include/mcld/LD/EhFrame.h - platform/frameworks/compile/mclinker - Git at Google

 //===- EhFrame.h ----------------------------------------------------------===//
 //
 //                     The MCLinker Project
 //
 // This file is distributed under the University of Illinois Open Source
 // License. See LICENSE.TXT for details.
 //
 //===----------------------------------------------------------------------===//
 #ifndef MCLD_LD_EH_FRAME_H
 #define MCLD_LD_EH_FRAME_H
 #ifdef ENABLE_UNITTEST
 #include <gtest.h>
 #endif

 #include <vector>
 #include <mcld/Fragment/RegionFragment.h>

 namespace mcld {

 class LDSection;
 class SectionData;

 /** \class EhFrame
  *  \brief EhFrame represents .eh_frame section
  */
 class EhFrame
 {
 public:
   /** \class CIE
    *  \brief Common Information Entry.
    *  The CIE structure refers to LSB Core Spec 4.1, chap.10.6. Exception Frames.
    */
   class CIE : public RegionFragment
   {
   public:
     CIE(MemoryRegion& pRegion);

     void setFDEEncode(uint8_t pEncode) { m_FDEEncode = pEncode; }
     uint8_t getFDEEncode() const { return m_FDEEncode; }

   private:
     uint8_t m_FDEEncode;
   };

   /** \class FDE
    *  \brief Frame Description Entry
    *  The FDE structure refers to LSB Core Spec 4.1, chap.10.6. Exception Frames.
    */
   class FDE : public RegionFragment
   {
   public:
     FDE(MemoryRegion& pRegion,
         const CIE& pCIE,
         uint32_t pDataStart);

     const CIE& getCIE() const { return m_CIE; }

     uint32_t getDataStart() const { return m_DataStart; }
   private:
     const CIE& m_CIE;
     uint32_t m_DataStart;
   };

   typedef std::vector<CIE*> CIEList;

   // cie_iterator and const_cie_iterator must be a kind of random access iterator
   typedef CIEList::iterator cie_iterator;
   typedef CIEList::const_iterator const_cie_iterator;

   typedef std::vector<FDE*> FDEList;

   // fde_iterator and const_fde_iterator must be a kind of random access iterator
   typedef FDEList::iterator fde_iterator;
   typedef FDEList::const_iterator const_fde_iterator;

 public:
   EhFrame(LDSection& pSection);

   ~EhFrame();

   /// merge - move all data from pOther to this object.
   EhFrame& merge(EhFrame& pOther);

   const LDSection& getSection() const { return m_Section; }
   LDSection&       getSection()       { return m_Section; }

   const SectionData& getSectionData() const { return *m_pSectionData; }
   SectionData&       getSectionData()       { return *m_pSectionData; }

   // -----  fragment  ----- //
   /// addFragment - when we start treating CIEs and FDEs as regular fragments,
   /// we call this function instead of addCIE() and addFDE().
   void addFragment(RegionFragment& pFrag);

   /// addCIE - add a CIE entry in EhFrame
   void addCIE(CIE& pCIE);

   /// addFDE - add a FDE entry in EhFrame
   void addFDE(FDE& pFDE);

   // -----  CIE  ----- //
   const_cie_iterator cie_begin() const { return m_CIEs.begin(); }
   cie_iterator       cie_begin()       { return m_CIEs.begin(); }
   const_cie_iterator cie_end  () const { return m_CIEs.end(); }
   cie_iterator       cie_end  ()       { return m_CIEs.end(); }

   const CIE& cie_front() const { return *m_CIEs.front(); }
   CIE&       cie_front()       { return *m_CIEs.front(); }
   const CIE& cie_back () const { return *m_CIEs.back(); }
   CIE&       cie_back ()       { return *m_CIEs.back(); }

   size_t numOfCIEs() const { return m_CIEs.size(); }

   // -----  FDE  ----- //
   const_fde_iterator fde_begin() const { return m_FDEs.begin(); }
   fde_iterator       fde_begin()       { return m_FDEs.begin(); }
   const_fde_iterator fde_end  () const { return m_FDEs.end(); }
   fde_iterator       fde_end  ()       { return m_FDEs.end(); }

   const FDE& fde_front() const { return *m_FDEs.front(); }
   FDE&       fde_front()       { return *m_FDEs.front(); }
   const FDE& fde_back () const { return *m_FDEs.back(); }
   FDE&       fde_back ()       { return *m_FDEs.back(); }

   size_t numOfFDEs() const { return m_FDEs.size(); }

 private:
   LDSection& m_Section;
   SectionData* m_pSectionData;

   CIEList m_CIEs;
   FDEList m_FDEs;
 };

 } // namespace of mcld

 #endif
	//===- EhFrame.h ----------------------------------------------------------===//
	//
	// The MCLinker Project
	//
	// This file is distributed under the University of Illinois Open Source
	// License. See LICENSE.TXT for details.
	//
	//===----------------------------------------------------------------------===//
	#ifndef MCLD_LD_EH_FRAME_H
	#define MCLD_LD_EH_FRAME_H
	#ifdef ENABLE_UNITTEST
	#include <gtest.h>
	#endif

	#include <vector>
	#include <mcld/Fragment/RegionFragment.h>

	namespace mcld {

	class LDSection;
	class SectionData;

	/** \class EhFrame
	* \brief EhFrame represents .eh_frame section
	*/
	class EhFrame
	{
	public:
	/** \class CIE
	* \brief Common Information Entry.
	* The CIE structure refers to LSB Core Spec 4.1, chap.10.6. Exception Frames.
	*/
	class CIE : public RegionFragment
	{
	public:
	CIE(MemoryRegion& pRegion);

	void setFDEEncode(uint8_t pEncode) { m_FDEEncode = pEncode; }
	uint8_t getFDEEncode() const { return m_FDEEncode; }

	private:
	uint8_t m_FDEEncode;
	};

	/** \class FDE
	* \brief Frame Description Entry
	* The FDE structure refers to LSB Core Spec 4.1, chap.10.6. Exception Frames.
	*/
	class FDE : public RegionFragment
	{
	public:
	FDE(MemoryRegion& pRegion,
	const CIE& pCIE,
	uint32_t pDataStart);

	const CIE& getCIE() const { return m_CIE; }

	uint32_t getDataStart() const { return m_DataStart; }
	private:
	const CIE& m_CIE;
	uint32_t m_DataStart;
	};

	typedef std::vector<CIE*> CIEList;

	// cie_iterator and const_cie_iterator must be a kind of random access iterator
	typedef CIEList::iterator cie_iterator;
	typedef CIEList::const_iterator const_cie_iterator;

	typedef std::vector<FDE*> FDEList;

	// fde_iterator and const_fde_iterator must be a kind of random access iterator
	typedef FDEList::iterator fde_iterator;
	typedef FDEList::const_iterator const_fde_iterator;

	public:
	EhFrame(LDSection& pSection);

	~EhFrame();

	/// merge - move all data from pOther to this object.
	EhFrame& merge(EhFrame& pOther);

	const LDSection& getSection() const { return m_Section; }
	LDSection& getSection() { return m_Section; }

	const SectionData& getSectionData() const { return *m_pSectionData; }
	SectionData& getSectionData() { return *m_pSectionData; }

	// ----- fragment ----- //
	/// addFragment - when we start treating CIEs and FDEs as regular fragments,
	/// we call this function instead of addCIE() and addFDE().
	void addFragment(RegionFragment& pFrag);

	/// addCIE - add a CIE entry in EhFrame
	void addCIE(CIE& pCIE);

	/// addFDE - add a FDE entry in EhFrame
	void addFDE(FDE& pFDE);

	// ----- CIE ----- //
	const_cie_iterator cie_begin() const { return m_CIEs.begin(); }
	cie_iterator cie_begin() { return m_CIEs.begin(); }
	const_cie_iterator cie_end () const { return m_CIEs.end(); }
	cie_iterator cie_end () { return m_CIEs.end(); }

	const CIE& cie_front() const { return *m_CIEs.front(); }
	CIE& cie_front() { return *m_CIEs.front(); }
	const CIE& cie_back () const { return *m_CIEs.back(); }
	CIE& cie_back () { return *m_CIEs.back(); }

	size_t numOfCIEs() const { return m_CIEs.size(); }

	// ----- FDE ----- //
	const_fde_iterator fde_begin() const { return m_FDEs.begin(); }
	fde_iterator fde_begin() { return m_FDEs.begin(); }
	const_fde_iterator fde_end () const { return m_FDEs.end(); }
	fde_iterator fde_end () { return m_FDEs.end(); }

	const FDE& fde_front() const { return *m_FDEs.front(); }
	FDE& fde_front() { return *m_FDEs.front(); }
	const FDE& fde_back () const { return *m_FDEs.back(); }
	FDE& fde_back () { return *m_FDEs.back(); }

	size_t numOfFDEs() const { return m_FDEs.size(); }

	private:
	LDSection& m_Section;
	SectionData* m_pSectionData;

	CIEList m_CIEs;
	FDEList m_FDEs;
	};

	} // namespace of mcld

	#endif