components/zucchini/disassembler_win32.h - chromium/src - Git at Google

 // Copyright 2017 The Chromium Authors. All rights reserved.
 // Use of this source code is governed by a BSD-style license that can be
 // found in the LICENSE file.

 #ifndef COMPONENTS_ZUCCHINI_DISASSEMBLER_WIN32_H_
 #define COMPONENTS_ZUCCHINI_DISASSEMBLER_WIN32_H_

 #include <stddef.h>
 #include <stdint.h>

 #include <memory>
 #include <string>
 #include <utility>
 #include <vector>

 #include "base/macros.h"
 #include "components/zucchini/address_translator.h"
 #include "components/zucchini/buffer_view.h"
 #include "components/zucchini/disassembler.h"
 #include "components/zucchini/image_utils.h"
 #include "components/zucchini/type_win_pe.h"

 namespace zucchini {

 class Rel32FinderX86;
 class Rel32FinderX64;

 struct Win32X86Traits {
   static constexpr Bitness kBitness = kBit32;
   static constexpr ExecutableType kExeType = kExeTypeWin32X86;
   enum : uint16_t { kMagic = 0x10B };
   enum : uint16_t { kRelocType = 3 };
   enum : uint32_t { kVAWidth = 4 };
   static const char kExeTypeString[];

   using ImageOptionalHeader = pe::ImageOptionalHeader;
   using RelFinder = Rel32FinderX86;
   using Address = uint32_t;
 };

 struct Win32X64Traits {
   static constexpr Bitness kBitness = kBit64;
   static constexpr ExecutableType kExeType = kExeTypeWin32X64;
   enum : uint16_t { kMagic = 0x20B };
   enum : uint16_t { kRelocType = 10 };
   enum : uint32_t { kVAWidth = 8 };
   static const char kExeTypeString[];

   using ImageOptionalHeader = pe::ImageOptionalHeader64;
   using RelFinder = Rel32FinderX64;
   using Address = uint64_t;
 };

 template <class Traits>
 class DisassemblerWin32 : public Disassembler {
  public:
   enum ReferenceType : uint8_t { kReloc, kAbs32, kRel32, kTypeCount };

   // Applies quick checks to determine whether |image| *may* point to the start
   // of an executable. Returns true iff the check passes.
   static bool QuickDetect(ConstBufferView image);

   DisassemblerWin32();
   ~DisassemblerWin32() override;

   // Disassembler:
   ExecutableType GetExeType() const override;
   std::string GetExeTypeString() const override;
   std::vector<ReferenceGroup> MakeReferenceGroups() const override;

   // Functions that return reader / writer for references.
   std::unique_ptr<ReferenceReader> MakeReadRelocs(offset_t lo, offset_t hi);
   std::unique_ptr<ReferenceReader> MakeReadAbs32(offset_t lo, offset_t hi);
   std::unique_ptr<ReferenceReader> MakeReadRel32(offset_t lo, offset_t hi);
   std::unique_ptr<ReferenceWriter> MakeWriteRelocs(MutableBufferView image);
   std::unique_ptr<ReferenceWriter> MakeWriteAbs32(MutableBufferView image);
   std::unique_ptr<ReferenceWriter> MakeWriteRel32(MutableBufferView image);

  private:
   friend Disassembler;

   // Disassembler:
   bool Parse(ConstBufferView image) override;

   // Parses the file header. Returns true iff successful.
   bool ParseHeader();

   // Parsers to extract references. These are lazily called, and return whether
   // parsing was successful (failures are non-fatal).
   bool ParseAndStoreRelocBlocks();
   bool ParseAndStoreAbs32();
   bool ParseAndStoreRel32();

   // In-memory copy of sections.
   std::vector<pe::ImageSectionHeader> sections_;

   // Image base address to translate between RVA and VA.
   typename Traits::Address image_base_ = 0;

   // Pointer to data Directory entry of the relocation table.
   const pe::ImageDataDirectory* base_relocation_table_ = nullptr;

   // Translator between offsets and RVAs.
   AddressTranslator translator_;

   // Reference storage.
   BufferRegion reloc_region_;
   std::vector<offset_t> reloc_block_offsets_;
   offset_t reloc_end_ = 0;
   std::vector<offset_t> abs32_locations_;
   std::vector<offset_t> rel32_locations_;

   // Initialization states of reference storage, used for lazy initialization.
   // TODO(huangs): Investigate whether lazy initialization is useful for memory
   // reduction. This is a carryover from Courgette. To be sure we should run
   // experiment after Zucchini is able to do ensemble patching.
   bool has_parsed_relocs_ = false;
   bool has_parsed_abs32_ = false;
   bool has_parsed_rel32_ = false;

   DISALLOW_COPY_AND_ASSIGN(DisassemblerWin32);
 };

 using DisassemblerWin32X86 = DisassemblerWin32<Win32X86Traits>;
 using DisassemblerWin32X64 = DisassemblerWin32<Win32X64Traits>;

 }  // namespace zucchini

 #endif  // COMPONENTS_ZUCCHINI_DISASSEMBLER_WIN32_H_
	// Copyright 2017 The Chromium Authors. All rights reserved.
	// Use of this source code is governed by a BSD-style license that can be
	// found in the LICENSE file.

	#ifndef COMPONENTS_ZUCCHINI_DISASSEMBLER_WIN32_H_
	#define COMPONENTS_ZUCCHINI_DISASSEMBLER_WIN32_H_

	#include <stddef.h>
	#include <stdint.h>

	#include <memory>
	#include <string>
	#include <utility>
	#include <vector>

	#include "base/macros.h"
	#include "components/zucchini/address_translator.h"
	#include "components/zucchini/buffer_view.h"
	#include "components/zucchini/disassembler.h"
	#include "components/zucchini/image_utils.h"
	#include "components/zucchini/type_win_pe.h"

	namespace zucchini {

	class Rel32FinderX86;
	class Rel32FinderX64;

	struct Win32X86Traits {
	static constexpr Bitness kBitness = kBit32;
	static constexpr ExecutableType kExeType = kExeTypeWin32X86;
	enum : uint16_t { kMagic = 0x10B };
	enum : uint16_t { kRelocType = 3 };
	enum : uint32_t { kVAWidth = 4 };
	static const char kExeTypeString[];

	using ImageOptionalHeader = pe::ImageOptionalHeader;
	using RelFinder = Rel32FinderX86;
	using Address = uint32_t;
	};

	struct Win32X64Traits {
	static constexpr Bitness kBitness = kBit64;
	static constexpr ExecutableType kExeType = kExeTypeWin32X64;
	enum : uint16_t { kMagic = 0x20B };
	enum : uint16_t { kRelocType = 10 };
	enum : uint32_t { kVAWidth = 8 };
	static const char kExeTypeString[];

	using ImageOptionalHeader = pe::ImageOptionalHeader64;
	using RelFinder = Rel32FinderX64;
	using Address = uint64_t;
	};

	template <class Traits>
	class DisassemblerWin32 : public Disassembler {
	public:
	enum ReferenceType : uint8_t { kReloc, kAbs32, kRel32, kTypeCount };

	// Applies quick checks to determine whether \|image\| may point to the start
	// of an executable. Returns true iff the check passes.
	static bool QuickDetect(ConstBufferView image);

	DisassemblerWin32();
	~DisassemblerWin32() override;

	// Disassembler:
	ExecutableType GetExeType() const override;
	std::string GetExeTypeString() const override;
	std::vector<ReferenceGroup> MakeReferenceGroups() const override;

	// Functions that return reader / writer for references.
	std::unique_ptr<ReferenceReader> MakeReadRelocs(offset_t lo, offset_t hi);
	std::unique_ptr<ReferenceReader> MakeReadAbs32(offset_t lo, offset_t hi);
	std::unique_ptr<ReferenceReader> MakeReadRel32(offset_t lo, offset_t hi);
	std::unique_ptr<ReferenceWriter> MakeWriteRelocs(MutableBufferView image);
	std::unique_ptr<ReferenceWriter> MakeWriteAbs32(MutableBufferView image);
	std::unique_ptr<ReferenceWriter> MakeWriteRel32(MutableBufferView image);

	private:
	friend Disassembler;

	// Disassembler:
	bool Parse(ConstBufferView image) override;

	// Parses the file header. Returns true iff successful.
	bool ParseHeader();

	// Parsers to extract references. These are lazily called, and return whether
	// parsing was successful (failures are non-fatal).
	bool ParseAndStoreRelocBlocks();
	bool ParseAndStoreAbs32();
	bool ParseAndStoreRel32();

	// In-memory copy of sections.
	std::vector<pe::ImageSectionHeader> sections_;

	// Image base address to translate between RVA and VA.
	typename Traits::Address image_base_ = 0;

	// Pointer to data Directory entry of the relocation table.
	const pe::ImageDataDirectory* base_relocation_table_ = nullptr;

	// Translator between offsets and RVAs.
	AddressTranslator translator_;

	// Reference storage.
	BufferRegion reloc_region_;
	std::vector<offset_t> reloc_block_offsets_;
	offset_t reloc_end_ = 0;
	std::vector<offset_t> abs32_locations_;
	std::vector<offset_t> rel32_locations_;

	// Initialization states of reference storage, used for lazy initialization.
	// TODO(huangs): Investigate whether lazy initialization is useful for memory
	// reduction. This is a carryover from Courgette. To be sure we should run
	// experiment after Zucchini is able to do ensemble patching.
	bool has_parsed_relocs_ = false;
	bool has_parsed_abs32_ = false;
	bool has_parsed_rel32_ = false;

	DISALLOW_COPY_AND_ASSIGN(DisassemblerWin32);
	};

	using DisassemblerWin32X86 = DisassemblerWin32<Win32X86Traits>;
	using DisassemblerWin32X64 = DisassemblerWin32<Win32X64Traits>;

	} // namespace zucchini

	#endif // COMPONENTS_ZUCCHINI_DISASSEMBLER_WIN32_H_