llvm-project/lld/ELF/Config.h

268 lines
7.6 KiB
C++

//===- Config.h -------------------------------------------------*- C++ -*-===//
//
// The LLVM Linker
//
// This file is distributed under the University of Illinois Open Source
// License. See LICENSE.TXT for details.
//
//===----------------------------------------------------------------------===//
#ifndef LLD_ELF_CONFIG_H
#define LLD_ELF_CONFIG_H
#include "lld/Common/ErrorHandler.h"
#include "llvm/ADT/MapVector.h"
#include "llvm/ADT/StringRef.h"
#include "llvm/ADT/StringSet.h"
#include "llvm/BinaryFormat/ELF.h"
#include "llvm/Support/CachePruning.h"
#include "llvm/Support/CodeGen.h"
#include "llvm/Support/Endian.h"
#include <vector>
namespace lld {
namespace elf {
class InputFile;
class InputSectionBase;
enum ELFKind {
ELFNoneKind,
ELF32LEKind,
ELF32BEKind,
ELF64LEKind,
ELF64BEKind
};
// For --build-id.
enum class BuildIdKind { None, Fast, Md5, Sha1, Hexstring, Uuid };
// For --discard-{all,locals,none}.
enum class DiscardPolicy { Default, All, Locals, None };
// For --strip-{all,debug}.
enum class StripPolicy { None, All, Debug };
// For --unresolved-symbols.
enum class UnresolvedPolicy { ReportError, Warn, Ignore, IgnoreAll };
// For --orphan-handling.
enum class OrphanHandlingPolicy { Place, Warn, Error };
// For --sort-section and linkerscript sorting rules.
enum class SortSectionPolicy { Default, None, Alignment, Name, Priority };
// For --target2
enum class Target2Policy { Abs, Rel, GotRel };
struct SymbolVersion {
llvm::StringRef Name;
bool IsExternCpp;
bool HasWildcard;
};
// This struct contains symbols version definition that
// can be found in version script if it is used for link.
struct VersionDefinition {
llvm::StringRef Name;
uint16_t Id = 0;
std::vector<SymbolVersion> Globals;
size_t NameOff = 0; // Offset in the string table
};
// This struct contains the global configuration for the linker.
// Most fields are direct mapping from the command line options
// and such fields have the same name as the corresponding options.
// Most fields are initialized by the driver.
struct Configuration {
uint8_t OSABI = 0;
llvm::CachePruningPolicy ThinLTOCachePolicy;
llvm::StringMap<uint64_t> SectionStartMap;
llvm::StringRef Chroot;
llvm::StringRef DynamicLinker;
llvm::StringRef Entry;
llvm::StringRef Emulation;
llvm::StringRef Fini;
llvm::StringRef Init;
llvm::StringRef LTOAAPipeline;
llvm::StringRef LTONewPmPasses;
llvm::StringRef LTOSampleProfile;
llvm::StringRef MapFile;
llvm::StringRef OutputFile;
llvm::StringRef OptRemarksFilename;
llvm::StringRef ProgName;
llvm::StringRef SoName;
llvm::StringRef Sysroot;
llvm::StringRef ThinLTOCacheDir;
llvm::StringRef ThinLTOIndexOnlyObjectsFile;
llvm::StringRef ThinLTOPrefixReplace;
std::string Rpath;
std::vector<VersionDefinition> VersionDefinitions;
std::vector<llvm::StringRef> AuxiliaryList;
std::vector<llvm::StringRef> FilterList;
std::vector<llvm::StringRef> SearchPaths;
std::vector<llvm::StringRef> SymbolOrderingFile;
std::vector<llvm::StringRef> Undefined;
std::vector<SymbolVersion> DynamicList;
std::vector<SymbolVersion> VersionScriptGlobals;
std::vector<SymbolVersion> VersionScriptLocals;
std::vector<uint8_t> BuildIdVector;
llvm::MapVector<std::pair<const InputSectionBase *, const InputSectionBase *>,
uint64_t>
CallGraphProfile;
bool AllowMultipleDefinition;
bool AndroidPackDynRelocs = false;
bool ARMHasBlx = false;
bool ARMHasMovtMovw = false;
bool ARMJ1J2BranchEncoding = false;
bool AsNeeded = false;
bool Bsymbolic;
bool BsymbolicFunctions;
bool CheckSections;
bool CompressDebugSections;
bool Cref;
bool DefineCommon;
bool Demangle = true;
bool DisableVerify;
bool EhFrameHdr;
bool EmitRelocs;
bool EnableNewDtags;
bool ExportDynamic;
bool FixCortexA53Errata843419;
bool GcSections;
bool GdbIndex;
bool GnuHash = false;
bool GnuUnique;
bool HasDynamicList = false;
bool HasDynSymTab;
bool ICF;
bool IgnoreDataAddressEquality;
bool IgnoreFunctionAddressEquality;
bool LTODebugPassManager;
bool LTONewPassManager;
bool MergeArmExidx;
bool MipsN32Abi = false;
bool NoinhibitExec;
bool Nostdlib;
bool OFormatBinary;
bool Omagic;
bool OptRemarksWithHotness;
bool Pie;
bool PrintGcSections;
bool PrintIcfSections;
bool Relocatable;
bool SaveTemps;
bool SingleRoRx;
bool Shared;
bool Static = false;
bool SysvHash = false;
bool Target1Rel;
bool Trace;
bool ThinLTOIndexOnly;
bool UndefinedVersion;
bool WarnBackrefs;
bool WarnCommon;
bool WarnMissingEntry;
bool WarnSymbolOrdering;
bool WriteAddends;
bool ZCombreloc;
bool ZCopyreloc;
bool ZExecstack;
bool ZHazardplt;
bool ZNodelete;
bool ZNodlopen;
bool ZNow;
bool ZOrigin;
bool ZRelro;
bool ZRodynamic;
bool ZText;
bool ZRetpolineplt;
bool ZWxneeded;
DiscardPolicy Discard;
OrphanHandlingPolicy OrphanHandling;
SortSectionPolicy SortSection;
StripPolicy Strip;
UnresolvedPolicy UnresolvedSymbols;
Target2Policy Target2;
BuildIdKind BuildId = BuildIdKind::None;
ELFKind EKind = ELFNoneKind;
uint16_t DefaultSymbolVersion = llvm::ELF::VER_NDX_GLOBAL;
uint16_t EMachine = llvm::ELF::EM_NONE;
llvm::Optional<uint64_t> ImageBase;
uint64_t MaxPageSize;
uint64_t ZStackSize;
unsigned LTOPartitions;
unsigned LTOO;
unsigned Optimize;
unsigned ThinLTOJobs;
// The following config options do not directly correspond to any
// particualr command line options.
// True if we need to pass through relocations in input files to the
// output file. Usually false because we consume relocations.
bool CopyRelocs;
// True if the target is ELF64. False if ELF32.
bool Is64;
// True if the target is little-endian. False if big-endian.
bool IsLE;
// endianness::little if IsLE is true. endianness::big otherwise.
llvm::support::endianness Endianness;
// True if the target is the little-endian MIPS64.
//
// The reason why we have this variable only for the MIPS is because
// we use this often. Some ELF headers for MIPS64EL are in a
// mixed-endian (which is horrible and I'd say that's a serious spec
// bug), and we need to know whether we are reading MIPS ELF files or
// not in various places.
//
// (Note that MIPS64EL is not a typo for MIPS64LE. This is the official
// name whatever that means. A fun hypothesis is that "EL" is short for
// little-endian written in the little-endian order, but I don't know
// if that's true.)
bool IsMips64EL;
// Holds set of ELF header flags for the target.
uint32_t EFlags = 0;
// The ELF spec defines two types of relocation table entries, RELA and
// REL. RELA is a triplet of (offset, info, addend) while REL is a
// tuple of (offset, info). Addends for REL are implicit and read from
// the location where the relocations are applied. So, REL is more
// compact than RELA but requires a bit of more work to process.
//
// (From the linker writer's view, this distinction is not necessary.
// If the ELF had chosen whichever and sticked with it, it would have
// been easier to write code to process relocations, but it's too late
// to change the spec.)
//
// Each ABI defines its relocation type. IsRela is true if target
// uses RELA. As far as we know, all 64-bit ABIs are using RELA. A
// few 32-bit ABIs are using RELA too.
bool IsRela;
// True if we are creating position-independent code.
bool Pic;
// 4 for ELF32, 8 for ELF64.
int Wordsize;
};
// The only instance of Configuration struct.
extern Configuration *Config;
static inline void errorOrWarn(const Twine &Msg) {
if (!Config->NoinhibitExec)
error(Msg);
else
warn(Msg);
}
} // namespace elf
} // namespace lld
#endif