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llvm-mirror/tools/dsymutil/BinaryHolder.cpp
Jonas Devlieghere 6f1978ec1f [dsymutil] Thread the VFS through dsymutil (NFC)
This patch threads the virtual file system through dsymutil.

Currently there is no good way to find out exactly what files are
necessary in order to reproduce a dsymutil link, at least not without
knowledge of how dsymutil's internals.  My motivation for this change is
to add lightweight "reproducers" that automatically gather the input
object files through the FileCollectorFileSystem. The files together
with the YAML mapping will allow us to transparently reproduce a
dsymutil link, even without having to mess with the OSO path prefix.

Differential revision: https://reviews.llvm.org/D79376
2020-05-04 20:21:33 -07:00

268 lines
9.0 KiB
C++

//===-- BinaryHolder.cpp --------------------------------------------------===//
//
// 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
//
//===----------------------------------------------------------------------===//
//
// This program is a utility that aims to be a dropin replacement for
// Darwin's dsymutil.
//
//===----------------------------------------------------------------------===//
#include "BinaryHolder.h"
#include "llvm/Object/MachO.h"
#include "llvm/Support/WithColor.h"
#include "llvm/Support/raw_ostream.h"
namespace llvm {
namespace dsymutil {
static std::pair<StringRef, StringRef>
getArchiveAndObjectName(StringRef Filename) {
StringRef Archive = Filename.substr(0, Filename.rfind('('));
StringRef Object = Filename.substr(Archive.size() + 1).drop_back();
return {Archive, Object};
}
static bool isArchive(StringRef Filename) { return Filename.endswith(")"); }
static std::vector<MemoryBufferRef>
getMachOFatMemoryBuffers(StringRef Filename, MemoryBuffer &Mem,
object::MachOUniversalBinary &Fat) {
std::vector<MemoryBufferRef> Buffers;
StringRef FatData = Fat.getData();
for (auto It = Fat.begin_objects(), End = Fat.end_objects(); It != End;
++It) {
StringRef ObjData = FatData.substr(It->getOffset(), It->getSize());
Buffers.emplace_back(ObjData, Filename);
}
return Buffers;
}
Error BinaryHolder::ArchiveEntry::load(IntrusiveRefCntPtr<vfs::FileSystem> VFS,
StringRef Filename,
TimestampTy Timestamp, bool Verbose) {
StringRef ArchiveFilename = getArchiveAndObjectName(Filename).first;
// Try to load archive and force it to be memory mapped.
auto ErrOrBuff = (ArchiveFilename == "-")
? MemoryBuffer::getSTDIN()
: VFS->getBufferForFile(ArchiveFilename, -1, false);
if (auto Err = ErrOrBuff.getError())
return errorCodeToError(Err);
MemBuffer = std::move(*ErrOrBuff);
if (Verbose)
WithColor::note() << "loaded archive '" << ArchiveFilename << "'\n";
// Load one or more archive buffers, depending on whether we're dealing with
// a fat binary.
std::vector<MemoryBufferRef> ArchiveBuffers;
auto ErrOrFat =
object::MachOUniversalBinary::create(MemBuffer->getMemBufferRef());
if (!ErrOrFat) {
consumeError(ErrOrFat.takeError());
ArchiveBuffers.push_back(MemBuffer->getMemBufferRef());
} else {
FatBinary = std::move(*ErrOrFat);
FatBinaryName = std::string(ArchiveFilename);
ArchiveBuffers =
getMachOFatMemoryBuffers(FatBinaryName, *MemBuffer, *FatBinary);
}
// Finally, try to load the archives.
Archives.reserve(ArchiveBuffers.size());
for (auto MemRef : ArchiveBuffers) {
auto ErrOrArchive = object::Archive::create(MemRef);
if (!ErrOrArchive)
return ErrOrArchive.takeError();
Archives.push_back(std::move(*ErrOrArchive));
}
return Error::success();
}
Error BinaryHolder::ObjectEntry::load(IntrusiveRefCntPtr<vfs::FileSystem> VFS,
StringRef Filename, bool Verbose) {
// Try to load regular binary and force it to be memory mapped.
auto ErrOrBuff = (Filename == "-")
? MemoryBuffer::getSTDIN()
: VFS->getBufferForFile(Filename, -1, false);
if (auto Err = ErrOrBuff.getError())
return errorCodeToError(Err);
MemBuffer = std::move(*ErrOrBuff);
if (Verbose)
WithColor::note() << "loaded object.\n";
// Load one or more object buffers, depending on whether we're dealing with a
// fat binary.
std::vector<MemoryBufferRef> ObjectBuffers;
auto ErrOrFat =
object::MachOUniversalBinary::create(MemBuffer->getMemBufferRef());
if (!ErrOrFat) {
consumeError(ErrOrFat.takeError());
ObjectBuffers.push_back(MemBuffer->getMemBufferRef());
} else {
FatBinary = std::move(*ErrOrFat);
FatBinaryName = std::string(Filename);
ObjectBuffers =
getMachOFatMemoryBuffers(FatBinaryName, *MemBuffer, *FatBinary);
}
Objects.reserve(ObjectBuffers.size());
for (auto MemRef : ObjectBuffers) {
auto ErrOrObjectFile = object::ObjectFile::createObjectFile(MemRef);
if (!ErrOrObjectFile)
return ErrOrObjectFile.takeError();
Objects.push_back(std::move(*ErrOrObjectFile));
}
return Error::success();
}
std::vector<const object::ObjectFile *>
BinaryHolder::ObjectEntry::getObjects() const {
std::vector<const object::ObjectFile *> Result;
Result.reserve(Objects.size());
for (auto &Object : Objects) {
Result.push_back(Object.get());
}
return Result;
}
Expected<const object::ObjectFile &>
BinaryHolder::ObjectEntry::getObject(const Triple &T) const {
for (const auto &Obj : Objects) {
if (const auto *MachO = dyn_cast<object::MachOObjectFile>(Obj.get())) {
if (MachO->getArchTriple().str() == T.str())
return *MachO;
} else if (Obj->getArch() == T.getArch())
return *Obj;
}
return errorCodeToError(object::object_error::arch_not_found);
}
Expected<const BinaryHolder::ObjectEntry &>
BinaryHolder::ArchiveEntry::getObjectEntry(StringRef Filename,
TimestampTy Timestamp,
bool Verbose) {
StringRef ArchiveFilename;
StringRef ObjectFilename;
std::tie(ArchiveFilename, ObjectFilename) = getArchiveAndObjectName(Filename);
// Try the cache first.
KeyTy Key = {ObjectFilename, Timestamp};
{
std::lock_guard<std::mutex> Lock(MemberCacheMutex);
if (MemberCache.count(Key))
return MemberCache[Key];
}
// Create a new ObjectEntry, but don't add it to the cache yet. Loading of
// the archive members might fail and we don't want to lock the whole archive
// during this operation.
ObjectEntry OE;
for (const auto &Archive : Archives) {
Error Err = Error::success();
for (auto Child : Archive->children(Err)) {
if (auto NameOrErr = Child.getName()) {
if (*NameOrErr == ObjectFilename) {
auto ModTimeOrErr = Child.getLastModified();
if (!ModTimeOrErr)
return ModTimeOrErr.takeError();
if (Timestamp != sys::TimePoint<>() &&
Timestamp != ModTimeOrErr.get()) {
if (Verbose)
WithColor::warning() << "member has timestamp mismatch.\n";
continue;
}
if (Verbose)
WithColor::note() << "found member in archive.\n";
auto ErrOrMem = Child.getMemoryBufferRef();
if (!ErrOrMem)
return ErrOrMem.takeError();
auto ErrOrObjectFile =
object::ObjectFile::createObjectFile(*ErrOrMem);
if (!ErrOrObjectFile)
return ErrOrObjectFile.takeError();
OE.Objects.push_back(std::move(*ErrOrObjectFile));
}
}
}
if (Err)
return std::move(Err);
}
if (OE.Objects.empty())
return errorCodeToError(errc::no_such_file_or_directory);
std::lock_guard<std::mutex> Lock(MemberCacheMutex);
MemberCache.try_emplace(Key, std::move(OE));
return MemberCache[Key];
}
Expected<const BinaryHolder::ObjectEntry &>
BinaryHolder::getObjectEntry(StringRef Filename, TimestampTy Timestamp) {
if (Verbose)
WithColor::note() << "trying to open '" << Filename << "'\n";
// If this is an archive, we might have either the object or the archive
// cached. In this case we can load it without accessing the file system.
if (isArchive(Filename)) {
StringRef ArchiveFilename = getArchiveAndObjectName(Filename).first;
std::lock_guard<std::mutex> Lock(ArchiveCacheMutex);
if (ArchiveCache.count(ArchiveFilename)) {
return ArchiveCache[ArchiveFilename].getObjectEntry(Filename, Timestamp,
Verbose);
} else {
ArchiveEntry &AE = ArchiveCache[ArchiveFilename];
auto Err = AE.load(VFS, Filename, Timestamp, Verbose);
if (Err) {
ArchiveCache.erase(ArchiveFilename);
// Don't return the error here: maybe the file wasn't an archive.
llvm::consumeError(std::move(Err));
} else {
return ArchiveCache[ArchiveFilename].getObjectEntry(Filename, Timestamp,
Verbose);
}
}
}
// If this is an object, we might have it cached. If not we'll have to load
// it from the file system and cache it now.
std::lock_guard<std::mutex> Lock(ObjectCacheMutex);
if (!ObjectCache.count(Filename)) {
ObjectEntry &OE = ObjectCache[Filename];
auto Err = OE.load(VFS, Filename, Verbose);
if (Err) {
ObjectCache.erase(Filename);
return std::move(Err);
}
}
return ObjectCache[Filename];
}
void BinaryHolder::clear() {
std::lock_guard<std::mutex> ArchiveLock(ArchiveCacheMutex);
std::lock_guard<std::mutex> ObjectLock(ObjectCacheMutex);
ArchiveCache.clear();
ObjectCache.clear();
}
} // namespace dsymutil
} // namespace llvm