aboutsummaryrefslogtreecommitdiff
path: root/vendor/object/tests/round_trip/elf.rs
diff options
context:
space:
mode:
Diffstat (limited to 'vendor/object/tests/round_trip/elf.rs')
-rw-r--r--vendor/object/tests/round_trip/elf.rs289
1 files changed, 289 insertions, 0 deletions
diff --git a/vendor/object/tests/round_trip/elf.rs b/vendor/object/tests/round_trip/elf.rs
new file mode 100644
index 0000000..0aafadc
--- /dev/null
+++ b/vendor/object/tests/round_trip/elf.rs
@@ -0,0 +1,289 @@
+use object::read::elf::{FileHeader, SectionHeader};
+use object::read::{Object, ObjectSection, ObjectSymbol};
+use object::{
+ elf, read, write, Architecture, BinaryFormat, Endianness, LittleEndian, SectionIndex,
+ SectionKind, SymbolFlags, SymbolKind, SymbolScope, SymbolSection, U32,
+};
+use std::io::Write;
+
+#[test]
+fn symtab_shndx() {
+ let mut object =
+ write::Object::new(BinaryFormat::Elf, Architecture::X86_64, Endianness::Little);
+
+ for i in 0..0x10000 {
+ let name = format!("func{}", i).into_bytes();
+ let (section, offset) =
+ object.add_subsection(write::StandardSection::Text, &name, &[0xcc], 1);
+ object.add_symbol(write::Symbol {
+ name,
+ value: offset,
+ size: 1,
+ kind: SymbolKind::Text,
+ scope: SymbolScope::Linkage,
+ weak: false,
+ section: write::SymbolSection::Section(section),
+ flags: SymbolFlags::None,
+ });
+ }
+ let bytes = object.write().unwrap();
+
+ //std::fs::write(&"symtab_shndx.o", &bytes).unwrap();
+
+ let object = read::File::parse(&*bytes).unwrap();
+ assert_eq!(object.format(), BinaryFormat::Elf);
+ assert_eq!(object.architecture(), Architecture::X86_64);
+
+ for symbol in object.symbols().skip(1) {
+ assert_eq!(
+ symbol.section(),
+ SymbolSection::Section(SectionIndex(symbol.index().0))
+ );
+ }
+}
+
+#[test]
+fn aligned_sections() {
+ let mut object =
+ write::Object::new(BinaryFormat::Elf, Architecture::X86_64, Endianness::Little);
+
+ let text_section_id = object.add_section(vec![], b".text".to_vec(), SectionKind::Text);
+ let text_section = object.section_mut(text_section_id);
+ text_section.set_data(&[][..], 4096);
+
+ let data_section_id = object.add_section(vec![], b".data".to_vec(), SectionKind::Data);
+ let data_section = object.section_mut(data_section_id);
+ data_section.set_data(&b"1234"[..], 16);
+
+ let bytes = object.write().unwrap();
+
+ let object = read::File::parse(&*bytes).unwrap();
+ assert_eq!(object.format(), BinaryFormat::Elf);
+ assert_eq!(object.architecture(), Architecture::X86_64);
+
+ let mut sections = object.sections();
+ let _ = sections.next().unwrap();
+
+ let section = sections.next().unwrap();
+ assert_eq!(section.name(), Ok(".text"));
+ assert_eq!(section.file_range(), Some((4096, 0)));
+
+ let section = sections.next().unwrap();
+ assert_eq!(section.name(), Ok(".data"));
+ assert_eq!(section.file_range(), Some((4096, 4)));
+}
+
+#[cfg(feature = "compression")]
+#[test]
+fn compression_zlib() {
+ use object::read::ObjectSection;
+ use object::LittleEndian as LE;
+
+ let data = b"test data data data";
+ let len = data.len() as u64;
+
+ let mut ch = object::elf::CompressionHeader64::<LE>::default();
+ ch.ch_type.set(LE, object::elf::ELFCOMPRESS_ZLIB);
+ ch.ch_size.set(LE, len);
+ ch.ch_addralign.set(LE, 1);
+
+ let mut buf = Vec::new();
+ buf.write(object::bytes_of(&ch)).unwrap();
+ let mut encoder = flate2::write::ZlibEncoder::new(buf, flate2::Compression::default());
+ encoder.write_all(data).unwrap();
+ let compressed = encoder.finish().unwrap();
+
+ let mut object =
+ write::Object::new(BinaryFormat::Elf, Architecture::X86_64, Endianness::Little);
+ let section = object.add_section(
+ Vec::new(),
+ b".debug_info".to_vec(),
+ object::SectionKind::Other,
+ );
+ object.section_mut(section).set_data(compressed, 1);
+ object.section_mut(section).flags = object::SectionFlags::Elf {
+ sh_flags: object::elf::SHF_COMPRESSED.into(),
+ };
+ let bytes = object.write().unwrap();
+
+ //std::fs::write(&"compression.o", &bytes).unwrap();
+
+ let object = read::File::parse(&*bytes).unwrap();
+ assert_eq!(object.format(), BinaryFormat::Elf);
+ assert_eq!(object.architecture(), Architecture::X86_64);
+
+ let section = object.section_by_name(".debug_info").unwrap();
+ let uncompressed = section.uncompressed_data().unwrap();
+ assert_eq!(data, &*uncompressed);
+}
+
+#[cfg(feature = "compression")]
+#[test]
+fn compression_gnu() {
+ use object::read::ObjectSection;
+ use std::io::Write;
+
+ let data = b"test data data data";
+ let len = data.len() as u32;
+
+ let mut buf = Vec::new();
+ buf.write_all(b"ZLIB\0\0\0\0").unwrap();
+ buf.write_all(&len.to_be_bytes()).unwrap();
+ let mut encoder = flate2::write::ZlibEncoder::new(buf, flate2::Compression::default());
+ encoder.write_all(data).unwrap();
+ let compressed = encoder.finish().unwrap();
+
+ let mut object =
+ write::Object::new(BinaryFormat::Elf, Architecture::X86_64, Endianness::Little);
+ let section = object.add_section(
+ Vec::new(),
+ b".zdebug_info".to_vec(),
+ object::SectionKind::Other,
+ );
+ object.section_mut(section).set_data(compressed, 1);
+ let bytes = object.write().unwrap();
+
+ //std::fs::write(&"compression.o", &bytes).unwrap();
+
+ let object = read::File::parse(&*bytes).unwrap();
+ assert_eq!(object.format(), BinaryFormat::Elf);
+ assert_eq!(object.architecture(), Architecture::X86_64);
+
+ let section = object.section_by_name(".zdebug_info").unwrap();
+ let uncompressed = section.uncompressed_data().unwrap();
+ assert_eq!(data, &*uncompressed);
+}
+
+#[test]
+fn note() {
+ let endian = Endianness::Little;
+ let mut object = write::Object::new(BinaryFormat::Elf, Architecture::X86_64, endian);
+
+ // Add note section with align = 4.
+ let mut buffer = Vec::new();
+
+ buffer
+ .write(object::bytes_of(&elf::NoteHeader32 {
+ n_namesz: U32::new(endian, 6),
+ n_descsz: U32::new(endian, 11),
+ n_type: U32::new(endian, 1),
+ }))
+ .unwrap();
+ buffer.write(b"name1\0\0\0").unwrap();
+ buffer.write(b"descriptor\0\0").unwrap();
+
+ buffer
+ .write(object::bytes_of(&elf::NoteHeader32 {
+ n_namesz: U32::new(endian, 6),
+ n_descsz: U32::new(endian, 11),
+ n_type: U32::new(endian, 2),
+ }))
+ .unwrap();
+ buffer.write(b"name2\0\0\0").unwrap();
+ buffer.write(b"descriptor\0\0").unwrap();
+
+ let section = object.add_section(Vec::new(), b".note4".to_vec(), SectionKind::Note);
+ object.section_mut(section).set_data(buffer, 4);
+
+ // Add note section with align = 8.
+ let mut buffer = Vec::new();
+
+ buffer
+ .write(object::bytes_of(&elf::NoteHeader32 {
+ n_namesz: U32::new(endian, 6),
+ n_descsz: U32::new(endian, 11),
+ n_type: U32::new(endian, 1),
+ }))
+ .unwrap();
+ buffer.write(b"name1\0\0\0\0\0\0\0").unwrap();
+ buffer.write(b"descriptor\0\0\0\0\0\0").unwrap();
+
+ buffer
+ .write(object::bytes_of(&elf::NoteHeader32 {
+ n_namesz: U32::new(endian, 4),
+ n_descsz: U32::new(endian, 11),
+ n_type: U32::new(endian, 2),
+ }))
+ .unwrap();
+ buffer.write(b"abc\0").unwrap();
+ buffer.write(b"descriptor\0\0\0\0\0\0").unwrap();
+
+ let section = object.add_section(Vec::new(), b".note8".to_vec(), SectionKind::Note);
+ object.section_mut(section).set_data(buffer, 8);
+
+ let bytes = &*object.write().unwrap();
+
+ //std::fs::write(&"note.o", &bytes).unwrap();
+
+ let header = elf::FileHeader64::parse(bytes).unwrap();
+ let endian: LittleEndian = header.endian().unwrap();
+ let sections = header.sections(endian, bytes).unwrap();
+
+ let section = sections.section(SectionIndex(1)).unwrap();
+ assert_eq!(sections.section_name(endian, section).unwrap(), b".note4");
+ assert_eq!(section.sh_addralign(endian), 4);
+ let mut notes = section.notes(endian, bytes).unwrap().unwrap();
+ let note = notes.next().unwrap().unwrap();
+ assert_eq!(note.name(), b"name1");
+ assert_eq!(note.desc(), b"descriptor\0");
+ assert_eq!(note.n_type(endian), 1);
+ let note = notes.next().unwrap().unwrap();
+ assert_eq!(note.name(), b"name2");
+ assert_eq!(note.desc(), b"descriptor\0");
+ assert_eq!(note.n_type(endian), 2);
+ assert!(notes.next().unwrap().is_none());
+
+ let section = sections.section(SectionIndex(2)).unwrap();
+ assert_eq!(sections.section_name(endian, section).unwrap(), b".note8");
+ assert_eq!(section.sh_addralign(endian), 8);
+ let mut notes = section.notes(endian, bytes).unwrap().unwrap();
+ let note = notes.next().unwrap().unwrap();
+ assert_eq!(note.name(), b"name1");
+ assert_eq!(note.desc(), b"descriptor\0");
+ assert_eq!(note.n_type(endian), 1);
+ let note = notes.next().unwrap().unwrap();
+ assert_eq!(note.name(), b"abc");
+ assert_eq!(note.desc(), b"descriptor\0");
+ assert_eq!(note.n_type(endian), 2);
+ assert!(notes.next().unwrap().is_none());
+}
+
+#[test]
+fn gnu_property() {
+ gnu_property_inner::<elf::FileHeader32<Endianness>>(Architecture::I386);
+ gnu_property_inner::<elf::FileHeader64<Endianness>>(Architecture::X86_64);
+}
+
+fn gnu_property_inner<Elf: FileHeader<Endian = Endianness>>(architecture: Architecture) {
+ let endian = Endianness::Little;
+ let mut object = write::Object::new(BinaryFormat::Elf, architecture, endian);
+ object.add_elf_gnu_property_u32(
+ elf::GNU_PROPERTY_X86_FEATURE_1_AND,
+ elf::GNU_PROPERTY_X86_FEATURE_1_IBT | elf::GNU_PROPERTY_X86_FEATURE_1_SHSTK,
+ );
+
+ let bytes = &*object.write().unwrap();
+
+ //std::fs::write(&"note.o", &bytes).unwrap();
+
+ let header = Elf::parse(bytes).unwrap();
+ assert_eq!(header.endian().unwrap(), endian);
+ let sections = header.sections(endian, bytes).unwrap();
+ let section = sections.section(SectionIndex(1)).unwrap();
+ assert_eq!(
+ sections.section_name(endian, section).unwrap(),
+ b".note.gnu.property"
+ );
+ assert_eq!(section.sh_flags(endian).into(), u64::from(elf::SHF_ALLOC));
+ let mut notes = section.notes(endian, bytes).unwrap().unwrap();
+ let note = notes.next().unwrap().unwrap();
+ let mut props = note.gnu_properties(endian).unwrap();
+ let prop = props.next().unwrap().unwrap();
+ assert_eq!(prop.pr_type(), elf::GNU_PROPERTY_X86_FEATURE_1_AND);
+ assert_eq!(
+ prop.data_u32(endian).unwrap(),
+ elf::GNU_PROPERTY_X86_FEATURE_1_IBT | elf::GNU_PROPERTY_X86_FEATURE_1_SHSTK
+ );
+ assert!(props.next().unwrap().is_none());
+ assert!(notes.next().unwrap().is_none());
+}