/* * File: DataTarget.h * * Copyright (c) Freescale Semiconductor, Inc. All rights reserved. * See included license file for license details. */ #if !defined(_DataTarget_h_) #define _DataTarget_h_ #include "stdafx.h" #include "DataSource.h" namespace elftosb { // Forward declaration class DataSource; /*! * \brief Abstract base class for the target address or range of data. * * Targets at the most basic level have a single address, and potentially * an address range. Unbounded targets have a beginning address but no * specific end address, while bounded targets do have an end address. * * Users of a data target can access the begin and end addresses directly. * However, the most powerful way to use a target is with the * getRangeForSegment() method. This method returns the target address range * for a segment of a data source. The value of the resulting range can be * completely dependent upon the segment's properties, those of its data * source, and the type of data target. * * \see elftosb::DataSource */ class DataTarget { public: //! \brief Simple structure that describes an addressed region of memory. //! \todo Decide if the end address is inclusive or not. struct AddressRange { uint32_t m_begin; uint32_t m_end; }; public: //! \brief Default constructor. DataTarget() : m_source(0) {} //! \brief Destructor. virtual ~DataTarget() {} //! \brief Whether the target is just a single address or has an end to it. virtual bool isBounded() { return false; } virtual uint32_t getBeginAddress() { return 0; } virtual uint32_t getEndAddress() { return 0; } //! \brief Return the address range for a segment of a data source. virtual DataTarget::AddressRange getRangeForSegment(DataSource & source, DataSource::Segment & segment)=0; inline void setSource(DataSource * source) { m_source = source; } inline DataSource * getSource() const { return m_source; } protected: DataSource * m_source; //!< Corresponding data source for this target. }; /*! * \brief Target with a constant values for the addresses. * * This target type supports can be both bounded and unbounded. It always has * at least one address, the beginning address. The end address is optional, * and if not provided makes the target unbounded. */ class ConstantDataTarget : public DataTarget { public: //! \brief Constructor taking only a begin address. ConstantDataTarget(uint32_t start) : DataTarget(), m_begin(start), m_end(0), m_hasEnd(false) {} //! \brief Constructor taking both begin and end addresses. ConstantDataTarget(uint32_t start, uint32_t end) : DataTarget(), m_begin(start), m_end(end), m_hasEnd(true) {} //! \brief The target is bounded if an end address was specified. virtual bool isBounded() { return m_hasEnd; } virtual uint32_t getBeginAddress() { return m_begin; } virtual uint32_t getEndAddress() { return m_end; } //! \brief Return the address range for a segment of a data source. virtual DataTarget::AddressRange getRangeForSegment(DataSource & source, DataSource::Segment & segment); protected: uint32_t m_begin; //!< Start address. uint32_t m_end; //!< End address. bool m_hasEnd; //!< Was an end address specified? }; /*! * \brief Target address that is the "natural" location of whatever the source data is. * * The data source used with the target must have a natural location. If * getRangeForSegment() is called with a segment that does not have a natural * location, a semantic_error will be thrown. */ class NaturalDataTarget : public DataTarget { public: //! \brief Default constructor. NaturalDataTarget() : DataTarget() {} //! \brief Natural data targets are bounded by their source's segment lengths. virtual bool isBounded() { return true; } //! \brief Return the address range for a segment of a data source. virtual DataTarget::AddressRange getRangeForSegment(DataSource & source, DataSource::Segment & segment); }; }; // namespace elftosb #endif // _DataTarget_h_