#ifndef COURGETTE_WIN32_X86_PATCHER_H_
#define COURGETTE_WIN32_X86_PATCHER_H_
#include "courgette/ensemble.h"
namespace courgette {
class PatcherX86_32 : public TransformationPatcher {
public:
explicit PatcherX86_32(const Region& region)
: ensemble_region_(region),
base_offset_(0),
base_length_(0) {
}
Status Init(SourceStream* parameter_stream) {
if (!parameter_stream->ReadVarint32(&base_offset_))
return C_BAD_TRANSFORM;
if (!parameter_stream->ReadVarint32(&base_length_))
return C_BAD_TRANSFORM;
if (base_offset_ > ensemble_region_.length())
return C_BAD_TRANSFORM;
if (base_length_ > ensemble_region_.length() - base_offset_)
return C_BAD_TRANSFORM;
return C_OK;
}
Status PredictTransformParameters(SinkStreamSet* predicted_parameters) {
return C_OK;
}
Status Transform(SourceStreamSet* corrected_parameters,
SinkStreamSet* transformed_element) {
Status status;
if (!corrected_parameters->Empty())
return C_GENERAL_ERROR;
AssemblyProgram* program = NULL;
status = ParseDetectedExecutable(ensemble_region_.start() + base_offset_,
base_length_,
&program);
if (status != C_OK)
return status;
Status trim_status = TrimLabels(program);
if (trim_status != C_OK) {
DeleteAssemblyProgram(program);
return trim_status;
}
EncodedProgram* encoded = NULL;
status = Encode(program, &encoded);
DeleteAssemblyProgram(program);
if (status != C_OK)
return status;
status = WriteEncodedProgram(encoded, transformed_element);
DeleteEncodedProgram(encoded);
return status;
}
Status Reform(SourceStreamSet* transformed_element,
SinkStream* reformed_element) {
Status status;
EncodedProgram* encoded_program = NULL;
status = ReadEncodedProgram(transformed_element, &encoded_program);
if (status != C_OK)
return status;
status = Assemble(encoded_program, reformed_element);
DeleteEncodedProgram(encoded_program);
if (status != C_OK)
return status;
return C_OK;
}
private:
Region ensemble_region_;
uint32 base_offset_;
uint32 base_length_;
DISALLOW_COPY_AND_ASSIGN(PatcherX86_32);
};
}
#endif