use dynasmrt::{x64::Assembler, AssemblyOffset, DynamicLabel, DynasmApi, DynasmLabelApi}; use wasmer_runtime_core::backend::InlineBreakpointType; pub use wasmer_runtime_core::state::x64_decl::{GPR, XMM}; #[derive(Copy, Clone, Debug, Eq, PartialEq, Ord, PartialOrd, Hash)] pub enum Location { Imm8(u8), Imm32(u32), Imm64(u64), Imm128(u128), GPR(GPR), XMM(XMM), Memory(GPR, i32), } #[derive(Copy, Clone, Debug, Eq, PartialEq)] pub enum Condition { None, Above, AboveEqual, Below, BelowEqual, Greater, GreaterEqual, Less, LessEqual, Equal, NotEqual, Signed, } #[derive(Copy, Clone, Debug, Eq, PartialEq)] pub enum Size { S8, S16, S32, S64, } #[derive(Copy, Clone, Debug)] #[allow(dead_code)] pub enum XMMOrMemory { XMM(XMM), Memory(GPR, i32), } #[derive(Copy, Clone, Debug)] #[allow(dead_code)] pub enum GPROrMemory { GPR(GPR), Memory(GPR, i32), } pub trait Emitter { type Label; type Offset; fn get_label(&mut self) -> Self::Label; fn get_offset(&self) -> Self::Offset; fn get_jmp_instr_size(&self) -> u8; fn emit_u64(&mut self, x: u64); fn emit_label(&mut self, label: Self::Label); fn emit_nop(&mut self); fn emit_mov(&mut self, sz: Size, src: Location, dst: Location); fn emit_lea(&mut self, sz: Size, src: Location, dst: Location); fn emit_lea_label(&mut self, label: Self::Label, dst: Location); fn emit_cdq(&mut self); fn emit_cqo(&mut self); fn emit_xor(&mut self, sz: Size, src: Location, dst: Location); fn emit_jmp(&mut self, condition: Condition, label: Self::Label); fn emit_jmp_location(&mut self, loc: Location); fn emit_conditional_trap(&mut self, condition: Condition); fn emit_set(&mut self, condition: Condition, dst: GPR); fn emit_push(&mut self, sz: Size, src: Location); fn emit_pop(&mut self, sz: Size, dst: Location); fn emit_cmp(&mut self, sz: Size, left: Location, right: Location); fn emit_add(&mut self, sz: Size, src: Location, dst: Location); fn emit_sub(&mut self, sz: Size, src: Location, dst: Location); fn emit_imul(&mut self, sz: Size, src: Location, dst: Location); fn emit_imul_imm32_gpr64(&mut self, src: u32, dst: GPR); fn emit_div(&mut self, sz: Size, divisor: Location); fn emit_idiv(&mut self, sz: Size, divisor: Location); fn emit_shl(&mut self, sz: Size, src: Location, dst: Location); fn emit_shr(&mut self, sz: Size, src: Location, dst: Location); fn emit_sar(&mut self, sz: Size, src: Location, dst: Location); fn emit_rol(&mut self, sz: Size, src: Location, dst: Location); fn emit_ror(&mut self, sz: Size, src: Location, dst: Location); fn emit_and(&mut self, sz: Size, src: Location, dst: Location); fn emit_or(&mut self, sz: Size, src: Location, dst: Location); fn emit_lzcnt(&mut self, sz: Size, src: Location, dst: Location); fn emit_tzcnt(&mut self, sz: Size, src: Location, dst: Location); fn emit_popcnt(&mut self, sz: Size, src: Location, dst: Location); fn emit_movzx(&mut self, sz_src: Size, src: Location, sz_dst: Size, dst: Location); fn emit_movsx(&mut self, sz_src: Size, src: Location, sz_dst: Size, dst: Location); fn emit_btc_gpr_imm8_32(&mut self, src: u8, dst: GPR); fn emit_btc_gpr_imm8_64(&mut self, src: u8, dst: GPR); fn emit_cmovae_gpr_32(&mut self, src: GPR, dst: GPR); fn emit_cmovae_gpr_64(&mut self, src: GPR, dst: GPR); fn emit_vaddss(&mut self, src1: XMM, src2: XMMOrMemory, dst: XMM); fn emit_vaddsd(&mut self, src1: XMM, src2: XMMOrMemory, dst: XMM); fn emit_vsubss(&mut self, src1: XMM, src2: XMMOrMemory, dst: XMM); fn emit_vsubsd(&mut self, src1: XMM, src2: XMMOrMemory, dst: XMM); fn emit_vmulss(&mut self, src1: XMM, src2: XMMOrMemory, dst: XMM); fn emit_vmulsd(&mut self, src1: XMM, src2: XMMOrMemory, dst: XMM); fn emit_vdivss(&mut self, src1: XMM, src2: XMMOrMemory, dst: XMM); fn emit_vdivsd(&mut self, src1: XMM, src2: XMMOrMemory, dst: XMM); fn emit_vmaxss(&mut self, src1: XMM, src2: XMMOrMemory, dst: XMM); fn emit_vmaxsd(&mut self, src1: XMM, src2: XMMOrMemory, dst: XMM); fn emit_vminss(&mut self, src1: XMM, src2: XMMOrMemory, dst: XMM); fn emit_vminsd(&mut self, src1: XMM, src2: XMMOrMemory, dst: XMM); fn emit_vcmpeqss(&mut self, src1: XMM, src2: XMMOrMemory, dst: XMM); fn emit_vcmpeqsd(&mut self, src1: XMM, src2: XMMOrMemory, dst: XMM); fn emit_vcmpneqss(&mut self, src1: XMM, src2: XMMOrMemory, dst: XMM); fn emit_vcmpneqsd(&mut self, src1: XMM, src2: XMMOrMemory, dst: XMM); fn emit_vcmpltss(&mut self, src1: XMM, src2: XMMOrMemory, dst: XMM); fn emit_vcmpltsd(&mut self, src1: XMM, src2: XMMOrMemory, dst: XMM); fn emit_vcmpless(&mut self, src1: XMM, src2: XMMOrMemory, dst: XMM); fn emit_vcmplesd(&mut self, src1: XMM, src2: XMMOrMemory, dst: XMM); fn emit_vcmpgtss(&mut self, src1: XMM, src2: XMMOrMemory, dst: XMM); fn emit_vcmpgtsd(&mut self, src1: XMM, src2: XMMOrMemory, dst: XMM); fn emit_vcmpgess(&mut self, src1: XMM, src2: XMMOrMemory, dst: XMM); fn emit_vcmpgesd(&mut self, src1: XMM, src2: XMMOrMemory, dst: XMM); fn emit_vsqrtss(&mut self, src1: XMM, src2: XMMOrMemory, dst: XMM); fn emit_vsqrtsd(&mut self, src1: XMM, src2: XMMOrMemory, dst: XMM); fn emit_vroundss_nearest(&mut self, src1: XMM, src2: XMMOrMemory, dst: XMM); fn emit_vroundss_floor(&mut self, src1: XMM, src2: XMMOrMemory, dst: XMM); fn emit_vroundss_ceil(&mut self, src1: XMM, src2: XMMOrMemory, dst: XMM); fn emit_vroundss_trunc(&mut self, src1: XMM, src2: XMMOrMemory, dst: XMM); fn emit_vroundsd_nearest(&mut self, src1: XMM, src2: XMMOrMemory, dst: XMM); fn emit_vroundsd_floor(&mut self, src1: XMM, src2: XMMOrMemory, dst: XMM); fn emit_vroundsd_ceil(&mut self, src1: XMM, src2: XMMOrMemory, dst: XMM); fn emit_vroundsd_trunc(&mut self, src1: XMM, src2: XMMOrMemory, dst: XMM); fn emit_vcvtss2sd(&mut self, src1: XMM, src2: XMMOrMemory, dst: XMM); fn emit_vcvtsd2ss(&mut self, src1: XMM, src2: XMMOrMemory, dst: XMM); fn emit_ucomiss(&mut self, src: XMMOrMemory, dst: XMM); fn emit_ucomisd(&mut self, src: XMMOrMemory, dst: XMM); fn emit_cvttss2si_32(&mut self, src: XMMOrMemory, dst: GPR); fn emit_cvttss2si_64(&mut self, src: XMMOrMemory, dst: GPR); fn emit_cvttsd2si_32(&mut self, src: XMMOrMemory, dst: GPR); fn emit_cvttsd2si_64(&mut self, src: XMMOrMemory, dst: GPR); fn emit_vcvtsi2ss_32(&mut self, src1: XMM, src2: GPROrMemory, dst: XMM); fn emit_vcvtsi2ss_64(&mut self, src1: XMM, src2: GPROrMemory, dst: XMM); fn emit_vcvtsi2sd_32(&mut self, src1: XMM, src2: GPROrMemory, dst: XMM); fn emit_vcvtsi2sd_64(&mut self, src1: XMM, src2: GPROrMemory, dst: XMM); fn emit_test_gpr_64(&mut self, reg: GPR); fn emit_ud2(&mut self); fn emit_ret(&mut self); fn emit_call_label(&mut self, label: Self::Label); fn emit_call_location(&mut self, loc: Location); fn emit_bkpt(&mut self); fn emit_homomorphic_host_redirection(&mut self, target: GPR); fn emit_inline_breakpoint(&mut self, ty: InlineBreakpointType); fn arch_has_itruncf(&self) -> bool { false } fn arch_emit_i32_trunc_sf32(&mut self, _src: XMM, _dst: GPR) { unimplemented!() } fn arch_emit_i32_trunc_sf64(&mut self, _src: XMM, _dst: GPR) { unimplemented!() } fn arch_emit_i32_trunc_uf32(&mut self, _src: XMM, _dst: GPR) { unimplemented!() } fn arch_emit_i32_trunc_uf64(&mut self, _src: XMM, _dst: GPR) { unimplemented!() } fn arch_emit_i64_trunc_sf32(&mut self, _src: XMM, _dst: GPR) { unimplemented!() } fn arch_emit_i64_trunc_sf64(&mut self, _src: XMM, _dst: GPR) { unimplemented!() } fn arch_emit_i64_trunc_uf32(&mut self, _src: XMM, _dst: GPR) { unimplemented!() } fn arch_emit_i64_trunc_uf64(&mut self, _src: XMM, _dst: GPR) { unimplemented!() } fn arch_has_fconverti(&self) -> bool { false } fn arch_emit_f32_convert_si32(&mut self, _src: GPR, _dst: XMM) { unimplemented!() } fn arch_emit_f32_convert_si64(&mut self, _src: GPR, _dst: XMM) { unimplemented!() } fn arch_emit_f32_convert_ui32(&mut self, _src: GPR, _dst: XMM) { unimplemented!() } fn arch_emit_f32_convert_ui64(&mut self, _src: GPR, _dst: XMM) { unimplemented!() } fn arch_emit_f64_convert_si32(&mut self, _src: GPR, _dst: XMM) { unimplemented!() } fn arch_emit_f64_convert_si64(&mut self, _src: GPR, _dst: XMM) { unimplemented!() } fn arch_emit_f64_convert_ui32(&mut self, _src: GPR, _dst: XMM) { unimplemented!() } fn arch_emit_f64_convert_ui64(&mut self, _src: GPR, _dst: XMM) { unimplemented!() } fn arch_has_fneg(&self) -> bool { false } fn arch_emit_f32_neg(&mut self, _src: XMM, _dst: XMM) { unimplemented!() } fn arch_emit_f64_neg(&mut self, _src: XMM, _dst: XMM) { unimplemented!() } } fn _dummy(a: &mut Assembler) { dynasm!( self ; .arch x64 ); } macro_rules! unop_gpr { ($ins:ident, $assembler:tt, $sz:expr, $loc:expr, $otherwise:block) => { match ($sz, $loc) { (Size::S32, Location::GPR(loc)) => { dynasm!($assembler ; $ins Rd(loc as u8)); }, (Size::S64, Location::GPR(loc)) => { dynasm!($assembler ; $ins Rq(loc as u8)); }, _ => $otherwise } }; } macro_rules! unop_mem { ($ins:ident, $assembler:tt, $sz:expr, $loc:expr, $otherwise:block) => { match ($sz, $loc) { (Size::S32, Location::Memory(loc, disp)) => { dynasm!($assembler ; $ins DWORD [Rq(loc as u8) + disp] ); }, (Size::S64, Location::Memory(loc, disp)) => { dynasm!($assembler ; $ins QWORD [Rq(loc as u8) + disp] ); }, _ => $otherwise } }; } macro_rules! unop_gpr_or_mem { ($ins:ident, $assembler:tt, $sz:expr, $loc:expr, $otherwise:block) => { unop_gpr!($ins, $assembler, $sz, $loc, { unop_mem!($ins, $assembler, $sz, $loc, $otherwise) }) }; } macro_rules! binop_imm32_gpr { ($ins:ident, $assembler:tt, $sz:expr, $src:expr, $dst:expr, $otherwise:block) => { match ($sz, $src, $dst) { (Size::S32, Location::Imm32(src), Location::GPR(dst)) => { dynasm!($assembler ; $ins Rd(dst as u8), src as i32); // IMM32_2GPR }, (Size::S64, Location::Imm32(src), Location::GPR(dst)) => { dynasm!($assembler ; $ins Rq(dst as u8), src as i32); // IMM32_2GPR }, _ => $otherwise } }; } macro_rules! binop_imm32_mem { ($ins:ident, $assembler:tt, $sz:expr, $src:expr, $dst:expr, $otherwise:block) => { match ($sz, $src, $dst) { (Size::S32, Location::Imm32(src), Location::Memory(dst, disp)) => { dynasm!($assembler ; $ins DWORD [Rq(dst as u8) + disp], src as i32); }, (Size::S64, Location::Imm32(src), Location::Memory(dst, disp)) => { dynasm!($assembler ; $ins QWORD [Rq(dst as u8) + disp], src as i32); }, _ => $otherwise } }; } macro_rules! binop_imm64_gpr { ($ins:ident, $assembler:tt, $sz:expr, $src:expr, $dst:expr, $otherwise:block) => { match ($sz, $src, $dst) { (Size::S64, Location::Imm64(src), Location::GPR(dst)) => { dynasm!($assembler ; $ins Rq(dst as u8), QWORD src as i64); // IMM32_2GPR }, _ => $otherwise } }; } macro_rules! binop_gpr_gpr { ($ins:ident, $assembler:tt, $sz:expr, $src:expr, $dst:expr, $otherwise:block) => { match ($sz, $src, $dst) { (Size::S32, Location::GPR(src), Location::GPR(dst)) => { dynasm!($assembler ; $ins Rd(dst as u8), Rd(src as u8)); // GPR2GPR }, (Size::S64, Location::GPR(src), Location::GPR(dst)) => { dynasm!($assembler ; $ins Rq(dst as u8), Rq(src as u8)); // GPR2GPR }, _ => $otherwise } }; } macro_rules! binop_gpr_mem { ($ins:ident, $assembler:tt, $sz:expr, $src:expr, $dst:expr, $otherwise:block) => { match ($sz, $src, $dst) { (Size::S32, Location::GPR(src), Location::Memory(dst, disp)) => { dynasm!($assembler ; $ins [Rq(dst as u8) + disp], Rd(src as u8)); // GPR2MEM }, (Size::S64, Location::GPR(src), Location::Memory(dst, disp)) => { dynasm!($assembler ; $ins [Rq(dst as u8) + disp], Rq(src as u8)); // GPR2MEM }, _ => $otherwise } }; } macro_rules! binop_mem_gpr { ($ins:ident, $assembler:tt, $sz:expr, $src:expr, $dst:expr, $otherwise:block) => { match ($sz, $src, $dst) { (Size::S32, Location::Memory(src, disp), Location::GPR(dst)) => { dynasm!($assembler ; $ins Rd(dst as u8), [Rq(src as u8) + disp]); // MEM2GPR }, (Size::S64, Location::Memory(src, disp), Location::GPR(dst)) => { dynasm!($assembler ; $ins Rq(dst as u8), [Rq(src as u8) + disp]); // MEM2GPR }, _ => $otherwise } }; } macro_rules! binop_all_nofp { ($ins:ident, $assembler:tt, $sz:expr, $src:expr, $dst:expr, $otherwise:block) => { binop_imm32_gpr!($ins, $assembler, $sz, $src, $dst, { binop_imm32_mem!($ins, $assembler, $sz, $src, $dst, { binop_gpr_gpr!($ins, $assembler, $sz, $src, $dst, { binop_gpr_mem!($ins, $assembler, $sz, $src, $dst, { binop_mem_gpr!($ins, $assembler, $sz, $src, $dst, $otherwise) }) }) }) }) }; } macro_rules! binop_shift { ($ins:ident, $assembler:tt, $sz:expr, $src:expr, $dst:expr, $otherwise:block) => { match ($sz, $src, $dst) { (Size::S32, Location::GPR(GPR::RCX), Location::GPR(dst)) => { dynasm!($assembler ; $ins Rd(dst as u8), cl); }, (Size::S32, Location::GPR(GPR::RCX), Location::Memory(dst, disp)) => { dynasm!($assembler ; $ins DWORD [Rq(dst as u8) + disp], cl); }, (Size::S32, Location::Imm8(imm), Location::GPR(dst)) => { dynasm!($assembler ; $ins Rd(dst as u8), imm as i8); }, (Size::S32, Location::Imm8(imm), Location::Memory(dst, disp)) => { dynasm!($assembler ; $ins DWORD [Rq(dst as u8) + disp], imm as i8); }, (Size::S64, Location::GPR(GPR::RCX), Location::GPR(dst)) => { dynasm!($assembler ; $ins Rq(dst as u8), cl); }, (Size::S64, Location::GPR(GPR::RCX), Location::Memory(dst, disp)) => { dynasm!($assembler ; $ins QWORD [Rq(dst as u8) + disp], cl); }, (Size::S64, Location::Imm8(imm), Location::GPR(dst)) => { dynasm!($assembler ; $ins Rq(dst as u8), imm as i8); }, (Size::S64, Location::Imm8(imm), Location::Memory(dst, disp)) => { dynasm!($assembler ; $ins QWORD [Rq(dst as u8) + disp], imm as i8); }, _ => $otherwise } } } macro_rules! jmp_op { ($ins:ident, $assembler:tt, $label:ident) => { dynasm!($assembler ; $ins =>$label); } } macro_rules! trap_op { ($ins:ident, $assembler:tt) => { dynasm!($assembler ; $ins >trap ; jmp >after ; trap: ; ud2 ; after: ); } } macro_rules! avx_fn { ($ins:ident, $name:ident) => { fn $name(&mut self, src1: XMM, src2: XMMOrMemory, dst: XMM) { // Dynasm bug: AVX instructions are not encoded correctly. match src2 { XMMOrMemory::XMM(x) => match src1 { XMM::XMM0 => dynasm!(self ; $ins Rx((dst as u8)), xmm0, Rx((x as u8))), XMM::XMM1 => dynasm!(self ; $ins Rx((dst as u8)), xmm1, Rx((x as u8))), XMM::XMM2 => dynasm!(self ; $ins Rx((dst as u8)), xmm2, Rx((x as u8))), XMM::XMM3 => dynasm!(self ; $ins Rx((dst as u8)), xmm3, Rx((x as u8))), XMM::XMM4 => dynasm!(self ; $ins Rx((dst as u8)), xmm4, Rx((x as u8))), XMM::XMM5 => dynasm!(self ; $ins Rx((dst as u8)), xmm5, Rx((x as u8))), XMM::XMM6 => dynasm!(self ; $ins Rx((dst as u8)), xmm6, Rx((x as u8))), XMM::XMM7 => dynasm!(self ; $ins Rx((dst as u8)), xmm7, Rx((x as u8))), }, XMMOrMemory::Memory(base, disp) => match src1 { XMM::XMM0 => dynasm!(self ; $ins Rx((dst as u8)), xmm0, [Rq((base as u8)) + disp]), XMM::XMM1 => dynasm!(self ; $ins Rx((dst as u8)), xmm1, [Rq((base as u8)) + disp]), XMM::XMM2 => dynasm!(self ; $ins Rx((dst as u8)), xmm2, [Rq((base as u8)) + disp]), XMM::XMM3 => dynasm!(self ; $ins Rx((dst as u8)), xmm3, [Rq((base as u8)) + disp]), XMM::XMM4 => dynasm!(self ; $ins Rx((dst as u8)), xmm4, [Rq((base as u8)) + disp]), XMM::XMM5 => dynasm!(self ; $ins Rx((dst as u8)), xmm5, [Rq((base as u8)) + disp]), XMM::XMM6 => dynasm!(self ; $ins Rx((dst as u8)), xmm6, [Rq((base as u8)) + disp]), XMM::XMM7 => dynasm!(self ; $ins Rx((dst as u8)), xmm7, [Rq((base as u8)) + disp]), }, } } } } macro_rules! avx_i2f_64_fn { ($ins:ident, $name:ident) => { fn $name(&mut self, src1: XMM, src2: GPROrMemory, dst: XMM) { match src2 { GPROrMemory::GPR(x) => match src1 { XMM::XMM0 => dynasm!(self ; $ins Rx((dst as u8)), xmm0, Rq((x as u8))), XMM::XMM1 => dynasm!(self ; $ins Rx((dst as u8)), xmm1, Rq((x as u8))), XMM::XMM2 => dynasm!(self ; $ins Rx((dst as u8)), xmm2, Rq((x as u8))), XMM::XMM3 => dynasm!(self ; $ins Rx((dst as u8)), xmm3, Rq((x as u8))), XMM::XMM4 => dynasm!(self ; $ins Rx((dst as u8)), xmm4, Rq((x as u8))), XMM::XMM5 => dynasm!(self ; $ins Rx((dst as u8)), xmm5, Rq((x as u8))), XMM::XMM6 => dynasm!(self ; $ins Rx((dst as u8)), xmm6, Rq((x as u8))), XMM::XMM7 => dynasm!(self ; $ins Rx((dst as u8)), xmm7, Rq((x as u8))), }, GPROrMemory::Memory(base, disp) => match src1 { XMM::XMM0 => dynasm!(self ; $ins Rx((dst as u8)), xmm0, QWORD [Rq((base as u8)) + disp]), XMM::XMM1 => dynasm!(self ; $ins Rx((dst as u8)), xmm1, QWORD [Rq((base as u8)) + disp]), XMM::XMM2 => dynasm!(self ; $ins Rx((dst as u8)), xmm2, QWORD [Rq((base as u8)) + disp]), XMM::XMM3 => dynasm!(self ; $ins Rx((dst as u8)), xmm3, QWORD [Rq((base as u8)) + disp]), XMM::XMM4 => dynasm!(self ; $ins Rx((dst as u8)), xmm4, QWORD [Rq((base as u8)) + disp]), XMM::XMM5 => dynasm!(self ; $ins Rx((dst as u8)), xmm5, QWORD [Rq((base as u8)) + disp]), XMM::XMM6 => dynasm!(self ; $ins Rx((dst as u8)), xmm6, QWORD [Rq((base as u8)) + disp]), XMM::XMM7 => dynasm!(self ; $ins Rx((dst as u8)), xmm7, QWORD [Rq((base as u8)) + disp]), }, } } } } macro_rules! avx_i2f_32_fn { ($ins:ident, $name:ident) => { fn $name(&mut self, src1: XMM, src2: GPROrMemory, dst: XMM) { match src2 { GPROrMemory::GPR(x) => match src1 { XMM::XMM0 => dynasm!(self ; $ins Rx((dst as u8)), xmm0, Rd((x as u8))), XMM::XMM1 => dynasm!(self ; $ins Rx((dst as u8)), xmm1, Rd((x as u8))), XMM::XMM2 => dynasm!(self ; $ins Rx((dst as u8)), xmm2, Rd((x as u8))), XMM::XMM3 => dynasm!(self ; $ins Rx((dst as u8)), xmm3, Rd((x as u8))), XMM::XMM4 => dynasm!(self ; $ins Rx((dst as u8)), xmm4, Rd((x as u8))), XMM::XMM5 => dynasm!(self ; $ins Rx((dst as u8)), xmm5, Rd((x as u8))), XMM::XMM6 => dynasm!(self ; $ins Rx((dst as u8)), xmm6, Rd((x as u8))), XMM::XMM7 => dynasm!(self ; $ins Rx((dst as u8)), xmm7, Rd((x as u8))), }, GPROrMemory::Memory(base, disp) => match src1 { XMM::XMM0 => dynasm!(self ; $ins Rx((dst as u8)), xmm0, DWORD [Rq((base as u8)) + disp]), XMM::XMM1 => dynasm!(self ; $ins Rx((dst as u8)), xmm1, DWORD [Rq((base as u8)) + disp]), XMM::XMM2 => dynasm!(self ; $ins Rx((dst as u8)), xmm2, DWORD [Rq((base as u8)) + disp]), XMM::XMM3 => dynasm!(self ; $ins Rx((dst as u8)), xmm3, DWORD [Rq((base as u8)) + disp]), XMM::XMM4 => dynasm!(self ; $ins Rx((dst as u8)), xmm4, DWORD [Rq((base as u8)) + disp]), XMM::XMM5 => dynasm!(self ; $ins Rx((dst as u8)), xmm5, DWORD [Rq((base as u8)) + disp]), XMM::XMM6 => dynasm!(self ; $ins Rx((dst as u8)), xmm6, DWORD [Rq((base as u8)) + disp]), XMM::XMM7 => dynasm!(self ; $ins Rx((dst as u8)), xmm7, DWORD [Rq((base as u8)) + disp]), }, } } } } macro_rules! avx_round_fn { ($ins:ident, $name:ident, $mode:expr) => { fn $name(&mut self, src1: XMM, src2: XMMOrMemory, dst: XMM) { match src2 { XMMOrMemory::XMM(x) => dynasm!(self ; $ins Rx((dst as u8)), Rx((src1 as u8)), Rx((x as u8)), $mode), XMMOrMemory::Memory(base, disp) => dynasm!(self ; $ins Rx((dst as u8)), Rx((src1 as u8)), [Rq((base as u8)) + disp], $mode), } } } } impl Emitter for Assembler { type Label = DynamicLabel; type Offset = AssemblyOffset; fn get_label(&mut self) -> DynamicLabel { self.new_dynamic_label() } fn get_offset(&self) -> AssemblyOffset { self.offset() } fn get_jmp_instr_size(&self) -> u8 { 5 } fn emit_u64(&mut self, x: u64) { self.push_u64(x); } fn emit_label(&mut self, label: Self::Label) { dynasm!(self ; => label); } fn emit_nop(&mut self) { dynasm!(self ; nop); } fn emit_mov(&mut self, sz: Size, src: Location, dst: Location) { binop_all_nofp!(mov, self, sz, src, dst, { binop_imm64_gpr!(mov, self, sz, src, dst, { match (sz, src, dst) { (Size::S8, Location::GPR(src), Location::Memory(dst, disp)) => { dynasm!(self ; mov [Rq(dst as u8) + disp], Rb(src as u8)); } (Size::S8, Location::Memory(src, disp), Location::GPR(dst)) => { dynasm!(self ; mov Rb(dst as u8), [Rq(src as u8) + disp]); } (Size::S8, Location::Imm32(src), Location::GPR(dst)) => { dynasm!(self ; mov Rb(dst as u8), src as i8); } (Size::S8, Location::Imm64(src), Location::GPR(dst)) => { dynasm!(self ; mov Rb(dst as u8), src as i8); } (Size::S8, Location::Imm32(src), Location::Memory(dst, disp)) => { dynasm!(self ; mov BYTE [Rq(dst as u8) + disp], src as i8); } (Size::S8, Location::Imm64(src), Location::Memory(dst, disp)) => { dynasm!(self ; mov BYTE [Rq(dst as u8) + disp], src as i8); } (Size::S16, Location::GPR(src), Location::Memory(dst, disp)) => { dynasm!(self ; mov [Rq(dst as u8) + disp], Rw(src as u8)); } (Size::S16, Location::Memory(src, disp), Location::GPR(dst)) => { dynasm!(self ; mov Rw(dst as u8), [Rq(src as u8) + disp]); } (Size::S16, Location::Imm32(src), Location::GPR(dst)) => { dynasm!(self ; mov Rw(dst as u8), src as i16); } (Size::S16, Location::Imm64(src), Location::GPR(dst)) => { dynasm!(self ; mov Rw(dst as u8), src as i16); } (Size::S16, Location::Imm32(src), Location::Memory(dst, disp)) => { dynasm!(self ; mov WORD [Rq(dst as u8) + disp], src as i16); } (Size::S16, Location::Imm64(src), Location::Memory(dst, disp)) => { dynasm!(self ; mov WORD [Rq(dst as u8) + disp], src as i16); } (Size::S32, Location::Imm64(src), Location::GPR(dst)) => { dynasm!(self ; mov Rd(dst as u8), src as i32); } (Size::S32, Location::Imm64(src), Location::Memory(dst, disp)) => { dynasm!(self ; mov DWORD [Rq(dst as u8) + disp], src as i32); } (Size::S32, Location::GPR(src), Location::XMM(dst)) => { dynasm!(self ; movd Rx(dst as u8), Rd(src as u8)); } (Size::S32, Location::XMM(src), Location::GPR(dst)) => { dynasm!(self ; movd Rd(dst as u8), Rx(src as u8)); } (Size::S32, Location::Memory(src, disp), Location::XMM(dst)) => { dynasm!(self ; movd Rx(dst as u8), [Rq(src as u8) + disp]); } (Size::S32, Location::XMM(src), Location::Memory(dst, disp)) => { dynasm!(self ; movd [Rq(dst as u8) + disp], Rx(src as u8)); } (Size::S64, Location::GPR(src), Location::XMM(dst)) => { dynasm!(self ; movq Rx(dst as u8), Rq(src as u8)); } (Size::S64, Location::XMM(src), Location::GPR(dst)) => { dynasm!(self ; movq Rq(dst as u8), Rx(src as u8)); } (Size::S64, Location::Memory(src, disp), Location::XMM(dst)) => { dynasm!(self ; movq Rx(dst as u8), [Rq(src as u8) + disp]); } (Size::S64, Location::XMM(src), Location::Memory(dst, disp)) => { dynasm!(self ; movq [Rq(dst as u8) + disp], Rx(src as u8)); } (_, Location::XMM(src), Location::XMM(dst)) => { dynasm!(self ; movq Rx(dst as u8), Rx(src as u8)); } _ => panic!("MOV {:?} {:?} {:?}", sz, src, dst), } }) }); } fn emit_lea(&mut self, sz: Size, src: Location, dst: Location) { match (sz, src, dst) { (Size::S32, Location::Memory(src, disp), Location::GPR(dst)) => { dynasm!(self ; lea Rd(dst as u8), [Rq(src as u8) + disp]); } (Size::S64, Location::Memory(src, disp), Location::GPR(dst)) => { dynasm!(self ; lea Rq(dst as u8), [Rq(src as u8) + disp]); } _ => unreachable!(), } } fn emit_lea_label(&mut self, label: Self::Label, dst: Location) { match dst { Location::GPR(x) => { dynasm!(self ; lea Rq(x as u8), [=>label]); } _ => unreachable!(), } } fn emit_cdq(&mut self) { dynasm!(self ; cdq); } fn emit_cqo(&mut self) { dynasm!(self ; cqo); } fn emit_xor(&mut self, sz: Size, src: Location, dst: Location) { binop_all_nofp!(xor, self, sz, src, dst, { unreachable!() }); } fn emit_jmp(&mut self, condition: Condition, label: Self::Label) { match condition { Condition::None => jmp_op!(jmp, self, label), Condition::Above => jmp_op!(ja, self, label), Condition::AboveEqual => jmp_op!(jae, self, label), Condition::Below => jmp_op!(jb, self, label), Condition::BelowEqual => jmp_op!(jbe, self, label), Condition::Greater => jmp_op!(jg, self, label), Condition::GreaterEqual => jmp_op!(jge, self, label), Condition::Less => jmp_op!(jl, self, label), Condition::LessEqual => jmp_op!(jle, self, label), Condition::Equal => jmp_op!(je, self, label), Condition::NotEqual => jmp_op!(jne, self, label), Condition::Signed => jmp_op!(js, self, label), } } fn emit_jmp_location(&mut self, loc: Location) { match loc { Location::GPR(x) => dynasm!(self ; jmp Rq(x as u8)), Location::Memory(base, disp) => dynasm!(self ; jmp QWORD [Rq(base as u8) + disp]), _ => unreachable!(), } } fn emit_conditional_trap(&mut self, condition: Condition) { match condition { Condition::None => trap_op!(jmp, self), Condition::Above => trap_op!(ja, self), Condition::AboveEqual => trap_op!(jae, self), Condition::Below => trap_op!(jb, self), Condition::BelowEqual => trap_op!(jbe, self), Condition::Greater => trap_op!(jg, self), Condition::GreaterEqual => trap_op!(jge, self), Condition::Less => trap_op!(jl, self), Condition::LessEqual => trap_op!(jle, self), Condition::Equal => trap_op!(je, self), Condition::NotEqual => trap_op!(jne, self), Condition::Signed => trap_op!(js, self), } } fn emit_set(&mut self, condition: Condition, dst: GPR) { match condition { Condition::Above => dynasm!(self ; seta Rb(dst as u8)), Condition::AboveEqual => dynasm!(self ; setae Rb(dst as u8)), Condition::Below => dynasm!(self ; setb Rb(dst as u8)), Condition::BelowEqual => dynasm!(self ; setbe Rb(dst as u8)), Condition::Greater => dynasm!(self ; setg Rb(dst as u8)), Condition::GreaterEqual => dynasm!(self ; setge Rb(dst as u8)), Condition::Less => dynasm!(self ; setl Rb(dst as u8)), Condition::LessEqual => dynasm!(self ; setle Rb(dst as u8)), Condition::Equal => dynasm!(self ; sete Rb(dst as u8)), Condition::NotEqual => dynasm!(self ; setne Rb(dst as u8)), Condition::Signed => dynasm!(self ; sets Rb(dst as u8)), _ => unreachable!(), } } fn emit_push(&mut self, sz: Size, src: Location) { match (sz, src) { (Size::S64, Location::Imm32(src)) => dynasm!(self ; push src as i32), (Size::S64, Location::GPR(src)) => dynasm!(self ; push Rq(src as u8)), (Size::S64, Location::Memory(src, disp)) => { dynasm!(self ; push QWORD [Rq(src as u8) + disp]) } _ => panic!("push {:?} {:?}", sz, src), } } fn emit_pop(&mut self, sz: Size, dst: Location) { match (sz, dst) { (Size::S64, Location::GPR(dst)) => dynasm!(self ; pop Rq(dst as u8)), (Size::S64, Location::Memory(dst, disp)) => { dynasm!(self ; pop QWORD [Rq(dst as u8) + disp]) } _ => panic!("pop {:?} {:?}", sz, dst), } } fn emit_cmp(&mut self, sz: Size, left: Location, right: Location) { binop_all_nofp!(cmp, self, sz, left, right, { panic!("{:?} {:?} {:?}", sz, left, right); }); } fn emit_add(&mut self, sz: Size, src: Location, dst: Location) { binop_all_nofp!(add, self, sz, src, dst, { unreachable!() }); } fn emit_sub(&mut self, sz: Size, src: Location, dst: Location) { binop_all_nofp!(sub, self, sz, src, dst, { unreachable!() }); } fn emit_imul(&mut self, sz: Size, src: Location, dst: Location) { binop_gpr_gpr!(imul, self, sz, src, dst, { binop_mem_gpr!(imul, self, sz, src, dst, { unreachable!() }) }); } fn emit_imul_imm32_gpr64(&mut self, src: u32, dst: GPR) { dynasm!(self ; imul Rq(dst as u8), Rq(dst as u8), src as i32); } fn emit_div(&mut self, sz: Size, divisor: Location) { unop_gpr_or_mem!(div, self, sz, divisor, { unreachable!() }); } fn emit_idiv(&mut self, sz: Size, divisor: Location) { unop_gpr_or_mem!(idiv, self, sz, divisor, { unreachable!() }); } fn emit_shl(&mut self, sz: Size, src: Location, dst: Location) { binop_shift!(shl, self, sz, src, dst, { unreachable!() }); } fn emit_shr(&mut self, sz: Size, src: Location, dst: Location) { binop_shift!(shr, self, sz, src, dst, { unreachable!() }); } fn emit_sar(&mut self, sz: Size, src: Location, dst: Location) { binop_shift!(sar, self, sz, src, dst, { unreachable!() }); } fn emit_rol(&mut self, sz: Size, src: Location, dst: Location) { binop_shift!(rol, self, sz, src, dst, { unreachable!() }); } fn emit_ror(&mut self, sz: Size, src: Location, dst: Location) { binop_shift!(ror, self, sz, src, dst, { unreachable!() }); } fn emit_and(&mut self, sz: Size, src: Location, dst: Location) { binop_all_nofp!(and, self, sz, src, dst, { unreachable!() }); } fn emit_or(&mut self, sz: Size, src: Location, dst: Location) { binop_all_nofp!(or, self, sz, src, dst, { unreachable!() }); } fn emit_lzcnt(&mut self, sz: Size, src: Location, dst: Location) { binop_gpr_gpr!(lzcnt, self, sz, src, dst, { binop_mem_gpr!(lzcnt, self, sz, src, dst, { unreachable!() }) }); } fn emit_tzcnt(&mut self, sz: Size, src: Location, dst: Location) { binop_gpr_gpr!(tzcnt, self, sz, src, dst, { binop_mem_gpr!(tzcnt, self, sz, src, dst, { unreachable!() }) }); } fn emit_popcnt(&mut self, sz: Size, src: Location, dst: Location) { binop_gpr_gpr!(popcnt, self, sz, src, dst, { binop_mem_gpr!(popcnt, self, sz, src, dst, { unreachable!() }) }); } fn emit_movzx(&mut self, sz_src: Size, src: Location, sz_dst: Size, dst: Location) { match (sz_src, src, sz_dst, dst) { (Size::S8, Location::GPR(src), Size::S32, Location::GPR(dst)) => { dynasm!(self ; movzx Rd(dst as u8), Rb(src as u8)); } (Size::S16, Location::GPR(src), Size::S32, Location::GPR(dst)) => { dynasm!(self ; movzx Rd(dst as u8), Rw(src as u8)); } (Size::S8, Location::Memory(src, disp), Size::S32, Location::GPR(dst)) => { dynasm!(self ; movzx Rd(dst as u8), BYTE [Rq(src as u8) + disp]); } (Size::S16, Location::Memory(src, disp), Size::S32, Location::GPR(dst)) => { dynasm!(self ; movzx Rd(dst as u8), WORD [Rq(src as u8) + disp]); } (Size::S8, Location::GPR(src), Size::S64, Location::GPR(dst)) => { dynasm!(self ; movzx Rq(dst as u8), Rb(src as u8)); } (Size::S16, Location::GPR(src), Size::S64, Location::GPR(dst)) => { dynasm!(self ; movzx Rq(dst as u8), Rw(src as u8)); } (Size::S8, Location::Memory(src, disp), Size::S64, Location::GPR(dst)) => { dynasm!(self ; movzx Rq(dst as u8), BYTE [Rq(src as u8) + disp]); } (Size::S16, Location::Memory(src, disp), Size::S64, Location::GPR(dst)) => { dynasm!(self ; movzx Rq(dst as u8), WORD [Rq(src as u8) + disp]); } _ => unreachable!(), } } fn emit_movsx(&mut self, sz_src: Size, src: Location, sz_dst: Size, dst: Location) { match (sz_src, src, sz_dst, dst) { (Size::S8, Location::GPR(src), Size::S32, Location::GPR(dst)) => { dynasm!(self ; movsx Rd(dst as u8), Rb(src as u8)); } (Size::S16, Location::GPR(src), Size::S32, Location::GPR(dst)) => { dynasm!(self ; movsx Rd(dst as u8), Rw(src as u8)); } (Size::S8, Location::Memory(src, disp), Size::S32, Location::GPR(dst)) => { dynasm!(self ; movsx Rd(dst as u8), BYTE [Rq(src as u8) + disp]); } (Size::S16, Location::Memory(src, disp), Size::S32, Location::GPR(dst)) => { dynasm!(self ; movsx Rd(dst as u8), WORD [Rq(src as u8) + disp]); } (Size::S8, Location::GPR(src), Size::S64, Location::GPR(dst)) => { dynasm!(self ; movsx Rq(dst as u8), Rb(src as u8)); } (Size::S16, Location::GPR(src), Size::S64, Location::GPR(dst)) => { dynasm!(self ; movsx Rq(dst as u8), Rw(src as u8)); } (Size::S32, Location::GPR(src), Size::S64, Location::GPR(dst)) => { dynasm!(self ; movsx Rq(dst as u8), Rd(src as u8)); } (Size::S8, Location::Memory(src, disp), Size::S64, Location::GPR(dst)) => { dynasm!(self ; movsx Rq(dst as u8), BYTE [Rq(src as u8) + disp]); } (Size::S16, Location::Memory(src, disp), Size::S64, Location::GPR(dst)) => { dynasm!(self ; movsx Rq(dst as u8), WORD [Rq(src as u8) + disp]); } (Size::S32, Location::Memory(src, disp), Size::S64, Location::GPR(dst)) => { dynasm!(self ; movsx Rq(dst as u8), DWORD [Rq(src as u8) + disp]); } _ => unreachable!(), } } fn emit_btc_gpr_imm8_32(&mut self, src: u8, dst: GPR) { dynasm!(self ; btc Rd(dst as u8), BYTE src as i8); } fn emit_btc_gpr_imm8_64(&mut self, src: u8, dst: GPR) { dynasm!(self ; btc Rq(dst as u8), BYTE src as i8); } fn emit_cmovae_gpr_32(&mut self, src: GPR, dst: GPR) { dynasm!(self ; cmovae Rd(dst as u8), Rd(src as u8)); } fn emit_cmovae_gpr_64(&mut self, src: GPR, dst: GPR) { dynasm!(self ; cmovae Rq(dst as u8), Rq(src as u8)); } avx_fn!(vaddss, emit_vaddss); avx_fn!(vaddsd, emit_vaddsd); avx_fn!(vsubss, emit_vsubss); avx_fn!(vsubsd, emit_vsubsd); avx_fn!(vmulss, emit_vmulss); avx_fn!(vmulsd, emit_vmulsd); avx_fn!(vdivss, emit_vdivss); avx_fn!(vdivsd, emit_vdivsd); avx_fn!(vmaxss, emit_vmaxss); avx_fn!(vmaxsd, emit_vmaxsd); avx_fn!(vminss, emit_vminss); avx_fn!(vminsd, emit_vminsd); avx_fn!(vcmpeqss, emit_vcmpeqss); avx_fn!(vcmpeqsd, emit_vcmpeqsd); avx_fn!(vcmpneqss, emit_vcmpneqss); avx_fn!(vcmpneqsd, emit_vcmpneqsd); avx_fn!(vcmpltss, emit_vcmpltss); avx_fn!(vcmpltsd, emit_vcmpltsd); avx_fn!(vcmpless, emit_vcmpless); avx_fn!(vcmplesd, emit_vcmplesd); avx_fn!(vcmpgtss, emit_vcmpgtss); avx_fn!(vcmpgtsd, emit_vcmpgtsd); avx_fn!(vcmpgess, emit_vcmpgess); avx_fn!(vcmpgesd, emit_vcmpgesd); avx_fn!(vsqrtss, emit_vsqrtss); avx_fn!(vsqrtsd, emit_vsqrtsd); avx_fn!(vcvtss2sd, emit_vcvtss2sd); avx_fn!(vcvtsd2ss, emit_vcvtsd2ss); avx_round_fn!(vroundss, emit_vroundss_nearest, 0); avx_round_fn!(vroundss, emit_vroundss_floor, 1); avx_round_fn!(vroundss, emit_vroundss_ceil, 2); avx_round_fn!(vroundss, emit_vroundss_trunc, 3); avx_round_fn!(vroundsd, emit_vroundsd_nearest, 0); avx_round_fn!(vroundsd, emit_vroundsd_floor, 1); avx_round_fn!(vroundsd, emit_vroundsd_ceil, 2); avx_round_fn!(vroundsd, emit_vroundsd_trunc, 3); avx_i2f_32_fn!(vcvtsi2ss, emit_vcvtsi2ss_32); avx_i2f_32_fn!(vcvtsi2sd, emit_vcvtsi2sd_32); avx_i2f_64_fn!(vcvtsi2ss, emit_vcvtsi2ss_64); avx_i2f_64_fn!(vcvtsi2sd, emit_vcvtsi2sd_64); fn emit_ucomiss(&mut self, src: XMMOrMemory, dst: XMM) { match src { XMMOrMemory::XMM(x) => dynasm!(self ; ucomiss Rx(dst as u8), Rx(x as u8)), XMMOrMemory::Memory(base, disp) => { dynasm!(self ; ucomiss Rx(dst as u8), [Rq(base as u8) + disp]) } } } fn emit_ucomisd(&mut self, src: XMMOrMemory, dst: XMM) { match src { XMMOrMemory::XMM(x) => dynasm!(self ; ucomisd Rx(dst as u8), Rx(x as u8)), XMMOrMemory::Memory(base, disp) => { dynasm!(self ; ucomisd Rx(dst as u8), [Rq(base as u8) + disp]) } } } fn emit_cvttss2si_32(&mut self, src: XMMOrMemory, dst: GPR) { match src { XMMOrMemory::XMM(x) => dynasm!(self ; cvttss2si Rd(dst as u8), Rx(x as u8)), XMMOrMemory::Memory(base, disp) => { dynasm!(self ; cvttss2si Rd(dst as u8), [Rq(base as u8) + disp]) } } } fn emit_cvttss2si_64(&mut self, src: XMMOrMemory, dst: GPR) { match src { XMMOrMemory::XMM(x) => dynasm!(self ; cvttss2si Rq(dst as u8), Rx(x as u8)), XMMOrMemory::Memory(base, disp) => { dynasm!(self ; cvttss2si Rq(dst as u8), [Rq(base as u8) + disp]) } } } fn emit_cvttsd2si_32(&mut self, src: XMMOrMemory, dst: GPR) { match src { XMMOrMemory::XMM(x) => dynasm!(self ; cvttsd2si Rd(dst as u8), Rx(x as u8)), XMMOrMemory::Memory(base, disp) => { dynasm!(self ; cvttsd2si Rd(dst as u8), [Rq(base as u8) + disp]) } } } fn emit_cvttsd2si_64(&mut self, src: XMMOrMemory, dst: GPR) { match src { XMMOrMemory::XMM(x) => dynasm!(self ; cvttsd2si Rq(dst as u8), Rx(x as u8)), XMMOrMemory::Memory(base, disp) => { dynasm!(self ; cvttsd2si Rq(dst as u8), [Rq(base as u8) + disp]) } } } fn emit_test_gpr_64(&mut self, reg: GPR) { dynasm!(self ; test Rq(reg as u8), Rq(reg as u8)); } fn emit_ud2(&mut self) { dynasm!(self ; ud2); } fn emit_ret(&mut self) { dynasm!(self ; ret); } fn emit_call_label(&mut self, label: Self::Label) { dynasm!(self ; call =>label); } fn emit_call_location(&mut self, loc: Location) { match loc { Location::GPR(x) => dynasm!(self ; call Rq(x as u8)), Location::Memory(base, disp) => dynasm!(self ; call QWORD [Rq(base as u8) + disp]), _ => unreachable!(), } } fn emit_bkpt(&mut self) { dynasm!(self ; int 0x3); } fn emit_homomorphic_host_redirection(&mut self, target: GPR) { self.emit_jmp_location(Location::GPR(target)); } fn emit_inline_breakpoint(&mut self, ty: InlineBreakpointType) { dynasm!(self ; ud2 ; .byte 0x0f ; .byte (0xb9u8 as i8) // ud ; int -1 ; .byte (ty as u8 as i8) ); } }