//===- BinaryStreamRef.h - A copyable reference to a stream -----*- C++ -*-===// // // The LLVM Compiler Infrastructure // // This file is distributed under the University of Illinois Open Source // License. See LICENSE.TXT for details. // //===----------------------------------------------------------------------===// #ifndef LLVM_SUPPORT_BINARYSTREAMREF_H #define LLVM_SUPPORT_BINARYSTREAMREF_H #include "llvm/ADT/ArrayRef.h" #include "llvm/ADT/Optional.h" #include "llvm/Support/BinaryStream.h" #include "llvm/Support/BinaryStreamError.h" #include "llvm/Support/Error.h" #include <algorithm> #include <cstdint> #include <memory> namespace llvm { /// Common stuff for mutable and immutable StreamRefs. template <class RefType, class StreamType> class BinaryStreamRefBase { protected: BinaryStreamRefBase() = default; explicit BinaryStreamRefBase(StreamType &BorrowedImpl) : BorrowedImpl(&BorrowedImpl), ViewOffset(0) { if (!(BorrowedImpl.getFlags() & BSF_Append)) Length = BorrowedImpl.getLength(); } BinaryStreamRefBase(std::shared_ptr<StreamType> SharedImpl, uint32_t Offset, Optional<uint32_t> Length) : SharedImpl(SharedImpl), BorrowedImpl(SharedImpl.get()), ViewOffset(Offset), Length(Length) {} BinaryStreamRefBase(StreamType &BorrowedImpl, uint32_t Offset, Optional<uint32_t> Length) : BorrowedImpl(&BorrowedImpl), ViewOffset(Offset), Length(Length) {} BinaryStreamRefBase(const BinaryStreamRefBase &Other) = default; BinaryStreamRefBase &operator=(const BinaryStreamRefBase &Other) = default; BinaryStreamRefBase &operator=(BinaryStreamRefBase &&Other) = default; BinaryStreamRefBase(BinaryStreamRefBase &&Other) = default; public: llvm::support::endianness getEndian() const { return BorrowedImpl->getEndian(); } uint32_t getLength() const { if (Length.hasValue()) return *Length; return BorrowedImpl ? (BorrowedImpl->getLength() - ViewOffset) : 0; } /// Return a new BinaryStreamRef with the first \p N elements removed. If /// this BinaryStreamRef is length-tracking, then the resulting one will be /// too. RefType drop_front(uint32_t N) const { if (!BorrowedImpl) return RefType(); N = std::min(N, getLength()); RefType Result(static_cast<const RefType &>(*this)); if (N == 0) return Result; Result.ViewOffset += N; if (Result.Length.hasValue()) *Result.Length -= N; return Result; } /// Return a new BinaryStreamRef with the last \p N elements removed. If /// this BinaryStreamRef is length-tracking and \p N is greater than 0, then /// this BinaryStreamRef will no longer length-track. RefType drop_back(uint32_t N) const { if (!BorrowedImpl) return RefType(); RefType Result(static_cast<const RefType &>(*this)); N = std::min(N, getLength()); if (N == 0) return Result; // Since we're dropping non-zero bytes from the end, stop length-tracking // by setting the length of the resulting StreamRef to an explicit value. if (!Result.Length.hasValue()) Result.Length = getLength(); *Result.Length -= N; return Result; } /// Return a new BinaryStreamRef with only the first \p N elements remaining. RefType keep_front(uint32_t N) const { assert(N <= getLength()); return drop_back(getLength() - N); } /// Return a new BinaryStreamRef with only the last \p N elements remaining. RefType keep_back(uint32_t N) const { assert(N <= getLength()); return drop_front(getLength() - N); } /// Return a new BinaryStreamRef with the first and last \p N elements /// removed. RefType drop_symmetric(uint32_t N) const { return drop_front(N).drop_back(N); } /// Return a new BinaryStreamRef with the first \p Offset elements removed, /// and retaining exactly \p Len elements. RefType slice(uint32_t Offset, uint32_t Len) const { return drop_front(Offset).keep_front(Len); } bool valid() const { return BorrowedImpl != nullptr; } bool operator==(const RefType &Other) const { if (BorrowedImpl != Other.BorrowedImpl) return false; if (ViewOffset != Other.ViewOffset) return false; if (Length != Other.Length) return false; return true; } protected: Error checkOffsetForRead(uint32_t Offset, uint32_t DataSize) const { if (Offset > getLength()) return make_error<BinaryStreamError>(stream_error_code::invalid_offset); if (getLength() < DataSize + Offset) return make_error<BinaryStreamError>(stream_error_code::stream_too_short); return Error::success(); } std::shared_ptr<StreamType> SharedImpl; StreamType *BorrowedImpl = nullptr; uint32_t ViewOffset = 0; Optional<uint32_t> Length; }; /// BinaryStreamRef is to BinaryStream what ArrayRef is to an Array. It /// provides copy-semantics and read only access to a "window" of the underlying /// BinaryStream. Note that BinaryStreamRef is *not* a BinaryStream. That is to /// say, it does not inherit and override the methods of BinaryStream. In /// general, you should not pass around pointers or references to BinaryStreams /// and use inheritance to achieve polymorphism. Instead, you should pass /// around BinaryStreamRefs by value and achieve polymorphism that way. class BinaryStreamRef : public BinaryStreamRefBase<BinaryStreamRef, BinaryStream> { friend BinaryStreamRefBase<BinaryStreamRef, BinaryStream>; friend class WritableBinaryStreamRef; BinaryStreamRef(std::shared_ptr<BinaryStream> Impl, uint32_t ViewOffset, Optional<uint32_t> Length) : BinaryStreamRefBase(Impl, ViewOffset, Length) {} public: BinaryStreamRef() = default; BinaryStreamRef(BinaryStream &Stream); BinaryStreamRef(BinaryStream &Stream, uint32_t Offset, Optional<uint32_t> Length); explicit BinaryStreamRef(ArrayRef<uint8_t> Data, llvm::support::endianness Endian); explicit BinaryStreamRef(StringRef Data, llvm::support::endianness Endian); BinaryStreamRef(const BinaryStreamRef &Other) = default; BinaryStreamRef &operator=(const BinaryStreamRef &Other) = default; BinaryStreamRef(BinaryStreamRef &&Other) = default; BinaryStreamRef &operator=(BinaryStreamRef &&Other) = default; // Use BinaryStreamRef.slice() instead. BinaryStreamRef(BinaryStreamRef &S, uint32_t Offset, uint32_t Length) = delete; /// Given an Offset into this StreamRef and a Size, return a reference to a /// buffer owned by the stream. /// /// \returns a success error code if the entire range of data is within the /// bounds of this BinaryStreamRef's view and the implementation could read /// the data, and an appropriate error code otherwise. Error readBytes(uint32_t Offset, uint32_t Size, ArrayRef<uint8_t> &Buffer) const; /// Given an Offset into this BinaryStreamRef, return a reference to the /// largest buffer the stream could support without necessitating a copy. /// /// \returns a success error code if implementation could read the data, /// and an appropriate error code otherwise. Error readLongestContiguousChunk(uint32_t Offset, ArrayRef<uint8_t> &Buffer) const; }; struct BinarySubstreamRef { uint32_t Offset; // Offset in the parent stream BinaryStreamRef StreamData; // Stream Data BinarySubstreamRef slice(uint32_t Off, uint32_t Size) const { BinaryStreamRef SubSub = StreamData.slice(Off, Size); return {Off + Offset, SubSub}; } BinarySubstreamRef drop_front(uint32_t N) const { return slice(N, size() - N); } BinarySubstreamRef keep_front(uint32_t N) const { return slice(0, N); } std::pair<BinarySubstreamRef, BinarySubstreamRef> split(uint32_t Offset) const { return std::make_pair(keep_front(Offset), drop_front(Offset)); } uint32_t size() const { return StreamData.getLength(); } bool empty() const { return size() == 0; } }; class WritableBinaryStreamRef : public BinaryStreamRefBase<WritableBinaryStreamRef, WritableBinaryStream> { friend BinaryStreamRefBase<WritableBinaryStreamRef, WritableBinaryStream>; WritableBinaryStreamRef(std::shared_ptr<WritableBinaryStream> Impl, uint32_t ViewOffset, Optional<uint32_t> Length) : BinaryStreamRefBase(Impl, ViewOffset, Length) {} Error checkOffsetForWrite(uint32_t Offset, uint32_t DataSize) const { if (!(BorrowedImpl->getFlags() & BSF_Append)) return checkOffsetForRead(Offset, DataSize); if (Offset > getLength()) return make_error<BinaryStreamError>(stream_error_code::invalid_offset); return Error::success(); } public: WritableBinaryStreamRef() = default; WritableBinaryStreamRef(WritableBinaryStream &Stream); WritableBinaryStreamRef(WritableBinaryStream &Stream, uint32_t Offset, Optional<uint32_t> Length); explicit WritableBinaryStreamRef(MutableArrayRef<uint8_t> Data, llvm::support::endianness Endian); WritableBinaryStreamRef(const WritableBinaryStreamRef &Other) = default; WritableBinaryStreamRef & operator=(const WritableBinaryStreamRef &Other) = default; WritableBinaryStreamRef(WritableBinaryStreamRef &&Other) = default; WritableBinaryStreamRef &operator=(WritableBinaryStreamRef &&Other) = default; // Use WritableBinaryStreamRef.slice() instead. WritableBinaryStreamRef(WritableBinaryStreamRef &S, uint32_t Offset, uint32_t Length) = delete; /// Given an Offset into this WritableBinaryStreamRef and some input data, /// writes the data to the underlying stream. /// /// \returns a success error code if the data could fit within the underlying /// stream at the specified location and the implementation could write the /// data, and an appropriate error code otherwise. Error writeBytes(uint32_t Offset, ArrayRef<uint8_t> Data) const; /// Conver this WritableBinaryStreamRef to a read-only BinaryStreamRef. operator BinaryStreamRef() const; /// For buffered streams, commits changes to the backing store. Error commit(); }; } // end namespace llvm #endif // LLVM_SUPPORT_BINARYSTREAMREF_H