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/* This Source Code Form is subject to the terms of the Mozilla Public
* License, v. 2.0. If a copy of the MPL was not distributed with this file,
use compact_symbol_table::CompactSymbolTable;
use object::read::{NativeFile, Object};
use object::{ObjectSection, ObjectSymbol, SectionKind, SymbolKind};
use std::cmp;
use std::collections::HashMap;
use uuid::Uuid;
const UUID_SIZE: usize = 16;
const PAGE_SIZE: usize = 4096;
fn get_symbol_map<'a: 'b, 'b, T>(object_file: &'b T) -> HashMap<u32, &'a str>
where
T: Object<'a, 'b>,
{
object_file
.dynamic_symbols()
.chain(object_file.symbols())
.filter(|symbol| symbol.kind() == SymbolKind::Text)
.filter_map(|symbol| {
symbol
.name()
.map(|name| (symbol.address() as u32, name))
.ok()
})
.collect()
}
pub fn get_compact_symbol_table(
buffer: &[u8],
breakpad_id: Option<&str>,
) -> Option<CompactSymbolTable> {
let elf_file = NativeFile::parse(buffer).ok()?;
let elf_id = get_elf_id(&elf_file)?;
if !breakpad_id.map_or(true, |id| id == format!("{:X}0", elf_id.as_simple())) {
return None;
}
return Some(CompactSymbolTable::from_map(get_symbol_map(&elf_file)));
}
fn create_elf_id(identifier: &[u8], little_endian: bool) -> Uuid {
// Make sure that we have exactly UUID_SIZE bytes available
let mut data = [0 as u8; UUID_SIZE];
let len = cmp::min(identifier.len(), UUID_SIZE);
data[0..len].copy_from_slice(&identifier[0..len]);
if little_endian {
// The file ELF file targets a little endian architecture. Convert to
// network byte order (big endian) to match the Breakpad processor's
// expectations. For big endian object files, this is not needed.
data[0..4].reverse(); // uuid field 1
data[4..6].reverse(); // uuid field 2
data[6..8].reverse(); // uuid field 3
}
Uuid::from_bytes(data)
}
/// Tries to obtain the object identifier of an ELF object.
///
/// As opposed to Mach-O, ELF does not specify a unique ID for object files in
/// its header. Compilers and linkers usually add either `SHT_NOTE` sections or
/// `PT_NOTE` program header elements for this purpose. If one of these notes
/// is present, ElfFile's build_id() method will find it.
///
/// If neither of the above are present, this function will hash the first page
/// of the `.text` section (program code). This matches what the Breakpad
/// processor does.
///
/// If all of the above fails, this function will return `None`.
pub fn get_elf_id(elf_file: &NativeFile) -> Option<Uuid> {
if let Ok(Some(identifier)) = elf_file.build_id() {
return Some(create_elf_id(identifier, elf_file.is_little_endian()));
}
// We were not able to locate the build ID, so fall back to hashing the
// first page of the ".text" (program code) section. This algorithm XORs
// 16-byte chunks directly into a UUID buffer.
if let Some(section_data) = find_text_section(elf_file) {
let mut hash = [0; UUID_SIZE];
for i in 0..cmp::min(section_data.len(), PAGE_SIZE) {
hash[i % UUID_SIZE] ^= section_data[i];
}
return Some(create_elf_id(&hash, elf_file.is_little_endian()));
}
None
}
/// Returns a reference to the data of the the .text section in an ELF binary.
fn find_text_section<'elf>(elf_file: &'elf NativeFile) -> Option<&'elf [u8]> {
if let Some(section) = elf_file.section_by_name(".text") {
if section.kind() == SectionKind::Text {
return section.data().ok();
}
}
None
}