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|
use super::mystd::ffi::{OsStr, OsString};
use super::mystd::fs;
use super::mystd::os::unix::ffi::{OsStrExt, OsStringExt};
use super::mystd::path::{Path, PathBuf};
use super::Either;
use super::{gimli, Context, Endian, EndianSlice, Mapping, Stash, Vec};
use alloc::sync::Arc;
use core::convert::{TryFrom, TryInto};
use core::str;
use object::elf::{ELFCOMPRESS_ZLIB, ELF_NOTE_GNU, NT_GNU_BUILD_ID, SHF_COMPRESSED};
use object::read::elf::{CompressionHeader, FileHeader, SectionHeader, SectionTable, Sym};
use object::read::StringTable;
use object::{BigEndian, Bytes, NativeEndian};
#[cfg(target_pointer_width = "32")]
type Elf = object::elf::FileHeader32<NativeEndian>;
#[cfg(target_pointer_width = "64")]
type Elf = object::elf::FileHeader64<NativeEndian>;
impl Mapping {
pub fn new(path: &Path) -> Option<Mapping> {
let map = super::mmap(path)?;
Mapping::mk_or_other(map, |map, stash| {
let object = Object::parse(&map)?;
// Try to locate an external debug file using the build ID.
if let Some(path_debug) = object.build_id().and_then(locate_build_id) {
if let Some(mapping) = Mapping::new_debug(path, path_debug, None) {
return Some(Either::A(mapping));
}
}
// Try to locate an external debug file using the GNU debug link section.
if let Some((path_debug, crc)) = object.gnu_debuglink_path(path) {
if let Some(mapping) = Mapping::new_debug(path, path_debug, Some(crc)) {
return Some(Either::A(mapping));
}
}
let dwp = Mapping::load_dwarf_package(path, stash);
Context::new(stash, object, None, dwp).map(Either::B)
})
}
/// Load debuginfo from an external debug file.
fn new_debug(original_path: &Path, path: PathBuf, crc: Option<u32>) -> Option<Mapping> {
let map = super::mmap(&path)?;
Mapping::mk(map, |map, stash| {
let object = Object::parse(&map)?;
if let Some(_crc) = crc {
// TODO: check crc
}
// Try to locate a supplementary object file.
let mut sup = None;
if let Some((path_sup, build_id_sup)) = object.gnu_debugaltlink_path(&path) {
if let Some(map_sup) = super::mmap(&path_sup) {
let map_sup = stash.cache_mmap(map_sup);
if let Some(sup_) = Object::parse(map_sup) {
if sup_.build_id() == Some(build_id_sup) {
sup = Some(sup_);
}
}
}
}
let dwp = Mapping::load_dwarf_package(original_path, stash);
Context::new(stash, object, sup, dwp)
})
}
/// Try to locate a DWARF package file.
fn load_dwarf_package<'data>(path: &Path, stash: &'data Stash) -> Option<Object<'data>> {
let mut path_dwp = path.to_path_buf();
let dwp_extension = path
.extension()
.map(|previous_extension| {
let mut previous_extension = previous_extension.to_os_string();
previous_extension.push(".dwp");
previous_extension
})
.unwrap_or_else(|| "dwp".into());
path_dwp.set_extension(dwp_extension);
if let Some(map_dwp) = super::mmap(&path_dwp) {
let map_dwp = stash.cache_mmap(map_dwp);
if let Some(dwp_) = Object::parse(map_dwp) {
return Some(dwp_);
}
}
None
}
}
struct ParsedSym {
address: u64,
size: u64,
name: u32,
}
pub struct Object<'a> {
/// Zero-sized type representing the native endianness.
///
/// We could use a literal instead, but this helps ensure correctness.
endian: NativeEndian,
/// The entire file data.
data: &'a [u8],
sections: SectionTable<'a, Elf>,
strings: StringTable<'a>,
/// List of pre-parsed and sorted symbols by base address.
syms: Vec<ParsedSym>,
}
impl<'a> Object<'a> {
fn parse(data: &'a [u8]) -> Option<Object<'a>> {
let elf = Elf::parse(data).ok()?;
let endian = elf.endian().ok()?;
let sections = elf.sections(endian, data).ok()?;
let mut syms = sections
.symbols(endian, data, object::elf::SHT_SYMTAB)
.ok()?;
if syms.is_empty() {
syms = sections
.symbols(endian, data, object::elf::SHT_DYNSYM)
.ok()?;
}
let strings = syms.strings();
let mut syms = syms
.iter()
// Only look at function/object symbols. This mirrors what
// libbacktrace does and in general we're only symbolicating
// function addresses in theory. Object symbols correspond
// to data, and maybe someone's crazy enough to have a
// function go into static data?
.filter(|sym| {
let st_type = sym.st_type();
st_type == object::elf::STT_FUNC || st_type == object::elf::STT_OBJECT
})
// skip anything that's in an undefined section header,
// since it means it's an imported function and we're only
// symbolicating with locally defined functions.
.filter(|sym| sym.st_shndx(endian) != object::elf::SHN_UNDEF)
.map(|sym| {
let address = sym.st_value(endian).into();
let size = sym.st_size(endian).into();
let name = sym.st_name(endian);
ParsedSym {
address,
size,
name,
}
})
.collect::<Vec<_>>();
syms.sort_unstable_by_key(|s| s.address);
Some(Object {
endian,
data,
sections,
strings,
syms,
})
}
pub fn section(&self, stash: &'a Stash, name: &str) -> Option<&'a [u8]> {
if let Some(section) = self.section_header(name) {
let mut data = Bytes(section.data(self.endian, self.data).ok()?);
// Check for DWARF-standard (gABI) compression, i.e., as generated
// by ld's `--compress-debug-sections=zlib-gabi` flag.
let flags: u64 = section.sh_flags(self.endian).into();
if (flags & u64::from(SHF_COMPRESSED)) == 0 {
// Not compressed.
return Some(data.0);
}
let header = data.read::<<Elf as FileHeader>::CompressionHeader>().ok()?;
if header.ch_type(self.endian) != ELFCOMPRESS_ZLIB {
// Zlib compression is the only known type.
return None;
}
let size = usize::try_from(header.ch_size(self.endian)).ok()?;
let buf = stash.allocate(size);
decompress_zlib(data.0, buf)?;
return Some(buf);
}
// Check for the nonstandard GNU compression format, i.e., as generated
// by ld's `--compress-debug-sections=zlib-gnu` flag. This means that if
// we're actually asking for `.debug_info` then we need to look up a
// section named `.zdebug_info`.
if !name.starts_with(".debug_") {
return None;
}
let debug_name = name[7..].as_bytes();
let compressed_section = self
.sections
.iter()
.filter_map(|header| {
let name = self.sections.section_name(self.endian, header).ok()?;
if name.starts_with(b".zdebug_") && &name[8..] == debug_name {
Some(header)
} else {
None
}
})
.next()?;
let mut data = Bytes(compressed_section.data(self.endian, self.data).ok()?);
if data.read_bytes(8).ok()?.0 != b"ZLIB\0\0\0\0" {
return None;
}
let size = usize::try_from(data.read::<object::U32Bytes<_>>().ok()?.get(BigEndian)).ok()?;
let buf = stash.allocate(size);
decompress_zlib(data.0, buf)?;
Some(buf)
}
fn section_header(&self, name: &str) -> Option<&<Elf as FileHeader>::SectionHeader> {
self.sections
.section_by_name(self.endian, name.as_bytes())
.map(|(_index, section)| section)
}
pub fn search_symtab<'b>(&'b self, addr: u64) -> Option<&'b [u8]> {
// Same sort of binary search as Windows above
let i = match self.syms.binary_search_by_key(&addr, |sym| sym.address) {
Ok(i) => i,
Err(i) => i.checked_sub(1)?,
};
let sym = self.syms.get(i)?;
if sym.address <= addr && addr <= sym.address + sym.size {
self.strings.get(sym.name).ok()
} else {
None
}
}
pub(super) fn search_object_map(&self, _addr: u64) -> Option<(&Context<'_>, u64)> {
None
}
fn build_id(&self) -> Option<&'a [u8]> {
for section in self.sections.iter() {
if let Ok(Some(mut notes)) = section.notes(self.endian, self.data) {
while let Ok(Some(note)) = notes.next() {
if note.name() == ELF_NOTE_GNU && note.n_type(self.endian) == NT_GNU_BUILD_ID {
return Some(note.desc());
}
}
}
}
None
}
// The contents of the ".gnu_debuglink" section is documented at:
// https://sourceware.org/gdb/onlinedocs/gdb/Separate-Debug-Files.html
fn gnu_debuglink_path(&self, path: &Path) -> Option<(PathBuf, u32)> {
let section = self.section_header(".gnu_debuglink")?;
let data = section.data(self.endian, self.data).ok()?;
let len = data.iter().position(|x| *x == 0)?;
let filename = &data[..len];
let offset = (len + 1 + 3) & !3;
let crc_bytes = data
.get(offset..offset + 4)
.and_then(|bytes| bytes.try_into().ok())?;
let crc = u32::from_ne_bytes(crc_bytes);
let path_debug = locate_debuglink(path, filename)?;
Some((path_debug, crc))
}
// The format of the ".gnu_debugaltlink" section is based on gdb.
fn gnu_debugaltlink_path(&self, path: &Path) -> Option<(PathBuf, &'a [u8])> {
let section = self.section_header(".gnu_debugaltlink")?;
let data = section.data(self.endian, self.data).ok()?;
let len = data.iter().position(|x| *x == 0)?;
let filename = &data[..len];
let build_id = &data[len + 1..];
let path_sup = locate_debugaltlink(path, filename, build_id)?;
Some((path_sup, build_id))
}
}
fn decompress_zlib(input: &[u8], output: &mut [u8]) -> Option<()> {
use miniz_oxide::inflate::core::inflate_flags::{
TINFL_FLAG_PARSE_ZLIB_HEADER, TINFL_FLAG_USING_NON_WRAPPING_OUTPUT_BUF,
};
use miniz_oxide::inflate::core::{decompress, DecompressorOxide};
use miniz_oxide::inflate::TINFLStatus;
let (status, in_read, out_read) = decompress(
&mut DecompressorOxide::new(),
input,
output,
0,
TINFL_FLAG_USING_NON_WRAPPING_OUTPUT_BUF | TINFL_FLAG_PARSE_ZLIB_HEADER,
);
if status == TINFLStatus::Done && in_read == input.len() && out_read == output.len() {
Some(())
} else {
None
}
}
const DEBUG_PATH: &[u8] = b"/usr/lib/debug";
fn debug_path_exists() -> bool {
cfg_if::cfg_if! {
if #[cfg(any(target_os = "freebsd", target_os = "linux"))] {
use core::sync::atomic::{AtomicU8, Ordering};
static DEBUG_PATH_EXISTS: AtomicU8 = AtomicU8::new(0);
let mut exists = DEBUG_PATH_EXISTS.load(Ordering::Relaxed);
if exists == 0 {
exists = if Path::new(OsStr::from_bytes(DEBUG_PATH)).is_dir() {
1
} else {
2
};
DEBUG_PATH_EXISTS.store(exists, Ordering::Relaxed);
}
exists == 1
} else {
false
}
}
}
/// Locate a debug file based on its build ID.
///
/// The format of build id paths is documented at:
/// https://sourceware.org/gdb/onlinedocs/gdb/Separate-Debug-Files.html
fn locate_build_id(build_id: &[u8]) -> Option<PathBuf> {
const BUILD_ID_PATH: &[u8] = b"/usr/lib/debug/.build-id/";
const BUILD_ID_SUFFIX: &[u8] = b".debug";
if build_id.len() < 2 {
return None;
}
if !debug_path_exists() {
return None;
}
let mut path =
Vec::with_capacity(BUILD_ID_PATH.len() + BUILD_ID_SUFFIX.len() + build_id.len() * 2 + 1);
path.extend(BUILD_ID_PATH);
path.push(hex(build_id[0] >> 4));
path.push(hex(build_id[0] & 0xf));
path.push(b'/');
for byte in &build_id[1..] {
path.push(hex(byte >> 4));
path.push(hex(byte & 0xf));
}
path.extend(BUILD_ID_SUFFIX);
Some(PathBuf::from(OsString::from_vec(path)))
}
fn hex(byte: u8) -> u8 {
if byte < 10 {
b'0' + byte
} else {
b'a' + byte - 10
}
}
/// Locate a file specified in a `.gnu_debuglink` section.
///
/// `path` is the file containing the section.
/// `filename` is from the contents of the section.
///
/// Search order is based on gdb, documented at:
/// https://sourceware.org/gdb/onlinedocs/gdb/Separate-Debug-Files.html
///
/// gdb also allows the user to customize the debug search path, but we don't.
///
/// gdb also supports debuginfod, but we don't yet.
fn locate_debuglink(path: &Path, filename: &[u8]) -> Option<PathBuf> {
let path = fs::canonicalize(path).ok()?;
let parent = path.parent()?;
let mut f = PathBuf::from(OsString::with_capacity(
DEBUG_PATH.len() + parent.as_os_str().len() + filename.len() + 2,
));
let filename = Path::new(OsStr::from_bytes(filename));
// Try "/parent/filename" if it differs from "path"
f.push(parent);
f.push(filename);
if f != path && f.is_file() {
return Some(f);
}
// Try "/parent/.debug/filename"
let mut s = OsString::from(f);
s.clear();
f = PathBuf::from(s);
f.push(parent);
f.push(".debug");
f.push(filename);
if f.is_file() {
return Some(f);
}
if debug_path_exists() {
// Try "/usr/lib/debug/parent/filename"
let mut s = OsString::from(f);
s.clear();
f = PathBuf::from(s);
f.push(OsStr::from_bytes(DEBUG_PATH));
f.push(parent.strip_prefix("/").unwrap());
f.push(filename);
if f.is_file() {
return Some(f);
}
}
None
}
/// Locate a file specified in a `.gnu_debugaltlink` section.
///
/// `path` is the file containing the section.
/// `filename` and `build_id` are the contents of the section.
///
/// Search order is based on gdb:
/// - filename, which is either absolute or relative to `path`
/// - the build ID path under `BUILD_ID_PATH`
///
/// gdb also allows the user to customize the debug search path, but we don't.
///
/// gdb also supports debuginfod, but we don't yet.
fn locate_debugaltlink(path: &Path, filename: &[u8], build_id: &[u8]) -> Option<PathBuf> {
let filename = Path::new(OsStr::from_bytes(filename));
if filename.is_absolute() {
if filename.is_file() {
return Some(filename.into());
}
} else {
let path = fs::canonicalize(path).ok()?;
let parent = path.parent()?;
let mut f = PathBuf::from(parent);
f.push(filename);
if f.is_file() {
return Some(f);
}
}
locate_build_id(build_id)
}
fn convert_path<R: gimli::Reader>(r: &R) -> Result<PathBuf, gimli::Error> {
let bytes = r.to_slice()?;
Ok(PathBuf::from(OsStr::from_bytes(&bytes)))
}
pub(super) fn handle_split_dwarf<'data>(
package: Option<&gimli::DwarfPackage<EndianSlice<'data, Endian>>>,
stash: &'data Stash,
load: addr2line::SplitDwarfLoad<EndianSlice<'data, Endian>>,
) -> Option<Arc<gimli::Dwarf<EndianSlice<'data, Endian>>>> {
if let Some(dwp) = package.as_ref() {
if let Ok(Some(cu)) = dwp.find_cu(load.dwo_id, &load.parent) {
return Some(Arc::new(cu));
}
}
let mut path = PathBuf::new();
if let Some(p) = load.comp_dir.as_ref() {
path.push(convert_path(p).ok()?);
}
path.push(convert_path(load.path.as_ref()?).ok()?);
if let Some(map_dwo) = super::mmap(&path) {
let map_dwo = stash.cache_mmap(map_dwo);
if let Some(dwo) = Object::parse(map_dwo) {
return gimli::Dwarf::load(|id| -> Result<_, ()> {
let data = id
.dwo_name()
.and_then(|name| dwo.section(stash, name))
.unwrap_or(&[]);
Ok(EndianSlice::new(data, Endian))
})
.ok()
.map(|mut dwo_dwarf| {
dwo_dwarf.make_dwo(&load.parent);
Arc::new(dwo_dwarf)
});
}
}
None
}
|