include/mcld/Target/GNULDBackend.h - platform/frameworks/compile/mclinker - Git at Google

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

 #include <llvm/Support/ELF.h>
 #include <mcld/ADT/HashTable.h>
 #include <mcld/ADT/HashEntry.h>
 #include <mcld/LD/ELFDynObjFileFormat.h>
 #include <mcld/LD/ELFExecFileFormat.h>
 #include <mcld/LD/ELFObjectFileFormat.h>
 #include <mcld/LD/GNUArchiveReader.h>
 #include <mcld/LD/ELFObjectReader.h>
 #include <mcld/LD/ELFDynObjReader.h>
 #include <mcld/LD/ELFBinaryReader.h>
 #include <mcld/LD/ELFObjectWriter.h>
 #include <mcld/LD/ELFSegment.h>
 #include <mcld/LD/ELFSegmentFactory.h>
 #include <mcld/Target/ELFDynamic.h>
 #include <mcld/Target/GNUInfo.h>

 #include <mcld/Support/GCFactory.h>
 #include <mcld/Module.h>

 namespace mcld {

 class Module;
 class LinkerConfig;
 class IRBuilder;
 class Layout;
 class EhFrameHdr;
 class BranchIslandFactory;
 class StubFactory;
 class GNUInfo;

 /** \class GNULDBackend
  *  \brief GNULDBackend provides a common interface for all GNU Unix-OS
  *  LDBackend.
  */
 class GNULDBackend : public TargetLDBackend
 {
 protected:
   GNULDBackend(const LinkerConfig& pConfig, GNUInfo* pInfo);

 public:
   virtual ~GNULDBackend();

   // -----  readers/writers  ----- //
   GNUArchiveReader* createArchiveReader(Module& pModule);
   ELFObjectReader* createObjectReader(IRBuilder& pBuilder);
   ELFDynObjReader* createDynObjReader(IRBuilder& pBuilder);
   ELFBinaryReader* createBinaryReader(IRBuilder& pBuilder);
   ELFObjectWriter* createWriter();

   // -----  output sections  ----- //
   /// initStdSections - initialize standard sections of the output file.
   bool initStdSections(ObjectBuilder& pBuilder);

   /// getOutputFormat - get the sections of the output file.
   const ELFFileFormat* getOutputFormat() const;
   ELFFileFormat*       getOutputFormat();

   // -----  target symbols ----- //
   /// initStandardSymbols - initialize standard symbols.
   /// Some section symbols is undefined in input object, and linkers must set
   /// up its value. Take __init_array_begin for example. This symbol is an
   /// undefined symbol in input objects. ObjectLinker must finalize its value
   /// to the begin of the .init_array section, then relocation enties to
   /// __init_array_begin can be applied without emission of "undefined
   /// reference to `__init_array_begin'".
   bool initStandardSymbols(IRBuilder& pBuilder, Module& pModule);

   /// finalizeSymbol - Linker checks pSymbol.reserved() if it's not zero,
   /// then it will ask backend to finalize the symbol value.
   /// @return ture - if backend set the symbol value sucessfully
   /// @return false - if backend do not recognize the symbol
   bool finalizeSymbols() {
     return (finalizeStandardSymbols() &&
             finalizeTargetSymbols());
   }

   /// finalizeStandardSymbols - set the value of standard symbols
   virtual bool finalizeStandardSymbols();

   /// finalizeTargetSymbols - set the value of target symbols
   virtual bool finalizeTargetSymbols() = 0;

   /// finalizeTLSSymbol - set the value of a TLS symbol
   virtual bool finalizeTLSSymbol(LDSymbol& pSymbol);

   size_t sectionStartOffset() const;

   const GNUInfo& getInfo() const { return *m_pInfo; }
   GNUInfo&       getInfo()       { return *m_pInfo; }

   bool hasTextRel() const { return m_bHasTextRel; }

   bool hasStaticTLS() const { return m_bHasStaticTLS; }

   /// segmentStartAddr - this function returns the start address of the segment
   uint64_t segmentStartAddr() const;

   /// partialScanRelocation - When doing partial linking, fix the relocation
   /// offset after section merge
   void partialScanRelocation(Relocation& pReloc,
                              Module& pModule,
                              const LDSection& pSection);

   /// sizeNamePools - compute the size of regular name pools
   /// In ELF executable files, regular name pools are .symtab, .strtab.,
   /// .dynsym, .dynstr, and .hash
   virtual void sizeNamePools(Module& pModule, bool pIsStaticLink);

   /// emitSectionData - emit target-dependent section data
   virtual uint64_t emitSectionData(const LDSection& pSection,
                                    MemoryRegion& pRegion) const = 0;

   /// emitRegNamePools - emit regular name pools - .symtab, .strtab
   virtual void emitRegNamePools(const Module& pModule, MemoryArea& pOutput);

   /// emitNamePools - emit dynamic name pools - .dyntab, .dynstr, .hash
   virtual void emitDynNamePools(Module& pModule, MemoryArea& pOutput);

   /// emitELFHashTab - emit .hash
   virtual void emitELFHashTab(const Module::SymbolTable& pSymtab,
                               MemoryArea& pOutput);

   /// emitGNUHashTab - emit .gnu.hash
   virtual void emitGNUHashTab(Module::SymbolTable& pSymtab,
                               MemoryArea& pOutput);

   /// sizeInterp - compute the size of program interpreter's name
   /// In ELF executables, this is the length of dynamic linker's path name
   virtual void sizeInterp();

   /// emitInterp - emit the .interp
   virtual void emitInterp(MemoryArea& pOutput);

   /// getSectionOrder - compute the layout order of the section
   /// Layout calls this function to get the default order of the pSectHdr.
   /// If the pSectHdr.type() is LDFileFormat::Target, then getSectionOrder()
   /// will call getTargetSectionOrder().
   ///
   /// If targets favors certain order for general sections, please override
   /// this function.
   ///
   /// @see getTargetSectionOrder
   virtual unsigned int getSectionOrder(const LDSection& pSectHdr) const;

   /// getTargetSectionOrder - compute the layout order of target section
   /// If the target favors certain order for the given gSectHdr, please
   /// override this function.
   ///
   /// By default, this function returns the maximun order, and pSectHdr
   /// will be the last section to be laid out.
   virtual unsigned int getTargetSectionOrder(const LDSection& pSectHdr) const
   { return (unsigned int)-1; }

   /// numOfSegments - return the number of segments
   /// if the target favors other ways to emit program header, please override
   /// this function
   size_t numOfSegments() const { return m_ELFSegmentTable.size(); }

   /// elfSegmentTable - return the reference of the elf segment table
   ELFSegmentFactory&       elfSegmentTable()       { return m_ELFSegmentTable; }

   /// elfSegmentTable - return the reference of the elf segment table
   const ELFSegmentFactory& elfSegmentTable() const { return m_ELFSegmentTable; }

   /// commonPageSize - the common page size of the target machine
   uint64_t commonPageSize() const;

   /// abiPageSize - the abi page size of the target machine
   uint64_t abiPageSize() const;

   /// getSymbolIdx - get the symbol index of ouput symbol table
   size_t getSymbolIdx(const LDSymbol* pSymbol) const;

   /// allocateCommonSymbols - allocate common symbols in the corresponding
   /// sections.
   /// Different concrete target backend may overlap this function.
   virtual bool allocateCommonSymbols(Module& pModule);

   /// updateSectionFlags - update pTo's flags when merging pFrom
   /// update the output section flags based on input section flags.
   virtual bool updateSectionFlags(LDSection& pTo, const LDSection& pFrom);

   /// isSymbolPreemtible - whether the symbol can be preemted by other
   /// link unit
   /// @ref Google gold linker, symtab.h:551
   bool isSymbolPreemptible(const ResolveInfo& pSym) const;

   virtual ResolveInfo::Desc getSymDesc(uint16_t pShndx) const {
     return ResolveInfo::Define;
   }

   /// symbolNeedsDynRel - return whether the symbol needs a dynamic relocation
   /// @ref Google gold linker, symtab.h:645
   bool symbolNeedsDynRel(const ResolveInfo& pSym,
                          bool pSymHasPLT,
                          bool isAbsReloc) const;

   // getTDATASymbol - get section symbol of .tdata
   LDSymbol& getTDATASymbol();
   const LDSymbol& getTDATASymbol() const;

   /// getTBSSSymbol - get section symbol of .tbss
   LDSymbol& getTBSSSymbol();
   const LDSymbol& getTBSSSymbol() const;

   //  -----  relaxation  -----  //
   /// initBRIslandFactory - initialize the branch island factory for relaxation
   bool initBRIslandFactory();

   /// initStubFactory - initialize the stub factory for relaxation
   bool initStubFactory();

   /// getBRIslandFactory
   BranchIslandFactory* getBRIslandFactory() { return m_pBRIslandFactory; }

   /// getStubFactory
   StubFactory*         getStubFactory()     { return m_pStubFactory; }

   /// maxBranchOffset - return the max (forward) branch offset of the backend.
   /// Target can override this function if needed.
   virtual uint64_t maxBranchOffset() { return (uint64_t)-1; }

 protected:
   uint64_t getSymbolSize(const LDSymbol& pSymbol) const;

   uint64_t getSymbolInfo(const LDSymbol& pSymbol) const;

   uint64_t getSymbolValue(const LDSymbol& pSymbol) const;

   uint64_t getSymbolShndx(const LDSymbol& pSymbol) const;

   /// isTemporary - Whether pSymbol is a local label.
   virtual bool isTemporary(const LDSymbol& pSymbol) const;

   /// getHashBucketCount - calculate hash bucket count.
   /// @ref Google gold linker, dynobj.cc:791
   static unsigned getHashBucketCount(unsigned pNumOfSymbols, bool pIsGNUStyle);

   /// getGNUHashMaskbitslog2 - calculate the number of mask bits in log2
   /// @ref binutils gold, dynobj.cc:1165
   unsigned getGNUHashMaskbitslog2(unsigned pNumOfSymbols) const;

   /// isDynamicSymbol
   /// @ref Google gold linker: symtab.cc:311
   bool isDynamicSymbol(const LDSymbol& pSymbol);

   /// isDynamicSymbol
   /// @ref Google gold linker: symtab.cc:311
   bool isDynamicSymbol(const ResolveInfo& pResolveInfo);

   /// symbolNeedsPLT - return whether the symbol needs a PLT entry
   /// @ref Google gold linker, symtab.h:596
   bool symbolNeedsPLT(const ResolveInfo& pSym) const;

   /// symbolNeedsCopyReloc - return whether the symbol needs a copy relocation
   bool symbolNeedsCopyReloc(const Relocation& pReloc,
                             const ResolveInfo& pSym) const;

   /// symbolHasFinalValue - return true if the symbol's value can be decided at
   /// link time
   bool symbolFinalValueIsKnown(const ResolveInfo& pSym) const;

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

   /// emitSymbol64 - emit an ELF64 symbol
   void emitSymbol64(llvm::ELF::Elf64_Sym& pSym64,
                     LDSymbol& pSymbol,
                     char* pStrtab,
                     size_t pStrtabsize,
                     size_t pSymtabIdx);

   /// checkAndSetHasTextRel - check pSection flag to set HasTextRel
   void checkAndSetHasTextRel(const LDSection& pSection);

   void setHasStaticTLS(bool pVal = true) { m_bHasStaticTLS = pVal; }

 private:
   /// createProgramHdrs - base on output sections to create the program headers
   void createProgramHdrs(Module& pModule);

   /// doCreateProgramHdrs - backend can implement this function to create the
   /// target-dependent segments
   virtual void doCreateProgramHdrs(Module& pModule) = 0;

   /// setupProgramHdrs - set up the attributes of segments
   ///  (i.e., offset, addresses, file/mem size, flag,  and alignment)
   void setupProgramHdrs();

   /// getSegmentFlag - give a section flag and return the corresponding segment
   /// flag
   inline uint32_t getSegmentFlag(const uint32_t pSectionFlag)
   {
     uint32_t flag = llvm::ELF::PF_R;
     if (0 != (pSectionFlag & llvm::ELF::SHF_WRITE))
       flag |= llvm::ELF::PF_W;
     if (0 != (pSectionFlag & llvm::ELF::SHF_EXECINSTR))
       flag |= llvm::ELF::PF_X;
     return flag;
   }

   /// setupGNUStackInfo - setup the section flag of .note.GNU-stack in output
   void setupGNUStackInfo(Module& pModule);

   /// setupRelro - setup the offset constraint of PT_RELRO
   void setupRelro(Module& pModule);

   /// setOutputSectionOffset - helper function to set a group of output sections'
   /// offset, and set pSectBegin to pStartOffset if pStartOffset is not -1U.
   void setOutputSectionOffset(Module& pModule,
                               Module::iterator pSectBegin,
                               Module::iterator pSectEnd,
                               uint64_t pStartOffset = -1U);

   /// setOutputSectionOffset - helper function to set output sections' address.
   void setOutputSectionAddress(Module& pModule,
                                Module::iterator pSectBegin,
                                Module::iterator pSectEnd);

   /// layout - layout method
   void layout(Module& pModule);

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

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

   /// preLayout - Backend can do any needed modification before layout
   virtual void doPreLayout(IRBuilder& pBuilder) = 0;

   /// postLayout -Backend can do any needed modification after layout
   virtual void doPostLayout(Module& pModule, IRBuilder& pLinker) = 0;

   /// postProcessing - Backend can do any needed modification in the final stage
   void postProcessing(MemoryArea& pOutput);

   /// dynamic - the dynamic section of the target machine.
   virtual ELFDynamic& dynamic() = 0;

   /// dynamic - the dynamic section of the target machine.
   virtual const ELFDynamic& dynamic() const = 0;

   /// relax - the relaxation pass
   bool relax(Module& pModule, IRBuilder& pBuilder);

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

   /// 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.
   virtual bool doRelax(Module& pModule, IRBuilder& pBuilder, bool& pFinished)
   { return false; }

   /// getRelEntrySize - the size in BYTE of rel type relocation
   virtual size_t getRelEntrySize() = 0;

   /// getRelEntrySize - the size in BYTE of rela type relocation
   virtual size_t getRelaEntrySize() = 0;

 protected:
   // Based on Kind in LDFileFormat to define basic section orders for ELF, and
   // refer gold linker to add more enumerations to handle Regular and BSS kind
   enum SectionOrder {
     SHO_INTERP = 1,          // .interp
     SHO_RO_NOTE,             // .note.ABI-tag, .note.gnu.build-id
     SHO_NAMEPOOL,            // *.hash, .dynsym, .dynstr
     SHO_RELOCATION,          // .rel.*, .rela.*
     SHO_REL_PLT,             // .rel.plt should come after other .rel.*
     SHO_INIT,                // .init
     SHO_PLT,                 // .plt
     SHO_TEXT,                // .text
     SHO_FINI,                // .fini
     SHO_RO,                  // .rodata
     SHO_EXCEPTION,           // .eh_frame_hdr, .eh_frame, .gcc_except_table
     SHO_TLS_DATA,            // .tdata
     SHO_TLS_BSS,             // .tbss
     SHO_RELRO_LOCAL,         // .data.rel.ro.local
     SHO_RELRO,               // .data.rel.ro,
     SHO_RELRO_LAST,          // for x86 to adjust .got if needed
     SHO_NON_RELRO_FIRST,     // for x86 to adjust .got.plt if needed
     SHO_DATA,                // .data
     SHO_LARGE_DATA,          // .ldata
     SHO_RW_NOTE,             //
     SHO_SMALL_DATA,          // .sdata
     SHO_SMALL_BSS,           // .sbss
     SHO_BSS,                 // .bss
     SHO_LARGE_BSS,           // .lbss
     SHO_UNDEFINED,           // default order
     SHO_STRTAB               // .strtab
   };

   typedef std::pair<LDSection*, unsigned int> SHOEntry;

   struct SHOCompare
   {
     bool operator()(const SHOEntry& X, const SHOEntry& Y) const
     { return X.second < Y.second; }
   };

   struct SymCompare
   {
     bool operator()(const LDSymbol* X, const LDSymbol* Y) const
     { return (X==Y); }
   };

   // for gnu style hash table
   struct DynsymCompare
   {
     bool needGNUHash(const LDSymbol& X) const;

     bool operator()(const LDSymbol* X, const LDSymbol* Y) const;
   };

   struct SymPtrHash
   {
     size_t operator()(const LDSymbol* pKey) const
     {
       return (unsigned((uintptr_t)pKey) >> 4) ^
              (unsigned((uintptr_t)pKey) >> 9);
     }
   };

   typedef HashEntry<LDSymbol*, size_t, SymCompare> SymHashEntryType;
   typedef HashTable<SymHashEntryType,
                     SymPtrHash,
                     EntryFactory<SymHashEntryType> > HashTableType;


 protected:
   ELFObjectReader* m_pObjectReader;

   // -----  file formats  ----- //
   ELFDynObjFileFormat* m_pDynObjFileFormat;
   ELFExecFileFormat*   m_pExecFileFormat;
   ELFObjectFileFormat* m_pObjectFileFormat;

   // GNUInfo
   GNUInfo* m_pInfo;

   // ELF segment factory
   ELFSegmentFactory m_ELFSegmentTable;

   // branch island factory
   BranchIslandFactory* m_pBRIslandFactory;

   // stub factory
   StubFactory* m_pStubFactory;

   // map the LDSymbol to its index in the output symbol table
   HashTableType* m_pSymIndexMap;

   // section .eh_frame_hdr
   EhFrameHdr* m_pEhFrameHdr;

   // ----- dynamic flags ----- //
   // DF_TEXTREL of DT_FLAGS
   bool m_bHasTextRel;

   // DF_STATIC_TLS of DT_FLAGS
   bool m_bHasStaticTLS;

   // -----  standard symbols  ----- //
   // section symbols
   LDSymbol* f_pPreInitArrayStart;
   LDSymbol* f_pPreInitArrayEnd;
   LDSymbol* f_pInitArrayStart;
   LDSymbol* f_pInitArrayEnd;
   LDSymbol* f_pFiniArrayStart;
   LDSymbol* f_pFiniArrayEnd;
   LDSymbol* f_pStack;
   LDSymbol* f_pDynamic;

   // section symbols for .tdata and .tbss
   LDSymbol* f_pTDATA;
   LDSymbol* f_pTBSS;

   // segment symbols
   LDSymbol* f_pExecutableStart;
   LDSymbol* f_pEText;
   LDSymbol* f_p_EText;
   LDSymbol* f_p__EText;
   LDSymbol* f_pEData;
   LDSymbol* f_p_EData;
   LDSymbol* f_pBSSStart;
   LDSymbol* f_pEnd;
   LDSymbol* f_p_End;
 };

 } // namespace of mcld

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

	#include <llvm/Support/ELF.h>
	#include <mcld/ADT/HashTable.h>
	#include <mcld/ADT/HashEntry.h>
	#include <mcld/LD/ELFDynObjFileFormat.h>
	#include <mcld/LD/ELFExecFileFormat.h>
	#include <mcld/LD/ELFObjectFileFormat.h>
	#include <mcld/LD/GNUArchiveReader.h>
	#include <mcld/LD/ELFObjectReader.h>
	#include <mcld/LD/ELFDynObjReader.h>
	#include <mcld/LD/ELFBinaryReader.h>
	#include <mcld/LD/ELFObjectWriter.h>
	#include <mcld/LD/ELFSegment.h>
	#include <mcld/LD/ELFSegmentFactory.h>
	#include <mcld/Target/ELFDynamic.h>
	#include <mcld/Target/GNUInfo.h>

	#include <mcld/Support/GCFactory.h>
	#include <mcld/Module.h>

	namespace mcld {

	class Module;
	class LinkerConfig;
	class IRBuilder;
	class Layout;
	class EhFrameHdr;
	class BranchIslandFactory;
	class StubFactory;
	class GNUInfo;

	/** \class GNULDBackend
	* \brief GNULDBackend provides a common interface for all GNU Unix-OS
	* LDBackend.
	*/
	class GNULDBackend : public TargetLDBackend
	{
	protected:
	GNULDBackend(const LinkerConfig& pConfig, GNUInfo* pInfo);

	public:
	virtual ~GNULDBackend();

	// ----- readers/writers ----- //
	GNUArchiveReader* createArchiveReader(Module& pModule);
	ELFObjectReader* createObjectReader(IRBuilder& pBuilder);
	ELFDynObjReader* createDynObjReader(IRBuilder& pBuilder);
	ELFBinaryReader* createBinaryReader(IRBuilder& pBuilder);
	ELFObjectWriter* createWriter();

	// ----- output sections ----- //
	/// initStdSections - initialize standard sections of the output file.
	bool initStdSections(ObjectBuilder& pBuilder);

	/// getOutputFormat - get the sections of the output file.
	const ELFFileFormat* getOutputFormat() const;
	ELFFileFormat* getOutputFormat();

	// ----- target symbols ----- //
	/// initStandardSymbols - initialize standard symbols.
	/// Some section symbols is undefined in input object, and linkers must set
	/// up its value. Take __init_array_begin for example. This symbol is an
	/// undefined symbol in input objects. ObjectLinker must finalize its value
	/// to the begin of the .init_array section, then relocation enties to
	/// __init_array_begin can be applied without emission of "undefined
	/// reference to `__init_array_begin'".
	bool initStandardSymbols(IRBuilder& pBuilder, Module& pModule);

	/// finalizeSymbol - Linker checks pSymbol.reserved() if it's not zero,
	/// then it will ask backend to finalize the symbol value.
	/// @return ture - if backend set the symbol value sucessfully
	/// @return false - if backend do not recognize the symbol
	bool finalizeSymbols() {
	return (finalizeStandardSymbols() &&
	finalizeTargetSymbols());
	}

	/// finalizeStandardSymbols - set the value of standard symbols
	virtual bool finalizeStandardSymbols();

	/// finalizeTargetSymbols - set the value of target symbols
	virtual bool finalizeTargetSymbols() = 0;

	/// finalizeTLSSymbol - set the value of a TLS symbol
	virtual bool finalizeTLSSymbol(LDSymbol& pSymbol);

	size_t sectionStartOffset() const;

	const GNUInfo& getInfo() const { return *m_pInfo; }
	GNUInfo& getInfo() { return *m_pInfo; }

	bool hasTextRel() const { return m_bHasTextRel; }

	bool hasStaticTLS() const { return m_bHasStaticTLS; }

	/// segmentStartAddr - this function returns the start address of the segment
	uint64_t segmentStartAddr() const;

	/// partialScanRelocation - When doing partial linking, fix the relocation
	/// offset after section merge
	void partialScanRelocation(Relocation& pReloc,
	Module& pModule,
	const LDSection& pSection);

	/// sizeNamePools - compute the size of regular name pools
	/// In ELF executable files, regular name pools are .symtab, .strtab.,
	/// .dynsym, .dynstr, and .hash
	virtual void sizeNamePools(Module& pModule, bool pIsStaticLink);

	/// emitSectionData - emit target-dependent section data
	virtual uint64_t emitSectionData(const LDSection& pSection,
	MemoryRegion& pRegion) const = 0;

	/// emitRegNamePools - emit regular name pools - .symtab, .strtab
	virtual void emitRegNamePools(const Module& pModule, MemoryArea& pOutput);

	/// emitNamePools - emit dynamic name pools - .dyntab, .dynstr, .hash
	virtual void emitDynNamePools(Module& pModule, MemoryArea& pOutput);

	/// emitELFHashTab - emit .hash
	virtual void emitELFHashTab(const Module::SymbolTable& pSymtab,
	MemoryArea& pOutput);

	/// emitGNUHashTab - emit .gnu.hash
	virtual void emitGNUHashTab(Module::SymbolTable& pSymtab,
	MemoryArea& pOutput);

	/// sizeInterp - compute the size of program interpreter's name
	/// In ELF executables, this is the length of dynamic linker's path name
	virtual void sizeInterp();

	/// emitInterp - emit the .interp
	virtual void emitInterp(MemoryArea& pOutput);

	/// getSectionOrder - compute the layout order of the section
	/// Layout calls this function to get the default order of the pSectHdr.
	/// If the pSectHdr.type() is LDFileFormat::Target, then getSectionOrder()
	/// will call getTargetSectionOrder().
	///
	/// If targets favors certain order for general sections, please override
	/// this function.
	///
	/// @see getTargetSectionOrder
	virtual unsigned int getSectionOrder(const LDSection& pSectHdr) const;

	/// getTargetSectionOrder - compute the layout order of target section
	/// If the target favors certain order for the given gSectHdr, please
	/// override this function.
	///
	/// By default, this function returns the maximun order, and pSectHdr
	/// will be the last section to be laid out.
	virtual unsigned int getTargetSectionOrder(const LDSection& pSectHdr) const
	{ return (unsigned int)-1; }

	/// numOfSegments - return the number of segments
	/// if the target favors other ways to emit program header, please override
	/// this function
	size_t numOfSegments() const { return m_ELFSegmentTable.size(); }

	/// elfSegmentTable - return the reference of the elf segment table
	ELFSegmentFactory& elfSegmentTable() { return m_ELFSegmentTable; }

	/// elfSegmentTable - return the reference of the elf segment table
	const ELFSegmentFactory& elfSegmentTable() const { return m_ELFSegmentTable; }

	/// commonPageSize - the common page size of the target machine
	uint64_t commonPageSize() const;

	/// abiPageSize - the abi page size of the target machine
	uint64_t abiPageSize() const;

	/// getSymbolIdx - get the symbol index of ouput symbol table
	size_t getSymbolIdx(const LDSymbol* pSymbol) const;

	/// allocateCommonSymbols - allocate common symbols in the corresponding
	/// sections.
	/// Different concrete target backend may overlap this function.
	virtual bool allocateCommonSymbols(Module& pModule);

	/// updateSectionFlags - update pTo's flags when merging pFrom
	/// update the output section flags based on input section flags.
	virtual bool updateSectionFlags(LDSection& pTo, const LDSection& pFrom);

	/// isSymbolPreemtible - whether the symbol can be preemted by other
	/// link unit
	/// @ref Google gold linker, symtab.h:551
	bool isSymbolPreemptible(const ResolveInfo& pSym) const;

	virtual ResolveInfo::Desc getSymDesc(uint16_t pShndx) const {
	return ResolveInfo::Define;
	}

	/// symbolNeedsDynRel - return whether the symbol needs a dynamic relocation
	/// @ref Google gold linker, symtab.h:645
	bool symbolNeedsDynRel(const ResolveInfo& pSym,
	bool pSymHasPLT,
	bool isAbsReloc) const;

	// getTDATASymbol - get section symbol of .tdata
	LDSymbol& getTDATASymbol();
	const LDSymbol& getTDATASymbol() const;

	/// getTBSSSymbol - get section symbol of .tbss
	LDSymbol& getTBSSSymbol();
	const LDSymbol& getTBSSSymbol() const;

	// ----- relaxation ----- //
	/// initBRIslandFactory - initialize the branch island factory for relaxation
	bool initBRIslandFactory();

	/// initStubFactory - initialize the stub factory for relaxation
	bool initStubFactory();

	/// getBRIslandFactory
	BranchIslandFactory* getBRIslandFactory() { return m_pBRIslandFactory; }

	/// getStubFactory
	StubFactory* getStubFactory() { return m_pStubFactory; }

	/// maxBranchOffset - return the max (forward) branch offset of the backend.
	/// Target can override this function if needed.
	virtual uint64_t maxBranchOffset() { return (uint64_t)-1; }

	protected:
	uint64_t getSymbolSize(const LDSymbol& pSymbol) const;

	uint64_t getSymbolInfo(const LDSymbol& pSymbol) const;

	uint64_t getSymbolValue(const LDSymbol& pSymbol) const;

	uint64_t getSymbolShndx(const LDSymbol& pSymbol) const;

	/// isTemporary - Whether pSymbol is a local label.
	virtual bool isTemporary(const LDSymbol& pSymbol) const;

	/// getHashBucketCount - calculate hash bucket count.
	/// @ref Google gold linker, dynobj.cc:791
	static unsigned getHashBucketCount(unsigned pNumOfSymbols, bool pIsGNUStyle);

	/// getGNUHashMaskbitslog2 - calculate the number of mask bits in log2
	/// @ref binutils gold, dynobj.cc:1165
	unsigned getGNUHashMaskbitslog2(unsigned pNumOfSymbols) const;

	/// isDynamicSymbol
	/// @ref Google gold linker: symtab.cc:311
	bool isDynamicSymbol(const LDSymbol& pSymbol);

	/// isDynamicSymbol
	/// @ref Google gold linker: symtab.cc:311
	bool isDynamicSymbol(const ResolveInfo& pResolveInfo);

	/// symbolNeedsPLT - return whether the symbol needs a PLT entry
	/// @ref Google gold linker, symtab.h:596
	bool symbolNeedsPLT(const ResolveInfo& pSym) const;

	/// symbolNeedsCopyReloc - return whether the symbol needs a copy relocation
	bool symbolNeedsCopyReloc(const Relocation& pReloc,
	const ResolveInfo& pSym) const;

	/// symbolHasFinalValue - return true if the symbol's value can be decided at
	/// link time
	bool symbolFinalValueIsKnown(const ResolveInfo& pSym) const;

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

	/// emitSymbol64 - emit an ELF64 symbol
	void emitSymbol64(llvm::ELF::Elf64_Sym& pSym64,
	LDSymbol& pSymbol,
	char* pStrtab,
	size_t pStrtabsize,
	size_t pSymtabIdx);

	/// checkAndSetHasTextRel - check pSection flag to set HasTextRel
	void checkAndSetHasTextRel(const LDSection& pSection);

	void setHasStaticTLS(bool pVal = true) { m_bHasStaticTLS = pVal; }

	private:
	/// createProgramHdrs - base on output sections to create the program headers
	void createProgramHdrs(Module& pModule);

	/// doCreateProgramHdrs - backend can implement this function to create the
	/// target-dependent segments
	virtual void doCreateProgramHdrs(Module& pModule) = 0;

	/// setupProgramHdrs - set up the attributes of segments
	/// (i.e., offset, addresses, file/mem size, flag, and alignment)
	void setupProgramHdrs();

	/// getSegmentFlag - give a section flag and return the corresponding segment
	/// flag
	inline uint32_t getSegmentFlag(const uint32_t pSectionFlag)
	{
	uint32_t flag = llvm::ELF::PF_R;
	if (0 != (pSectionFlag & llvm::ELF::SHF_WRITE))
	flag \|= llvm::ELF::PF_W;
	if (0 != (pSectionFlag & llvm::ELF::SHF_EXECINSTR))
	flag \|= llvm::ELF::PF_X;
	return flag;
	}

	/// setupGNUStackInfo - setup the section flag of .note.GNU-stack in output
	void setupGNUStackInfo(Module& pModule);

	/// setupRelro - setup the offset constraint of PT_RELRO
	void setupRelro(Module& pModule);

	/// setOutputSectionOffset - helper function to set a group of output sections'
	/// offset, and set pSectBegin to pStartOffset if pStartOffset is not -1U.
	void setOutputSectionOffset(Module& pModule,
	Module::iterator pSectBegin,
	Module::iterator pSectEnd,
	uint64_t pStartOffset = -1U);

	/// setOutputSectionOffset - helper function to set output sections' address.
	void setOutputSectionAddress(Module& pModule,
	Module::iterator pSectBegin,
	Module::iterator pSectEnd);

	/// layout - layout method
	void layout(Module& pModule);

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

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

	/// preLayout - Backend can do any needed modification before layout
	virtual void doPreLayout(IRBuilder& pBuilder) = 0;

	/// postLayout -Backend can do any needed modification after layout
	virtual void doPostLayout(Module& pModule, IRBuilder& pLinker) = 0;

	/// postProcessing - Backend can do any needed modification in the final stage
	void postProcessing(MemoryArea& pOutput);

	/// dynamic - the dynamic section of the target machine.
	virtual ELFDynamic& dynamic() = 0;

	/// dynamic - the dynamic section of the target machine.
	virtual const ELFDynamic& dynamic() const = 0;

	/// relax - the relaxation pass
	bool relax(Module& pModule, IRBuilder& pBuilder);

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

	/// 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.
	virtual bool doRelax(Module& pModule, IRBuilder& pBuilder, bool& pFinished)
	{ return false; }

	/// getRelEntrySize - the size in BYTE of rel type relocation
	virtual size_t getRelEntrySize() = 0;

	/// getRelEntrySize - the size in BYTE of rela type relocation
	virtual size_t getRelaEntrySize() = 0;

	protected:
	// Based on Kind in LDFileFormat to define basic section orders for ELF, and
	// refer gold linker to add more enumerations to handle Regular and BSS kind
	enum SectionOrder {
	SHO_INTERP = 1, // .interp
	SHO_RO_NOTE, // .note.ABI-tag, .note.gnu.build-id
	SHO_NAMEPOOL, // *.hash, .dynsym, .dynstr
	SHO_RELOCATION, // .rel., .rela.
	SHO_REL_PLT, // .rel.plt should come after other .rel.*
	SHO_INIT, // .init
	SHO_PLT, // .plt
	SHO_TEXT, // .text
	SHO_FINI, // .fini
	SHO_RO, // .rodata
	SHO_EXCEPTION, // .eh_frame_hdr, .eh_frame, .gcc_except_table
	SHO_TLS_DATA, // .tdata
	SHO_TLS_BSS, // .tbss
	SHO_RELRO_LOCAL, // .data.rel.ro.local
	SHO_RELRO, // .data.rel.ro,
	SHO_RELRO_LAST, // for x86 to adjust .got if needed
	SHO_NON_RELRO_FIRST, // for x86 to adjust .got.plt if needed
	SHO_DATA, // .data
	SHO_LARGE_DATA, // .ldata
	SHO_RW_NOTE, //
	SHO_SMALL_DATA, // .sdata
	SHO_SMALL_BSS, // .sbss
	SHO_BSS, // .bss
	SHO_LARGE_BSS, // .lbss
	SHO_UNDEFINED, // default order
	SHO_STRTAB // .strtab
	};

	typedef std::pair<LDSection*, unsigned int> SHOEntry;

	struct SHOCompare
	{
	bool operator()(const SHOEntry& X, const SHOEntry& Y) const
	{ return X.second < Y.second; }
	};

	struct SymCompare
	{
	bool operator()(const LDSymbol* X, const LDSymbol* Y) const
	{ return (X==Y); }
	};

	// for gnu style hash table
	struct DynsymCompare
	{
	bool needGNUHash(const LDSymbol& X) const;

	bool operator()(const LDSymbol* X, const LDSymbol* Y) const;
	};

	struct SymPtrHash
	{
	size_t operator()(const LDSymbol* pKey) const
	{
	return (unsigned((uintptr_t)pKey) >> 4) ^
	(unsigned((uintptr_t)pKey) >> 9);
	}
	};

	typedef HashEntry<LDSymbol*, size_t, SymCompare> SymHashEntryType;
	typedef HashTable<SymHashEntryType,
	SymPtrHash,
	EntryFactory<SymHashEntryType> > HashTableType;


	protected:
	ELFObjectReader* m_pObjectReader;

	// ----- file formats ----- //
	ELFDynObjFileFormat* m_pDynObjFileFormat;
	ELFExecFileFormat* m_pExecFileFormat;
	ELFObjectFileFormat* m_pObjectFileFormat;

	// GNUInfo
	GNUInfo* m_pInfo;

	// ELF segment factory
	ELFSegmentFactory m_ELFSegmentTable;

	// branch island factory
	BranchIslandFactory* m_pBRIslandFactory;

	// stub factory
	StubFactory* m_pStubFactory;

	// map the LDSymbol to its index in the output symbol table
	HashTableType* m_pSymIndexMap;

	// section .eh_frame_hdr
	EhFrameHdr* m_pEhFrameHdr;

	// ----- dynamic flags ----- //
	// DF_TEXTREL of DT_FLAGS
	bool m_bHasTextRel;

	// DF_STATIC_TLS of DT_FLAGS
	bool m_bHasStaticTLS;

	// ----- standard symbols ----- //
	// section symbols
	LDSymbol* f_pPreInitArrayStart;
	LDSymbol* f_pPreInitArrayEnd;
	LDSymbol* f_pInitArrayStart;
	LDSymbol* f_pInitArrayEnd;
	LDSymbol* f_pFiniArrayStart;
	LDSymbol* f_pFiniArrayEnd;
	LDSymbol* f_pStack;
	LDSymbol* f_pDynamic;

	// section symbols for .tdata and .tbss
	LDSymbol* f_pTDATA;
	LDSymbol* f_pTBSS;

	// segment symbols
	LDSymbol* f_pExecutableStart;
	LDSymbol* f_pEText;
	LDSymbol* f_p_EText;
	LDSymbol* f_p__EText;
	LDSymbol* f_pEData;
	LDSymbol* f_p_EData;
	LDSymbol* f_pBSSStart;
	LDSymbol* f_pEnd;
	LDSymbol* f_p_End;
	};

	} // namespace of mcld

	#endif