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https://github.com/c64scene-ar/llvm-6502.git
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3d218156f8
The constructors of classes deriving from Binary normally take an error_code as an argument to the constructor. My original intent was to change them to have a trivial constructor and move the initial parsing logic to a static method returning an ErrorOr. I changed my mind because: * A constructor with an error_code out parameter is extremely convenient from the implementation side. We can incrementally construct the object and give up when we find an error. * It is very efficient when constructing on the stack or when there is no error. The only inefficient case is where heap allocating and an error is found (we have to free the memory). The result is that this is a much smaller patch. It just standardizes the create* helpers to return an ErrorOr. Almost no functionality change: The only difference is that this found that we were trying to read past the end of COFF import library but ignoring the error. git-svn-id: https://llvm.org/svn/llvm-project/llvm/trunk@199770 91177308-0d34-0410-b5e6-96231b3b80d8
149 lines
4.7 KiB
C++
149 lines
4.7 KiB
C++
//===- MachOUniversal.cpp - Mach-O universal binary -------------*- C++ -*-===//
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//
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// The LLVM Compiler Infrastructure
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//
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// This file is distributed under the University of Illinois Open Source
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// License. See LICENSE.TXT for details.
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//
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//===----------------------------------------------------------------------===//
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//
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// This file defines the MachOUniversalBinary class.
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//
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//===----------------------------------------------------------------------===//
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#include "llvm/Object/MachOUniversal.h"
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#include "llvm/Object/MachO.h"
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#include "llvm/Object/ObjectFile.h"
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#include "llvm/Support/Casting.h"
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#include "llvm/Support/Host.h"
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#include "llvm/Support/MemoryBuffer.h"
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using namespace llvm;
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using namespace object;
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template<typename T>
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static void SwapValue(T &Value) {
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Value = sys::SwapByteOrder(Value);
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}
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template<typename T>
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static void SwapStruct(T &Value);
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template<>
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void SwapStruct(MachO::fat_header &H) {
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SwapValue(H.magic);
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SwapValue(H.nfat_arch);
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}
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template<>
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void SwapStruct(MachO::fat_arch &H) {
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SwapValue(H.cputype);
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SwapValue(H.cpusubtype);
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SwapValue(H.offset);
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SwapValue(H.size);
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SwapValue(H.align);
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}
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template<typename T>
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static T getUniversalBinaryStruct(const char *Ptr) {
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T Res;
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memcpy(&Res, Ptr, sizeof(T));
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// Universal binary headers have big-endian byte order.
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if (sys::IsLittleEndianHost)
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SwapStruct(Res);
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return Res;
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}
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MachOUniversalBinary::ObjectForArch::ObjectForArch(
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const MachOUniversalBinary *Parent, uint32_t Index)
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: Parent(Parent), Index(Index) {
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if (Parent == 0 || Index > Parent->getNumberOfObjects()) {
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clear();
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} else {
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// Parse object header.
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StringRef ParentData = Parent->getData();
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const char *HeaderPos = ParentData.begin() + sizeof(MachO::fat_header) +
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Index * sizeof(MachO::fat_arch);
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Header = getUniversalBinaryStruct<MachO::fat_arch>(HeaderPos);
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if (ParentData.size() < Header.offset + Header.size) {
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clear();
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}
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}
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}
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error_code MachOUniversalBinary::ObjectForArch::getAsObjectFile(
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OwningPtr<ObjectFile> &Result) const {
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if (Parent) {
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StringRef ParentData = Parent->getData();
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StringRef ObjectData = ParentData.substr(Header.offset, Header.size);
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std::string ObjectName =
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Parent->getFileName().str() + ":" +
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Triple::getArchTypeName(MachOObjectFile::getArch(Header.cputype));
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MemoryBuffer *ObjBuffer = MemoryBuffer::getMemBuffer(
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ObjectData, ObjectName, false);
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ErrorOr<ObjectFile *> Obj = ObjectFile::createMachOObjectFile(ObjBuffer);
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if (error_code EC = Obj.getError())
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return EC;
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Result.reset(Obj.get());
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return object_error::success;
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}
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return object_error::parse_failed;
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}
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void MachOUniversalBinary::anchor() { }
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ErrorOr<MachOUniversalBinary *>
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MachOUniversalBinary::create(MemoryBuffer *Source) {
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error_code EC;
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OwningPtr<MachOUniversalBinary> Ret(new MachOUniversalBinary(Source, EC));
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if (EC)
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return EC;
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return Ret.take();
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}
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MachOUniversalBinary::MachOUniversalBinary(MemoryBuffer *Source,
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error_code &ec)
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: Binary(Binary::ID_MachOUniversalBinary, Source),
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NumberOfObjects(0) {
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if (Source->getBufferSize() < sizeof(MachO::fat_header)) {
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ec = object_error::invalid_file_type;
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return;
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}
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// Check for magic value and sufficient header size.
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StringRef Buf = getData();
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MachO::fat_header H= getUniversalBinaryStruct<MachO::fat_header>(Buf.begin());
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NumberOfObjects = H.nfat_arch;
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uint32_t MinSize = sizeof(MachO::fat_header) +
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sizeof(MachO::fat_arch) * NumberOfObjects;
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if (H.magic != MachO::FAT_MAGIC || Buf.size() < MinSize) {
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ec = object_error::parse_failed;
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return;
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}
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ec = object_error::success;
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}
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static bool getCTMForArch(Triple::ArchType Arch, MachO::CPUType &CTM) {
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switch (Arch) {
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case Triple::x86: CTM = MachO::CPU_TYPE_I386; return true;
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case Triple::x86_64: CTM = MachO::CPU_TYPE_X86_64; return true;
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case Triple::arm: CTM = MachO::CPU_TYPE_ARM; return true;
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case Triple::sparc: CTM = MachO::CPU_TYPE_SPARC; return true;
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case Triple::ppc: CTM = MachO::CPU_TYPE_POWERPC; return true;
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case Triple::ppc64: CTM = MachO::CPU_TYPE_POWERPC64; return true;
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default: return false;
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}
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}
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error_code
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MachOUniversalBinary::getObjectForArch(Triple::ArchType Arch,
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OwningPtr<ObjectFile> &Result) const {
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MachO::CPUType CTM;
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if (!getCTMForArch(Arch, CTM))
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return object_error::arch_not_found;
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for (object_iterator I = begin_objects(), E = end_objects(); I != E; ++I) {
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if (I->getCPUType() == static_cast<uint32_t>(CTM))
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return I->getAsObjectFile(Result);
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}
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return object_error::arch_not_found;
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}
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