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//===- MachOObjcopy.cpp -----------------------------------------*- 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
//
//===----------------------------------------------------------------------===//
#include "llvm/ObjCopy/MachO/MachOObjcopy.h"
#include "Archive.h"
#include "MachOReader.h"
#include "MachOWriter.h"
#include "llvm/ADT/DenseSet.h"
#include "llvm/ObjCopy/CommonConfig.h"
#include "llvm/ObjCopy/MachO/MachOConfig.h"
#include "llvm/ObjCopy/MultiFormatConfig.h"
#include "llvm/ObjCopy/ObjCopy.h"
#include "llvm/Object/ArchiveWriter.h"
#include "llvm/Object/MachOUniversal.h"
#include "llvm/Object/MachOUniversalWriter.h"
#include "llvm/Support/Errc.h"
#include "llvm/Support/Error.h"
#include "llvm/Support/FileOutputBuffer.h"
#include "llvm/Support/Path.h"
#include "llvm/Support/SmallVectorMemoryBuffer.h"
using namespace llvm;
using namespace llvm::objcopy;
using namespace llvm::objcopy::macho;
using namespace llvm::object;
using SectionPred = std::function<bool(const std::unique_ptr<Section> &Sec)>;
using LoadCommandPred = std::function<bool(const LoadCommand &LC)>;
#ifndef NDEBUG
static bool isLoadCommandWithPayloadString(const LoadCommand &LC) {
// TODO: Add support for LC_REEXPORT_DYLIB, LC_LOAD_UPWARD_DYLIB and
// LC_LAZY_LOAD_DYLIB
return LC.MachOLoadCommand.load_command_data.cmd == MachO::LC_RPATH ||
LC.MachOLoadCommand.load_command_data.cmd == MachO::LC_ID_DYLIB ||
LC.MachOLoadCommand.load_command_data.cmd == MachO::LC_LOAD_DYLIB ||
LC.MachOLoadCommand.load_command_data.cmd == MachO::LC_LOAD_WEAK_DYLIB;
}
#endif
static StringRef getPayloadString(const LoadCommand &LC) {
assert(isLoadCommandWithPayloadString(LC) &&
"unsupported load command encountered");
return StringRef(reinterpret_cast<const char *>(LC.Payload.data()),
LC.Payload.size())
.rtrim('\0');
}
static Error removeSections(const CommonConfig &Config, Object &Obj) {
SectionPred RemovePred = [](const std::unique_ptr<Section> &) {
return false;
};
if (!Config.ToRemove.empty()) {
RemovePred = [&Config, RemovePred](const std::unique_ptr<Section> &Sec) {
return Config.ToRemove.matches(Sec->CanonicalName);
};
}
if (Config.StripAll || Config.StripDebug) {
// Remove all debug sections.
RemovePred = [RemovePred](const std::unique_ptr<Section> &Sec) {
if (Sec->Segname == "__DWARF")
return true;
return RemovePred(Sec);
};
}
if (!Config.OnlySection.empty()) {
// Overwrite RemovePred because --only-section takes priority.
RemovePred = [&Config](const std::unique_ptr<Section> &Sec) {
return !Config.OnlySection.matches(Sec->CanonicalName);
};
}
return Obj.removeSections(RemovePred);
}
static void markSymbols(const CommonConfig &, Object &Obj) {
// Symbols referenced from the indirect symbol table must not be removed.
for (IndirectSymbolEntry &ISE : Obj.IndirectSymTable.Symbols)
if (ISE.Symbol)
(*ISE.Symbol)->Referenced = true;
}
static void updateAndRemoveSymbols(const CommonConfig &Config,
const MachOConfig &MachOConfig,
Object &Obj) {
for (SymbolEntry &Sym : Obj.SymTable) {
auto I = Config.SymbolsToRename.find(Sym.Name);
if (I != Config.SymbolsToRename.end())
Sym.Name = std::string(I->getValue());
}
auto RemovePred = [&Config, &MachOConfig,
&Obj](const std::unique_ptr<SymbolEntry> &N) {
if (N->Referenced)
return false;
if (MachOConfig.KeepUndefined && N->isUndefinedSymbol())
return false;
if (N->n_desc & MachO::REFERENCED_DYNAMICALLY)
return false;
if (Config.StripAll)
return true;
if (Config.DiscardMode == DiscardType::All && !(N->n_type & MachO::N_EXT))
return true;
// This behavior is consistent with cctools' strip.
if (MachOConfig.StripSwiftSymbols &&
(Obj.Header.Flags & MachO::MH_DYLDLINK) && Obj.SwiftVersion &&
*Obj.SwiftVersion && N->isSwiftSymbol())
return true;
return false;
};
Obj.SymTable.removeSymbols(RemovePred);
}
template <typename LCType>
static void updateLoadCommandPayloadString(LoadCommand &LC, StringRef S) {
assert(isLoadCommandWithPayloadString(LC) &&
"unsupported load command encountered");
uint32_t NewCmdsize = alignTo(sizeof(LCType) + S.size() + 1, 8);
LC.MachOLoadCommand.load_command_data.cmdsize = NewCmdsize;
LC.Payload.assign(NewCmdsize - sizeof(LCType), 0);
std::copy(S.begin(), S.end(), LC.Payload.begin());
}
static LoadCommand buildRPathLoadCommand(StringRef Path) {
LoadCommand LC;
MachO::rpath_command RPathLC;
RPathLC.cmd = MachO::LC_RPATH;
RPathLC.path = sizeof(MachO::rpath_command);
RPathLC.cmdsize = alignTo(sizeof(MachO::rpath_command) + Path.size() + 1, 8);
LC.MachOLoadCommand.rpath_command_data = RPathLC;
LC.Payload.assign(RPathLC.cmdsize - sizeof(MachO::rpath_command), 0);
std::copy(Path.begin(), Path.end(), LC.Payload.begin());
return LC;
}
static Error processLoadCommands(const MachOConfig &MachOConfig, Object &Obj) {
// Remove RPaths.
DenseSet<StringRef> RPathsToRemove(MachOConfig.RPathsToRemove.begin(),
MachOConfig.RPathsToRemove.end());
LoadCommandPred RemovePred = [&RPathsToRemove,
&MachOConfig](const LoadCommand &LC) {
if (LC.MachOLoadCommand.load_command_data.cmd == MachO::LC_RPATH) {
// When removing all RPaths we don't need to care
// about what it contains
if (MachOConfig.RemoveAllRpaths)
return true;
StringRef RPath = getPayloadString(LC);
if (RPathsToRemove.count(RPath)) {
RPathsToRemove.erase(RPath);
return true;
}
}
return false;
};
if (Error E = Obj.removeLoadCommands(RemovePred))
return E;
// Emit an error if the Mach-O binary does not contain an rpath path name
// specified in -delete_rpath.
for (StringRef RPath : MachOConfig.RPathsToRemove) {
if (RPathsToRemove.count(RPath))
return createStringError(errc::invalid_argument,
"no LC_RPATH load command with path: %s",
RPath.str().c_str());
}
DenseSet<StringRef> RPaths;
// Get all existing RPaths.
for (LoadCommand &LC : Obj.LoadCommands) {
if (LC.MachOLoadCommand.load_command_data.cmd == MachO::LC_RPATH)
RPaths.insert(getPayloadString(LC));
}
// Throw errors for invalid RPaths.
for (const auto &OldNew : MachOConfig.RPathsToUpdate) {
StringRef Old = OldNew.getFirst();
StringRef New = OldNew.getSecond();
if (!RPaths.contains(Old))
return createStringError(errc::invalid_argument,
"no LC_RPATH load command with path: " + Old);
if (RPaths.contains(New))
return createStringError(errc::invalid_argument,
"rpath '" + New +
"' would create a duplicate load command");
}
// Update load commands.
for (LoadCommand &LC : Obj.LoadCommands) {
switch (LC.MachOLoadCommand.load_command_data.cmd) {
case MachO::LC_ID_DYLIB:
if (MachOConfig.SharedLibId)
updateLoadCommandPayloadString<MachO::dylib_command>(
LC, *MachOConfig.SharedLibId);
break;
case MachO::LC_RPATH: {
StringRef RPath = getPayloadString(LC);
StringRef NewRPath = MachOConfig.RPathsToUpdate.lookup(RPath);
if (!NewRPath.empty())
updateLoadCommandPayloadString<MachO::rpath_command>(LC, NewRPath);
break;
}
// TODO: Add LC_REEXPORT_DYLIB, LC_LAZY_LOAD_DYLIB, and LC_LOAD_UPWARD_DYLIB
// here once llvm-objcopy supports them.
case MachO::LC_LOAD_DYLIB:
case MachO::LC_LOAD_WEAK_DYLIB:
StringRef InstallName = getPayloadString(LC);
StringRef NewInstallName =
MachOConfig.InstallNamesToUpdate.lookup(InstallName);
if (!NewInstallName.empty())
updateLoadCommandPayloadString<MachO::dylib_command>(LC,
NewInstallName);
break;
}
}
// Add new RPaths.
for (StringRef RPath : MachOConfig.RPathToAdd) {
if (RPaths.contains(RPath))
return createStringError(errc::invalid_argument,
"rpath '" + RPath +
"' would create a duplicate load command");
RPaths.insert(RPath);
Obj.LoadCommands.push_back(buildRPathLoadCommand(RPath));
}
for (StringRef RPath : MachOConfig.RPathToPrepend) {
if (RPaths.contains(RPath))
return createStringError(errc::invalid_argument,
"rpath '" + RPath +
"' would create a duplicate load command");
RPaths.insert(RPath);
Obj.LoadCommands.insert(Obj.LoadCommands.begin(),
buildRPathLoadCommand(RPath));
}
// Unlike appending rpaths, the indexes of subsequent load commands must
// be recalculated after prepending one.
if (!MachOConfig.RPathToPrepend.empty())
Obj.updateLoadCommandIndexes();
// Remove any empty segments if required.
if (!MachOConfig.EmptySegmentsToRemove.empty()) {
auto RemovePred = [&MachOConfig](const LoadCommand &LC) {
if (LC.MachOLoadCommand.load_command_data.cmd == MachO::LC_SEGMENT_64 ||
LC.MachOLoadCommand.load_command_data.cmd == MachO::LC_SEGMENT) {
return LC.Sections.empty() &&
MachOConfig.EmptySegmentsToRemove.contains(*LC.getSegmentName());
}
return false;
};
if (Error E = Obj.removeLoadCommands(RemovePred))
return E;
}
return Error::success();
}
static Error dumpSectionToFile(StringRef SecName, StringRef Filename,
Object &Obj) {
for (LoadCommand &LC : Obj.LoadCommands)
for (const std::unique_ptr<Section> &Sec : LC.Sections) {
if (Sec->CanonicalName == SecName) {
Expected<std::unique_ptr<FileOutputBuffer>> BufferOrErr =
FileOutputBuffer::create(Filename, Sec->Content.size());
if (!BufferOrErr)
return BufferOrErr.takeError();
std::unique_ptr<FileOutputBuffer> Buf = std::move(*BufferOrErr);
llvm::copy(Sec->Content, Buf->getBufferStart());
if (Error E = Buf->commit())
return E;
return Error::success();
}
}
return createStringError(object_error::parse_failed, "section '%s' not found",
SecName.str().c_str());
}
static Error addSection(const NewSectionInfo &NewSection, Object &Obj) {
std::pair<StringRef, StringRef> Pair = NewSection.SectionName.split(',');
StringRef TargetSegName = Pair.first;
Section Sec(TargetSegName, Pair.second);
Sec.Content =
Obj.NewSectionsContents.save(NewSection.SectionData->getBuffer());
Sec.Size = Sec.Content.size();
// Add the a section into an existing segment.
for (LoadCommand &LC : Obj.LoadCommands) {
std::optional<StringRef> SegName = LC.getSegmentName();
if (SegName && SegName == TargetSegName) {
uint64_t Addr = *LC.getSegmentVMAddr();
for (const std::unique_ptr<Section> &S : LC.Sections)
Addr = std::max(Addr, S->Addr + S->Size);
LC.Sections.push_back(std::make_unique<Section>(Sec));
LC.Sections.back()->Addr = Addr;
return Error::success();
}
}
// There's no segment named TargetSegName. Create a new load command and
// Insert a new section into it.
LoadCommand &NewSegment =
Obj.addSegment(TargetSegName, alignTo(Sec.Size, 16384));
NewSegment.Sections.push_back(std::make_unique<Section>(Sec));
NewSegment.Sections.back()->Addr = *NewSegment.getSegmentVMAddr();
return Error::success();
}
static Expected<Section &> findSection(StringRef SecName, Object &O) {
StringRef SegName;
std::tie(SegName, SecName) = SecName.split(",");
auto FoundSeg =
llvm::find_if(O.LoadCommands, [SegName](const LoadCommand &LC) {
return LC.getSegmentName() == SegName;
});
if (FoundSeg == O.LoadCommands.end())
return createStringError(errc::invalid_argument,
"could not find segment with name '%s'",
SegName.str().c_str());
auto FoundSec = llvm::find_if(FoundSeg->Sections,
[SecName](const std::unique_ptr<Section> &Sec) {
return Sec->Sectname == SecName;
});
if (FoundSec == FoundSeg->Sections.end())
return createStringError(errc::invalid_argument,
"could not find section with name '%s'",
SecName.str().c_str());
assert(FoundSec->get()->CanonicalName == (SegName + "," + SecName).str());
return **FoundSec;
}
static Error updateSection(const NewSectionInfo &NewSection, Object &O) {
Expected<Section &> SecToUpdateOrErr = findSection(NewSection.SectionName, O);
if (!SecToUpdateOrErr)
return SecToUpdateOrErr.takeError();
Section &Sec = *SecToUpdateOrErr;
if (NewSection.SectionData->getBufferSize() > Sec.Size)
return createStringError(
errc::invalid_argument,
"new section cannot be larger than previous section");
Sec.Content = O.NewSectionsContents.save(NewSection.SectionData->getBuffer());
Sec.Size = Sec.Content.size();
return Error::success();
}
// isValidMachOCannonicalName returns success if Name is a MachO cannonical name
// ("<segment>,<section>") and lengths of both segment and section names are
// valid.
static Error isValidMachOCannonicalName(StringRef Name) {
if (Name.count(',') != 1)
return createStringError(errc::invalid_argument,
"invalid section name '%s' (should be formatted "
"as '<segment name>,<section name>')",
Name.str().c_str());
std::pair<StringRef, StringRef> Pair = Name.split(',');
if (Pair.first.size() > 16)
return createStringError(errc::invalid_argument,
"too long segment name: '%s'",
Pair.first.str().c_str());
if (Pair.second.size() > 16)
return createStringError(errc::invalid_argument,
"too long section name: '%s'",
Pair.second.str().c_str());
return Error::success();
}
static Error handleArgs(const CommonConfig &Config,
const MachOConfig &MachOConfig, Object &Obj) {
// Dump sections before add/remove for compatibility with GNU objcopy.
for (StringRef Flag : Config.DumpSection) {
StringRef SectionName;
StringRef FileName;
std::tie(SectionName, FileName) = Flag.split('=');
if (Error E = dumpSectionToFile(SectionName, FileName, Obj))
return E;
}
if (Error E = removeSections(Config, Obj))
return E;
// Mark symbols to determine which symbols are still needed.
if (Config.StripAll)
markSymbols(Config, Obj);
updateAndRemoveSymbols(Config, MachOConfig, Obj);
if (Config.StripAll)
for (LoadCommand &LC : Obj.LoadCommands)
for (std::unique_ptr<Section> &Sec : LC.Sections)
Sec->Relocations.clear();
for (const NewSectionInfo &NewSection : Config.AddSection) {
if (Error E = isValidMachOCannonicalName(NewSection.SectionName))
return E;
if (Error E = addSection(NewSection, Obj))
return E;
}
for (const NewSectionInfo &NewSection : Config.UpdateSection) {
if (Error E = isValidMachOCannonicalName(NewSection.SectionName))
return E;
if (Error E = updateSection(NewSection, Obj))
return E;
}
if (Error E = processLoadCommands(MachOConfig, Obj))
return E;
return Error::success();
}
Error objcopy::macho::executeObjcopyOnBinary(const CommonConfig &Config,
const MachOConfig &MachOConfig,
object::MachOObjectFile &In,
raw_ostream &Out) {
MachOReader Reader(In);
Expected<std::unique_ptr<Object>> O = Reader.create();
if (!O)
return createFileError(Config.InputFilename, O.takeError());
if (O->get()->Header.FileType == MachO::HeaderFileType::MH_PRELOAD)
return createStringError(std::errc::not_supported,
"%s: MH_PRELOAD files are not supported",
Config.InputFilename.str().c_str());
if (Error E = handleArgs(Config, MachOConfig, **O))
return createFileError(Config.InputFilename, std::move(E));
// Page size used for alignment of segment sizes in Mach-O executables and
// dynamic libraries.
uint64_t PageSize;
switch (In.getArch()) {
case Triple::ArchType::arm:
case Triple::ArchType::aarch64:
case Triple::ArchType::aarch64_32:
PageSize = 16384;
break;
default:
PageSize = 4096;
}
MachOWriter Writer(**O, In.is64Bit(), In.isLittleEndian(),
sys::path::filename(Config.OutputFilename), PageSize, Out);
if (auto E = Writer.finalize())
return E;
return Writer.write();
}
Error objcopy::macho::executeObjcopyOnMachOUniversalBinary(
const MultiFormatConfig &Config, const MachOUniversalBinary &In,
raw_ostream &Out) {
SmallVector<OwningBinary<Binary>, 2> Binaries;
SmallVector<Slice, 2> Slices;
for (const auto &O : In.objects()) {
Expected<std::unique_ptr<Archive>> ArOrErr = O.getAsArchive();
if (ArOrErr) {
Expected<std::vector<NewArchiveMember>> NewArchiveMembersOrErr =
createNewArchiveMembers(Config, **ArOrErr);
if (!NewArchiveMembersOrErr)
return NewArchiveMembersOrErr.takeError();
auto Kind = (*ArOrErr)->kind();
if (Kind == object::Archive::K_BSD)
Kind = object::Archive::K_DARWIN;
Expected<std::unique_ptr<MemoryBuffer>> OutputBufferOrErr =
writeArchiveToBuffer(*NewArchiveMembersOrErr,
(*ArOrErr)->hasSymbolTable(), Kind,
Config.getCommonConfig().DeterministicArchives,
(*ArOrErr)->isThin());
if (!OutputBufferOrErr)
return OutputBufferOrErr.takeError();
Expected<std::unique_ptr<Binary>> BinaryOrErr =
object::createBinary(**OutputBufferOrErr);
if (!BinaryOrErr)
return BinaryOrErr.takeError();
Binaries.emplace_back(std::move(*BinaryOrErr),
std::move(*OutputBufferOrErr));
Slices.emplace_back(*cast<Archive>(Binaries.back().getBinary()),
O.getCPUType(), O.getCPUSubType(),
O.getArchFlagName(), O.getAlign());
continue;
}
// The methods getAsArchive, getAsObjectFile, getAsIRObject of the class
// ObjectForArch return an Error in case of the type mismatch. We need to
// check each in turn to see what kind of slice this is, so ignore errors
// produced along the way.
consumeError(ArOrErr.takeError());
Expected<std::unique_ptr<MachOObjectFile>> ObjOrErr = O.getAsObjectFile();
if (!ObjOrErr) {
consumeError(ObjOrErr.takeError());
return createStringError(
std::errc::invalid_argument,
"slice for '%s' of the universal Mach-O binary "
"'%s' is not a Mach-O object or an archive",
O.getArchFlagName().c_str(),
Config.getCommonConfig().InputFilename.str().c_str());
}
std::string ArchFlagName = O.getArchFlagName();
SmallVector<char, 0> Buffer;
raw_svector_ostream MemStream(Buffer);
Expected<const MachOConfig &> MachO = Config.getMachOConfig();
if (!MachO)
return MachO.takeError();
if (Error E = executeObjcopyOnBinary(Config.getCommonConfig(), *MachO,
**ObjOrErr, MemStream))
return E;
auto MB = std::make_unique<SmallVectorMemoryBuffer>(
std::move(Buffer), ArchFlagName, /*RequiresNullTerminator=*/false);
Expected<std::unique_ptr<Binary>> BinaryOrErr = object::createBinary(*MB);
if (!BinaryOrErr)
return BinaryOrErr.takeError();
Binaries.emplace_back(std::move(*BinaryOrErr), std::move(MB));
Slices.emplace_back(*cast<MachOObjectFile>(Binaries.back().getBinary()),
O.getAlign());
}
if (Error Err = writeUniversalBinaryToStream(Slices, Out))
return Err;
return Error::success();
}
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