335 lines
13 KiB
Rust
335 lines
13 KiB
Rust
#![no_std]
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use core::{mem, ptr, fmt, slice, str, convert};
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use elf::*;
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pub mod elf;
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fn read_unaligned<T: Copy>(data: &[u8], offset: usize) -> Result<T, ()> {
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if data.len() < offset + mem::size_of::<T>() {
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Err(())
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} else {
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let ptr = data.as_ptr().wrapping_offset(offset as isize) as *const T;
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Ok(unsafe { ptr::read_unaligned(ptr) })
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}
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}
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fn get_ref<T: Copy>(data: &[u8], offset: usize) -> Result<&T, ()> {
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if data.len() < offset + mem::size_of::<T>() {
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Err(())
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} else if (data.as_ptr() as usize + offset) & (mem::align_of::<T>() - 1) != 0 {
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Err(())
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} else {
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let ptr = data.as_ptr().wrapping_offset(offset as isize) as *const T;
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Ok(unsafe { &*ptr })
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}
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}
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fn get_ref_slice<T: Copy>(data: &[u8], offset: usize, len: usize) -> Result<&[T], ()> {
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if data.len() < offset + mem::size_of::<T>() * len {
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Err(())
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} else if (data.as_ptr() as usize + offset) & (mem::align_of::<T>() - 1) != 0 {
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Err(())
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} else {
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let ptr = data.as_ptr().wrapping_offset(offset as isize) as *const T;
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Ok(unsafe { slice::from_raw_parts(ptr, len) })
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}
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}
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fn elf_hash(name: &[u8]) -> u32 {
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let mut h: u32 = 0;
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for c in name {
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h = (h << 4) + *c as u32;
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let g = h & 0xf0000000;
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if g != 0 {
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h ^= g >> 24;
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h &= !g;
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}
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}
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h
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}
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#[derive(Debug)]
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pub enum Error<'a> {
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Parsing(&'static str),
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Lookup(&'a [u8])
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}
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impl<'a> convert::From<&'static str> for Error<'a> {
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fn from(desc: &'static str) -> Error<'a> {
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Error::Parsing(desc)
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}
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}
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impl<'a> fmt::Display for Error<'a> {
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fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result {
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match self {
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&Error::Parsing(desc) =>
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write!(f, "parse error: {}", desc),
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&Error::Lookup(sym) =>
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match str::from_utf8(sym) {
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Ok(sym) => write!(f, "symbol lookup error: {}", sym),
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Err(_) => write!(f, "symbol lookup error: {:?}", sym)
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}
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}
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}
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}
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pub struct Library<'a> {
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image_off: Elf32_Addr,
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image_sz: usize,
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strtab: &'a [u8],
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symtab: &'a [Elf32_Sym],
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pltrel: &'a [Elf32_Rela],
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hash_bucket: &'a [Elf32_Word],
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hash_chain: &'a [Elf32_Word],
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}
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impl<'a> Library<'a> {
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pub fn lookup(&self, name: &[u8]) -> Option<Elf32_Word> {
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let hash = elf_hash(name);
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let mut index = self.hash_bucket[hash as usize % self.hash_bucket.len()] as usize;
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loop {
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if index == STN_UNDEF { return None }
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let sym = &self.symtab[index];
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let sym_name_off = sym.st_name as usize;
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match self.strtab.get(sym_name_off..sym_name_off + name.len()) {
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Some(sym_name) if sym_name == name => {
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if ELF32_ST_BIND(sym.st_info) & STB_GLOBAL == 0 {
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return None
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}
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match sym.st_shndx {
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SHN_UNDEF => return None,
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SHN_ABS => return Some(sym.st_value),
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_ => return Some(self.image_off + sym.st_value)
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}
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}
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_ => (),
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}
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index = self.hash_chain[index] as usize;
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}
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}
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fn name_starting_at(&self, offset: usize) -> Result<&'a [u8], Error<'a>> {
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let size = self.strtab.iter().skip(offset).position(|&x| x == 0)
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.ok_or("symbol in symbol table not null-terminated")?;
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Ok(self.strtab.get(offset..offset + size)
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.ok_or("cannot read symbol name")?)
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}
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fn update_rela(&self, rela: &Elf32_Rela, value: Elf32_Word) -> Result<(), Error<'a>> {
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if rela.r_offset as usize + mem::size_of::<Elf32_Addr>() > self.image_sz {
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return Err("relocation out of image bounds")?
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}
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let ptr = (self.image_off + rela.r_offset) as *mut Elf32_Addr;
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Ok(unsafe { *ptr = value })
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}
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// This is unsafe because it mutates global data (the PLT).
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pub unsafe fn rebind(&self, name: &[u8], addr: Elf32_Word) -> Result<(), Error<'a>> {
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for rela in self.pltrel.iter() {
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match ELF32_R_TYPE(rela.r_info) {
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R_OR1K_32 | R_OR1K_GLOB_DAT | R_OR1K_JMP_SLOT => {
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let sym = self.symtab.get(ELF32_R_SYM(rela.r_info) as usize)
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.ok_or("symbol out of bounds of symbol table")?;
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let sym_name = self.name_starting_at(sym.st_name as usize)?;
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if sym_name == name {
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self.update_rela(rela, addr)?
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}
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}
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// No associated symbols for other relocation types.
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_ => ()
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}
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}
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Ok(())
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}
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fn resolve_rela(&self, rela: &Elf32_Rela, resolve: &dyn Fn(&[u8]) -> Option<Elf32_Word>)
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-> Result<(), Error<'a>> {
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let sym;
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if ELF32_R_SYM(rela.r_info) == 0 {
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sym = None;
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} else {
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sym = Some(self.symtab.get(ELF32_R_SYM(rela.r_info) as usize)
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.ok_or("symbol out of bounds of symbol table")?)
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}
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let value;
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match ELF32_R_TYPE(rela.r_info) {
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R_OR1K_NONE =>
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return Ok(()),
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R_OR1K_RELATIVE =>
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value = self.image_off + rela.r_addend as Elf32_Word,
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R_OR1K_32 | R_OR1K_GLOB_DAT | R_OR1K_JMP_SLOT => {
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let sym = sym.ok_or("relocation requires an associated symbol")?;
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let sym_name = self.name_starting_at(sym.st_name as usize)?;
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// First, try to resolve against itself.
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match self.lookup(sym_name) {
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Some(addr) => value = addr,
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None => {
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// Second, call the user-provided function.
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match resolve(sym_name) {
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Some(addr) => value = addr,
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None => {
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// We couldn't find it anywhere.
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return Err(Error::Lookup(sym_name))
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}
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}
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}
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}
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}
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_ => return Err("unsupported relocation type")?
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}
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self.update_rela(rela, value)
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}
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pub fn load(data: &[u8], image: &'a mut [u8], resolve: &dyn Fn(&[u8]) -> Option<Elf32_Word>)
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-> Result<Library<'a>, Error<'a>> {
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#![allow(unused_assignments)]
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let ehdr = read_unaligned::<Elf32_Ehdr>(data, 0)
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.map_err(|()| "cannot read ELF header")?;
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const IDENT: [u8; EI_NIDENT] = [
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ELFMAG0, ELFMAG1, ELFMAG2, ELFMAG3,
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ELFCLASS32, ELFDATA2MSB, EV_CURRENT, ELFOSABI_NONE,
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/* ABI version */ 0, /* padding */ 0, 0, 0, 0, 0, 0, 0
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];
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if ehdr.e_ident != IDENT || ehdr.e_type != ET_DYN || ehdr.e_machine != EM_OPENRISC {
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return Err("not a shared library for a supported architecture")?
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}
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let mut dyn_off = None;
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for i in 0..ehdr.e_phnum {
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let phdr_off = ehdr.e_phoff as usize + mem::size_of::<Elf32_Phdr>() * i as usize;
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let phdr = read_unaligned::<Elf32_Phdr>(data, phdr_off)
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.map_err(|()| "cannot read program header")?;
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match phdr.p_type {
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PT_LOAD => {
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if (phdr.p_vaddr + phdr.p_filesz) as usize > image.len() ||
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(phdr.p_offset + phdr.p_filesz) as usize > data.len() {
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return Err("program header requests an out of bounds load")?
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}
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let dst = image.get_mut(phdr.p_vaddr as usize..
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(phdr.p_vaddr + phdr.p_filesz) as usize)
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.ok_or("cannot write to program header destination")?;
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let src = data.get(phdr.p_offset as usize..
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(phdr.p_offset + phdr.p_filesz) as usize)
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.ok_or("cannot read from program header source")?;
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dst.copy_from_slice(src);
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}
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PT_DYNAMIC =>
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dyn_off = Some(phdr.p_vaddr),
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_ => ()
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}
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}
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let (mut strtab_off, mut strtab_sz) = (0, 0);
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let (mut symtab_off, mut symtab_sz) = (0, 0);
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let (mut rela_off, mut rela_sz) = (0, 0);
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let (mut pltrel_off, mut pltrel_sz) = (0, 0);
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let (mut hash_off, mut hash_sz) = (0, 0);
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let mut sym_ent = 0;
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let mut rela_ent = 0;
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let mut nbucket = 0;
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let mut nchain = 0;
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let dyn_off = dyn_off.ok_or("cannot find a dynamic header")?;
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for i in 0.. {
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let dyn_off = dyn_off as usize + i * mem::size_of::<Elf32_Dyn>();
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let dyn = get_ref::<Elf32_Dyn>(image, dyn_off)
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.map_err(|()| "cannot read dynamic header")?;
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let val = unsafe { dyn.d_un.d_val } as usize;
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match dyn.d_tag {
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DT_NULL => break,
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DT_REL => return Err("relocations with implicit addend are not supported")?,
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DT_STRTAB => strtab_off = val,
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DT_STRSZ => strtab_sz = val,
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DT_SYMTAB => symtab_off = val,
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DT_SYMENT => sym_ent = val,
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DT_RELA => rela_off = val,
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DT_RELASZ => rela_sz = val / mem::size_of::<Elf32_Rela>(),
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DT_RELAENT => rela_ent = val,
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DT_JMPREL => pltrel_off = val,
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DT_PLTRELSZ => pltrel_sz = val / mem::size_of::<Elf32_Rela>(),
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DT_HASH => {
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nbucket = *get_ref::<Elf32_Word>(image, val + 0)
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.map_err(|()| "cannot read hash bucket count")? as usize;
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nchain = *get_ref::<Elf32_Word>(image, val + 4)
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.map_err(|()| "cannot read hash chain count")? as usize;
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hash_off = val + 8;
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hash_sz = nbucket + nchain;
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}
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_ => ()
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}
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}
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if sym_ent != mem::size_of::<Elf32_Sym>() {
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return Err("incorrect symbol entry size")?
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}
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if rela_ent != 0 && rela_ent != mem::size_of::<Elf32_Rela>() {
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return Err("incorrect relocation entry size")?
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}
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// These are the same--there are as many chains as buckets, and the chains only contain
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// the symbols that overflowed the bucket.
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symtab_sz = nchain;
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// Drop the mutability. See also the comment below.
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let image = &*image;
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let strtab = get_ref_slice::<u8>(image, strtab_off, strtab_sz)
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.map_err(|()| "cannot read string table")?;
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let symtab = get_ref_slice::<Elf32_Sym>(image, symtab_off, symtab_sz)
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.map_err(|()| "cannot read symbol table")?;
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let rela = get_ref_slice::<Elf32_Rela>(image, rela_off, rela_sz)
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.map_err(|()| "cannot read rela entries")?;
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let pltrel = get_ref_slice::<Elf32_Rela>(image, pltrel_off, pltrel_sz)
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.map_err(|()| "cannot read pltrel entries")?;
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let hash = get_ref_slice::<Elf32_Word>(image, hash_off, hash_sz)
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.map_err(|()| "cannot read hash entries")?;
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let library = Library {
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image_off: image.as_ptr() as Elf32_Word,
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image_sz: image.len(),
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strtab: strtab,
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symtab: symtab,
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pltrel: pltrel,
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hash_bucket: &hash[..nbucket],
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hash_chain: &hash[nbucket..nbucket + nchain],
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};
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// If a borrow exists anywhere, the borrowed memory cannot be mutated except
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// through that pointer or it's UB. However, we need to retain pointers
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// to the symbol tables and relocations, and at the same time mutate the code
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// to resolve the relocations.
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//
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// To avoid invoking UB, we drop the only pointer to the entire area (which is
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// unique since it's a &mut); we retain pointers to the various tables, but
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// we never write to the memory they refer to, so it's safe.
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mem::drop(image);
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for r in rela { library.resolve_rela(r, resolve)? }
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for r in pltrel { library.resolve_rela(r, resolve)? }
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Ok(library)
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}
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}
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