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llvm-mirror/lib/DebugInfo/CodeView/ContinuationRecordBuilder.cpp
Rafael Espindola fc4818e12a Fix non assert build warnings.
llvm-svn: 319200
2017-11-28 18:50:08 +00:00

260 lines
9.3 KiB
C++

#include "llvm/DebugInfo/CodeView/ContinuationRecordBuilder.h"
using namespace llvm;
using namespace llvm::codeview;
namespace {
struct ContinuationRecord {
ulittle16_t Kind{uint16_t(TypeLeafKind::LF_INDEX)};
ulittle16_t Size{0};
ulittle32_t IndexRef{0xB0C0B0C0};
};
struct SegmentInjection {
SegmentInjection(TypeLeafKind Kind) { Prefix.RecordKind = Kind; }
ContinuationRecord Cont;
RecordPrefix Prefix;
};
} // namespace
static void addPadding(BinaryStreamWriter &Writer) {
uint32_t Align = Writer.getOffset() % 4;
if (Align == 0)
return;
int PaddingBytes = 4 - Align;
while (PaddingBytes > 0) {
uint8_t Pad = static_cast<uint8_t>(LF_PAD0 + PaddingBytes);
cantFail(Writer.writeInteger(Pad));
--PaddingBytes;
}
}
static SegmentInjection InjectFieldList(TypeLeafKind::LF_FIELDLIST);
static SegmentInjection InjectMethodOverloadList(TypeLeafKind::LF_METHODLIST);
static constexpr uint32_t ContinuationLength = sizeof(ContinuationRecord);
static constexpr uint32_t MaxSegmentLength =
MaxRecordLength - ContinuationLength;
static inline TypeLeafKind getTypeLeafKind(ContinuationRecordKind CK) {
return (CK == ContinuationRecordKind::FieldList) ? LF_FIELDLIST
: LF_METHODLIST;
}
ContinuationRecordBuilder::ContinuationRecordBuilder()
: SegmentWriter(Buffer), Mapping(SegmentWriter) {}
ContinuationRecordBuilder::~ContinuationRecordBuilder() {}
void ContinuationRecordBuilder::begin(ContinuationRecordKind RecordKind) {
assert(!Kind.hasValue());
Kind = RecordKind;
Buffer.clear();
SegmentWriter.setOffset(0);
SegmentOffsets.clear();
SegmentOffsets.push_back(0);
assert(SegmentWriter.getOffset() == 0);
assert(SegmentWriter.getLength() == 0);
const SegmentInjection *FLI =
(RecordKind == ContinuationRecordKind::FieldList)
? &InjectFieldList
: &InjectMethodOverloadList;
const uint8_t *FLIB = reinterpret_cast<const uint8_t *>(FLI);
InjectedSegmentBytes =
ArrayRef<uint8_t>(FLIB, FLIB + sizeof(SegmentInjection));
CVType Type;
Type.Type = getTypeLeafKind(RecordKind);
cantFail(Mapping.visitTypeBegin(Type));
// Seed the first trecord with an appropriate record prefix.
RecordPrefix Prefix;
Prefix.RecordLen = 0;
Prefix.RecordKind = Type.Type;
cantFail(SegmentWriter.writeObject(Prefix));
}
template <typename RecordType>
void ContinuationRecordBuilder::writeMemberType(RecordType &Record) {
assert(Kind.hasValue());
uint32_t OriginalOffset = SegmentWriter.getOffset();
CVMemberRecord CVMR;
CVMR.Kind = static_cast<TypeLeafKind>(Record.getKind());
// Member Records aren't length-prefixed, they only have a 2-byte TypeLeafKind
// at the beginning.
cantFail(SegmentWriter.writeEnum(CVMR.Kind));
// Let the Mapping handle the rest.
cantFail(Mapping.visitMemberBegin(CVMR));
cantFail(Mapping.visitKnownMember(CVMR, Record));
cantFail(Mapping.visitMemberEnd(CVMR));
// Make sure it's padded to 4 bytes.
addPadding(SegmentWriter);
assert(getCurrentSegmentLength() % 4 == 0);
// The maximum length of a single segment is 64KB minus the size to insert a
// continuation. So if we are over that, inject a continuation between the
// previous member and the member that was just written, then end the previous
// segment after the continuation and begin a new one with the just-written
// member.
if (getCurrentSegmentLength() > MaxSegmentLength) {
// We need to inject some bytes before the member we just wrote but after
// the previous member. Save off the length of the member we just wrote so
// that we can do some sanity checking on it.
uint32_t MemberLength = SegmentWriter.getOffset() - OriginalOffset;
(void) MemberLength;
insertSegmentEnd(OriginalOffset);
// Since this member now becomes a new top-level record, it should have
// gotten a RecordPrefix injected, and that RecordPrefix + the member we
// just wrote should now constitute the entirety of the current "new"
// segment.
assert(getCurrentSegmentLength() == MemberLength + sizeof(RecordPrefix));
}
assert(getCurrentSegmentLength() % 4 == 0);
assert(getCurrentSegmentLength() <= MaxSegmentLength);
}
uint32_t ContinuationRecordBuilder::getCurrentSegmentLength() const {
return SegmentWriter.getOffset() - SegmentOffsets.back();
}
void ContinuationRecordBuilder::insertSegmentEnd(uint32_t Offset) {
uint32_t SegmentBegin = SegmentOffsets.back();
(void)SegmentBegin;
assert(Offset > SegmentBegin);
assert(Offset - SegmentBegin <= MaxSegmentLength);
// We need to make space for the continuation record. For now we can't fill
// out the length or the TypeIndex of the back-reference, but we need the
// space to at least be there.
Buffer.insert(Offset, InjectedSegmentBytes);
uint32_t NewSegmentBegin = Offset + ContinuationLength;
uint32_t SegmentLength = NewSegmentBegin - SegmentOffsets.back();
(void) SegmentLength;
assert(SegmentLength % 4 == 0);
assert(SegmentLength <= MaxRecordLength);
SegmentOffsets.push_back(NewSegmentBegin);
// Seek to the end so that we can keep writing against the new segment.
SegmentWriter.setOffset(SegmentWriter.getLength());
assert(SegmentWriter.bytesRemaining() == 0);
}
CVType ContinuationRecordBuilder::createSegmentRecord(
uint32_t OffBegin, uint32_t OffEnd, Optional<TypeIndex> RefersTo) {
assert(OffEnd - OffBegin <= USHRT_MAX);
MutableArrayRef<uint8_t> Data = Buffer.data();
Data = Data.slice(OffBegin, OffEnd - OffBegin);
CVType Type;
Type.Type = getTypeLeafKind(*Kind);
Type.RecordData = Data;
// Write the length to the RecordPrefix, making sure it does not include
// sizeof(RecordPrefix.Length)
RecordPrefix *Prefix = reinterpret_cast<RecordPrefix *>(Data.data());
assert(Prefix->RecordKind == Type.Type);
Prefix->RecordLen = Data.size() - sizeof(RecordPrefix::RecordLen);
if (RefersTo.hasValue()) {
auto Continuation = Data.take_back(ContinuationLength);
ContinuationRecord *CR =
reinterpret_cast<ContinuationRecord *>(Continuation.data());
assert(CR->Kind == TypeLeafKind::LF_INDEX);
assert(CR->IndexRef == 0xB0C0B0C0);
CR->IndexRef = RefersTo->getIndex();
}
return Type;
}
std::vector<CVType> ContinuationRecordBuilder::end(TypeIndex Index) {
CVType Type;
Type.Type = getTypeLeafKind(*Kind);
cantFail(Mapping.visitTypeEnd(Type));
// We're now done, and we have a series of segments each beginning at an
// offset specified in the SegmentOffsets array. We now need to iterate
// over each segment and post-process them in the following two ways:
// 1) Each top-level record has a RecordPrefix whose type is either
// LF_FIELDLIST or LF_METHODLIST, but the Length field is still 0.
// Those should all be set to the correct length now.
// 2) Each continuation record has an IndexRef field which we set to the
// magic value 0xB0C0B0C0. Now that the caller has told us the TypeIndex
// they want this sequence to start from, we can go through and update
// each one.
//
// Logically, the sequence of records we've built up looks like this:
//
// SegmentOffsets[0]: <Length> (Initially: uninitialized)
// SegmentOffsets[0]+2: LF_FIELDLIST
// SegmentOffsets[0]+4: Member[0]
// SegmentOffsets[0]+?: ...
// SegmentOffsets[0]+?: Member[4]
// SegmentOffsets[1]-8: LF_INDEX
// SegmentOffsets[1]-6: 0
// SegmentOffsets[1]-4: <Type Index of Next Record> (Initially: 0xB0C0B0C0)
//
// SegmentOffsets[1]: <Length> (Initially: uninitialized)
// SegmentOffsets[1]+2: LF_FIELDLIST
// SegmentOffsets[1]+4: Member[0]
// SegmentOffsets[1]+?: ...
// SegmentOffsets[1]+?: Member[s]
// SegmentOffsets[2]-8: LF_INDEX
// SegmentOffsets[2]-6: 0
// SegmentOffsets[2]-4: <Type Index of Next Record> (Initially: 0xB0C0B0C0)
//
// ...
//
// SegmentOffsets[N]: <Length> (Initially: uninitialized)
// SegmentOffsets[N]+2: LF_FIELDLIST
// SegmentOffsets[N]+4: Member[0]
// SegmentOffsets[N]+?: ...
// SegmentOffsets[N]+?: Member[t]
//
// And this is the way we have laid them out in the serialization buffer. But
// we cannot actually commit them to the underlying stream this way, due to
// the topological sorting requirement of a type stream (specifically,
// TypeIndex references can only point backwards, not forwards). So the
// sequence that we return to the caller contains the records in reverse
// order, which is the proper order for committing the serialized records.
std::vector<CVType> Types;
Types.reserve(SegmentOffsets.size());
auto SO = makeArrayRef(SegmentOffsets);
uint32_t End = SegmentWriter.getOffset();
Optional<TypeIndex> RefersTo;
for (uint32_t Offset : reverse(SO)) {
Types.push_back(createSegmentRecord(Offset, End, RefersTo));
End = Offset;
RefersTo = Index++;
}
Kind.reset();
return Types;
}
// Explicitly instantiate the member function for each known type so that we can
// implement this in the cpp file.
#define TYPE_RECORD(EnumName, EnumVal, Name)
#define TYPE_RECORD_ALIAS(EnumName, EnumVal, Name, AliasName)
#define MEMBER_RECORD(EnumName, EnumVal, Name) \
template void llvm::codeview::ContinuationRecordBuilder::writeMemberType( \
Name##Record &Record);
#define MEMBER_RECORD_ALIAS(EnumName, EnumVal, Name, AliasName)
#include "llvm/DebugInfo/CodeView/CodeViewTypes.def"