lldb/source/Plugins/ObjectFile/ELF/ELFHeader.cpp - llvm-project - Git at Google

 //===-- ELFHeader.cpp -----------------------------------------------------===//
 //
 // Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
 // See https://llvm.org/LICENSE.txt for license information.
 // SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
 //
 //===----------------------------------------------------------------------===//

 #include <cstring>

 #include "lldb/Core/Section.h"
 #include "lldb/Utility/DataExtractor.h"
 #include "lldb/Utility/Stream.h"

 #include "ELFHeader.h"

 using namespace elf;
 using namespace lldb;
 using namespace llvm::ELF;

 // Static utility functions.
 //
 // GetMaxU64 and GetMaxS64 wrap the similarly named methods from DataExtractor
 // with error handling code and provide for parsing a sequence of values.
 static bool GetMaxU64(const lldb_private::DataExtractor &data,
                       lldb::offset_t *offset, uint64_t *value,
                       uint32_t byte_size) {
   const lldb::offset_t saved_offset = *offset;
   *value = data.GetMaxU64(offset, byte_size);
   return *offset != saved_offset;
 }

 static bool GetMaxU64(const lldb_private::DataExtractor &data,
                       lldb::offset_t *offset, uint64_t *value,
                       uint32_t byte_size, uint32_t count) {
   lldb::offset_t saved_offset = *offset;

   for (uint32_t i = 0; i < count; ++i, ++value) {
     if (!GetMaxU64(data, offset, value, byte_size)) {
       *offset = saved_offset;
       return false;
     }
   }
   return true;
 }

 static bool GetMaxS64(const lldb_private::DataExtractor &data,
                       lldb::offset_t *offset, int64_t *value,
                       uint32_t byte_size) {
   const lldb::offset_t saved_offset = *offset;
   *value = data.GetMaxS64(offset, byte_size);
   return *offset != saved_offset;
 }

 static bool GetMaxS64(const lldb_private::DataExtractor &data,
                       lldb::offset_t *offset, int64_t *value,
                       uint32_t byte_size, uint32_t count) {
   lldb::offset_t saved_offset = *offset;

   for (uint32_t i = 0; i < count; ++i, ++value) {
     if (!GetMaxS64(data, offset, value, byte_size)) {
       *offset = saved_offset;
       return false;
     }
   }
   return true;
 }

 // ELFHeader

 ELFHeader::ELFHeader() { memset(this, 0, sizeof(ELFHeader)); }

 ByteOrder ELFHeader::GetByteOrder() const {
   if (e_ident[EI_DATA] == ELFDATA2MSB)
     return eByteOrderBig;
   if (e_ident[EI_DATA] == ELFDATA2LSB)
     return eByteOrderLittle;
   return eByteOrderInvalid;
 }

 bool ELFHeader::HasHeaderExtension() const {
   bool result = false;

   // Check if any of these values looks like sentinel.
   result |= e_phnum_hdr == 0xFFFF; // PN_XNUM
   result |= e_shnum_hdr == SHN_UNDEF;
   result |= e_shstrndx_hdr == SHN_XINDEX;

   // If header extension is present, the section offset cannot be null.
   result &= e_shoff != 0;

   // Done.
   return result;
 }

 void ELFHeader::ParseHeaderExtension(lldb_private::DataExtractor &data) {
   // Extract section #0 header.
   ELFSectionHeader section_zero;
   lldb::offset_t offset = 0;
   lldb_private::DataExtractor sh_data(data, e_shoff, e_shentsize);
   bool ok = section_zero.Parse(sh_data, &offset);

   // If we succeeded, fix the header.
   if (ok) {
     if (e_phnum_hdr == 0xFFFF) // PN_XNUM
       e_phnum = section_zero.sh_info;
     if (e_shnum_hdr == SHN_UNDEF)
       e_shnum = section_zero.sh_size;
     if (e_shstrndx_hdr == SHN_XINDEX)
       e_shstrndx = section_zero.sh_link;
   }
 }

 bool ELFHeader::Parse(lldb_private::DataExtractor &data,
                       lldb::offset_t *offset) {
   // Read e_ident.  This provides byte order and address size info.
   if (data.GetU8(offset, &e_ident, EI_NIDENT) == nullptr)
     return false;

   const unsigned byte_size = Is32Bit() ? 4 : 8;
   data.SetByteOrder(GetByteOrder());
   data.SetAddressByteSize(byte_size);

   // Read e_type and e_machine.
   if (data.GetU16(offset, &e_type, 2) == nullptr)
     return false;

   // Read e_version.
   if (data.GetU32(offset, &e_version, 1) == nullptr)
     return false;

   // Read e_entry, e_phoff and e_shoff.
   if (!GetMaxU64(data, offset, &e_entry, byte_size, 3))
     return false;

   // Read e_flags.
   if (data.GetU32(offset, &e_flags, 1) == nullptr)
     return false;

   // Read e_ehsize, e_phentsize, e_phnum, e_shentsize, e_shnum and e_shstrndx.
   if (data.GetU16(offset, &e_ehsize, 6) == nullptr)
     return false;

   // Initialize e_phnum, e_shnum, and e_shstrndx with the values read from the
   // header.
   e_phnum = e_phnum_hdr;
   e_shnum = e_shnum_hdr;
   e_shstrndx = e_shstrndx_hdr;

   // See if we have extended header in section #0.
   if (HasHeaderExtension())
     ParseHeaderExtension(data);

   return true;
 }

 bool ELFHeader::MagicBytesMatch(const uint8_t *magic) {
   return memcmp(magic, ElfMagic, strlen(ElfMagic)) == 0;
 }

 unsigned ELFHeader::AddressSizeInBytes(const uint8_t *magic) {
   unsigned address_size = 0;

   switch (magic[EI_CLASS]) {
   case ELFCLASS32:
     address_size = 4;
     break;

   case ELFCLASS64:
     address_size = 8;
     break;
   }
   return address_size;
 }

 unsigned ELFHeader::GetRelocationJumpSlotType() const {
   unsigned slot = 0;

   switch (e_machine) {
   default:
     assert(false && "architecture not supported");
     break;
   case EM_PPC:
     slot = R_PPC_JMP_SLOT;
     break;
   case EM_PPC64:
     slot = R_PPC64_JMP_SLOT;
     break;
   case EM_386:
   case EM_IAMCU: // FIXME: is this correct?
     slot = R_386_JUMP_SLOT;
     break;
   case EM_X86_64:
     slot = R_X86_64_JUMP_SLOT;
     break;
   case EM_ARM:
     slot = R_ARM_JUMP_SLOT;
     break;
   case EM_HEXAGON:
     slot = R_HEX_JMP_SLOT;
     break;
   case EM_AARCH64:
     slot = R_AARCH64_JUMP_SLOT;
     break;
   case EM_MIPS:
     slot = R_MIPS_JUMP_SLOT;
     break;
   case EM_S390:
     slot = R_390_JMP_SLOT;
     break;
   }

   return slot;
 }

 // ELFSectionHeader

 ELFSectionHeader::ELFSectionHeader() {
   memset(this, 0, sizeof(ELFSectionHeader));
 }

 bool ELFSectionHeader::Parse(const lldb_private::DataExtractor &data,
                              lldb::offset_t *offset) {
   const unsigned byte_size = data.GetAddressByteSize();

   // Read sh_name and sh_type.
   if (data.GetU32(offset, &sh_name, 2) == nullptr)
     return false;

   // Read sh_flags.
   if (!GetMaxU64(data, offset, &sh_flags, byte_size))
     return false;

   // Read sh_addr, sh_off and sh_size.
   if (!GetMaxU64(data, offset, &sh_addr, byte_size, 3))
     return false;

   // Read sh_link and sh_info.
   if (data.GetU32(offset, &sh_link, 2) == nullptr)
     return false;

   // Read sh_addralign and sh_entsize.
   if (!GetMaxU64(data, offset, &sh_addralign, byte_size, 2))
     return false;

   return true;
 }

 // ELFSymbol

 ELFSymbol::ELFSymbol() { memset(this, 0, sizeof(ELFSymbol)); }

 #define ENUM_TO_CSTR(e)                                                        \
   case e:                                                                      \
     return #e

 const char *ELFSymbol::bindingToCString(unsigned char binding) {
   switch (binding) {
     ENUM_TO_CSTR(STB_LOCAL);
     ENUM_TO_CSTR(STB_GLOBAL);
     ENUM_TO_CSTR(STB_WEAK);
     ENUM_TO_CSTR(STB_LOOS);
     ENUM_TO_CSTR(STB_HIOS);
     ENUM_TO_CSTR(STB_LOPROC);
     ENUM_TO_CSTR(STB_HIPROC);
   }
   return "";
 }

 const char *ELFSymbol::typeToCString(unsigned char type) {
   switch (type) {
     ENUM_TO_CSTR(STT_NOTYPE);
     ENUM_TO_CSTR(STT_OBJECT);
     ENUM_TO_CSTR(STT_FUNC);
     ENUM_TO_CSTR(STT_SECTION);
     ENUM_TO_CSTR(STT_FILE);
     ENUM_TO_CSTR(STT_COMMON);
     ENUM_TO_CSTR(STT_TLS);
     ENUM_TO_CSTR(STT_GNU_IFUNC);
     ENUM_TO_CSTR(STT_HIOS);
     ENUM_TO_CSTR(STT_LOPROC);
     ENUM_TO_CSTR(STT_HIPROC);
   }
   return "";
 }

 const char *ELFSymbol::sectionIndexToCString(
     elf_half shndx, const lldb_private::SectionList *section_list) {
   switch (shndx) {
     ENUM_TO_CSTR(SHN_UNDEF);
     ENUM_TO_CSTR(SHN_LOPROC);
     ENUM_TO_CSTR(SHN_HIPROC);
     ENUM_TO_CSTR(SHN_LOOS);
     ENUM_TO_CSTR(SHN_HIOS);
     ENUM_TO_CSTR(SHN_ABS);
     ENUM_TO_CSTR(SHN_COMMON);
     ENUM_TO_CSTR(SHN_XINDEX);
   default: {
     const lldb_private::Section *section =
         section_list->GetSectionAtIndex(shndx).get();
     if (section)
       return section->GetName().AsCString("");
   } break;
   }
   return "";
 }

 void ELFSymbol::Dump(lldb_private::Stream *s, uint32_t idx,
                      const lldb_private::DataExtractor *strtab_data,
                      const lldb_private::SectionList *section_list) {
   s->Printf("[%3u] 0x%16.16" PRIx64 " 0x%16.16" PRIx64
             " 0x%8.8x 0x%2.2x (%-10s %-13s) 0x%2.2x 0x%4.4x (%-10s) %s\n",
             idx, st_value, st_size, st_name, st_info,
             bindingToCString(getBinding()), typeToCString(getType()), st_other,
             st_shndx, sectionIndexToCString(st_shndx, section_list),
             strtab_data ? strtab_data->PeekCStr(st_name) : "");
 }

 bool ELFSymbol::Parse(const lldb_private::DataExtractor &data,
                       lldb::offset_t *offset) {
   const unsigned byte_size = data.GetAddressByteSize();
   const bool parsing_32 = byte_size == 4;

   // Read st_name.
   if (data.GetU32(offset, &st_name, 1) == nullptr)
     return false;

   if (parsing_32) {
     // Read st_value and st_size.
     if (!GetMaxU64(data, offset, &st_value, byte_size, 2))
       return false;

     // Read st_info and st_other.
     if (data.GetU8(offset, &st_info, 2) == nullptr)
       return false;

     // Read st_shndx.
     if (data.GetU16(offset, &st_shndx, 1) == nullptr)
       return false;
   } else {
     // Read st_info and st_other.
     if (data.GetU8(offset, &st_info, 2) == nullptr)
       return false;

     // Read st_shndx.
     if (data.GetU16(offset, &st_shndx, 1) == nullptr)
       return false;

     // Read st_value and st_size.
     if (data.GetU64(offset, &st_value, 2) == nullptr)
       return false;
   }
   return true;
 }

 // ELFProgramHeader

 ELFProgramHeader::ELFProgramHeader() {
   memset(this, 0, sizeof(ELFProgramHeader));
 }

 bool ELFProgramHeader::Parse(const lldb_private::DataExtractor &data,
                              lldb::offset_t *offset) {
   const uint32_t byte_size = data.GetAddressByteSize();
   const bool parsing_32 = byte_size == 4;

   // Read p_type;
   if (data.GetU32(offset, &p_type, 1) == nullptr)
     return false;

   if (parsing_32) {
     // Read p_offset, p_vaddr, p_paddr, p_filesz and p_memsz.
     if (!GetMaxU64(data, offset, &p_offset, byte_size, 5))
       return false;

     // Read p_flags.
     if (data.GetU32(offset, &p_flags, 1) == nullptr)
       return false;

     // Read p_align.
     if (!GetMaxU64(data, offset, &p_align, byte_size))
       return false;
   } else {
     // Read p_flags.
     if (data.GetU32(offset, &p_flags, 1) == nullptr)
       return false;

     // Read p_offset, p_vaddr, p_paddr, p_filesz, p_memsz and p_align.
     if (!GetMaxU64(data, offset, &p_offset, byte_size, 6))
       return false;
   }

   return true;
 }

 // ELFDynamic

 ELFDynamic::ELFDynamic() { memset(this, 0, sizeof(ELFDynamic)); }

 bool ELFDynamic::Parse(const lldb_private::DataExtractor &data,
                        lldb::offset_t *offset) {
   const unsigned byte_size = data.GetAddressByteSize();
   return GetMaxS64(data, offset, &d_tag, byte_size, 2);
 }

 // ELFRel

 ELFRel::ELFRel() { memset(this, 0, sizeof(ELFRel)); }

 bool ELFRel::Parse(const lldb_private::DataExtractor &data,
                    lldb::offset_t *offset) {
   const unsigned byte_size = data.GetAddressByteSize();

   // Read r_offset and r_info.
   return GetMaxU64(data, offset, &r_offset, byte_size, 2) != false;
 }

 // ELFRela

 ELFRela::ELFRela() { memset(this, 0, sizeof(ELFRela)); }

 bool ELFRela::Parse(const lldb_private::DataExtractor &data,
                     lldb::offset_t *offset) {
   const unsigned byte_size = data.GetAddressByteSize();

   // Read r_offset and r_info.
   if (!GetMaxU64(data, offset, &r_offset, byte_size, 2))
     return false;

   // Read r_addend;
   if (!GetMaxS64(data, offset, &r_addend, byte_size))
     return false;

   return true;
 }
	//===-- ELFHeader.cpp -----------------------------------------------------===//
	//
	// Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
	// See https://llvm.org/LICENSE.txt for license information.
	// SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
	//
	//===----------------------------------------------------------------------===//

	#include <cstring>

	#include "lldb/Core/Section.h"
	#include "lldb/Utility/DataExtractor.h"
	#include "lldb/Utility/Stream.h"

	#include "ELFHeader.h"

	using namespace elf;
	using namespace lldb;
	using namespace llvm::ELF;

	// Static utility functions.
	//
	// GetMaxU64 and GetMaxS64 wrap the similarly named methods from DataExtractor
	// with error handling code and provide for parsing a sequence of values.
	static bool GetMaxU64(const lldb_private::DataExtractor &data,
	lldb::offset_t offset, uint64_t value,
	uint32_t byte_size) {
	const lldb::offset_t saved_offset = *offset;
	*value = data.GetMaxU64(offset, byte_size);
	return *offset != saved_offset;
	}

	static bool GetMaxU64(const lldb_private::DataExtractor &data,
	lldb::offset_t offset, uint64_t value,
	uint32_t byte_size, uint32_t count) {
	lldb::offset_t saved_offset = *offset;

	for (uint32_t i = 0; i < count; ++i, ++value) {
	if (!GetMaxU64(data, offset, value, byte_size)) {
	*offset = saved_offset;
	return false;
	}
	}
	return true;
	}

	static bool GetMaxS64(const lldb_private::DataExtractor &data,
	lldb::offset_t offset, int64_t value,
	uint32_t byte_size) {
	const lldb::offset_t saved_offset = *offset;
	*value = data.GetMaxS64(offset, byte_size);
	return *offset != saved_offset;
	}

	static bool GetMaxS64(const lldb_private::DataExtractor &data,
	lldb::offset_t offset, int64_t value,
	uint32_t byte_size, uint32_t count) {
	lldb::offset_t saved_offset = *offset;

	for (uint32_t i = 0; i < count; ++i, ++value) {
	if (!GetMaxS64(data, offset, value, byte_size)) {
	*offset = saved_offset;
	return false;
	}
	}
	return true;
	}

	// ELFHeader

	ELFHeader::ELFHeader() { memset(this, 0, sizeof(ELFHeader)); }

	ByteOrder ELFHeader::GetByteOrder() const {
	if (e_ident[EI_DATA] == ELFDATA2MSB)
	return eByteOrderBig;
	if (e_ident[EI_DATA] == ELFDATA2LSB)
	return eByteOrderLittle;
	return eByteOrderInvalid;
	}

	bool ELFHeader::HasHeaderExtension() const {
	bool result = false;

	// Check if any of these values looks like sentinel.
	result \|= e_phnum_hdr == 0xFFFF; // PN_XNUM
	result \|= e_shnum_hdr == SHN_UNDEF;
	result \|= e_shstrndx_hdr == SHN_XINDEX;

	// If header extension is present, the section offset cannot be null.
	result &= e_shoff != 0;

	// Done.
	return result;
	}

	void ELFHeader::ParseHeaderExtension(lldb_private::DataExtractor &data) {
	// Extract section #0 header.
	ELFSectionHeader section_zero;
	lldb::offset_t offset = 0;
	lldb_private::DataExtractor sh_data(data, e_shoff, e_shentsize);
	bool ok = section_zero.Parse(sh_data, &offset);

	// If we succeeded, fix the header.
	if (ok) {
	if (e_phnum_hdr == 0xFFFF) // PN_XNUM
	e_phnum = section_zero.sh_info;
	if (e_shnum_hdr == SHN_UNDEF)
	e_shnum = section_zero.sh_size;
	if (e_shstrndx_hdr == SHN_XINDEX)
	e_shstrndx = section_zero.sh_link;
	}
	}

	bool ELFHeader::Parse(lldb_private::DataExtractor &data,
	lldb::offset_t *offset) {
	// Read e_ident. This provides byte order and address size info.
	if (data.GetU8(offset, &e_ident, EI_NIDENT) == nullptr)
	return false;

	const unsigned byte_size = Is32Bit() ? 4 : 8;
	data.SetByteOrder(GetByteOrder());
	data.SetAddressByteSize(byte_size);

	// Read e_type and e_machine.
	if (data.GetU16(offset, &e_type, 2) == nullptr)
	return false;

	// Read e_version.
	if (data.GetU32(offset, &e_version, 1) == nullptr)
	return false;

	// Read e_entry, e_phoff and e_shoff.
	if (!GetMaxU64(data, offset, &e_entry, byte_size, 3))
	return false;

	// Read e_flags.
	if (data.GetU32(offset, &e_flags, 1) == nullptr)
	return false;

	// Read e_ehsize, e_phentsize, e_phnum, e_shentsize, e_shnum and e_shstrndx.
	if (data.GetU16(offset, &e_ehsize, 6) == nullptr)
	return false;

	// Initialize e_phnum, e_shnum, and e_shstrndx with the values read from the
	// header.
	e_phnum = e_phnum_hdr;
	e_shnum = e_shnum_hdr;
	e_shstrndx = e_shstrndx_hdr;

	// See if we have extended header in section #0.
	if (HasHeaderExtension())
	ParseHeaderExtension(data);

	return true;
	}

	bool ELFHeader::MagicBytesMatch(const uint8_t *magic) {
	return memcmp(magic, ElfMagic, strlen(ElfMagic)) == 0;
	}

	unsigned ELFHeader::AddressSizeInBytes(const uint8_t *magic) {
	unsigned address_size = 0;

	switch (magic[EI_CLASS]) {
	case ELFCLASS32:
	address_size = 4;
	break;

	case ELFCLASS64:
	address_size = 8;
	break;
	}
	return address_size;
	}

	unsigned ELFHeader::GetRelocationJumpSlotType() const {
	unsigned slot = 0;

	switch (e_machine) {
	default:
	assert(false && "architecture not supported");
	break;
	case EM_PPC:
	slot = R_PPC_JMP_SLOT;
	break;
	case EM_PPC64:
	slot = R_PPC64_JMP_SLOT;
	break;
	case EM_386:
	case EM_IAMCU: // FIXME: is this correct?
	slot = R_386_JUMP_SLOT;
	break;
	case EM_X86_64:
	slot = R_X86_64_JUMP_SLOT;
	break;
	case EM_ARM:
	slot = R_ARM_JUMP_SLOT;
	break;
	case EM_HEXAGON:
	slot = R_HEX_JMP_SLOT;
	break;
	case EM_AARCH64:
	slot = R_AARCH64_JUMP_SLOT;
	break;
	case EM_MIPS:
	slot = R_MIPS_JUMP_SLOT;
	break;
	case EM_S390:
	slot = R_390_JMP_SLOT;
	break;
	}

	return slot;
	}

	// ELFSectionHeader

	ELFSectionHeader::ELFSectionHeader() {
	memset(this, 0, sizeof(ELFSectionHeader));
	}

	bool ELFSectionHeader::Parse(const lldb_private::DataExtractor &data,
	lldb::offset_t *offset) {
	const unsigned byte_size = data.GetAddressByteSize();

	// Read sh_name and sh_type.
	if (data.GetU32(offset, &sh_name, 2) == nullptr)
	return false;

	// Read sh_flags.
	if (!GetMaxU64(data, offset, &sh_flags, byte_size))
	return false;

	// Read sh_addr, sh_off and sh_size.
	if (!GetMaxU64(data, offset, &sh_addr, byte_size, 3))
	return false;

	// Read sh_link and sh_info.
	if (data.GetU32(offset, &sh_link, 2) == nullptr)
	return false;

	// Read sh_addralign and sh_entsize.
	if (!GetMaxU64(data, offset, &sh_addralign, byte_size, 2))
	return false;

	return true;
	}

	// ELFSymbol

	ELFSymbol::ELFSymbol() { memset(this, 0, sizeof(ELFSymbol)); }

	#define ENUM_TO_CSTR(e) \
	case e: \
	return #e

	const char *ELFSymbol::bindingToCString(unsigned char binding) {
	switch (binding) {
	ENUM_TO_CSTR(STB_LOCAL);
	ENUM_TO_CSTR(STB_GLOBAL);
	ENUM_TO_CSTR(STB_WEAK);
	ENUM_TO_CSTR(STB_LOOS);
	ENUM_TO_CSTR(STB_HIOS);
	ENUM_TO_CSTR(STB_LOPROC);
	ENUM_TO_CSTR(STB_HIPROC);
	}
	return "";
	}

	const char *ELFSymbol::typeToCString(unsigned char type) {
	switch (type) {
	ENUM_TO_CSTR(STT_NOTYPE);
	ENUM_TO_CSTR(STT_OBJECT);
	ENUM_TO_CSTR(STT_FUNC);
	ENUM_TO_CSTR(STT_SECTION);
	ENUM_TO_CSTR(STT_FILE);
	ENUM_TO_CSTR(STT_COMMON);
	ENUM_TO_CSTR(STT_TLS);
	ENUM_TO_CSTR(STT_GNU_IFUNC);
	ENUM_TO_CSTR(STT_HIOS);
	ENUM_TO_CSTR(STT_LOPROC);
	ENUM_TO_CSTR(STT_HIPROC);
	}
	return "";
	}

	const char *ELFSymbol::sectionIndexToCString(
	elf_half shndx, const lldb_private::SectionList *section_list) {
	switch (shndx) {
	ENUM_TO_CSTR(SHN_UNDEF);
	ENUM_TO_CSTR(SHN_LOPROC);
	ENUM_TO_CSTR(SHN_HIPROC);
	ENUM_TO_CSTR(SHN_LOOS);
	ENUM_TO_CSTR(SHN_HIOS);
	ENUM_TO_CSTR(SHN_ABS);
	ENUM_TO_CSTR(SHN_COMMON);
	ENUM_TO_CSTR(SHN_XINDEX);
	default: {
	const lldb_private::Section *section =
	section_list->GetSectionAtIndex(shndx).get();
	if (section)
	return section->GetName().AsCString("");
	} break;
	}
	return "";
	}

	void ELFSymbol::Dump(lldb_private::Stream *s, uint32_t idx,
	const lldb_private::DataExtractor *strtab_data,
	const lldb_private::SectionList *section_list) {
	s->Printf("[%3u] 0x%16.16" PRIx64 " 0x%16.16" PRIx64
	" 0x%8.8x 0x%2.2x (%-10s %-13s) 0x%2.2x 0x%4.4x (%-10s) %s\n",
	idx, st_value, st_size, st_name, st_info,
	bindingToCString(getBinding()), typeToCString(getType()), st_other,
	st_shndx, sectionIndexToCString(st_shndx, section_list),
	strtab_data ? strtab_data->PeekCStr(st_name) : "");
	}

	bool ELFSymbol::Parse(const lldb_private::DataExtractor &data,
	lldb::offset_t *offset) {
	const unsigned byte_size = data.GetAddressByteSize();
	const bool parsing_32 = byte_size == 4;

	// Read st_name.
	if (data.GetU32(offset, &st_name, 1) == nullptr)
	return false;

	if (parsing_32) {
	// Read st_value and st_size.
	if (!GetMaxU64(data, offset, &st_value, byte_size, 2))
	return false;

	// Read st_info and st_other.
	if (data.GetU8(offset, &st_info, 2) == nullptr)
	return false;

	// Read st_shndx.
	if (data.GetU16(offset, &st_shndx, 1) == nullptr)
	return false;
	} else {
	// Read st_info and st_other.
	if (data.GetU8(offset, &st_info, 2) == nullptr)
	return false;

	// Read st_shndx.
	if (data.GetU16(offset, &st_shndx, 1) == nullptr)
	return false;

	// Read st_value and st_size.
	if (data.GetU64(offset, &st_value, 2) == nullptr)
	return false;
	}
	return true;
	}

	// ELFProgramHeader

	ELFProgramHeader::ELFProgramHeader() {
	memset(this, 0, sizeof(ELFProgramHeader));
	}

	bool ELFProgramHeader::Parse(const lldb_private::DataExtractor &data,
	lldb::offset_t *offset) {
	const uint32_t byte_size = data.GetAddressByteSize();
	const bool parsing_32 = byte_size == 4;

	// Read p_type;
	if (data.GetU32(offset, &p_type, 1) == nullptr)
	return false;

	if (parsing_32) {
	// Read p_offset, p_vaddr, p_paddr, p_filesz and p_memsz.
	if (!GetMaxU64(data, offset, &p_offset, byte_size, 5))
	return false;

	// Read p_flags.
	if (data.GetU32(offset, &p_flags, 1) == nullptr)
	return false;

	// Read p_align.
	if (!GetMaxU64(data, offset, &p_align, byte_size))
	return false;
	} else {
	// Read p_flags.
	if (data.GetU32(offset, &p_flags, 1) == nullptr)
	return false;

	// Read p_offset, p_vaddr, p_paddr, p_filesz, p_memsz and p_align.
	if (!GetMaxU64(data, offset, &p_offset, byte_size, 6))
	return false;
	}

	return true;
	}

	// ELFDynamic

	ELFDynamic::ELFDynamic() { memset(this, 0, sizeof(ELFDynamic)); }

	bool ELFDynamic::Parse(const lldb_private::DataExtractor &data,
	lldb::offset_t *offset) {
	const unsigned byte_size = data.GetAddressByteSize();
	return GetMaxS64(data, offset, &d_tag, byte_size, 2);
	}

	// ELFRel

	ELFRel::ELFRel() { memset(this, 0, sizeof(ELFRel)); }

	bool ELFRel::Parse(const lldb_private::DataExtractor &data,
	lldb::offset_t *offset) {
	const unsigned byte_size = data.GetAddressByteSize();

	// Read r_offset and r_info.
	return GetMaxU64(data, offset, &r_offset, byte_size, 2) != false;
	}

	// ELFRela

	ELFRela::ELFRela() { memset(this, 0, sizeof(ELFRela)); }

	bool ELFRela::Parse(const lldb_private::DataExtractor &data,
	lldb::offset_t *offset) {
	const unsigned byte_size = data.GetAddressByteSize();

	// Read r_offset and r_info.
	if (!GetMaxU64(data, offset, &r_offset, byte_size, 2))
	return false;

	// Read r_addend;
	if (!GetMaxS64(data, offset, &r_addend, byte_size))
	return false;

	return true;
	}