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dwarfdump.rs
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dwarfdump.rs
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// Allow clippy lints when building without clippy.
#![allow(unknown_lints)]
use fallible_iterator::FallibleIterator;
use gimli::{Section, UnitHeader, UnitOffset, UnitSectionOffset, UnitType, UnwindSection};
use object::{Object, ObjectSection};
use regex::bytes::Regex;
use std::borrow::Cow;
use std::cmp;
use std::collections::HashMap;
use std::env;
use std::fmt::{self, Debug};
use std::fs;
use std::io;
use std::io::{BufWriter, Write};
use std::mem;
use std::process;
use std::result;
use std::sync::{Condvar, Mutex};
use typed_arena::Arena;
#[derive(Debug, Clone, Copy, PartialEq, Eq)]
enum Error {
Gimli(gimli::Error),
Object(object::read::Error),
Io,
}
impl fmt::Display for Error {
#[inline]
fn fmt(&self, f: &mut fmt::Formatter<'_>) -> ::std::result::Result<(), fmt::Error> {
Debug::fmt(self, f)
}
}
fn writeln_error<W: Write, R: Reader>(
w: &mut W,
dwarf: &gimli::Dwarf<R>,
err: Error,
msg: &str,
) -> io::Result<()> {
writeln!(
w,
"{}: {}",
msg,
match err {
Error::Gimli(err) => dwarf.format_error(err),
Error::Object(err) => format!("{}:{:?}", "An object error occurred while reading", err),
Error::Io => "An I/O error occurred while writing.".to_string(),
}
)
}
impl From<gimli::Error> for Error {
fn from(err: gimli::Error) -> Self {
Error::Gimli(err)
}
}
impl From<io::Error> for Error {
fn from(_: io::Error) -> Self {
Error::Io
}
}
impl From<object::read::Error> for Error {
fn from(err: object::read::Error) -> Self {
Error::Object(err)
}
}
type Result<T> = result::Result<T, Error>;
fn parallel_output<W, II, F>(w: &mut W, max_workers: usize, iter: II, f: F) -> Result<()>
where
W: Write + Send,
F: Sync + Fn(II::Item, &mut Vec<u8>) -> Result<()>,
II: IntoIterator,
II::IntoIter: Send,
{
struct ParallelOutputState<I, W> {
iterator: I,
current_worker: usize,
result: Result<()>,
w: W,
}
let state = Mutex::new(ParallelOutputState {
iterator: iter.into_iter().fuse(),
current_worker: 0,
result: Ok(()),
w,
});
let workers = cmp::min(max_workers, num_cpus::get());
let mut condvars = Vec::new();
for _ in 0..workers {
condvars.push(Condvar::new());
}
{
let state_ref = &state;
let f_ref = &f;
let condvars_ref = &condvars;
crossbeam::scope(|scope| {
for i in 0..workers {
scope.spawn(move |_| {
let mut v = Vec::new();
let mut lock = state_ref.lock().unwrap();
while lock.current_worker != i {
lock = condvars_ref[i].wait(lock).unwrap();
}
loop {
let item = if lock.result.is_ok() {
lock.iterator.next()
} else {
None
};
lock.current_worker = (i + 1) % workers;
condvars_ref[lock.current_worker].notify_one();
mem::drop(lock);
let ret = if let Some(item) = item {
v.clear();
f_ref(item, &mut v)
} else {
return;
};
lock = state_ref.lock().unwrap();
while lock.current_worker != i {
lock = condvars_ref[i].wait(lock).unwrap();
}
if lock.result.is_ok() {
let ret2 = lock.w.write_all(&v);
if ret.is_err() {
lock.result = ret;
} else {
lock.result = ret2.map_err(Error::from);
}
}
}
});
}
})
.unwrap();
}
state.into_inner().unwrap().result
}
#[derive(Debug, Default)]
struct RelocationMap(object::read::RelocationMap);
impl RelocationMap {
fn add(&mut self, file: &object::File, section: &object::Section) {
for (offset, relocation) in section.relocations() {
if let Err(e) = self.0.add(file, offset, relocation) {
eprintln!(
"Relocation error for section {} at offset 0x{:08x}: {}",
section.name().unwrap(),
offset,
e
);
}
}
}
}
impl<'a> gimli::read::Relocate for &'a RelocationMap {
fn relocate_address(&self, offset: usize, value: u64) -> gimli::Result<u64> {
Ok(self.0.relocate(offset as u64, value))
}
fn relocate_offset(&self, offset: usize, value: usize) -> gimli::Result<usize> {
<usize as gimli::ReaderOffset>::from_u64(self.0.relocate(offset as u64, value as u64))
}
}
type Relocate<'a, R> = gimli::RelocateReader<R, &'a RelocationMap>;
trait Reader: gimli::Reader<Offset = usize> + Send + Sync {}
impl<'a, R: gimli::Reader<Offset = usize> + Send + Sync> Reader for Relocate<'a, R> {}
#[derive(Default)]
struct Flags<'a> {
eh_frame: bool,
goff: bool,
info: bool,
line: bool,
pubnames: bool,
pubtypes: bool,
aranges: bool,
dwo: bool,
dwp: bool,
dwo_parent: Option<object::File<'a>>,
sup: Option<object::File<'a>>,
raw: bool,
match_units: Option<Regex>,
}
fn print_usage(opts: &getopts::Options) -> ! {
let brief = format!("Usage: {} <options> <file>", env::args().next().unwrap());
write!(&mut io::stderr(), "{}", opts.usage(&brief)).ok();
process::exit(1);
}
fn main() {
let mut opts = getopts::Options::new();
opts.optflag(
"",
"eh-frame",
"print .eh-frame exception handling frame information",
);
opts.optflag("G", "", "show global die offsets");
opts.optflag("i", "", "print .debug_info and .debug_types sections");
opts.optflag("l", "", "print .debug_line section");
opts.optflag("p", "", "print .debug_pubnames section");
opts.optflag("r", "", "print .debug_aranges section");
opts.optflag("y", "", "print .debug_pubtypes section");
opts.optflag(
"",
"dwo",
"print the .dwo versions of the selected sections",
);
opts.optflag(
"",
"dwp",
"print the .dwp versions of the selected sections",
);
opts.optopt(
"",
"dwo-parent",
"use the specified file as the parent of the dwo or dwp (e.g. for .debug_addr)",
"library path",
);
opts.optflag("", "raw", "print raw data values");
opts.optopt(
"u",
"match-units",
"print compilation units whose output matches a regex",
"REGEX",
);
opts.optopt("", "sup", "path to supplementary object file", "PATH");
let matches = match opts.parse(env::args().skip(1)) {
Ok(m) => m,
Err(e) => {
writeln!(&mut io::stderr(), "{:?}\n", e).ok();
print_usage(&opts);
}
};
if matches.free.is_empty() {
print_usage(&opts);
}
let mut all = true;
let mut flags = Flags::default();
if matches.opt_present("eh-frame") {
flags.eh_frame = true;
all = false;
}
if matches.opt_present("G") {
flags.goff = true;
}
if matches.opt_present("i") {
flags.info = true;
all = false;
}
if matches.opt_present("l") {
flags.line = true;
all = false;
}
if matches.opt_present("p") {
flags.pubnames = true;
all = false;
}
if matches.opt_present("y") {
flags.pubtypes = true;
all = false;
}
if matches.opt_present("r") {
flags.aranges = true;
all = false;
}
if matches.opt_present("dwo") {
flags.dwo = true;
}
if matches.opt_present("dwp") {
flags.dwp = true;
}
if matches.opt_present("raw") {
flags.raw = true;
}
if all {
// .eh_frame is excluded even when printing all information.
// cosmetic flags like -G must be set explicitly too.
flags.info = true;
flags.line = true;
flags.pubnames = true;
flags.pubtypes = true;
flags.aranges = true;
}
flags.match_units = if let Some(r) = matches.opt_str("u") {
match Regex::new(&r) {
Ok(r) => Some(r),
Err(e) => {
eprintln!("Invalid regular expression {}: {}", r, e);
process::exit(1);
}
}
} else {
None
};
let arena_mmap = Arena::new();
let load_file = |path| {
let file = match fs::File::open(&path) {
Ok(file) => file,
Err(err) => {
eprintln!("Failed to open file '{}': {}", path, err);
process::exit(1);
}
};
let mmap = match unsafe { memmap2::Mmap::map(&file) } {
Ok(mmap) => mmap,
Err(err) => {
eprintln!("Failed to map file '{}': {}", path, err);
process::exit(1);
}
};
let mmap_ref = arena_mmap.alloc(mmap);
match object::File::parse(&**mmap_ref) {
Ok(file) => Some(file),
Err(err) => {
eprintln!("Failed to parse file '{}': {}", path, err);
process::exit(1);
}
}
};
flags.sup = matches.opt_str("sup").and_then(load_file);
flags.dwo_parent = matches.opt_str("dwo-parent").and_then(load_file);
if flags.dwo_parent.is_some() && !flags.dwo && !flags.dwp {
eprintln!("--dwo-parent also requires --dwo or --dwp");
process::exit(1);
}
if flags.dwo_parent.is_none() && flags.dwp {
eprintln!("--dwp also requires --dwo-parent");
process::exit(1);
}
for file_path in &matches.free {
if matches.free.len() != 1 {
println!("{}", file_path);
println!();
}
let file = match fs::File::open(file_path) {
Ok(file) => file,
Err(err) => {
eprintln!("Failed to open file '{}': {}", file_path, err);
continue;
}
};
let file = match unsafe { memmap2::Mmap::map(&file) } {
Ok(mmap) => mmap,
Err(err) => {
eprintln!("Failed to map file '{}': {}", file_path, err);
continue;
}
};
let file = match object::File::parse(&*file) {
Ok(file) => file,
Err(err) => {
eprintln!("Failed to parse file '{}': {}", file_path, err);
continue;
}
};
let endian = if file.is_little_endian() {
gimli::RunTimeEndian::Little
} else {
gimli::RunTimeEndian::Big
};
let ret = dump_file(&file, endian, &flags);
match ret {
Ok(_) => (),
Err(err) => eprintln!("Failed to dump '{}': {}", file_path, err,),
}
}
}
fn load_file_section<'input, 'arena, Endian: gimli::Endianity>(
id: gimli::SectionId,
file: &object::File<'input>,
endian: Endian,
is_dwo: bool,
arena_data: &'arena Arena<Cow<'input, [u8]>>,
arena_relocations: &'arena Arena<RelocationMap>,
) -> Result<Relocate<'arena, gimli::EndianSlice<'arena, Endian>>> {
let mut relocations = RelocationMap::default();
let name = if is_dwo {
id.dwo_name()
} else if file.format() == object::BinaryFormat::Xcoff {
id.xcoff_name()
} else {
Some(id.name())
};
let data = match name.and_then(|name| file.section_by_name(name)) {
Some(ref section) => {
// DWO sections never have relocations, so don't bother.
if !is_dwo {
relocations.add(file, section);
}
section.uncompressed_data()?
}
// Use a non-zero capacity so that `ReaderOffsetId`s are unique.
None => Cow::Owned(Vec::with_capacity(1)),
};
let data_ref = arena_data.alloc(data);
let section = gimli::EndianSlice::new(data_ref, endian);
let relocations = arena_relocations.alloc(relocations);
Ok(Relocate::new(section, relocations))
}
fn dump_file<Endian>(file: &object::File, endian: Endian, flags: &Flags) -> Result<()>
where
Endian: gimli::Endianity + Send + Sync,
{
let arena_data = Arena::new();
let arena_relocations = Arena::new();
let dwo_parent = if let Some(dwo_parent_file) = flags.dwo_parent.as_ref() {
let mut load_dwo_parent_section = |id: gimli::SectionId| -> Result<_> {
load_file_section(
id,
dwo_parent_file,
endian,
false,
&arena_data,
&arena_relocations,
)
};
Some(gimli::Dwarf::load(&mut load_dwo_parent_section)?)
} else {
None
};
let dwo_parent = dwo_parent.as_ref();
let dwo_parent_units = if let Some(dwo_parent) = dwo_parent {
Some(
match dwo_parent
.units()
.map(|unit_header| dwo_parent.unit(unit_header))
.filter_map(|unit| Ok(unit.dwo_id.map(|dwo_id| (dwo_id, unit))))
.collect()
{
Ok(units) => units,
Err(err) => {
eprintln!("Failed to process --dwo-parent units: {}", err);
return Ok(());
}
},
)
} else {
None
};
let dwo_parent_units = dwo_parent_units.as_ref();
let mut load_section = |id: gimli::SectionId| -> Result<_> {
load_file_section(
id,
file,
endian,
flags.dwo || flags.dwp,
&arena_data,
&arena_relocations,
)
};
let w = &mut BufWriter::new(io::stdout());
if flags.dwp {
let empty_relocations = arena_relocations.alloc(RelocationMap::default());
let empty = Relocate::new(gimli::EndianSlice::new(&[], endian), empty_relocations);
let dwp = gimli::DwarfPackage::load(&mut load_section, empty)?;
dump_dwp(w, &dwp, dwo_parent.unwrap(), dwo_parent_units, flags)?;
w.flush()?;
return Ok(());
}
let mut dwarf = gimli::Dwarf::load(&mut load_section)?;
if flags.dwo {
if let Some(dwo_parent) = dwo_parent {
dwarf.make_dwo(dwo_parent);
} else {
dwarf.file_type = gimli::DwarfFileType::Dwo;
}
}
if let Some(sup_file) = flags.sup.as_ref() {
let mut load_sup_section = |id: gimli::SectionId| -> Result<_> {
// Note: we really only need the `.debug_str` section,
// but for now we load them all.
load_file_section(id, sup_file, endian, false, &arena_data, &arena_relocations)
};
dwarf.load_sup(&mut load_sup_section)?;
}
dwarf.populate_abbreviations_cache(gimli::AbbreviationsCacheStrategy::All);
if flags.eh_frame {
let eh_frame = gimli::EhFrame::load(load_section).unwrap();
dump_eh_frame(w, file, eh_frame)?;
}
if flags.info {
dump_info(w, &dwarf, dwo_parent_units, flags)?;
dump_types(w, &dwarf, dwo_parent_units, flags)?;
}
if flags.line {
dump_line(w, &dwarf)?;
}
if flags.pubnames {
let debug_pubnames = &gimli::Section::load(load_section).unwrap();
dump_pubnames(w, debug_pubnames, &dwarf.debug_info)?;
}
if flags.aranges {
let debug_aranges = &gimli::Section::load(load_section).unwrap();
dump_aranges(w, debug_aranges)?;
}
if flags.pubtypes {
let debug_pubtypes = &gimli::Section::load(load_section).unwrap();
dump_pubtypes(w, debug_pubtypes, &dwarf.debug_info)?;
}
w.flush()?;
Ok(())
}
fn dump_eh_frame<R: Reader, W: Write>(
w: &mut W,
file: &object::File,
mut eh_frame: gimli::EhFrame<R>,
) -> Result<()> {
// TODO: this might be better based on the file format.
let address_size = file
.architecture()
.address_size()
.map(|w| w.bytes())
.unwrap_or(mem::size_of::<usize>() as u8);
eh_frame.set_address_size(address_size);
// There are other things we could match but currently don't
#[allow(clippy::single_match)]
match file.architecture() {
object::Architecture::Aarch64 => eh_frame.set_vendor(gimli::Vendor::AArch64),
_ => {}
}
fn register_name_none(_: gimli::Register) -> Option<&'static str> {
None
}
let arch_register_name = match file.architecture() {
object::Architecture::PowerPc64 => gimli::PowerPc64::register_name,
object::Architecture::Arm | object::Architecture::Aarch64 => gimli::Arm::register_name,
object::Architecture::I386 => gimli::X86::register_name,
object::Architecture::X86_64 => gimli::X86_64::register_name,
_ => register_name_none,
};
let register_name = &|register| match arch_register_name(register) {
Some(name) => Cow::Borrowed(name),
None => Cow::Owned(format!("{}", register.0)),
};
let mut bases = gimli::BaseAddresses::default();
if let Some(section) = file.section_by_name(".eh_frame_hdr") {
bases = bases.set_eh_frame_hdr(section.address());
}
if let Some(section) = file.section_by_name(".eh_frame") {
bases = bases.set_eh_frame(section.address());
}
if let Some(section) = file.section_by_name(".text") {
bases = bases.set_text(section.address());
}
if let Some(section) = file.section_by_name(".got") {
bases = bases.set_got(section.address());
}
// TODO: Print "__eh_frame" here on macOS, and more generally use the
// section that we're actually looking at, which is what the canonical
// dwarfdump does.
writeln!(
w,
"Exception handling frame information for section .eh_frame"
)?;
let mut cies = HashMap::new();
let mut entries = eh_frame.entries(&bases);
loop {
match entries.next()? {
None => return Ok(()),
Some(gimli::CieOrFde::Cie(cie)) => {
writeln!(w)?;
writeln!(w, "{:#010x}: CIE", cie.offset())?;
writeln!(w, " length: {:#010x}", cie.entry_len())?;
// TODO: CIE_id
writeln!(w, " version: {:#04x}", cie.version())?;
// TODO: augmentation
writeln!(w, " code_align: {}", cie.code_alignment_factor())?;
writeln!(w, " data_align: {}", cie.data_alignment_factor())?;
writeln!(
w,
" ra_register: {}",
register_name(cie.return_address_register())
)?;
if let Some(encoding) = cie.lsda_encoding() {
writeln!(
w,
" lsda_encoding: {}/{}",
encoding.application(),
encoding.format()
)?;
}
if let Some((encoding, personality)) = cie.personality_with_encoding() {
write!(
w,
" personality: {}/{} ",
encoding.application(),
encoding.format()
)?;
dump_pointer(w, personality)?;
writeln!(w)?;
}
if let Some(encoding) = cie.fde_address_encoding() {
writeln!(
w,
" fde_encoding: {}/{}",
encoding.application(),
encoding.format()
)?;
}
let instructions = cie.instructions(&eh_frame, &bases);
dump_cfi_instructions(w, instructions, true, register_name)?;
writeln!(w)?;
}
Some(gimli::CieOrFde::Fde(partial)) => {
writeln!(w)?;
writeln!(w, "{:#010x}: FDE", partial.offset())?;
writeln!(w, " length: {:#010x}", partial.entry_len())?;
writeln!(w, " CIE_pointer: {:#010x}", partial.cie_offset().0)?;
let fde = match partial.parse(|_, bases, o| {
cies.entry(o)
.or_insert_with(|| eh_frame.cie_from_offset(bases, o))
.clone()
}) {
Ok(fde) => fde,
Err(e) => {
writeln!(w, "Failed to parse FDE: {}", e)?;
continue;
}
};
// TODO: symbolicate the start address like the canonical dwarfdump does.
writeln!(w, " start_addr: {:#x}", fde.initial_address())?;
writeln!(
w,
" range_size: {:#x} (end_addr = {:#x})",
fde.len(),
fde.end_address(),
)?;
if let Some(lsda) = fde.lsda() {
write!(w, " lsda: ")?;
dump_pointer(w, lsda)?;
writeln!(w)?;
}
let instructions = fde.instructions(&eh_frame, &bases);
dump_cfi_instructions(w, instructions, false, register_name)?;
writeln!(w)?;
}
}
}
}
fn dump_pointer<W: Write>(w: &mut W, p: gimli::Pointer) -> Result<()> {
match p {
gimli::Pointer::Direct(p) => {
write!(w, "{:#x}", p)?;
}
gimli::Pointer::Indirect(p) => {
write!(w, "({:#x})", p)?;
}
}
Ok(())
}
#[allow(clippy::unneeded_field_pattern)]
fn dump_cfi_instructions<R: Reader, W: Write>(
w: &mut W,
mut insns: gimli::CallFrameInstructionIter<R>,
is_initial: bool,
register_name: &dyn Fn(gimli::Register) -> Cow<'static, str>,
) -> Result<()> {
use gimli::CallFrameInstruction::*;
// TODO: we need to actually evaluate these instructions as we iterate them
// so we can print the initialized state for CIEs, and each unwind row's
// registers for FDEs.
//
// TODO: We should print DWARF expressions for the CFI instructions that
// embed DWARF expressions within themselves.
if !is_initial {
writeln!(w, " Instructions:")?;
}
loop {
match insns.next() {
Err(e) => {
writeln!(w, "Failed to decode CFI instruction: {}", e)?;
return Ok(());
}
Ok(None) => {
if is_initial {
writeln!(w, " Instructions: Init State:")?;
}
return Ok(());
}
Ok(Some(op)) => match op {
SetLoc { address } => {
writeln!(w, " DW_CFA_set_loc ({:#x})", address)?;
}
AdvanceLoc { delta } => {
writeln!(w, " DW_CFA_advance_loc ({})", delta)?;
}
DefCfa { register, offset } => {
writeln!(
w,
" DW_CFA_def_cfa ({}, {})",
register_name(register),
offset
)?;
}
DefCfaSf {
register,
factored_offset,
} => {
writeln!(
w,
" DW_CFA_def_cfa_sf ({}, {})",
register_name(register),
factored_offset
)?;
}
DefCfaRegister { register } => {
writeln!(
w,
" DW_CFA_def_cfa_register ({})",
register_name(register)
)?;
}
DefCfaOffset { offset } => {
writeln!(w, " DW_CFA_def_cfa_offset ({})", offset)?;
}
DefCfaOffsetSf { factored_offset } => {
writeln!(
w,
" DW_CFA_def_cfa_offset_sf ({})",
factored_offset
)?;
}
DefCfaExpression { expression: _ } => {
writeln!(w, " DW_CFA_def_cfa_expression (...)")?;
}
Undefined { register } => {
writeln!(
w,
" DW_CFA_undefined ({})",
register_name(register)
)?;
}
SameValue { register } => {
writeln!(
w,
" DW_CFA_same_value ({})",
register_name(register)
)?;
}
Offset {
register,
factored_offset,
} => {
writeln!(
w,
" DW_CFA_offset ({}, {})",
register_name(register),
factored_offset
)?;
}
OffsetExtendedSf {
register,
factored_offset,
} => {
writeln!(
w,
" DW_CFA_offset_extended_sf ({}, {})",
register_name(register),
factored_offset
)?;
}
ValOffset {
register,
factored_offset,
} => {
writeln!(
w,
" DW_CFA_val_offset ({}, {})",
register_name(register),
factored_offset
)?;
}
ValOffsetSf {
register,
factored_offset,
} => {
writeln!(
w,
" DW_CFA_val_offset_sf ({}, {})",
register_name(register),
factored_offset
)?;
}
Register {
dest_register,
src_register,
} => {
writeln!(
w,
" DW_CFA_register ({}, {})",
register_name(dest_register),
register_name(src_register)
)?;
}
Expression {
register,
expression: _,
} => {
writeln!(
w,
" DW_CFA_expression ({}, ...)",
register_name(register)
)?;
}
ValExpression {
register,
expression: _,
} => {
writeln!(
w,
" DW_CFA_val_expression ({}, ...)",
register_name(register)
)?;
}
Restore { register } => {
writeln!(
w,
" DW_CFA_restore ({})",
register_name(register)
)?;
}
RememberState => {
writeln!(w, " DW_CFA_remember_state")?;
}
RestoreState => {
writeln!(w, " DW_CFA_restore_state")?;
}
ArgsSize { size } => {
writeln!(w, " DW_CFA_GNU_args_size ({})", size)?;
}
NegateRaState => {
writeln!(w, " DW_CFA_AARCH64_negate_ra_state")?;
}
Nop => {
writeln!(w, " DW_CFA_nop")?;
}
_ => {
writeln!(w, " {:?}", op)?;
}
},
}
}
}
fn dump_dwp<R: Reader, W: Write + Send>(
w: &mut W,
dwp: &gimli::DwarfPackage<R>,
dwo_parent: &gimli::Dwarf<R>,
dwo_parent_units: Option<&HashMap<gimli::DwoId, gimli::Unit<R>>>,
flags: &Flags,
) -> Result<()>
where
R::Endian: Send + Sync,
{
if dwp.cu_index.version() != 0 {
writeln!(
w,
"\n.debug_cu_index: version = {}, sections = {}, units = {}, slots = {}",
dwp.cu_index.version(),
dwp.cu_index.section_count(),
dwp.cu_index.unit_count(),
dwp.cu_index.slot_count(),
)?;
for i in 1..=dwp.cu_index.unit_count() {
writeln!(w, "\nCU index {}", i)?;
dump_dwp_sections(
w,
dwp,
dwo_parent,
dwo_parent_units,
flags,
dwp.cu_index.sections(i)?,
)?;
}
}
if dwp.tu_index.version() != 0 {
writeln!(
w,
"\n.debug_tu_index: version = {}, sections = {}, units = {}, slots = {}",
dwp.tu_index.version(),
dwp.tu_index.section_count(),
dwp.tu_index.unit_count(),
dwp.tu_index.slot_count(),
)?;
for i in 1..=dwp.tu_index.unit_count() {
writeln!(w, "\nTU index {}", i)?;
dump_dwp_sections(
w,
dwp,
dwo_parent,
dwo_parent_units,
flags,
dwp.tu_index.sections(i)?,
)?;
}
}
Ok(())
}
fn dump_dwp_sections<R: Reader, W: Write + Send>(
w: &mut W,
dwp: &gimli::DwarfPackage<R>,
dwo_parent: &gimli::Dwarf<R>,
dwo_parent_units: Option<&HashMap<gimli::DwoId, gimli::Unit<R>>>,
flags: &Flags,
sections: gimli::UnitIndexSectionIterator<R>,
) -> Result<()>
where
R::Endian: Send + Sync,
{
for section in sections.clone() {
writeln!(
w,
" {}: offset = 0x{:x}, size = 0x{:x}",
section.section.dwo_name(),
section.offset,
section.size
)?;
}
let dwarf = dwp.sections(sections, dwo_parent)?;
if flags.info {
dump_info(w, &dwarf, dwo_parent_units, flags)?;
dump_types(w, &dwarf, dwo_parent_units, flags)?;
}
if flags.line {
dump_line(w, &dwarf)?;
}
Ok(())
}
fn dump_info<R: Reader, W: Write + Send>(
w: &mut W,
dwarf: &gimli::Dwarf<R>,
dwo_parent_units: Option<&HashMap<gimli::DwoId, gimli::Unit<R>>>,
flags: &Flags,
) -> Result<()>
where
R::Endian: Send + Sync,
{
writeln!(w, "\n.debug_info")?;
let units = match dwarf.units().collect::<Vec<_>>() {
Ok(units) => units,
Err(err) => {
writeln_error(w, dwarf, Error::Gimli(err), "Failed to read unit headers")?;
return Ok(());
}
};
let process_unit = |header: UnitHeader<R>, buf: &mut Vec<u8>| -> Result<()> {
dump_unit(buf, header, dwarf, dwo_parent_units, flags)?;