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- //===- MachOUniversalWriter.cpp - MachO universal binary writer---*- C++-*-===//
- //
- // Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
- // See https://llvm.org/LICENSE.txt for license information.
- // SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
- //
- //===----------------------------------------------------------------------===//
- //
- // Defines the Slice class and writeUniversalBinary function for writing a MachO
- // universal binary file.
- //
- //===----------------------------------------------------------------------===//
- #include "llvm/Object/MachOUniversalWriter.h"
- #include "llvm/ADT/Triple.h"
- #include "llvm/Object/Archive.h"
- #include "llvm/Object/Binary.h"
- #include "llvm/Object/Error.h"
- #include "llvm/Object/IRObjectFile.h"
- #include "llvm/Object/MachO.h"
- #include "llvm/Object/MachOUniversal.h"
- using namespace llvm;
- using namespace object;
- // For compatibility with cctools lipo, a file's alignment is calculated as the
- // minimum aligment of all segments. For object files, the file's alignment is
- // the maximum alignment of its sections.
- static uint32_t calculateFileAlignment(const MachOObjectFile &O) {
- uint32_t P2CurrentAlignment;
- uint32_t P2MinAlignment = MachOUniversalBinary::MaxSectionAlignment;
- const bool Is64Bit = O.is64Bit();
- for (const auto &LC : O.load_commands()) {
- if (LC.C.cmd != (Is64Bit ? MachO::LC_SEGMENT_64 : MachO::LC_SEGMENT))
- continue;
- if (O.getHeader().filetype == MachO::MH_OBJECT) {
- unsigned NumberOfSections =
- (Is64Bit ? O.getSegment64LoadCommand(LC).nsects
- : O.getSegmentLoadCommand(LC).nsects);
- P2CurrentAlignment = NumberOfSections ? 2 : P2MinAlignment;
- for (unsigned SI = 0; SI < NumberOfSections; ++SI) {
- P2CurrentAlignment = std::max(P2CurrentAlignment,
- (Is64Bit ? O.getSection64(LC, SI).align
- : O.getSection(LC, SI).align));
- }
- } else {
- P2CurrentAlignment =
- countTrailingZeros(Is64Bit ? O.getSegment64LoadCommand(LC).vmaddr
- : O.getSegmentLoadCommand(LC).vmaddr);
- }
- P2MinAlignment = std::min(P2MinAlignment, P2CurrentAlignment);
- }
- // return a value >= 4 byte aligned, and less than MachO MaxSectionAlignment
- return std::max(
- static_cast<uint32_t>(2),
- std::min(P2MinAlignment, static_cast<uint32_t>(
- MachOUniversalBinary::MaxSectionAlignment)));
- }
- static uint32_t calculateAlignment(const MachOObjectFile &ObjectFile) {
- switch (ObjectFile.getHeader().cputype) {
- case MachO::CPU_TYPE_I386:
- case MachO::CPU_TYPE_X86_64:
- case MachO::CPU_TYPE_POWERPC:
- case MachO::CPU_TYPE_POWERPC64:
- return 12; // log2 value of page size(4k) for x86 and PPC
- case MachO::CPU_TYPE_ARM:
- case MachO::CPU_TYPE_ARM64:
- case MachO::CPU_TYPE_ARM64_32:
- return 14; // log2 value of page size(16k) for Darwin ARM
- default:
- return calculateFileAlignment(ObjectFile);
- }
- }
- Slice::Slice(const Archive &A, uint32_t CPUType, uint32_t CPUSubType,
- std::string ArchName, uint32_t Align)
- : B(&A), CPUType(CPUType), CPUSubType(CPUSubType),
- ArchName(std::move(ArchName)), P2Alignment(Align) {}
- Slice::Slice(const MachOObjectFile &O, uint32_t Align)
- : B(&O), CPUType(O.getHeader().cputype),
- CPUSubType(O.getHeader().cpusubtype),
- ArchName(std::string(O.getArchTriple().getArchName())),
- P2Alignment(Align) {}
- Slice::Slice(const IRObjectFile &IRO, uint32_t CPUType, uint32_t CPUSubType,
- std::string ArchName, uint32_t Align)
- : B(&IRO), CPUType(CPUType), CPUSubType(CPUSubType),
- ArchName(std::move(ArchName)), P2Alignment(Align) {}
- Slice::Slice(const MachOObjectFile &O) : Slice(O, calculateAlignment(O)) {}
- using MachoCPUTy = std::pair<unsigned, unsigned>;
- static Expected<MachoCPUTy> getMachoCPUFromTriple(Triple TT) {
- auto CPU = std::make_pair(MachO::getCPUType(TT), MachO::getCPUSubType(TT));
- if (!CPU.first) {
- return CPU.first.takeError();
- }
- if (!CPU.second) {
- return CPU.second.takeError();
- }
- return std::make_pair(*CPU.first, *CPU.second);
- }
- static Expected<MachoCPUTy> getMachoCPUFromTriple(StringRef TT) {
- return getMachoCPUFromTriple(Triple{TT});
- }
- Expected<Slice> Slice::create(const Archive &A, LLVMContext *LLVMCtx) {
- Error Err = Error::success();
- std::unique_ptr<MachOObjectFile> MFO = nullptr;
- std::unique_ptr<IRObjectFile> IRFO = nullptr;
- for (const Archive::Child &Child : A.children(Err)) {
- Expected<std::unique_ptr<Binary>> ChildOrErr = Child.getAsBinary(LLVMCtx);
- if (!ChildOrErr)
- return createFileError(A.getFileName(), ChildOrErr.takeError());
- Binary *Bin = ChildOrErr.get().get();
- if (Bin->isMachOUniversalBinary())
- return createStringError(std::errc::invalid_argument,
- ("archive member " + Bin->getFileName() +
- " is a fat file (not allowed in an archive)")
- .str()
- .c_str());
- if (Bin->isMachO()) {
- MachOObjectFile *O = cast<MachOObjectFile>(Bin);
- if (IRFO) {
- return createStringError(
- std::errc::invalid_argument,
- "archive member %s is a MachO, while previous archive member "
- "%s was an IR LLVM object",
- O->getFileName().str().c_str(), IRFO->getFileName().str().c_str());
- }
- if (MFO &&
- std::tie(MFO->getHeader().cputype, MFO->getHeader().cpusubtype) !=
- std::tie(O->getHeader().cputype, O->getHeader().cpusubtype)) {
- return createStringError(
- std::errc::invalid_argument,
- ("archive member " + O->getFileName() + " cputype (" +
- Twine(O->getHeader().cputype) + ") and cpusubtype(" +
- Twine(O->getHeader().cpusubtype) +
- ") does not match previous archive members cputype (" +
- Twine(MFO->getHeader().cputype) + ") and cpusubtype(" +
- Twine(MFO->getHeader().cpusubtype) +
- ") (all members must match) " + MFO->getFileName())
- .str()
- .c_str());
- }
- if (!MFO) {
- ChildOrErr.get().release();
- MFO.reset(O);
- }
- } else if (Bin->isIR()) {
- IRObjectFile *O = cast<IRObjectFile>(Bin);
- if (MFO) {
- return createStringError(std::errc::invalid_argument,
- "archive member '%s' is an LLVM IR object, "
- "while previous archive member "
- "'%s' was a MachO",
- O->getFileName().str().c_str(),
- MFO->getFileName().str().c_str());
- }
- if (IRFO) {
- Expected<MachoCPUTy> CPUO = getMachoCPUFromTriple(O->getTargetTriple());
- Expected<MachoCPUTy> CPUFO =
- getMachoCPUFromTriple(IRFO->getTargetTriple());
- if (!CPUO)
- return CPUO.takeError();
- if (!CPUFO)
- return CPUFO.takeError();
- if (*CPUO != *CPUFO) {
- return createStringError(
- std::errc::invalid_argument,
- ("archive member " + O->getFileName() + " cputype (" +
- Twine(CPUO->first) + ") and cpusubtype(" + Twine(CPUO->second) +
- ") does not match previous archive members cputype (" +
- Twine(CPUFO->first) + ") and cpusubtype(" +
- Twine(CPUFO->second) + ") (all members must match) " +
- IRFO->getFileName())
- .str()
- .c_str());
- }
- } else {
- ChildOrErr.get().release();
- IRFO.reset(O);
- }
- } else
- return createStringError(std::errc::invalid_argument,
- ("archive member " + Bin->getFileName() +
- " is neither a MachO file or an LLVM IR file "
- "(not allowed in an archive)")
- .str()
- .c_str());
- }
- if (Err)
- return createFileError(A.getFileName(), std::move(Err));
- if (!MFO && !IRFO)
- return createStringError(
- std::errc::invalid_argument,
- ("empty archive with no architecture specification: " +
- A.getFileName() + " (can't determine architecture for it)")
- .str()
- .c_str());
- if (MFO) {
- Slice ArchiveSlice(*(MFO.get()), MFO->is64Bit() ? 3 : 2);
- ArchiveSlice.B = &A;
- return ArchiveSlice;
- }
- // For IR objects
- Expected<Slice> ArchiveSliceOrErr = Slice::create(*IRFO, 0);
- if (!ArchiveSliceOrErr)
- return createFileError(A.getFileName(), ArchiveSliceOrErr.takeError());
- auto &ArchiveSlice = ArchiveSliceOrErr.get();
- ArchiveSlice.B = &A;
- return std::move(ArchiveSlice);
- }
- Expected<Slice> Slice::create(const IRObjectFile &IRO, uint32_t Align) {
- Expected<MachoCPUTy> CPUOrErr = getMachoCPUFromTriple(IRO.getTargetTriple());
- if (!CPUOrErr)
- return CPUOrErr.takeError();
- unsigned CPUType, CPUSubType;
- std::tie(CPUType, CPUSubType) = CPUOrErr.get();
- // We don't directly use the architecture name of the target triple T, as,
- // for instance, thumb is treated as ARM by the MachOUniversal object.
- std::string ArchName(
- MachOObjectFile::getArchTriple(CPUType, CPUSubType).getArchName());
- return Slice{IRO, CPUType, CPUSubType, std::move(ArchName), Align};
- }
- static Expected<SmallVector<MachO::fat_arch, 2>>
- buildFatArchList(ArrayRef<Slice> Slices) {
- SmallVector<MachO::fat_arch, 2> FatArchList;
- uint64_t Offset =
- sizeof(MachO::fat_header) + Slices.size() * sizeof(MachO::fat_arch);
- for (const auto &S : Slices) {
- Offset = alignTo(Offset, 1ull << S.getP2Alignment());
- if (Offset > UINT32_MAX)
- return createStringError(
- std::errc::invalid_argument,
- ("fat file too large to be created because the offset "
- "field in struct fat_arch is only 32-bits and the offset " +
- Twine(Offset) + " for " + S.getBinary()->getFileName() +
- " for architecture " + S.getArchString() + "exceeds that.")
- .str()
- .c_str());
- MachO::fat_arch FatArch;
- FatArch.cputype = S.getCPUType();
- FatArch.cpusubtype = S.getCPUSubType();
- FatArch.offset = Offset;
- FatArch.size = S.getBinary()->getMemoryBufferRef().getBufferSize();
- FatArch.align = S.getP2Alignment();
- Offset += FatArch.size;
- FatArchList.push_back(FatArch);
- }
- return FatArchList;
- }
- Error object::writeUniversalBinaryToStream(ArrayRef<Slice> Slices,
- raw_ostream &Out) {
- MachO::fat_header FatHeader;
- FatHeader.magic = MachO::FAT_MAGIC;
- FatHeader.nfat_arch = Slices.size();
- Expected<SmallVector<MachO::fat_arch, 2>> FatArchListOrErr =
- buildFatArchList(Slices);
- if (!FatArchListOrErr)
- return FatArchListOrErr.takeError();
- SmallVector<MachO::fat_arch, 2> FatArchList = *FatArchListOrErr;
- if (sys::IsLittleEndianHost)
- MachO::swapStruct(FatHeader);
- Out.write(reinterpret_cast<const char *>(&FatHeader),
- sizeof(MachO::fat_header));
- if (sys::IsLittleEndianHost)
- for (MachO::fat_arch &FA : FatArchList)
- MachO::swapStruct(FA);
- Out.write(reinterpret_cast<const char *>(FatArchList.data()),
- sizeof(MachO::fat_arch) * FatArchList.size());
- if (sys::IsLittleEndianHost)
- for (MachO::fat_arch &FA : FatArchList)
- MachO::swapStruct(FA);
- size_t Offset =
- sizeof(MachO::fat_header) + sizeof(MachO::fat_arch) * FatArchList.size();
- for (size_t Index = 0, Size = Slices.size(); Index < Size; ++Index) {
- MemoryBufferRef BufferRef = Slices[Index].getBinary()->getMemoryBufferRef();
- assert((Offset <= FatArchList[Index].offset) && "Incorrect slice offset");
- Out.write_zeros(FatArchList[Index].offset - Offset);
- Out.write(BufferRef.getBufferStart(), BufferRef.getBufferSize());
- Offset = FatArchList[Index].offset + BufferRef.getBufferSize();
- }
- Out.flush();
- return Error::success();
- }
- Error object::writeUniversalBinary(ArrayRef<Slice> Slices,
- StringRef OutputFileName) {
- const bool IsExecutable = any_of(Slices, [](Slice S) {
- return sys::fs::can_execute(S.getBinary()->getFileName());
- });
- unsigned Mode = sys::fs::all_read | sys::fs::all_write;
- if (IsExecutable)
- Mode |= sys::fs::all_exe;
- Expected<sys::fs::TempFile> Temp = sys::fs::TempFile::create(
- OutputFileName + ".temp-universal-%%%%%%", Mode);
- if (!Temp)
- return Temp.takeError();
- raw_fd_ostream Out(Temp->FD, false);
- if (Error E = writeUniversalBinaryToStream(Slices, Out)) {
- if (Error DiscardError = Temp->discard())
- return joinErrors(std::move(E), std::move(DiscardError));
- return E;
- }
- return Temp->keep(OutputFileName);
- }
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