctx: &mut JitContext, r1: u32, r2: u32) { sse_mov_xmm_xmm(ctx, r1, r2) } pub fn instr_660F28_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte, r: u32) { let dest = global_pointers::get_reg_xmm_offset(r); codegen::gen_modrm_resolve_safe_read128(ctx, modrm_byte, dest); } pub fn instr_660F28_reg_jit(ctx: &mut JitContext, r1: u32, r2: u32) { sse_mov_xmm_xmm(ctx, r1, r2) } pub fn instr_0F29_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte, r: u32) { // XXX: Aligned write or #gp codegen::gen_modrm_resolve(ctx, modrm_byte); let address_local = ctx.builder.set_new_local(); ctx.builder .const_i32(global_pointers::get_reg_xmm_offset(r) as i32); ctx.builder.load_aligned_i64(0); let value_local_low = ctx.builder.set_new_local_i64(); ctx.builder .const_i32(global_pointers::get_reg_xmm_offset(r) as i32 + 8); ctx.builder.load_aligned_i64(0); let value_local_high = ctx.builder.set_new_local_i64(); codegen::gen_safe_write128(ctx, &address_local, &value_local_low, &value_local_high); ctx.builder.free_local(address_local); ctx.builder.free_local_i64(value_local_low); ctx.builder.free_local_i64(value_local_high); } pub fn instr_0F29_reg_jit(ctx: &mut JitContext, r1: u32, r2: u32) { sse_mov_xmm_xmm(ctx, r2, r1) } pub fn instr_660F29_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte, r: u32) { instr_0F29_mem_jit(ctx, modrm_byte, r); } pub fn instr_660F29_reg_jit(ctx: &mut JitContext, r1: u32, r2: u32) { sse_mov_xmm_xmm(ctx, r2, r1) } pub fn instr_0F2A_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte, r: u32) { mmx_read64_mm_mem(ctx, "instr_0F2A", modrm_byte, r); } pub fn instr_0F2A_reg_jit(ctx: &mut JitContext, r1: u32, r2: u32) { mmx_read64_mm_mm(ctx, "instr_0F2A", r1, r2); } pub fn instr_660F2A_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte, r: u32) { mmx_read64_mm_mem(ctx, "instr_660F2A", modrm_byte, r); } pub fn instr_660F2A_reg_jit(ctx: &mut JitContext, r1: u32, r2: u32) { mmx_read64_mm_mm(ctx, "instr_660F2A", r1, r2); } pub fn instr_F20F2A_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte, r: u32) { codegen::gen_modrm_resolve_safe_read32(ctx, modrm_byte); ctx.builder.const_i32(r as i32); ctx.builder.call_fn2("instr_F20F2A") } pub fn instr_F20F2A_reg_jit(ctx: &mut JitContext, r1: u32, r2: u32) { codegen::gen_get_reg32(ctx, r1); ctx.builder.const_i32(r2 as i32); ctx.builder.call_fn2("instr_F20F2A") } pub fn instr_F30F2A_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte, r: u32) { codegen::gen_modrm_resolve_safe_read32(ctx, modrm_byte); ctx.builder.const_i32(r as i32); ctx.builder.call_fn2("instr_F30F2A") } pub fn instr_F30F2A_reg_jit(ctx: &mut JitContext, r1: u32, r2: u32) { codegen::gen_get_reg32(ctx, r1); ctx.builder.const_i32(r2 as i32); ctx.builder.call_fn2("instr_F30F2A") } pub fn instr_0F2B_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte, r: u32) { instr_0F29_mem_jit(ctx, modrm_byte, r) } pub fn instr_0F2B_reg_jit(ctx: &mut JitContext, _r1: u32, _r2: u32) { codegen::gen_trigger_ud(ctx); } pub fn instr_660F2B_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte, r: u32) { instr_0F29_mem_jit(ctx, modrm_byte, r) } pub fn instr_660F2B_reg_jit(ctx: &mut JitContext, _r1: u32, _r2: u32) { codegen::gen_trigger_ud(ctx); } pub fn instr_F20F2C_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte, r: u32) { codegen::gen_modrm_resolve_safe_read64(ctx, modrm_byte); ctx.builder.reinterpret_i64_as_f64(); ctx.builder .call_fn1_f64_ret("sse_convert_with_truncation_f64_to_i32"); codegen::gen_set_reg32(ctx, r); } pub fn instr_F20F2C_reg_jit(ctx: &mut JitContext, r1: u32, r2: u32) { ctx.builder .const_i32(global_pointers::get_reg_xmm_offset(r1) as i32); ctx.builder.load_aligned_f64(0); ctx.builder .call_fn1_f64_ret("sse_convert_with_truncation_f64_to_i32"); codegen::gen_set_reg32(ctx, r2); } pub fn instr_F30F2C_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte, r: u32) { codegen::gen_modrm_resolve_safe_read32(ctx, modrm_byte); ctx.builder.reinterpret_i32_as_f32(); ctx.builder .call_fn1_f32_ret("sse_convert_with_truncation_f32_to_i32"); codegen::gen_set_reg32(ctx, r); } pub fn instr_F30F2C_reg_jit(ctx: &mut JitContext, r1: u32, r2: u32) { ctx.builder .const_i32(global_pointers::get_reg_xmm_offset(r1) as i32); ctx.builder.load_aligned_f32(0); ctx.builder .call_fn1_f32_ret("sse_convert_with_truncation_f32_to_i32"); codegen::gen_set_reg32(ctx, r2); } pub fn instr_F20F2D_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte, r: u32) { codegen::gen_modrm_resolve_safe_read64(ctx, modrm_byte); ctx.builder.reinterpret_i64_as_f64(); ctx.builder.call_fn1_f64_ret("sse_convert_f64_to_i32"); codegen::gen_set_reg32(ctx, r); } pub fn instr_F20F2D_reg_jit(ctx: &mut JitContext, r1: u32, r2: u32) { ctx.builder .const_i32(global_pointers::get_reg_xmm_offset(r1) as i32); ctx.builder.load_aligned_f64(0); ctx.builder.call_fn1_f64_ret("sse_convert_f64_to_i32"); codegen::gen_set_reg32(ctx, r2); } pub fn instr_F30F2D_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte, r: u32) { codegen::gen_modrm_resolve_safe_read32(ctx, modrm_byte); ctx.builder.reinterpret_i32_as_f32(); ctx.builder.call_fn1_f32_ret("sse_convert_f32_to_i32"); codegen::gen_set_reg32(ctx, r); } pub fn instr_F30F2D_reg_jit(ctx: &mut JitContext, r1: u32, r2: u32) { ctx.builder .const_i32(global_pointers::get_reg_xmm_offset(r1) as i32); ctx.builder.load_aligned_f32(0); ctx.builder.call_fn1_f32_ret("sse_convert_f32_to_i32"); codegen::gen_set_reg32(ctx, r2); } pub fn instr_0F2E_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte, r: u32) { sse_read_f32_xmm_mem(ctx, "instr_0F2E", modrm_byte, r); } pub fn instr_0F2E_reg_jit(ctx: &mut JitContext, r1: u32, r2: u32) { sse_read_f32_xmm_xmm(ctx, "instr_0F2E", r1, r2); } pub fn instr_660F2E_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte, r: u32) { sse_read64_xmm_mem(ctx, "instr_660F2E", modrm_byte, r); } pub fn instr_660F2E_reg_jit(ctx: &mut JitContext, r1: u32, r2: u32) { sse_read64_xmm_xmm(ctx, "instr_660F2E", r1, r2); } pub fn instr_0F2F_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte, r: u32) { sse_read_f32_xmm_mem(ctx, "instr_0F2F", modrm_byte, r); } pub fn instr_0F2F_reg_jit(ctx: &mut JitContext, r1: u32, r2: u32) { sse_read_f32_xmm_xmm(ctx, "instr_0F2F", r1, r2); } pub fn instr_660F2F_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte, r: u32) { sse_read64_xmm_mem(ctx, "instr_660F2F", modrm_byte, r); } pub fn instr_660F2F_reg_jit(ctx: &mut JitContext, r1: u32, r2: u32) { sse_read64_xmm_xmm(ctx, "instr_660F2F", r1, r2); } pub fn instr_0F51_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte, r: u32) { sse_read128_xmm_mem(ctx, "instr_0F51", modrm_byte, r); } pub fn instr_0F51_reg_jit(ctx: &mut JitContext, r1: u32, r2: u32) { sse_read128_xmm_xmm(ctx, "instr_0F51", r1, r2); } pub fn instr_660F51_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte, r: u32) { sse_read128_xmm_mem(ctx, "instr_660F51", modrm_byte, r); } pub fn instr_660F51_reg_jit(ctx: &mut JitContext, r1: u32, r2: u32) { sse_read128_xmm_xmm(ctx, "instr_660F51", r1, r2); } pub fn instr_F20F51_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte, r: u32) { sse_read64_xmm_mem(ctx, "instr_F20F51", modrm_byte, r); } pub fn instr_F20F51_reg_jit(ctx: &mut JitContext, r1: u32, r2: u32) { sse_read64_xmm_xmm(ctx, "instr_F20F51", r1, r2); } pub fn instr_F30F51_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte, r: u32) { sse_read_f32_xmm_mem(ctx, "instr_F30F51", modrm_byte, r); } pub fn instr_F30F51_reg_jit(ctx: &mut JitContext, r1: u32, r2: u32) { sse_read_f32_xmm_xmm(ctx, "instr_F30F51", r1, r2); } pub fn instr_0F52_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte, r: u32) { sse_read128_xmm_mem(ctx, "instr_0F52", modrm_byte, r); } pub fn instr_0F52_reg_jit(ctx: &mut JitContext, r1: u32, r2: u32) { sse_read128_xmm_xmm(ctx, "instr_0F52", r1, r2); } pub fn instr_F30F52_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte, r: u32) { sse_read_f32_xmm_mem(ctx, "instr_F30F52", modrm_byte, r); } pub fn instr_F30F52_reg_jit(ctx: &mut JitContext, r1: u32, r2: u32) { sse_read_f32_xmm_xmm(ctx, "instr_F30F52", r1, r2); } pub fn instr_0F53_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte, r: u32) { sse_read128_xmm_mem(ctx, "instr_0F53", modrm_byte, r); } pub fn instr_0F53_reg_jit(ctx: &mut JitContext, r1: u32, r2: u32) { sse_read128_xmm_xmm(ctx, "instr_0F53", r1, r2); } pub fn instr_F30F53_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte, r: u32) { sse_read_f32_xmm_mem(ctx, "instr_F30F53", modrm_byte, r); } pub fn instr_F30F53_reg_jit(ctx: &mut JitContext, r1: u32, r2: u32) { sse_read_f32_xmm_xmm(ctx, "instr_F30F53", r1, r2); } pub fn instr_0F54_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte, r: u32) { sse_read128_xmm_mem(ctx, "instr_0F54", modrm_byte, r); } pub fn instr_0F54_reg_jit(ctx: &mut JitContext, r1: u32, r2: u32) { sse_read128_xmm_xmm(ctx, "instr_0F54", r1, r2); } pub fn instr_660F54_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte, r: u32) { sse_read128_xmm_mem(ctx, "instr_660F54", modrm_byte, r); } pub fn instr_660F54_reg_jit(ctx: &mut JitContext, r1: u32, r2: u32) { sse_read128_xmm_xmm(ctx, "instr_660F54", r1, r2); } pub fn instr_0F55_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte, r: u32) { sse_read128_xmm_mem(ctx, "instr_0F55", modrm_byte, r); } pub fn instr_0F55_reg_jit(ctx: &mut JitContext, r1: u32, r2: u32) { sse_read128_xmm_xmm(ctx, "instr_0F55", r1, r2); } pub fn instr_660F55_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte, r: u32) { sse_read128_xmm_mem(ctx, "instr_660F55", modrm_byte, r); } pub fn instr_660F55_reg_jit(ctx: &mut JitContext, r1: u32, r2: u32) { sse_read128_xmm_xmm(ctx, "instr_660F55", r1, r2); } pub fn instr_0F56_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte, r: u32) { sse_read128_xmm_mem(ctx, "instr_0F56", modrm_byte, r); } pub fn instr_0F56_reg_jit(ctx: &mut JitContext, r1: u32, r2: u32) { sse_read128_xmm_xmm(ctx, "instr_0F56", r1, r2); } pub fn instr_660F56_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte, r: u32) { sse_read128_xmm_mem(ctx, "instr_660F56", modrm_byte, r); } pub fn instr_660F56_reg_jit(ctx: &mut JitContext, r1: u32, r2: u32) { sse_read128_xmm_xmm(ctx, "instr_660F56", r1, r2); } pub fn instr_0F57_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte, r: u32) { sse_read128_xmm_mem(ctx, "instr_0F57", modrm_byte, r); } pub fn instr_0F57_reg_jit(ctx: &mut JitContext, r1: u32, r2: u32) { sse_read128_xmm_xmm(ctx, "instr_0F57", r1, r2); } pub fn instr_660F57_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte, r: u32) { sse_read128_xmm_mem(ctx, "instr_660F57", modrm_byte, r); } pub fn instr_660F57_reg_jit(ctx: &mut JitContext, r1: u32, r2: u32) { sse_read128_xmm_xmm(ctx, "instr_660F57", r1, r2); } pub fn instr_0F58_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte, r: u32) { sse_read128_xmm_mem(ctx, "instr_0F58", modrm_byte, r); } pub fn instr_0F58_reg_jit(ctx: &mut JitContext, r1: u32, r2: u32) { sse_read128_xmm_xmm(ctx, "instr_0F58", r1, r2); } pub fn instr_660F58_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte, r: u32) { sse_read128_xmm_mem(ctx, "instr_660F58", modrm_byte, r); } pub fn instr_660F58_reg_jit(ctx: &mut JitContext, r1: u32, r2: u32) { sse_read128_xmm_xmm(ctx, "instr_660F58", r1, r2); } pub fn instr_F20F58_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte, r: u32) { sse_read64_xmm_mem(ctx, "instr_F20F58", modrm_byte, r); } pub fn instr_F20F58_reg_jit(ctx: &mut JitContext, r1: u32, r2: u32) { sse_read64_xmm_xmm(ctx, "instr_F20F58", r1, r2); } pub fn instr_F30F58_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte, r: u32) { sse_read_f32_xmm_mem(ctx, "instr_F30F58", modrm_byte, r); } pub fn instr_F30F58_reg_jit(ctx: &mut JitContext, r1: u32, r2: u32) { sse_read_f32_xmm_xmm(ctx, "instr_F30F58", r1, r2); } pub fn instr_0F59_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte, r: u32) { sse_read128_xmm_mem(ctx, "instr_0F59", modrm_byte, r); } pub fn instr_0F59_reg_jit(ctx: &mut JitContext, r1: u32, r2: u32) { sse_read128_xmm_xmm(ctx, "instr_0F59", r1, r2); } pub fn instr_660F59_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte, r: u32) { sse_read128_xmm_mem(ctx, "instr_660F59", modrm_byte, r); } pub fn instr_660F59_reg_jit(ctx: &mut JitContext, r1: u32, r2: u32) { sse_read128_xmm_xmm(ctx, "instr_660F59", r1, r2); } pub fn instr_F20F59_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte, r: u32) { sse_read64_xmm_mem(ctx, "instr_F20F59", modrm_byte, r); } pub fn instr_F20F59_reg_jit(ctx: &mut JitContext, r1: u32, r2: u32) { sse_read64_xmm_xmm(ctx, "instr_F20F59", r1, r2); } pub fn instr_F30F59_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte, r: u32) { sse_read_f32_xmm_mem(ctx, "instr_F30F59", modrm_byte, r); } pub fn instr_F30F59_reg_jit(ctx: &mut JitContext, r1: u32, r2: u32) { sse_read_f32_xmm_xmm(ctx, "instr_F30F59", r1, r2); } pub fn instr_0F5A_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte, r: u32) { sse_read64_xmm_mem(ctx, "instr_0F5A", modrm_byte, r); } pub fn instr_0F5A_reg_jit(ctx: &mut JitContext, r1: u32, r2: u32) { sse_read64_xmm_xmm(ctx, "instr_0F5A", r1, r2); } pub fn instr_660F5A_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte, r: u32) { sse_read128_xmm_mem(ctx, "instr_660F5A", modrm_byte, r); } pub fn instr_660F5A_reg_jit(ctx: &mut JitContext, r1: u32, r2: u32) { sse_read128_xmm_xmm(ctx, "instr_660F5A", r1, r2); } pub fn instr_F20F5A_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte, r: u32) { sse_read64_xmm_mem(ctx, "instr_F20F5A", modrm_byte, r); } pub fn instr_F20F5A_reg_jit(ctx: &mut JitContext, r1: u32, r2: u32) { sse_read64_xmm_xmm(ctx, "instr_F20F5A", r1, r2); } pub fn instr_F30F5A_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte, r: u32) { sse_read_f32_xmm_mem(ctx, "instr_F30F5A", modrm_byte, r); } pub fn instr_F30F5A_reg_jit(ctx: &mut JitContext, r1: u32, r2: u32) { sse_read_f32_xmm_xmm(ctx, "instr_F30F5A", r1, r2); } pub fn instr_0F5B_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte, r: u32) { sse_read128_xmm_mem(ctx, "instr_0F5B", modrm_byte, r); } pub fn instr_0F5B_reg_jit(ctx: &mut JitContext, r1: u32, r2: u32) { sse_read128_xmm_xmm(ctx, "instr_0F5B", r1, r2); } pub fn instr_660F5B_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte, r: u32) { sse_read128_xmm_mem(ctx, "instr_660F5B", modrm_byte, r); } pub fn instr_660F5B_reg_jit(ctx: &mut JitContext, r1: u32, r2: u32) { sse_read128_xmm_xmm(ctx, "instr_660F5B", r1, r2); } pub fn instr_F30F5B_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte, r: u32) { sse_read128_xmm_mem(ctx, "instr_F30F5B", modrm_byte, r); } pub fn instr_F30F5B_reg_jit(ctx: &mut JitContext, r1: u32, r2: u32) { sse_read128_xmm_xmm(ctx, "instr_F30F5B", r1, r2); } pub fn instr_0F5C_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte, r: u32) { sse_read128_xmm_mem(ctx, "instr_0F5C", modrm_byte, r); } pub fn instr_0F5C_reg_jit(ctx: &mut JitContext, r1: u32, r2: u32) { sse_read128_xmm_xmm(ctx, "instr_0F5C", r1, r2); } pub fn instr_660F5C_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte, r: u32) { sse_read128_xmm_mem(ctx, "instr_660F5C", modrm_byte, r); } pub fn instr_660F5C_reg_jit(ctx: &mut JitContext, r1: u32, r2: u32) { sse_read128_xmm_xmm(ctx, "instr_660F5C", r1, r2); } pub fn instr_F20F5C_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte, r: u32) { sse_read64_xmm_mem(ctx, "instr_F20F5C", modrm_byte, r); } pub fn instr_F20F5C_reg_jit(ctx: &mut JitContext, r1: u32, r2: u32) { sse_read64_xmm_xmm(ctx, "instr_F20F5C", r1, r2); } pub fn instr_F30F5C_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte, r: u32) { sse_read_f32_xmm_mem(ctx, "instr_F30F5C", modrm_byte, r); } pub fn instr_F30F5C_reg_jit(ctx: &mut JitContext, r1: u32, r2: u32) { sse_read_f32_xmm_xmm(ctx, "instr_F30F5C", r1, r2); } pub fn instr_0F5D_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte, r: u32) { sse_read128_xmm_mem(ctx, "instr_0F5D", modrm_byte, r); } pub fn instr_0F5D_reg_jit(ctx: &mut JitContext, r1: u32, r2: u32) { sse_read128_xmm_xmm(ctx, "instr_0F5D", r1, r2); } pub fn instr_660F5D_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte, r: u32) { sse_read128_xmm_mem(ctx, "instr_660F5D", modrm_byte, r); } pub fn instr_660F5D_reg_jit(ctx: &mut JitContext, r1: u32, r2: u32) { sse_read128_xmm_xmm(ctx, "instr_660F5D", r1, r2); } pub fn instr_F20F5D_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte, r: u32) { sse_read64_xmm_mem(ctx, "instr_F20F5D", modrm_byte, r); } pub fn instr_F20F5D_reg_jit(ctx: &mut JitContext, r1: u32, r2: u32) { sse_read64_xmm_xmm(ctx, "instr_F20F5D", r1, r2); } pub fn instr_F30F5D_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte, r: u32) { sse_read_f32_xmm_mem(ctx, "instr_F30F5D", modrm_byte, r); } pub fn instr_F30F5D_reg_jit(ctx: &mut JitContext, r1: u32, r2: u32) { sse_read_f32_xmm_xmm(ctx, "instr_F30F5D", r1, r2); } pub fn instr_0F5E_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte, r: u32) { sse_read128_xmm_mem(ctx, "instr_0F5E", modrm_byte, r); } pub fn instr_0F5E_reg_jit(ctx: &mut JitContext, r1: u32, r2: u32) { sse_read128_xmm_xmm(ctx, "instr_0F5E", r1, r2); } pub fn instr_660F5E_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte, r: u32) { sse_read128_xmm_mem(ctx, "instr_660F5E", modrm_byte, r); } pub fn instr_660F5E_reg_jit(ctx: &mut JitContext, r1: u32, r2: u32) { sse_read128_xmm_xmm(ctx, "instr_660F5E", r1, r2); } pub fn instr_F20F5E_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte, r: u32) { sse_read64_xmm_mem(ctx, "instr_F20F5E", modrm_byte, r); } pub fn instr_F20F5E_reg_jit(ctx: &mut JitContext, r1: u32, r2: u32) { sse_read64_xmm_xmm(ctx, "instr_F20F5E", r1, r2); } pub fn instr_F30F5E_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte, r: u32) { sse_read_f32_xmm_mem(ctx, "instr_F30F5E", modrm_byte, r); } pub fn instr_F30F5E_reg_jit(ctx: &mut JitContext, r1: u32, r2: u32) { sse_read_f32_xmm_xmm(ctx, "instr_F30F5E", r1, r2); } pub fn instr_0F5F_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte, r: u32) { sse_read128_xmm_mem(ctx, "instr_0F5F", modrm_byte, r); } pub fn instr_0F5F_reg_jit(ctx: &mut JitContext, r1: u32, r2: u32) { sse_read128_xmm_xmm(ctx, "instr_0F5F", r1, r2); } pub fn instr_660F5F_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte, r: u32) { sse_read128_xmm_mem(ctx, "instr_660F5F", modrm_byte, r); } pub fn instr_660F5F_reg_jit(ctx: &mut JitContext, r1: u32, r2: u32) { sse_read128_xmm_xmm(ctx, "instr_660F5F", r1, r2); } pub fn instr_F20F5F_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte, r: u32) { sse_read64_xmm_mem(ctx, "instr_F20F5F", modrm_byte, r); } pub fn instr_F20F5F_reg_jit(ctx: &mut JitContext, r1: u32, r2: u32) { sse_read64_xmm_xmm(ctx, "instr_F20F5F", r1, r2); } pub fn instr_F30F5F_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte, r: u32) { sse_read_f32_xmm_mem(ctx, "instr_F30F5F", modrm_byte, r); } pub fn instr_F30F5F_reg_jit(ctx: &mut JitContext, r1: u32, r2: u32) { sse_read_f32_xmm_xmm(ctx, "instr_F30F5F", r1, r2); } pub fn instr_0F60_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte, r: u32) { mmx_read64_mm_mem32(ctx, "instr_0F60", modrm_byte, r); } pub fn instr_0F60_reg_jit(ctx: &mut JitContext, r1: u32, r2: u32) { mmx_read64_mm_mm32(ctx, "instr_0F60", r1, r2); } pub fn instr_0F61_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte, r: u32) { mmx_read64_mm_mem32(ctx, "instr_0F61", modrm_byte, r); } pub fn instr_0F61_reg_jit(ctx: &mut JitContext, r1: u32, r2: u32) { mmx_read64_mm_mm32(ctx, "instr_0F61", r1, r2); } pub fn instr_0F62_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte, r: u32) { mmx_read64_mm_mem32(ctx, "instr_0F62", modrm_byte, r); } pub fn instr_0F62_reg_jit(ctx: &mut JitContext, r1: u32, r2: u32) { mmx_read64_mm_mm32(ctx, "instr_0F62", r1, r2); } pub fn instr_0F63_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte, r: u32) { mmx_read64_mm_mem(ctx, "instr_0F63", modrm_byte, r); } pub fn instr_0F63_reg_jit(ctx: &mut JitContext, r1: u32, r2: u32) { mmx_read64_mm_mm(ctx, "instr_0F63", r1, r2); } pub fn instr_0F64_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte, r: u32) { mmx_read64_mm_mem(ctx, "instr_0F64", modrm_byte, r); } pub fn instr_0F64_reg_jit(ctx: &mut JitContext, r1: u32, r2: u32) { mmx_read64_mm_mm(ctx, "instr_0F64", r1, r2); } pub fn instr_0F65_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte, r: u32) { mmx_read64_mm_mem(ctx, "instr_0F65", modrm_byte, r); } pub fn instr_0F65_reg_jit(ctx: &mut JitContext, r1: u32, r2: u32) { mmx_read64_mm_mm(ctx, "instr_0F65", r1, r2); } pub fn instr_0F66_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte, r: u32) { mmx_read64_mm_mem(ctx, "instr_0F66", modrm_byte, r); } pub fn instr_0F66_reg_jit(ctx: &mut JitContext, r1: u32, r2: u32) { mmx_read64_mm_mm(ctx, "instr_0F66", r1, r2); } pub fn instr_0F67_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte, r: u32) { mmx_read64_mm_mem(ctx, "instr_0F67", modrm_byte, r); } pub fn instr_0F67_reg_jit(ctx: &mut JitContext, r1: u32, r2: u32) { mmx_read64_mm_mm(ctx, "instr_0F67", r1, r2); } pub fn instr_0F68_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte, r: u32) { mmx_read64_mm_mem(ctx, "instr_0F68", modrm_byte, r); } pub fn instr_0F68_reg_jit(ctx: &mut JitContext, r1: u32, r2: u32) { mmx_read64_mm_mm(ctx, "instr_0F68", r1, r2); } pub fn instr_0F69_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte, r: u32) { mmx_read64_mm_mem(ctx, "instr_0F69", modrm_byte, r); } pub fn instr_0F69_reg_jit(ctx: &mut JitContext, r1: u32, r2: u32) { mmx_read64_mm_mm(ctx, "instr_0F69", r1, r2); } pub fn instr_0F6A_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte, r: u32) { mmx_read64_mm_mem(ctx, "instr_0F6A", modrm_byte, r); } pub fn instr_0F6A_reg_jit(ctx: &mut JitContext, r1: u32, r2: u32) { mmx_read64_mm_mm(ctx, "instr_0F6A", r1, r2); } pub fn instr_0F6B_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte, r: u32) { mmx_read64_mm_mem(ctx, "instr_0F6B", modrm_byte, r); } pub fn instr_0F6B_reg_jit(ctx: &mut JitContext, r1: u32, r2: u32) { mmx_read64_mm_mm(ctx, "instr_0F6B", r1, r2); } pub fn instr_660F60_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte, r: u32) { // Note: Only requires 64-bit read, but is allowed to do 128-bit read sse_read128_xmm_mem(ctx, "instr_660F60", modrm_byte, r); } pub fn instr_660F60_reg_jit(ctx: &mut JitContext, r1: u32, r2: u32) { sse_read128_xmm_xmm(ctx, "instr_660F60", r1, r2); } pub fn instr_660F61_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte, r: u32) { // Note: Only requires 64-bit read, but is allowed to do 128-bit read sse_read128_xmm_mem(ctx, "instr_660F61", modrm_byte, r); } pub fn instr_660F61_reg_jit(ctx: &mut JitContext, r1: u32, r2: u32) { sse_read128_xmm_xmm(ctx, "instr_660F61", r1, r2); } pub fn instr_660F62_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte, r: u32) { sse_read128_xmm_mem(ctx, "instr_660F62", modrm_byte, r); } pub fn instr_660F62_reg_jit(ctx: &mut JitContext, r1: u32, r2: u32) { sse_read128_xmm_xmm(ctx, "instr_660F62", r1, r2); } pub fn instr_660F63_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte, r: u32) { sse_read128_xmm_mem(ctx, "instr_660F63", modrm_byte, r); } pub fn instr_660F63_reg_jit(ctx: &mut JitContext, r1: u32, r2: u32) { sse_read128_xmm_xmm(ctx, "instr_660F63", r1, r2); } pub fn instr_660F64_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte, r: u32) { sse_read128_xmm_mem(ctx, "instr_660F64", modrm_byte, r); } pub fn instr_660F64_reg_jit(ctx: &mut JitContext, r1: u32, r2: u32) { sse_read128_xmm_xmm(ctx, "instr_660F64", r1, r2); } pub fn instr_660F65_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte, r: u32) { sse_read128_xmm_mem(ctx, "instr_660F65", modrm_byte, r); } pub fn instr_660F65_reg_jit(ctx: &mut JitContext, r1: u32, r2: u32) { sse_read128_xmm_xmm(ctx, "instr_660F65", r1, r2); } pub fn instr_660F66_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte, r: u32) { sse_read128_xmm_mem(ctx, "instr_660F66", modrm_byte, r); } pub fn instr_660F66_reg_jit(ctx: &mut JitContext, r1: u32, r2: u32) { sse_read128_xmm_xmm(ctx, "instr_660F66", r1, r2); } pub fn instr_660F67_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte, r: u32) { sse_read128_xmm_mem(ctx, "instr_660F67", modrm_byte, r); } pub fn instr_660F67_reg_jit(ctx: &mut JitContext, r1: u32, r2: u32) { sse_read128_xmm_xmm(ctx, "instr_660F67", r1, r2); } pub fn instr_660F68_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte, r: u32) { sse_read128_xmm_mem(ctx, "instr_660F68", modrm_byte, r); } pub fn instr_660F68_reg_jit(ctx: &mut JitContext, r1: u32, r2: u32) { sse_read128_xmm_xmm(ctx, "instr_660F68", r1, r2); } pub fn instr_660F69_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte, r: u32) { sse_read128_xmm_mem(ctx, "instr_660F69", modrm_byte, r); } pub fn instr_660F69_reg_jit(ctx: &mut JitContext, r1: u32, r2: u32) { sse_read128_xmm_xmm(ctx, "instr_660F69", r1, r2); } pub fn instr_660F6A_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte, r: u32) { sse_read128_xmm_mem(ctx, "instr_660F6A", modrm_byte, r); } pub fn instr_660F6A_reg_jit(ctx: &mut JitContext, r1: u32, r2: u32) { sse_read128_xmm_xmm(ctx, "instr_660F6A", r1, r2); } pub fn instr_660F6B_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte, r: u32) { sse_read128_xmm_mem(ctx, "instr_660F6B", modrm_byte, r); } pub fn instr_660F6B_reg_jit(ctx: &mut JitContext, r1: u32, r2: u32) { sse_read128_xmm_xmm(ctx, "instr_660F6B", r1, r2); } pub fn instr_660F6C_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte, r: u32) { sse_read128_xmm_mem(ctx, "instr_660F6C", modrm_byte, r); } pub fn instr_660F6C_reg_jit(ctx: &mut JitContext, r1: u32, r2: u32) { sse_read128_xmm_xmm(ctx, "instr_660F6C", r1, r2); } pub fn instr_660F6D_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte, r: u32) { sse_read128_xmm_mem(ctx, "instr_660F6D", modrm_byte, r); } pub fn instr_660F6D_reg_jit(ctx: &mut JitContext, r1: u32, r2: u32) { sse_read128_xmm_xmm(ctx, "instr_660F6D", r1, r2); } pub fn instr_0F6E_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte, r: u32) { codegen::gen_modrm_resolve_safe_read32(ctx, modrm_byte); ctx.builder.const_i32(r as i32); ctx.builder.call_fn2("instr_0F6E") } pub fn instr_0F6E_reg_jit(ctx: &mut JitContext, r1: u32, r2: u32) { codegen::gen_get_reg32(ctx, r1); ctx.builder.const_i32(r2 as i32); ctx.builder.call_fn2("instr_0F6E") } pub fn instr_660F6E_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte, r: u32) { codegen::gen_modrm_resolve_safe_read32(ctx, modrm_byte); ctx.builder.const_i32(r as i32); ctx.builder.call_fn2("instr_660F6E") } pub fn instr_660F6E_reg_jit(ctx: &mut JitContext, r1: u32, r2: u32) { codegen::gen_get_reg32(ctx, r1); ctx.builder.const_i32(r2 as i32); ctx.builder.call_fn2("instr_660F6E") } pub fn instr_0F6F_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte, r: u32) { // XXX: Aligned read or #gp codegen::gen_modrm_resolve_safe_read64(ctx, modrm_byte); ctx.builder.const_i32(r as i32); ctx.builder.call_fn2_i64_i32("instr_0F6F") } pub fn instr_0F6F_reg_jit(ctx: &mut JitContext, r1: u32, r2: u32) { ctx.builder.const_i32(r1 as i32); ctx.builder.const_i32(r2 as i32); ctx.builder.call_fn2("instr_0F6F_reg") } pub fn instr_660F6F_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte, r: u32) { // XXX: Aligned read or #gp let dest = global_pointers::get_reg_xmm_offset(r); codegen::gen_modrm_resolve_safe_read128(ctx, modrm_byte, dest); } pub fn instr_660F6F_reg_jit(ctx: &mut JitContext, r1: u32, r2: u32) { sse_mov_xmm_xmm(ctx, r1, r2) } pub fn instr_F30F6F_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte, r: u32) { let dest = global_pointers::get_reg_xmm_offset(r); codegen::gen_modrm_resolve_safe_read128(ctx, modrm_byte, dest); } pub fn instr_F30F6F_reg_jit(ctx: &mut JitContext, r1: u32, r2: u32) { sse_mov_xmm_xmm(ctx, r1, r2) } pub fn instr_0F70_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte, r: u32, imm8: u32) { codegen::gen_modrm_resolve_safe_read64(ctx, modrm_byte); ctx.builder.const_i32(r as i32); ctx.builder.const_i32(imm8 as i32); ctx.builder.call_fn3_i64_i32_i32("instr_0F70"); } pub fn instr_0F70_reg_jit(ctx: &mut JitContext, r1: u32, r2: u32, imm8: u32) { ctx.builder .const_i32(global_pointers::get_reg_mmx_offset(r1) as i32); ctx.builder.load_aligned_i64(0); ctx.builder.const_i32(r2 as i32); ctx.builder.const_i32(imm8 as i32); ctx.builder.call_fn3_i64_i32_i32("instr_0F70"); } pub fn instr_660F70_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte, r: u32, imm8: u32) { sse_read128_xmm_mem_imm(ctx, "instr_660F70", modrm_byte, r, imm8) } pub fn instr_660F70_reg_jit(ctx: &mut JitContext, r1: u32, r2: u32, imm8: u32) { sse_read128_xmm_xmm_imm(ctx, "instr_660F70", r1, r2, imm8) } pub fn instr_F20F70_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte, r: u32, imm8: u32) { sse_read128_xmm_mem_imm(ctx, "instr_F20F70", modrm_byte, r, imm8) } pub fn instr_F20F70_reg_jit(ctx: &mut JitContext, r1: u32, r2: u32, imm8: u32) { sse_read128_xmm_xmm_imm(ctx, "instr_F20F70", r1, r2, imm8) } pub fn instr_F30F70_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte, r: u32, imm8: u32) { sse_read128_xmm_mem_imm(ctx, "instr_F30F70", modrm_byte, r, imm8) } pub fn instr_F30F70_reg_jit(ctx: &mut JitContext, r1: u32, r2: u32, imm8: u32) { sse_read128_xmm_xmm_imm(ctx, "instr_F30F70", r1, r2, imm8) } pub fn instr_0F71_2_mem_jit(ctx: &mut JitContext, _modrm_byte: ModrmByte, _imm: u32) { codegen::gen_trigger_ud(ctx); } pub fn instr_0F71_2_reg_jit(ctx: &mut JitContext, r: u32, imm8: u32) { ctx.builder.const_i32(r as i32); ctx.builder.const_i32(imm8 as i32); ctx.builder.call_fn2("instr_0F71_2_reg"); } pub fn instr_0F71_4_mem_jit(ctx: &mut JitContext, _modrm_byte: ModrmByte, _imm: u32) { codegen::gen_trigger_ud(ctx); } pub fn instr_0F71_4_reg_jit(ctx: &mut JitContext, r: u32, imm8: u32) { ctx.builder.const_i32(r as i32); ctx.builder.const_i32(imm8 as i32); ctx.builder.call_fn2("instr_0F71_4_reg"); } pub fn instr_0F71_6_mem_jit(ctx: &mut JitContext, _modrm_byte: ModrmByte, _imm: u32) { codegen::gen_trigger_ud(ctx); } pub fn instr_0F71_6_reg_jit(ctx: &mut JitContext, r: u32, imm8: u32) { ctx.builder.const_i32(r as i32); ctx.builder.const_i32(imm8 as i32); ctx.builder.call_fn2("instr_0F71_6_reg"); } pub fn instr_0F72_2_mem_jit(ctx: &mut JitContext, _modrm_byte: ModrmByte, _imm: u32) { codegen::gen_trigger_ud(ctx); } pub fn instr_0F72_2_reg_jit(ctx: &mut JitContext, r: u32, imm8: u32) { ctx.builder.const_i32(r as i32); ctx.builder.const_i32(imm8 as i32); ctx.builder.call_fn2("instr_0F72_2_reg"); } pub fn instr_0F72_4_mem_jit(ctx: &mut JitContext, _modrm_byte: ModrmByte, _imm: u32) { codegen::gen_trigger_ud(ctx); } pub fn instr_0F72_4_reg_jit(ctx: &mut JitContext, r: u32, imm8: u32) { ctx.builder.const_i32(r as i32); ctx.builder.const_i32(imm8 as i32); ctx.builder.call_fn2("instr_0F72_4_reg"); } pub fn instr_0F72_6_mem_jit(ctx: &mut JitContext, _modrm_byte: ModrmByte, _imm: u32) { codegen::gen_trigger_ud(ctx); } pub fn instr_0F72_6_reg_jit(ctx: &mut JitContext, r: u32, imm8: u32) { ctx.builder.const_i32(r as i32); ctx.builder.const_i32(imm8 as i32); ctx.builder.call_fn2("instr_0F72_6_reg"); } pub fn instr_0F73_2_mem_jit(ctx: &mut JitContext, _modrm_byte: ModrmByte, _imm: u32) { codegen::gen_trigger_ud(ctx); } pub fn instr_0F73_2_reg_jit(ctx: &mut JitContext, r: u32, imm8: u32) { ctx.builder.const_i32(r as i32); ctx.builder.const_i32(imm8 as i32); ctx.builder.call_fn2("instr_0F73_2_reg"); } pub fn instr_0F73_6_mem_jit(ctx: &mut JitContext, _modrm_byte: ModrmByte, _imm: u32) { codegen::gen_trigger_ud(ctx); } pub fn instr_0F73_6_reg_jit(ctx: &mut JitContext, r: u32, imm8: u32) { ctx.builder.const_i32(r as i32); ctx.builder.const_i32(imm8 as i32); ctx.builder.call_fn2("instr_0F73_6_reg"); } pub fn instr_660F71_2_mem_jit(ctx: &mut JitContext, _modrm_byte: ModrmByte, _imm: u32) { codegen::gen_trigger_ud(ctx); } pub fn instr_660F71_2_reg_jit(ctx: &mut JitContext, r: u32, imm8: u32) { ctx.builder.const_i32(r as i32); ctx.builder.const_i32(imm8 as i32); ctx.builder.call_fn2("instr_660F71_2_reg"); } pub fn instr_660F71_4_mem_jit(ctx: &mut JitContext, _modrm_byte: ModrmByte, _imm: u32) { codegen::gen_trigger_ud(ctx); } pub fn instr_660F71_4_reg_jit(ctx: &mut JitContext, r: u32, imm8: u32) { ctx.builder.const_i32(r as i32); ctx.builder.const_i32(imm8 as i32); ctx.builder.call_fn2("instr_660F71_4_reg"); } pub fn instr_660F71_6_mem_jit(ctx: &mut JitContext, _modrm_byte: ModrmByte, _imm: u32) { codegen::gen_trigger_ud(ctx); } pub fn instr_660F71_6_reg_jit(ctx: &mut JitContext, r: u32, imm8: u32) { ctx.builder.const_i32(r as i32); ctx.builder.const_i32(imm8 as i32); ctx.builder.call_fn2("instr_660F71_6_reg"); } pub fn instr_660F72_2_mem_jit(ctx: &mut JitContext, _modrm_byte: ModrmByte, _imm: u32) { codegen::gen_trigger_ud(ctx); } pub fn instr_660F72_2_reg_jit(ctx: &mut JitContext, r: u32, imm8: u32) { ctx.builder.const_i32(r as i32); ctx.builder.const_i32(imm8 as i32); ctx.builder.call_fn2("instr_660F72_2_reg"); } pub fn instr_660F72_4_mem_jit(ctx: &mut JitContext, _modrm_byte: ModrmByte, _imm: u32) { codegen::gen_trigger_ud(ctx); } pub fn instr_660F72_4_reg_jit(ctx: &mut JitContext, r: u32, imm8: u32) { ctx.builder.const_i32(r as i32); ctx.builder.const_i32(imm8 as i32); ctx.builder.call_fn2("instr_660F72_4_reg"); } pub fn instr_660F72_6_mem_jit(ctx: &mut JitContext, _modrm_byte: ModrmByte, _imm: u32) { codegen::gen_trigger_ud(ctx); } pub fn instr_660F72_6_reg_jit(ctx: &mut JitContext, r: u32, imm8: u32) { ctx.builder.const_i32(r as i32); ctx.builder.const_i32(imm8 as i32); ctx.builder.call_fn2("instr_660F72_6_reg"); } pub fn instr_660F73_2_mem_jit(ctx: &mut JitContext, _modrm_byte: ModrmByte, _imm: u32) { codegen::gen_trigger_ud(ctx); } pub fn instr_660F73_2_reg_jit(ctx: &mut JitContext, r: u32, imm8: u32) { ctx.builder.const_i32(r as i32); ctx.builder.const_i32(imm8 as i32); ctx.builder.call_fn2("instr_660F73_2_reg"); } pub fn instr_660F73_3_mem_jit(ctx: &mut JitContext, _modrm_byte: ModrmByte, _imm: u32) { codegen::gen_trigger_ud(ctx); } pub fn instr_660F73_3_reg_jit(ctx: &mut JitContext, r: u32, imm8: u32) { ctx.builder.const_i32(r as i32); ctx.builder.const_i32(imm8 as i32); ctx.builder.call_fn2("instr_660F73_3_reg"); } pub fn instr_660F73_6_mem_jit(ctx: &mut JitContext, _modrm_byte: ModrmByte, _imm: u32) { codegen::gen_trigger_ud(ctx); } pub fn instr_660F73_6_reg_jit(ctx: &mut JitContext, r: u32, imm8: u32) { ctx.builder.const_i32(r as i32); ctx.builder.const_i32(imm8 as i32); ctx.builder.call_fn2("instr_660F73_6_reg"); } pub fn instr_660F73_7_mem_jit(ctx: &mut JitContext, _modrm_byte: ModrmByte, _imm: u32) { codegen::gen_trigger_ud(ctx); } pub fn instr_660F73_7_reg_jit(ctx: &mut JitContext, r: u32, imm8: u32) { ctx.builder.const_i32(r as i32); ctx.builder.const_i32(imm8 as i32); ctx.builder.call_fn2("instr_660F73_7_reg"); } pub fn instr_0F74_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte, r: u32) { mmx_read64_mm_mem(ctx, "instr_0F74", modrm_byte, r); } pub fn instr_0F74_reg_jit(ctx: &mut JitContext, r1: u32, r2: u32) { mmx_read64_mm_mm(ctx, "instr_0F74", r1, r2); } pub fn instr_0F75_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte, r: u32) { mmx_read64_mm_mem(ctx, "instr_0F75", modrm_byte, r); } pub fn instr_0F75_reg_jit(ctx: &mut JitContext, r1: u32, r2: u32) { mmx_read64_mm_mm(ctx, "instr_0F75", r1, r2); } pub fn instr_0F76_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte, r: u32) { mmx_read64_mm_mem(ctx, "instr_0F76", modrm_byte, r); } pub fn instr_0F76_reg_jit(ctx: &mut JitContext, r1: u32, r2: u32) { mmx_read64_mm_mm(ctx, "instr_0F76", r1, r2); } pub fn instr_660F74_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte, r: u32) { sse_read128_xmm_mem(ctx, "instr_660F74", modrm_byte, r); } pub fn instr_660F74_reg_jit(ctx: &mut JitContext, r1: u32, r2: u32) { sse_read128_xmm_xmm(ctx, "instr_660F74", r1, r2); } pub fn instr_660F75_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte, r: u32) { sse_read128_xmm_mem(ctx, "instr_660F75", modrm_byte, r); } pub fn instr_660F75_reg_jit(ctx: &mut JitContext, r1: u32, r2: u32) { sse_read128_xmm_xmm(ctx, "instr_660F75", r1, r2); } pub fn instr_660F76_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte, r: u32) { sse_read128_xmm_mem(ctx, "instr_660F76", modrm_byte, r); } pub fn instr_660F76_reg_jit(ctx: &mut JitContext, r1: u32, r2: u32) { sse_read128_xmm_xmm(ctx, "instr_660F76", r1, r2); } pub fn instr_0F7E_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte, r: u32) { codegen::gen_modrm_resolve(ctx, modrm_byte); let address_local = ctx.builder.set_new_local(); ctx.builder.const_i32(r as i32); ctx.builder.call_fn1_ret("instr_0F7E"); let value_local = ctx.builder.set_new_local(); codegen::gen_safe_write32(ctx, &address_local, &value_local); ctx.builder.free_local(address_local); ctx.builder.free_local(value_local); } pub fn instr_0F7E_reg_jit(ctx: &mut JitContext, r1: u32, r2: u32) { ctx.builder.const_i32(r2 as i32); ctx.builder.call_fn1_ret("instr_0F7E"); codegen::gen_set_reg32(ctx, r1); } pub fn instr_660F7E_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte, r: u32) { codegen::gen_modrm_resolve(ctx, modrm_byte); let address_local = ctx.builder.set_new_local(); ctx.builder .load_fixed_i32(global_pointers::get_reg_xmm_offset(r)); let value_local = ctx.builder.set_new_local(); codegen::gen_safe_write32(ctx, &address_local, &value_local); ctx.builder.free_local(address_local); ctx.builder.free_local(value_local); } pub fn instr_660F7E_reg_jit(ctx: &mut JitContext, r1: u32, r2: u32) { ctx.builder .load_fixed_i32(global_pointers::get_reg_xmm_offset(r2)); codegen::gen_set_reg32(ctx, r1); } pub fn instr_0F7F_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte, r: u32) { codegen::gen_modrm_resolve(ctx, modrm_byte); let address_local = ctx.builder.set_new_local(); ctx.builder.const_i32(r as i32); ctx.builder.call_fn1_ret_i64("instr_0F7F"); let value_local = ctx.builder.set_new_local_i64(); codegen::gen_safe_write64(ctx, &address_local, &value_local); ctx.builder.free_local(address_local); ctx.builder.free_local_i64(value_local); } pub fn instr_0F7F_reg_jit(ctx: &mut JitContext, r1: u32, r2: u32) { ctx.builder.const_i32(r1 as i32); ctx.builder.const_i32(r2 as i32); ctx.builder.call_fn2("instr_0F7F_reg") } pub fn instr_F30F7E_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte, r: u32) { ctx.builder .const_i32(global_pointers::get_reg_xmm_offset(r) as i32); codegen::gen_modrm_resolve_safe_read64(ctx, modrm_byte); ctx.builder.store_aligned_i64(0); ctx.builder .const_i32(global_pointers::get_reg_xmm_offset(r) as i32 + 8); ctx.builder.const_i64(0); ctx.builder.store_aligned_i64(0); } pub fn instr_F30F7E_reg_jit(ctx: &mut JitContext, r1: u32, r2: u32) { ctx.builder.const_i32(r1 as i32); ctx.builder.const_i32(r2 as i32); ctx.builder.call_fn2("instr_F30F7E_reg"); } pub fn instr_660F7F_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte, r: u32) { instr_0F29_mem_jit(ctx, modrm_byte, r); } pub fn instr_660F7F_reg_jit(ctx: &mut JitContext, r1: u32, r2: u32) { sse_mov_xmm_xmm(ctx, r2, r1) } pub fn instr_F30F7F_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte, r: u32) { instr_0F29_mem_jit(ctx, modrm_byte, r); } pub fn instr_F30F7F_reg_jit(ctx: &mut JitContext, r1: u32, r2: u32) { sse_mov_xmm_xmm(ctx, r2, r1) } pub fn instr16_0FA0_jit(ctx: &mut JitContext) { codegen::gen_get_sreg(ctx, regs::FS); let sreg = ctx.builder.set_new_local(); codegen::gen_push16(ctx, &sreg); ctx.builder.free_local(sreg); } pub fn instr32_0FA0_jit(ctx: &mut JitContext) { codegen::gen_get_sreg(ctx, regs::FS); let sreg = ctx.builder.set_new_local(); codegen::gen_push32(ctx, &sreg); ctx.builder.free_local(sreg); } pub fn instr16_0FA8_jit(ctx: &mut JitContext) { codegen::gen_get_sreg(ctx, regs::GS); let sreg = ctx.builder.set_new_local(); codegen::gen_push16(ctx, &sreg); ctx.builder.free_local(sreg); } pub fn instr32_0FA8_jit(ctx: &mut JitContext) { codegen::gen_get_sreg(ctx, regs::GS); let sreg = ctx.builder.set_new_local(); codegen::gen_push32(ctx, &sreg); ctx.builder.free_local(sreg); } pub fn instr16_0FA3_reg_jit(ctx: &mut JitContext, r1: u32, r2: u32) { gen_bt( &mut ctx.builder, &ctx.register_locals[r1 as usize], &LocalOrImmediate::WasmLocal(&ctx.register_locals[r2 as usize]), 15, ) } pub fn instr16_0FA3_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte, r: u32) { codegen::gen_modrm_resolve(ctx, modrm_byte); codegen::gen_get_reg16(ctx, r); codegen::sign_extend_i16(ctx.builder); ctx.builder.const_i32(3); ctx.builder.shr_s_i32(); ctx.builder.add_i32(); let address_local = ctx.builder.set_new_local(); codegen::gen_safe_read8(ctx, &address_local); ctx.builder.free_local(address_local); let value = ctx.builder.set_new_local(); gen_bt( &mut ctx.builder, &value, &LocalOrImmediate::WasmLocal(&ctx.register_locals[r as usize]), 7, ); ctx.builder.free_local(value); } pub fn instr32_0FA3_reg_jit(ctx: &mut JitContext, r1: u32, r2: u32) { gen_bt( &mut ctx.builder, &ctx.register_locals[r1 as usize], &LocalOrImmediate::WasmLocal(&ctx.register_locals[r2 as usize]), 31, ) } pub fn instr32_0FA3_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte, r: u32) { codegen::gen_modrm_resolve(ctx, modrm_byte); codegen::gen_get_reg32(ctx, r); ctx.builder.const_i32(3); ctx.builder.shr_s_i32(); ctx.builder.add_i32(); let address_local = ctx.builder.set_new_local(); codegen::gen_safe_read8(ctx, &address_local); ctx.builder.free_local(address_local); let value = ctx.builder.set_new_local(); gen_bt( &mut ctx.builder, &value, &LocalOrImmediate::WasmLocal(&ctx.register_locals[r as usize]), 7, ); ctx.builder.free_local(value); } pub fn instr16_0FAB_reg_jit(ctx: &mut JitContext, r1: u32, r2: u32) { gen_bts( &mut ctx.builder, &ctx.register_locals[r1 as usize], &LocalOrImmediate::WasmLocal(&ctx.register_locals[r2 as usize]), 15, ) } pub fn instr16_0FAB_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte, r: u32) { gen_bit_rmw( ctx, modrm_byte, &gen_bts, &LocalOrImmediate::WasmLocal(&ctx.reg(r)), 16, ); } pub fn instr32_0FAB_reg_jit(ctx: &mut JitContext, r1: u32, r2: u32) { gen_bts( &mut ctx.builder, &ctx.register_locals[r1 as usize], &LocalOrImmediate::WasmLocal(&ctx.register_locals[r2 as usize]), 31, ) } pub fn instr32_0FAB_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte, r: u32) { gen_bit_rmw( ctx, modrm_byte, &gen_bts, &LocalOrImmediate::WasmLocal(&ctx.reg(r)), 32, ); } pub fn instr16_0FB3_reg_jit(ctx: &mut JitContext, r1: u32, r2: u32) { gen_btr( &mut ctx.builder, &ctx.register_locals[r1 as usize], &LocalOrImmediate::WasmLocal(&ctx.register_locals[r2 as usize]), 15, ) } pub fn instr16_0FB3_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte, r: u32) { gen_bit_rmw( ctx, modrm_byte, &gen_btr, &LocalOrImmediate::WasmLocal(&ctx.reg(r)), 16, ); } pub fn instr32_0FB3_reg_jit(ctx: &mut JitContext, r1: u32, r2: u32) { gen_btr( &mut ctx.builder, &ctx.register_locals[r1 as usize], &LocalOrImmediate::WasmLocal(&ctx.register_locals[r2 as usize]), 31, ) } pub fn instr32_0FB3_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte, r: u32) { gen_bit_rmw( ctx, modrm_byte, &gen_btr, &LocalOrImmediate::WasmLocal(&ctx.reg(r)), 32, ); } pub fn instr16_0FBB_reg_jit(ctx: &mut JitContext, r1: u32, r2: u32) { gen_btc( &mut ctx.builder, &ctx.register_locals[r1 as usize], &LocalOrImmediate::WasmLocal(&ctx.register_locals[r2 as usize]), 15, ) } pub fn instr16_0FBB_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte, r: u32) { gen_bit_rmw( ctx, modrm_byte, &gen_btc, &LocalOrImmediate::WasmLocal(&ctx.reg(r)), 16, ); } pub fn instr32_0FBB_reg_jit(ctx: &mut JitContext, r1: u32, r2: u32) { gen_btc( &mut ctx.builder, &ctx.register_locals[r1 as usize], &LocalOrImmediate::WasmLocal(&ctx.register_locals[r2 as usize]), 31, ) } pub fn instr32_0FBB_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte, r: u32) { gen_bit_rmw( ctx, modrm_byte, &gen_btc, &LocalOrImmediate::WasmLocal(&ctx.reg(r)), 32, ); } pub fn instr16_0FBA_4_reg_jit(ctx: &mut JitContext, r: u32, imm8: u32) { gen_bt( &mut ctx.builder, &ctx.register_locals[r as usize], &LocalOrImmediate::Immediate(imm8 as i32), 15, ) } pub fn instr16_0FBA_4_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte, imm8: u32) { codegen::gen_modrm_resolve(ctx, modrm_byte); let offset = (imm8 as i32 & 15) >> 3; if offset != 0 { ctx.builder.const_i32(offset); ctx.builder.add_i32(); } let address_local = ctx.builder.set_new_local(); codegen::gen_safe_read8(ctx, &address_local); ctx.builder.free_local(address_local); let value = ctx.builder.set_new_local(); gen_bt( &mut ctx.builder, &value, &LocalOrImmediate::Immediate(imm8 as i32), 7, ); ctx.builder.free_local(value); } pub fn instr32_0FBA_4_reg_jit(ctx: &mut JitContext, r: u32, imm8: u32) { gen_bt( &mut ctx.builder, &ctx.register_locals[r as usize], &LocalOrImmediate::Immediate(imm8 as i32), 31, ) } pub fn instr32_0FBA_4_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte, imm8: u32) { codegen::gen_modrm_resolve(ctx, modrm_byte); let offset = (imm8 as i32 & 31) >> 3; if offset != 0 { ctx.builder.const_i32(offset); ctx.builder.add_i32(); } let address_local = ctx.builder.set_new_local(); codegen::gen_safe_read8(ctx, &address_local); ctx.builder.free_local(address_local); let value = ctx.builder.set_new_local(); gen_bt( &mut ctx.builder, &value, &LocalOrImmediate::Immediate(imm8 as i32), 7, ); ctx.builder.free_local(value); } pub fn instr16_0FBA_5_reg_jit(ctx: &mut JitContext, r: u32, imm8: u32) { gen_bts( &mut ctx.builder, &ctx.register_locals[r as usize], &LocalOrImmediate::Immediate(imm8 as i32), 15, ) } pub fn instr16_0FBA_5_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte, imm8: u32) { gen_bit_rmw( ctx, modrm_byte, &gen_bts, &LocalOrImmediate::Immediate(imm8 as i32), 16, ); } pub fn instr32_0FBA_5_reg_jit(ctx: &mut JitContext, r: u32, imm8: u32) { gen_bts( &mut ctx.builder, &ctx.register_locals[r as usize], &LocalOrImmediate::Immediate(imm8 as i32), 31, ) } pub fn instr32_0FBA_5_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte, imm8: u32) { gen_bit_rmw( ctx, modrm_byte, &gen_bts, &LocalOrImmediate::Immediate(imm8 as i32), 32, ); } pub fn instr16_0FBA_6_reg_jit(ctx: &mut JitContext, r: u32, imm8: u32) { gen_btr( &mut ctx.builder, &ctx.register_locals[r as usize], &LocalOrImmediate::Immediate(imm8 as i32), 15, ) } pub fn instr16_0FBA_6_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte, imm8: u32) { gen_bit_rmw( ctx, modrm_byte, &gen_btr, &LocalOrImmediate::Immediate(imm8 as i32), 16, ); } pub fn instr32_0FBA_6_reg_jit(ctx: &mut JitContext, r: u32, imm8: u32) { gen_btr( &mut ctx.builder, &ctx.register_locals[r as usize], &LocalOrImmediate::Immediate(imm8 as i32), 31, ) } pub fn instr32_0FBA_6_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte, imm8: u32) { gen_bit_rmw( ctx, modrm_byte, &gen_btr, &LocalOrImmediate::Immediate(imm8 as i32), 32, ); } pub fn instr16_0FBA_7_reg_jit(ctx: &mut JitContext, r: u32, imm8: u32) { gen_btc( &mut ctx.builder, &ctx.register_locals[r as usize], &LocalOrImmediate::Immediate(imm8 as i32), 15, ) } pub fn instr16_0FBA_7_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte, imm8: u32) { gen_bit_rmw( ctx, modrm_byte, &gen_btc, &LocalOrImmediate::Immediate(imm8 as i32), 16, ); } pub fn instr32_0FBA_7_reg_jit(ctx: &mut JitContext, r: u32, imm8: u32) { gen_btc( &mut ctx.builder, &ctx.register_locals[r as usize], &LocalOrImmediate::Immediate(imm8 as i32), 31, ) } pub fn instr32_0FBA_7_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte, imm8: u32) { gen_bit_rmw( ctx, modrm_byte, &gen_btc, &LocalOrImmediate::Immediate(imm8 as i32), 32, ); } pub fn instr_0FAE_5_mem_jit(ctx: &mut JitContext, _modrm_byte: ModrmByte) { dbg_log!("Generating #ud for unimplemented instruction: instr_0FAE_5_mem_jit"); codegen::gen_trigger_ud(ctx); } pub fn instr_0FAE_5_reg_jit(_ctx: &mut JitContext, _r: u32) { // For this instruction, the processor ignores the r/m field of the ModR/M byte. } pub fn instr_0FD1_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte, r: u32) { mmx_read64_mm_mem(ctx, "instr_0FD1", modrm_byte, r); } pub fn instr_0FD1_reg_jit(ctx: &mut JitContext, r1: u32, r2: u32) { mmx_read64_mm_mm(ctx, "instr_0FD1", r1, r2); } pub fn instr_0FD2_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte, r: u32) { mmx_read64_mm_mem(ctx, "instr_0FD2", modrm_byte, r); } pub fn instr_0FD2_reg_jit(ctx: &mut JitContext, r1: u32, r2: u32) { mmx_read64_mm_mm(ctx, "instr_0FD2", r1, r2); } pub fn instr_0FD3_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte, r: u32) { mmx_read64_mm_mem(ctx, "instr_0FD3", modrm_byte, r); } pub fn instr_0FD3_reg_jit(ctx: &mut JitContext, r1: u32, r2: u32) { mmx_read64_mm_mm(ctx, "instr_0FD3", r1, r2); } pub fn instr_0FD4_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte, r: u32) { mmx_read64_mm_mem(ctx, "instr_0FD4", modrm_byte, r); } pub fn instr_0FD4_reg_jit(ctx: &mut JitContext, r1: u32, r2: u32) { mmx_read64_mm_mm(ctx, "instr_0FD4", r1, r2); } pub fn instr_0FD5_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte, r: u32) { mmx_read64_mm_mem(ctx, "instr_0FD5", modrm_byte, r); } pub fn instr_0FD5_reg_jit(ctx: &mut JitContext, r1: u32, r2: u32) { mmx_read64_mm_mm(ctx, "instr_0FD5", r1, r2); } pub fn instr_0FD7_mem_jit(ctx: &mut JitContext, _modrm_byte: ModrmByte, _r: u32) { codegen::gen_trigger_ud(ctx) } pub fn instr_0FD7_reg_jit(ctx: &mut JitContext, r1: u32, r2: u32) { ctx.builder.const_i32(r1 as i32); ctx.builder.call_fn1_ret("instr_0FD7"); codegen::gen_set_reg32(ctx, r2); } pub fn instr_0FD8_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte, r: u32) { mmx_read64_mm_mem(ctx, "instr_0FD8", modrm_byte, r); } pub fn instr_0FD8_reg_jit(ctx: &mut JitContext, r1: u32, r2: u32) { mmx_read64_mm_mm(ctx, "instr_0FD8", r1, r2); } pub fn instr_0FD9_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte, r: u32) { mmx_read64_mm_mem(ctx, "instr_0FD9", modrm_byte, r); } pub fn instr_0FD9_reg_jit(ctx: &mut JitContext, r1: u32, r2: u32) { mmx_read64_mm_mm(ctx, "instr_0FD9", r1, r2); } pub fn instr_0FDA_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte, r: u32) { mmx_read64_mm_mem(ctx, "instr_0FDA", modrm_byte, r); } pub fn instr_0FDA_reg_jit(ctx: &mut JitContext, r1: u32, r2: u32) { mmx_read64_mm_mm(ctx, "instr_0FDA", r1, r2); } pub fn instr_0FDB_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte, r: u32) { mmx_read64_mm_mem(ctx, "instr_0FDB", modrm_byte, r); } pub fn instr_0FDB_reg_jit(ctx: &mut JitContext, r1: u32, r2: u32) { mmx_read64_mm_mm(ctx, "instr_0FDB", r1, r2); } pub fn instr_0FDC_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte, r: u32) { mmx_read64_mm_mem(ctx, "instr_0FDC", modrm_byte, r); } pub fn instr_0FDC_reg_jit(ctx: &mut JitContext, r1: u32, r2: u32) { mmx_read64_mm_mm(ctx, "instr_0FDC", r1, r2); } pub fn instr_0FDD_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte, r: u32) { mmx_read64_mm_mem(ctx, "instr_0FDD", modrm_byte, r); } pub fn instr_0FDD_reg_jit(ctx: &mut JitContext, r1: u32, r2: u32) { mmx_read64_mm_mm(ctx, "instr_0FDD", r1, r2); } pub fn instr_0FDE_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte, r: u32) { mmx_read64_mm_mem(ctx, "instr_0FDE", modrm_byte, r); } pub fn instr_0FDE_reg_jit(ctx: &mut JitContext, r1: u32, r2: u32) { mmx_read64_mm_mm(ctx, "instr_0FDE", r1, r2); } pub fn instr_0FDF_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte, r: u32) { mmx_read64_mm_mem(ctx, "instr_0FDF", modrm_byte, r); } pub fn instr_0FDF_reg_jit(ctx: &mut JitContext, r1: u32, r2: u32) { mmx_read64_mm_mm(ctx, "instr_0FDF", r1, r2); } pub fn instr_660FD1_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte, r: u32) { sse_read128_xmm_mem(ctx, "instr_660FD1", modrm_byte, r); } pub fn instr_660FD1_reg_jit(ctx: &mut JitContext, r1: u32, r2: u32) { sse_read128_xmm_xmm(ctx, "instr_660FD1", r1, r2); } pub fn instr_660FD2_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte, r: u32) { sse_read128_xmm_mem(ctx, "instr_660FD2", modrm_byte, r); } pub fn instr_660FD2_reg_jit(ctx: &mut JitContext, r1: u32, r2: u32) { sse_read128_xmm_xmm(ctx, "instr_660FD2", r1, r2); } pub fn instr_660FD3_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte, r: u32) { sse_read128_xmm_mem(ctx, "instr_660FD3", modrm_byte, r); } pub fn instr_660FD3_reg_jit(ctx: &mut JitContext, r1: u32, r2: u32) { sse_read128_xmm_xmm(ctx, "instr_660FD3", r1, r2); } pub fn instr_660FD4_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte, r: u32) { sse_read128_xmm_mem(ctx, "instr_660FD4", modrm_byte, r); } pub fn instr_660FD4_reg_jit(ctx: &mut JitContext, r1: u32, r2: u32) { sse_read128_xmm_xmm(ctx, "instr_660FD4", r1, r2); } pub fn instr_660FD5_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte, r: u32) { sse_read128_xmm_mem(ctx, "instr_660FD5", modrm_byte, r); } pub fn instr_660FD5_reg_jit(ctx: &mut JitContext, r1: u32, r2: u32) { sse_read128_xmm_xmm(ctx, "instr_660FD5", r1, r2); } pub fn instr_660FD6_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte, r: u32) { codegen::gen_modrm_resolve(ctx, modrm_byte); let address_local = ctx.builder.set_new_local(); ctx.builder .const_i32(global_pointers::get_reg_xmm_offset(r) as i32); ctx.builder.load_aligned_i64(0); let value_local = ctx.builder.set_new_local_i64(); codegen::gen_safe_write64(ctx, &address_local, &value_local); ctx.builder.free_local(address_local); ctx.builder.free_local_i64(value_local); } pub fn instr_660FD6_reg_jit(ctx: &mut JitContext, r1: u32, r2: u32) { ctx.builder.const_i32(r1 as i32); ctx.builder.const_i32(r2 as i32); ctx.builder.call_fn2("instr_660FD6_reg"); } pub fn instr_660FD7_mem_jit(ctx: &mut JitContext, _modrm_byte: ModrmByte, _r: u32) { codegen::gen_trigger_ud(ctx) } pub fn instr_660FD7_reg_jit(ctx: &mut JitContext, r1: u32, r2: u32) { ctx.builder.const_i32(r1 as i32); ctx.builder.call_fn1_ret("instr_660FD7"); codegen::gen_set_reg32(ctx, r2); } pub fn instr_660FD8_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte, r: u32) { sse_read128_xmm_mem(ctx, "instr_660FD8", modrm_byte, r); } pub fn instr_660FD8_reg_jit(ctx: &mut JitContext, r1: u32, r2: u32) { sse_read128_xmm_xmm(ctx, "instr_660FD8", r1, r2); } pub fn instr_660FD9_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte, r: u32) { sse_read128_xmm_mem(ctx, "instr_660FD9", modrm_byte, r); } pub fn instr_660FD9_reg_jit(ctx: &mut JitContext, r1: u32, r2: u32) { sse_read128_xmm_xmm(ctx, "instr_660FD9", r1, r2); } pub fn instr_660FDA_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte, r: u32) { sse_read128_xmm_mem(ctx, "instr_660FDA", modrm_byte, r); } pub fn instr_660FDA_reg_jit(ctx: &mut JitContext, r1: u32, r2: u32) { sse_read128_xmm_xmm(ctx, "instr_660FDA", r1, r2); } pub fn instr_660FDB_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte, r: u32) { sse_read128_xmm_mem(ctx, "instr_660FDB", modrm_byte, r); } pub fn instr_660FDB_reg_jit(ctx: &mut JitContext, r1: u32, r2: u32) { sse_read128_xmm_xmm(ctx, "instr_660FDB", r1, r2); } pub fn instr_660FDC_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte, r: u32) { sse_read128_xmm_mem(ctx, "instr_660FDC", modrm_byte, r); } pub fn instr_660FDC_reg_jit(ctx: &mut JitContext, r1: u32, r2: u32) { sse_read128_xmm_xmm(ctx, "instr_660FDC", r1, r2); } pub fn instr_660FDD_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte, r: u32) { sse_read128_xmm_mem(ctx, "instr_660FDD", modrm_byte, r); } pub fn instr_660FDD_reg_jit(ctx: &mut JitContext, r1: u32, r2: u32) { sse_read128_xmm_xmm(ctx, "instr_660FDD", r1, r2); } pub fn instr_660FDE_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte, r: u32) { sse_read128_xmm_mem(ctx, "instr_660FDE", modrm_byte, r); } pub fn instr_660FDE_reg_jit(ctx: &mut JitContext, r1: u32, r2: u32) { sse_read128_xmm_xmm(ctx, "instr_660FDE", r1, r2); } pub fn instr_660FDF_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte, r: u32) { sse_read128_xmm_mem(ctx, "instr_660FDF", modrm_byte, r); } pub fn instr_660FDF_reg_jit(ctx: &mut JitContext, r1: u32, r2: u32) { sse_read128_xmm_xmm(ctx, "instr_660FDF", r1, r2); } pub fn instr_0FE0_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte, r: u32) { mmx_read64_mm_mem(ctx, "instr_0FE0", modrm_byte, r); } pub fn instr_0FE0_reg_jit(ctx: &mut JitContext, r1: u32, r2: u32) { mmx_read64_mm_mm(ctx, "instr_0FE0", r1, r2); } pub fn instr_0FE1_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte, r: u32) { mmx_read64_mm_mem(ctx, "instr_0FE1", modrm_byte, r); } pub fn instr_0FE1_reg_jit(ctx: &mut JitContext, r1: u32, r2: u32) { mmx_read64_mm_mm(ctx, "instr_0FE1", r1, r2); } pub fn instr_0FE2_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte, r: u32) { mmx_read64_mm_mem(ctx, "instr_0FE2", modrm_byte, r); } pub fn instr_0FE2_reg_jit(ctx: &mut JitContext, r1: u32, r2: u32) { mmx_read64_mm_mm(ctx, "instr_0FE2", r1, r2); } pub fn instr_0FE3_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte, r: u32) { mmx_read64_mm_mem(ctx, "instr_0FE3", modrm_byte, r); } pub fn instr_0FE3_reg_jit(ctx: &mut JitContext, r1: u32, r2: u32) { mmx_read64_mm_mm(ctx, "instr_0FE3", r1, r2); } pub fn instr_0FE4_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte, r: u32) { mmx_read64_mm_mem(ctx, "instr_0FE4", modrm_byte, r); } pub fn instr_0FE4_reg_jit(ctx: &mut JitContext, r1: u32, r2: u32) { mmx_read64_mm_mm(ctx, "instr_0FE4", r1, r2); } pub fn instr_0FE5_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte, r: u32) { mmx_read64_mm_mem(ctx, "instr_0FE5", modrm_byte, r); } pub fn instr_0FE5_reg_jit(ctx: &mut JitContext, r1: u32, r2: u32) { mmx_read64_mm_mm(ctx, "instr_0FE5", r1, r2); } pub fn instr_0FE8_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte, r: u32) { mmx_read64_mm_mem(ctx, "instr_0FE8", modrm_byte, r); } pub fn instr_0FE8_reg_jit(ctx: &mut JitContext, r1: u32, r2: u32) { mmx_read64_mm_mm(ctx, "instr_0FE8", r1, r2); } pub fn instr_0FE9_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte, r: u32) { mmx_read64_mm_mem(ctx, "instr_0FE9", modrm_byte, r); } pub fn instr_0FE9_reg_jit(ctx: &mut JitContext, r1: u32, r2: u32) { mmx_read64_mm_mm(ctx, "instr_0FE9", r1, r2); } pub fn instr_0FEA_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte, r: u32) { mmx_read64_mm_mem(ctx, "instr_0FEA", modrm_byte, r); } pub fn instr_0FEA_reg_jit(ctx: &mut JitContext, r1: u32, r2: u32) { mmx_read64_mm_mm(ctx, "instr_0FEA", r1, r2); } pub fn instr_0FEB_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte, r: u32) { mmx_read64_mm_mem(ctx, "instr_0FEB", modrm_byte, r); } pub fn instr_0FEB_reg_jit(ctx: &mut JitContext, r1: u32, r2: u32) { mmx_read64_mm_mm(ctx, "instr_0FEB", r1, r2); } pub fn instr_0FEC_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte, r: u32) { mmx_read64_mm_mem(ctx, "instr_0FEC", modrm_byte, r); } pub fn instr_0FEC_reg_jit(ctx: &mut JitContext, r1: u32, r2: u32) { mmx_read64_mm_mm(ctx, "instr_0FEC", r1, r2); } pub fn instr_0FED_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte, r: u32) { mmx_read64_mm_mem(ctx, "instr_0FED", modrm_byte, r); } pub fn instr_0FED_reg_jit(ctx: &mut JitContext, r1: u32, r2: u32) { mmx_read64_mm_mm(ctx, "instr_0FED", r1, r2); } pub fn instr_0FEE_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte, r: u32) { mmx_read64_mm_mem(ctx, "instr_0FEE", modrm_byte, r); } pub fn instr_0FEE_reg_jit(ctx: &mut JitContext, r1: u32, r2: u32) { mmx_read64_mm_mm(ctx, "instr_0FEE", r1, r2); } pub fn instr_0FEF_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte, r: u32) { mmx_read64_mm_mem(ctx, "instr_0FEF", modrm_byte, r); } pub fn instr_0FEF_reg_jit(ctx: &mut JitContext, r1: u32, r2: u32) { mmx_read64_mm_mm(ctx, "instr_0FEF", r1, r2); } pub fn instr_660FE0_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte, r: u32) { sse_read128_xmm_mem(ctx, "instr_660FE0", modrm_byte, r); } pub fn instr_660FE0_reg_jit(ctx: &mut JitContext, r1: u32, r2: u32) { sse_read128_xmm_xmm(ctx, "instr_660FE0", r1, r2); } pub fn instr_660FE1_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte, r: u32) { sse_read128_xmm_mem(ctx, "instr_660FE1", modrm_byte, r); } pub fn instr_660FE1_reg_jit(ctx: &mut JitContext, r1: u32, r2: u32) { sse_read128_xmm_xmm(ctx, "instr_660FE1", r1, r2); } pub fn instr_660FE2_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte, r: u32) { sse_read128_xmm_mem(ctx, "instr_660FE2", modrm_byte, r); } pub fn instr_660FE2_reg_jit(ctx: &mut JitContext, r1: u32, r2: u32) { sse_read128_xmm_xmm(ctx, "instr_660FE2", r1, r2); } pub fn instr_660FE3_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte, r: u32) { sse_read128_xmm_mem(ctx, "instr_660FE3", modrm_byte, r); } pub fn instr_660FE3_reg_jit(ctx: &mut JitContext, r1: u32, r2: u32) { sse_read128_xmm_xmm(ctx, "instr_660FE3", r1, r2); } pub fn instr_660FE4_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte, r: u32) { sse_read128_xmm_mem(ctx, "instr_660FE4", modrm_byte, r); } pub fn instr_660FE4_reg_jit(ctx: &mut JitContext, r1: u32, r2: u32) { sse_read128_xmm_xmm(ctx, "instr_660FE4", r1, r2); } pub fn instr_660FE5_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte, r: u32) { sse_read128_xmm_mem(ctx, "instr_660FE5", modrm_byte, r); } pub fn instr_660FE5_reg_jit(ctx: &mut JitContext, r1: u32, r2: u32) { sse_read128_xmm_xmm(ctx, "instr_660FE5", r1, r2); } pub fn instr_660FE6_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte, r: u32) { sse_read128_xmm_mem(ctx, "instr_660FE6", modrm_byte, r); } pub fn instr_660FE6_reg_jit(ctx: &mut JitContext, r1: u32, r2: u32) { sse_read128_xmm_xmm(ctx, "instr_660FE6", r1, r2); } pub fn instr_F20FE6_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte, r: u32) { sse_read128_xmm_mem(ctx, "instr_F20FE6", modrm_byte, r); } pub fn instr_F20FE6_reg_jit(ctx: &mut JitContext, r1: u32, r2: u32) { sse_read128_xmm_xmm(ctx, "instr_F20FE6", r1, r2); } pub fn instr_F30FE6_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte, r: u32) { sse_read64_xmm_mem(ctx, "instr_F30FE6", modrm_byte, r); } pub fn instr_F30FE6_reg_jit(ctx: &mut JitContext, r1: u32, r2: u32) { sse_read64_xmm_xmm(ctx, "instr_F30FE6", r1, r2); } pub fn instr_660FE7_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte, r: u32) { instr_0F29_mem_jit(ctx, modrm_byte, r); } pub fn instr_660FE7_reg_jit(ctx: &mut JitContext, _r1: u32, _r2: u32) { codegen::gen_trigger_ud(ctx); } pub fn instr_660FE8_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte, r: u32) { sse_read128_xmm_mem(ctx, "instr_660FE8", modrm_byte, r); } pub fn instr_660FE8_reg_jit(ctx: &mut JitContext, r1: u32, r2: u32) { sse_read128_xmm_xmm(ctx, "instr_660FE8", r1, r2); } pub fn instr_660FE9_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte, r: u32) { sse_read128_xmm_mem(ctx, "instr_660FE9", modrm_byte, r); } pub fn instr_660FE9_reg_jit(ctx: &mut JitContext, r1: u32, r2: u32) { sse_read128_xmm_xmm(ctx, "instr_660FE9", r1, r2); } pub fn instr_660FEA_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte, r: u32) { sse_read128_xmm_mem(ctx, "instr_660FEA", modrm_byte, r); } pub fn instr_660FEA_reg_jit(ctx: &mut JitContext, r1: u32, r2: u32) { sse_read128_xmm_xmm(ctx, "instr_660FEA", r1, r2); } pub fn instr_660FEB_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte, r: u32) { sse_read128_xmm_mem(ctx, "instr_660FEB", modrm_byte, r); } pub fn instr_660FEB_reg_jit(ctx: &mut JitContext, r1: u32, r2: u32) { sse_read128_xmm_xmm(ctx, "instr_660FEB", r1, r2); } pub fn instr_660FEC_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte, r: u32) { sse_read128_xmm_mem(ctx, "instr_660FEC", modrm_byte, r); } pub fn instr_660FEC_reg_jit(ctx: &mut JitContext, r1: u32, r2: u32) { sse_read128_xmm_xmm(ctx, "instr_660FEC", r1, r2); } pub fn instr_660FED_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte, r: u32) { sse_read128_xmm_mem(ctx, "instr_660FED", modrm_byte, r); } pub fn instr_660FED_reg_jit(ctx: &mut JitContext, r1: u32, r2: u32) { sse_read128_xmm_xmm(ctx, "instr_660FED", r1, r2); } pub fn instr_660FEE_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte, r: u32) { sse_read128_xmm_mem(ctx, "instr_660FEE", modrm_byte, r); } pub fn instr_660FEE_reg_jit(ctx: &mut JitContext, r1: u32, r2: u32) { sse_read128_xmm_xmm(ctx, "instr_660FEE", r1, r2); } pub fn instr_660FEF_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte, r: u32) { sse_read128_xmm_mem(ctx, "instr_660FEF", modrm_byte, r); } pub fn instr_660FEF_reg_jit(ctx: &mut JitContext, r1: u32, r2: u32) { sse_read128_xmm_xmm(ctx, "instr_660FEF", r1, r2); } pub fn instr_0FF1_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte, r: u32) { mmx_read64_mm_mem(ctx, "instr_0FF1", modrm_byte, r); } pub fn instr_0FF1_reg_jit(ctx: &mut JitContext, r1: u32, r2: u32) { mmx_read64_mm_mm(ctx, "instr_0FF1", r1, r2); } pub fn instr_0FF2_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte, r: u32) { mmx_read64_mm_mem(ctx, "instr_0FF2", modrm_byte, r); } pub fn instr_0FF2_reg_jit(ctx: &mut JitContext, r1: u32, r2: u32) { mmx_read64_mm_mm(ctx, "instr_0FF2", r1, r2); } pub fn instr_0FF3_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte, r: u32) { mmx_read64_mm_mem(ctx, "instr_0FF3", modrm_byte, r); } pub fn instr_0FF3_reg_jit(ctx: &mut JitContext, r1: u32, r2: u32) { mmx_read64_mm_mm(ctx, "instr_0FF3", r1, r2); } pub fn instr_0FF4_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte, r: u32) { mmx_read64_mm_mem(ctx, "instr_0FF4", modrm_byte, r); } pub fn instr_0FF4_reg_jit(ctx: &mut JitContext, r1: u32, r2: u32) { mmx_read64_mm_mm(ctx, "instr_0FF4", r1, r2); } pub fn instr_0FF5_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte, r: u32) { mmx_read64_mm_mem(ctx, "instr_0FF5", modrm_byte, r); } pub fn instr_0FF5_reg_jit(ctx: &mut JitContext, r1: u32, r2: u32) { mmx_read64_mm_mm(ctx, "instr_0FF5", r1, r2); } pub fn instr_0FF6_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte, r: u32) { mmx_read64_mm_mem(ctx, "instr_0FF6", modrm_byte, r); } pub fn instr_0FF6_reg_jit(ctx: &mut JitContext, r1: u32, r2: u32) { mmx_read64_mm_mm(ctx, "instr_0FF6", r1, r2); } pub fn instr_0FF7_mem_jit(ctx: &mut JitContext, _modrm_byte: ModrmByte, _r: u32) { codegen::gen_trigger_ud(ctx) } pub fn instr_0FF7_reg_jit(ctx: &mut JitContext, r1: u32, r2: u32) { codegen::gen_set_previous_eip_offset_from_eip_with_low_bits( ctx.builder, ctx.start_of_current_instruction as i32 & 0xFFF, ); codegen::gen_move_registers_from_locals_to_memory(ctx); ctx.builder.const_i32(r1 as i32); ctx.builder.const_i32(r2 as i32); if ctx.cpu.asize_32() { codegen::gen_get_reg32(ctx, regs::EDI); } else { codegen::gen_get_reg16(ctx, regs::DI); } jit_add_seg_offset(ctx, regs::DS); ctx.builder.call_fn3("maskmovq"); codegen::gen_move_registers_from_memory_to_locals(ctx); codegen::gen_get_page_fault(ctx.builder); ctx.builder.if_void(); codegen::gen_debug_track_jit_exit(ctx.builder, ctx.start_of_current_instruction); ctx.builder.br(ctx.exit_label); ctx.builder.block_end(); } pub fn instr_0FF8_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte, r: u32) { mmx_read64_mm_mem(ctx, "instr_0FF8", modrm_byte, r); } pub fn instr_0FF8_reg_jit(ctx: &mut JitContext, r1: u32, r2: u32) { mmx_read64_mm_mm(ctx, "instr_0FF8", r1, r2); } pub fn instr_0FF9_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte, r: u32) { mmx_read64_mm_mem(ctx, "instr_0FF9", modrm_byte, r); } pub fn instr_0FF9_reg_jit(ctx: &mut JitContext, r1: u32, r2: u32) { mmx_read64_mm_mm(ctx, "instr_0FF9", r1, r2); } pub fn instr_0FFA_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte, r: u32) { mmx_read64_mm_mem(ctx, "instr_0FFA", modrm_byte, r); } pub fn instr_0FFA_reg_jit(ctx: &mut JitContext, r1: u32, r2: u32) { mmx_read64_mm_mm(ctx, "instr_0FFA", r1, r2); } pub fn instr_0FFB_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte, r: u32) { mmx_read64_mm_mem(ctx, "instr_0FFB", modrm_byte, r); } pub fn instr_0FFB_reg_jit(ctx: &mut JitContext, r1: u32, r2: u32) { mmx_read64_mm_mm(ctx, "instr_0FFB", r1, r2); } pub fn instr_0FFC_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte, r: u32) { mmx_read64_mm_mem(ctx, "instr_0FFC", modrm_byte, r); } pub fn instr_0FFC_reg_jit(ctx: &mut JitContext, r1: u32, r2: u32) { mmx_read64_mm_mm(ctx, "instr_0FFC", r1, r2); } pub fn instr_0FFD_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte, r: u32) { mmx_read64_mm_mem(ctx, "instr_0FFD", modrm_byte, r); } pub fn instr_0FFD_reg_jit(ctx: &mut JitContext, r1: u32, r2: u32) { mmx_read64_mm_mm(ctx, "instr_0FFD", r1, r2); } pub fn instr_0FFE_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte, r: u32) { mmx_read64_mm_mem(ctx, "instr_0FFE", modrm_byte, r); } pub fn instr_0FFE_reg_jit(ctx: &mut JitContext, r1: u32, r2: u32) { mmx_read64_mm_mm(ctx, "instr_0FFE", r1, r2); } pub fn instr_660FF1_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte, r: u32) { sse_read128_xmm_mem(ctx, "instr_660FF1", modrm_byte, r); } pub fn instr_660FF1_reg_jit(ctx: &mut JitContext, r1: u32, r2: u32) { sse_read128_xmm_xmm(ctx, "instr_660FF1", r1, r2); } pub fn instr_660FF2_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte, r: u32) { sse_read128_xmm_mem(ctx, "instr_660FF2", modrm_byte, r); } pub fn instr_660FF2_reg_jit(ctx: &mut JitContext, r1: u32, r2: u32) { sse_read128_xmm_xmm(ctx, "instr_660FF2", r1, r2); } pub fn instr_660FF3_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte, r: u32) { sse_read128_xmm_mem(ctx, "instr_660FF3", modrm_byte, r); } pub fn instr_660FF3_reg_jit(ctx: &mut JitContext, r1: u32, r2: u32) { sse_read128_xmm_xmm(ctx, "instr_660FF3", r1, r2); } pub fn instr_660FF4_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte, r: u32) { sse_read128_xmm_mem(ctx, "instr_660FF4", modrm_byte, r); } pub fn instr_660FF4_reg_jit(ctx: &mut JitContext, r1: u32, r2: u32) { sse_read128_xmm_xmm(ctx, "instr_660FF4", r1, r2); } pub fn instr_660FF5_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte, r: u32) { sse_read128_xmm_mem(ctx, "instr_660FF5", modrm_byte, r); } pub fn instr_660FF5_reg_jit(ctx: &mut JitContext, r1: u32, r2: u32) { sse_read128_xmm_xmm(ctx, "instr_660FF5", r1, r2); } pub fn instr_660FF6_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte, r: u32) { sse_read128_xmm_mem(ctx, "instr_660FF6", modrm_byte, r); } pub fn instr_660FF6_reg_jit(ctx: &mut JitContext, r1: u32, r2: u32) { sse_read128_xmm_xmm(ctx, "instr_660FF6", r1, r2); } pub fn instr_660FF7_mem_jit(ctx: &mut JitContext, _modrm_byte: ModrmByte, _r: u32) { codegen::gen_trigger_ud(ctx) } pub fn instr_660FF7_reg_jit(ctx: &mut JitContext, r1: u32, r2: u32) { codegen::gen_set_previous_eip_offset_from_eip_with_low_bits( ctx.builder, ctx.start_of_current_instruction as i32 & 0xFFF, ); codegen::gen_move_registers_from_locals_to_memory(ctx); ctx.builder.const_i32(r1 as i32); ctx.builder.const_i32(r2 as i32); if ctx.cpu.asize_32() { codegen::gen_get_reg32(ctx, regs::EDI); } else { codegen::gen_get_reg16(ctx, regs::DI); } jit_add_seg_offset(ctx, regs::DS); ctx.builder.call_fn3("maskmovdqu"); codegen::gen_move_registers_from_memory_to_locals(ctx); codegen::gen_get_page_fault(ctx.builder); ctx.builder.if_void(); codegen::gen_debug_track_jit_exit(ctx.builder, ctx.start_of_current_instruction); ctx.builder.br(ctx.exit_label); ctx.builder.block_end(); } pub fn instr_660FF8_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte, r: u32) { sse_read128_xmm_mem(ctx, "instr_660FF8", modrm_byte, r); } pub fn instr_660FF8_reg_jit(ctx: &mut JitContext, r1: u32, r2: u32) { sse_read128_xmm_xmm(ctx, "instr_660FF8", r1, r2); } pub fn instr_660FF9_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte, r: u32) { sse_read128_xmm_mem(ctx, "instr_660FF9", modrm_byte, r); } pub fn instr_660FF9_reg_jit(ctx: &mut JitContext, r1: u32, r2: u32) { sse_read128_xmm_xmm(ctx, "instr_660FF9", r1, r2); } pub fn instr_660FFA_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte, r: u32) { sse_read128_xmm_mem(ctx, "instr_660FFA", modrm_byte, r); } pub fn instr_660FFA_reg_jit(ctx: &mut JitContext, r1: u32, r2: u32) { sse_read128_xmm_xmm(ctx, "instr_660FFA", r1, r2); } pub fn instr_660FFB_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte, r: u32) { sse_read128_xmm_mem(ctx, "instr_660FFB", modrm_byte, r); } pub fn instr_660FFB_reg_jit(ctx: &mut JitContext, r1: u32, r2: u32) { sse_read128_xmm_xmm(ctx, "instr_660FFB", r1, r2); } pub fn instr_660FFC_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte, r: u32) { sse_read128_xmm_mem(ctx, "instr_660FFC", modrm_byte, r); } pub fn instr_660FFC_reg_jit(ctx: &mut JitContext, r1: u32, r2: u32) { sse_read128_xmm_xmm(ctx, "instr_660FFC", r1, r2); } pub fn instr_660FFD_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte, r: u32) { sse_read128_xmm_mem(ctx, "instr_660FFD", modrm_byte, r); } pub fn instr_660FFD_reg_jit(ctx: &mut JitContext, r1: u32, r2: u32) { sse_read128_xmm_xmm(ctx, "instr_660FFD", r1, r2); } pub fn instr_660FFE_mem_jit(ctx: &mut JitContext, modrm_byte: ModrmByte, r: u32) { sse_read128_xmm_mem(ctx, "instr_660FFE", modrm_byte, r); } pub fn instr_660FFE_reg_jit(ctx: &mut JitContext, r1: u32, r2: u32) { sse_read128_xmm_xmm(ctx, "instr_660FFE", r1, r2); }