courgette/disassembler_elf_32.h - platform/external/chromium_org - Git at Google

 // Copyright 2013 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 COURGETTE_DISASSEMBLER_ELF_32_H_
 #define COURGETTE_DISASSEMBLER_ELF_32_H_

 #include "base/basictypes.h"
 #include "base/memory/scoped_vector.h"
 #include "courgette/assembly_program.h"
 #include "courgette/disassembler.h"
 #include "courgette/memory_allocator.h"
 #include "courgette/types_elf.h"

 namespace courgette {

 class AssemblyProgram;

 // A courgette disassembler for 32-bit ELF files.  This class is only a
 // partial implementation.  Subclasses implement the
 // architecture-specific parts of processing 32-bit ELF files.  Specifically,
 // RelToRVA processes entries in ELF relocation table,
 // ParseRelocationSection verifies the organization of the ELF
 // relocation table, and ParseRel32RelocsFromSection finds branch
 // targets by looking for relative jump/call opcodes in the particular
 // architecture's machine code.
 class DisassemblerElf32 : public Disassembler {
  public:
   // Different instructions encode the target rva differently.  This
   // class encapsulates this behavior.  public for use in unit tests.
   class TypedRVA {
    public:
     explicit TypedRVA(RVA rva) : rva_(rva), offset_(-1) {
     }

     virtual ~TypedRVA() { };

     RVA rva() {
       return rva_;
     }

     RVA relative_target() {
       return relative_target_;
     }

     void set_relative_target(RVA relative_target) {
       relative_target_ = relative_target;
     }

     size_t get_offset() {
       return offset_;
     }

     void set_offset(size_t offset) {
       offset_ = offset;
     }

     // Computes the relative jump's offset from the op in p.
     virtual CheckBool ComputeRelativeTarget(const uint8* op_pointer) = 0;

     // Emits the courgette instruction corresponding to the RVA type.
     virtual CheckBool EmitInstruction(AssemblyProgram* program,
                                       RVA target_rva) = 0;

     virtual uint16 op_size() const = 0;

     static bool IsLessThan(TypedRVA *a, TypedRVA *b) {
       return a->rva() < b->rva();
     }

   private:
     const RVA rva_;
     RVA relative_target_;
     size_t offset_;
   };

  public:
   explicit DisassemblerElf32(const void* start, size_t length);

   virtual ~DisassemblerElf32() { };

   virtual ExecutableType kind() = 0;

   virtual e_machine_values ElfEM() = 0;

   // Returns 'true' if the buffer appears to point to a valid ELF executable
   // for 32 bit. If ParseHeader() succeeds, other member
   // functions may be called.
   virtual bool ParseHeader();

   virtual bool Disassemble(AssemblyProgram* target);

   // Public for unittests only
   std::vector<RVA> &Abs32Locations() { return abs32_locations_; }
   ScopedVector<TypedRVA> &Rel32Locations() { return rel32_locations_; }

  protected:

   uint32 DiscoverLength();

   // Misc Section Helpers

   Elf32_Half SectionHeaderCount() const {
     return section_header_table_size_;
   }

   const Elf32_Shdr *SectionHeader(int id) const {
     assert(id >= 0 && id < SectionHeaderCount());
     return section_header_table_ + id;
   }

   const uint8 *SectionBody(int id) const {
     return OffsetToPointer(SectionHeader(id)->sh_offset);
   }

   Elf32_Word SectionBodySize(int id) const {
     return SectionHeader(id)->sh_size;
   }

   // Misc Segment Helpers

   Elf32_Half ProgramSegmentHeaderCount() const {
     return program_header_table_size_;
   }

   const Elf32_Phdr *ProgramSegmentHeader(int id) const {
     assert(id >= 0 && id < ProgramSegmentHeaderCount());
     return program_header_table_ + id;
   }

   // The virtual memory address at which this program segment will be loaded
   Elf32_Addr ProgramSegmentMemoryBegin(int id) const {
     return ProgramSegmentHeader(id)->p_vaddr;
   }

   // The number of virtual memory bytes for this program segment
   Elf32_Word ProgramSegmentMemorySize(int id) const {
     return ProgramSegmentHeader(id)->p_memsz;
   }

   // Pointer into the source file for this program segment
   Elf32_Addr ProgramSegmentFileOffset(int id) const {
     return ProgramSegmentHeader(id)->p_offset;
   }

   // Number of file bytes for this program segment. Is <= ProgramMemorySize.
   Elf32_Word ProgramSegmentFileSize(int id) const {
     return ProgramSegmentHeader(id)->p_filesz;
   }

   // Misc address space helpers

   CheckBool IsValidRVA(RVA rva) const WARN_UNUSED_RESULT;

   // Convert an ELF relocation struction into an RVA
   virtual CheckBool RelToRVA(Elf32_Rel rel, RVA* result)
     const WARN_UNUSED_RESULT = 0;

   // Returns kNoOffset if there is no file offset corresponding to 'rva'.
   CheckBool RVAToFileOffset(RVA rva, size_t* result) const WARN_UNUSED_RESULT;

   RVA FileOffsetToRVA(size_t offset) const WARN_UNUSED_RESULT;

   CheckBool RVAsToOffsets(std::vector<RVA>* rvas /*in*/,
                           std::vector<size_t>* offsets /*out*/);

   CheckBool RVAsToOffsets(ScopedVector<TypedRVA>* rvas /*in and out*/);

   // Parsing Code used to really implement Disassemble

   CheckBool ParseFile(AssemblyProgram* target) WARN_UNUSED_RESULT;
   virtual CheckBool ParseRelocationSection(
       const Elf32_Shdr *section_header,
         AssemblyProgram* program) WARN_UNUSED_RESULT = 0;
   CheckBool ParseProgbitsSection(
       const Elf32_Shdr *section_header,
       std::vector<size_t>::iterator* current_abs_offset,
       std::vector<size_t>::iterator end_abs_offset,
       ScopedVector<TypedRVA>::iterator* current_rel,
       ScopedVector<TypedRVA>::iterator end_rel,
       AssemblyProgram* program) WARN_UNUSED_RESULT;
   CheckBool ParseSimpleRegion(size_t start_file_offset,
                               size_t end_file_offset,
                               AssemblyProgram* program) WARN_UNUSED_RESULT;

   CheckBool ParseAbs32Relocs() WARN_UNUSED_RESULT;
   CheckBool CheckSection(RVA rva) WARN_UNUSED_RESULT;
   CheckBool ParseRel32RelocsFromSections() WARN_UNUSED_RESULT;
   virtual CheckBool ParseRel32RelocsFromSection(
       const Elf32_Shdr* section) WARN_UNUSED_RESULT = 0;

   Elf32_Ehdr *header_;
   Elf32_Shdr *section_header_table_;
   Elf32_Half section_header_table_size_;

   Elf32_Phdr *program_header_table_;
   Elf32_Half program_header_table_size_;

   // Section header for default
   const char *default_string_section_;

   std::vector<RVA> abs32_locations_;
   ScopedVector<TypedRVA> rel32_locations_;

   DISALLOW_COPY_AND_ASSIGN(DisassemblerElf32);
 };

 }  // namespace courgette

 #endif  // COURGETTE_DISASSEMBLER_ELF_32_H_
	// Copyright 2013 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 COURGETTE_DISASSEMBLER_ELF_32_H_
	#define COURGETTE_DISASSEMBLER_ELF_32_H_

	#include "base/basictypes.h"
	#include "base/memory/scoped_vector.h"
	#include "courgette/assembly_program.h"
	#include "courgette/disassembler.h"
	#include "courgette/memory_allocator.h"
	#include "courgette/types_elf.h"

	namespace courgette {

	class AssemblyProgram;

	// A courgette disassembler for 32-bit ELF files. This class is only a
	// partial implementation. Subclasses implement the
	// architecture-specific parts of processing 32-bit ELF files. Specifically,
	// RelToRVA processes entries in ELF relocation table,
	// ParseRelocationSection verifies the organization of the ELF
	// relocation table, and ParseRel32RelocsFromSection finds branch
	// targets by looking for relative jump/call opcodes in the particular
	// architecture's machine code.
	class DisassemblerElf32 : public Disassembler {
	public:
	// Different instructions encode the target rva differently. This
	// class encapsulates this behavior. public for use in unit tests.
	class TypedRVA {
	public:
	explicit TypedRVA(RVA rva) : rva_(rva), offset_(-1) {
	}

	virtual ~TypedRVA() { };

	RVA rva() {
	return rva_;
	}

	RVA relative_target() {
	return relative_target_;
	}

	void set_relative_target(RVA relative_target) {
	relative_target_ = relative_target;
	}

	size_t get_offset() {
	return offset_;
	}

	void set_offset(size_t offset) {
	offset_ = offset;
	}

	// Computes the relative jump's offset from the op in p.
	virtual CheckBool ComputeRelativeTarget(const uint8* op_pointer) = 0;

	// Emits the courgette instruction corresponding to the RVA type.
	virtual CheckBool EmitInstruction(AssemblyProgram* program,
	RVA target_rva) = 0;

	virtual uint16 op_size() const = 0;

	static bool IsLessThan(TypedRVA a, TypedRVA b) {
	return a->rva() < b->rva();
	}

	private:
	const RVA rva_;
	RVA relative_target_;
	size_t offset_;
	};

	public:
	explicit DisassemblerElf32(const void* start, size_t length);

	virtual ~DisassemblerElf32() { };

	virtual ExecutableType kind() = 0;

	virtual e_machine_values ElfEM() = 0;

	// Returns 'true' if the buffer appears to point to a valid ELF executable
	// for 32 bit. If ParseHeader() succeeds, other member
	// functions may be called.
	virtual bool ParseHeader();

	virtual bool Disassemble(AssemblyProgram* target);

	// Public for unittests only
	std::vector<RVA> &Abs32Locations() { return abs32_locations_; }
	ScopedVector<TypedRVA> &Rel32Locations() { return rel32_locations_; }

	protected:

	uint32 DiscoverLength();

	// Misc Section Helpers

	Elf32_Half SectionHeaderCount() const {
	return section_header_table_size_;
	}

	const Elf32_Shdr *SectionHeader(int id) const {
	assert(id >= 0 && id < SectionHeaderCount());
	return section_header_table_ + id;
	}

	const uint8 *SectionBody(int id) const {
	return OffsetToPointer(SectionHeader(id)->sh_offset);
	}

	Elf32_Word SectionBodySize(int id) const {
	return SectionHeader(id)->sh_size;
	}

	// Misc Segment Helpers

	Elf32_Half ProgramSegmentHeaderCount() const {
	return program_header_table_size_;
	}

	const Elf32_Phdr *ProgramSegmentHeader(int id) const {
	assert(id >= 0 && id < ProgramSegmentHeaderCount());
	return program_header_table_ + id;
	}

	// The virtual memory address at which this program segment will be loaded
	Elf32_Addr ProgramSegmentMemoryBegin(int id) const {
	return ProgramSegmentHeader(id)->p_vaddr;
	}

	// The number of virtual memory bytes for this program segment
	Elf32_Word ProgramSegmentMemorySize(int id) const {
	return ProgramSegmentHeader(id)->p_memsz;
	}

	// Pointer into the source file for this program segment
	Elf32_Addr ProgramSegmentFileOffset(int id) const {
	return ProgramSegmentHeader(id)->p_offset;
	}

	// Number of file bytes for this program segment. Is <= ProgramMemorySize.
	Elf32_Word ProgramSegmentFileSize(int id) const {
	return ProgramSegmentHeader(id)->p_filesz;
	}

	// Misc address space helpers

	CheckBool IsValidRVA(RVA rva) const WARN_UNUSED_RESULT;

	// Convert an ELF relocation struction into an RVA
	virtual CheckBool RelToRVA(Elf32_Rel rel, RVA* result)
	const WARN_UNUSED_RESULT = 0;

	// Returns kNoOffset if there is no file offset corresponding to 'rva'.
	CheckBool RVAToFileOffset(RVA rva, size_t* result) const WARN_UNUSED_RESULT;

	RVA FileOffsetToRVA(size_t offset) const WARN_UNUSED_RESULT;

	CheckBool RVAsToOffsets(std::vector<RVA>* rvas /in/,
	std::vector<size_t>* offsets /out/);

	CheckBool RVAsToOffsets(ScopedVector<TypedRVA>* rvas /in and out/);

	// Parsing Code used to really implement Disassemble

	CheckBool ParseFile(AssemblyProgram* target) WARN_UNUSED_RESULT;
	virtual CheckBool ParseRelocationSection(
	const Elf32_Shdr *section_header,
	AssemblyProgram* program) WARN_UNUSED_RESULT = 0;
	CheckBool ParseProgbitsSection(
	const Elf32_Shdr *section_header,
	std::vector<size_t>::iterator* current_abs_offset,
	std::vector<size_t>::iterator end_abs_offset,
	ScopedVector<TypedRVA>::iterator* current_rel,
	ScopedVector<TypedRVA>::iterator end_rel,
	AssemblyProgram* program) WARN_UNUSED_RESULT;
	CheckBool ParseSimpleRegion(size_t start_file_offset,
	size_t end_file_offset,
	AssemblyProgram* program) WARN_UNUSED_RESULT;

	CheckBool ParseAbs32Relocs() WARN_UNUSED_RESULT;
	CheckBool CheckSection(RVA rva) WARN_UNUSED_RESULT;
	CheckBool ParseRel32RelocsFromSections() WARN_UNUSED_RESULT;
	virtual CheckBool ParseRel32RelocsFromSection(
	const Elf32_Shdr* section) WARN_UNUSED_RESULT = 0;

	Elf32_Ehdr *header_;
	Elf32_Shdr *section_header_table_;
	Elf32_Half section_header_table_size_;

	Elf32_Phdr *program_header_table_;
	Elf32_Half program_header_table_size_;

	// Section header for default
	const char *default_string_section_;

	std::vector<RVA> abs32_locations_;
	ScopedVector<TypedRVA> rel32_locations_;

	DISALLOW_COPY_AND_ASSIGN(DisassemblerElf32);
	};

	} // namespace courgette

	#endif // COURGETTE_DISASSEMBLER_ELF_32_H_