lib/Target/ARM/ARMLDBackend.h - platform/frameworks/compile/mclinker - Git at Google

 //===- ARMLDBackend.h -----------------------------------------------------===//
 //
 //                     The MCLinker Project
 //
 // This file is distributed under the University of Illinois Open Source
 // License. See LICENSE.TXT for details.
 //
 //===----------------------------------------------------------------------===//
 #ifndef MCLD_ARM_LDBACKEND_H
 #define MCLD_ARM_LDBACKEND_H

 #include "ARMELFDynamic.h"
 #include "ARMGOT.h"
 #include "ARMPLT.h"
 #include <mcld/LD/LDSection.h>
 #include <mcld/Target/GNULDBackend.h>
 #include <mcld/Target/OutputRelocSection.h>

 namespace mcld {

 class MCLDInfo;
 class MCLinker;
 class Output;
 class SectionMap;


 //===----------------------------------------------------------------------===//
 /// ARMGNULDBackend - linker backend of ARM target of GNU ELF format
 ///
 class ARMGNULDBackend : public GNULDBackend
 {
 public:
   ARMGNULDBackend();
   ~ARMGNULDBackend();
 public:
   typedef std::vector<llvm::ELF::Elf32_Dyn*> ELF32DynList;

   /** \enum ReservedEntryType
    *  \brief The reserved entry type of reserved space in ResolveInfo.
    *
    *  This is used for sacnRelocation to record what kinds of entries are
    *  reserved for this resolved symbol
    *
    *  In ARM, there are three kinds of entries, GOT, PLT, and dynamic reloction.
    *  GOT may needs a corresponding relocation to relocate itself, so we
    *  separate GOT to two situations: GOT and GOTRel. Besides, for the same
    *  symbol, there might be two kinds of entries reserved for different location.
    *  For example, reference to the same symbol, one may use GOT and the other may
    *  use dynamic relocation.
    *
    *  bit:  3       2      1     0
    *   | PLT | GOTRel | GOT | Rel |
    *
    *  value    Name         - Description
    *
    *  0000     None         - no reserved entry
    *  0001     ReserveRel   - reserve an dynamic relocation entry
    *  0010     ReserveGOT   - reserve an GOT entry
    *  0011     GOTandRel    - For different relocation, we've reserved GOT and
    *                          Rel for different location.
    *  0100     GOTRel       - reserve an GOT entry and the corresponding Dyncamic
    *                          relocation entry which relocate this GOT entry
    *  0101     GOTRelandRel - For different relocation, we've reserved GOTRel
    *                          and relocation entry for different location.
    *  1000     ReservePLT   - reserve an PLT entry and the corresponding GOT,
    *                          Dynamic relocation entries
    *  1001     PLTandRel    - For different relocation, we've reserved PLT and
    *                          Rel for different location.
    */
   enum ReservedEntryType {
     None         = 0,
     ReserveRel   = 1,
     ReserveGOT   = 2,
     GOTandRel    = 3,
     GOTRel       = 4,
     GOTRelandRel = 5,
     ReservePLT   = 8,
     PLTandRel    = 9
   };

 public:
   /// initTargetSectionMap - initialize target dependent section mapping
   bool initTargetSectionMap(SectionMap& pSectionMap);

   /// initTargetSections - initialize target dependent sections in output.
   void initTargetSections(MCLinker& pLinker);

   /// initTargetSymbols - initialize target dependent symbols in output.
   void initTargetSymbols(MCLinker& pLinker, const Output& pOutput);

   /// initRelocFactory - create and initialize RelocationFactory
   bool initRelocFactory(const MCLinker& pLinker);

   /// getRelocFactory
   RelocationFactory* getRelocFactory();

   /// scanRelocation - determine the empty entries are needed or not and create
   /// the empty entries if needed.
   /// For ARM, following entries are check to create:
   /// - GOT entry (for .got section)
   /// - PLT entry (for .plt section)
   /// - dynamin relocation entries (for .rel.plt and .rel.dyn sections)
   void scanRelocation(Relocation& pReloc,
                       const LDSymbol& pInputSym,
                       MCLinker& pLinker,
                       const MCLDInfo& pLDInfo,
                       const Output& pOutput,
                       const LDSection& pSection);

   uint32_t machine() const
   { return llvm::ELF::EM_ARM; }

   /// OSABI - the value of e_ident[EI_OSABI]
   virtual uint8_t OSABI() const
   { return llvm::ELF::ELFOSABI_NONE; }

   /// ABIVersion - the value of e_ident[EI_ABIVRESION]
   virtual uint8_t ABIVersion() const
   { return 0x0; }

   /// flags - the value of ElfXX_Ehdr::e_flags
   virtual uint64_t flags() const
   { return (llvm::ELF::EF_ARM_EABIMASK & 0x05000000); }

   bool isLittleEndian() const
   { return true; }

   unsigned int bitclass() const
   { return 32; }

   uint64_t defaultTextSegmentAddr() const
   { return 0x8000; }

   /// doPreLayout - Backend can do any needed modification before layout
   void doPreLayout(const Output& pOutput,
                    const MCLDInfo& pInfo,
                    MCLinker& pLinker);

   /// doPostLayout -Backend can do any needed modification after layout
   void doPostLayout(const Output& pOutput,
                     const MCLDInfo& pInfo,
                     MCLinker& pLinker);

   /// dynamic - the dynamic section of the target machine.
   /// Use co-variant return type to return its own dynamic section.
   ARMELFDynamic& dynamic();

   /// dynamic - the dynamic section of the target machine.
   /// Use co-variant return type to return its own dynamic section.
   const ARMELFDynamic& dynamic() const;


   /// emitSectionData - write out the section data into the memory region.
   /// When writers get a LDSection whose kind is LDFileFormat::Target, writers
   /// call back target backend to emit the data.
   ///
   /// Backends handle the target-special tables (plt, gp,...) by themselves.
   /// Backend can put the data of the tables in SectionData directly
   ///  - LDSection.getSectionData can get the section data.
   /// Or, backend can put the data into special data structure
   ///  - backend can maintain its own map<LDSection, table> to get the table
   /// from given LDSection.
   ///
   /// @param pOutput - the output file
   /// @param pSection - the given LDSection
   /// @param pInfo - all options in the command line.
   /// @param pLayout - for comouting the size of fragment
   /// @param pRegion - the region to write out data
   /// @return the size of the table in the file.
   uint64_t emitSectionData(const Output& pOutput,
                            const LDSection& pSection,
                            const MCLDInfo& pInfo,
                            const Layout& pLayout,
                            MemoryRegion& pRegion) const;

   ARMGOT& getGOT();

   const ARMGOT& getGOT() const;

   ARMPLT& getPLT();

   const ARMPLT& getPLT() const;

   OutputRelocSection& getRelDyn();

   const OutputRelocSection& getRelDyn() const;

   OutputRelocSection& getRelPLT();

   const OutputRelocSection& getRelPLT() const;

   /// getTargetSectionOrder - compute the layout order of ARM target sections
   unsigned int getTargetSectionOrder(const Output& pOutput,
                                      const LDSection& pSectHdr,
                                      const MCLDInfo& pInfo) const;

   /// finalizeTargetSymbols - finalize the symbol value
   bool finalizeTargetSymbols(MCLinker& pLinker, const Output& pOutput);

   /// readSection - read target dependent sections
   bool readSection(Input& pInput,
                    MCLinker& pLinker,
                    LDSection& pInputSectHdr);

 private:
   void scanLocalReloc(Relocation& pReloc,
                       const LDSymbol& pInputSym,
                       MCLinker& pLinker,
                       const MCLDInfo& pLDInfo,
                       const Output& pOutput);

   void scanGlobalReloc(Relocation& pReloc,
                        const LDSymbol& pInputSym,
                        MCLinker& pLinker,
                        const MCLDInfo& pLDInfo,
                        const Output& pOutput);

   void checkValidReloc(Relocation& pReloc,
                        const MCLDInfo& pLDInfo,
                        const Output& pOutput) const;

   /// addCopyReloc - add a copy relocation into .rel.dyn for pSym
   /// @param pSym - A resolved copy symbol that defined in BSS section
   void addCopyReloc(ResolveInfo& pSym);

   /// defineSymbolforCopyReloc - allocate a space in BSS section and
   /// and force define the copy of pSym to BSS section
   /// @return the output LDSymbol of the copy symbol
   LDSymbol& defineSymbolforCopyReloc(MCLinker& pLinker,
                                      const ResolveInfo& pSym);

   /// updateAddend - update addend value of the relocation if the
   /// the target symbol is a section symbol. Addend is the offset
   /// in the section. This value should be updated after section
   /// merged.
   void updateAddend(Relocation& pReloc,
                     const LDSymbol& pInputSym,
                     const Layout& pLayout) const;

   void createARMGOT(MCLinker& pLinker, const Output& pOutput);

   /// createARMPLTandRelPLT - create PLT and RELPLT sections.
   /// Because in ELF sh_info in .rel.plt is the shndx of .plt, these two
   /// sections should be create together.
   void createARMPLTandRelPLT(MCLinker& pLinker, const Output& pOutput);

   void createARMRelDyn(MCLinker& pLinker, const Output& pOutput);

 private:
   RelocationFactory* m_pRelocFactory;
   ARMGOT* m_pGOT;
   ARMPLT* m_pPLT;
   /// m_RelDyn - dynamic relocation table of .rel.dyn
   OutputRelocSection* m_pRelDyn;
   /// m_RelPLT - dynamic relocation table of .rel.plt
   OutputRelocSection* m_pRelPLT;

   ARMELFDynamic* m_pDynamic;
   LDSymbol* m_pGOTSymbol;

   //     variable name           :  ELF
   LDSection* m_pEXIDX;           // .ARM.exidx
   LDSection* m_pEXTAB;           // .ARM.extab
   LDSection* m_pAttributes;      // .ARM.attributes
 //  LDSection* m_pPreemptMap;      // .ARM.preemptmap
 //  LDSection* m_pDebugOverlay;    // .ARM.debug_overlay
 //  LDSection* m_pOverlayTable;    // .ARM.overlay_table
 };

 //===----------------------------------------------------------------------===//
 /// ARMMachOLDBackend - linker backend of ARM target of MachO format
 ///
 /**
 class ARMMachOLDBackend : public DarwinARMLDBackend
 {
 public:
   ARMMachOLDBackend();
   ~ARMMachOLDBackend();

 private:
   MCMachOTargetArchiveReader *createTargetArchiveReader() const;
   MCMachOTargetObjectReader *createTargetObjectReader() const;
   MCMachOTargetObjectWriter *createTargetObjectWriter() const;

 };
 **/
 } // namespace of mcld

 #endif
	//===- ARMLDBackend.h -----------------------------------------------------===//
	//
	// The MCLinker Project
	//
	// This file is distributed under the University of Illinois Open Source
	// License. See LICENSE.TXT for details.
	//
	//===----------------------------------------------------------------------===//
	#ifndef MCLD_ARM_LDBACKEND_H
	#define MCLD_ARM_LDBACKEND_H

	#include "ARMELFDynamic.h"
	#include "ARMGOT.h"
	#include "ARMPLT.h"
	#include <mcld/LD/LDSection.h>
	#include <mcld/Target/GNULDBackend.h>
	#include <mcld/Target/OutputRelocSection.h>

	namespace mcld {

	class MCLDInfo;
	class MCLinker;
	class Output;
	class SectionMap;


	//===----------------------------------------------------------------------===//
	/// ARMGNULDBackend - linker backend of ARM target of GNU ELF format
	///
	class ARMGNULDBackend : public GNULDBackend
	{
	public:
	ARMGNULDBackend();
	~ARMGNULDBackend();
	public:
	typedef std::vector<llvm::ELF::Elf32_Dyn*> ELF32DynList;

	/** \enum ReservedEntryType
	* \brief The reserved entry type of reserved space in ResolveInfo.
	*
	* This is used for sacnRelocation to record what kinds of entries are
	* reserved for this resolved symbol
	*
	* In ARM, there are three kinds of entries, GOT, PLT, and dynamic reloction.
	* GOT may needs a corresponding relocation to relocate itself, so we
	* separate GOT to two situations: GOT and GOTRel. Besides, for the same
	* symbol, there might be two kinds of entries reserved for different location.
	* For example, reference to the same symbol, one may use GOT and the other may
	* use dynamic relocation.
	*
	* bit: 3 2 1 0
	* \| PLT \| GOTRel \| GOT \| Rel \|
	*
	* value Name - Description
	*
	* 0000 None - no reserved entry
	* 0001 ReserveRel - reserve an dynamic relocation entry
	* 0010 ReserveGOT - reserve an GOT entry
	* 0011 GOTandRel - For different relocation, we've reserved GOT and
	* Rel for different location.
	* 0100 GOTRel - reserve an GOT entry and the corresponding Dyncamic
	* relocation entry which relocate this GOT entry
	* 0101 GOTRelandRel - For different relocation, we've reserved GOTRel
	* and relocation entry for different location.
	* 1000 ReservePLT - reserve an PLT entry and the corresponding GOT,
	* Dynamic relocation entries
	* 1001 PLTandRel - For different relocation, we've reserved PLT and
	* Rel for different location.
	*/
	enum ReservedEntryType {
	None = 0,
	ReserveRel = 1,
	ReserveGOT = 2,
	GOTandRel = 3,
	GOTRel = 4,
	GOTRelandRel = 5,
	ReservePLT = 8,
	PLTandRel = 9
	};

	public:
	/// initTargetSectionMap - initialize target dependent section mapping
	bool initTargetSectionMap(SectionMap& pSectionMap);

	/// initTargetSections - initialize target dependent sections in output.
	void initTargetSections(MCLinker& pLinker);

	/// initTargetSymbols - initialize target dependent symbols in output.
	void initTargetSymbols(MCLinker& pLinker, const Output& pOutput);

	/// initRelocFactory - create and initialize RelocationFactory
	bool initRelocFactory(const MCLinker& pLinker);

	/// getRelocFactory
	RelocationFactory* getRelocFactory();

	/// scanRelocation - determine the empty entries are needed or not and create
	/// the empty entries if needed.
	/// For ARM, following entries are check to create:
	/// - GOT entry (for .got section)
	/// - PLT entry (for .plt section)
	/// - dynamin relocation entries (for .rel.plt and .rel.dyn sections)
	void scanRelocation(Relocation& pReloc,
	const LDSymbol& pInputSym,
	MCLinker& pLinker,
	const MCLDInfo& pLDInfo,
	const Output& pOutput,
	const LDSection& pSection);

	uint32_t machine() const
	{ return llvm::ELF::EM_ARM; }

	/// OSABI - the value of e_ident[EI_OSABI]
	virtual uint8_t OSABI() const
	{ return llvm::ELF::ELFOSABI_NONE; }

	/// ABIVersion - the value of e_ident[EI_ABIVRESION]
	virtual uint8_t ABIVersion() const
	{ return 0x0; }

	/// flags - the value of ElfXX_Ehdr::e_flags
	virtual uint64_t flags() const
	{ return (llvm::ELF::EF_ARM_EABIMASK & 0x05000000); }

	bool isLittleEndian() const
	{ return true; }

	unsigned int bitclass() const
	{ return 32; }

	uint64_t defaultTextSegmentAddr() const
	{ return 0x8000; }

	/// doPreLayout - Backend can do any needed modification before layout
	void doPreLayout(const Output& pOutput,
	const MCLDInfo& pInfo,
	MCLinker& pLinker);

	/// doPostLayout -Backend can do any needed modification after layout
	void doPostLayout(const Output& pOutput,
	const MCLDInfo& pInfo,
	MCLinker& pLinker);

	/// dynamic - the dynamic section of the target machine.
	/// Use co-variant return type to return its own dynamic section.
	ARMELFDynamic& dynamic();

	/// dynamic - the dynamic section of the target machine.
	/// Use co-variant return type to return its own dynamic section.
	const ARMELFDynamic& dynamic() const;


	/// emitSectionData - write out the section data into the memory region.
	/// When writers get a LDSection whose kind is LDFileFormat::Target, writers
	/// call back target backend to emit the data.
	///
	/// Backends handle the target-special tables (plt, gp,...) by themselves.
	/// Backend can put the data of the tables in SectionData directly
	/// - LDSection.getSectionData can get the section data.
	/// Or, backend can put the data into special data structure
	/// - backend can maintain its own map<LDSection, table> to get the table
	/// from given LDSection.
	///
	/// @param pOutput - the output file
	/// @param pSection - the given LDSection
	/// @param pInfo - all options in the command line.
	/// @param pLayout - for comouting the size of fragment
	/// @param pRegion - the region to write out data
	/// @return the size of the table in the file.
	uint64_t emitSectionData(const Output& pOutput,
	const LDSection& pSection,
	const MCLDInfo& pInfo,
	const Layout& pLayout,
	MemoryRegion& pRegion) const;

	ARMGOT& getGOT();

	const ARMGOT& getGOT() const;

	ARMPLT& getPLT();

	const ARMPLT& getPLT() const;

	OutputRelocSection& getRelDyn();

	const OutputRelocSection& getRelDyn() const;

	OutputRelocSection& getRelPLT();

	const OutputRelocSection& getRelPLT() const;

	/// getTargetSectionOrder - compute the layout order of ARM target sections
	unsigned int getTargetSectionOrder(const Output& pOutput,
	const LDSection& pSectHdr,
	const MCLDInfo& pInfo) const;

	/// finalizeTargetSymbols - finalize the symbol value
	bool finalizeTargetSymbols(MCLinker& pLinker, const Output& pOutput);

	/// readSection - read target dependent sections
	bool readSection(Input& pInput,
	MCLinker& pLinker,
	LDSection& pInputSectHdr);

	private:
	void scanLocalReloc(Relocation& pReloc,
	const LDSymbol& pInputSym,
	MCLinker& pLinker,
	const MCLDInfo& pLDInfo,
	const Output& pOutput);

	void scanGlobalReloc(Relocation& pReloc,
	const LDSymbol& pInputSym,
	MCLinker& pLinker,
	const MCLDInfo& pLDInfo,
	const Output& pOutput);

	void checkValidReloc(Relocation& pReloc,
	const MCLDInfo& pLDInfo,
	const Output& pOutput) const;

	/// addCopyReloc - add a copy relocation into .rel.dyn for pSym
	/// @param pSym - A resolved copy symbol that defined in BSS section
	void addCopyReloc(ResolveInfo& pSym);

	/// defineSymbolforCopyReloc - allocate a space in BSS section and
	/// and force define the copy of pSym to BSS section
	/// @return the output LDSymbol of the copy symbol
	LDSymbol& defineSymbolforCopyReloc(MCLinker& pLinker,
	const ResolveInfo& pSym);

	/// updateAddend - update addend value of the relocation if the
	/// the target symbol is a section symbol. Addend is the offset
	/// in the section. This value should be updated after section
	/// merged.
	void updateAddend(Relocation& pReloc,
	const LDSymbol& pInputSym,
	const Layout& pLayout) const;

	void createARMGOT(MCLinker& pLinker, const Output& pOutput);

	/// createARMPLTandRelPLT - create PLT and RELPLT sections.
	/// Because in ELF sh_info in .rel.plt is the shndx of .plt, these two
	/// sections should be create together.
	void createARMPLTandRelPLT(MCLinker& pLinker, const Output& pOutput);

	void createARMRelDyn(MCLinker& pLinker, const Output& pOutput);

	private:
	RelocationFactory* m_pRelocFactory;
	ARMGOT* m_pGOT;
	ARMPLT* m_pPLT;
	/// m_RelDyn - dynamic relocation table of .rel.dyn
	OutputRelocSection* m_pRelDyn;
	/// m_RelPLT - dynamic relocation table of .rel.plt
	OutputRelocSection* m_pRelPLT;

	ARMELFDynamic* m_pDynamic;
	LDSymbol* m_pGOTSymbol;

	// variable name : ELF
	LDSection* m_pEXIDX; // .ARM.exidx
	LDSection* m_pEXTAB; // .ARM.extab
	LDSection* m_pAttributes; // .ARM.attributes
	// LDSection* m_pPreemptMap; // .ARM.preemptmap
	// LDSection* m_pDebugOverlay; // .ARM.debug_overlay
	// LDSection* m_pOverlayTable; // .ARM.overlay_table
	};

	//===----------------------------------------------------------------------===//
	/// ARMMachOLDBackend - linker backend of ARM target of MachO format
	///
	/**
	class ARMMachOLDBackend : public DarwinARMLDBackend
	{
	public:
	ARMMachOLDBackend();
	~ARMMachOLDBackend();

	private:
	MCMachOTargetArchiveReader *createTargetArchiveReader() const;
	MCMachOTargetObjectReader *createTargetObjectReader() const;
	MCMachOTargetObjectWriter *createTargetObjectWriter() const;

	};
	**/
	} // namespace of mcld

	#endif