#![cfg(all(feature = "read", feature = "write"))] use std::env; use std::fs::File; use std::io::Read; use std::path::PathBuf; use gimli::read; use gimli::write::{self, Address, EndianVec}; use gimli::LittleEndian; fn read_section(section: &str) -> Vec { let mut path = PathBuf::new(); if let Ok(dir) = env::var("CARGO_MANIFEST_DIR") { path.push(dir); } path.push("fixtures/self"); path.push(section); println!("Reading section \"{}\" at path {:?}", section, path); assert!(path.is_file()); let mut file = File::open(path).unwrap(); let mut buf = Vec::new(); file.read_to_end(&mut buf).unwrap(); buf } #[test] fn test_convert_debug_info() { // Convert existing sections let debug_abbrev = read_section("debug_abbrev"); let debug_abbrev = read::DebugAbbrev::new(&debug_abbrev, LittleEndian); let debug_info = read_section("debug_info"); let debug_info = read::DebugInfo::new(&debug_info, LittleEndian); let debug_line = read_section("debug_line"); let debug_line = read::DebugLine::new(&debug_line, LittleEndian); let debug_str = read_section("debug_str"); let debug_str = read::DebugStr::new(&debug_str, LittleEndian); let debug_ranges = read_section("debug_ranges"); let debug_ranges = read::DebugRanges::new(&debug_ranges, LittleEndian); let debug_rnglists = read::DebugRngLists::new(&[], LittleEndian); let ranges = gimli::RangeLists::new(debug_ranges, debug_rnglists); let debug_loc = read_section("debug_loc"); let debug_loc = read::DebugLoc::new(&debug_loc, LittleEndian); let debug_loclists = read::DebugLocLists::new(&[], LittleEndian); let locations = gimli::LocationLists::new(debug_loc, debug_loclists); let dwarf = read::Dwarf { debug_abbrev, debug_info, debug_line, debug_str, ranges, locations, ..Default::default() }; let mut dwarf = write::Dwarf::from(&dwarf, &|address| Some(Address::Constant(address))) .expect("Should convert DWARF information"); assert_eq!(dwarf.units.count(), 23); let entries: usize = (0..dwarf.units.count()) .map(|i| dwarf.units.get(dwarf.units.id(i)).count()) .sum(); assert_eq!(entries, 29_560); assert_eq!(dwarf.line_strings.count(), 0); assert_eq!(dwarf.strings.count(), 3921); // Write to new sections let mut write_sections = write::Sections::new(EndianVec::new(LittleEndian)); dwarf .write(&mut write_sections) .expect("Should write DWARF information"); let debug_info_data = write_sections.debug_info.slice(); let debug_abbrev_data = write_sections.debug_abbrev.slice(); let debug_line_data = write_sections.debug_line.slice(); let debug_ranges_data = write_sections.debug_ranges.slice(); let debug_loc_data = write_sections.debug_loc.slice(); let debug_str_data = write_sections.debug_str.slice(); assert_eq!(debug_info_data.len(), 394_930); assert_eq!(debug_abbrev_data.len(), 9701); assert_eq!(debug_line_data.len(), 105_797); assert_eq!(debug_ranges_data.len(), 155_712); assert_eq!(debug_loc_data.len(), 245_168); assert_eq!(debug_str_data.len(), 144_731); // Convert new sections let debug_abbrev = read::DebugAbbrev::new(debug_abbrev_data, LittleEndian); let debug_info = read::DebugInfo::new(debug_info_data, LittleEndian); let debug_line = read::DebugLine::new(debug_line_data, LittleEndian); let debug_str = read::DebugStr::new(debug_str_data, LittleEndian); let debug_ranges = read::DebugRanges::new(debug_ranges_data, LittleEndian); let debug_rnglists = read::DebugRngLists::new(&[], LittleEndian); let debug_loc = read::DebugLoc::new(debug_loc_data, LittleEndian); let debug_loclists = read::DebugLocLists::new(&[], LittleEndian); let ranges = gimli::RangeLists::new(debug_ranges, debug_rnglists); let locations = gimli::LocationLists::new(debug_loc, debug_loclists); let dwarf = read::Dwarf { debug_abbrev, debug_info, debug_line, debug_str, ranges, locations, ..Default::default() }; let dwarf = write::Dwarf::from(&dwarf, &|address| Some(Address::Constant(address))) .expect("Should convert DWARF information"); assert_eq!(dwarf.units.count(), 23); let entries: usize = (0..dwarf.units.count()) .map(|i| dwarf.units.get(dwarf.units.id(i)).count()) .sum(); assert_eq!(entries, 29_560); assert_eq!(dwarf.strings.count(), 3921); } #[test] fn test_convert_eh_frame() { // Convert existing section let eh_frame = read_section("eh_frame"); let mut eh_frame = read::EhFrame::new(&eh_frame, LittleEndian); // The `.eh_frame` fixture data was created on a 64-bit machine. eh_frame.set_address_size(8); let frames = write::FrameTable::from(&eh_frame, &|address| Some(Address::Constant(address))) .expect("Should convert eh_frame information"); assert_eq!(frames.cie_count(), 2); assert_eq!(frames.fde_count(), 3482); // Write to new section let mut write_eh_frame = write::EhFrame(EndianVec::new(LittleEndian)); frames .write_eh_frame(&mut write_eh_frame) .expect("Should write eh_frame information"); let eh_frame = write_eh_frame.slice(); assert_eq!(eh_frame.len(), 147144); // Convert new section let mut eh_frame = read::EhFrame::new(&eh_frame, LittleEndian); eh_frame.set_address_size(8); let frames = write::FrameTable::from(&eh_frame, &|address| Some(Address::Constant(address))) .expect("Should convert eh_frame information"); assert_eq!(frames.cie_count(), 2); assert_eq!(frames.fde_count(), 3482); }