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Quelle dwarf.rs Sprache: unbekannt |
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use alloc::string::String;
use alloc::sync::Arc; use crate::common::{ DebugAddrBase, DebugAddrIndex, DebugInfoOffset, DebugLineStrOffset, DebugLocListsBas DebugLocListsIndex, DebugRngListsBase, DebugRngListsIndex, DebugStrOffset, DebugStrO DebugStrOffsetsIndex, DebugTypeSignature, DebugTypesOffset, DwarfFileType, DwoId, Enc LocationListsOffset, RangeListsOffset, RawRangeListsOffset, SectionId, UnitSectionOf }; use crate::constants; use crate::read::{ Abbreviations, AbbreviationsCache, AbbreviationsCacheStrategy, AttributeValue, Debug DebugAddr, DebugAranges, DebugCuIndex, DebugInfo, DebugInfoUnitHeadersIter, DebugLine DebugLineStr, DebugLoc, DebugLocLists, DebugRanges, DebugRngLists, DebugStr, DebugStrO DebugTuIndex, DebugTypes, DebugTypesUnitHeadersIter, DebuggingInformationEntry, Entr EntriesRaw, EntriesTree, Error, IncompleteLineProgram, IndexSectionId, LocListIter, LocationLists, Range, RangeLists, RawLocListIter, RawRngListIter, Reader, ReaderOffset ReaderOffsetId, Result, RngListIter, Section, UnitHeader, UnitIndex, UnitIndexSectionI UnitOffset, UnitType, }; /// All of the commonly used DWARF sections. /// /// This is useful for storing sections when `T` does not implement `Reader`. /// It can be used to create a `Dwarf` that references the data in `self`. /// If `T` does implement `Reader`, then use `Dwarf` directly. /// /// ## Example Usage /// /// It can be useful to load DWARF sections into owned data structures, /// such as `Vec`. However, we do not implement the `Reader` trait /// for `Vec`, because it would be very inefficient, but this trait /// is required for all of the methods that parse the DWARF data. /// So we first load the DWARF sections into `Vec`s, and then use /// `borrow` to create `Reader`s that reference the data. /// /// ```rust,no_run /// # fn example() -> Result<(), gimli::Error> { /// # let loader = |name| -> Result<_, gimli::Error> { unimplemented!() }; /// // Read the DWARF sections into `Vec`s with whatever object loader you're using. /// let dwarf_sections: gimli::DwarfSections<Vec<u8>> = gimli::DwarfSections::load(loader /// // Create references to the DWARF sections. /// let dwarf: gimli::Dwarf<_> = dwarf_sections.borrow(|section| { /// gimli::EndianSlice::new(§ion, gimli::LittleEndian) /// }); /// # unreachable!() /// # } /// ``` #[derive(Debug)] pub struct DwarfSections<T> { /// The `.debug_abbrev` section. pub debug_abbrev: DebugAbbrev<T>, /// The `.debug_addr` section. pub debug_addr: DebugAddr<T>, /// The `.debug_aranges` section. pub debug_aranges: DebugAranges<T>, /// The `.debug_info` section. pub debug_info: DebugInfo<T>, /// The `.debug_line` section. pub debug_line: DebugLine<T>, /// The `.debug_line_str` section. pub debug_line_str: DebugLineStr<T>, /// The `.debug_str` section. pub debug_str: DebugStr<T>, /// The `.debug_str_offsets` section. pub debug_str_offsets: DebugStrOffsets<T>, /// The `.debug_types` section. pub debug_types: DebugTypes<T>, /// The `.debug_loc` section. pub debug_loc: DebugLoc<T>, /// The `.debug_loclists` section. pub debug_loclists: DebugLocLists<T>, /// The `.debug_ranges` section. pub debug_ranges: DebugRanges<T>, /// The `.debug_rnglists` section. pub debug_rnglists: DebugRngLists<T>, } impl<T> DwarfSections<T> { /// Try to load the DWARF sections using the given loader function. /// /// `section` loads a DWARF section from the object file. /// It should return an empty section if the section does not exist. pub fn load<F, E>(mut section: F) -> core::result::Result<Self, E> where F: FnMut(SectionId) -> core::result::Result<T, E>, { Ok(DwarfSections { // Section types are inferred. debug_abbrev: Section::load(&mut section)?, debug_addr: Section::load(&mut section)?, debug_aranges: Section::load(&mut section)?, debug_info: Section::load(&mut section)?, debug_line: Section::load(&mut section)?, debug_line_str: Section::load(&mut section)?, debug_str: Section::load(&mut section)?, debug_str_offsets: Section::load(&mut section)?, debug_types: Section::load(&mut section)?, debug_loc: Section::load(&mut section)?, debug_loclists: Section::load(&mut section)?, debug_ranges: Section::load(&mut section)?, debug_rnglists: Section::load(&mut section)?, }) } /// Create a `Dwarf` structure that references the data in `self`. pub fn borrow<'a, F, R>(&'a self, mut borrow: F) -> Dwarf<R> where F: FnMut(&'a T) -> R, { Dwarf::from_sections(DwarfSections { debug_abbrev: self.debug_abbrev.borrow(&mut borrow), debug_addr: self.debug_addr.borrow(&mut borrow), debug_aranges: self.debug_aranges.borrow(&mut borrow), debug_info: self.debug_info.borrow(&mut borrow), debug_line: self.debug_line.borrow(&mut borrow), debug_line_str: self.debug_line_str.borrow(&mut borrow), debug_str: self.debug_str.borrow(&mut borrow), debug_str_offsets: self.debug_str_offsets.borrow(&mut borrow), debug_types: self.debug_types.borrow(&mut borrow), debug_loc: self.debug_loc.borrow(&mut borrow), debug_loclists: self.debug_loclists.borrow(&mut borrow), debug_ranges: self.debug_ranges.borrow(&mut borrow), debug_rnglists: self.debug_rnglists.borrow(&mut borrow), }) } /// Create a `Dwarf` structure that references the data in `self` and `sup`. /// /// This is like `borrow`, but also includes the supplementary object file. /// This is useful when `R` implements `Reader` but `T` does not. /// /// ## Example Usage /// /// ```rust,no_run /// # fn example() -> Result<(), gimli::Error> { /// # let loader = |name| -> Result<_, gimli::Error> { unimplemented!() }; /// # let sup_loader = |name| -> Result<_, gimli::Error> { unimplemented!() }; /// // Read the DWARF sections into `Vec`s with whatever object loader you're using. /// let dwarf_sections: gimli::DwarfSections<Vec<u8>> = gimli::DwarfSections::load(loader /// let dwarf_sup_sections: gimli::DwarfSections<Vec<u8>> = gimli::DwarfSections::load(su /// // Create references to the DWARF sections. /// let dwarf = dwarf_sections.borrow_with_sup(&dwarf_sup_sections, |section| { /// gimli::EndianSlice::new(§ion, gimli::LittleEndian) /// }); /// # unreachable!() /// # } /// ``` pub fn borrow_with_sup<'a, F, R>(&'a self, sup: &'a Self, mut borrow: F) -> Dwarf<R> where F: FnMut(&'a T) -> R, { let mut dwarf = self.borrow(&mut borrow); dwarf.set_sup(sup.borrow(&mut borrow)); dwarf } } /// All of the commonly used DWARF sections, and other common information. #[derive(Debug, Default)] pub struct Dwarf<R> { /// The `.debug_abbrev` section. pub debug_abbrev: DebugAbbrev<R>, /// The `.debug_addr` section. pub debug_addr: DebugAddr<R>, /// The `.debug_aranges` section. pub debug_aranges: DebugAranges<R>, /// The `.debug_info` section. pub debug_info: DebugInfo<R>, /// The `.debug_line` section. pub debug_line: DebugLine<R>, /// The `.debug_line_str` section. pub debug_line_str: DebugLineStr<R>, /// The `.debug_str` section. pub debug_str: DebugStr<R>, /// The `.debug_str_offsets` section. pub debug_str_offsets: DebugStrOffsets<R>, /// The `.debug_types` section. pub debug_types: DebugTypes<R>, /// The location lists in the `.debug_loc` and `.debug_loclists` sections. pub locations: LocationLists<R>, /// The range lists in the `.debug_ranges` and `.debug_rnglists` sections. pub ranges: RangeLists<R>, /// The type of this file. pub file_type: DwarfFileType, /// The DWARF sections for a supplementary object file. pub sup: Option<Arc<Dwarf<R>>>, /// A cache of previously parsed abbreviations for units in this file. pub abbreviations_cache: AbbreviationsCache, } impl<T> Dwarf<T> { /// Try to load the DWARF sections using the given loader function. /// /// `section` loads a DWARF section from the object file. /// It should return an empty section if the section does not exist. /// /// After loading, the user should set the `file_type` field and /// call `load_sup` if required. pub fn load<F, E>(section: F) -> core::result::Result<Self, E> where F: FnMut(SectionId) -> core::result::Result<T, E>, { let sections = DwarfSections::load(section)?; Ok(Self::from_sections(sections)) } /// Load the DWARF sections from the supplementary object file. /// /// `section` operates the same as for `load`. /// /// Sets `self.sup`, replacing any previous value. pub fn load_sup<F, E>(&mut self, section: F) -> core::result::Result<(), E> where F: FnMut(SectionId) -> core::result::Result<T, E>, { self.set_sup(Self::load(section)?); Ok(()) } /// Create a `Dwarf` structure from the given sections. /// /// The caller should set the `file_type` and `sup` fields if required. fn from_sections(sections: DwarfSections<T>) -> Self { Dwarf { debug_abbrev: sections.debug_abbrev, debug_addr: sections.debug_addr, debug_aranges: sections.debug_aranges, debug_info: sections.debug_info, debug_line: sections.debug_line, debug_line_str: sections.debug_line_str, debug_str: sections.debug_str, debug_str_offsets: sections.debug_str_offsets, debug_types: sections.debug_types, locations: LocationLists::new(sections.debug_loc, sections.debug_loclists), ranges: RangeLists::new(sections.debug_ranges, sections.debug_rnglists), file_type: DwarfFileType::Main, sup: None, abbreviations_cache: AbbreviationsCache::new(), } } /// Create a `Dwarf` structure that references the data in `self`. /// /// This is useful when `R` implements `Reader` but `T` does not. /// /// ## Example Usage /// /// It can be useful to load DWARF sections into owned data structures, /// such as `Vec`. However, we do not implement the `Reader` trait /// for `Vec`, because it would be very inefficient, but this trait /// is required for all of the methods that parse the DWARF data. /// So we first load the DWARF sections into `Vec`s, and then use /// `borrow` to create `Reader`s that reference the data. /// /// ```rust,no_run /// # fn example() -> Result<(), gimli::Error> { /// # let loader = |name| -> Result<_, gimli::Error> { unimplemented!() }; /// # let sup_loader = |name| -> Result<_, gimli::Error> { unimplemented!() }; /// // Read the DWARF sections into `Vec`s with whatever object loader you're using. /// let mut owned_dwarf: gimli::Dwarf<Vec<u8>> = gimli::Dwarf::load(loader)?; /// owned_dwarf.load_sup(sup_loader)?; /// // Create references to the DWARF sections. /// let dwarf = owned_dwarf.borrow(|section| { /// gimli::EndianSlice::new(§ion, gimli::LittleEndian) /// }); /// # unreachable!() /// # } /// ``` #[deprecated(note = "use `DwarfSections::borrow` instead")] pub fn borrow<'a, F, R>(&'a self, mut borrow: F) -> Dwarf<R> where F: FnMut(&'a T) -> R, { Dwarf { debug_abbrev: self.debug_abbrev.borrow(&mut borrow), debug_addr: self.debug_addr.borrow(&mut borrow), debug_aranges: self.debug_aranges.borrow(&mut borrow), debug_info: self.debug_info.borrow(&mut borrow), debug_line: self.debug_line.borrow(&mut borrow), debug_line_str: self.debug_line_str.borrow(&mut borrow), debug_str: self.debug_str.borrow(&mut borrow), debug_str_offsets: self.debug_str_offsets.borrow(&mut borrow), debug_types: self.debug_types.borrow(&mut borrow), locations: self.locations.borrow(&mut borrow), ranges: self.ranges.borrow(&mut borrow), file_type: self.file_type, sup: self.sup().map(|sup| Arc::new(sup.borrow(borrow))), abbreviations_cache: AbbreviationsCache::new(), } } /// Store the DWARF sections for the supplementary object file. pub fn set_sup(&mut self, sup: Dwarf<T>) { self.sup = Some(Arc::new(sup)); } /// Return a reference to the DWARF sections for the supplementary object file. pub fn sup(&self) -> Option<&Dwarf<T>> { self.sup.as_ref().map(Arc::as_ref) } } impl<R: Reader> Dwarf<R> { /// Parse abbreviations and store them in the cache. /// /// This will iterate over the units in `self.debug_info` to determine the /// abbreviations offsets. /// /// Errors during parsing abbreviations are also stored in the cache. /// Errors during iterating over the units are ignored. pub fn populate_abbreviations_cache(&mut self, strategy: AbbreviationsCacheStrategy) self.abbreviations_cache .populate(strategy, &self.debug_abbrev, self.debug_info.units()); } /// Iterate the unit headers in the `.debug_info` section. /// /// Can be [used with /// `FallibleIterator`](./index.html#using-with-fallibleiterator). #[inline] pub fn units(&self) -> DebugInfoUnitHeadersIter<R> { self.debug_info.units() } /// Construct a new `Unit` from the given unit header. #[inline] pub fn unit(&self, header: UnitHeader<R>) -> Result<Unit<R>> { Unit::new(self, header) } /// Iterate the type-unit headers in the `.debug_types` section. /// /// Can be [used with /// `FallibleIterator`](./index.html#using-with-fallibleiterator). #[inline] pub fn type_units(&self) -> DebugTypesUnitHeadersIter<R> { self.debug_types.units() } /// Parse the abbreviations for a compilation unit. #[inline] pub fn abbreviations(&self, unit: &UnitHeader<R>) -> Result<Arc<Abbreviations>> { self.abbreviations_cache .get(&self.debug_abbrev, unit.debug_abbrev_offset()) } /// Return the string offset at the given index. #[inline] pub fn string_offset( &self, unit: &Unit<R>, index: DebugStrOffsetsIndex<R::Offset>, ) -> Result<DebugStrOffset<R::Offset>> { self.debug_str_offsets .get_str_offset(unit.header.format(), unit.str_offsets_base, index) } /// Return the string at the given offset in `.debug_str`. #[inline] pub fn string(&self, offset: DebugStrOffset<R::Offset>) -> Result<R> { self.debug_str.get_str(offset) } /// Return the string at the given offset in `.debug_line_str`. #[inline] pub fn line_string(&self, offset: DebugLineStrOffset<R::Offset>) -> Result<R> { self.debug_line_str.get_str(offset) } /// Return the string at the given offset in the `.debug_str` /// in the supplementary object file. #[inline] pub fn sup_string(&self, offset: DebugStrOffset<R::Offset>) -> Result<R> { if let Some(sup) = self.sup() { sup.debug_str.get_str(offset) } else { Err(Error::ExpectedStringAttributeValue) } } /// Return an attribute value as a string slice. /// /// If the attribute value is one of: /// /// - an inline `DW_FORM_string` string /// - a `DW_FORM_strp` reference to an offset into the `.debug_str` section /// - a `DW_FORM_strp_sup` reference to an offset into a supplementary /// object file /// - a `DW_FORM_line_strp` reference to an offset into the `.debug_line_str` /// section /// - a `DW_FORM_strx` index into the `.debug_str_offsets` entries for the unit /// /// then return the attribute's string value. Returns an error if the attribute /// value does not have a string form, or if a string form has an invalid value. pub fn attr_string(&self, unit: &Unit<R>, attr: AttributeValue<R>) -> Result<R> { match attr { AttributeValue::String(string) => Ok(string), AttributeValue::DebugStrRef(offset) => self.string(offset), AttributeValue::DebugStrRefSup(offset) => self.sup_string(offset), AttributeValue::DebugLineStrRef(offset) => self.line_string(offset), AttributeValue::DebugStrOffsetsIndex(index) => { let offset = self.string_offset(unit, index)?; self.string(offset) } _ => Err(Error::ExpectedStringAttributeValue), } } /// Return the address at the given index. pub fn address(&self, unit: &Unit<R>, index: DebugAddrIndex<R::Offset>) -> Result<u64> { self.debug_addr .get_address(unit.encoding().address_size, unit.addr_base, index) } /// Try to return an attribute value as an address. /// /// If the attribute value is one of: /// /// - a `DW_FORM_addr` /// - a `DW_FORM_addrx` index into the `.debug_addr` entries for the unit /// /// then return the address. /// Returns `None` for other forms. pub fn attr_address(&self, unit: &Unit<R>, attr: AttributeValue<R>) -> Result<Option<u64>> { match attr { AttributeValue::Addr(addr) => Ok(Some(addr)), AttributeValue::DebugAddrIndex(index) => self.address(unit, index).map(Some), _ => Ok(None), } } /// Return the range list offset for the given raw offset. /// /// This handles adding `DW_AT_GNU_ranges_base` if required. pub fn ranges_offset_from_raw( &self, unit: &Unit<R>, offset: RawRangeListsOffset<R::Offset>, ) -> RangeListsOffset<R::Offset> { if self.file_type == DwarfFileType::Dwo && unit.header.version() < 5 { RangeListsOffset(offset.0.wrapping_add(unit.rnglists_base.0)) } else { RangeListsOffset(offset.0) } } /// Return the range list offset at the given index. pub fn ranges_offset( &self, unit: &Unit<R>, index: DebugRngListsIndex<R::Offset>, ) -> Result<RangeListsOffset<R::Offset>> { self.ranges .get_offset(unit.encoding(), unit.rnglists_base, index) } /// Iterate over the `RangeListEntry`s starting at the given offset. pub fn ranges( &self, unit: &Unit<R>, offset: RangeListsOffset<R::Offset>, ) -> Result<RngListIter<R>> { self.ranges.ranges( offset, unit.encoding(), unit.low_pc, &self.debug_addr, unit.addr_base, ) } /// Iterate over the `RawRngListEntry`ies starting at the given offset. pub fn raw_ranges( &self, unit: &Unit<R>, offset: RangeListsOffset<R::Offset>, ) -> Result<RawRngListIter<R>> { self.ranges.raw_ranges(offset, unit.encoding()) } /// Try to return an attribute value as a range list offset. /// /// If the attribute value is one of: /// /// - a `DW_FORM_sec_offset` reference to the `.debug_ranges` or `.debug_rnglists` section /// - a `DW_FORM_rnglistx` index into the `.debug_rnglists` entries for the unit /// /// then return the range list offset of the range list. /// Returns `None` for other forms. pub fn attr_ranges_offset( &self, unit: &Unit<R>, attr: AttributeValue<R>, ) -> Result<Option<RangeListsOffset<R::Offset>>> { match attr { AttributeValue::RangeListsRef(offset) => { Ok(Some(self.ranges_offset_from_raw(unit, offset))) } AttributeValue::DebugRngListsIndex(index) => self.ranges_offset(unit, index).map(Som _ => Ok(None), } } /// Try to return an attribute value as a range list entry iterator. /// /// If the attribute value is one of: /// /// - a `DW_FORM_sec_offset` reference to the `.debug_ranges` or `.debug_rnglists` section /// - a `DW_FORM_rnglistx` index into the `.debug_rnglists` entries for the unit /// /// then return an iterator over the entries in the range list. /// Returns `None` for other forms. pub fn attr_ranges( &self, unit: &Unit<R>, attr: AttributeValue<R>, ) -> Result<Option<RngListIter<R>>> { match self.attr_ranges_offset(unit, attr)? { Some(offset) => Ok(Some(self.ranges(unit, offset)?)), None => Ok(None), } } /// Return an iterator for the address ranges of a `DebuggingInformationEntry`. /// /// This uses `DW_AT_low_pc`, `DW_AT_high_pc` and `DW_AT_ranges`. pub fn die_ranges( &self, unit: &Unit<R>, entry: &DebuggingInformationEntry<'_, '_, R>, ) -> Result<RangeIter<R>> { let mut low_pc = None; let mut high_pc = None; let mut size = None; let mut attrs = entry.attrs(); while let Some(attr) = attrs.next()? { match attr.name() { constants::DW_AT_low_pc => { low_pc = Some( self.attr_address(unit, attr.value())? .ok_or(Error::UnsupportedAttributeForm)?, ); } constants::DW_AT_high_pc => match attr.value() { AttributeValue::Udata(val) => size = Some(val), attr => { high_pc = Some( self.attr_address(unit, attr)? .ok_or(Error::UnsupportedAttributeForm)?, ); } }, constants::DW_AT_ranges => { if let Some(list) = self.attr_ranges(unit, attr.value())? { return Ok(RangeIter(RangeIterInner::List(list))); } } _ => {} } } let range = low_pc.and_then(|begin| { let end = size.map(|size| begin + size).or(high_pc); // TODO: perhaps return an error if `end` is `None` end.map(|end| Range { begin, end }) }); Ok(RangeIter(RangeIterInner::Single(range))) } /// Return an iterator for the address ranges of a `Unit`. /// /// This uses `DW_AT_low_pc`, `DW_AT_high_pc` and `DW_AT_ranges` of the /// root `DebuggingInformationEntry`. pub fn unit_ranges(&self, unit: &Unit<R>) -> Result<RangeIter<R>> { let mut cursor = unit.header.entries(&unit.abbreviations); cursor.next_dfs()?; let root = cursor.current().ok_or(Error::MissingUnitDie)?; self.die_ranges(unit, root) } /// Return the location list offset at the given index. pub fn locations_offset( &self, unit: &Unit<R>, index: DebugLocListsIndex<R::Offset>, ) -> Result<LocationListsOffset<R::Offset>> { self.locations .get_offset(unit.encoding(), unit.loclists_base, index) } /// Iterate over the `LocationListEntry`s starting at the given offset. pub fn locations( &self, unit: &Unit<R>, offset: LocationListsOffset<R::Offset>, ) -> Result<LocListIter<R>> { match self.file_type { DwarfFileType::Main => self.locations.locations( offset, unit.encoding(), unit.low_pc, &self.debug_addr, unit.addr_base, ), DwarfFileType::Dwo => self.locations.locations_dwo( offset, unit.encoding(), unit.low_pc, &self.debug_addr, unit.addr_base, ), } } /// Iterate over the raw `LocationListEntry`s starting at the given offset. pub fn raw_locations( &self, unit: &Unit<R>, offset: LocationListsOffset<R::Offset>, ) -> Result<RawLocListIter<R>> { match self.file_type { DwarfFileType::Main => self.locations.raw_locations(offset, unit.encoding()), DwarfFileType::Dwo => self.locations.raw_locations_dwo(offset, unit.encoding()), } } /// Try to return an attribute value as a location list offset. /// /// If the attribute value is one of: /// /// - a `DW_FORM_sec_offset` reference to the `.debug_loc` or `.debug_loclists` sections /// - a `DW_FORM_loclistx` index into the `.debug_loclists` entries for the unit /// /// then return the location list offset of the location list. /// Returns `None` for other forms. pub fn attr_locations_offset( &self, unit: &Unit<R>, attr: AttributeValue<R>, ) -> Result<Option<LocationListsOffset<R::Offset>>> { match attr { AttributeValue::LocationListsRef(offset) => Ok(Some(offset)), AttributeValue::DebugLocListsIndex(index) => { self.locations_offset(unit, index).map(Some) } _ => Ok(None), } } /// Try to return an attribute value as a location list entry iterator. /// /// If the attribute value is one of: /// /// - a `DW_FORM_sec_offset` reference to the `.debug_loc` or `.debug_loclists` sections /// - a `DW_FORM_loclistx` index into the `.debug_loclists` entries for the unit /// /// then return an iterator over the entries in the location list. /// Returns `None` for other forms. pub fn attr_locations( &self, unit: &Unit<R>, attr: AttributeValue<R>, ) -> Result<Option<LocListIter<R>>> { match self.attr_locations_offset(unit, attr)? { Some(offset) => Ok(Some(self.locations(unit, offset)?)), None => Ok(None), } } /// Call `Reader::lookup_offset_id` for each section, and return the first match. /// /// The first element of the tuple is `true` for supplementary sections. pub fn lookup_offset_id(&self, id: ReaderOffsetId) -> Option<(bool, SectionId, R::Offset)> { None.or_else(|| self.debug_abbrev.lookup_offset_id(id)) .or_else(|| self.debug_addr.lookup_offset_id(id)) .or_else(|| self.debug_aranges.lookup_offset_id(id)) .or_else(|| self.debug_info.lookup_offset_id(id)) .or_else(|| self.debug_line.lookup_offset_id(id)) .or_else(|| self.debug_line_str.lookup_offset_id(id)) .or_else(|| self.debug_str.lookup_offset_id(id)) .or_else(|| self.debug_str_offsets.lookup_offset_id(id)) .or_else(|| self.debug_types.lookup_offset_id(id)) .or_else(|| self.locations.lookup_offset_id(id)) .or_else(|| self.ranges.lookup_offset_id(id)) .map(|(id, offset)| (false, id, offset)) .or_else(|| { self.sup() .and_then(|sup| sup.lookup_offset_id(id)) .map(|(_, id, offset)| (true, id, offset)) }) } /// Returns a string representation of the given error. /// /// This uses information from the DWARF sections to provide more information in some cases. pub fn format_error(&self, err: Error) -> String { #[allow(clippy::single_match)] match err { Error::UnexpectedEof(id) => match self.lookup_offset_id(id) { Some((sup, section, offset)) => { return format!( "{} at {}{}+0x{:x}", err, section.name(), if sup { "(sup)" } else { "" }, offset.into_u64(), ); } None => {} }, _ => {} } err.description().into() } } impl<R: Clone> Dwarf<R> { /// Assuming `self` was loaded from a .dwo, take the appropriate /// sections from `parent` (which contains the skeleton unit for this /// dwo) such as `.debug_addr` and merge them into this `Dwarf`. pub fn make_dwo(&mut self, parent: &Dwarf<R>) { self.file_type = DwarfFileType::Dwo; // These sections are always taken from the parent file and not the dwo. self.debug_addr = parent.debug_addr.clone(); // .debug_rnglists comes from the DWO, .debug_ranges comes from the // parent file. self.ranges .set_debug_ranges(parent.ranges.debug_ranges().clone()); self.sup = parent.sup.clone(); } } /// The sections from a `.dwp` file. /// /// This is useful for storing sections when `T` does not implement `Reader`. /// It can be used to create a `DwarfPackage` that references the data in `self`. /// If `T` does implement `Reader`, then use `DwarfPackage` directly. /// /// ## Example Usage /// /// It can be useful to load DWARF sections into owned data structures, /// such as `Vec`. However, we do not implement the `Reader` trait /// for `Vec`, because it would be very inefficient, but this trait /// is required for all of the methods that parse the DWARF data. /// So we first load the DWARF sections into `Vec`s, and then use /// `borrow` to create `Reader`s that reference the data. /// /// ```rust,no_run /// # fn example() -> Result<(), gimli::Error> { /// # let loader = |name| -> Result<_, gimli::Error> { unimplemented!() }; /// // Read the DWARF sections into `Vec`s with whatever object loader you're using. /// let dwp_sections: gimli::DwarfPackageSections<Vec<u8>> = gimli::DwarfPackageSections: /// // Create references to the DWARF sections. /// let dwp: gimli::DwarfPackage<_> = dwp_sections.borrow( /// |section| gimli::EndianSlice::new(§ion, gimli::LittleEndian), /// gimli::EndianSlice::new(&[], gimli::LittleEndian), /// )?; /// # unreachable!() /// # } /// ``` #[derive(Debug)] pub struct DwarfPackageSections<T> { /// The `.debug_cu_index` section. pub cu_index: DebugCuIndex<T>, /// The `.debug_tu_index` section. pub tu_index: DebugTuIndex<T>, /// The `.debug_abbrev.dwo` section. pub debug_abbrev: DebugAbbrev<T>, /// The `.debug_info.dwo` section. pub debug_info: DebugInfo<T>, /// The `.debug_line.dwo` section. pub debug_line: DebugLine<T>, /// The `.debug_str.dwo` section. pub debug_str: DebugStr<T>, /// The `.debug_str_offsets.dwo` section. pub debug_str_offsets: DebugStrOffsets<T>, /// The `.debug_loc.dwo` section. /// /// Only present when using GNU split-dwarf extension to DWARF 4. pub debug_loc: DebugLoc<T>, /// The `.debug_loclists.dwo` section. pub debug_loclists: DebugLocLists<T>, /// The `.debug_rnglists.dwo` section. pub debug_rnglists: DebugRngLists<T>, /// The `.debug_types.dwo` section. /// /// Only present when using GNU split-dwarf extension to DWARF 4. pub debug_types: DebugTypes<T>, } impl<T> DwarfPackageSections<T> { /// Try to load the `.dwp` sections using the given loader function. /// /// `section` loads a DWARF section from the object file. /// It should return an empty section if the section does not exist. pub fn load<F, E>(mut section: F) -> core::result::Result<Self, E> where F: FnMut(SectionId) -> core::result::Result<T, E>, E: From<Error>, { Ok(DwarfPackageSections { // Section types are inferred. cu_index: Section::load(&mut section)?, tu_index: Section::load(&mut section)?, debug_abbrev: Section::load(&mut section)?, debug_info: Section::load(&mut section)?, debug_line: Section::load(&mut section)?, debug_str: Section::load(&mut section)?, debug_str_offsets: Section::load(&mut section)?, debug_loc: Section::load(&mut section)?, debug_loclists: Section::load(&mut section)?, debug_rnglists: Section::load(&mut section)?, debug_types: Section::load(&mut section)?, }) } /// Create a `DwarfPackage` structure that references the data in `self`. pub fn borrow<'a, F, R>(&'a self, mut borrow: F, empty: R) -> Result<DwarfPackage<R>> where F: FnMut(&'a T) -> R, R: Reader, { DwarfPackage::from_sections( DwarfPackageSections { cu_index: self.cu_index.borrow(&mut borrow), tu_index: self.tu_index.borrow(&mut borrow), debug_abbrev: self.debug_abbrev.borrow(&mut borrow), debug_info: self.debug_info.borrow(&mut borrow), debug_line: self.debug_line.borrow(&mut borrow), debug_str: self.debug_str.borrow(&mut borrow), debug_str_offsets: self.debug_str_offsets.borrow(&mut borrow), debug_loc: self.debug_loc.borrow(&mut borrow), debug_loclists: self.debug_loclists.borrow(&mut borrow), debug_rnglists: self.debug_rnglists.borrow(&mut borrow), debug_types: self.debug_types.borrow(&mut borrow), }, empty, ) } } /// The sections from a `.dwp` file, with parsed indices. #[derive(Debug)] pub struct DwarfPackage<R: Reader> { /// The compilation unit index in the `.debug_cu_index` section. pub cu_index: UnitIndex<R>, /// The type unit index in the `.debug_tu_index` section. pub tu_index: UnitIndex<R>, /// The `.debug_abbrev.dwo` section. pub debug_abbrev: DebugAbbrev<R>, /// The `.debug_info.dwo` section. pub debug_info: DebugInfo<R>, /// The `.debug_line.dwo` section. pub debug_line: DebugLine<R>, /// The `.debug_str.dwo` section. pub debug_str: DebugStr<R>, /// The `.debug_str_offsets.dwo` section. pub debug_str_offsets: DebugStrOffsets<R>, /// The `.debug_loc.dwo` section. /// /// Only present when using GNU split-dwarf extension to DWARF 4. pub debug_loc: DebugLoc<R>, /// The `.debug_loclists.dwo` section. pub debug_loclists: DebugLocLists<R>, /// The `.debug_rnglists.dwo` section. pub debug_rnglists: DebugRngLists<R>, /// The `.debug_types.dwo` section. /// /// Only present when using GNU split-dwarf extension to DWARF 4. pub debug_types: DebugTypes<R>, /// An empty section. /// /// Used when creating `Dwarf<R>`. pub empty: R, } impl<R: Reader> DwarfPackage<R> { /// Try to load the `.dwp` sections using the given loader function. /// /// `section` loads a DWARF section from the object file. /// It should return an empty section if the section does not exist. pub fn load<F, E>(section: F, empty: R) -> core::result::Result<Self, E> where F: FnMut(SectionId) -> core::result::Result<R, E>, E: From<Error>, { let sections = DwarfPackageSections::load(section)?; Ok(Self::from_sections(sections, empty)?) } /// Create a `DwarfPackage` structure from the given sections. fn from_sections(sections: DwarfPackageSections<R>, empty: R) -> Result<Self> { Ok(DwarfPackage { cu_index: sections.cu_index.index()?, tu_index: sections.tu_index.index()?, debug_abbrev: sections.debug_abbrev, debug_info: sections.debug_info, debug_line: sections.debug_line, debug_str: sections.debug_str, debug_str_offsets: sections.debug_str_offsets, debug_loc: sections.debug_loc, debug_loclists: sections.debug_loclists, debug_rnglists: sections.debug_rnglists, debug_types: sections.debug_types, empty, }) } /// Find the compilation unit with the given DWO identifier and return its section /// contributions. /// /// ## Example Usage /// /// ```rust,no_run /// # fn example<R: gimli::Reader>( /// # dwarf: &gimli::Dwarf<R>, /// # dwp: &gimli::DwarfPackage<R>, /// # dwo_id: gimli::DwoId, /// # ) -> Result<(), gimli::Error> { /// if let Some(dwo) = dwp.find_cu(dwo_id, dwarf)? { /// let dwo_header = dwo.units().next()?.expect("DWO should have one unit"); /// let dwo_unit = dwo.unit(dwo_header)?; /// // Do something with `dwo_unit`. /// } /// # unreachable!() /// # } pub fn find_cu(&self, id: DwoId, parent: &Dwarf<R>) -> Result<Option<Dwarf<R>>> { let row = match self.cu_index.find(id.0) { Some(row) => row, None => return Ok(None), }; self.cu_sections(row, parent).map(Some) } /// Find the type unit with the given type signature and return its section /// contributions. pub fn find_tu( &self, signature: DebugTypeSignature, parent: &Dwarf<R>, ) -> Result<Option<Dwarf<R>>> { let row = match self.tu_index.find(signature.0) { Some(row) => row, None => return Ok(None), }; self.tu_sections(row, parent).map(Some) } /// Return the section contributions of the compilation unit at the given index. /// /// The index must be in the range `1..cu_index.unit_count`. /// /// This function should only be needed by low level parsers. pub fn cu_sections(&self, index: u32, parent: &Dwarf<R>) -> Result<Dwarf<R>> { self.sections(self.cu_index.sections(index)?, parent) } /// Return the section contributions of the compilation unit at the given index. /// /// The index must be in the range `1..tu_index.unit_count`. /// /// This function should only be needed by low level parsers. pub fn tu_sections(&self, index: u32, parent: &Dwarf<R>) -> Result<Dwarf<R>> { self.sections(self.tu_index.sections(index)?, parent) } /// Return the section contributions of a unit. /// /// This function should only be needed by low level parsers. pub fn sections( &self, sections: UnitIndexSectionIterator<'_, R>, parent: &Dwarf<R>, ) -> Result<Dwarf<R>> { let mut abbrev_offset = 0; let mut abbrev_size = 0; let mut info_offset = 0; let mut info_size = 0; let mut line_offset = 0; let mut line_size = 0; let mut loc_offset = 0; let mut loc_size = 0; let mut loclists_offset = 0; let mut loclists_size = 0; let mut str_offsets_offset = 0; let mut str_offsets_size = 0; let mut rnglists_offset = 0; let mut rnglists_size = 0; let mut types_offset = 0; let mut types_size = 0; for section in sections { match section.section { IndexSectionId::DebugAbbrev => { abbrev_offset = section.offset; abbrev_size = section.size; } IndexSectionId::DebugInfo => { info_offset = section.offset; info_size = section.size; } IndexSectionId::DebugLine => { line_offset = section.offset; line_size = section.size; } IndexSectionId::DebugLoc => { loc_offset = section.offset; loc_size = section.size; } IndexSectionId::DebugLocLists => { loclists_offset = section.offset; loclists_size = section.size; } IndexSectionId::DebugStrOffsets => { str_offsets_offset = section.offset; str_offsets_size = section.size; } IndexSectionId::DebugRngLists => { rnglists_offset = section.offset; rnglists_size = section.size; } IndexSectionId::DebugTypes => { types_offset = section.offset; types_size = section.size; } IndexSectionId::DebugMacro | IndexSectionId::DebugMacinfo => { // These are valid but we can't parse these yet. } } } let debug_abbrev = self.debug_abbrev.dwp_range(abbrev_offset, abbrev_size)?; let debug_info = self.debug_info.dwp_range(info_offset, info_size)?; let debug_line = self.debug_line.dwp_range(line_offset, line_size)?; let debug_loc = self.debug_loc.dwp_range(loc_offset, loc_size)?; let debug_loclists = self .debug_loclists .dwp_range(loclists_offset, loclists_size)?; let debug_str_offsets = self .debug_str_offsets .dwp_range(str_offsets_offset, str_offsets_size)?; let debug_rnglists = self .debug_rnglists .dwp_range(rnglists_offset, rnglists_size)?; let debug_types = self.debug_types.dwp_range(types_offset, types_size)?; let debug_str = self.debug_str.clone(); let debug_addr = parent.debug_addr.clone(); let debug_ranges = parent.ranges.debug_ranges().clone(); let debug_aranges = self.empty.clone().into(); let debug_line_str = self.empty.clone().into(); Ok(Dwarf { debug_abbrev, debug_addr, debug_aranges, debug_info, debug_line, debug_line_str, debug_str, debug_str_offsets, debug_types, locations: LocationLists::new(debug_loc, debug_loclists), ranges: RangeLists::new(debug_ranges, debug_rnglists), file_type: DwarfFileType::Dwo, sup: parent.sup.clone(), abbreviations_cache: AbbreviationsCache::new(), }) } } /// All of the commonly used information for a unit in the `.debug_info` or `.debug_types` /// sections. #[derive(Debug)] pub struct Unit<R, Offset = <R as Reader>::Offset> where R: Reader<Offset = Offset>, Offset: ReaderOffset, { /// The header of the unit. pub header: UnitHeader<R, Offset>, /// The parsed abbreviations for the unit. pub abbreviations: Arc<Abbreviations>, /// The `DW_AT_name` attribute of the unit. pub name: Option<R>, /// The `DW_AT_comp_dir` attribute of the unit. pub comp_dir: Option<R>, /// The `DW_AT_low_pc` attribute of the unit. Defaults to 0. pub low_pc: u64, /// The `DW_AT_str_offsets_base` attribute of the unit. Defaults to 0. pub str_offsets_base: DebugStrOffsetsBase<Offset>, /// The `DW_AT_addr_base` attribute of the unit. Defaults to 0. pub addr_base: DebugAddrBase<Offset>, /// The `DW_AT_loclists_base` attribute of the unit. Defaults to 0. pub loclists_base: DebugLocListsBase<Offset>, /// The `DW_AT_rnglists_base` attribute of the unit. Defaults to 0. pub rnglists_base: DebugRngListsBase<Offset>, /// The line number program of the unit. pub line_program: Option<IncompleteLineProgram<R, Offset>>, /// The DWO ID of a skeleton unit or split compilation unit. pub dwo_id: Option<DwoId>, } impl<R: Reader> Unit<R> { /// Construct a new `Unit` from the given unit header. #[inline] pub fn new(dwarf: &Dwarf<R>, header: UnitHeader<R>) -> Result<Self> { let abbreviations = dwarf.abbreviations(&header)?; Self::new_with_abbreviations(dwarf, header, abbreviations) } /// Construct a new `Unit` from the given unit header and abbreviations. /// /// The abbreviations for this call can be obtained using `dwarf.abbreviations(&header)`. /// The caller may implement caching to reuse the `Abbreviations` across units with the /// same `header.debug_abbrev_offset()` value. #[inline] pub fn new_with_abbreviations( dwarf: &Dwarf<R>, header: UnitHeader<R>, abbreviations: Arc<Abbreviations>, ) -> Result<Self> { let mut unit = Unit { abbreviations, name: None, comp_dir: None, low_pc: 0, str_offsets_base: DebugStrOffsetsBase::default_for_encoding_and_file( header.encoding(), dwarf.file_type, ), // NB: Because the .debug_addr section never lives in a .dwo, we can assume its base is always 0 or addr_base: DebugAddrBase(R::Offset::from_u8(0)), loclists_base: DebugLocListsBase::default_for_encoding_and_file( header.encoding(), dwarf.file_type, ), rnglists_base: DebugRngListsBase::default_for_encoding_and_file( header.encoding(), dwarf.file_type, ), line_program: None, dwo_id: match header.type_() { UnitType::Skeleton(dwo_id) | UnitType::SplitCompilation(dwo_id) => Some(dwo_id), _ => None, }, header, }; let mut name = None; let mut comp_dir = None; let mut line_program_offset = None; let mut low_pc_attr = None; { let mut cursor = unit.header.entries(&unit.abbreviations); cursor.next_dfs()?; let root = cursor.current().ok_or(Error::MissingUnitDie)?; let mut attrs = root.attrs(); while let Some(attr) = attrs.next()? { match attr.name() { constants::DW_AT_name => { name = Some(attr.value()); } constants::DW_AT_comp_dir => { comp_dir = Some(attr.value()); } constants::DW_AT_low_pc => { low_pc_attr = Some(attr.value()); } constants::DW_AT_stmt_list => { if let AttributeValue::DebugLineRef(offset) = attr.value() { line_program_offset = Some(offset); } } constants::DW_AT_str_offsets_base => { if let AttributeValue::DebugStrOffsetsBase(base) = attr.value() { unit.str_offsets_base = base; } } constants::DW_AT_addr_base | constants::DW_AT_GNU_addr_base => { if let AttributeValue::DebugAddrBase(base) = attr.value() { unit.addr_base = base; } } constants::DW_AT_loclists_base => { if let AttributeValue::DebugLocListsBase(base) = attr.value() { unit.loclists_base = base; } } constants::DW_AT_rnglists_base | constants::DW_AT_GNU_ranges_base => { if let AttributeValue::DebugRngListsBase(base) = attr.value() { unit.rnglists_base = base; } } constants::DW_AT_GNU_dwo_id => { if unit.dwo_id.is_none() { if let AttributeValue::DwoId(dwo_id) = attr.value() { unit.dwo_id = Some(dwo_id); } } } _ => {} } } } unit.name = match name { Some(val) => dwarf.attr_string(&unit, val).ok(), None => None, }; unit.comp_dir = match comp_dir { Some(val) => dwarf.attr_string(&unit, val).ok(), None => None, }; unit.line_program = match line_program_offset { Some(offset) => Some(dwarf.debug_line.program( offset, unit.header.address_size(), unit.comp_dir.clone(), unit.name.clone(), )?), None => None, }; if let Some(low_pc_attr) = low_pc_attr { if let Some(addr) = dwarf.attr_address(&unit, low_pc_attr)? { unit.low_pc = addr; } } Ok(unit) } /// Return a reference to this unit and its associated `Dwarf`. pub fn unit_ref<'a>(&'a self, dwarf: &'a Dwarf<R>) -> UnitRef<'a, R> { UnitRef::new(dwarf, self) } /// Return the encoding parameters for this unit. #[inline] pub fn encoding(&self) -> Encoding { self.header.encoding() } /// Read the `DebuggingInformationEntry` at the given offset. pub fn entry( &self, offset: UnitOffset<R::Offset>, ) -> Result<DebuggingInformationEntry<'_, '_, R>> { self.header.entry(&self.abbreviations, offset) } /// Navigate this unit's `DebuggingInformationEntry`s. #[inline] pub fn entries(&self) -> EntriesCursor<'_, '_, R> { self.header.entries(&self.abbreviations) } /// Navigate this unit's `DebuggingInformationEntry`s /// starting at the given offset. #[inline] pub fn entries_at_offset( &self, offset: UnitOffset<R::Offset>, ) -> Result<EntriesCursor<'_, '_, R>> { self.header.entries_at_offset(&self.abbreviations, offset) } /// Navigate this unit's `DebuggingInformationEntry`s as a tree /// starting at the given offset. #[inline] pub fn entries_tree( &self, offset: Option<UnitOffset<R::Offset>>, ) -> Result<EntriesTree<'_, '_, R>> { self.header.entries_tree(&self.abbreviations, offset) } /// Read the raw data that defines the Debugging Information Entries. #[inline] pub fn entries_raw( &self, offset: Option<UnitOffset<R::Offset>>, ) -> Result<EntriesRaw<'_, '_, R>> { self.header.entries_raw(&self.abbreviations, offset) } /// Copy attributes that are subject to relocation from another unit. This is intended /// to be used to copy attributes from a skeleton compilation unit to the corresponding /// split compilation unit. pub fn copy_relocated_attributes(&mut self, other: &Unit<R>) { self.low_pc = other.low_pc; self.addr_base = other.addr_base; if self.header.version() < 5 { self.rnglists_base = other.rnglists_base; } } /// Find the dwo name (if any) for this unit, automatically handling the differences /// between the standardized DWARF 5 split DWARF format and the pre-DWARF 5 GNU /// extension. /// /// The returned value is relative to this unit's `comp_dir`. pub fn dwo_name(&self) -> Result<Option<AttributeValue<R>>> { let mut entries = self.entries(); entries.next_entry()?; let entry = entries.current().ok_or(Error::MissingUnitDie)?; if self.header.version() < 5 { entry.attr_value(constants::DW_AT_GNU_dwo_name) } else { entry.attr_value(constants::DW_AT_dwo_name) } } } /// A reference to a `Unit` and its associated `Dwarf`. /// /// These often need to be passed around together, so this struct makes that easier. /// /// It implements `Deref` to `Unit`, so you can use it as if it were a `Unit`. /// It also implements methods that correspond to methods on `Dwarf` that take a `Unit`. #[derive(Debug)] pub struct UnitRef<'a, R: Reader> { /// The `Dwarf` that contains the unit. pub dwarf: &'a Dwarf<R>, /// The `Unit` being referenced. pub unit: &'a Unit<R>, } impl<'a, R: Reader> Clone for UnitRef<'a, R> { fn clone(&self) -> Self { *self } } impl<'a, R: Reader> Copy for UnitRef<'a, R> {} impl<'a, R: Reader> core::ops::Deref for UnitRef<'a, R> { type Target = Unit<R>; fn deref(&self) -> &Self::Target { self.unit } } impl<'a, R: Reader> UnitRef<'a, R> { /// Construct a new `UnitRef` from a `Dwarf` and a `Unit`. pub fn new(dwarf: &'a Dwarf<R>, unit: &'a Unit<R>) -> Self { UnitRef { dwarf, unit } } /// Return the string offset at the given index. #[inline] pub fn string_offset( &self, index: DebugStrOffsetsIndex<R::Offset>, ) -> Result<DebugStrOffset<R::Offset>> { self.dwarf.string_offset(self.unit, index) } /// Return the string at the given offset in `.debug_str`. #[inline] pub fn string(&self, offset: DebugStrOffset<R::Offset>) -> Result<R> { self.dwarf.string(offset) } /// Return the string at the given offset in `.debug_line_str`. #[inline] pub fn line_string(&self, offset: DebugLineStrOffset<R::Offset>) -> Result<R> { self.dwarf.line_string(offset) } /// Return the string at the given offset in the `.debug_str` /// in the supplementary object file. #[inline] pub fn sup_string(&self, offset: DebugStrOffset<R::Offset>) -> Result<R> { self.dwarf.sup_string(offset) } /// Return an attribute value as a string slice. /// /// See [`Dwarf::attr_string`] for more information. pub fn attr_string(&self, attr: AttributeValue<R>) -> Result<R> { self.dwarf.attr_string(self.unit, attr) } /// Return the address at the given index. pub fn address(&self, index: DebugAddrIndex<R::Offset>) -> Result<u64> { self.dwarf.address(self.unit, index) } /// Try to return an attribute value as an address. /// /// See [`Dwarf::attr_address`] for more information. pub fn attr_address(&self, attr: AttributeValue<R>) -> Result<Option<u64>> { self.dwarf.attr_address(self.unit, attr) } /// Return the range list offset for the given raw offset. /// /// This handles adding `DW_AT_GNU_ranges_base` if required. pub fn ranges_offset_from_raw( &self, offset: RawRangeListsOffset<R::Offset>, ) -> RangeListsOffset<R::Offset> { self.dwarf.ranges_offset_from_raw(self.unit, offset) } /// Return the range list offset at the given index. pub fn ranges_offset( &self, index: DebugRngListsIndex<R::Offset>, ) -> Result<RangeListsOffset<R::Offset>> { self.dwarf.ranges_offset(self.unit, index) } /// Iterate over the `RangeListEntry`s starting at the given offset. pub fn ranges(&self, offset: RangeListsOffset<R::Offset>) -> Result<RngListIter<R>> { self.dwarf.ranges(self.unit, offset) } /// Iterate over the `RawRngListEntry`ies starting at the given offset. pub fn raw_ranges(&self, offset: RangeListsOffset<R::Offset>) -> Result<RawRngListIter<R>> { self.dwarf.raw_ranges(self.unit, offset) } /// Try to return an attribute value as a range list offset. /// /// See [`Dwarf::attr_ranges_offset`] for more information. pub fn attr_ranges_offset( &self, attr: AttributeValue<R>, ) -> Result<Option<RangeListsOffset<R::Offset>>> { self.dwarf.attr_ranges_offset(self.unit, attr) } /// Try to return an attribute value as a range list entry iterator. /// /// See [`Dwarf::attr_ranges`] for more information. pub fn attr_ranges(&self, attr: AttributeValue<R>) -> Result<Option<RngListIter<R>>> { self.dwarf.attr_ranges(self.unit, attr) } /// Return an iterator for the address ranges of a `DebuggingInformationEntry`. /// /// This uses `DW_AT_low_pc`, `DW_AT_high_pc` and `DW_AT_ranges`. pub fn die_ranges(&self, entry: &DebuggingInformationEntry<'_, '_, R>) -> Result<RangeIter<R>> { self.dwarf.die_ranges(self.unit, entry) } /// Return an iterator for the address ranges of the `Unit`. /// /// This uses `DW_AT_low_pc`, `DW_AT_high_pc` and `DW_AT_ranges` of the /// root `DebuggingInformationEntry`. pub fn unit_ranges(&self) -> Result<RangeIter<R>> { self.dwarf.unit_ranges(self.unit) } /// Return the location list offset at the given index. pub fn locations_offset( &self, index: DebugLocListsIndex<R::Offset>, ) -> Result<LocationListsOffset<R::Offset>> { self.dwarf.locations_offset(self.unit, index) } /// Iterate over the `LocationListEntry`s starting at the given offset. pub fn locations(&self, offset: LocationListsOffset<R::Offset>) -> Result<LocListIter<R>> { self.dwarf.locations(self.unit, offset) } /// Iterate over the raw `LocationListEntry`s starting at the given offset. pub fn raw_locations( &self, offset: LocationListsOffset<R::Offset>, ) -> Result<RawLocListIter<R>> { self.dwarf.raw_locations(self.unit, offset) } /// Try to return an attribute value as a location list offset. /// /// See [`Dwarf::attr_locations_offset`] for more information. pub fn attr_locations_offset( &self, attr: AttributeValue<R>, ) -> Result<Option<LocationListsOffset<R::Offset>>> { self.dwarf.attr_locations_offset(self.unit, attr) } /// Try to return an attribute value as a location list entry iterator. /// /// See [`Dwarf::attr_locations`] for more information. pub fn attr_locations(&self, attr: AttributeValue<R>) -> Result<Option<LocListIter<R>>> { self.dwarf.attr_locations(self.unit, attr) } } impl<T: ReaderOffset> UnitSectionOffset<T> { /// Convert an offset to be relative to the start of the given unit, /// instead of relative to the start of the section. /// /// Returns `None` if the offset is not within the unit entries. pub fn to_unit_offset<R>(&self, unit: &Unit<R>) -> Option<UnitOffset<T>> where R: Reader<Offset = T>, { let (offset, unit_offset) = match (self, unit.header.offset()) { ( UnitSectionOffset::DebugInfoOffset(offset), UnitSectionOffset::DebugInfoOffset(unit_offset), ) => (offset.0, unit_offset.0), ( UnitSectionOffset::DebugTypesOffset(offset), UnitSectionOffset::DebugTypesOffset(unit_offset), ) => (offset.0, unit_offset.0), _ => return None, }; let offset = match offset.checked_sub(unit_offset) { Some(offset) => UnitOffset(offset), None => return None, }; if !unit.header.is_valid_offset(offset) { return None; } Some(offset) } } impl<T: ReaderOffset> UnitOffset<T> { /// Convert an offset to be relative to the start of the .debug_info section, /// instead of relative to the start of the given compilation unit. /// /// Does not check that the offset is valid. pub fn to_unit_section_offset<R>(&self, unit: &Unit<R>) -> UnitSectionOffset<T> where R: Reader<Offset = T>, { match unit.header.offset() { UnitSectionOffset::DebugInfoOffset(unit_offset) => { DebugInfoOffset(unit_offset.0 + self.0).into() } UnitSectionOffset::DebugTypesOffset(unit_offset) => { DebugTypesOffset(unit_offset.0 + self.0).into() } } } } /// An iterator for the address ranges of a `DebuggingInformationEntry`. /// /// Returned by `Dwarf::die_ranges` and `Dwarf::unit_ranges`. #[derive(Debug)] pub struct RangeIter<R: Reader>(RangeIterInner<R>); #[derive(Debug)] enum RangeIterInner<R: Reader> { Single(Option<Range>), List(RngListIter<R>), } impl<R: Reader> Default for RangeIter<R> { fn default() -> Self { RangeIter(RangeIterInner::Single(None)) } } impl<R: Reader> RangeIter<R> { /// Advance the iterator to the next range. pub fn next(&mut self) -> Result<Option<Range>> { match self.0 { RangeIterInner::Single(ref mut range) => Ok(range.take()), RangeIterInner::List(ref mut list) => list.next(), } } } #[cfg(feature = "fallible-iterator")] impl<R: Reader> fallible_iterator::FallibleIterator for RangeIter<R> { type Item = Range; type Error = Error; #[inline] fn next(&mut self) -> ::core::result::Result<Option<Self::Item>, Self::Error> { RangeIter::next(self) } } #[cfg(test)] mod tests { use super::*; use crate::read::EndianSlice; use crate::{Endianity, LittleEndian}; /// Ensure that `Dwarf<R>` is covariant wrt R. #[test] fn test_dwarf_variance() { /// This only needs to compile. fn _f<'a: 'b, 'b, E: Endianity>(x: Dwarf<EndianSlice<'a, E>>) -> Dwarf<EndianSlice<'b, E>> { x } } /// Ensure that `Unit<R>` is covariant wrt R. #[test] fn test_dwarf_unit_variance() { /// This only needs to compile. fn _f<'a: 'b, 'b, E: Endianity>(x: Unit<EndianSlice<'a, E>>) -> Unit<EndianSlice<'b, E>> { x } } #[test] fn test_send() { fn assert_is_send<T: Send>() {} assert_is_send::<Dwarf<EndianSlice<'_, LittleEndian>>>(); assert_is_send::<Unit<EndianSlice<'_, LittleEndian>>>(); } #[test] fn test_format_error() { let dwarf_sections = DwarfSections::load(|_| -> Result<_> { Ok(vec![1, 2]) }).unwrap(); let sup_sections = DwarfSections::load(|_| -> Result<_> { Ok(vec![1, 2]) }).unwrap(); let dwarf = dwarf_sections.borrow_with_sup(&sup_sections, |section| { EndianSlice::new(section, LittleEndian) }); match dwarf.debug_str.get_str(DebugStrOffset(1)) { Ok(r) => panic!("Unexpected str {:?}", r), Err(e) => { assert_eq!( dwarf.format_error(e), "Hit the end of input before it was expected at .debug_str+0x1" ); } } match dwarf.sup().unwrap().debug_str.get_str(DebugStrOffset(1)) { Ok(r) => panic!("Unexpected str {:?}", r), Err(e) => { assert_eq!( dwarf.format_error(e), "Hit the end of input before it was expected at .debug_str(sup)+0x1" ); } } assert_eq!(dwarf.format_error(Error::Io), Error::Io.description()); } } [ Dauer der Verarbeitung: 0.43 Sekunden (vorverarbeitet) ] |
2026-04-04