# endian-writer [![Crates.io](https://img.shields.io/crates/v/endian-writer.svg)](https://crates.io/crates/endian-writer) [![Docs.rs](https://docs.rs/endian-writer/badge.svg)](https://docs.rs/endian-writer) [![CI](https://github.com/Sewer56/endian-writer-rs/actions/workflows/rust.yml/badge.svg)](https://github.com/Sewer56/endian-writer-rs/actions) ## About [no_std] **endian_writer** is a Rust crate that provides utilities for reading and writing data in both little-endian and big-endian formats. It offers interchangeable readers and writers through traits, allowing for flexible and efficient serialization and deserialization of data structures. ## Installation Add `endian_writer` to your `Cargo.toml`: ```toml [dependencies] endian_writer = "0.1.0" # Replace with the actual version ``` ## Usage ### Basic Usage of `BigEndianReader` / `LittleEndianReader` The `BigEndianReader` and `LittleEndianReader` allow you to read data from a raw byte pointer in a specified endian format. ```rust use endian_writer::{BigEndianReader, LittleEndianReader, EndianReader}; use core::mem::size_of; unsafe fn example_reader() { // Example with BigEndianReader let big_data: [u8; 8] = [0x08, 0x07, 0x06, 0x05, 0x04, 0x03, 0x02, 0x01]; // Big-endian for 0x0807060504030201u64 let mut big_reader = BigEndianReader::new(big_data.as_ptr()); // Read a u64 value let big_value: u64 = big_reader.read_u64(); assert_eq!(big_value, 0x0807060504030201); println!("Big-endian read value: {:#x}", big_value); // Example with LittleEndianReader let little_data: [u8; 8] = [0x01, 0x02, 0x03, 0x04, 0x05, 0x06, 0x07, 0x08]; // Little-endian for 0x0807060504030201u64 let mut little_reader = LittleEndianReader::new(little_data.as_ptr()); // Read a u64 value let little_value: u64 = little_reader.read_u64(); assert_eq!(little_value, 0x0807060504030201); println!("Little-endian read value: {:#x}", little_value); } ``` ### Basic Usage of `BigEndianWriter` / `LittleEndianWriter` The `BigEndianWriter` and `LittleEndianWriter` allow you to write data to a raw byte pointer in a specified endian format. ```rust use endian_writer::{BigEndianWriter, LittleEndianWriter, EndianWriter}; use core::mem::size_of; unsafe fn example_writer() { // Example with BigEndianWriter let mut big_data: [u8; 8] = [0; 8]; let mut big_writer = BigEndianWriter::new(big_data.as_mut_ptr()); // Write a u64 value big_writer.write_u64(0x0807060504030201u64); assert_eq!(big_data, [0x08, 0x07, 0x06, 0x05, 0x04, 0x03, 0x02, 0x01]); // Big-endian for 0x0807060504030201u64 println!("Big-endian written data: {:?}", big_data); // Example with LittleEndianWriter let mut little_data: [u8; 8] = [0; 8]; let mut little_writer = LittleEndianWriter::new(little_data.as_mut_ptr()); // Write a u64 value little_writer.write_u64(0x0807060504030201u64); assert_eq!(little_data, [0x01, 0x02, 0x03, 0x04, 0x05, 0x06, 0x07, 0x08]); // Little-endian for 0x0807060504030201u64 println!("Little-endian written data: {:?}", little_data); } ``` ### Interchangeable Readers/Writers via Traits Readers and writers are interchangeable through the use of traits: - Readers implement the `EndianReader` trait. - Writers implement the `EndianWriter` trait. - Types that can be written/read implement `EndianWritableAt` and `EndianReadableAt`, respectively, along with `HasSize`. - This provides the `write`, `write_at`, `read`, `read_at` function, along with future extension methods. This allows you to write generic functions that can operate on any endian-specific reader or writer. ```rust use endian_writer::{ EndianWriter, EndianReader, LittleEndianWriter, LittleEndianReader, BigEndianWriter, BigEndianReader, EndianWritableAt, EndianReadableAt, HasSize }; struct FileEntry { hash: u64, data: u64, } /// Allows you to serialize with either LittleEndianWriter or BigEndianWriter impl EndianWritableAt for FileEntry { unsafe fn write_at(&self, writer: &mut W, offset: isize) { writer.write_u64_at(self.hash, offset); writer.write_u64_at(self.data, offset + 8); } } impl HasSize for FileEntry { const SIZE: usize = 16; } /// Allows you to deserialize with either LittleEndianReader or BigEndianReader impl EndianReadableAt for FileEntry { unsafe fn read_at(reader: &mut R, offset: isize) -> Self { let hash = reader.read_u64_at(offset); let data = reader.read_u64_at(offset + 8); FileEntry { hash, data } } } unsafe fn example_serialize_deserialize() { let entry = FileEntry { hash: 0x123456789ABCDEF0, data: 0x0FEDCBA987654321, }; // Write using LittleEndianWriter let mut buffer_le: [u8; 16] = [0; 16]; let mut writer_le = LittleEndianWriter::new(buffer_le.as_mut_ptr()); writer_le.write(&entry); assert_eq!( buffer_le, [ 0xF0, 0xDE, 0xBC, 0x9A, 0x78, 0x56, 0x34, 0x12, // hash in little-endian 0x21, 0x43, 0x65, 0x87, 0xA9, 0xCB, 0xED, 0x0F // data in little-endian ] ); println!("Written buffer (Little Endian): {:?}", buffer_le); // Write using BigEndianWriter let mut buffer_be: [u8; 16] = [0; 16]; let mut writer_be = BigEndianWriter::new(buffer_be.as_mut_ptr()); writer_be.write(&entry); assert_eq!( buffer_be, [ 0x12, 0x34, 0x56, 0x78, 0x9A, 0xBC, 0xDE, 0xF0, // hash in big-endian 0x0F, 0xED, 0xCB, 0xA9, 0x87, 0x65, 0x43, 0x21 // data in big-endian ] ); println!("Written buffer (Big Endian): {:?}", buffer_be); // Read using LittleEndianReader let mut reader_le = LittleEndianReader::new(buffer_le.as_ptr()); let read_le: FileEntry = reader_le.read(); assert_eq!(read_le.hash, entry.hash); assert_eq!(read_le.data, entry.data); println!( "Read entry (Little Endian): hash={:#x}, data={:#x}", read_le.hash, read_le.data ); // Read using BigEndianReader let mut reader_be = BigEndianReader::new(buffer_be.as_ptr()); let read_be: FileEntry = reader_be.read(); assert_eq!(read_be.hash, entry.hash); assert_eq!(read_be.data, entry.data); println!( "Read entry (Big Endian): hash={:#x}, data={:#x}", read_be.hash, read_be.data ); } ``` #### Automatically Deriving The Traits The following piece of Rust code. ```rust use endian_writer_derive::EndianWritable; #[derive(EndianWritable)] #[repr(C)] struct MyStruct { a: u32, b: u16, c: u8, } ``` Will automatically derive the traits [EndianWritableAt], [EndianReadableAt], and [HasSize] provided all children of the struct also implement these traits. For more details and caveats, see the [endian-writer-derive] crate. #### Performance Note As seen in the code above, it's more efficient to use multiple `write_at` or `read_at` methods which don't advance the read pointer. When all fields are read, use a `seek` to advance the pointer. This approach makes it an easier job for the compiler to optimize the code, and is also faster in debug builds. ### Extensions: Reading Slices of Structs You can use `write_entries` and `read_entries` for efficient batch operations. ```rust #[derive(Debug, PartialEq, Copy, Clone)] struct FileEntry { hash: u64, data: u64, } impl EndianWritableAt for FileEntry { unsafe fn write_at(&self, writer: &mut W, offset: isize) { writer.write_u64_at(self.hash, offset); writer.write_u64_at(self.data, offset + 8); } } impl EndianReadableAt for FileEntry { unsafe fn read_at(reader: &mut R, offset: isize) -> Self { let hash = reader.read_u64_at(offset); let data = reader.read_u64_at(offset + 8); FileEntry { hash, data } } } impl HasSize for FileEntry { const SIZE: usize = 16; } unsafe { let entries = [ FileEntry { hash: 0x123456789ABCDEF0, data: 0x0FEDCBA987654321 }, FileEntry { hash: 0x0, data: 0x1 }, ]; // Write a slice of 2 entries. let mut buffer = [0u8; 32]; let mut writer = LittleEndianWriter::new(buffer.as_mut_ptr()); writer.write_entries(&entries); // Read a slice of 2 entries. let mut reader = LittleEndianReader::new(buffer.as_ptr()); let mut read_entries = [FileEntry { hash: 0, data: 0 }; 2]; reader.read_entries(&mut read_entries); } ``` ```rust #[derive(Debug, PartialEq, Copy, Clone)] struct FileEntryB { hash: u64, data: u64, } // To FileEntry for writing. impl From for FileEntry { fn from(source: FileEntryB) -> Self { FileEntry { hash: source.hash, data: source.data, } } } // To FileEntryB for reading. impl From for FileEntryB { fn from(source: FileEntry) -> Self { FileEntryB { hash: source.hash, data: source.data, } } } unsafe { let sources = vec![ FileEntryB { hash: 0x123456789ABCDEF0, data: 0x0FEDCBA987654321 }, FileEntryB { hash: 0x0, data: 0x1 }, ]; // Write 2 FileEntryB as FileEntry let mut buffer = [0u8; 32]; let mut writer = LittleEndianWriter::new(buffer.as_mut_ptr()); writer.write_entries_into::(&sources); // Read 2 FileEntry as FileEntryB let mut reader = LittleEndianReader::new(buffer.as_ptr()); let mut read_entries = vec![FileEntryB { hash: 0, data: 0 }; 2]; reader.read_entries_into::(&mut read_entries); } ``` ## Development For information on how to work with this codebase, see [README-DEV.MD](README-DEV.MD). ## License Licensed under [MIT](./LICENSE). [Learn more about Reloaded's general choice of licensing for projects.][reloaded-license]. [reloaded-license]: https://reloaded-project.github.io/Reloaded.MkDocsMaterial.Themes.R2/Pages/license/ [EndianWritableAt]: https://docs.rs/endian-writer/2.1.0/endian_writer/traits/trait.EndianWritableAt.html [EndianReadableAt]: https://docs.rs/endian-writer/2.1.0/endian_writer/traits/trait.EndianReadableAt.html [HasSize]: https://docs.rs/endian-writer/2.1.0/endian_writer/traits/trait.HasSize.html [endian-writer-derive]: https://github.com/Sewer56/endian-writer-derive/blob/main/README.MD#example