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| //===-- TypeStreamMerger.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/DebugInfo/CodeView/TypeStreamMerger.h"
#include "llvm/ADT/SmallString.h"
#include "llvm/ADT/StringExtras.h"
#include "llvm/DebugInfo/CodeView/GlobalTypeTableBuilder.h"
#include "llvm/DebugInfo/CodeView/MergingTypeTableBuilder.h"
#include "llvm/DebugInfo/CodeView/TypeDeserializer.h"
#include "llvm/DebugInfo/CodeView/TypeIndex.h"
#include "llvm/DebugInfo/CodeView/TypeIndexDiscovery.h"
#include "llvm/DebugInfo/CodeView/TypeRecord.h"
#include "llvm/Support/Error.h"
using namespace llvm;
using namespace llvm::codeview;
static inline size_t slotForIndex(TypeIndex Idx) {
assert(!Idx.isSimple() && "simple type indices have no slots");
return Idx.getIndex() - TypeIndex::FirstNonSimpleIndex;
}
namespace {
/// Implementation of CodeView type stream merging.
///
/// A CodeView type stream is a series of records that reference each other
/// through type indices. A type index is either "simple", meaning it is less
/// than 0x1000 and refers to a builtin type, or it is complex, meaning it
/// refers to a prior type record in the current stream. The type index of a
/// record is equal to the number of records before it in the stream plus
/// 0x1000.
///
/// Type records are only allowed to use type indices smaller than their own, so
/// a type stream is effectively a topologically sorted DAG. Cycles occuring in
/// the type graph of the source program are resolved with forward declarations
/// of composite types. This class implements the following type stream merging
/// algorithm, which relies on this DAG structure:
///
/// - Begin with a new empty stream, and a new empty hash table that maps from
/// type record contents to new type index.
/// - For each new type stream, maintain a map from source type index to
/// destination type index.
/// - For each record, copy it and rewrite its type indices to be valid in the
/// destination type stream.
/// - If the new type record is not already present in the destination stream
/// hash table, append it to the destination type stream, assign it the next
/// type index, and update the two hash tables.
/// - If the type record already exists in the destination stream, discard it
/// and update the type index map to forward the source type index to the
/// existing destination type index.
///
/// As an additional complication, type stream merging actually produces two
/// streams: an item (or IPI) stream and a type stream, as this is what is
/// actually stored in the final PDB. We choose which records go where by
/// looking at the record kind.
class TypeStreamMerger {
public:
explicit TypeStreamMerger(SmallVectorImpl<TypeIndex> &SourceToDest)
: IndexMap(SourceToDest) {
// When dealing with precompiled headers objects, all data in SourceToDest
// belongs to the precompiled headers object, and is assumed to be already
// remapped to the target PDB. Any forthcoming type that will be merged in
// might potentially back-reference this data. We also don't want to resolve
// twice the types in the precompiled object.
CurIndex += SourceToDest.size();
}
static const TypeIndex Untranslated;
// Local hashing entry points
Error mergeTypesAndIds(MergingTypeTableBuilder &DestIds,
MergingTypeTableBuilder &DestTypes,
const CVTypeArray &IdsAndTypes, Optional<uint32_t> &S);
Error mergeIdRecords(MergingTypeTableBuilder &Dest,
ArrayRef<TypeIndex> TypeSourceToDest,
const CVTypeArray &Ids);
Error mergeTypeRecords(MergingTypeTableBuilder &Dest,
const CVTypeArray &Types);
// Global hashing entry points
Error mergeTypesAndIds(GlobalTypeTableBuilder &DestIds,
GlobalTypeTableBuilder &DestTypes,
const CVTypeArray &IdsAndTypes,
ArrayRef<GloballyHashedType> Hashes,
Optional<uint32_t> &S);
Error mergeIdRecords(GlobalTypeTableBuilder &Dest,
ArrayRef<TypeIndex> TypeSourceToDest,
const CVTypeArray &Ids,
ArrayRef<GloballyHashedType> Hashes);
Error mergeTypeRecords(GlobalTypeTableBuilder &Dest, const CVTypeArray &Types,
ArrayRef<GloballyHashedType> Hashes,
Optional<uint32_t> &S);
private:
Error doit(const CVTypeArray &Types);
Error remapAllTypes(const CVTypeArray &Types);
Error remapType(const CVType &Type);
void addMapping(TypeIndex Idx);
inline bool remapTypeIndex(TypeIndex &Idx) {
// If we're mapping a pure index stream, then IndexMap only contains
// mappings from OldIdStream -> NewIdStream, in which case we will need to
// use the special mapping from OldTypeStream -> NewTypeStream which was
// computed externally. Regardless, we use this special map if and only if
// we are doing an id-only mapping.
if (!hasTypeStream())
return remapIndex(Idx, TypeLookup);
assert(TypeLookup.empty());
return remapIndex(Idx, IndexMap);
}
inline bool remapItemIndex(TypeIndex &Idx) {
assert(hasIdStream());
return remapIndex(Idx, IndexMap);
}
bool hasTypeStream() const {
return (UseGlobalHashes) ? (!!DestGlobalTypeStream) : (!!DestTypeStream);
}
bool hasIdStream() const {
return (UseGlobalHashes) ? (!!DestGlobalIdStream) : (!!DestIdStream);
}
ArrayRef<uint8_t> remapIndices(const CVType &OriginalType,
MutableArrayRef<uint8_t> Storage);
inline bool remapIndex(TypeIndex &Idx, ArrayRef<TypeIndex> Map) {
if (LLVM_LIKELY(remapIndexSimple(Idx, Map)))
return true;
return remapIndexFallback(Idx, Map);
}
inline bool remapIndexSimple(TypeIndex &Idx, ArrayRef<TypeIndex> Map) const {
// Simple types are unchanged.
if (Idx.isSimple())
return true;
// Check if this type index refers to a record we've already translated
// successfully. If it refers to a type later in the stream or a record we
// had to defer, defer it until later pass.
unsigned MapPos = slotForIndex(Idx);
if (LLVM_UNLIKELY(MapPos >= Map.size() || Map[MapPos] == Untranslated))
return false;
Idx = Map[MapPos];
return true;
}
bool remapIndexFallback(TypeIndex &Idx, ArrayRef<TypeIndex> Map);
Error errorCorruptRecord() const {
return llvm::make_error<CodeViewError>(cv_error_code::corrupt_record);
}
Expected<bool> shouldRemapType(const CVType &Type);
Optional<Error> LastError;
bool UseGlobalHashes = false;
bool IsSecondPass = false;
unsigned NumBadIndices = 0;
TypeIndex CurIndex{TypeIndex::FirstNonSimpleIndex};
MergingTypeTableBuilder *DestIdStream = nullptr;
MergingTypeTableBuilder *DestTypeStream = nullptr;
GlobalTypeTableBuilder *DestGlobalIdStream = nullptr;
GlobalTypeTableBuilder *DestGlobalTypeStream = nullptr;
ArrayRef<GloballyHashedType> GlobalHashes;
// If we're only mapping id records, this array contains the mapping for
// type records.
ArrayRef<TypeIndex> TypeLookup;
/// Map from source type index to destination type index. Indexed by source
/// type index minus 0x1000.
SmallVectorImpl<TypeIndex> &IndexMap;
/// Temporary storage that we use to copy a record's data while re-writing
/// its type indices.
SmallVector<uint8_t, 256> RemapStorage;
Optional<uint32_t> PCHSignature;
};
} // end anonymous namespace
const TypeIndex TypeStreamMerger::Untranslated(SimpleTypeKind::NotTranslated);
static bool isIdRecord(TypeLeafKind K) {
switch (K) {
case TypeLeafKind::LF_FUNC_ID:
case TypeLeafKind::LF_MFUNC_ID:
case TypeLeafKind::LF_STRING_ID:
case TypeLeafKind::LF_SUBSTR_LIST:
case TypeLeafKind::LF_BUILDINFO:
case TypeLeafKind::LF_UDT_SRC_LINE:
case TypeLeafKind::LF_UDT_MOD_SRC_LINE:
return true;
default:
return false;
}
}
void TypeStreamMerger::addMapping(TypeIndex Idx) {
if (!IsSecondPass) {
assert(IndexMap.size() == slotForIndex(CurIndex) &&
"visitKnownRecord should add one index map entry");
IndexMap.push_back(Idx);
} else {
assert(slotForIndex(CurIndex) < IndexMap.size());
IndexMap[slotForIndex(CurIndex)] = Idx;
}
}
bool TypeStreamMerger::remapIndexFallback(TypeIndex &Idx,
ArrayRef<TypeIndex> Map) {
size_t MapPos = slotForIndex(Idx);
// If this is the second pass and this index isn't in the map, then it points
// outside the current type stream, and this is a corrupt record.
if (IsSecondPass && MapPos >= Map.size()) {
// FIXME: Print a more useful error. We can give the current record and the
// index that we think its pointing to.
if (LastError)
LastError = joinErrors(std::move(*LastError), errorCorruptRecord());
else
LastError = errorCorruptRecord();
}
++NumBadIndices;
// This type index is invalid. Remap this to "not translated by cvpack",
// and return failure.
Idx = Untranslated;
return false;
}
// Local hashing entry points
Error TypeStreamMerger::mergeTypeRecords(MergingTypeTableBuilder &Dest,
const CVTypeArray &Types) {
DestTypeStream = &Dest;
UseGlobalHashes = false;
return doit(Types);
}
Error TypeStreamMerger::mergeIdRecords(MergingTypeTableBuilder &Dest,
ArrayRef<TypeIndex> TypeSourceToDest,
const CVTypeArray &Ids) {
DestIdStream = &Dest;
TypeLookup = TypeSourceToDest;
UseGlobalHashes = false;
return doit(Ids);
}
Error TypeStreamMerger::mergeTypesAndIds(MergingTypeTableBuilder &DestIds,
MergingTypeTableBuilder &DestTypes,
const CVTypeArray &IdsAndTypes,
Optional<uint32_t> &S) {
DestIdStream = &DestIds;
DestTypeStream = &DestTypes;
UseGlobalHashes = false;
auto Err = doit(IdsAndTypes);
S = PCHSignature;
return Err;
}
// Global hashing entry points
Error TypeStreamMerger::mergeTypeRecords(GlobalTypeTableBuilder &Dest,
const CVTypeArray &Types,
ArrayRef<GloballyHashedType> Hashes,
Optional<uint32_t> &S) {
DestGlobalTypeStream = &Dest;
UseGlobalHashes = true;
GlobalHashes = Hashes;
auto Err = doit(Types);
S = PCHSignature;
return Err;
}
Error TypeStreamMerger::mergeIdRecords(GlobalTypeTableBuilder &Dest,
ArrayRef<TypeIndex> TypeSourceToDest,
const CVTypeArray &Ids,
ArrayRef<GloballyHashedType> Hashes) {
DestGlobalIdStream = &Dest;
TypeLookup = TypeSourceToDest;
UseGlobalHashes = true;
GlobalHashes = Hashes;
return doit(Ids);
}
Error TypeStreamMerger::mergeTypesAndIds(GlobalTypeTableBuilder &DestIds,
GlobalTypeTableBuilder &DestTypes,
const CVTypeArray &IdsAndTypes,
ArrayRef<GloballyHashedType> Hashes,
Optional<uint32_t> &S) {
DestGlobalIdStream = &DestIds;
DestGlobalTypeStream = &DestTypes;
UseGlobalHashes = true;
GlobalHashes = Hashes;
auto Err = doit(IdsAndTypes);
S = PCHSignature;
return Err;
}
Error TypeStreamMerger::doit(const CVTypeArray &Types) {
if (auto EC = remapAllTypes(Types))
return EC;
// If we found bad indices but no other errors, try doing another pass and see
// if we can resolve the indices that weren't in the map on the first pass.
// This may require multiple passes, but we should always make progress. MASM
// is the only known CodeView producer that makes type streams that aren't
// topologically sorted. The standard library contains MASM-produced objects,
// so this is important to handle correctly, but we don't have to be too
// efficient. MASM type streams are usually very small.
while (!LastError && NumBadIndices > 0) {
unsigned BadIndicesRemaining = NumBadIndices;
IsSecondPass = true;
NumBadIndices = 0;
CurIndex = TypeIndex(TypeIndex::FirstNonSimpleIndex);
if (auto EC = remapAllTypes(Types))
return EC;
assert(NumBadIndices <= BadIndicesRemaining &&
"second pass found more bad indices");
if (!LastError && NumBadIndices == BadIndicesRemaining) {
return llvm::make_error<CodeViewError>(
cv_error_code::corrupt_record, "Input type graph contains cycles");
}
}
if (LastError)
return std::move(*LastError);
return Error::success();
}
Error TypeStreamMerger::remapAllTypes(const CVTypeArray &Types) {
BinaryStreamRef Stream = Types.getUnderlyingStream();
ArrayRef<uint8_t> Buffer;
cantFail(Stream.readBytes(0, Stream.getLength(), Buffer));
return forEachCodeViewRecord<CVType>(
Buffer, [this](const CVType &T) { return remapType(T); });
}
Error TypeStreamMerger::remapType(const CVType &Type) {
auto R = shouldRemapType(Type);
if (!R)
return R.takeError();
TypeIndex DestIdx = Untranslated;
if (*R) {
auto DoSerialize =
[this, Type](MutableArrayRef<uint8_t> Storage) -> ArrayRef<uint8_t> {
return remapIndices(Type, Storage);
};
if (LLVM_LIKELY(UseGlobalHashes)) {
GlobalTypeTableBuilder &Dest =
isIdRecord(Type.kind()) ? *DestGlobalIdStream : *DestGlobalTypeStream;
GloballyHashedType H = GlobalHashes[CurIndex.toArrayIndex()];
DestIdx = Dest.insertRecordAs(H, Type.RecordData.size(), DoSerialize);
} else {
MergingTypeTableBuilder &Dest =
isIdRecord(Type.kind()) ? *DestIdStream : *DestTypeStream;
RemapStorage.resize(Type.RecordData.size());
ArrayRef<uint8_t> Result = DoSerialize(RemapStorage);
if (!Result.empty())
DestIdx = Dest.insertRecordBytes(Result);
}
}
addMapping(DestIdx);
++CurIndex;
assert((IsSecondPass || IndexMap.size() == slotForIndex(CurIndex)) &&
"visitKnownRecord should add one index map entry");
return Error::success();
}
ArrayRef<uint8_t>
TypeStreamMerger::remapIndices(const CVType &OriginalType,
MutableArrayRef<uint8_t> Storage) {
SmallVector<TiReference, 4> Refs;
discoverTypeIndices(OriginalType.RecordData, Refs);
if (Refs.empty())
return OriginalType.RecordData;
::memcpy(Storage.data(), OriginalType.RecordData.data(),
OriginalType.RecordData.size());
uint8_t *DestContent = Storage.data() + sizeof(RecordPrefix);
for (auto &Ref : Refs) {
TypeIndex *DestTIs =
reinterpret_cast<TypeIndex *>(DestContent + Ref.Offset);
for (size_t I = 0; I < Ref.Count; ++I) {
TypeIndex &TI = DestTIs[I];
bool Success = (Ref.Kind == TiRefKind::IndexRef) ? remapItemIndex(TI)
: remapTypeIndex(TI);
if (LLVM_UNLIKELY(!Success))
return {};
}
}
return Storage;
}
Error llvm::codeview::mergeTypeRecords(MergingTypeTableBuilder &Dest,
SmallVectorImpl<TypeIndex> &SourceToDest,
const CVTypeArray &Types) {
TypeStreamMerger M(SourceToDest);
return M.mergeTypeRecords(Dest, Types);
}
Error llvm::codeview::mergeIdRecords(MergingTypeTableBuilder &Dest,
ArrayRef<TypeIndex> TypeSourceToDest,
SmallVectorImpl<TypeIndex> &SourceToDest,
const CVTypeArray &Ids) {
TypeStreamMerger M(SourceToDest);
return M.mergeIdRecords(Dest, TypeSourceToDest, Ids);
}
Error llvm::codeview::mergeTypeAndIdRecords(
MergingTypeTableBuilder &DestIds, MergingTypeTableBuilder &DestTypes,
SmallVectorImpl<TypeIndex> &SourceToDest, const CVTypeArray &IdsAndTypes,
Optional<uint32_t> &PCHSignature) {
TypeStreamMerger M(SourceToDest);
return M.mergeTypesAndIds(DestIds, DestTypes, IdsAndTypes, PCHSignature);
}
Error llvm::codeview::mergeTypeAndIdRecords(
GlobalTypeTableBuilder &DestIds, GlobalTypeTableBuilder &DestTypes,
SmallVectorImpl<TypeIndex> &SourceToDest, const CVTypeArray &IdsAndTypes,
ArrayRef<GloballyHashedType> Hashes, Optional<uint32_t> &PCHSignature) {
TypeStreamMerger M(SourceToDest);
return M.mergeTypesAndIds(DestIds, DestTypes, IdsAndTypes, Hashes,
PCHSignature);
}
Error llvm::codeview::mergeTypeRecords(GlobalTypeTableBuilder &Dest,
SmallVectorImpl<TypeIndex> &SourceToDest,
const CVTypeArray &Types,
ArrayRef<GloballyHashedType> Hashes,
Optional<uint32_t> &PCHSignature) {
TypeStreamMerger M(SourceToDest);
return M.mergeTypeRecords(Dest, Types, Hashes, PCHSignature);
}
Error llvm::codeview::mergeIdRecords(GlobalTypeTableBuilder &Dest,
ArrayRef<TypeIndex> Types,
SmallVectorImpl<TypeIndex> &SourceToDest,
const CVTypeArray &Ids,
ArrayRef<GloballyHashedType> Hashes) {
TypeStreamMerger M(SourceToDest);
return M.mergeIdRecords(Dest, Types, Ids, Hashes);
}
Expected<bool> TypeStreamMerger::shouldRemapType(const CVType &Type) {
// For object files containing precompiled types, we need to extract the
// signature, through EndPrecompRecord. This is done here for performance
// reasons, to avoid re-parsing the Types stream.
if (Type.kind() == LF_ENDPRECOMP) {
EndPrecompRecord EP;
if (auto EC = TypeDeserializer::deserializeAs(const_cast<CVType &>(Type),
EP))
return joinErrors(std::move(EC), errorCorruptRecord());
if (PCHSignature.hasValue())
return errorCorruptRecord();
PCHSignature.emplace(EP.getSignature());
return false;
}
return true;
}
|