//===- DXContainer.cpp - DXContainer object file implementation -----------===// // // 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/Object/DXContainer.h" #include "llvm/BinaryFormat/DXContainer.h" #include "llvm/Object/Error.h" using namespace llvm; using namespace llvm::object; static Error parseFailed(const Twine &Msg) { return make_error(Msg.str(), object_error::parse_failed); } template static Error readStruct(StringRef Buffer, const char *Src, T &Struct) { // Don't read before the beginning or past the end of the file if (Src < Buffer.begin() || Src + sizeof(T) > Buffer.end()) return parseFailed("Reading structure out of file bounds"); memcpy(&Struct, Src, sizeof(T)); // DXContainer is always little endian if (sys::IsBigEndianHost) Struct.swapBytes(); return Error::success(); } template static Error readInteger(StringRef Buffer, const char *Src, T &Val) { static_assert(std::is_integral::value, "Cannot call readInteger on non-integral type."); assert(reinterpret_cast(Src) % alignof(T) == 0 && "Unaligned read of value from buffer!"); // Don't read before the beginning or past the end of the file if (Src < Buffer.begin() || Src + sizeof(T) > Buffer.end()) return parseFailed("Reading structure out of file bounds"); Val = *reinterpret_cast(Src); // DXContainer is always little endian if (sys::IsBigEndianHost) sys::swapByteOrder(Val); return Error::success(); } DXContainer::DXContainer(MemoryBufferRef O) : Data(O) {} Error DXContainer::parseHeader() { return readStruct(Data.getBuffer(), Data.getBuffer().data(), Header); } Error DXContainer::parseDXILHeader(uint32_t Offset) { if (DXIL) return parseFailed("More than one DXIL part is present in the file"); const char *Current = Data.getBuffer().data() + Offset; dxbc::ProgramHeader Header; if (Error Err = readStruct(Data.getBuffer(), Current, Header)) return Err; Current += offsetof(dxbc::ProgramHeader, Bitcode) + Header.Bitcode.Offset; DXIL.emplace(std::make_pair(Header, Current)); return Error::success(); } Error DXContainer::parsePartOffsets() { const char *Current = Data.getBuffer().data() + sizeof(dxbc::Header); for (uint32_t Part = 0; Part < Header.PartCount; ++Part) { uint32_t PartOffset; if (Error Err = readInteger(Data.getBuffer(), Current, PartOffset)) return Err; Current += sizeof(uint32_t); // We need to ensure that each part offset leaves enough space for a part // header. To prevent overflow, we subtract the part header size from the // buffer size, rather than adding to the offset. Since the file header is // larger than the part header we can't reach this code unless the buffer // is larger than the part header, so this can't underflow. if (PartOffset > Data.getBufferSize() - sizeof(dxbc::PartHeader)) return parseFailed("Part offset points beyond boundary of the file"); PartOffsets.push_back(PartOffset); // If this isn't a dxil part stop here... if (Data.getBuffer().substr(PartOffset, 4) != "DXIL") continue; if (Error Err = parseDXILHeader(PartOffset + sizeof(dxbc::PartHeader))) return Err; } return Error::success(); } Expected DXContainer::create(MemoryBufferRef Object) { DXContainer Container(Object); if (Error Err = Container.parseHeader()) return std::move(Err); if (Error Err = Container.parsePartOffsets()) return std::move(Err); return Container; } void DXContainer::PartIterator::updateIteratorImpl(const uint32_t Offset) { StringRef Buffer = Container.Data.getBuffer(); const char *Current = Buffer.data() + Offset; // Offsets are validated during parsing, so all offsets in the container are // valid and contain enough readable data to read a header. cantFail(readStruct(Buffer, Current, IteratorState.Part)); IteratorState.Data = StringRef(Current + sizeof(dxbc::PartHeader), IteratorState.Part.Size); IteratorState.Offset = Offset; }