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a67cf0001f5d24305f6c443da05266781c94de2e
clang-p2996/lldb/source/Plugins/ObjectFile/ELF/ELFHeader.cpp
Zachary Turner bf9a77305f Move classes from Core -> Utility. 
This moves the following classes from Core -> Utility.

ConstString
Error
RegularExpression
Stream
StreamString

The goal here is to get lldbUtility into a state where it has
no dependendencies except on itself and LLVM, so it can be the
starting point at which to start untangling LLDB's dependencies.
These are all low level and very widely used classes, and
previously lldbUtility had dependencies up to lldbCore in order
to use these classes.  So moving then down to lldbUtility makes
sense from both the short term and long term perspective in
solving this problem.

Differential Revision: https://reviews.llvm.org/D29427

llvm-svn: 293941
2017-02-02 21:39:50 +00:00

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//===-- ELFHeader.cpp ----------------------------------------- -*- C++ -*-===//
//
// The LLVM Compiler Infrastructure
//
// This file is distributed under the University of Illinois Open Source
// License. See LICENSE.TXT for details.
//
//===----------------------------------------------------------------------===//
#include <cstring>
#include "lldb/Core/DataExtractor.h"
#include "lldb/Core/Section.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) == false) {
*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) == false) {
*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) == NULL)
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) == NULL)
return false;
// Read e_version.
if (data.GetU32(offset, &e_version, 1) == NULL)
return false;
// Read e_entry, e_phoff and e_shoff.
if (GetMaxU64(data, offset, &e_entry, byte_size, 3) == false)
return false;
// Read e_flags.
if (data.GetU32(offset, &e_flags, 1) == NULL)
return false;
// Read e_ehsize, e_phentsize, e_phnum, e_shentsize, e_shnum and
// e_shstrndx.
if (data.GetU16(offset, &e_ehsize, 6) == NULL)
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) == NULL)
return false;
// Read sh_flags.
if (GetMaxU64(data, offset, &sh_flags, byte_size) == false)
return false;
// Read sh_addr, sh_off and sh_size.
if (GetMaxU64(data, offset, &sh_addr, byte_size, 3) == false)
return false;
// Read sh_link and sh_info.
if (data.GetU32(offset, &sh_link, 2) == NULL)
return false;
// Read sh_addralign and sh_entsize.
if (GetMaxU64(data, offset, &sh_addralign, byte_size, 2) == false)
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) == NULL)
return false;
if (parsing_32) {
// Read st_value and st_size.
if (GetMaxU64(data, offset, &st_value, byte_size, 2) == false)
return false;
// Read st_info and st_other.
if (data.GetU8(offset, &st_info, 2) == NULL)
return false;
// Read st_shndx.
if (data.GetU16(offset, &st_shndx, 1) == NULL)
return false;
} else {
// Read st_info and st_other.
if (data.GetU8(offset, &st_info, 2) == NULL)
return false;
// Read st_shndx.
if (data.GetU16(offset, &st_shndx, 1) == NULL)
return false;
// Read st_value and st_size.
if (data.GetU64(offset, &st_value, 2) == NULL)
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) == NULL)
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) == false)
return false;
// Read p_flags.
if (data.GetU32(offset, &p_flags, 1) == NULL)
return false;
// Read p_align.
if (GetMaxU64(data, offset, &p_align, byte_size) == false)
return false;
} else {
// Read p_flags.
if (data.GetU32(offset, &p_flags, 1) == NULL)
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) == false)
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.
if (GetMaxU64(data, offset, &r_offset, byte_size, 2) == false)
return false;
return true;
}
//------------------------------------------------------------------------------
// 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) == false)
return false;
// Read r_addend;
if (GetMaxS64(data, offset, &r_addend, byte_size) == false)
return false;
return true;
}
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