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- //===- CodeViewRecordIO.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/CodeViewRecordIO.h"
- #include "llvm/DebugInfo/CodeView/CodeView.h"
- #include "llvm/DebugInfo/CodeView/RecordSerialization.h"
- #include "llvm/Support/BinaryStreamReader.h"
- #include "llvm/Support/BinaryStreamWriter.h"
- using namespace llvm;
- using namespace llvm::codeview;
- Error CodeViewRecordIO::beginRecord(Optional<uint32_t> MaxLength) {
- RecordLimit Limit;
- Limit.MaxLength = MaxLength;
- Limit.BeginOffset = getCurrentOffset();
- Limits.push_back(Limit);
- return Error::success();
- }
- Error CodeViewRecordIO::endRecord() {
- assert(!Limits.empty() && "Not in a record!");
- Limits.pop_back();
- // We would like to assert that we actually read / wrote all the bytes that we
- // expected to for this record, but unfortunately we can't do this. Some
- // producers such as MASM over-allocate for certain types of records and
- // commit the extraneous data, so when reading we can't be sure every byte
- // will have been read. And when writing we over-allocate temporarily since
- // we don't know how big the record is until we're finished writing it, so
- // even though we don't commit the extraneous data, we still can't guarantee
- // we're at the end of the allocated data.
- if (isStreaming()) {
- // For streaming mode, add padding to align with 4 byte boundaries for each
- // record
- uint32_t Align = getStreamedLen() % 4;
- if (Align == 0)
- return Error::success();
- int PaddingBytes = 4 - Align;
- while (PaddingBytes > 0) {
- char Pad = static_cast<uint8_t>(LF_PAD0 + PaddingBytes);
- StringRef BytesSR = StringRef(&Pad, sizeof(Pad));
- Streamer->emitBytes(BytesSR);
- --PaddingBytes;
- }
- resetStreamedLen();
- }
- return Error::success();
- }
- uint32_t CodeViewRecordIO::maxFieldLength() const {
- if (isStreaming())
- return 0;
- assert(!Limits.empty() && "Not in a record!");
- // The max length of the next field is the minimum of all lengths that would
- // be allowed by any of the sub-records we're in. In practice, we can only
- // ever be at most 1 sub-record deep (in a FieldList), but this works for
- // the general case.
- uint32_t Offset = getCurrentOffset();
- Optional<uint32_t> Min = Limits.front().bytesRemaining(Offset);
- for (auto X : makeArrayRef(Limits).drop_front()) {
- Optional<uint32_t> ThisMin = X.bytesRemaining(Offset);
- if (ThisMin.hasValue())
- Min = (Min.hasValue()) ? std::min(*Min, *ThisMin) : *ThisMin;
- }
- assert(Min.hasValue() && "Every field must have a maximum length!");
- return *Min;
- }
- Error CodeViewRecordIO::padToAlignment(uint32_t Align) {
- if (isReading())
- return Reader->padToAlignment(Align);
- return Writer->padToAlignment(Align);
- }
- Error CodeViewRecordIO::skipPadding() {
- assert(!isWriting() && "Cannot skip padding while writing!");
- if (Reader->bytesRemaining() == 0)
- return Error::success();
- uint8_t Leaf = Reader->peek();
- if (Leaf < LF_PAD0)
- return Error::success();
- // Leaf is greater than 0xf0. We should advance by the number of bytes in
- // the low 4 bits.
- unsigned BytesToAdvance = Leaf & 0x0F;
- return Reader->skip(BytesToAdvance);
- }
- Error CodeViewRecordIO::mapByteVectorTail(ArrayRef<uint8_t> &Bytes,
- const Twine &Comment) {
- if (isStreaming()) {
- emitComment(Comment);
- Streamer->emitBinaryData(toStringRef(Bytes));
- incrStreamedLen(Bytes.size());
- } else if (isWriting()) {
- if (auto EC = Writer->writeBytes(Bytes))
- return EC;
- } else {
- if (auto EC = Reader->readBytes(Bytes, Reader->bytesRemaining()))
- return EC;
- }
- return Error::success();
- }
- Error CodeViewRecordIO::mapByteVectorTail(std::vector<uint8_t> &Bytes,
- const Twine &Comment) {
- ArrayRef<uint8_t> BytesRef(Bytes);
- if (auto EC = mapByteVectorTail(BytesRef, Comment))
- return EC;
- if (!isWriting())
- Bytes.assign(BytesRef.begin(), BytesRef.end());
- return Error::success();
- }
- Error CodeViewRecordIO::mapInteger(TypeIndex &TypeInd, const Twine &Comment) {
- if (isStreaming()) {
- std::string TypeNameStr = Streamer->getTypeName(TypeInd);
- if (!TypeNameStr.empty())
- emitComment(Comment + ": " + TypeNameStr);
- else
- emitComment(Comment);
- Streamer->emitIntValue(TypeInd.getIndex(), sizeof(TypeInd.getIndex()));
- incrStreamedLen(sizeof(TypeInd.getIndex()));
- } else if (isWriting()) {
- if (auto EC = Writer->writeInteger(TypeInd.getIndex()))
- return EC;
- } else {
- uint32_t I;
- if (auto EC = Reader->readInteger(I))
- return EC;
- TypeInd.setIndex(I);
- }
- return Error::success();
- }
- Error CodeViewRecordIO::mapEncodedInteger(int64_t &Value,
- const Twine &Comment) {
- if (isStreaming()) {
- if (Value >= 0)
- emitEncodedUnsignedInteger(static_cast<uint64_t>(Value), Comment);
- else
- emitEncodedSignedInteger(Value, Comment);
- } else if (isWriting()) {
- if (Value >= 0) {
- if (auto EC = writeEncodedUnsignedInteger(static_cast<uint64_t>(Value)))
- return EC;
- } else {
- if (auto EC = writeEncodedSignedInteger(Value))
- return EC;
- }
- } else {
- APSInt N;
- if (auto EC = consume(*Reader, N))
- return EC;
- Value = N.getExtValue();
- }
- return Error::success();
- }
- Error CodeViewRecordIO::mapEncodedInteger(uint64_t &Value,
- const Twine &Comment) {
- if (isStreaming())
- emitEncodedUnsignedInteger(Value, Comment);
- else if (isWriting()) {
- if (auto EC = writeEncodedUnsignedInteger(Value))
- return EC;
- } else {
- APSInt N;
- if (auto EC = consume(*Reader, N))
- return EC;
- Value = N.getZExtValue();
- }
- return Error::success();
- }
- Error CodeViewRecordIO::mapEncodedInteger(APSInt &Value, const Twine &Comment) {
- if (isStreaming()) {
- // FIXME: We also need to handle big values here, but it's
- // not clear how we can excercise this code path yet.
- if (Value.isSigned())
- emitEncodedSignedInteger(Value.getSExtValue(), Comment);
- else
- emitEncodedUnsignedInteger(Value.getZExtValue(), Comment);
- } else if (isWriting()) {
- if (Value.isSigned())
- return writeEncodedSignedInteger(
- Value.isSingleWord() ? Value.getSExtValue() : INT64_MIN);
- return writeEncodedUnsignedInteger(Value.getLimitedValue());
- } else
- return consume(*Reader, Value);
- return Error::success();
- }
- Error CodeViewRecordIO::mapStringZ(StringRef &Value, const Twine &Comment) {
- if (isStreaming()) {
- auto NullTerminatedString = StringRef(Value.data(), Value.size() + 1);
- emitComment(Comment);
- Streamer->emitBytes(NullTerminatedString);
- incrStreamedLen(NullTerminatedString.size());
- } else if (isWriting()) {
- // Truncate if we attempt to write too much.
- StringRef S = Value.take_front(maxFieldLength() - 1);
- if (auto EC = Writer->writeCString(S))
- return EC;
- } else {
- if (auto EC = Reader->readCString(Value))
- return EC;
- }
- return Error::success();
- }
- Error CodeViewRecordIO::mapGuid(GUID &Guid, const Twine &Comment) {
- constexpr uint32_t GuidSize = 16;
- if (isStreaming()) {
- StringRef GuidSR =
- StringRef((reinterpret_cast<const char *>(&Guid)), GuidSize);
- emitComment(Comment);
- Streamer->emitBytes(GuidSR);
- incrStreamedLen(GuidSize);
- return Error::success();
- }
- if (maxFieldLength() < GuidSize)
- return make_error<CodeViewError>(cv_error_code::insufficient_buffer);
- if (isWriting()) {
- if (auto EC = Writer->writeBytes(Guid.Guid))
- return EC;
- } else {
- ArrayRef<uint8_t> GuidBytes;
- if (auto EC = Reader->readBytes(GuidBytes, GuidSize))
- return EC;
- memcpy(Guid.Guid, GuidBytes.data(), GuidSize);
- }
- return Error::success();
- }
- Error CodeViewRecordIO::mapStringZVectorZ(std::vector<StringRef> &Value,
- const Twine &Comment) {
- if (!isReading()) {
- emitComment(Comment);
- for (auto V : Value) {
- if (auto EC = mapStringZ(V))
- return EC;
- }
- uint8_t FinalZero = 0;
- if (auto EC = mapInteger(FinalZero))
- return EC;
- } else {
- StringRef S;
- if (auto EC = mapStringZ(S))
- return EC;
- while (!S.empty()) {
- Value.push_back(S);
- if (auto EC = mapStringZ(S))
- return EC;
- };
- }
- return Error::success();
- }
- void CodeViewRecordIO::emitEncodedSignedInteger(const int64_t &Value,
- const Twine &Comment) {
- // FIXME: There are no test cases covering this function.
- // This may be because we always consider enumerators to be unsigned.
- // See FIXME at CodeViewDebug.cpp : CodeViewDebug::lowerTypeEnum.
- if (Value >= std::numeric_limits<int8_t>::min()) {
- Streamer->emitIntValue(LF_CHAR, 2);
- emitComment(Comment);
- Streamer->emitIntValue(Value, 1);
- incrStreamedLen(3);
- } else if (Value >= std::numeric_limits<int16_t>::min()) {
- Streamer->emitIntValue(LF_SHORT, 2);
- emitComment(Comment);
- Streamer->emitIntValue(Value, 2);
- incrStreamedLen(4);
- } else if (Value >= std::numeric_limits<int32_t>::min()) {
- Streamer->emitIntValue(LF_LONG, 2);
- emitComment(Comment);
- Streamer->emitIntValue(Value, 4);
- incrStreamedLen(6);
- } else {
- Streamer->emitIntValue(LF_QUADWORD, 2);
- emitComment(Comment);
- Streamer->emitIntValue(Value, 4); // FIXME: Why not 8 (size of quadword)?
- incrStreamedLen(6); // FIXME: Why not 10 (8 + 2)?
- }
- }
- void CodeViewRecordIO::emitEncodedUnsignedInteger(const uint64_t &Value,
- const Twine &Comment) {
- if (Value < LF_NUMERIC) {
- emitComment(Comment);
- Streamer->emitIntValue(Value, 2);
- incrStreamedLen(2);
- } else if (Value <= std::numeric_limits<uint16_t>::max()) {
- Streamer->emitIntValue(LF_USHORT, 2);
- emitComment(Comment);
- Streamer->emitIntValue(Value, 2);
- incrStreamedLen(4);
- } else if (Value <= std::numeric_limits<uint32_t>::max()) {
- Streamer->emitIntValue(LF_ULONG, 2);
- emitComment(Comment);
- Streamer->emitIntValue(Value, 4);
- incrStreamedLen(6);
- } else {
- // FIXME: There are no test cases covering this block.
- Streamer->emitIntValue(LF_UQUADWORD, 2);
- emitComment(Comment);
- Streamer->emitIntValue(Value, 8);
- incrStreamedLen(6); // FIXME: Why not 10 (8 + 2)?
- }
- }
- Error CodeViewRecordIO::writeEncodedSignedInteger(const int64_t &Value) {
- if (Value >= std::numeric_limits<int8_t>::min()) {
- if (auto EC = Writer->writeInteger<uint16_t>(LF_CHAR))
- return EC;
- if (auto EC = Writer->writeInteger<int8_t>(Value))
- return EC;
- } else if (Value >= std::numeric_limits<int16_t>::min()) {
- if (auto EC = Writer->writeInteger<uint16_t>(LF_SHORT))
- return EC;
- if (auto EC = Writer->writeInteger<int16_t>(Value))
- return EC;
- } else if (Value >= std::numeric_limits<int32_t>::min()) {
- if (auto EC = Writer->writeInteger<uint16_t>(LF_LONG))
- return EC;
- if (auto EC = Writer->writeInteger<int32_t>(Value))
- return EC;
- } else {
- if (auto EC = Writer->writeInteger<uint16_t>(LF_QUADWORD))
- return EC;
- if (auto EC = Writer->writeInteger(Value))
- return EC;
- }
- return Error::success();
- }
- Error CodeViewRecordIO::writeEncodedUnsignedInteger(const uint64_t &Value) {
- if (Value < LF_NUMERIC) {
- if (auto EC = Writer->writeInteger<uint16_t>(Value))
- return EC;
- } else if (Value <= std::numeric_limits<uint16_t>::max()) {
- if (auto EC = Writer->writeInteger<uint16_t>(LF_USHORT))
- return EC;
- if (auto EC = Writer->writeInteger<uint16_t>(Value))
- return EC;
- } else if (Value <= std::numeric_limits<uint32_t>::max()) {
- if (auto EC = Writer->writeInteger<uint16_t>(LF_ULONG))
- return EC;
- if (auto EC = Writer->writeInteger<uint32_t>(Value))
- return EC;
- } else {
- if (auto EC = Writer->writeInteger<uint16_t>(LF_UQUADWORD))
- return EC;
- if (auto EC = Writer->writeInteger(Value))
- return EC;
- }
- return Error::success();
- }
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