//===- StreamingMemoryObject.cpp - Streamable data interface -------------===// // // The LLVM Compiler Infrastructure // // This file is distributed under the University of Illinois Open Source // License. See LICENSE.TXT for details. // //===----------------------------------------------------------------------===// #include "llvm/Support/StreamingMemoryObject.h" #include "llvm/Support/Compiler.h" #include #include #include using namespace llvm; namespace { class RawMemoryObject : public MemoryObject { public: RawMemoryObject(const unsigned char *Start, const unsigned char *End) : FirstChar(Start), LastChar(End) { assert(LastChar >= FirstChar && "Invalid start/end range"); } uint64_t getExtent() const override { return LastChar - FirstChar; } uint64_t readBytes(uint8_t *Buf, uint64_t Size, uint64_t Address) const override; const uint8_t *getPointer(uint64_t address, uint64_t size) const override; bool isValidAddress(uint64_t address) const override { return validAddress(address); } private: const uint8_t* const FirstChar; const uint8_t* const LastChar; // These are implemented as inline functions here to avoid multiple virtual // calls per public function bool validAddress(uint64_t address) const { return static_cast(address) < LastChar - FirstChar; } RawMemoryObject(const RawMemoryObject&) = delete; void operator=(const RawMemoryObject&) = delete; }; uint64_t RawMemoryObject::readBytes(uint8_t *Buf, uint64_t Size, uint64_t Address) const { uint64_t BufferSize = LastChar - FirstChar; if (Address >= BufferSize) return 0; uint64_t End = Address + Size; if (End > BufferSize) End = BufferSize; assert(static_cast(End - Address) >= 0); Size = End - Address; memcpy(Buf, Address + FirstChar, Size); return Size; } const uint8_t *RawMemoryObject::getPointer(uint64_t address, uint64_t size) const { return FirstChar + address; } } // anonymous namespace namespace llvm { // If the bitcode has a header, then its size is known, and we don't have to // block until we actually want to read it. bool StreamingMemoryObject::isValidAddress(uint64_t address) const { if (ObjectSize && address < ObjectSize) return true; return fetchToPos(address); } uint64_t StreamingMemoryObject::getExtent() const { if (ObjectSize) return ObjectSize; size_t pos = BytesRead + kChunkSize; // keep fetching until we run out of bytes while (fetchToPos(pos)) pos += kChunkSize; return ObjectSize; } uint64_t StreamingMemoryObject::readBytes(uint8_t *Buf, uint64_t Size, uint64_t Address) const { fetchToPos(Address + Size - 1); if (Address >= BytesRead) return 0; uint64_t End = Address + Size; if (End > BytesRead) End = BytesRead; assert(static_cast(End - Address) >= 0); Size = End - Address; memcpy(Buf, &Bytes[Address + BytesSkipped], Size); return Size; } bool StreamingMemoryObject::dropLeadingBytes(size_t s) { if (BytesRead < s) return true; BytesSkipped = s; BytesRead -= s; return false; } void StreamingMemoryObject::setKnownObjectSize(size_t size) { ObjectSize = size; Bytes.reserve(size); } MemoryObject *getNonStreamedMemoryObject(const unsigned char *Start, const unsigned char *End) { return new RawMemoryObject(Start, End); } StreamingMemoryObject::StreamingMemoryObject(DataStreamer *streamer) : Bytes(kChunkSize), Streamer(streamer), BytesRead(0), BytesSkipped(0), ObjectSize(0), EOFReached(false) { BytesRead = streamer->GetBytes(&Bytes[0], kChunkSize); } }