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https://github.com/RPCS3/llvm-mirror.git
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e16531589c
This is https://bugs.llvm.org/show_bug.cgi?id=45698. Specification says that "Loadable segment entries in the program header table appear in ascending order, sorted on the p_vaddr member." Our `toMappedAddr()` relies on this condition. This patch adds a warning when the sorting order of loadable segments is wrong. In this case we force segments sorting and that allows `toMappedAddr()` to work as expected. Differential revision: https://reviews.llvm.org/D92641
778 lines
29 KiB
C++
778 lines
29 KiB
C++
//===- ELF.h - ELF object file implementation -------------------*- C++ -*-===//
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//
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// Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
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// See https://llvm.org/LICENSE.txt for license information.
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// SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
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//
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//===----------------------------------------------------------------------===//
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//
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// This file declares the ELFFile template class.
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//
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//===----------------------------------------------------------------------===//
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#ifndef LLVM_OBJECT_ELF_H
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#define LLVM_OBJECT_ELF_H
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#include "llvm/ADT/ArrayRef.h"
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#include "llvm/ADT/SmallVector.h"
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#include "llvm/ADT/StringRef.h"
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#include "llvm/BinaryFormat/ELF.h"
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#include "llvm/Object/ELFTypes.h"
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#include "llvm/Object/Error.h"
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#include "llvm/Support/Endian.h"
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#include "llvm/Support/Error.h"
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#include <cassert>
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#include <cstddef>
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#include <cstdint>
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#include <limits>
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#include <utility>
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namespace llvm {
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namespace object {
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StringRef getELFRelocationTypeName(uint32_t Machine, uint32_t Type);
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uint32_t getELFRelativeRelocationType(uint32_t Machine);
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StringRef getELFSectionTypeName(uint32_t Machine, uint32_t Type);
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// Subclasses of ELFFile may need this for template instantiation
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inline std::pair<unsigned char, unsigned char>
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getElfArchType(StringRef Object) {
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if (Object.size() < ELF::EI_NIDENT)
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return std::make_pair((uint8_t)ELF::ELFCLASSNONE,
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(uint8_t)ELF::ELFDATANONE);
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return std::make_pair((uint8_t)Object[ELF::EI_CLASS],
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(uint8_t)Object[ELF::EI_DATA]);
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}
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static inline Error createError(const Twine &Err) {
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return make_error<StringError>(Err, object_error::parse_failed);
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}
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enum PPCInstrMasks : uint64_t {
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PADDI_R12_NO_DISP = 0x0610000039800000,
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PLD_R12_NO_DISP = 0x04100000E5800000,
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MTCTR_R12 = 0x7D8903A6,
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BCTR = 0x4E800420,
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};
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template <class ELFT> class ELFFile;
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template <class ELFT>
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std::string getSecIndexForError(const ELFFile<ELFT> &Obj,
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const typename ELFT::Shdr &Sec) {
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auto TableOrErr = Obj.sections();
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if (TableOrErr)
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return "[index " + std::to_string(&Sec - &TableOrErr->front()) + "]";
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// To make this helper be more convenient for error reporting purposes we
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// drop the error. But really it should never be triggered. Before this point,
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// our code should have called 'sections()' and reported a proper error on
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// failure.
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llvm::consumeError(TableOrErr.takeError());
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return "[unknown index]";
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}
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template <class ELFT>
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std::string getPhdrIndexForError(const ELFFile<ELFT> &Obj,
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const typename ELFT::Phdr &Phdr) {
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auto Headers = Obj.program_headers();
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if (Headers)
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return ("[index " + Twine(&Phdr - &Headers->front()) + "]").str();
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// See comment in the getSecIndexForError() above.
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llvm::consumeError(Headers.takeError());
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return "[unknown index]";
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}
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static inline Error defaultWarningHandler(const Twine &Msg) {
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return createError(Msg);
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}
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template <class ELFT>
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class ELFFile {
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public:
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LLVM_ELF_IMPORT_TYPES_ELFT(ELFT)
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using uintX_t = typename ELFT::uint;
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using Elf_Ehdr = typename ELFT::Ehdr;
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using Elf_Shdr = typename ELFT::Shdr;
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using Elf_Sym = typename ELFT::Sym;
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using Elf_Dyn = typename ELFT::Dyn;
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using Elf_Phdr = typename ELFT::Phdr;
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using Elf_Rel = typename ELFT::Rel;
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using Elf_Rela = typename ELFT::Rela;
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using Elf_Relr = typename ELFT::Relr;
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using Elf_Verdef = typename ELFT::Verdef;
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using Elf_Verdaux = typename ELFT::Verdaux;
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using Elf_Verneed = typename ELFT::Verneed;
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using Elf_Vernaux = typename ELFT::Vernaux;
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using Elf_Versym = typename ELFT::Versym;
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using Elf_Hash = typename ELFT::Hash;
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using Elf_GnuHash = typename ELFT::GnuHash;
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using Elf_Nhdr = typename ELFT::Nhdr;
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using Elf_Note = typename ELFT::Note;
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using Elf_Note_Iterator = typename ELFT::NoteIterator;
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using Elf_Dyn_Range = typename ELFT::DynRange;
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using Elf_Shdr_Range = typename ELFT::ShdrRange;
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using Elf_Sym_Range = typename ELFT::SymRange;
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using Elf_Rel_Range = typename ELFT::RelRange;
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using Elf_Rela_Range = typename ELFT::RelaRange;
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using Elf_Relr_Range = typename ELFT::RelrRange;
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using Elf_Phdr_Range = typename ELFT::PhdrRange;
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// This is a callback that can be passed to a number of functions.
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// It can be used to ignore non-critical errors (warnings), which is
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// useful for dumpers, like llvm-readobj.
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// It accepts a warning message string and returns a success
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// when the warning should be ignored or an error otherwise.
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using WarningHandler = llvm::function_ref<Error(const Twine &Msg)>;
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const uint8_t *base() const { return Buf.bytes_begin(); }
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size_t getBufSize() const { return Buf.size(); }
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private:
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StringRef Buf;
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ELFFile(StringRef Object);
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public:
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const Elf_Ehdr &getHeader() const {
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return *reinterpret_cast<const Elf_Ehdr *>(base());
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}
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template <typename T>
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Expected<const T *> getEntry(uint32_t Section, uint32_t Entry) const;
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template <typename T>
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Expected<const T *> getEntry(const Elf_Shdr &Section, uint32_t Entry) const;
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Expected<StringRef>
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getStringTable(const Elf_Shdr &Section,
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WarningHandler WarnHandler = &defaultWarningHandler) const;
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Expected<StringRef> getStringTableForSymtab(const Elf_Shdr &Section) const;
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Expected<StringRef> getStringTableForSymtab(const Elf_Shdr &Section,
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Elf_Shdr_Range Sections) const;
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Expected<ArrayRef<Elf_Word>> getSHNDXTable(const Elf_Shdr &Section) const;
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Expected<ArrayRef<Elf_Word>> getSHNDXTable(const Elf_Shdr &Section,
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Elf_Shdr_Range Sections) const;
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StringRef getRelocationTypeName(uint32_t Type) const;
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void getRelocationTypeName(uint32_t Type,
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SmallVectorImpl<char> &Result) const;
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uint32_t getRelativeRelocationType() const;
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std::string getDynamicTagAsString(unsigned Arch, uint64_t Type) const;
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std::string getDynamicTagAsString(uint64_t Type) const;
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/// Get the symbol for a given relocation.
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Expected<const Elf_Sym *> getRelocationSymbol(const Elf_Rel &Rel,
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const Elf_Shdr *SymTab) const;
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static Expected<ELFFile> create(StringRef Object);
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bool isLE() const {
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return getHeader().getDataEncoding() == ELF::ELFDATA2LSB;
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}
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bool isMipsELF64() const {
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return getHeader().e_machine == ELF::EM_MIPS &&
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getHeader().getFileClass() == ELF::ELFCLASS64;
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}
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bool isMips64EL() const { return isMipsELF64() && isLE(); }
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Expected<Elf_Shdr_Range> sections() const;
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Expected<Elf_Dyn_Range> dynamicEntries() const;
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Expected<const uint8_t *>
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toMappedAddr(uint64_t VAddr,
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WarningHandler WarnHandler = &defaultWarningHandler) const;
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Expected<Elf_Sym_Range> symbols(const Elf_Shdr *Sec) const {
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if (!Sec)
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return makeArrayRef<Elf_Sym>(nullptr, nullptr);
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return getSectionContentsAsArray<Elf_Sym>(*Sec);
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}
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Expected<Elf_Rela_Range> relas(const Elf_Shdr &Sec) const {
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return getSectionContentsAsArray<Elf_Rela>(Sec);
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}
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Expected<Elf_Rel_Range> rels(const Elf_Shdr &Sec) const {
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return getSectionContentsAsArray<Elf_Rel>(Sec);
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}
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Expected<Elf_Relr_Range> relrs(const Elf_Shdr &Sec) const {
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return getSectionContentsAsArray<Elf_Relr>(Sec);
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}
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std::vector<Elf_Rel> decode_relrs(Elf_Relr_Range relrs) const;
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Expected<std::vector<Elf_Rela>> android_relas(const Elf_Shdr &Sec) const;
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/// Iterate over program header table.
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Expected<Elf_Phdr_Range> program_headers() const {
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if (getHeader().e_phnum && getHeader().e_phentsize != sizeof(Elf_Phdr))
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return createError("invalid e_phentsize: " +
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Twine(getHeader().e_phentsize));
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uint64_t HeadersSize =
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(uint64_t)getHeader().e_phnum * getHeader().e_phentsize;
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uint64_t PhOff = getHeader().e_phoff;
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if (PhOff + HeadersSize < PhOff || PhOff + HeadersSize > getBufSize())
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return createError("program headers are longer than binary of size " +
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Twine(getBufSize()) + ": e_phoff = 0x" +
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Twine::utohexstr(getHeader().e_phoff) +
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", e_phnum = " + Twine(getHeader().e_phnum) +
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", e_phentsize = " + Twine(getHeader().e_phentsize));
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auto *Begin = reinterpret_cast<const Elf_Phdr *>(base() + PhOff);
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return makeArrayRef(Begin, Begin + getHeader().e_phnum);
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}
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/// Get an iterator over notes in a program header.
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///
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/// The program header must be of type \c PT_NOTE.
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///
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/// \param Phdr the program header to iterate over.
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/// \param Err [out] an error to support fallible iteration, which should
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/// be checked after iteration ends.
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Elf_Note_Iterator notes_begin(const Elf_Phdr &Phdr, Error &Err) const {
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assert(Phdr.p_type == ELF::PT_NOTE && "Phdr is not of type PT_NOTE");
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ErrorAsOutParameter ErrAsOutParam(&Err);
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if (Phdr.p_offset + Phdr.p_filesz > getBufSize()) {
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Err =
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createError("invalid offset (0x" + Twine::utohexstr(Phdr.p_offset) +
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") or size (0x" + Twine::utohexstr(Phdr.p_filesz) + ")");
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return Elf_Note_Iterator(Err);
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}
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return Elf_Note_Iterator(base() + Phdr.p_offset, Phdr.p_filesz, Err);
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}
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/// Get an iterator over notes in a section.
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///
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/// The section must be of type \c SHT_NOTE.
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///
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/// \param Shdr the section to iterate over.
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/// \param Err [out] an error to support fallible iteration, which should
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/// be checked after iteration ends.
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Elf_Note_Iterator notes_begin(const Elf_Shdr &Shdr, Error &Err) const {
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assert(Shdr.sh_type == ELF::SHT_NOTE && "Shdr is not of type SHT_NOTE");
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ErrorAsOutParameter ErrAsOutParam(&Err);
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if (Shdr.sh_offset + Shdr.sh_size > getBufSize()) {
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Err =
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createError("invalid offset (0x" + Twine::utohexstr(Shdr.sh_offset) +
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") or size (0x" + Twine::utohexstr(Shdr.sh_size) + ")");
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return Elf_Note_Iterator(Err);
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}
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return Elf_Note_Iterator(base() + Shdr.sh_offset, Shdr.sh_size, Err);
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}
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/// Get the end iterator for notes.
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Elf_Note_Iterator notes_end() const {
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return Elf_Note_Iterator();
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}
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/// Get an iterator range over notes of a program header.
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///
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/// The program header must be of type \c PT_NOTE.
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///
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/// \param Phdr the program header to iterate over.
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/// \param Err [out] an error to support fallible iteration, which should
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/// be checked after iteration ends.
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iterator_range<Elf_Note_Iterator> notes(const Elf_Phdr &Phdr,
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Error &Err) const {
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return make_range(notes_begin(Phdr, Err), notes_end());
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}
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/// Get an iterator range over notes of a section.
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///
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/// The section must be of type \c SHT_NOTE.
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///
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/// \param Shdr the section to iterate over.
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/// \param Err [out] an error to support fallible iteration, which should
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/// be checked after iteration ends.
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iterator_range<Elf_Note_Iterator> notes(const Elf_Shdr &Shdr,
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Error &Err) const {
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return make_range(notes_begin(Shdr, Err), notes_end());
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}
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Expected<StringRef> getSectionStringTable(
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Elf_Shdr_Range Sections,
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WarningHandler WarnHandler = &defaultWarningHandler) const;
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Expected<uint32_t> getSectionIndex(const Elf_Sym &Sym, Elf_Sym_Range Syms,
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ArrayRef<Elf_Word> ShndxTable) const;
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Expected<const Elf_Shdr *> getSection(const Elf_Sym &Sym,
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const Elf_Shdr *SymTab,
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ArrayRef<Elf_Word> ShndxTable) const;
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Expected<const Elf_Shdr *> getSection(const Elf_Sym &Sym,
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Elf_Sym_Range Symtab,
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ArrayRef<Elf_Word> ShndxTable) const;
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Expected<const Elf_Shdr *> getSection(uint32_t Index) const;
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Expected<const Elf_Sym *> getSymbol(const Elf_Shdr *Sec,
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uint32_t Index) const;
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Expected<StringRef>
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getSectionName(const Elf_Shdr &Section,
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WarningHandler WarnHandler = &defaultWarningHandler) const;
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Expected<StringRef> getSectionName(const Elf_Shdr &Section,
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StringRef DotShstrtab) const;
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template <typename T>
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Expected<ArrayRef<T>> getSectionContentsAsArray(const Elf_Shdr &Sec) const;
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Expected<ArrayRef<uint8_t>> getSectionContents(const Elf_Shdr &Sec) const;
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Expected<ArrayRef<uint8_t>> getSegmentContents(const Elf_Phdr &Phdr) const;
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};
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using ELF32LEFile = ELFFile<ELF32LE>;
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using ELF64LEFile = ELFFile<ELF64LE>;
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using ELF32BEFile = ELFFile<ELF32BE>;
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using ELF64BEFile = ELFFile<ELF64BE>;
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template <class ELFT>
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inline Expected<const typename ELFT::Shdr *>
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getSection(typename ELFT::ShdrRange Sections, uint32_t Index) {
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if (Index >= Sections.size())
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return createError("invalid section index: " + Twine(Index));
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return &Sections[Index];
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}
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template <class ELFT>
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inline Expected<uint32_t>
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getExtendedSymbolTableIndex(const typename ELFT::Sym &Sym, unsigned SymIndex,
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ArrayRef<typename ELFT::Word> ShndxTable) {
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assert(Sym.st_shndx == ELF::SHN_XINDEX);
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if (SymIndex >= ShndxTable.size())
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return createError(
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"extended symbol index (" + Twine(SymIndex) +
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") is past the end of the SHT_SYMTAB_SHNDX section of size " +
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Twine(ShndxTable.size()));
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// The size of the table was checked in getSHNDXTable.
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return ShndxTable[SymIndex];
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}
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template <class ELFT>
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Expected<uint32_t>
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ELFFile<ELFT>::getSectionIndex(const Elf_Sym &Sym, Elf_Sym_Range Syms,
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ArrayRef<Elf_Word> ShndxTable) const {
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uint32_t Index = Sym.st_shndx;
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if (Index == ELF::SHN_XINDEX) {
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Expected<uint32_t> ErrorOrIndex =
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getExtendedSymbolTableIndex<ELFT>(Sym, &Sym - Syms.begin(), ShndxTable);
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if (!ErrorOrIndex)
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return ErrorOrIndex.takeError();
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return *ErrorOrIndex;
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}
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if (Index == ELF::SHN_UNDEF || Index >= ELF::SHN_LORESERVE)
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return 0;
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return Index;
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}
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template <class ELFT>
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Expected<const typename ELFT::Shdr *>
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ELFFile<ELFT>::getSection(const Elf_Sym &Sym, const Elf_Shdr *SymTab,
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ArrayRef<Elf_Word> ShndxTable) const {
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auto SymsOrErr = symbols(SymTab);
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if (!SymsOrErr)
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return SymsOrErr.takeError();
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return getSection(Sym, *SymsOrErr, ShndxTable);
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}
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template <class ELFT>
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Expected<const typename ELFT::Shdr *>
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ELFFile<ELFT>::getSection(const Elf_Sym &Sym, Elf_Sym_Range Symbols,
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ArrayRef<Elf_Word> ShndxTable) const {
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auto IndexOrErr = getSectionIndex(Sym, Symbols, ShndxTable);
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if (!IndexOrErr)
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return IndexOrErr.takeError();
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uint32_t Index = *IndexOrErr;
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if (Index == 0)
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return nullptr;
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return getSection(Index);
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}
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template <class ELFT>
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Expected<const typename ELFT::Sym *>
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ELFFile<ELFT>::getSymbol(const Elf_Shdr *Sec, uint32_t Index) const {
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auto SymsOrErr = symbols(Sec);
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if (!SymsOrErr)
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return SymsOrErr.takeError();
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Elf_Sym_Range Symbols = *SymsOrErr;
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if (Index >= Symbols.size())
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return createError("unable to get symbol from section " +
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getSecIndexForError(*this, *Sec) +
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": invalid symbol index (" + Twine(Index) + ")");
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return &Symbols[Index];
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}
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template <class ELFT>
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template <typename T>
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Expected<ArrayRef<T>>
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ELFFile<ELFT>::getSectionContentsAsArray(const Elf_Shdr &Sec) const {
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if (Sec.sh_entsize != sizeof(T) && sizeof(T) != 1)
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return createError("section " + getSecIndexForError(*this, Sec) +
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" has an invalid sh_entsize: " + Twine(Sec.sh_entsize));
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uintX_t Offset = Sec.sh_offset;
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uintX_t Size = Sec.sh_size;
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if (Size % sizeof(T))
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return createError("section " + getSecIndexForError(*this, Sec) +
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" has an invalid sh_size (" + Twine(Size) +
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") which is not a multiple of its sh_entsize (" +
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Twine(Sec.sh_entsize) + ")");
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if (std::numeric_limits<uintX_t>::max() - Offset < Size)
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return createError("section " + getSecIndexForError(*this, Sec) +
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" has a sh_offset (0x" + Twine::utohexstr(Offset) +
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") + sh_size (0x" + Twine::utohexstr(Size) +
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") that cannot be represented");
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if (Offset + Size > Buf.size())
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return createError("section " + getSecIndexForError(*this, Sec) +
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" has a sh_offset (0x" + Twine::utohexstr(Offset) +
|
|
") + sh_size (0x" + Twine::utohexstr(Size) +
|
|
") that is greater than the file size (0x" +
|
|
Twine::utohexstr(Buf.size()) + ")");
|
|
|
|
if (Offset % alignof(T))
|
|
// TODO: this error is untested.
|
|
return createError("unaligned data");
|
|
|
|
const T *Start = reinterpret_cast<const T *>(base() + Offset);
|
|
return makeArrayRef(Start, Size / sizeof(T));
|
|
}
|
|
|
|
template <class ELFT>
|
|
Expected<ArrayRef<uint8_t>>
|
|
ELFFile<ELFT>::getSegmentContents(const Elf_Phdr &Phdr) const {
|
|
uintX_t Offset = Phdr.p_offset;
|
|
uintX_t Size = Phdr.p_filesz;
|
|
|
|
if (std::numeric_limits<uintX_t>::max() - Offset < Size)
|
|
return createError("program header " + getPhdrIndexForError(*this, Phdr) +
|
|
" has a p_offset (0x" + Twine::utohexstr(Offset) +
|
|
") + p_filesz (0x" + Twine::utohexstr(Size) +
|
|
") that cannot be represented");
|
|
if (Offset + Size > Buf.size())
|
|
return createError("program header " + getPhdrIndexForError(*this, Phdr) +
|
|
" has a p_offset (0x" + Twine::utohexstr(Offset) +
|
|
") + p_filesz (0x" + Twine::utohexstr(Size) +
|
|
") that is greater than the file size (0x" +
|
|
Twine::utohexstr(Buf.size()) + ")");
|
|
return makeArrayRef(base() + Offset, Size);
|
|
}
|
|
|
|
template <class ELFT>
|
|
Expected<ArrayRef<uint8_t>>
|
|
ELFFile<ELFT>::getSectionContents(const Elf_Shdr &Sec) const {
|
|
return getSectionContentsAsArray<uint8_t>(Sec);
|
|
}
|
|
|
|
template <class ELFT>
|
|
StringRef ELFFile<ELFT>::getRelocationTypeName(uint32_t Type) const {
|
|
return getELFRelocationTypeName(getHeader().e_machine, Type);
|
|
}
|
|
|
|
template <class ELFT>
|
|
void ELFFile<ELFT>::getRelocationTypeName(uint32_t Type,
|
|
SmallVectorImpl<char> &Result) const {
|
|
if (!isMipsELF64()) {
|
|
StringRef Name = getRelocationTypeName(Type);
|
|
Result.append(Name.begin(), Name.end());
|
|
} else {
|
|
// The Mips N64 ABI allows up to three operations to be specified per
|
|
// relocation record. Unfortunately there's no easy way to test for the
|
|
// presence of N64 ELFs as they have no special flag that identifies them
|
|
// as being N64. We can safely assume at the moment that all Mips
|
|
// ELFCLASS64 ELFs are N64. New Mips64 ABIs should provide enough
|
|
// information to disambiguate between old vs new ABIs.
|
|
uint8_t Type1 = (Type >> 0) & 0xFF;
|
|
uint8_t Type2 = (Type >> 8) & 0xFF;
|
|
uint8_t Type3 = (Type >> 16) & 0xFF;
|
|
|
|
// Concat all three relocation type names.
|
|
StringRef Name = getRelocationTypeName(Type1);
|
|
Result.append(Name.begin(), Name.end());
|
|
|
|
Name = getRelocationTypeName(Type2);
|
|
Result.append(1, '/');
|
|
Result.append(Name.begin(), Name.end());
|
|
|
|
Name = getRelocationTypeName(Type3);
|
|
Result.append(1, '/');
|
|
Result.append(Name.begin(), Name.end());
|
|
}
|
|
}
|
|
|
|
template <class ELFT>
|
|
uint32_t ELFFile<ELFT>::getRelativeRelocationType() const {
|
|
return getELFRelativeRelocationType(getHeader().e_machine);
|
|
}
|
|
|
|
template <class ELFT>
|
|
Expected<const typename ELFT::Sym *>
|
|
ELFFile<ELFT>::getRelocationSymbol(const Elf_Rel &Rel,
|
|
const Elf_Shdr *SymTab) const {
|
|
uint32_t Index = Rel.getSymbol(isMips64EL());
|
|
if (Index == 0)
|
|
return nullptr;
|
|
return getEntry<Elf_Sym>(*SymTab, Index);
|
|
}
|
|
|
|
template <class ELFT>
|
|
Expected<StringRef>
|
|
ELFFile<ELFT>::getSectionStringTable(Elf_Shdr_Range Sections,
|
|
WarningHandler WarnHandler) const {
|
|
uint32_t Index = getHeader().e_shstrndx;
|
|
if (Index == ELF::SHN_XINDEX) {
|
|
// If the section name string table section index is greater than
|
|
// or equal to SHN_LORESERVE, then the actual index of the section name
|
|
// string table section is contained in the sh_link field of the section
|
|
// header at index 0.
|
|
if (Sections.empty())
|
|
return createError(
|
|
"e_shstrndx == SHN_XINDEX, but the section header table is empty");
|
|
|
|
Index = Sections[0].sh_link;
|
|
}
|
|
|
|
if (!Index) // no section string table.
|
|
return "";
|
|
if (Index >= Sections.size())
|
|
return createError("section header string table index " + Twine(Index) +
|
|
" does not exist");
|
|
return getStringTable(Sections[Index], WarnHandler);
|
|
}
|
|
|
|
template <class ELFT> ELFFile<ELFT>::ELFFile(StringRef Object) : Buf(Object) {}
|
|
|
|
template <class ELFT>
|
|
Expected<ELFFile<ELFT>> ELFFile<ELFT>::create(StringRef Object) {
|
|
if (sizeof(Elf_Ehdr) > Object.size())
|
|
return createError("invalid buffer: the size (" + Twine(Object.size()) +
|
|
") is smaller than an ELF header (" +
|
|
Twine(sizeof(Elf_Ehdr)) + ")");
|
|
return ELFFile(Object);
|
|
}
|
|
|
|
template <class ELFT>
|
|
Expected<typename ELFT::ShdrRange> ELFFile<ELFT>::sections() const {
|
|
const uintX_t SectionTableOffset = getHeader().e_shoff;
|
|
if (SectionTableOffset == 0)
|
|
return ArrayRef<Elf_Shdr>();
|
|
|
|
if (getHeader().e_shentsize != sizeof(Elf_Shdr))
|
|
return createError("invalid e_shentsize in ELF header: " +
|
|
Twine(getHeader().e_shentsize));
|
|
|
|
const uint64_t FileSize = Buf.size();
|
|
if (SectionTableOffset + sizeof(Elf_Shdr) > FileSize ||
|
|
SectionTableOffset + (uintX_t)sizeof(Elf_Shdr) < SectionTableOffset)
|
|
return createError(
|
|
"section header table goes past the end of the file: e_shoff = 0x" +
|
|
Twine::utohexstr(SectionTableOffset));
|
|
|
|
// Invalid address alignment of section headers
|
|
if (SectionTableOffset & (alignof(Elf_Shdr) - 1))
|
|
// TODO: this error is untested.
|
|
return createError("invalid alignment of section headers");
|
|
|
|
const Elf_Shdr *First =
|
|
reinterpret_cast<const Elf_Shdr *>(base() + SectionTableOffset);
|
|
|
|
uintX_t NumSections = getHeader().e_shnum;
|
|
if (NumSections == 0)
|
|
NumSections = First->sh_size;
|
|
|
|
if (NumSections > UINT64_MAX / sizeof(Elf_Shdr))
|
|
return createError("invalid number of sections specified in the NULL "
|
|
"section's sh_size field (" +
|
|
Twine(NumSections) + ")");
|
|
|
|
const uint64_t SectionTableSize = NumSections * sizeof(Elf_Shdr);
|
|
if (SectionTableOffset + SectionTableSize < SectionTableOffset)
|
|
return createError(
|
|
"invalid section header table offset (e_shoff = 0x" +
|
|
Twine::utohexstr(SectionTableOffset) +
|
|
") or invalid number of sections specified in the first section "
|
|
"header's sh_size field (0x" +
|
|
Twine::utohexstr(NumSections) + ")");
|
|
|
|
// Section table goes past end of file!
|
|
if (SectionTableOffset + SectionTableSize > FileSize)
|
|
return createError("section table goes past the end of file");
|
|
return makeArrayRef(First, NumSections);
|
|
}
|
|
|
|
template <class ELFT>
|
|
template <typename T>
|
|
Expected<const T *> ELFFile<ELFT>::getEntry(uint32_t Section,
|
|
uint32_t Entry) const {
|
|
auto SecOrErr = getSection(Section);
|
|
if (!SecOrErr)
|
|
return SecOrErr.takeError();
|
|
return getEntry<T>(**SecOrErr, Entry);
|
|
}
|
|
|
|
template <class ELFT>
|
|
template <typename T>
|
|
Expected<const T *> ELFFile<ELFT>::getEntry(const Elf_Shdr &Section,
|
|
uint32_t Entry) const {
|
|
if (sizeof(T) != Section.sh_entsize)
|
|
return createError("section " + getSecIndexForError(*this, Section) +
|
|
" has invalid sh_entsize: expected " + Twine(sizeof(T)) +
|
|
", but got " + Twine(Section.sh_entsize));
|
|
uint64_t Pos = Section.sh_offset + (uint64_t)Entry * sizeof(T);
|
|
if (Pos + sizeof(T) > Buf.size())
|
|
return createError("unable to access section " +
|
|
getSecIndexForError(*this, Section) + " data at 0x" +
|
|
Twine::utohexstr(Pos) +
|
|
": offset goes past the end of file");
|
|
return reinterpret_cast<const T *>(base() + Pos);
|
|
}
|
|
|
|
template <class ELFT>
|
|
Expected<const typename ELFT::Shdr *>
|
|
ELFFile<ELFT>::getSection(uint32_t Index) const {
|
|
auto TableOrErr = sections();
|
|
if (!TableOrErr)
|
|
return TableOrErr.takeError();
|
|
return object::getSection<ELFT>(*TableOrErr, Index);
|
|
}
|
|
|
|
template <class ELFT>
|
|
Expected<StringRef>
|
|
ELFFile<ELFT>::getStringTable(const Elf_Shdr &Section,
|
|
WarningHandler WarnHandler) const {
|
|
if (Section.sh_type != ELF::SHT_STRTAB)
|
|
if (Error E = WarnHandler("invalid sh_type for string table section " +
|
|
getSecIndexForError(*this, Section) +
|
|
": expected SHT_STRTAB, but got " +
|
|
object::getELFSectionTypeName(
|
|
getHeader().e_machine, Section.sh_type)))
|
|
return std::move(E);
|
|
|
|
auto V = getSectionContentsAsArray<char>(Section);
|
|
if (!V)
|
|
return V.takeError();
|
|
ArrayRef<char> Data = *V;
|
|
if (Data.empty())
|
|
return createError("SHT_STRTAB string table section " +
|
|
getSecIndexForError(*this, Section) + " is empty");
|
|
if (Data.back() != '\0')
|
|
return createError("SHT_STRTAB string table section " +
|
|
getSecIndexForError(*this, Section) +
|
|
" is non-null terminated");
|
|
return StringRef(Data.begin(), Data.size());
|
|
}
|
|
|
|
template <class ELFT>
|
|
Expected<ArrayRef<typename ELFT::Word>>
|
|
ELFFile<ELFT>::getSHNDXTable(const Elf_Shdr &Section) const {
|
|
auto SectionsOrErr = sections();
|
|
if (!SectionsOrErr)
|
|
return SectionsOrErr.takeError();
|
|
return getSHNDXTable(Section, *SectionsOrErr);
|
|
}
|
|
|
|
template <class ELFT>
|
|
Expected<ArrayRef<typename ELFT::Word>>
|
|
ELFFile<ELFT>::getSHNDXTable(const Elf_Shdr &Section,
|
|
Elf_Shdr_Range Sections) const {
|
|
assert(Section.sh_type == ELF::SHT_SYMTAB_SHNDX);
|
|
auto VOrErr = getSectionContentsAsArray<Elf_Word>(Section);
|
|
if (!VOrErr)
|
|
return VOrErr.takeError();
|
|
ArrayRef<Elf_Word> V = *VOrErr;
|
|
auto SymTableOrErr = object::getSection<ELFT>(Sections, Section.sh_link);
|
|
if (!SymTableOrErr)
|
|
return SymTableOrErr.takeError();
|
|
const Elf_Shdr &SymTable = **SymTableOrErr;
|
|
if (SymTable.sh_type != ELF::SHT_SYMTAB &&
|
|
SymTable.sh_type != ELF::SHT_DYNSYM)
|
|
return createError(
|
|
"SHT_SYMTAB_SHNDX section is linked with " +
|
|
object::getELFSectionTypeName(getHeader().e_machine, SymTable.sh_type) +
|
|
" section (expected SHT_SYMTAB/SHT_DYNSYM)");
|
|
|
|
uint64_t Syms = SymTable.sh_size / sizeof(Elf_Sym);
|
|
if (V.size() != Syms)
|
|
return createError("SHT_SYMTAB_SHNDX has " + Twine(V.size()) +
|
|
" entries, but the symbol table associated has " +
|
|
Twine(Syms));
|
|
|
|
return V;
|
|
}
|
|
|
|
template <class ELFT>
|
|
Expected<StringRef>
|
|
ELFFile<ELFT>::getStringTableForSymtab(const Elf_Shdr &Sec) const {
|
|
auto SectionsOrErr = sections();
|
|
if (!SectionsOrErr)
|
|
return SectionsOrErr.takeError();
|
|
return getStringTableForSymtab(Sec, *SectionsOrErr);
|
|
}
|
|
|
|
template <class ELFT>
|
|
Expected<StringRef>
|
|
ELFFile<ELFT>::getStringTableForSymtab(const Elf_Shdr &Sec,
|
|
Elf_Shdr_Range Sections) const {
|
|
|
|
if (Sec.sh_type != ELF::SHT_SYMTAB && Sec.sh_type != ELF::SHT_DYNSYM)
|
|
return createError(
|
|
"invalid sh_type for symbol table, expected SHT_SYMTAB or SHT_DYNSYM");
|
|
Expected<const Elf_Shdr *> SectionOrErr =
|
|
object::getSection<ELFT>(Sections, Sec.sh_link);
|
|
if (!SectionOrErr)
|
|
return SectionOrErr.takeError();
|
|
return getStringTable(**SectionOrErr);
|
|
}
|
|
|
|
template <class ELFT>
|
|
Expected<StringRef>
|
|
ELFFile<ELFT>::getSectionName(const Elf_Shdr &Section,
|
|
WarningHandler WarnHandler) const {
|
|
auto SectionsOrErr = sections();
|
|
if (!SectionsOrErr)
|
|
return SectionsOrErr.takeError();
|
|
auto Table = getSectionStringTable(*SectionsOrErr, WarnHandler);
|
|
if (!Table)
|
|
return Table.takeError();
|
|
return getSectionName(Section, *Table);
|
|
}
|
|
|
|
template <class ELFT>
|
|
Expected<StringRef> ELFFile<ELFT>::getSectionName(const Elf_Shdr &Section,
|
|
StringRef DotShstrtab) const {
|
|
uint32_t Offset = Section.sh_name;
|
|
if (Offset == 0)
|
|
return StringRef();
|
|
if (Offset >= DotShstrtab.size())
|
|
return createError("a section " + getSecIndexForError(*this, Section) +
|
|
" has an invalid sh_name (0x" +
|
|
Twine::utohexstr(Offset) +
|
|
") offset which goes past the end of the "
|
|
"section name string table");
|
|
return StringRef(DotShstrtab.data() + Offset);
|
|
}
|
|
|
|
/// This function returns the hash value for a symbol in the .dynsym section
|
|
/// Name of the API remains consistent as specified in the libelf
|
|
/// REF : http://www.sco.com/developers/gabi/latest/ch5.dynamic.html#hash
|
|
inline unsigned hashSysV(StringRef SymbolName) {
|
|
unsigned h = 0, g;
|
|
for (char C : SymbolName) {
|
|
h = (h << 4) + C;
|
|
g = h & 0xf0000000L;
|
|
if (g != 0)
|
|
h ^= g >> 24;
|
|
h &= ~g;
|
|
}
|
|
return h;
|
|
}
|
|
|
|
} // end namespace object
|
|
} // end namespace llvm
|
|
|
|
#endif // LLVM_OBJECT_ELF_H
|