use alloc::vec::Vec; use core::slice; use crate::read::{Error, File, ReadError, ReadRef, Result}; use crate::{macho, Architecture, Endian, Endianness}; /// A parsed representation of the dyld shared cache. #[derive(Debug)] pub struct DyldCache<'data, E = Endianness, R = &'data [u8]> where E: Endian, R: ReadRef<'data>, { endian: E, data: R, subcaches: Vec>, mappings: &'data [macho::DyldCacheMappingInfo], images: &'data [macho::DyldCacheImageInfo], arch: Architecture, } /// Information about a subcache. #[derive(Debug)] pub struct DyldSubCache<'data, E = Endianness, R = &'data [u8]> where E: Endian, R: ReadRef<'data>, { data: R, mappings: &'data [macho::DyldCacheMappingInfo], } // This is the offset of the images_across_all_subcaches_count field. const MIN_HEADER_SIZE_SUBCACHES: u32 = 0x1c4; impl<'data, E, R> DyldCache<'data, E, R> where E: Endian, R: ReadRef<'data>, { /// Parse the raw dyld shared cache data. /// For shared caches from macOS 12 / iOS 15 and above, the subcache files need to be /// supplied as well, in the correct order, with the .symbols subcache last (if present). /// For example, data would be the data for dyld_shared_cache_x86_64, /// and subcache_data would be the data for [dyld_shared_cache_x86_64.1, dyld_shared_cache_x86_64.2, ...] pub fn parse(data: R, subcache_data: &[R]) -> Result { let header = macho::DyldCacheHeader::parse(data)?; let (arch, endian) = header.parse_magic()?; let mappings = header.mappings(endian, data)?; let symbols_subcache_uuid = header.symbols_subcache_uuid(endian); let subcaches_info = header.subcaches(endian, data)?.unwrap_or(&[]); if subcache_data.len() != subcaches_info.len() + symbols_subcache_uuid.is_some() as usize { return Err(Error("Incorrect number of SubCaches")); } // Split out the .symbols subcache data from the other subcaches. let (symbols_subcache_data_and_uuid, subcache_data) = if let Some(symbols_uuid) = symbols_subcache_uuid { let (sym_data, rest_data) = subcache_data.split_last().unwrap(); (Some((*sym_data, symbols_uuid)), rest_data) } else { (None, subcache_data) }; // Read the regular SubCaches (.1, .2, ...), if present. let mut subcaches = Vec::new(); for (&data, info) in subcache_data.iter().zip(subcaches_info.iter()) { let sc_header = macho::DyldCacheHeader::::parse(data)?; if sc_header.uuid != info.uuid { return Err(Error("Unexpected SubCache UUID")); } let mappings = sc_header.mappings(endian, data)?; subcaches.push(DyldSubCache { data, mappings }); } // Read the .symbols SubCache, if present. // Other than the UUID verification, the symbols SubCache is currently unused. let _symbols_subcache = match symbols_subcache_data_and_uuid { Some((data, uuid)) => { let sc_header = macho::DyldCacheHeader::::parse(data)?; if sc_header.uuid != uuid { return Err(Error("Unexpected .symbols SubCache UUID")); } let mappings = sc_header.mappings(endian, data)?; Some(DyldSubCache { data, mappings }) } None => None, }; let images = header.images(endian, data)?; Ok(DyldCache { endian, data, subcaches, mappings, images, arch, }) } /// Get the architecture type of the file. pub fn architecture(&self) -> Architecture { self.arch } /// Get the endianness of the file. #[inline] pub fn endianness(&self) -> Endianness { if self.is_little_endian() { Endianness::Little } else { Endianness::Big } } /// Return true if the file is little endian, false if it is big endian. pub fn is_little_endian(&self) -> bool { self.endian.is_little_endian() } /// Iterate over the images in this cache. pub fn images<'cache>(&'cache self) -> DyldCacheImageIterator<'data, 'cache, E, R> { DyldCacheImageIterator { cache: self, iter: self.images.iter(), } } /// Find the address in a mapping and return the cache or subcache data it was found in, /// together with the translated file offset. pub fn data_and_offset_for_address(&self, address: u64) -> Option<(R, u64)> { if let Some(file_offset) = address_to_file_offset(address, self.endian, self.mappings) { return Some((self.data, file_offset)); } for subcache in &self.subcaches { if let Some(file_offset) = address_to_file_offset(address, self.endian, subcache.mappings) { return Some((subcache.data, file_offset)); } } None } } /// An iterator over all the images (dylibs) in the dyld shared cache. #[derive(Debug)] pub struct DyldCacheImageIterator<'data, 'cache, E = Endianness, R = &'data [u8]> where E: Endian, R: ReadRef<'data>, { cache: &'cache DyldCache<'data, E, R>, iter: slice::Iter<'data, macho::DyldCacheImageInfo>, } impl<'data, 'cache, E, R> Iterator for DyldCacheImageIterator<'data, 'cache, E, R> where E: Endian, R: ReadRef<'data>, { type Item = DyldCacheImage<'data, 'cache, E, R>; fn next(&mut self) -> Option> { let image_info = self.iter.next()?; Some(DyldCacheImage { cache: self.cache, image_info, }) } } /// One image (dylib) from inside the dyld shared cache. #[derive(Debug)] pub struct DyldCacheImage<'data, 'cache, E = Endianness, R = &'data [u8]> where E: Endian, R: ReadRef<'data>, { pub(crate) cache: &'cache DyldCache<'data, E, R>, image_info: &'data macho::DyldCacheImageInfo, } impl<'data, 'cache, E, R> DyldCacheImage<'data, 'cache, E, R> where E: Endian, R: ReadRef<'data>, { /// The file system path of this image. pub fn path(&self) -> Result<&'data str> { let path = self.image_info.path(self.cache.endian, self.cache.data)?; // The path should always be ascii, so from_utf8 should alway succeed. let path = core::str::from_utf8(path).map_err(|_| Error("Path string not valid utf-8"))?; Ok(path) } /// The subcache data which contains the Mach-O header for this image, /// together with the file offset at which this image starts. pub fn image_data_and_offset(&self) -> Result<(R, u64)> { let address = self.image_info.address.get(self.cache.endian); self.cache .data_and_offset_for_address(address) .ok_or(Error("Address not found in any mapping")) } /// Parse this image into an Object. pub fn parse_object(&self) -> Result> { File::parse_dyld_cache_image(self) } } impl macho::DyldCacheHeader { /// Read the dyld cache header. pub fn parse<'data, R: ReadRef<'data>>(data: R) -> Result<&'data Self> { data.read_at::>(0) .read_error("Invalid dyld cache header size or alignment") } /// Returns (arch, endian) based on the magic string. pub fn parse_magic(&self) -> Result<(Architecture, E)> { let (arch, is_big_endian) = match &self.magic { b"dyld_v1 i386\0" => (Architecture::I386, false), b"dyld_v1 x86_64\0" => (Architecture::X86_64, false), b"dyld_v1 x86_64h\0" => (Architecture::X86_64, false), b"dyld_v1 ppc\0" => (Architecture::PowerPc, true), b"dyld_v1 armv6\0" => (Architecture::Arm, false), b"dyld_v1 armv7\0" => (Architecture::Arm, false), b"dyld_v1 armv7f\0" => (Architecture::Arm, false), b"dyld_v1 armv7s\0" => (Architecture::Arm, false), b"dyld_v1 armv7k\0" => (Architecture::Arm, false), b"dyld_v1 arm64\0" => (Architecture::Aarch64, false), b"dyld_v1 arm64e\0" => (Architecture::Aarch64, false), _ => return Err(Error("Unrecognized dyld cache magic")), }; let endian = E::from_big_endian(is_big_endian).read_error("Unsupported dyld cache endian")?; Ok((arch, endian)) } /// Return the mapping information table. pub fn mappings<'data, R: ReadRef<'data>>( &self, endian: E, data: R, ) -> Result<&'data [macho::DyldCacheMappingInfo]> { data.read_slice_at::>( self.mapping_offset.get(endian).into(), self.mapping_count.get(endian) as usize, ) .read_error("Invalid dyld cache mapping size or alignment") } /// Return the information about subcaches, if present. pub fn subcaches<'data, R: ReadRef<'data>>( &self, endian: E, data: R, ) -> Result]>> { if self.mapping_offset.get(endian) >= MIN_HEADER_SIZE_SUBCACHES { let subcaches = data .read_slice_at::>( self.subcaches_offset.get(endian).into(), self.subcaches_count.get(endian) as usize, ) .read_error("Invalid dyld subcaches size or alignment")?; Ok(Some(subcaches)) } else { Ok(None) } } /// Return the UUID for the .symbols subcache, if present. pub fn symbols_subcache_uuid(&self, endian: E) -> Option<[u8; 16]> { if self.mapping_offset.get(endian) >= MIN_HEADER_SIZE_SUBCACHES { let uuid = self.symbols_subcache_uuid; if uuid != [0; 16] { return Some(uuid); } } None } /// Return the image information table. pub fn images<'data, R: ReadRef<'data>>( &self, endian: E, data: R, ) -> Result<&'data [macho::DyldCacheImageInfo]> { if self.mapping_offset.get(endian) >= MIN_HEADER_SIZE_SUBCACHES { data.read_slice_at::>( self.images_across_all_subcaches_offset.get(endian).into(), self.images_across_all_subcaches_count.get(endian) as usize, ) .read_error("Invalid dyld cache image size or alignment") } else { data.read_slice_at::>( self.images_offset.get(endian).into(), self.images_count.get(endian) as usize, ) .read_error("Invalid dyld cache image size or alignment") } } } impl macho::DyldCacheImageInfo { /// The file system path of this image. pub fn path<'data, R: ReadRef<'data>>(&self, endian: E, data: R) -> Result<&'data [u8]> { let r_start = self.path_file_offset.get(endian).into(); let r_end = data.len().read_error("Couldn't get data len()")?; data.read_bytes_at_until(r_start..r_end, 0) .read_error("Couldn't read dyld cache image path") } /// Find the file offset of the image by looking up its address in the mappings. pub fn file_offset( &self, endian: E, mappings: &[macho::DyldCacheMappingInfo], ) -> Result { let address = self.address.get(endian); address_to_file_offset(address, endian, mappings) .read_error("Invalid dyld cache image address") } } /// Find the file offset of the image by looking up its address in the mappings. pub fn address_to_file_offset( address: u64, endian: E, mappings: &[macho::DyldCacheMappingInfo], ) -> Option { for mapping in mappings { let mapping_address = mapping.address.get(endian); if address >= mapping_address && address < mapping_address.wrapping_add(mapping.size.get(endian)) { return Some(address - mapping_address + mapping.file_offset.get(endian)); } } None }