lib/Target/Mips/MipsLDBackend.h - platform/frameworks/compile/mclinker - Git at Google

 //===- MipsLDBackend.h ----------------------------------------------------===//
 //
 //                     The MCLinker Project
 //
 // This file is distributed under the University of Illinois Open Source
 // License. See LICENSE.TXT for details.
 //
 //===----------------------------------------------------------------------===//
 #ifndef TARGET_MIPS_MIPSLDBACKEND_H_
 #define TARGET_MIPS_MIPSLDBACKEND_H_
 #include <llvm/Support/ELF.h>
 #include "mcld/Target/GNULDBackend.h"
 #include "MipsAbiFlags.h"
 #include "MipsELFDynamic.h"
 #include "MipsGOT.h"
 #include "MipsGOTPLT.h"
 #include "MipsPLT.h"

 namespace mcld {

 class LinkerConfig;
 class MemoryArea;
 class MipsGNUInfo;
 class OutputRelocSection;
 class SectionMap;

 /** \class MipsGNULDBackend
  *  \brief Base linker backend of Mips target of GNU ELF format.
  */
 class MipsGNULDBackend : public GNULDBackend {
  public:
   typedef std::vector<LDSymbol*> SymbolListType;

  public:
   MipsGNULDBackend(const LinkerConfig& pConfig, MipsGNUInfo* pInfo);
   ~MipsGNULDBackend();

   bool needsLA25Stub(Relocation::Type pType, const mcld::ResolveInfo* pSym);

   void addNonPICBranchSym(ResolveInfo* rsym);
   bool hasNonPICBranch(const ResolveInfo* rsym) const;

  public:
   /// initTargetSections - initialize target dependent sections in output
   void initTargetSections(Module& pModule, ObjectBuilder& pBuilder);

   /// initTargetSymbols - initialize target dependent symbols in output.
   void initTargetSymbols(IRBuilder& pBuilder, Module& pModule);

   /// getRelocator - return relocator.
   const Relocator* getRelocator() const;
   Relocator* getRelocator();

   /// preLayout - Backend can do any needed modification before layout
   void doPreLayout(IRBuilder& pBuilder);

   /// postLayout - Backend can do any needed modification after layout
   void doPostLayout(Module& pModule, IRBuilder& pBuilder);

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

   /// dynamic - the dynamic section of the target machine.
   /// Use co-variant return type to return its own dynamic section.
   const MipsELFDynamic& 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 pSection - the given LDSection
   /// @param pRegion - the region to write out data
   /// @return the size of the table in the file.
   uint64_t emitSectionData(const LDSection& pSection,
                            MemoryRegion& pRegion) const;

   /// hasEntryInStrTab - symbol has an entry in a .strtab
   bool hasEntryInStrTab(const LDSymbol& pSym) const;

   /// orderSymbolTable - order symbol table before emitting
   void orderSymbolTable(Module& pModule);

   /// readSection - read a target dependent section.
   bool readSection(Input& pInput, SectionData& pSD);

   MipsGOT& getGOT();
   const MipsGOT& getGOT() const;

   MipsPLT& getPLT();
   const MipsPLT& getPLT() const;

   MipsGOTPLT& getGOTPLT();
   const MipsGOTPLT& getGOTPLT() const;

   OutputRelocSection& getRelPLT();
   const OutputRelocSection& getRelPLT() const;

   OutputRelocSection& getRelDyn();
   const OutputRelocSection& getRelDyn() const;

   LDSymbol* getGOTSymbol() { return m_pGOTSymbol; }
   const LDSymbol* getGOTSymbol() const { return m_pGOTSymbol; }

   LDSymbol* getGpDispSymbol() { return m_pGpDispSymbol; }
   const LDSymbol* getGpDispSymbol() const { return m_pGpDispSymbol; }

   SymbolListType& getGlobalGOTSyms() { return m_GlobalGOTSyms; }
   const SymbolListType& getGlobalGOTSyms() const { return m_GlobalGOTSyms; }

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

   /// finalizeSymbol - finalize the symbol value
   bool finalizeTargetSymbols();

   /// allocateCommonSymbols - allocate common symbols in the corresponding
   /// sections.
   bool allocateCommonSymbols(Module& pModule);

   /// getTPOffset - return TP_OFFSET against the SHF_TLS
   /// section in the specified input.
   uint64_t getTPOffset(const Input& pInput) const;

   /// getDTPOffset - return DTP_OFFSET against the SHF_TLS
   /// section in the specified input.
   uint64_t getDTPOffset(const Input& pInput) const;

   /// getGP0 - the gp value used to create the relocatable objects
   /// in the specified input.
   uint64_t getGP0(const Input& pInput) const;

  private:
   void defineGOTSymbol(IRBuilder& pBuilder);
   void defineGOTPLTSymbol(IRBuilder& pBuilder);

   bool relaxRelocation(IRBuilder& pBuilder, Relocation& pRel);

   /// emitSymbol32 - emit an ELF32 symbol, override parent's function
   void emitSymbol32(llvm::ELF::Elf32_Sym& pSym32,
                     LDSymbol& pSymbol,
                     char* pStrtab,
                     size_t pStrtabsize,
                     size_t pSymtabIdx);

   /// doCreateProgramHdrs - backend can implement this function to create the
   /// target-dependent segments
   void doCreateProgramHdrs(Module& pModule);

   /// mayRelax - Backends should override this function if they need relaxation
   bool mayRelax() { return true; }

   /// doRelax - Backend can orevride this function to add its relaxation
   /// implementation. Return true if the output (e.g., .text) is "relaxed"
   /// (i.e. layout is changed), and set pFinished to true if everything is fit,
   /// otherwise set it to false.
   bool doRelax(Module& pModule, IRBuilder& pBuilder, bool& pFinished);

   /// initTargetStubs
   bool initTargetStubs();

   /// readRelocation - read ELF32_Rel entry
   bool readRelocation(const llvm::ELF::Elf32_Rel& pRel,
                       Relocation::Type& pType,
                       uint32_t& pSymIdx,
                       uint32_t& pOffset) const;

   /// readRelocation - read ELF32_Rela entry
   bool readRelocation(const llvm::ELF::Elf32_Rela& pRel,
                       Relocation::Type& pType,
                       uint32_t& pSymIdx,
                       uint32_t& pOffset,
                       int32_t& pAddend) const;

   /// readRelocation - read ELF64_Rel entry
   bool readRelocation(const llvm::ELF::Elf64_Rel& pRel,
                       Relocation::Type& pType,
                       uint32_t& pSymIdx,
                       uint64_t& pOffset) const;

   /// readRel - read ELF64_Rela entry
   bool readRelocation(const llvm::ELF::Elf64_Rela& pRel,
                       Relocation::Type& pType,
                       uint32_t& pSymIdx,
                       uint64_t& pOffset,
                       int64_t& pAddend) const;

   /// emitRelocation - write data to the ELF32_Rel entry
   void emitRelocation(llvm::ELF::Elf32_Rel& pRel,
                       Relocation::Type pType,
                       uint32_t pSymIdx,
                       uint32_t pOffset) const;

   /// emitRelocation - write data to the ELF32_Rela entry
   void emitRelocation(llvm::ELF::Elf32_Rela& pRel,
                       Relocation::Type pType,
                       uint32_t pSymIdx,
                       uint32_t pOffset,
                       int32_t pAddend) const;

   /// emitRelocation - write data to the ELF64_Rel entry
   void emitRelocation(llvm::ELF::Elf64_Rel& pRel,
                       Relocation::Type pType,
                       uint32_t pSymIdx,
                       uint64_t pOffset) const;

   /// emitRelocation - write data to the ELF64_Rela entry
   void emitRelocation(llvm::ELF::Elf64_Rela& pRel,
                       Relocation::Type pType,
                       uint32_t pSymIdx,
                       uint64_t pOffset,
                       int64_t pAddend) const;

   /// preMergeSections - hooks to be executed before merging sections
   void preMergeSections(Module& pModule);

   /// mergeSection - merge target dependent sections
   bool mergeSection(Module& pModule, const Input& pInput, LDSection& pSection);

  protected:
   virtual void mergeFlags(Input& pInput, const char* ELF_hdr);

  private:
   typedef llvm::DenseSet<const ResolveInfo*> ResolveInfoSetType;
   typedef llvm::DenseMap<const Input*, llvm::ELF::Elf64_Addr> InputNumMapType;
   typedef llvm::DenseMap<const Input*, uint64_t> ElfFlagsMapType;

  protected:
   Relocator* m_pRelocator;
   MipsGOT* m_pGOT;        // .got
   MipsPLT* m_pPLT;        // .plt
   MipsGOTPLT* m_pGOTPLT;  // .got.plt

  private:
   MipsGNUInfo& m_pInfo;
   llvm::Optional<MipsAbiFlags> m_pAbiInfo;

   OutputRelocSection* m_pRelPlt;  // .rel.plt
   OutputRelocSection* m_pRelDyn;  // .rel.dyn

   MipsELFDynamic* m_pDynamic;
   LDSection* m_psdata;
   LDSection* m_pAbiFlags;
   LDSymbol* m_pGOTSymbol;
   LDSymbol* m_pPLTSymbol;
   LDSymbol* m_pGpDispSymbol;

   SymbolListType m_GlobalGOTSyms;
   ResolveInfoSetType m_HasNonPICBranchSyms;
   InputNumMapType m_GP0Map;
   InputNumMapType m_TpOffsetMap;
   InputNumMapType m_DtpOffsetMap;
   ElfFlagsMapType m_ElfFlagsMap;

   void moveSectionData(SectionData& pFrom, SectionData& pTo);
   void saveTPOffset(const Input& pInput);
 };

 /** \class Mips32GNULDBackend
  *  \brief Base linker backend of Mips 32-bit target of GNU ELF format.
  */
 class Mips32GNULDBackend : public MipsGNULDBackend {
  public:
   Mips32GNULDBackend(const LinkerConfig& pConfig, MipsGNUInfo* pInfo);

  private:
   // MipsGNULDBackend

   bool initRelocator();
   void initTargetSections(Module& pModule, ObjectBuilder& pBuilder);
   size_t getRelEntrySize();
   size_t getRelaEntrySize();
 };

 /** \class Mips64GNULDBackend
  *  \brief Base linker backend of Mips 64-bit target of GNU ELF format.
  */
 class Mips64GNULDBackend : public MipsGNULDBackend {
  public:
   Mips64GNULDBackend(const LinkerConfig& pConfig, MipsGNUInfo* pInfo);

  private:
   // MipsGNULDBackend

   bool initRelocator();
   void initTargetSections(Module& pModule, ObjectBuilder& pBuilder);
   size_t getRelEntrySize();
   size_t getRelaEntrySize();
 };

 }  // namespace mcld

 #endif  // TARGET_MIPS_MIPSLDBACKEND_H_
	//===- MipsLDBackend.h ----------------------------------------------------===//
	//
	// The MCLinker Project
	//
	// This file is distributed under the University of Illinois Open Source
	// License. See LICENSE.TXT for details.
	//
	//===----------------------------------------------------------------------===//
	#ifndef TARGET_MIPS_MIPSLDBACKEND_H_
	#define TARGET_MIPS_MIPSLDBACKEND_H_
	#include <llvm/Support/ELF.h>
	#include "mcld/Target/GNULDBackend.h"
	#include "MipsAbiFlags.h"
	#include "MipsELFDynamic.h"
	#include "MipsGOT.h"
	#include "MipsGOTPLT.h"
	#include "MipsPLT.h"

	namespace mcld {

	class LinkerConfig;
	class MemoryArea;
	class MipsGNUInfo;
	class OutputRelocSection;
	class SectionMap;

	/** \class MipsGNULDBackend
	* \brief Base linker backend of Mips target of GNU ELF format.
	*/
	class MipsGNULDBackend : public GNULDBackend {
	public:
	typedef std::vector<LDSymbol*> SymbolListType;

	public:
	MipsGNULDBackend(const LinkerConfig& pConfig, MipsGNUInfo* pInfo);
	~MipsGNULDBackend();

	bool needsLA25Stub(Relocation::Type pType, const mcld::ResolveInfo* pSym);

	void addNonPICBranchSym(ResolveInfo* rsym);
	bool hasNonPICBranch(const ResolveInfo* rsym) const;

	public:
	/// initTargetSections - initialize target dependent sections in output
	void initTargetSections(Module& pModule, ObjectBuilder& pBuilder);

	/// initTargetSymbols - initialize target dependent symbols in output.
	void initTargetSymbols(IRBuilder& pBuilder, Module& pModule);

	/// getRelocator - return relocator.
	const Relocator* getRelocator() const;
	Relocator* getRelocator();

	/// preLayout - Backend can do any needed modification before layout
	void doPreLayout(IRBuilder& pBuilder);

	/// postLayout - Backend can do any needed modification after layout
	void doPostLayout(Module& pModule, IRBuilder& pBuilder);

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

	/// dynamic - the dynamic section of the target machine.
	/// Use co-variant return type to return its own dynamic section.
	const MipsELFDynamic& 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 pSection - the given LDSection
	/// @param pRegion - the region to write out data
	/// @return the size of the table in the file.
	uint64_t emitSectionData(const LDSection& pSection,
	MemoryRegion& pRegion) const;

	/// hasEntryInStrTab - symbol has an entry in a .strtab
	bool hasEntryInStrTab(const LDSymbol& pSym) const;

	/// orderSymbolTable - order symbol table before emitting
	void orderSymbolTable(Module& pModule);

	/// readSection - read a target dependent section.
	bool readSection(Input& pInput, SectionData& pSD);

	MipsGOT& getGOT();
	const MipsGOT& getGOT() const;

	MipsPLT& getPLT();
	const MipsPLT& getPLT() const;

	MipsGOTPLT& getGOTPLT();
	const MipsGOTPLT& getGOTPLT() const;

	OutputRelocSection& getRelPLT();
	const OutputRelocSection& getRelPLT() const;

	OutputRelocSection& getRelDyn();
	const OutputRelocSection& getRelDyn() const;

	LDSymbol* getGOTSymbol() { return m_pGOTSymbol; }
	const LDSymbol* getGOTSymbol() const { return m_pGOTSymbol; }

	LDSymbol* getGpDispSymbol() { return m_pGpDispSymbol; }
	const LDSymbol* getGpDispSymbol() const { return m_pGpDispSymbol; }

	SymbolListType& getGlobalGOTSyms() { return m_GlobalGOTSyms; }
	const SymbolListType& getGlobalGOTSyms() const { return m_GlobalGOTSyms; }

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

	/// finalizeSymbol - finalize the symbol value
	bool finalizeTargetSymbols();

	/// allocateCommonSymbols - allocate common symbols in the corresponding
	/// sections.
	bool allocateCommonSymbols(Module& pModule);

	/// getTPOffset - return TP_OFFSET against the SHF_TLS
	/// section in the specified input.
	uint64_t getTPOffset(const Input& pInput) const;

	/// getDTPOffset - return DTP_OFFSET against the SHF_TLS
	/// section in the specified input.
	uint64_t getDTPOffset(const Input& pInput) const;

	/// getGP0 - the gp value used to create the relocatable objects
	/// in the specified input.
	uint64_t getGP0(const Input& pInput) const;

	private:
	void defineGOTSymbol(IRBuilder& pBuilder);
	void defineGOTPLTSymbol(IRBuilder& pBuilder);

	bool relaxRelocation(IRBuilder& pBuilder, Relocation& pRel);

	/// emitSymbol32 - emit an ELF32 symbol, override parent's function
	void emitSymbol32(llvm::ELF::Elf32_Sym& pSym32,
	LDSymbol& pSymbol,
	char* pStrtab,
	size_t pStrtabsize,
	size_t pSymtabIdx);

	/// doCreateProgramHdrs - backend can implement this function to create the
	/// target-dependent segments
	void doCreateProgramHdrs(Module& pModule);

	/// mayRelax - Backends should override this function if they need relaxation
	bool mayRelax() { return true; }

	/// doRelax - Backend can orevride this function to add its relaxation
	/// implementation. Return true if the output (e.g., .text) is "relaxed"
	/// (i.e. layout is changed), and set pFinished to true if everything is fit,
	/// otherwise set it to false.
	bool doRelax(Module& pModule, IRBuilder& pBuilder, bool& pFinished);

	/// initTargetStubs
	bool initTargetStubs();

	/// readRelocation - read ELF32_Rel entry
	bool readRelocation(const llvm::ELF::Elf32_Rel& pRel,
	Relocation::Type& pType,
	uint32_t& pSymIdx,
	uint32_t& pOffset) const;

	/// readRelocation - read ELF32_Rela entry
	bool readRelocation(const llvm::ELF::Elf32_Rela& pRel,
	Relocation::Type& pType,
	uint32_t& pSymIdx,
	uint32_t& pOffset,
	int32_t& pAddend) const;

	/// readRelocation - read ELF64_Rel entry
	bool readRelocation(const llvm::ELF::Elf64_Rel& pRel,
	Relocation::Type& pType,
	uint32_t& pSymIdx,
	uint64_t& pOffset) const;

	/// readRel - read ELF64_Rela entry
	bool readRelocation(const llvm::ELF::Elf64_Rela& pRel,
	Relocation::Type& pType,
	uint32_t& pSymIdx,
	uint64_t& pOffset,
	int64_t& pAddend) const;

	/// emitRelocation - write data to the ELF32_Rel entry
	void emitRelocation(llvm::ELF::Elf32_Rel& pRel,
	Relocation::Type pType,
	uint32_t pSymIdx,
	uint32_t pOffset) const;

	/// emitRelocation - write data to the ELF32_Rela entry
	void emitRelocation(llvm::ELF::Elf32_Rela& pRel,
	Relocation::Type pType,
	uint32_t pSymIdx,
	uint32_t pOffset,
	int32_t pAddend) const;

	/// emitRelocation - write data to the ELF64_Rel entry
	void emitRelocation(llvm::ELF::Elf64_Rel& pRel,
	Relocation::Type pType,
	uint32_t pSymIdx,
	uint64_t pOffset) const;

	/// emitRelocation - write data to the ELF64_Rela entry
	void emitRelocation(llvm::ELF::Elf64_Rela& pRel,
	Relocation::Type pType,
	uint32_t pSymIdx,
	uint64_t pOffset,
	int64_t pAddend) const;

	/// preMergeSections - hooks to be executed before merging sections
	void preMergeSections(Module& pModule);

	/// mergeSection - merge target dependent sections
	bool mergeSection(Module& pModule, const Input& pInput, LDSection& pSection);

	protected:
	virtual void mergeFlags(Input& pInput, const char* ELF_hdr);

	private:
	typedef llvm::DenseSet<const ResolveInfo*> ResolveInfoSetType;
	typedef llvm::DenseMap<const Input*, llvm::ELF::Elf64_Addr> InputNumMapType;
	typedef llvm::DenseMap<const Input*, uint64_t> ElfFlagsMapType;

	protected:
	Relocator* m_pRelocator;
	MipsGOT* m_pGOT; // .got
	MipsPLT* m_pPLT; // .plt
	MipsGOTPLT* m_pGOTPLT; // .got.plt

	private:
	MipsGNUInfo& m_pInfo;
	llvm::Optional<MipsAbiFlags> m_pAbiInfo;

	OutputRelocSection* m_pRelPlt; // .rel.plt
	OutputRelocSection* m_pRelDyn; // .rel.dyn

	MipsELFDynamic* m_pDynamic;
	LDSection* m_psdata;
	LDSection* m_pAbiFlags;
	LDSymbol* m_pGOTSymbol;
	LDSymbol* m_pPLTSymbol;
	LDSymbol* m_pGpDispSymbol;

	SymbolListType m_GlobalGOTSyms;
	ResolveInfoSetType m_HasNonPICBranchSyms;
	InputNumMapType m_GP0Map;
	InputNumMapType m_TpOffsetMap;
	InputNumMapType m_DtpOffsetMap;
	ElfFlagsMapType m_ElfFlagsMap;

	void moveSectionData(SectionData& pFrom, SectionData& pTo);
	void saveTPOffset(const Input& pInput);
	};

	/** \class Mips32GNULDBackend
	* \brief Base linker backend of Mips 32-bit target of GNU ELF format.
	*/
	class Mips32GNULDBackend : public MipsGNULDBackend {
	public:
	Mips32GNULDBackend(const LinkerConfig& pConfig, MipsGNUInfo* pInfo);

	private:
	// MipsGNULDBackend

	bool initRelocator();
	void initTargetSections(Module& pModule, ObjectBuilder& pBuilder);
	size_t getRelEntrySize();
	size_t getRelaEntrySize();
	};

	/** \class Mips64GNULDBackend
	* \brief Base linker backend of Mips 64-bit target of GNU ELF format.
	*/
	class Mips64GNULDBackend : public MipsGNULDBackend {
	public:
	Mips64GNULDBackend(const LinkerConfig& pConfig, MipsGNUInfo* pInfo);

	private:
	// MipsGNULDBackend

	bool initRelocator();
	void initTargetSections(Module& pModule, ObjectBuilder& pBuilder);
	size_t getRelEntrySize();
	size_t getRelaEntrySize();
	};

	} // namespace mcld

	#endif // TARGET_MIPS_MIPSLDBACKEND_H_