mirror of
https://github.com/RPCS3/llvm-mirror.git
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e8a3b2bc92
Summary: This change introduces a `DynamicSymbols` field to the ELF specific YAML supported by `yaml2obj` and `obj2yaml`. This grouping of symbols provides a way to represent ELF dynamic symbols. The `DynamicSymbols` structure is identical to the existing `Symbols`. Reviewers: compnerd, jakehehrlich, silvas Reviewed By: silvas Subscribers: silvas, jakehehrlich, llvm-commits Differential Revision: https://reviews.llvm.org/D39582 llvm-svn: 318433
712 lines
25 KiB
C++
712 lines
25 KiB
C++
//===- yaml2elf - Convert YAML to a ELF object file -----------------------===//
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//
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// The LLVM Compiler Infrastructure
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//
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// This file is distributed under the University of Illinois Open Source
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// License. See LICENSE.TXT for details.
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//
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//===----------------------------------------------------------------------===//
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///
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/// \file
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/// \brief The ELF component of yaml2obj.
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///
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//===----------------------------------------------------------------------===//
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#include "yaml2obj.h"
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#include "llvm/ADT/ArrayRef.h"
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#include "llvm/BinaryFormat/ELF.h"
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#include "llvm/MC/StringTableBuilder.h"
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#include "llvm/Object/ELFObjectFile.h"
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#include "llvm/ObjectYAML/ELFYAML.h"
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#include "llvm/Support/MemoryBuffer.h"
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#include "llvm/Support/YAMLTraits.h"
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#include "llvm/Support/raw_ostream.h"
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using namespace llvm;
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// This class is used to build up a contiguous binary blob while keeping
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// track of an offset in the output (which notionally begins at
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// `InitialOffset`).
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namespace {
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class ContiguousBlobAccumulator {
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const uint64_t InitialOffset;
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SmallVector<char, 128> Buf;
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raw_svector_ostream OS;
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/// \returns The new offset.
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uint64_t padToAlignment(unsigned Align) {
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if (Align == 0)
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Align = 1;
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uint64_t CurrentOffset = InitialOffset + OS.tell();
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uint64_t AlignedOffset = alignTo(CurrentOffset, Align);
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for (; CurrentOffset != AlignedOffset; ++CurrentOffset)
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OS.write('\0');
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return AlignedOffset; // == CurrentOffset;
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}
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public:
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ContiguousBlobAccumulator(uint64_t InitialOffset_)
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: InitialOffset(InitialOffset_), Buf(), OS(Buf) {}
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template <class Integer>
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raw_ostream &getOSAndAlignedOffset(Integer &Offset, unsigned Align) {
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Offset = padToAlignment(Align);
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return OS;
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}
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void writeBlobToStream(raw_ostream &Out) { Out << OS.str(); }
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};
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} // end anonymous namespace
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// Used to keep track of section and symbol names, so that in the YAML file
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// sections and symbols can be referenced by name instead of by index.
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namespace {
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class NameToIdxMap {
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StringMap<int> Map;
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public:
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/// \returns true if name is already present in the map.
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bool addName(StringRef Name, unsigned i) {
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return !Map.insert(std::make_pair(Name, (int)i)).second;
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}
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/// \returns true if name is not present in the map
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bool lookup(StringRef Name, unsigned &Idx) const {
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StringMap<int>::const_iterator I = Map.find(Name);
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if (I == Map.end())
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return true;
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Idx = I->getValue();
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return false;
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}
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/// asserts if name is not present in the map
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unsigned get(StringRef Name) const {
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unsigned Idx = 0;
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auto missing = lookup(Name, Idx);
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(void)missing;
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assert(!missing && "Expected section not found in index");
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return Idx;
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}
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unsigned size() const { return Map.size(); }
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};
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} // end anonymous namespace
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template <class T>
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static size_t arrayDataSize(ArrayRef<T> A) {
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return A.size() * sizeof(T);
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}
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template <class T>
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static void writeArrayData(raw_ostream &OS, ArrayRef<T> A) {
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OS.write((const char *)A.data(), arrayDataSize(A));
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}
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template <class T>
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static void zero(T &Obj) {
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memset(&Obj, 0, sizeof(Obj));
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}
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namespace {
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/// \brief "Single point of truth" for the ELF file construction.
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/// TODO: This class still has a ways to go before it is truly a "single
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/// point of truth".
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template <class ELFT>
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class ELFState {
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typedef typename object::ELFFile<ELFT>::Elf_Ehdr Elf_Ehdr;
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typedef typename object::ELFFile<ELFT>::Elf_Phdr Elf_Phdr;
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typedef typename object::ELFFile<ELFT>::Elf_Shdr Elf_Shdr;
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typedef typename object::ELFFile<ELFT>::Elf_Sym Elf_Sym;
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typedef typename object::ELFFile<ELFT>::Elf_Rel Elf_Rel;
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typedef typename object::ELFFile<ELFT>::Elf_Rela Elf_Rela;
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enum class SymtabType { Static, Dynamic };
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/// \brief The future ".strtab" section.
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StringTableBuilder DotStrtab{StringTableBuilder::ELF};
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/// \brief The future ".shstrtab" section.
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StringTableBuilder DotShStrtab{StringTableBuilder::ELF};
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/// \brief The future ".dynstr" section.
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StringTableBuilder DotDynstr{StringTableBuilder::ELF};
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NameToIdxMap SN2I;
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NameToIdxMap SymN2I;
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const ELFYAML::Object &Doc;
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bool buildSectionIndex();
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bool buildSymbolIndex(std::size_t &StartIndex,
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const std::vector<ELFYAML::Symbol> &Symbols);
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void initELFHeader(Elf_Ehdr &Header);
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void initProgramHeaders(std::vector<Elf_Phdr> &PHeaders);
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bool initSectionHeaders(std::vector<Elf_Shdr> &SHeaders,
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ContiguousBlobAccumulator &CBA);
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void initSymtabSectionHeader(Elf_Shdr &SHeader, SymtabType STType,
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ContiguousBlobAccumulator &CBA);
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void initStrtabSectionHeader(Elf_Shdr &SHeader, StringRef Name,
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StringTableBuilder &STB,
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ContiguousBlobAccumulator &CBA);
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void setProgramHeaderLayout(std::vector<Elf_Phdr> &PHeaders,
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std::vector<Elf_Shdr> &SHeaders);
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void addSymbols(const std::vector<ELFYAML::Symbol> &Symbols,
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std::vector<Elf_Sym> &Syms, unsigned SymbolBinding,
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const StringTableBuilder &Strtab);
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void writeSectionContent(Elf_Shdr &SHeader,
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const ELFYAML::RawContentSection &Section,
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ContiguousBlobAccumulator &CBA);
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bool writeSectionContent(Elf_Shdr &SHeader,
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const ELFYAML::RelocationSection &Section,
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ContiguousBlobAccumulator &CBA);
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bool writeSectionContent(Elf_Shdr &SHeader, const ELFYAML::Group &Group,
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ContiguousBlobAccumulator &CBA);
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bool writeSectionContent(Elf_Shdr &SHeader,
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const ELFYAML::MipsABIFlags &Section,
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ContiguousBlobAccumulator &CBA);
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bool hasDynamicSymbols() const;
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SmallVector<const char *, 5> implicitSectionNames() const;
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// - SHT_NULL entry (placed first, i.e. 0'th entry)
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// - symbol table (.symtab) (defaults to after last yaml section)
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// - string table (.strtab) (defaults to after .symtab)
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// - section header string table (.shstrtab) (defaults to after .strtab)
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// - dynamic symbol table (.dynsym) (defaults to after .shstrtab)
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// - dynamic string table (.dynstr) (defaults to after .dynsym)
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unsigned getDotSymTabSecNo() const { return SN2I.get(".symtab"); }
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unsigned getDotStrTabSecNo() const { return SN2I.get(".strtab"); }
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unsigned getDotShStrTabSecNo() const { return SN2I.get(".shstrtab"); }
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unsigned getDotDynSymSecNo() const { return SN2I.get(".dynsym"); }
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unsigned getDotDynStrSecNo() const { return SN2I.get(".dynstr"); }
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unsigned getSectionCount() const { return SN2I.size() + 1; }
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ELFState(const ELFYAML::Object &D) : Doc(D) {}
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public:
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static int writeELF(raw_ostream &OS, const ELFYAML::Object &Doc);
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};
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} // end anonymous namespace
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template <class ELFT>
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void ELFState<ELFT>::initELFHeader(Elf_Ehdr &Header) {
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using namespace llvm::ELF;
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zero(Header);
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Header.e_ident[EI_MAG0] = 0x7f;
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Header.e_ident[EI_MAG1] = 'E';
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Header.e_ident[EI_MAG2] = 'L';
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Header.e_ident[EI_MAG3] = 'F';
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Header.e_ident[EI_CLASS] = ELFT::Is64Bits ? ELFCLASS64 : ELFCLASS32;
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bool IsLittleEndian = ELFT::TargetEndianness == support::little;
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Header.e_ident[EI_DATA] = IsLittleEndian ? ELFDATA2LSB : ELFDATA2MSB;
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Header.e_ident[EI_VERSION] = EV_CURRENT;
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Header.e_ident[EI_OSABI] = Doc.Header.OSABI;
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Header.e_ident[EI_ABIVERSION] = 0;
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Header.e_type = Doc.Header.Type;
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Header.e_machine = Doc.Header.Machine;
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Header.e_version = EV_CURRENT;
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Header.e_entry = Doc.Header.Entry;
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Header.e_phoff = sizeof(Header);
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Header.e_flags = Doc.Header.Flags;
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Header.e_ehsize = sizeof(Elf_Ehdr);
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Header.e_phentsize = sizeof(Elf_Phdr);
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Header.e_phnum = Doc.ProgramHeaders.size();
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Header.e_shentsize = sizeof(Elf_Shdr);
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// Immediately following the ELF header and program headers.
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Header.e_shoff =
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sizeof(Header) + sizeof(Elf_Phdr) * Doc.ProgramHeaders.size();
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Header.e_shnum = getSectionCount();
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Header.e_shstrndx = getDotShStrTabSecNo();
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}
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template <class ELFT>
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void ELFState<ELFT>::initProgramHeaders(std::vector<Elf_Phdr> &PHeaders) {
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for (const auto &YamlPhdr : Doc.ProgramHeaders) {
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Elf_Phdr Phdr;
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Phdr.p_type = YamlPhdr.Type;
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Phdr.p_flags = YamlPhdr.Flags;
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Phdr.p_vaddr = YamlPhdr.VAddr;
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Phdr.p_paddr = YamlPhdr.PAddr;
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PHeaders.push_back(Phdr);
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}
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}
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template <class ELFT>
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bool ELFState<ELFT>::initSectionHeaders(std::vector<Elf_Shdr> &SHeaders,
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ContiguousBlobAccumulator &CBA) {
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// Ensure SHN_UNDEF entry is present. An all-zero section header is a
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// valid SHN_UNDEF entry since SHT_NULL == 0.
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Elf_Shdr SHeader;
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zero(SHeader);
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SHeaders.push_back(SHeader);
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for (const auto &Sec : Doc.Sections) {
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zero(SHeader);
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SHeader.sh_name = DotShStrtab.getOffset(Sec->Name);
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SHeader.sh_type = Sec->Type;
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SHeader.sh_flags = Sec->Flags;
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SHeader.sh_addr = Sec->Address;
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SHeader.sh_addralign = Sec->AddressAlign;
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if (!Sec->Link.empty()) {
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unsigned Index;
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if (SN2I.lookup(Sec->Link, Index)) {
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errs() << "error: Unknown section referenced: '" << Sec->Link
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<< "' at YAML section '" << Sec->Name << "'.\n";
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return false;
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}
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SHeader.sh_link = Index;
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}
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if (auto S = dyn_cast<ELFYAML::RawContentSection>(Sec.get()))
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writeSectionContent(SHeader, *S, CBA);
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else if (auto S = dyn_cast<ELFYAML::RelocationSection>(Sec.get())) {
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if (S->Link.empty())
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// For relocation section set link to .symtab by default.
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SHeader.sh_link = getDotSymTabSecNo();
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unsigned Index;
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if (SN2I.lookup(S->Info, Index)) {
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if (S->Info.getAsInteger(0, Index)) {
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errs() << "error: Unknown section referenced: '" << S->Info
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<< "' at YAML section '" << S->Name << "'.\n";
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return false;
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}
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}
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SHeader.sh_info = Index;
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if (!writeSectionContent(SHeader, *S, CBA))
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return false;
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} else if (auto S = dyn_cast<ELFYAML::Group>(Sec.get())) {
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unsigned SymIdx;
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if (SymN2I.lookup(S->Info, SymIdx)) {
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errs() << "error: Unknown symbol referenced: '" << S->Info
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<< "' at YAML section '" << S->Name << "'.\n";
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return false;
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}
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SHeader.sh_info = SymIdx;
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if (!writeSectionContent(SHeader, *S, CBA))
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return false;
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} else if (auto S = dyn_cast<ELFYAML::MipsABIFlags>(Sec.get())) {
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if (!writeSectionContent(SHeader, *S, CBA))
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return false;
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} else if (auto S = dyn_cast<ELFYAML::NoBitsSection>(Sec.get())) {
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SHeader.sh_entsize = 0;
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SHeader.sh_size = S->Size;
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// SHT_NOBITS section does not have content
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// so just to setup the section offset.
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CBA.getOSAndAlignedOffset(SHeader.sh_offset, SHeader.sh_addralign);
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} else
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llvm_unreachable("Unknown section type");
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SHeaders.push_back(SHeader);
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}
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return true;
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}
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template <class ELFT>
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void ELFState<ELFT>::initSymtabSectionHeader(Elf_Shdr &SHeader,
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SymtabType STType,
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ContiguousBlobAccumulator &CBA) {
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zero(SHeader);
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bool IsStatic = STType == SymtabType::Static;
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SHeader.sh_name = DotShStrtab.getOffset(IsStatic ? ".symtab" : ".dynsym");
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SHeader.sh_type = IsStatic ? ELF::SHT_SYMTAB : ELF::SHT_DYNSYM;
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SHeader.sh_link = IsStatic ? getDotStrTabSecNo() : getDotDynStrSecNo();
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const auto &Symbols = IsStatic ? Doc.Symbols : Doc.DynamicSymbols;
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auto &Strtab = IsStatic ? DotStrtab : DotDynstr;
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// One greater than symbol table index of the last local symbol.
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SHeader.sh_info = Symbols.Local.size() + 1;
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SHeader.sh_entsize = sizeof(Elf_Sym);
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SHeader.sh_addralign = 8;
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std::vector<Elf_Sym> Syms;
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{
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// Ensure STN_UNDEF is present
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Elf_Sym Sym;
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zero(Sym);
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Syms.push_back(Sym);
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}
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// Add symbol names to .strtab or .dynstr.
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for (const auto &Sym : Symbols.Local)
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Strtab.add(Sym.Name);
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for (const auto &Sym : Symbols.Global)
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Strtab.add(Sym.Name);
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for (const auto &Sym : Symbols.Weak)
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Strtab.add(Sym.Name);
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Strtab.finalize();
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addSymbols(Symbols.Local, Syms, ELF::STB_LOCAL, Strtab);
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addSymbols(Symbols.Global, Syms, ELF::STB_GLOBAL, Strtab);
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addSymbols(Symbols.Weak, Syms, ELF::STB_WEAK, Strtab);
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writeArrayData(
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CBA.getOSAndAlignedOffset(SHeader.sh_offset, SHeader.sh_addralign),
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makeArrayRef(Syms));
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SHeader.sh_size = arrayDataSize(makeArrayRef(Syms));
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}
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template <class ELFT>
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void ELFState<ELFT>::initStrtabSectionHeader(Elf_Shdr &SHeader, StringRef Name,
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StringTableBuilder &STB,
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ContiguousBlobAccumulator &CBA) {
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zero(SHeader);
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SHeader.sh_name = DotShStrtab.getOffset(Name);
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SHeader.sh_type = ELF::SHT_STRTAB;
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STB.write(CBA.getOSAndAlignedOffset(SHeader.sh_offset, SHeader.sh_addralign));
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SHeader.sh_size = STB.getSize();
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SHeader.sh_addralign = 1;
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}
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template <class ELFT>
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void ELFState<ELFT>::setProgramHeaderLayout(std::vector<Elf_Phdr> &PHeaders,
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std::vector<Elf_Shdr> &SHeaders) {
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uint32_t PhdrIdx = 0;
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for (auto &YamlPhdr : Doc.ProgramHeaders) {
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auto &PHeader = PHeaders[PhdrIdx++];
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if (YamlPhdr.Sections.size())
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PHeader.p_offset = UINT32_MAX;
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else
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PHeader.p_offset = 0;
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// Find the minimum offset for the program header.
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for (auto SecName : YamlPhdr.Sections) {
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uint32_t Index = 0;
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SN2I.lookup(SecName.Section, Index);
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const auto &SHeader = SHeaders[Index];
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PHeader.p_offset = std::min(PHeader.p_offset, SHeader.sh_offset);
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}
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// Find the maximum offset of the end of a section in order to set p_filesz.
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PHeader.p_filesz = 0;
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for (auto SecName : YamlPhdr.Sections) {
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uint32_t Index = 0;
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SN2I.lookup(SecName.Section, Index);
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const auto &SHeader = SHeaders[Index];
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uint64_t EndOfSection;
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if (SHeader.sh_type == llvm::ELF::SHT_NOBITS)
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EndOfSection = SHeader.sh_offset;
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else
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EndOfSection = SHeader.sh_offset + SHeader.sh_size;
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uint64_t EndOfSegment = PHeader.p_offset + PHeader.p_filesz;
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EndOfSegment = std::max(EndOfSegment, EndOfSection);
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PHeader.p_filesz = EndOfSegment - PHeader.p_offset;
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}
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// Find the memory size by adding the size of sections at the end of the
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// segment. These should be empty (size of zero) and NOBITS sections.
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PHeader.p_memsz = PHeader.p_filesz;
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for (auto SecName : YamlPhdr.Sections) {
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uint32_t Index = 0;
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SN2I.lookup(SecName.Section, Index);
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const auto &SHeader = SHeaders[Index];
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if (SHeader.sh_offset == PHeader.p_offset + PHeader.p_filesz)
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PHeader.p_memsz += SHeader.sh_size;
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}
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// Set the alignment of the segment to be the same as the maximum alignment
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// of the sections with the same offset so that by default the segment
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// has a valid and sensible alignment.
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if (YamlPhdr.Align) {
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PHeader.p_align = *YamlPhdr.Align;
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} else {
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PHeader.p_align = 1;
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for (auto SecName : YamlPhdr.Sections) {
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uint32_t Index = 0;
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SN2I.lookup(SecName.Section, Index);
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const auto &SHeader = SHeaders[Index];
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if (SHeader.sh_offset == PHeader.p_offset)
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PHeader.p_align = std::max(PHeader.p_align, SHeader.sh_addralign);
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}
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}
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}
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}
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template <class ELFT>
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void ELFState<ELFT>::addSymbols(const std::vector<ELFYAML::Symbol> &Symbols,
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std::vector<Elf_Sym> &Syms,
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unsigned SymbolBinding,
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const StringTableBuilder &Strtab) {
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for (const auto &Sym : Symbols) {
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Elf_Sym Symbol;
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zero(Symbol);
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if (!Sym.Name.empty())
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Symbol.st_name = Strtab.getOffset(Sym.Name);
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Symbol.setBindingAndType(SymbolBinding, Sym.Type);
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if (!Sym.Section.empty()) {
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unsigned Index;
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if (SN2I.lookup(Sym.Section, Index)) {
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errs() << "error: Unknown section referenced: '" << Sym.Section
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<< "' by YAML symbol " << Sym.Name << ".\n";
|
|
exit(1);
|
|
}
|
|
Symbol.st_shndx = Index;
|
|
} else if (Sym.Index) {
|
|
Symbol.st_shndx = *Sym.Index;
|
|
}
|
|
// else Symbol.st_shndex == SHN_UNDEF (== 0), since it was zero'd earlier.
|
|
Symbol.st_value = Sym.Value;
|
|
Symbol.st_other = Sym.Other;
|
|
Symbol.st_size = Sym.Size;
|
|
Syms.push_back(Symbol);
|
|
}
|
|
}
|
|
|
|
template <class ELFT>
|
|
void
|
|
ELFState<ELFT>::writeSectionContent(Elf_Shdr &SHeader,
|
|
const ELFYAML::RawContentSection &Section,
|
|
ContiguousBlobAccumulator &CBA) {
|
|
assert(Section.Size >= Section.Content.binary_size() &&
|
|
"Section size and section content are inconsistent");
|
|
raw_ostream &OS =
|
|
CBA.getOSAndAlignedOffset(SHeader.sh_offset, SHeader.sh_addralign);
|
|
Section.Content.writeAsBinary(OS);
|
|
for (auto i = Section.Content.binary_size(); i < Section.Size; ++i)
|
|
OS.write(0);
|
|
SHeader.sh_entsize = 0;
|
|
SHeader.sh_size = Section.Size;
|
|
}
|
|
|
|
static bool isMips64EL(const ELFYAML::Object &Doc) {
|
|
return Doc.Header.Machine == ELFYAML::ELF_EM(llvm::ELF::EM_MIPS) &&
|
|
Doc.Header.Class == ELFYAML::ELF_ELFCLASS(ELF::ELFCLASS64) &&
|
|
Doc.Header.Data == ELFYAML::ELF_ELFDATA(ELF::ELFDATA2LSB);
|
|
}
|
|
|
|
template <class ELFT>
|
|
bool
|
|
ELFState<ELFT>::writeSectionContent(Elf_Shdr &SHeader,
|
|
const ELFYAML::RelocationSection &Section,
|
|
ContiguousBlobAccumulator &CBA) {
|
|
assert((Section.Type == llvm::ELF::SHT_REL ||
|
|
Section.Type == llvm::ELF::SHT_RELA) &&
|
|
"Section type is not SHT_REL nor SHT_RELA");
|
|
|
|
bool IsRela = Section.Type == llvm::ELF::SHT_RELA;
|
|
SHeader.sh_entsize = IsRela ? sizeof(Elf_Rela) : sizeof(Elf_Rel);
|
|
SHeader.sh_size = SHeader.sh_entsize * Section.Relocations.size();
|
|
|
|
auto &OS = CBA.getOSAndAlignedOffset(SHeader.sh_offset, SHeader.sh_addralign);
|
|
|
|
for (const auto &Rel : Section.Relocations) {
|
|
unsigned SymIdx = 0;
|
|
// Some special relocation, R_ARM_v4BX for instance, does not have
|
|
// an external reference. So it ignores the return value of lookup()
|
|
// here.
|
|
if (Rel.Symbol)
|
|
SymN2I.lookup(*Rel.Symbol, SymIdx);
|
|
|
|
if (IsRela) {
|
|
Elf_Rela REntry;
|
|
zero(REntry);
|
|
REntry.r_offset = Rel.Offset;
|
|
REntry.r_addend = Rel.Addend;
|
|
REntry.setSymbolAndType(SymIdx, Rel.Type, isMips64EL(Doc));
|
|
OS.write((const char *)&REntry, sizeof(REntry));
|
|
} else {
|
|
Elf_Rel REntry;
|
|
zero(REntry);
|
|
REntry.r_offset = Rel.Offset;
|
|
REntry.setSymbolAndType(SymIdx, Rel.Type, isMips64EL(Doc));
|
|
OS.write((const char *)&REntry, sizeof(REntry));
|
|
}
|
|
}
|
|
return true;
|
|
}
|
|
|
|
template <class ELFT>
|
|
bool ELFState<ELFT>::writeSectionContent(Elf_Shdr &SHeader,
|
|
const ELFYAML::Group &Section,
|
|
ContiguousBlobAccumulator &CBA) {
|
|
typedef typename object::ELFFile<ELFT>::Elf_Word Elf_Word;
|
|
assert(Section.Type == llvm::ELF::SHT_GROUP &&
|
|
"Section type is not SHT_GROUP");
|
|
|
|
SHeader.sh_entsize = sizeof(Elf_Word);
|
|
SHeader.sh_size = SHeader.sh_entsize * Section.Members.size();
|
|
|
|
auto &OS = CBA.getOSAndAlignedOffset(SHeader.sh_offset, SHeader.sh_addralign);
|
|
|
|
for (auto member : Section.Members) {
|
|
Elf_Word SIdx;
|
|
unsigned int sectionIndex = 0;
|
|
if (member.sectionNameOrType == "GRP_COMDAT")
|
|
sectionIndex = llvm::ELF::GRP_COMDAT;
|
|
else if (SN2I.lookup(member.sectionNameOrType, sectionIndex)) {
|
|
errs() << "error: Unknown section referenced: '"
|
|
<< member.sectionNameOrType << "' at YAML section' "
|
|
<< Section.Name << "\n";
|
|
return false;
|
|
}
|
|
SIdx = sectionIndex;
|
|
OS.write((const char *)&SIdx, sizeof(SIdx));
|
|
}
|
|
return true;
|
|
}
|
|
|
|
template <class ELFT>
|
|
bool ELFState<ELFT>::writeSectionContent(Elf_Shdr &SHeader,
|
|
const ELFYAML::MipsABIFlags &Section,
|
|
ContiguousBlobAccumulator &CBA) {
|
|
assert(Section.Type == llvm::ELF::SHT_MIPS_ABIFLAGS &&
|
|
"Section type is not SHT_MIPS_ABIFLAGS");
|
|
|
|
object::Elf_Mips_ABIFlags<ELFT> Flags;
|
|
zero(Flags);
|
|
SHeader.sh_entsize = sizeof(Flags);
|
|
SHeader.sh_size = SHeader.sh_entsize;
|
|
|
|
auto &OS = CBA.getOSAndAlignedOffset(SHeader.sh_offset, SHeader.sh_addralign);
|
|
Flags.version = Section.Version;
|
|
Flags.isa_level = Section.ISALevel;
|
|
Flags.isa_rev = Section.ISARevision;
|
|
Flags.gpr_size = Section.GPRSize;
|
|
Flags.cpr1_size = Section.CPR1Size;
|
|
Flags.cpr2_size = Section.CPR2Size;
|
|
Flags.fp_abi = Section.FpABI;
|
|
Flags.isa_ext = Section.ISAExtension;
|
|
Flags.ases = Section.ASEs;
|
|
Flags.flags1 = Section.Flags1;
|
|
Flags.flags2 = Section.Flags2;
|
|
OS.write((const char *)&Flags, sizeof(Flags));
|
|
|
|
return true;
|
|
}
|
|
|
|
template <class ELFT> bool ELFState<ELFT>::buildSectionIndex() {
|
|
for (unsigned i = 0, e = Doc.Sections.size(); i != e; ++i) {
|
|
StringRef Name = Doc.Sections[i]->Name;
|
|
DotShStrtab.add(Name);
|
|
// "+ 1" to take into account the SHT_NULL entry.
|
|
if (SN2I.addName(Name, i + 1)) {
|
|
errs() << "error: Repeated section name: '" << Name
|
|
<< "' at YAML section number " << i << ".\n";
|
|
return false;
|
|
}
|
|
}
|
|
|
|
auto SecNo = 1 + Doc.Sections.size();
|
|
// Add special sections after input sections, if necessary.
|
|
for (const auto &Name : implicitSectionNames())
|
|
if (!SN2I.addName(Name, SecNo)) {
|
|
// Account for this section, since it wasn't in the Doc
|
|
++SecNo;
|
|
DotShStrtab.add(Name);
|
|
}
|
|
|
|
DotShStrtab.finalize();
|
|
return true;
|
|
}
|
|
|
|
template <class ELFT>
|
|
bool
|
|
ELFState<ELFT>::buildSymbolIndex(std::size_t &StartIndex,
|
|
const std::vector<ELFYAML::Symbol> &Symbols) {
|
|
for (const auto &Sym : Symbols) {
|
|
++StartIndex;
|
|
if (Sym.Name.empty())
|
|
continue;
|
|
if (SymN2I.addName(Sym.Name, StartIndex)) {
|
|
errs() << "error: Repeated symbol name: '" << Sym.Name << "'.\n";
|
|
return false;
|
|
}
|
|
}
|
|
return true;
|
|
}
|
|
|
|
template <class ELFT>
|
|
int ELFState<ELFT>::writeELF(raw_ostream &OS, const ELFYAML::Object &Doc) {
|
|
ELFState<ELFT> State(Doc);
|
|
if (!State.buildSectionIndex())
|
|
return 1;
|
|
|
|
std::size_t StartSymIndex = 0;
|
|
if (!State.buildSymbolIndex(StartSymIndex, Doc.Symbols.Local) ||
|
|
!State.buildSymbolIndex(StartSymIndex, Doc.Symbols.Global) ||
|
|
!State.buildSymbolIndex(StartSymIndex, Doc.Symbols.Weak))
|
|
return 1;
|
|
|
|
Elf_Ehdr Header;
|
|
State.initELFHeader(Header);
|
|
|
|
// TODO: Flesh out section header support.
|
|
|
|
std::vector<Elf_Phdr> PHeaders;
|
|
State.initProgramHeaders(PHeaders);
|
|
|
|
// XXX: This offset is tightly coupled with the order that we write
|
|
// things to `OS`.
|
|
const size_t SectionContentBeginOffset = Header.e_ehsize +
|
|
Header.e_phentsize * Header.e_phnum +
|
|
Header.e_shentsize * Header.e_shnum;
|
|
ContiguousBlobAccumulator CBA(SectionContentBeginOffset);
|
|
|
|
std::vector<Elf_Shdr> SHeaders;
|
|
if(!State.initSectionHeaders(SHeaders, CBA))
|
|
return 1;
|
|
|
|
// Populate SHeaders with implicit sections not present in the Doc
|
|
for (const auto &Name : State.implicitSectionNames())
|
|
if (State.SN2I.get(Name) >= SHeaders.size())
|
|
SHeaders.push_back({});
|
|
|
|
// Initialize the implicit sections
|
|
auto Index = State.SN2I.get(".symtab");
|
|
State.initSymtabSectionHeader(SHeaders[Index], SymtabType::Static, CBA);
|
|
Index = State.SN2I.get(".strtab");
|
|
State.initStrtabSectionHeader(SHeaders[Index], ".strtab", State.DotStrtab, CBA);
|
|
Index = State.SN2I.get(".shstrtab");
|
|
State.initStrtabSectionHeader(SHeaders[Index], ".shstrtab", State.DotShStrtab, CBA);
|
|
if (State.hasDynamicSymbols()) {
|
|
Index = State.SN2I.get(".dynsym");
|
|
State.initSymtabSectionHeader(SHeaders[Index], SymtabType::Dynamic, CBA);
|
|
SHeaders[Index].sh_flags |= ELF::SHF_ALLOC;
|
|
Index = State.SN2I.get(".dynstr");
|
|
State.initStrtabSectionHeader(SHeaders[Index], ".dynstr", State.DotDynstr, CBA);
|
|
SHeaders[Index].sh_flags |= ELF::SHF_ALLOC;
|
|
}
|
|
|
|
// Now we can decide segment offsets
|
|
State.setProgramHeaderLayout(PHeaders, SHeaders);
|
|
|
|
OS.write((const char *)&Header, sizeof(Header));
|
|
writeArrayData(OS, makeArrayRef(PHeaders));
|
|
writeArrayData(OS, makeArrayRef(SHeaders));
|
|
CBA.writeBlobToStream(OS);
|
|
return 0;
|
|
}
|
|
|
|
template <class ELFT> bool ELFState<ELFT>::hasDynamicSymbols() const {
|
|
return Doc.DynamicSymbols.Global.size() > 0 ||
|
|
Doc.DynamicSymbols.Weak.size() > 0 ||
|
|
Doc.DynamicSymbols.Local.size() > 0;
|
|
}
|
|
|
|
template <class ELFT> SmallVector<const char *, 5> ELFState<ELFT>::implicitSectionNames() const {
|
|
if (!hasDynamicSymbols())
|
|
return {".symtab", ".strtab", ".shstrtab"};
|
|
return {".symtab", ".strtab", ".shstrtab", ".dynsym", ".dynstr"};
|
|
}
|
|
|
|
static bool is64Bit(const ELFYAML::Object &Doc) {
|
|
return Doc.Header.Class == ELFYAML::ELF_ELFCLASS(ELF::ELFCLASS64);
|
|
}
|
|
|
|
static bool isLittleEndian(const ELFYAML::Object &Doc) {
|
|
return Doc.Header.Data == ELFYAML::ELF_ELFDATA(ELF::ELFDATA2LSB);
|
|
}
|
|
|
|
int yaml2elf(llvm::ELFYAML::Object &Doc, raw_ostream &Out) {
|
|
using object::ELFType;
|
|
typedef ELFType<support::little, true> LE64;
|
|
typedef ELFType<support::big, true> BE64;
|
|
typedef ELFType<support::little, false> LE32;
|
|
typedef ELFType<support::big, false> BE32;
|
|
if (is64Bit(Doc)) {
|
|
if (isLittleEndian(Doc))
|
|
return ELFState<LE64>::writeELF(Out, Doc);
|
|
else
|
|
return ELFState<BE64>::writeELF(Out, Doc);
|
|
} else {
|
|
if (isLittleEndian(Doc))
|
|
return ELFState<LE32>::writeELF(Out, Doc);
|
|
else
|
|
return ELFState<BE32>::writeELF(Out, Doc);
|
|
}
|
|
}
|