mod vex; mod evex; #[cfg(feature = "fmt")] mod display; pub mod uarch; pub use crate::MemoryAccessSize; #[cfg(feature = "fmt")] pub use self::display::{DisplayStyle, InstructionDisplayer}; use core::cmp::PartialEq; use crate::safer_unchecked::unreachable_kinda_unchecked as unreachable_unchecked; use yaxpeax_arch::{AddressDiff, Decoder, Reader, LengthedInstruction}; use yaxpeax_arch::annotation::{AnnotatingDecoder, DescriptionSink, NullSink}; use yaxpeax_arch::{DecodeError as ArchDecodeError}; use core::fmt; impl fmt::Display for DecodeError { fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result { f.write_str(self.description()) } } /// an `x86_64` register, including its number and type. if `fmt` is enabled, name too. /// /// ``` /// use yaxpeax_x86::long_mode::{RegSpec, register_class}; /// /// assert_eq!(RegSpec::ecx().num(), 1); /// assert_eq!(RegSpec::ecx().class(), register_class::D); /// ``` /// /// some registers have classes of their own, and only one member: `rip`, `eip`, `rflags`, and /// `eflags`. #[cfg_attr(feature="use-serde", derive(Serialize, Deserialize))] #[derive(Copy, Clone, Debug, PartialOrd, Ord, Eq, PartialEq)] pub struct RegSpec { num: u8, bank: RegisterBank } use core::hash::Hash; use core::hash::Hasher; impl Hash for RegSpec { fn hash(&self, state: &mut H) { let code = ((self.bank as u16) << 8) | (self.num as u16); code.hash(state); } } /// the condition for a conditional instruction. /// /// these are only obtained through [`Opcode::condition()`]: /// ``` /// use yaxpeax_x86::long_mode::{Opcode, ConditionCode}; /// /// assert_eq!(Opcode::JB.condition(), Some(ConditionCode::B)); /// ``` #[derive(Debug, Clone, Copy, PartialEq, Eq, Hash)] pub enum ConditionCode { O, NO, B, AE, Z, NZ, A, BE, S, NS, P, NP, L, GE, G, LE, } macro_rules! register { ($bank:ident, $name:ident => $num:expr, $($tail:tt)+) => { #[inline] pub const fn $name() -> RegSpec { RegSpec { bank: RegisterBank::$bank, num: $num } } register!($bank, $($tail)*); }; ($bank:ident, $name:ident => $num:expr) => { #[inline] pub const fn $name() -> RegSpec { RegSpec { bank: RegisterBank::$bank, num: $num } } }; } #[allow(non_snake_case)] impl RegSpec { /// the register `rip`. this register is in the class `rip`, which contains only it. pub const RIP: RegSpec = RegSpec::rip(); /// the number of this register in its `RegisterClass`. /// /// for many registers this is a number in the name, but for registers harkening back to /// `x86_32`, the first eight registers are `rax`, `rcx`, `rdx`, `rbx`, `rsp`, `rbp`, `rsi`, /// and `rdi` (or `eXX` for the 32-bit forms, `XX` for 16-bit forms). pub fn num(&self) -> u8 { self.num } /// the class of register this register is in. /// /// this corresponds to the register's size, but is by the register's usage in the instruction /// set; `rax` and `mm0` are the same size, but different classes (`Q`(word) and `MM` (mmx) /// respectively). pub fn class(&self) -> RegisterClass { RegisterClass { kind: self.bank } } #[cfg(feature = "fmt")] /// return a human-friendly name for this register. the returned name is the same as would be /// used to render this register in an instruction. pub fn name(&self) -> &'static str { display::regspec_label(self) } /// construct a `RegSpec` for x87 register `st(num)` #[inline] pub fn st(num: u8) -> RegSpec { if num >= 8 { panic!("invalid x87 reg st({})", num); } RegSpec { num, bank: RegisterBank::ST } } /// construct a `RegSpec` for xmm reg `num` #[inline] pub fn xmm(num: u8) -> RegSpec { if num >= 32 { panic!("invalid x86 xmm reg {}", num); } RegSpec { num, bank: RegisterBank::X } } /// construct a `RegSpec` for ymm reg `num` #[inline] pub fn ymm(num: u8) -> RegSpec { if num >= 32 { panic!("invalid x86 ymm reg {}", num); } RegSpec { num, bank: RegisterBank::Y } } /// construct a `RegSpec` for zmm reg `num` #[inline] pub fn zmm(num: u8) -> RegSpec { if num >= 32 { panic!("invalid x86 zmm reg {}", num); } RegSpec { num, bank: RegisterBank::Z } } /// construct a `RegSpec` for qword reg `num` #[inline] pub fn q(num: u8) -> RegSpec { if num >= 16 { panic!("invalid x86 qword reg {}", num); } RegSpec { num, bank: RegisterBank::Q } } /// construct a `RegSpec` for mask reg `num` #[inline] pub fn mask(num: u8) -> RegSpec { if num >= 8 { panic!("invalid x86 mask reg {}", num); } RegSpec { num, bank: RegisterBank::K } } /// construct a `RegSpec` for dword reg `num` #[inline] pub fn d(num: u8) -> RegSpec { if num >= 16 { panic!("invalid x86 dword reg {}", num); } RegSpec { num, bank: RegisterBank::D } } /// construct a `RegSpec` for word reg `num` #[inline] pub fn w(num: u8) -> RegSpec { if num >= 16 { panic!("invalid x86 word reg {}", num); } RegSpec { num, bank: RegisterBank::W } } /// construct a `RegSpec` for non-rex byte reg `num` #[inline] pub fn rb(num: u8) -> RegSpec { if num >= 16 { panic!("invalid x86 rex-byte reg {}", num); } RegSpec { num, bank: RegisterBank::rB } } /// construct a `RegSpec` for non-rex byte reg `num` #[inline] pub fn b(num: u8) -> RegSpec { if num >= 8 { panic!("invalid x86 non-rex byte reg {}", num); } RegSpec { num, bank: RegisterBank::B } } #[inline] fn from_parts(num: u8, extended: bool, bank: RegisterBank) -> RegSpec { RegSpec { num: num + if extended { 0b1000 } else { 0 }, bank: bank } } #[inline] fn gp_from_parts(num: u8, extended: bool, width: u8, rex: bool) -> RegSpec { RegSpec { num: num + if extended { 0b1000 } else { 0 }, bank: width_to_gp_reg_bank(width, rex) } } register!(RIP, rip => 0); register!(EIP, eip => 0); register!(RFlags, rflags => 0); register!(EFlags, eflags => 0); register!(S, es => 0, cs => 1, ss => 2, ds => 3, fs => 4, gs => 5); register!(Q, rax => 0, rcx => 1, rdx => 2, rbx => 3, rsp => 4, rbp => 5, rsi => 6, rdi => 7, r8 => 8, r9 => 9, r10 => 10, r11 => 11, r12 => 8, r13 => 9, r14 => 14, r15 => 15 ); register!(D, eax => 0, ecx => 1, edx => 2, ebx => 3, esp => 4, ebp => 5, esi => 6, edi => 7, r8d => 8, r9d => 9, r10d => 10, r11d => 11, r12d => 8, r13d => 9, r14d => 14, r15d => 15 ); register!(W, ax => 0, cx => 1, dx => 2, bx => 3, sp => 4, bp => 5, si => 6, di => 7, r8w => 8, r9w => 9, r10w => 10, r11w => 11, r12w => 8, r13w => 9, r14w => 14, r15w => 15 ); register!(B, al => 0, cl => 1, dl => 2, bl => 3, ah => 4, ch => 5, dh => 6, bh => 7 ); register!(rB, spl => 4, bpl => 5, sil => 6, dil => 7, r8b => 8, r9b => 9, r10b => 10, r11b => 11, r12b => 8, r13b => 9, r14b => 14, r15b => 15 ); #[inline] pub const fn zmm0() -> RegSpec { RegSpec { bank: RegisterBank::Z, num: 0 } } #[inline] pub const fn ymm0() -> RegSpec { RegSpec { bank: RegisterBank::Y, num: 0 } } #[inline] pub const fn xmm0() -> RegSpec { RegSpec { bank: RegisterBank::X, num: 0 } } #[inline] pub const fn st0() -> RegSpec { RegSpec { bank: RegisterBank::ST, num: 0 } } #[inline] pub const fn mm0() -> RegSpec { RegSpec { bank: RegisterBank::MM, num: 0 } } /// return the size of this register, in bytes. #[inline] pub fn width(&self) -> u8 { self.class().width() } } #[allow(non_camel_case_types)] #[allow(dead_code)] enum SizeCode { b, vd, vq, vqp } /// an operand for an `x86_64` instruction. /// /// `Operand::Nothing` should be unreachable in practice; any such instructions should have an /// operand count of 0 (or at least one fewer than the `Nothing` operand's position). #[derive(Clone, Debug, PartialEq, Eq)] #[non_exhaustive] pub enum Operand { /// a sign-extended byte ImmediateI8(i8), /// a zero-extended byte ImmediateU8(u8), /// a sign-extended word ImmediateI16(i16), /// a zero-extended word ImmediateU16(u16), /// a sign-extended dword ImmediateI32(i32), /// a zero-extended dword ImmediateU32(u32), /// a sign-extended qword ImmediateI64(i64), /// a zero-extended qword ImmediateU64(u64), /// a bare register operand, such as `rcx`. Register(RegSpec), /// an `avx512` register operand with optional mask register and merge mode, such as /// `zmm3{k4}{z}`. /// /// if the mask register is `k0`, there is no masking applied, and the default x86 operation is /// `MergeMode::Merge`. RegisterMaskMerge(RegSpec, RegSpec, MergeMode), /// an `avx512` register operand with optional mask register, merge mode, and suppressed /// exceptions, such as `zmm3{k4}{z}{rd-sae}`. /// /// if the mask register is `k0`, there is no masking applied, and the default x86 operation is /// `MergeMode::Merge`. RegisterMaskMergeSae(RegSpec, RegSpec, MergeMode, SaeMode), /// an `avx512` register operand with optional mask register, merge mode, and suppressed /// exceptions, with no overridden rounding mode, such as `zmm3{k4}{z}{sae}`. /// /// if the mask register is `k0`, there is no masking applied, and the default x86 operation is /// `MergeMode::Merge`. RegisterMaskMergeSaeNoround(RegSpec, RegSpec, MergeMode), /// a memory access to a literal dword address. it's extremely rare that a well-formed x86 /// instruction uses this mode. as an example, `[0x1133]` DisplacementU32(u32), /// a memory access to a literal qword address. it's relatively rare that a well-formed x86 /// instruction uses this mode, but plausible. for example, `gs:[0x14]`. segment overrides, /// however, are maintained on the instruction itself. DisplacementU64(u64), /// a simple dereference of the address held in some register. for example: `[rsi]`. RegDeref(RegSpec), /// a dereference of the address held in some register with offset. for example: `[rsi + 0x14]`. RegDisp(RegSpec, i32), /// a dereference of the address held in some register scaled by 1, 2, 4, or 8. this is almost always used with the `lea` instruction. for example: `[rdx * 4]`. RegScale(RegSpec, u8), /// a dereference of the address from summing two registers. for example: `[rbp + rax]` RegIndexBase(RegSpec, RegSpec), /// a dereference of the address from summing two registers with offset. for example: `[rdi + rcx + 0x40]` RegIndexBaseDisp(RegSpec, RegSpec, i32), /// a dereference of the address held in some register scaled by 1, 2, 4, or 8 with offset. this is almost always used with the `lea` instruction. for example: `[rax * 4 + 0x30]`. RegScaleDisp(RegSpec, u8, i32), /// a dereference of the address from summing a register and index register scaled by 1, 2, 4, /// or 8. for /// example: `[rsi + rcx * 4]` RegIndexBaseScale(RegSpec, RegSpec, u8), /// a dereference of the address from summing a register and index register scaled by 1, 2, 4, /// or 8, with offset. for /// example: `[rsi + rcx * 4 + 0x1234]` RegIndexBaseScaleDisp(RegSpec, RegSpec, u8, i32), /// an `avx512` dereference of register with optional masking. for example: `[rdx]{k3}` RegDerefMasked(RegSpec, RegSpec), /// an `avx512` dereference of register plus offset, with optional masking. for example: `[rsp + 0x40]{k3}` RegDispMasked(RegSpec, i32, RegSpec), /// an `avx512` dereference of a register scaled by 1, 2, 4, or 8, with optional masking. this /// seems extraordinarily unlikely to occur in practice. for example: `[rsi * 4]{k2}` RegScaleMasked(RegSpec, u8, RegSpec), /// an `avx512` dereference of a register plus index scaled by 1, 2, 4, or 8, with optional masking. /// for example: `[rsi + rax * 4]{k6}` RegIndexBaseMasked(RegSpec, RegSpec, RegSpec), /// an `avx512` dereference of a register plus offset, with optional masking. for example: /// `[rsi + rax + 0x1313]{k6}` RegIndexBaseDispMasked(RegSpec, RegSpec, i32, RegSpec), /// an `avx512` dereference of a register scaled by 1, 2, 4, or 8 plus offset, with optional /// masking. this seems extraordinarily unlikely to occur in practice. for example: `[rsi * /// 4 + 0x1357]{k2}` RegScaleDispMasked(RegSpec, u8, i32, RegSpec), /// an `avx512` dereference of a register plus index scaled by 1, 2, 4, or 8, with optional /// masking. for example: `[rsi + rax * 4]{k6}` RegIndexBaseScaleMasked(RegSpec, RegSpec, u8, RegSpec), /// an `avx512` dereference of a register plus index scaled by 1, 2, 4, or 8 and offset, with /// optional masking. for example: `[rsi + rax * 4 + 0x1313]{k6}` RegIndexBaseScaleDispMasked(RegSpec, RegSpec, u8, i32, RegSpec), /// no operand. it is a bug for `yaxpeax-x86` to construct an `Operand` of this kind for public /// use; the instruction's `operand_count` should be reduced so as to make this invisible to /// library clients. Nothing, } impl OperandSpec { fn masked(self) -> Self { match self { OperandSpec::RegRRR => OperandSpec::RegRRR_maskmerge, OperandSpec::RegMMM => OperandSpec::RegMMM_maskmerge, OperandSpec::RegVex => OperandSpec::RegVex_maskmerge, OperandSpec::Deref => OperandSpec::Deref_mask, OperandSpec::RegDisp => OperandSpec::RegDisp_mask, OperandSpec::RegScale => OperandSpec::RegScale_mask, OperandSpec::RegScaleDisp => OperandSpec::RegScaleDisp_mask, OperandSpec::RegIndexBaseScale => OperandSpec::RegIndexBaseScale_mask, OperandSpec::RegIndexBaseScaleDisp => OperandSpec::RegIndexBaseScaleDisp_mask, o => o, } } fn is_memory(&self) -> bool { match self { OperandSpec::DispU32 | OperandSpec::DispU64 | OperandSpec::Deref | OperandSpec::Deref_esi | OperandSpec::Deref_edi | OperandSpec::Deref_rsi | OperandSpec::Deref_rdi | OperandSpec::RegDisp | OperandSpec::RegScale | OperandSpec::RegScaleDisp | OperandSpec::RegIndexBaseScale | OperandSpec::RegIndexBaseScaleDisp | OperandSpec::Deref_mask | OperandSpec::RegDisp_mask | OperandSpec::RegScale_mask | OperandSpec::RegScaleDisp_mask | OperandSpec::RegIndexBaseScale_mask | OperandSpec::RegIndexBaseScaleDisp_mask => { true }, OperandSpec::ImmI8 | OperandSpec::ImmI16 | OperandSpec::ImmI32 | OperandSpec::ImmI64 | OperandSpec::ImmU8 | OperandSpec::ImmU16 | OperandSpec::RegRRR | OperandSpec::RegRRR_maskmerge | OperandSpec::RegRRR_maskmerge_sae | OperandSpec::RegRRR_maskmerge_sae_noround | OperandSpec::RegMMM | OperandSpec::RegMMM_maskmerge | OperandSpec::RegMMM_maskmerge_sae_noround | OperandSpec::RegVex | OperandSpec::RegVex_maskmerge | OperandSpec::Reg4 | OperandSpec::ImmInDispField | OperandSpec::Nothing => { false } } } } /// an `avx512` merging mode. /// /// the behavior for non-`avx512` instructions is equivalent to `merge`. `zero` is only useful in /// conjunction with a mask register, where bits specified in the mask register correspond to /// unmodified items in the instruction's destination. #[derive(Debug, Copy, Clone, PartialEq, Eq)] pub enum MergeMode { Merge, Zero, } impl From for MergeMode { fn from(b: bool) -> Self { if b { MergeMode::Zero } else { MergeMode::Merge } } } /// an `avx512` custom rounding mode. #[derive(Debug, Copy, Clone, PartialEq, Eq)] pub enum SaeMode { RoundNearest, RoundDown, RoundUp, RoundZero, } const SAE_MODES: [SaeMode; 4] = [ SaeMode::RoundNearest, SaeMode::RoundDown, SaeMode::RoundUp, SaeMode::RoundZero, ]; impl SaeMode { /// a human-friendly label for this `SaeMode`: /// /// ``` /// use yaxpeax_x86::long_mode::SaeMode; /// /// assert_eq!(SaeMode::RoundNearest.label(), "{rne-sae}"); /// assert_eq!(SaeMode::RoundDown.label(), "{rd-sae}"); /// assert_eq!(SaeMode::RoundUp.label(), "{ru-sae}"); /// assert_eq!(SaeMode::RoundZero.label(), "{rz-sae}"); /// ``` pub fn label(&self) -> &'static str { match self { SaeMode::RoundNearest => "{rne-sae}", SaeMode::RoundDown => "{rd-sae}", SaeMode::RoundUp => "{ru-sae}", SaeMode::RoundZero => "{rz-sae}", } } fn from(l: bool, lp: bool) -> Self { let mut idx = 0; if l { idx |= 1; } if lp { idx |= 2; } SAE_MODES[idx] } } impl Operand { fn from_spec(inst: &Instruction, spec: OperandSpec) -> Operand { match spec { OperandSpec::Nothing => { Operand::Nothing } // the register in modrm_rrr OperandSpec::RegRRR => { Operand::Register(inst.regs[0]) } OperandSpec::RegRRR_maskmerge => { Operand::RegisterMaskMerge( inst.regs[0], RegSpec::mask(inst.prefixes.evex_unchecked().mask_reg()), MergeMode::from(inst.prefixes.evex_unchecked().merge()), ) } OperandSpec::RegRRR_maskmerge_sae => { Operand::RegisterMaskMergeSae( inst.regs[0], RegSpec::mask(inst.prefixes.evex_unchecked().mask_reg()), MergeMode::from(inst.prefixes.evex_unchecked().merge()), SaeMode::from(inst.prefixes.evex_unchecked().vex().l(), inst.prefixes.evex_unchecked().lp()), ) } OperandSpec::RegRRR_maskmerge_sae_noround => { Operand::RegisterMaskMergeSaeNoround( inst.regs[0], RegSpec::mask(inst.prefixes.evex_unchecked().mask_reg()), MergeMode::from(inst.prefixes.evex_unchecked().merge()), ) } // the register in modrm_mmm (eg modrm mod bits were 11) OperandSpec::RegMMM => { Operand::Register(inst.regs[1]) } OperandSpec::RegMMM_maskmerge => { Operand::RegisterMaskMerge( inst.regs[1], RegSpec::mask(inst.prefixes.evex_unchecked().mask_reg()), MergeMode::from(inst.prefixes.evex_unchecked().merge()), ) } OperandSpec::RegMMM_maskmerge_sae_noround => { Operand::RegisterMaskMergeSaeNoround( inst.regs[1], RegSpec::mask(inst.prefixes.evex_unchecked().mask_reg()), MergeMode::from(inst.prefixes.evex_unchecked().merge()), ) } OperandSpec::RegVex => { Operand::Register(inst.regs[3]) } OperandSpec::RegVex_maskmerge => { Operand::RegisterMaskMerge( inst.regs[3], RegSpec::mask(inst.prefixes.evex_unchecked().mask_reg()), MergeMode::from(inst.prefixes.evex_unchecked().merge()), ) } OperandSpec::Reg4 => { Operand::Register(RegSpec { num: inst.imm as u8, bank: inst.regs[3].bank }) } OperandSpec::ImmI8 => Operand::ImmediateI8(inst.imm as i8), OperandSpec::ImmU8 => Operand::ImmediateU8(inst.imm as u8), OperandSpec::ImmI16 => Operand::ImmediateI16(inst.imm as i16), OperandSpec::ImmU16 => Operand::ImmediateU16(inst.imm as u16), OperandSpec::ImmI32 => Operand::ImmediateI32(inst.imm as i32), OperandSpec::ImmI64 => Operand::ImmediateI64(inst.imm as i64), OperandSpec::ImmInDispField => Operand::ImmediateU16(inst.disp as u16), OperandSpec::DispU32 => Operand::DisplacementU32(inst.disp as u32), OperandSpec::DispU64 => Operand::DisplacementU64(inst.disp as u64), OperandSpec::Deref => { Operand::RegDeref(inst.regs[1]) } OperandSpec::Deref_esi => { Operand::RegDeref(RegSpec::esi()) } OperandSpec::Deref_edi => { Operand::RegDeref(RegSpec::edi()) } OperandSpec::Deref_rsi => { Operand::RegDeref(RegSpec::rsi()) } OperandSpec::Deref_rdi => { Operand::RegDeref(RegSpec::rdi()) } OperandSpec::RegDisp => { Operand::RegDisp(inst.regs[1], inst.disp as i32) } OperandSpec::RegScale => { Operand::RegScale(inst.regs[2], inst.scale) } OperandSpec::RegScaleDisp => { Operand::RegScaleDisp(inst.regs[2], inst.scale, inst.disp as i32) } OperandSpec::RegIndexBaseScale => { Operand::RegIndexBaseScale(inst.regs[1], inst.regs[2], inst.scale) } OperandSpec::RegIndexBaseScaleDisp => { Operand::RegIndexBaseScaleDisp(inst.regs[1], inst.regs[2], inst.scale, inst.disp as i32) } OperandSpec::Deref_mask => { if inst.prefixes.evex_unchecked().mask_reg() != 0 { Operand::RegDerefMasked(inst.regs[1], RegSpec::mask(inst.prefixes.evex_unchecked().mask_reg())) } else { Operand::RegDeref(inst.regs[1]) } } OperandSpec::RegDisp_mask => { if inst.prefixes.evex_unchecked().mask_reg() != 0 { Operand::RegDispMasked(inst.regs[1], inst.disp as i32, RegSpec::mask(inst.prefixes.evex_unchecked().mask_reg())) } else { Operand::RegDisp(inst.regs[1], inst.disp as i32) } } OperandSpec::RegScale_mask => { if inst.prefixes.evex_unchecked().mask_reg() != 0 { Operand::RegScaleMasked(inst.regs[2], inst.scale, RegSpec::mask(inst.prefixes.evex_unchecked().mask_reg())) } else { Operand::RegScale(inst.regs[2], inst.scale) } } OperandSpec::RegScaleDisp_mask => { if inst.prefixes.evex_unchecked().mask_reg() != 0 { Operand::RegScaleDispMasked(inst.regs[2], inst.scale, inst.disp as i32, RegSpec::mask(inst.prefixes.evex_unchecked().mask_reg())) } else { Operand::RegScaleDisp(inst.regs[2], inst.scale, inst.disp as i32) } } OperandSpec::RegIndexBaseScale_mask => { if inst.prefixes.evex_unchecked().mask_reg() != 0 { Operand::RegIndexBaseScaleMasked(inst.regs[1], inst.regs[2], inst.scale, RegSpec::mask(inst.prefixes.evex_unchecked().mask_reg())) } else { Operand::RegIndexBaseScale(inst.regs[1], inst.regs[2], inst.scale) } } OperandSpec::RegIndexBaseScaleDisp_mask => { if inst.prefixes.evex_unchecked().mask_reg() != 0 { Operand::RegIndexBaseScaleDispMasked(inst.regs[1], inst.regs[2], inst.scale, inst.disp as i32, RegSpec::mask(inst.prefixes.evex_unchecked().mask_reg())) } else { Operand::RegIndexBaseScaleDisp(inst.regs[1], inst.regs[2], inst.scale, inst.disp as i32) } } } } /// returns `true` if this operand implies a memory access, `false` otherwise. /// /// notably, the `lea` instruction uses a memory operand without actually ever accessing /// memory. pub fn is_memory(&self) -> bool { match self { Operand::DisplacementU32(_) | Operand::DisplacementU64(_) | Operand::RegDeref(_) | Operand::RegDisp(_, _) | Operand::RegScale(_, _) | Operand::RegIndexBase(_, _) | Operand::RegIndexBaseDisp(_, _, _) | Operand::RegScaleDisp(_, _, _) | Operand::RegIndexBaseScale(_, _, _) | Operand::RegIndexBaseScaleDisp(_, _, _, _) | Operand::RegDerefMasked(_, _) | Operand::RegDispMasked(_, _, _) | Operand::RegScaleMasked(_, _, _) | Operand::RegIndexBaseMasked(_, _, _) | Operand::RegIndexBaseDispMasked(_, _, _, _) | Operand::RegScaleDispMasked(_, _, _, _) | Operand::RegIndexBaseScaleMasked(_, _, _, _) | Operand::RegIndexBaseScaleDispMasked(_, _, _, _, _) => { true }, Operand::ImmediateI8(_) | Operand::ImmediateU8(_) | Operand::ImmediateI16(_) | Operand::ImmediateU16(_) | Operand::ImmediateU32(_) | Operand::ImmediateI32(_) | Operand::ImmediateU64(_) | Operand::ImmediateI64(_) | Operand::Register(_) | Operand::RegisterMaskMerge(_, _, _) | Operand::RegisterMaskMergeSae(_, _, _, _) | Operand::RegisterMaskMergeSaeNoround(_, _, _) | Operand::Nothing => { false } } } /// return the width of this operand, in bytes. register widths are determined by the /// register's class. the widths of memory operands are recorded on the instruction this /// `Operand` came from; `None` here means the authoritative width is `instr.mem_size()`. pub fn width(&self) -> Option { match self { Operand::Register(reg) => { Some(reg.width()) } Operand::RegisterMaskMerge(reg, _, _) => { Some(reg.width()) } Operand::ImmediateI8(_) | Operand::ImmediateU8(_) => { Some(1) } Operand::ImmediateI16(_) | Operand::ImmediateU16(_) => { Some(2) } Operand::ImmediateI32(_) | Operand::ImmediateU32(_) => { Some(4) } Operand::ImmediateI64(_) | Operand::ImmediateU64(_) => { Some(8) } // memory operands or `Nothing` _ => { None } } } } #[test] fn operand_size() { assert_eq!(core::mem::size_of::(), 1); assert_eq!(core::mem::size_of::(), 2); // assert_eq!(core::mem::size_of::(), 4); // assert_eq!(core::mem::size_of::(), 40); } /// an `x86_64` register class - `qword`, `dword`, `xmmword`, `segment`, and so on. /// /// this is mostly useful for comparing a `RegSpec`'s [`RegSpec::class()`] with a constant out of /// [`register_class`]. #[cfg_attr(feature="use-serde", derive(Serialize, Deserialize))] #[derive(Copy, Clone, Debug, Ord, PartialOrd, Eq, PartialEq, Hash)] pub struct RegisterClass { kind: RegisterBank, } const REGISTER_CLASS_NAMES: &[&'static str] = &[ "qword", "BUG. PLEASE REPORT.", "dword", "BUG. PLEASE REPORT.", "word", "BUG. PLEASE REPORT.", "byte", "BUG. PLEASE REPORT.", "rex-byte", "BUG. PLEASE REPORT.", "cr", "BUG. PLEASE REPORT.", "dr", "BUG. PLEASE REPORT.", "segment", "xmm", "BUG. PLEASE REPORT.", "BUG. PLEASE REPORT.", "BUG. PLEASE REPORT.", "ymm", "BUG. PLEASE REPORT.", "BUG. PLEASE REPORT.", "BUG. PLEASE REPORT.", "zmm", "BUG. PLEASE REPORT.", "BUG. PLEASE REPORT.", "BUG. PLEASE REPORT.", "x87-stack", "mmx", "k", "eip", "rip", "eflags", "rflags", ]; /// high-level register classes in an x86 machine, such as "8-byte general purpose", "xmm", "x87", /// and so on. constants in this module are useful for inspecting the register class of a decoded /// instruction. as an example: /// ``` /// use yaxpeax_x86::long_mode::{self as amd64}; /// use yaxpeax_x86::long_mode::{Opcode, Operand, RegisterClass}; /// use yaxpeax_arch::{Decoder, U8Reader}; /// /// let movsx_eax_cl = &[0x0f, 0xbe, 0xc1]; /// let decoder = amd64::InstDecoder::default(); /// let instruction = decoder /// .decode(&mut U8Reader::new(movsx_eax_cl)) /// .expect("can decode"); /// /// assert_eq!(instruction.opcode(), Opcode::MOVSX); /// /// fn show_register_class_info(regclass: RegisterClass) { /// match regclass { /// amd64::register_class::D => { /// println!(" and is a dword register"); /// } /// amd64::register_class::B => { /// println!(" and is a byte register"); /// } /// other => { /// panic!("unexpected and invalid register class {:?}", other); /// } /// } /// } /// /// if let Operand::Register(regspec) = instruction.operand(0) { /// #[cfg(feature="fmt")] /// println!("first operand is {}", regspec); /// show_register_class_info(regspec.class()); /// } /// /// if let Operand::Register(regspec) = instruction.operand(1) { /// #[cfg(feature="fmt")] /// println!("first operand is {}", regspec); /// show_register_class_info(regspec.class()); /// } /// ``` /// /// this is preferable to alternatives like checking register names against a known list: a /// register class is one byte and "is qword general-purpose" can then be a simple one-byte /// compare, instead of 16 string compares. /// /// `yaxpeax-x86` does not attempt to further distinguish between, for example, register /// suitability as operands. as an example, `cl` is only a byte register, with no additional /// register class to describe its use as an implicit shift operand. pub mod register_class { use super::{RegisterBank, RegisterClass}; /// quadword registers: rax through r15 pub const Q: RegisterClass = RegisterClass { kind: RegisterBank::Q }; /// doubleword registers: eax through r15d pub const D: RegisterClass = RegisterClass { kind: RegisterBank::D }; /// word registers: ax through r15w pub const W: RegisterClass = RegisterClass { kind: RegisterBank::W }; /// byte registers: al, cl, dl, bl, ah, ch, dh, bh. `B` registers do *not* have a rex prefix. pub const B: RegisterClass = RegisterClass { kind: RegisterBank::B }; /// byte registers with rex prefix present: al through r15b. `RB` registers have a rex prefix. pub const RB: RegisterClass = RegisterClass { kind: RegisterBank::rB }; /// control registers cr0 through cr15. pub const CR: RegisterClass = RegisterClass { kind: RegisterBank::CR}; /// debug registers dr0 through dr15. pub const DR: RegisterClass = RegisterClass { kind: RegisterBank::DR }; /// segment registers es, cs, ss, ds, fs, gs. pub const S: RegisterClass = RegisterClass { kind: RegisterBank::S }; /// xmm registers xmm0 through xmm31. pub const X: RegisterClass = RegisterClass { kind: RegisterBank::X }; /// ymm registers ymm0 through ymm31. pub const Y: RegisterClass = RegisterClass { kind: RegisterBank::Y }; /// zmm registers zmm0 through zmm31. pub const Z: RegisterClass = RegisterClass { kind: RegisterBank::Z }; /// x87 floating point stack entries st(0) through st(7). pub const ST: RegisterClass = RegisterClass { kind: RegisterBank::ST }; /// mmx registers mm0 through mm7. pub const MM: RegisterClass = RegisterClass { kind: RegisterBank::MM }; /// `avx512` mask registers k0 through k7. pub const K: RegisterClass = RegisterClass { kind: RegisterBank::K }; /// the full instruction pointer register. pub const RIP: RegisterClass = RegisterClass { kind: RegisterBank::RIP }; /// the low 32 bits of `rip`. pub const EIP: RegisterClass = RegisterClass { kind: RegisterBank::EIP }; /// the full cpu flags register. pub const RFLAGS: RegisterClass = RegisterClass { kind: RegisterBank::RFlags }; /// the low 32 bits of rflags. pub const EFLAGS: RegisterClass = RegisterClass { kind: RegisterBank::EFlags }; } impl RegisterClass { /// return a human-friendly name for this register class pub fn name(&self) -> &'static str { REGISTER_CLASS_NAMES[self.kind as usize] } /// return the size of this register class, in bytes pub fn width(&self) -> u8 { match self.kind { RegisterBank::Q => 8, RegisterBank::D => 4, RegisterBank::W => 2, RegisterBank::B | RegisterBank::rB => { 1 }, RegisterBank::CR | RegisterBank::DR => { 8 }, RegisterBank::S => { 2 }, RegisterBank::EIP => { 4 } RegisterBank::RIP => { 8 } RegisterBank::EFlags => { 4 } RegisterBank::RFlags => { 8 } RegisterBank::X => { 16 } RegisterBank::Y => { 32 } RegisterBank::Z => { 64 } RegisterBank::ST => { 10 } RegisterBank::MM => { 8 } RegisterBank::K => { 8 } } } } #[allow(non_camel_case_types)] #[cfg_attr(feature="use-serde", derive(Serialize, Deserialize))] #[derive(Copy, Clone, Debug, Ord, PartialOrd, Eq, PartialEq, Hash)] enum RegisterBank { Q = 0, D = 2, W = 4, B = 6, rB = 8, // Quadword, Dword, Word, Byte CR = 10, DR = 12, S = 14, EIP = 30, RIP = 31, EFlags = 32, RFlags = 33, // Control reg, Debug reg, Selector, ... X = 15, Y = 19, Z = 23, // XMM, YMM, ZMM ST = 27, MM = 28, // ST, MM regs (x87, mmx) K = 29, // AVX512 mask registers } /// the segment register used by the corresponding instruction. /// /// typically this will be `ds` but can be overridden. some instructions have specific segment /// registers used regardless of segment prefixes, and in these cases `yaxpeax-x86` will report the /// actual segment register a physical processor would use. #[derive(Copy, Clone, Debug, Eq, PartialEq, Hash)] pub enum Segment { DS = 0, CS, ES, FS, GS, SS } const BMI1: [Opcode; 6] = [ Opcode::ANDN, Opcode::BEXTR, Opcode::BLSI, Opcode::BLSMSK, Opcode::BLSR, Opcode::TZCNT, ]; const BMI2: [Opcode; 8] = [ Opcode::BZHI, Opcode::MULX, Opcode::PDEP, Opcode::PEXT, Opcode::RORX, Opcode::SARX, Opcode::SHRX, Opcode::SHLX, ]; #[allow(dead_code)] const XSAVE: [Opcode; 10] = [ Opcode::XGETBV, Opcode::XRSTOR, Opcode::XRSTORS, Opcode::XSAVE, Opcode::XSAVEC, Opcode::XSAVEC64, Opcode::XSAVEOPT, Opcode::XSAVES, Opcode::XSAVES64, Opcode::XSETBV, ]; /// an `x86_64` opcode. there sure are a lot of these. #[allow(non_camel_case_types)] #[derive(Copy, Clone, Debug, Eq, PartialEq)] #[non_exhaustive] #[repr(u32)] pub enum Opcode { Invalid, ADD, OR, ADC, SBB, AND, XOR, SUB, CMP, XADD, BT, BTS, BTC, BTR, BSF, BSR, TZCNT, MOVSS, ADDSS, SUBSS, MULSS, DIVSS, MINSS, MAXSS, SQRTSS, MOVSD, SQRTSD, ADDSD, SUBSD, MULSD, DIVSD, MINSD, MAXSD, MOVSLDUP, MOVSHDUP, MOVDDUP, HADDPS, HSUBPS, ADDSUBPD, ADDSUBPS, CVTSI2SS, CVTSI2SD, CVTTSD2SI, CVTTPS2DQ, CVTPD2DQ, CVTPD2PS, CVTPS2DQ, CVTSD2SI, CVTSD2SS, CVTTSS2SI, CVTSS2SI, CVTSS2SD, CVTDQ2PD, LDDQU, MOVZX, MOVSX, MOVSXD, SAR, SAL, SHR, SHRD, SHL, RCR, RCL, ROR, ROL, INC, DEC, HLT, CALL, CALLF, JMP, JMPF, PUSH, POP, LEA, NOP, PREFETCHNTA, PREFETCH0, PREFETCH1, PREFETCH2, XCHG, POPF, INT, INTO, IRET, IRETD, IRETQ, RETF, ENTER, LEAVE, MOV, RETURN, PUSHF, WAIT, CBW, CWDE, CDQE, CWD, CDQ, CQO, LODS, STOS, LAHF, SAHF, CMPS, SCAS, MOVS, TEST, INS, IN, OUTS, OUT, IMUL, JO, JNO, JB, JNB, JZ, JNZ, JA, JNA, JS, JNS, JP, JNP, JL, JGE, JLE, JG, CMOVA, CMOVB, CMOVG, CMOVGE, CMOVL, CMOVLE, CMOVNA, CMOVNB, CMOVNO, CMOVNP, CMOVNS, CMOVNZ, CMOVO, CMOVP, CMOVS, CMOVZ, DIV, IDIV, MUL, NEG, NOT, CMPXCHG, SETO, SETNO, SETB, SETAE, SETZ, SETNZ, SETBE, SETA, SETS, SETNS, SETP, SETNP, SETL, SETGE, SETLE, SETG, CPUID, UD0, UD1, UD2, WBINVD, INVD, SYSRET, CLTS, SYSCALL, LSL, LAR, SGDT, SIDT, LGDT, LIDT, SMSW, LMSW, SWAPGS, RDTSCP, INVLPG, FXSAVE, FXRSTOR, LDMXCSR, STMXCSR, XSAVE, XRSTOR, XSAVEOPT, LFENCE, MFENCE, SFENCE, CLFLUSH, CLFLUSHOPT, CLWB, WRMSR, RDTSC, RDMSR, RDPMC, SLDT, STR, LLDT, LTR, VERR, VERW, CMC, CLC, STC, CLI, STI, CLD, STD, JMPE, POPCNT, MOVDQU, MOVDQA, MOVQ, CMPSS, CMPSD, UNPCKLPS, UNPCKLPD, UNPCKHPS, UNPCKHPD, PSHUFHW, PSHUFLW, MOVUPS, MOVQ2DQ, MOVDQ2Q, RSQRTSS, RCPSS, ANDN, BEXTR, BLSI, BLSMSK, BLSR, VMCLEAR, VMXON, VMCALL, VMLAUNCH, VMRESUME, VMXOFF, PCONFIG, MONITOR, MWAIT, MONITORX, MWAITX, CLAC, STAC, ENCLS, ENCLV, XGETBV, XSETBV, VMFUNC, XABORT, XBEGIN, XEND, XTEST, ENCLU, RDPKRU, WRPKRU, RDPRU, CLZERO, RDSEED, RDRAND, ADDPS, ADDPD, ANDNPS, ANDNPD, ANDPS, ANDPD, BSWAP, CMPPD, CMPPS, COMISD, COMISS, CVTDQ2PS, CVTPI2PS, CVTPI2PD, CVTPS2PD, CVTPS2PI, CVTPD2PI, CVTTPS2PI, CVTTPD2PI, CVTTPD2DQ, DIVPS, DIVPD, EMMS, GETSEC, LFS, LGS, LSS, MASKMOVQ, MASKMOVDQU, MAXPS, MAXPD, MINPS, MINPD, MOVAPS, MOVAPD, MOVD, MOVLPS, MOVLPD, MOVHPS, MOVHPD, MOVLHPS, MOVHLPS, MOVUPD, MOVMSKPS, MOVMSKPD, MOVNTI, MOVNTPS, MOVNTPD, EXTRQ, INSERTQ, MOVNTSS, MOVNTSD, MOVNTQ, MOVNTDQ, MULPS, MULPD, ORPS, ORPD, PACKSSDW, PACKSSWB, PACKUSWB, PADDB, PADDD, PADDQ, PADDSB, PADDSW, PADDUSB, PADDUSW, PADDW, PAND, PANDN, PAVGB, PAVGW, PCMPEQB, PCMPEQD, PCMPEQW, PCMPGTB, PCMPGTD, PCMPGTW, PINSRW, PMADDWD, PMAXSW, PMAXUB, PMINSW, PMINUB, PMOVMSKB, PMULHUW, PMULHW, PMULLW, PMULUDQ, POR, PSADBW, PSHUFW, PSHUFD, PSLLD, PSLLDQ, PSLLQ, PSLLW, PSRAD, PSRAW, PSRLD, PSRLDQ, PSRLQ, PSRLW, PSUBB, PSUBD, PSUBQ, PSUBSB, PSUBSW, PSUBUSB, PSUBUSW, PSUBW, PUNPCKHBW, PUNPCKHDQ, PUNPCKHWD, PUNPCKLBW, PUNPCKLDQ, PUNPCKLWD, PUNPCKLQDQ, PUNPCKHQDQ, PXOR, RCPPS, RSM, RSQRTPS, SHLD, SHUFPD, SHUFPS, SLHD, SQRTPS, SQRTPD, SUBPS, SUBPD, SYSENTER, SYSEXIT, UCOMISD, UCOMISS, VMREAD, VMWRITE, XORPS, XORPD, VMOVDDUP, VPSHUFLW, VPSHUFHW, VHADDPS, VHSUBPS, VADDSUBPS, VCVTPD2DQ, VLDDQU, VCOMISD, VCOMISS, VUCOMISD, VUCOMISS, VADDPD, VADDPS, VADDSD, VADDSS, VADDSUBPD, VAESDEC, VAESDECLAST, VAESENC, VAESENCLAST, VAESIMC, VAESKEYGENASSIST, VBLENDPD, VBLENDPS, VBLENDVPD, VBLENDVPS, VBROADCASTF128, VBROADCASTI128, VBROADCASTSD, VBROADCASTSS, VCMPSD, VCMPSS, VCMPPD, VCMPPS, VCVTDQ2PD, VCVTDQ2PS, VCVTPD2PS, VCVTPH2PS, VCVTPS2DQ, VCVTPS2PD, VCVTSS2SD, VCVTSI2SS, VCVTSI2SD, VCVTSD2SI, VCVTSD2SS, VCVTPS2PH, VCVTSS2SI, VCVTTPD2DQ, VCVTTPS2DQ, VCVTTSS2SI, VCVTTSD2SI, VDIVPD, VDIVPS, VDIVSD, VDIVSS, VDPPD, VDPPS, VEXTRACTF128, VEXTRACTI128, VEXTRACTPS, VFMADD132PD, VFMADD132PS, VFMADD132SD, VFMADD132SS, VFMADD213PD, VFMADD213PS, VFMADD213SD, VFMADD213SS, VFMADD231PD, VFMADD231PS, VFMADD231SD, VFMADD231SS, VFMADDSUB132PD, VFMADDSUB132PS, VFMADDSUB213PD, VFMADDSUB213PS, VFMADDSUB231PD, VFMADDSUB231PS, VFMSUB132PD, VFMSUB132PS, VFMSUB132SD, VFMSUB132SS, VFMSUB213PD, VFMSUB213PS, VFMSUB213SD, VFMSUB213SS, VFMSUB231PD, VFMSUB231PS, VFMSUB231SD, VFMSUB231SS, VFMSUBADD132PD, VFMSUBADD132PS, VFMSUBADD213PD, VFMSUBADD213PS, VFMSUBADD231PD, VFMSUBADD231PS, VFNMADD132PD, VFNMADD132PS, VFNMADD132SD, VFNMADD132SS, VFNMADD213PD, VFNMADD213PS, VFNMADD213SD, VFNMADD213SS, VFNMADD231PD, VFNMADD231PS, VFNMADD231SD, VFNMADD231SS, VFNMSUB132PD, VFNMSUB132PS, VFNMSUB132SD, VFNMSUB132SS, VFNMSUB213PD, VFNMSUB213PS, VFNMSUB213SD, VFNMSUB213SS, VFNMSUB231PD, VFNMSUB231PS, VFNMSUB231SD, VFNMSUB231SS, VGATHERDPD, VGATHERDPS, VGATHERQPD, VGATHERQPS, VHADDPD, VHSUBPD, VINSERTF128, VINSERTI128, VINSERTPS, VMASKMOVDQU, VMASKMOVPD, VMASKMOVPS, VMAXPD, VMAXPS, VMAXSD, VMAXSS, VMINPD, VMINPS, VMINSD, VMINSS, VMOVAPD, VMOVAPS, VMOVD, VMOVDQA, VMOVDQU, VMOVHLPS, VMOVHPD, VMOVHPS, VMOVLHPS, VMOVLPD, VMOVLPS, VMOVMSKPD, VMOVMSKPS, VMOVNTDQ, VMOVNTDQA, VMOVNTPD, VMOVNTPS, VMOVQ, VMOVSS, VMOVSD, VMOVSHDUP, VMOVSLDUP, VMOVUPD, VMOVUPS, VMPSADBW, VMULPD, VMULPS, VMULSD, VMULSS, VPABSB, VPABSD, VPABSW, VPACKSSDW, VPACKUSDW, VPACKSSWB, VPACKUSWB, VPADDB, VPADDD, VPADDQ, VPADDSB, VPADDSW, VPADDUSB, VPADDUSW, VPADDW, VPALIGNR, VANDPD, VANDPS, VORPD, VORPS, VANDNPD, VANDNPS, VPAND, VPANDN, VPAVGB, VPAVGW, VPBLENDD, VPBLENDVB, VPBLENDW, VPBROADCASTB, VPBROADCASTD, VPBROADCASTQ, VPBROADCASTW, VPCLMULQDQ, VPCMPEQB, VPCMPEQD, VPCMPEQQ, VPCMPEQW, VPCMPGTB, VPCMPGTD, VPCMPGTQ, VPCMPGTW, VPCMPESTRI, VPCMPESTRM, VPCMPISTRI, VPCMPISTRM, VPERM2F128, VPERM2I128, VPERMD, VPERMILPD, VPERMILPS, VPERMPD, VPERMPS, VPERMQ, VPEXTRB, VPEXTRD, VPEXTRQ, VPEXTRW, VPGATHERDD, VPGATHERDQ, VPGATHERQD, VPGATHERQQ, VPHADDD, VPHADDSW, VPHADDW, VPMADDUBSW, VPHMINPOSUW, VPHSUBD, VPHSUBSW, VPHSUBW, VPINSRB, VPINSRD, VPINSRQ, VPINSRW, VPMADDWD, VPMASKMOVD, VPMASKMOVQ, VPMAXSB, VPMAXSD, VPMAXSW, VPMAXUB, VPMAXUW, VPMAXUD, VPMINSB, VPMINSW, VPMINSD, VPMINUB, VPMINUW, VPMINUD, VPMOVMSKB, VPMOVSXBD, VPMOVSXBQ, VPMOVSXBW, VPMOVSXDQ, VPMOVSXWD, VPMOVSXWQ, VPMOVZXBD, VPMOVZXBQ, VPMOVZXBW, VPMOVZXDQ, VPMOVZXWD, VPMOVZXWQ, VPMULDQ, VPMULHRSW, VPMULHUW, VPMULHW, VPMULLQ, VPMULLD, VPMULLW, VPMULUDQ, VPOR, VPSADBW, VPSHUFB, VPSHUFD, VPSIGNB, VPSIGND, VPSIGNW, VPSLLD, VPSLLDQ, VPSLLQ, VPSLLVD, VPSLLVQ, VPSLLW, VPSRAD, VPSRAVD, VPSRAW, VPSRLD, VPSRLDQ, VPSRLQ, VPSRLVD, VPSRLVQ, VPSRLW, VPSUBB, VPSUBD, VPSUBQ, VPSUBSB, VPSUBSW, VPSUBUSB, VPSUBUSW, VPSUBW, VPTEST, VPUNPCKHBW, VPUNPCKHDQ, VPUNPCKHQDQ, VPUNPCKHWD, VPUNPCKLBW, VPUNPCKLDQ, VPUNPCKLQDQ, VPUNPCKLWD, VPXOR, VRCPPS, VROUNDPD, VROUNDPS, VROUNDSD, VROUNDSS, VRSQRTPS, VRSQRTSS, VRCPSS, VSHUFPD, VSHUFPS, VSQRTPD, VSQRTPS, VSQRTSS, VSQRTSD, VSUBPD, VSUBPS, VSUBSD, VSUBSS, VTESTPD, VTESTPS, VUNPCKHPD, VUNPCKHPS, VUNPCKLPD, VUNPCKLPS, VXORPD, VXORPS, VZEROUPPER, VZEROALL, VLDMXCSR, VSTMXCSR, PCLMULQDQ, AESKEYGENASSIST, AESIMC, AESENC, AESENCLAST, AESDEC, AESDECLAST, PCMPGTQ, PCMPISTRM, PCMPISTRI, PCMPESTRI, PACKUSDW, PCMPESTRM, PCMPEQQ, PTEST, PHMINPOSUW, DPPS, DPPD, MPSADBW, PMOVZXDQ, PMOVSXDQ, PMOVZXBD, PMOVSXBD, PMOVZXWQ, PMOVSXWQ, PMOVZXBQ, PMOVSXBQ, PMOVSXWD, PMOVZXWD, PEXTRQ, PEXTRD, PEXTRW, PEXTRB, PMOVSXBW, PMOVZXBW, PINSRQ, PINSRD, PINSRB, EXTRACTPS, INSERTPS, ROUNDSS, ROUNDSD, ROUNDPS, ROUNDPD, PMAXSB, PMAXSD, PMAXUW, PMAXUD, PMINSD, PMINSB, PMINUD, PMINUW, BLENDW, PBLENDVB, PBLENDW, BLENDVPS, BLENDVPD, BLENDPS, BLENDPD, PMULDQ, MOVNTDQA, PMULLD, PALIGNR, PSIGNW, PSIGND, PSIGNB, PSHUFB, PMULHRSW, PMADDUBSW, PABSD, PABSW, PABSB, PHSUBSW, PHSUBW, PHSUBD, PHADDD, PHADDSW, PHADDW, HSUBPD, HADDPD, SHA1RNDS4, SHA1NEXTE, SHA1MSG1, SHA1MSG2, SHA256RNDS2, SHA256MSG1, SHA256MSG2, LZCNT, CLGI, STGI, SKINIT, VMLOAD, VMMCALL, VMSAVE, VMRUN, INVLPGA, INVLPGB, TLBSYNC, MOVBE, ADCX, ADOX, PREFETCHW, RDPID, CMPXCHG8B, CMPXCHG16B, VMPTRLD, VMPTRST, BZHI, MULX, SHLX, SHRX, SARX, PDEP, PEXT, RORX, XRSTORS, XRSTORS64, XSAVEC, XSAVEC64, XSAVES, XSAVES64, RDFSBASE, RDGSBASE, WRFSBASE, WRGSBASE, CRC32, SALC, XLAT, F2XM1, FABS, FADD, FADDP, FBLD, FBSTP, FCHS, FCMOVB, FCMOVBE, FCMOVE, FCMOVNB, FCMOVNBE, FCMOVNE, FCMOVNU, FCMOVU, FCOM, FCOMI, FCOMIP, FCOMP, FCOMPP, FCOS, FDECSTP, FDISI8087_NOP, FDIV, FDIVP, FDIVR, FDIVRP, FENI8087_NOP, FFREE, FFREEP, FIADD, FICOM, FICOMP, FIDIV, FIDIVR, FILD, FIMUL, FINCSTP, FIST, FISTP, FISTTP, FISUB, FISUBR, FLD, FLD1, FLDCW, FLDENV, FLDL2E, FLDL2T, FLDLG2, FLDLN2, FLDPI, FLDZ, FMUL, FMULP, FNCLEX, FNINIT, FNOP, FNSAVE, FNSTCW, FNSTENV, FNSTOR, FNSTSW, FPATAN, FPREM, FPREM1, FPTAN, FRNDINT, FRSTOR, FSCALE, FSETPM287_NOP, FSIN, FSINCOS, FSQRT, FST, FSTP, FSTPNCE, FSUB, FSUBP, FSUBR, FSUBRP, FTST, FUCOM, FUCOMI, FUCOMIP, FUCOMP, FUCOMPP, FXAM, FXCH, FXTRACT, FYL2X, FYL2XP1, LOOPNZ, LOOPZ, LOOP, JRCXZ, // started shipping in Tremont, 2020 sept 23 MOVDIR64B, MOVDIRI, // started shipping in Tiger Lake, 2020 sept 2 AESDEC128KL, AESDEC256KL, AESDECWIDE128KL, AESDECWIDE256KL, AESENC128KL, AESENC256KL, AESENCWIDE128KL, AESENCWIDE256KL, ENCODEKEY128, ENCODEKEY256, LOADIWKEY, // unsure HRESET, // 3dnow FEMMS, PI2FW, PI2FD, PF2IW, PF2ID, PMULHRW, PFCMPGE, PFMIN, PFRCP, PFRSQRT, PFSUB, PFADD, PFCMPGT, PFMAX, PFRCPIT1, PFRSQIT1, PFSUBR, PFACC, PFCMPEQ, PFMUL, PFMULHRW, PFRCPIT2, PFNACC, PFPNACC, PSWAPD, PAVGUSB, // ENQCMD ENQCMD, ENQCMDS, // INVPCID INVEPT, INVVPID, INVPCID, // PTWRITE PTWRITE, // GFNI GF2P8AFFINEQB, GF2P8AFFINEINVQB, GF2P8MULB, // CET WRUSS, WRSS, INCSSP, SAVEPREVSSP, SETSSBSY, CLRSSBSY, RSTORSSP, ENDBR64, ENDBR32, // TDX TDCALL, SEAMRET, SEAMOPS, SEAMCALL, // WAITPKG TPAUSE, UMONITOR, UMWAIT, // UINTR UIRET, TESTUI, CLUI, STUI, SENDUIPI, // TSXLDTRK XSUSLDTRK, XRESLDTRK, // AVX512F VALIGND, VALIGNQ, VBLENDMPD, VBLENDMPS, VCOMPRESSPD, VCOMPRESSPS, VCVTPD2UDQ, VCVTTPD2UDQ, VCVTPS2UDQ, VCVTTPS2UDQ, VCVTQQ2PD, VCVTQQ2PS, VCVTSD2USI, VCVTTSD2USI, VCVTSS2USI, VCVTTSS2USI, VCVTUDQ2PD, VCVTUDQ2PS, VCVTUSI2USD, VCVTUSI2USS, VEXPANDPD, VEXPANDPS, VEXTRACTF32X4, VEXTRACTF64X4, VEXTRACTI32X4, VEXTRACTI64X4, VFIXUPIMMPD, VFIXUPIMMPS, VFIXUPIMMSD, VFIXUPIMMSS, VGETEXPPD, VGETEXPPS, VGETEXPSD, VGETEXPSS, VGETMANTPD, VGETMANTPS, VGETMANTSD, VGETMANTSS, VINSERTF32X4, VINSERTF64X4, VINSERTI64X4, VMOVDQA32, VMOVDQA64, VMOVDQU32, VMOVDQU64, VPBLENDMD, VPBLENDMQ, VPCMPD, VPCMPUD, VPCMPQ, VPCMPUQ, VPCOMPRESSQ, VPCOMPRESSD, VPERMI2D, VPERMI2Q, VPERMI2PD, VPERMI2PS, VPERMT2D, VPERMT2Q, VPERMT2PD, VPERMT2PS, VPMAXSQ, VPMAXUQ, VPMINSQ, VPMINUQ, VPMOVSQB, VPMOVUSQB, VPMOVSQW, VPMOVUSQW, VPMOVSQD, VPMOVUSQD, VPMOVSDB, VPMOVUSDB, VPMOVSDW, VPMOVUSDW, VPROLD, VPROLQ, VPROLVD, VPROLVQ, VPRORD, VPRORQ, VPRORRD, VPRORRQ, VPSCATTERDD, VPSCATTERDQ, VPSCATTERQD, VPSCATTERQQ, VPSRAQ, VPSRAVQ, VPTESTNMD, VPTESTNMQ, VPTERNLOGD, VPTERNLOGQ, VPTESTMD, VPTESTMQ, VRCP14PD, VRCP14PS, VRCP14SD, VRCP14SS, VRNDSCALEPD, VRNDSCALEPS, VRNDSCALESD, VRNDSCALESS, VRSQRT14PD, VRSQRT14PS, VRSQRT14SD, VRSQRT14SS, VSCALEDPD, VSCALEDPS, VSCALEDSD, VSCALEDSS, VSCATTERDD, VSCATTERDQ, VSCATTERQD, VSCATTERQQ, VSHUFF32X4, VSHUFF64X2, VSHUFI32X4, VSHUFI64X2, // AVX512DQ VCVTTPD2QQ, VCVTPD2QQ, VCVTTPD2UQQ, VCVTPD2UQQ, VCVTTPS2QQ, VCVTPS2QQ, VCVTTPS2UQQ, VCVTPS2UQQ, VCVTUQQ2PD, VCVTUQQ2PS, VEXTRACTF64X2, VEXTRACTI64X2, VFPCLASSPD, VFPCLASSPS, VFPCLASSSD, VFPCLASSSS, VINSERTF64X2, VINSERTI64X2, VPMOVM2D, VPMOVM2Q, VPMOVB2D, VPMOVQ2M, VRANGEPD, VRANGEPS, VRANGESD, VRANGESS, VREDUCEPD, VREDUCEPS, VREDUCESD, VREDUCESS, // AVX512BW VDBPSADBW, VMOVDQU8, VMOVDQU16, VPBLENDMB, VPBLENDMW, VPCMPB, VPCMPUB, VPCMPW, VPCMPUW, VPERMW, VPERMI2B, VPERMI2W, VPMOVM2B, VPMOVM2W, VPMOVB2M, VPMOVW2M, VPMOVSWB, VPMOVUSWB, VPSLLVW, VPSRAVW, VPSRLVW, VPTESTNMB, VPTESTNMW, VPTESTMB, VPTESTMW, // AVX512CD VPBROADCASTM, VPCONFLICTD, VPCONFLICTQ, VPLZCNTD, VPLZCNTQ, KUNPCKBW, KUNPCKWD, KUNPCKDQ, KADDB, KANDB, KANDNB, KMOVB, KNOTB, KORB, KORTESTB, KSHIFTLB, KSHIFTRB, KTESTB, KXNORB, KXORB, KADDW, KANDW, KANDNW, KMOVW, KNOTW, KORW, KORTESTW, KSHIFTLW, KSHIFTRW, KTESTW, KXNORW, KXORW, KADDD, KANDD, KANDND, KMOVD, KNOTD, KORD, KORTESTD, KSHIFTLD, KSHIFTRD, KTESTD, KXNORD, KXORD, KADDQ, KANDQ, KANDNQ, KMOVQ, KNOTQ, KORQ, KORTESTQ, KSHIFTLQ, KSHIFTRQ, KTESTQ, KXNORQ, KXORQ, // AVX512ER VEXP2PD, VEXP2PS, VEXP2SD, VEXP2SS, VRCP28PD, VRCP28PS, VRCP28SD, VRCP28SS, VRSQRT28PD, VRSQRT28PS, VRSQRT28SD, VRSQRT28SS, // AVX512PF VGATHERPF0DPD, VGATHERPF0DPS, VGATHERPF0QPD, VGATHERPF0QPS, VGATHERPF1DPD, VGATHERPF1DPS, VGATHERPF1QPD, VGATHERPF1QPS, VSCATTERPF0DPD, VSCATTERPF0DPS, VSCATTERPF0QPD, VSCATTERPF0QPS, VSCATTERPF1DPD, VSCATTERPF1DPS, VSCATTERPF1QPD, VSCATTERPF1QPS, // MPX BNDMK, BNDCL, BNDCU, BNDCN, BNDMOV, BNDLDX, BNDSTX, VGF2P8AFFINEQB, VGF2P8AFFINEINVQB, VPSHRDQ, VPSHRDD, VPSHRDW, VPSHLDQ, VPSHLDD, VPSHLDW, VBROADCASTF32X8, VBROADCASTF64X4, VBROADCASTF32X4, VBROADCASTF64X2, VBROADCASTF32X2, VBROADCASTI32X8, VBROADCASTI64X4, VBROADCASTI32X4, VBROADCASTI64X2, VBROADCASTI32X2, VEXTRACTI32X8, VEXTRACTF32X8, VINSERTI32X8, VINSERTF32X8, VINSERTI32X4, V4FNMADDSS, V4FNMADDPS, VCVTNEPS2BF16, V4FMADDSS, V4FMADDPS, VCVTNE2PS2BF16, VP2INTERSECTD, VP2INTERSECTQ, VP4DPWSSDS, VP4DPWSSD, VPDPWSSDS, VPDPWSSD, VPDPBUSDS, VDPBF16PS, VPBROADCASTMW2D, VPBROADCASTMB2Q, VPMOVD2M, VPMOVQD, VPMOVWB, VPMOVDB, VPMOVDW, VPMOVQB, VPMOVQW, VGF2P8MULB, VPMADD52HUQ, VPMADD52LUQ, VPSHUFBITQMB, VPERMB, VPEXPANDD, VPEXPANDQ, VPABSQ, VPRORVD, VPRORVQ, VPMULTISHIFTQB, VPERMT2B, VPERMT2W, VPSHRDVQ, VPSHRDVD, VPSHRDVW, VPSHLDVQ, VPSHLDVD, VPSHLDVW, VPCOMPRESSB, VPCOMPRESSW, VPEXPANDB, VPEXPANDW, VPOPCNTD, VPOPCNTQ, VPOPCNTB, VPOPCNTW, VSCALEFSS, VSCALEFSD, VSCALEFPS, VSCALEFPD, VPDPBUSD, VCVTUSI2SD, VCVTUSI2SS, VPXORD, VPXORQ, VPORD, VPORQ, VPANDND, VPANDNQ, VPANDD, VPANDQ, PSMASH, PVALIDATE, RMPADJUST, RMPUPDATE, } impl PartialEq for Instruction { fn eq(&self, other: &Self) -> bool { if self.prefixes != other.prefixes { return false; } if self.opcode != other.opcode { return false; } if self.operand_count != other.operand_count { return false; } if self.mem_size != other.mem_size { return false; } for i in 0..self.operand_count { if self.operands[i as usize] != other.operands[i as usize] { return false; } if self.operand(i) != other.operand(i) { return false; } } true } } /// an `x86_64` instruction. /// /// typically an opcode will be inspected by [`Instruction::opcode()`], and an instruction has /// [`Instruction::operand_count()`] many operands. operands are provided by /// [`Instruction::operand()`]. #[derive(Debug, Clone, Copy, Eq)] pub struct Instruction { pub prefixes: Prefixes, /* modrm_rrr: RegSpec, modrm_mmm: RegSpec, // doubles as sib_base sib_index: RegSpec, vex_reg: RegSpec, */ regs: [RegSpec; 4], scale: u8, length: u8, operand_count: u8, operands: [OperandSpec; 4], imm: u64, disp: u64, opcode: Opcode, mem_size: u8, } impl yaxpeax_arch::Instruction for Instruction { fn well_defined(&self) -> bool { // TODO: this is incorrect! true } } #[derive(Debug, PartialEq, Eq, Copy, Clone)] #[non_exhaustive] pub enum DecodeError { ExhaustedInput, InvalidOpcode, InvalidOperand, InvalidPrefixes, TooLong, IncompleteDecoder, } impl yaxpeax_arch::DecodeError for DecodeError { fn data_exhausted(&self) -> bool { self == &DecodeError::ExhaustedInput } fn bad_opcode(&self) -> bool { self == &DecodeError::InvalidOpcode } fn bad_operand(&self) -> bool { self == &DecodeError::InvalidOperand } fn description(&self) -> &'static str { match self { DecodeError::ExhaustedInput => { "exhausted input" }, DecodeError::InvalidOpcode => { "invalid opcode" }, DecodeError::InvalidOperand => { "invalid operand" }, DecodeError::InvalidPrefixes => { "invalid prefixes" }, DecodeError::TooLong => { "too long" }, DecodeError::IncompleteDecoder => { "the decoder is incomplete" }, } } } #[cfg(feature = "std")] extern crate std; #[cfg(feature = "std")] impl std::error::Error for DecodeError { fn description(&self) -> &str { ::description(self) } } #[allow(non_camel_case_types)] #[derive(Debug, Copy, Clone, Eq, PartialEq)] enum OperandSpec { Nothing, // the register in regs[0] RegRRR, // the register in regs[0] and is EVEX-encoded (may have a mask register, is merged or // zeroed) RegRRR_maskmerge, // the register in regs[0] and is EVEX-encoded (may have a mask register, is merged or // zeroed). additionally, this instruction has exceptions suppressed with a potentially // custom rounding mode. RegRRR_maskmerge_sae, // the register in regs[0] and is EVEX-encoded (may have a mask register, is merged or // zeroed). additionally, this instruction has exceptions suppressed. RegRRR_maskmerge_sae_noround, // the register in modrm_mmm (eg modrm mod bits were 11) RegMMM, // same as `RegRRR`: the register is modrm's `mmm` bits, and may be masked. RegMMM_maskmerge, RegMMM_maskmerge_sae_noround, // the register selected by vex-vvvv bits RegVex, RegVex_maskmerge, // the register selected by a handful of avx2 vex-coded instructions, // stuffed in imm4. Reg4, ImmI8, ImmI16, ImmI32, ImmI64, ImmU8, ImmU16, // ENTER is a two-immediate instruction, where the first immediate is stored in the disp field. // for this case, a second immediate-style operand is needed. // turns out `insertq` and `extrq` are also two-immediate instructions, so this is generalized // to cover them too. ImmInDispField, DispU32, DispU64, Deref, Deref_esi, Deref_edi, Deref_rsi, Deref_rdi, RegDisp, RegScale, RegScaleDisp, RegIndexBaseScale, RegIndexBaseScaleDisp, Deref_mask, RegDisp_mask, RegScale_mask, RegScaleDisp_mask, RegIndexBaseScale_mask, RegIndexBaseScaleDisp_mask, } // the Hash, Eq, and PartialEq impls here are possibly misleading. // They exist because downstream some structs are spelled like // Foo for T == x86_64. This is only to access associated types // which themselves are bounded, but their #[derive] require T to // implement these traits. /// a trivial struct for `yaxpeax_arch::Arch` to be implemented on. it's only interesting for the /// associated type parameters. #[cfg_attr(feature="use-serde", derive(Serialize, Deserialize))] #[derive(Hash, Eq, PartialEq, Debug, Copy, Clone)] #[allow(non_camel_case_types)] pub struct Arch; impl yaxpeax_arch::Arch for Arch { type Address = u64; type Word = u8; type Instruction = Instruction; type DecodeError = DecodeError; type Decoder = InstDecoder; type Operand = Operand; } impl LengthedInstruction for Instruction { type Unit = AddressDiff; #[inline] fn len(&self) -> Self::Unit { AddressDiff::from_const(self.length.into()) } #[inline] fn min_size() -> Self::Unit { AddressDiff::from_const(1) } } /// an `x86_64` instruction decoder. /// /// fundamentally this is one or two primitives with no additional state kept during decoding. it /// can be copied cheaply, hashed cheaply, compared cheaply. if you really want to share an /// `InstDecoder` between threads, you could - but you might want to clone it instead. /// /// unless you're using an `Arc>`, which is _fine_ but i'd be very curious about /// the design requiring that. #[derive(PartialEq, Copy, Clone, Eq, Hash, PartialOrd, Ord)] pub struct InstDecoder { // extensions tracked here: // 0. SSE3 // 1. SSSE3 // 2. monitor (intel-only?) // 3. vmx (some atom chips still lack it) // 4. fma3 (intel haswell/broadwell+, amd piledriver+) // 5. cmpxchg16b (some amd are missing this one) // 6. sse4.1 // 7. sse4.2 // 8. movbe // 9. popcnt (independent of BMI) // 10. aesni // 11. xsave (xsave, xrestor, xsetbv, xgetbv) // 12. rdrand (intel ivybridge+, amd ..??) // 13. sgx (eadd, eblock, ecreate, edbgrd, edbgwr, einit, eldb, eldu, epa, eremove, etrace, // ewb, eenter, eexit, egetkey, ereport, eresume) // 14. bmi1 (intel haswell+, amd jaguar+) // 15. avx2 (intel haswell+, amd excavator+) // 16. bmi2 (intel ?, amd ?) // 17. invpcid // 18. mpx // 19. avx512_f // 20. avx512_dq // 21. rdseed // 22. adx // 23. avx512_fma // 24. pcommit // 25. clflushopt // 26. clwb // 27. avx512_pf // 28. avx512_er // 29. avx512_cd // 30. sha // 31. avx512_bw // 32. avx512_vl // 33. prefetchwt1 // 34. avx512_vbmi // 35. avx512_vbmi2 // 36. gfni (galois field instructions) // 37. vaes // 38. pclmulqdq // 39. avx_vnni // 40. avx512_bitalg // 41. avx512_vpopcntdq // 42. avx512_4vnniw // 43. avx512_4fmaps // 44. cx8 // cmpxchg8 - is this actually optional in x86_64? // 45. syscall // syscall/sysret - actually optional in x86_64? // 46. rdtscp // actually optional in x86_64? // 47. abm (lzcnt, popcnt) // 48. sse4a // 49. 3dnowprefetch // actually optional? // 50. xop // 51. skinit // 52. tbm // 53. intel quirks // 54. amd quirks // 55. avx (intel ?, amd ?) // 56. amd-v/svm // 57. lahfsahf // 58. cmov // 59. f16c // 60. fma4 // 61. prefetchw // 62. tsx // 63. lzcnt flags: u64, } impl InstDecoder { /// instantiates an x86_64 decoder that decodes the bare minimum of x86_64. /// /// pedantic and only decodes what the spec says is well-defined, rejecting undefined sequences /// and any instructions defined by extensions. pub fn minimal() -> Self { InstDecoder { flags: 0, } } /// helper to decode an instruction directly from a byte slice. /// /// this lets callers avoid the work of setting up a [`yaxpeax_arch::U8Reader`] for the slice /// to decode. pub fn decode_slice(&self, data: &[u8]) -> Result { let mut reader = yaxpeax_arch::U8Reader::new(data); self.decode(&mut reader) } pub fn sse3(&self) -> bool { self.flags & (1 << 0) != 0 } pub fn with_sse3(mut self) -> Self { self.flags |= 1 << 0; self } pub fn ssse3(&self) -> bool { self.flags & (1 << 1) != 0 } pub fn with_ssse3(mut self) -> Self { self.flags |= 1 << 1; self } pub fn monitor(&self) -> bool { self.flags & (1 << 2) != 0 } pub fn with_monitor(mut self) -> Self { self.flags |= 1 << 2; self } pub fn vmx(&self) -> bool { self.flags & (1 << 3) != 0 } pub fn with_vmx(mut self) -> Self { self.flags |= 1 << 3; self } pub fn fma3(&self) -> bool { self.flags & (1 << 4) != 0 } pub fn with_fma3(mut self) -> Self { self.flags |= 1 << 4; self } pub fn cmpxchg16b(&self) -> bool { self.flags & (1 << 5) != 0 } pub fn with_cmpxchg16b(mut self) -> Self { self.flags |= 1 << 5; self } pub fn sse4_1(&self) -> bool { self.flags & (1 << 6) != 0 } pub fn with_sse4_1(mut self) -> Self { self.flags |= 1 << 6; self } pub fn sse4_2(&self) -> bool { self.flags & (1 << 7) != 0 } pub fn with_sse4_2(mut self) -> Self { self.flags |= 1 << 7; self } pub fn with_sse4(self) -> Self { self .with_sse4_1() .with_sse4_2() } pub fn movbe(&self) -> bool { self.flags & (1 << 8) != 0 } pub fn with_movbe(mut self) -> Self { self.flags |= 1 << 8; self } pub fn popcnt(&self) -> bool { self.flags & (1 << 9) != 0 } pub fn with_popcnt(mut self) -> Self { self.flags |= 1 << 9; self } pub fn aesni(&self) -> bool { self.flags & (1 << 10) != 0 } pub fn with_aesni(mut self) -> Self { self.flags |= 1 << 10; self } pub fn xsave(&self) -> bool { self.flags & (1 << 11) != 0 } pub fn with_xsave(mut self) -> Self { self.flags |= 1 << 11; self } pub fn rdrand(&self) -> bool { self.flags & (1 << 12) != 0 } pub fn with_rdrand(mut self) -> Self { self.flags |= 1 << 12; self } pub fn sgx(&self) -> bool { self.flags & (1 << 13) != 0 } pub fn with_sgx(mut self) -> Self { self.flags |= 1 << 13; self } pub fn bmi1(&self) -> bool { self.flags & (1 << 14) != 0 } pub fn with_bmi1(mut self) -> Self { self.flags |= 1 << 14; self } pub fn avx2(&self) -> bool { self.flags & (1 << 15) != 0 } pub fn with_avx2(mut self) -> Self { self.flags |= 1 << 15; self } /// `bmi2` indicates support for the `BZHI`, `MULX`, `PDEP`, `PEXT`, `RORX`, `SARX`, `SHRX`, /// and `SHLX` instructions. `bmi2` is implemented in all x86_64 chips that implement `bmi`, /// except the amd `piledriver` and `steamroller` microarchitectures. pub fn bmi2(&self) -> bool { self.flags & (1 << 16) != 0 } pub fn with_bmi2(mut self) -> Self { self.flags |= 1 << 16; self } pub fn invpcid(&self) -> bool { self.flags & (1 << 17) != 0 } pub fn with_invpcid(mut self) -> Self { self.flags |= 1 << 17; self } pub fn mpx(&self) -> bool { self.flags & (1 << 18) != 0 } pub fn with_mpx(mut self) -> Self { self.flags |= 1 << 18; self } pub fn avx512_f(&self) -> bool { self.flags & (1 << 19) != 0 } pub fn with_avx512_f(mut self) -> Self { self.flags |= 1 << 19; self } pub fn avx512_dq(&self) -> bool { self.flags & (1 << 20) != 0 } pub fn with_avx512_dq(mut self) -> Self { self.flags |= 1 << 20; self } pub fn rdseed(&self) -> bool { self.flags & (1 << 21) != 0 } pub fn with_rdseed(mut self) -> Self { self.flags |= 1 << 21; self } pub fn adx(&self) -> bool { self.flags & (1 << 22) != 0 } pub fn with_adx(mut self) -> Self { self.flags |= 1 << 22; self } pub fn avx512_fma(&self) -> bool { self.flags & (1 << 23) != 0 } pub fn with_avx512_fma(mut self) -> Self { self.flags |= 1 << 23; self } pub fn pcommit(&self) -> bool { self.flags & (1 << 24) != 0 } pub fn with_pcommit(mut self) -> Self { self.flags |= 1 << 24; self } pub fn clflushopt(&self) -> bool { self.flags & (1 << 25) != 0 } pub fn with_clflushopt(mut self) -> Self { self.flags |= 1 << 25; self } pub fn clwb(&self) -> bool { self.flags & (1 << 26) != 0 } pub fn with_clwb(mut self) -> Self { self.flags |= 1 << 26; self } pub fn avx512_pf(&self) -> bool { self.flags & (1 << 27) != 0 } pub fn with_avx512_pf(mut self) -> Self { self.flags |= 1 << 27; self } pub fn avx512_er(&self) -> bool { self.flags & (1 << 28) != 0 } pub fn with_avx512_er(mut self) -> Self { self.flags |= 1 << 28; self } pub fn avx512_cd(&self) -> bool { self.flags & (1 << 29) != 0 } pub fn with_avx512_cd(mut self) -> Self { self.flags |= 1 << 29; self } pub fn sha(&self) -> bool { self.flags & (1 << 30) != 0 } pub fn with_sha(mut self) -> Self { self.flags |= 1 << 30; self } pub fn avx512_bw(&self) -> bool { self.flags & (1 << 31) != 0 } pub fn with_avx512_bw(mut self) -> Self { self.flags |= 1 << 31; self } pub fn avx512_vl(&self) -> bool { self.flags & (1 << 32) != 0 } pub fn with_avx512_vl(mut self) -> Self { self.flags |= 1 << 32; self } pub fn prefetchwt1(&self) -> bool { self.flags & (1 << 33) != 0 } pub fn with_prefetchwt1(mut self) -> Self { self.flags |= 1 << 33; self } pub fn avx512_vbmi(&self) -> bool { self.flags & (1 << 34) != 0 } pub fn with_avx512_vbmi(mut self) -> Self { self.flags |= 1 << 34; self } pub fn avx512_vbmi2(&self) -> bool { self.flags & (1 << 35) != 0 } pub fn with_avx512_vbmi2(mut self) -> Self { self.flags |= 1 << 35; self } pub fn gfni(&self) -> bool { self.flags & (1 << 36) != 0 } pub fn with_gfni(mut self) -> Self { self.flags |= 1 << 36; self } pub fn vaes(&self) -> bool { self.flags & (1 << 37) != 0 } pub fn with_vaes(mut self) -> Self { self.flags |= 1 << 37; self } pub fn pclmulqdq(&self) -> bool { self.flags & (1 << 38) != 0 } pub fn with_pclmulqdq(mut self) -> Self { self.flags |= 1 << 38; self } pub fn avx_vnni(&self) -> bool { self.flags & (1 << 39) != 0 } pub fn with_avx_vnni(mut self) -> Self { self.flags |= 1 << 39; self } pub fn avx512_bitalg(&self) -> bool { self.flags & (1 << 40) != 0 } pub fn with_avx512_bitalg(mut self) -> Self { self.flags |= 1 << 40; self } pub fn avx512_vpopcntdq(&self) -> bool { self.flags & (1 << 41) != 0 } pub fn with_avx512_vpopcntdq(mut self) -> Self { self.flags |= 1 << 41; self } pub fn avx512_4vnniw(&self) -> bool { self.flags & (1 << 42) != 0 } pub fn with_avx512_4vnniw(mut self) -> Self { self.flags |= 1 << 42; self } pub fn avx512_4fmaps(&self) -> bool { self.flags & (1 << 43) != 0 } pub fn with_avx512_4fmaps(mut self) -> Self { self.flags |= 1 << 43; self } /// returns `true` if this `InstDecoder` has **all** `avx512` features enabled. pub fn avx512(&self) -> bool { let avx512_mask = (1 << 19) | (1 << 20) | (1 << 23) | (1 << 27) | (1 << 28) | (1 << 29) | (1 << 31) | (1 << 32) | (1 << 34) | (1 << 35) | (1 << 40) | (1 << 41) | (1 << 42) | (1 << 43); (self.flags & avx512_mask) == avx512_mask } /// enable all `avx512` features on this `InstDecoder`. no real CPU, at time of writing, /// actually has such a feature combination, but this is a useful overestimate for `avx512` /// generally. pub fn with_avx512(mut self) -> Self { let avx512_mask = (1 << 19) | (1 << 20) | (1 << 23) | (1 << 27) | (1 << 28) | (1 << 29) | (1 << 31) | (1 << 32) | (1 << 34) | (1 << 35) | (1 << 40) | (1 << 41) | (1 << 42) | (1 << 43); self.flags |= avx512_mask; self } pub fn cx8(&self) -> bool { self.flags & (1 << 44) != 0 } pub fn with_cx8(mut self) -> Self { self.flags |= 1 << 44; self } pub fn syscall(&self) -> bool { self.flags & (1 << 45) != 0 } pub fn with_syscall(mut self) -> Self { self.flags |= 1 << 45; self } pub fn rdtscp(&self) -> bool { self.flags & (1 << 46) != 0 } pub fn with_rdtscp(mut self) -> Self { self.flags |= 1 << 46; self } pub fn abm(&self) -> bool { self.flags & (1 << 47) != 0 } pub fn with_abm(mut self) -> Self { self.flags |= 1 << 47; self } pub fn sse4a(&self) -> bool { self.flags & (1 << 48) != 0 } pub fn with_sse4a(mut self) -> Self { self.flags |= 1 << 48; self } pub fn _3dnowprefetch(&self) -> bool { self.flags & (1 << 49) != 0 } pub fn with_3dnowprefetch(mut self) -> Self { self.flags |= 1 << 49; self } pub fn xop(&self) -> bool { self.flags & (1 << 50) != 0 } pub fn with_xop(mut self) -> Self { self.flags |= 1 << 50; self } pub fn skinit(&self) -> bool { self.flags & (1 << 51) != 0 } pub fn with_skinit(mut self) -> Self { self.flags |= 1 << 51; self } pub fn tbm(&self) -> bool { self.flags & (1 << 52) != 0 } pub fn with_tbm(mut self) -> Self { self.flags |= 1 << 52; self } pub fn intel_quirks(&self) -> bool { self.flags & (1 << 53) != 0 } pub fn with_intel_quirks(mut self) -> Self { self.flags |= 1 << 53; self } pub fn amd_quirks(&self) -> bool { self.flags & (1 << 54) != 0 } pub fn with_amd_quirks(mut self) -> Self { self.flags |= 1 << 54; self } pub fn avx(&self) -> bool { self.flags & (1 << 55) != 0 } pub fn with_avx(mut self) -> Self { self.flags |= 1 << 55; self } pub fn svm(&self) -> bool { self.flags & (1 << 56) != 0 } pub fn with_svm(mut self) -> Self { self.flags |= 1 << 56; self } /// `lahfsahf` is only unset for early revisions of 64-bit amd and intel chips. unfortunately /// the clearest documentation on when these instructions were reintroduced into 64-bit /// architectures seems to be /// [wikipedia](https://en.wikipedia.org/wiki/X86-64#Older_implementations): /// ```text /// Early AMD64 and Intel 64 CPUs lacked LAHF and SAHF instructions in 64-bit mode. AMD /// introduced these instructions (also in 64-bit mode) with their Athlon 64, Opteron and /// Turion 64 revision D processors in March 2005[48][49][50] while Intel introduced the /// instructions with the Pentium 4 G1 stepping in December 2005. The 64-bit version of Windows /// 8.1 requires this feature.[47] /// ``` /// /// this puts reintroduction of these instructions somewhere in the middle of prescott and k8 /// lifecycles, for intel and amd respectively. because there is no specific uarch where these /// features become enabled, prescott and k8 default to not supporting these instructions, /// where later uarches support these instructions. pub fn lahfsahf(&self) -> bool { self.flags & (1 << 57) != 0 } pub fn with_lahfsahf(mut self) -> Self { self.flags |= 1 << 57; self } pub fn cmov(&self) -> bool { self.flags & (1 << 58) != 0 } pub fn with_cmov(mut self) -> Self { self.flags |= 1 << 58; self } pub fn f16c(&self) -> bool { self.flags & (1 << 59) != 0 } pub fn with_f16c(mut self) -> Self { self.flags |= 1 << 59; self } pub fn fma4(&self) -> bool { self.flags & (1 << 60) != 0 } pub fn with_fma4(mut self) -> Self { self.flags |= 1 << 60; self } pub fn prefetchw(&self) -> bool { self.flags & (1 << 61) != 0 } pub fn with_prefetchw(mut self) -> Self { self.flags |= 1 << 61; self } pub fn tsx(&self) -> bool { self.flags & (1 << 62) != 0 } pub fn with_tsx(mut self) -> Self { self.flags |= 1 << 62; self } pub fn lzcnt(&self) -> bool { self.flags & (1 << 63) != 0 } pub fn with_lzcnt(mut self) -> Self { self.flags |= 1 << 63; self } /// optionally reject or reinterpret instruction according to the decoder's /// declared extensions. fn revise_instruction(&self, inst: &mut Instruction) -> Result<(), DecodeError> { if inst.prefixes.evex().is_some() { if !self.avx512() { return Err(DecodeError::InvalidOpcode); } else { return Ok(()); } } match inst.opcode { Opcode::TZCNT => { if !self.bmi1() { // tzcnt is only supported if bmi1 is enabled. without bmi1, this decodes as // bsf. inst.opcode = Opcode::BSF; } } Opcode::LDDQU | Opcode::ADDSUBPS | Opcode::ADDSUBPD | Opcode::HADDPS | Opcode::HSUBPS | Opcode::HADDPD | Opcode::HSUBPD | Opcode::MOVSHDUP | Opcode::MOVSLDUP | Opcode::MOVDDUP | Opcode::MONITOR | Opcode::MWAIT => { // via Intel section 5.7, SSE3 Instructions if !self.sse3() { return Err(DecodeError::InvalidOpcode); } } Opcode::PHADDW | Opcode::PHADDSW | Opcode::PHADDD | Opcode::PHSUBW | Opcode::PHSUBSW | Opcode::PHSUBD | Opcode::PABSB | Opcode::PABSW | Opcode::PABSD | Opcode::PMADDUBSW | Opcode::PMULHRSW | Opcode::PSHUFB | Opcode::PSIGNB | Opcode::PSIGNW | Opcode::PSIGND | Opcode::PALIGNR => { // via Intel section 5.8, SSSE3 Instructions if !self.ssse3() { return Err(DecodeError::InvalidOpcode); } } Opcode::PMULLD | Opcode::PMULDQ | Opcode::MOVNTDQA | Opcode::BLENDPD | Opcode::BLENDPS | Opcode::BLENDVPD | Opcode::BLENDVPS | Opcode::PBLENDVB | Opcode::BLENDW | Opcode::PMINUW | Opcode::PMINUD | Opcode::PMINSB | Opcode::PMINSD | Opcode::PMAXUW | Opcode::PMAXUD | Opcode::PMAXSB | Opcode::PMAXSD | Opcode::ROUNDPS | Opcode::ROUNDPD | Opcode::ROUNDSS | Opcode::ROUNDSD | Opcode::PBLENDW | Opcode::EXTRACTPS | Opcode::INSERTPS | Opcode::PINSRB | Opcode::PINSRD | Opcode::PINSRQ | Opcode::PMOVSXBW | Opcode::PMOVZXBW | Opcode::PMOVSXBD | Opcode::PMOVZXBD | Opcode::PMOVSXWD | Opcode::PMOVZXWD | Opcode::PMOVSXBQ | Opcode::PMOVZXBQ | Opcode::PMOVSXWQ | Opcode::PMOVZXWQ | Opcode::PMOVSXDQ | Opcode::PMOVZXDQ | Opcode::DPPS | Opcode::DPPD | Opcode::MPSADBW | Opcode::PHMINPOSUW | Opcode::PTEST | Opcode::PCMPEQQ | Opcode::PEXTRB | Opcode::PEXTRW | Opcode::PEXTRD | Opcode::PEXTRQ | Opcode::PACKUSDW => { // via Intel section 5.10, SSE4.1 Instructions if !self.sse4_1() { return Err(DecodeError::InvalidOpcode); } } Opcode::EXTRQ | Opcode::INSERTQ | Opcode::MOVNTSS | Opcode::MOVNTSD => { if !self.sse4a() { return Err(DecodeError::InvalidOpcode); } } Opcode::CRC32 | Opcode::PCMPESTRI | Opcode::PCMPESTRM | Opcode::PCMPISTRI | Opcode::PCMPISTRM | Opcode::PCMPGTQ => { // via Intel section 5.11, SSE4.2 Instructions if !self.sse4_2() { return Err(DecodeError::InvalidOpcode); } } Opcode::AESDEC | Opcode::AESDECLAST | Opcode::AESENC | Opcode::AESENCLAST | Opcode::AESIMC | Opcode::AESKEYGENASSIST => { // via Intel section 5.12. AESNI AND PCLMULQDQ if !self.aesni() { return Err(DecodeError::InvalidOpcode); } } Opcode::PCLMULQDQ => { // via Intel section 5.12. AESNI AND PCLMULQDQ if !self.pclmulqdq() { return Err(DecodeError::InvalidOpcode); } } Opcode::XABORT | Opcode::XBEGIN | Opcode::XEND | Opcode::XTEST => { if !self.tsx() { return Err(DecodeError::InvalidOpcode); } } Opcode::SHA1MSG1 | Opcode::SHA1MSG2 | Opcode::SHA1NEXTE | Opcode::SHA1RNDS4 | Opcode::SHA256MSG1 | Opcode::SHA256MSG2 | Opcode::SHA256RNDS2 => { if !self.sha() { return Err(DecodeError::InvalidOpcode); } } Opcode::ENCLV | Opcode::ENCLS | Opcode::ENCLU => { if !self.sgx() { return Err(DecodeError::InvalidOpcode); } } // AVX... Opcode::VMOVDDUP | Opcode::VPSHUFLW | Opcode::VPSHUFHW | Opcode::VHADDPS | Opcode::VHSUBPS | Opcode::VADDSUBPS | Opcode::VCVTPD2DQ | Opcode::VLDDQU | Opcode::VCOMISD | Opcode::VCOMISS | Opcode::VUCOMISD | Opcode::VUCOMISS | Opcode::VADDPD | Opcode::VADDPS | Opcode::VADDSD | Opcode::VADDSS | Opcode::VADDSUBPD | Opcode::VBLENDPD | Opcode::VBLENDPS | Opcode::VBLENDVPD | Opcode::VBLENDVPS | Opcode::VBROADCASTF128 | Opcode::VBROADCASTI128 | Opcode::VBROADCASTSD | Opcode::VBROADCASTSS | Opcode::VCMPSD | Opcode::VCMPSS | Opcode::VCMPPD | Opcode::VCMPPS | Opcode::VCVTDQ2PD | Opcode::VCVTDQ2PS | Opcode::VCVTPD2PS | Opcode::VCVTPS2DQ | Opcode::VCVTPS2PD | Opcode::VCVTSS2SD | Opcode::VCVTSI2SS | Opcode::VCVTSI2SD | Opcode::VCVTSD2SI | Opcode::VCVTSD2SS | Opcode::VCVTSS2SI | Opcode::VCVTTPD2DQ | Opcode::VCVTTPS2DQ | Opcode::VCVTTSS2SI | Opcode::VCVTTSD2SI | Opcode::VDIVPD | Opcode::VDIVPS | Opcode::VDIVSD | Opcode::VDIVSS | Opcode::VDPPD | Opcode::VDPPS | Opcode::VEXTRACTF128 | Opcode::VEXTRACTI128 | Opcode::VEXTRACTPS | Opcode::VFMADD132PD | Opcode::VFMADD132PS | Opcode::VFMADD132SD | Opcode::VFMADD132SS | Opcode::VFMADD213PD | Opcode::VFMADD213PS | Opcode::VFMADD213SD | Opcode::VFMADD213SS | Opcode::VFMADD231PD | Opcode::VFMADD231PS | Opcode::VFMADD231SD | Opcode::VFMADD231SS | Opcode::VFMADDSUB132PD | Opcode::VFMADDSUB132PS | Opcode::VFMADDSUB213PD | Opcode::VFMADDSUB213PS | Opcode::VFMADDSUB231PD | Opcode::VFMADDSUB231PS | Opcode::VFMSUB132PD | Opcode::VFMSUB132PS | Opcode::VFMSUB132SD | Opcode::VFMSUB132SS | Opcode::VFMSUB213PD | Opcode::VFMSUB213PS | Opcode::VFMSUB213SD | Opcode::VFMSUB213SS | Opcode::VFMSUB231PD | Opcode::VFMSUB231PS | Opcode::VFMSUB231SD | Opcode::VFMSUB231SS | Opcode::VFMSUBADD132PD | Opcode::VFMSUBADD132PS | Opcode::VFMSUBADD213PD | Opcode::VFMSUBADD213PS | Opcode::VFMSUBADD231PD | Opcode::VFMSUBADD231PS | Opcode::VFNMADD132PD | Opcode::VFNMADD132PS | Opcode::VFNMADD132SD | Opcode::VFNMADD132SS | Opcode::VFNMADD213PD | Opcode::VFNMADD213PS | Opcode::VFNMADD213SD | Opcode::VFNMADD213SS | Opcode::VFNMADD231PD | Opcode::VFNMADD231PS | Opcode::VFNMADD231SD | Opcode::VFNMADD231SS | Opcode::VFNMSUB132PD | Opcode::VFNMSUB132PS | Opcode::VFNMSUB132SD | Opcode::VFNMSUB132SS | Opcode::VFNMSUB213PD | Opcode::VFNMSUB213PS | Opcode::VFNMSUB213SD | Opcode::VFNMSUB213SS | Opcode::VFNMSUB231PD | Opcode::VFNMSUB231PS | Opcode::VFNMSUB231SD | Opcode::VFNMSUB231SS | Opcode::VGATHERDPD | Opcode::VGATHERDPS | Opcode::VGATHERQPD | Opcode::VGATHERQPS | Opcode::VHADDPD | Opcode::VHSUBPD | Opcode::VINSERTF128 | Opcode::VINSERTI128 | Opcode::VINSERTPS | Opcode::VMASKMOVDQU | Opcode::VMASKMOVPD | Opcode::VMASKMOVPS | Opcode::VMAXPD | Opcode::VMAXPS | Opcode::VMAXSD | Opcode::VMAXSS | Opcode::VMINPD | Opcode::VMINPS | Opcode::VMINSD | Opcode::VMINSS | Opcode::VMOVAPD | Opcode::VMOVAPS | Opcode::VMOVD | Opcode::VMOVDQA | Opcode::VMOVDQU | Opcode::VMOVHLPS | Opcode::VMOVHPD | Opcode::VMOVHPS | Opcode::VMOVLHPS | Opcode::VMOVLPD | Opcode::VMOVLPS | Opcode::VMOVMSKPD | Opcode::VMOVMSKPS | Opcode::VMOVNTDQ | Opcode::VMOVNTDQA | Opcode::VMOVNTPD | Opcode::VMOVNTPS | Opcode::VMOVQ | Opcode::VMOVSS | Opcode::VMOVSD | Opcode::VMOVSHDUP | Opcode::VMOVSLDUP | Opcode::VMOVUPD | Opcode::VMOVUPS | Opcode::VMPSADBW | Opcode::VMULPD | Opcode::VMULPS | Opcode::VMULSD | Opcode::VMULSS | Opcode::VPABSB | Opcode::VPABSD | Opcode::VPABSW | Opcode::VPACKSSDW | Opcode::VPACKUSDW | Opcode::VPACKSSWB | Opcode::VPACKUSWB | Opcode::VPADDB | Opcode::VPADDD | Opcode::VPADDQ | Opcode::VPADDSB | Opcode::VPADDSW | Opcode::VPADDUSB | Opcode::VPADDUSW | Opcode::VPADDW | Opcode::VPALIGNR | Opcode::VPAND | Opcode::VANDPD | Opcode::VANDPS | Opcode::VANDNPD | Opcode::VANDNPS | Opcode::VORPD | Opcode::VORPS | Opcode::VPANDN | Opcode::VPAVGB | Opcode::VPAVGW | Opcode::VPBLENDD | Opcode::VPBLENDVB | Opcode::VPBLENDW | Opcode::VPBROADCASTB | Opcode::VPBROADCASTD | Opcode::VPBROADCASTQ | Opcode::VPBROADCASTW | Opcode::VPCLMULQDQ | Opcode::VPCMPEQB | Opcode::VPCMPEQD | Opcode::VPCMPEQQ | Opcode::VPCMPEQW | Opcode::VPCMPGTB | Opcode::VPCMPGTD | Opcode::VPCMPGTQ | Opcode::VPCMPGTW | Opcode::VPCMPESTRI | Opcode::VPCMPESTRM | Opcode::VPCMPISTRI | Opcode::VPCMPISTRM | Opcode::VPERM2F128 | Opcode::VPERM2I128 | Opcode::VPERMD | Opcode::VPERMILPD | Opcode::VPERMILPS | Opcode::VPERMPD | Opcode::VPERMPS | Opcode::VPERMQ | Opcode::VPEXTRB | Opcode::VPEXTRD | Opcode::VPEXTRQ | Opcode::VPEXTRW | Opcode::VPGATHERDD | Opcode::VPGATHERDQ | Opcode::VPGATHERQD | Opcode::VPGATHERQQ | Opcode::VPHADDD | Opcode::VPHADDSW | Opcode::VPHADDW | Opcode::VPMADDUBSW | Opcode::VPHMINPOSUW | Opcode::VPHSUBD | Opcode::VPHSUBSW | Opcode::VPHSUBW | Opcode::VPINSRB | Opcode::VPINSRD | Opcode::VPINSRQ | Opcode::VPINSRW | Opcode::VPMADDWD | Opcode::VPMASKMOVD | Opcode::VPMASKMOVQ | Opcode::VPMAXSB | Opcode::VPMAXSD | Opcode::VPMAXSW | Opcode::VPMAXUB | Opcode::VPMAXUW | Opcode::VPMAXUD | Opcode::VPMINSB | Opcode::VPMINSW | Opcode::VPMINSD | Opcode::VPMINUB | Opcode::VPMINUW | Opcode::VPMINUD | Opcode::VPMOVMSKB | Opcode::VPMOVSXBD | Opcode::VPMOVSXBQ | Opcode::VPMOVSXBW | Opcode::VPMOVSXDQ | Opcode::VPMOVSXWD | Opcode::VPMOVSXWQ | Opcode::VPMOVZXBD | Opcode::VPMOVZXBQ | Opcode::VPMOVZXBW | Opcode::VPMOVZXDQ | Opcode::VPMOVZXWD | Opcode::VPMOVZXWQ | Opcode::VPMULDQ | Opcode::VPMULHRSW | Opcode::VPMULHUW | Opcode::VPMULHW | Opcode::VPMULLQ | Opcode::VPMULLD | Opcode::VPMULLW | Opcode::VPMULUDQ | Opcode::VPOR | Opcode::VPSADBW | Opcode::VPSHUFB | Opcode::VPSHUFD | Opcode::VPSIGNB | Opcode::VPSIGND | Opcode::VPSIGNW | Opcode::VPSLLD | Opcode::VPSLLDQ | Opcode::VPSLLQ | Opcode::VPSLLVD | Opcode::VPSLLVQ | Opcode::VPSLLW | Opcode::VPSRAD | Opcode::VPSRAVD | Opcode::VPSRAW | Opcode::VPSRLD | Opcode::VPSRLDQ | Opcode::VPSRLQ | Opcode::VPSRLVD | Opcode::VPSRLVQ | Opcode::VPSRLW | Opcode::VPSUBB | Opcode::VPSUBD | Opcode::VPSUBQ | Opcode::VPSUBSB | Opcode::VPSUBSW | Opcode::VPSUBUSB | Opcode::VPSUBUSW | Opcode::VPSUBW | Opcode::VPTEST | Opcode::VPUNPCKHBW | Opcode::VPUNPCKHDQ | Opcode::VPUNPCKHQDQ | Opcode::VPUNPCKHWD | Opcode::VPUNPCKLBW | Opcode::VPUNPCKLDQ | Opcode::VPUNPCKLQDQ | Opcode::VPUNPCKLWD | Opcode::VPXOR | Opcode::VRCPPS | Opcode::VROUNDPD | Opcode::VROUNDPS | Opcode::VROUNDSD | Opcode::VROUNDSS | Opcode::VRSQRTPS | Opcode::VRSQRTSS | Opcode::VRCPSS | Opcode::VSHUFPD | Opcode::VSHUFPS | Opcode::VSQRTPD | Opcode::VSQRTPS | Opcode::VSQRTSS | Opcode::VSQRTSD | Opcode::VSUBPD | Opcode::VSUBPS | Opcode::VSUBSD | Opcode::VSUBSS | Opcode::VTESTPD | Opcode::VTESTPS | Opcode::VUNPCKHPD | Opcode::VUNPCKHPS | Opcode::VUNPCKLPD | Opcode::VUNPCKLPS | Opcode::VXORPD | Opcode::VXORPS | Opcode::VZEROUPPER | Opcode::VZEROALL | Opcode::VLDMXCSR | Opcode::VSTMXCSR => { // TODO: check a table for these if !self.avx() { return Err(DecodeError::InvalidOpcode); } } Opcode::VAESDEC | Opcode::VAESDECLAST | Opcode::VAESENC | Opcode::VAESENCLAST | Opcode::VAESIMC | Opcode::VAESKEYGENASSIST => { // TODO: check a table for these if !self.avx() || !self.aesni() { return Err(DecodeError::InvalidOpcode); } } Opcode::MOVBE => { if !self.movbe() { return Err(DecodeError::InvalidOpcode); } } Opcode::POPCNT => { /* * from the intel SDM: * ``` * Before an application attempts to use the POPCNT instruction, it must check that * the processor supports SSE4.2 (if CPUID.01H:ECX.SSE4_2[bit 20] = 1) and POPCNT * (if CPUID.01H:ECX.POPCNT[bit 23] = 1). * ``` */ if self.intel_quirks() && (self.sse4_2() || self.popcnt()) { return Ok(()); } else if !self.popcnt() { /* * elsewhere from the amd APM: * `Instruction Subsets and CPUID Feature Flags` on page 507 indicates that * popcnt is present when the popcnt bit is reported by cpuid. this seems to be * the less quirky default, so `intel_quirks` is considered the outlier, and * before this default. * */ return Err(DecodeError::InvalidOpcode); } } Opcode::LZCNT => { /* * amd APM, `LZCNT` page 212: * LZCNT is an Advanced Bit Manipulation (ABM) instruction. Support for the LZCNT * instruction is indicated by CPUID Fn8000_0001_ECX[ABM] = 1. * * meanwhile the intel SDM simply states: * ``` * CPUID.EAX=80000001H:ECX.LZCNT[bit 5]: if 1 indicates the processor supports the * LZCNT instruction. * ``` * * so that's considered the less-quirky (default) case here. * */ if self.amd_quirks() && !self.abm() { return Err(DecodeError::InvalidOpcode); } else if !self.lzcnt() { return Err(DecodeError::InvalidOpcode); } } Opcode::ADCX | Opcode::ADOX => { if !self.adx() { return Err(DecodeError::InvalidOpcode); } } Opcode::VMRUN | Opcode::VMLOAD | Opcode::VMSAVE | Opcode::CLGI | Opcode::VMMCALL | Opcode::INVLPGA => { if !self.svm() { return Err(DecodeError::InvalidOpcode); } } Opcode::STGI | Opcode::SKINIT => { if !self.svm() || !self.skinit() { return Err(DecodeError::InvalidOpcode); } } Opcode::LAHF | Opcode::SAHF => { if !self.lahfsahf() { return Err(DecodeError::InvalidOpcode); } } Opcode::VCVTPS2PH | Opcode::VCVTPH2PS => { /* * from intel SDM: * ``` * 14.4.1 Detection of F16C Instructions Application using float 16 instruction * must follow a detection sequence similar to AVX to ensure: • The OS has * enabled YMM state management support, • The processor support AVX as * indicated by the CPUID feature flag, i.e. CPUID.01H:ECX.AVX[bit 28] = 1. • * The processor support 16-bit floating-point conversion instructions via a * CPUID feature flag (CPUID.01H:ECX.F16C[bit 29] = 1). * ``` * * TODO: only the VEX-coded variant of this instruction should be gated on `f16c`. * the EVEX-coded variant should be gated on `avx512f` or `avx512vl` if not * EVEX.512-coded. */ if !self.avx() || !self.f16c() { return Err(DecodeError::InvalidOpcode); } } Opcode::RDRAND => { if !self.rdrand() { return Err(DecodeError::InvalidOpcode); } } Opcode::RDSEED => { if !self.rdseed() { return Err(DecodeError::InvalidOpcode); } } Opcode::MONITORX | Opcode::MWAITX | // these are gated on the `monitorx` and `mwaitx` cpuid bits, but are AMD-only. Opcode::CLZERO | Opcode::RDPRU => { // again, gated on specific cpuid bits, but AMD-only. if !self.amd_quirks() { return Err(DecodeError::InvalidOpcode); } } other => { if !self.bmi1() { if BMI1.contains(&other) { return Err(DecodeError::InvalidOpcode); } } if !self.bmi2() { if BMI2.contains(&other) { return Err(DecodeError::InvalidOpcode); } } } } Ok(()) } } impl Default for InstDecoder { /// Instantiates an x86_64 decoder that probably decodes what you want. /// /// Attempts to match real processors in interpretation of undefined sequences, and decodes any /// instruction defined in any extension. fn default() -> Self { Self { flags: 0xffffffff_ffffffff, } } } impl Decoder for InstDecoder { fn decode::Address, ::Word>>(&self, words: &mut T) -> Result::DecodeError> { let mut instr = Instruction::invalid(); read_with_annotations(self, words, &mut instr, &mut NullSink)?; instr.length = words.offset() as u8; if words.offset() > 15 { return Err(DecodeError::TooLong); } if self != &InstDecoder::default() { self.revise_instruction(&mut instr)?; } Ok(instr) } #[inline(always)] fn decode_into::Address, ::Word>>(&self, instr: &mut Instruction, words: &mut T) -> Result<(), ::DecodeError> { self.decode_with_annotation(instr, words, &mut NullSink) } } impl AnnotatingDecoder for InstDecoder { type FieldDescription = FieldDescription; #[inline(always)] fn decode_with_annotation< T: Reader<::Address, ::Word>, S: DescriptionSink >(&self, instr: &mut Instruction, words: &mut T, sink: &mut S) -> Result<(), ::DecodeError> { read_with_annotations(self, words, instr, sink)?; instr.length = words.offset() as u8; if words.offset() > 15 { return Err(DecodeError::TooLong); } if self != &InstDecoder::default() { self.revise_instruction(instr)?; } Ok(()) } } impl Opcode { /// get the [`ConditionCode`] for this instruction, if it is in fact conditional. x86's /// conditional instructions are `Jcc`, `CMOVcc`, andd `SETcc`. pub fn condition(&self) -> Option { match self { Opcode::JO | Opcode::CMOVO | Opcode::SETO => { Some(ConditionCode::O) }, Opcode::JNO | Opcode::CMOVNO | Opcode::SETNO => { Some(ConditionCode::NO) }, Opcode::JB | Opcode::CMOVB | Opcode::SETB => { Some(ConditionCode::B) }, Opcode::JNB | Opcode::CMOVNB | Opcode::SETAE => { Some(ConditionCode::AE) }, Opcode::JZ | Opcode::CMOVZ | Opcode::SETZ => { Some(ConditionCode::Z) }, Opcode::JNZ | Opcode::CMOVNZ | Opcode::SETNZ => { Some(ConditionCode::NZ) }, Opcode::JA | Opcode::CMOVA | Opcode::SETA => { Some(ConditionCode::A) }, Opcode::JNA | Opcode::CMOVNA | Opcode::SETBE => { Some(ConditionCode::BE) }, Opcode::JS | Opcode::CMOVS | Opcode::SETS => { Some(ConditionCode::S) }, Opcode::JNS | Opcode::CMOVNS | Opcode::SETNS => { Some(ConditionCode::NS) }, Opcode::JP | Opcode::CMOVP | Opcode::SETP => { Some(ConditionCode::P) }, Opcode::JNP | Opcode::CMOVNP | Opcode::SETNP => { Some(ConditionCode::NP) }, Opcode::JL | Opcode::CMOVL | Opcode::SETL => { Some(ConditionCode::L) }, Opcode::JGE | Opcode::CMOVGE | Opcode::SETGE => { Some(ConditionCode::GE) }, Opcode::JG | Opcode::CMOVG | Opcode::SETG => { Some(ConditionCode::G) }, Opcode::JLE | Opcode::CMOVLE | Opcode::SETLE => { Some(ConditionCode::LE) }, _ => None, } } } impl Default for Instruction { fn default() -> Self { Instruction::invalid() } } impl Instruction { /// get the `Opcode` of this instruction. pub fn opcode(&self) -> Opcode { self.opcode } /// get the `Operand` at the provided index. /// /// panics if the index is `>= 4`. pub fn operand(&self, i: u8) -> Operand { assert!(i < 4); Operand::from_spec(self, self.operands[i as usize]) } /// get the number of operands in this instruction. useful in iterating an instruction's /// operands generically. pub fn operand_count(&self) -> u8 { self.operand_count } /// check if operand `i` is an actual operand or not. will be `false` for `i >= /// inst.operand_count()`. pub fn operand_present(&self, i: u8) -> bool { assert!(i < 4); if i >= self.operand_count { return false; } if let OperandSpec::Nothing = self.operands[i as usize] { false } else { true } } /// get the memory access information for this instruction, if it accesses memory. /// /// the corresponding `MemoryAccessSize` may report that the size of accessed memory is /// indeterminate; this is the case for `xsave/xrestor`-style instructions whose operation size /// varies based on physical processor. pub fn mem_size(&self) -> Option { if self.mem_size != 0 { Some(MemoryAccessSize { size: self.mem_size }) } else { None } } /// build a new instruction representing nothing in particular. this is primarily useful as a /// default to pass to `decode_into`. pub fn invalid() -> Instruction { Instruction { prefixes: Prefixes::new(0), opcode: Opcode::NOP, mem_size: 0, regs: [RegSpec::rax(); 4], scale: 0, length: 0, disp: 0, imm: 0, operand_count: 0, operands: [OperandSpec::Nothing; 4], } } /// get the `Segment` that will *actually* be used for accessing the operand at index `i`. /// /// `stos`, `lods`, `movs`, and `cmps` specifically name some segments for use regardless of /// prefixes. pub fn segment_override_for_op(&self, op: u8) -> Option { match self.opcode { Opcode::STOS | Opcode::SCAS => { if op == 0 { Some(Segment::ES) } else { None } } Opcode::LODS => { if op == 1 { Some(self.prefixes.segment) } else { None } } Opcode::MOVS => { if op == 0 { Some(Segment::ES) } else if op == 1 { Some(self.prefixes.segment) } else { None } } Opcode::CMPS => { if op == 0 { Some(self.prefixes.segment) } else if op == 1 { Some(Segment::ES) } else { None } }, _ => { // most operands are pretty simple: if self.operands[op as usize].is_memory() && self.prefixes.segment != Segment::DS { Some(self.prefixes.segment) } else { None } } } } #[cfg(feature = "fmt")] /// wrap a reference to this instruction with a `DisplayStyle` to format the instruction with /// later. see the documentation on [`display::DisplayStyle`] for more. /// /// ``` /// use yaxpeax_x86::long_mode::{InstDecoder, DisplayStyle}; /// /// let decoder = InstDecoder::default(); /// let inst = decoder.decode_slice(&[0x33, 0xc1]).unwrap(); /// /// assert_eq!("eax ^= ecx", inst.display_with(DisplayStyle::C).to_string()); /// assert_eq!("xor eax, ecx", inst.display_with(DisplayStyle::Intel).to_string()); /// ``` pub fn display_with<'a>(&'a self, style: display::DisplayStyle) -> display::InstructionDisplayer<'a> { display::InstructionDisplayer { style, instr: self, } } /// does this instruction include the `xacquire` hint for hardware lock elision? pub fn xacquire(&self) -> bool { if self.prefixes.repnz() { // xacquire is permitted on typical `lock` instructions, OR `xchg` with memory operand, // regardless of `lock` prefix. if self.prefixes.lock() { true } else if self.opcode == Opcode::XCHG { self.operands[0] != OperandSpec::RegMMM && self.operands[1] != OperandSpec::RegMMM } else { false } } else { false } } /// does this instruction include the `xrelease` hint for hardware lock elision? pub fn xrelease(&self) -> bool { if self.prefixes.rep() { // xrelease is permitted on typical `lock` instructions, OR `xchg` with memory operand, // regardless of `lock` prefix. additionally, xrelease is permitted on some forms of mov. if self.prefixes.lock() { true } else if self.opcode == Opcode::XCHG { self.operands[0] != OperandSpec::RegMMM && self.operands[1] != OperandSpec::RegMMM } else if self.opcode == Opcode::MOV { self.operands[0] != OperandSpec::RegMMM && ( self.operands[1] == OperandSpec::RegRRR || self.operands[1] == OperandSpec::ImmI8 || self.operands[1] == OperandSpec::ImmI16 || self.operands[1] == OperandSpec::ImmI32 || self.operands[1] == OperandSpec::ImmI64 ) } else { false } } else { false } } } #[derive(Debug, Copy, Clone, Eq, PartialEq)] struct EvexData { // data: present, z, b, Lp, Rp. aaa bits: u8, } /// the prefixes on an instruction. /// /// `rep`, `repnz`, `lock`, and segment override prefixes are directly accessible here. `rex`, /// `vex`, and `evex` prefixes are available through their associated helpers. #[derive(Debug, Copy, Clone, Eq, PartialEq)] pub struct Prefixes { bits: u8, rex: PrefixRex, segment: Segment, evex_data: EvexData, } /// the `avx512`-related data from an [`evex`](https://en.wikipedia.org/wiki/EVEX_prefix) prefix. #[derive(Debug, Copy, Clone, Eq, PartialEq)] pub struct PrefixEvex { vex: PrefixVex, evex_data: EvexData, } impl PrefixEvex { fn present(&self) -> bool { self.evex_data.present() } /// the `evex` prefix's parts that overlap with `vex` definitions - `L`, `W`, `R`, `X`, and `B` /// bits. pub fn vex(&self) -> PrefixVex { self.vex } /// the `avx512` mask register in use. `0` indicates "no mask register". pub fn mask_reg(&self) -> u8 { self.evex_data.aaa() } pub fn broadcast(&self) -> bool { self.evex_data.b() } pub fn merge(&self) -> bool { self.evex_data.z() } /// the `evex` `L'` bit. pub fn lp(&self) -> bool { self.evex_data.lp() } /// the `evex` `R'` bit. pub fn rp(&self) -> bool { self.evex_data.rp() } } /// bits specified in an avx/avx2 [`vex`](https://en.wikipedia.org/wiki/VEX_prefix) prefix, `L`, `W`, `R`, `X`, and `B`. #[derive(Debug, Copy, Clone, Eq, PartialEq)] pub struct PrefixVex { bits: u8, } #[allow(dead_code)] impl PrefixVex { #[inline] fn present(&self) -> bool { (self.bits & 0x80) == 0x80 } #[inline] pub fn b(&self) -> bool { (self.bits & 0x01) == 0x01 } #[inline] pub fn x(&self) -> bool { (self.bits & 0x02) == 0x02 } #[inline] pub fn r(&self) -> bool { (self.bits & 0x04) == 0x04 } #[inline] pub fn w(&self) -> bool { (self.bits & 0x08) == 0x08 } #[inline] pub fn l(&self) -> bool { (self.bits & 0x10) == 0x10 } #[inline] fn compressed_disp(&self) -> bool { (self.bits & 0x20) == 0x20 } } /// bits specified in an x86_64 /// [`rex`](https://wiki.osdev.org/X86-64_Instruction_Encoding#REX_prefix) prefix. #[derive(Debug, Copy, Clone, Eq, PartialEq)] pub struct PrefixRex { bits: u8 } impl Prefixes { fn new(bits: u8) -> Prefixes { Prefixes { bits: bits, rex: PrefixRex { bits: 0 }, segment: Segment::DS, evex_data: EvexData { bits: 0 }, } } #[inline] pub fn rep(&self) -> bool { self.bits & 0x30 == 0x10 } #[inline] fn set_rep(&mut self) { self.bits = (self.bits & 0xcf) | 0x10 } #[inline] pub fn repnz(&self) -> bool { self.bits & 0x30 == 0x30 } #[inline] fn set_repnz(&mut self) { self.bits = (self.bits & 0xcf) | 0x30 } #[inline] pub fn rep_any(&self) -> bool { self.bits & 0x30 != 0x00 } #[inline] fn operand_size(&self) -> bool { self.bits & 0x1 == 1 } #[inline] fn set_operand_size(&mut self) { self.bits = self.bits | 0x1 } #[inline] fn unset_operand_size(&mut self) { self.bits = self.bits & !0x1 } #[inline] fn address_size(&self) -> bool { self.bits & 0x2 == 2 } #[inline] fn set_address_size(&mut self) { self.bits = self.bits | 0x2 } #[inline] fn set_lock(&mut self) { self.bits |= 0x4 } #[inline] pub fn lock(&self) -> bool { self.bits & 0x4 == 4 } #[inline] pub fn cs(&mut self) { self.segment = Segment::CS } #[inline] pub fn ds(&self) -> bool { self.segment == Segment::DS } #[inline] pub fn es(&self) -> bool { self.segment == Segment::ES } #[inline] pub fn fs(&self) -> bool { self.segment == Segment::FS } #[inline] fn set_fs(&mut self) { self.segment = Segment::FS } #[inline] pub fn gs(&self) -> bool { self.segment == Segment::GS } #[inline] fn set_gs(&mut self) { self.segment = Segment::GS } #[inline] pub fn ss(&self) -> bool { self.segment == Segment::SS } #[inline] fn rex_unchecked(&self) -> PrefixRex { self.rex } #[inline] pub fn rex(&self) -> Option { let rex = self.rex_unchecked(); if rex.present() { Some(rex) } else { None } } #[inline] fn vex_unchecked(&self) -> PrefixVex { PrefixVex { bits: self.rex.bits } } #[inline] pub fn vex(&self) -> Option { let vex = self.vex_unchecked(); if vex.present() { Some(vex) } else { None } } #[inline] fn evex_unchecked(&self) -> PrefixEvex { PrefixEvex { vex: PrefixVex { bits: self.rex.bits }, evex_data: self.evex_data } } #[inline] pub fn evex(&self) -> Option { let evex = self.evex_unchecked(); if evex.present() { Some(evex) } else { None } } #[inline] fn apply_compressed_disp(&mut self, state: bool) { if state { self.rex.bits |= 0x20; } else { self.rex.bits &= 0xdf; } } #[inline] fn rex_from(&mut self, bits: u8) { self.rex.bits = bits; } #[inline] fn vex_from_c5(&mut self, bits: u8) { // collect rex bits let r = bits & 0x80; let wrxb = (r >> 5) ^ 0x04; let l = (bits & 0x04) << 2; let synthetic_rex = wrxb | l | 0x80; self.rex.from(synthetic_rex); } #[inline] fn vex_from_c4(&mut self, high: u8, low: u8) { let w = low & 0x80; let rxb = (high >> 5) ^ 0x07; let wrxb = rxb | (w >> 4); let l = (low & 0x04) << 2; let synthetic_rex = wrxb | l | 0x80; self.rex.from(synthetic_rex); } #[inline] fn evex_from(&mut self, b1: u8, b2: u8, b3: u8) { let w = b2 & 0x80; let rxb = ((b1 >> 5) & 0b111) ^ 0b111; // `rxb` is provided in inverted form let wrxb = rxb | (w >> 4); let l = (b3 & 0x20) >> 1; let synthetic_rex = wrxb | l | 0x80; self.rex.from(synthetic_rex); // R' is provided in inverted form let rp = ((b1 & 0x10) >> 4) ^ 1; let lp = (b3 & 0x40) >> 6; let aaa = b3 & 0b111; let z = (b3 & 0x80) >> 7; let b = (b3 & 0x10) >> 4; self.evex_data.from(rp, lp, z, b, aaa); } } impl EvexData { fn from(&mut self, rp: u8, lp: u8, z: u8, b: u8, aaa: u8) { let mut bits = 0; bits |= aaa; bits |= b << 3; bits |= z << 4; bits |= lp << 5; bits |= rp << 6; bits |= 0x80; self.bits = bits; } } impl EvexData { pub(crate) fn present(&self) -> bool { self.bits & 0b1000_0000 != 0 } pub(crate) fn aaa(&self) -> u8 { self.bits & 0b111 } pub(crate) fn b(&self) -> bool { (self.bits & 0b0000_1000) != 0 } pub(crate) fn z(&self) -> bool { (self.bits & 0b0001_0000) != 0 } pub(crate) fn lp(&self) -> bool { (self.bits & 0b0010_0000) != 0 } pub(crate) fn rp(&self) -> bool { (self.bits & 0b0100_0000) != 0 } } impl PrefixRex { #[inline] fn present(&self) -> bool { (self.bits & 0xc0) == 0x40 } #[inline] pub fn b(&self) -> bool { (self.bits & 0x01) == 0x01 } #[inline] pub fn x(&self) -> bool { (self.bits & 0x02) == 0x02 } #[inline] pub fn r(&self) -> bool { (self.bits & 0x04) == 0x04 } #[inline] pub fn w(&self) -> bool { (self.bits & 0x08) == 0x08 } #[inline] fn from(&mut self, prefix: u8) { self.bits = prefix; } } #[derive(Debug)] struct OperandCodeBuilder { bits: u16 } #[allow(non_camel_case_types)] enum ZOperandCategory { Zv_R = 0, Zv_AX = 1, Zb_Ib_R = 2, Zv_Ivq_R = 3, } struct ZOperandInstructions { bits: u16 } impl ZOperandInstructions { fn category(&self) -> u8 { (self.bits >> 4) as u8 & 0b11 } fn reg(&self) -> u8 { (self.bits & 0b111) as u8 } } struct EmbeddedOperandInstructions { bits: u16 } impl EmbeddedOperandInstructions { #[allow(unused)] fn bits(&self) -> u16 { self.bits } } #[allow(non_snake_case)] impl OperandCodeBuilder { const fn new() -> Self { OperandCodeBuilder { bits: 0 } } const fn bits(&self) -> u16 { self.bits } const fn from_bits(bits: u16) -> Self { Self { bits } } const fn read_modrm(mut self) -> Self { self.bits |= 0x8000; self } const fn op0_is_rrr_and_embedded_instructions(mut self) -> Self { self = self.set_embedded_instructions(); self.bits |= 0x2000; self } const fn set_embedded_instructions(mut self) -> Self { self.bits |= 0x4000; self } #[allow(unused)] const fn op0_is_rrr(&self) -> bool { self.bits & 0x2000 != 0 } fn has_embedded_instructions(&self) -> bool { self.bits & 0x4000 != 0 } fn get_embedded_instructions(&self) -> Result { // 0x4000 indicates embedded instructions // 0x3fff > 0x0080 indicates the embedded instructions are a Z-style operand if self.bits & 0x7f80 <= 0x407f { Ok(ZOperandInstructions { bits: self.bits }) } else { Err(EmbeddedOperandInstructions { bits: self.bits }) } } #[allow(unused)] fn special_case_handler_index(&self) -> u16 { self.bits & 0xff } const fn special_case(mut self, case: u16) -> Self { // leave 0x4000 unset self.bits |= case & 0xff; self } const fn operand_case(mut self, case: u16) -> Self { // leave 0x4000 unset self.bits |= case & 0xff; self } const fn op0_is_rrr_and_Z_operand(mut self, category: ZOperandCategory, reg_num: u8) -> Self { self = self.set_embedded_instructions(); // if op0 is rrr, 0x2000 unset indicates the operand category written in bits 11:10 // further, reg number is bits 0:2 // // when 0x2000 is unset: // 0x1cf8 are all unused bits, so far // // if you're counting, that's 8 bits remaining. // it also means one of those (0x0400?) can be used to pick some other interpretation // scheme. self.bits |= (category as u8 as u16) << 4; self.bits |= reg_num as u16 & 0b111; self } const fn read_E(mut self) -> Self { self.bits |= 0x1000; self } const fn has_read_E(&self) -> bool { self.bits & 0x1000 != 0 } const fn byte_operands(mut self) -> Self { self.bits |= 0x0800; self } const fn mem_reg(mut self) -> Self { self.bits |= 0x0400; self } const fn reg_mem(self) -> Self { // 0x0400 unset self } const fn has_byte_operands(&self) -> bool { (self.bits & 0x0800) != 0 } #[allow(unused)] const fn has_mem_reg(&self) -> bool { (self.bits & 0x0400) != 0 } const fn has_reg_mem(&self) -> bool { (self.bits & 0x0400) == 0 } const fn only_modrm_operands(mut self) -> Self { self.bits |= 0x0200; self } const fn is_only_modrm_operands(&self) -> bool { self.bits & 0x0200 != 0 } // WHEN AN IMMEDIATE IS PRESENT, THERE ARE ONLY 0x3F ALLOWED SPECIAL CASES. // WHEN NO IMMEDIATE IS PRESENT, THERE ARE 0xFF ALLOWED SPECIAL CASES. // SIZE IS DECIDED BY THE FOLLOWING TABLE: // 0: 1 BYTE // 1: 4 BYTES const fn with_imm(mut self, only_imm: bool, size: u8) -> Self { self.bits |= 0x100; self.bits |= (size as u16) << 6; self.bits |= (only_imm as u16) << 7; self } fn has_imm(&self) -> Option<(bool, u8)> { if self.bits & 0x100 != 0 { Some(((self.bits & 0x80) != 0, (self.bits as u8 >> 6) & 1)) } else { None } } } /// a wrapper to hide internal library implementation details. this is only useful for the inner /// content's `Display` impl, which itself is unstable and suitable only for human consumption. #[derive(Copy, Clone, Debug, PartialEq, Eq)] pub struct OperandCodeWrapper { code: OperandCode } #[allow(non_camel_case_types)] // might be able to pack these into a u8, but with `Operand` being u16 as well now there's little // point. table entries will have a padding byte per record already. // // many of the one-off per-opcode variants could be written as 'decide based on opcode' but trying // to pack this more tightly only makes sense if opcode were smaller, to get some space savings. // // bit 15 is "read modrm?" // 0bMxxx_xxxx_xxxx_xxxx // | // | // | // | // | // | // ---------------------------> read modr/m? #[repr(u16)] #[derive(Copy, Clone, Debug, PartialEq, Eq)] enum OperandCode { Ivs = OperandCodeBuilder::new().special_case(25).bits(), I_3 = OperandCodeBuilder::new().special_case(18).bits(), Nothing = OperandCodeBuilder::new().special_case(6).bits(), Ib = OperandCodeBuilder::new().with_imm(false, 0).special_case(32).bits(), Ibs = OperandCodeBuilder::new().with_imm(true, 0).special_case(33).bits(), Jvds = OperandCodeBuilder::new().with_imm(true, 1).special_case(32).bits(), Yv_Xv = OperandCodeBuilder::new().special_case(50).bits(), x87_d8 = OperandCodeBuilder::new().special_case(32).bits(), x87_d9 = OperandCodeBuilder::new().special_case(33).bits(), x87_da = OperandCodeBuilder::new().special_case(34).bits(), x87_db = OperandCodeBuilder::new().special_case(35).bits(), x87_dc = OperandCodeBuilder::new().special_case(36).bits(), x87_dd = OperandCodeBuilder::new().special_case(37).bits(), x87_de = OperandCodeBuilder::new().special_case(38).bits(), x87_df = OperandCodeBuilder::new().special_case(39).bits(), Eb_R0 = OperandCodeBuilder::new() .read_modrm() .set_embedded_instructions() .read_E() .byte_operands() .operand_case(0) .bits(), AL_Ib = OperandCodeBuilder::new().special_case(33).with_imm(false, 0).bits(), AX_Ib = OperandCodeBuilder::new().special_case(34).with_imm(false, 0).bits(), Ib_AL = OperandCodeBuilder::new().special_case(35).with_imm(false, 0).bits(), Ib_AX = OperandCodeBuilder::new().special_case(36).with_imm(false, 0).bits(), AX_DX = OperandCodeBuilder::new().special_case(44).bits(), AL_DX = OperandCodeBuilder::new().special_case(45).bits(), DX_AX = OperandCodeBuilder::new().special_case(46).bits(), DX_AL = OperandCodeBuilder::new().special_case(47).bits(), MOVQ_f30f = OperandCodeBuilder::new().special_case(48).bits(), // Unsupported = OperandCodeBuilder::new().special_case(49).bits(), ModRM_0x0f00 = OperandCodeBuilder::new().read_modrm().special_case(40).bits(), ModRM_0x0f01 = OperandCodeBuilder::new().read_modrm().special_case(41).bits(), ModRM_0x0f0d = OperandCodeBuilder::new().read_modrm().special_case(42).bits(), ModRM_0x0f0f = OperandCodeBuilder::new().read_modrm().special_case(65).bits(), // 3dnow ModRM_0x0fae = OperandCodeBuilder::new().read_modrm().special_case(43).bits(), ModRM_0x0fba = OperandCodeBuilder::new().read_modrm().special_case(44).bits(), // ModRM_0xf30fae = OperandCodeBuilder::new().read_modrm().special_case(46).bits(), // ModRM_0x660fae = OperandCodeBuilder::new().read_modrm().special_case(47).bits(), // ModRM_0xf30fc7 = OperandCodeBuilder::new().read_modrm().special_case(48).bits(), // ModRM_0x660f38 = OperandCodeBuilder::new().read_modrm().special_case(49).bits(), // ModRM_0xf20f38 = OperandCodeBuilder::new().read_modrm().special_case(50).bits(), // ModRM_0xf30f38 = OperandCodeBuilder::new().read_modrm().special_case(51).bits(), ModRM_0xf30f38d8 = OperandCodeBuilder::new().read_modrm().special_case(45).bits(), ModRM_0xf30f38dc = OperandCodeBuilder::new().read_modrm().special_case(46).bits(), ModRM_0xf30f38dd = OperandCodeBuilder::new().read_modrm().special_case(47).bits(), ModRM_0xf30f38de = OperandCodeBuilder::new().read_modrm().special_case(48).bits(), ModRM_0xf30f38df = OperandCodeBuilder::new().read_modrm().special_case(49).bits(), ModRM_0xf30f38fa = OperandCodeBuilder::new().read_modrm().special_case(50).bits(), ModRM_0xf30f38fb = OperandCodeBuilder::new().read_modrm().special_case(51).bits(), ModRM_0xf30f3af0 = OperandCodeBuilder::new().read_modrm().special_case(52).bits(), // ModRM_0x660f3a = OperandCodeBuilder::new().read_modrm().special_case(52).bits(), // ModRM_0x0f38 = OperandCodeBuilder::new().read_modrm().special_case(53).bits(), // ModRM_0x0f3a = OperandCodeBuilder::new().read_modrm().special_case(54).bits(), ModRM_0x0f71 = OperandCodeBuilder::new().read_modrm().special_case(55).bits(), ModRM_0x0f72 = OperandCodeBuilder::new().read_modrm().special_case(56).bits(), ModRM_0x0f73 = OperandCodeBuilder::new().read_modrm().special_case(57).bits(), ModRM_0xf20f78 = OperandCodeBuilder::new().read_modrm().special_case(58).bits(), ModRM_0x660f78 = OperandCodeBuilder::new().read_modrm().special_case(59).bits(), ModRM_0xf30f1e = OperandCodeBuilder::new().special_case(60).bits(), // ModRM_0x660f72 = OperandCodeBuilder::new().read_modrm().special_case(61).bits(), // ModRM_0x660f73 = OperandCodeBuilder::new().read_modrm().special_case(62).bits(), // ModRM_0x660fc7 = OperandCodeBuilder::new().read_modrm().special_case(63).bits(), ModRM_0x0fc7 = OperandCodeBuilder::new().read_modrm().special_case(64).bits(), // xmmword? ModRM_0x0f12 = OperandCodeBuilder::new() .read_modrm() .op0_is_rrr_and_embedded_instructions() .read_E() .reg_mem() .operand_case(65) .bits(), // xmmword? ModRM_0x0f16 = OperandCodeBuilder::new() .read_modrm() .op0_is_rrr_and_embedded_instructions() .read_E() .reg_mem() .operand_case(66) .bits(), // encode immediates? ModRM_0xc0_Eb_Ib = OperandCodeBuilder::new() .read_modrm() .set_embedded_instructions() .read_E() .byte_operands() .operand_case(5) .bits(), ModRM_0xc1_Ev_Ib = OperandCodeBuilder::new() .read_modrm() .set_embedded_instructions() .read_E() .operand_case(5) .bits(), ModRM_0xd0_Eb_1 = OperandCodeBuilder::new() .read_modrm() .set_embedded_instructions() .read_E() .byte_operands() .operand_case(7) .bits(), ModRM_0xd1_Ev_1 = OperandCodeBuilder::new() .read_modrm() .set_embedded_instructions() .read_E() .operand_case(7) .bits(), ModRM_0xd2_Eb_CL = OperandCodeBuilder::new() .read_modrm() .set_embedded_instructions() .read_E() .byte_operands() .operand_case(9) .bits(), ModRM_0xd3_Ev_CL = OperandCodeBuilder::new() .read_modrm() .set_embedded_instructions() .read_E() .operand_case(9) .bits(), ModRM_0x80_Eb_Ib = OperandCodeBuilder::new() .read_modrm() .set_embedded_instructions() .read_E() .with_imm(false, 0) .byte_operands() .operand_case(1) .bits(), ModRM_0x83_Ev_Ibs = OperandCodeBuilder::new() .read_modrm() .set_embedded_instructions() .read_E() .with_imm(false, 0) .operand_case(26) .bits(), // this would be Eb_Ivs, 0x8e ModRM_0x81_Ev_Ivs = OperandCodeBuilder::new() .read_modrm() .set_embedded_instructions() .read_E() .operand_case(2) .bits(), ModRM_0xc6_Eb_Ib = OperandCodeBuilder::new() .read_modrm() .set_embedded_instructions() .read_E() .byte_operands() .operand_case(3) .bits(), ModRM_0xc7_Ev_Iv = OperandCodeBuilder::new() .read_modrm() .set_embedded_instructions() .read_E() .operand_case(4) .bits(), ModRM_0xfe_Eb = OperandCodeBuilder::new() .read_modrm() .set_embedded_instructions() .read_E() .byte_operands() .operand_case(13) .bits(), ModRM_0x8f_Ev = OperandCodeBuilder::new() .read_modrm() .set_embedded_instructions() .read_E() .operand_case(8) .bits(), // gap, 0x94 ModRM_0xff_Ev = OperandCodeBuilder::new() .read_modrm() .set_embedded_instructions() .read_E() .operand_case(14) .bits(), ModRM_0x0f18 = OperandCodeBuilder::new() .read_modrm() .set_embedded_instructions() .read_E() .operand_case(58) .bits(), ModRM_0xf6 = OperandCodeBuilder::new() .read_modrm() .set_embedded_instructions() .read_E() .byte_operands() .operand_case(11) .bits(), ModRM_0xf7 = OperandCodeBuilder::new() .read_modrm() .set_embedded_instructions() .read_E() .operand_case(11) .bits(), Ev = OperandCodeBuilder::new() .read_modrm() .set_embedded_instructions() .read_E() .operand_case(0) .bits(), Zv_R0 = OperandCodeBuilder::new().op0_is_rrr_and_Z_operand(ZOperandCategory::Zv_R, 0).bits(), Zv_R1 = OperandCodeBuilder::new().op0_is_rrr_and_Z_operand(ZOperandCategory::Zv_R, 1).bits(), Zv_R2 = OperandCodeBuilder::new().op0_is_rrr_and_Z_operand(ZOperandCategory::Zv_R, 2).bits(), Zv_R3 = OperandCodeBuilder::new().op0_is_rrr_and_Z_operand(ZOperandCategory::Zv_R, 3).bits(), Zv_R4 = OperandCodeBuilder::new().op0_is_rrr_and_Z_operand(ZOperandCategory::Zv_R, 4).bits(), Zv_R5 = OperandCodeBuilder::new().op0_is_rrr_and_Z_operand(ZOperandCategory::Zv_R, 5).bits(), Zv_R6 = OperandCodeBuilder::new().op0_is_rrr_and_Z_operand(ZOperandCategory::Zv_R, 6).bits(), Zv_R7 = OperandCodeBuilder::new().op0_is_rrr_and_Z_operand(ZOperandCategory::Zv_R, 7).bits(), Zv_AX_R0 = OperandCodeBuilder::new().op0_is_rrr_and_Z_operand(ZOperandCategory::Zv_AX, 0).bits(), Zv_AX_R1 = OperandCodeBuilder::new().op0_is_rrr_and_Z_operand(ZOperandCategory::Zv_AX, 1).bits(), Zv_AX_R2 = OperandCodeBuilder::new().op0_is_rrr_and_Z_operand(ZOperandCategory::Zv_AX, 2).bits(), Zv_AX_R3 = OperandCodeBuilder::new().op0_is_rrr_and_Z_operand(ZOperandCategory::Zv_AX, 3).bits(), Zv_AX_R4 = OperandCodeBuilder::new().op0_is_rrr_and_Z_operand(ZOperandCategory::Zv_AX, 4).bits(), Zv_AX_R5 = OperandCodeBuilder::new().op0_is_rrr_and_Z_operand(ZOperandCategory::Zv_AX, 5).bits(), Zv_AX_R6 = OperandCodeBuilder::new().op0_is_rrr_and_Z_operand(ZOperandCategory::Zv_AX, 6).bits(), Zv_AX_R7 = OperandCodeBuilder::new().op0_is_rrr_and_Z_operand(ZOperandCategory::Zv_AX, 7).bits(), Zb_Ib_R0 = OperandCodeBuilder::new().op0_is_rrr_and_Z_operand(ZOperandCategory::Zb_Ib_R, 0).bits(), Zb_Ib_R1 = OperandCodeBuilder::new().op0_is_rrr_and_Z_operand(ZOperandCategory::Zb_Ib_R, 1).bits(), Zb_Ib_R2 = OperandCodeBuilder::new().op0_is_rrr_and_Z_operand(ZOperandCategory::Zb_Ib_R, 2).bits(), Zb_Ib_R3 = OperandCodeBuilder::new().op0_is_rrr_and_Z_operand(ZOperandCategory::Zb_Ib_R, 3).bits(), Zb_Ib_R4 = OperandCodeBuilder::new().op0_is_rrr_and_Z_operand(ZOperandCategory::Zb_Ib_R, 4).bits(), Zb_Ib_R5 = OperandCodeBuilder::new().op0_is_rrr_and_Z_operand(ZOperandCategory::Zb_Ib_R, 5).bits(), Zb_Ib_R6 = OperandCodeBuilder::new().op0_is_rrr_and_Z_operand(ZOperandCategory::Zb_Ib_R, 6).bits(), Zb_Ib_R7 = OperandCodeBuilder::new().op0_is_rrr_and_Z_operand(ZOperandCategory::Zb_Ib_R, 7).bits(), Zv_Ivq_R0 = OperandCodeBuilder::new().op0_is_rrr_and_Z_operand(ZOperandCategory::Zv_Ivq_R, 0).bits(), Zv_Ivq_R1 = OperandCodeBuilder::new().op0_is_rrr_and_Z_operand(ZOperandCategory::Zv_Ivq_R, 1).bits(), Zv_Ivq_R2 = OperandCodeBuilder::new().op0_is_rrr_and_Z_operand(ZOperandCategory::Zv_Ivq_R, 2).bits(), Zv_Ivq_R3 = OperandCodeBuilder::new().op0_is_rrr_and_Z_operand(ZOperandCategory::Zv_Ivq_R, 3).bits(), Zv_Ivq_R4 = OperandCodeBuilder::new().op0_is_rrr_and_Z_operand(ZOperandCategory::Zv_Ivq_R, 4).bits(), Zv_Ivq_R5 = OperandCodeBuilder::new().op0_is_rrr_and_Z_operand(ZOperandCategory::Zv_Ivq_R, 5).bits(), Zv_Ivq_R6 = OperandCodeBuilder::new().op0_is_rrr_and_Z_operand(ZOperandCategory::Zv_Ivq_R, 6).bits(), Zv_Ivq_R7 = OperandCodeBuilder::new().op0_is_rrr_and_Z_operand(ZOperandCategory::Zv_Ivq_R, 7).bits(), Gv_Eb = OperandCodeBuilder::new().op0_is_rrr_and_embedded_instructions().operand_case(15).bits(), Gv_Ew = OperandCodeBuilder::new().op0_is_rrr_and_embedded_instructions().operand_case(16).bits(), Gv_Ew_LSL = OperandCodeBuilder::new().op0_is_rrr_and_embedded_instructions().operand_case(37).bits(), Gdq_Ed = OperandCodeBuilder::new().op0_is_rrr_and_embedded_instructions().operand_case(17).bits(), Gd_Ed = OperandCodeBuilder::new().op0_is_rrr_and_embedded_instructions().read_E().operand_case(51).bits(), Md_Gd = OperandCodeBuilder::new().op0_is_rrr_and_embedded_instructions().read_E().operand_case(52).bits(), // Edq_Gdq = OperandCodeBuilder::new().op0_is_rrr_and_embedded_instructions().read_E().operand_case(49).bits(), Gdq_Ev = OperandCodeBuilder::new().op0_is_rrr_and_embedded_instructions().operand_case(40).bits(), Mdq_Gdq = OperandCodeBuilder::new().op0_is_rrr_and_embedded_instructions().operand_case(51).bits(), G_E_xmm_Ib = OperandCodeBuilder::new().op0_is_rrr_and_embedded_instructions().operand_case(22).bits(), G_E_xmm_Ub = OperandCodeBuilder::new().op0_is_rrr_and_embedded_instructions().operand_case(60).bits(), G_U_xmm_Ub = OperandCodeBuilder::new().op0_is_rrr_and_embedded_instructions().operand_case(61).bits(), AL_Ob = OperandCodeBuilder::new().op0_is_rrr_and_embedded_instructions().operand_case(50).bits(), AL_Xb = OperandCodeBuilder::new().op0_is_rrr_and_embedded_instructions().operand_case(52).bits(), AX_Ov = OperandCodeBuilder::new().op0_is_rrr_and_embedded_instructions().operand_case(53).bits(), AL_Ibs = OperandCodeBuilder::new().op0_is_rrr_and_embedded_instructions().with_imm(false, 0).byte_operands().operand_case(23).bits(), AX_Ivd = OperandCodeBuilder::new().op0_is_rrr_and_embedded_instructions().operand_case(24).bits(), Eb_Gb = OperandCodeBuilder::new().op0_is_rrr_and_embedded_instructions().read_E().byte_operands().only_modrm_operands().mem_reg().bits(), Ev_Gv = OperandCodeBuilder::new().op0_is_rrr_and_embedded_instructions().read_E().only_modrm_operands().mem_reg().bits(), Gb_Eb = OperandCodeBuilder::new().op0_is_rrr_and_embedded_instructions().read_E().byte_operands().only_modrm_operands().reg_mem().bits(), Gv_Ev = OperandCodeBuilder::new().op0_is_rrr_and_embedded_instructions().read_E().only_modrm_operands().reg_mem().bits(), Gv_M = OperandCodeBuilder::new().op0_is_rrr_and_embedded_instructions().read_E().only_modrm_operands().reg_mem().operand_case(25).bits(), MOVDIR64B = OperandCodeBuilder::new().op0_is_rrr_and_embedded_instructions().read_E().reg_mem().operand_case(108).bits(), M_Gv = OperandCodeBuilder::new().op0_is_rrr_and_embedded_instructions().read_E().reg_mem().operand_case(109).bits(), Gv_Ev_Ib = OperandCodeBuilder::new().op0_is_rrr_and_embedded_instructions().read_E().with_imm(false, 0).reg_mem().operand_case(40).bits(), Gv_Ev_Iv = OperandCodeBuilder::new().op0_is_rrr_and_embedded_instructions().read_E().reg_mem().operand_case(41).bits(), Rv_Gmm_Ib = OperandCodeBuilder::new().op0_is_rrr_and_embedded_instructions().read_modrm().read_E().reg_mem().operand_case(55).bits(), // gap, 0x9a G_xmm_E_mm = OperandCodeBuilder::new().op0_is_rrr_and_embedded_instructions().read_E().reg_mem().operand_case(53).bits(), G_xmm_U_mm = OperandCodeBuilder::new().op0_is_rrr_and_embedded_instructions().read_E().reg_mem().operand_case(54).bits(), U_mm_G_xmm = OperandCodeBuilder::new().op0_is_rrr_and_embedded_instructions().read_E().mem_reg().operand_case(55).bits(), G_xmm_Edq = OperandCodeBuilder::new().op0_is_rrr_and_embedded_instructions().read_E().reg_mem().operand_case(56).bits(), G_xmm_Eq = OperandCodeBuilder::new().op0_is_rrr_and_embedded_instructions().read_E().reg_mem().operand_case(57).bits(), G_mm_E_xmm = OperandCodeBuilder::new().op0_is_rrr_and_embedded_instructions().read_E().reg_mem().operand_case(58).bits(), Gd_U_xmm = OperandCodeBuilder::new().op0_is_rrr_and_embedded_instructions().read_E().reg_mem().operand_case(59).bits(), Gv_E_xmm = OperandCodeBuilder::new().op0_is_rrr_and_embedded_instructions().read_E().reg_mem().operand_case(60).bits(), //= 0x816f, // mirror G_xmm_Edq, but also read an immediate G_xmm_Ew_Ib = OperandCodeBuilder::new().op0_is_rrr_and_embedded_instructions().read_E().reg_mem().operand_case(61).bits(), G_U_xmm = OperandCodeBuilder::new().op0_is_rrr_and_embedded_instructions().read_E().reg_mem().operand_case(62).bits(), G_M_xmm = OperandCodeBuilder::new().op0_is_rrr_and_embedded_instructions().read_E().reg_mem().operand_case(20).bits(), G_E_xmm = OperandCodeBuilder::new().op0_is_rrr_and_embedded_instructions().read_E().reg_mem().operand_case(21).bits(), E_G_xmm = OperandCodeBuilder::new().op0_is_rrr_and_embedded_instructions().read_E().mem_reg().operand_case(19).bits(), G_Ed_xmm = OperandCodeBuilder::new().op0_is_rrr_and_embedded_instructions().read_E().reg_mem().operand_case(31).bits(), Ed_G_xmm = OperandCodeBuilder::new().op0_is_rrr_and_embedded_instructions().read_E().mem_reg().operand_case(29).bits(), M_G_xmm = OperandCodeBuilder::new().op0_is_rrr_and_embedded_instructions().read_E().mem_reg().operand_case(63).bits(), G_E_mm = OperandCodeBuilder::new().op0_is_rrr_and_embedded_instructions().read_E().reg_mem().operand_case(64).bits(), G_U_mm = OperandCodeBuilder::new().op0_is_rrr_and_embedded_instructions().read_E().reg_mem().operand_case(65).bits(), E_G_mm = OperandCodeBuilder::new().op0_is_rrr_and_embedded_instructions().read_E().mem_reg().operand_case(66).bits(), Edq_G_mm = OperandCodeBuilder::new().op0_is_rrr_and_embedded_instructions().read_E().mem_reg().operand_case(67).bits(), Edq_G_xmm = OperandCodeBuilder::new().op0_is_rrr_and_embedded_instructions().read_E().mem_reg().operand_case(68).bits(), G_mm_Edq = OperandCodeBuilder::new().op0_is_rrr_and_embedded_instructions().read_E().mem_reg().operand_case(69).bits(), G_mm_E = OperandCodeBuilder::new().op0_is_rrr_and_embedded_instructions().read_E().mem_reg().operand_case(70).bits(), Ev_Gv_Ib = OperandCodeBuilder::new().op0_is_rrr_and_embedded_instructions().read_E().reg_mem().operand_case(71).bits(), Ev_Gv_CL = OperandCodeBuilder::new().op0_is_rrr_and_embedded_instructions().read_E().reg_mem().operand_case(72).bits(), G_mm_U_mm = OperandCodeBuilder::new().op0_is_rrr_and_embedded_instructions().read_E().reg_mem().operand_case(73).bits(), G_Mq_mm = OperandCodeBuilder::new().op0_is_rrr_and_embedded_instructions().read_E().reg_mem().operand_case(74).bits(), G_mm_Ew_Ib = OperandCodeBuilder::new().op0_is_rrr_and_embedded_instructions().operand_case(75).bits(), G_E_q = OperandCodeBuilder::new().op0_is_rrr_and_embedded_instructions().operand_case(76).bits(), E_G_q = OperandCodeBuilder::new().op0_is_rrr_and_embedded_instructions().operand_case(77).bits(), CVT_AA = OperandCodeBuilder::new().special_case(77).bits(), CVT_DA = OperandCodeBuilder::new().special_case(78).bits(), Rq_Cq_0 = OperandCodeBuilder::new().special_case(79).bits(), Rq_Dq_0 = OperandCodeBuilder::new().special_case(80).bits(), Cq_Rq_0 = OperandCodeBuilder::new().special_case(81).bits(), Dq_Rq_0 = OperandCodeBuilder::new().special_case(82).bits(), FS = OperandCodeBuilder::new().special_case(83).bits(), GS = OperandCodeBuilder::new().special_case(84).bits(), Yb_DX = OperandCodeBuilder::new().special_case(85).bits(), Yv_DX = OperandCodeBuilder::new().special_case(86).bits(), DX_Xb = OperandCodeBuilder::new().special_case(87).bits(), DX_Xv = OperandCodeBuilder::new().special_case(88).bits(), AH = OperandCodeBuilder::new().special_case(89).bits(), AX_Xv = OperandCodeBuilder::new().special_case(90).bits(), Ew_Sw = OperandCodeBuilder::new().special_case(91).bits(), Fw = OperandCodeBuilder::new().special_case(92).bits(), I_1 = OperandCodeBuilder::new().special_case(93).bits(), Iw = OperandCodeBuilder::new().special_case(94).bits(), Iw_Ib = OperandCodeBuilder::new().special_case(95).bits(), Ob_AL = OperandCodeBuilder::new().special_case(96).bits(), Ov_AX = OperandCodeBuilder::new().special_case(97).bits(), Sw_Ew = OperandCodeBuilder::new().special_case(98).bits(), Yb_AL = OperandCodeBuilder::new().special_case(99).bits(), Yb_Xb = OperandCodeBuilder::new().special_case(100).bits(), Yv_AX = OperandCodeBuilder::new().special_case(101).bits(), INV_Gv_M = OperandCodeBuilder::new().special_case(102).bits(), PMOVX_G_E_xmm = OperandCodeBuilder::new().operand_case(103).bits(), PMOVX_E_G_xmm = OperandCodeBuilder::new().operand_case(104).bits(), G_Ev_xmm_Ib = OperandCodeBuilder::new().operand_case(105).bits(), G_E_mm_Ib = OperandCodeBuilder::new().operand_case(106).bits(), } const LOCKABLE_INSTRUCTIONS: &[Opcode] = &[ Opcode::ADD, Opcode::ADC, Opcode::AND, Opcode::BTC, Opcode::BTR, Opcode::BTS, Opcode::CMPXCHG, Opcode::CMPXCHG8B, Opcode::CMPXCHG16B, Opcode::DEC, Opcode::INC, Opcode::NEG, Opcode::NOT, Opcode::OR, Opcode::SBB, Opcode::SUB, Opcode::XOR, Opcode::XADD, Opcode::XCHG, ]; fn base_opcode_map(v: u8) -> Opcode { match v { 0 => Opcode::ADD, 1 => Opcode::OR, 2 => Opcode::ADC, 3 => Opcode::SBB, 4 => Opcode::AND, 5 => Opcode::SUB, 6 => Opcode::XOR, 7 => Opcode::CMP, _ => { unsafe { unreachable_unchecked() } } } } const BITWISE_OPCODE_MAP: [Opcode; 8] = [ Opcode::ROL, Opcode::ROR, Opcode::RCL, Opcode::RCR, Opcode::SHL, Opcode::SHR, Opcode::SAL, Opcode::SAR ]; #[derive(Copy, Clone, Debug, PartialEq, Eq)] enum Interpretation { Instruction(Opcode), Prefix, } #[derive(Copy, Clone, Debug, PartialEq)] // this should be a 32-byte struct.. struct OpcodeRecord(Interpretation, OperandCode); #[test] fn opcode_record_size() { // there are more than 256 opcodes... // assert_eq!(core::mem::size_of::(), 4); } const OPCODES: [OpcodeRecord; 256] = [ OpcodeRecord(Interpretation::Instruction(Opcode::ADD), OperandCode::Eb_Gb), OpcodeRecord(Interpretation::Instruction(Opcode::ADD), OperandCode::Ev_Gv), OpcodeRecord(Interpretation::Instruction(Opcode::ADD), OperandCode::Gb_Eb), OpcodeRecord(Interpretation::Instruction(Opcode::ADD), OperandCode::Gv_Ev), OpcodeRecord(Interpretation::Instruction(Opcode::ADD), OperandCode::AL_Ibs), OpcodeRecord(Interpretation::Instruction(Opcode::ADD), OperandCode::AX_Ivd), OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::Nothing), OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::Nothing), OpcodeRecord(Interpretation::Instruction(Opcode::OR), OperandCode::Eb_Gb), OpcodeRecord(Interpretation::Instruction(Opcode::OR), OperandCode::Ev_Gv), OpcodeRecord(Interpretation::Instruction(Opcode::OR), OperandCode::Gb_Eb), OpcodeRecord(Interpretation::Instruction(Opcode::OR), OperandCode::Gv_Ev), OpcodeRecord(Interpretation::Instruction(Opcode::OR), OperandCode::AL_Ibs), OpcodeRecord(Interpretation::Instruction(Opcode::OR), OperandCode::AX_Ivd), OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::Nothing), OpcodeRecord(Interpretation::Prefix, OperandCode::Nothing), OpcodeRecord(Interpretation::Instruction(Opcode::ADC), OperandCode::Eb_Gb), OpcodeRecord(Interpretation::Instruction(Opcode::ADC), OperandCode::Ev_Gv), OpcodeRecord(Interpretation::Instruction(Opcode::ADC), OperandCode::Gb_Eb), OpcodeRecord(Interpretation::Instruction(Opcode::ADC), OperandCode::Gv_Ev), OpcodeRecord(Interpretation::Instruction(Opcode::ADC), OperandCode::AL_Ibs), OpcodeRecord(Interpretation::Instruction(Opcode::ADC), OperandCode::AX_Ivd), OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::Nothing), OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::Nothing), OpcodeRecord(Interpretation::Instruction(Opcode::SBB), OperandCode::Eb_Gb), OpcodeRecord(Interpretation::Instruction(Opcode::SBB), OperandCode::Ev_Gv), OpcodeRecord(Interpretation::Instruction(Opcode::SBB), OperandCode::Gb_Eb), OpcodeRecord(Interpretation::Instruction(Opcode::SBB), OperandCode::Gv_Ev), OpcodeRecord(Interpretation::Instruction(Opcode::SBB), OperandCode::AL_Ibs), OpcodeRecord(Interpretation::Instruction(Opcode::SBB), OperandCode::AX_Ivd), OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::Nothing), OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::Nothing), OpcodeRecord(Interpretation::Instruction(Opcode::AND), OperandCode::Eb_Gb), OpcodeRecord(Interpretation::Instruction(Opcode::AND), OperandCode::Ev_Gv), OpcodeRecord(Interpretation::Instruction(Opcode::AND), OperandCode::Gb_Eb), OpcodeRecord(Interpretation::Instruction(Opcode::AND), OperandCode::Gv_Ev), OpcodeRecord(Interpretation::Instruction(Opcode::AND), OperandCode::AL_Ibs), OpcodeRecord(Interpretation::Instruction(Opcode::AND), OperandCode::AX_Ivd), OpcodeRecord(Interpretation::Prefix, OperandCode::Nothing), OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::Nothing), OpcodeRecord(Interpretation::Instruction(Opcode::SUB), OperandCode::Eb_Gb), OpcodeRecord(Interpretation::Instruction(Opcode::SUB), OperandCode::Ev_Gv), OpcodeRecord(Interpretation::Instruction(Opcode::SUB), OperandCode::Gb_Eb), OpcodeRecord(Interpretation::Instruction(Opcode::SUB), OperandCode::Gv_Ev), OpcodeRecord(Interpretation::Instruction(Opcode::SUB), OperandCode::AL_Ibs), OpcodeRecord(Interpretation::Instruction(Opcode::SUB), OperandCode::AX_Ivd), OpcodeRecord(Interpretation::Prefix, OperandCode::Nothing), OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::Nothing), OpcodeRecord(Interpretation::Instruction(Opcode::XOR), OperandCode::Eb_Gb), OpcodeRecord(Interpretation::Instruction(Opcode::XOR), OperandCode::Ev_Gv), OpcodeRecord(Interpretation::Instruction(Opcode::XOR), OperandCode::Gb_Eb), OpcodeRecord(Interpretation::Instruction(Opcode::XOR), OperandCode::Gv_Ev), OpcodeRecord(Interpretation::Instruction(Opcode::XOR), OperandCode::AL_Ibs), OpcodeRecord(Interpretation::Instruction(Opcode::XOR), OperandCode::AX_Ivd), OpcodeRecord(Interpretation::Prefix, OperandCode::Nothing), OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::Nothing), OpcodeRecord(Interpretation::Instruction(Opcode::CMP), OperandCode::Eb_Gb), OpcodeRecord(Interpretation::Instruction(Opcode::CMP), OperandCode::Ev_Gv), OpcodeRecord(Interpretation::Instruction(Opcode::CMP), OperandCode::Gb_Eb), OpcodeRecord(Interpretation::Instruction(Opcode::CMP), OperandCode::Gv_Ev), OpcodeRecord(Interpretation::Instruction(Opcode::CMP), OperandCode::AL_Ibs), OpcodeRecord(Interpretation::Instruction(Opcode::CMP), OperandCode::AX_Ivd), OpcodeRecord(Interpretation::Prefix, OperandCode::Nothing), OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::Nothing), // 0x40: OpcodeRecord(Interpretation::Prefix, OperandCode::Nothing), OpcodeRecord(Interpretation::Prefix, OperandCode::Nothing), OpcodeRecord(Interpretation::Prefix, OperandCode::Nothing), OpcodeRecord(Interpretation::Prefix, OperandCode::Nothing), OpcodeRecord(Interpretation::Prefix, OperandCode::Nothing), OpcodeRecord(Interpretation::Prefix, OperandCode::Nothing), OpcodeRecord(Interpretation::Prefix, OperandCode::Nothing), OpcodeRecord(Interpretation::Prefix, OperandCode::Nothing), OpcodeRecord(Interpretation::Prefix, OperandCode::Nothing), OpcodeRecord(Interpretation::Prefix, OperandCode::Nothing), OpcodeRecord(Interpretation::Prefix, OperandCode::Nothing), OpcodeRecord(Interpretation::Prefix, OperandCode::Nothing), OpcodeRecord(Interpretation::Prefix, OperandCode::Nothing), OpcodeRecord(Interpretation::Prefix, OperandCode::Nothing), OpcodeRecord(Interpretation::Prefix, OperandCode::Nothing), OpcodeRecord(Interpretation::Prefix, OperandCode::Nothing), // 0x50: OpcodeRecord(Interpretation::Instruction(Opcode::PUSH), OperandCode::Zv_R0), OpcodeRecord(Interpretation::Instruction(Opcode::PUSH), OperandCode::Zv_R1), OpcodeRecord(Interpretation::Instruction(Opcode::PUSH), OperandCode::Zv_R2), OpcodeRecord(Interpretation::Instruction(Opcode::PUSH), OperandCode::Zv_R3), OpcodeRecord(Interpretation::Instruction(Opcode::PUSH), OperandCode::Zv_R4), OpcodeRecord(Interpretation::Instruction(Opcode::PUSH), OperandCode::Zv_R5), OpcodeRecord(Interpretation::Instruction(Opcode::PUSH), OperandCode::Zv_R6), OpcodeRecord(Interpretation::Instruction(Opcode::PUSH), OperandCode::Zv_R7), OpcodeRecord(Interpretation::Instruction(Opcode::POP), OperandCode::Zv_R0), OpcodeRecord(Interpretation::Instruction(Opcode::POP), OperandCode::Zv_R1), OpcodeRecord(Interpretation::Instruction(Opcode::POP), OperandCode::Zv_R2), OpcodeRecord(Interpretation::Instruction(Opcode::POP), OperandCode::Zv_R3), OpcodeRecord(Interpretation::Instruction(Opcode::POP), OperandCode::Zv_R4), OpcodeRecord(Interpretation::Instruction(Opcode::POP), OperandCode::Zv_R5), OpcodeRecord(Interpretation::Instruction(Opcode::POP), OperandCode::Zv_R6), OpcodeRecord(Interpretation::Instruction(Opcode::POP), OperandCode::Zv_R7), // 0x60 OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::Nothing), OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::Nothing), OpcodeRecord(Interpretation::Prefix, OperandCode::Nothing), OpcodeRecord(Interpretation::Instruction(Opcode::MOVSXD), OperandCode::Gdq_Ed), OpcodeRecord(Interpretation::Prefix, OperandCode::Nothing), OpcodeRecord(Interpretation::Prefix, OperandCode::Nothing), OpcodeRecord(Interpretation::Prefix, OperandCode::Nothing), OpcodeRecord(Interpretation::Prefix, OperandCode::Nothing), OpcodeRecord(Interpretation::Instruction(Opcode::PUSH), OperandCode::Ivs), OpcodeRecord(Interpretation::Instruction(Opcode::IMUL), OperandCode::Gv_Ev_Iv), OpcodeRecord(Interpretation::Instruction(Opcode::PUSH), OperandCode::Ibs), OpcodeRecord(Interpretation::Instruction(Opcode::IMUL), OperandCode::Gv_Ev_Ib), OpcodeRecord(Interpretation::Instruction(Opcode::INS), OperandCode::Yb_DX), OpcodeRecord(Interpretation::Instruction(Opcode::INS), OperandCode::Yv_DX), OpcodeRecord(Interpretation::Instruction(Opcode::OUTS), OperandCode::DX_Xb), OpcodeRecord(Interpretation::Instruction(Opcode::OUTS), OperandCode::DX_Xv), // 0x70 OpcodeRecord(Interpretation::Instruction(Opcode::JO), OperandCode::Ibs), OpcodeRecord(Interpretation::Instruction(Opcode::JNO), OperandCode::Ibs), OpcodeRecord(Interpretation::Instruction(Opcode::JB), OperandCode::Ibs), OpcodeRecord(Interpretation::Instruction(Opcode::JNB), OperandCode::Ibs), OpcodeRecord(Interpretation::Instruction(Opcode::JZ), OperandCode::Ibs), OpcodeRecord(Interpretation::Instruction(Opcode::JNZ), OperandCode::Ibs), OpcodeRecord(Interpretation::Instruction(Opcode::JNA), OperandCode::Ibs), OpcodeRecord(Interpretation::Instruction(Opcode::JA), OperandCode::Ibs), OpcodeRecord(Interpretation::Instruction(Opcode::JS), OperandCode::Ibs), OpcodeRecord(Interpretation::Instruction(Opcode::JNS), OperandCode::Ibs), OpcodeRecord(Interpretation::Instruction(Opcode::JP), OperandCode::Ibs), OpcodeRecord(Interpretation::Instruction(Opcode::JNP), OperandCode::Ibs), OpcodeRecord(Interpretation::Instruction(Opcode::JL), OperandCode::Ibs), OpcodeRecord(Interpretation::Instruction(Opcode::JGE), OperandCode::Ibs), OpcodeRecord(Interpretation::Instruction(Opcode::JLE), OperandCode::Ibs), OpcodeRecord(Interpretation::Instruction(Opcode::JG), OperandCode::Ibs), // 0x80 OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::ModRM_0x80_Eb_Ib), OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::ModRM_0x81_Ev_Ivs), OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::Nothing), OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::ModRM_0x83_Ev_Ibs), OpcodeRecord(Interpretation::Instruction(Opcode::TEST), OperandCode::Eb_Gb), OpcodeRecord(Interpretation::Instruction(Opcode::TEST), OperandCode::Ev_Gv), OpcodeRecord(Interpretation::Instruction(Opcode::XCHG), OperandCode::Eb_Gb), OpcodeRecord(Interpretation::Instruction(Opcode::XCHG), OperandCode::Ev_Gv), OpcodeRecord(Interpretation::Instruction(Opcode::MOV), OperandCode::Eb_Gb), OpcodeRecord(Interpretation::Instruction(Opcode::MOV), OperandCode::Ev_Gv), OpcodeRecord(Interpretation::Instruction(Opcode::MOV), OperandCode::Gb_Eb), OpcodeRecord(Interpretation::Instruction(Opcode::MOV), OperandCode::Gv_Ev), OpcodeRecord(Interpretation::Instruction(Opcode::MOV), OperandCode::Ew_Sw), OpcodeRecord(Interpretation::Instruction(Opcode::LEA), OperandCode::Gv_M), OpcodeRecord(Interpretation::Instruction(Opcode::MOV), OperandCode::Sw_Ew), OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::ModRM_0x8f_Ev), OpcodeRecord(Interpretation::Instruction(Opcode::XCHG), OperandCode::Zv_AX_R0), OpcodeRecord(Interpretation::Instruction(Opcode::XCHG), OperandCode::Zv_AX_R1), OpcodeRecord(Interpretation::Instruction(Opcode::XCHG), OperandCode::Zv_AX_R2), OpcodeRecord(Interpretation::Instruction(Opcode::XCHG), OperandCode::Zv_AX_R3), OpcodeRecord(Interpretation::Instruction(Opcode::XCHG), OperandCode::Zv_AX_R4), OpcodeRecord(Interpretation::Instruction(Opcode::XCHG), OperandCode::Zv_AX_R5), OpcodeRecord(Interpretation::Instruction(Opcode::XCHG), OperandCode::Zv_AX_R6), OpcodeRecord(Interpretation::Instruction(Opcode::XCHG), OperandCode::Zv_AX_R7), OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::CVT_AA), OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::CVT_DA), OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::Nothing), OpcodeRecord(Interpretation::Instruction(Opcode::WAIT), OperandCode::Nothing), OpcodeRecord(Interpretation::Instruction(Opcode::PUSHF), OperandCode::Nothing), OpcodeRecord(Interpretation::Instruction(Opcode::POPF), OperandCode::Nothing), OpcodeRecord(Interpretation::Instruction(Opcode::SAHF), OperandCode::AH), OpcodeRecord(Interpretation::Instruction(Opcode::LAHF), OperandCode::AH), OpcodeRecord(Interpretation::Instruction(Opcode::MOV), OperandCode::AL_Ob), OpcodeRecord(Interpretation::Instruction(Opcode::MOV), OperandCode::AX_Ov), OpcodeRecord(Interpretation::Instruction(Opcode::MOV), OperandCode::Ob_AL), OpcodeRecord(Interpretation::Instruction(Opcode::MOV), OperandCode::Ov_AX), OpcodeRecord(Interpretation::Instruction(Opcode::MOVS), OperandCode::Yb_Xb), OpcodeRecord(Interpretation::Instruction(Opcode::MOVS), OperandCode::Yv_Xv), OpcodeRecord(Interpretation::Instruction(Opcode::CMPS), OperandCode::Yb_Xb), OpcodeRecord(Interpretation::Instruction(Opcode::CMPS), OperandCode::Yv_Xv), OpcodeRecord(Interpretation::Instruction(Opcode::TEST), OperandCode::AL_Ibs), OpcodeRecord(Interpretation::Instruction(Opcode::TEST), OperandCode::AX_Ivd), OpcodeRecord(Interpretation::Instruction(Opcode::STOS), OperandCode::Yb_AL), OpcodeRecord(Interpretation::Instruction(Opcode::STOS), OperandCode::Yv_AX), OpcodeRecord(Interpretation::Instruction(Opcode::LODS), OperandCode::AL_Xb), OpcodeRecord(Interpretation::Instruction(Opcode::LODS), OperandCode::AX_Xv), OpcodeRecord(Interpretation::Instruction(Opcode::SCAS), OperandCode::Yb_AL), OpcodeRecord(Interpretation::Instruction(Opcode::SCAS), OperandCode::Yv_AX), // 0xb0 OpcodeRecord(Interpretation::Instruction(Opcode::MOV), OperandCode::Zb_Ib_R0), OpcodeRecord(Interpretation::Instruction(Opcode::MOV), OperandCode::Zb_Ib_R1), OpcodeRecord(Interpretation::Instruction(Opcode::MOV), OperandCode::Zb_Ib_R2), OpcodeRecord(Interpretation::Instruction(Opcode::MOV), OperandCode::Zb_Ib_R3), OpcodeRecord(Interpretation::Instruction(Opcode::MOV), OperandCode::Zb_Ib_R4), OpcodeRecord(Interpretation::Instruction(Opcode::MOV), OperandCode::Zb_Ib_R5), OpcodeRecord(Interpretation::Instruction(Opcode::MOV), OperandCode::Zb_Ib_R6), OpcodeRecord(Interpretation::Instruction(Opcode::MOV), OperandCode::Zb_Ib_R7), OpcodeRecord(Interpretation::Instruction(Opcode::MOV), OperandCode::Zv_Ivq_R0), OpcodeRecord(Interpretation::Instruction(Opcode::MOV), OperandCode::Zv_Ivq_R1), OpcodeRecord(Interpretation::Instruction(Opcode::MOV), OperandCode::Zv_Ivq_R2), OpcodeRecord(Interpretation::Instruction(Opcode::MOV), OperandCode::Zv_Ivq_R3), OpcodeRecord(Interpretation::Instruction(Opcode::MOV), OperandCode::Zv_Ivq_R4), OpcodeRecord(Interpretation::Instruction(Opcode::MOV), OperandCode::Zv_Ivq_R5), OpcodeRecord(Interpretation::Instruction(Opcode::MOV), OperandCode::Zv_Ivq_R6), OpcodeRecord(Interpretation::Instruction(Opcode::MOV), OperandCode::Zv_Ivq_R7), // 0xc0 OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::ModRM_0xc0_Eb_Ib), OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::ModRM_0xc1_Ev_Ib), OpcodeRecord(Interpretation::Instruction(Opcode::RETURN), OperandCode::Iw), OpcodeRecord(Interpretation::Instruction(Opcode::RETURN), OperandCode::Nothing), OpcodeRecord(Interpretation::Prefix, OperandCode::Nothing), OpcodeRecord(Interpretation::Prefix, OperandCode::Nothing), OpcodeRecord(Interpretation::Instruction(Opcode::MOV), OperandCode::ModRM_0xc6_Eb_Ib), OpcodeRecord(Interpretation::Instruction(Opcode::MOV), OperandCode::ModRM_0xc7_Ev_Iv), OpcodeRecord(Interpretation::Instruction(Opcode::ENTER), OperandCode::Iw_Ib), OpcodeRecord(Interpretation::Instruction(Opcode::LEAVE), OperandCode::Nothing), OpcodeRecord(Interpretation::Instruction(Opcode::RETF), OperandCode::Iw), OpcodeRecord(Interpretation::Instruction(Opcode::RETF), OperandCode::Nothing), OpcodeRecord(Interpretation::Instruction(Opcode::INT), OperandCode::I_3), OpcodeRecord(Interpretation::Instruction(Opcode::INT), OperandCode::Ib), OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::Nothing), OpcodeRecord(Interpretation::Instruction(Opcode::IRET), OperandCode::Fw), // 0xd0 OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::ModRM_0xd0_Eb_1), OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::ModRM_0xd1_Ev_1), OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::ModRM_0xd2_Eb_CL), OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::ModRM_0xd3_Ev_CL), OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::Nothing), OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::Nothing), OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::Nothing), // XLAT OpcodeRecord(Interpretation::Instruction(Opcode::XLAT), OperandCode::Nothing), // x86 d8 OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::x87_d8), // x86 d9 OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::x87_d9), // x86 da OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::x87_da), // x86 db OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::x87_db), // x86 dc OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::x87_dc), // x86 dd OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::x87_dd), // x86 de OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::x87_de), // x86 df OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::x87_df), // 0xe0 OpcodeRecord(Interpretation::Instruction(Opcode::LOOPNZ), OperandCode::Ibs), OpcodeRecord(Interpretation::Instruction(Opcode::LOOPZ), OperandCode::Ibs), OpcodeRecord(Interpretation::Instruction(Opcode::LOOP), OperandCode::Ibs), OpcodeRecord(Interpretation::Instruction(Opcode::JRCXZ), OperandCode::Ibs), OpcodeRecord(Interpretation::Instruction(Opcode::IN), OperandCode::AL_Ib), OpcodeRecord(Interpretation::Instruction(Opcode::IN), OperandCode::AX_Ib), OpcodeRecord(Interpretation::Instruction(Opcode::OUT), OperandCode::Ib_AL), OpcodeRecord(Interpretation::Instruction(Opcode::OUT), OperandCode::Ib_AX), // 0xe8 OpcodeRecord(Interpretation::Instruction(Opcode::CALL), OperandCode::Jvds), OpcodeRecord(Interpretation::Instruction(Opcode::JMP), OperandCode::Jvds), OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::Nothing), OpcodeRecord(Interpretation::Instruction(Opcode::JMP), OperandCode::Ibs), OpcodeRecord(Interpretation::Instruction(Opcode::IN), OperandCode::AL_DX), OpcodeRecord(Interpretation::Instruction(Opcode::IN), OperandCode::AX_DX), OpcodeRecord(Interpretation::Instruction(Opcode::OUT), OperandCode::DX_AL), OpcodeRecord(Interpretation::Instruction(Opcode::OUT), OperandCode::DX_AX), // 0xf0 OpcodeRecord(Interpretation::Prefix, OperandCode::Nothing), // ICEBP? OpcodeRecord(Interpretation::Instruction(Opcode::INT), OperandCode::I_1), OpcodeRecord(Interpretation::Prefix, OperandCode::Nothing), OpcodeRecord(Interpretation::Prefix, OperandCode::Nothing), // 0xf4 OpcodeRecord(Interpretation::Instruction(Opcode::HLT), OperandCode::Nothing), // CMC OpcodeRecord(Interpretation::Instruction(Opcode::CMC), OperandCode::Nothing), OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::ModRM_0xf6), OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::ModRM_0xf7), OpcodeRecord(Interpretation::Instruction(Opcode::CLC), OperandCode::Nothing), OpcodeRecord(Interpretation::Instruction(Opcode::STC), OperandCode::Nothing), OpcodeRecord(Interpretation::Instruction(Opcode::CLI), OperandCode::Nothing), OpcodeRecord(Interpretation::Instruction(Opcode::STI), OperandCode::Nothing), OpcodeRecord(Interpretation::Instruction(Opcode::CLD), OperandCode::Nothing), OpcodeRecord(Interpretation::Instruction(Opcode::STD), OperandCode::Nothing), OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::ModRM_0xfe_Eb), // TODO: test 0xff /3 OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::ModRM_0xff_Ev), ]; #[allow(non_snake_case)] pub(self) fn read_E< T: Reader<::Address, ::Word>, S: DescriptionSink, >(words: &mut T, instr: &mut Instruction, modrm: u8, width: u8, sink: &mut S) -> Result { let bank = width_to_gp_reg_bank(width, instr.prefixes.rex_unchecked().present()); if modrm >= 0b11000000 { read_modrm_reg(instr, words, modrm, bank, sink) } else { read_M(words, instr, modrm, sink) } } #[allow(non_snake_case)] pub(self) fn read_E_mm< T: Reader<::Address, ::Word>, S: DescriptionSink, >(words: &mut T, instr: &mut Instruction, modrm: u8, sink: &mut S) -> Result { if modrm >= 0b11000000 { instr.regs[1] = RegSpec { bank: RegisterBank::MM, num: modrm & 7 }; Ok(OperandSpec::RegMMM) } else { read_M(words, instr, modrm, sink) } } #[allow(non_snake_case)] pub(self) fn read_E_st< T: Reader<::Address, ::Word>, S: DescriptionSink, >(words: &mut T, instr: &mut Instruction, modrm: u8, sink: &mut S) -> Result { if modrm >= 0b11000000 { instr.regs[1] = RegSpec { bank: RegisterBank::ST, num: modrm & 7 }; Ok(OperandSpec::RegMMM) } else { read_M(words, instr, modrm, sink) } } #[allow(non_snake_case)] pub(self) fn read_E_xmm< T: Reader<::Address, ::Word>, S: DescriptionSink, >(words: &mut T, instr: &mut Instruction, modrm: u8, sink: &mut S) -> Result { if modrm >= 0b11000000 { read_modrm_reg(instr, words, modrm, RegisterBank::X, sink) } else { read_M(words, instr, modrm, sink) } } #[allow(non_snake_case)] pub(self) fn read_E_ymm< T: Reader<::Address, ::Word>, S: DescriptionSink, >(words: &mut T, instr: &mut Instruction, modrm: u8, sink: &mut S) -> Result { if modrm >= 0b11000000 { read_modrm_reg(instr, words, modrm, RegisterBank::Y, sink) } else { read_M(words, instr, modrm, sink) } } #[allow(non_snake_case)] pub(self) fn read_E_vex< T: Reader<::Address, ::Word>, S: DescriptionSink, >(words: &mut T, instr: &mut Instruction, modrm: u8, bank: RegisterBank, sink: &mut S) -> Result { if modrm >= 0b11000000 { read_modrm_reg(instr, words, modrm, bank, sink) } else { let res = read_M(words, instr, modrm, sink)?; if (modrm & 0b01_000_000) == 0b01_000_000 { instr.prefixes.apply_compressed_disp(true); } Ok(res) } } #[allow(non_snake_case)] #[inline(always)] fn read_modrm_reg< T: Reader<::Address, ::Word>, S: DescriptionSink, >(instr: &mut Instruction, words: &mut T, modrm: u8, reg_bank: RegisterBank, sink: &mut S) -> Result { instr.regs[1] = RegSpec::from_parts(modrm & 7, instr.prefixes.rex_unchecked().b(), reg_bank); sink.record( words.offset() as u32 * 8 - 8, words.offset() as u32 * 8 - 6, InnerDescription::RegisterNumber("mmm", modrm & 7, instr.regs[1]) .with_id(words.offset() as u32 * 8 - 8 + 2) ); Ok(OperandSpec::RegMMM) } #[inline(always)] fn read_sib_disp< T: Reader<::Address, ::Word>, S: DescriptionSink, >(instr: &Instruction, words: &mut T, modbits: u8, sibbyte: u8, sink: &mut S) -> Result { let sib_start = words.offset() as u32 * 8 - 8; let modbit_addr = words.offset() as u32 * 8 - 10; let disp_start = words.offset() as u32 * 8; let disp = if modbits == 0b00 { if (sibbyte & 7) == 0b101 { sink.record(modbit_addr, modbit_addr + 1, InnerDescription::Misc("4-byte displacement").with_id(sib_start + 0)); sink.record(sib_start, sib_start + 2, InnerDescription::Misc("4-byte displacement").with_id(sib_start + 0)); let disp = read_num(words, 4)? as i32; sink.record(disp_start, disp_start + 31, InnerDescription::Number("displacement", disp as i64).with_id(sib_start + 1)); disp } else { 0 } } else if modbits == 0b01 { sink.record(modbit_addr, modbit_addr + 1, InnerDescription::Misc("1-byte displacement").with_id(sib_start + 0)); if instr.prefixes.evex().is_some() { sink.record(modbit_addr, modbit_addr + 1, InnerDescription::Misc("EVEX prefix implies displacement is scaled by vector size") .with_id(sib_start + 0)); } let disp = read_num(words, 1)? as i8 as i32; sink.record(disp_start, disp_start + 7, InnerDescription::Number("displacement", disp as i64).with_id(sib_start + 1)); disp } else { sink.record(modbit_addr, modbit_addr + 1, InnerDescription::Misc("4-byte displacement").with_id(sib_start + 0)); let disp = read_num(words, 4)? as i32; sink.record(disp_start, disp_start + 31, InnerDescription::Number("displacement", disp as i64).with_id(sib_start + 1)); disp }; Ok(disp) } #[allow(non_snake_case)] #[inline(always)] fn read_sib< T: Reader<::Address, ::Word>, S: DescriptionSink, >(words: &mut T, instr: &mut Instruction, modrm: u8, sink: &mut S) -> Result { let modrm_start = words.offset() as u32 * 8 - 8; let sib_start = words.offset() as u32 * 8; let modbits = modrm >> 6; let sibbyte = words.next().ok().ok_or(DecodeError::ExhaustedInput)?; instr.regs[1].num |= sibbyte & 7; instr.regs[2].num |= (sibbyte >> 3) & 7; let disp = read_sib_disp(instr, words, modbits, sibbyte, sink)?; instr.disp = disp as u32 as u64; let scale = 1u8 << (sibbyte >> 6); instr.scale = scale; let op_spec = if disp == 0 { if (sibbyte & 7) == 0b101 { sink.record( sib_start, sib_start + 2, InnerDescription::Misc("bbb selects displacement in address, but displacement is 0") .with_id(sib_start + 0) ); if instr.regs[2].num == 0b0100 { sink.record( sib_start + 3, sib_start + 5, InnerDescription::Misc("iii + rex.x selects no index register") .with_id(sib_start + 0) ); if modbits == 0b00 { sink.record( modrm_start + 6, modrm_start + 7, InnerDescription::Misc("mod bits select no base register, absolute [disp32] only") .with_id(sib_start + 0) ); OperandSpec::DispU32 } else { sink.record( modrm_start + 6, modrm_start + 7, InnerDescription::RegisterNumber("mod", 0b101, instr.regs[1]) .with_id(sib_start + 0) ); OperandSpec::Deref } } else { sink.record( sib_start + 3, sib_start + 5, InnerDescription::RegisterNumber("iii", instr.regs[2].num & 0b111, instr.regs[2]) .with_id(sib_start + 0) ); if modbits == 0 { sink.record( modrm_start + 6, modrm_start + 7, InnerDescription::Misc("mod bits select no base register") .with_id(sib_start + 0) ); OperandSpec::RegScale } else { sink.record( modrm_start + 6, modrm_start + 7, InnerDescription::RegisterNumber("mod", 0b101, instr.regs[1]) .with_id(sib_start + 0) ); OperandSpec::RegIndexBaseScale } } } else { if instr.regs[2].num == 0b0100 { sink.record( sib_start + 3, sib_start + 5, InnerDescription::Misc("iii + rex.x selects no index register") .with_id(sib_start + 0) ); OperandSpec::Deref } else { sink.record( sib_start + 3, sib_start + 5, InnerDescription::RegisterNumber("iii", instr.regs[2].num & 0b111, instr.regs[2]) .with_id(sib_start + 0) ); OperandSpec::RegIndexBaseScale } } } else { if (sibbyte & 7) == 0b101 { sink.record( sib_start, sib_start + 2, InnerDescription::Misc("bbb selects displacement in address") .with_id(sib_start + 0) ); if instr.regs[2].num == 0b0100 { sink.record( sib_start + 3, sib_start + 5, InnerDescription::Misc("iii + rex.x selects no index register") .with_id(sib_start + 0) ); if modbits == 0b00 { sink.record( modrm_start + 6, modrm_start + 7, InnerDescription::Misc("mod bits select no base register, absolute [disp32] only") .with_id(sib_start + 0) ); OperandSpec::DispU32 } else { sink.record( modrm_start + 6, modrm_start + 7, InnerDescription::RegisterNumber("mod", 0b101, instr.regs[1]) .with_id(sib_start + 0) ); OperandSpec::RegDisp } } else { sink.record( sib_start + 3, sib_start + 5, InnerDescription::RegisterNumber("iii", instr.regs[2].num & 0b111, instr.regs[2]) .with_id(sib_start + 0) ); if modbits == 0 { sink.record( modrm_start + 6, modrm_start + 7, InnerDescription::Misc("mod bits select no base register, [index+disp] only") .with_id(sib_start + 0) ); OperandSpec::RegScaleDisp } else { sink.record( modrm_start + 6, modrm_start + 7, InnerDescription::RegisterNumber("mod", 0b101, instr.regs[1]) .with_id(sib_start + 0) ); OperandSpec::RegIndexBaseScaleDisp } } } else { sink.record( sib_start + 0, sib_start + 2, InnerDescription::RegisterNumber("bbb", instr.regs[1].num & 0b111, instr.regs[2]) .with_id(sib_start + 0) ); if instr.regs[2].num == 0b0100 { sink.record( sib_start + 3, sib_start + 5, InnerDescription::Misc("iii + rex.x selects no index register") .with_id(sib_start + 0) ); OperandSpec::RegDisp } else { sink.record( sib_start + 3, sib_start + 5, InnerDescription::RegisterNumber("iii", instr.regs[2].num & 0b111, instr.regs[2]) .with_id(sib_start + 0) ); OperandSpec::RegIndexBaseScaleDisp } } }; // b = 101? // i = 100? // rex.x? // mod = 0? // disp = 0? Ok(op_spec) } #[allow(non_snake_case)] #[inline(always)] fn read_M< T: Reader<::Address, ::Word>, S: DescriptionSink >(words: &mut T, instr: &mut Instruction, modrm: u8, sink: &mut S) -> Result { let modrm_start = words.offset() as u32 * 8 - 8; let modbits = modrm >> 6; let mmm = modrm & 7; let op_spec = if mmm == 4 { if instr.prefixes.rex_unchecked().b() { instr.regs[1].num = 0b1000; } else { instr.regs[1].num = 0; } if instr.prefixes.rex_unchecked().x() { instr.regs[2].num = 0b1000; } else { instr.regs[2].num = 0; } sink.record( modrm_start, modrm_start + 2, InnerDescription::Misc("`mmm` field selects sib access") .with_id(modrm_start + 2) ); return read_sib(words, instr, modrm, sink); } else if mmm == 5 && modbits == 0b00 { sink.record( modrm_start + 6, modrm_start + 7, InnerDescription::Misc("rip-relative reference") .with_id(modrm_start + 0) ); sink.record( modrm_start + 0, modrm_start + 2, InnerDescription::Misc("rip-relative reference") .with_id(modrm_start + 0) ); if instr.prefixes.address_size() { sink.record( modrm_start + 6, modrm_start + 7, InnerDescription::Misc("address-size override selects `eip` instead") .with_id(modrm_start + 1) ); sink.record( modrm_start + 0, modrm_start + 2, InnerDescription::Misc("address-size override selects `eip` instead") .with_id(modrm_start + 1) ); } let disp = read_num(words, 4)? as i32; sink.record( modrm_start + 8, modrm_start + 8 + 32, InnerDescription::Number("displacement", disp as i64) .with_id(modrm_start + 3) ); instr.regs[1] = if !instr.prefixes.address_size() { RegSpec::rip() } else { RegSpec::eip() }; if disp == 0 { OperandSpec::Deref } else { instr.disp = disp as i64 as u64; OperandSpec::RegDisp } } else { if instr.prefixes.rex_unchecked().b() { instr.regs[1].num = 0b1000; } else { instr.regs[1].num = 0; } instr.regs[1].num |= mmm; sink.record( modrm_start, modrm_start + 2, InnerDescription::RegisterNumber("mmm", modrm & 7, instr.regs[1]) .with_id(modrm_start + 2) ); if modbits == 0b00 { sink.record( modrm_start + 6, modrm_start + 7, InnerDescription::Misc("memory operand is [reg] with no displacement, register selected by `mmm` (mod bits: 00)") .with_id(modrm_start + 0) ); OperandSpec::Deref } else { let disp_start = words.offset(); let disp = if modbits == 0b01 { sink.record( modrm_start + 6, modrm_start + 7, InnerDescription::Misc("memory operand is [reg+disp8] indexed by register selected by `mmm` (mod bits: 01)") .with_id(modrm_start + 0) ); read_num(words, 1)? as i8 as i32 } else { sink.record( modrm_start + 6, modrm_start + 7, InnerDescription::Misc("memory operand is [reg+disp32] indexed by register selected by `mmm` (mod bits: 10)") .with_id(modrm_start + 0) ); read_num(words, 4)? as i32 }; let disp_end = words.offset(); sink.record( disp_start as u32 * 8, disp_end as u32 * 8 - 1, InnerDescription::Number("displacement", disp as i64) .with_id(words.offset() as u32 * 8 + 3) ); if disp == 0 { OperandSpec::Deref } else { instr.disp = disp as i64 as u64; OperandSpec::RegDisp } } }; Ok(op_spec) } #[inline] fn width_to_gp_reg_bank(width: u8, rex: bool) -> RegisterBank { // transform (width, rex) into an index into an index into a LUT, instead of branching as // `match` would. let index = (width.trailing_zeros() << 1) | (rex as u32); const BANK_LUT: [RegisterBank; 8] = [ RegisterBank::B, RegisterBank::rB, RegisterBank::W, RegisterBank::W, RegisterBank::D, RegisterBank::D, RegisterBank::Q, RegisterBank::Q, ]; *BANK_LUT.get(index as usize).unwrap_or_else(|| unsafe { unreachable_unchecked() }) } #[inline(always)] fn read_0f_opcode(opcode: u8, prefixes: &mut Prefixes) -> OpcodeRecord { // seems like f2 takes priority, then f3, then 66, then "no prefix". for SOME instructions an // invalid prefix is in fact an invalid instruction. so just duplicate for the four kinds of // opcode lists. if prefixes.repnz() { REPNZ_0F_CODES[opcode as usize] } else if prefixes.rep() { REP_0F_CODES[opcode as usize] } else if prefixes.operand_size() { OPERAND_SIZE_0F_CODES[opcode as usize] } else { NORMAL_0F_CODES[opcode as usize] } } fn read_0f38_opcode(opcode: u8, prefixes: &mut Prefixes) -> OpcodeRecord { if prefixes.rep() { return match opcode { 0xd8 => OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::ModRM_0xf30f38d8), 0xdc => OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::ModRM_0xf30f38dc), 0xdd => OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::ModRM_0xf30f38dd), 0xde => OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::ModRM_0xf30f38de), 0xdf => OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::ModRM_0xf30f38df), 0xf6 => OpcodeRecord(Interpretation::Instruction(Opcode::ADOX), OperandCode::Gv_Ev), 0xf8 => { prefixes.unset_operand_size(); OpcodeRecord(Interpretation::Instruction(Opcode::ENQCMDS), OperandCode::INV_Gv_M) }, 0xfa => OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::ModRM_0xf30f38fa), 0xfb => OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::ModRM_0xf30f38fb), _ => OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::Nothing), }; } if prefixes.repnz() { return match opcode { 0xf0 => OpcodeRecord(Interpretation::Instruction(Opcode::CRC32), OperandCode::Gv_Eb), 0xf1 => OpcodeRecord(Interpretation::Instruction(Opcode::CRC32), OperandCode::Gdq_Ev), 0xf8 => { prefixes.unset_operand_size(); OpcodeRecord(Interpretation::Instruction(Opcode::ENQCMD), OperandCode::INV_Gv_M) }, _ => OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::Nothing), }; } if prefixes.operand_size() { // leave operand size present for `movbe` if opcode != 0xf0 && opcode != 0xf1 { prefixes.unset_operand_size(); } return match opcode { 0x00 => OpcodeRecord(Interpretation::Instruction(Opcode::PSHUFB), OperandCode::G_E_xmm), 0x01 => OpcodeRecord(Interpretation::Instruction(Opcode::PHADDW), OperandCode::G_E_xmm), 0x02 => OpcodeRecord(Interpretation::Instruction(Opcode::PHADDD), OperandCode::G_E_xmm), 0x03 => OpcodeRecord(Interpretation::Instruction(Opcode::PHADDSW), OperandCode::G_E_xmm), 0x04 => OpcodeRecord(Interpretation::Instruction(Opcode::PMADDUBSW), OperandCode::G_E_xmm), 0x05 => OpcodeRecord(Interpretation::Instruction(Opcode::PHSUBW), OperandCode::G_E_xmm), 0x06 => OpcodeRecord(Interpretation::Instruction(Opcode::PHSUBD), OperandCode::G_E_xmm), 0x07 => OpcodeRecord(Interpretation::Instruction(Opcode::PHSUBSW), OperandCode::G_E_xmm), 0x08 => OpcodeRecord(Interpretation::Instruction(Opcode::PSIGNB), OperandCode::G_E_xmm), 0x09 => OpcodeRecord(Interpretation::Instruction(Opcode::PSIGNW), OperandCode::G_E_xmm), 0x0a => OpcodeRecord(Interpretation::Instruction(Opcode::PSIGND), OperandCode::G_E_xmm), 0x0b => OpcodeRecord(Interpretation::Instruction(Opcode::PMULHRSW), OperandCode::G_E_xmm), 0x10 => OpcodeRecord(Interpretation::Instruction(Opcode::PBLENDVB), OperandCode::G_E_xmm), 0x14 => OpcodeRecord(Interpretation::Instruction(Opcode::BLENDVPS), OperandCode::G_E_xmm), 0x15 => OpcodeRecord(Interpretation::Instruction(Opcode::BLENDVPD), OperandCode::G_E_xmm), 0x17 => OpcodeRecord(Interpretation::Instruction(Opcode::PTEST), OperandCode::G_E_xmm), 0x1c => OpcodeRecord(Interpretation::Instruction(Opcode::PABSB), OperandCode::G_E_xmm), 0x1d => OpcodeRecord(Interpretation::Instruction(Opcode::PABSW), OperandCode::G_E_xmm), 0x1e => OpcodeRecord(Interpretation::Instruction(Opcode::PABSD), OperandCode::G_E_xmm), 0x20 => OpcodeRecord(Interpretation::Instruction(Opcode::PMOVSXBW), OperandCode::PMOVX_G_E_xmm), 0x21 => OpcodeRecord(Interpretation::Instruction(Opcode::PMOVSXBD), OperandCode::PMOVX_G_E_xmm), 0x22 => OpcodeRecord(Interpretation::Instruction(Opcode::PMOVSXBQ), OperandCode::PMOVX_G_E_xmm), 0x23 => OpcodeRecord(Interpretation::Instruction(Opcode::PMOVSXWD), OperandCode::PMOVX_G_E_xmm), 0x24 => OpcodeRecord(Interpretation::Instruction(Opcode::PMOVSXWQ), OperandCode::PMOVX_G_E_xmm), 0x25 => OpcodeRecord(Interpretation::Instruction(Opcode::PMOVSXDQ), OperandCode::PMOVX_G_E_xmm), 0x28 => OpcodeRecord(Interpretation::Instruction(Opcode::PMULDQ), OperandCode::G_E_xmm), 0x29 => OpcodeRecord(Interpretation::Instruction(Opcode::PCMPEQQ), OperandCode::G_E_xmm), 0x2a => OpcodeRecord(Interpretation::Instruction(Opcode::MOVNTDQA), OperandCode::G_M_xmm), 0x2b => OpcodeRecord(Interpretation::Instruction(Opcode::PACKUSDW), OperandCode::G_E_xmm), 0x30 => OpcodeRecord(Interpretation::Instruction(Opcode::PMOVZXBW), OperandCode::PMOVX_G_E_xmm), 0x31 => OpcodeRecord(Interpretation::Instruction(Opcode::PMOVZXBD), OperandCode::PMOVX_G_E_xmm), 0x32 => OpcodeRecord(Interpretation::Instruction(Opcode::PMOVZXBQ), OperandCode::PMOVX_G_E_xmm), 0x33 => OpcodeRecord(Interpretation::Instruction(Opcode::PMOVZXWD), OperandCode::PMOVX_G_E_xmm), 0x34 => OpcodeRecord(Interpretation::Instruction(Opcode::PMOVZXWQ), OperandCode::PMOVX_G_E_xmm), 0x35 => OpcodeRecord(Interpretation::Instruction(Opcode::PMOVZXDQ), OperandCode::PMOVX_G_E_xmm), 0x37 => OpcodeRecord(Interpretation::Instruction(Opcode::PCMPGTQ), OperandCode::G_E_xmm), 0x38 => OpcodeRecord(Interpretation::Instruction(Opcode::PMINSB), OperandCode::G_E_xmm), 0x39 => OpcodeRecord(Interpretation::Instruction(Opcode::PMINSD), OperandCode::G_E_xmm), 0x3a => OpcodeRecord(Interpretation::Instruction(Opcode::PMINUW), OperandCode::G_E_xmm), 0x3b => OpcodeRecord(Interpretation::Instruction(Opcode::PMINUD), OperandCode::G_E_xmm), 0x3c => OpcodeRecord(Interpretation::Instruction(Opcode::PMAXSB), OperandCode::G_E_xmm), 0x3d => OpcodeRecord(Interpretation::Instruction(Opcode::PMAXSD), OperandCode::G_E_xmm), 0x3e => OpcodeRecord(Interpretation::Instruction(Opcode::PMAXUW), OperandCode::G_E_xmm), 0x3f => OpcodeRecord(Interpretation::Instruction(Opcode::PMAXUD), OperandCode::G_E_xmm), 0x40 => OpcodeRecord(Interpretation::Instruction(Opcode::PMULLD), OperandCode::G_E_xmm), 0x41 => OpcodeRecord(Interpretation::Instruction(Opcode::PHMINPOSUW), OperandCode::G_E_xmm), 0x80 => OpcodeRecord(Interpretation::Instruction(Opcode::INVEPT), OperandCode::INV_Gv_M), 0x81 => OpcodeRecord(Interpretation::Instruction(Opcode::INVVPID), OperandCode::INV_Gv_M), 0x82 => OpcodeRecord(Interpretation::Instruction(Opcode::INVPCID), OperandCode::INV_Gv_M), 0xcf => OpcodeRecord(Interpretation::Instruction(Opcode::GF2P8MULB), OperandCode::G_E_xmm), 0xdb => OpcodeRecord(Interpretation::Instruction(Opcode::AESIMC), OperandCode::G_E_xmm), 0xdc => OpcodeRecord(Interpretation::Instruction(Opcode::AESENC), OperandCode::G_E_xmm), 0xdd => OpcodeRecord(Interpretation::Instruction(Opcode::AESENCLAST), OperandCode::G_E_xmm), 0xde => OpcodeRecord(Interpretation::Instruction(Opcode::AESDEC), OperandCode::G_E_xmm), 0xdf => OpcodeRecord(Interpretation::Instruction(Opcode::AESDECLAST), OperandCode::G_E_xmm), 0xf0 => OpcodeRecord(Interpretation::Instruction(Opcode::MOVBE), OperandCode::Gv_M), 0xf1 => OpcodeRecord(Interpretation::Instruction(Opcode::MOVBE), OperandCode::M_Gv), 0xf5 => OpcodeRecord(Interpretation::Instruction(Opcode::WRUSS), OperandCode::Mdq_Gdq), 0xf6 => OpcodeRecord(Interpretation::Instruction(Opcode::ADCX), OperandCode::Gv_Ev), 0xf8 => OpcodeRecord(Interpretation::Instruction(Opcode::MOVDIR64B), OperandCode::MOVDIR64B), _ => OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::Nothing), }; } else { return match opcode { 0x00 => OpcodeRecord(Interpretation::Instruction(Opcode::PSHUFB), OperandCode::G_E_mm), 0x01 => OpcodeRecord(Interpretation::Instruction(Opcode::PHADDW), OperandCode::G_E_mm), 0x02 => OpcodeRecord(Interpretation::Instruction(Opcode::PHADDD), OperandCode::G_E_mm), 0x03 => OpcodeRecord(Interpretation::Instruction(Opcode::PHADDSW), OperandCode::G_E_mm), 0x04 => OpcodeRecord(Interpretation::Instruction(Opcode::PMADDUBSW), OperandCode::G_E_mm), 0x05 => OpcodeRecord(Interpretation::Instruction(Opcode::PHSUBW), OperandCode::G_E_mm), 0x06 => OpcodeRecord(Interpretation::Instruction(Opcode::PHSUBD), OperandCode::G_E_mm), 0x07 => OpcodeRecord(Interpretation::Instruction(Opcode::PHSUBSW), OperandCode::G_E_mm), 0x08 => OpcodeRecord(Interpretation::Instruction(Opcode::PSIGNB), OperandCode::G_E_mm), 0x09 => OpcodeRecord(Interpretation::Instruction(Opcode::PSIGNW), OperandCode::G_E_mm), 0x0a => OpcodeRecord(Interpretation::Instruction(Opcode::PSIGND), OperandCode::G_E_mm), 0x0b => OpcodeRecord(Interpretation::Instruction(Opcode::PMULHRSW), OperandCode::G_E_mm), 0x1c => OpcodeRecord(Interpretation::Instruction(Opcode::PABSB), OperandCode::G_E_mm), 0x1d => OpcodeRecord(Interpretation::Instruction(Opcode::PABSW), OperandCode::G_E_mm), 0x1e => OpcodeRecord(Interpretation::Instruction(Opcode::PABSD), OperandCode::G_E_mm), 0xc8 => OpcodeRecord(Interpretation::Instruction(Opcode::SHA1NEXTE), OperandCode::G_E_xmm), 0xc9 => OpcodeRecord(Interpretation::Instruction(Opcode::SHA1MSG1), OperandCode::G_E_xmm), 0xca => OpcodeRecord(Interpretation::Instruction(Opcode::SHA1MSG2), OperandCode::G_E_xmm), 0xcb => OpcodeRecord(Interpretation::Instruction(Opcode::SHA256RNDS2), OperandCode::G_E_xmm), 0xcc => OpcodeRecord(Interpretation::Instruction(Opcode::SHA256MSG1), OperandCode::G_E_xmm), 0xcd => OpcodeRecord(Interpretation::Instruction(Opcode::SHA256MSG2), OperandCode::G_E_xmm), 0xf0 => OpcodeRecord(Interpretation::Instruction(Opcode::MOVBE), OperandCode::Gv_M), 0xf1 => OpcodeRecord(Interpretation::Instruction(Opcode::MOVBE), OperandCode::M_Gv), 0xf6 => OpcodeRecord(Interpretation::Instruction(Opcode::WRSS), OperandCode::Mdq_Gdq), 0xf9 => OpcodeRecord(Interpretation::Instruction(Opcode::MOVDIRI), OperandCode::Md_Gd), _ => OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::Nothing), }; } } fn read_0f3a_opcode(opcode: u8, prefixes: &mut Prefixes) -> OpcodeRecord { if prefixes.rep() { if prefixes != &Prefixes::new(0x10) { return OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::Nothing); } return match opcode { 0xf0 => OpcodeRecord(Interpretation::Instruction(Opcode::HRESET), OperandCode::ModRM_0xf30f3af0), _ => OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::Nothing), }; } if prefixes.repnz() { return OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::Nothing); } if prefixes.operand_size() { if opcode == 0x16 && prefixes.rex_unchecked().w() { return OpcodeRecord(Interpretation::Instruction(Opcode::PEXTRQ), OperandCode::G_Ev_xmm_Ib); } else if opcode == 0x22 && prefixes.rex_unchecked().w() { return OpcodeRecord(Interpretation::Instruction(Opcode::PINSRQ), OperandCode::G_Ev_xmm_Ib); } return match opcode { 0x08 => OpcodeRecord(Interpretation::Instruction(Opcode::ROUNDPS), OperandCode::G_E_xmm_Ib), 0x09 => OpcodeRecord(Interpretation::Instruction(Opcode::ROUNDPD), OperandCode::G_E_xmm_Ib), 0x0a => OpcodeRecord(Interpretation::Instruction(Opcode::ROUNDSS), OperandCode::G_E_xmm_Ib), 0x0b => OpcodeRecord(Interpretation::Instruction(Opcode::ROUNDSD), OperandCode::G_E_xmm_Ib), 0x0c => OpcodeRecord(Interpretation::Instruction(Opcode::BLENDPS), OperandCode::G_E_xmm_Ib), 0x0d => OpcodeRecord(Interpretation::Instruction(Opcode::BLENDPD), OperandCode::G_E_xmm_Ib), 0x0e => OpcodeRecord(Interpretation::Instruction(Opcode::PBLENDW), OperandCode::G_E_xmm_Ib), 0x0f => OpcodeRecord(Interpretation::Instruction(Opcode::PALIGNR), OperandCode::G_E_xmm_Ib), 0x14 => OpcodeRecord(Interpretation::Instruction(Opcode::PEXTRB), OperandCode::G_Ev_xmm_Ib), 0x15 => OpcodeRecord(Interpretation::Instruction(Opcode::PEXTRW), OperandCode::G_Ev_xmm_Ib), 0x16 => OpcodeRecord(Interpretation::Instruction(Opcode::PEXTRD), OperandCode::G_Ev_xmm_Ib), 0x17 => OpcodeRecord(Interpretation::Instruction(Opcode::EXTRACTPS), OperandCode::G_Ev_xmm_Ib), 0x20 => OpcodeRecord(Interpretation::Instruction(Opcode::PINSRB), OperandCode::G_Ev_xmm_Ib), 0x21 => OpcodeRecord(Interpretation::Instruction(Opcode::INSERTPS), OperandCode::G_Ev_xmm_Ib), 0x22 => OpcodeRecord(Interpretation::Instruction(Opcode::PINSRD), OperandCode::G_Ev_xmm_Ib), 0x40 => OpcodeRecord(Interpretation::Instruction(Opcode::DPPS), OperandCode::G_E_xmm_Ib), 0x41 => OpcodeRecord(Interpretation::Instruction(Opcode::DPPD), OperandCode::G_E_xmm_Ib), 0x42 => OpcodeRecord(Interpretation::Instruction(Opcode::MPSADBW), OperandCode::G_E_xmm_Ib), 0x44 => OpcodeRecord(Interpretation::Instruction(Opcode::PCLMULQDQ), OperandCode::G_E_xmm_Ib), 0x60 => OpcodeRecord(Interpretation::Instruction(Opcode::PCMPESTRM), OperandCode::G_E_xmm_Ib), 0x61 => OpcodeRecord(Interpretation::Instruction(Opcode::PCMPESTRI), OperandCode::G_E_xmm_Ib), 0x62 => OpcodeRecord(Interpretation::Instruction(Opcode::PCMPISTRM), OperandCode::G_E_xmm_Ib), 0x63 => OpcodeRecord(Interpretation::Instruction(Opcode::PCMPISTRI), OperandCode::G_E_xmm_Ib), // 0xcc => OpcodeRecord(Interpretation::Instruction(Opcode::SHA1RNDS4), OperandCode::G_E_xmm_Ib), 0xce => OpcodeRecord(Interpretation::Instruction(Opcode::GF2P8AFFINEQB), OperandCode::G_E_xmm_Ub), 0xcf => OpcodeRecord(Interpretation::Instruction(Opcode::GF2P8AFFINEINVQB), OperandCode::G_E_xmm_Ub), 0xdf => OpcodeRecord(Interpretation::Instruction(Opcode::AESKEYGENASSIST), OperandCode::G_E_xmm_Ub), _ => OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::Nothing), }; } return match opcode { 0xcc => OpcodeRecord(Interpretation::Instruction(Opcode::SHA1RNDS4), OperandCode::G_E_xmm_Ub), 0x0f => OpcodeRecord(Interpretation::Instruction(Opcode::PALIGNR), OperandCode::G_E_mm_Ib), _ => OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::Nothing), }; } /// the actual description for a selection of bits involved in decoding an [`long_mode::Instruction`]. /// /// some prefixes are only identified as an `InnerDescription::Misc` string, while some are full /// `InnerDescription::SegmentPrefix(Segment)`. generally, strings should be considered unstable /// and only useful for displaying for human consumption. #[derive(Clone, Debug, PartialEq, Eq)] pub enum InnerDescription { /// the literal byte read for a `rex` prefix, `0x4_`. RexPrefix(u8), /// the segment selected by a segment override prefix. this is not necessarily the actual /// segement used in the instruction's memory accesses, if any are made. SegmentPrefix(Segment), /// the opcode read for this instruction. this may be reported multiple times in an instruction /// if multiple spans of bits are necessary to determine the opcode. it is a bug if two /// different `Opcode` are indicated by different `InnerDescription::Opcode` reported from /// decoding the same instruction. this invariant is not well-tested, and may occur in /// practice. Opcode(Opcode), /// the operand code indicating how to read operands for this instruction. this is an internal /// detail of `yaxpeax-x86` but is typically named in a manner that can aid understanding the /// decoding process. `OperandCode` names are unstable, and this variant is only useful for /// displaying for human consumption. OperandCode(OperandCodeWrapper), /// a decoded register: a name for the bits used to decode it, the register number those bits /// specify, and the fully-constructed [`long_mode::RegSpec`] that was decoded. RegisterNumber(&'static str, u8, RegSpec), /// a miscellaneous string describing some bits of the instruction. this may describe a prefix, /// internal details of a prefix, error or constraints on an opcode, operand encoding details, /// or other items involved in an instruction. Misc(&'static str), /// a number involved in the instruction: typically either a disaplacement or immediate. the /// string describes which. the `i64` member is typically a sign-extended value from the /// appropriate original size, meaning there may be incorrect cases of a `65535u16` sign /// extending to `-1`. bug reports are highly encouraged for unexpected values. Number(&'static str, i64), /// a boundary between two logically distinct sections of an instruction. these typically /// separate the leading prefix string (if any), opcode, and operands (if any). the included /// string describes which boundary this is. boundary names should not be considered stable, /// and are useful at most for displaying for human consumption. Boundary(&'static str), } impl InnerDescription { fn with_id(self, id: u32) -> FieldDescription { FieldDescription { desc: self, id, } } } cfg_if::cfg_if! { if #[cfg(feature="fmt")] { impl fmt::Display for InnerDescription { fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result { match self { InnerDescription::RexPrefix(bits) => { write!(f, "rex prefix: {}{}{}{}", if bits & 0x8 != 0 { "w" } else { "-" }, if bits & 0x4 != 0 { "r" } else { "-" }, if bits & 0x2 != 0 { "x" } else { "-" }, if bits & 0x1 != 0 { "b" } else { "-" }, ) } InnerDescription::SegmentPrefix(segment) => { write!(f, "segment override: {}", segment) } InnerDescription::Misc(text) => { f.write_str(text) } InnerDescription::Number(text, num) => { write!(f, "{}: {:#x}", text, num) } InnerDescription::Opcode(opc) => { write!(f, "opcode `{}`", opc) } InnerDescription::OperandCode(OperandCodeWrapper { code }) => { write!(f, "operand code `{:?}`", code) } InnerDescription::RegisterNumber(name, num, reg) => { write!(f, "`{}` (`{}` selects register number {})", reg, name, num) } InnerDescription::Boundary(desc) => { write!(f, "{}", desc) } } } } } else { impl fmt::Display for InnerDescription { fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result { f.write_str("non-fmt build") } } } } #[cfg_attr(feature="fmt", derive(Debug))] #[derive(Clone, PartialEq, Eq)] pub struct FieldDescription { desc: InnerDescription, id: u32, } impl FieldDescription { /// the actual description associated with this bitfield. pub fn desc(&self) -> &InnerDescription { &self.desc } } impl yaxpeax_arch::annotation::FieldDescription for FieldDescription { fn id(&self) -> u32 { self.id } fn is_separator(&self) -> bool { if let InnerDescription::Boundary(_) = &self.desc { true } else { false } } } impl fmt::Display for FieldDescription { fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result { fmt::Display::fmt(&self.desc, f) } } #[inline(always)] fn read_with_annotations< T: Reader<::Address, ::Word>, S: DescriptionSink, >(decoder: &InstDecoder, words: &mut T, instruction: &mut Instruction, sink: &mut S) -> Result<(), DecodeError> { words.mark(); let mut nextb = words.next().ok().ok_or(DecodeError::ExhaustedInput)?; let mut next_rec = OPCODES[nextb as usize]; let mut prefixes = Prefixes::new(0); // default x86_64 registers to `[rax; 4]` instruction.regs = unsafe { core::mem::transmute(0u64) }; instruction.mem_size = 0; // default operands to [RegRRR, Nothing, Nothing, Nothing] instruction.operands = unsafe { core::mem::transmute(0x00_00_00_01) }; instruction.operand_count = 2; let record: OpcodeRecord = loop { let record = next_rec; if nextb >= 0x40 && nextb < 0x50 { let b = nextb; sink.record((words.offset() - 1) as u32 * 8, (words.offset() - 1) as u32 * 8 + 7, FieldDescription { desc: InnerDescription::RexPrefix(b), id: words.offset() as u32 * 8 - 8, }); if words.offset() >= 15 { return Err(DecodeError::TooLong); } nextb = words.next().ok().ok_or(DecodeError::ExhaustedInput)?; next_rec = unsafe { core::ptr::read_volatile(&OPCODES[nextb as usize]) }; prefixes.rex_from(b); } else if let Interpretation::Instruction(opc) = record.0 { if words.offset() > 1 { sink.record( words.offset() as u32 * 8 - 8 - 1, words.offset() as u32 * 8 - 8 - 1, InnerDescription::Boundary("prefixes end") .with_id(words.offset() as u32 * 8 - 9) ); } if opc != Opcode::Invalid { sink.record((words.offset() - 1) as u32 * 8, (words.offset() - 1) as u32 * 8 + 7, FieldDescription { desc: InnerDescription::Opcode(opc), id: words.offset() as u32 * 8 - 8, }); } sink.record((words.offset() - 1) as u32 * 8, (words.offset() - 1) as u32 * 8 + 7, FieldDescription { desc: InnerDescription::OperandCode(OperandCodeWrapper { code: record.1 }), id: words.offset() as u32 * 8 - 8 + 1, }); break record; } else { let b = nextb; if b == 0x0f { if words.offset() > 1 { sink.record( words.offset() as u32 * 8 - 8 - 1, words.offset() as u32 * 8 - 8 - 1, InnerDescription::Boundary("prefixes end") .with_id(words.offset() as u32 * 8 - 9) ); } let b = words.next().ok().ok_or(DecodeError::ExhaustedInput)?; if b == 0x38 { let b = words.next().ok().ok_or(DecodeError::ExhaustedInput)?; break read_0f38_opcode(b, &mut prefixes); } else if b == 0x3a { let b = words.next().ok().ok_or(DecodeError::ExhaustedInput)?; break read_0f3a_opcode(b, &mut prefixes); } else { break read_0f_opcode(b, &mut prefixes); } } // some prefix seen after we saw rex, but before the 0f escape or an actual // opcode. so we must forget the rex prefix! // this is to handle sequences like 41660f21cf // where if 660f21 were a valid opcode, 41 would apply a rex.b // prefix, but since 660f21 is not valid, the opcode is interpreted // as 0f21, where 66 is a prefix, which makes 41 not the last // prefix before the opcode, and it's discarded. // 2.3.2 // Any VEX-encoded instruction with a LOCK prefix preceding VEX will #UD. // 2.3.3 // Any VEX-encoded instruction with a 66H, F2H, or F3H prefix preceding VEX // will #UD. // 2.3.4 // Any VEX-encoded instruction with a REX prefix proceeding VEX will #UD. if b == 0xc5 { if prefixes.rex_unchecked().present() || prefixes.lock() || prefixes.operand_size() || prefixes.rep() || prefixes.repnz() { // rex and then vex is invalid! reject it. return Err(DecodeError::InvalidPrefixes); } else { instruction.prefixes = prefixes; sink.record( words.offset() as u32 * 8 - 8, words.offset() as u32 * 8 - 1, InnerDescription::Misc("two-byte vex prefix (0xc5)") .with_id(words.offset() as u32 * 8 - 8) ); vex::two_byte_vex(words, instruction, sink)?; return Ok(()); } } else if b == 0xc4 { if prefixes.rex_unchecked().present() || prefixes.lock() || prefixes.operand_size() || prefixes.rep() || prefixes.repnz() { // rex and then vex is invalid! reject it. return Err(DecodeError::InvalidPrefixes); } else { instruction.prefixes = prefixes; sink.record( words.offset() as u32 * 8 - 8, words.offset() as u32 * 8 - 1, InnerDescription::Misc("three-byte vex prefix (0xc4)") .with_id(words.offset() as u32 * 8 - 8) ); vex::three_byte_vex(words, instruction, sink)?; return Ok(()); } } else if b == 0x62 { if prefixes.rex_unchecked().present() || prefixes.lock() || prefixes.operand_size() || prefixes.rep() || prefixes.repnz() { // rex and then evex is invalid! reject it. return Err(DecodeError::InvalidPrefixes); } else { instruction.prefixes = prefixes; sink.record( words.offset() as u32 * 8 - 8, words.offset() as u32 * 8 - 1, InnerDescription::Misc("evex prefix (0x62)") .with_id(words.offset() as u32 * 8 - 8) ); evex::read_evex(words, instruction, None, sink)?; return Ok(()); } } nextb = words.next().ok().ok_or(DecodeError::ExhaustedInput)?; next_rec = unsafe { core::ptr::read_volatile(&OPCODES[nextb as usize]) }; if words.offset() >= 15 { return Err(DecodeError::TooLong); } if prefixes.rex.bits != 0 { sink.record((words.offset() - 2) as u32 * 8, (words.offset() - 2) as u32 * 8 + 7, FieldDescription { desc: InnerDescription::Misc("invalidates prior rex prefix"), id: (words.offset() as u32 * 8 - 16) + 1, }); } prefixes.rex_from(0); match b { 0x26 | 0x2e | 0x36 | 0x3e => { /* no-op in amd64 */ sink.record((words.offset() - 2) as u32 * 8, (words.offset() - 2) as u32 * 8 + 7, FieldDescription { desc: InnerDescription::Misc("ignored prefix in 64-bit mode"), id: words.offset() as u32 * 8 - 16, }); }, 0x64 => { sink.record((words.offset() - 2) as u32 * 8, (words.offset() - 2) as u32 * 8 + 7, FieldDescription { desc: InnerDescription::SegmentPrefix(Segment::FS), id: words.offset() as u32 * 8 - 16, }); prefixes.set_fs(); }, 0x65 => { sink.record((words.offset() - 2) as u32 * 8, (words.offset() - 2) as u32 * 8 + 7, FieldDescription { desc: InnerDescription::SegmentPrefix(Segment::GS), id: words.offset() as u32 * 8 - 16, }); prefixes.set_gs(); }, 0x66 => { sink.record((words.offset() - 2) as u32 * 8, (words.offset() - 2) as u32 * 8 + 7, FieldDescription { desc: InnerDescription::Misc("operand size override (to 16 bits)"), id: words.offset() as u32 * 8 - 16, }); prefixes.set_operand_size(); }, 0x67 => { sink.record((words.offset() - 2) as u32 * 8, (words.offset() - 2) as u32 * 8 + 7, FieldDescription { desc: InnerDescription::Misc("address size override (to 32 bits)"), id: words.offset() as u32 * 8 - 16, }); prefixes.set_address_size(); instruction.regs[1].bank = RegisterBank::D; instruction.regs[2].bank = RegisterBank::D; }, 0xf0 => { sink.record((words.offset() - 2) as u32 * 8, (words.offset() - 2) as u32 * 8 + 7, FieldDescription { desc: InnerDescription::Misc("lock prefix"), id: words.offset() as u32 * 8 - 16, }); prefixes.set_lock(); }, 0xf2 => { sink.record((words.offset() - 2) as u32 * 8, (words.offset() - 2) as u32 * 8 + 7, FieldDescription { desc: InnerDescription::Misc("repnz prefix"), id: words.offset() as u32 * 8 - 16, }); prefixes.set_repnz(); }, 0xf3 => { sink.record((words.offset() - 2) as u32 * 8, (words.offset() - 2) as u32 * 8 + 7, FieldDescription { desc: InnerDescription::Misc("rep prefix"), id: words.offset() as u32 * 8 - 16, }); prefixes.set_rep(); }, _ => { unsafe { unreachable_unchecked(); } } } } }; if let Interpretation::Instruction(opcode) = record.0 { instruction.opcode = opcode; } else { unsafe { unreachable_unchecked(); } } instruction.prefixes = prefixes; read_operands(decoder, words, instruction, record.1, sink)?; if instruction.prefixes.lock() { if !LOCKABLE_INSTRUCTIONS.contains(&instruction.opcode) || !instruction.operands[0].is_memory() { return Err(DecodeError::InvalidPrefixes); } } Ok(()) } /* likely cases OperandCode::Eb_R0 => 0 _op @ OperandCode::ModRM_0x80_Eb_Ib => 1 _op @ OperandCode::ModRM_0x81_Ev_Ivs => 2 op @ OperandCode::ModRM_0xc6_Eb_Ib => 3 op @ OperandCode::ModRM_0xc7_Ev_Iv => 4 op @ OperandCode::ModRM_0xc0_Eb_Ib => 5 op @ OperandCode::ModRM_0xc1_Ev_Ib => 6 op @ OperandCode::ModRM_0xd0_Eb_1 => 7 op @ OperandCode::ModRM_0xd1_Ev_1 => 8 op @ OperandCode::ModRM_0xd2_Eb_CL => 9 op @ OperandCode::ModRM_0xd3_Ev_CL => 10 _op @ OperandCode::ModRM_0xf6 => 11 _op @ OperandCode::ModRM_0xf7 => 12 OperandCode::ModRM_0xfe_Eb => 13 OperandCode::ModRM_0xff_Ev => 14 OperandCode::Gv_Eb => 15 OperandCode::Gv_Ew => 16 OperandCode::Gdq_Ed => 17 OperandCode::Ev => 18 OperandCode::E_G_xmm => 19 op @ OperandCode::G_M_xmm => 20 op @ OperandCode::G_E_xmm => 21 OperandCode::G_E_xmm_Ib => 22 OperandCode::AL_Ibs => 23 OperandCode::AX_Ivd => 24 OperandCode::Ivs => 25 OperandCode::ModRM_0x83_Ev_Ibs => 26 OperandCode::I_3 => 27 OperandCode::Nothing => 28 OperandCode::G_E_mm_Ib => 29 OperandCode::ModRM_0x8f_Ev => 30 */ #[inline(always)] fn read_operands< T: Reader<::Address, ::Word>, S: DescriptionSink >(decoder: &InstDecoder, words: &mut T, instruction: &mut Instruction, operand_code: OperandCode, sink: &mut S) -> Result<(), DecodeError> { sink.record( words.offset() as u32 * 8 - 1, words.offset() as u32 * 8 - 1, InnerDescription::Boundary("opcode ends/operands begin (typically)") .with_id(words.offset() as u32 * 8 - 1) ); let operand_code = OperandCodeBuilder::from_bits(operand_code as u16); let modrm_start = words.offset() as u32 * 8; let opcode_start = modrm_start - 8; if operand_code.is_only_modrm_operands() { let modrm; let opwidth; let mem_oper; let mut bank = RegisterBank::Q; // cool! we can precompute opwidth and know we need to read_E. if !operand_code.has_byte_operands() { // further, this is an vdq E opwidth = imm_width_from_prefixes_64(SizeCode::vqp, instruction.prefixes); instruction.mem_size = opwidth; if opwidth == 4 { bank = RegisterBank::D; } else if opwidth == 2 { bank = RegisterBank::W; } } else { opwidth = 1; instruction.mem_size = opwidth; if instruction.prefixes.rex_unchecked().present() { bank = RegisterBank::rB; } else { bank = RegisterBank::B; } }; modrm = read_modrm(words)?; instruction.regs[0].bank = bank; instruction.regs[0].num = ((modrm >> 3) & 7) + if instruction.prefixes.rex_unchecked().r() { 0b1000 } else { 0 }; sink.record( modrm_start + 3, modrm_start + 5, InnerDescription::RegisterNumber("rrr", (modrm >> 3) & 7, instruction.regs[0]) .with_id(modrm_start + 1) ); if instruction.prefixes.rex_unchecked().r() { sink.record( modrm_start + 3, modrm_start + 5, InnerDescription::Misc("rex.r bit adds 0b1000 to register number") .with_id(modrm_start + 1) ); } mem_oper = if modrm >= 0b11000000 { sink.record( modrm_start + 6, modrm_start + 7, InnerDescription::Misc("mmm field is a register number (mod bits: 11)") .with_id(modrm_start + 0) ); // special-case here to handle `lea`. there *is* an `M_Gv` but it's only for a // reversed-operands `movbe` and fairly unlikely. that case is handled in // `unlikely_operands`. TODO: maybe this could just be a bit in `operand_code` for // "memory-only mmm"? if operand_code.bits() == (OperandCode::Gv_M as u16) { return Err(DecodeError::InvalidOperand); } read_modrm_reg(instruction, words, modrm, bank, sink)? } else { read_M(words, instruction, modrm, sink)? }; instruction.operands[1] = mem_oper; if !operand_code.has_reg_mem() { instruction.operands[0] = mem_oper; instruction.operands[1] = OperandSpec::RegRRR; }; return Ok(()); } let mut modrm = 0; let mut opwidth = 0; let mut mem_oper = OperandSpec::Nothing; let mut bank = RegisterBank::Q; if operand_code.has_read_E() { // cool! we can precompute opwidth and know we need to read_E. if !operand_code.has_byte_operands() { // further, this is an vdq E opwidth = imm_width_from_prefixes_64(SizeCode::vqp, instruction.prefixes); instruction.mem_size = opwidth; if opwidth == 4 { bank = RegisterBank::D; } else if opwidth == 2 { bank = RegisterBank::W; } } else { opwidth = 1; instruction.mem_size = opwidth; if instruction.prefixes.rex_unchecked().present() { bank = RegisterBank::rB; } else { bank = RegisterBank::B; } }; modrm = read_modrm(words)?; instruction.regs[0].bank = bank; instruction.regs[0].num = ((modrm >> 3) & 7) + if instruction.prefixes.rex_unchecked().r() { 0b1000 } else { 0 }; // for some encodings, the rrr field selects an opcode, not an operand if operand_code.bits() != OperandCode::ModRM_0xc1_Ev_Ib as u16 && operand_code.bits() != OperandCode::ModRM_0xff_Ev as u16 { sink.record( modrm_start + 3, modrm_start + 5, InnerDescription::RegisterNumber("rrr", (modrm >> 3) & 7, instruction.regs[0]) .with_id(modrm_start + 3) ); } mem_oper = if modrm >= 0b11000000 { sink.record( modrm_start + 6, modrm_start + 7, InnerDescription::Misc("mmm field is a register number (mod bits: 11)") .with_id(modrm_start + 0) ); read_modrm_reg(instruction, words, modrm, bank, sink)? } else { read_M(words, instruction, modrm, sink)? }; instruction.operands[1] = mem_oper; } if let Some((only_imm, immsz)) = operand_code.has_imm() { instruction.imm = read_imm_signed(words, 1 << (immsz * 2))? as u64; if immsz == 0 { sink.record( words.offset() as u32 * 8 - 8, words.offset() as u32 * 8 - 1, InnerDescription::Number("1-byte immediate", instruction.imm as i64) .with_id(words.offset() as u32 * 8), ); } else { sink.record( words.offset() as u32 * 8 - 32, words.offset() as u32 * 8 - 1, InnerDescription::Number("4-byte immediate", instruction.imm as i64) .with_id(words.offset() as u32 * 8), ); } if only_imm { if immsz == 0 { instruction.operands[0] = OperandSpec::ImmI8; } else { sink.record( words.offset() as u32 * 8 - 32, words.offset() as u32 * 8 - 1, InnerDescription::Number("4-byte immediate", instruction.imm as i64) .with_id(words.offset() as u32 * 8), ); if instruction.opcode == Opcode::CALL { instruction.mem_size = 8; } instruction.operands[0] = OperandSpec::ImmI32; } instruction.operand_count = 1; return Ok(()); } } if operand_code.has_embedded_instructions() { match operand_code.get_embedded_instructions() { Ok(z_operand_code) => { let reg = z_operand_code.reg(); match z_operand_code.category() { 0 => { // these are Zv_R let opwidth = imm_width_from_prefixes_64(SizeCode::vq, instruction.prefixes); let bank = if opwidth == 4 { RegisterBank::D } else if opwidth == 2 { RegisterBank::W } else { RegisterBank::Q }; instruction.regs[0] = RegSpec::from_parts(reg, instruction.prefixes.rex_unchecked().b(), bank); instruction.mem_size = 8; sink.record( opcode_start + 0, opcode_start + 2, InnerDescription::RegisterNumber("zzz", reg, instruction.regs[0]) .with_id(opcode_start + 2) ); if instruction.prefixes.rex_unchecked().b() { sink.record( opcode_start + 0, opcode_start + 2, InnerDescription::Misc("rex.b selects register `zzz` + 8") .with_id(opcode_start + 2) ); } instruction.operand_count = 1; } 1 => { // Zv_AX // in 64-bit mode, rex.b is able to make "nop" into an `xchg`, as in `4190` // aka `xchg eax, r8d. if reg == 0 && !instruction.prefixes.rex_unchecked().b() { instruction.opcode = Opcode::NOP; instruction.operand_count = 0; return Ok(()); } let opwidth = imm_width_from_prefixes_64(SizeCode::vqp, instruction.prefixes); let bank = if opwidth == 4 { RegisterBank::D } else if opwidth == 2 { RegisterBank::W } else { RegisterBank::Q }; // always *ax, but size is determined by prefixes (or lack thereof) instruction.regs[0] = RegSpec::from_parts(0, false, bank); instruction.operands[1] = OperandSpec::RegMMM; instruction.regs[1] = RegSpec::from_parts(reg, instruction.prefixes.rex_unchecked().b(), bank); sink.record( opcode_start, opcode_start + 2, InnerDescription::RegisterNumber("zzz", reg, instruction.regs[0]) .with_id(opcode_start + 1) ); if instruction.prefixes.rex_unchecked().b() { sink.record( opcode_start, opcode_start + 2, InnerDescription::Misc("rex.b selects register `zzz` + 8") .with_id(opcode_start + 1) ); } sink.record( opcode_start + 3, opcode_start + 7, InnerDescription::Misc("opcode selects `eax` operand") .with_id(opcode_start + 2) ); if opwidth == 2 { sink.record( opcode_start + 3, opcode_start + 7, InnerDescription::Misc("operand-size prefix override selects `ax`") .with_id(opcode_start + 2) ); } else if opwidth == 8 { sink.record( opcode_start + 3, opcode_start + 7, InnerDescription::Misc("rex.w prefix selects `rax`") .with_id(opcode_start + 2) ); } } 2 => { // these are Zb_Ib_R instruction.regs[0] = RegSpec::gp_from_parts(reg, instruction.prefixes.rex_unchecked().b(), 1, instruction.prefixes.rex_unchecked().present()); sink.record( opcode_start, opcode_start + 2, InnerDescription::RegisterNumber("zzz", reg, instruction.regs[0]) .with_id(opcode_start + 1) ); if instruction.prefixes.rex_unchecked().b() { sink.record( opcode_start, opcode_start + 2, InnerDescription::Misc("rex.b selects register `zzz` + 8") .with_id(opcode_start + 1) ); } instruction.imm = read_imm_unsigned(words, 1)?; sink.record( words.offset() as u32 * 8 - 8, words.offset() as u32 * 8 - 1, InnerDescription::Number("imm", instruction.imm as i64) .with_id(words.offset() as u32 * 8 - 8)); instruction.operands[1] = OperandSpec::ImmU8; } 3 => { // category == 3, Zv_Ivq_R let opwidth = imm_width_from_prefixes_64(SizeCode::vqp, instruction.prefixes); let bank = if opwidth == 4 { RegisterBank::D } else if opwidth == 2 { RegisterBank::W } else { RegisterBank::Q }; instruction.regs[0] = RegSpec::from_parts(reg, instruction.prefixes.rex_unchecked().b(), bank); sink.record( opcode_start, opcode_start + 2, InnerDescription::RegisterNumber("zzz", reg, instruction.regs[0]) .with_id(opcode_start + 2) ); if instruction.prefixes.rex_unchecked().b() { sink.record( opcode_start, opcode_start + 2, InnerDescription::Misc("rex.b selects register `zzz` + 8") .with_id(opcode_start + 2) ); } instruction.imm = read_imm_ivq(words, opwidth)?; instruction.operands[1] = match opwidth { 2 => OperandSpec::ImmI16, 4 => OperandSpec::ImmI32, 8 => OperandSpec::ImmI64, _ => unsafe { unreachable_unchecked() } }; sink.record( words.offset() as u32 * 8 - (8 * opwidth as u32), words.offset() as u32 * 8 - 1, InnerDescription::Number("imm", instruction.imm as i64) .with_id(words.offset() as u32 * 8 - (8 * opwidth as u32) + 1) ); } _ => { unreachable!("bad category"); } } return Ok(()); }, // EmbeddedOperandInstructions but those are entirely handled in the fall-through // below. one day this may grow to be an `Err(the_operand_instructions)` though, so for // a simpler diff the above is pre-`match`/`Ok`'d. _ => {} } } // match operand_code { match operand_code.special_case_handler_index() { 0 => { instruction.operands[0] = mem_oper; instruction.operand_count = 1; }, 1 => { instruction.opcode = base_opcode_map((modrm >> 3) & 7); instruction.operands[0] = mem_oper; instruction.operands[1] = OperandSpec::ImmI8; sink.record( modrm_start + 3, modrm_start + 5, InnerDescription::Opcode(instruction.opcode) .with_id(modrm_start - 8) ); sink.record( words.offset() as u32 * 8 - 8, words.offset() as u32 * 8 - 1, InnerDescription::Number("imm", instruction.imm as i64) .with_id(words.offset() as u32 * 8 - 8) ); } 2 => { instruction.operands[0] = mem_oper; instruction.opcode = base_opcode_map((modrm >> 3) & 7); sink.record( modrm_start + 3, modrm_start + 5, InnerDescription::Opcode(instruction.opcode) .with_id(modrm_start - 8) ); if opwidth == 8 { instruction.imm = read_imm_signed(words, 4)? as u64; sink.record( words.offset() as u32 * 8 - 32, words.offset() as u32 * 8 - 1, InnerDescription::Number("imm", instruction.imm as i64) .with_id(words.offset() as u32 * 8 - 32) ); instruction.operands[1] = OperandSpec::ImmI64; } else { instruction.imm = read_imm_signed(words, opwidth)? as u64; sink.record( words.offset() as u32 * 8 - (opwidth as u32 * 8), words.offset() as u32 * 8 - 1, InnerDescription::Number("imm", instruction.imm as i64) .with_id(words.offset() as u32 * 8 - (opwidth as u32 * 8)) ); if opwidth == 4 { instruction.operands[1] = OperandSpec::ImmI32; } else { instruction.operands[1] = OperandSpec::ImmI16; } }; }, op @ 3 | op @ 4 => { if modrm == 0xf8 { if op == 3 { instruction.opcode = Opcode::XABORT; instruction.imm = read_imm_signed(words, 1)? as u64; sink.record( words.offset() as u32 * 8 - 8, words.offset() as u32 * 8 - 1, InnerDescription::Number("imm", instruction.imm as i64) .with_id(words.offset() as u32 * 8 - 8) ); instruction.operands[0] = OperandSpec::ImmI8; instruction.operand_count = 1; return Ok(()); } else { instruction.opcode = Opcode::XBEGIN; instruction.imm = if opwidth == 2 { let imm = read_imm_signed(words, 2)? as i16 as i64 as u64; sink.record( words.offset() as u32 * 8 - 16, words.offset() as u32 * 8 - 1, InnerDescription::Number("imm", instruction.imm as i64) .with_id(words.offset() as u32 * 8 - 16) ); imm } else { let imm = read_imm_signed(words, 4)? as i32 as i64 as u64; sink.record( words.offset() as u32 * 8 - 32, words.offset() as u32 * 8 - 1, InnerDescription::Number("imm", instruction.imm as i64) .with_id(words.offset() as u32 * 8 - 32) ); imm }; instruction.operands[0] = OperandSpec::ImmI32; instruction.operand_count = 1; return Ok(()); } } if (modrm & 0b00111000) != 0 { sink.record( modrm_start + 3, modrm_start + 5, InnerDescription::Misc("invalid rrr field: must be zero") .with_id(modrm_start - 8) ); return Err(DecodeError::InvalidOperand); // Err("Invalid modr/m for opcode 0xc7".to_string()); } instruction.operands[0] = mem_oper; instruction.opcode = Opcode::MOV; let numwidth = if opwidth == 8 { 4 } else { opwidth }; instruction.imm = read_imm_signed(words, numwidth)? as u64; instruction.operands[1] = match opwidth { 1 => OperandSpec::ImmI8, 2 => OperandSpec::ImmI16, 4 => OperandSpec::ImmI32, 8 => OperandSpec::ImmI64, _ => unsafe { unreachable_unchecked() } }; sink.record( modrm_start + 8, modrm_start + numwidth as u32 * 8 - 1, InnerDescription::Number("imm", instruction.imm as i64) .with_id(modrm_start + 8) ); }, op @ 5 | op @ 7 | op @ 9 => { instruction.operands[0] = mem_oper; instruction.opcode = BITWISE_OPCODE_MAP[((modrm >> 3) & 7) as usize].clone(); sink.record( modrm_start + 3, modrm_start + 5, InnerDescription::Opcode(instruction.opcode) .with_id(modrm_start - 8) ); if op == 9 { instruction.regs[0] = RegSpec::cl(); sink.record( modrm_start - 8, modrm_start - 1, InnerDescription::RegisterNumber("reg", 1, instruction.regs[0]) .with_id(modrm_start - 7) ); instruction.operands[1] = OperandSpec::RegRRR; } else { let num = if op == 5 { read_num(words, 1)? } else { 1 }; if op == 5 { sink.record( words.offset() as u32 * 8 - 8, words.offset() as u32 * 8 - 1, InnerDescription::Number("imm", num as i64) .with_id(modrm_start - 8) ); } else { sink.record( modrm_start - 8, modrm_start - 1, InnerDescription::Misc("opcode specifies integer immediate 1") .with_id(modrm_start - 8) ); } instruction.imm = num; instruction.operands[1] = OperandSpec::ImmI8; } }, 11 => { instruction.operands[0] = mem_oper; const TABLE: [Opcode; 8] = [ Opcode::TEST, Opcode::TEST, Opcode::NOT, Opcode::NEG, Opcode::MUL, Opcode::IMUL, Opcode::DIV, Opcode::IDIV, ]; let rrr = (modrm >> 3) & 7; instruction.opcode = TABLE[rrr as usize]; sink.record( modrm_start + 3, modrm_start + 5, InnerDescription::Opcode(instruction.opcode) .with_id(modrm_start - 8) ); if rrr < 2 { instruction.opcode = Opcode::TEST; let numwidth = if opwidth == 8 { 4 } else { opwidth }; instruction.imm = read_imm_signed(words, numwidth)? as u64; instruction.operands[1] = match opwidth { 1 => OperandSpec::ImmI8, 2 => OperandSpec::ImmI16, 4 => OperandSpec::ImmI32, 8 => OperandSpec::ImmI64, _ => unsafe { unreachable_unchecked() } }; sink.record( modrm_start + 8, modrm_start + 8 + numwidth as u32 * 8 - 1, InnerDescription::Number("imm", instruction.imm as i64) .with_id(modrm_start + 8) ); } else { instruction.operand_count = 1; } }, 13 => { instruction.operands[0] = mem_oper; let r = (modrm >> 3) & 7; if r >= 2 { sink.record( modrm_start + 3, modrm_start + 5, InnerDescription::Misc("invalid rrr: opcode requires rrr < 0b010") .with_id(modrm_start - 8) ); return Err(DecodeError::InvalidOpcode); } instruction.opcode = [ Opcode::INC, Opcode::DEC, ][r as usize]; sink.record( modrm_start + 3, modrm_start + 5, InnerDescription::Opcode(instruction.opcode) .with_id(modrm_start - 8) ); instruction.operand_count = 1; } 14 => { instruction.operands[0] = mem_oper; let r = (modrm >> 3) & 7; if r == 7 { return Err(DecodeError::InvalidOpcode); } const TABLE: [Opcode; 7] = [ Opcode::INC, Opcode::DEC, Opcode::CALL, Opcode::CALLF, Opcode::JMP, Opcode::JMPF, Opcode::PUSH, ]; let opcode = TABLE[r as usize]; sink.record( modrm_start + 3, modrm_start + 5, InnerDescription::Opcode(opcode) .with_id(modrm_start - 8) ); if instruction.operands[0] == OperandSpec::RegMMM { if opcode == Opcode::CALL || opcode == Opcode::JMP { instruction.regs[1].bank = RegisterBank::Q; if opcode == Opcode::CALL { instruction.mem_size = 8; } } else if opcode == Opcode::PUSH || opcode == Opcode::POP { if instruction.prefixes.operand_size() { instruction.mem_size = 2; } else { instruction.mem_size = 8; } } else if opcode == Opcode::CALLF || opcode == Opcode::JMPF { return Err(DecodeError::InvalidOperand); } } else { if opcode == Opcode::CALL || opcode == Opcode::JMP { instruction.mem_size = 8; } else if opcode == Opcode::PUSH || opcode == Opcode::POP { if instruction.prefixes.operand_size() { instruction.mem_size = 2; } else { instruction.mem_size = 8; } } else if opcode == Opcode::CALLF || opcode == Opcode::JMPF { instruction.mem_size = 10; } } instruction.opcode = opcode; instruction.operand_count = 1; } op @ 15 | op @ 16 => { let w = if op == 15 { 1 } else { 2 }; let opwidth = imm_width_from_prefixes_64(SizeCode::vqp, instruction.prefixes); let modrm = read_modrm(words)?; instruction.operands[1] = read_E(words, instruction, modrm, w, sink)?; instruction.regs[0] = RegSpec::gp_from_parts((modrm >> 3) & 7, instruction.prefixes.rex_unchecked().r(), opwidth, instruction.prefixes.rex_unchecked().present()); sink.record( modrm_start as u32 + 3, modrm_start as u32 + 5, InnerDescription::RegisterNumber("rrr", (modrm >> 3) & 7, instruction.regs[0]) .with_id(modrm_start as u32 + 3) ); if instruction.operands[1] != OperandSpec::RegMMM { instruction.mem_size = w; } instruction.operand_count = 2; }, 17 => { let opwidth = 8; let modrm = read_modrm(words)?; instruction.operands[1] = read_E(words, instruction, modrm, 4 /* opwidth */, sink)?; instruction.mem_size = 4; instruction.regs[0] = RegSpec::gp_from_parts((modrm >> 3) & 7, instruction.prefixes.rex_unchecked().r(), opwidth, instruction.prefixes.rex_unchecked().present()); sink.record( modrm_start as u32 + 3, modrm_start as u32 + 5, InnerDescription::RegisterNumber("rrr", (modrm >> 3) & 7, instruction.regs[0]) .with_id(modrm_start as u32 + 3) ); }, 19 => { instruction.regs[0].bank = RegisterBank::X; instruction.operands[0] = mem_oper; instruction.operands[1] = OperandSpec::RegRRR; if instruction.operands[0] == OperandSpec::RegMMM { sink.record( modrm_start + 6, modrm_start + 7, InnerDescription::Misc("mod bits 0b11 select register operand, width fixed to xmm") .with_id(modrm_start as u32 + 1) ); // fix the register to XMM instruction.regs[1].bank = RegisterBank::X; } else { instruction.mem_size = 16; } }, op @ 20 | op @ 21 => { instruction.regs[0].bank = RegisterBank::X; if instruction.operands[1] == OperandSpec::RegMMM { if op == 20 { sink.record( modrm_start + 6, modrm_start + 7, InnerDescription::Misc("mod bits 0b11 are illegal for this opcode") .with_id(modrm_start as u32 - 8) ); return Err(DecodeError::InvalidOperand); } else { sink.record( modrm_start + 6, modrm_start + 7, InnerDescription::Misc("mod bits 0b11 select register operand, width fixed to xmm") .with_id(modrm_start as u32 + 1) ); // fix the register to XMM instruction.regs[1].bank = RegisterBank::X; } } else { if instruction.opcode == Opcode::MOVDDUP { instruction.mem_size = 8; } else { instruction.mem_size = 16; } } }, 22 => { let modrm = read_modrm(words)?; instruction.operands[1] = read_E_xmm(words, instruction, modrm, sink)?; instruction.regs[0] = RegSpec::from_parts((modrm >> 3) & 7, instruction.prefixes.rex_unchecked().r(), RegisterBank::X); sink.record( modrm_start as u32 + 3, modrm_start as u32 + 5, InnerDescription::RegisterNumber("rrr", (modrm >> 3) & 7, instruction.regs[0]) .with_id(modrm_start as u32 + 3) ); instruction.imm = read_num(words, 1)? as u8 as u64; sink.record( words.offset() as u32 * 8 - 8, words.offset() as u32 * 8 - 1, InnerDescription::Number("imm", instruction.imm as i64) .with_id(words.offset() as u32 * 8 - 8 + 1) ); if instruction.operands[1] != OperandSpec::RegMMM { if instruction.opcode == Opcode::CMPSS { instruction.mem_size = 4; } else if instruction.opcode == Opcode::CMPSD { instruction.mem_size = 8; } else { instruction.mem_size = 16; } } instruction.operands[2] = OperandSpec::ImmI8; instruction.operand_count = 3; }, 23 => { instruction.regs[0] = RegSpec::al(); sink.record( modrm_start as u32 - 8, modrm_start as u32 - 1, InnerDescription::RegisterNumber("reg", 0, instruction.regs[0]) .with_id(modrm_start as u32 - 1) ); instruction.operands[1] = OperandSpec::ImmI8; } 24 => { let opwidth = imm_width_from_prefixes_64(SizeCode::vqp, instruction.prefixes); let numwidth = if opwidth == 8 { 4 } else { opwidth }; instruction.regs[0] = RegSpec::gp_from_parts(0, false, opwidth, false); sink.record( modrm_start as u32 - 8, modrm_start as u32 - 1, InnerDescription::RegisterNumber("reg", 0, instruction.regs[0]) .with_id(modrm_start as u32 - 1) ); instruction.imm = read_imm_signed(words, numwidth)? as u64; instruction.operands[1] = match opwidth { 2 => OperandSpec::ImmI16, 4 => OperandSpec::ImmI32, 8 => OperandSpec::ImmI64, _ => unsafe { unreachable_unchecked() } }; sink.record( words.offset() as u32 * 8 - numwidth as u32 * 8, words.offset() as u32 * 8 - 1, InnerDescription::Number("imm", instruction.imm as i64) .with_id(words.offset() as u32 * 8 - numwidth as u32 * 8 + 1) ); } 25 => { let opwidth = imm_width_from_prefixes_64(SizeCode::vd, instruction.prefixes); instruction.imm = read_imm_unsigned(words, opwidth)?; instruction.operands[0] = match opwidth { 2 => OperandSpec::ImmI16, 4 => OperandSpec::ImmI32, 8 => OperandSpec::ImmI64, _ => unsafe { unreachable_unchecked() } }; sink.record( words.offset() as u32 * 8 - opwidth as u32 * 8, words.offset() as u32 * 8 - 1, InnerDescription::Number("imm", instruction.imm as i64) .with_id(words.offset() as u32 * 8 - opwidth as u32 * 8 + 1) ); instruction.operand_count = 1; }, 26 => { instruction.operands[0] = mem_oper; instruction.opcode = base_opcode_map((modrm >> 3) & 7); sink.record( modrm_start + 3, modrm_start + 5, InnerDescription::Opcode(instruction.opcode) .with_id(modrm_start - 8) ); instruction.operands[1] = OperandSpec::ImmI8; }, 18 => { sink.record( modrm_start - 8, modrm_start - 1, InnerDescription::Number("int", 3 as i64) .with_id(modrm_start - 1) ); instruction.imm = 3; instruction.operands[0] = OperandSpec::ImmU8; instruction.operand_count = 1; } 6 => { if instruction.opcode == Opcode::Invalid { return Err(DecodeError::InvalidOpcode); } if instruction.opcode == Opcode::RETURN { instruction.mem_size = 8; } else if instruction.opcode == Opcode::RETF { instruction.mem_size = 10; } // TODO: leave? instruction.operands[0] = OperandSpec::Nothing; instruction.operand_count = 0; return Ok(()); }, 29 => { instruction.regs[0].bank = RegisterBank::X; instruction.operands[0] = mem_oper; instruction.operands[1] = OperandSpec::RegRRR; instruction.operand_count = 2; if instruction.operands[0] == OperandSpec::RegMMM { // fix the register to XMM sink.record( modrm_start + 6, modrm_start + 7, InnerDescription::Misc("mod bits 0b11 select register operand, width fixed to xmm") .with_id(modrm_start as u32 + 1) ); instruction.regs[1].bank = RegisterBank::X; } else { instruction.mem_size = 4; } }, 8 => { instruction.operands[0] = mem_oper; let r = (modrm >> 3) & 7; if r >= 1 { sink.record( modrm_start + 3, modrm_start + 5, InnerDescription::Misc("rrr field > 0b000 for this opcode is illegal, except with XOP extensions") .with_id(modrm_start - 8) ); // TODO: this is where XOP decoding would occur return Err(DecodeError::IncompleteDecoder); } instruction.opcode = [ Opcode::POP, ][r as usize]; sink.record( modrm_start + 3, modrm_start + 5, InnerDescription::Opcode(instruction.opcode) .with_id(modrm_start - 8) ); if mem_oper != OperandSpec::RegMMM { // the right size is set by default except for the default case; by default // operands are dword, but 0x8f `pop` defaults to qword (with no way to encode a // `pop dword [mem]`) if !instruction.prefixes.operand_size() { instruction.mem_size = 8; } } instruction.operand_count = 1; } 31 => { instruction.regs[0].bank = RegisterBank::X; instruction.operand_count = 2; if instruction.operands[1] == OperandSpec::RegMMM { // fix the register to XMM instruction.regs[1].bank = RegisterBank::X; } else { instruction.mem_size = 4; } }, _ => { let operand_code: OperandCode = unsafe { core::mem::transmute(operand_code.bits()) }; unlikely_operands(decoder, words, instruction, operand_code, mem_oper, sink)?; } }; Ok(()) } #[inline(never)] fn unlikely_operands< T: Reader<::Address, ::Word>, S: DescriptionSink >(decoder: &InstDecoder, words: &mut T, instruction: &mut Instruction, operand_code: OperandCode, mem_oper: OperandSpec, sink: &mut S) -> Result<(), DecodeError> { match operand_code { OperandCode::G_E_mm_Ib => { let modrm = read_modrm(words)?; instruction.operands[1] = read_E_mm(words, instruction, modrm, sink)?; instruction.regs[0] = RegSpec::from_parts((modrm >> 3) & 7, false, RegisterBank::MM); instruction.imm = read_num(words, 1)? as u8 as u64; if instruction.operands[1] != OperandSpec::RegMMM { instruction.mem_size = 8; } instruction.operands[2] = OperandSpec::ImmI8; instruction.operand_count = 3; } OperandCode::G_Ev_xmm_Ib => { let modrm = read_modrm(words)?; instruction.operands[1] = read_E_xmm(words, instruction, modrm, sink)?; instruction.regs[0] = RegSpec::from_parts((modrm >> 3) & 7, instruction.prefixes.rex_unchecked().r(), RegisterBank::X); instruction.imm = read_num(words, 1)? as u8 as u64; if instruction.operands[1] != OperandSpec::RegMMM { instruction.mem_size = match instruction.opcode { Opcode::PEXTRB => 1, Opcode::PEXTRW => 2, Opcode::PEXTRD => 4, Opcode::EXTRACTPS => 4, Opcode::INSERTPS => 4, Opcode::PINSRB => 1, Opcode::PINSRW => 2, Opcode::PINSRD => 4, _ => 8, }; } instruction.operands[2] = OperandSpec::ImmI8; instruction.operand_count = 3; } OperandCode::PMOVX_E_G_xmm => { let modrm = read_modrm(words)?; instruction.regs[0] = RegSpec::from_parts((modrm >> 3) & 7, instruction.prefixes.rex_unchecked().r(), RegisterBank::X); instruction.operands[1] = OperandSpec::RegRRR; instruction.operands[0] = read_E_xmm(words, instruction, modrm, sink)?; if instruction.operands[0] != OperandSpec::RegMMM { if [].contains(&instruction.opcode) { instruction.mem_size = 2; } else { instruction.mem_size = 8; } } else { if instruction.opcode == Opcode::MOVLPD || instruction.opcode == Opcode::MOVHPD || instruction.opcode == Opcode::MOVHPS { return Err(DecodeError::InvalidOperand); } } } OperandCode::PMOVX_G_E_xmm => { let modrm = read_modrm(words)?; instruction.regs[0] = RegSpec::from_parts((modrm >> 3) & 7, instruction.prefixes.rex_unchecked().r(), RegisterBank::X); instruction.operands[0] = OperandSpec::RegRRR; instruction.operands[1] = read_E_xmm(words, instruction, modrm, sink)?; if instruction.operands[1] != OperandSpec::RegMMM { if [Opcode::PMOVSXBQ, Opcode::PMOVZXBQ].contains(&instruction.opcode) { instruction.mem_size = 2; } else if [Opcode::PMOVZXBD, Opcode::UCOMISS, Opcode::COMISS].contains(&instruction.opcode) { instruction.mem_size = 4; } else { instruction.mem_size = 8; } } else { if instruction.opcode == Opcode::MOVLPD || instruction.opcode == Opcode::MOVHPD { return Err(DecodeError::InvalidOperand); } } } OperandCode::INV_Gv_M => { let modrm = read_modrm(words)?; if modrm >= 0xc0 { return Err(DecodeError::InvalidOperand); } instruction.regs[0] = RegSpec::from_parts((modrm >> 3) & 7, instruction.prefixes.rex_unchecked().r(), RegisterBank::Q); instruction.operands[0] = OperandSpec::RegRRR; instruction.operands[1] = read_M(words, instruction, modrm, sink)?; if [Opcode::LFS, Opcode::LGS, Opcode::LSS].contains(&instruction.opcode) { if instruction.prefixes.rex_unchecked().w() { instruction.mem_size = 10; } else { instruction.mem_size = 4; } } else if [Opcode::ENQCMD, Opcode::ENQCMDS].contains(&instruction.opcode) { instruction.mem_size = 64; } else { instruction.mem_size = 16; } } OperandCode::G_U_xmm_Ub => { let modrm = read_modrm(words)?; instruction.operands[1] = read_E_xmm(words, instruction, modrm, sink)?; if instruction.operands[1] != OperandSpec::RegMMM { return Err(DecodeError::InvalidOperand); } instruction.regs[0] = RegSpec::from_parts((modrm >> 3) & 7, instruction.prefixes.rex_unchecked().r(), RegisterBank::D); instruction.imm = read_num(words, 1)? as u8 as u64; instruction.operands[2] = OperandSpec::ImmU8; instruction.operand_count = 3; } OperandCode::ModRM_0xf20f78 => { instruction.opcode = Opcode::INSERTQ; let modrm = read_modrm(words)?; if modrm < 0b11_000_000 { return Err(DecodeError::InvalidOperand); } instruction.operands[0] = OperandSpec::RegRRR; instruction.regs[0] = RegSpec::from_parts((modrm >> 3) & 7, instruction.prefixes.rex_unchecked().r(), RegisterBank::X); instruction.operands[1] = OperandSpec::RegMMM; instruction.regs[1] = RegSpec::from_parts(modrm & 7, instruction.prefixes.rex_unchecked().r(), RegisterBank::X); instruction.imm = read_num(words, 1)? as u8 as u64; instruction.disp = read_num(words, 1)? as u8 as u64; instruction.operands[2] = OperandSpec::ImmU8; instruction.operands[3] = OperandSpec::ImmInDispField; instruction.operand_count = 4; } OperandCode::ModRM_0x660f78 => { instruction.opcode = Opcode::EXTRQ; let modrm = read_modrm(words)?; if modrm < 0b11_000_000 { return Err(DecodeError::InvalidOperand); } if modrm >= 0b11_001_000 { return Err(DecodeError::InvalidOperand); } instruction.operands[0] = OperandSpec::RegMMM; instruction.regs[1] = RegSpec::from_parts(modrm & 7, instruction.prefixes.rex_unchecked().r(), RegisterBank::X); instruction.imm = read_num(words, 1)? as u8 as u64; instruction.disp = read_num(words, 1)? as u8 as u64; instruction.operands[1] = OperandSpec::ImmU8; instruction.operands[2] = OperandSpec::ImmInDispField; instruction.operand_count = 3; } OperandCode::ModRM_0xf30f1e => { let modrm = read_modrm(words)?; match modrm { 0xfa => { instruction.opcode = Opcode::ENDBR64; instruction.operand_count = 0; }, 0xfb => { instruction.opcode = Opcode::ENDBR32; instruction.operand_count = 0; }, _ => { let (sz, bank) = if instruction.prefixes.rex_unchecked().w() { (8, RegisterBank::Q) } else if !instruction.prefixes.operand_size() { (4, RegisterBank::D) } else { (2, RegisterBank::W) }; instruction.operands[1] = OperandSpec::RegRRR; instruction.operands[0] = read_E(words, instruction, modrm, sz, sink)?; instruction.mem_size = sz; instruction.regs[0] = RegSpec::from_parts((modrm >> 3) & 7, instruction.prefixes.rex_unchecked().r(), bank); instruction.operand_count = 2; } }; } OperandCode::G_E_xmm_Ub => { let modrm = read_modrm(words)?; instruction.operands[1] = read_E_xmm(words, instruction, modrm, sink)?; instruction.regs[0] = RegSpec::from_parts((modrm >> 3) & 7, instruction.prefixes.rex_unchecked().r(), RegisterBank::X); instruction.imm = read_num(words, 1)? as u8 as u64; if instruction.operands[1] != OperandSpec::RegMMM { instruction.mem_size = 16; } instruction.operands[2] = OperandSpec::ImmU8; instruction.operand_count = 3; } OperandCode::Gd_Ed => { instruction.regs[0].bank = RegisterBank::D; if mem_oper == OperandSpec::RegMMM { instruction.regs[1].bank = RegisterBank::D; } else { instruction.mem_size = 4; } instruction.operands[1] = mem_oper; } OperandCode::Md_Gd => { instruction.regs[0].bank = RegisterBank::D; if mem_oper == OperandSpec::RegMMM { return Err(DecodeError::InvalidOperand); } instruction.operands[1] = instruction.operands[0]; instruction.operands[0] = mem_oper; } /* OperandCode::Edq_Gdq => { let bank = if instruction.prefixes.rex_unchecked().w() { RegisterBank::Q } else { RegisterBank::D }; instruction.regs[0].bank = bank; if mem_oper == OperandSpec::RegMMM { instruction.regs[1].bank = bank; } instruction.operands[1] = instruction.operands[0]; instruction.operands[0] = mem_oper; instruction.operand_count = 2; } */ OperandCode::G_U_xmm => { instruction.regs[0].bank = RegisterBank::X; if mem_oper != OperandSpec::RegMMM { return Err(DecodeError::InvalidOperand); } instruction.regs[1].bank = RegisterBank::X; }, OperandCode::Gv_Ev_Ib => { instruction.operands[2] = OperandSpec::ImmI8; instruction.operand_count = 3; } OperandCode::Gv_Ev_Iv => { let opwidth = imm_width_from_prefixes_64(SizeCode::vqp, instruction.prefixes); let numwidth = if opwidth == 8 { 4 } else { opwidth }; instruction.imm = read_imm_signed(words, numwidth)? as u64; instruction.operands[2] = match opwidth { 2 => OperandSpec::ImmI16, 4 => OperandSpec::ImmI32, 8 => OperandSpec::ImmI64, _ => unsafe { unreachable_unchecked() } }; instruction.operand_count = 3; } OperandCode::Ev_Gv_Ib => { instruction.operands[0] = mem_oper; instruction.operands[1] = OperandSpec::RegRRR; instruction.imm = read_imm_signed(words, 1)? as u64; instruction.operands[2] = OperandSpec::ImmI8; instruction.operand_count = 3; } OperandCode::Ev_Gv_CL => { instruction.operands[0] = mem_oper; instruction.operands[1] = OperandSpec::RegRRR; instruction.operands[2] = OperandSpec::RegVex; instruction.regs[3] = RegSpec::cl(); instruction.operand_count = 3; } OperandCode::G_mm_Ew_Ib => { let modrm = read_modrm(words)?; instruction.operands[1] = read_E(words, instruction, modrm, 4, sink)?; instruction.regs[0] = RegSpec::from_parts((modrm >> 3) & 7, false, RegisterBank::MM); if instruction.operands[1] == OperandSpec::RegMMM { instruction.regs[1].bank = RegisterBank::D; } else { instruction.mem_size = 2; } instruction.imm = read_num(words, 1)? as u8 as u64; instruction.operands[2] = OperandSpec::ImmI8; instruction.operand_count = 3; } OperandCode::G_E_mm => { instruction.regs[0].bank = RegisterBank::MM; instruction.regs[0].num &= 0b111; if mem_oper == OperandSpec::RegMMM { instruction.regs[1].bank = RegisterBank::MM; instruction.regs[1].num &= 0b111; } else { if [Opcode::PUNPCKLBW, Opcode::PUNPCKLWD, Opcode::PUNPCKLDQ].contains(&instruction.opcode) { instruction.mem_size = 4; } else { instruction.mem_size = 8; } } }, OperandCode::G_U_mm => { instruction.regs[0].bank = RegisterBank::D; if mem_oper != OperandSpec::RegMMM { return Err(DecodeError::InvalidOperand); } instruction.regs[1].bank = RegisterBank::MM; instruction.regs[1].num &= 0b111; }, OperandCode::Gv_Ew_LSL => { let opwidth = imm_width_from_prefixes_64(SizeCode::vqp, instruction.prefixes); let modrm = read_modrm(words)?; instruction.operands[1] = read_E(words, instruction, modrm, 2, sink)?; // lsl is weird. the full register width is written, but only the low 16 bits are used. if instruction.operands[1] == OperandSpec::RegMMM { instruction.regs[1].bank = RegisterBank::D; } else { instruction.mem_size = 2; } instruction.regs[0] = RegSpec::gp_from_parts((modrm >> 3) & 7, instruction.prefixes.rex_unchecked().r(), opwidth, instruction.prefixes.rex_unchecked().present()); }, OperandCode::Gdq_Ev => { let opwidth = imm_width_from_prefixes_64(SizeCode::vqp, instruction.prefixes); let modrm = read_modrm(words)?; instruction.operands[1] = read_E(words, instruction, modrm, opwidth, sink)?; // `opwidth` can be 2, 4, or 8 here. if opwidth is 2, the first operand is a dword. // if opwidth is 4, both registers are dwords. and if opwidth is 8, both registers are // qword. if instruction.operands[1] != OperandSpec::RegMMM { instruction.mem_size = 4; } let regwidth = if opwidth == 2 { 4 } else { opwidth }; instruction.regs[0] = RegSpec::gp_from_parts((modrm >> 3) & 7, instruction.prefixes.rex_unchecked().r(), regwidth, instruction.prefixes.rex_unchecked().present()); instruction.operand_count = 2; }, op @ OperandCode::AL_Ob | op @ OperandCode::AX_Ov => { let opwidth = match op { OperandCode::AL_Ob => 1, OperandCode::AX_Ov => { imm_width_from_prefixes_64(SizeCode::vqp, instruction.prefixes) } _ => { unsafe { unreachable_unchecked() } } }; instruction.mem_size = opwidth; let addr_width = if instruction.prefixes.address_size() { 4 } else { 8 }; let imm = read_num(words, addr_width)?; instruction.regs[0] = RegSpec::gp_from_parts(0, instruction.prefixes.rex_unchecked().b(), opwidth, instruction.prefixes.rex_unchecked().present()); instruction.disp = imm; if instruction.prefixes.address_size() { instruction.operands[1] = OperandSpec::DispU32; } else { instruction.operands[1] = OperandSpec::DispU64; }; instruction.operand_count = 2; } op @ OperandCode::Ob_AL | op @ OperandCode::Ov_AX => { let opwidth = match op { OperandCode::Ob_AL => 1, OperandCode::Ov_AX => { imm_width_from_prefixes_64(SizeCode::vqp, instruction.prefixes) } _ => { unsafe { unreachable_unchecked() } } }; instruction.mem_size = opwidth; let addr_width = if instruction.prefixes.address_size() { 4 } else { 8 }; let imm = read_num(words, addr_width)?; instruction.disp = imm; instruction.operands[0] = if instruction.prefixes.address_size() { OperandSpec::DispU32 } else { OperandSpec::DispU64 }; instruction.regs[0] = RegSpec::gp_from_parts(0, instruction.prefixes.rex_unchecked().b(), opwidth, instruction.prefixes.rex_unchecked().present()); instruction.operands[1] = OperandSpec::RegRRR; instruction.operand_count = 2; } OperandCode::I_1 => { instruction.imm = 1; instruction.operands[0] = OperandSpec::ImmU8; instruction.operand_count = 1; } /* OperandCode::Unsupported => { return Err(DecodeError::IncompleteDecoder); } */ OperandCode::Iw_Ib => { instruction.disp = read_num(words, 2)? as u64; instruction.imm = read_num(words, 1)? as u64; instruction.operands[0] = OperandSpec::ImmInDispField; instruction.operands[1] = OperandSpec::ImmU8; instruction.operand_count = 2; } OperandCode::Fw => { if instruction.prefixes.rex_unchecked().w() { instruction.opcode = Opcode::IRETQ; } else if instruction.prefixes.operand_size() { instruction.opcode = Opcode::IRET; } else { instruction.opcode = Opcode::IRETD; } instruction.operand_count = 0; } OperandCode::Mdq_Gdq => { let opwidth = if instruction.prefixes.rex_unchecked().w() { 8 } else { 4 }; let modrm = read_modrm(words)?; instruction.operands[1] = instruction.operands[0]; instruction.operands[0] = read_E(words, instruction, modrm, opwidth, sink)?; if instruction.operands[0] == OperandSpec::RegMMM { return Err(DecodeError::InvalidOperand); } else { instruction.mem_size = opwidth; } instruction.regs[0] = RegSpec::gp_from_parts((modrm >> 3) & 7, instruction.prefixes.rex_unchecked().r(), opwidth, instruction.prefixes.rex_unchecked().present()); instruction.operand_count = 2; } OperandCode::G_mm_U_mm => { instruction.regs[0].bank = RegisterBank::MM; if mem_oper != OperandSpec::RegMMM { return Err(DecodeError::InvalidOperand); } instruction.regs[1].bank = RegisterBank::MM; instruction.regs[1].num &= 0b111; instruction.regs[0].num &= 0b111; instruction.operand_count = 2; }, OperandCode::E_G_q => { if instruction.prefixes.operand_size() { return Err(DecodeError::InvalidOpcode); } let modrm = read_modrm(words)?; instruction.operands[0] = read_E(words, instruction, modrm, 8, sink)?; instruction.operands[1] = OperandSpec::RegRRR; instruction.regs[0] = RegSpec::from_parts((modrm >> 3) & 7, instruction.prefixes.rex_unchecked().r(), RegisterBank::Q); instruction.operand_count = 2; if instruction.operands[0] != OperandSpec::RegMMM { instruction.mem_size = 8; } } OperandCode::G_E_q => { if instruction.prefixes.operand_size() { return Err(DecodeError::InvalidOpcode); } let modrm = read_modrm(words)?; instruction.operands[0] = OperandSpec::RegRRR; instruction.regs[0] = RegSpec::from_parts((modrm >> 3) & 7, instruction.prefixes.rex_unchecked().r(), RegisterBank::Q); instruction.operands[1] = read_E(words, instruction, modrm, 8, sink)?; instruction.operand_count = 2; if instruction.operands[1] != OperandSpec::RegMMM { instruction.mem_size = 8; } } OperandCode::G_Mq_mm => { instruction.operands[1] = instruction.operands[0]; instruction.operands[0] = mem_oper; instruction.regs[0].bank = RegisterBank::MM; if mem_oper == OperandSpec::RegMMM { return Err(DecodeError::InvalidOperand); } else { instruction.mem_size = 8; } instruction.regs[0].num &= 0b111; instruction.operand_count = 2; }, OperandCode::MOVQ_f30f => { // if rex.w is set, the f3 prefix no longer applies and this becomes an 0f7e movq, // rather than f30f7e movq. // // the difference here is that 0f7e movq has reversed operand order from f30f7e movq, // in addition to the selected register banks being different. // // anyway, there are two operands, and the primary concern here is "what are they?". instruction.operand_count = 2; let modrm = read_modrm(words)?; instruction.regs[0] = RegSpec::from_parts((modrm >> 3) & 7, instruction.prefixes.rex_unchecked().r(), RegisterBank::X); instruction.operands[1] = read_E_xmm(words, instruction, modrm, sink)?; if instruction.prefixes.rex_unchecked().w() { let op = instruction.operands[0]; instruction.operands[0] = instruction.operands[1]; instruction.operands[1] = op; instruction.regs[1].bank = RegisterBank::Q; instruction.regs[0].bank = RegisterBank::MM; instruction.regs[0].num &= 0b111; instruction.opcode = Opcode::MOVD; } if instruction.operands[1] != OperandSpec::RegMMM { if instruction.prefixes.rex_unchecked().w() { instruction.mem_size = 4; } else { instruction.mem_size = 8; } } } OperandCode::ModRM_0x0f0d => { let modrm = read_modrm(words)?; let r = (modrm >> 3) & 0b111; let opwidth = imm_width_from_prefixes_64(SizeCode::vq, instruction.prefixes); match r { 1 => { instruction.opcode = Opcode::PREFETCHW; } _ => { instruction.opcode = Opcode::NOP; } } instruction.operands[0] = read_E(words, instruction, modrm, opwidth, sink)?; if instruction.operands[0] != OperandSpec::RegMMM { instruction.mem_size = 64; } instruction.operand_count = 1; } OperandCode::ModRM_0x0f0f => { // 3dnow instructions are WILD, the opcode is encoded as an imm8 trailing the // instruction. let modrm = read_modrm(words)?; instruction.operands[1] = read_E_mm(words, instruction, modrm, sink)?; instruction.operands[0] = OperandSpec::RegRRR; instruction.regs[0] = RegSpec { bank: RegisterBank::MM, num: (modrm >> 3) & 7 }; if instruction.operands[1] != OperandSpec::RegMMM { instruction.mem_size = 8; } let opcode = read_modrm(words)?; match opcode { 0x0c => { instruction.opcode = Opcode::PI2FW; } 0x0d => { instruction.opcode = Opcode::PI2FD; } 0x1c => { instruction.opcode = Opcode::PF2IW; } 0x1d => { instruction.opcode = Opcode::PF2ID; } 0x8a => { instruction.opcode = Opcode::PFNACC; } 0x8e => { instruction.opcode = Opcode::PFPNACC; } 0x90 => { instruction.opcode = Opcode::PFCMPGE; } 0x94 => { instruction.opcode = Opcode::PFMIN; } 0x96 => { instruction.opcode = Opcode::PFRCP; } 0x97 => { instruction.opcode = Opcode::PFRSQRT; } 0x9a => { instruction.opcode = Opcode::PFSUB; } 0x9e => { instruction.opcode = Opcode::PFADD; } 0xa0 => { instruction.opcode = Opcode::PFCMPGT; } 0xa4 => { instruction.opcode = Opcode::PFMAX; } 0xa6 => { instruction.opcode = Opcode::PFRCPIT1; } 0xa7 => { instruction.opcode = Opcode::PFRSQIT1; } 0xaa => { instruction.opcode = Opcode::PFSUBR; } 0xae => { instruction.opcode = Opcode::PFACC; } 0xb0 => { instruction.opcode = Opcode::PFCMPEQ; } 0xb4 => { instruction.opcode = Opcode::PFMUL; } 0xb6 => { instruction.opcode = Opcode::PFRCPIT2; } 0xb7 => { instruction.opcode = Opcode::PMULHRW; } 0xbb => { instruction.opcode = Opcode::PSWAPD; } 0xbf => { instruction.opcode = Opcode::PAVGUSB; } _ => { return Err(DecodeError::InvalidOpcode); } } } OperandCode::ModRM_0x0fc7 => { if instruction.prefixes.repnz() { let modrm = read_modrm(words)?; let is_reg = (modrm & 0xc0) == 0xc0; let r = (modrm >> 3) & 7; match r { 1 => { if is_reg { return Err(DecodeError::InvalidOperand); } else { if instruction.prefixes.rex_unchecked().w() { instruction.opcode = Opcode::CMPXCHG16B; instruction.mem_size = 16; } else { instruction.opcode = Opcode::CMPXCHG8B; instruction.mem_size = 8; } instruction.operand_count = 1; let opwidth = imm_width_from_prefixes_64(SizeCode::vqp, instruction.prefixes); instruction.operands[0] = read_E(words, instruction, modrm, opwidth, sink)?; } return Ok(()); } _ => { return Err(DecodeError::InvalidOperand); } } } if instruction.prefixes.operand_size() { let opwidth = imm_width_from_prefixes_64(SizeCode::vqp, instruction.prefixes); let modrm = read_modrm(words)?; let is_reg = (modrm & 0xc0) == 0xc0; let r = (modrm >> 3) & 7; match r { 1 => { if is_reg { return Err(DecodeError::InvalidOperand); } else { if instruction.prefixes.rex_unchecked().w() { instruction.opcode = Opcode::CMPXCHG16B; instruction.mem_size = 16; } else { instruction.opcode = Opcode::CMPXCHG8B; instruction.mem_size = 8; } instruction.operand_count = 1; let opwidth = imm_width_from_prefixes_64(SizeCode::vqp, instruction.prefixes); instruction.operands[0] = read_E(words, instruction, modrm, opwidth, sink)?; } return Ok(()); } 6 => { instruction.opcode = Opcode::VMCLEAR; instruction.operands[0] = read_E(words, instruction, modrm, opwidth, sink)?; if instruction.operands[0] == OperandSpec::RegMMM { // this would be invalid as `vmclear`, so fall back to the parse as // 66-prefixed rdrand. this is a register operand, so just demote it to the // word-form operand: instruction.regs[1] = RegSpec { bank: RegisterBank::W, num: instruction.regs[1].num }; instruction.opcode = Opcode::RDRAND; } else { instruction.mem_size = 8; } instruction.operand_count = 1; return Ok(()); } 7 => { instruction.operands[0] = read_E(words, instruction, modrm, opwidth, sink)?; if instruction.operands[0] == OperandSpec::RegMMM { // this would be invalid as `vmclear`, so fall back to the parse as // 66-prefixed rdrand. this is a register operand, so just demote it to the // word-form operand: instruction.regs[1] = RegSpec { bank: RegisterBank::W, num: instruction.regs[1].num }; instruction.opcode = Opcode::RDSEED; } else { return Err(DecodeError::InvalidOpcode); } instruction.operand_count = 1; return Ok(()); } _ => { return Err(DecodeError::InvalidOpcode); } } } if instruction.prefixes.rep() { let opwidth = imm_width_from_prefixes_64(SizeCode::vqp, instruction.prefixes); let modrm = read_modrm(words)?; let is_reg = (modrm & 0xc0) == 0xc0; let r = (modrm >> 3) & 7; match r { 1 => { if is_reg { return Err(DecodeError::InvalidOperand); } else { if instruction.prefixes.rex_unchecked().w() { instruction.opcode = Opcode::CMPXCHG16B; instruction.mem_size = 16; } else { instruction.opcode = Opcode::CMPXCHG8B; instruction.mem_size = 8; } instruction.operand_count = 1; let opwidth = imm_width_from_prefixes_64(SizeCode::vqp, instruction.prefixes); instruction.operands[0] = read_E(words, instruction, modrm, opwidth, sink)?; } } 6 => { instruction.opcode = Opcode::VMXON; instruction.operands[0] = read_E(words, instruction, modrm, opwidth, sink)?; if instruction.operands[0] == OperandSpec::RegMMM { // invalid as `vmxon`, reg-form is `senduipi` instruction.opcode = Opcode::SENDUIPI; // and the operand is always a qword register instruction.regs[1].bank = RegisterBank::Q; } else { instruction.mem_size = 8; } instruction.operand_count = 1; } 7 => { instruction.opcode = Opcode::RDPID; instruction.operands[0] = read_E(words, instruction, modrm, opwidth, sink)?; if instruction.operands[0] != OperandSpec::RegMMM { return Err(DecodeError::InvalidOperand); } instruction.operand_count = 1; } _ => { return Err(DecodeError::InvalidOpcode); } } return Ok(()); } let modrm = read_modrm(words)?; let is_reg = (modrm & 0xc0) == 0xc0; let r = (modrm >> 3) & 0b111; let opcode = match r { 0b001 => { if is_reg { return Err(DecodeError::InvalidOperand); } else { if instruction.prefixes.rex_unchecked().w() { instruction.mem_size = 16; Opcode::CMPXCHG16B } else { instruction.mem_size = 8; Opcode::CMPXCHG8B } } } 0b011 => { if is_reg { return Err(DecodeError::InvalidOperand); } else { instruction.mem_size = 63; if instruction.prefixes.rex_unchecked().w() { Opcode::XRSTORS64 } else { Opcode::XRSTORS } } } 0b100 => { if is_reg { return Err(DecodeError::InvalidOperand); } else { instruction.mem_size = 63; if instruction.prefixes.rex_unchecked().w() { Opcode::XSAVEC64 } else { Opcode::XSAVEC } } } 0b101 => { if is_reg { return Err(DecodeError::InvalidOperand); } else { instruction.mem_size = 63; if instruction.prefixes.rex_unchecked().w() { Opcode::XSAVES64 } else { Opcode::XSAVES } } } 0b110 => { if is_reg { Opcode::RDRAND } else { instruction.mem_size = 8; Opcode::VMPTRLD } } 0b111 => { if is_reg { Opcode::RDSEED } else { instruction.mem_size = 8; Opcode::VMPTRST } } _ => { return Err(DecodeError::InvalidOperand); } }; instruction.opcode = opcode; instruction.operand_count = 1; let opwidth = imm_width_from_prefixes_64(SizeCode::vqp, instruction.prefixes); instruction.operands[0] = read_E(words, instruction, modrm, opwidth, sink)?; }, OperandCode::ModRM_0x0f71 => { if instruction.prefixes.rep() || instruction.prefixes.repnz() { return Err(DecodeError::InvalidOperand); } instruction.operand_count = 2; let modrm = read_modrm(words)?; if modrm & 0xc0 != 0xc0 { return Err(DecodeError::InvalidOperand); } let r = (modrm >> 3) & 7; match r { 2 => { instruction.opcode = Opcode::PSRLW; } 4 => { instruction.opcode = Opcode::PSRAW; } 6 => { instruction.opcode = Opcode::PSLLW; } _ => { return Err(DecodeError::InvalidOpcode); } } if instruction.prefixes.operand_size() { instruction.regs[1] = RegSpec { bank: RegisterBank::X, num: modrm & 7 }; } else { instruction.regs[1] = RegSpec { bank: RegisterBank::MM, num: modrm & 7 }; } instruction.operands[0] = OperandSpec::RegMMM; instruction.imm = read_imm_signed(words, 1)? as u64; instruction.operands[1] = OperandSpec::ImmU8; }, OperandCode::ModRM_0x0f72 => { if instruction.prefixes.rep() || instruction.prefixes.repnz() { return Err(DecodeError::InvalidOperand); } instruction.operand_count = 2; let modrm = read_modrm(words)?; if modrm & 0xc0 != 0xc0 { return Err(DecodeError::InvalidOperand); } let r = (modrm >> 3) & 7; match r { 2 => { instruction.opcode = Opcode::PSRLD; } 4 => { instruction.opcode = Opcode::PSRAD; } 6 => { instruction.opcode = Opcode::PSLLD; } _ => { return Err(DecodeError::InvalidOpcode); } } if instruction.prefixes.operand_size() { instruction.regs[1] = RegSpec { bank: RegisterBank::X, num: modrm & 7 }; } else { instruction.regs[1] = RegSpec { bank: RegisterBank::MM, num: modrm & 7 }; } instruction.operands[0] = OperandSpec::RegMMM; instruction.imm = read_imm_signed(words, 1)? as u64; instruction.operands[1] = OperandSpec::ImmU8; }, OperandCode::ModRM_0x0f73 => { if instruction.prefixes.rep() || instruction.prefixes.repnz() { return Err(DecodeError::InvalidOperand); } instruction.operand_count = 2; let modrm = read_modrm(words)?; if modrm & 0xc0 != 0xc0 { return Err(DecodeError::InvalidOperand); } let r = (modrm >> 3) & 7; match r { 2 => { instruction.opcode = Opcode::PSRLQ; } 3 => { if !instruction.prefixes.operand_size() { return Err(DecodeError::InvalidOperand); } instruction.opcode = Opcode::PSRLDQ; } 6 => { instruction.opcode = Opcode::PSLLQ; } 7 => { if !instruction.prefixes.operand_size() { return Err(DecodeError::InvalidOperand); } instruction.opcode = Opcode::PSLLDQ; } _ => { return Err(DecodeError::InvalidOpcode); } } if instruction.prefixes.operand_size() { instruction.regs[1] = RegSpec { bank: RegisterBank::X, num: modrm & 7 }; } else { instruction.regs[1] = RegSpec { bank: RegisterBank::MM, num: modrm & 7 }; } instruction.operands[0] = OperandSpec::RegMMM; instruction.imm = read_imm_signed(words, 1)? as u64; instruction.operands[1] = OperandSpec::ImmU8; }, OperandCode::ModRM_0xf30f38d8 => { let modrm = read_modrm(words)?; let r = (modrm >> 3) & 7; match r { 0b000 => { if modrm >= 0b11_000_000 { return Err(DecodeError::InvalidOperand); } instruction.mem_size = 48; instruction.opcode = Opcode::AESENCWIDE128KL; instruction.operands[0] = read_M(words, instruction, modrm, sink)?; return Ok(()); } 0b001 => { if modrm >= 0b11_000_000 { return Err(DecodeError::InvalidOperand); } instruction.mem_size = 48; instruction.opcode = Opcode::AESDECWIDE128KL; instruction.operands[0] = read_M(words, instruction, modrm, sink)?; return Ok(()); } 0b010 => { if modrm >= 0b11_000_000 { return Err(DecodeError::InvalidOperand); } instruction.mem_size = 64; instruction.opcode = Opcode::AESENCWIDE256KL; instruction.operands[0] = read_M(words, instruction, modrm, sink)?; return Ok(()); } 0b011 => { if modrm >= 0b11_000_000 { return Err(DecodeError::InvalidOperand); } instruction.mem_size = 64; instruction.opcode = Opcode::AESDECWIDE256KL; instruction.operands[0] = read_M(words, instruction, modrm, sink)?; return Ok(()); } _ => { return Err(DecodeError::InvalidOpcode); } } } OperandCode::ModRM_0xf30f38dc => { read_operands(decoder, words, instruction, OperandCode::G_E_xmm, sink)?; if let OperandSpec::RegMMM = instruction.operands[1] { instruction.opcode = Opcode::LOADIWKEY; } else { instruction.mem_size = 48; instruction.opcode = Opcode::AESENC128KL; } } OperandCode::ModRM_0xf30f38dd => { read_operands(decoder, words, instruction, OperandCode::G_E_xmm, sink)?; if let OperandSpec::RegMMM = instruction.operands[1] { return Err(DecodeError::InvalidOperand); } else { instruction.mem_size = 48; instruction.opcode = Opcode::AESDEC128KL; } } OperandCode::ModRM_0xf30f38de => { read_operands(decoder, words, instruction, OperandCode::G_E_xmm, sink)?; if let OperandSpec::RegMMM = instruction.operands[1] { return Err(DecodeError::InvalidOperand); } else { instruction.mem_size = 64; instruction.opcode = Opcode::AESENC256KL; } } OperandCode::ModRM_0xf30f38df => { read_operands(decoder, words, instruction, OperandCode::G_E_xmm, sink)?; if let OperandSpec::RegMMM = instruction.operands[1] { return Err(DecodeError::InvalidOperand); } else { instruction.mem_size = 64; instruction.opcode = Opcode::AESDEC256KL; } } OperandCode::ModRM_0xf30f38fa => { instruction.opcode = Opcode::ENCODEKEY128; read_operands(decoder, words, instruction, OperandCode::G_U_xmm, sink)?; instruction.regs[0].bank = RegisterBank::D; instruction.regs[1].bank = RegisterBank::D; } OperandCode::ModRM_0xf30f38fb => { instruction.opcode = Opcode::ENCODEKEY256; read_operands(decoder, words, instruction, OperandCode::G_U_xmm, sink)?; instruction.regs[0].bank = RegisterBank::D; instruction.regs[1].bank = RegisterBank::D; } OperandCode::ModRM_0xf30f3af0 => { let modrm = words.next().ok().ok_or(DecodeError::ExhaustedInput)?; if modrm & 0xc0 != 0xc0 { return Err(DecodeError::InvalidOpcode); // invalid } instruction.opcode = Opcode::HRESET; instruction.imm = read_num(words, 1)?; instruction.operands[0] = OperandSpec::ImmU8; } OperandCode::G_mm_Edq => { instruction.regs[0].bank = RegisterBank::MM; instruction.regs[0].num &= 0b111; if mem_oper == OperandSpec::RegMMM { if instruction.prefixes.rex_unchecked().w() { instruction.regs[1].bank = RegisterBank::Q; } else { instruction.regs[1].bank = RegisterBank::D; } } } OperandCode::G_mm_E => { instruction.regs[0].bank = RegisterBank::MM; instruction.regs[0].num &= 0b111; if mem_oper == OperandSpec::RegMMM { instruction.regs[1].bank = RegisterBank::MM; instruction.regs[1].num &= 0b111; } else { instruction.mem_size = 8; } } OperandCode::Edq_G_mm => { instruction.operands[1] = instruction.operands[0]; instruction.operands[0] = mem_oper; instruction.regs[0].bank = RegisterBank::MM; instruction.regs[0].num &= 0b111; if mem_oper == OperandSpec::RegMMM { if instruction.prefixes.rex_unchecked().w() { instruction.regs[1].bank = RegisterBank::Q; } else { instruction.regs[1].bank = RegisterBank::D; } } else { if instruction.prefixes.rex_unchecked().w() { instruction.mem_size = 8; } else { instruction.mem_size = 4; } } } OperandCode::Edq_G_xmm => { instruction.operands[1] = instruction.operands[0]; instruction.operands[0] = mem_oper; instruction.regs[0].bank = RegisterBank::X; if mem_oper == OperandSpec::RegMMM { if instruction.prefixes.rex_unchecked().w() { instruction.regs[1].bank = RegisterBank::Q; // movd/q is so weird instruction.opcode = Opcode::MOVQ; } else { instruction.regs[1].bank = RegisterBank::D; } } else { if instruction.prefixes.rex_unchecked().w() { instruction.opcode = Opcode::MOVQ; instruction.mem_size = 8; } else { instruction.mem_size = 4; } } } OperandCode::E_G_mm => { instruction.operands[1] = instruction.operands[0]; instruction.operands[0] = mem_oper; instruction.regs[0].bank = RegisterBank::MM; instruction.regs[0].num &= 0b111; if mem_oper == OperandSpec::RegMMM { instruction.regs[1].bank = RegisterBank::MM; instruction.regs[1].num &= 0b111; } else { instruction.mem_size = 8; } } /* OperandCode::G_xmm_Ed => { instruction.operands[1] = mem_oper; instruction.regs[0].bank = RegisterBank::X; if mem_oper == OperandSpec::RegMMM { instruction.regs[1].bank = RegisterBank::D; } }, */ OperandCode::G_xmm_Edq => { instruction.regs[0].bank = RegisterBank::X; if mem_oper == OperandSpec::RegMMM { if instruction.prefixes.rex_unchecked().w() { instruction.regs[1].bank = RegisterBank::Q; } else { instruction.regs[1].bank = RegisterBank::D; } } }, OperandCode::G_xmm_Ew_Ib => { instruction.operands[2] = OperandSpec::ImmU8; instruction.operand_count = 3; instruction.imm = read_num(words, 1)? as u64; instruction.regs[0].bank = RegisterBank::X; if mem_oper == OperandSpec::RegMMM { instruction.regs[1].bank = RegisterBank::D; } else { instruction.mem_size = 2; } }, OperandCode::G_xmm_Eq => { instruction.regs[0].bank = RegisterBank::X; if mem_oper == OperandSpec::RegMMM { instruction.regs[1].bank = RegisterBank::Q; } else { instruction.mem_size = 8; } }, OperandCode::G_mm_E_xmm => { instruction.regs[0].bank = RegisterBank::MM; instruction.regs[0].num &= 0b111; if mem_oper == OperandSpec::RegMMM { instruction.regs[1].bank = RegisterBank::X; } else { instruction.mem_size = 16; } }, op @ OperandCode::G_xmm_U_mm | op @ OperandCode::G_xmm_E_mm => { instruction.regs[0].bank = RegisterBank::X; if mem_oper == OperandSpec::RegMMM { instruction.regs[1].bank = RegisterBank::MM; instruction.regs[1].num &= 0b111; } else { if op == OperandCode::G_xmm_U_mm { return Err(DecodeError::InvalidOperand); } else { if instruction.prefixes.rex_unchecked().w() { instruction.mem_size = 8; } else { instruction.mem_size = 4; } } } }, OperandCode::Rv_Gmm_Ib => { instruction.operands[2] = OperandSpec::ImmU8; instruction.operand_count = 3; instruction.imm = read_num(words, 1)? as u64; instruction.regs[0].bank = RegisterBank::D; if mem_oper == OperandSpec::RegMMM { instruction.regs[1].bank = RegisterBank::MM; instruction.regs[1].num &= 0b111; } else { return Err(DecodeError::InvalidOperand); } } OperandCode::U_mm_G_xmm => { instruction.regs[1].bank = RegisterBank::X; if mem_oper == OperandSpec::RegMMM { instruction.regs[0].bank = RegisterBank::MM; instruction.regs[0].num &= 0b111; } else { return Err(DecodeError::InvalidOperand); } } // sure hope these aren't backwards huh OperandCode::AL_Xb => { instruction.regs[0] = RegSpec::al(); if instruction.prefixes.address_size() { instruction.regs[1] = RegSpec::esi(); } else { instruction.regs[1] = RegSpec::rsi(); } instruction.operands[0] = OperandSpec::RegRRR; instruction.operands[1] = OperandSpec::Deref; instruction.mem_size = 1; instruction.operand_count = 2; } OperandCode::Yb_Xb => { if instruction.prefixes.address_size() { instruction.operands[0] = OperandSpec::Deref_edi; instruction.operands[1] = OperandSpec::Deref_esi; } else { instruction.operands[0] = OperandSpec::Deref_rdi; instruction.operands[1] = OperandSpec::Deref_rsi; } instruction.mem_size = 1; instruction.operand_count = 2; } OperandCode::Yb_AL => { instruction.regs[0] = RegSpec::al(); if instruction.prefixes.address_size() { instruction.regs[1] = RegSpec::edi(); } else { instruction.regs[1] = RegSpec::rdi(); } instruction.operands[0] = OperandSpec::Deref; instruction.operands[1] = OperandSpec::RegRRR; instruction.mem_size = 1; instruction.operand_count = 2; } OperandCode::AX_Xv => { let opwidth = imm_width_from_prefixes_64(SizeCode::vqp, instruction.prefixes); instruction.regs[0] = match opwidth { 2 => RegSpec::ax(), 4 => RegSpec::eax(), 8 => RegSpec::rax(), _ => { unreachable!(); } }; if instruction.prefixes.address_size() { instruction.regs[1] = RegSpec::esi(); } else { instruction.regs[1] = RegSpec::rsi(); } instruction.operands[1] = OperandSpec::Deref; instruction.mem_size = opwidth; } OperandCode::Yv_AX => { let opwidth = imm_width_from_prefixes_64(SizeCode::vqp, instruction.prefixes); instruction.regs[0] = match opwidth { 2 => RegSpec::ax(), 4 => RegSpec::eax(), 8 => RegSpec::rax(), _ => { unreachable!(); } }; if instruction.prefixes.address_size() { instruction.regs[1] = RegSpec::edi(); } else { instruction.regs[1] = RegSpec::rdi(); } instruction.operands[0] = OperandSpec::Deref; instruction.operands[1] = OperandSpec::RegRRR; instruction.mem_size = opwidth; } OperandCode::Yv_Xv => { let opwidth = imm_width_from_prefixes_64(SizeCode::vqp, instruction.prefixes); instruction.mem_size = opwidth; if instruction.prefixes.address_size() { instruction.operands[0] = OperandSpec::Deref_edi; instruction.operands[1] = OperandSpec::Deref_esi; } else { instruction.operands[0] = OperandSpec::Deref_rdi; instruction.operands[1] = OperandSpec::Deref_rsi; } } OperandCode::ModRM_0x0f12 => { instruction.regs[0].bank = RegisterBank::X; instruction.operands[1] = mem_oper; if instruction.operands[1] == OperandSpec::RegMMM { if instruction.prefixes.operand_size() { return Err(DecodeError::InvalidOpcode); } instruction.regs[1].bank = RegisterBank::X; instruction.opcode = Opcode::MOVHLPS; } else { instruction.mem_size = 8; if instruction.prefixes.operand_size() { instruction.opcode = Opcode::MOVLPD; } else { instruction.opcode = Opcode::MOVLPS; } } } OperandCode::ModRM_0x0f16 => { instruction.regs[0].bank = RegisterBank::X; instruction.operands[1] = mem_oper; if instruction.operands[1] == OperandSpec::RegMMM { instruction.regs[1].bank = RegisterBank::X; if instruction.prefixes.operand_size() { return Err(DecodeError::InvalidOpcode); } instruction.opcode = Opcode::MOVLHPS; } else { instruction.mem_size = 8; if instruction.prefixes.operand_size() { instruction.opcode = Opcode::MOVHPD; } else { instruction.opcode = Opcode::MOVHPS; } } } OperandCode::ModRM_0x0f18 => { let rrr = instruction.regs[0].num & 0b111; instruction.operands[0] = mem_oper; instruction.operand_count = 1; // only PREFETCH* are invalid on reg operand instruction.opcode = if mem_oper == OperandSpec::RegMMM && rrr < 4 { Opcode::NOP } else { match rrr { 0 => Opcode::PREFETCHNTA, 1 => Opcode::PREFETCH0, 2 => Opcode::PREFETCH1, 3 => Opcode::PREFETCH2, _ => Opcode::NOP, } }; if mem_oper != OperandSpec::RegMMM { instruction.mem_size = 64; } } OperandCode::Gd_U_xmm => { if instruction.operands[1] != OperandSpec::RegMMM { return Err(DecodeError::InvalidOperand); } instruction.regs[0].bank = RegisterBank::D; instruction.regs[1].bank = RegisterBank::X; } OperandCode::Gv_E_xmm => { if instruction.operands[1] == OperandSpec::RegMMM { instruction.regs[1].bank = RegisterBank::X; } else { instruction.mem_size = 4; } } OperandCode::M_G_xmm => { instruction.operands[1] = instruction.operands[0]; instruction.operands[0] = mem_oper; if instruction.operands[0] == OperandSpec::RegMMM { return Err(DecodeError::InvalidOperand); } else { if instruction.opcode == Opcode::MOVNTSS { instruction.mem_size = 4; } else if instruction.opcode == Opcode::MOVNTPD || instruction.opcode == Opcode::MOVNTDQ || instruction.opcode == Opcode::MOVNTPS { instruction.mem_size = 16; } else { instruction.mem_size = 8; } } instruction.regs[0].bank = RegisterBank::X; } OperandCode::Ew_Sw => { let opwidth = 2; let modrm = read_modrm(words)?; // check r if ((modrm >> 3) & 7) > 5 { // return Err(()); //Err("Invalid r".to_owned()); return Err(DecodeError::InvalidOperand); } instruction.regs[0] = RegSpec { bank: RegisterBank::S, num: (modrm >> 3) & 7 }; instruction.operands[1] = OperandSpec::RegRRR; instruction.operand_count = 2; let mod_bits = modrm >> 6; if mod_bits == 0b11 { instruction.regs[1] = RegSpec { bank: RegisterBank::W, num: modrm & 7}; instruction.operands[0] = OperandSpec::RegMMM; } else { instruction.operands[0] = read_E(words, instruction, modrm, opwidth, sink)?; instruction.mem_size = 2; } }, OperandCode::Sw_Ew => { let modrm = read_modrm(words)?; // check r if ((modrm >> 3) & 7) > 5 { // return Err(()); // Err("Invalid r".to_owned()); return Err(DecodeError::InvalidOperand); } instruction.regs[0] = RegSpec { bank: RegisterBank::S, num: (modrm >> 3) & 7 }; // quoth the manual: // ``` // The MOV instruction cannot be used to load the CS register. Attempting to do so // results in an invalid opcode excep-tion (#UD). To load the CS register, use the far // JMP, CALL, or RET instruction. // ``` if instruction.regs[0].num == 1 { return Err(DecodeError::InvalidOperand); } instruction.operands[0] = OperandSpec::RegRRR; instruction.operand_count = 2; let mod_bits = modrm >> 6; if mod_bits == 0b11 { instruction.regs[1] = RegSpec { bank: RegisterBank::W, num: modrm & 7}; instruction.operands[1] = OperandSpec::RegMMM; } else { instruction.operands[1] = read_M(words, instruction, modrm, sink)?; instruction.mem_size = 2; } }, OperandCode::CVT_AA => { let opwidth = imm_width_from_prefixes_64(SizeCode::vqp, instruction.prefixes); instruction.operands[0] = OperandSpec::Nothing; instruction.operand_count = 0; instruction.opcode = match opwidth { 2 => { Opcode::CBW }, 4 => { Opcode::CWDE }, 8 => { Opcode::CDQE }, _ => { unreachable!("invalid operation width"); }, } } OperandCode::CVT_DA => { let opwidth = imm_width_from_prefixes_64(SizeCode::vqp, instruction.prefixes); instruction.operands[0] = OperandSpec::Nothing; instruction.operand_count = 0; instruction.opcode = match opwidth { 2 => { Opcode::CWD }, 4 => { Opcode::CDQ }, 8 => { Opcode::CQO }, _ => { unreachable!("invalid operation width"); }, } } OperandCode::Ib => { instruction.operands[0] = OperandSpec::ImmU8; instruction.operand_count = 1; } OperandCode::Iw => { instruction.imm = read_imm_unsigned(words, 2)?; instruction.operands[0] = OperandSpec::ImmU16; if instruction.opcode == Opcode::RETURN { instruction.mem_size = 8; } else { instruction.mem_size = 10; } instruction.operand_count = 1; } OperandCode::ModRM_0x0f00 => { instruction.operand_count = 1; let modrm = read_modrm(words)?; let r = (modrm >> 3) & 7; if r == 0 { instruction.opcode = Opcode::SLDT; } else if r == 1 { instruction.opcode = Opcode::STR; } else if r == 2 { instruction.opcode = Opcode::LLDT; } else if r == 3 { instruction.opcode = Opcode::LTR; } else if r == 4 { instruction.opcode = Opcode::VERR; } else if r == 5 { instruction.opcode = Opcode::VERW; } else if r == 6 { // TODO: this would be jmpe for x86-on-itanium systems. instruction.operands[0] = OperandSpec::Nothing; instruction.operand_count = 0; return Err(DecodeError::InvalidOperand); } else if r == 7 { instruction.operands[0] = OperandSpec::Nothing; instruction.operand_count = 0; return Err(DecodeError::InvalidOperand); } else { unreachable!("r <= 8"); } instruction.operands[0] = read_E(words, instruction, modrm, 2, sink)?; if instruction.operands[0] != OperandSpec::RegMMM { instruction.mem_size = 2; } } OperandCode::ModRM_0x0f01 => { let opwidth = imm_width_from_prefixes_64(SizeCode::vq, instruction.prefixes); let modrm = read_modrm(words)?; let r = (modrm >> 3) & 7; if r == 0 { let mod_bits = modrm >> 6; let m = modrm & 7; if mod_bits == 0b11 { if instruction.prefixes.rep() || instruction.prefixes.repnz() || instruction.prefixes.operand_size() { return Err(DecodeError::InvalidOperand); } instruction.operands[0] = OperandSpec::Nothing; instruction.operand_count = 0; match m { 0b000 => { instruction.opcode = Opcode::ENCLV; }, 0b001 => { instruction.opcode = Opcode::VMCALL; }, 0b010 => { instruction.opcode = Opcode::VMLAUNCH; }, 0b011 => { instruction.opcode = Opcode::VMRESUME; }, 0b100 => { instruction.opcode = Opcode::VMXOFF; }, 0b101 => { instruction.opcode = Opcode::PCONFIG; }, _ => { return Err(DecodeError::InvalidOpcode); } } } else { instruction.opcode = Opcode::SGDT; instruction.operand_count = 1; instruction.mem_size = 63; instruction.operands[0] = read_E(words, instruction, modrm, opwidth, sink)?; } } else if r == 1 { let mod_bits = modrm >> 6; let m = modrm & 7; if mod_bits == 0b11 { instruction.operands[0] = OperandSpec::Nothing; instruction.operand_count = 0; if instruction.prefixes.rep() || instruction.prefixes.repnz() { return Err(DecodeError::InvalidOpcode); } if instruction.prefixes.operand_size() { match m { 0b100 => { instruction.opcode = Opcode::TDCALL; } 0b101 => { instruction.opcode = Opcode::SEAMRET; } 0b110 => { instruction.opcode = Opcode::SEAMOPS; } 0b111 => { instruction.opcode = Opcode::SEAMCALL; } _ => { return Err(DecodeError::InvalidOpcode); } } } else { match m { 0b000 => { instruction.opcode = Opcode::MONITOR; } 0b001 => { instruction.opcode = Opcode::MWAIT; }, 0b010 => { instruction.opcode = Opcode::CLAC; } 0b011 => { instruction.opcode = Opcode::STAC; } 0b111 => { instruction.opcode = Opcode::ENCLS; } _ => { return Err(DecodeError::InvalidOpcode); } } } } else { instruction.opcode = Opcode::SIDT; instruction.operand_count = 1; instruction.mem_size = 63; instruction.operands[0] = read_E(words, instruction, modrm, opwidth, sink)?; } } else if r == 2 { let mod_bits = modrm >> 6; let m = modrm & 7; if mod_bits == 0b11 { if instruction.prefixes.rep() || instruction.prefixes.repnz() || instruction.prefixes.operand_size() { return Err(DecodeError::InvalidOperand); } instruction.operands[0] = OperandSpec::Nothing; instruction.operand_count = 0; match m { 0b000 => { instruction.opcode = Opcode::XGETBV; } 0b001 => { instruction.opcode = Opcode::XSETBV; } 0b100 => { instruction.opcode = Opcode::VMFUNC; } 0b101 => { instruction.opcode = Opcode::XEND; } 0b110 => { instruction.opcode = Opcode::XTEST; } 0b111 => { instruction.opcode = Opcode::ENCLU; } _ => { return Err(DecodeError::InvalidOpcode); } } } else { instruction.opcode = Opcode::LGDT; instruction.operand_count = 1; instruction.mem_size = 63; instruction.operands[0] = read_E(words, instruction, modrm, opwidth, sink)?; } } else if r == 3 { let mod_bits = modrm >> 6; let m = modrm & 7; if mod_bits == 0b11 { match m { 0b000 => { instruction.opcode = Opcode::VMRUN; instruction.operand_count = 1; instruction.regs[0] = RegSpec::rax(); instruction.operands[0] = OperandSpec::RegRRR; }, 0b001 => { instruction.opcode = Opcode::VMMCALL; instruction.operands[0] = OperandSpec::Nothing; instruction.operand_count = 0; }, 0b010 => { instruction.opcode = Opcode::VMLOAD; instruction.operand_count = 1; instruction.regs[0] = RegSpec::rax(); instruction.operands[0] = OperandSpec::RegRRR; }, 0b011 => { instruction.opcode = Opcode::VMSAVE; instruction.operand_count = 1; instruction.regs[0] = RegSpec::rax(); instruction.operands[0] = OperandSpec::RegRRR; }, 0b100 => { instruction.opcode = Opcode::STGI; instruction.operands[0] = OperandSpec::Nothing; instruction.operand_count = 0; }, 0b101 => { instruction.opcode = Opcode::CLGI; instruction.operands[0] = OperandSpec::Nothing; instruction.operand_count = 0; }, 0b110 => { instruction.opcode = Opcode::SKINIT; instruction.operand_count = 1; instruction.operands[0] = OperandSpec::RegRRR; instruction.regs[0] = RegSpec::eax(); }, 0b111 => { instruction.opcode = Opcode::INVLPGA; instruction.operand_count = 2; instruction.operands[0] = OperandSpec::RegRRR; instruction.operands[1] = OperandSpec::RegMMM; instruction.regs[0] = RegSpec::rax(); instruction.regs[1] = RegSpec::ecx(); }, _ => { instruction.operands[0] = OperandSpec::Nothing; instruction.operand_count = 0; return Err(DecodeError::InvalidOperand); } } } else { instruction.opcode = Opcode::LIDT; instruction.operand_count = 1; instruction.mem_size = 63; instruction.operands[0] = read_E(words, instruction, modrm, opwidth, sink)?; } } else if r == 4 { // TODO: this permits storing only to word-size registers // spec suggets this might do something different for f.ex rdi? instruction.opcode = Opcode::SMSW; instruction.operand_count = 1; instruction.mem_size = 2; instruction.operands[0] = read_E(words, instruction, modrm, 2, sink)?; } else if r == 5 { let mod_bits = modrm >> 6; if mod_bits != 0b11 { if !instruction.prefixes.rep() { return Err(DecodeError::InvalidOpcode); } instruction.opcode = Opcode::RSTORSSP; instruction.operands[0] = read_E(words, instruction, modrm, 8, sink)?; instruction.mem_size = 8; instruction.operand_count = 1; return Ok(()); } let m = modrm & 7; match m { 0b000 => { if instruction.prefixes.repnz() { instruction.opcode = Opcode::XSUSLDTRK; instruction.operands[0] = OperandSpec::Nothing; instruction.operand_count = 0; return Ok(()); } if !instruction.prefixes.rep() || instruction.prefixes.repnz() { return Err(DecodeError::InvalidOpcode); } instruction.opcode = Opcode::SETSSBSY; instruction.operands[0] = OperandSpec::Nothing; instruction.operand_count = 0; } 0b001 => { if instruction.prefixes.repnz() { instruction.opcode = Opcode::XRESLDTRK; instruction.operands[0] = OperandSpec::Nothing; instruction.operand_count = 0; return Ok(()); } else { instruction.operands[0] = OperandSpec::Nothing; instruction.operand_count = 0; return Err(DecodeError::InvalidOpcode); } } 0b010 => { if !instruction.prefixes.rep() || instruction.prefixes.repnz() { return Err(DecodeError::InvalidOpcode); } instruction.opcode = Opcode::SAVEPREVSSP; instruction.operands[0] = OperandSpec::Nothing; instruction.operand_count = 0; } 0b100 => { if instruction.prefixes.rep() { instruction.opcode = Opcode::UIRET; instruction.operands[0] = OperandSpec::Nothing; instruction.operand_count = 0; } else { instruction.operands[0] = OperandSpec::Nothing; instruction.operand_count = 0; return Err(DecodeError::InvalidOpcode); } } 0b101 => { if instruction.prefixes.rep() { instruction.opcode = Opcode::TESTUI; instruction.operands[0] = OperandSpec::Nothing; instruction.operand_count = 0; } else { instruction.operands[0] = OperandSpec::Nothing; instruction.operand_count = 0; return Err(DecodeError::InvalidOpcode); } } 0b110 => { if instruction.prefixes.rep() { instruction.opcode = Opcode::CLUI; instruction.operands[0] = OperandSpec::Nothing; instruction.operand_count = 0; return Ok(()); } else if instruction.prefixes.operand_size() || instruction.prefixes.repnz() { return Err(DecodeError::InvalidOpcode); } instruction.opcode = Opcode::RDPKRU; instruction.operands[0] = OperandSpec::Nothing; instruction.operand_count = 0; } 0b111 => { if instruction.prefixes.rep() { instruction.opcode = Opcode::STUI; instruction.operands[0] = OperandSpec::Nothing; instruction.operand_count = 0; return Ok(()); } else if instruction.prefixes.operand_size() || instruction.prefixes.repnz() { return Err(DecodeError::InvalidOpcode); } instruction.opcode = Opcode::WRPKRU; instruction.operands[0] = OperandSpec::Nothing; instruction.operand_count = 0; } _ => { instruction.operands[0] = OperandSpec::Nothing; instruction.operand_count = 0; return Err(DecodeError::InvalidOpcode); } } } else if r == 6 { instruction.opcode = Opcode::LMSW; instruction.operand_count = 1; instruction.mem_size = 2; instruction.operands[0] = read_E(words, instruction, modrm, 2, sink)?; } else if r == 7 { let mod_bits = modrm >> 6; let m = modrm & 7; if mod_bits == 0b11 { if m == 0 { instruction.opcode = Opcode::SWAPGS; instruction.operands[0] = OperandSpec::Nothing; instruction.operand_count = 0; } else if m == 1 { instruction.opcode = Opcode::RDTSCP; instruction.operands[0] = OperandSpec::Nothing; instruction.operand_count = 0; } else if m == 2 { instruction.opcode = Opcode::MONITORX; instruction.operands[0] = OperandSpec::Nothing; instruction.operand_count = 0; } else if m == 3 { instruction.opcode = Opcode::MWAITX; instruction.operands[0] = OperandSpec::Nothing; instruction.operand_count = 0; } else if m == 4 { instruction.opcode = Opcode::CLZERO; instruction.operands[0] = OperandSpec::Nothing; instruction.operand_count = 0; } else if m == 5 { instruction.opcode = Opcode::RDPRU; instruction.operands[0] = OperandSpec::RegRRR; instruction.regs[0] = RegSpec::ecx(); instruction.operand_count = 1; } else if m == 6 { if instruction.prefixes.rep() { if instruction.prefixes.repnz() || instruction.prefixes.operand_size() { return Err(DecodeError::InvalidOperand); } instruction.opcode = Opcode::RMPADJUST; instruction.operand_count = 0; return Ok(()); } else if instruction.prefixes.repnz() { if instruction.prefixes.rep() || instruction.prefixes.operand_size() { return Err(DecodeError::InvalidOperand); } instruction.opcode = Opcode::RMPUPDATE; instruction.operand_count = 0; return Ok(()); } else if instruction.prefixes.operand_size() { return Err(DecodeError::InvalidOperand); } instruction.opcode = Opcode::INVLPGB; instruction.operand_count = 3; instruction.operands[0] = OperandSpec::RegRRR; instruction.operands[1] = OperandSpec::RegMMM; instruction.operands[2] = OperandSpec::RegVex; instruction.regs[0] = RegSpec::rax(); instruction.regs[1] = RegSpec::edx(); instruction.regs[3] = RegSpec::ecx(); } else if m == 7 { if instruction.prefixes.rep() { if instruction.prefixes.repnz() || instruction.prefixes.operand_size() { return Err(DecodeError::InvalidOperand); } instruction.opcode = Opcode::PSMASH; instruction.operand_count = 0; return Ok(()); } else if instruction.prefixes.repnz() { if instruction.prefixes.rep() || instruction.prefixes.operand_size() { return Err(DecodeError::InvalidOperand); } instruction.opcode = Opcode::PVALIDATE; instruction.operand_count = 0; return Ok(()); } else if instruction.prefixes.operand_size() { return Err(DecodeError::InvalidOperand); } instruction.opcode = Opcode::TLBSYNC; instruction.operand_count = 0; } else { return Err(DecodeError::InvalidOpcode); } } else { instruction.opcode = Opcode::INVLPG; instruction.operand_count = 1; instruction.mem_size = 1; instruction.operands[0] = read_E(words, instruction, modrm, opwidth, sink)?; } } else { unreachable!("r <= 8"); } } OperandCode::ModRM_0x0fae => { let modrm = read_modrm(words)?; let r = (modrm >> 3) & 7; let m = modrm & 7; if instruction.prefixes.operand_size() && !(instruction.prefixes.rep() || instruction.prefixes.repnz()) { instruction.prefixes.unset_operand_size(); if modrm < 0xc0 { instruction.opcode = match (modrm >> 3) & 7 { 6 => { Opcode::CLWB } 7 => { Opcode::CLFLUSHOPT } _ => { return Err(DecodeError::InvalidOpcode); } }; instruction.operands[0] = read_E(words, instruction, modrm, 1 /* opwidth */, sink)?; instruction.mem_size = 64; instruction.operand_count = 1; } else { instruction.opcode = match (modrm >> 3) & 7 { 6 => { Opcode::TPAUSE } _ => { return Err(DecodeError::InvalidOpcode); } }; let opwidth = if instruction.prefixes.rex_unchecked().w() { 8 } else { 4 }; instruction.operands[0] = read_E(words, instruction, modrm, opwidth, sink)?; instruction.operand_count = 1; } return Ok(()); } if instruction.prefixes.repnz() { if (modrm & 0xc0) == 0xc0 { match r { 6 => { instruction.opcode = Opcode::UMWAIT; instruction.regs[0] = RegSpec { bank: if instruction.prefixes.rex_unchecked().w() { RegisterBank::Q } else { RegisterBank::D }, num: m + if instruction.prefixes.rex_unchecked().x() { 0b1000 } else { 0 }, }; instruction.operands[0] = OperandSpec::RegRRR; instruction.operand_count = 1; } _ => { return Err(DecodeError::InvalidOpcode); } } return Ok(()); } } if instruction.prefixes.rep() { if r == 4 { if instruction.prefixes.operand_size() { // xed specifically rejects this. seeems out of line since rep takes // precedence elsewhere, but ok i guess return Err(DecodeError::InvalidOpcode); } instruction.opcode = Opcode::PTWRITE; let opwidth = if instruction.prefixes.rex_unchecked().w() { 8 } else { 4 }; instruction.operands[0] = read_E(words, instruction, modrm, opwidth, sink)?; if instruction.operands[0] != OperandSpec::RegMMM { instruction.mem_size = opwidth; } instruction.operand_count = 1; return Ok(()); } if (modrm & 0xc0) == 0xc0 { match r { 0 => { instruction.opcode = Opcode::RDFSBASE; let opwidth = if instruction.prefixes.rex_unchecked().w() { RegisterBank::Q } else { RegisterBank::D }; instruction.regs[1] = RegSpec::from_parts(m, instruction.prefixes.rex_unchecked().x(), opwidth); instruction.operands[0] = OperandSpec::RegMMM; instruction.operand_count = 1; } 1 => { instruction.opcode = Opcode::RDGSBASE; let opwidth = if instruction.prefixes.rex_unchecked().w() { RegisterBank::Q } else { RegisterBank::D }; instruction.regs[1] = RegSpec::from_parts(m, instruction.prefixes.rex_unchecked().x(), opwidth); instruction.operands[0] = OperandSpec::RegMMM; instruction.operand_count = 1; } 2 => { instruction.opcode = Opcode::WRFSBASE; let opwidth = if instruction.prefixes.rex_unchecked().w() { RegisterBank::Q } else { RegisterBank::D }; instruction.regs[1] = RegSpec::from_parts(m, instruction.prefixes.rex_unchecked().x(), opwidth); instruction.operands[0] = OperandSpec::RegMMM; instruction.operand_count = 1; } 3 => { instruction.opcode = Opcode::WRGSBASE; let opwidth = if instruction.prefixes.rex_unchecked().w() { RegisterBank::Q } else { RegisterBank::D }; instruction.regs[1] = RegSpec::from_parts(m, instruction.prefixes.rex_unchecked().x(), opwidth); instruction.operands[0] = OperandSpec::RegMMM; instruction.operand_count = 1; } 5 => { instruction.opcode = Opcode::INCSSP; let opwidth = if instruction.prefixes.rex_unchecked().w() { RegisterBank::Q } else { RegisterBank::D }; instruction.regs[1] = RegSpec::from_parts(m, instruction.prefixes.rex_unchecked().x(), opwidth); instruction.operands[0] = OperandSpec::RegMMM; instruction.operand_count = 1; } 6 => { instruction.opcode = Opcode::UMONITOR; instruction.regs[1] = RegSpec::from_parts(m, instruction.prefixes.rex_unchecked().x(), RegisterBank::Q); instruction.operands[0] = OperandSpec::RegMMM; instruction.operand_count = 1; } _ => { return Err(DecodeError::InvalidOpcode); } } return Ok(()); } else { match r { 6 => { instruction.opcode = Opcode::CLRSSBSY; instruction.operands[0] = read_E(words, instruction, modrm, 8, sink)?; instruction.operand_count = 1; instruction.mem_size = 8; return Ok(()); } _ => { return Err(DecodeError::InvalidOperand); } } } } let mod_bits = modrm >> 6; // all the 0b11 instructions are err or no-operands if mod_bits == 0b11 { instruction.operands[0] = OperandSpec::Nothing; instruction.operand_count = 0; match r { // invalid rrr for 0x0fae, mod: 11 0 | 1 | 2 | 3 | 4 => { return Err(DecodeError::InvalidOpcode); }, 5 => { instruction.opcode = Opcode::LFENCE; // Intel's manual accepts m != 0, AMD supports m != 0 though the manual // doesn't say (tested on threadripper) if !decoder.amd_quirks() && !decoder.intel_quirks() { if m != 0 { return Err(DecodeError::InvalidOperand); } } }, 6 => { instruction.opcode = Opcode::MFENCE; // Intel's manual accepts m != 0, AMD supports m != 0 though the manual // doesn't say (tested on threadripper) if !decoder.amd_quirks() && !decoder.intel_quirks() { if m != 0 { return Err(DecodeError::InvalidOperand); } } }, 7 => { instruction.opcode = Opcode::SFENCE; // Intel's manual accepts m != 0, AMD supports m != 0 though the manual // doesn't say (tested on threadripper) if !decoder.amd_quirks() && !decoder.intel_quirks() { if m != 0 { return Err(DecodeError::InvalidOperand); } } }, _ => { unsafe { unreachable_unchecked() } /* r <=7 */ } } } else { // these can't be prefixed, so says `xed` i guess. if instruction.prefixes.operand_size() || instruction.prefixes.rep() || instruction.prefixes.repnz() { return Err(DecodeError::InvalidOperand); } instruction.operand_count = 1; let (opcode, mem_size) = [ (Opcode::FXSAVE, 63), (Opcode::FXRSTOR, 63), (Opcode::LDMXCSR, 4), (Opcode::STMXCSR, 4), (Opcode::XSAVE, 63), (Opcode::XRSTOR, 63), (Opcode::XSAVEOPT, 63), (Opcode::CLFLUSH, 64), ][r as usize]; instruction.opcode = opcode; instruction.mem_size = mem_size; instruction.operands[0] = read_M(words, instruction, modrm, sink)?; } } OperandCode::ModRM_0x0fba => { let opwidth = imm_width_from_prefixes_64(SizeCode::vq, instruction.prefixes); let modrm = read_modrm(words)?; let r = (modrm >> 3) & 7; match r { 0 | 1 | 2 | 3 => { return Err(DecodeError::InvalidOpcode); }, 4 => { instruction.opcode = Opcode::BT; } 5 => { instruction.opcode = Opcode::BTS; } 6 => { instruction.opcode = Opcode::BTR; } 7 => { instruction.opcode = Opcode::BTC; } _ => { unreachable!("r < 8"); } } instruction.operands[0] = read_E(words, instruction, modrm, opwidth, sink)?; if instruction.operands[0] != OperandSpec::RegMMM { instruction.mem_size = opwidth; } instruction.imm = read_imm_signed(words, 1)? as u64; instruction.operands[1] = OperandSpec::ImmI8; instruction.operand_count = 2; } op @ OperandCode::Rq_Cq_0 | op @ OperandCode::Rq_Dq_0 | op @ OperandCode::Cq_Rq_0 | op @ OperandCode::Dq_Rq_0 => { let modrm = read_modrm(words)?; let mut m = modrm & 7; let mut r = (modrm >> 3) & 7; if instruction.prefixes.rex_unchecked().r() { r += 0b1000; } if instruction.prefixes.rex_unchecked().b() { m += 0b1000; } let bank = match op { OperandCode::Rq_Cq_0 | OperandCode::Cq_Rq_0 => { if r != 0 && r != 2 && r != 3 && r != 4 && r != 8 { return Err(DecodeError::InvalidOperand); } RegisterBank::CR }, OperandCode::Rq_Dq_0 | OperandCode::Dq_Rq_0 => { if r > 7 { return Err(DecodeError::InvalidOperand); } RegisterBank::DR }, _ => unsafe { unreachable_unchecked() } }; let (rrr, mmm) = match op { OperandCode::Rq_Cq_0 | OperandCode::Rq_Dq_0 => (1, 0), OperandCode::Cq_Rq_0 | OperandCode::Dq_Rq_0 => (0, 1), _ => unsafe { unreachable_unchecked() } }; instruction.regs[0] = RegSpec { bank: bank, num: r }; instruction.regs[1] = RegSpec { bank: RegisterBank::Q, num: m }; instruction.operands[mmm] = OperandSpec::RegMMM; instruction.operands[rrr] = OperandSpec::RegRRR; instruction.operand_count = 2; } OperandCode::FS => { instruction.regs[0] = RegSpec::fs(); instruction.operands[0] = OperandSpec::RegRRR; instruction.operand_count = 1; } OperandCode::GS => { instruction.regs[0] = RegSpec::gs(); instruction.operands[0] = OperandSpec::RegRRR; instruction.operand_count = 1; } OperandCode::AL_Ib => { instruction.regs[0] = RegSpec::al(); instruction.operands[0] = OperandSpec::RegRRR; instruction.operands[1] = OperandSpec::ImmU8; instruction.operand_count = 2; } OperandCode::AX_Ib => { let opwidth = imm_width_from_prefixes_64(SizeCode::vd, instruction.prefixes); instruction.regs[0] = if opwidth == 4 { RegSpec::eax() } else { RegSpec::ax() }; instruction.operands[0] = OperandSpec::RegRRR; instruction.operands[1] = OperandSpec::ImmU8; instruction.operand_count = 2; } OperandCode::Ib_AL => { instruction.regs[0] = RegSpec::al(); instruction.operands[0] = OperandSpec::ImmU8; instruction.operands[1] = OperandSpec::RegRRR; instruction.operand_count = 2; } OperandCode::Ib_AX => { let opwidth = imm_width_from_prefixes_64(SizeCode::vd, instruction.prefixes); instruction.regs[0] = if opwidth == 4 { RegSpec::eax() } else { RegSpec::ax() }; instruction.operands[0] = OperandSpec::ImmU8; instruction.operands[1] = OperandSpec::RegRRR; instruction.operand_count = 2; } OperandCode::AX_DX => { let opwidth = imm_width_from_prefixes_64(SizeCode::vd, instruction.prefixes); instruction.regs[0] = if opwidth == 4 { RegSpec::eax() } else { RegSpec::ax() }; instruction.regs[1] = RegSpec::dx(); instruction.operands[0] = OperandSpec::RegRRR; instruction.operands[1] = OperandSpec::RegMMM; instruction.operand_count = 2; } OperandCode::AL_DX => { instruction.regs[0] = RegSpec::al(); instruction.regs[1] = RegSpec::dx(); instruction.operands[0] = OperandSpec::RegRRR; instruction.operands[1] = OperandSpec::RegMMM; instruction.operand_count = 2; } OperandCode::DX_AX => { let opwidth = imm_width_from_prefixes_64(SizeCode::vd, instruction.prefixes); instruction.regs[0] = if opwidth == 4 { RegSpec::eax() } else { RegSpec::ax() }; instruction.regs[1] = RegSpec::dx(); instruction.operands[0] = OperandSpec::RegMMM; instruction.operands[1] = OperandSpec::RegRRR; instruction.operand_count = 2; } OperandCode::DX_AL => { instruction.regs[0] = RegSpec::al(); instruction.regs[1] = RegSpec::dx(); instruction.operands[0] = OperandSpec::RegMMM; instruction.operands[1] = OperandSpec::RegRRR; instruction.operand_count = 2; } OperandCode::Yb_DX => { instruction.regs[0] = RegSpec::dl(); instruction.regs[1] = RegSpec::rdi(); instruction.operands[0] = OperandSpec::Deref; instruction.operands[1] = OperandSpec::RegRRR; instruction.operand_count = 2; instruction.mem_size = 1; } OperandCode::Yv_DX => { instruction.regs[0] = RegSpec::dx(); instruction.regs[1] = RegSpec::rdi(); instruction.operands[0] = OperandSpec::Deref; instruction.operands[1] = OperandSpec::RegRRR; if instruction.prefixes.operand_size() { instruction.mem_size = 2; } else { instruction.mem_size = 4; } instruction.operand_count = 2; } OperandCode::DX_Xb => { instruction.regs[0] = RegSpec::dl(); instruction.regs[1] = RegSpec::rsi(); instruction.operands[0] = OperandSpec::RegRRR; instruction.operands[1] = OperandSpec::Deref; instruction.operand_count = 2; instruction.mem_size = 1; } OperandCode::AH => { instruction.operands[0] = OperandSpec::Nothing; instruction.operand_count = 0; } OperandCode::DX_Xv => { instruction.regs[0] = RegSpec::dx(); instruction.regs[1] = RegSpec::rsi(); instruction.operands[0] = OperandSpec::RegRRR; instruction.operands[1] = OperandSpec::Deref; if instruction.prefixes.operand_size() { instruction.mem_size = 2; } else { instruction.mem_size = 4; } instruction.operand_count = 2; } OperandCode::x87_d8 | OperandCode::x87_d9 | OperandCode::x87_da | OperandCode::x87_db | OperandCode::x87_dc | OperandCode::x87_dd | OperandCode::x87_de | OperandCode::x87_df => { return decode_x87(words, instruction, operand_code, sink); } OperandCode::MOVDIR64B => { // at this point we've done a read as if it was Gv_M (`lea` operands). because the // first operand is actually a memory address, and this is the only x86 instruction // other than movs to have two memory operands, the first operand has to be sized by // address-size, not operand-size. if let OperandSpec::RegMMM = instruction.operands[1] { return Err(DecodeError::InvalidOperand); } instruction.mem_size = 64; if instruction.prefixes.address_size() { instruction.regs[0].bank = RegisterBank::D; } else { instruction.regs[0].bank = RegisterBank::Q; }; } OperandCode::M_Gv => { // `lea` operands (`Gv_M`) opportunistically reject a register form of `mmm` early, but // leaves `M_Gv` to test memory-ness of the `mmm` operand directly. also, swap // operands. if let OperandSpec::RegMMM = instruction.operands[1] { return Err(DecodeError::InvalidOperand); } let temp = instruction.operands[1]; instruction.operands[1] = instruction.operands[0]; instruction.operands[0] = temp; } _ => { // TODO: this should be unreachable - safe to panic now? // can't simply delete this arm because the non-unlikely operands are handled outside // here, and some operands are entirely decoded before reaching match in the first // place. // perhaps fully-decoded operands could be a return here? they would be jump table // entries anyway, so no extra space for the dead arms. instruction.operands[0] = OperandSpec::Nothing; instruction.operand_count = 0; return Err(DecodeError::InvalidOperand); } }; Ok(()) } fn decode_x87< T: Reader<::Address, ::Word>, S: DescriptionSink, >(words: &mut T, instruction: &mut Instruction, operand_code: OperandCode, sink: &mut S) -> Result<(), DecodeError> { sink.record( words.offset() as u32 * 8 - 8, words.offset() as u32 * 8 - 1, InnerDescription::Misc("x87 opcode") .with_id(words.offset() as u32 * 8 - 1) ); #[allow(non_camel_case_types)] enum OperandCodeX87 { Est, St_Est, St_Edst, St_Eqst, St_Ew, St_Mw, St_Md, St_Mq, St_Mm, Ew, Est_St, Edst_St, Eqst_St, Ed_St, Mw_St, Md_St, Mq_St, Mm_St, Ex87S, Nothing, } // every x87 instruction is conditional on rrr bits let modrm = read_modrm(words)?; let r = (modrm >> 3) & 0b111; let (opcode, x87_operands) = match operand_code { OperandCode::x87_d8 => { match r { 0 => (Opcode::FADD, OperandCodeX87::St_Edst), 1 => (Opcode::FMUL, OperandCodeX87::St_Edst), 2 => (Opcode::FCOM, OperandCodeX87::St_Edst), 3 => (Opcode::FCOMP, OperandCodeX87::St_Edst), 4 => (Opcode::FSUB, OperandCodeX87::St_Edst), 5 => (Opcode::FSUBR, OperandCodeX87::St_Edst), 6 => (Opcode::FDIV, OperandCodeX87::St_Edst), 7 => (Opcode::FDIVR, OperandCodeX87::St_Edst), _ => { unreachable!("impossible r"); } } } OperandCode::x87_d9 => { match r { 0 => (Opcode::FLD, OperandCodeX87::St_Edst), 1 => { if modrm >= 0xc0 { (Opcode::FXCH, OperandCodeX87::St_Est) } else { return Err(DecodeError::InvalidOpcode); } }, 2 => { if modrm >= 0xc0 { if modrm == 0xd0 { (Opcode::FNOP, OperandCodeX87::Nothing) } else { return Err(DecodeError::InvalidOpcode); } } else { (Opcode::FST, OperandCodeX87::Ed_St) } } 3 => { if modrm >= 0xc0 { (Opcode::FSTPNCE, OperandCodeX87::Est_St) } else { (Opcode::FSTP, OperandCodeX87::Edst_St) } }, 4 => { if modrm >= 0xc0 { match modrm { 0xe0 => (Opcode::FCHS, OperandCodeX87::Nothing), 0xe1 => (Opcode::FABS, OperandCodeX87::Nothing), 0xe2 => { return Err(DecodeError::InvalidOpcode); }, 0xe3 => { return Err(DecodeError::InvalidOpcode); }, 0xe4 => (Opcode::FTST, OperandCodeX87::Nothing), 0xe5 => (Opcode::FXAM, OperandCodeX87::Nothing), 0xe6 => { return Err(DecodeError::InvalidOpcode); }, 0xe7 => { return Err(DecodeError::InvalidOpcode); }, _ => { unreachable!("invalid modrm"); } } } else { (Opcode::FLDENV, OperandCodeX87::Ex87S) // x87 state } }, 5 => { if modrm >= 0xc0 { match modrm { 0xe8 => (Opcode::FLD1, OperandCodeX87::Nothing), 0xe9 => (Opcode::FLDL2T, OperandCodeX87::Nothing), 0xea => (Opcode::FLDL2E, OperandCodeX87::Nothing), 0xeb => (Opcode::FLDPI, OperandCodeX87::Nothing), 0xec => (Opcode::FLDLG2, OperandCodeX87::Nothing), 0xed => (Opcode::FLDLN2, OperandCodeX87::Nothing), 0xee => (Opcode::FLDZ, OperandCodeX87::Nothing), 0xef => (Opcode::Invalid, OperandCodeX87::Nothing), _ => { unreachable!("invalid modrm"); } } } else { (Opcode::FLDCW, OperandCodeX87::Ew) } } 6 => { if modrm >= 0xc0 { match modrm { 0xf0 => (Opcode::F2XM1, OperandCodeX87::Nothing), 0xf1 => (Opcode::FYL2X, OperandCodeX87::Nothing), 0xf2 => (Opcode::FPTAN, OperandCodeX87::Nothing), 0xf3 => (Opcode::FPATAN, OperandCodeX87::Nothing), 0xf4 => (Opcode::FXTRACT, OperandCodeX87::Nothing), 0xf5 => (Opcode::FPREM1, OperandCodeX87::Nothing), 0xf6 => (Opcode::FDECSTP, OperandCodeX87::Nothing), 0xf7 => (Opcode::FINCSTP, OperandCodeX87::Nothing), _ => { unreachable!("invalid modrm"); } } } else { (Opcode::FNSTENV, OperandCodeX87::Ex87S) // x87 state } } 7 => { if modrm >= 0xc0 { match modrm { 0xf8 => (Opcode::FPREM, OperandCodeX87::Nothing), 0xf9 => (Opcode::FYL2XP1, OperandCodeX87::Nothing), 0xfa => (Opcode::FSQRT, OperandCodeX87::Nothing), 0xfb => (Opcode::FSINCOS, OperandCodeX87::Nothing), 0xfc => (Opcode::FRNDINT, OperandCodeX87::Nothing), 0xfd => (Opcode::FSCALE, OperandCodeX87::Nothing), 0xfe => (Opcode::FSIN, OperandCodeX87::Nothing), 0xff => (Opcode::FCOS, OperandCodeX87::Nothing), _ => { unreachable!("invalid modrm"); } } } else { (Opcode::FNSTCW, OperandCodeX87::Ew) } } _ => { unreachable!("impossible r"); } } } OperandCode::x87_da => { if modrm >= 0xc0 { match r { 0 => (Opcode::FCMOVB, OperandCodeX87::St_Est), 1 => (Opcode::FCMOVE, OperandCodeX87::St_Est), 2 => (Opcode::FCMOVBE, OperandCodeX87::St_Est), 3 => (Opcode::FCMOVU, OperandCodeX87::St_Est), _ => { if modrm == 0xe9 { (Opcode::FUCOMPP, OperandCodeX87::Nothing) } else { return Err(DecodeError::InvalidOpcode); } } } } else { match r { 0 => (Opcode::FIADD, OperandCodeX87::St_Md), // 0xd9d0 -> fnop 1 => (Opcode::FIMUL, OperandCodeX87::St_Md), 2 => (Opcode::FICOM, OperandCodeX87::St_Md), // FCMOVE 3 => (Opcode::FICOMP, OperandCodeX87::St_Md), // FCMOVBE 4 => (Opcode::FISUB, OperandCodeX87::St_Md), 5 => (Opcode::FISUBR, OperandCodeX87::St_Md), // FUCOMPP 6 => (Opcode::FIDIV, OperandCodeX87::St_Md), 7 => (Opcode::FIDIVR, OperandCodeX87::St_Md), _ => { unreachable!("impossible r"); } } } } OperandCode::x87_db => { if modrm >= 0xc0 { match r { 0 => (Opcode::FCMOVNB, OperandCodeX87::St_Est), 1 => (Opcode::FCMOVNE, OperandCodeX87::St_Est), 2 => (Opcode::FCMOVNBE, OperandCodeX87::St_Est), 3 => (Opcode::FCMOVNU, OperandCodeX87::St_Est), 4 => { match modrm { 0xe0 => (Opcode::FENI8087_NOP, OperandCodeX87::Nothing), 0xe1 => (Opcode::FDISI8087_NOP, OperandCodeX87::Nothing), 0xe2 => (Opcode::FNCLEX, OperandCodeX87::Nothing), 0xe3 => (Opcode::FNINIT, OperandCodeX87::Nothing), 0xe4 => (Opcode::FSETPM287_NOP, OperandCodeX87::Nothing), _ => { return Err(DecodeError::InvalidOpcode); } } } 5 => (Opcode::FUCOMI, OperandCodeX87::St_Est), 6 => (Opcode::FCOMI, OperandCodeX87::St_Est), _ => { return Err(DecodeError::InvalidOpcode); } } } else { match r { 0 => (Opcode::FILD, OperandCodeX87::St_Md), 1 => (Opcode::FISTTP, OperandCodeX87::Md_St), 2 => (Opcode::FIST, OperandCodeX87::Md_St), 3 => (Opcode::FISTP, OperandCodeX87::Md_St), 5 => (Opcode::FLD, OperandCodeX87::St_Mm), // 80bit 7 => (Opcode::FSTP, OperandCodeX87::Mm_St), // 80bit _ => { return Err(DecodeError::InvalidOpcode); } } } } OperandCode::x87_dc => { // mod=11 swaps operand order for some instructions if modrm >= 0xc0 { match r { 0 => (Opcode::FADD, OperandCodeX87::Eqst_St), 1 => (Opcode::FMUL, OperandCodeX87::Eqst_St), 2 => (Opcode::FCOM, OperandCodeX87::St_Eqst), 3 => (Opcode::FCOMP, OperandCodeX87::St_Eqst), 4 => (Opcode::FSUBR, OperandCodeX87::Eqst_St), 5 => (Opcode::FSUB, OperandCodeX87::Eqst_St), 6 => (Opcode::FDIVR, OperandCodeX87::Eqst_St), 7 => (Opcode::FDIV, OperandCodeX87::Eqst_St), _ => { unreachable!("impossible r"); } } } else { match r { 0 => (Opcode::FADD, OperandCodeX87::St_Eqst), 1 => (Opcode::FMUL, OperandCodeX87::St_Eqst), 2 => (Opcode::FCOM, OperandCodeX87::St_Eqst), 3 => (Opcode::FCOMP, OperandCodeX87::St_Eqst), 4 => (Opcode::FSUB, OperandCodeX87::St_Eqst), 5 => (Opcode::FSUBR, OperandCodeX87::St_Eqst), 6 => (Opcode::FDIV, OperandCodeX87::St_Eqst), 7 => (Opcode::FDIVR, OperandCodeX87::St_Eqst), _ => { unreachable!("impossible r"); } } } } OperandCode::x87_dd => { if modrm >= 0xc0 { match r { 0 => (Opcode::FFREE, OperandCodeX87::Est), 1 => (Opcode::FXCH, OperandCodeX87::St_Est), 2 => (Opcode::FST, OperandCodeX87::Est_St), 3 => (Opcode::FSTP, OperandCodeX87::Est_St), 4 => (Opcode::FUCOM, OperandCodeX87::St_Est), 5 => (Opcode::FUCOMP, OperandCodeX87::St_Est), 6 => (Opcode::Invalid, OperandCodeX87::Nothing), 7 => (Opcode::Invalid, OperandCodeX87::Nothing), _ => { unreachable!("impossible r"); } } } else { match r { 0 => (Opcode::FLD, OperandCodeX87::St_Eqst), 1 => (Opcode::FISTTP, OperandCodeX87::Eqst_St), 2 => (Opcode::FST, OperandCodeX87::Eqst_St), 3 => (Opcode::FSTP, OperandCodeX87::Eqst_St), 4 => (Opcode::FRSTOR, OperandCodeX87::Ex87S), 5 => (Opcode::Invalid, OperandCodeX87::Nothing), 6 => (Opcode::FNSAVE, OperandCodeX87::Ex87S), 7 => (Opcode::FNSTSW, OperandCodeX87::Ew), _ => { unreachable!("impossible r"); } } } } OperandCode::x87_de => { if modrm >= 0xc0 { match r { 0 => (Opcode::FADDP, OperandCodeX87::Est_St), 1 => (Opcode::FMULP, OperandCodeX87::Est_St), // undocumented in intel manual, argument order inferred from // by xed and capstone. TODO: check amd manual. 2 => (Opcode::FCOMP, OperandCodeX87::St_Est), 3 => { if modrm == 0xd9 { (Opcode::FCOMPP, OperandCodeX87::Nothing) } else { return Err(DecodeError::InvalidOperand); } }, 4 => (Opcode::FSUBRP, OperandCodeX87::Est_St), 5 => (Opcode::FSUBP, OperandCodeX87::Est_St), 6 => (Opcode::FDIVRP, OperandCodeX87::Est_St), 7 => (Opcode::FDIVP, OperandCodeX87::Est_St), _ => { unreachable!("impossible r"); } } } else { match r { 0 => (Opcode::FIADD, OperandCodeX87::St_Ew), 1 => (Opcode::FIMUL, OperandCodeX87::St_Ew), 2 => (Opcode::FICOM, OperandCodeX87::St_Ew), 3 => (Opcode::FICOMP, OperandCodeX87::St_Ew), 4 => (Opcode::FISUB, OperandCodeX87::St_Ew), 5 => (Opcode::FISUBR, OperandCodeX87::St_Ew), 6 => (Opcode::FIDIV, OperandCodeX87::St_Ew), 7 => (Opcode::FIDIVR, OperandCodeX87::St_Ew), _ => { unreachable!("impossible r"); } } } } OperandCode::x87_df => { if modrm >= 0xc0 { match r { 0 => (Opcode::FFREEP, OperandCodeX87::Est), 1 => (Opcode::FXCH, OperandCodeX87::St_Est), 2 => (Opcode::FSTP, OperandCodeX87::Est_St), 3 => (Opcode::FSTP, OperandCodeX87::Est_St), 4 => { if modrm == 0xe0 { (Opcode::FNSTSW, OperandCodeX87::Ew) } else { return Err(DecodeError::InvalidOpcode); } }, 5 => (Opcode::FUCOMIP, OperandCodeX87::St_Est), 6 => (Opcode::FCOMIP, OperandCodeX87::St_Est), 7 => { return Err(DecodeError::InvalidOpcode); }, _ => { unreachable!("impossible r"); } } } else { match r { 0 => (Opcode::FILD, OperandCodeX87::St_Mw), 1 => (Opcode::FISTTP, OperandCodeX87::Mw_St), 2 => (Opcode::FIST, OperandCodeX87::Mw_St), 3 => (Opcode::FISTP, OperandCodeX87::Mw_St), 4 => (Opcode::FBLD, OperandCodeX87::St_Mm), 5 => (Opcode::FILD, OperandCodeX87::St_Mq), 6 => (Opcode::FBSTP, OperandCodeX87::Mm_St), 7 => (Opcode::FISTP, OperandCodeX87::Mq_St), _ => { unreachable!("impossible r"); } } } } other => { panic!("invalid x87 operand dispatch, operand code is {:?}", other); } }; instruction.opcode = opcode; if instruction.opcode == Opcode::Invalid { return Err(DecodeError::InvalidOpcode); } match x87_operands { OperandCodeX87::Est => { instruction.operands[0] = read_E_st(words, instruction, modrm, sink)?; instruction.operand_count = 1; } OperandCodeX87::St_Est => { instruction.operands[0] = OperandSpec::RegRRR; instruction.regs[0] = RegSpec::st(0); instruction.operands[1] = read_E_st(words, instruction, modrm, sink)?; instruction.operand_count = 2; } OperandCodeX87::St_Edst => { instruction.operands[0] = OperandSpec::RegRRR; instruction.regs[0] = RegSpec::st(0); instruction.operands[1] = read_E_st(words, instruction, modrm, sink)?; if instruction.operands[1] != OperandSpec::RegMMM { instruction.mem_size = 4; } instruction.operand_count = 2; } OperandCodeX87::St_Eqst => { instruction.operands[0] = OperandSpec::RegRRR; instruction.regs[0] = RegSpec::st(0); instruction.operands[1] = read_E_st(words, instruction, modrm, sink)?; if instruction.operands[1] != OperandSpec::RegMMM { instruction.mem_size = 8; } instruction.operand_count = 2; } OperandCodeX87::St_Ew => { instruction.operands[0] = OperandSpec::RegRRR; instruction.regs[0] = RegSpec::st(0); instruction.operands[1] = read_E(words, instruction, modrm, 2, sink)?; if instruction.operands[1] != OperandSpec::RegMMM { instruction.mem_size = 2; } instruction.operand_count = 2; } OperandCodeX87::St_Mm => { instruction.operands[0] = OperandSpec::RegRRR; instruction.regs[0] = RegSpec::st(0); instruction.operands[1] = read_E(words, instruction, modrm, 4, sink)?; if instruction.operands[1] == OperandSpec::RegMMM { return Err(DecodeError::InvalidOperand); } instruction.mem_size = 10; instruction.operand_count = 2; } OperandCodeX87::St_Mq => { instruction.operands[0] = OperandSpec::RegRRR; instruction.regs[0] = RegSpec::st(0); instruction.operands[1] = read_E(words, instruction, modrm, 4, sink)?; if instruction.operands[1] == OperandSpec::RegMMM { return Err(DecodeError::InvalidOperand); } instruction.mem_size = 8; instruction.operand_count = 2; } OperandCodeX87::St_Md => { instruction.operands[0] = OperandSpec::RegRRR; instruction.regs[0] = RegSpec::st(0); instruction.operands[1] = read_E(words, instruction, modrm, 4, sink)?; if instruction.operands[1] == OperandSpec::RegMMM { return Err(DecodeError::InvalidOperand); } instruction.mem_size = 4; instruction.operand_count = 2; } OperandCodeX87::St_Mw => { instruction.operands[0] = OperandSpec::RegRRR; instruction.regs[0] = RegSpec::st(0); instruction.operands[1] = read_E(words, instruction, modrm, 4, sink)?; if instruction.operands[1] == OperandSpec::RegMMM { return Err(DecodeError::InvalidOperand); } instruction.mem_size = 2; instruction.operand_count = 2; } OperandCodeX87::Ew => { instruction.operands[0] = read_E(words, instruction, modrm, 2, sink)?; instruction.operand_count = 1; if instruction.operands[0] != OperandSpec::RegMMM { instruction.mem_size = 2; } } OperandCodeX87::Est_St => { instruction.operands[0] = read_E_st(words, instruction, modrm, sink)?; instruction.operands[1] = OperandSpec::RegRRR; instruction.regs[0] = RegSpec::st(0); instruction.operand_count = 2; } OperandCodeX87::Edst_St => { instruction.operands[0] = read_E_st(words, instruction, modrm, sink)?; instruction.operands[1] = OperandSpec::RegRRR; instruction.regs[0] = RegSpec::st(0); instruction.operand_count = 2; if instruction.operands[0] != OperandSpec::RegMMM { instruction.mem_size = 4; } } OperandCodeX87::Eqst_St => { instruction.operands[0] = read_E_st(words, instruction, modrm, sink)?; instruction.operands[1] = OperandSpec::RegRRR; instruction.regs[0] = RegSpec::st(0); instruction.operand_count = 2; if instruction.operands[0] != OperandSpec::RegMMM { instruction.mem_size = 8; } } OperandCodeX87::Ed_St => { instruction.operands[0] = read_E_st(words, instruction, modrm, sink)?; instruction.operands[1] = OperandSpec::RegRRR; instruction.regs[0] = RegSpec::st(0); if instruction.operands[0] != OperandSpec::RegMMM { instruction.mem_size = 4; } instruction.operand_count = 2; } OperandCodeX87::Mm_St => { instruction.operands[0] = read_E(words, instruction, modrm, 4, sink)?; if instruction.operands[0] == OperandSpec::RegMMM { return Err(DecodeError::InvalidOperand); } instruction.mem_size = 10; instruction.operands[1] = OperandSpec::RegRRR; instruction.regs[0] = RegSpec::st(0); instruction.operand_count = 2; } OperandCodeX87::Mq_St => { instruction.operands[0] = read_E(words, instruction, modrm, 4, sink)?; if instruction.operands[0] == OperandSpec::RegMMM { return Err(DecodeError::InvalidOperand); } instruction.mem_size = 8; instruction.operands[1] = OperandSpec::RegRRR; instruction.regs[0] = RegSpec::st(0); instruction.operand_count = 2; } OperandCodeX87::Md_St => { instruction.operands[0] = read_E(words, instruction, modrm, 4, sink)?; if instruction.operands[0] == OperandSpec::RegMMM { return Err(DecodeError::InvalidOperand); } instruction.mem_size = 4; instruction.operands[1] = OperandSpec::RegRRR; instruction.regs[0] = RegSpec::st(0); instruction.operand_count = 2; } OperandCodeX87::Mw_St => { instruction.operands[0] = read_E(words, instruction, modrm, 4, sink)?; if instruction.operands[0] == OperandSpec::RegMMM { return Err(DecodeError::InvalidOperand); } instruction.mem_size = 2; instruction.operands[1] = OperandSpec::RegRRR; instruction.regs[0] = RegSpec::st(0); instruction.operand_count = 2; } OperandCodeX87::Ex87S => { instruction.operands[0] = read_E(words, instruction, modrm, 4, sink)?; instruction.operand_count = 1; if instruction.operands[0] == OperandSpec::RegMMM { return Err(DecodeError::InvalidOperand); } instruction.mem_size = 63; } OperandCodeX87::Nothing => { instruction.operand_count = 0; }, } Ok(()) } #[inline] fn read_num::Address, ::Word>>(bytes: &mut T, width: u8) -> Result { match width { 1 => { bytes.next().ok().ok_or(DecodeError::ExhaustedInput).map(|x| x as u64) } 2 => { let mut buf = [0u8; 2]; bytes.next_n(&mut buf).ok().ok_or(DecodeError::ExhaustedInput)?; Ok(u16::from_le_bytes(buf) as u64) } 4 => { let mut buf = [0u8; 4]; bytes.next_n(&mut buf).ok().ok_or(DecodeError::ExhaustedInput)?; Ok(u32::from_le_bytes(buf) as u64) } 8 => { let mut buf = [0u8; 8]; bytes.next_n(&mut buf).ok().ok_or(DecodeError::ExhaustedInput)?; Ok(u64::from_le_bytes(buf)) } _ => { unsafe { unreachable_unchecked(); } } } } #[inline] fn read_imm_ivq::Address, ::Word>>(bytes: &mut T, width: u8) -> Result { match width { 2 => { Ok(read_num(bytes, 2)? as u16 as u64) }, 4 => { Ok(read_num(bytes, 4)? as u32 as u64) }, 8 => { Ok(read_num(bytes, 8)? as u64) }, _ => { unsafe { unreachable_unchecked(); } } } } #[inline(always)] fn read_imm_signed::Address, ::Word>>(bytes: &mut T, num_width: u8) -> Result { if num_width == 1 { Ok(read_num(bytes, 1)? as i8 as i64) } else if num_width == 2 { Ok(read_num(bytes, 2)? as i16 as i64) } else { // this is for 4 and 8, the only values for num_width may be 1, 2, 4, and 8. Ok(read_num(bytes, 4)? as i32 as i64) } } #[inline] fn read_imm_unsigned::Address, ::Word>>(bytes: &mut T, width: u8) -> Result { read_num(bytes, width) } #[inline] fn imm_width_from_prefixes_64(interpretation: SizeCode, prefixes: Prefixes) -> u8 { match interpretation { SizeCode::b => 1, SizeCode::vd => { if prefixes.rex_unchecked().w() || !prefixes.operand_size() { 4 } else { 2 } }, SizeCode::vq => { if prefixes.operand_size() { 2 } else { 8 } }, SizeCode::vqp => { if prefixes.rex_unchecked().w() { 8 } else if prefixes.operand_size() { 2 } else { 4 } }, } } #[inline] fn read_modrm::Address, ::Word>>(words: &mut T) -> Result { words.next().ok().ok_or(DecodeError::ExhaustedInput) } const REPNZ_0F_CODES: [OpcodeRecord; 256] = [ OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::ModRM_0x0f00), OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::ModRM_0x0f01), OpcodeRecord(Interpretation::Instruction(Opcode::LAR), OperandCode::Gv_Ew), OpcodeRecord(Interpretation::Instruction(Opcode::LSL), OperandCode::Gv_Ew_LSL), OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::Nothing), OpcodeRecord(Interpretation::Instruction(Opcode::SYSCALL), OperandCode::Nothing), OpcodeRecord(Interpretation::Instruction(Opcode::CLTS), OperandCode::Nothing), OpcodeRecord(Interpretation::Instruction(Opcode::SYSRET), OperandCode::Nothing), OpcodeRecord(Interpretation::Instruction(Opcode::INVD), OperandCode::Nothing), OpcodeRecord(Interpretation::Instruction(Opcode::WBINVD), OperandCode::Nothing), OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::Nothing), OpcodeRecord(Interpretation::Instruction(Opcode::UD2), OperandCode::Nothing), OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::Nothing), OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::ModRM_0x0f0d), OpcodeRecord(Interpretation::Instruction(Opcode::FEMMS), OperandCode::Nothing), OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::ModRM_0x0f0f), OpcodeRecord(Interpretation::Instruction(Opcode::MOVSD), OperandCode::PMOVX_G_E_xmm), OpcodeRecord(Interpretation::Instruction(Opcode::MOVSD), OperandCode::PMOVX_E_G_xmm), OpcodeRecord(Interpretation::Instruction(Opcode::MOVDDUP), OperandCode::PMOVX_G_E_xmm), OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::Nothing), OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::Nothing), OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::Nothing), OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::Nothing), OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::Nothing), OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::ModRM_0x0f18), OpcodeRecord(Interpretation::Instruction(Opcode::NOP), OperandCode::Ev), OpcodeRecord(Interpretation::Instruction(Opcode::NOP), OperandCode::Ev), OpcodeRecord(Interpretation::Instruction(Opcode::NOP), OperandCode::Ev), OpcodeRecord(Interpretation::Instruction(Opcode::NOP), OperandCode::Ev), OpcodeRecord(Interpretation::Instruction(Opcode::NOP), OperandCode::Ev), OpcodeRecord(Interpretation::Instruction(Opcode::NOP), OperandCode::Ev), OpcodeRecord(Interpretation::Instruction(Opcode::NOP), OperandCode::Ev), // 0x20 OpcodeRecord(Interpretation::Instruction(Opcode::MOV), OperandCode::Rq_Cq_0), OpcodeRecord(Interpretation::Instruction(Opcode::MOV), OperandCode::Rq_Dq_0), OpcodeRecord(Interpretation::Instruction(Opcode::MOV), OperandCode::Cq_Rq_0), OpcodeRecord(Interpretation::Instruction(Opcode::MOV), OperandCode::Dq_Rq_0), OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::Nothing), OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::Nothing), OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::Nothing), OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::Nothing), OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::Nothing), OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::Nothing), OpcodeRecord(Interpretation::Instruction(Opcode::CVTSI2SD), OperandCode::G_xmm_Edq), OpcodeRecord(Interpretation::Instruction(Opcode::MOVNTSD), OperandCode::M_G_xmm), OpcodeRecord(Interpretation::Instruction(Opcode::CVTTSD2SI), OperandCode::PMOVX_G_E_xmm), OpcodeRecord(Interpretation::Instruction(Opcode::CVTSD2SI), OperandCode::PMOVX_G_E_xmm), OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::Nothing), OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::Nothing), OpcodeRecord(Interpretation::Instruction(Opcode::WRMSR), OperandCode::Nothing), OpcodeRecord(Interpretation::Instruction(Opcode::RDTSC), OperandCode::Nothing), OpcodeRecord(Interpretation::Instruction(Opcode::RDMSR), OperandCode::Nothing), OpcodeRecord(Interpretation::Instruction(Opcode::RDPMC), OperandCode::Nothing), OpcodeRecord(Interpretation::Instruction(Opcode::SYSENTER), OperandCode::Nothing), OpcodeRecord(Interpretation::Instruction(Opcode::SYSEXIT), OperandCode::Nothing), OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::Nothing), OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::Nothing), OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::Nothing), // handled before getting to `read_0f_opcode` OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::Nothing), OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::Nothing), // handled before getting to `read_0f_opcode` OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::Nothing), OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::Nothing), OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::Nothing), OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::Nothing), OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::Nothing), OpcodeRecord(Interpretation::Instruction(Opcode::CMOVO), OperandCode::Gv_Ev), OpcodeRecord(Interpretation::Instruction(Opcode::CMOVNO), OperandCode::Gv_Ev), OpcodeRecord(Interpretation::Instruction(Opcode::CMOVB), OperandCode::Gv_Ev), OpcodeRecord(Interpretation::Instruction(Opcode::CMOVNB), OperandCode::Gv_Ev), OpcodeRecord(Interpretation::Instruction(Opcode::CMOVZ), OperandCode::Gv_Ev), OpcodeRecord(Interpretation::Instruction(Opcode::CMOVNZ), OperandCode::Gv_Ev), OpcodeRecord(Interpretation::Instruction(Opcode::CMOVNA), OperandCode::Gv_Ev), OpcodeRecord(Interpretation::Instruction(Opcode::CMOVA), OperandCode::Gv_Ev), OpcodeRecord(Interpretation::Instruction(Opcode::CMOVS), OperandCode::Gv_Ev), OpcodeRecord(Interpretation::Instruction(Opcode::CMOVNS), OperandCode::Gv_Ev), OpcodeRecord(Interpretation::Instruction(Opcode::CMOVP), OperandCode::Gv_Ev), OpcodeRecord(Interpretation::Instruction(Opcode::CMOVNP), OperandCode::Gv_Ev), OpcodeRecord(Interpretation::Instruction(Opcode::CMOVL), OperandCode::Gv_Ev), OpcodeRecord(Interpretation::Instruction(Opcode::CMOVGE), OperandCode::Gv_Ev), OpcodeRecord(Interpretation::Instruction(Opcode::CMOVLE), OperandCode::Gv_Ev), OpcodeRecord(Interpretation::Instruction(Opcode::CMOVG), OperandCode::Gv_Ev), OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::Nothing), OpcodeRecord(Interpretation::Instruction(Opcode::SQRTSD), OperandCode::PMOVX_G_E_xmm), OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::Nothing), OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::Nothing), OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::Nothing), OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::Nothing), OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::Nothing), OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::Nothing), OpcodeRecord(Interpretation::Instruction(Opcode::ADDSD), OperandCode::PMOVX_G_E_xmm), OpcodeRecord(Interpretation::Instruction(Opcode::MULSD), OperandCode::PMOVX_G_E_xmm), OpcodeRecord(Interpretation::Instruction(Opcode::CVTSD2SS), OperandCode::PMOVX_G_E_xmm), OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::Nothing), OpcodeRecord(Interpretation::Instruction(Opcode::SUBSD), OperandCode::PMOVX_G_E_xmm), OpcodeRecord(Interpretation::Instruction(Opcode::MINSD), OperandCode::PMOVX_G_E_xmm), OpcodeRecord(Interpretation::Instruction(Opcode::DIVSD), OperandCode::PMOVX_G_E_xmm), OpcodeRecord(Interpretation::Instruction(Opcode::MAXSD), OperandCode::PMOVX_G_E_xmm), OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::Nothing), OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::Nothing), OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::Nothing), OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::Nothing), OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::Nothing), OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::Nothing), OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::Nothing), OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::Nothing), OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::Nothing), OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::Nothing), OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::Nothing), OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::Nothing), OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::Nothing), OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::Nothing), OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::Nothing), OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::Nothing), OpcodeRecord(Interpretation::Instruction(Opcode::PSHUFLW), OperandCode::G_E_xmm_Ib), OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::Nothing), // no f2-0f71 instructions, so we can stop early OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::Nothing), // no f2-0f72 instructions, so we can stop early OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::Nothing), // no f2-0f73 instructions, so we can stop early OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::Nothing), OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::Nothing), OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::Nothing), OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::Nothing), OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::ModRM_0xf20f78), OpcodeRecord(Interpretation::Instruction(Opcode::INSERTQ), OperandCode::G_U_xmm), OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::Nothing), OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::Nothing), OpcodeRecord(Interpretation::Instruction(Opcode::HADDPS), OperandCode::G_E_xmm), OpcodeRecord(Interpretation::Instruction(Opcode::HSUBPS), OperandCode::G_E_xmm), OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::Nothing), OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::Nothing), // 0x80 OpcodeRecord(Interpretation::Instruction(Opcode::JO), OperandCode::Jvds), OpcodeRecord(Interpretation::Instruction(Opcode::JNO), OperandCode::Jvds), OpcodeRecord(Interpretation::Instruction(Opcode::JB), OperandCode::Jvds), OpcodeRecord(Interpretation::Instruction(Opcode::JNB), OperandCode::Jvds), OpcodeRecord(Interpretation::Instruction(Opcode::JZ), OperandCode::Jvds), OpcodeRecord(Interpretation::Instruction(Opcode::JNZ), OperandCode::Jvds), OpcodeRecord(Interpretation::Instruction(Opcode::JNA), OperandCode::Jvds), OpcodeRecord(Interpretation::Instruction(Opcode::JA), OperandCode::Jvds), OpcodeRecord(Interpretation::Instruction(Opcode::JS), OperandCode::Jvds), OpcodeRecord(Interpretation::Instruction(Opcode::JNS), OperandCode::Jvds), OpcodeRecord(Interpretation::Instruction(Opcode::JP), OperandCode::Jvds), OpcodeRecord(Interpretation::Instruction(Opcode::JNP), OperandCode::Jvds), OpcodeRecord(Interpretation::Instruction(Opcode::JL), OperandCode::Jvds), OpcodeRecord(Interpretation::Instruction(Opcode::JGE), OperandCode::Jvds), OpcodeRecord(Interpretation::Instruction(Opcode::JLE), OperandCode::Jvds), OpcodeRecord(Interpretation::Instruction(Opcode::JG), OperandCode::Jvds), // 0x90 OpcodeRecord(Interpretation::Instruction(Opcode::SETO), OperandCode::Eb_R0), OpcodeRecord(Interpretation::Instruction(Opcode::SETNO), OperandCode::Eb_R0), OpcodeRecord(Interpretation::Instruction(Opcode::SETB), OperandCode::Eb_R0), OpcodeRecord(Interpretation::Instruction(Opcode::SETAE), OperandCode::Eb_R0), OpcodeRecord(Interpretation::Instruction(Opcode::SETZ), OperandCode::Eb_R0), OpcodeRecord(Interpretation::Instruction(Opcode::SETNZ), OperandCode::Eb_R0), OpcodeRecord(Interpretation::Instruction(Opcode::SETBE), OperandCode::Eb_R0), OpcodeRecord(Interpretation::Instruction(Opcode::SETA), OperandCode::Eb_R0), OpcodeRecord(Interpretation::Instruction(Opcode::SETS), OperandCode::Eb_R0), OpcodeRecord(Interpretation::Instruction(Opcode::SETNS), OperandCode::Eb_R0), OpcodeRecord(Interpretation::Instruction(Opcode::SETP), OperandCode::Eb_R0), OpcodeRecord(Interpretation::Instruction(Opcode::SETNP), OperandCode::Eb_R0), OpcodeRecord(Interpretation::Instruction(Opcode::SETL), OperandCode::Eb_R0), OpcodeRecord(Interpretation::Instruction(Opcode::SETGE), OperandCode::Eb_R0), OpcodeRecord(Interpretation::Instruction(Opcode::SETLE), OperandCode::Eb_R0), OpcodeRecord(Interpretation::Instruction(Opcode::SETG), OperandCode::Eb_R0), // 0xa0 OpcodeRecord(Interpretation::Instruction(Opcode::PUSH), OperandCode::FS), OpcodeRecord(Interpretation::Instruction(Opcode::POP), OperandCode::FS), OpcodeRecord(Interpretation::Instruction(Opcode::CPUID), OperandCode::Nothing), OpcodeRecord(Interpretation::Instruction(Opcode::BT), OperandCode::Ev_Gv), OpcodeRecord(Interpretation::Instruction(Opcode::SHLD), OperandCode::Ev_Gv_Ib), OpcodeRecord(Interpretation::Instruction(Opcode::SHLD), OperandCode::Ev_Gv_CL), OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::Nothing), OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::Nothing), OpcodeRecord(Interpretation::Instruction(Opcode::PUSH), OperandCode::GS), OpcodeRecord(Interpretation::Instruction(Opcode::POP), OperandCode::GS), OpcodeRecord(Interpretation::Instruction(Opcode::RSM), OperandCode::Nothing), OpcodeRecord(Interpretation::Instruction(Opcode::BTS), OperandCode::Ev_Gv), OpcodeRecord(Interpretation::Instruction(Opcode::SHRD), OperandCode::Ev_Gv_Ib), OpcodeRecord(Interpretation::Instruction(Opcode::SHRD), OperandCode::Ev_Gv_CL), OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::ModRM_0x0fae), OpcodeRecord(Interpretation::Instruction(Opcode::IMUL), OperandCode::Gv_Ev), // 0xb0 OpcodeRecord(Interpretation::Instruction(Opcode::CMPXCHG), OperandCode::Eb_Gb), OpcodeRecord(Interpretation::Instruction(Opcode::CMPXCHG), OperandCode::Ev_Gv), OpcodeRecord(Interpretation::Instruction(Opcode::LSS), OperandCode::INV_Gv_M), OpcodeRecord(Interpretation::Instruction(Opcode::BTR), OperandCode::Ev_Gv), OpcodeRecord(Interpretation::Instruction(Opcode::LFS), OperandCode::INV_Gv_M), OpcodeRecord(Interpretation::Instruction(Opcode::LGS), OperandCode::INV_Gv_M), OpcodeRecord(Interpretation::Instruction(Opcode::MOVZX), OperandCode::Gv_Eb), OpcodeRecord(Interpretation::Instruction(Opcode::MOVZX), OperandCode::Gv_Ew), OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::Nothing), OpcodeRecord(Interpretation::Instruction(Opcode::UD1), OperandCode::Gv_Ev), OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::ModRM_0x0fba), OpcodeRecord(Interpretation::Instruction(Opcode::BTC), OperandCode::Ev_Gv), OpcodeRecord(Interpretation::Instruction(Opcode::BSF), OperandCode::Gv_Ev), OpcodeRecord(Interpretation::Instruction(Opcode::BSR), OperandCode::Gv_Ev), OpcodeRecord(Interpretation::Instruction(Opcode::MOVSX), OperandCode::Gv_Eb), OpcodeRecord(Interpretation::Instruction(Opcode::MOVSX), OperandCode::Gv_Ew), // 0xc0 OpcodeRecord(Interpretation::Instruction(Opcode::XADD), OperandCode::Eb_Gb), OpcodeRecord(Interpretation::Instruction(Opcode::XADD), OperandCode::Ev_Gv), OpcodeRecord(Interpretation::Instruction(Opcode::CMPSD), OperandCode::G_E_xmm_Ib), OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::Nothing), OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::Nothing), OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::Nothing), OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::Nothing), OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::ModRM_0x0fc7), // cmpxchg permits an f2 prefix, which is the only reason this entry is not `Nothing` OpcodeRecord(Interpretation::Instruction(Opcode::BSWAP), OperandCode::Zv_R0), OpcodeRecord(Interpretation::Instruction(Opcode::BSWAP), OperandCode::Zv_R1), OpcodeRecord(Interpretation::Instruction(Opcode::BSWAP), OperandCode::Zv_R2), OpcodeRecord(Interpretation::Instruction(Opcode::BSWAP), OperandCode::Zv_R3), OpcodeRecord(Interpretation::Instruction(Opcode::BSWAP), OperandCode::Zv_R4), OpcodeRecord(Interpretation::Instruction(Opcode::BSWAP), OperandCode::Zv_R5), OpcodeRecord(Interpretation::Instruction(Opcode::BSWAP), OperandCode::Zv_R6), OpcodeRecord(Interpretation::Instruction(Opcode::BSWAP), OperandCode::Zv_R7), OpcodeRecord(Interpretation::Instruction(Opcode::ADDSUBPS), OperandCode::G_E_xmm), OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::Nothing), OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::Nothing), OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::Nothing), OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::Nothing), OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::Nothing), OpcodeRecord(Interpretation::Instruction(Opcode::MOVDQ2Q), OperandCode::U_mm_G_xmm), OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::Nothing), OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::Nothing), OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::Nothing), OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::Nothing), OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::Nothing), OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::Nothing), OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::Nothing), OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::Nothing), OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::Nothing), // 0xe0 OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::Nothing), OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::Nothing), OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::Nothing), OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::Nothing), OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::Nothing), OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::Nothing), OpcodeRecord(Interpretation::Instruction(Opcode::CVTPD2DQ), OperandCode::G_E_xmm), OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::Nothing), OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::Nothing), OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::Nothing), OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::Nothing), OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::Nothing), OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::Nothing), OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::Nothing), OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::Nothing), OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::Nothing), OpcodeRecord(Interpretation::Instruction(Opcode::LDDQU), OperandCode::G_M_xmm), OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::Nothing), OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::Nothing), OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::Nothing), OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::Nothing), OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::Nothing), OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::Nothing), OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::Nothing), OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::Nothing), OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::Nothing), OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::Nothing), OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::Nothing), OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::Nothing), OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::Nothing), OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::Nothing), OpcodeRecord(Interpretation::Instruction(Opcode::UD0), OperandCode::Gd_Ed), ]; const REP_0F_CODES: [OpcodeRecord; 256] = [ OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::ModRM_0x0f00), OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::ModRM_0x0f01), OpcodeRecord(Interpretation::Instruction(Opcode::LAR), OperandCode::Gv_Ew), OpcodeRecord(Interpretation::Instruction(Opcode::LSL), OperandCode::Gv_Ew_LSL), OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::Nothing), OpcodeRecord(Interpretation::Instruction(Opcode::SYSCALL), OperandCode::Nothing), OpcodeRecord(Interpretation::Instruction(Opcode::CLTS), OperandCode::Nothing), OpcodeRecord(Interpretation::Instruction(Opcode::SYSRET), OperandCode::Nothing), OpcodeRecord(Interpretation::Instruction(Opcode::INVD), OperandCode::Nothing), OpcodeRecord(Interpretation::Instruction(Opcode::WBINVD), OperandCode::Nothing), OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::Nothing), OpcodeRecord(Interpretation::Instruction(Opcode::UD2), OperandCode::Nothing), OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::Nothing), OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::ModRM_0x0f0d), OpcodeRecord(Interpretation::Instruction(Opcode::FEMMS), OperandCode::Nothing), OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::ModRM_0x0f0f), OpcodeRecord(Interpretation::Instruction(Opcode::MOVSS), OperandCode::G_Ed_xmm), OpcodeRecord(Interpretation::Instruction(Opcode::MOVSS), OperandCode::Ed_G_xmm), OpcodeRecord(Interpretation::Instruction(Opcode::MOVSLDUP), OperandCode::G_E_xmm), OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::Nothing), OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::Nothing), OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::Nothing), OpcodeRecord(Interpretation::Instruction(Opcode::MOVSHDUP), OperandCode::G_E_xmm), OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::Nothing), OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::ModRM_0x0f18), OpcodeRecord(Interpretation::Instruction(Opcode::NOP), OperandCode::Ev), OpcodeRecord(Interpretation::Instruction(Opcode::NOP), OperandCode::Ev), OpcodeRecord(Interpretation::Instruction(Opcode::NOP), OperandCode::Ev), OpcodeRecord(Interpretation::Instruction(Opcode::NOP), OperandCode::Ev), OpcodeRecord(Interpretation::Instruction(Opcode::NOP), OperandCode::Ev), OpcodeRecord(Interpretation::Instruction(Opcode::NOP), OperandCode::ModRM_0xf30f1e), OpcodeRecord(Interpretation::Instruction(Opcode::NOP), OperandCode::Ev), OpcodeRecord(Interpretation::Instruction(Opcode::MOV), OperandCode::Rq_Cq_0), OpcodeRecord(Interpretation::Instruction(Opcode::MOV), OperandCode::Rq_Dq_0), OpcodeRecord(Interpretation::Instruction(Opcode::MOV), OperandCode::Cq_Rq_0), OpcodeRecord(Interpretation::Instruction(Opcode::MOV), OperandCode::Dq_Rq_0), OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::Nothing), OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::Nothing), OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::Nothing), OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::Nothing), OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::Nothing), OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::Nothing), OpcodeRecord(Interpretation::Instruction(Opcode::CVTSI2SS), OperandCode::G_xmm_Edq), OpcodeRecord(Interpretation::Instruction(Opcode::MOVNTSS), OperandCode::M_G_xmm), OpcodeRecord(Interpretation::Instruction(Opcode::CVTTSS2SI), OperandCode::Gv_E_xmm), OpcodeRecord(Interpretation::Instruction(Opcode::CVTSS2SI), OperandCode::Gv_E_xmm), OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::Nothing), OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::Nothing), OpcodeRecord(Interpretation::Instruction(Opcode::WRMSR), OperandCode::Nothing), OpcodeRecord(Interpretation::Instruction(Opcode::RDTSC), OperandCode::Nothing), OpcodeRecord(Interpretation::Instruction(Opcode::RDMSR), OperandCode::Nothing), OpcodeRecord(Interpretation::Instruction(Opcode::RDPMC), OperandCode::Nothing), OpcodeRecord(Interpretation::Instruction(Opcode::SYSENTER), OperandCode::Nothing), OpcodeRecord(Interpretation::Instruction(Opcode::SYSEXIT), OperandCode::Nothing), OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::Nothing), OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::Nothing), OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::Nothing), // handled before getting to `read_0f_opcode` OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::Nothing), OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::Nothing), // handled before getting to `read_0f_opcode` OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::Nothing), OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::Nothing), OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::Nothing), OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::Nothing), OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::Nothing), OpcodeRecord(Interpretation::Instruction(Opcode::CMOVO), OperandCode::Gv_Ev), OpcodeRecord(Interpretation::Instruction(Opcode::CMOVNO), OperandCode::Gv_Ev), OpcodeRecord(Interpretation::Instruction(Opcode::CMOVB), OperandCode::Gv_Ev), OpcodeRecord(Interpretation::Instruction(Opcode::CMOVNB), OperandCode::Gv_Ev), OpcodeRecord(Interpretation::Instruction(Opcode::CMOVZ), OperandCode::Gv_Ev), OpcodeRecord(Interpretation::Instruction(Opcode::CMOVNZ), OperandCode::Gv_Ev), OpcodeRecord(Interpretation::Instruction(Opcode::CMOVNA), OperandCode::Gv_Ev), OpcodeRecord(Interpretation::Instruction(Opcode::CMOVA), OperandCode::Gv_Ev), OpcodeRecord(Interpretation::Instruction(Opcode::CMOVS), OperandCode::Gv_Ev), OpcodeRecord(Interpretation::Instruction(Opcode::CMOVNS), OperandCode::Gv_Ev), OpcodeRecord(Interpretation::Instruction(Opcode::CMOVP), OperandCode::Gv_Ev), OpcodeRecord(Interpretation::Instruction(Opcode::CMOVNP), OperandCode::Gv_Ev), OpcodeRecord(Interpretation::Instruction(Opcode::CMOVL), OperandCode::Gv_Ev), OpcodeRecord(Interpretation::Instruction(Opcode::CMOVGE), OperandCode::Gv_Ev), OpcodeRecord(Interpretation::Instruction(Opcode::CMOVLE), OperandCode::Gv_Ev), OpcodeRecord(Interpretation::Instruction(Opcode::CMOVG), OperandCode::Gv_Ev), // 0x50 OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::Nothing), OpcodeRecord(Interpretation::Instruction(Opcode::SQRTSS), OperandCode::G_Ed_xmm), OpcodeRecord(Interpretation::Instruction(Opcode::RSQRTSS), OperandCode::G_Ed_xmm), OpcodeRecord(Interpretation::Instruction(Opcode::RCPSS), OperandCode::G_Ed_xmm), OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::Nothing), OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::Nothing), OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::Nothing), OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::Nothing), OpcodeRecord(Interpretation::Instruction(Opcode::ADDSS), OperandCode::G_Ed_xmm), OpcodeRecord(Interpretation::Instruction(Opcode::MULSS), OperandCode::G_Ed_xmm), OpcodeRecord(Interpretation::Instruction(Opcode::CVTSS2SD), OperandCode::PMOVX_G_E_xmm), OpcodeRecord(Interpretation::Instruction(Opcode::CVTTPS2DQ), OperandCode::G_E_xmm), OpcodeRecord(Interpretation::Instruction(Opcode::SUBSS), OperandCode::G_Ed_xmm), OpcodeRecord(Interpretation::Instruction(Opcode::MINSS), OperandCode::G_Ed_xmm), OpcodeRecord(Interpretation::Instruction(Opcode::DIVSS), OperandCode::G_Ed_xmm), OpcodeRecord(Interpretation::Instruction(Opcode::MAXSS), OperandCode::G_Ed_xmm), // 0x60 OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::Nothing), OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::Nothing), OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::Nothing), OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::Nothing), OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::Nothing), OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::Nothing), OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::Nothing), OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::Nothing), OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::Nothing), OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::Nothing), OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::Nothing), OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::Nothing), OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::Nothing), OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::Nothing), OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::Nothing), OpcodeRecord(Interpretation::Instruction(Opcode::MOVDQU), OperandCode::G_E_xmm), // 0x70 OpcodeRecord(Interpretation::Instruction(Opcode::PSHUFHW), OperandCode::G_E_xmm_Ib), OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::Nothing), // no f3-0f71 instructions, so we can stop early OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::Nothing), // no f3-0f72 instructions, so we can stop early OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::Nothing), // no f3-0f73 instructions, so we can stop early OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::Nothing), OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::Nothing), OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::Nothing), OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::Nothing), OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::Nothing), OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::Nothing), OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::Nothing), OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::Nothing), OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::Nothing), OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::Nothing), OpcodeRecord(Interpretation::Instruction(Opcode::MOVQ), OperandCode::MOVQ_f30f), OpcodeRecord(Interpretation::Instruction(Opcode::MOVDQU), OperandCode::E_G_xmm), // 0x80 OpcodeRecord(Interpretation::Instruction(Opcode::JO), OperandCode::Jvds), OpcodeRecord(Interpretation::Instruction(Opcode::JNO), OperandCode::Jvds), OpcodeRecord(Interpretation::Instruction(Opcode::JB), OperandCode::Jvds), OpcodeRecord(Interpretation::Instruction(Opcode::JNB), OperandCode::Jvds), OpcodeRecord(Interpretation::Instruction(Opcode::JZ), OperandCode::Jvds), OpcodeRecord(Interpretation::Instruction(Opcode::JNZ), OperandCode::Jvds), OpcodeRecord(Interpretation::Instruction(Opcode::JNA), OperandCode::Jvds), OpcodeRecord(Interpretation::Instruction(Opcode::JA), OperandCode::Jvds), OpcodeRecord(Interpretation::Instruction(Opcode::JS), OperandCode::Jvds), OpcodeRecord(Interpretation::Instruction(Opcode::JNS), OperandCode::Jvds), OpcodeRecord(Interpretation::Instruction(Opcode::JP), OperandCode::Jvds), OpcodeRecord(Interpretation::Instruction(Opcode::JNP), OperandCode::Jvds), OpcodeRecord(Interpretation::Instruction(Opcode::JL), OperandCode::Jvds), OpcodeRecord(Interpretation::Instruction(Opcode::JGE), OperandCode::Jvds), OpcodeRecord(Interpretation::Instruction(Opcode::JLE), OperandCode::Jvds), OpcodeRecord(Interpretation::Instruction(Opcode::JG), OperandCode::Jvds), // 0x90 OpcodeRecord(Interpretation::Instruction(Opcode::SETO), OperandCode::Eb_R0), OpcodeRecord(Interpretation::Instruction(Opcode::SETNO), OperandCode::Eb_R0), OpcodeRecord(Interpretation::Instruction(Opcode::SETB), OperandCode::Eb_R0), OpcodeRecord(Interpretation::Instruction(Opcode::SETAE), OperandCode::Eb_R0), OpcodeRecord(Interpretation::Instruction(Opcode::SETZ), OperandCode::Eb_R0), OpcodeRecord(Interpretation::Instruction(Opcode::SETNZ), OperandCode::Eb_R0), OpcodeRecord(Interpretation::Instruction(Opcode::SETBE), OperandCode::Eb_R0), OpcodeRecord(Interpretation::Instruction(Opcode::SETA), OperandCode::Eb_R0), OpcodeRecord(Interpretation::Instruction(Opcode::SETS), OperandCode::Eb_R0), OpcodeRecord(Interpretation::Instruction(Opcode::SETNS), OperandCode::Eb_R0), OpcodeRecord(Interpretation::Instruction(Opcode::SETP), OperandCode::Eb_R0), OpcodeRecord(Interpretation::Instruction(Opcode::SETNP), OperandCode::Eb_R0), OpcodeRecord(Interpretation::Instruction(Opcode::SETL), OperandCode::Eb_R0), OpcodeRecord(Interpretation::Instruction(Opcode::SETGE), OperandCode::Eb_R0), OpcodeRecord(Interpretation::Instruction(Opcode::SETLE), OperandCode::Eb_R0), OpcodeRecord(Interpretation::Instruction(Opcode::SETG), OperandCode::Eb_R0), // 0xa0 OpcodeRecord(Interpretation::Instruction(Opcode::PUSH), OperandCode::FS), OpcodeRecord(Interpretation::Instruction(Opcode::POP), OperandCode::FS), OpcodeRecord(Interpretation::Instruction(Opcode::CPUID), OperandCode::Nothing), OpcodeRecord(Interpretation::Instruction(Opcode::BT), OperandCode::Ev_Gv), OpcodeRecord(Interpretation::Instruction(Opcode::SHLD), OperandCode::Ev_Gv_Ib), OpcodeRecord(Interpretation::Instruction(Opcode::SHLD), OperandCode::Ev_Gv_CL), OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::Nothing), OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::Nothing), OpcodeRecord(Interpretation::Instruction(Opcode::PUSH), OperandCode::GS), OpcodeRecord(Interpretation::Instruction(Opcode::POP), OperandCode::GS), OpcodeRecord(Interpretation::Instruction(Opcode::RSM), OperandCode::Nothing), OpcodeRecord(Interpretation::Instruction(Opcode::BTS), OperandCode::Ev_Gv), OpcodeRecord(Interpretation::Instruction(Opcode::SHRD), OperandCode::Ev_Gv_Ib), OpcodeRecord(Interpretation::Instruction(Opcode::SHRD), OperandCode::Ev_Gv_CL), OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::ModRM_0x0fae), OpcodeRecord(Interpretation::Instruction(Opcode::IMUL), OperandCode::Gv_Ev), // 0xb0 OpcodeRecord(Interpretation::Instruction(Opcode::CMPXCHG), OperandCode::Eb_Gb), OpcodeRecord(Interpretation::Instruction(Opcode::CMPXCHG), OperandCode::Ev_Gv), OpcodeRecord(Interpretation::Instruction(Opcode::LSS), OperandCode::INV_Gv_M), OpcodeRecord(Interpretation::Instruction(Opcode::BTR), OperandCode::Ev_Gv), OpcodeRecord(Interpretation::Instruction(Opcode::LFS), OperandCode::INV_Gv_M), OpcodeRecord(Interpretation::Instruction(Opcode::LGS), OperandCode::INV_Gv_M), OpcodeRecord(Interpretation::Instruction(Opcode::MOVZX), OperandCode::Gv_Eb), OpcodeRecord(Interpretation::Instruction(Opcode::MOVZX), OperandCode::Gv_Ew), OpcodeRecord(Interpretation::Instruction(Opcode::POPCNT), OperandCode::Gv_Ev), OpcodeRecord(Interpretation::Instruction(Opcode::UD1), OperandCode::Gv_Ev), OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::ModRM_0x0fba), OpcodeRecord(Interpretation::Instruction(Opcode::BTC), OperandCode::Ev_Gv), OpcodeRecord(Interpretation::Instruction(Opcode::TZCNT), OperandCode::Gv_Ev), OpcodeRecord(Interpretation::Instruction(Opcode::LZCNT), OperandCode::Gv_Ev), OpcodeRecord(Interpretation::Instruction(Opcode::MOVSX), OperandCode::Gv_Eb), OpcodeRecord(Interpretation::Instruction(Opcode::MOVSX), OperandCode::Gv_Ew), // 0xc0 OpcodeRecord(Interpretation::Instruction(Opcode::XADD), OperandCode::Eb_Gb), OpcodeRecord(Interpretation::Instruction(Opcode::XADD), OperandCode::Ev_Gv), OpcodeRecord(Interpretation::Instruction(Opcode::CMPSS), OperandCode::G_E_xmm_Ib), OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::Nothing), OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::Nothing), OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::Nothing), OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::Nothing), OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::ModRM_0x0fc7), OpcodeRecord(Interpretation::Instruction(Opcode::BSWAP), OperandCode::Zv_R0), OpcodeRecord(Interpretation::Instruction(Opcode::BSWAP), OperandCode::Zv_R1), OpcodeRecord(Interpretation::Instruction(Opcode::BSWAP), OperandCode::Zv_R2), OpcodeRecord(Interpretation::Instruction(Opcode::BSWAP), OperandCode::Zv_R3), OpcodeRecord(Interpretation::Instruction(Opcode::BSWAP), OperandCode::Zv_R4), OpcodeRecord(Interpretation::Instruction(Opcode::BSWAP), OperandCode::Zv_R5), OpcodeRecord(Interpretation::Instruction(Opcode::BSWAP), OperandCode::Zv_R6), OpcodeRecord(Interpretation::Instruction(Opcode::BSWAP), OperandCode::Zv_R7), OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::Nothing), OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::Nothing), OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::Nothing), OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::Nothing), OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::Nothing), OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::Nothing), OpcodeRecord(Interpretation::Instruction(Opcode::MOVQ2DQ), OperandCode::G_xmm_U_mm), OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::Nothing), OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::Nothing), OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::Nothing), OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::Nothing), OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::Nothing), OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::Nothing), OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::Nothing), OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::Nothing), OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::Nothing), // 0xe0 OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::Nothing), OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::Nothing), OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::Nothing), OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::Nothing), OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::Nothing), OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::Nothing), OpcodeRecord(Interpretation::Instruction(Opcode::CVTDQ2PD), OperandCode::G_E_xmm), OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::Nothing), OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::Nothing), OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::Nothing), OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::Nothing), OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::Nothing), OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::Nothing), OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::Nothing), OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::Nothing), OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::Nothing), // 0xf0 OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::Nothing), OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::Nothing), OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::Nothing), OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::Nothing), OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::Nothing), OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::Nothing), OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::Nothing), OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::Nothing), OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::Nothing), OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::Nothing), OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::Nothing), OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::Nothing), OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::Nothing), OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::Nothing), OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::Nothing), OpcodeRecord(Interpretation::Instruction(Opcode::UD0), OperandCode::Gd_Ed), ]; const OPERAND_SIZE_0F_CODES: [OpcodeRecord; 256] = [ OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::ModRM_0x0f00), OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::ModRM_0x0f01), OpcodeRecord(Interpretation::Instruction(Opcode::LAR), OperandCode::Gv_Ew), OpcodeRecord(Interpretation::Instruction(Opcode::LSL), OperandCode::Gv_Ew_LSL), OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::Nothing), OpcodeRecord(Interpretation::Instruction(Opcode::SYSCALL), OperandCode::Nothing), OpcodeRecord(Interpretation::Instruction(Opcode::CLTS), OperandCode::Nothing), OpcodeRecord(Interpretation::Instruction(Opcode::SYSRET), OperandCode::Nothing), OpcodeRecord(Interpretation::Instruction(Opcode::INVD), OperandCode::Nothing), OpcodeRecord(Interpretation::Instruction(Opcode::WBINVD), OperandCode::Nothing), OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::Nothing), OpcodeRecord(Interpretation::Instruction(Opcode::UD2), OperandCode::Nothing), OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::Nothing), OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::ModRM_0x0f0d), OpcodeRecord(Interpretation::Instruction(Opcode::FEMMS), OperandCode::Nothing), OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::ModRM_0x0f0f), OpcodeRecord(Interpretation::Instruction(Opcode::MOVUPD), OperandCode::G_E_xmm), OpcodeRecord(Interpretation::Instruction(Opcode::MOVUPD), OperandCode::E_G_xmm), OpcodeRecord(Interpretation::Instruction(Opcode::MOVLPD), OperandCode::PMOVX_G_E_xmm), OpcodeRecord(Interpretation::Instruction(Opcode::MOVLPD), OperandCode::PMOVX_E_G_xmm), OpcodeRecord(Interpretation::Instruction(Opcode::UNPCKLPD), OperandCode::G_E_xmm), OpcodeRecord(Interpretation::Instruction(Opcode::UNPCKHPD), OperandCode::G_E_xmm), OpcodeRecord(Interpretation::Instruction(Opcode::MOVHPD), OperandCode::PMOVX_G_E_xmm), OpcodeRecord(Interpretation::Instruction(Opcode::MOVHPD), OperandCode::PMOVX_E_G_xmm), OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::ModRM_0x0f18), OpcodeRecord(Interpretation::Instruction(Opcode::NOP), OperandCode::Ev), OpcodeRecord(Interpretation::Instruction(Opcode::NOP), OperandCode::Ev), OpcodeRecord(Interpretation::Instruction(Opcode::NOP), OperandCode::Ev), OpcodeRecord(Interpretation::Instruction(Opcode::NOP), OperandCode::Ev), OpcodeRecord(Interpretation::Instruction(Opcode::NOP), OperandCode::Ev), OpcodeRecord(Interpretation::Instruction(Opcode::NOP), OperandCode::Ev), OpcodeRecord(Interpretation::Instruction(Opcode::NOP), OperandCode::Ev), OpcodeRecord(Interpretation::Instruction(Opcode::MOV), OperandCode::Rq_Cq_0), OpcodeRecord(Interpretation::Instruction(Opcode::MOV), OperandCode::Rq_Dq_0), OpcodeRecord(Interpretation::Instruction(Opcode::MOV), OperandCode::Cq_Rq_0), OpcodeRecord(Interpretation::Instruction(Opcode::MOV), OperandCode::Dq_Rq_0), OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::Nothing), OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::Nothing), OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::Nothing), OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::Nothing), OpcodeRecord(Interpretation::Instruction(Opcode::MOVAPD), OperandCode::G_E_xmm), OpcodeRecord(Interpretation::Instruction(Opcode::MOVAPD), OperandCode::E_G_xmm), OpcodeRecord(Interpretation::Instruction(Opcode::CVTPI2PD), OperandCode::G_xmm_E_mm), OpcodeRecord(Interpretation::Instruction(Opcode::MOVNTPD), OperandCode::M_G_xmm), OpcodeRecord(Interpretation::Instruction(Opcode::CVTTPD2PI), OperandCode::G_mm_E_xmm), OpcodeRecord(Interpretation::Instruction(Opcode::CVTPD2PI), OperandCode::G_mm_E_xmm), OpcodeRecord(Interpretation::Instruction(Opcode::UCOMISD), OperandCode::PMOVX_G_E_xmm), OpcodeRecord(Interpretation::Instruction(Opcode::COMISD), OperandCode::PMOVX_G_E_xmm), OpcodeRecord(Interpretation::Instruction(Opcode::WRMSR), OperandCode::Nothing), OpcodeRecord(Interpretation::Instruction(Opcode::RDTSC), OperandCode::Nothing), OpcodeRecord(Interpretation::Instruction(Opcode::RDMSR), OperandCode::Nothing), OpcodeRecord(Interpretation::Instruction(Opcode::RDPMC), OperandCode::Nothing), OpcodeRecord(Interpretation::Instruction(Opcode::SYSENTER), OperandCode::Nothing), OpcodeRecord(Interpretation::Instruction(Opcode::SYSEXIT), OperandCode::Nothing), OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::Nothing), OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::Nothing), OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::Nothing), // handled before getting to `read_0f_opcode` OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::Nothing), OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::Nothing), // handled before getting to `read_0f_opcode` OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::Nothing), OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::Nothing), OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::Nothing), OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::Nothing), OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::Nothing), OpcodeRecord(Interpretation::Instruction(Opcode::CMOVO), OperandCode::Gv_Ev), OpcodeRecord(Interpretation::Instruction(Opcode::CMOVNO), OperandCode::Gv_Ev), OpcodeRecord(Interpretation::Instruction(Opcode::CMOVB), OperandCode::Gv_Ev), OpcodeRecord(Interpretation::Instruction(Opcode::CMOVNB), OperandCode::Gv_Ev), OpcodeRecord(Interpretation::Instruction(Opcode::CMOVZ), OperandCode::Gv_Ev), OpcodeRecord(Interpretation::Instruction(Opcode::CMOVNZ), OperandCode::Gv_Ev), OpcodeRecord(Interpretation::Instruction(Opcode::CMOVNA), OperandCode::Gv_Ev), OpcodeRecord(Interpretation::Instruction(Opcode::CMOVA), OperandCode::Gv_Ev), OpcodeRecord(Interpretation::Instruction(Opcode::CMOVS), OperandCode::Gv_Ev), OpcodeRecord(Interpretation::Instruction(Opcode::CMOVNS), OperandCode::Gv_Ev), OpcodeRecord(Interpretation::Instruction(Opcode::CMOVP), OperandCode::Gv_Ev), OpcodeRecord(Interpretation::Instruction(Opcode::CMOVNP), OperandCode::Gv_Ev), OpcodeRecord(Interpretation::Instruction(Opcode::CMOVL), OperandCode::Gv_Ev), OpcodeRecord(Interpretation::Instruction(Opcode::CMOVGE), OperandCode::Gv_Ev), OpcodeRecord(Interpretation::Instruction(Opcode::CMOVLE), OperandCode::Gv_Ev), OpcodeRecord(Interpretation::Instruction(Opcode::CMOVG), OperandCode::Gv_Ev), OpcodeRecord(Interpretation::Instruction(Opcode::MOVMSKPD), OperandCode::Gd_U_xmm), OpcodeRecord(Interpretation::Instruction(Opcode::SQRTPD), OperandCode::G_E_xmm), OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::Nothing), OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::Nothing), OpcodeRecord(Interpretation::Instruction(Opcode::ANDPD), OperandCode::G_E_xmm), OpcodeRecord(Interpretation::Instruction(Opcode::ANDNPD), OperandCode::G_E_xmm), OpcodeRecord(Interpretation::Instruction(Opcode::ORPD), OperandCode::G_E_xmm), OpcodeRecord(Interpretation::Instruction(Opcode::XORPD), OperandCode::G_E_xmm), OpcodeRecord(Interpretation::Instruction(Opcode::ADDPD), OperandCode::G_E_xmm), OpcodeRecord(Interpretation::Instruction(Opcode::MULPD), OperandCode::G_E_xmm), OpcodeRecord(Interpretation::Instruction(Opcode::CVTPD2PS), OperandCode::G_E_xmm), OpcodeRecord(Interpretation::Instruction(Opcode::CVTPS2DQ), OperandCode::G_E_xmm), OpcodeRecord(Interpretation::Instruction(Opcode::SUBPD), OperandCode::G_E_xmm), OpcodeRecord(Interpretation::Instruction(Opcode::MINPD), OperandCode::G_E_xmm), OpcodeRecord(Interpretation::Instruction(Opcode::DIVPD), OperandCode::G_E_xmm), OpcodeRecord(Interpretation::Instruction(Opcode::MAXPD), OperandCode::G_E_xmm), OpcodeRecord(Interpretation::Instruction(Opcode::PUNPCKLBW), OperandCode::G_E_xmm), OpcodeRecord(Interpretation::Instruction(Opcode::PUNPCKLWD), OperandCode::G_E_xmm), OpcodeRecord(Interpretation::Instruction(Opcode::PUNPCKLDQ), OperandCode::G_E_xmm), OpcodeRecord(Interpretation::Instruction(Opcode::PACKSSWB), OperandCode::G_E_xmm), OpcodeRecord(Interpretation::Instruction(Opcode::PCMPGTB), OperandCode::G_E_xmm), OpcodeRecord(Interpretation::Instruction(Opcode::PCMPGTW), OperandCode::G_E_xmm), OpcodeRecord(Interpretation::Instruction(Opcode::PCMPGTD), OperandCode::G_E_xmm), OpcodeRecord(Interpretation::Instruction(Opcode::PACKUSWB), OperandCode::G_E_xmm), OpcodeRecord(Interpretation::Instruction(Opcode::PUNPCKHBW), OperandCode::G_E_xmm), OpcodeRecord(Interpretation::Instruction(Opcode::PUNPCKHWD), OperandCode::G_E_xmm), OpcodeRecord(Interpretation::Instruction(Opcode::PUNPCKHDQ), OperandCode::G_E_xmm), OpcodeRecord(Interpretation::Instruction(Opcode::PACKSSDW), OperandCode::G_E_xmm), OpcodeRecord(Interpretation::Instruction(Opcode::PUNPCKLQDQ), OperandCode::G_E_xmm), OpcodeRecord(Interpretation::Instruction(Opcode::PUNPCKHQDQ), OperandCode::G_E_xmm), OpcodeRecord(Interpretation::Instruction(Opcode::MOVQ), OperandCode::G_xmm_Eq), OpcodeRecord(Interpretation::Instruction(Opcode::MOVDQA), OperandCode::G_E_xmm), OpcodeRecord(Interpretation::Instruction(Opcode::PSHUFD), OperandCode::G_E_xmm_Ib), OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::ModRM_0x0f71), OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::ModRM_0x0f72), OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::ModRM_0x0f73), OpcodeRecord(Interpretation::Instruction(Opcode::PCMPEQB), OperandCode::G_E_xmm), OpcodeRecord(Interpretation::Instruction(Opcode::PCMPEQW), OperandCode::G_E_xmm), OpcodeRecord(Interpretation::Instruction(Opcode::PCMPEQD), OperandCode::G_E_xmm), OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::Nothing), OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::ModRM_0x660f78), OpcodeRecord(Interpretation::Instruction(Opcode::EXTRQ), OperandCode::G_U_xmm), OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::Nothing), OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::Nothing), OpcodeRecord(Interpretation::Instruction(Opcode::HADDPD), OperandCode::G_E_xmm), OpcodeRecord(Interpretation::Instruction(Opcode::HSUBPD), OperandCode::G_E_xmm), OpcodeRecord(Interpretation::Instruction(Opcode::MOVD), OperandCode::Edq_G_xmm), OpcodeRecord(Interpretation::Instruction(Opcode::MOVDQA), OperandCode::E_G_xmm), // 0x80 OpcodeRecord(Interpretation::Instruction(Opcode::JO), OperandCode::Jvds), OpcodeRecord(Interpretation::Instruction(Opcode::JNO), OperandCode::Jvds), OpcodeRecord(Interpretation::Instruction(Opcode::JB), OperandCode::Jvds), OpcodeRecord(Interpretation::Instruction(Opcode::JNB), OperandCode::Jvds), OpcodeRecord(Interpretation::Instruction(Opcode::JZ), OperandCode::Jvds), OpcodeRecord(Interpretation::Instruction(Opcode::JNZ), OperandCode::Jvds), OpcodeRecord(Interpretation::Instruction(Opcode::JNA), OperandCode::Jvds), OpcodeRecord(Interpretation::Instruction(Opcode::JA), OperandCode::Jvds), OpcodeRecord(Interpretation::Instruction(Opcode::JS), OperandCode::Jvds), OpcodeRecord(Interpretation::Instruction(Opcode::JNS), OperandCode::Jvds), OpcodeRecord(Interpretation::Instruction(Opcode::JP), OperandCode::Jvds), OpcodeRecord(Interpretation::Instruction(Opcode::JNP), OperandCode::Jvds), OpcodeRecord(Interpretation::Instruction(Opcode::JL), OperandCode::Jvds), OpcodeRecord(Interpretation::Instruction(Opcode::JGE), OperandCode::Jvds), OpcodeRecord(Interpretation::Instruction(Opcode::JLE), OperandCode::Jvds), OpcodeRecord(Interpretation::Instruction(Opcode::JG), OperandCode::Jvds), // 0x90 OpcodeRecord(Interpretation::Instruction(Opcode::SETO), OperandCode::Eb_R0), OpcodeRecord(Interpretation::Instruction(Opcode::SETNO), OperandCode::Eb_R0), OpcodeRecord(Interpretation::Instruction(Opcode::SETB), OperandCode::Eb_R0), OpcodeRecord(Interpretation::Instruction(Opcode::SETAE), OperandCode::Eb_R0), OpcodeRecord(Interpretation::Instruction(Opcode::SETZ), OperandCode::Eb_R0), OpcodeRecord(Interpretation::Instruction(Opcode::SETNZ), OperandCode::Eb_R0), OpcodeRecord(Interpretation::Instruction(Opcode::SETBE), OperandCode::Eb_R0), OpcodeRecord(Interpretation::Instruction(Opcode::SETA), OperandCode::Eb_R0), OpcodeRecord(Interpretation::Instruction(Opcode::SETS), OperandCode::Eb_R0), OpcodeRecord(Interpretation::Instruction(Opcode::SETNS), OperandCode::Eb_R0), OpcodeRecord(Interpretation::Instruction(Opcode::SETP), OperandCode::Eb_R0), OpcodeRecord(Interpretation::Instruction(Opcode::SETNP), OperandCode::Eb_R0), OpcodeRecord(Interpretation::Instruction(Opcode::SETL), OperandCode::Eb_R0), OpcodeRecord(Interpretation::Instruction(Opcode::SETGE), OperandCode::Eb_R0), OpcodeRecord(Interpretation::Instruction(Opcode::SETLE), OperandCode::Eb_R0), OpcodeRecord(Interpretation::Instruction(Opcode::SETG), OperandCode::Eb_R0), // 0xa0 OpcodeRecord(Interpretation::Instruction(Opcode::PUSH), OperandCode::FS), OpcodeRecord(Interpretation::Instruction(Opcode::POP), OperandCode::FS), OpcodeRecord(Interpretation::Instruction(Opcode::CPUID), OperandCode::Nothing), OpcodeRecord(Interpretation::Instruction(Opcode::BT), OperandCode::Ev_Gv), OpcodeRecord(Interpretation::Instruction(Opcode::SHLD), OperandCode::Ev_Gv_Ib), OpcodeRecord(Interpretation::Instruction(Opcode::SHLD), OperandCode::Ev_Gv_CL), OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::Nothing), OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::Nothing), OpcodeRecord(Interpretation::Instruction(Opcode::PUSH), OperandCode::GS), OpcodeRecord(Interpretation::Instruction(Opcode::POP), OperandCode::GS), OpcodeRecord(Interpretation::Instruction(Opcode::RSM), OperandCode::Nothing), OpcodeRecord(Interpretation::Instruction(Opcode::BTS), OperandCode::Ev_Gv), OpcodeRecord(Interpretation::Instruction(Opcode::SHRD), OperandCode::Ev_Gv_Ib), OpcodeRecord(Interpretation::Instruction(Opcode::SHRD), OperandCode::Ev_Gv_CL), OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::ModRM_0x0fae), OpcodeRecord(Interpretation::Instruction(Opcode::IMUL), OperandCode::Gv_Ev), // 0xb0 OpcodeRecord(Interpretation::Instruction(Opcode::CMPXCHG), OperandCode::Eb_Gb), OpcodeRecord(Interpretation::Instruction(Opcode::CMPXCHG), OperandCode::Ev_Gv), OpcodeRecord(Interpretation::Instruction(Opcode::LSS), OperandCode::INV_Gv_M), OpcodeRecord(Interpretation::Instruction(Opcode::BTR), OperandCode::Ev_Gv), OpcodeRecord(Interpretation::Instruction(Opcode::LFS), OperandCode::INV_Gv_M), OpcodeRecord(Interpretation::Instruction(Opcode::LGS), OperandCode::INV_Gv_M), OpcodeRecord(Interpretation::Instruction(Opcode::MOVZX), OperandCode::Gv_Eb), OpcodeRecord(Interpretation::Instruction(Opcode::MOVZX), OperandCode::Gv_Ew), OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::Nothing), OpcodeRecord(Interpretation::Instruction(Opcode::UD1), OperandCode::Gv_Ev), OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::ModRM_0x0fba), OpcodeRecord(Interpretation::Instruction(Opcode::BTC), OperandCode::Ev_Gv), OpcodeRecord(Interpretation::Instruction(Opcode::BSF), OperandCode::Gv_Ev), OpcodeRecord(Interpretation::Instruction(Opcode::BSR), OperandCode::Gv_Ev), OpcodeRecord(Interpretation::Instruction(Opcode::MOVSX), OperandCode::Gv_Eb), OpcodeRecord(Interpretation::Instruction(Opcode::MOVSX), OperandCode::Gv_Ew), // 0xc0 OpcodeRecord(Interpretation::Instruction(Opcode::XADD), OperandCode::Eb_Gb), OpcodeRecord(Interpretation::Instruction(Opcode::XADD), OperandCode::Ev_Gv), OpcodeRecord(Interpretation::Instruction(Opcode::CMPPD), OperandCode::G_E_xmm_Ib), OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::Nothing), OpcodeRecord(Interpretation::Instruction(Opcode::PINSRW), OperandCode::G_xmm_Ew_Ib), OpcodeRecord(Interpretation::Instruction(Opcode::PEXTRW), OperandCode::G_U_xmm_Ub), OpcodeRecord(Interpretation::Instruction(Opcode::SHUFPD), OperandCode::G_E_xmm_Ib), OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::ModRM_0x0fc7), OpcodeRecord(Interpretation::Instruction(Opcode::BSWAP), OperandCode::Zv_R0), OpcodeRecord(Interpretation::Instruction(Opcode::BSWAP), OperandCode::Zv_R1), OpcodeRecord(Interpretation::Instruction(Opcode::BSWAP), OperandCode::Zv_R2), OpcodeRecord(Interpretation::Instruction(Opcode::BSWAP), OperandCode::Zv_R3), OpcodeRecord(Interpretation::Instruction(Opcode::BSWAP), OperandCode::Zv_R4), OpcodeRecord(Interpretation::Instruction(Opcode::BSWAP), OperandCode::Zv_R5), OpcodeRecord(Interpretation::Instruction(Opcode::BSWAP), OperandCode::Zv_R6), OpcodeRecord(Interpretation::Instruction(Opcode::BSWAP), OperandCode::Zv_R7), // 0xd0 OpcodeRecord(Interpretation::Instruction(Opcode::ADDSUBPD), OperandCode::G_E_xmm), OpcodeRecord(Interpretation::Instruction(Opcode::PSRLW), OperandCode::G_E_xmm), OpcodeRecord(Interpretation::Instruction(Opcode::PSRLD), OperandCode::G_E_xmm), OpcodeRecord(Interpretation::Instruction(Opcode::PSRLQ), OperandCode::G_E_xmm), OpcodeRecord(Interpretation::Instruction(Opcode::PADDQ), OperandCode::G_E_xmm), OpcodeRecord(Interpretation::Instruction(Opcode::PMULLW), OperandCode::G_E_xmm), OpcodeRecord(Interpretation::Instruction(Opcode::MOVQ), OperandCode::PMOVX_E_G_xmm), OpcodeRecord(Interpretation::Instruction(Opcode::PMOVMSKB), OperandCode::Gd_U_xmm), OpcodeRecord(Interpretation::Instruction(Opcode::PSUBUSB), OperandCode::G_E_xmm), OpcodeRecord(Interpretation::Instruction(Opcode::PSUBUSW), OperandCode::G_E_xmm), OpcodeRecord(Interpretation::Instruction(Opcode::PMINUB), OperandCode::G_E_xmm), OpcodeRecord(Interpretation::Instruction(Opcode::PAND), OperandCode::G_E_xmm), OpcodeRecord(Interpretation::Instruction(Opcode::PADDUSB), OperandCode::G_E_xmm), OpcodeRecord(Interpretation::Instruction(Opcode::PADDUSW), OperandCode::G_E_xmm), OpcodeRecord(Interpretation::Instruction(Opcode::PMAXUB), OperandCode::G_E_xmm), OpcodeRecord(Interpretation::Instruction(Opcode::PANDN), OperandCode::G_E_xmm), // 0xe0 OpcodeRecord(Interpretation::Instruction(Opcode::PAVGB), OperandCode::G_E_xmm), OpcodeRecord(Interpretation::Instruction(Opcode::PSRAW), OperandCode::G_E_xmm), OpcodeRecord(Interpretation::Instruction(Opcode::PSRAD), OperandCode::G_E_xmm), OpcodeRecord(Interpretation::Instruction(Opcode::PAVGW), OperandCode::G_E_xmm), OpcodeRecord(Interpretation::Instruction(Opcode::PMULHUW), OperandCode::G_E_xmm), OpcodeRecord(Interpretation::Instruction(Opcode::PMULHW), OperandCode::G_E_xmm), OpcodeRecord(Interpretation::Instruction(Opcode::CVTTPD2DQ), OperandCode::G_E_xmm), OpcodeRecord(Interpretation::Instruction(Opcode::MOVNTDQ), OperandCode::M_G_xmm), OpcodeRecord(Interpretation::Instruction(Opcode::PSUBSB), OperandCode::G_E_xmm), OpcodeRecord(Interpretation::Instruction(Opcode::PSUBSW), OperandCode::G_E_xmm), OpcodeRecord(Interpretation::Instruction(Opcode::PMINSW), OperandCode::G_E_xmm), OpcodeRecord(Interpretation::Instruction(Opcode::POR), OperandCode::G_E_xmm), OpcodeRecord(Interpretation::Instruction(Opcode::PADDSB), OperandCode::G_E_xmm), OpcodeRecord(Interpretation::Instruction(Opcode::PADDSW), OperandCode::G_E_xmm), OpcodeRecord(Interpretation::Instruction(Opcode::PMAXSW), OperandCode::G_E_xmm), OpcodeRecord(Interpretation::Instruction(Opcode::PXOR), OperandCode::G_E_xmm), // 0xf0 OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::Nothing), OpcodeRecord(Interpretation::Instruction(Opcode::PSLLW), OperandCode::G_E_xmm), OpcodeRecord(Interpretation::Instruction(Opcode::PSLLD), OperandCode::G_E_xmm), OpcodeRecord(Interpretation::Instruction(Opcode::PSLLQ), OperandCode::G_E_xmm), OpcodeRecord(Interpretation::Instruction(Opcode::PMULUDQ), OperandCode::G_E_xmm), OpcodeRecord(Interpretation::Instruction(Opcode::PMADDWD), OperandCode::G_E_xmm), OpcodeRecord(Interpretation::Instruction(Opcode::PSADBW), OperandCode::G_E_xmm), OpcodeRecord(Interpretation::Instruction(Opcode::MASKMOVDQU), OperandCode::G_U_xmm), OpcodeRecord(Interpretation::Instruction(Opcode::PSUBB), OperandCode::G_E_xmm), OpcodeRecord(Interpretation::Instruction(Opcode::PSUBW), OperandCode::G_E_xmm), OpcodeRecord(Interpretation::Instruction(Opcode::PSUBD), OperandCode::G_E_xmm), OpcodeRecord(Interpretation::Instruction(Opcode::PSUBQ), OperandCode::G_E_xmm), OpcodeRecord(Interpretation::Instruction(Opcode::PADDB), OperandCode::G_E_xmm), OpcodeRecord(Interpretation::Instruction(Opcode::PADDW), OperandCode::G_E_xmm), OpcodeRecord(Interpretation::Instruction(Opcode::PADDD), OperandCode::G_E_xmm), OpcodeRecord(Interpretation::Instruction(Opcode::UD0), OperandCode::Gd_Ed), ]; const NORMAL_0F_CODES: [OpcodeRecord; 256] = [ OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::ModRM_0x0f00), OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::ModRM_0x0f01), OpcodeRecord(Interpretation::Instruction(Opcode::LAR), OperandCode::Gv_Ew), OpcodeRecord(Interpretation::Instruction(Opcode::LSL), OperandCode::Gv_Ew_LSL), OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::Nothing), OpcodeRecord(Interpretation::Instruction(Opcode::SYSCALL), OperandCode::Nothing), OpcodeRecord(Interpretation::Instruction(Opcode::CLTS), OperandCode::Nothing), OpcodeRecord(Interpretation::Instruction(Opcode::SYSRET), OperandCode::Nothing), OpcodeRecord(Interpretation::Instruction(Opcode::INVD), OperandCode::Nothing), OpcodeRecord(Interpretation::Instruction(Opcode::WBINVD), OperandCode::Nothing), OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::Nothing), OpcodeRecord(Interpretation::Instruction(Opcode::UD2), OperandCode::Nothing), OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::Nothing), OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::ModRM_0x0f0d), OpcodeRecord(Interpretation::Instruction(Opcode::FEMMS), OperandCode::Nothing), OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::ModRM_0x0f0f), OpcodeRecord(Interpretation::Instruction(Opcode::MOVUPS), OperandCode::G_E_xmm), OpcodeRecord(Interpretation::Instruction(Opcode::MOVUPS), OperandCode::E_G_xmm), OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::ModRM_0x0f12), OpcodeRecord(Interpretation::Instruction(Opcode::MOVLPS), OperandCode::M_G_xmm), OpcodeRecord(Interpretation::Instruction(Opcode::UNPCKLPS), OperandCode::G_E_xmm), OpcodeRecord(Interpretation::Instruction(Opcode::UNPCKHPS), OperandCode::G_E_xmm), OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::ModRM_0x0f16), OpcodeRecord(Interpretation::Instruction(Opcode::MOVHPS), OperandCode::PMOVX_E_G_xmm), OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::ModRM_0x0f18), OpcodeRecord(Interpretation::Instruction(Opcode::NOP), OperandCode::Ev), OpcodeRecord(Interpretation::Instruction(Opcode::NOP), OperandCode::Ev), OpcodeRecord(Interpretation::Instruction(Opcode::NOP), OperandCode::Ev), OpcodeRecord(Interpretation::Instruction(Opcode::NOP), OperandCode::Ev), OpcodeRecord(Interpretation::Instruction(Opcode::NOP), OperandCode::Ev), OpcodeRecord(Interpretation::Instruction(Opcode::NOP), OperandCode::Ev), OpcodeRecord(Interpretation::Instruction(Opcode::NOP), OperandCode::Ev), OpcodeRecord(Interpretation::Instruction(Opcode::MOV), OperandCode::Rq_Cq_0), OpcodeRecord(Interpretation::Instruction(Opcode::MOV), OperandCode::Rq_Dq_0), OpcodeRecord(Interpretation::Instruction(Opcode::MOV), OperandCode::Cq_Rq_0), OpcodeRecord(Interpretation::Instruction(Opcode::MOV), OperandCode::Dq_Rq_0), OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::Nothing), OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::Nothing), OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::Nothing), OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::Nothing), OpcodeRecord(Interpretation::Instruction(Opcode::MOVAPS), OperandCode::G_E_xmm), OpcodeRecord(Interpretation::Instruction(Opcode::MOVAPS), OperandCode::E_G_xmm), OpcodeRecord(Interpretation::Instruction(Opcode::CVTPI2PS), OperandCode::G_xmm_E_mm), OpcodeRecord(Interpretation::Instruction(Opcode::MOVNTPS), OperandCode::M_G_xmm), OpcodeRecord(Interpretation::Instruction(Opcode::CVTTPS2PI), OperandCode::G_mm_E_xmm), OpcodeRecord(Interpretation::Instruction(Opcode::CVTPS2PI), OperandCode::G_mm_E_xmm), OpcodeRecord(Interpretation::Instruction(Opcode::UCOMISS), OperandCode::PMOVX_G_E_xmm), OpcodeRecord(Interpretation::Instruction(Opcode::COMISS), OperandCode::PMOVX_G_E_xmm), // 0x30 OpcodeRecord(Interpretation::Instruction(Opcode::WRMSR), OperandCode::Nothing), OpcodeRecord(Interpretation::Instruction(Opcode::RDTSC), OperandCode::Nothing), OpcodeRecord(Interpretation::Instruction(Opcode::RDMSR), OperandCode::Nothing), OpcodeRecord(Interpretation::Instruction(Opcode::RDPMC), OperandCode::Nothing), OpcodeRecord(Interpretation::Instruction(Opcode::SYSENTER), OperandCode::Nothing), OpcodeRecord(Interpretation::Instruction(Opcode::SYSEXIT), OperandCode::Nothing), OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::Nothing), OpcodeRecord(Interpretation::Instruction(Opcode::GETSEC), OperandCode::Nothing), OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::Nothing), // handled before getting to `read_0f_opcode` OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::Nothing), OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::Nothing), // handled before getting to `read_0f_opcode` OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::Nothing), OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::Nothing), OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::Nothing), OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::Nothing), OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::Nothing), // 0x40 OpcodeRecord(Interpretation::Instruction(Opcode::CMOVO), OperandCode::Gv_Ev), OpcodeRecord(Interpretation::Instruction(Opcode::CMOVNO), OperandCode::Gv_Ev), OpcodeRecord(Interpretation::Instruction(Opcode::CMOVB), OperandCode::Gv_Ev), OpcodeRecord(Interpretation::Instruction(Opcode::CMOVNB), OperandCode::Gv_Ev), OpcodeRecord(Interpretation::Instruction(Opcode::CMOVZ), OperandCode::Gv_Ev), OpcodeRecord(Interpretation::Instruction(Opcode::CMOVNZ), OperandCode::Gv_Ev), OpcodeRecord(Interpretation::Instruction(Opcode::CMOVNA), OperandCode::Gv_Ev), OpcodeRecord(Interpretation::Instruction(Opcode::CMOVA), OperandCode::Gv_Ev), OpcodeRecord(Interpretation::Instruction(Opcode::CMOVS), OperandCode::Gv_Ev), OpcodeRecord(Interpretation::Instruction(Opcode::CMOVNS), OperandCode::Gv_Ev), OpcodeRecord(Interpretation::Instruction(Opcode::CMOVP), OperandCode::Gv_Ev), OpcodeRecord(Interpretation::Instruction(Opcode::CMOVNP), OperandCode::Gv_Ev), OpcodeRecord(Interpretation::Instruction(Opcode::CMOVL), OperandCode::Gv_Ev), OpcodeRecord(Interpretation::Instruction(Opcode::CMOVGE), OperandCode::Gv_Ev), OpcodeRecord(Interpretation::Instruction(Opcode::CMOVLE), OperandCode::Gv_Ev), OpcodeRecord(Interpretation::Instruction(Opcode::CMOVG), OperandCode::Gv_Ev), // 0x50 OpcodeRecord(Interpretation::Instruction(Opcode::MOVMSKPS), OperandCode::Gd_U_xmm), OpcodeRecord(Interpretation::Instruction(Opcode::SQRTPS), OperandCode::G_E_xmm), OpcodeRecord(Interpretation::Instruction(Opcode::RSQRTPS), OperandCode::G_E_xmm), OpcodeRecord(Interpretation::Instruction(Opcode::RCPPS), OperandCode::G_E_xmm), OpcodeRecord(Interpretation::Instruction(Opcode::ANDPS), OperandCode::G_E_xmm), OpcodeRecord(Interpretation::Instruction(Opcode::ANDNPS), OperandCode::G_E_xmm), OpcodeRecord(Interpretation::Instruction(Opcode::ORPS), OperandCode::G_E_xmm), OpcodeRecord(Interpretation::Instruction(Opcode::XORPS), OperandCode::G_E_xmm), OpcodeRecord(Interpretation::Instruction(Opcode::ADDPS), OperandCode::G_E_xmm), OpcodeRecord(Interpretation::Instruction(Opcode::MULPS), OperandCode::G_E_xmm), OpcodeRecord(Interpretation::Instruction(Opcode::CVTPS2PD), OperandCode::PMOVX_G_E_xmm), OpcodeRecord(Interpretation::Instruction(Opcode::CVTDQ2PS), OperandCode::G_E_xmm), OpcodeRecord(Interpretation::Instruction(Opcode::SUBPS), OperandCode::G_E_xmm), OpcodeRecord(Interpretation::Instruction(Opcode::MINPS), OperandCode::G_E_xmm), OpcodeRecord(Interpretation::Instruction(Opcode::DIVPS), OperandCode::G_E_xmm), OpcodeRecord(Interpretation::Instruction(Opcode::MAXPS), OperandCode::G_E_xmm), // 0x60 OpcodeRecord(Interpretation::Instruction(Opcode::PUNPCKLBW), OperandCode::G_E_mm), OpcodeRecord(Interpretation::Instruction(Opcode::PUNPCKLWD), OperandCode::G_E_mm), OpcodeRecord(Interpretation::Instruction(Opcode::PUNPCKLDQ), OperandCode::G_E_mm), OpcodeRecord(Interpretation::Instruction(Opcode::PACKSSWB), OperandCode::G_E_mm), OpcodeRecord(Interpretation::Instruction(Opcode::PCMPGTB), OperandCode::G_E_mm), OpcodeRecord(Interpretation::Instruction(Opcode::PCMPGTW), OperandCode::G_E_mm), OpcodeRecord(Interpretation::Instruction(Opcode::PCMPGTD), OperandCode::G_E_mm), OpcodeRecord(Interpretation::Instruction(Opcode::PACKUSWB), OperandCode::G_E_mm), OpcodeRecord(Interpretation::Instruction(Opcode::PUNPCKHBW), OperandCode::G_E_mm), OpcodeRecord(Interpretation::Instruction(Opcode::PUNPCKHWD), OperandCode::G_E_mm), OpcodeRecord(Interpretation::Instruction(Opcode::PUNPCKHDQ), OperandCode::G_E_mm), OpcodeRecord(Interpretation::Instruction(Opcode::PACKSSDW), OperandCode::G_E_mm), OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::Nothing), OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::Nothing), OpcodeRecord(Interpretation::Instruction(Opcode::MOVD), OperandCode::G_mm_Edq), OpcodeRecord(Interpretation::Instruction(Opcode::MOVQ), OperandCode::G_mm_E), // 0x70 OpcodeRecord(Interpretation::Instruction(Opcode::PSHUFW), OperandCode::G_E_mm_Ib), OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::ModRM_0x0f71), OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::ModRM_0x0f72), OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::ModRM_0x0f73), OpcodeRecord(Interpretation::Instruction(Opcode::PCMPEQB), OperandCode::G_E_mm), OpcodeRecord(Interpretation::Instruction(Opcode::PCMPEQW), OperandCode::G_E_mm), OpcodeRecord(Interpretation::Instruction(Opcode::PCMPEQD), OperandCode::G_E_mm), OpcodeRecord(Interpretation::Instruction(Opcode::EMMS), OperandCode::Nothing), OpcodeRecord(Interpretation::Instruction(Opcode::VMREAD), OperandCode::E_G_q), OpcodeRecord(Interpretation::Instruction(Opcode::VMWRITE), OperandCode::G_E_q), OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::Nothing), OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::Nothing), OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::Nothing), OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::Nothing), OpcodeRecord(Interpretation::Instruction(Opcode::MOVD), OperandCode::Edq_G_mm), OpcodeRecord(Interpretation::Instruction(Opcode::MOVQ), OperandCode::E_G_mm), // 0x80 OpcodeRecord(Interpretation::Instruction(Opcode::JO), OperandCode::Jvds), OpcodeRecord(Interpretation::Instruction(Opcode::JNO), OperandCode::Jvds), OpcodeRecord(Interpretation::Instruction(Opcode::JB), OperandCode::Jvds), OpcodeRecord(Interpretation::Instruction(Opcode::JNB), OperandCode::Jvds), OpcodeRecord(Interpretation::Instruction(Opcode::JZ), OperandCode::Jvds), OpcodeRecord(Interpretation::Instruction(Opcode::JNZ), OperandCode::Jvds), OpcodeRecord(Interpretation::Instruction(Opcode::JNA), OperandCode::Jvds), OpcodeRecord(Interpretation::Instruction(Opcode::JA), OperandCode::Jvds), OpcodeRecord(Interpretation::Instruction(Opcode::JS), OperandCode::Jvds), OpcodeRecord(Interpretation::Instruction(Opcode::JNS), OperandCode::Jvds), OpcodeRecord(Interpretation::Instruction(Opcode::JP), OperandCode::Jvds), OpcodeRecord(Interpretation::Instruction(Opcode::JNP), OperandCode::Jvds), OpcodeRecord(Interpretation::Instruction(Opcode::JL), OperandCode::Jvds), OpcodeRecord(Interpretation::Instruction(Opcode::JGE), OperandCode::Jvds), OpcodeRecord(Interpretation::Instruction(Opcode::JLE), OperandCode::Jvds), OpcodeRecord(Interpretation::Instruction(Opcode::JG), OperandCode::Jvds), // 0x90 OpcodeRecord(Interpretation::Instruction(Opcode::SETO), OperandCode::Eb_R0), OpcodeRecord(Interpretation::Instruction(Opcode::SETNO), OperandCode::Eb_R0), OpcodeRecord(Interpretation::Instruction(Opcode::SETB), OperandCode::Eb_R0), OpcodeRecord(Interpretation::Instruction(Opcode::SETAE), OperandCode::Eb_R0), OpcodeRecord(Interpretation::Instruction(Opcode::SETZ), OperandCode::Eb_R0), OpcodeRecord(Interpretation::Instruction(Opcode::SETNZ), OperandCode::Eb_R0), OpcodeRecord(Interpretation::Instruction(Opcode::SETBE), OperandCode::Eb_R0), OpcodeRecord(Interpretation::Instruction(Opcode::SETA), OperandCode::Eb_R0), OpcodeRecord(Interpretation::Instruction(Opcode::SETS), OperandCode::Eb_R0), OpcodeRecord(Interpretation::Instruction(Opcode::SETNS), OperandCode::Eb_R0), OpcodeRecord(Interpretation::Instruction(Opcode::SETP), OperandCode::Eb_R0), OpcodeRecord(Interpretation::Instruction(Opcode::SETNP), OperandCode::Eb_R0), OpcodeRecord(Interpretation::Instruction(Opcode::SETL), OperandCode::Eb_R0), OpcodeRecord(Interpretation::Instruction(Opcode::SETGE), OperandCode::Eb_R0), OpcodeRecord(Interpretation::Instruction(Opcode::SETLE), OperandCode::Eb_R0), OpcodeRecord(Interpretation::Instruction(Opcode::SETG), OperandCode::Eb_R0), // 0xa0 OpcodeRecord(Interpretation::Instruction(Opcode::PUSH), OperandCode::FS), OpcodeRecord(Interpretation::Instruction(Opcode::POP), OperandCode::FS), OpcodeRecord(Interpretation::Instruction(Opcode::CPUID), OperandCode::Nothing), OpcodeRecord(Interpretation::Instruction(Opcode::BT), OperandCode::Ev_Gv), OpcodeRecord(Interpretation::Instruction(Opcode::SHLD), OperandCode::Ev_Gv_Ib), OpcodeRecord(Interpretation::Instruction(Opcode::SHLD), OperandCode::Ev_Gv_CL), OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::Nothing), OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::Nothing), OpcodeRecord(Interpretation::Instruction(Opcode::PUSH), OperandCode::GS), OpcodeRecord(Interpretation::Instruction(Opcode::POP), OperandCode::GS), OpcodeRecord(Interpretation::Instruction(Opcode::RSM), OperandCode::Nothing), OpcodeRecord(Interpretation::Instruction(Opcode::BTS), OperandCode::Ev_Gv), OpcodeRecord(Interpretation::Instruction(Opcode::SHRD), OperandCode::Ev_Gv_Ib), OpcodeRecord(Interpretation::Instruction(Opcode::SHRD), OperandCode::Ev_Gv_CL), OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::ModRM_0x0fae), OpcodeRecord(Interpretation::Instruction(Opcode::IMUL), OperandCode::Gv_Ev), // 0xb0 OpcodeRecord(Interpretation::Instruction(Opcode::CMPXCHG), OperandCode::Eb_Gb), OpcodeRecord(Interpretation::Instruction(Opcode::CMPXCHG), OperandCode::Ev_Gv), OpcodeRecord(Interpretation::Instruction(Opcode::LSS), OperandCode::INV_Gv_M), OpcodeRecord(Interpretation::Instruction(Opcode::BTR), OperandCode::Ev_Gv), OpcodeRecord(Interpretation::Instruction(Opcode::LFS), OperandCode::INV_Gv_M), OpcodeRecord(Interpretation::Instruction(Opcode::LGS), OperandCode::INV_Gv_M), OpcodeRecord(Interpretation::Instruction(Opcode::MOVZX), OperandCode::Gv_Eb), OpcodeRecord(Interpretation::Instruction(Opcode::MOVZX), OperandCode::Gv_Ew), OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::Nothing), // JMPE, ITANIUM OpcodeRecord(Interpretation::Instruction(Opcode::UD1), OperandCode::Gv_Ev), OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::ModRM_0x0fba), OpcodeRecord(Interpretation::Instruction(Opcode::BTC), OperandCode::Ev_Gv), OpcodeRecord(Interpretation::Instruction(Opcode::BSF), OperandCode::Gv_Ev), OpcodeRecord(Interpretation::Instruction(Opcode::BSR), OperandCode::Gv_Ev), OpcodeRecord(Interpretation::Instruction(Opcode::MOVSX), OperandCode::Gv_Eb), OpcodeRecord(Interpretation::Instruction(Opcode::MOVSX), OperandCode::Gv_Ew), // 0xc0 OpcodeRecord(Interpretation::Instruction(Opcode::XADD), OperandCode::Eb_Gb), OpcodeRecord(Interpretation::Instruction(Opcode::XADD), OperandCode::Ev_Gv), OpcodeRecord(Interpretation::Instruction(Opcode::CMPPS), OperandCode::G_E_xmm_Ib), OpcodeRecord(Interpretation::Instruction(Opcode::MOVNTI), OperandCode::Mdq_Gdq), OpcodeRecord(Interpretation::Instruction(Opcode::PINSRW), OperandCode::G_mm_Ew_Ib), OpcodeRecord(Interpretation::Instruction(Opcode::PEXTRW), OperandCode::Rv_Gmm_Ib), OpcodeRecord(Interpretation::Instruction(Opcode::SHUFPS), OperandCode::G_E_xmm_Ib), OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::ModRM_0x0fc7), OpcodeRecord(Interpretation::Instruction(Opcode::BSWAP), OperandCode::Zv_R0), OpcodeRecord(Interpretation::Instruction(Opcode::BSWAP), OperandCode::Zv_R1), OpcodeRecord(Interpretation::Instruction(Opcode::BSWAP), OperandCode::Zv_R2), OpcodeRecord(Interpretation::Instruction(Opcode::BSWAP), OperandCode::Zv_R3), OpcodeRecord(Interpretation::Instruction(Opcode::BSWAP), OperandCode::Zv_R4), OpcodeRecord(Interpretation::Instruction(Opcode::BSWAP), OperandCode::Zv_R5), OpcodeRecord(Interpretation::Instruction(Opcode::BSWAP), OperandCode::Zv_R6), OpcodeRecord(Interpretation::Instruction(Opcode::BSWAP), OperandCode::Zv_R7), // 0xd0 OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::Nothing), OpcodeRecord(Interpretation::Instruction(Opcode::PSRLW), OperandCode::G_E_mm), OpcodeRecord(Interpretation::Instruction(Opcode::PSRLD), OperandCode::G_E_mm), OpcodeRecord(Interpretation::Instruction(Opcode::PSRLQ), OperandCode::G_E_mm), OpcodeRecord(Interpretation::Instruction(Opcode::PADDQ), OperandCode::G_E_mm), OpcodeRecord(Interpretation::Instruction(Opcode::PMULLW), OperandCode::G_E_mm), OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::Nothing), OpcodeRecord(Interpretation::Instruction(Opcode::PMOVMSKB), OperandCode::G_U_mm), OpcodeRecord(Interpretation::Instruction(Opcode::PSUBUSB), OperandCode::G_E_mm), OpcodeRecord(Interpretation::Instruction(Opcode::PSUBUSW), OperandCode::G_E_mm), OpcodeRecord(Interpretation::Instruction(Opcode::PMINUB), OperandCode::G_E_mm), OpcodeRecord(Interpretation::Instruction(Opcode::PAND), OperandCode::G_E_mm), OpcodeRecord(Interpretation::Instruction(Opcode::PADDUSB), OperandCode::G_E_mm), OpcodeRecord(Interpretation::Instruction(Opcode::PADDUSW), OperandCode::G_E_mm), OpcodeRecord(Interpretation::Instruction(Opcode::PMAXUB), OperandCode::G_E_mm), OpcodeRecord(Interpretation::Instruction(Opcode::PANDN), OperandCode::G_E_mm), // 0xe0 OpcodeRecord(Interpretation::Instruction(Opcode::PAVGB), OperandCode::G_E_mm), OpcodeRecord(Interpretation::Instruction(Opcode::PSRAW), OperandCode::G_E_mm), OpcodeRecord(Interpretation::Instruction(Opcode::PSRAD), OperandCode::G_E_mm), OpcodeRecord(Interpretation::Instruction(Opcode::PAVGW), OperandCode::G_E_mm), OpcodeRecord(Interpretation::Instruction(Opcode::PMULHUW), OperandCode::G_E_mm), OpcodeRecord(Interpretation::Instruction(Opcode::PMULHW), OperandCode::G_E_mm), OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::Nothing), OpcodeRecord(Interpretation::Instruction(Opcode::MOVNTQ), OperandCode::G_Mq_mm), OpcodeRecord(Interpretation::Instruction(Opcode::PSUBSB), OperandCode::G_E_mm), OpcodeRecord(Interpretation::Instruction(Opcode::PSUBSW), OperandCode::G_E_mm), OpcodeRecord(Interpretation::Instruction(Opcode::PMINSW), OperandCode::G_E_mm), OpcodeRecord(Interpretation::Instruction(Opcode::POR), OperandCode::G_E_mm), OpcodeRecord(Interpretation::Instruction(Opcode::PADDSB), OperandCode::G_E_mm), OpcodeRecord(Interpretation::Instruction(Opcode::PADDSW), OperandCode::G_E_mm), OpcodeRecord(Interpretation::Instruction(Opcode::PMAXSW), OperandCode::G_E_mm), OpcodeRecord(Interpretation::Instruction(Opcode::PXOR), OperandCode::G_E_mm), // 0xf0 OpcodeRecord(Interpretation::Instruction(Opcode::Invalid), OperandCode::Nothing), OpcodeRecord(Interpretation::Instruction(Opcode::PSLLW), OperandCode::G_E_mm), OpcodeRecord(Interpretation::Instruction(Opcode::PSLLD), OperandCode::G_E_mm), OpcodeRecord(Interpretation::Instruction(Opcode::PSLLQ), OperandCode::G_E_mm), OpcodeRecord(Interpretation::Instruction(Opcode::PMULUDQ), OperandCode::G_E_mm), OpcodeRecord(Interpretation::Instruction(Opcode::PMADDWD), OperandCode::G_E_mm), OpcodeRecord(Interpretation::Instruction(Opcode::PSADBW), OperandCode::G_E_mm), OpcodeRecord(Interpretation::Instruction(Opcode::MASKMOVQ), OperandCode::G_mm_U_mm), OpcodeRecord(Interpretation::Instruction(Opcode::PSUBB), OperandCode::G_E_mm), OpcodeRecord(Interpretation::Instruction(Opcode::PSUBW), OperandCode::G_E_mm), OpcodeRecord(Interpretation::Instruction(Opcode::PSUBD), OperandCode::G_E_mm), OpcodeRecord(Interpretation::Instruction(Opcode::PSUBQ), OperandCode::G_E_mm), OpcodeRecord(Interpretation::Instruction(Opcode::PADDB), OperandCode::G_E_mm), OpcodeRecord(Interpretation::Instruction(Opcode::PADDW), OperandCode::G_E_mm), OpcodeRecord(Interpretation::Instruction(Opcode::PADDD), OperandCode::G_E_mm), OpcodeRecord(Interpretation::Instruction(Opcode::UD0), OperandCode::Gd_Ed), ];