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2c693415b7
Now that we've moved to C++14, we no longer need the llvm::make_unique implementation from STLExtras.h. This patch is a mechanical replacement of (hopefully) all the llvm::make_unique instances across the monorepo. llvm-svn: 369013
392 lines
13 KiB
C++
392 lines
13 KiB
C++
//===- ELFObjHandler.cpp --------------------------------------------------===//
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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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#include "ELFObjHandler.h"
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#include "llvm/Object/Binary.h"
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#include "llvm/Object/ELFObjectFile.h"
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#include "llvm/Object/ELFTypes.h"
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#include "llvm/Support/Errc.h"
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#include "llvm/Support/Error.h"
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#include "llvm/Support/MemoryBuffer.h"
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#include "llvm/TextAPI/ELF/ELFStub.h"
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using llvm::MemoryBufferRef;
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using llvm::object::ELFObjectFile;
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using namespace llvm;
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using namespace llvm::object;
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using namespace llvm::ELF;
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namespace llvm {
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namespace elfabi {
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// Simple struct to hold relevant .dynamic entries.
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struct DynamicEntries {
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uint64_t StrTabAddr = 0;
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uint64_t StrSize = 0;
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Optional<uint64_t> SONameOffset;
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std::vector<uint64_t> NeededLibNames;
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// Symbol table:
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uint64_t DynSymAddr = 0;
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// Hash tables:
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Optional<uint64_t> ElfHash;
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Optional<uint64_t> GnuHash;
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};
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/// This function behaves similarly to StringRef::substr(), but attempts to
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/// terminate the returned StringRef at the first null terminator. If no null
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/// terminator is found, an error is returned.
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///
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/// @param Str Source string to create a substring from.
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/// @param Offset The start index of the desired substring.
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static Expected<StringRef> terminatedSubstr(StringRef Str, size_t Offset) {
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size_t StrEnd = Str.find('\0', Offset);
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if (StrEnd == StringLiteral::npos) {
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return createError(
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"String overran bounds of string table (no null terminator)");
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}
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size_t StrLen = StrEnd - Offset;
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return Str.substr(Offset, StrLen);
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}
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/// This function takes an error, and appends a string of text to the end of
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/// that error. Since "appending" to an Error isn't supported behavior of an
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/// Error, this function technically creates a new error with the combined
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/// message and consumes the old error.
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///
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/// @param Err Source error.
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/// @param After Text to append at the end of Err's error message.
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Error appendToError(Error Err, StringRef After) {
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std::string Message;
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raw_string_ostream Stream(Message);
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Stream << Err;
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Stream << " " << After;
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consumeError(std::move(Err));
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return createError(Stream.str().c_str());
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}
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/// This function populates a DynamicEntries struct using an ELFT::DynRange.
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/// After populating the struct, the members are validated with
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/// some basic sanity checks.
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///
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/// @param Dyn Target DynamicEntries struct to populate.
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/// @param DynTable Source dynamic table.
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template <class ELFT>
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static Error populateDynamic(DynamicEntries &Dyn,
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typename ELFT::DynRange DynTable) {
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if (DynTable.empty())
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return createError("No .dynamic section found");
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// Search .dynamic for relevant entries.
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bool FoundDynStr = false;
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bool FoundDynStrSz = false;
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bool FoundDynSym = false;
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for (auto &Entry : DynTable) {
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switch (Entry.d_tag) {
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case DT_SONAME:
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Dyn.SONameOffset = Entry.d_un.d_val;
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break;
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case DT_STRTAB:
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Dyn.StrTabAddr = Entry.d_un.d_ptr;
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FoundDynStr = true;
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break;
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case DT_STRSZ:
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Dyn.StrSize = Entry.d_un.d_val;
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FoundDynStrSz = true;
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break;
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case DT_NEEDED:
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Dyn.NeededLibNames.push_back(Entry.d_un.d_val);
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break;
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case DT_SYMTAB:
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Dyn.DynSymAddr = Entry.d_un.d_ptr;
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FoundDynSym = true;
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break;
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case DT_HASH:
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Dyn.ElfHash = Entry.d_un.d_ptr;
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break;
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case DT_GNU_HASH:
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Dyn.GnuHash = Entry.d_un.d_ptr;
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}
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}
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if (!FoundDynStr) {
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return createError(
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"Couldn't locate dynamic string table (no DT_STRTAB entry)");
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}
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if (!FoundDynStrSz) {
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return createError(
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"Couldn't determine dynamic string table size (no DT_STRSZ entry)");
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}
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if (!FoundDynSym) {
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return createError(
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"Couldn't locate dynamic symbol table (no DT_SYMTAB entry)");
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}
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if (Dyn.SONameOffset.hasValue() && *Dyn.SONameOffset >= Dyn.StrSize) {
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return createStringError(
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object_error::parse_failed,
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"DT_SONAME string offset (0x%016" PRIx64
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") outside of dynamic string table",
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*Dyn.SONameOffset);
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}
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for (uint64_t Offset : Dyn.NeededLibNames) {
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if (Offset >= Dyn.StrSize) {
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return createStringError(
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object_error::parse_failed,
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"DT_NEEDED string offset (0x%016" PRIx64
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") outside of dynamic string table",
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Offset);
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}
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}
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return Error::success();
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}
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/// This function finds the number of dynamic symbols using a GNU hash table.
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///
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/// @param Table The GNU hash table for .dynsym.
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template <class ELFT>
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static uint64_t getDynSymtabSize(const typename ELFT::GnuHash &Table) {
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using Elf_Word = typename ELFT::Word;
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if (Table.nbuckets == 0)
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return Table.symndx + 1;
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uint64_t LastSymIdx = 0;
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uint64_t BucketVal = 0;
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// Find the index of the first symbol in the last chain.
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for (Elf_Word Val : Table.buckets()) {
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BucketVal = std::max(BucketVal, (uint64_t)Val);
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}
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LastSymIdx += BucketVal;
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const Elf_Word *It =
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reinterpret_cast<const Elf_Word *>(Table.values(BucketVal).end());
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// Locate the end of the chain to find the last symbol index.
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while ((*It & 1) == 0) {
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LastSymIdx++;
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It++;
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}
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return LastSymIdx + 1;
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}
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/// This function determines the number of dynamic symbols.
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/// Without access to section headers, the number of symbols must be determined
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/// by parsing dynamic hash tables.
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///
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/// @param Dyn Entries with the locations of hash tables.
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/// @param ElfFile The ElfFile that the section contents reside in.
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template <class ELFT>
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static Expected<uint64_t> getNumSyms(DynamicEntries &Dyn,
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const ELFFile<ELFT> &ElfFile) {
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using Elf_Hash = typename ELFT::Hash;
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using Elf_GnuHash = typename ELFT::GnuHash;
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// Search GNU hash table to try to find the upper bound of dynsym.
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if (Dyn.GnuHash.hasValue()) {
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Expected<const uint8_t *> TablePtr = ElfFile.toMappedAddr(*Dyn.GnuHash);
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if (!TablePtr)
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return TablePtr.takeError();
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const Elf_GnuHash *Table =
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reinterpret_cast<const Elf_GnuHash *>(TablePtr.get());
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return getDynSymtabSize<ELFT>(*Table);
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}
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// Search SYSV hash table to try to find the upper bound of dynsym.
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if (Dyn.ElfHash.hasValue()) {
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Expected<const uint8_t *> TablePtr = ElfFile.toMappedAddr(*Dyn.ElfHash);
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if (!TablePtr)
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return TablePtr.takeError();
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const Elf_Hash *Table = reinterpret_cast<const Elf_Hash *>(TablePtr.get());
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return Table->nchain;
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}
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return 0;
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}
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/// This function extracts symbol type from a symbol's st_info member and
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/// maps it to an ELFSymbolType enum.
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/// Currently, STT_NOTYPE, STT_OBJECT, STT_FUNC, and STT_TLS are supported.
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/// Other symbol types are mapped to ELFSymbolType::Unknown.
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///
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/// @param Info Binary symbol st_info to extract symbol type from.
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static ELFSymbolType convertInfoToType(uint8_t Info) {
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Info = Info & 0xf;
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switch (Info) {
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case ELF::STT_NOTYPE:
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return ELFSymbolType::NoType;
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case ELF::STT_OBJECT:
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return ELFSymbolType::Object;
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case ELF::STT_FUNC:
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return ELFSymbolType::Func;
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case ELF::STT_TLS:
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return ELFSymbolType::TLS;
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default:
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return ELFSymbolType::Unknown;
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}
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}
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/// This function creates an ELFSymbol and populates all members using
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/// information from a binary ELFT::Sym.
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///
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/// @param SymName The desired name of the ELFSymbol.
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/// @param RawSym ELFT::Sym to extract symbol information from.
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template <class ELFT>
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static ELFSymbol createELFSym(StringRef SymName,
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const typename ELFT::Sym &RawSym) {
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ELFSymbol TargetSym(SymName);
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uint8_t Binding = RawSym.getBinding();
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if (Binding == STB_WEAK)
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TargetSym.Weak = true;
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else
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TargetSym.Weak = false;
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TargetSym.Undefined = RawSym.isUndefined();
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TargetSym.Type = convertInfoToType(RawSym.st_info);
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if (TargetSym.Type == ELFSymbolType::Func) {
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TargetSym.Size = 0;
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} else {
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TargetSym.Size = RawSym.st_size;
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}
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return TargetSym;
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}
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/// This function populates an ELFStub with symbols using information read
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/// from an ELF binary.
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///
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/// @param TargetStub ELFStub to add symbols to.
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/// @param DynSym Range of dynamic symbols to add to TargetStub.
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/// @param DynStr StringRef to the dynamic string table.
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template <class ELFT>
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static Error populateSymbols(ELFStub &TargetStub,
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const typename ELFT::SymRange DynSym,
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StringRef DynStr) {
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// Skips the first symbol since it's the NULL symbol.
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for (auto RawSym : DynSym.drop_front(1)) {
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// If a symbol does not have global or weak binding, ignore it.
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uint8_t Binding = RawSym.getBinding();
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if (!(Binding == STB_GLOBAL || Binding == STB_WEAK))
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continue;
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// If a symbol doesn't have default or protected visibility, ignore it.
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uint8_t Visibility = RawSym.getVisibility();
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if (!(Visibility == STV_DEFAULT || Visibility == STV_PROTECTED))
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continue;
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// Create an ELFSymbol and populate it with information from the symbol
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// table entry.
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Expected<StringRef> SymName = terminatedSubstr(DynStr, RawSym.st_name);
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if (!SymName)
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return SymName.takeError();
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ELFSymbol Sym = createELFSym<ELFT>(*SymName, RawSym);
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TargetStub.Symbols.insert(std::move(Sym));
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// TODO: Populate symbol warning.
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}
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return Error::success();
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}
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/// Returns a new ELFStub with all members populated from an ELFObjectFile.
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/// @param ElfObj Source ELFObjectFile.
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template <class ELFT>
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static Expected<std::unique_ptr<ELFStub>>
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buildStub(const ELFObjectFile<ELFT> &ElfObj) {
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using Elf_Dyn_Range = typename ELFT::DynRange;
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using Elf_Phdr_Range = typename ELFT::PhdrRange;
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using Elf_Sym_Range = typename ELFT::SymRange;
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using Elf_Sym = typename ELFT::Sym;
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std::unique_ptr<ELFStub> DestStub = std::make_unique<ELFStub>();
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const ELFFile<ELFT> *ElfFile = ElfObj.getELFFile();
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// Fetch .dynamic table.
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Expected<Elf_Dyn_Range> DynTable = ElfFile->dynamicEntries();
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if (!DynTable) {
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return DynTable.takeError();
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}
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// Fetch program headers.
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Expected<Elf_Phdr_Range> PHdrs = ElfFile->program_headers();
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if (!PHdrs) {
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return PHdrs.takeError();
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}
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// Collect relevant .dynamic entries.
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DynamicEntries DynEnt;
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if (Error Err = populateDynamic<ELFT>(DynEnt, *DynTable))
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return std::move(Err);
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// Get pointer to in-memory location of .dynstr section.
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Expected<const uint8_t *> DynStrPtr =
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ElfFile->toMappedAddr(DynEnt.StrTabAddr);
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if (!DynStrPtr)
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return appendToError(DynStrPtr.takeError(),
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"when locating .dynstr section contents");
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StringRef DynStr(reinterpret_cast<const char *>(DynStrPtr.get()),
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DynEnt.StrSize);
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// Populate Arch from ELF header.
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DestStub->Arch = ElfFile->getHeader()->e_machine;
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// Populate SoName from .dynamic entries and dynamic string table.
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if (DynEnt.SONameOffset.hasValue()) {
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Expected<StringRef> NameOrErr =
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terminatedSubstr(DynStr, *DynEnt.SONameOffset);
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if (!NameOrErr) {
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return appendToError(NameOrErr.takeError(), "when reading DT_SONAME");
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}
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DestStub->SoName = *NameOrErr;
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}
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// Populate NeededLibs from .dynamic entries and dynamic string table.
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for (uint64_t NeededStrOffset : DynEnt.NeededLibNames) {
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Expected<StringRef> LibNameOrErr =
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terminatedSubstr(DynStr, NeededStrOffset);
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if (!LibNameOrErr) {
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return appendToError(LibNameOrErr.takeError(), "when reading DT_NEEDED");
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}
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DestStub->NeededLibs.push_back(*LibNameOrErr);
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}
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// Populate Symbols from .dynsym table and dynamic string table.
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Expected<uint64_t> SymCount = getNumSyms(DynEnt, *ElfFile);
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if (!SymCount)
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return SymCount.takeError();
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if (*SymCount > 0) {
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// Get pointer to in-memory location of .dynsym section.
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Expected<const uint8_t *> DynSymPtr =
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ElfFile->toMappedAddr(DynEnt.DynSymAddr);
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if (!DynSymPtr)
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return appendToError(DynSymPtr.takeError(),
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"when locating .dynsym section contents");
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Elf_Sym_Range DynSyms =
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ArrayRef<Elf_Sym>(reinterpret_cast<const Elf_Sym *>(*DynSymPtr),
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*SymCount);
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Error SymReadError = populateSymbols<ELFT>(*DestStub, DynSyms, DynStr);
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if (SymReadError)
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return appendToError(std::move(SymReadError),
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"when reading dynamic symbols");
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}
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return std::move(DestStub);
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}
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Expected<std::unique_ptr<ELFStub>> readELFFile(MemoryBufferRef Buf) {
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Expected<std::unique_ptr<Binary>> BinOrErr = createBinary(Buf);
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if (!BinOrErr) {
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return BinOrErr.takeError();
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}
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Binary *Bin = BinOrErr->get();
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if (auto Obj = dyn_cast<ELFObjectFile<ELF32LE>>(Bin)) {
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return buildStub(*Obj);
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} else if (auto Obj = dyn_cast<ELFObjectFile<ELF64LE>>(Bin)) {
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return buildStub(*Obj);
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} else if (auto Obj = dyn_cast<ELFObjectFile<ELF32BE>>(Bin)) {
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return buildStub(*Obj);
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} else if (auto Obj = dyn_cast<ELFObjectFile<ELF64BE>>(Bin)) {
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return buildStub(*Obj);
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}
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return createStringError(errc::not_supported, "Unsupported binary format");
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}
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} // end namespace elfabi
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} // end namespace llvm
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