diff options
Diffstat (limited to 'src/armv7.rs')
-rw-r--r-- | src/armv7.rs | 141 |
1 files changed, 140 insertions, 1 deletions
diff --git a/src/armv7.rs b/src/armv7.rs index 5f826ac..c2254a5 100644 --- a/src/armv7.rs +++ b/src/armv7.rs @@ -12,6 +12,10 @@ use yaxpeax_arch::{Arch, AddressDiff, Colorize, Decoder, LengthedInstruction, Re mod thumb; // opcode, s, w, cond +/// a struct for the combined display of an opcode and possible suffixes. +/// +/// this includes the opcode, its optional `.s` suffix, optional `.w` suffix, and condition code, +/// if any. pub struct ConditionedOpcode(pub Opcode, pub bool, pub bool, pub ConditionCode); impl Display for ConditionedOpcode { @@ -20,6 +24,9 @@ impl Display for ConditionedOpcode { } } +/// a context impl to display `arm` instructions with no additional context (no symbol name +/// information, offset names, etc). this impl results in `some_instruction.contextualize(...)` +/// displaying an instruction the same way its `Display` impl would. pub struct NoContext; fn reg_name_colorize<Y: YaxColors>(reg: Reg, colors: &Y) -> impl fmt::Display { @@ -850,6 +857,7 @@ impl Display for Opcode { #[derive(Debug, Copy, Clone, PartialEq, Eq)] #[allow(non_camel_case_types)] +#[allow(missing_docs)] pub enum Opcode { Invalid, /* @@ -1088,6 +1096,8 @@ static DATA_PROCESSING_OPCODES: [Opcode; 16] = [ Opcode::MVN ]; +/// a struct describiing a shifted register operand. this is primarily interesting in that it can +/// be translated to a `RegShiftStyle` for further interpretation. #[derive(Debug, PartialEq, Eq, Copy, Clone)] #[repr(transparent)] pub struct RegShift { @@ -1103,26 +1113,37 @@ impl RegShift { } } + /// don't use this. it's for armv7 testing only. + #[doc(hidden)] pub fn from_raw(data: u16) -> Self { RegShift { data } } } +/// an enum describing one of two ways a shifted register operand may be shifted. pub enum RegShiftStyle { + /// a register shifted by an immediate. RegImm(RegImmShift), + /// a register shifted by a register. RegReg(RegRegShift), } +/// a register shifted by a register. #[repr(transparent)] pub struct RegRegShift { data: u16 } +/// the way a shift operation is carried out. #[derive(Debug, PartialEq, Eq, Copy, Clone)] pub enum ShiftStyle { + /// left-shift the value, filling in zeroes. LSL = 0, + /// right-shift the value, filling in zeroes. LSR = 1, + /// arithmetic shift right, filling with the top bit of the value (sign-extending). ASR = 2, + /// rotate-right, filling with bits shifted out of the value. ROR = 3, } @@ -1150,34 +1171,42 @@ impl ShiftStyle { } impl RegRegShift { + /// the general-purpose register, an amount to shift the shiftee. pub fn shifter(&self) -> Reg { Reg::from_u8((self.data >> 8) as u8 & 0b1111) } + /// the way in which this register is shifted. pub fn stype(&self) -> ShiftStyle { ShiftStyle::from((self.data >> 5) as u8 & 0b11) } + /// the general-purpose register to be shifted. pub fn shiftee(&self) -> Reg { Reg::from_u8(self.data as u8 & 0b1111) } } +/// a register shifted by an immediate. #[repr(transparent)] pub struct RegImmShift { data: u16 } impl RegImmShift { + /// the immediate this register is shifted by. pub fn imm(&self) -> u8 { (self.data >> 7) as u8 & 0b11111 } + /// the way in which this register is shifted. pub fn stype(&self) -> ShiftStyle { ShiftStyle::from((self.data >> 5) as u8 & 0b11) } + /// the general-purpose register to be shifted. pub fn shiftee(&self) -> Reg { Reg::from_u8(self.data as u8 & 0b1111) } } +/// a struct describing an `arm` register. #[derive(Copy, Clone, Debug, PartialEq, Eq)] #[repr(transparent)] pub struct Reg { @@ -1252,6 +1281,9 @@ impl Reg { } } + /// create a new `Reg` with the specified number. + /// + /// panics if `bits` is out of range (16 or above). pub fn from_u8(bits: u8) -> Reg { if bits > 0b1111 { panic!("register number out of range"); @@ -1260,11 +1292,13 @@ impl Reg { Reg { bits } } + /// get the number of this register. the returned value will be between 0 and 15. pub fn number(&self) -> u8 { self.bits } } +/// a control register. #[derive(Copy, Clone, Debug, PartialEq, Eq)] #[repr(transparent)] pub struct CReg { @@ -1278,6 +1312,9 @@ impl Display for CReg { } impl CReg { + /// create a new `CReg` with the specified number. + /// + /// panics if `bits` is out of range (16 or above). pub fn from_u8(bits: u8) -> CReg { if bits > 0b1111 { panic!("register number out of range"); @@ -1286,6 +1323,7 @@ impl CReg { CReg { bits } } + /// get the number of this register. the returned value will be between 0 and 15. pub fn number(&self) -> u8 { self.bits } @@ -1331,6 +1369,7 @@ impl Display for StatusRegMask { #[derive(Clone, Copy, Debug, PartialEq, Eq)] #[allow(non_camel_case_types)] +#[allow(missing_docs)] pub enum StatusRegMask { // Note 0b0000 is unused (as is 0b10000) CPSR_C = 0b0001, @@ -1409,36 +1448,82 @@ impl StatusRegMask { } } +/// an operand in an `arm` instruction. #[derive(Clone, Copy, Debug, PartialEq, Eq)] pub enum Operand { + /// a general-purpose register. Reg(Reg), + /// a general-purpose register, with writeback. these generally imply an increment by width of + /// a memort operand, depending on the instruction. RegWBack(Reg, bool), + /// a list of registers specified as a bitmask from bits 0 to 15. RegList(u16), + /// a memory access, dereferencing a general-purpose register. RegDeref(Reg), + /// a memory access, dereferencing a shifted general-purpose register with register or + /// immediate offset. RegShift(RegShift), + /// a memory access of a register, post-indexed a register shifted by register or immediate. + /// the first bool indicates if the shifted-register is added or subtracted ot the base + /// register, while the second bool indicates if the resulting address is written back to the + /// base register. RegDerefPostindexRegShift(Reg, RegShift, bool, bool), // add/sub, wback + /// a memory access of a register, pre-indexed with a register shifted by register or + /// immediate. the first bool indicates if the shifted-register is added or subtracted ot the + /// base register, while the second bool indicates if the resulting address is written back to + /// the base register. RegDerefPreindexRegShift(Reg, RegShift, bool, bool), // add/sub, wback + /// a memory access of a register, post-indexed with an immediate. the first bool indicates if + /// the shifted-register is added or subtracted ot the base register, while the second bool + /// indicates if the resulting address is written back to the base register. RegDerefPostindexOffset(Reg, u16, bool, bool), // add/sub, wback + /// a memory access of a register, pre-indexed with an immediate. the first bool indicates if + /// the shifted-register is added or subtracted ot the base register, while the second bool + /// indicates if the resulting address is written back to the base register. RegDerefPreindexOffset(Reg, u16, bool, bool), // add/sub, wback + /// a memory access of a register, post-indexed with a register. the first bool indicates if the + /// shifted-register is added or subtracted ot the base register, while the second bool + /// indicates if the resulting address is written back to the base register. RegDerefPostindexReg(Reg, Reg, bool, bool), // add/sub, wback + /// a memory access of a register, pre-indexed with a register. the first bool indicates if the + /// shifted-register is added or subtracted ot the base register, while the second bool + /// indicates if the resulting address is written back to the base register. RegDerefPreindexReg(Reg, Reg, bool, bool), // add/sub, wback + /// a 12-bit immediate, stored in a `u16`. Imm12(u16), + /// a 32-bit immediate, stored in a `u32`. Imm32(u32), + /// a pc-relative branch, with 32-bit signed offset, left-shifted by 2. BranchOffset(i32), + /// a pc-relative branch, with 32-bit signed offset, left-shifted by 1. BranchThumbOffset(i32), + /// a coprocessor index. Coprocessor(u8), + /// a coprocessor option number. CoprocOption(u8), + /// an `arm` control register. CReg(CReg), + /// an `arm` banked register, either `usr` (general-purpose) bank or one of the alternate sets + /// of `arm` registers. BankedReg(Bank, Reg), + /// `spsr` in some `arm` register bank. BankedSPSR(Bank), + /// a mask of bits for the `spsr` register. StatusRegMask(StatusRegMask), + /// the `apsr` register. APSR, + /// the `spsr` register. SPSR, + /// the `cpsr` register. CPSR, + /// "no operand". since an instruction's `operands` array is always four entries, this is used + /// to fill space, if any, after recording an instruction's extant operands. Nothing, } +/// a register bank for a register in `armv7` or below. #[derive(Debug, Copy, Clone, PartialEq, Eq)] +#[allow(missing_docs)] pub enum Bank { Usr, Fiq, @@ -1551,10 +1636,16 @@ impl <T: fmt::Write, Y: YaxColors> Colorize<T, Y> for Operand { } } +/// a `armv7` or below instruction. #[derive(Debug, PartialEq, Eq)] pub struct Instruction { + /// the condition code for this instruction, defaults to `AL` if the instruction is + /// unconditional. pub condition: ConditionCode, + /// the opcode of this instruction. pub opcode: Opcode, + /// operands for the decoded instruction. operands are populated from index 0, to 1, 2, and 3. + /// operands from the instruction are non-`Operand::Nothing`. pub operands: [Operand; 4], /// does this instruction update flags, while variants that do not update flags exist? pub s: bool, @@ -1566,14 +1657,28 @@ pub struct Instruction { pub thumb: bool, } +/// the kinds of errors possibly encountered in trying to decode an `armv7` or below instruction. #[derive(Debug, PartialEq, Copy, Clone)] pub enum DecodeError { + /// the input was insufficient to decode a full instruction. for non-thumb instructions, this means + /// the input was not at least four bytes long. for thumb instructions, the input was either + /// not two bytes, or not four bytes, depending on how much the instruction would need. ExhaustedInput, + /// the instruction encodes an opcode that is not valid. InvalidOpcode, + /// the instruction encodes an operand that is not valid. InvalidOperand, + /// `yaxpeax-arm` doesn't know how to decode this, but it may be a valid instruction. the + /// instruction decoder is not complete, sorry. :( + /// + /// in practice this typically indicates some kinds of coprocessor instruction, or `ARMv7` SIMD + /// instruction. Incomplete, + /// the instruction includes reserved bits that were not set as required. Nonconforming, + /// the input encodes an instruction that is explicitly undefined. Undefined, + /// the input encodes an instruction with unpredictable behavior. Unpredictable, } @@ -1641,18 +1746,23 @@ impl Instruction { fn set_s(&mut self, value: bool) { self.s = value; } + /// does this instruction set status flags? pub fn s(&self) -> bool { self.s } pub(crate) fn set_w(&mut self, value: bool) { self.thumb_w = value; } + /// was this instruction encoded in `thumb` mode and still 4 bytes, *and* requires a `.w` + /// suffix on the opcode? pub fn w(&self) -> bool { self.thumb_w } pub(crate) fn set_wide(&mut self, value: bool) { self.wide = value; } + /// was this instruction encoded in `thumb` mode and still 4 bytes? pub fn wide(&self) -> bool { self.wide } pub(crate) fn set_thumb(&mut self, value: bool) { self.thumb = value; } + /// was this instruction encoded in `thumb` mode? pub fn thumb(&self) -> bool { self.thumb } } @@ -1769,7 +1879,9 @@ impl LengthedInstruction for Instruction { } } +/// a condition code for am `armv7` or below instruction. #[derive(Copy, Clone, Debug, PartialEq, Eq)] +#[allow(missing_docs)] pub enum ConditionCode { EQ, NE, @@ -1811,7 +1923,7 @@ impl Display for ConditionCode { } impl ConditionCode { - pub fn build(value: u8) -> ConditionCode { + fn build(value: u8) -> ConditionCode { match value { 0b0000 => ConditionCode::EQ, 0b0001 => ConditionCode::NE, @@ -1918,6 +2030,14 @@ impl Default for ARMVersion { } // nothing checks/rejects by arm version yet, but.. soon.... +/// a struct with decode configuration for `ARMv7` and below. the same decoder is used for `thumb` +/// and non-`thumb` modes, and the same instruction struct is used for decoded instructions in +/// either mode. +/// +/// NOTE: helper functions here create `InstDecoder` for specific revisions, extensions, or lack +/// thereof, in the supported instruction set. `yaxpeax-arm` does not actually honor these settings +/// yet. this means any `InstDecoder` will decode all known instructions through the latest `ARMv7` +/// extensions. #[allow(unused)] #[derive(Debug)] pub struct InstDecoder { @@ -1939,19 +2059,28 @@ impl Default for InstDecoder { } impl InstDecoder { + /// set the decoder to decoding in thumb mode as the specified bool provides; `true` means + /// "yes, decode in `thumb` mode", where `false` means to decode as a normal `arm` instruction. pub fn set_thumb_mode(&mut self, thumb: bool) { self.thumb = thumb; } + /// set the decoder to decoding in thumb mode as the specified bool provides; `true` means + /// "yes, decode in `thumb` mode", where `false` means to decode as a normal `arm` instruction. + /// + /// (this consumes and returns the `InstDecoder` to support use in chained calls.)` pub fn with_thumb_mode(mut self, thumb: bool) -> Self { self.set_thumb_mode(thumb); self } + /// initialize a new `arm` `InstDecoder` with default ("everything") support, but in `thumb` + /// mode. pub fn default_thumb() -> Self { Self::default().with_thumb_mode(true) } + /// create an `InstDecoder` that supports only instructions through to `ARMv4`. pub fn armv4() -> Self { Self { mode: DecodeMode::Any, @@ -1961,6 +2090,7 @@ impl InstDecoder { } } + /// create an `InstDecoder` that supports only instructions through to `ARMv5`. pub fn armv5() -> Self { Self { mode: DecodeMode::Any, @@ -1970,6 +2100,7 @@ impl InstDecoder { } } + /// create an `InstDecoder` that supports only instructions through to `ARMv6`. pub fn armv6() -> Self { Self { mode: DecodeMode::Any, @@ -1979,6 +2110,7 @@ impl InstDecoder { } } + /// create an `InstDecoder` that supports only instructions through to `ARMv6t2`. pub fn armv6t2() -> Self { Self { mode: DecodeMode::Any, @@ -1988,6 +2120,7 @@ impl InstDecoder { } } + /// create an `InstDecoder` that supports only instructions through to `ARMv6t2` in thumb mode. pub fn armv6t2_thumb() -> Self { Self { mode: DecodeMode::Any, @@ -1997,6 +2130,7 @@ impl InstDecoder { } } + /// create an `InstDecoder` that supports only instructions through to `ARMv7`. pub fn armv7() -> Self { Self { mode: DecodeMode::Any, @@ -2006,6 +2140,7 @@ impl InstDecoder { } } + /// create an `InstDecoder` that supports only instructions through to `ARMv7` in thumb mode. pub fn armv7_thumb() -> Self { Self { mode: DecodeMode::Any, @@ -2015,6 +2150,7 @@ impl InstDecoder { } } + /// create an `InstDecoder` that supports only instructions through to `ARMv7ve`. pub fn armv7ve() -> Self { Self { mode: DecodeMode::Any, @@ -2024,6 +2160,7 @@ impl InstDecoder { } } + /// create an `InstDecoder` that supports only instructions through to `ARMv7ve` in thumb mode. pub fn armv7ve_thumb() -> Self { Self { mode: DecodeMode::Any, @@ -2033,6 +2170,7 @@ impl InstDecoder { } } + /// create an `InstDecoder` that supports only instructions through to `ARMv7vese`. pub fn armv7vese() -> Self { Self { mode: DecodeMode::Any, @@ -3709,6 +3847,7 @@ impl Decoder<ARMv7> for InstDecoder { } } +/// a struct with a summary of the `ARMv7` instruction set in an associated `impl Arch for ARMv7`. #[cfg_attr(feature="use-serde", derive(Serialize, Deserialize))] #[derive(Debug)] pub struct ARMv7; |