compression_header.rs

mozilla-central/third_party/rust/goblin/src/elf/compression_header.rs

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macro_rules! elf_compression_header {

    () => {

        use plain;

        // Declare that this is a plain type.

        unsafe impl plain::Plain for CompressionHeader {}

        impl ::core::fmt::Debug for CompressionHeader {

            fn fmt(&self, f: &mut ::core::fmt::Formatter) -> ::core::fmt::Result {

                f.debug_struct("CompressionHeader")

                    .field("ch_type", &self.ch_type)

                    .field("ch_size", &format_args!("0x{:x}", self.ch_size))

                    .field("ch_addralign", &format_args!("0x{:x}", self.ch_addralign))

                    .finish()

};

/// ZLIB/DEFLATE algorithm.

pub const ELFCOMPRESS_ZLIB: u32 = 1;

/// Start of OS-specific.

pub const ELFCOMPRESS_LOOS: u32 = 0x6000_0000;

/// End of OS-specific.

pub const ELFCOMPRESS_HIOS: u32 = 0x6fff_ffff;

/// Start of processor-specific.

pub const ELFCOMPRESS_LOPROC: u32 = 0x7000_0000;

/// End of processor-specific.

pub const ELFCOMPRESS_HIPROC: u32 = 0x7fff_ffff;

macro_rules! elf_compression_header_std_impl {

    ($size:ty) => {

        #[cfg(test)]

        mod tests {

            use super::*;

            #[test]

            fn size_of() {

                assert_eq!(::std::mem::size_of::<CompressionHeader>(), SIZEOF_CHDR);

        if_alloc! {

            use crate::elf::compression_header::CompressionHeader as ElfCompressionHeader;

            use plain::Plain;

            if_std! {

                use crate::error::Result;

                use std::fs::File;

                use std::io::{Read, Seek};

                use std::io::SeekFrom::Start;

            impl From<CompressionHeader> for ElfCompressionHeader {

                fn from(ch: CompressionHeader) -> Self {

                    ElfCompressionHeader {

                        ch_type: ch.ch_type,

                        ch_size: u64::from(ch.ch_size),

                        ch_addralign: u64::from(ch.ch_addralign),

            impl CompressionHeader {

                pub fn from_bytes(bytes: &[u8]) -> CompressionHeader {

                    let mut chdr = CompressionHeader::default();

                    chdr.copy_from_bytes(bytes).expect("buffer is too short for header");

                    chdr

                #[cfg(feature = "std")]

                pub fn from_fd(fd: &mut File, offset: u64) -> Result<CompressionHeader> {

                    let mut chdr = CompressionHeader::default();

                    fd.seek(Start(offset))?;

                    unsafe {

                        fd.read_exact(plain::as_mut_bytes(&mut chdr))?;

                    Ok(chdr)

        } // end if_alloc

};

#[cfg(feature = "alloc")]

use scroll::{Pread, Pwrite, SizeWith};

pub mod compression_header32 {

    pub use crate::elf::compression_header::*;

    #[repr(C)]

    #[derive(Copy, Clone, Eq, PartialEq, Default)]

    #[cfg_attr(feature = "alloc", derive(Pread, Pwrite, SizeWith))]

    /// The compression header is used at the start of SHF_COMPRESSED sections

    pub struct CompressionHeader {

        /// Compression format

        pub ch_type: u32,

        /// Uncompressed data size

        pub ch_size: u32,

        /// Uncompressed data alignment

        pub ch_addralign: u32,

    elf_compression_header!();

    pub const SIZEOF_CHDR: usize = 12;

    elf_compression_header_std_impl!(u32);

    if_alloc! {

        impl From<ElfCompressionHeader> for CompressionHeader {

            fn from(ch: ElfCompressionHeader) -> Self {

                CompressionHeader {

                    ch_type: ch.ch_type,

                    ch_size: ch.ch_size as u32,

                    ch_addralign: ch.ch_addralign as u32,

pub mod compression_header64 {

    pub use crate::elf::compression_header::*;

    #[repr(C)]

    #[derive(Copy, Clone, Eq, PartialEq, Default)]

    #[cfg_attr(feature = "alloc", derive(Pread, Pwrite, SizeWith))]

    /// The compression header is used at the start of SHF_COMPRESSED sections

    pub struct CompressionHeader {

        /// Compression format

        pub ch_type: u32,

        pub ch_reserved: u32,

        /// Uncompressed data size

        pub ch_size: u64,

        /// Uncompressed data alignment

        pub ch_addralign: u64,

    elf_compression_header!();

    pub const SIZEOF_CHDR: usize = 24;

    elf_compression_header_std_impl!(u64);

    if_alloc! {

        impl From<ElfCompressionHeader> for CompressionHeader {

            fn from(ch: ElfCompressionHeader) -> Self {

                CompressionHeader {

                    ch_type: ch.ch_type,

                    ch_reserved: 0,

                    ch_size: ch.ch_size as u64,

                    ch_addralign: ch.ch_addralign as u64,

///////////////////////////////

// Std/analysis/Unified Structs

///////////////////////////////

if_alloc! {

    #[cfg(feature = "endian_fd")]

    use crate::error;

    use core::fmt;

    use core::result;

    use scroll::ctx;

    use crate::container::{Container, Ctx};

    #[derive(Default, PartialEq, Clone)]

    /// A unified CompressionHeader - convertable to and from 32-bit and 64-bit variants

    pub struct CompressionHeader {

        /// Compression format

        pub ch_type: u32,

        /// Uncompressed data size

        pub ch_size: u64,

        /// Uncompressed data alignment

        pub ch_addralign: u64,

    impl CompressionHeader {

        /// Return the size of the underlying compression header, given a `container`

        #[inline]

        pub fn size(ctx: Ctx) -> usize {

            use scroll::ctx::SizeWith;

            Self::size_with(&ctx)

        pub fn new() -> Self {

            CompressionHeader {

                ch_type: 0,

                ch_size: 0,

                ch_addralign: 2 << 8,

        /// Parse a compression header from `bytes` at `offset`, using the given `ctx`

        #[cfg(feature = "endian_fd")]

        pub fn parse(bytes: &[u8], mut offset: usize, ctx: Ctx) -> error::Result<CompressionHeader> {

            use scroll::Pread;

            bytes.gread_with(&mut offset, ctx)

    impl fmt::Debug for CompressionHeader {

        fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result {

            f.debug_struct("CompressionHeader")

                .field("ch_type", &self.ch_type)

                .field("ch_size", &format_args!("0x{:x}", self.ch_size))

                .field("ch_addralign", &format_args!("0x{:x}", self.ch_addralign))

                .finish()

    impl ctx::SizeWith<Ctx> for CompressionHeader {

        fn size_with( &Ctx { container, .. }: &Ctx) -> usize {

            match container {

                Container::Little => {

                    compression_header32::SIZEOF_CHDR

},

                Container::Big => {

                    compression_header64::SIZEOF_CHDR

},

    impl<'a> ctx::TryFromCtx<'a, Ctx> for CompressionHeader {

        type Error = crate::error::Error;

        fn try_from_ctx(bytes: &'a [u8], Ctx {container, le}: Ctx) -> result::Result<(Self, usize), Self::Error> {

            use scroll::Pread;

            let res = match container {

                Container::Little => {

                    (bytes.pread_with::<compression_header32::CompressionHeader>(0, le)?.into(), compression_header32::SIZEOF_CHDR)

},

                Container::Big => {

                    (bytes.pread_with::<compression_header64::CompressionHeader>(0, le)?.into(), compression_header64::SIZEOF_CHDR)

};

            Ok(res)

    impl ctx::TryIntoCtx<Ctx> for CompressionHeader {

        type Error = crate::error::Error;

        fn try_into_ctx(self, bytes: &mut [u8], Ctx {container, le}: Ctx) -> result::Result<usize, Self::Error> {

            use scroll::Pwrite;

            match container {

                Container::Little => {

                    let chdr: compression_header32::CompressionHeader = self.into();

                    Ok(bytes.pwrite_with(chdr, 0, le)?)

},

                Container::Big => {

                    let chdr: compression_header64::CompressionHeader = self.into();

                    Ok(bytes.pwrite_with(chdr, 0, le)?)

    impl ctx::IntoCtx<Ctx> for CompressionHeader {

        fn into_ctx(self, bytes: &mut [u8], Ctx {container, le}: Ctx) {

            use scroll::Pwrite;

            match container {

                Container::Little => {

                    let chdr: compression_header32::CompressionHeader = self.into();

                    bytes.pwrite_with(chdr, 0, le).unwrap();

},

                Container::Big => {

                    let chdr: compression_header64::CompressionHeader = self.into();

                    bytes.pwrite_with(chdr, 0, le).unwrap();

} // end if_alloc