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Diffstat (limited to 'vendor/object/src/write/pe.rs')
-rw-r--r-- | vendor/object/src/write/pe.rs | 847 |
1 files changed, 847 insertions, 0 deletions
diff --git a/vendor/object/src/write/pe.rs b/vendor/object/src/write/pe.rs new file mode 100644 index 0000000..70da3a0 --- /dev/null +++ b/vendor/object/src/write/pe.rs @@ -0,0 +1,847 @@ +//! Helper for writing PE files. +use alloc::string::String; +use alloc::vec::Vec; +use core::mem; + +use crate::endian::{LittleEndian as LE, *}; +use crate::pe; +use crate::write::util; +use crate::write::{Error, Result, WritableBuffer}; + +/// A helper for writing PE files. +/// +/// Writing uses a two phase approach. The first phase reserves file ranges and virtual +/// address ranges for everything in the order that they will be written. +/// +/// The second phase writes everything out in order. Thus the caller must ensure writing +/// is in the same order that file ranges were reserved. +#[allow(missing_debug_implementations)] +pub struct Writer<'a> { + is_64: bool, + section_alignment: u32, + file_alignment: u32, + + buffer: &'a mut dyn WritableBuffer, + len: u32, + virtual_len: u32, + headers_len: u32, + + code_address: u32, + data_address: u32, + code_len: u32, + data_len: u32, + bss_len: u32, + + nt_headers_offset: u32, + data_directories: Vec<DataDirectory>, + section_header_num: u16, + sections: Vec<Section>, + + symbol_offset: u32, + symbol_num: u32, + + reloc_blocks: Vec<RelocBlock>, + relocs: Vec<U16<LE>>, + reloc_offset: u32, +} + +impl<'a> Writer<'a> { + /// Create a new `Writer`. + pub fn new( + is_64: bool, + section_alignment: u32, + file_alignment: u32, + buffer: &'a mut dyn WritableBuffer, + ) -> Self { + Writer { + is_64, + section_alignment, + file_alignment, + + buffer, + len: 0, + virtual_len: 0, + headers_len: 0, + + code_address: 0, + data_address: 0, + code_len: 0, + data_len: 0, + bss_len: 0, + + nt_headers_offset: 0, + data_directories: Vec::new(), + section_header_num: 0, + sections: Vec::new(), + + symbol_offset: 0, + symbol_num: 0, + + reloc_blocks: Vec::new(), + relocs: Vec::new(), + reloc_offset: 0, + } + } + + /// Return the current virtual address size that has been reserved. + /// + /// This is only valid after section headers have been reserved. + pub fn virtual_len(&self) -> u32 { + self.virtual_len + } + + /// Reserve a virtual address range with the given size. + /// + /// The reserved length will be increased to match the section alignment. + /// + /// Returns the aligned offset of the start of the range. + pub fn reserve_virtual(&mut self, len: u32) -> u32 { + let offset = self.virtual_len; + self.virtual_len += len; + self.virtual_len = util::align_u32(self.virtual_len, self.section_alignment); + offset + } + + /// Reserve up to the given virtual address. + /// + /// The reserved length will be increased to match the section alignment. + pub fn reserve_virtual_until(&mut self, address: u32) { + debug_assert!(self.virtual_len <= address); + self.virtual_len = util::align_u32(address, self.section_alignment); + } + + /// Return the current file length that has been reserved. + pub fn reserved_len(&self) -> u32 { + self.len + } + + /// Return the current file length that has been written. + #[allow(clippy::len_without_is_empty)] + pub fn len(&self) -> usize { + self.buffer.len() + } + + /// Reserve a file range with the given size and starting alignment. + /// + /// Returns the aligned offset of the start of the range. + pub fn reserve(&mut self, len: u32, align_start: u32) -> u32 { + if len == 0 { + return self.len; + } + self.reserve_align(align_start); + let offset = self.len; + self.len += len; + offset + } + + /// Reserve a file range with the given size and using the file alignment. + /// + /// Returns the aligned offset of the start of the range. + pub fn reserve_file(&mut self, len: u32) -> u32 { + self.reserve(len, self.file_alignment) + } + + /// Write data. + pub fn write(&mut self, data: &[u8]) { + self.buffer.write_bytes(data); + } + + /// Reserve alignment padding bytes. + pub fn reserve_align(&mut self, align_start: u32) { + self.len = util::align_u32(self.len, align_start); + } + + /// Write alignment padding bytes. + pub fn write_align(&mut self, align_start: u32) { + util::write_align(self.buffer, align_start as usize); + } + + /// Write padding up to the next multiple of file alignment. + pub fn write_file_align(&mut self) { + self.write_align(self.file_alignment); + } + + /// Reserve the file range up to the given file offset. + pub fn reserve_until(&mut self, offset: u32) { + debug_assert!(self.len <= offset); + self.len = offset; + } + + /// Write padding up to the given file offset. + pub fn pad_until(&mut self, offset: u32) { + debug_assert!(self.buffer.len() <= offset as usize); + self.buffer.resize(offset as usize); + } + + /// Reserve the range for the DOS header. + /// + /// This must be at the start of the file. + /// + /// When writing, you may use `write_custom_dos_header` or `write_empty_dos_header`. + pub fn reserve_dos_header(&mut self) { + debug_assert_eq!(self.len, 0); + self.reserve(mem::size_of::<pe::ImageDosHeader>() as u32, 1); + } + + /// Write a custom DOS header. + /// + /// This must be at the start of the file. + pub fn write_custom_dos_header(&mut self, dos_header: &pe::ImageDosHeader) -> Result<()> { + debug_assert_eq!(self.buffer.len(), 0); + + // Start writing. + self.buffer + .reserve(self.len as usize) + .map_err(|_| Error(String::from("Cannot allocate buffer")))?; + + self.buffer.write(dos_header); + Ok(()) + } + + /// Write the DOS header for a file without a stub. + /// + /// This must be at the start of the file. + /// + /// Uses default values for all fields. + pub fn write_empty_dos_header(&mut self) -> Result<()> { + self.write_custom_dos_header(&pe::ImageDosHeader { + e_magic: U16::new(LE, pe::IMAGE_DOS_SIGNATURE), + e_cblp: U16::new(LE, 0), + e_cp: U16::new(LE, 0), + e_crlc: U16::new(LE, 0), + e_cparhdr: U16::new(LE, 0), + e_minalloc: U16::new(LE, 0), + e_maxalloc: U16::new(LE, 0), + e_ss: U16::new(LE, 0), + e_sp: U16::new(LE, 0), + e_csum: U16::new(LE, 0), + e_ip: U16::new(LE, 0), + e_cs: U16::new(LE, 0), + e_lfarlc: U16::new(LE, 0), + e_ovno: U16::new(LE, 0), + e_res: [U16::new(LE, 0); 4], + e_oemid: U16::new(LE, 0), + e_oeminfo: U16::new(LE, 0), + e_res2: [U16::new(LE, 0); 10], + e_lfanew: U32::new(LE, self.nt_headers_offset), + }) + } + + /// Reserve a fixed DOS header and stub. + /// + /// Use `reserve_dos_header` and `reserve` if you need a custom stub. + pub fn reserve_dos_header_and_stub(&mut self) { + self.reserve_dos_header(); + self.reserve(64, 1); + } + + /// Write a fixed DOS header and stub. + /// + /// Use `write_custom_dos_header` and `write` if you need a custom stub. + pub fn write_dos_header_and_stub(&mut self) -> Result<()> { + self.write_custom_dos_header(&pe::ImageDosHeader { + e_magic: U16::new(LE, pe::IMAGE_DOS_SIGNATURE), + e_cblp: U16::new(LE, 0x90), + e_cp: U16::new(LE, 3), + e_crlc: U16::new(LE, 0), + e_cparhdr: U16::new(LE, 4), + e_minalloc: U16::new(LE, 0), + e_maxalloc: U16::new(LE, 0xffff), + e_ss: U16::new(LE, 0), + e_sp: U16::new(LE, 0xb8), + e_csum: U16::new(LE, 0), + e_ip: U16::new(LE, 0), + e_cs: U16::new(LE, 0), + e_lfarlc: U16::new(LE, 0x40), + e_ovno: U16::new(LE, 0), + e_res: [U16::new(LE, 0); 4], + e_oemid: U16::new(LE, 0), + e_oeminfo: U16::new(LE, 0), + e_res2: [U16::new(LE, 0); 10], + e_lfanew: U32::new(LE, self.nt_headers_offset), + })?; + + #[rustfmt::skip] + self.buffer.write_bytes(&[ + 0x0e, 0x1f, 0xba, 0x0e, 0x00, 0xb4, 0x09, 0xcd, + 0x21, 0xb8, 0x01, 0x4c, 0xcd, 0x21, 0x54, 0x68, + 0x69, 0x73, 0x20, 0x70, 0x72, 0x6f, 0x67, 0x72, + 0x61, 0x6d, 0x20, 0x63, 0x61, 0x6e, 0x6e, 0x6f, + 0x74, 0x20, 0x62, 0x65, 0x20, 0x72, 0x75, 0x6e, + 0x20, 0x69, 0x6e, 0x20, 0x44, 0x4f, 0x53, 0x20, + 0x6d, 0x6f, 0x64, 0x65, 0x2e, 0x0d, 0x0d, 0x0a, + 0x24, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, + ]); + + Ok(()) + } + + fn nt_headers_size(&self) -> u32 { + if self.is_64 { + mem::size_of::<pe::ImageNtHeaders64>() as u32 + } else { + mem::size_of::<pe::ImageNtHeaders32>() as u32 + } + } + + fn optional_header_size(&self) -> u32 { + let size = if self.is_64 { + mem::size_of::<pe::ImageOptionalHeader64>() as u32 + } else { + mem::size_of::<pe::ImageOptionalHeader32>() as u32 + }; + size + self.data_directories.len() as u32 * mem::size_of::<pe::ImageDataDirectory>() as u32 + } + + /// Return the offset of the NT headers, if reserved. + pub fn nt_headers_offset(&self) -> u32 { + self.nt_headers_offset + } + + /// Reserve the range for the NT headers. + pub fn reserve_nt_headers(&mut self, data_directory_num: usize) { + debug_assert_eq!(self.nt_headers_offset, 0); + self.nt_headers_offset = self.reserve(self.nt_headers_size(), 8); + self.data_directories = vec![DataDirectory::default(); data_directory_num]; + self.reserve( + data_directory_num as u32 * mem::size_of::<pe::ImageDataDirectory>() as u32, + 1, + ); + } + + /// Set the virtual address and size of a data directory. + pub fn set_data_directory(&mut self, index: usize, virtual_address: u32, size: u32) { + self.data_directories[index] = DataDirectory { + virtual_address, + size, + } + } + + /// Write the NT headers. + pub fn write_nt_headers(&mut self, nt_headers: NtHeaders) { + self.pad_until(self.nt_headers_offset); + self.buffer.write(&U32::new(LE, pe::IMAGE_NT_SIGNATURE)); + let file_header = pe::ImageFileHeader { + machine: U16::new(LE, nt_headers.machine), + number_of_sections: U16::new(LE, self.section_header_num), + time_date_stamp: U32::new(LE, nt_headers.time_date_stamp), + pointer_to_symbol_table: U32::new(LE, self.symbol_offset), + number_of_symbols: U32::new(LE, self.symbol_num), + size_of_optional_header: U16::new(LE, self.optional_header_size() as u16), + characteristics: U16::new(LE, nt_headers.characteristics), + }; + self.buffer.write(&file_header); + if self.is_64 { + let optional_header = pe::ImageOptionalHeader64 { + magic: U16::new(LE, pe::IMAGE_NT_OPTIONAL_HDR64_MAGIC), + major_linker_version: nt_headers.major_linker_version, + minor_linker_version: nt_headers.minor_linker_version, + size_of_code: U32::new(LE, self.code_len), + size_of_initialized_data: U32::new(LE, self.data_len), + size_of_uninitialized_data: U32::new(LE, self.bss_len), + address_of_entry_point: U32::new(LE, nt_headers.address_of_entry_point), + base_of_code: U32::new(LE, self.code_address), + image_base: U64::new(LE, nt_headers.image_base), + section_alignment: U32::new(LE, self.section_alignment), + file_alignment: U32::new(LE, self.file_alignment), + major_operating_system_version: U16::new( + LE, + nt_headers.major_operating_system_version, + ), + minor_operating_system_version: U16::new( + LE, + nt_headers.minor_operating_system_version, + ), + major_image_version: U16::new(LE, nt_headers.major_image_version), + minor_image_version: U16::new(LE, nt_headers.minor_image_version), + major_subsystem_version: U16::new(LE, nt_headers.major_subsystem_version), + minor_subsystem_version: U16::new(LE, nt_headers.minor_subsystem_version), + win32_version_value: U32::new(LE, 0), + size_of_image: U32::new(LE, self.virtual_len), + size_of_headers: U32::new(LE, self.headers_len), + check_sum: U32::new(LE, 0), + subsystem: U16::new(LE, nt_headers.subsystem), + dll_characteristics: U16::new(LE, nt_headers.dll_characteristics), + size_of_stack_reserve: U64::new(LE, nt_headers.size_of_stack_reserve), + size_of_stack_commit: U64::new(LE, nt_headers.size_of_stack_commit), + size_of_heap_reserve: U64::new(LE, nt_headers.size_of_heap_reserve), + size_of_heap_commit: U64::new(LE, nt_headers.size_of_heap_commit), + loader_flags: U32::new(LE, 0), + number_of_rva_and_sizes: U32::new(LE, self.data_directories.len() as u32), + }; + self.buffer.write(&optional_header); + } else { + let optional_header = pe::ImageOptionalHeader32 { + magic: U16::new(LE, pe::IMAGE_NT_OPTIONAL_HDR32_MAGIC), + major_linker_version: nt_headers.major_linker_version, + minor_linker_version: nt_headers.minor_linker_version, + size_of_code: U32::new(LE, self.code_len), + size_of_initialized_data: U32::new(LE, self.data_len), + size_of_uninitialized_data: U32::new(LE, self.bss_len), + address_of_entry_point: U32::new(LE, nt_headers.address_of_entry_point), + base_of_code: U32::new(LE, self.code_address), + base_of_data: U32::new(LE, self.data_address), + image_base: U32::new(LE, nt_headers.image_base as u32), + section_alignment: U32::new(LE, self.section_alignment), + file_alignment: U32::new(LE, self.file_alignment), + major_operating_system_version: U16::new( + LE, + nt_headers.major_operating_system_version, + ), + minor_operating_system_version: U16::new( + LE, + nt_headers.minor_operating_system_version, + ), + major_image_version: U16::new(LE, nt_headers.major_image_version), + minor_image_version: U16::new(LE, nt_headers.minor_image_version), + major_subsystem_version: U16::new(LE, nt_headers.major_subsystem_version), + minor_subsystem_version: U16::new(LE, nt_headers.minor_subsystem_version), + win32_version_value: U32::new(LE, 0), + size_of_image: U32::new(LE, self.virtual_len), + size_of_headers: U32::new(LE, self.headers_len), + check_sum: U32::new(LE, 0), + subsystem: U16::new(LE, nt_headers.subsystem), + dll_characteristics: U16::new(LE, nt_headers.dll_characteristics), + size_of_stack_reserve: U32::new(LE, nt_headers.size_of_stack_reserve as u32), + size_of_stack_commit: U32::new(LE, nt_headers.size_of_stack_commit as u32), + size_of_heap_reserve: U32::new(LE, nt_headers.size_of_heap_reserve as u32), + size_of_heap_commit: U32::new(LE, nt_headers.size_of_heap_commit as u32), + loader_flags: U32::new(LE, 0), + number_of_rva_and_sizes: U32::new(LE, self.data_directories.len() as u32), + }; + self.buffer.write(&optional_header); + } + + for dir in &self.data_directories { + self.buffer.write(&pe::ImageDataDirectory { + virtual_address: U32::new(LE, dir.virtual_address), + size: U32::new(LE, dir.size), + }) + } + } + + /// Reserve the section headers. + /// + /// The number of reserved section headers must be the same as the number of sections that + /// are later reserved. + // TODO: change this to a maximum number of sections? + pub fn reserve_section_headers(&mut self, section_header_num: u16) { + debug_assert_eq!(self.section_header_num, 0); + self.section_header_num = section_header_num; + self.reserve( + u32::from(section_header_num) * mem::size_of::<pe::ImageSectionHeader>() as u32, + 1, + ); + // Padding before sections must be included in headers_len. + self.reserve_align(self.file_alignment); + self.headers_len = self.len; + self.reserve_virtual(self.len); + } + + /// Write the section headers. + /// + /// This uses information that was recorded when the sections were reserved. + pub fn write_section_headers(&mut self) { + debug_assert_eq!(self.section_header_num as usize, self.sections.len()); + for section in &self.sections { + let section_header = pe::ImageSectionHeader { + name: section.name, + virtual_size: U32::new(LE, section.range.virtual_size), + virtual_address: U32::new(LE, section.range.virtual_address), + size_of_raw_data: U32::new(LE, section.range.file_size), + pointer_to_raw_data: U32::new(LE, section.range.file_offset), + pointer_to_relocations: U32::new(LE, 0), + pointer_to_linenumbers: U32::new(LE, 0), + number_of_relocations: U16::new(LE, 0), + number_of_linenumbers: U16::new(LE, 0), + characteristics: U32::new(LE, section.characteristics), + }; + self.buffer.write(§ion_header); + } + } + + /// Reserve a section. + /// + /// Returns the file range and virtual address range that are reserved + /// for the section. + pub fn reserve_section( + &mut self, + name: [u8; 8], + characteristics: u32, + virtual_size: u32, + data_size: u32, + ) -> SectionRange { + let virtual_address = self.reserve_virtual(virtual_size); + + // Padding after section must be included in section file size. + let file_size = util::align_u32(data_size, self.file_alignment); + let file_offset = if file_size != 0 { + self.reserve(file_size, self.file_alignment) + } else { + 0 + }; + + // Sizes in optional header use the virtual size with the file alignment. + let aligned_virtual_size = util::align_u32(virtual_size, self.file_alignment); + if characteristics & pe::IMAGE_SCN_CNT_CODE != 0 { + if self.code_address == 0 { + self.code_address = virtual_address; + } + self.code_len += aligned_virtual_size; + } else if characteristics & pe::IMAGE_SCN_CNT_INITIALIZED_DATA != 0 { + if self.data_address == 0 { + self.data_address = virtual_address; + } + self.data_len += aligned_virtual_size; + } else if characteristics & pe::IMAGE_SCN_CNT_UNINITIALIZED_DATA != 0 { + if self.data_address == 0 { + self.data_address = virtual_address; + } + self.bss_len += aligned_virtual_size; + } + + let range = SectionRange { + virtual_address, + virtual_size, + file_offset, + file_size, + }; + self.sections.push(Section { + name, + characteristics, + range, + }); + range + } + + /// Write the data for a section. + pub fn write_section(&mut self, offset: u32, data: &[u8]) { + if data.is_empty() { + return; + } + self.pad_until(offset); + self.write(data); + self.write_align(self.file_alignment); + } + + /// Reserve a `.text` section. + /// + /// Contains executable code. + pub fn reserve_text_section(&mut self, size: u32) -> SectionRange { + self.reserve_section( + *b".text\0\0\0", + pe::IMAGE_SCN_CNT_CODE | pe::IMAGE_SCN_MEM_EXECUTE | pe::IMAGE_SCN_MEM_READ, + size, + size, + ) + } + + /// Reserve a `.data` section. + /// + /// Contains initialized data. + /// + /// May also contain uninitialized data if `virtual_size` is greater than `data_size`. + pub fn reserve_data_section(&mut self, virtual_size: u32, data_size: u32) -> SectionRange { + self.reserve_section( + *b".data\0\0\0", + pe::IMAGE_SCN_CNT_INITIALIZED_DATA | pe::IMAGE_SCN_MEM_READ | pe::IMAGE_SCN_MEM_WRITE, + virtual_size, + data_size, + ) + } + + /// Reserve a `.rdata` section. + /// + /// Contains read-only initialized data. + pub fn reserve_rdata_section(&mut self, size: u32) -> SectionRange { + self.reserve_section( + *b".rdata\0\0", + pe::IMAGE_SCN_CNT_INITIALIZED_DATA | pe::IMAGE_SCN_MEM_READ, + size, + size, + ) + } + + /// Reserve a `.bss` section. + /// + /// Contains uninitialized data. + pub fn reserve_bss_section(&mut self, size: u32) -> SectionRange { + self.reserve_section( + *b".bss\0\0\0\0", + pe::IMAGE_SCN_CNT_UNINITIALIZED_DATA | pe::IMAGE_SCN_MEM_READ | pe::IMAGE_SCN_MEM_WRITE, + size, + 0, + ) + } + + /// Reserve an `.idata` section. + /// + /// Contains import tables. Note that it is permissible to store import tables in a different + /// section. + /// + /// This also sets the `pe::IMAGE_DIRECTORY_ENTRY_IMPORT` data directory. + pub fn reserve_idata_section(&mut self, size: u32) -> SectionRange { + let range = self.reserve_section( + *b".idata\0\0", + pe::IMAGE_SCN_CNT_INITIALIZED_DATA | pe::IMAGE_SCN_MEM_READ | pe::IMAGE_SCN_MEM_WRITE, + size, + size, + ); + let dir = &mut self.data_directories[pe::IMAGE_DIRECTORY_ENTRY_IMPORT]; + debug_assert_eq!(dir.virtual_address, 0); + *dir = DataDirectory { + virtual_address: range.virtual_address, + size, + }; + range + } + + /// Reserve an `.edata` section. + /// + /// Contains export tables. + /// + /// This also sets the `pe::IMAGE_DIRECTORY_ENTRY_EXPORT` data directory. + pub fn reserve_edata_section(&mut self, size: u32) -> SectionRange { + let range = self.reserve_section( + *b".edata\0\0", + pe::IMAGE_SCN_CNT_INITIALIZED_DATA | pe::IMAGE_SCN_MEM_READ, + size, + size, + ); + let dir = &mut self.data_directories[pe::IMAGE_DIRECTORY_ENTRY_EXPORT]; + debug_assert_eq!(dir.virtual_address, 0); + *dir = DataDirectory { + virtual_address: range.virtual_address, + size, + }; + range + } + + /// Reserve a `.pdata` section. + /// + /// Contains exception information. + /// + /// This also sets the `pe::IMAGE_DIRECTORY_ENTRY_EXCEPTION` data directory. + pub fn reserve_pdata_section(&mut self, size: u32) -> SectionRange { + let range = self.reserve_section( + *b".pdata\0\0", + pe::IMAGE_SCN_CNT_INITIALIZED_DATA | pe::IMAGE_SCN_MEM_READ, + size, + size, + ); + let dir = &mut self.data_directories[pe::IMAGE_DIRECTORY_ENTRY_EXCEPTION]; + debug_assert_eq!(dir.virtual_address, 0); + *dir = DataDirectory { + virtual_address: range.virtual_address, + size, + }; + range + } + + /// Reserve a `.xdata` section. + /// + /// Contains exception information. + pub fn reserve_xdata_section(&mut self, size: u32) -> SectionRange { + self.reserve_section( + *b".xdata\0\0", + pe::IMAGE_SCN_CNT_INITIALIZED_DATA | pe::IMAGE_SCN_MEM_READ, + size, + size, + ) + } + + /// Reserve a `.rsrc` section. + /// + /// Contains the resource directory. + /// + /// This also sets the `pe::IMAGE_DIRECTORY_ENTRY_RESOURCE` data directory. + pub fn reserve_rsrc_section(&mut self, size: u32) -> SectionRange { + let range = self.reserve_section( + *b".rsrc\0\0\0", + pe::IMAGE_SCN_CNT_INITIALIZED_DATA | pe::IMAGE_SCN_MEM_READ, + size, + size, + ); + let dir = &mut self.data_directories[pe::IMAGE_DIRECTORY_ENTRY_RESOURCE]; + debug_assert_eq!(dir.virtual_address, 0); + *dir = DataDirectory { + virtual_address: range.virtual_address, + size, + }; + range + } + + /// Add a base relocation. + /// + /// `typ` must be one of the `IMAGE_REL_BASED_*` constants. + pub fn add_reloc(&mut self, mut virtual_address: u32, typ: u16) { + let reloc = U16::new(LE, typ << 12 | (virtual_address & 0xfff) as u16); + virtual_address &= !0xfff; + if let Some(block) = self.reloc_blocks.last_mut() { + if block.virtual_address == virtual_address { + self.relocs.push(reloc); + block.count += 1; + return; + } + // Blocks must have an even number of relocations. + if block.count & 1 != 0 { + self.relocs.push(U16::new(LE, 0)); + block.count += 1; + } + debug_assert!(block.virtual_address < virtual_address); + } + self.relocs.push(reloc); + self.reloc_blocks.push(RelocBlock { + virtual_address, + count: 1, + }); + } + + /// Return true if a base relocation has been added. + pub fn has_relocs(&mut self) -> bool { + !self.relocs.is_empty() + } + + /// Reserve a `.reloc` section. + /// + /// This contains the base relocations that were added with `add_reloc`. + /// + /// This also sets the `pe::IMAGE_DIRECTORY_ENTRY_BASERELOC` data directory. + pub fn reserve_reloc_section(&mut self) -> SectionRange { + if let Some(block) = self.reloc_blocks.last_mut() { + // Blocks must have an even number of relocations. + if block.count & 1 != 0 { + self.relocs.push(U16::new(LE, 0)); + block.count += 1; + } + } + let size = self.reloc_blocks.iter().map(RelocBlock::size).sum(); + let range = self.reserve_section( + *b".reloc\0\0", + pe::IMAGE_SCN_CNT_INITIALIZED_DATA + | pe::IMAGE_SCN_MEM_READ + | pe::IMAGE_SCN_MEM_DISCARDABLE, + size, + size, + ); + let dir = &mut self.data_directories[pe::IMAGE_DIRECTORY_ENTRY_BASERELOC]; + debug_assert_eq!(dir.virtual_address, 0); + *dir = DataDirectory { + virtual_address: range.virtual_address, + size, + }; + self.reloc_offset = range.file_offset; + range + } + + /// Write a `.reloc` section. + /// + /// This contains the base relocations that were added with `add_reloc`. + pub fn write_reloc_section(&mut self) { + if self.reloc_offset == 0 { + return; + } + self.pad_until(self.reloc_offset); + + let mut total = 0; + for block in &self.reloc_blocks { + self.buffer.write(&pe::ImageBaseRelocation { + virtual_address: U32::new(LE, block.virtual_address), + size_of_block: U32::new(LE, block.size()), + }); + self.buffer + .write_slice(&self.relocs[total..][..block.count as usize]); + total += block.count as usize; + } + debug_assert_eq!(total, self.relocs.len()); + + self.write_align(self.file_alignment); + } + + /// Reserve the certificate table. + /// + /// This also sets the `pe::IMAGE_DIRECTORY_ENTRY_SECURITY` data directory. + // TODO: reserve individual certificates + pub fn reserve_certificate_table(&mut self, size: u32) { + let size = util::align_u32(size, 8); + let offset = self.reserve(size, 8); + let dir = &mut self.data_directories[pe::IMAGE_DIRECTORY_ENTRY_SECURITY]; + debug_assert_eq!(dir.virtual_address, 0); + *dir = DataDirectory { + virtual_address: offset, + size, + }; + } + + /// Write the certificate table. + // TODO: write individual certificates + pub fn write_certificate_table(&mut self, data: &[u8]) { + let dir = self.data_directories[pe::IMAGE_DIRECTORY_ENTRY_SECURITY]; + self.pad_until(dir.virtual_address); + self.write(data); + self.pad_until(dir.virtual_address + dir.size); + } +} + +/// Information required for writing [`pe::ImageNtHeaders32`] or [`pe::ImageNtHeaders64`]. +#[allow(missing_docs)] +#[derive(Debug, Clone)] +pub struct NtHeaders { + // ImageFileHeader + pub machine: u16, + pub time_date_stamp: u32, + pub characteristics: u16, + // ImageOptionalHeader + pub major_linker_version: u8, + pub minor_linker_version: u8, + pub address_of_entry_point: u32, + pub image_base: u64, + pub major_operating_system_version: u16, + pub minor_operating_system_version: u16, + pub major_image_version: u16, + pub minor_image_version: u16, + pub major_subsystem_version: u16, + pub minor_subsystem_version: u16, + pub subsystem: u16, + pub dll_characteristics: u16, + pub size_of_stack_reserve: u64, + pub size_of_stack_commit: u64, + pub size_of_heap_reserve: u64, + pub size_of_heap_commit: u64, +} + +#[derive(Default, Clone, Copy)] +struct DataDirectory { + virtual_address: u32, + size: u32, +} + +/// Information required for writing [`pe::ImageSectionHeader`]. +#[allow(missing_docs)] +#[derive(Debug, Clone)] +pub struct Section { + pub name: [u8; pe::IMAGE_SIZEOF_SHORT_NAME], + pub characteristics: u32, + pub range: SectionRange, +} + +/// The file range and virtual address range for a section. +#[allow(missing_docs)] +#[derive(Debug, Default, Clone, Copy)] +pub struct SectionRange { + pub virtual_address: u32, + pub virtual_size: u32, + pub file_offset: u32, + pub file_size: u32, +} + +struct RelocBlock { + virtual_address: u32, + count: u32, +} + +impl RelocBlock { + fn size(&self) -> u32 { + mem::size_of::<pe::ImageBaseRelocation>() as u32 + self.count * mem::size_of::<u16>() as u32 + } +} |