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// Copyright 2011 The Chromium Authors
// Use of this source code is governed by a BSD-style license that can be
// found in the LICENSE file.
#ifndef COURGETTE_DISASSEMBLER_H_
#define COURGETTE_DISASSEMBLER_H_
#include <stdint.h>
#include <memory>
#include <vector>
#include "base/memory/raw_ref.h"
#include "courgette/courgette.h"
#include "courgette/image_utils.h"
#include "courgette/instruction_utils.h"
namespace courgette {
class AssemblyProgram;
class EncodedProgram;
class Disassembler : public AddressTranslator {
public:
// Visitor/adaptor to translate RVA to target RVA for abs32.
class RvaVisitor_Abs32 : public VectorRvaVisitor<RVA> {
public:
RvaVisitor_Abs32(const std::vector<RVA>& rva_locations,
const AddressTranslator& translator);
RvaVisitor_Abs32(const RvaVisitor_Abs32&) = delete;
RvaVisitor_Abs32& operator=(const RvaVisitor_Abs32&) = delete;
~RvaVisitor_Abs32() override { }
// VectorRvaVisitor<RVA> interfaces.
RVA Get() const override;
private:
const raw_ref<const AddressTranslator> translator_;
};
// Visitor/adaptor to translate RVA to target RVA for rel32.
class RvaVisitor_Rel32 : public VectorRvaVisitor<RVA> {
public:
RvaVisitor_Rel32(const std::vector<RVA>& rva_locations,
const AddressTranslator& translator);
RvaVisitor_Rel32(const RvaVisitor_Rel32&) = delete;
RvaVisitor_Rel32& operator=(const RvaVisitor_Rel32&) = delete;
~RvaVisitor_Rel32() override { }
// VectorRvaVisitor<RVA> interfaces.
RVA Get() const override;
private:
const raw_ref<const AddressTranslator> translator_;
};
Disassembler(const Disassembler&) = delete;
Disassembler& operator=(const Disassembler&) = delete;
virtual ~Disassembler();
// AddressTranslator interfaces.
RVA FileOffsetToRVA(FileOffset file_offset) const override = 0;
FileOffset RVAToFileOffset(RVA rva) const override = 0;
const uint8_t* FileOffsetToPointer(FileOffset file_offset) const override;
const uint8_t* RVAToPointer(RVA rva) const override;
RVA PointerToTargetRVA(const uint8_t* p) const override = 0;
virtual ExecutableType kind() const = 0;
// Returns the preferred image base address. Using uint64_t to accommodate the
// general case of 64-bit architectures.
virtual uint64_t image_base() const = 0;
// Extracts and stores locations of abs32 references from the image file.
virtual bool ExtractAbs32Locations() = 0;
// Extracts and stores locations of rel32 references from the image file.
virtual bool ExtractRel32Locations() = 0;
// Returns a caller-owned new RvaVisitor to iterate through abs32 target RVAs.
virtual RvaVisitor* CreateAbs32TargetRvaVisitor() = 0;
// Returns a caller-owned new RvaVisitor to iterate through rel32 target RVAs.
virtual RvaVisitor* CreateRel32TargetRvaVisitor() = 0;
// Removes unused rel32 locations (architecture-specific). This is needed
// because we may remove rel32 Labels along the way. As a result the matching
// rel32 addresses become unused. Removing them saves space.
virtual void RemoveUnusedRel32Locations(AssemblyProgram* program) = 0;
// Extracts structural data from the main image. Returns true if the image
// appears to be a valid executable of the expected type, or false otherwise.
// This needs to be called before Disassemble().
virtual bool ParseHeader() = 0;
// Extracts and stores references from the main image. Returns a new
// AssemblyProgram with initialized Labels, or null on failure.
std::unique_ptr<AssemblyProgram> CreateProgram(bool annotate);
// Goes through the entire program (with the help of |program|), computes all
// instructions, and stores them into |encoded|.
Status DisassembleAndEncode(AssemblyProgram* program,
EncodedProgram* encoded);
// ok() may always be called but returns true only after ParseHeader()
// succeeds.
bool ok() const { return failure_reason_ == nullptr; }
// Returns the length of the image. May reduce after ParseHeader().
size_t length() const { return length_; }
const uint8_t* start() const { return start_; }
const uint8_t* end() const { return end_; }
protected:
Disassembler(const uint8_t* start, size_t length);
bool Good();
bool Bad(const char *reason);
// Returns true if the given range lies within our memory region.
bool IsRangeInBounds(size_t offset, size_t size) {
return offset <= length() && size <= length() - offset;
}
// Returns true if the given array lies within our memory region.
bool IsArrayInBounds(size_t offset, size_t elements, size_t element_size) {
return offset <= length() && elements <= (length() - offset) / element_size;
}
// Computes and stores all Labels before scanning program bytes.
void PrecomputeLabels(AssemblyProgram* program);
// Reduce the length of the image in memory. Does not actually free
// (or realloc) any memory. Usually only called via ParseHeader().
void ReduceLength(size_t reduced_length);
// Returns a generator that emits instructions to a given receptor. |program|
// is required as helper.
virtual InstructionGenerator GetInstructionGenerator(
AssemblyProgram* program) = 0;
private:
const char* failure_reason_;
//
// Basic information that is always valid after construction, although
// ParseHeader() may shorten |length_| if the executable is shorter than the
// total data.
//
size_t length_; // In current memory.
const uint8_t* start_; // In current memory, base for 'file offsets'.
const uint8_t* end_; // In current memory.
};
} // namespace courgette
#endif // COURGETTE_DISASSEMBLER_H_