diff options
| author | iximeow <me@iximeow.net> | 2021-12-27 21:32:07 -0800 |
|---|---|---|
| committer | iximeow <me@iximeow.net> | 2021-12-27 21:34:14 -0800 |
| commit | cb833bf3b0d96d18f33e4032a915111cab71200c (patch) | |
| tree | e95ce121b625d2d1aa083cc74bcc4e6638bfc59a | |
| parent | 999eb2ac6950c589e8649651f9b538b85900cf39 (diff) | |
crypto instructions and pac
| -rw-r--r-- | src/armv8/a64.rs | 370 |
1 files changed, 363 insertions, 7 deletions
diff --git a/src/armv8/a64.rs b/src/armv8/a64.rs index a02be49..7c0b3a8 100644 --- a/src/armv8/a64.rs +++ b/src/armv8/a64.rs @@ -1827,6 +1827,84 @@ impl Display for Instruction { Opcode::PRFM => { write!(fmt, "prfm"); } + Opcode::AESE => { + write!(fmt, "aese"); + } + Opcode::AESD => { + write!(fmt, "aesd"); + } + Opcode::AESMC => { + write!(fmt, "aesmc"); + } + Opcode::AESIMC => { + write!(fmt, "aesimc"); + } + Opcode::SHA1H => { + write!(fmt, "sha1h"); + } + Opcode::SHA1SU1 => { + write!(fmt, "sha1su1"); + } + Opcode::SHA256SU0 => { + write!(fmt, "sha256su0"); + } + Opcode::SM3TT1A => { + write!(fmt, "sm3tt1a"); + } + Opcode::SM3TT1B => { + write!(fmt, "sm3tt1b"); + } + Opcode::SM3TT2A => { + write!(fmt, "sm3tt2a"); + } + Opcode::SM3TT2B => { + write!(fmt, "sm3tt2b"); + } + Opcode::SHA512H => { + write!(fmt, "sha512h"); + } + Opcode::SHA512H2 => { + write!(fmt, "sha512h2"); + } + Opcode::SHA512SU1 => { + write!(fmt, "sha512su1"); + } + Opcode::RAX1 => { + write!(fmt, "rax1"); + } + Opcode::SM3PARTW1 => { + write!(fmt, "sm3partw1"); + } + Opcode::SM3PARTW2 => { + write!(fmt, "sm3partw2"); + } + Opcode::SM4EKEY => { + write!(fmt, "sm4ekey"); + } + Opcode::BCAX => { + write!(fmt, "bcax"); + } + Opcode::SM3SSI => { + write!(fmt, "sm3ssi"); + } + Opcode::SHA512SU0 => { + write!(fmt, "sha512su0"); + } + Opcode::SM4E => { + write!(fmt, "sm4e"); + } + Opcode::EOR3 => { + write!(fmt, "eor3"); + } + Opcode::XAR => { + write!(fmt, "xar"); + } + Opcode::LDRAA => { + write!(fmt, "ldraa"); + } + Opcode::LDRAB => { + write!(fmt, "ldrab"); + } }; if self.operands[0] != Operand::Nothing { @@ -2306,6 +2384,36 @@ pub enum Opcode { URSQRTE, PRFM, + + AESE, + AESD, + AESMC, + AESIMC, + + SHA1H, + SHA1SU1, + SHA256SU0, + + SM3TT1A, + SM3TT1B, + SM3TT2A, + SM3TT2B, + SHA512H, + SHA512H2, + SHA512SU1, + RAX1, + SM3PARTW1, + SM3PARTW2, + SM4EKEY, + BCAX, + SM3SSI, + SHA512SU0, + SM4E, + EOR3, + XAR, + + LDRAA, + LDRAB, } #[derive(Copy, Clone, Debug, PartialEq)] @@ -5543,14 +5651,66 @@ impl Decoder<ARMv8> for InstDecoder { return Err(DecodeError::IncompleteDecoder); } else if op2 & 0b0111 == 0b0101 && op0 == 0b0101 { // `Cryptographic two-register SHA` + let Rd = word & 0b11111; + let Rn = (word >> 5) & 0b11111; let opcode = (word >> 12) & 0b11111; let size = (word >> 22) & 0b11; - return Err(DecodeError::IncompleteDecoder); + + if size != 0b00 { + return Err(DecodeError::InvalidOpcode); + } + + let opcode = match opcode { + 0b00000 => Opcode::SHA1H, + 0b00001 => Opcode::SHA1SU1, + 0b00010 => Opcode::SHA256SU0, + _ => { + return Err(DecodeError::InvalidOpcode); + } + }; + inst.opcode = opcode; + if opcode == Opcode::SHA1H { + inst.operands = [ + Operand::SIMDRegister(SIMDSizeCode::S, Rd as u16), + Operand::SIMDRegister(SIMDSizeCode::S, Rn as u16), + Operand::Nothing, + Operand::Nothing, + ]; + } else { + inst.operands = [ + Operand::SIMDRegisterElements(SIMDSizeCode::Q, Rd as u16, SIMDSizeCode::S), + Operand::SIMDRegisterElements(SIMDSizeCode::Q, Rn as u16, SIMDSizeCode::S), + Operand::Nothing, + Operand::Nothing, + ]; + } } else if op2 & 0b0111 == 0b0101 && op0 == 0b0100 { // `Cryptographic AES` + let Rd = word & 0b11111; + let Rn = (word >> 5) & 0b11111; let opcode = (word >> 12) & 0b11111; let size = (word >> 22) & 0b11; - return Err(DecodeError::IncompleteDecoder); + + if size != 0b00 { + return Err(DecodeError::InvalidOpcode); + } + + let opcode = match opcode { + 0b00100 => Opcode::AESE, + 0b00101 => Opcode::AESD, + 0b00110 => Opcode::AESMC, + 0b00111 => Opcode::AESIMC, + _ => { + return Err(DecodeError::InvalidOpcode); + } + }; + inst.opcode = opcode; + inst.operands = [ + Operand::SIMDRegisterElements(SIMDSizeCode::Q, Rd as u16, SIMDSizeCode::B), + Operand::SIMDRegisterElements(SIMDSizeCode::Q, Rn as u16, SIMDSizeCode::B), + Operand::Nothing, + Operand::Nothing, + ]; } else { // unallocated return Err(DecodeError::InvalidOpcode); @@ -5852,9 +6012,181 @@ impl Decoder<ARMv8> for InstDecoder { } } } + } else if op0 == 0b1100 { + let Rd = (word & 0b11111) as u16; + let Rn = ((word >> 5) & 0b11111) as u16; + + if op1 == 0b00 { + if op2 & 0b1100 == 0b1000 { + // `Cryptographic three-register, imm2` + let Rm = ((word >> 16) & 0b11111) as u16; + let opcode = (word >> 10) & 0b11; + let imm2 = (word >> 12) & 0b11; + + inst.opcode = [ + Opcode::SM3TT1A, + Opcode::SM3TT1B, + Opcode::SM3TT2A, + Opcode::SM3TT2B, + ][opcode as usize]; + + inst.operands = [ + Operand::SIMDRegisterElements(SIMDSizeCode::Q, Rd, SIMDSizeCode::S), + Operand::SIMDRegisterElements(SIMDSizeCode::Q, Rn, SIMDSizeCode::S), + Operand::SIMDRegisterElementsLane(SIMDSizeCode::Q, Rn, SIMDSizeCode::S, imm2 as u8), + Operand::Nothing, + ]; + } else if op2 & 0b1100 == 0b1100 { + // `Cryptographic three-register SHA512` + let Rm = ((word >> 16) & 0b11111) as u16; + let opcode = (word >> 10) & 0b11; + let O = (word >> 14) & 0b1; + let Oop = (O << 2) | opcode; + + match Oop { + 0b000 => { + inst.opcode = Opcode::SHA512H; + inst.operands = [ + Operand::SIMDRegister(SIMDSizeCode::Q, Rd), + Operand::SIMDRegister(SIMDSizeCode::Q, Rn), + Operand::SIMDRegisterElements(SIMDSizeCode::Q, Rm, SIMDSizeCode::D), + Operand::Nothing, + ]; + } + 0b001 => { + inst.opcode = Opcode::SHA512H2; + inst.operands = [ + Operand::SIMDRegister(SIMDSizeCode::Q, Rd), + Operand::SIMDRegister(SIMDSizeCode::Q, Rn), + Operand::SIMDRegisterElements(SIMDSizeCode::Q, Rm, SIMDSizeCode::D), + Operand::Nothing, + ]; + } + 0b010 => { + inst.opcode = Opcode::SHA512SU1; + inst.operands = [ + Operand::SIMDRegisterElements(SIMDSizeCode::Q, Rd, SIMDSizeCode::D), + Operand::SIMDRegisterElements(SIMDSizeCode::Q, Rn, SIMDSizeCode::D), + Operand::SIMDRegisterElements(SIMDSizeCode::Q, Rm, SIMDSizeCode::D), + Operand::Nothing, + ]; + } + 0b011 => { + inst.opcode = Opcode::RAX1; + inst.operands = [ + Operand::SIMDRegisterElements(SIMDSizeCode::Q, Rd, SIMDSizeCode::D), + Operand::SIMDRegisterElements(SIMDSizeCode::Q, Rn, SIMDSizeCode::D), + Operand::SIMDRegisterElements(SIMDSizeCode::Q, Rm, SIMDSizeCode::D), + Operand::Nothing, + ]; + } + 0b100 => { + inst.opcode = Opcode::SM3PARTW1; + inst.operands = [ + Operand::SIMDRegisterElements(SIMDSizeCode::Q, Rd, SIMDSizeCode::S), + Operand::SIMDRegisterElements(SIMDSizeCode::Q, Rn, SIMDSizeCode::S), + Operand::SIMDRegisterElements(SIMDSizeCode::Q, Rm, SIMDSizeCode::S), + Operand::Nothing, + ]; + } + 0b101 => { + inst.opcode = Opcode::SM3PARTW2; + inst.operands = [ + Operand::SIMDRegisterElements(SIMDSizeCode::Q, Rd, SIMDSizeCode::S), + Operand::SIMDRegisterElements(SIMDSizeCode::Q, Rn, SIMDSizeCode::S), + Operand::SIMDRegisterElements(SIMDSizeCode::Q, Rm, SIMDSizeCode::S), + Operand::Nothing, + ]; + } + 0b110 => { + inst.opcode = Opcode::SM4EKEY; + inst.operands = [ + Operand::SIMDRegisterElements(SIMDSizeCode::Q, Rd, SIMDSizeCode::S), + Operand::SIMDRegisterElements(SIMDSizeCode::Q, Rn, SIMDSizeCode::S), + Operand::SIMDRegisterElements(SIMDSizeCode::Q, Rm, SIMDSizeCode::S), + Operand::Nothing, + ]; + } + _ => { + return Err(DecodeError::InvalidOpcode); + } + } + } else { + // `Cryptographic four-register` + let Ra = ((word >> 10) & 0b11111) as u16; + let Rm = ((word >> 16) & 0b11111) as u16; + let Op0 = (word >> 21) & 0b11; + + if Op0 == 0b00 { + inst.opcode = Opcode::EOR3; + inst.operands = [ + Operand::SIMDRegisterElements(SIMDSizeCode::Q, Rd, SIMDSizeCode::B), + Operand::SIMDRegisterElements(SIMDSizeCode::Q, Rn, SIMDSizeCode::B), + Operand::SIMDRegisterElements(SIMDSizeCode::Q, Rm, SIMDSizeCode::B), + Operand::SIMDRegisterElements(SIMDSizeCode::Q, Ra, SIMDSizeCode::B), + ]; + } else if Op0 == 0b01 { + inst.opcode = Opcode::BCAX; + inst.operands = [ + Operand::SIMDRegisterElements(SIMDSizeCode::Q, Rd, SIMDSizeCode::B), + Operand::SIMDRegisterElements(SIMDSizeCode::Q, Rn, SIMDSizeCode::B), + Operand::SIMDRegisterElements(SIMDSizeCode::Q, Rm, SIMDSizeCode::B), + Operand::SIMDRegisterElements(SIMDSizeCode::Q, Ra, SIMDSizeCode::B), + ]; + } else if Op0 == 0b10 { + inst.opcode = Opcode::SM3SSI; + inst.operands = [ + Operand::SIMDRegisterElements(SIMDSizeCode::Q, Rd, SIMDSizeCode::S), + Operand::SIMDRegisterElements(SIMDSizeCode::Q, Rn, SIMDSizeCode::S), + Operand::SIMDRegisterElements(SIMDSizeCode::Q, Rm, SIMDSizeCode::S), + Operand::SIMDRegisterElements(SIMDSizeCode::Q, Ra, SIMDSizeCode::S), + ]; + } else { + return Err(DecodeError::InvalidOpcode); + } + } + } else if op1 == 0b01 { + if op2 & 0b1100 == 0b0000 { + let imm6 = ((word >> 10) & 0b111111) as u16; + let Rm = ((word >> 16) & 0b11111) as u16; + + inst.opcode = Opcode::XAR; + inst.operands = [ + Operand::SIMDRegisterElements(SIMDSizeCode::Q, Rd, SIMDSizeCode::D), + Operand::SIMDRegisterElements(SIMDSizeCode::Q, Rn, SIMDSizeCode::D), + Operand::SIMDRegisterElements(SIMDSizeCode::Q, Rm, SIMDSizeCode::D), + Operand::Imm16(imm6 as u16), + ]; + // `XAR` + } else { + // `Cryptographic two-register sha512` + let opcode = (word >> 10) & 0b11; + if opcode == 0b00 { + inst.opcode = Opcode::SHA512SU0; + inst.operands = [ + Operand::SIMDRegisterElements(SIMDSizeCode::Q, Rd, SIMDSizeCode::D), + Operand::SIMDRegisterElements(SIMDSizeCode::Q, Rn, SIMDSizeCode::D), + Operand::Nothing, + Operand::Nothing, + ]; + } else if opcode == 0b01 { + inst.opcode = Opcode::SM4E; + inst.operands = [ + Operand::SIMDRegisterElements(SIMDSizeCode::Q, Rd, SIMDSizeCode::S), + Operand::SIMDRegisterElements(SIMDSizeCode::Q, Rn, SIMDSizeCode::S), + Operand::Nothing, + Operand::Nothing, + ]; + } else { + return Err(DecodeError::InvalidOpcode); + } + } + } else { + return Err(DecodeError::InvalidOpcode); + } } else { - // op0 != 0xx0, op0 != x0x1 - return Err(DecodeError::IncompleteDecoder); + // rest of this space is unallocated + return Err(DecodeError::InvalidOpcode); } } Section::Unallocated => { @@ -7410,14 +7742,38 @@ impl Decoder<ARMv8> for InstDecoder { match category { 0b00 => { // Atomic memory operations - // V==1 + // V==0 return Err(DecodeError::IncompleteDecoder); } 0b01 | 0b11 => { // Load/store register (pac) - // V==1 - return Err(DecodeError::IncompleteDecoder); + // V==0 + let w = (word >> 11) & 1; + let imm9 = ((word >> 12) & 0b1_1111_1111) as i16; + let imm9 = (imm9 << 7) >> 7; + let m = (word >> 23) & 1; + let size = (word >> 30) & 0b11; + if size != 0b11 { + return Err(DecodeError::InvalidOpcode); + } + + if m == 0 { + inst.opcode = Opcode::LDRAA; + } else { + inst.opcode = Opcode::LDRAB; + } + + inst.operands = [ + Operand::Register(SizeCode::X, Rt), + if w == 0 { + Operand::RegOffset(Rn, imm9) + } else { + Operand::RegPreIndex(Rn, imm9 as i32, true) + }, + Operand::Nothing, + Operand::Nothing, + ]; } 0b10 => { // Load/store register (register offset) |