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Diffstat (limited to 'vendor/gimli/src/write/cfi.rs')
-rw-r--r-- | vendor/gimli/src/write/cfi.rs | 1050 |
1 files changed, 1050 insertions, 0 deletions
diff --git a/vendor/gimli/src/write/cfi.rs b/vendor/gimli/src/write/cfi.rs new file mode 100644 index 0000000..5e108f1 --- /dev/null +++ b/vendor/gimli/src/write/cfi.rs @@ -0,0 +1,1050 @@ +use alloc::vec::Vec; +use indexmap::IndexSet; +use std::ops::{Deref, DerefMut}; + +use crate::common::{DebugFrameOffset, EhFrameOffset, Encoding, Format, Register, SectionId}; +use crate::constants; +use crate::write::{Address, BaseId, Error, Expression, Result, Section, Writer}; + +define_section!( + DebugFrame, + DebugFrameOffset, + "A writable `.debug_frame` section." +); + +define_section!(EhFrame, EhFrameOffset, "A writable `.eh_frame` section."); + +define_id!(CieId, "An identifier for a CIE in a `FrameTable`."); + +/// A table of frame description entries. +#[derive(Debug, Default)] +pub struct FrameTable { + /// Base id for CIEs. + base_id: BaseId, + /// The common information entries. + cies: IndexSet<CommonInformationEntry>, + /// The frame description entries. + fdes: Vec<(CieId, FrameDescriptionEntry)>, +} + +impl FrameTable { + /// Add a CIE and return its id. + /// + /// If the CIE already exists, then return the id of the existing CIE. + pub fn add_cie(&mut self, cie: CommonInformationEntry) -> CieId { + let (index, _) = self.cies.insert_full(cie); + CieId::new(self.base_id, index) + } + + /// The number of CIEs. + pub fn cie_count(&self) -> usize { + self.cies.len() + } + + /// Add a FDE. + /// + /// Does not check for duplicates. + /// + /// # Panics + /// + /// Panics if the CIE id is invalid. + pub fn add_fde(&mut self, cie: CieId, fde: FrameDescriptionEntry) { + debug_assert_eq!(self.base_id, cie.base_id); + self.fdes.push((cie, fde)); + } + + /// The number of FDEs. + pub fn fde_count(&self) -> usize { + self.fdes.len() + } + + /// Write the frame table entries to the given `.debug_frame` section. + pub fn write_debug_frame<W: Writer>(&self, w: &mut DebugFrame<W>) -> Result<()> { + self.write(&mut w.0, false) + } + + /// Write the frame table entries to the given `.eh_frame` section. + pub fn write_eh_frame<W: Writer>(&self, w: &mut EhFrame<W>) -> Result<()> { + self.write(&mut w.0, true) + } + + fn write<W: Writer>(&self, w: &mut W, eh_frame: bool) -> Result<()> { + let mut cie_offsets = vec![None; self.cies.len()]; + for (cie_id, fde) in &self.fdes { + let cie_index = cie_id.index; + let cie = self.cies.get_index(cie_index).unwrap(); + let cie_offset = match cie_offsets[cie_index] { + Some(offset) => offset, + None => { + // Only write CIEs as they are referenced. + let offset = cie.write(w, eh_frame)?; + cie_offsets[cie_index] = Some(offset); + offset + } + }; + + fde.write(w, eh_frame, cie_offset, cie)?; + } + // TODO: write length 0 terminator for eh_frame? + Ok(()) + } +} + +/// A common information entry. This contains information that is shared between FDEs. +#[derive(Debug, Clone, PartialEq, Eq, Hash)] +pub struct CommonInformationEntry { + encoding: Encoding, + + /// A constant that is factored out of code offsets. + /// + /// This should be set to the minimum instruction length. + /// Writing a code offset that is not a multiple of this factor will generate an error. + code_alignment_factor: u8, + + /// A constant that is factored out of data offsets. + /// + /// This should be set to the minimum data alignment for the frame. + /// Writing a data offset that is not a multiple of this factor will generate an error. + data_alignment_factor: i8, + + /// The return address register. This might not correspond to an actual machine register. + return_address_register: Register, + + /// The address of the personality function and its encoding. + pub personality: Option<(constants::DwEhPe, Address)>, + + /// The encoding to use for the LSDA address in FDEs. + /// + /// If set then all FDEs which use this CIE must have a LSDA address. + pub lsda_encoding: Option<constants::DwEhPe>, + + /// The encoding to use for addresses in FDEs. + pub fde_address_encoding: constants::DwEhPe, + + /// True for signal trampolines. + pub signal_trampoline: bool, + + /// The initial instructions upon entry to this function. + instructions: Vec<CallFrameInstruction>, +} + +impl CommonInformationEntry { + /// Create a new common information entry. + /// + /// The encoding version must be a CFI version, not a DWARF version. + pub fn new( + encoding: Encoding, + code_alignment_factor: u8, + data_alignment_factor: i8, + return_address_register: Register, + ) -> Self { + CommonInformationEntry { + encoding, + code_alignment_factor, + data_alignment_factor, + return_address_register, + personality: None, + lsda_encoding: None, + fde_address_encoding: constants::DW_EH_PE_absptr, + signal_trampoline: false, + instructions: Vec::new(), + } + } + + /// Add an initial instruction. + pub fn add_instruction(&mut self, instruction: CallFrameInstruction) { + self.instructions.push(instruction); + } + + fn has_augmentation(&self) -> bool { + self.personality.is_some() + || self.lsda_encoding.is_some() + || self.signal_trampoline + || self.fde_address_encoding != constants::DW_EH_PE_absptr + } + + /// Returns the section offset of the CIE. + fn write<W: Writer>(&self, w: &mut W, eh_frame: bool) -> Result<usize> { + let encoding = self.encoding; + let offset = w.len(); + + let length_offset = w.write_initial_length(encoding.format)?; + let length_base = w.len(); + + if eh_frame { + w.write_u32(0)?; + } else { + match encoding.format { + Format::Dwarf32 => w.write_u32(0xffff_ffff)?, + Format::Dwarf64 => w.write_u64(0xffff_ffff_ffff_ffff)?, + } + } + + if eh_frame { + if encoding.version != 1 { + return Err(Error::UnsupportedVersion(encoding.version)); + }; + } else { + match encoding.version { + 1 | 3 | 4 => {} + _ => return Err(Error::UnsupportedVersion(encoding.version)), + }; + } + w.write_u8(encoding.version as u8)?; + + let augmentation = self.has_augmentation(); + if augmentation { + w.write_u8(b'z')?; + if self.lsda_encoding.is_some() { + w.write_u8(b'L')?; + } + if self.personality.is_some() { + w.write_u8(b'P')?; + } + if self.fde_address_encoding != constants::DW_EH_PE_absptr { + w.write_u8(b'R')?; + } + if self.signal_trampoline { + w.write_u8(b'S')?; + } + } + w.write_u8(0)?; + + if encoding.version >= 4 { + w.write_u8(encoding.address_size)?; + // TODO: segment_selector_size + w.write_u8(0)?; + } + + w.write_uleb128(self.code_alignment_factor.into())?; + w.write_sleb128(self.data_alignment_factor.into())?; + + if !eh_frame && encoding.version == 1 { + let register = self.return_address_register.0 as u8; + if u16::from(register) != self.return_address_register.0 { + return Err(Error::ValueTooLarge); + } + w.write_u8(register)?; + } else { + w.write_uleb128(self.return_address_register.0.into())?; + } + + if augmentation { + let augmentation_length_offset = w.len(); + w.write_u8(0)?; + let augmentation_length_base = w.len(); + + if let Some(eh_pe) = self.lsda_encoding { + w.write_u8(eh_pe.0)?; + } + if let Some((eh_pe, address)) = self.personality { + w.write_u8(eh_pe.0)?; + w.write_eh_pointer(address, eh_pe, encoding.address_size)?; + } + if self.fde_address_encoding != constants::DW_EH_PE_absptr { + w.write_u8(self.fde_address_encoding.0)?; + } + + let augmentation_length = (w.len() - augmentation_length_base) as u64; + debug_assert!(augmentation_length < 0x80); + w.write_udata_at(augmentation_length_offset, augmentation_length, 1)?; + } + + for instruction in &self.instructions { + instruction.write(w, encoding, self)?; + } + + write_nop( + w, + encoding.format.word_size() as usize + w.len() - length_base, + encoding.address_size, + )?; + + let length = (w.len() - length_base) as u64; + w.write_initial_length_at(length_offset, length, encoding.format)?; + + Ok(offset) + } +} + +/// A frame description entry. There should be one FDE per function. +#[derive(Debug, Clone, PartialEq, Eq)] +pub struct FrameDescriptionEntry { + /// The initial address of the function. + address: Address, + + /// The length in bytes of the function. + length: u32, + + /// The address of the LSDA. + pub lsda: Option<Address>, + + /// The instructions for this function, ordered by offset. + instructions: Vec<(u32, CallFrameInstruction)>, +} + +impl FrameDescriptionEntry { + /// Create a new frame description entry for a function. + pub fn new(address: Address, length: u32) -> Self { + FrameDescriptionEntry { + address, + length, + lsda: None, + instructions: Vec::new(), + } + } + + /// Add an instruction. + /// + /// Instructions must be added in increasing order of offset, or writing will fail. + pub fn add_instruction(&mut self, offset: u32, instruction: CallFrameInstruction) { + debug_assert!(self.instructions.last().map(|x| x.0).unwrap_or(0) <= offset); + self.instructions.push((offset, instruction)); + } + + fn write<W: Writer>( + &self, + w: &mut W, + eh_frame: bool, + cie_offset: usize, + cie: &CommonInformationEntry, + ) -> Result<()> { + let encoding = cie.encoding; + let length_offset = w.write_initial_length(encoding.format)?; + let length_base = w.len(); + + if eh_frame { + // .eh_frame uses a relative offset which doesn't need relocation. + w.write_udata((w.len() - cie_offset) as u64, 4)?; + } else { + w.write_offset( + cie_offset, + SectionId::DebugFrame, + encoding.format.word_size(), + )?; + } + + if cie.fde_address_encoding != constants::DW_EH_PE_absptr { + w.write_eh_pointer( + self.address, + cie.fde_address_encoding, + encoding.address_size, + )?; + w.write_eh_pointer_data( + self.length.into(), + cie.fde_address_encoding.format(), + encoding.address_size, + )?; + } else { + w.write_address(self.address, encoding.address_size)?; + w.write_udata(self.length.into(), encoding.address_size)?; + } + + if cie.has_augmentation() { + let mut augmentation_length = 0u64; + if self.lsda.is_some() { + augmentation_length += u64::from(encoding.address_size); + } + w.write_uleb128(augmentation_length)?; + + debug_assert_eq!(self.lsda.is_some(), cie.lsda_encoding.is_some()); + if let (Some(lsda), Some(lsda_encoding)) = (self.lsda, cie.lsda_encoding) { + w.write_eh_pointer(lsda, lsda_encoding, encoding.address_size)?; + } + } + + let mut prev_offset = 0; + for (offset, instruction) in &self.instructions { + write_advance_loc(w, cie.code_alignment_factor, prev_offset, *offset)?; + prev_offset = *offset; + instruction.write(w, encoding, cie)?; + } + + write_nop( + w, + encoding.format.word_size() as usize + w.len() - length_base, + encoding.address_size, + )?; + + let length = (w.len() - length_base) as u64; + w.write_initial_length_at(length_offset, length, encoding.format)?; + + Ok(()) + } +} + +/// An instruction in a frame description entry. +/// +/// This may be a CFA definition, a register rule, or some other directive. +#[derive(Debug, Clone, PartialEq, Eq, Hash)] +#[non_exhaustive] +pub enum CallFrameInstruction { + /// Define the CFA rule to use the provided register and offset. + Cfa(Register, i32), + /// Update the CFA rule to use the provided register. The offset is unchanged. + CfaRegister(Register), + /// Update the CFA rule to use the provided offset. The register is unchanged. + CfaOffset(i32), + /// Define the CFA rule to use the provided expression. + CfaExpression(Expression), + + /// Restore the initial rule for the register. + Restore(Register), + /// The previous value of the register is not recoverable. + Undefined(Register), + /// The register has not been modified. + SameValue(Register), + /// The previous value of the register is saved at address CFA + offset. + Offset(Register, i32), + /// The previous value of the register is CFA + offset. + ValOffset(Register, i32), + /// The previous value of the register is stored in another register. + Register(Register, Register), + /// The previous value of the register is saved at address given by the expression. + Expression(Register, Expression), + /// The previous value of the register is given by the expression. + ValExpression(Register, Expression), + + /// Push all register rules onto a stack. + RememberState, + /// Pop all register rules off the stack. + RestoreState, + /// The size of the arguments that have been pushed onto the stack. + ArgsSize(u32), + + /// AAarch64 extension: negate the `RA_SIGN_STATE` pseudo-register. + NegateRaState, +} + +impl CallFrameInstruction { + fn write<W: Writer>( + &self, + w: &mut W, + encoding: Encoding, + cie: &CommonInformationEntry, + ) -> Result<()> { + match *self { + CallFrameInstruction::Cfa(register, offset) => { + if offset < 0 { + let offset = factored_data_offset(offset, cie.data_alignment_factor)?; + w.write_u8(constants::DW_CFA_def_cfa_sf.0)?; + w.write_uleb128(register.0.into())?; + w.write_sleb128(offset.into())?; + } else { + // Unfactored offset. + w.write_u8(constants::DW_CFA_def_cfa.0)?; + w.write_uleb128(register.0.into())?; + w.write_uleb128(offset as u64)?; + } + } + CallFrameInstruction::CfaRegister(register) => { + w.write_u8(constants::DW_CFA_def_cfa_register.0)?; + w.write_uleb128(register.0.into())?; + } + CallFrameInstruction::CfaOffset(offset) => { + if offset < 0 { + let offset = factored_data_offset(offset, cie.data_alignment_factor)?; + w.write_u8(constants::DW_CFA_def_cfa_offset_sf.0)?; + w.write_sleb128(offset.into())?; + } else { + // Unfactored offset. + w.write_u8(constants::DW_CFA_def_cfa_offset.0)?; + w.write_uleb128(offset as u64)?; + } + } + CallFrameInstruction::CfaExpression(ref expression) => { + w.write_u8(constants::DW_CFA_def_cfa_expression.0)?; + w.write_uleb128(expression.size(encoding, None) as u64)?; + expression.write(w, None, encoding, None)?; + } + CallFrameInstruction::Restore(register) => { + if register.0 < 0x40 { + w.write_u8(constants::DW_CFA_restore.0 | register.0 as u8)?; + } else { + w.write_u8(constants::DW_CFA_restore_extended.0)?; + w.write_uleb128(register.0.into())?; + } + } + CallFrameInstruction::Undefined(register) => { + w.write_u8(constants::DW_CFA_undefined.0)?; + w.write_uleb128(register.0.into())?; + } + CallFrameInstruction::SameValue(register) => { + w.write_u8(constants::DW_CFA_same_value.0)?; + w.write_uleb128(register.0.into())?; + } + CallFrameInstruction::Offset(register, offset) => { + let offset = factored_data_offset(offset, cie.data_alignment_factor)?; + if offset < 0 { + w.write_u8(constants::DW_CFA_offset_extended_sf.0)?; + w.write_uleb128(register.0.into())?; + w.write_sleb128(offset.into())?; + } else if register.0 < 0x40 { + w.write_u8(constants::DW_CFA_offset.0 | register.0 as u8)?; + w.write_uleb128(offset as u64)?; + } else { + w.write_u8(constants::DW_CFA_offset_extended.0)?; + w.write_uleb128(register.0.into())?; + w.write_uleb128(offset as u64)?; + } + } + CallFrameInstruction::ValOffset(register, offset) => { + let offset = factored_data_offset(offset, cie.data_alignment_factor)?; + if offset < 0 { + w.write_u8(constants::DW_CFA_val_offset_sf.0)?; + w.write_uleb128(register.0.into())?; + w.write_sleb128(offset.into())?; + } else { + w.write_u8(constants::DW_CFA_val_offset.0)?; + w.write_uleb128(register.0.into())?; + w.write_uleb128(offset as u64)?; + } + } + CallFrameInstruction::Register(register1, register2) => { + w.write_u8(constants::DW_CFA_register.0)?; + w.write_uleb128(register1.0.into())?; + w.write_uleb128(register2.0.into())?; + } + CallFrameInstruction::Expression(register, ref expression) => { + w.write_u8(constants::DW_CFA_expression.0)?; + w.write_uleb128(register.0.into())?; + w.write_uleb128(expression.size(encoding, None) as u64)?; + expression.write(w, None, encoding, None)?; + } + CallFrameInstruction::ValExpression(register, ref expression) => { + w.write_u8(constants::DW_CFA_val_expression.0)?; + w.write_uleb128(register.0.into())?; + w.write_uleb128(expression.size(encoding, None) as u64)?; + expression.write(w, None, encoding, None)?; + } + CallFrameInstruction::RememberState => { + w.write_u8(constants::DW_CFA_remember_state.0)?; + } + CallFrameInstruction::RestoreState => { + w.write_u8(constants::DW_CFA_restore_state.0)?; + } + CallFrameInstruction::ArgsSize(size) => { + w.write_u8(constants::DW_CFA_GNU_args_size.0)?; + w.write_uleb128(size.into())?; + } + CallFrameInstruction::NegateRaState => { + w.write_u8(constants::DW_CFA_AARCH64_negate_ra_state.0)?; + } + } + Ok(()) + } +} + +fn write_advance_loc<W: Writer>( + w: &mut W, + code_alignment_factor: u8, + prev_offset: u32, + offset: u32, +) -> Result<()> { + if offset == prev_offset { + return Ok(()); + } + let delta = factored_code_delta(prev_offset, offset, code_alignment_factor)?; + if delta < 0x40 { + w.write_u8(constants::DW_CFA_advance_loc.0 | delta as u8)?; + } else if delta < 0x100 { + w.write_u8(constants::DW_CFA_advance_loc1.0)?; + w.write_u8(delta as u8)?; + } else if delta < 0x10000 { + w.write_u8(constants::DW_CFA_advance_loc2.0)?; + w.write_u16(delta as u16)?; + } else { + w.write_u8(constants::DW_CFA_advance_loc4.0)?; + w.write_u32(delta)?; + } + Ok(()) +} + +fn write_nop<W: Writer>(w: &mut W, len: usize, align: u8) -> Result<()> { + debug_assert_eq!(align & (align - 1), 0); + let tail_len = (!len + 1) & (align as usize - 1); + for _ in 0..tail_len { + w.write_u8(constants::DW_CFA_nop.0)?; + } + Ok(()) +} + +fn factored_code_delta(prev_offset: u32, offset: u32, factor: u8) -> Result<u32> { + if offset < prev_offset { + return Err(Error::InvalidFrameCodeOffset(offset)); + } + let delta = offset - prev_offset; + let factor = u32::from(factor); + let factored_delta = delta / factor; + if delta != factored_delta * factor { + return Err(Error::InvalidFrameCodeOffset(offset)); + } + Ok(factored_delta) +} + +fn factored_data_offset(offset: i32, factor: i8) -> Result<i32> { + let factor = i32::from(factor); + let factored_offset = offset / factor; + if offset != factored_offset * factor { + return Err(Error::InvalidFrameDataOffset(offset)); + } + Ok(factored_offset) +} + +#[cfg(feature = "read")] +pub(crate) mod convert { + use super::*; + use crate::read::{self, Reader}; + use crate::write::{ConvertError, ConvertResult}; + use std::collections::{hash_map, HashMap}; + + impl FrameTable { + /// Create a frame table by reading the data in the given section. + /// + /// `convert_address` is a function to convert read addresses into the `Address` + /// type. For non-relocatable addresses, this function may simply return + /// `Address::Constant(address)`. For relocatable addresses, it is the caller's + /// responsibility to determine the symbol and addend corresponding to the address + /// and return `Address::Symbol { symbol, addend }`. + pub fn from<R, Section>( + frame: &Section, + convert_address: &dyn Fn(u64) -> Option<Address>, + ) -> ConvertResult<FrameTable> + where + R: Reader<Offset = usize>, + Section: read::UnwindSection<R>, + Section::Offset: read::UnwindOffset<usize>, + { + let bases = read::BaseAddresses::default().set_eh_frame(0); + + let mut frame_table = FrameTable::default(); + + let mut cie_ids = HashMap::new(); + let mut entries = frame.entries(&bases); + while let Some(entry) = entries.next()? { + let partial = match entry { + read::CieOrFde::Cie(_) => continue, + read::CieOrFde::Fde(partial) => partial, + }; + + // TODO: is it worth caching the parsed CIEs? It would be better if FDEs only + // stored a reference. + let from_fde = partial.parse(Section::cie_from_offset)?; + let from_cie = from_fde.cie(); + let cie_id = match cie_ids.entry(from_cie.offset()) { + hash_map::Entry::Occupied(o) => *o.get(), + hash_map::Entry::Vacant(e) => { + let cie = + CommonInformationEntry::from(from_cie, frame, &bases, convert_address)?; + let cie_id = frame_table.add_cie(cie); + e.insert(cie_id); + cie_id + } + }; + let fde = FrameDescriptionEntry::from(&from_fde, frame, &bases, convert_address)?; + frame_table.add_fde(cie_id, fde); + } + + Ok(frame_table) + } + } + + impl CommonInformationEntry { + fn from<R, Section>( + from_cie: &read::CommonInformationEntry<R>, + frame: &Section, + bases: &read::BaseAddresses, + convert_address: &dyn Fn(u64) -> Option<Address>, + ) -> ConvertResult<CommonInformationEntry> + where + R: Reader<Offset = usize>, + Section: read::UnwindSection<R>, + Section::Offset: read::UnwindOffset<usize>, + { + let mut cie = CommonInformationEntry::new( + from_cie.encoding(), + from_cie.code_alignment_factor() as u8, + from_cie.data_alignment_factor() as i8, + from_cie.return_address_register(), + ); + + cie.personality = match from_cie.personality_with_encoding() { + // We treat these the same because the encoding already determines + // whether it is indirect. + Some((eh_pe, read::Pointer::Direct(p))) + | Some((eh_pe, read::Pointer::Indirect(p))) => { + let address = convert_address(p).ok_or(ConvertError::InvalidAddress)?; + Some((eh_pe, address)) + } + _ => None, + }; + cie.lsda_encoding = from_cie.lsda_encoding(); + cie.fde_address_encoding = from_cie + .fde_address_encoding() + .unwrap_or(constants::DW_EH_PE_absptr); + cie.signal_trampoline = from_cie.is_signal_trampoline(); + + let mut offset = 0; + let mut from_instructions = from_cie.instructions(frame, bases); + while let Some(from_instruction) = from_instructions.next()? { + if let Some(instruction) = CallFrameInstruction::from( + from_instruction, + from_cie, + convert_address, + &mut offset, + )? { + cie.instructions.push(instruction); + } + } + Ok(cie) + } + } + + impl FrameDescriptionEntry { + fn from<R, Section>( + from_fde: &read::FrameDescriptionEntry<R>, + frame: &Section, + bases: &read::BaseAddresses, + convert_address: &dyn Fn(u64) -> Option<Address>, + ) -> ConvertResult<FrameDescriptionEntry> + where + R: Reader<Offset = usize>, + Section: read::UnwindSection<R>, + Section::Offset: read::UnwindOffset<usize>, + { + let address = + convert_address(from_fde.initial_address()).ok_or(ConvertError::InvalidAddress)?; + let length = from_fde.len() as u32; + let mut fde = FrameDescriptionEntry::new(address, length); + + match from_fde.lsda() { + // We treat these the same because the encoding already determines + // whether it is indirect. + Some(read::Pointer::Direct(p)) | Some(read::Pointer::Indirect(p)) => { + let address = convert_address(p).ok_or(ConvertError::InvalidAddress)?; + fde.lsda = Some(address); + } + None => {} + } + + let from_cie = from_fde.cie(); + let mut offset = 0; + let mut from_instructions = from_fde.instructions(frame, bases); + while let Some(from_instruction) = from_instructions.next()? { + if let Some(instruction) = CallFrameInstruction::from( + from_instruction, + from_cie, + convert_address, + &mut offset, + )? { + fde.instructions.push((offset, instruction)); + } + } + + Ok(fde) + } + } + + impl CallFrameInstruction { + fn from<R: Reader<Offset = usize>>( + from_instruction: read::CallFrameInstruction<R>, + from_cie: &read::CommonInformationEntry<R>, + convert_address: &dyn Fn(u64) -> Option<Address>, + offset: &mut u32, + ) -> ConvertResult<Option<CallFrameInstruction>> { + let convert_expression = + |x| Expression::from(x, from_cie.encoding(), None, None, None, convert_address); + // TODO: validate integer type conversions + Ok(Some(match from_instruction { + read::CallFrameInstruction::SetLoc { .. } => { + return Err(ConvertError::UnsupportedCfiInstruction); + } + read::CallFrameInstruction::AdvanceLoc { delta } => { + *offset += delta * from_cie.code_alignment_factor() as u32; + return Ok(None); + } + read::CallFrameInstruction::DefCfa { register, offset } => { + CallFrameInstruction::Cfa(register, offset as i32) + } + read::CallFrameInstruction::DefCfaSf { + register, + factored_offset, + } => { + let offset = factored_offset * from_cie.data_alignment_factor(); + CallFrameInstruction::Cfa(register, offset as i32) + } + read::CallFrameInstruction::DefCfaRegister { register } => { + CallFrameInstruction::CfaRegister(register) + } + + read::CallFrameInstruction::DefCfaOffset { offset } => { + CallFrameInstruction::CfaOffset(offset as i32) + } + read::CallFrameInstruction::DefCfaOffsetSf { factored_offset } => { + let offset = factored_offset * from_cie.data_alignment_factor(); + CallFrameInstruction::CfaOffset(offset as i32) + } + read::CallFrameInstruction::DefCfaExpression { expression } => { + CallFrameInstruction::CfaExpression(convert_expression(expression)?) + } + read::CallFrameInstruction::Undefined { register } => { + CallFrameInstruction::Undefined(register) + } + read::CallFrameInstruction::SameValue { register } => { + CallFrameInstruction::SameValue(register) + } + read::CallFrameInstruction::Offset { + register, + factored_offset, + } => { + let offset = factored_offset as i64 * from_cie.data_alignment_factor(); + CallFrameInstruction::Offset(register, offset as i32) + } + read::CallFrameInstruction::OffsetExtendedSf { + register, + factored_offset, + } => { + let offset = factored_offset * from_cie.data_alignment_factor(); + CallFrameInstruction::Offset(register, offset as i32) + } + read::CallFrameInstruction::ValOffset { + register, + factored_offset, + } => { + let offset = factored_offset as i64 * from_cie.data_alignment_factor(); + CallFrameInstruction::ValOffset(register, offset as i32) + } + read::CallFrameInstruction::ValOffsetSf { + register, + factored_offset, + } => { + let offset = factored_offset * from_cie.data_alignment_factor(); + CallFrameInstruction::ValOffset(register, offset as i32) + } + read::CallFrameInstruction::Register { + dest_register, + src_register, + } => CallFrameInstruction::Register(dest_register, src_register), + read::CallFrameInstruction::Expression { + register, + expression, + } => CallFrameInstruction::Expression(register, convert_expression(expression)?), + read::CallFrameInstruction::ValExpression { + register, + expression, + } => CallFrameInstruction::ValExpression(register, convert_expression(expression)?), + read::CallFrameInstruction::Restore { register } => { + CallFrameInstruction::Restore(register) + } + read::CallFrameInstruction::RememberState => CallFrameInstruction::RememberState, + read::CallFrameInstruction::RestoreState => CallFrameInstruction::RestoreState, + read::CallFrameInstruction::ArgsSize { size } => { + CallFrameInstruction::ArgsSize(size as u32) + } + read::CallFrameInstruction::NegateRaState => CallFrameInstruction::NegateRaState, + read::CallFrameInstruction::Nop => return Ok(None), + })) + } + } +} + +#[cfg(test)] +#[cfg(feature = "read")] +mod tests { + use super::*; + use crate::arch::X86_64; + use crate::read; + use crate::write::EndianVec; + use crate::{LittleEndian, Vendor}; + + #[test] + fn test_frame_table() { + for &version in &[1, 3, 4] { + for &address_size in &[4, 8] { + for &format in &[Format::Dwarf32, Format::Dwarf64] { + let encoding = Encoding { + format, + version, + address_size, + }; + let mut frames = FrameTable::default(); + + let cie1 = CommonInformationEntry::new(encoding, 1, 8, X86_64::RA); + let cie1_id = frames.add_cie(cie1.clone()); + assert_eq!(cie1_id, frames.add_cie(cie1.clone())); + + let mut cie2 = CommonInformationEntry::new(encoding, 1, 8, X86_64::RA); + cie2.lsda_encoding = Some(constants::DW_EH_PE_absptr); + cie2.personality = + Some((constants::DW_EH_PE_absptr, Address::Constant(0x1234))); + cie2.signal_trampoline = true; + let cie2_id = frames.add_cie(cie2.clone()); + assert_ne!(cie1_id, cie2_id); + assert_eq!(cie2_id, frames.add_cie(cie2.clone())); + + let fde1 = FrameDescriptionEntry::new(Address::Constant(0x1000), 0x10); + frames.add_fde(cie1_id, fde1.clone()); + + let fde2 = FrameDescriptionEntry::new(Address::Constant(0x2000), 0x20); + frames.add_fde(cie1_id, fde2.clone()); + + let mut fde3 = FrameDescriptionEntry::new(Address::Constant(0x3000), 0x30); + fde3.lsda = Some(Address::Constant(0x3300)); + frames.add_fde(cie2_id, fde3.clone()); + + let mut fde4 = FrameDescriptionEntry::new(Address::Constant(0x4000), 0x40); + fde4.lsda = Some(Address::Constant(0x4400)); + frames.add_fde(cie2_id, fde4.clone()); + + let mut cie3 = CommonInformationEntry::new(encoding, 1, 8, X86_64::RA); + cie3.fde_address_encoding = constants::DW_EH_PE_pcrel; + cie3.lsda_encoding = Some(constants::DW_EH_PE_pcrel); + cie3.personality = Some((constants::DW_EH_PE_pcrel, Address::Constant(0x1235))); + cie3.signal_trampoline = true; + let cie3_id = frames.add_cie(cie3.clone()); + assert_ne!(cie2_id, cie3_id); + assert_eq!(cie3_id, frames.add_cie(cie3.clone())); + + let mut fde5 = FrameDescriptionEntry::new(Address::Constant(0x5000), 0x50); + fde5.lsda = Some(Address::Constant(0x5500)); + frames.add_fde(cie3_id, fde5.clone()); + + // Test writing `.debug_frame`. + let mut debug_frame = DebugFrame::from(EndianVec::new(LittleEndian)); + frames.write_debug_frame(&mut debug_frame).unwrap(); + + let mut read_debug_frame = + read::DebugFrame::new(debug_frame.slice(), LittleEndian); + read_debug_frame.set_address_size(address_size); + let convert_frames = FrameTable::from(&read_debug_frame, &|address| { + Some(Address::Constant(address)) + }) + .unwrap(); + assert_eq!(frames.cies, convert_frames.cies); + assert_eq!(frames.fdes.len(), convert_frames.fdes.len()); + for (a, b) in frames.fdes.iter().zip(convert_frames.fdes.iter()) { + assert_eq!(a.1, b.1); + } + + if version == 1 { + // Test writing `.eh_frame`. + let mut eh_frame = EhFrame::from(EndianVec::new(LittleEndian)); + frames.write_eh_frame(&mut eh_frame).unwrap(); + + let mut read_eh_frame = read::EhFrame::new(eh_frame.slice(), LittleEndian); + read_eh_frame.set_address_size(address_size); + let convert_frames = FrameTable::from(&read_eh_frame, &|address| { + Some(Address::Constant(address)) + }) + .unwrap(); + assert_eq!(frames.cies, convert_frames.cies); + assert_eq!(frames.fdes.len(), convert_frames.fdes.len()); + for (a, b) in frames.fdes.iter().zip(convert_frames.fdes.iter()) { + assert_eq!(a.1, b.1); + } + } + } + } + } + } + + #[test] + fn test_frame_instruction() { + let mut expression = Expression::new(); + expression.op_constu(0); + + let cie_instructions = [ + CallFrameInstruction::Cfa(X86_64::RSP, 8), + CallFrameInstruction::Offset(X86_64::RA, -8), + ]; + + let fde_instructions = [ + (0, CallFrameInstruction::Cfa(X86_64::RSP, 0)), + (0, CallFrameInstruction::Cfa(X86_64::RSP, -8)), + (2, CallFrameInstruction::CfaRegister(X86_64::RBP)), + (4, CallFrameInstruction::CfaOffset(8)), + (4, CallFrameInstruction::CfaOffset(0)), + (4, CallFrameInstruction::CfaOffset(-8)), + (6, CallFrameInstruction::CfaExpression(expression.clone())), + (8, CallFrameInstruction::Restore(Register(1))), + (8, CallFrameInstruction::Restore(Register(101))), + (10, CallFrameInstruction::Undefined(Register(2))), + (12, CallFrameInstruction::SameValue(Register(3))), + (14, CallFrameInstruction::Offset(Register(4), 16)), + (14, CallFrameInstruction::Offset(Register(104), 16)), + (16, CallFrameInstruction::ValOffset(Register(5), -24)), + (16, CallFrameInstruction::ValOffset(Register(5), 24)), + (18, CallFrameInstruction::Register(Register(6), Register(7))), + ( + 20, + CallFrameInstruction::Expression(Register(8), expression.clone()), + ), + ( + 22, + CallFrameInstruction::ValExpression(Register(9), expression.clone()), + ), + (24 + 0x80, CallFrameInstruction::RememberState), + (26 + 0x280, CallFrameInstruction::RestoreState), + (28 + 0x20280, CallFrameInstruction::ArgsSize(23)), + ]; + + let fde_instructions_aarch64 = [(0, CallFrameInstruction::NegateRaState)]; + + for &version in &[1, 3, 4] { + for &address_size in &[4, 8] { + for &vendor in &[Vendor::Default, Vendor::AArch64] { + for &format in &[Format::Dwarf32, Format::Dwarf64] { + let encoding = Encoding { + format, + version, + address_size, + }; + let mut frames = FrameTable::default(); + + let mut cie = CommonInformationEntry::new(encoding, 2, 8, X86_64::RA); + for i in &cie_instructions { + cie.add_instruction(i.clone()); + } + let cie_id = frames.add_cie(cie); + + let mut fde = FrameDescriptionEntry::new(Address::Constant(0x1000), 0x10); + for (o, i) in &fde_instructions { + fde.add_instruction(*o, i.clone()); + } + frames.add_fde(cie_id, fde); + + if vendor == Vendor::AArch64 { + let mut fde = + FrameDescriptionEntry::new(Address::Constant(0x2000), 0x10); + for (o, i) in &fde_instructions_aarch64 { + fde.add_instruction(*o, i.clone()); + } + frames.add_fde(cie_id, fde); + } + + let mut debug_frame = DebugFrame::from(EndianVec::new(LittleEndian)); + frames.write_debug_frame(&mut debug_frame).unwrap(); + + let mut read_debug_frame = + read::DebugFrame::new(debug_frame.slice(), LittleEndian); + read_debug_frame.set_address_size(address_size); + read_debug_frame.set_vendor(vendor); + let frames = FrameTable::from(&read_debug_frame, &|address| { + Some(Address::Constant(address)) + }) + .unwrap(); + + assert_eq!( + &frames.cies.get_index(0).unwrap().instructions, + &cie_instructions + ); + assert_eq!(&frames.fdes[0].1.instructions, &fde_instructions); + if vendor == Vendor::AArch64 { + assert_eq!(&frames.fdes[1].1.instructions, &fde_instructions_aarch64); + } + } + } + } + } + } +} |