Add some comments
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@ -1,5 +1,4 @@
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use crate::Machine;
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use crate::Machine;
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use std::fmt::Error;
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use std::fs;
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use std::fs;
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use std::io::Read;
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use std::io::Read;
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@ -24,65 +23,117 @@ pub fn load(path: &str, machine: &mut Machine, start_index: usize) -> Result<(),
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instructions.push(u32::from_le_bytes(buf));
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instructions.push(u32::from_le_bytes(buf));
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}
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}
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}
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}
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for i in 0..instructions.len() {
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for (i, inst) in instructions.iter().enumerate() {
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machine.write_memory(4, 4 * i + start_index, instructions[i] as u64);
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machine.write_memory(4, 4 * i + start_index, inst.to_owned() as u64);
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}
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}
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// #[cfg(debug_assertions)]
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// #[cfg(debug_assertions)]
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// println!("{:04x?}", instructions); // only print loaded program in debug build
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// println!("{:04x?}", instructions); // only print loaded program in debug build
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Ok(())
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Ok(())
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}
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}
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/// The elf header defines principes aspects of the binary files, it's place at the start of the file
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/// see <https://en.wikipedia.org/wiki/Executable_and_Linkable_Format#File_header> for more informations
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pub struct ElfHeader {
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pub struct ElfHeader {
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/// Defines whether the file is big or little endian
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/// true correspond to big endian, false otherwise
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///
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/// Offset: 0x05, size: 1 byte
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pub endianess: bool,
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pub endianess: bool,
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/// Defines whether the file is 32 bits or 64 bits
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///
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/// Offset: 0x04, size: 1 byte
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pub is_32bits: bool,
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pub is_32bits: bool,
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/// Version of the elf file, current version is 1
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///
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/// Offset: 0x06, size: 1 byte
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pub version: u8,
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pub version: u8,
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/// Identifies the target ABI.
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///
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/// In this implementation: Defines if the target abi is system V compliant
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///
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/// Offset: 0x07, size: 1 byte
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pub sys_v_abi: bool,
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pub sys_v_abi: bool,
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/// Identifies target ISA, 0xF3 correspond to RISC-V
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///
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/// In this implementatio, true if target isa is RISC-V, false otherwise
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///
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/// Offset: 0x12, size: 2 bytes
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pub is_riscv_target: bool,
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pub is_riscv_target: bool,
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/// Memory address of the entry point from w<here the process starts its execution.
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/// If the program doesn't have an entrypoint (i.e. not an executable), the value is 0
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///
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/// Offset: 0x18, size: 4 (32 bits) or 8 (64 bits)
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pub entrypoint: u64,
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pub entrypoint: u64,
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/// Size of the elf header, 64 bytes for 64 bits and 52 for 32 bits
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///
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/// Offset: 0x28(32 bits) or 0x34 (64 bits), size: 2 bytes
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pub elf_header_size: u16,
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pub elf_header_size: u16,
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/// Position of the first program header entry
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///
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/// Offset: 0x1C (32 bits) or 0x20 (64 bits), size: 4 (32 bits) or 8 (64 bits) bytes
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pub program_header_location: u64,
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pub program_header_location: u64,
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/// Number of entries in the progream header table
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///
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/// Offset: 0x2C (32 bits) or 0x38 (64 bits), size: 2 bytes
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pub program_header_entries: u16,
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pub program_header_entries: u16,
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/// Size of a program header entry
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///
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/// Offset: 0x2A (32 bits) or 0x36 (64 bits), size: 2 bytes
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pub program_header_size: u16,
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pub program_header_size: u16,
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/// Position of the first section header entry
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///
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/// Offset: 0x20 (32 bits) or 0x28 (64 bits), size: 4 (32 bits) or 8 (64 bits) bytes
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pub section_header_location: u64,
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pub section_header_location: u64,
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/// Number of entries in the section header table
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///
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/// Offset: 0x30 (32 bits) or 0x3C (64 bits), size: 2 bytes
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pub section_header_entries: u16,
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pub section_header_entries: u16,
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/// Size of a section header entry
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///
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/// Offset: 0x2E (32 bits) or 0x36 (64 bits), size: 2 bytes
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pub section_header_size: u16,
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pub section_header_size: u16,
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}
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}
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impl ElfHeader {
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impl ElfHeader {
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/// return true if the 4 first bytes constitude the elf magic number
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/// return true if the 4 first bytes constitude the elf magic number
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fn is_elf(instructions: &Vec<u8>) -> bool {
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fn is_elf(instructions: &[u8]) -> bool {
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instructions.get(0..4) == Option::Some(&[0x7f, 0x45, 0x4c, 0x46])
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instructions.get(0..4) == Option::Some(&[0x7f, 0x45, 0x4c, 0x46])
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}
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}
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/// return true if big endian, false otherwise
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/// return true if big endian, false otherwise
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fn check_endianess(instructions: &Vec<u8>) -> bool {
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fn check_endianess(instructions: &[u8]) -> bool {
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instructions.get(5) == Option::Some(&2)
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instructions.get(5) == Option::Some(&2)
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}
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}
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/// return true if file is 32 bits, false if 64 bits
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/// return true if file is 32 bits, false if 64 bits
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fn is_32bits(instructions: &Vec<u8>) -> bool {
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fn is_32bits(instructions: &[u8]) -> bool {
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instructions.get(4) == Option::Some(&1)
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instructions.get(4) == Option::Some(&1)
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}
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}
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/// return the version of the elf file (should be 1)
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/// return the version of the elf file (should be 1)
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/// Can be None if the file is smaller than 7 bytes -> the file is invalid
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/// Can be None if the file is smaller than 7 bytes -> the file is invalid
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fn get_version(instructions: &Vec<u8>) -> Option<u8> {
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fn get_version(instructions: &[u8]) -> Option<u8> {
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instructions.get(6).copied() // work as primitives implements Copy
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instructions.get(6).copied() // work as primitives implements Copy
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}
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}
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/// return true if target abi of the binary file is System V, false otherwise
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/// return true if target abi of the binary file is System V, false otherwise
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fn is_system_v_elf(instructions: &Vec<u8>) -> bool {
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fn is_system_v_elf(instructions: &[u8]) -> bool {
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instructions.get(7) == Option::Some(&0)
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instructions.get(7) == Option::Some(&0)
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}
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}
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/// return true if specified target instruction set architecture is RISCV
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/// return true if specified target instruction set architecture is RISCV
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fn is_riscv_isa(instructions: &Vec<u8>) -> bool {
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fn is_riscv_isa(instructions: &[u8]) -> bool {
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Self::get_u16_value(instructions, 0x12) == Option::Some(0xf3)
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Self::get_u16_value(instructions, 0x12) == Option::Some(0xf3)
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}
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}
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/// memory address of the entry point from where the process starts its execution
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/// memory address of the entry point from where the process starts its execution
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fn get_entrypoint(instructions: &Vec<u8>, is_32bits: bool) -> Option<u64> {
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///
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/// ## Arguments:
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///
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/// **instructions** List of bytes of the loaded binary file
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/// **is_32bits** defines whether the binary file is 32 bits or 64 bits
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fn get_entrypoint(instructions: &[u8], is_32bits: bool) -> Option<u64> {
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if is_32bits {
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if is_32bits {
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get_address_point(instructions, 0x18, true)
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get_address_point(instructions, 0x18, true)
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} else {
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} else {
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@ -91,7 +142,12 @@ impl ElfHeader {
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}
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}
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/// Memory address of the start of the program header table
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/// Memory address of the start of the program header table
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fn get_program_header_table_location(instructions: &Vec<u8>, is_32bits: bool) -> Option<u64> {
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///
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/// ## Arguments:
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///
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/// **instructions** List of bytes of the loaded binary file
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/// **is_32bits** defines whether the binary file is 32 bits or 64 bits
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fn get_program_header_table_location(instructions: &[u8], is_32bits: bool) -> Option<u64> {
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if is_32bits {
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if is_32bits {
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get_address_point(instructions, 0x1c, true)
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get_address_point(instructions, 0x1c, true)
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} else {
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} else {
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@ -100,7 +156,12 @@ impl ElfHeader {
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}
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}
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/// Memory address of the start of the section header table
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/// Memory address of the start of the section header table
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fn get_section_header_table_location(instructions: &Vec<u8>, is_32bits: bool) -> Option<u64> {
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///
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/// ## Arguments:
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///
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/// **instructions** List of bytes of the loaded binary file
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/// **is_32bits** defines whether the binary file is 32 bits or 64 bits
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fn get_section_header_table_location(instructions: &[u8], is_32bits: bool) -> Option<u64> {
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if is_32bits {
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if is_32bits {
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get_address_point(instructions, 0x20, true)
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get_address_point(instructions, 0x20, true)
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} else {
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} else {
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@ -109,37 +170,69 @@ impl ElfHeader {
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}
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}
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/// Return the size of the header, normally, 0x40 for 64 bits bin and 0x34 for 32 bits
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/// Return the size of the header, normally, 0x40 for 64 bits bin and 0x34 for 32 bits
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fn get_elf_header_size(instructions: &Vec<u8>, is_32bits: bool) -> Option<u16> {
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///
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/// ## Arguments:
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///
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/// **instructions** List of bytes of the loaded binary file
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/// **is_32bits** defines whether the binary file is 32 bits or 64 bits
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fn get_elf_header_size(instructions: &[u8], is_32bits: bool) -> Option<u16> {
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let address = if is_32bits { 0x28 } else { 0x34 };
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let address = if is_32bits { 0x28 } else { 0x34 };
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Self::get_u16_value(instructions, address)
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Self::get_u16_value(instructions, address)
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}
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}
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/// return the size of a program header table entry
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/// return the size of a program header table entry
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fn get_program_header_size(instructions: &Vec<u8>, is_32bits: bool) -> Option<u16> {
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///
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/// ## Arguments:
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///
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/// **instructions** List of bytes of the loaded binary file
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/// **is_32bits** defines whether the binary file is 32 bits or 64 bits
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fn get_program_header_size(instructions: &[u8], is_32bits: bool) -> Option<u16> {
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let address = if is_32bits { 0x2a } else { 0x36 };
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let address = if is_32bits { 0x2a } else { 0x36 };
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Self::get_u16_value(instructions, address)
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Self::get_u16_value(instructions, address)
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}
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}
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/// return the number of entries in the program header
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/// return the number of entries in the program header
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fn get_number_entries_program_header(instructions: &Vec<u8>, is_32bits: bool) -> Option<u16> {
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///
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/// ## Arguments:
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///
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/// **instructions** List of bytes of the loaded binary file
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/// **is_32bits** defines whether the binary file is 32 bits or 64 bits
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fn get_number_entries_program_header(instructions: &[u8], is_32bits: bool) -> Option<u16> {
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let address = if is_32bits { 0x2c } else { 0x38 };
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let address = if is_32bits { 0x2c } else { 0x38 };
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Self::get_u16_value(instructions, address)
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Self::get_u16_value(instructions, address)
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}
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}
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/// Return the size of a section header table entry
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/// Return the size of a section header table entry
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fn get_section_header_size(instructions: &Vec<u8>, is_32bits: bool) -> Option<u16> {
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///
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/// ## Arguments:
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///
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/// **instructions** List of bytes of the loaded binary file
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/// **is_32bits** defines whether the binary file is 32 bits or 64 bits
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fn get_section_header_size(instructions: &[u8], is_32bits: bool) -> Option<u16> {
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let address = if is_32bits { 0x2e } else { 0x3a };
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let address = if is_32bits { 0x2e } else { 0x3a };
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Self::get_u16_value(instructions, address)
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Self::get_u16_value(instructions, address)
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}
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}
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/// Return the number of entries in the section header
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/// Return the number of entries in the section header
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fn get_section_header_num_entries(instructions: &Vec<u8>, is_32bits: bool) -> Option<u16> {
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///
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/// ## Arguments:
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///
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/// **instructions** List of bytes of the loaded binary file
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/// **is_32bits** defines whether the binary file is 32 bits or 64 bits
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fn get_section_header_num_entries(instructions: &[u8], is_32bits: bool) -> Option<u16> {
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let address = if is_32bits { 0x30 } else { 0x3c };
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let address = if is_32bits { 0x30 } else { 0x3c };
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Self::get_u16_value(instructions, address)
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Self::get_u16_value(instructions, address)
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}
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}
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/// Return a u16 value, usually for the size or the number of entries inside a header
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/// Return a u16 value, usually for the size or the number of entries inside a header
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fn get_u16_value(instructions: &Vec<u8>, address: usize) -> Option<u16> {
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///
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/// This method retrieve 2 bytes and concatenate them assuming the file is little endian
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///
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/// ## Arguments:
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///
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/// **instructions** List of bytes of the loaded binary file
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/// **address** Position of the first byte
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fn get_u16_value(instructions: &[u8], address: usize) -> Option<u16> {
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let mut bytes: [u8; 2] = [0; 2];
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let mut bytes: [u8; 2] = [0; 2];
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bytes[0] = instructions.get(address).copied()?;
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bytes[0] = instructions.get(address).copied()?;
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bytes[1] = instructions.get(address + 1).copied()?;
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bytes[1] = instructions.get(address + 1).copied()?;
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@ -188,27 +281,63 @@ impl TryFrom<&Vec<u8>> for ElfHeader {
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}
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}
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/// Flag of a section, a section can have multiples flags by adding the values
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#[allow(clippy::enum_variant_names)]
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#[allow(dead_code)]
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pub enum FlagValue {
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pub enum FlagValue {
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/// The section is writable
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ShfWrite = 0x1,
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ShfWrite = 0x1,
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/// The section need to be allocate/occupe memory during execution
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ShfAlloc = 0x2,
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ShfAlloc = 0x2,
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/// The section need to be executable
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ShfExecinstr = 0x4,
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ShfExecinstr = 0x4,
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/// Section might ber merged
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ShfMerge = 0x10,
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ShfMerge = 0x10,
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/// Contain null-terminated (\0) strings
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ShfStrings = 0x20,
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ShfStrings = 0x20,
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ShfInfoLink = 0x40,
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ShfLinkOrder = 0x80,
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// There is others but are unrelevant (I think)
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// There is others but are unrelevant (I think)
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}
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}
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/// Section header entry, contains useful informations for each sections of the binary file
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///
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/// see <https://en.wikipedia.org/wiki/Executable_and_Linkable_Format#Section_header>
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#[derive(Debug)]
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#[derive(Debug)]
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pub struct SectionHeader {
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pub struct SectionHeader {
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/// Offset to a string in .shstrtab section that represent the name of this section
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///
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/// Offset: 0x0, size: 4 bytes
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pub name_offset: u32,
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pub name_offset: u32,
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/// Identify the type of this header
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///
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/// Offset: 0x4, size: 4 bytes
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pub header_type: u32,
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pub header_type: u32,
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/// Identify the atributes of this section
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///
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/// see `Self::does_flag_contains_key(self, FlagValue)`
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///
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/// Offset: 0x8, size: 4 (32 bits) or 8 (64 bits) bytes
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pub flags: u64,
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pub flags: u64,
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/// Virtual address of the section in memory if section is loaded, 0x0 otherwise
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///
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/// Offset: 0x0C (32 bits) or 0x10 (64 bits), size: 4 (32 bits) or 8 (64 bits) bytes
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pub virt_addr: u64,
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pub virt_addr: u64,
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/// Offset of the section in the file image (binary file)
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///
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/// Offset: 0x10 (32 bits) or 0x18 (64 bits), size: 4 (32 bits) or 8 (64 bits) bytes
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pub image_offset: u64,
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pub image_offset: u64,
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/// Size of the section in the file image, may be 0
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///
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/// Offset: 0x14 (32 bits) or 0x20 (64 bits), size: 4 (32 bits) or 8 (64 bits) bytes
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pub section_size: u64,
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pub section_size: u64,
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pub section_link: u32,
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pub section_link: u32,
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pub section_info: u32,
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pub section_info: u32,
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/// Contain the required alignment of the section, must be a power of 2
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///
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/// Offset: 0x20 (32 bits) or 0x30 (64 bits), size: 4 (32 bits) or 8 (64 bits) bytes
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pub required_align: u64,
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pub required_align: u64,
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/// Contain the size of each entry, for sections that contain fixed size entries, otherwise 0
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///
|
||||||
|
/// Offset: 0x24 (32 bits) or 0x38 (64 bits), size: 4 (32 bits) or 8 (64 bits) bytes
|
||||||
pub entry_size: u64
|
pub entry_size: u64
|
||||||
}
|
}
|
||||||
|
|
||||||
@ -219,20 +348,25 @@ impl SectionHeader {
|
|||||||
self.flags & key as u64 != 0
|
self.flags & key as u64 != 0
|
||||||
}
|
}
|
||||||
|
|
||||||
fn get_name_offset(instructions: &Vec<u8>, address: usize) -> Option<u32> {
|
/// Return the offset to a string in .shstrtab that represents the name of this section
|
||||||
|
fn get_name_offset(instructions: &[u8], address: usize) -> Option<u32> {
|
||||||
get_address_point(instructions, address, true).map(|v| { v as u32 })
|
get_address_point(instructions, address, true).map(|v| { v as u32 })
|
||||||
// set true to return a u32
|
// set true to return a u32
|
||||||
}
|
}
|
||||||
|
|
||||||
fn get_header_type(instructions: &Vec<u8>, address: usize) -> Option<u32> {
|
/// Return the type of header of the section
|
||||||
|
fn get_header_type(instructions: &[u8], address: usize) -> Option<u32> {
|
||||||
get_address_point(instructions, address + 0x4, true).map(|v| { v as u32 })
|
get_address_point(instructions, address + 0x4, true).map(|v| { v as u32 })
|
||||||
}
|
}
|
||||||
|
|
||||||
fn get_flags(instructions: &Vec<u8>, address: usize, is_32bits: bool) -> Option<u64> {
|
/// Return the flags of the section, can hold multiples values, see [`FlagValue`]
|
||||||
|
fn get_flags(instructions: &[u8], address: usize, is_32bits: bool) -> Option<u64> {
|
||||||
get_address_point(instructions, address + 0x8, is_32bits)
|
get_address_point(instructions, address + 0x8, is_32bits)
|
||||||
}
|
}
|
||||||
|
|
||||||
fn get_virtual_address(instructions: &Vec<u8>, address: usize, is_32bits: bool) -> Option<u64> {
|
|
||||||
|
/// Return the virtual address of the section in memory if the sectino is loaded(see section flag), otherwise 0
|
||||||
|
fn get_virtual_address(instructions: &[u8], address: usize, is_32bits: bool) -> Option<u64> {
|
||||||
get_address_point(instructions, address + if is_32bits { 0x0C } else { 0x10 }, is_32bits)
|
get_address_point(instructions, address + if is_32bits { 0x0C } else { 0x10 }, is_32bits)
|
||||||
}
|
}
|
||||||
|
|
||||||
@ -398,7 +532,7 @@ impl Loader {
|
|||||||
|
|
||||||
/// return the memory address of something stored at address
|
/// return the memory address of something stored at address
|
||||||
/// Can return None if the file is smaller than adress + 3 (or 7 if 64 bits), in this case, the elf header is incorrect
|
/// Can return None if the file is smaller than adress + 3 (or 7 if 64 bits), in this case, the elf header is incorrect
|
||||||
fn get_address_point(instructions: &Vec<u8>, address: usize, is_32bits: bool) -> Option<u64> {
|
fn get_address_point(instructions: &[u8], address: usize, is_32bits: bool) -> Option<u64> {
|
||||||
if is_32bits {
|
if is_32bits {
|
||||||
let mut bytes: [u8; 4] = [0; 4];
|
let mut bytes: [u8; 4] = [0; 4];
|
||||||
bytes[0] = instructions.get(address).copied()?;
|
bytes[0] = instructions.get(address).copied()?;
|
||||||
@ -431,10 +565,10 @@ mod test {
|
|||||||
let mut machine = Machine::init_machine();
|
let mut machine = Machine::init_machine();
|
||||||
let loader = Loader::load_and_parse("./test/riscv_instructions/simple_arithmetics/unsigned_addition").expect("IO Error");
|
let loader = Loader::load_and_parse("./test/riscv_instructions/simple_arithmetics/unsigned_addition").expect("IO Error");
|
||||||
loader.load_into_machine(&mut machine, 0).expect("Parsing error");
|
loader.load_into_machine(&mut machine, 0).expect("Parsing error");
|
||||||
assert_eq!(false, loader.elf_header.is_32bits);
|
assert!(!loader.elf_header.is_32bits);
|
||||||
assert_eq!(false, loader.elf_header.endianess);
|
assert!(!loader.elf_header.endianess);
|
||||||
assert_eq!(true, loader.elf_header.sys_v_abi);
|
assert!(loader.elf_header.sys_v_abi);
|
||||||
assert_eq!(true, loader.elf_header.is_riscv_target);
|
assert!(loader.elf_header.is_riscv_target);
|
||||||
assert_eq!(1, loader.elf_header.version);
|
assert_eq!(1, loader.elf_header.version);
|
||||||
assert_eq!(0x4000, loader.elf_header.entrypoint);
|
assert_eq!(0x4000, loader.elf_header.entrypoint);
|
||||||
assert_eq!(64, loader.elf_header.elf_header_size);
|
assert_eq!(64, loader.elf_header.elf_header_size);
|
||||||
|
Loading…
Reference in New Issue
Block a user