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-rw-r--r--src/armv8/a64.rs1201
-rw-r--r--test/armv8/a64.rs268
2 files changed, 1184 insertions, 285 deletions
diff --git a/src/armv8/a64.rs b/src/armv8/a64.rs
index 3aaca8e..16709c2 100644
--- a/src/armv8/a64.rs
+++ b/src/armv8/a64.rs
@@ -281,6 +281,13 @@ impl Display for Instruction {
return write!(fmt, "isb");
}
}
+ Opcode::SBC => {
+ if let Operand::Register(_, 31) = self.operands[1] {
+ return write!(fmt, "ngc {}, {}", self.operands[0], self.operands[2]);
+ } else {
+ write!(fmt, "sbc")?;
+ }
+ }
Opcode::MOVN => {
let imm = if let Operand::ImmShift(imm, shift) = self.operands[1] {
!((imm as u64) << shift)
@@ -319,8 +326,10 @@ impl Display for Instruction {
if let Operand::Register(_, 31) = self.operands[1] {
if let Operand::Immediate(0) = self.operands[2] {
return write!(fmt, "mov {}, {}", self.operands[0], self.operands[1]);
- } else if let Operand::RegShift(ShiftStyle::LSL, 0, size, r) = self.operands[2] {
- return write!(fmt, "mov {}, {}", self.operands[0], Operand::Register(size, r));
+ } else if let Operand::RegShift(style, amt, size, r) = self.operands[2] {
+ if style == ShiftStyle::LSL && amt == 0 {
+ return write!(fmt, "mov {}, {}", self.operands[0], Operand::Register(size, r));
+ }
} else {
return write!(fmt, "mov {}, {}", self.operands[0], self.operands[2]);
}
@@ -341,6 +350,11 @@ impl Display for Instruction {
}
write!(fmt, "ands")?;
},
+ Opcode::NOT => {
+ // `This instruction is used by the alias MVN. The alias is always the preferred
+ // disassembly.`
+ write!(fmt, "mvn")?;
+ },
Opcode::ADDS => {
if let Operand::Register(_, 31) = self.operands[0] {
return write!(fmt, "cmn {}, {}", self.operands[1], self.operands[2]);
@@ -351,13 +365,13 @@ impl Display for Instruction {
},
Opcode::ADD => {
if let Operand::Immediate(0) = self.operands[2] {
- if let Operand::Register(_, 31) = self.operands[0] {
- return write!(fmt, "mov {}, {}", self.operands[0], self.operands[1]);
- } else if let Operand::RegisterOrSP(_, 31) = self.operands[0] {
+ if let Operand::RegisterOrSP(_, 31) = self.operands[0] {
return write!(fmt, "mov {}, {}", self.operands[0], self.operands[1]);
} else if let Operand::RegisterOrSP(_, 31) = self.operands[1] {
return write!(fmt, "mov {}, {}", self.operands[0], self.operands[1]);
}
+ } else if let Operand::Register(_, 31) = self.operands[1] {
+ return write!(fmt, "mov {}, {}", self.operands[0], self.operands[2]);
} else if let Operand::RegShift(ShiftStyle::LSL, 0, size, reg) = self.operands[2] {
return write!(fmt, "add {}, {}, {}", self.operands[0], self.operands[1], Operand::Register(size, reg));
}
@@ -381,6 +395,12 @@ impl Display for Instruction {
}
write!(fmt, "sub")?;
},
+ Opcode::SBCS => {
+ if let Operand::Register(_, 31) = self.operands[1] {
+ return write!(fmt, "ngcs {}, {}", self.operands[0], self.operands[2])
+ }
+ write!(fmt, "sbcs")?;
+ },
Opcode::UBFM => {
if let Operand::Immediate(0) = self.operands[2] {
let newdest = if let Operand::Register(_size, destnum) = self.operands[0] {
@@ -422,10 +442,10 @@ impl Display for Instruction {
unreachable!("operand 3 is a register");
};
if imms + 1 == immr {
- return write!(fmt, "lsl {}, {}, {:#x}", self.operands[0], self.operands[1], size - imms - 1);
+ return write!(fmt, "lsl {}, {}, #{:#x}", self.operands[0], self.operands[1], size - imms - 1);
}
if imms < immr {
- return write!(fmt, "ubfiz {}, {}, {:#x}, {:#x}",
+ return write!(fmt, "ubfiz {}, {}, #{:#x}, #{:#x}",
self.operands[0],
self.operands[1],
size - immr,
@@ -444,6 +464,30 @@ impl Display for Instruction {
};
return write!(fmt, "ubfx {}, {}, {}, {}", self.operands[0], self.operands[1], self.operands[2], width);
},
+ Opcode::BFM => {
+ if let (Operand::Immediate(immr), Operand::Immediate(imms)) = (self.operands[2], self.operands[3]) {
+ if imms < immr {
+ if let Operand::Register(sz, rn) = self.operands[1] {
+ let width = imms + 1;
+ let lsb = if sz == SizeCode::W {
+ ((-(immr as i8)) as u8) & 0x1f
+ } else {
+ ((-(immr as i8)) as u8) & 0x3f
+ };
+ if rn == 31 {
+ return write!(fmt, "bfc {}, #{:#x}, #{:#x}", self.operands[0], lsb, width);
+ } else {
+ return write!(fmt, "bfi {}, {}, #{:#x}, #{:#x}", self.operands[0], self.operands[1], lsb, width);
+ }
+ }
+ } else {
+ // bfxil
+ let lsb = immr;
+ let width = imms + 1 - lsb;
+ return write!(fmt, "bfxil {}, {}, #{:#x}, #{:#x}", self.operands[0], self.operands[1], lsb, width);
+ }
+ }
+ }
Opcode::SBFM => {
if let Operand::Immediate(63) = self.operands[3] {
if let Operand::Register(SizeCode::X, _) = self.operands[0] {
@@ -480,7 +524,7 @@ impl Display for Instruction {
} else {
unreachable!("operand 0 is always a register");
};
- return write!(fmt, "sbfiz {}, {}, {:#x}, {:#x}",
+ return write!(fmt, "sbfiz {}, {}, #{:#x}, #{:#x}",
self.operands[0],
self.operands[1],
size - imms,
@@ -544,7 +588,7 @@ impl Display for Instruction {
}
Opcode::CSNEG => {
if let (Operand::Register(_size, rn), Operand::Register(_, rm), Operand::ConditionCode(cond)) = (self.operands[1], self.operands[2], self.operands[3]) {
- if rn == rm {
+ if cond < 0b1110 && rn == rm {
return write!(fmt, "cneg {}, {}, {}", self.operands[0], self.operands[2], Operand::ConditionCode(cond ^ 0x01));
}
} else {
@@ -572,7 +616,7 @@ impl Display for Instruction {
(Operand::Register(_, n), Operand::Register(_, m), Operand::ConditionCode(cond)) => {
if n == m && n != 31 && cond < 0b1110 {
return write!(fmt, "cinv {}, {}, {}", self.operands[0], self.operands[1], Operand::ConditionCode(cond ^ 0x01))
- } else if n == m && n == 31 {
+ } else if n == m && n == 31 && cond < 0b1110 {
return write!(fmt, "csetm {}, {}", self.operands[0], Operand::ConditionCode(cond ^ 0x01));
}
}
@@ -649,7 +693,7 @@ impl Display for Instruction {
// `dup (element)`
// manual says `mov` is the preferred disassembly here? but capstone uses
// `dup`.
- write!(fmt, "dup")?;
+ write!(fmt, "mov")?;
}
}
Opcode::UMOV => {
@@ -662,6 +706,318 @@ impl Display for Instruction {
}
}
}
+ Opcode::LDADD(ar) => {
+ if let Operand::Register(_, rt) = self.operands[1] {
+ if rt == 31 && ar & 0b10 == 0b00 {
+ let inst = if ar & 0b01 == 0b00 {
+ "stadd"
+ } else {
+ "staddl"
+ };
+ return write!(fmt, "{} {}, {}", inst, self.operands[0], self.operands[2]);
+ }
+ }
+ write!(fmt, "{}", self.opcode)?;
+ }
+ Opcode::LDCLR(ar) => {
+ if let Operand::Register(_, rt) = self.operands[1] {
+ if rt == 31 && ar & 0b10 == 0b00 {
+ let inst = if ar & 0b01 == 0b00 {
+ "stclr"
+ } else {
+ "stclrl"
+ };
+ return write!(fmt, "{} {}, {}", inst, self.operands[0], self.operands[2]);
+ }
+ }
+ write!(fmt, "{}", self.opcode)?;
+ }
+ Opcode::LDSET(ar) => {
+ if let Operand::Register(_, rt) = self.operands[1] {
+ if rt == 31 && ar & 0b10 == 0b00 {
+ let inst = if ar & 0b01 == 0b00 {
+ "stset"
+ } else {
+ "stsetl"
+ };
+ return write!(fmt, "{} {}, {}", inst, self.operands[0], self.operands[2]);
+ }
+ }
+ write!(fmt, "{}", self.opcode)?;
+ }
+ Opcode::LDSMAX(ar) => {
+ if let Operand::Register(_, rt) = self.operands[1] {
+ if rt == 31 && ar & 0b10 == 0b00 {
+ let inst = if ar & 0b01 == 0b00 {
+ "stsmax"
+ } else {
+ "stsmaxl"
+ };
+ return write!(fmt, "{} {}, {}", inst, self.operands[0], self.operands[2]);
+ }
+ }
+ write!(fmt, "{}", self.opcode)?;
+ }
+ Opcode::LDSMIN(ar) => {
+ if let Operand::Register(_, rt) = self.operands[1] {
+ if rt == 31 && ar & 0b10 == 0b00 {
+ let inst = if ar & 0b01 == 0b00 {
+ "stsmin"
+ } else {
+ "stsminl"
+ };
+ return write!(fmt, "{} {}, {}", inst, self.operands[0], self.operands[2]);
+ }
+ }
+ write!(fmt, "{}", self.opcode)?;
+ }
+ Opcode::LDUMAX(ar) => {
+ if let Operand::Register(_, rt) = self.operands[1] {
+ if rt == 31 && ar & 0b10 == 0b00 {
+ let inst = if ar & 0b01 == 0b00 {
+ "stumax"
+ } else {
+ "stumaxl"
+ };
+ return write!(fmt, "{} {}, {}", inst, self.operands[0], self.operands[2]);
+ }
+ }
+ write!(fmt, "{}", self.opcode)?;
+ }
+ Opcode::LDUMIN(ar) => {
+ if let Operand::Register(_, rt) = self.operands[1] {
+ if rt == 31 && ar & 0b10 == 0b00 {
+ let inst = if ar & 0b01 == 0b00 {
+ "stumin"
+ } else {
+ "stuminl"
+ };
+ return write!(fmt, "{} {}, {}", inst, self.operands[0], self.operands[2]);
+ }
+ }
+ write!(fmt, "{}", self.opcode)?;
+ }
+ Opcode::LDEOR(ar) => {
+ if let Operand::Register(_, rt) = self.operands[1] {
+ if rt == 31 && ar & 0b10 == 0b00 {
+ let inst = if ar & 0b01 == 0b00 {
+ "steor"
+ } else {
+ "steorl"
+ };
+ return write!(fmt, "{} {}, {}", inst, self.operands[0], self.operands[2]);
+ }
+ }
+ write!(fmt, "{}", self.opcode)?;
+ }
+ Opcode::LDADDH(ar) => {
+ if let Operand::Register(_, rt) = self.operands[1] {
+ if rt == 31 && ar & 0b10 == 0b00 {
+ let inst = if ar & 0b01 == 0b00 {
+ "staddh"
+ } else {
+ "staddlh"
+ };
+ return write!(fmt, "{} {}, {}", inst, self.operands[0], self.operands[2]);
+ }
+ }
+ write!(fmt, "{}", self.opcode)?;
+ }
+ Opcode::LDCLRH(ar) => {
+ if let Operand::Register(_, rt) = self.operands[1] {
+ if rt == 31 && ar & 0b10 == 0b00 {
+ let inst = if ar & 0b01 == 0b00 {
+ "stclrh"
+ } else {
+ "stclrlh"
+ };
+ return write!(fmt, "{} {}, {}", inst, self.operands[0], self.operands[2]);
+ }
+ }
+ write!(fmt, "{}", self.opcode)?;
+ }
+ Opcode::LDSETH(ar) => {
+ if let Operand::Register(_, rt) = self.operands[1] {
+ if rt == 31 && ar & 0b10 == 0b00 {
+ let inst = if ar & 0b01 == 0b00 {
+ "stseth"
+ } else {
+ "stsetlh"
+ };
+ return write!(fmt, "{} {}, {}", inst, self.operands[0], self.operands[2]);
+ }
+ }
+ write!(fmt, "{}", self.opcode)?;
+ }
+ Opcode::LDSMAXH(ar) => {
+ if let Operand::Register(_, rt) = self.operands[1] {
+ if rt == 31 && ar & 0b10 == 0b00 {
+ let inst = if ar & 0b01 == 0b00 {
+ "stsmaxh"
+ } else {
+ "stsmaxlh"
+ };
+ return write!(fmt, "{} {}, {}", inst, self.operands[0], self.operands[2]);
+ }
+ }
+ write!(fmt, "{}", self.opcode)?;
+ }
+ Opcode::LDSMINH(ar) => {
+ if let Operand::Register(_, rt) = self.operands[1] {
+ if rt == 31 && ar & 0b10 == 0b00 {
+ let inst = if ar & 0b01 == 0b00 {
+ "stsminh"
+ } else {
+ "stsminlh"
+ };
+ return write!(fmt, "{} {}, {}", inst, self.operands[0], self.operands[2]);
+ }
+ }
+ write!(fmt, "{}", self.opcode)?;
+ }
+ Opcode::LDUMAXH(ar) => {
+ if let Operand::Register(_, rt) = self.operands[1] {
+ if rt == 31 && ar & 0b10 == 0b00 {
+ let inst = if ar & 0b01 == 0b00 {
+ "stumaxh"
+ } else {
+ "stumaxlh"
+ };
+ return write!(fmt, "{} {}, {}", inst, self.operands[0], self.operands[2]);
+ }
+ }
+ write!(fmt, "{}", self.opcode)?;
+ }
+ Opcode::LDUMINH(ar) => {
+ if let Operand::Register(_, rt) = self.operands[1] {
+ if rt == 31 && ar & 0b10 == 0b00 {
+ let inst = if ar & 0b01 == 0b00 {
+ "stuminh"
+ } else {
+ "stuminlh"
+ };
+ return write!(fmt, "{} {}, {}", inst, self.operands[0], self.operands[2]);
+ }
+ }
+ write!(fmt, "{}", self.opcode)?;
+ }
+ Opcode::LDEORH(ar) => {
+ if let Operand::Register(_, rt) = self.operands[1] {
+ if rt == 31 && ar & 0b10 == 0b00 {
+ let inst = if ar & 0b01 == 0b00 {
+ "steorh"
+ } else {
+ "steorlh"
+ };
+ return write!(fmt, "{} {}, {}", inst, self.operands[0], self.operands[2]);
+ }
+ }
+ write!(fmt, "{}", self.opcode)?;
+ }
+ Opcode::LDADDB(ar) => {
+ if let Operand::Register(_, rt) = self.operands[1] {
+ if rt == 31 && ar & 0b10 == 0b00 {
+ let inst = if ar & 0b01 == 0b00 {
+ "staddb"
+ } else {
+ "staddlb"
+ };
+ return write!(fmt, "{} {}, {}", inst, self.operands[0], self.operands[2]);
+ }
+ }
+ write!(fmt, "{}", self.opcode)?;
+ }
+ Opcode::LDCLRB(ar) => {
+ if let Operand::Register(_, rt) = self.operands[1] {
+ if rt == 31 && ar & 0b10 == 0b00 {
+ let inst = if ar & 0b01 == 0b00 {
+ "stclrb"
+ } else {
+ "stclrlb"
+ };
+ return write!(fmt, "{} {}, {}", inst, self.operands[0], self.operands[2]);
+ }
+ }
+ write!(fmt, "{}", self.opcode)?;
+ }
+ Opcode::LDSETB(ar) => {
+ if let Operand::Register(_, rt) = self.operands[1] {
+ if rt == 31 && ar & 0b10 == 0b00 {
+ let inst = if ar & 0b01 == 0b00 {
+ "stsetb"
+ } else {
+ "stsetlb"
+ };
+ return write!(fmt, "{} {}, {}", inst, self.operands[0], self.operands[2]);
+ }
+ }
+ write!(fmt, "{}", self.opcode)?;
+ }
+ Opcode::LDSMAXB(ar) => {
+ if let Operand::Register(_, rt) = self.operands[1] {
+ if rt == 31 && ar & 0b10 == 0b00 {
+ let inst = if ar & 0b01 == 0b00 {
+ "stsmaxb"
+ } else {
+ "stsmaxlb"
+ };
+ return write!(fmt, "{} {}, {}", inst, self.operands[0], self.operands[2]);
+ }
+ }
+ write!(fmt, "{}", self.opcode)?;
+ }
+ Opcode::LDSMINB(ar) => {
+ if let Operand::Register(_, rt) = self.operands[1] {
+ if rt == 31 && ar & 0b10 == 0b00 {
+ let inst = if ar & 0b01 == 0b00 {
+ "stsminb"
+ } else {
+ "stsminlb"
+ };
+ return write!(fmt, "{} {}, {}", inst, self.operands[0], self.operands[2]);
+ }
+ }
+ write!(fmt, "{}", self.opcode)?;
+ }
+ Opcode::LDUMAXB(ar) => {
+ if let Operand::Register(_, rt) = self.operands[1] {
+ if rt == 31 && ar & 0b10 == 0b00 {
+ let inst = if ar & 0b01 == 0b00 {
+ "stumaxb"
+ } else {
+ "stumaxlb"
+ };
+ return write!(fmt, "{} {}, {}", inst, self.operands[0], self.operands[2]);
+ }
+ }
+ write!(fmt, "{}", self.opcode)?;
+ }
+ Opcode::LDUMINB(ar) => {
+ if let Operand::Register(_, rt) = self.operands[1] {
+ if rt == 31 && ar & 0b10 == 0b00 {
+ let inst = if ar & 0b01 == 0b00 {
+ "stuminb"
+ } else {
+ "stuminlb"
+ };
+ return write!(fmt, "{} {}, {}", inst, self.operands[0], self.operands[2]);
+ }
+ }
+ write!(fmt, "{}", self.opcode)?;
+ }
+ Opcode::LDEORB(ar) => {
+ if let Operand::Register(_, rt) = self.operands[1] {
+ if rt == 31 && ar & 0b10 == 0b00 {
+ let inst = if ar & 0b01 == 0b00 {
+ "steorb"
+ } else {
+ "steorlb"
+ };
+ return write!(fmt, "{} {}, {}", inst, self.operands[0], self.operands[2]);
+ }
+ }
+ write!(fmt, "{}", self.opcode)?;
+ }
other => { write!(fmt, "{}", other)?; }
};
@@ -958,9 +1314,7 @@ pub enum Opcode {
UMLAL2,
MLA,
SDOT,
- SQRDMULH2,
SQDMULH,
- SQDMULH2,
SQDMULL,
SQDMULL2,
SMULL,
@@ -1094,8 +1448,11 @@ pub enum Opcode {
CMLT,
ABS,
XTN,
+ XTN2,
SQXTN,
+ SQXTN2,
FCVTN,
+ FCVTN2,
FCMGT,
FCVTL,
FCVTL2,
@@ -1113,9 +1470,13 @@ pub enum Opcode {
CMLE,
NEG,
SQXTUN,
+ SQXTUN2,
SHLL,
+ SHLL2,
UQXTN,
+ UQXTN2,
FCVTXN,
+ FCVTXN2,
FCVTNU,
FCVTMU,
FCVTAU,
@@ -1136,7 +1497,6 @@ pub enum Opcode {
SQSHRN2,
SQRSHRN2,
SQSHRUN2,
- SQRSHRUN2,
UQSHRN2,
UQRSHRN2,
@@ -1204,7 +1564,9 @@ pub enum Opcode {
LDRAA,
LDRAB,
- LDAPRH(u8),
+ LDAPR,
+ LDAPRH,
+ LDAPRB,
SWP(u8),
SWPB(u8),
SWPH(u8),
@@ -1261,6 +1623,26 @@ pub enum Opcode {
STLUR,
STLURB,
STLURH,
+
+ SETF8,
+ SETF16,
+ RMIF,
+
+ NOT,
+
+ RSHRN2,
+ SQRSHRUN2,
+ USHLL2,
+
+ SHA1C,
+ SHA1P,
+ SHA1M,
+ SHA1SU0,
+ SHA256H,
+ SHA256H2,
+ SHA256SU1,
+
+ SHRN2,
}
impl Display for Opcode {
@@ -1444,9 +1826,7 @@ impl Display for Opcode {
Opcode::UMLAL2 => "umlal2",
Opcode::MLA => "mla",
Opcode::SDOT => "sdot",
- Opcode::SQRDMULH2 => "sqrdmulh2",
Opcode::SQDMULH => "sqdmulh",
- Opcode::SQDMULH2 => "sqdmulh2",
Opcode::SQDMULL => "sqdmull",
Opcode::SQDMULL2 => "sqdmull2",
Opcode::SMULL => "smull",
@@ -1469,6 +1849,7 @@ impl Display for Opcode {
Opcode::SHL => "shl",
Opcode::SQSHL => "sqshl",
Opcode::SHRN => "shrn",
+ Opcode::SHRN2 => "shrn2",
Opcode::RSHRN => "rshrn",
Opcode::SQSHRN => "sqshrn",
Opcode::SQRSHRN => "sqrshrn",
@@ -1488,6 +1869,10 @@ impl Display for Opcode {
Opcode::UQRSHRN => "uqrshrn",
Opcode::MOVI => "movi",
Opcode::MVNI => "mvni",
+ Opcode::NOT => "not",
+ Opcode::RSHRN2 => "rshrn2",
+ Opcode::SQRSHRUN2 => "sqrshrun2",
+ Opcode::USHLL2 => "ushll2",
Opcode::SHADD => "shadd",
Opcode::SQADD => "sqadd",
Opcode::SRHADD => "srhadd",
@@ -1579,8 +1964,11 @@ impl Display for Opcode {
Opcode::CMLT => "cmlt",
Opcode::ABS => "abs",
Opcode::XTN => "xtn",
+ Opcode::XTN2 => "xtn2",
Opcode::SQXTN => "sqxtn",
+ Opcode::SQXTN2 => "sqxtn2",
Opcode::FCVTN => "fcvtn",
+ Opcode::FCVTN2 => "fcvtn2",
Opcode::FCMGT => "fcmgt",
Opcode::FCVTL => "fcvtl",
Opcode::FCVTL2 => "fcvtl2",
@@ -1597,9 +1985,13 @@ impl Display for Opcode {
Opcode::CMLE => "cmle",
Opcode::NEG => "neg",
Opcode::SQXTUN => "sqxtun",
+ Opcode::SQXTUN2 => "sqxtun2",
Opcode::SHLL => "shll",
+ Opcode::SHLL2 => "shll2",
Opcode::UQXTN => "uqxtn",
+ Opcode::UQXTN2 => "uqxtn2",
Opcode::FCVTXN => "fcvtxn",
+ Opcode::FCVTXN2 => "fcvtxn2",
Opcode::FCVTNU => "fcvtnu",
Opcode::FCVTMU => "fcvtmu",
Opcode::FCVTAU => "fcvtau",
@@ -1615,7 +2007,6 @@ impl Display for Opcode {
Opcode::SQSHRN2 => "sqshrn2",
Opcode::SQRSHRN2 => "sqrshrn2",
Opcode::SQSHRUN2 => "sqshrun2",
- Opcode::SQRSHRUN2 => "sqrshrun2",
Opcode::UQSHRN2 => "uqshrn2",
Opcode::UQRSHRN2 => "uqrshrn2",
Opcode::FMLS => "fmls",
@@ -1671,26 +2062,18 @@ impl Display for Opcode {
Opcode::XAR => "xar",
Opcode::LDRAA => "ldraa",
Opcode::LDRAB => "ldrab",
- Opcode::LDAPRH(ar) => {
- if ar == 0 {
- "ldaprh"
- } else if ar == 0b01 {
- "ldaprlh"
- } else if ar == 0b10 {
- "ldaprah"
- } else {
- "ldapralh"
- }
- }
+ Opcode::LDAPR => "ldapr",
+ Opcode::LDAPRH => "ldaprh",
+ Opcode::LDAPRB => "ldaprb",
Opcode::SWP(ar) => {
if ar == 0 {
"swp"
} else if ar == 0b01 {
- "swlp"
+ "swpl"
} else if ar == 0b10 {
- "swap"
+ "swpa"
} else {
- "swalp"
+ "swpal"
}
}
Opcode::SWPB(ar) => {
@@ -2040,6 +2423,18 @@ impl Display for Opcode {
Opcode::STLURB => "stlurb",
Opcode::STLURH => "stlurh",
+ Opcode::SETF8 => "setf8",
+ Opcode::SETF16 => "setf16",
+ Opcode::RMIF => "rmif",
+
+ Opcode::SHA1C => "sha1c",
+ Opcode::SHA1P => "sha1p",
+ Opcode::SHA1M => "sha1m",
+ Opcode::SHA1SU0 => "sha1su0",
+ Opcode::SHA256H => "sha256h",
+ Opcode::SHA256H2 => "sha256h2",
+ Opcode::SHA256SU1 => "sha256su1",
+
Opcode::Bcc(cond) => {
return write!(fmt, "b.{}", Operand::ConditionCode(cond));
},
@@ -2182,6 +2577,7 @@ pub enum Operand {
SIMDRegister(SIMDSizeCode, u16),
SIMDRegisterElements(SIMDSizeCode, u16, SIMDSizeCode),
SIMDRegisterElementsLane(SIMDSizeCode, u16, SIMDSizeCode, u8),
+ SIMDRegisterElementsMultipleLane(SIMDSizeCode, u16, SIMDSizeCode, u8, u8),
SIMDRegisterGroup(SIMDSizeCode, u16, SIMDSizeCode, u8),
SIMDRegisterGroupLane(u16, SIMDSizeCode, u8, u8),
RegisterOrSP(SizeCode, u16),
@@ -2355,7 +2751,7 @@ impl Display for Operand {
0b1001 => { write!(fmt, "ls") }
0b1011 => { write!(fmt, "lt") }
0b1101 => { write!(fmt, "le") }
- 0b1111 => { write!(fmt, "al") }
+ 0b1111 => { write!(fmt, "nv") } // `The Condition code NV exists only to provide a valid disassembly of the 0b1111 encoding, otherwise its behavior is identical to AL`.
_ => { unreachable!(); }
}
}
@@ -2430,46 +2826,38 @@ impl Display for Operand {
Operand::RegOffset(reg, offset) => {
if *offset != 0 {
if *offset < 0 {
- write!(fmt, "[{}, -{:#x}]", Operand::RegisterOrSP(SizeCode::X, *reg), -*offset)
+ write!(fmt, "[{}, #-{:#x}]", Operand::RegisterOrSP(SizeCode::X, *reg), -*offset)
} else {
- write!(fmt, "[{}, {:#x}]", Operand::RegisterOrSP(SizeCode::X, *reg), offset)
+ write!(fmt, "[{}, #{:#x}]", Operand::RegisterOrSP(SizeCode::X, *reg), offset)
}
} else {
write!(fmt, "[{}]", Operand::RegisterOrSP(SizeCode::X, *reg))
}
}
Operand::RegRegOffset(reg, index_reg, index_size, extend, amount) => {
- if *extend == ShiftStyle::LSL && *amount == 0 {
- write!(fmt, "[{}, {}]", Operand::RegisterOrSP(SizeCode::X, *reg), Operand::RegisterOrSP(*index_size, *index_reg))
- } else {
- write!(fmt, "[{}, {}, {} {}]", Operand::RegisterOrSP(SizeCode::X, *reg), Operand::RegisterOrSP(*index_size, *index_reg), extend, amount)
- }
+ write!(fmt, "[{}, {}, {} #{:#x}]", Operand::RegisterOrSP(SizeCode::X, *reg), Operand::Register(*index_size, *index_reg), extend, amount)
}
- Operand::RegPreIndex(reg, offset, wback) => {
- let wback = if *wback {
+ Operand::RegPreIndex(reg, offset, wback_bit) => {
+ let wback = if *wback_bit {
"!"
} else {
""
};
- if *offset != 0 {
+ if *offset != 0 || *wback_bit {
if *offset < 0 {
- write!(fmt, "[{}, -{:#x}]{}", Operand::RegisterOrSP(SizeCode::X, *reg), -*offset, wback)
+ write!(fmt, "[{}, #-{:#x}]{}", Operand::RegisterOrSP(SizeCode::X, *reg), -*offset, wback)
} else {
- write!(fmt, "[{}, {:#x}]{}", Operand::RegisterOrSP(SizeCode::X, *reg), offset, wback)
+ write!(fmt, "[{}, #{:#x}]{}", Operand::RegisterOrSP(SizeCode::X, *reg), offset, wback)
}
} else {
- write!(fmt, "[{}]{}", Operand::RegisterOrSP(SizeCode::X, *reg), wback)
+ write!(fmt, "[{}]", Operand::RegisterOrSP(SizeCode::X, *reg))
}
}
Operand::RegPostIndex(reg, offset) => {
- if *offset != 0 {
- if *offset < 0 {
- write!(fmt, "[{}], #-{}", Operand::RegisterOrSP(SizeCode::X, *reg), -*offset)
- } else {
- write!(fmt, "[{}], #{}", Operand::RegisterOrSP(SizeCode::X, *reg), offset)
- }
+ if *offset < 0 {
+ write!(fmt, "[{}], #-{:#x}", Operand::RegisterOrSP(SizeCode::X, *reg), -*offset)
} else {
- write!(fmt, "[{}]", Operand::RegisterOrSP(SizeCode::X, *reg))
+ write!(fmt, "[{}], #{:#x}", Operand::RegisterOrSP(SizeCode::X, *reg), offset)
}
}
Operand::RegPostIndexReg(reg, offset_reg) => {
@@ -2578,62 +2966,113 @@ impl Decoder<ARMv8> for InstDecoder {
return Err(DecodeError::InvalidOperand);
}
- let (T, shift) = if immh > 0b0111 {
- (SIMDSizeCode::D, ((immh << 3) | immb) & 0b0111_111)
- } else if immh > 0b0011 {
- (SIMDSizeCode::S, ((immh << 3) | immb) & 0b0011_111)
- } else if immh > 0b0001 {
- (SIMDSizeCode::H, ((immh << 3) | immb) & 0b0101_111)
- } else {
- (SIMDSizeCode::B, ((immh << 3) | immb) & 0b0000_111)
- };
let datasize = if Q == 1 { SIMDSizeCode::Q } else { SIMDSizeCode::D };
- const OPCODES: &[Result<Opcode, DecodeError>] = &[
- Ok(Opcode::SSHR), Err(DecodeError::InvalidOpcode),
- Ok(Opcode::SSRA), Err(DecodeError::InvalidOpcode),
- Ok(Opcode::SRSHR), Err(DecodeError::InvalidOpcode),
- Ok(Opcode::SRSRA), Err(DecodeError::InvalidOpcode),
+ // is shift encoded as `N - imm` or `imm - N`?
+ const OPCODES: &[Result<(Opcode, bool), DecodeError>] = &[
+ Ok((Opcode::SSHR, true)), Err(DecodeError::InvalidOpcode),
+ Ok((Opcode::SSRA, true)), Err(DecodeError::InvalidOpcode),
+ Ok((Opcode::SRSHR, true)), Err(DecodeError::InvalidOpcode),
+ Ok((Opcode::SRSRA, true)), Err(DecodeError::InvalidOpcode),
// 0b01000
- Err(DecodeError::InvalidOpcode), Err(DecodeError::InvalidOpcode),
- Ok(Opcode::SHL), Err(DecodeError::InvalidOpcode),
- Err(DecodeError::InvalidOpcode), Err(DecodeError::InvalidOpcode),
- Ok(Opcode::SQSHL), Err(DecodeError::InvalidOpcode),
+ Err(DecodeError::InvalidOpcode), Err(DecodeError::InvalidOpcode),
+ Ok((Opcode::SHL, false)), Err(DecodeError::InvalidOpcode),
+ Err(DecodeError::InvalidOpcode), Err(DecodeError::InvalidOpcode),
+ Ok((Opcode::SQSHL, false)), Err(DecodeError::InvalidOpcode),
// 0b10000
- Ok(Opcode::SHRN), Ok(Opcode::RSHRN),
- Ok(Opcode::SQSHRN), Ok(Opcode::SQRSHRN),
- Ok(Opcode::SSHLL), Err(DecodeError::InvalidOpcode),
- Err(DecodeError::InvalidOpcode), Err(DecodeError::InvalidOpcode),
+ Ok((Opcode::SHRN, true)), Ok((Opcode::RSHRN, true)),
+ Ok((Opcode::SQSHRN, true)), Ok((Opcode::SQRSHRN, true)),
+ Ok((Opcode::SSHLL, false)), Err(DecodeError::InvalidOpcode),
+ Err(DecodeError::InvalidOpcode), Err(DecodeError::InvalidOpcode),
// 0b11000
- Err(DecodeError::InvalidOpcode), Err(DecodeError::InvalidOpcode),
- Err(DecodeError::InvalidOpcode), Err(DecodeError::InvalidOpcode),
- Ok(Opcode::SCVTF), Err(DecodeError::InvalidOpcode),
- Err(DecodeError::InvalidOpcode), Ok(Opcode::FCVTZS),
+ Err(DecodeError::InvalidOpcode), Err(DecodeError::InvalidOpcode),
+ Err(DecodeError::InvalidOpcode), Err(DecodeError::InvalidOpcode),
+ Ok((Opcode::SCVTF, true)), Err(DecodeError::InvalidOpcode),
+ Err(DecodeError::InvalidOpcode), Ok((Opcode::FCVTZS, true)),
// U == 1
- Ok(Opcode::USHR), Err(DecodeError::InvalidOpcode),
- Ok(Opcode::USRA), Err(DecodeError::InvalidOpcode),
- Ok(Opcode::URSHR), Err(DecodeError::InvalidOpcode),
- Ok(Opcode::URSRA), Err(DecodeError::InvalidOpcode),
+ Ok((Opcode::USHR, true)), Err(DecodeError::InvalidOpcode),
+ Ok((Opcode::USRA, true)), Err(DecodeError::InvalidOpcode),
+ Ok((Opcode::URSHR, true)), Err(DecodeError::InvalidOpcode),
+ Ok((Opcode::URSRA, true)), Err(DecodeError::InvalidOpcode),
// 0b01000
- Ok(Opcode::SRI), Err(DecodeError::InvalidOpcode),
- Ok(Opcode::SLI), Err(DecodeError::InvalidOpcode),
- Ok(Opcode::SQSHLU), Err(DecodeError::InvalidOpcode),
- Ok(Opcode::UQSHL), Err(DecodeError::InvalidOpcode),
+ Ok((Opcode::SRI, true)), Err(DecodeError::InvalidOpcode),
+ Ok((Opcode::SLI, false)), Err(DecodeError::InvalidOpcode),
+ Ok((Opcode::SQSHLU, false)), Err(DecodeError::InvalidOpcode),
+ Ok((Opcode::UQSHL, false)), Err(DecodeError::InvalidOpcode),
// 0b10000
- Ok(Opcode::SQSHRUN), Ok(Opcode::SQRSHRUN),
- Ok(Opcode::UQSHRN), Ok(Opcode::UQRSHRN),
- Ok(Opcode::USHLL), Err(DecodeError::InvalidOpcode),
- Err(DecodeError::InvalidOpcode), Err(DecodeError::InvalidOpcode),
+ Ok((Opcode::SQSHRUN, true)), Ok((Opcode::SQRSHRUN, true)),
+ Ok((Opcode::UQSHRN, true)), Ok((Opcode::UQRSHRN, true)),
+ Ok((Opcode::USHLL, false)), Err(DecodeError::InvalidOpcode),
+ Err(DecodeError::InvalidOpcode), Err(DecodeError::InvalidOpcode),
// 0b11000
- Err(DecodeError::InvalidOpcode), Err(DecodeError::InvalidOpcode),
- Err(DecodeError::InvalidOpcode), Err(DecodeError::InvalidOpcode),
- Ok(Opcode::UCVTF), Err(DecodeError::InvalidOpcode),
- Err(DecodeError::InvalidOpcode), Ok(Opcode::FCVTZU),
+ Err(DecodeError::InvalidOpcode), Err(DecodeError::InvalidOpcode),
+ Err(DecodeError::InvalidOpcode), Err(DecodeError::InvalidOpcode),
+ Ok((Opcode::UCVTF, true)), Err(DecodeError::InvalidOpcode),
+ Err(DecodeError::InvalidOpcode), Ok((Opcode::FCVTZU, true)),
];
- inst.opcode = OPCODES[((U << 5) | opcode) as usize]?;
+ let (opcode, before) = OPCODES[((U << 5) | opcode) as usize]?;
+ inst.opcode = opcode;
+ let (T, shift) = if before {
+ if immh > 0b0111 {
+ (SIMDSizeCode::D, 128 - ((immh << 3) | immb))
+ } else if immh > 0b0011 {
+ (SIMDSizeCode::S, 64 - ((immh << 3) | immb))
+ } else if immh > 0b0001 {
+ (SIMDSizeCode::H, 32 - ((immh << 3) | immb))
+ } else {
+ (SIMDSizeCode::B, 16 - ((immh << 3) | immb))
+ }
+ } else {
+ if immh > 0b0111 {
+ (SIMDSizeCode::D, ((immh << 3) | immb) - 64)
+ } else if immh > 0b0011 {
+ (SIMDSizeCode::S, ((immh << 3) | immb) - 32)
+ } else if immh > 0b0001 {
+ (SIMDSizeCode::H, ((immh << 3) | immb) - 16)
+ } else {
+ (SIMDSizeCode::B, ((immh << 3) | immb) - 8)
+ }
+ };
+
+ let (Vb, Tb) = if opcode == Opcode::SQSHRUN || opcode == Opcode::SQRSHRUN || opcode == Opcode::UQSHRN || opcode == Opcode::UQRSHRN || opcode == Opcode::SHRN || opcode == Opcode::RSHRN || opcode == Opcode::SQSHRN || opcode == Opcode::SQRSHRN {
+ if immh > 0b0111 {
+ return Err(DecodeError::InvalidOperand);
+ } else if immh > 0b0011 {
+ (SIMDSizeCode::Q, SIMDSizeCode::D)
+ } else if immh > 0b0001 {
+ (SIMDSizeCode::Q, SIMDSizeCode::S)
+ } else {
+ (SIMDSizeCode::Q, SIMDSizeCode::H)
+ }
+ } else {
+ (datasize, T)
+ };
+
+ if Q == 1 {
+ if inst.opcode == Opcode::RSHRN {
+ inst.opcode = Opcode::RSHRN2;
+ } else if inst.opcode == Opcode::SQSHRUN {
+ inst.opcode = Opcode::SQSHRUN2;
+ } else if inst.opcode == Opcode::SQRSHRUN {
+ inst.opcode = Opcode::SQRSHRUN2;
+ } else if inst.opcode == Opcode::UQSHRN {
+ inst.opcode = Opcode::UQSHRN2;
+ } else if inst.opcode == Opcode::UQRSHRN {
+ inst.opcode = Opcode::UQRSHRN2;
+ } else if inst.opcode == Opcode::USHLL {
+ inst.opcode = Opcode::USHLL2;
+ } else if inst.opcode == Opcode::SHRN {
+ inst.opcode = Opcode::SHRN2;
+ } else if inst.opcode == Opcode::SQSHRN {
+ inst.opcode = Opcode::SQSHRN2;
+ } else if inst.opcode == Opcode::SQRSHRN {
+ inst.opcode = Opcode::SQRSHRN2;
+ }
+ };
+
inst.operands = [
Operand::SIMDRegisterElements(datasize, Rd as u16, T),
- Operand::SIMDRegisterElements(datasize, Rn as u16, T),
+ Operand::SIMDRegisterElements(Vb, Rn as u16, Tb),
Operand::Immediate(shift),
Operand::Nothing,
];
@@ -2666,7 +3105,7 @@ impl Decoder<ARMv8> for InstDecoder {
Ok((Opcode::MVNI, SIMDSizeCode::S)), Ok((Opcode::BIC, SIMDSizeCode::S)),
Ok((Opcode::MVNI, SIMDSizeCode::H)), Ok((Opcode::BIC, SIMDSizeCode::H)),
Ok((Opcode::MVNI, SIMDSizeCode::H)), Ok((Opcode::BIC, SIMDSizeCode::H)),
- Ok((Opcode::MVNI, SIMDSizeCode::S)), Ok((Opcode::BIC, SIMDSizeCode::S)),
+ Ok((Opcode::MVNI, SIMDSizeCode::S)), Ok((Opcode::MVNI, SIMDSizeCode::S)),
Ok((Opcode::MOVI, SIMDSizeCode::D)), Ok((Opcode::FMOV, SIMDSizeCode::B)),
];
@@ -2734,7 +3173,7 @@ impl Decoder<ARMv8> for InstDecoder {
}
_ => 0,
};
- if cmode & 0b1110 == 0b1100 && op == 0 {
+ if cmode & 0b1110 == 0b1100 {
let amount = (cmode & 1) << 3;
Operand::ImmShiftMSL(imm8 as u16, amount as u8 + 8)
} else {
@@ -2780,12 +3219,12 @@ impl Decoder<ARMv8> for InstDecoder {
return Err(DecodeError::InvalidOperand);
}
- let (index, Rm) = if size == 0b10 {
+ let (index, Rm) = if size == 0b01 {
let index = (H << 2) | (L << 1) | M;
- let Rm = (M << 4) | Rm;
(index, Rm)
} else {
let index = (H << 1) | L;
+ let Rm = (M << 4) | Rm;
(index, Rm)
};
@@ -2813,12 +3252,12 @@ impl Decoder<ARMv8> for InstDecoder {
return Err(DecodeError::InvalidOperand);
}
- let (index, Rm) = if size == 0b10 {
+ let (index, Rm) = if size == 0b01 {
let index = (H << 2) | (L << 1) | M;
- let Rm = (M << 4) | Rm;
(index, Rm)
} else {
let index = (H << 1) | L;
+ let Rm = (M << 4) | Rm;
(index, Rm)
};
@@ -2846,12 +3285,12 @@ impl Decoder<ARMv8> for InstDecoder {
return Err(DecodeError::InvalidOperand);
}
- let (index, Rm) = if size == 0b10 {
+ let (index, Rm) = if size == 0b01 {
let index = (H << 2) | (L << 1) | M;
- let Rm = (M << 4) | Rm;
(index, Rm)
} else {
let index = (H << 1) | L;
+ let Rm = (M << 4) | Rm;
(index, Rm)
};
@@ -2879,12 +3318,12 @@ impl Decoder<ARMv8> for InstDecoder {
return Err(DecodeError::InvalidOperand);
}
- let (index, Rm) = if size == 0b10 {
+ let (index, Rm) = if size == 0b01 {
let index = (H << 2) | (L << 1) | M;
- let Rm = (M << 4) | Rm;
(index, Rm)
} else {
let index = (H << 1) | L;
+ let Rm = (M << 4) | Rm;
(index, Rm)
};
@@ -2912,12 +3351,12 @@ impl Decoder<ARMv8> for InstDecoder {
return Err(DecodeError::InvalidOperand);
}
- let (index, Rm) = if size == 0b10 {
+ let (index, Rm) = if size == 0b01 {
let index = (H << 2) | (L << 1) | M;
- let Rm = (M << 4) | Rm;
(index, Rm)
} else {
let index = (H << 1) | L;
+ let Rm = (M << 4) | Rm;
(index, Rm)
};
@@ -2941,12 +3380,12 @@ impl Decoder<ARMv8> for InstDecoder {
return Err(DecodeError::InvalidOperand);
}
- let (index, Rm) = if size == 0b10 {
+ let (index, Rm) = if size == 0b01 {
let index = (H << 2) | (L << 1) | M;
- let Rm = (M << 4) | Rm;
(index, Rm)
} else {
let index = (H << 1) | L;
+ let Rm = (M << 4) | Rm;
(index, Rm)
};
@@ -2974,12 +3413,12 @@ impl Decoder<ARMv8> for InstDecoder {
return Err(DecodeError::InvalidOperand);
}
- let (index, Rm) = if size == 0b10 {
+ let (index, Rm) = if size == 0b01 {
let index = (H << 2) | (L << 1) | M;
- let Rm = (M << 4) | Rm;
(index, Rm)
} else {
let index = (H << 1) | L;
+ let Rm = (M << 4) | Rm;
(index, Rm)
};
@@ -3007,27 +3446,23 @@ impl Decoder<ARMv8> for InstDecoder {
return Err(DecodeError::InvalidOperand);
}
- let (index, Rm) = if size == 0b10 {
+ let (index, Rm) = if size == 0b01 {
let index = (H << 2) | (L << 1) | M;
- let Rm = (M << 4) | Rm;
(index, Rm)
} else {
let index = (H << 1) | L;
+ let Rm = (M << 4) | Rm;
(index, Rm)
};
let Tb_vecsize = if Q == 1 { SIMDSizeCode::Q } else { SIMDSizeCode::D };
let (Ta, Tb_elemsize, Ts) = if size == 0b01 {
- (SIMDSizeCode::S, SIMDSizeCode::H, SIMDSizeCode::H)
+ (SIMDSizeCode::H, SIMDSizeCode::H, SIMDSizeCode::H)
} else {
- (SIMDSizeCode::D, SIMDSizeCode::S, SIMDSizeCode::S)
+ (SIMDSizeCode::S, SIMDSizeCode::S, SIMDSizeCode::S)
};
- inst.opcode = if Q == 1 {
- Opcode::SQDMULH2
- } else {
- Opcode::SQDMULH
- };
+ inst.opcode = Opcode::SQDMULH;
inst.operands = [
Operand::SIMDRegisterElements(SIMDSizeCode::Q, Rd as u16, Ta),
Operand::SIMDRegisterElements(Tb_vecsize, Rn as u16, Tb_elemsize),
@@ -3040,27 +3475,23 @@ impl Decoder<ARMv8> for InstDecoder {
return Err(DecodeError::InvalidOperand);
}
- let (index, Rm) = if size == 0b10 {
+ let (index, Rm) = if size == 0b01 {
let index = (H << 2) | (L << 1) | M;
- let Rm = (M << 4) | Rm;
(index, Rm)
} else {
let index = (H << 1) | L;
+ let Rm = (M << 4) | Rm;
(index, Rm)
};
let Tb_vecsize = if Q == 1 { SIMDSizeCode::Q } else { SIMDSizeCode::D };
let (Ta, Tb_elemsize, Ts) = if size == 0b01 {
- (SIMDSizeCode::S, SIMDSizeCode::H, SIMDSizeCode::H)
+ (SIMDSizeCode::H, SIMDSizeCode::H, SIMDSizeCode::H)
} else {
- (SIMDSizeCode::D, SIMDSizeCode::S, SIMDSizeCode::S)
+ (SIMDSizeCode::S, SIMDSizeCode::S, SIMDSizeCode::S)
};
- inst.opcode = if Q == 1 {
- Opcode::SQRDMULH2
- } else {
- Opcode::SQRDMULH
- };
+ inst.opcode = Opcode::SQRDMULH;
inst.operands = [
Operand::SIMDRegisterElements(SIMDSizeCode::Q, Rd as u16, Ta),
Operand::SIMDRegisterElements(Tb_vecsize, Rn as u16, Tb_elemsize),
@@ -3082,7 +3513,7 @@ impl Decoder<ARMv8> for InstDecoder {
inst.operands = [
Operand::SIMDRegisterElements(datasize, Rd as u16, SIMDSizeCode::S),
Operand::SIMDRegisterElements(datasize, Rn as u16, SIMDSizeCode::B),
- Operand::SIMDRegisterElementsLane(SIMDSizeCode::Q, Rm as u16, SIMDSizeCode::B, index as u8),
+ Operand::SIMDRegisterElementsMultipleLane(SIMDSizeCode::Q, Rm as u16, SIMDSizeCode::B, index as u8, 4),
Operand::Nothing,
];
},
@@ -3264,12 +3695,12 @@ impl Decoder<ARMv8> for InstDecoder {
return Err(DecodeError::InvalidOperand);
}
- let (index, Rm) = if size == 0b10 {
+ let (index, Rm) = if size == 0b01 {
let index = (H << 2) | (L << 1) | M;
- let Rm = (M << 4) | Rm;
(index, Rm)
} else {
let index = (H << 1) | L;
+ let Rm = (M << 4) | Rm;
(index, Rm)
};
@@ -3293,12 +3724,12 @@ impl Decoder<ARMv8> for InstDecoder {
return Err(DecodeError::InvalidOperand);
}
- let (index, Rm) = if size == 0b10 {
+ let (index, Rm) = if size == 0b01 {
let index = (H << 2) | (L << 1) | M;
- let Rm = (M << 4) | Rm;
(index, Rm)
} else {
let index = (H << 1) | L;
+ let Rm = (M << 4) | Rm;
(index, Rm)
};
@@ -3326,12 +3757,12 @@ impl Decoder<ARMv8> for InstDecoder {
return Err(DecodeError::InvalidOperand);
}
- let (index, Rm) = if size == 0b10 {
+ let (index, Rm) = if size == 0b01 {
let index = (H << 2) | (L << 1) | M;
- let Rm = (M << 4) | Rm;
(index, Rm)
} else {
let index = (H << 1) | L;
+ let Rm = (M << 4) | Rm;
(index, Rm)
};
@@ -3355,12 +3786,12 @@ impl Decoder<ARMv8> for InstDecoder {
return Err(DecodeError::InvalidOperand);
}
- let (index, Rm) = if size == 0b10 {
+ let (index, Rm) = if size == 0b01 {
let index = (H << 2) | (L << 1) | M;
- let Rm = (M << 4) | Rm;
(index, Rm)
} else {
let index = (H << 1) | L;
+ let Rm = (M << 4) | Rm;
(index, Rm)
};
@@ -3388,12 +3819,12 @@ impl Decoder<ARMv8> for InstDecoder {
return Err(DecodeError::InvalidOperand);
}
- let (index, Rm) = if size == 0b10 {
+ let (index, Rm) = if size == 0b01 {
let index = (H << 2) | (L << 1) | M;
- let Rm = (M << 4) | Rm;
(index, Rm)
} else {
let index = (H << 1) | L;
+ let Rm = (M << 4) | Rm;
(index, Rm)
};
@@ -3424,25 +3855,25 @@ impl Decoder<ARMv8> for InstDecoder {
return Err(DecodeError::InvalidOperand);
}
- let (index, Rm) = if size == 0b10 {
+ let (index, Rm) = if size == 0b01 {
let index = (H << 2) | (L << 1) | M;
- let Rm = (M << 4) | Rm;
(index, Rm)
} else {
let index = (H << 1) | L;
+ let Rm = (M << 4) | Rm;
(index, Rm)
};
let Tb_vecsize = if Q == 1 { SIMDSizeCode::Q } else { SIMDSizeCode::D };
let (Ta, Tb_elemsize, Ts) = if size == 0b01 {
- (SIMDSizeCode::S, SIMDSizeCode::H, SIMDSizeCode::H)
+ (SIMDSizeCode::H, SIMDSizeCode::H, SIMDSizeCode::H)
} else {
- (SIMDSizeCode::D, SIMDSizeCode::S, SIMDSizeCode::S)
+ (SIMDSizeCode::S, SIMDSizeCode::S, SIMDSizeCode::S)
};
inst.opcode = Opcode::SQRDMLAH;
inst.operands = [
- Operand::SIMDRegisterElements(SIMDSizeCode::Q, Rd as u16, Ta),
+ Operand::SIMDRegisterElements(Tb_vecsize, Rd as u16, Ta),
Operand::SIMDRegisterElements(Tb_vecsize, Rn as u16, Tb_elemsize),
Operand::SIMDRegisterElementsLane(SIMDSizeCode::Q, Rm as u16, Ts, index as u8),
Operand::Nothing,
@@ -3462,7 +3893,7 @@ impl Decoder<ARMv8> for InstDecoder {
inst.operands = [
Operand::SIMDRegisterElements(datasize, Rd as u16, SIMDSizeCode::S),
Operand::SIMDRegisterElements(datasize, Rn as u16, SIMDSizeCode::B),
- Operand::SIMDRegisterElementsLane(SIMDSizeCode::Q, Rm as u16, SIMDSizeCode::B, index as u8),
+ Operand::SIMDRegisterElementsMultipleLane(SIMDSizeCode::Q, Rm as u16, SIMDSizeCode::B, index as u8, 4),
Operand::Nothing,
];
}
@@ -3471,25 +3902,25 @@ impl Decoder<ARMv8> for InstDecoder {
return Err(DecodeError::InvalidOperand);
}
- let (index, Rm) = if size == 0b10 {
+ let (index, Rm) = if size == 0b01 {
let index = (H << 2) | (L << 1) | M;
- let Rm = (M << 4) | Rm;
(index, Rm)
} else {
let index = (H << 1) | L;
+ let Rm = (M << 4) | Rm;
(index, Rm)
};
let Tb_vecsize = if Q == 1 { SIMDSizeCode::Q } else { SIMDSizeCode::D };
let (Ta, Tb_elemsize, Ts) = if size == 0b01 {
- (SIMDSizeCode::S, SIMDSizeCode::H, SIMDSizeCode::H)
+ (SIMDSizeCode::H, SIMDSizeCode::H, SIMDSizeCode::H)
} else {
- (SIMDSizeCode::D, SIMDSizeCode::S, SIMDSizeCode::S)
+ (SIMDSizeCode::S, SIMDSizeCode::S, SIMDSizeCode::S)
};
inst.opcode = Opcode::SQRDMLSH;
inst.operands = [
- Operand::SIMDRegisterElements(SIMDSizeCode::Q, Rd as u16, Ta),
+ Operand::SIMDRegisterElements(Tb_vecsize, Rd as u16, Ta),
Operand::SIMDRegisterElements(Tb_vecsize, Rn as u16, Tb_elemsize),
Operand::SIMDRegisterElementsLane(SIMDSizeCode::Q, Rm as u16, Ts, index as u8),
Operand::Nothing,
@@ -3532,18 +3963,24 @@ impl Decoder<ARMv8> for InstDecoder {
return Err(DecodeError::InvalidOpcode);
}
- let (index, Rm) = if size == 0b10 {
+ let (index, Rm) = if size == 0b00 {
let index = (H << 2) | (L << 1) | M;
- let Rm = (M << 4) | Rm;
(index, Rm)
- } else {
+ } else if size == 0b10 {
let index = (H << 1) | L;
+ let Rm = (M << 4) | Rm;
(index, Rm)
+ } else {
+ if L == 1 {
+ return Err(DecodeError::InvalidOperand);
+ }
+ let Rm = (M << 4) | Rm;
+ (H, Rm)
};
let datasize = if Q == 1 { SIMDSizeCode::Q } else { SIMDSizeCode::D };
let (Ta, Tb_elemsize, Ts) = if size == 0b00 {
- (SIMDSizeCode::H, SIMDSizeCode::H, SIMDSizeCode::S)
+ (SIMDSizeCode::H, SIMDSizeCode::H, SIMDSizeCode::H)
} else if size == 0b10 {
(SIMDSizeCode::S, SIMDSizeCode::S, SIMDSizeCode::S)
} else /* if size == 0b11 */ {
@@ -3573,10 +4010,10 @@ impl Decoder<ARMv8> for InstDecoder {
return Err(DecodeError::InvalidOperand);
}
- let index = if size == 0b10 {
- H
- } else {
+ let index = if size == 0b01 {
(H << 1) | L
+ } else {
+ H
};
let Rm = (M << 4) | Rm;
@@ -3842,11 +4279,7 @@ impl Decoder<ARMv8> for InstDecoder {
if size != 0b00 && size != 0b11 {
return Err(DecodeError::InvalidOperand);
}
- let ta_size = if size == 0b00 {
- SIMDSizeCode::D
- } else {
- SIMDSizeCode::Q
- };
+ let ta_size = SIMDSizeCode::Q;
inst.operands = [
Operand::SIMDRegisterElements(ta_size, Rd as u16, Ta),
Operand::SIMDRegisterElements(datasize, Rn as u16, Tb),
@@ -3903,9 +4336,9 @@ impl Decoder<ARMv8> for InstDecoder {
];
const TABLE_E: &'static OperandSizeTable = &[
- Ok((D, B, Q, H)), Ok((Q, H, Q, H)),
- Ok((D, H, Q, S)), Ok((Q, S, Q, S)),
- Ok((D, S, Q, D)), Ok((Q, D, Q, D)),
+ Ok((D, B, Q, H)), Ok((Q, B, Q, H)),
+ Ok((D, H, Q, S)), Ok((Q, H, Q, S)),
+ Ok((D, S, Q, D)), Ok((Q, S, Q, D)),
Err(DecodeError::InvalidOperand), Err(DecodeError::InvalidOperand),
];
@@ -3940,21 +4373,28 @@ impl Decoder<ARMv8> for InstDecoder {
Err(DecodeError::InvalidOperand), Ok((Q, D, Q, D)),
];
+ const TABLE_J: &'static OperandSizeTable = &[
+ Ok((Q, H, D, B)), Ok((Q, H, Q, B)),
+ Ok((Q, S, D, H)), Ok((Q, S, Q, H)),
+ Ok((Q, D, D, S)), Ok((Q, D, Q, S)),
+ Err(DecodeError::InvalidOperand), Err(DecodeError::InvalidOperand),
+ ];
+
if op2 & 0b0111 == 0b0100 {
// `Advanced SIMD two-register miscellaneous`
const OPCODES_U0_LOW: &[Result<(Opcode, &'static OperandSizeTable), DecodeError>; 20] = &[
Ok((Opcode::REV64, TABLE_A)),
Ok((Opcode::REV16, TABLE_B)),
Ok((Opcode::SADDLP, TABLE_C)),
- Ok((Opcode::SUQADD, TABLE_D)),
+ Ok((Opcode::SUQADD, TABLE_A)),
Ok((Opcode::CLS, TABLE_A)),
Ok((Opcode::CNT, TABLE_B)),
Ok((Opcode::SADALP, TABLE_C)),
- Ok((Opcode::SQABS, TABLE_D)),
- Ok((Opcode::CMGT, TABLE_D)),
- Ok((Opcode::CMEQ, TABLE_D)),
- Ok((Opcode::CMLT, TABLE_D)),
- Ok((Opcode::ABS, TABLE_D)),
+ Ok((Opcode::SQABS, TABLE_A)),
+ Ok((Opcode::CMGT, TABLE_A)),
+ Ok((Opcode::CMEQ, TABLE_A)),
+ Ok((Opcode::CMLT, TABLE_A)),
+ Ok((Opcode::ABS, TABLE_A)),
// 0b01100, all four size=1x
Ok((Opcode::FCMGT, TABLE_I)),
Ok((Opcode::FCMEQ, TABLE_I)),
@@ -4002,15 +4442,15 @@ impl Decoder<ARMv8> for InstDecoder {
Ok((Opcode::REV32, TABLE_A)),
Err(DecodeError::InvalidOpcode),
Ok((Opcode::UADDLP, TABLE_C)),
- Ok((Opcode::USQADD, TABLE_D)),
+ Ok((Opcode::USQADD, TABLE_A)),
Ok((Opcode::CLZ, TABLE_A)),
Err(DecodeError::InvalidOpcode),
Ok((Opcode::UADALP, TABLE_C)),
- Ok((Opcode::SQNEG, TABLE_D)),
- Ok((Opcode::CMGE, TABLE_D)),
- Ok((Opcode::CMLE, TABLE_D)),
+ Ok((Opcode::SQNEG, TABLE_A)),
+ Ok((Opcode::CMGE, TABLE_A)),
+ Ok((Opcode::CMLE, TABLE_A)),
Err(DecodeError::InvalidOpcode),
- Ok((Opcode::NEG, TABLE_D)),
+ Ok((Opcode::NEG, TABLE_A)),
// 0b01100, all four size=1x
Ok((Opcode::FCMGE, TABLE_I)),
Ok((Opcode::FCMLE, TABLE_I)),
@@ -4020,7 +4460,7 @@ impl Decoder<ARMv8> for InstDecoder {
Err(DecodeError::InvalidOpcode),
Err(DecodeError::InvalidOpcode),
Ok((Opcode::SQXTUN, TABLE_E)),
- Ok((Opcode::SHLL, TABLE_E)), // TODO: verify
+ Ok((Opcode::SHLL, TABLE_J)),
// 0b10100
];
// index by low 3 of opcode | upper bit of size
@@ -4052,7 +4492,20 @@ impl Decoder<ARMv8> for InstDecoder {
// u == 1, op == 0b00000
];
- let (opc, (datasize_a, elemsize_a, datasize_b, elemsize_b)) = if opcode < 0b10100 {
+ let (opc, (datasize_a, elemsize_a, datasize_b, elemsize_b)) = if opcode == 0b00101 && U == 1{
+ let vecsize = if q == 0 {
+ SIMDSizeCode::D
+ } else {
+ SIMDSizeCode::Q
+ };
+ if size == 0b00 {
+ (Opcode::NOT, (vecsize, SIMDSizeCode::B, vecsize, SIMDSizeCode::B))
+ } else if size == 0b01 {
+ (Opcode::RBIT, (vecsize, SIMDSizeCode::B, vecsize, SIMDSizeCode::B))
+ } else {
+ return Err(DecodeError::InvalidOpcode);
+ }
+ } else if opcode < 0b10100 {
let (opc, table) = if U == 0 {
OPCODES_U0_LOW[opcode as usize]?
} else {
@@ -4068,10 +4521,24 @@ impl Decoder<ARMv8> for InstDecoder {
(opc, table[((size << 1) | q) as usize]?)
};
- if opc == Opcode::FCVTL && q != 0 {
- inst.opcode = Opcode::FCVTL2;
- } else {
- inst.opcode = opc;
+ inst.opcode = opc;
+
+ if q != 0 {
+ if opc == Opcode::FCVTL {
+ inst.opcode = Opcode::FCVTL2;
+ } else if opc == Opcode::XTN {
+ inst.opcode = Opcode::XTN2;
+ } else if opc == Opcode::SQXTN {
+ inst.opcode = Opcode::SQXTN2;
+ } else if opc == Opcode::SQXTUN {
+ inst.opcode = Opcode::SQXTUN2;
+ } else if opc == Opcode::UQXTN {
+ inst.opcode = Opcode::UQXTN2;
+ } else if opc == Opcode::FCVTN {
+ inst.opcode = Opcode::FCVTN2;
+ } else if opc == Opcode::FCVTXN {
+ inst.opcode = Opcode::FCVTXN2;
+ }
}
inst.operands = [
Operand::SIMDRegisterElements(datasize_a, Rd as u16, elemsize_a),
@@ -4083,6 +4550,15 @@ impl Decoder<ARMv8> for InstDecoder {
inst.operands[2] = Operand::Imm64(0);
} else if [Opcode::FCMGE, Opcode::FCMLE, Opcode::FCMGT, Opcode::FCMEQ, Opcode::FCMLT].contains(&inst.opcode) {
inst.operands[2] = Operand::ImmediateDouble(0.0);
+ } else if inst.opcode == Opcode::SHLL {
+ if q == 1 {
+ inst.opcode = Opcode::SHLL2;
+ }
+ let sz = (word >> 22) & 0b11;
+ if sz == 0b11 {
+ return Err(DecodeError::InvalidOperand);
+ }
+ inst.operands[2] = Operand::Imm64((8 << sz) as u64);
}
} else if op2 & 0b0111 == 0b0110 {
// `Advanced SIMD across lanes`
@@ -4206,6 +4682,33 @@ impl Decoder<ARMv8> for InstDecoder {
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;
+
+ 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 {
// op3 == 1xxxxx10 or x1xxxx10: both unallocated.
@@ -4294,7 +4797,7 @@ impl Decoder<ARMv8> for InstDecoder {
Operand::SIMDRegisterElements(vec_size, Rd as u16, elem_size),
Operand::SIMDRegisterElements(vec_size, Rn as u16, elem_size),
Operand::SIMDRegisterElements(vec_size, Rm as u16, elem_size),
- Operand::Imm16(rot as u16),
+ Operand::Imm16(90 * (rot as u16)),
];
} else if opcode & 0b1101 == 0b1100 {
// fcadd
@@ -4320,7 +4823,7 @@ impl Decoder<ARMv8> for InstDecoder {
Operand::SIMDRegisterElements(vec_size, Rd as u16, elem_size),
Operand::SIMDRegisterElements(vec_size, Rn as u16, elem_size),
Operand::SIMDRegisterElements(vec_size, Rm as u16, elem_size),
- Operand::Imm16(rot as u16),
+ Operand::Imm16(90 + 180 * (rot as u16)),
];
} else {
return Err(DecodeError::InvalidOpcode);
@@ -4796,7 +5299,7 @@ impl Decoder<ARMv8> for InstDecoder {
return Err(DecodeError::InvalidOpcode);
}
- if mode != 0b00 && opcode >= 0b100 {
+ if mode != 0b00 && opcode >= 0b100 && opcode != 0b110 {
return Err(DecodeError::InvalidOpcode);
}
@@ -5116,7 +5619,7 @@ impl Decoder<ARMv8> for InstDecoder {
inst.operands = [
Operand::SIMDRegister(precision, Rn as u16),
if opcode2 & 0b01000 != 0 { // and, sugguested, Rm == 0
- Operand::Immediate(0)
+ Operand::ImmediateDouble(0.0)
} else {
Operand::SIMDRegister(precision, Rm as u16)
},
@@ -5674,6 +6177,8 @@ impl Decoder<ARMv8> for InstDecoder {
];
if [Opcode::FCMGE, Opcode::FCMLE, Opcode::FCMGT, Opcode::FCMEQ, Opcode::FCMLT].contains(&inst.opcode) {
inst.operands[2] = Operand::ImmediateDouble(0.0);
+ } else if [Opcode::CMGE, Opcode::CMLE, Opcode::CMGT, Opcode::CMEQ, Opcode::CMLT].contains(&inst.opcode) {
+ inst.operands[2] = Operand::Immediate(0);
}
} else if op2 & 0b0111 == 0b110 {
// `Advanced SIMD scalar pairwise`
@@ -5734,18 +6239,18 @@ impl Decoder<ARMv8> for InstDecoder {
0b11011_0_0 => Ok(Opcode::FCVTMS),
0b11100_0_0 => Ok(Opcode::FCVTAS),
0b11101_0_0 => Ok(Opcode::SCVTF),
- 0b01100_1_0 => Ok(Opcode::FCMGT),
- 0b01101_1_0 => Ok(Opcode::FCMEQ),
- 0b01110_1_0 => Ok(Opcode::FCMLT),
- 0b11010_1_0 => Ok(Opcode::FCVTPS),
- 0b11011_1_0 => Ok(Opcode::FCVTZS),
- 0b11101_1_0 => Ok(Opcode::FRECPE),
- 0b11111_1_0 => Ok(Opcode::FRECPX),
-
- 0b11010_0_1 => Ok(Opcode::FCVTNU),
- 0b11011_0_1 => Ok(Opcode::FCVTMU),
- 0b11100_0_1 => Ok(Opcode::FCVTAU),
- 0b11101_0_1 => Ok(Opcode::UCVTF),
+ 0b01100_0_1 => Ok(Opcode::FCMGT),
+ 0b01101_0_1 => Ok(Opcode::FCMEQ),
+ 0b01110_0_1 => Ok(Opcode::FCMLT),
+ 0b11010_0_1 => Ok(Opcode::FCVTPS),
+ 0b11011_0_1 => Ok(Opcode::FCVTZS),
+ 0b11101_0_1 => Ok(Opcode::FRECPE),
+ 0b11111_0_1 => Ok(Opcode::FRECPX),
+
+ 0b11010_1_0 => Ok(Opcode::FCVTNU),
+ 0b11011_1_0 => Ok(Opcode::FCVTMU),
+ 0b11100_1_0 => Ok(Opcode::FCVTAU),
+ 0b11101_1_0 => Ok(Opcode::UCVTF),
0b01100_1_1 => Ok(Opcode::FCMGE),
0b01101_1_1 => Ok(Opcode::FCMLE),
0b11010_1_1 => Ok(Opcode::FCVTPU),
@@ -5799,33 +6304,6 @@ impl Decoder<ARMv8> for InstDecoder {
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;
-
- 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);
@@ -5834,11 +6312,51 @@ impl Decoder<ARMv8> for InstDecoder {
}
} else {
// op2 == x0xx
- if op3 & 0b000100001 == 0 {
- // op3 == xxx0xxxx0, `Unallocated`
- return Err(DecodeError::InvalidOpcode);
- }
- if op2 & 0b1000 == 0b1000 {
+ if op0 == 0b0101 && op2 & 0b0100 == 0b0000 && op3 & 0b000_100_011 == 0b000_000_000 {
+ // `Cryptographic three-register SHA`
+ let Rd = word & 0b11111;
+ let Rn = (word >> 5) & 0b11111;
+ let opcode_bits = (word >> 12) & 0b111;
+ let Rm = (word >> 16) & 0b11111;
+ let size = (word >> 22) & 0b11;
+
+ if size != 0b00 {
+ return Err(DecodeError::InvalidOpcode);
+ }
+
+ let (opcode, scalars) = &[
+ Ok((Opcode::SHA1C, true)),
+ Ok((Opcode::SHA1P, true)),
+ Ok((Opcode::SHA1M, true)),
+ Ok((Opcode::SHA1SU0, false)),
+ Ok((Opcode::SHA256H, true)),
+ Ok((Opcode::SHA256H2, true)),
+ Ok((Opcode::SHA256SU1, false)),
+ Err(DecodeError::InvalidOpcode),
+ ][opcode_bits as usize]?;
+
+ inst.opcode = *opcode;
+ if *scalars {
+ inst.operands = [
+ Operand::SIMDRegister(SIMDSizeCode::Q, Rd as u16),
+ if opcode_bits < 0b100 {
+ // sha1 second reg is `Sn`
+ Operand::SIMDRegister(SIMDSizeCode::S, Rn as u16)
+ } else {
+ Operand::SIMDRegister(SIMDSizeCode::Q, Rn as u16)
+ },
+ Operand::SIMDRegisterElements(SIMDSizeCode::Q, Rm as u16, SIMDSizeCode::S),
+ Operand::Nothing,
+ ];
+ } else {
+ inst.operands = [
+ Operand::SIMDRegisterElements(SIMDSizeCode::Q, Rd as u16, SIMDSizeCode::S),
+ Operand::SIMDRegisterElements(SIMDSizeCode::Q, Rn as u16, SIMDSizeCode::S),
+ Operand::SIMDRegisterElements(SIMDSizeCode::Q, Rm as u16, SIMDSizeCode::S),
+ Operand::Nothing,
+ ];
+ }
+ } else if op0 & 0b1101 == 0b0101 && op2 & 0b1000 == 0b1000 && op3 & 0b000_110_001 == 0b000_000_001 {
// op2 == 10xx
// `Advanced SIMD scalar three same FP16`
let Rd = word & 0b11111;
@@ -5856,32 +6374,29 @@ impl Decoder<ARMv8> for InstDecoder {
let index = (opcode << 2) | (U << 1) | a;
inst.opcode = [
+ // opcode == 0b011
Ok(Opcode::FMULX),
- Ok(Opcode::FCMEQ),
Err(DecodeError::InvalidOpcode),
Err(DecodeError::InvalidOpcode),
- // opcode == 0b111
- Ok(Opcode::FRECPS),
Err(DecodeError::InvalidOpcode),
+ // opcode == 0b100
+ Ok(Opcode::FCMEQ),
Err(DecodeError::InvalidOpcode),
+ Ok(Opcode::FCMGE),
Err(DecodeError::InvalidOpcode),
- // opcode == 0b111
- Ok(Opcode::FRSQRTS),
- Err(DecodeError::InvalidOpcode),
- Err(DecodeError::InvalidOpcode),
+ // opcode == 0b101
Err(DecodeError::InvalidOpcode),
Err(DecodeError::InvalidOpcode),
- // opcode == 0b100
- Ok(Opcode::FCMGE),
Ok(Opcode::FACGE),
+ Ok(Opcode::FACGT),
+ // opcode == 0b110
Err(DecodeError::InvalidOpcode),
Err(DecodeError::InvalidOpcode),
Err(DecodeError::InvalidOpcode),
Err(DecodeError::InvalidOpcode),
- Ok(Opcode::FABD),
- Err(DecodeError::InvalidOpcode),
- Ok(Opcode::FCMGT),
- Ok(Opcode::FACGT),
+ // opcode == 0b111
+ Ok(Opcode::FRECPS),
+ Ok(Opcode::FRSQRTS),
Err(DecodeError::InvalidOpcode),
Err(DecodeError::InvalidOpcode),
][index as usize]?;
@@ -5892,7 +6407,8 @@ impl Decoder<ARMv8> for InstDecoder {
Operand::SIMDRegister(SIMDSizeCode::H, Rm as u16),
Operand::Nothing,
];
- } else {
+ } else if word & 0b1101_000_11_1100_000100001_0000000000 == 0b0101_000_00_0000_000000001_0000000000 {
+ // check op0, op1, op2, and op3 all at once because i am lazy
// op2 == 00xx
// `Advanced SIMD scalar copy`
let imm4 = (word >> 11) & 0b1111;
@@ -5932,6 +6448,39 @@ impl Decoder<ARMv8> for InstDecoder {
} else {
return Err(DecodeError::InvalidOpcode);
}
+ } else if word & 0b1101_1111_0010_0000_1000_0100_0000_0000 == 0b0101_1110_0000_0000_1000_0100_0000_0000 {
+ // `Advanced SIMD scalar three same extra`
+ let Rd = (word >> 0) & 0b11111;
+ let Rn = (word >> 5) & 0b11111;
+ let Rm = (word >> 16) & 0b11111;
+ let opcode = (word >> 11) & 0b1111;
+ let size = (word >> 22) & 0b11;
+ let u = (word >> 29) & 1;
+
+ if u == 0 || opcode > 0b0001 {
+ return Err(DecodeError::InvalidOpcode);
+ }
+ let size = if size == 0b01 {
+ SIMDSizeCode::H
+ } else if size == 0b10 {
+ SIMDSizeCode::S
+ } else {
+ return Err(DecodeError::InvalidOperand);
+ };
+
+ inst.opcode = if opcode == 0b0000 {
+ Opcode::SQRDMLAH
+ } else {
+ Opcode::SQRDMLSH
+ };
+ inst.operands = [
+ Operand::SIMDRegister(size, Rd as u16),
+ Operand::SIMDRegister(size, Rn as u16),
+ Operand::SIMDRegister(size, Rm as u16),
+ Operand::Nothing,
+ ];
+ } else {
+ return Err(DecodeError::InvalidOpcode);
}
}
} else {
@@ -5967,12 +6516,12 @@ impl Decoder<ARMv8> for InstDecoder {
Opcode::SQRDMLAH
} else {
Opcode::SQRDMULH
- }, OperandKind::DifferentSizes)
+ }, OperandKind::SameSizes)
}
0b1111_0 => (Opcode::SQRDMLSH, OperandKind::DifferentSizes),
0b1001_1 => (Opcode::FMULX, OperandKind::SameSizes),
- 0b1101_1 => (Opcode::SQRDMLAH, OperandKind::DifferentSizes),
- 0b1111_1 => (Opcode::SQRDMLSH, OperandKind::DifferentSizes),
+ 0b1101_1 => (Opcode::SQRDMLAH, OperandKind::SameSizes),
+ 0b1111_1 => (Opcode::SQRDMLSH, OperandKind::SameSizes),
_ => {
return Err(DecodeError::InvalidOpcode);
}
@@ -5991,22 +6540,21 @@ impl Decoder<ARMv8> for InstDecoder {
_ => SIMDSizeCode::D,
};
- let index = match size {
+ let (Rm, index) = match size {
SIMDSizeCode::H => {
- (H << 2) | (L << 1) | M
+ (Rm, (H << 2) | (L << 1) | M)
},
SIMDSizeCode::S => {
- (H << 1) | L
+ (Rm | (M << 4), (H << 1) | L)
}
_ => { /* SIMDSizeCode::D */
if L != 0 {
return Err(DecodeError::InvalidOperand);
}
- H
+ (Rm | (M << 4), H)
}
};
- let Rm = (M << 4) | Rm;
inst.operands = [
Operand::SIMDRegister(size, Rd as u16),
@@ -6366,9 +6914,46 @@ impl Decoder<ARMv8> for InstDecoder {
let opc2 = ((word >> 10) & 0x3f) as u16;
let Rm = ((word >> 16) & 0x1f) as u16;
- if opc2 == 0b000000 {
- inst.opcode = Opcode::Invalid;
- return Err(DecodeError::InvalidOperand);
+ if opc2 != 0b000000 {
+ if opc2 & 0b011111 == 0b000001 {
+ // `Rotate right into flags`
+ if word & 0xe0_00_00_10 != 0xa0_00_00_00 {
+ return Err(DecodeError::InvalidOperand);
+ }
+ let mask = (word >> 0) & 0xf;
+ let imm6 = (word >> 15) & 0x3f;
+
+ inst.opcode = Opcode::RMIF;
+ inst.operands = [
+ Operand::Register(SizeCode::X, Rn),
+ Operand::Imm16(imm6 as u16),
+ Operand::Imm16(mask as u16),
+ Operand::Nothing,
+ ];
+ return Ok(());
+ } else if opc2 & 0b001111 == 0b000010 {
+ // `Evaluate into flags`
+ let sz = (word >> 14) & 1;
+ if word & 0b1111_1111_1111_1111_1011_1100_0001_1111 !=
+ 0b0011_1010_0000_0000_0000_1000_0000_1101 {
+ return Err(DecodeError::InvalidOperand);
+ }
+ inst.opcode = if sz == 0 {
+ Opcode::SETF8
+ } else {
+ Opcode::SETF16
+ };
+ inst.operands = [
+ Operand::Register(SizeCode::W, Rn),
+ Operand::Nothing,
+ Operand::Nothing,
+ Operand::Nothing,
+ ];
+ return Ok(());
+ } else {
+ inst.opcode = Opcode::Invalid;
+ return Err(DecodeError::InvalidOperand);
+ }
}
let size_code = match word >> 29 {
@@ -6591,25 +7176,25 @@ impl Decoder<ARMv8> for InstDecoder {
Err(DecodeError::InvalidOpcode),
Err(DecodeError::InvalidOpcode),
// opcode = 0b01_0000
- Ok((Opcode::CRC32B, SizeCode::X)),
+ Ok((Opcode::CRC32B, SizeCode::W)),
Err(DecodeError::InvalidOpcode),
// opcode = 0b01_0001
- Ok((Opcode::CRC32H, SizeCode::X)),
+ Ok((Opcode::CRC32H, SizeCode::W)),
Err(DecodeError::InvalidOpcode),
// opcode = 0b01_0010
- Ok((Opcode::CRC32W, SizeCode::X)),
+ Ok((Opcode::CRC32W, SizeCode::W)),
Err(DecodeError::InvalidOpcode),
// opcode = 0b01_0011
Err(DecodeError::InvalidOpcode),
Ok((Opcode::CRC32X, SizeCode::X)),
// opcode = 0b01_0100
- Ok((Opcode::CRC32CB, SizeCode::X)),
+ Ok((Opcode::CRC32CB, SizeCode::W)),
Err(DecodeError::InvalidOpcode),
// opcode = 0b01_0101
- Ok((Opcode::CRC32CH, SizeCode::X)),
+ Ok((Opcode::CRC32CH, SizeCode::W)),
Err(DecodeError::InvalidOpcode),
// opcode = 0b01_0110
- Ok((Opcode::CRC32CW, SizeCode::X)),
+ Ok((Opcode::CRC32CW, SizeCode::W)),
Err(DecodeError::InvalidOpcode),
// opcode = 0b01_0111
Err(DecodeError::InvalidOpcode),
@@ -6618,8 +7203,17 @@ impl Decoder<ARMv8> for InstDecoder {
let (opcode, size) = OPCODES.get(combined_idx as usize).cloned().unwrap_or(Err(DecodeError::InvalidOpcode))?;
inst.opcode = opcode;
inst.operands = [
- Operand::Register(size, Rd),
- Operand::Register(size, Rn),
+ // `crc32` instructions always have w-reg dest/source1 operands
+ if combined_idx > 0b01_0000_0 {
+ Operand::Register(SizeCode::W, Rd)
+ } else {
+ Operand::Register(SizeCode::X, Rd)
+ },
+ if combined_idx > 0b01_0000_0 {
+ Operand::Register(SizeCode::W, Rn)
+ } else {
+ Operand::Register(SizeCode::X, Rn)
+ },
Operand::Register(size, Rm),
Operand::Nothing,
];
@@ -6735,7 +7329,7 @@ impl Decoder<ARMv8> for InstDecoder {
Err(DecodeError::InvalidOpcode),
Ok((Opcode::SMSUBL, SizeCode::W, SizeCode::X)),
Err(DecodeError::InvalidOpcode),
- Ok((Opcode::SMULH, SizeCode::W, SizeCode::X)),
+ Ok((Opcode::SMULH, SizeCode::X, SizeCode::X)),
Err(DecodeError::InvalidOpcode),
Err(DecodeError::InvalidOpcode),
Err(DecodeError::InvalidOpcode),
@@ -6765,7 +7359,12 @@ impl Decoder<ARMv8> for InstDecoder {
Operand::Register(dest_size, Rd),
Operand::Register(source_size, Rn),
Operand::Register(source_size, Rm),
- Operand::Register(dest_size, Ra), // in practice these match up with the corresponding operand.
+ if opcode == Opcode::SMULH {
+ Operand::Nothing
+ } else {
+ // in practice these match up with the corresponding operand.
+ Operand::Register(dest_size, Ra)
+ },
];
if opcode == Opcode::UMULH {
inst.operands[3] = Operand::Nothing;
@@ -6838,8 +7437,19 @@ impl Decoder<ARMv8> for InstDecoder {
let option = (word >> 13) & 0x07;
let Rm = ((word >> 16) & 0x1f) as u16;
- inst.operands[0] = Operand::RegisterOrSP(size, Rd);
- inst.operands[1] = Operand::RegisterOrSP(size, Rn);
+ // for `extended register` instructions, sometimes the dest is Rd,
+ // sometimes it's <Rd|xSP>. this depends on if the instruction sets
+ // status flags.
+ inst.operands = [
+ if (word >> 29 & 1) == 0 {
+ Operand::RegisterOrSP(size, Rd)
+ } else {
+ Operand::Register(size, Rd)
+ },
+ Operand::RegisterOrSP(size, Rn),
+ Operand::Nothing,
+ Operand::Nothing,
+ ];
let shift_size = match option {
0b011 |
@@ -7049,7 +7659,11 @@ impl Decoder<ARMv8> for InstDecoder {
};
inst.operands = [
- Operand::RegisterOrSP(size, Rd),
+ if (word >> 29 & 0b11) == 0b11 {
+ Operand::Register(size, Rd)
+ } else {
+ Operand::RegisterOrSP(size, Rd)
+ },
Operand::Register(size, Rn),
match size {
SizeCode::W => Operand::Immediate(docs::DecodeBitMasks_32(N as u8, imms as u8, immr as u8)?.0),
@@ -7648,6 +8262,12 @@ impl Decoder<ARMv8> for InstDecoder {
let (opcode, size) = ENCODINGS[opc_L as usize]?;
inst.opcode = opcode;
+ let scale = if size == SizeCode::W {
+ 2
+ } else {
+ 3
+ };
+
let Rt = (word & 0x1f) as u16;
let Rn = ((word >> 5) & 0x1f) as u16;
let Rt2 = ((word >> 10) & 0x1f) as u16;
@@ -7657,7 +8277,7 @@ impl Decoder<ARMv8> for InstDecoder {
inst.operands = [
Operand::Register(size, Rt),
Operand::Register(size, Rt2),
- Operand::RegPreIndex(Rn, imm7 as i32, true),
+ Operand::RegPreIndex(Rn, (imm7 as i32) << scale, false),
Operand::Nothing,
];
},
@@ -7679,6 +8299,14 @@ impl Decoder<ARMv8> for InstDecoder {
let (opcode, size) = ENCODINGS[opc_L as usize]?;
inst.opcode = opcode;
+ let scale = if size == SIMDSizeCode::S {
+ 2
+ } else if size == SIMDSizeCode::D {
+ 3
+ } else {
+ 4
+ };
+
let Rt = (word & 0x1f) as u16;
let Rn = ((word >> 5) & 0x1f) as u16;
let Rt2 = ((word >> 10) & 0x1f) as u16;
@@ -7688,7 +8316,7 @@ impl Decoder<ARMv8> for InstDecoder {
inst.operands = [
Operand::SIMDRegister(size, Rt),
Operand::SIMDRegister(size, Rt2),
- Operand::RegPreIndex(Rn, imm7 as i32, true),
+ Operand::RegPreIndex(Rn, (imm7 as i32) << scale, false),
Operand::Nothing,
];
},
@@ -8104,13 +8732,16 @@ impl Decoder<ARMv8> for InstDecoder {
Operand::Nothing,
];
} else if opcode == 0b100 {
+ if ar != 0b10 {
+ return Err(DecodeError::InvalidOpcode);
+ }
inst.opcode = if sz == 0b01 {
- Opcode::LDAPRH(ar)
+ Opcode::LDAPRH
} else if sz == 0b00 {
- return Err(DecodeError::InvalidOpcode);
+ Opcode::LDAPRB
} else {
// sz = 1x
- Opcode::LDAPRH(ar)
+ Opcode::LDAPR
};
// TOOD: should_is_must, Rs = 11111
@@ -8159,10 +8790,10 @@ impl Decoder<ARMv8> for InstDecoder {
// Load/store register (register offset)
// C3.3.10
const OPCODES: &[Result<(Opcode, SizeCode, u8), DecodeError>] = &[
- Ok((Opcode::STRB, SizeCode::W, 1)),
- Ok((Opcode::LDRB, SizeCode::W, 1)),
- Ok((Opcode::LDRSB, SizeCode::X, 1)),
- Ok((Opcode::LDRSB, SizeCode::W, 1)),
+ Ok((Opcode::STRB, SizeCode::W, 0)),
+ Ok((Opcode::LDRB, SizeCode::W, 0)),
+ Ok((Opcode::LDRSB, SizeCode::X, 0)),
+ Ok((Opcode::LDRSB, SizeCode::W, 0)),
Ok((Opcode::STRH, SizeCode::W, 1)),
Ok((Opcode::LDRH, SizeCode::W, 1)),
Ok((Opcode::LDRSH, SizeCode::X, 1)),
@@ -8286,7 +8917,7 @@ impl Decoder<ARMv8> for InstDecoder {
inst.operands = [
Operand::Register(size, Rt),
- Operand::RegPreIndex(Rn, imm9 as i32, true),
+ Operand::RegPreIndex(Rn, imm9 as i32, false),
Operand::Nothing,
Operand::Nothing,
];
@@ -8491,7 +9122,7 @@ impl Decoder<ARMv8> for InstDecoder {
let (opcode, size) = OPCODES.get(size_opc as usize).cloned().unwrap_or(Err(DecodeError::InvalidOpcode))?;
let shift_amount = match size {
- SIMDSizeCode::B => 1,
+ SIMDSizeCode::B => 0,
SIMDSizeCode::H => 1,
SIMDSizeCode::S => 2,
SIMDSizeCode::D => 3,
@@ -8786,7 +9417,7 @@ impl Decoder<ARMv8> for InstDecoder {
];
inst.operands = [
Operand::SIMDRegisterGroup(datasize, Rt as u16, SIZES[size as usize], num_regs),
- Operand::RegPostIndex(Rn as u16, 0),
+ Operand::RegOffset(Rn as u16, 0),
Operand::Nothing,
Operand::Nothing,
];
@@ -8917,7 +9548,7 @@ impl Decoder<ARMv8> for InstDecoder {
];
inst.operands = [
Operand::SIMDRegisterGroup(datasize, Rt as u16, SIZES[size as usize], opc_idx as u8 + 1),
- Operand::RegPostIndex(Rn as u16, 0),
+ Operand::RegOffset(Rn as u16, 0),
Operand::Nothing,
Operand::Nothing,
];
@@ -8981,7 +9612,7 @@ impl Decoder<ARMv8> for InstDecoder {
};
inst.operands = [
Operand::SIMDRegisterGroupLane(Rt as u16, item_size, group_size, index as u8),
- Operand::RegPostIndex(Rn as u16, 0),
+ Operand::RegOffset(Rn as u16, 0),
Operand::Nothing,
Operand::Nothing,
];
diff --git a/test/armv8/a64.rs b/test/armv8/a64.rs
index 9b65618..8fad9e6 100644
--- a/test/armv8/a64.rs
+++ b/test/armv8/a64.rs
@@ -4299,6 +4299,7 @@ fn test_indexed() {
([0x8c, 0x12, 0x8e, 0x0f], "fmla v12.2s, v20.2s, v14.s[0]"),
([0xc6, 0x12, 0x8e, 0x0f], "fmla v6.2s, v22.2s, v14.s[0]"),
([0x3c, 0x58, 0xa9, 0x0f], "fmls v28.2s, v1.2s, v9.s[3]"),
+ ([0x00, 0x00, 0x50, 0x2f], "mla v0.4h, v0.4h, v0.h[1]"),
];
let errs = run_tests(TESTS);
@@ -4544,3 +4545,270 @@ fn test_rev64() {
assert!(errs.is_empty());
}
+
+#[test]
+fn test_adds_aliases() {
+ const TESTS: &[([u8; 4], &'static str)] = &[
+ ([0x1f, 0x00, 0x20, 0x2b], "cmn w0, w0, uxtb"),
+ ([0x1f, 0x00, 0x40, 0x2b], "cmn w0, w0, uxtb"),
+ ];
+ let errs = run_tests(TESTS);
+
+ for err in errs.iter() {
+ println!("{}", err);
+ }
+
+ assert!(errs.is_empty());
+}
+
+#[test]
+fn test_mov_aliases() {
+ const TESTS: &[([u8; 4], &'static str)] = &[
+ // does not alias when lsl #12
+ ([0x00, 0x00, 0x40, 0x11], "add w0, w0, #0, lsl #12"),
+ // aliases for unhifted imm
+ ([0x00, 0x00, 0x00, 0x11], "mov w0, w0"),
+ // shift makes this not alias mov
+ ([0xe0, 0x07, 0x00, 0x2a], "orr w0, wzr, w0, lsl #1"),
+ ];
+ let errs = run_tests(TESTS);
+
+ for err in errs.iter() {
+ println!("{}", err);
+ }
+
+ assert!(errs.is_empty());
+}
+
+#[test]
+fn test_sbfm_aliases() {
+ const TESTS: &[([u8; 4], &'static str)] = &[
+ ([0x00, 0x7c, 0x00, 0x13], "asr w0, w0, #0"),
+ ];
+ let errs = run_tests(TESTS);
+
+ for err in errs.iter() {
+ println!("{}", err);
+ }
+
+ assert!(errs.is_empty());
+}
+
+#[test]
+fn test_extr_aliases() {
+ const TESTS: &[([u8; 4], &'static str)] = &[
+ ([0x00, 0x40, 0x80, 0x13], "ror w0, w0, #0x10"),
+ ];
+ let errs = run_tests(TESTS);
+
+ for err in errs.iter() {
+ println!("{}", err);
+ }
+
+ assert!(errs.is_empty());
+}
+
+#[test]
+fn test_armv8_3() {
+ const TESTS: &[([u8; 4], &'static str)] = &[
+ ([0x00, 0x00, 0x7e, 0x1e], "fjcvtzs w0, d0"),
+ ];
+ let errs = run_tests(TESTS);
+
+ for err in errs.iter() {
+ println!("{}", err);
+ }
+
+ assert!(errs.is_empty());
+}
+
+#[test]
+fn test_armv8_4() {
+ const TESTS: &[([u8; 4], &'static str)] = &[
+ ([0x00, 0x00, 0x00, 0x19], "stlurb w0, [x0]"),
+ ];
+ let errs = run_tests(TESTS);
+
+ for err in errs.iter() {
+ println!("{}", err);
+ }
+
+ assert!(errs.is_empty());
+}
+
+#[test]
+fn test_crc() {
+ const TESTS: &[([u8; 4], &'static str)] = &[
+ ([0x00, 0x44, 0xc0, 0x1a], "crc32h w0, w0, w0"),
+ ([0x00, 0x50, 0xc0, 0x1a], "crc32cb w0, w0, w0"),
+ ];
+ let errs = run_tests(TESTS);
+
+ for err in errs.iter() {
+ println!("{}", err);
+ }
+
+ assert!(errs.is_empty());
+}
+
+#[test]
+fn test_stnp() {
+ const TESTS: &[([u8; 4], &'static str)] = &[
+ ([0x00, 0x80, 0x00, 0x28], "stnp w0, w0, [x0, #0x4]"),
+ ([0x00, 0x80, 0x00, 0x2c], "stnp s0, s0, [x0, #0x4]"),
+ ];
+ let errs = run_tests(TESTS);
+
+ for err in errs.iter() {
+ println!("{}", err);
+ }
+
+ assert!(errs.is_empty());
+}
+
+#[test]
+fn test_preindex() {
+ const TESTS: &[([u8; 4], &'static str)] = &[
+ ([0x00, 0x00, 0x80, 0x2d], "stp s0, s0, [x0, #0]!"),
+ ];
+ let errs = run_tests(TESTS);
+
+ for err in errs.iter() {
+ println!("{}", err);
+ }
+
+ assert!(errs.is_empty());
+}
+
+#[test]
+fn test_postindex() {
+ const TESTS: &[([u8; 4], &'static str)] = &[
+ ([0x20, 0x80, 0x81, 0x28], "stp w0, w0, [x1], #0xc"),
+ ];
+ let errs = run_tests(TESTS);
+
+ for err in errs.iter() {
+ println!("{}", err);
+ }
+
+ assert!(errs.is_empty());
+}
+
+#[test]
+fn test_not_vec() {
+ const TESTS: &[([u8; 4], &'static str)] = &[
+ ([0x00, 0x58, 0x20, 0x2e], "mvn v0.8b, v0.8b"), // `not` instruction, aliased to mvn always
+ ];
+ let errs = run_tests(TESTS);
+
+ for err in errs.iter() {
+ println!("{}", err);
+ }
+
+ assert!(errs.is_empty());
+}
+
+#[test]
+fn test_fcmla() {
+ const TESTS: &[([u8; 4], &'static str)] = &[
+ ([0x00, 0xe4, 0x40, 0x2e], "fcadd v0.4h, v0.4h, v0.4h, #0x5a"),
+ ];
+ let errs = run_tests(TESTS);
+
+ for err in errs.iter() {
+ println!("{}", err);
+ }
+
+ assert!(errs.is_empty());
+}
+
+#[test]
+fn test_vec_shift() {
+ const TESTS: &[([u8; 4], &'static str)] = &[
+ ([0x00, 0xe8, 0x21, 0x2e], "shll v0.8h, v0.8h, #0x8"),
+ ];
+ let errs = run_tests(TESTS);
+
+ for err in errs.iter() {
+ println!("{}", err);
+ }
+
+ assert!(errs.is_empty());
+}
+
+#[test]
+fn test_sha() {
+ const TESTS: &[([u8; 4], &'static str)] = &[
+ ([0x00, 0x00, 0x00, 0x5e], "sha1c q0, s0, v0.4s"),
+ ];
+ let errs = run_tests(TESTS);
+
+ for err in errs.iter() {
+ println!("{}", err);
+ }
+
+ assert!(errs.is_empty());
+}
+
+#[test]
+fn test_misc() {
+ const TESTS: &[([u8; 4], &'static str)] = &[
+ ([0x00, 0x98, 0x00, 0x2f], "fmulx v0.4h, v0.4h, v0.h[4]"),
+ ([0x00, 0xc4, 0x00, 0x2f], "mvni v0.2s, #0x0, msl #0x8"),
+ ([0x00, 0xd4, 0x00, 0x2f], "mvni v0.2s, #0x0, msl #0x16"),
+ ([0x00, 0xe0, 0x80, 0x2f], "udot v0.2s, v0.8b, v0.4b[0]"),
+ ([0x00, 0x03, 0x00, 0x32], "orr w0, wzr, #0x1"),
+ ([0x00, 0x00, 0x00, 0x33], "bfxil w0, w0, #0, #1"),
+ ([0xe0, 0x03, 0x00, 0x33], "bfc w0, #0, #1"),
+ ([0x00, 0x00, 0x01, 0x33], "bfi w0, w0, #0x1f, #0x1"),
+ ([0x00, 0x08, 0x00, 0x38], "sttrb w0, [x0]"),
+ ([0x1f, 0x00, 0x20, 0x38], "staddb w0, [x0]"),
+ ([0x00, 0x58, 0x20, 0x38], "strb w0, [x0, w0, uxtw #0x0]"),
+ ([0x00, 0xc0, 0xbf, 0x38], "ldaprb w0, [x0]"),
+ ([0x0d, 0x08, 0x00, 0x3a], "setf8 w0"),
+ ([0x00, 0x58, 0xbf, 0x3c], "str q0, [x0, wzr, uxtw #0x4]"),
+ ([0x00, 0x04, 0x01, 0x4e], "mov v0.16b, v0.b[0]"), // "The alias is always the preferred disassembly."
+ ([0x00, 0x38, 0x20, 0x4e], "suqadd v0.16b, v0.16b"),
+ ([0x00, 0x88, 0x20, 0x4e], "cmgt v0.16b, v0.16b, #0x0"),
+ ([0x00, 0xb8, 0x20, 0x4e], "abs v0.16b, v0.16b"),
+ ([0x00, 0xe0, 0x20, 0x4e], "pmull2 v0.8h, v0.16b, v0.16b"),
+ ([0x00, 0x28, 0x21, 0x4e], "xtn2 v0.16b, v0.8h"),
+ ([0x00, 0x48, 0x28, 0x4e], "aese v0.16b, v0.16b"),
+ ([0x00, 0x84, 0x08, 0x4f], "shrn2 v0.16b, v0.8h, #0x8"),
+ ([0x00, 0x8c, 0x08, 0x4f], "rshrn2 v0.16b, v0.8h, #0x8"),
+ ([0x00, 0x94, 0x08, 0x4f], "sqshrn2 v0.16b, v0.8h, #0x8"),
+ ([0x00, 0x28, 0x40, 0x4f], "smlal2 v0.4s, v0.8h, v0.h[4]"),
+ ([0x00, 0xc0, 0x40, 0x4f], "sqdmulh v0.8h, v0.8h, v0.h[0]"),
+ ([0x00, 0xc0, 0x40, 0x4f], "sqrdmulh v0.8h, v0.8h, v0.h[0]"),
+ ([0x00, 0xe0, 0x80, 0x4f], "sdot v0.4s, v0.16b, v0.4b[0]"),
+ ([0x00, 0x24, 0x40, 0x5e], "fcmeq h0, h0, h0"),
+ ([0x00, 0x88, 0xe0, 0x5e], "cmgt d0, d0, #0x0"),
+ ([0x00, 0xa8, 0xf9, 0x5e], "fcvtps h0, h0"),
+ ([0x00, 0x10, 0x10, 0x5f], "fmla h0,h h0, v0.h[1]"),
+ ([0x00, 0xd0, 0x40, 0x5f], "sqrdmulh h0, h0, v0.h[0]"),
+ ([0x00, 0x10, 0xd0, 0x5f], "fmla d0, d0, v16.d[0]"),
+ ([0x1f, 0x00, 0x20, 0x6b], "cmp w0, w0, uxtb"),
+ ([0x00, 0x78, 0x20, 0x6e], "sqneg v0.16b, v0.16b"),
+ ([0x00, 0xb8, 0x20, 0x6e], "neg v0.16b, v0.16b"),
+ ([0x00, 0x28, 0x21, 0x6e], "sqxtun2 v0.16b, v0.8h"),
+ ([0x1f, 0x00, 0x00, 0x72], "tst w0, #0x1"),
+ ([0x00, 0x84, 0x40, 0x7e], "sqrdmlah h0, h0, h0"),
+ ([0x00, 0xd0, 0x40, 0x7f], "sqrdmlah h0, h0, v0.h[0]"),
+ ([0x00, 0xd0, 0x40, 0x7f], "sqrdmlsh h0, h0, v0.h[0]"),
+ ([0x1f, 0x00, 0x20, 0x8b], "add sp, x0, w0, uxtb"),
+ ([0x00, 0x00, 0x00, 0x00], "add x0, x0, #0x0"),
+ ([0x1f, 0x00, 0x00, 0x91], "mov sp, x0"),
+ ([0x1f, 0x00, 0x00, 0x92], "and sp, x0, #0x100000001"),
+ ([0x00, 0x4c, 0xc0, 0x9a], "crc32x w0, w0, x0"),
+ ([0x00, 0x00, 0x40, 0x9b], "smulh x0, x0, x0"),
+ ([0x00, 0x08, 0x40, 0xce], "sm3ss1 v0.4s, v0.4s, v0.4s, v2.4s"),
+ ([0x00, 0x1c, 0x40, 0xd3], "ubfx x0, x0, #0x0, #0x8"),
+ ];
+ let errs = run_tests(TESTS);
+
+ for err in errs.iter() {
+ println!("{}", err);
+ }
+
+ assert!(errs.is_empty());
+}