courgette/patch_generator_x86_32.h - platform/external/chromium_org - Git at Google

 // Copyright (c) 2011 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.

 // This is the transformation and adjustment for Windows X86 executables.
 // The same code can be used for Windows X64 executables.

 #ifndef COURGETTE_WIN32_X86_GENERATOR_H_
 #define COURGETTE_WIN32_X86_GENERATOR_H_

 #include "base/logging.h"
 #include "base/memory/scoped_ptr.h"

 #include "courgette/assembly_program.h"
 #include "courgette/ensemble.h"

 namespace courgette {

 class PatchGeneratorX86_32 : public TransformationPatchGenerator {
  public:
   PatchGeneratorX86_32(Element* old_element,
                        Element* new_element,
                        PatcherX86_32* patcher,
                        ExecutableType kind)
       : TransformationPatchGenerator(old_element, new_element, patcher),
         kind_(kind) {
   }

   virtual ExecutableType Kind() { return kind_; }

   Status WriteInitialParameters(SinkStream* parameter_stream) {
     if (!parameter_stream->WriteSizeVarint32(
             old_element_->offset_in_ensemble()) ||
         !parameter_stream->WriteSizeVarint32(old_element_->region().length())) {
       return C_STREAM_ERROR;
     }
     return C_OK;
     // TODO(sra): Initialize |patcher_| with these parameters.
   }

   Status PredictTransformParameters(SinkStreamSet* prediction) {
     return TransformationPatchGenerator::PredictTransformParameters(prediction);
   }

   Status CorrectedTransformParameters(SinkStreamSet* parameters) {
     // No code needed to write an 'empty' parameter set.
     return C_OK;
   }

   // The format of a transformed_element is a serialized EncodedProgram.  We
   // first disassemble the original old and new Elements into AssemblyPrograms.
   // Then we adjust the new AssemblyProgram to make it as much like the old one
   // as possible, before converting the AssemblyPrograms to EncodedPrograms and
   // serializing them.
   Status Transform(SourceStreamSet* corrected_parameters,
                    SinkStreamSet* old_transformed_element,
                    SinkStreamSet* new_transformed_element) {
     // Don't expect any corrected parameters.
     if (!corrected_parameters->Empty())
       return C_GENERAL_ERROR;

     // Generate old version of program using |corrected_parameters|.
     // TODO(sra): refactor to use same code from patcher_.
     AssemblyProgram* old_program = NULL;
     Status old_parse_status =
         ParseDetectedExecutable(old_element_->region().start(),
                                 old_element_->region().length(),
                                 &old_program);
     if (old_parse_status != C_OK) {
       LOG(ERROR) << "Cannot parse as WinPE " << old_element_->Name();
       return old_parse_status;
     }

     AssemblyProgram* new_program = NULL;
     Status new_parse_status =
         ParseDetectedExecutable(new_element_->region().start(),
                                 new_element_->region().length(),
                                 &new_program);
     if (new_parse_status != C_OK) {
       DeleteAssemblyProgram(old_program);
       LOG(ERROR) << "Cannot parse as WinPE " << new_element_->Name();
       return new_parse_status;
     }

     // Trim labels below a certain threshold
     Status trim_old_status = TrimLabels(old_program);
     if (trim_old_status != C_OK) {
       DeleteAssemblyProgram(old_program);
       return trim_old_status;
     }

     Status trim_new_status = TrimLabels(new_program);
     if (trim_new_status != C_OK) {
       DeleteAssemblyProgram(new_program);
       return trim_new_status;
     }

     EncodedProgram* old_encoded = NULL;
     Status old_encode_status = Encode(old_program, &old_encoded);
     if (old_encode_status != C_OK) {
       DeleteAssemblyProgram(old_program);
       return old_encode_status;
     }

     Status old_write_status =
         WriteEncodedProgram(old_encoded, old_transformed_element);
     DeleteEncodedProgram(old_encoded);
     if (old_write_status != C_OK) {
       DeleteAssemblyProgram(old_program);
       return old_write_status;
     }

     Status adjust_status = Adjust(*old_program, new_program);
     DeleteAssemblyProgram(old_program);
     if (adjust_status != C_OK) {
       DeleteAssemblyProgram(new_program);
       return adjust_status;
     }

     EncodedProgram* new_encoded = NULL;
     Status new_encode_status = Encode(new_program, &new_encoded);
     DeleteAssemblyProgram(new_program);
     if (new_encode_status != C_OK)
       return new_encode_status;

     Status new_write_status =
         WriteEncodedProgram(new_encoded, new_transformed_element);
     DeleteEncodedProgram(new_encoded);
     if (new_write_status != C_OK)
       return new_write_status;

     return C_OK;
   }

   Status Reform(SourceStreamSet* transformed_element,
                 SinkStream* reformed_element) {
     return TransformationPatchGenerator::Reform(transformed_element,
                                                 reformed_element);
   }

  private:
   virtual ~PatchGeneratorX86_32() { }

   ExecutableType kind_;

   DISALLOW_COPY_AND_ASSIGN(PatchGeneratorX86_32);
 };

 }  // namespace courgette
 #endif  // COURGETTE_WIN32_X86_GENERATOR_H_
	// Copyright (c) 2011 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.

	// This is the transformation and adjustment for Windows X86 executables.
	// The same code can be used for Windows X64 executables.

	#ifndef COURGETTE_WIN32_X86_GENERATOR_H_
	#define COURGETTE_WIN32_X86_GENERATOR_H_

	#include "base/logging.h"
	#include "base/memory/scoped_ptr.h"

	#include "courgette/assembly_program.h"
	#include "courgette/ensemble.h"

	namespace courgette {

	class PatchGeneratorX86_32 : public TransformationPatchGenerator {
	public:
	PatchGeneratorX86_32(Element* old_element,
	Element* new_element,
	PatcherX86_32* patcher,
	ExecutableType kind)
	: TransformationPatchGenerator(old_element, new_element, patcher),
	kind_(kind) {
	}

	virtual ExecutableType Kind() { return kind_; }

	Status WriteInitialParameters(SinkStream* parameter_stream) {
	if (!parameter_stream->WriteSizeVarint32(
	old_element_->offset_in_ensemble()) \|\|
	!parameter_stream->WriteSizeVarint32(old_element_->region().length())) {
	return C_STREAM_ERROR;
	}
	return C_OK;
	// TODO(sra): Initialize \|patcher_\| with these parameters.
	}

	Status PredictTransformParameters(SinkStreamSet* prediction) {
	return TransformationPatchGenerator::PredictTransformParameters(prediction);
	}

	Status CorrectedTransformParameters(SinkStreamSet* parameters) {
	// No code needed to write an 'empty' parameter set.
	return C_OK;
	}

	// The format of a transformed_element is a serialized EncodedProgram. We
	// first disassemble the original old and new Elements into AssemblyPrograms.
	// Then we adjust the new AssemblyProgram to make it as much like the old one
	// as possible, before converting the AssemblyPrograms to EncodedPrograms and
	// serializing them.
	Status Transform(SourceStreamSet* corrected_parameters,
	SinkStreamSet* old_transformed_element,
	SinkStreamSet* new_transformed_element) {
	// Don't expect any corrected parameters.
	if (!corrected_parameters->Empty())
	return C_GENERAL_ERROR;

	// Generate old version of program using \|corrected_parameters\|.
	// TODO(sra): refactor to use same code from patcher_.
	AssemblyProgram* old_program = NULL;
	Status old_parse_status =
	ParseDetectedExecutable(old_element_->region().start(),
	old_element_->region().length(),
	&old_program);
	if (old_parse_status != C_OK) {
	LOG(ERROR) << "Cannot parse as WinPE " << old_element_->Name();
	return old_parse_status;
	}

	AssemblyProgram* new_program = NULL;
	Status new_parse_status =
	ParseDetectedExecutable(new_element_->region().start(),
	new_element_->region().length(),
	&new_program);
	if (new_parse_status != C_OK) {
	DeleteAssemblyProgram(old_program);
	LOG(ERROR) << "Cannot parse as WinPE " << new_element_->Name();
	return new_parse_status;
	}

	// Trim labels below a certain threshold
	Status trim_old_status = TrimLabels(old_program);
	if (trim_old_status != C_OK) {
	DeleteAssemblyProgram(old_program);
	return trim_old_status;
	}

	Status trim_new_status = TrimLabels(new_program);
	if (trim_new_status != C_OK) {
	DeleteAssemblyProgram(new_program);
	return trim_new_status;
	}

	EncodedProgram* old_encoded = NULL;
	Status old_encode_status = Encode(old_program, &old_encoded);
	if (old_encode_status != C_OK) {
	DeleteAssemblyProgram(old_program);
	return old_encode_status;
	}

	Status old_write_status =
	WriteEncodedProgram(old_encoded, old_transformed_element);
	DeleteEncodedProgram(old_encoded);
	if (old_write_status != C_OK) {
	DeleteAssemblyProgram(old_program);
	return old_write_status;
	}

	Status adjust_status = Adjust(*old_program, new_program);
	DeleteAssemblyProgram(old_program);
	if (adjust_status != C_OK) {
	DeleteAssemblyProgram(new_program);
	return adjust_status;
	}

	EncodedProgram* new_encoded = NULL;
	Status new_encode_status = Encode(new_program, &new_encoded);
	DeleteAssemblyProgram(new_program);
	if (new_encode_status != C_OK)
	return new_encode_status;

	Status new_write_status =
	WriteEncodedProgram(new_encoded, new_transformed_element);
	DeleteEncodedProgram(new_encoded);
	if (new_write_status != C_OK)
	return new_write_status;

	return C_OK;
	}

	Status Reform(SourceStreamSet* transformed_element,
	SinkStream* reformed_element) {
	return TransformationPatchGenerator::Reform(transformed_element,
	reformed_element);
	}

	private:
	virtual ~PatchGeneratorX86_32() { }

	ExecutableType kind_;

	DISALLOW_COPY_AND_ASSIGN(PatchGeneratorX86_32);
	};

	} // namespace courgette
	#endif // COURGETTE_WIN32_X86_GENERATOR_H_