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

 //===-- TargetLDBackend.h - Target LD Backend -------------------*- C++ -*-===//
 //
 //                     The MCLinker Project
 //
 // This file is distributed under the University of Illinois Open Source
 // License. See LICENSE.TXT for details.
 //
 //===----------------------------------------------------------------------===//
 #ifndef MCLD_TARGET_TARGETLDBACKEND_H_
 #define MCLD_TARGET_TARGETLDBACKEND_H_
 #include "mcld/Fragment/Relocation.h"
 #include "mcld/LD/GarbageCollection.h"
 #include "mcld/Support/Compiler.h"
 #include "mcld/Support/GCFactoryListTraits.h"

 #include <llvm/ADT/StringRef.h>
 #include <llvm/ADT/ilist.h>
 #include <llvm/Support/DataTypes.h>

 namespace mcld {

 class ArchiveReader;
 class BinaryReader;
 class BinaryWriter;
 class BranchIslandFactory;
 class DynObjReader;
 class DynObjWriter;
 class ExecWriter;
 class FileOutputBuffer;
 class IRBuilder;
 class Input;
 class LDSection;
 class LDSymbol;
 class LinkerConfig;
 class Module;
 class ObjectBuilder;
 class ObjectReader;
 class ObjectWriter;
 class Relocator;
 class ResolveInfo;
 class SectionData;
 class SectionReachedListMap;
 class StubFactory;

 //===----------------------------------------------------------------------===//
 /// TargetLDBackend - Generic interface to target specific assembler backends.
 //===----------------------------------------------------------------------===//
 class TargetLDBackend {
  public:
   typedef llvm::iplist<Relocation, GCFactoryListTraits<Relocation> >
       ExtraRelocList;
   typedef ExtraRelocList::iterator extra_reloc_iterator;

  protected:
   explicit TargetLDBackend(const LinkerConfig& pConfig);

  public:
   virtual ~TargetLDBackend();

   // -----  target dependent  ----- //
   virtual void initTargetSegments(IRBuilder& pBuilder) {}
   virtual void initTargetSections(Module& pModule, ObjectBuilder& pBuilder) {}
   virtual void initTargetSymbols(IRBuilder& pBuilder, Module& pModule) {}
   virtual void initTargetRelocation(IRBuilder& pBuilder) {}
   virtual bool initStandardSymbols(IRBuilder& pBuilder, Module& pModule) = 0;

   virtual bool initRelocator() = 0;

   virtual Relocator* getRelocator() = 0;
   virtual const Relocator* getRelocator() const = 0;

   // -----  format dependent  ----- //
   virtual ArchiveReader* createArchiveReader(Module&) = 0;
   virtual ObjectReader* createObjectReader(IRBuilder&) = 0;
   virtual DynObjReader* createDynObjReader(IRBuilder&) = 0;
   virtual BinaryReader* createBinaryReader(IRBuilder&) = 0;
   virtual ObjectWriter* createWriter() = 0;

   virtual bool initStdSections(ObjectBuilder& pBuilder) = 0;

   /// layout - layout method
   virtual void layout(Module& pModule) = 0;

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

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

   /// postProcessing - Backend can do any needed modification in the final stage
   virtual void postProcessing(FileOutputBuffer& pOutput) = 0;

   /// section start offset in the output file
   virtual size_t sectionStartOffset() const = 0;

   /// computeSectionOrder - compute the layout order of the given section
   virtual unsigned int getSectionOrder(const LDSection& pSectHdr) const = 0;

   /// 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) = 0;

   /// 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
   virtual bool finalizeSymbols() = 0;

   /// finalizeTLSSymbol - Linker asks backend to set the symbol value when it
   /// meets a TLS symbol
   virtual bool finalizeTLSSymbol(LDSymbol& pSymbol) = 0;

   /// allocateCommonSymbols - allocate common symbols in the corresponding
   /// sections.
   virtual bool allocateCommonSymbols(Module& pModule) = 0;

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

   /// postMergeSections - hooks to be executed after merging sections
   virtual void postMergeSections(Module& pModule) { }

   /// mergeSection - merge target dependent sections.
   virtual bool mergeSection(Module& pModule,
                             const Input& pInputFile,
                             LDSection& pInputSection) {
     return true;
   }

   /// setUpReachedSectionsForGC - set the reference between two sections for
   /// some special target sections. GC will set up the reference for the Regular
   /// and BSS sections. Backends can also set up the reference if need.
   virtual void setUpReachedSectionsForGC(
       const Module& pModule,
       GarbageCollection::SectionReachedListMap& pSectReachedListMap) const {}

   /// updateSectionFlags - update pTo's flags when merging pFrom
   /// update the output section flags based on input section flags.
   /// FIXME: (Luba) I know ELF need to merge flags, but I'm not sure if
   /// MachO and COFF also need this.
   virtual bool updateSectionFlags(LDSection& pTo, const LDSection& pFrom) {
     return true;
   }

   /// readSection - read a target dependent section
   virtual bool readSection(Input& pInput, SectionData& pSD) { return true; }

   /// 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() = 0;

   /// getEntry - get the entry point name
   virtual llvm::StringRef getEntry(const Module& pModule) const = 0;

   // -----  relaxation  ----- //
   virtual bool initBRIslandFactory() = 0;
   virtual bool initStubFactory() = 0;
   virtual bool initTargetStubs() { return true; }

   virtual BranchIslandFactory* getBRIslandFactory() = 0;
   virtual StubFactory* getStubFactory() = 0;

   /// relax - the relaxation pass
   virtual bool relax(Module& pModule, IRBuilder& pBuilder) = 0;

   /// mayRelax - return true if the backend needs to do relaxation
   virtual bool mayRelax() = 0;

   /// commonPageSize - the common page size of the target machine
   virtual uint64_t commonPageSize() const = 0;

   /// abiPageSize - the abi page size of the target machine
   virtual uint64_t abiPageSize() const = 0;

   /// sortRelocation - sort the dynamic relocations to let dynamic linker
   /// process relocations more efficiently
   virtual void sortRelocation(LDSection& pSection) = 0;

   /// createAndSizeEhFrameHdr - This is seperated since we may add eh_frame
   /// entry in the middle
   virtual void createAndSizeEhFrameHdr(Module& pModule) = 0;

   /// isSymbolPreemptible - whether the symbol can be preemted by other link
   /// units
   virtual bool isSymbolPreemptible(const ResolveInfo& pSym) const = 0;

   /// mayHaveUnsafeFunctionPointerAccess - check if the section may have unsafe
   /// function pointer access
   virtual bool mayHaveUnsafeFunctionPointerAccess(
       const LDSection& pSection) const = 0;

   extra_reloc_iterator extra_reloc_begin() {
     return m_ExtraReloc.begin();
   }

   extra_reloc_iterator extra_reloc_end() {
     return m_ExtraReloc.end();
   }

  protected:
   const LinkerConfig& config() const { return m_Config; }

   /// addExtraRelocation - Add an extra relocation which are automatically
   /// generated by the LD backend.
   void addExtraRelocation(Relocation* reloc) {
     m_ExtraReloc.push_back(reloc);
   }

  private:
   const LinkerConfig& m_Config;

   /// m_ExtraReloc - Extra relocations that are automatically generated by the
   /// linker.
   ExtraRelocList m_ExtraReloc;

  private:
   DISALLOW_COPY_AND_ASSIGN(TargetLDBackend);
 };

 }  // namespace mcld

 #endif  // MCLD_TARGET_TARGETLDBACKEND_H_
	//===-- TargetLDBackend.h - Target LD Backend -------------------- C++ --===//
	//
	// The MCLinker Project
	//
	// This file is distributed under the University of Illinois Open Source
	// License. See LICENSE.TXT for details.
	//
	//===----------------------------------------------------------------------===//
	#ifndef MCLD_TARGET_TARGETLDBACKEND_H_
	#define MCLD_TARGET_TARGETLDBACKEND_H_
	#include "mcld/Fragment/Relocation.h"
	#include "mcld/LD/GarbageCollection.h"
	#include "mcld/Support/Compiler.h"
	#include "mcld/Support/GCFactoryListTraits.h"

	#include <llvm/ADT/StringRef.h>
	#include <llvm/ADT/ilist.h>
	#include <llvm/Support/DataTypes.h>

	namespace mcld {

	class ArchiveReader;
	class BinaryReader;
	class BinaryWriter;
	class BranchIslandFactory;
	class DynObjReader;
	class DynObjWriter;
	class ExecWriter;
	class FileOutputBuffer;
	class IRBuilder;
	class Input;
	class LDSection;
	class LDSymbol;
	class LinkerConfig;
	class Module;
	class ObjectBuilder;
	class ObjectReader;
	class ObjectWriter;
	class Relocator;
	class ResolveInfo;
	class SectionData;
	class SectionReachedListMap;
	class StubFactory;

	//===----------------------------------------------------------------------===//
	/// TargetLDBackend - Generic interface to target specific assembler backends.
	//===----------------------------------------------------------------------===//
	class TargetLDBackend {
	public:
	typedef llvm::iplist<Relocation, GCFactoryListTraits<Relocation> >
	ExtraRelocList;
	typedef ExtraRelocList::iterator extra_reloc_iterator;

	protected:
	explicit TargetLDBackend(const LinkerConfig& pConfig);

	public:
	virtual ~TargetLDBackend();

	// ----- target dependent ----- //
	virtual void initTargetSegments(IRBuilder& pBuilder) {}
	virtual void initTargetSections(Module& pModule, ObjectBuilder& pBuilder) {}
	virtual void initTargetSymbols(IRBuilder& pBuilder, Module& pModule) {}
	virtual void initTargetRelocation(IRBuilder& pBuilder) {}
	virtual bool initStandardSymbols(IRBuilder& pBuilder, Module& pModule) = 0;

	virtual bool initRelocator() = 0;

	virtual Relocator* getRelocator() = 0;
	virtual const Relocator* getRelocator() const = 0;

	// ----- format dependent ----- //
	virtual ArchiveReader* createArchiveReader(Module&) = 0;
	virtual ObjectReader* createObjectReader(IRBuilder&) = 0;
	virtual DynObjReader* createDynObjReader(IRBuilder&) = 0;
	virtual BinaryReader* createBinaryReader(IRBuilder&) = 0;
	virtual ObjectWriter* createWriter() = 0;

	virtual bool initStdSections(ObjectBuilder& pBuilder) = 0;

	/// layout - layout method
	virtual void layout(Module& pModule) = 0;

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

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

	/// postProcessing - Backend can do any needed modification in the final stage
	virtual void postProcessing(FileOutputBuffer& pOutput) = 0;

	/// section start offset in the output file
	virtual size_t sectionStartOffset() const = 0;

	/// computeSectionOrder - compute the layout order of the given section
	virtual unsigned int getSectionOrder(const LDSection& pSectHdr) const = 0;

	/// 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) = 0;

	/// 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
	virtual bool finalizeSymbols() = 0;

	/// finalizeTLSSymbol - Linker asks backend to set the symbol value when it
	/// meets a TLS symbol
	virtual bool finalizeTLSSymbol(LDSymbol& pSymbol) = 0;

	/// allocateCommonSymbols - allocate common symbols in the corresponding
	/// sections.
	virtual bool allocateCommonSymbols(Module& pModule) = 0;

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

	/// postMergeSections - hooks to be executed after merging sections
	virtual void postMergeSections(Module& pModule) { }

	/// mergeSection - merge target dependent sections.
	virtual bool mergeSection(Module& pModule,
	const Input& pInputFile,
	LDSection& pInputSection) {
	return true;
	}

	/// setUpReachedSectionsForGC - set the reference between two sections for
	/// some special target sections. GC will set up the reference for the Regular
	/// and BSS sections. Backends can also set up the reference if need.
	virtual void setUpReachedSectionsForGC(
	const Module& pModule,
	GarbageCollection::SectionReachedListMap& pSectReachedListMap) const {}

	/// updateSectionFlags - update pTo's flags when merging pFrom
	/// update the output section flags based on input section flags.
	/// FIXME: (Luba) I know ELF need to merge flags, but I'm not sure if
	/// MachO and COFF also need this.
	virtual bool updateSectionFlags(LDSection& pTo, const LDSection& pFrom) {
	return true;
	}

	/// readSection - read a target dependent section
	virtual bool readSection(Input& pInput, SectionData& pSD) { return true; }

	/// 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() = 0;

	/// getEntry - get the entry point name
	virtual llvm::StringRef getEntry(const Module& pModule) const = 0;

	// ----- relaxation ----- //
	virtual bool initBRIslandFactory() = 0;
	virtual bool initStubFactory() = 0;
	virtual bool initTargetStubs() { return true; }

	virtual BranchIslandFactory* getBRIslandFactory() = 0;
	virtual StubFactory* getStubFactory() = 0;

	/// relax - the relaxation pass
	virtual bool relax(Module& pModule, IRBuilder& pBuilder) = 0;

	/// mayRelax - return true if the backend needs to do relaxation
	virtual bool mayRelax() = 0;

	/// commonPageSize - the common page size of the target machine
	virtual uint64_t commonPageSize() const = 0;

	/// abiPageSize - the abi page size of the target machine
	virtual uint64_t abiPageSize() const = 0;

	/// sortRelocation - sort the dynamic relocations to let dynamic linker
	/// process relocations more efficiently
	virtual void sortRelocation(LDSection& pSection) = 0;

	/// createAndSizeEhFrameHdr - This is seperated since we may add eh_frame
	/// entry in the middle
	virtual void createAndSizeEhFrameHdr(Module& pModule) = 0;

	/// isSymbolPreemptible - whether the symbol can be preemted by other link
	/// units
	virtual bool isSymbolPreemptible(const ResolveInfo& pSym) const = 0;

	/// mayHaveUnsafeFunctionPointerAccess - check if the section may have unsafe
	/// function pointer access
	virtual bool mayHaveUnsafeFunctionPointerAccess(
	const LDSection& pSection) const = 0;

	extra_reloc_iterator extra_reloc_begin() {
	return m_ExtraReloc.begin();
	}

	extra_reloc_iterator extra_reloc_end() {
	return m_ExtraReloc.end();
	}

	protected:
	const LinkerConfig& config() const { return m_Config; }

	/// addExtraRelocation - Add an extra relocation which are automatically
	/// generated by the LD backend.
	void addExtraRelocation(Relocation* reloc) {
	m_ExtraReloc.push_back(reloc);
	}

	private:
	const LinkerConfig& m_Config;

	/// m_ExtraReloc - Extra relocations that are automatically generated by the
	/// linker.
	ExtraRelocList m_ExtraReloc;

	private:
	DISALLOW_COPY_AND_ASSIGN(TargetLDBackend);
	};

	} // namespace mcld

	#endif // MCLD_TARGET_TARGETLDBACKEND_H_