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

 //===- MipsGOT.h ----------------------------------------------------------===//
 //
 //                     The MCLinker Project
 //
 // This file is distributed under the University of Illinois Open Source
 // License. See LICENSE.TXT for details.
 //
 //===----------------------------------------------------------------------===//
 #ifndef TARGET_MIPS_MIPSGOT_H_
 #define TARGET_MIPS_MIPSGOT_H_
 #include "mcld/ADT/SizeTraits.h"
 #include "mcld/Fragment/Relocation.h"
 #include "mcld/Support/MemoryRegion.h"
 #include "mcld/Target/GOT.h"

 #include <llvm/ADT/DenseMap.h>
 #include <llvm/ADT/DenseSet.h>

 #include <map>
 #include <set>
 #include <vector>

 namespace mcld {

 class Input;
 class LDSection;
 class LDSymbol;
 class OutputRelocSection;

 /** \class MipsGOT
  *  \brief Mips Global Offset Table.
  */
 class MipsGOT : public GOT {
  public:
   explicit MipsGOT(LDSection& pSection);

   /// Assign value to the GOT entry.
   virtual void setEntryValue(Fragment* entry, uint64_t pValue) = 0;

   /// Emit the global offset table.
   virtual uint64_t emit(MemoryRegion& pRegion) = 0;

   /// Address of _gp_disp symbol.
   uint64_t getGPDispAddress() const;

   void initializeScan(const Input& pInput);
   void finalizeScan(const Input& pInput);

   bool reserveLocalEntry(ResolveInfo& pInfo,
                          int reloc,
                          Relocation::DWord pAddend);
   bool reserveGlobalEntry(ResolveInfo& pInfo);
   bool reserveTLSGdEntry(ResolveInfo& pInfo);
   bool reserveTLSGotEntry(ResolveInfo& pInfo);
   bool reserveTLSLdmEntry();

   size_t getLocalNum() const;   ///< number of local symbols in primary GOT
   size_t getGlobalNum() const;  ///< total number of global symbols

   bool isPrimaryGOTConsumed();

   Fragment* consumeLocal();
   Fragment* consumeGlobal();
   Fragment* consumeTLS(Relocation::Type pType);

   uint64_t getGPAddr(const Input& pInput) const;
   uint64_t getGPRelOffset(const Input& pInput, const Fragment& pEntry) const;

   void recordGlobalEntry(const ResolveInfo* pInfo, Fragment* pEntry);
   Fragment* lookupGlobalEntry(const ResolveInfo* pInfo);

   void recordTLSEntry(const ResolveInfo* pInfo, Fragment* pEntry,
                       Relocation::Type pType);
   Fragment* lookupTLSEntry(const ResolveInfo* pInfo, Relocation::Type pType);

   void recordLocalEntry(const ResolveInfo* pInfo,
                         Relocation::DWord pAddend,
                         Fragment* pEntry);
   Fragment* lookupLocalEntry(const ResolveInfo* pInfo,
                              Relocation::DWord pAddend);

   /// hasGOT1 - return if this got section has any GOT1 entry
   bool hasGOT1() const;

   bool hasMultipleGOT() const;

   /// Create GOT entries and reserve dynrel entries.
   void finalizeScanning(OutputRelocSection& pRelDyn);

   /// Compare two symbols to define order in the .dynsym.
   bool dynSymOrderCompare(const LDSymbol* pX, const LDSymbol* pY) const;

  protected:
   /// Create GOT entry.
   virtual Fragment* createEntry(uint64_t pValue, SectionData* pParent) = 0;

   /// Size of GOT entry.
   virtual size_t getEntrySize() const = 0;

   /// Reserve GOT header entries.
   virtual void reserveHeader() = 0;

  private:
   /** \class GOTMultipart
    *  \brief GOTMultipart counts local and global entries in the GOT.
    */
   struct GOTMultipart {
     explicit GOTMultipart(size_t local = 0, size_t global = 0);

     typedef llvm::DenseSet<const Input*> InputSetType;

     size_t m_LocalNum;   ///< number of reserved local entries
     size_t m_GlobalNum;  ///< number of reserved global entries
     size_t m_TLSNum;     ///< number of reserved TLS entries
     size_t m_TLSDynNum;  ///< number of reserved TLS related dynamic relocations

     size_t m_ConsumedLocal;   ///< consumed local entries
     size_t m_ConsumedGlobal;  ///< consumed global entries
     size_t m_ConsumedTLS;     ///< consumed TLS entries

     Fragment* m_pLastLocal;   ///< the last consumed local entry
     Fragment* m_pLastGlobal;  ///< the last consumed global entry
     Fragment* m_pLastTLS;     ///< the last consumed TLS entry

     InputSetType m_Inputs;

     bool isConsumed() const;

     void consumeLocal();
     void consumeGlobal();
     void consumeTLS(Relocation::Type pType);
   };

   /** \class LocalEntry
    *  \brief LocalEntry local GOT entry descriptor.
    */
   struct LocalEntry {
     const ResolveInfo* m_pInfo;
     Relocation::DWord m_Addend;
     bool m_IsGot16;

     LocalEntry(const ResolveInfo* pInfo,
                Relocation::DWord addend,
                bool isGot16);

     bool operator<(const LocalEntry& O) const;
   };

   typedef std::vector<GOTMultipart> MultipartListType;

   // Set of global symbols.
   typedef llvm::DenseSet<const ResolveInfo*> SymbolSetType;
   // Map of symbols. If value is true, the symbol is referenced
   // in the current input only. If value is false, the symbol
   // is referenced in the other modules merged to the current GOT.
   typedef llvm::DenseMap<const ResolveInfo*, bool> SymbolUniqueMapType;

   // Set of local symbols.
   typedef std::set<LocalEntry> LocalSymbolSetType;

   MultipartListType m_MultipartList;  ///< list of GOT's descriptors
   const Input* m_pInput;              ///< current input

   // Global symbols merged to the current GOT
   // except symbols from the current input.
   SymbolSetType m_MergedGlobalSymbols;
   // Global symbols from the current input.
   SymbolUniqueMapType m_InputGlobalSymbols;
   // Set of symbols referenced by TLS GD relocations.
   SymbolSetType m_InputTLSGdSymbols;
   // Set of symbols referenced by TLS GOTTPREL relocation.
   SymbolSetType m_InputTLSGotSymbols;
   // There is a symbol referenced by TLS LDM relocations.
   bool m_HasTLSLdmSymbol;
   // Local symbols merged to the current GOT
   // except symbols from the current input.
   LocalSymbolSetType m_MergedLocalSymbols;
   // Local symbols from the current input.
   LocalSymbolSetType m_InputLocalSymbols;

   size_t m_CurrentGOTPart;

   typedef llvm::DenseMap<const LDSymbol*, unsigned> SymbolOrderMapType;
   SymbolOrderMapType m_SymbolOrderMap;

   void initGOTList();

   void changeInput();
   bool isGOTFull() const;
   void split();
   void reserve(size_t pNum);

  private:
   struct GotEntryKey {
     size_t m_GOTPage;
     const ResolveInfo* m_pInfo;
     Relocation::DWord m_Addend;

     bool operator<(const GotEntryKey& key) const {
       if (m_GOTPage != key.m_GOTPage)
         return m_GOTPage < key.m_GOTPage;

       if (m_pInfo != key.m_pInfo)
         return m_pInfo < key.m_pInfo;

       return m_Addend < key.m_Addend;
     }
   };

   typedef std::map<GotEntryKey, Fragment*> GotEntryMapType;
   GotEntryMapType m_GotLocalEntriesMap;
   GotEntryMapType m_GotGlobalEntriesMap;
   GotEntryMapType m_GotTLSGdEntriesMap;
   GotEntryMapType m_GotTLSGotEntriesMap;
   Fragment* m_GotTLSLdmEntry;
 };

 /** \class Mips32GOT
  *  \brief Mips 32-bit Global Offset Table.
  */
 class Mips32GOT : public MipsGOT {
  public:
   explicit Mips32GOT(LDSection& pSection);

  private:
   typedef GOT::Entry<4> Mips32GOTEntry;

   // MipsGOT
   virtual void setEntryValue(Fragment* entry, uint64_t pValue);
   virtual uint64_t emit(MemoryRegion& pRegion);
   virtual Fragment* createEntry(uint64_t pValue, SectionData* pParent);
   virtual size_t getEntrySize() const;
   virtual void reserveHeader();
 };

 /** \class Mips64GOT
  *  \brief Mips 64-bit Global Offset Table.
  */
 class Mips64GOT : public MipsGOT {
  public:
   explicit Mips64GOT(LDSection& pSection);

  private:
   typedef GOT::Entry<8> Mips64GOTEntry;

   // MipsGOT
   virtual void setEntryValue(Fragment* entry, uint64_t pValue);
   virtual uint64_t emit(MemoryRegion& pRegion);
   virtual Fragment* createEntry(uint64_t pValue, SectionData* pParent);
   virtual size_t getEntrySize() const;
   virtual void reserveHeader();
 };

 }  // namespace mcld

 #endif  // TARGET_MIPS_MIPSGOT_H_
	//===- MipsGOT.h ----------------------------------------------------------===//
	//
	// The MCLinker Project
	//
	// This file is distributed under the University of Illinois Open Source
	// License. See LICENSE.TXT for details.
	//
	//===----------------------------------------------------------------------===//
	#ifndef TARGET_MIPS_MIPSGOT_H_
	#define TARGET_MIPS_MIPSGOT_H_
	#include "mcld/ADT/SizeTraits.h"
	#include "mcld/Fragment/Relocation.h"
	#include "mcld/Support/MemoryRegion.h"
	#include "mcld/Target/GOT.h"

	#include <llvm/ADT/DenseMap.h>
	#include <llvm/ADT/DenseSet.h>

	#include <map>
	#include <set>
	#include <vector>

	namespace mcld {

	class Input;
	class LDSection;
	class LDSymbol;
	class OutputRelocSection;

	/** \class MipsGOT
	* \brief Mips Global Offset Table.
	*/
	class MipsGOT : public GOT {
	public:
	explicit MipsGOT(LDSection& pSection);

	/// Assign value to the GOT entry.
	virtual void setEntryValue(Fragment* entry, uint64_t pValue) = 0;

	/// Emit the global offset table.
	virtual uint64_t emit(MemoryRegion& pRegion) = 0;

	/// Address of _gp_disp symbol.
	uint64_t getGPDispAddress() const;

	void initializeScan(const Input& pInput);
	void finalizeScan(const Input& pInput);

	bool reserveLocalEntry(ResolveInfo& pInfo,
	int reloc,
	Relocation::DWord pAddend);
	bool reserveGlobalEntry(ResolveInfo& pInfo);
	bool reserveTLSGdEntry(ResolveInfo& pInfo);
	bool reserveTLSGotEntry(ResolveInfo& pInfo);
	bool reserveTLSLdmEntry();

	size_t getLocalNum() const; ///< number of local symbols in primary GOT
	size_t getGlobalNum() const; ///< total number of global symbols

	bool isPrimaryGOTConsumed();

	Fragment* consumeLocal();
	Fragment* consumeGlobal();
	Fragment* consumeTLS(Relocation::Type pType);

	uint64_t getGPAddr(const Input& pInput) const;
	uint64_t getGPRelOffset(const Input& pInput, const Fragment& pEntry) const;

	void recordGlobalEntry(const ResolveInfo* pInfo, Fragment* pEntry);
	Fragment* lookupGlobalEntry(const ResolveInfo* pInfo);

	void recordTLSEntry(const ResolveInfo* pInfo, Fragment* pEntry,
	Relocation::Type pType);
	Fragment* lookupTLSEntry(const ResolveInfo* pInfo, Relocation::Type pType);

	void recordLocalEntry(const ResolveInfo* pInfo,
	Relocation::DWord pAddend,
	Fragment* pEntry);
	Fragment* lookupLocalEntry(const ResolveInfo* pInfo,
	Relocation::DWord pAddend);

	/// hasGOT1 - return if this got section has any GOT1 entry
	bool hasGOT1() const;

	bool hasMultipleGOT() const;

	/// Create GOT entries and reserve dynrel entries.
	void finalizeScanning(OutputRelocSection& pRelDyn);

	/// Compare two symbols to define order in the .dynsym.
	bool dynSymOrderCompare(const LDSymbol* pX, const LDSymbol* pY) const;

	protected:
	/// Create GOT entry.
	virtual Fragment* createEntry(uint64_t pValue, SectionData* pParent) = 0;

	/// Size of GOT entry.
	virtual size_t getEntrySize() const = 0;

	/// Reserve GOT header entries.
	virtual void reserveHeader() = 0;

	private:
	/** \class GOTMultipart
	* \brief GOTMultipart counts local and global entries in the GOT.
	*/
	struct GOTMultipart {
	explicit GOTMultipart(size_t local = 0, size_t global = 0);

	typedef llvm::DenseSet<const Input*> InputSetType;

	size_t m_LocalNum; ///< number of reserved local entries
	size_t m_GlobalNum; ///< number of reserved global entries
	size_t m_TLSNum; ///< number of reserved TLS entries
	size_t m_TLSDynNum; ///< number of reserved TLS related dynamic relocations

	size_t m_ConsumedLocal; ///< consumed local entries
	size_t m_ConsumedGlobal; ///< consumed global entries
	size_t m_ConsumedTLS; ///< consumed TLS entries

	Fragment* m_pLastLocal; ///< the last consumed local entry
	Fragment* m_pLastGlobal; ///< the last consumed global entry
	Fragment* m_pLastTLS; ///< the last consumed TLS entry

	InputSetType m_Inputs;

	bool isConsumed() const;

	void consumeLocal();
	void consumeGlobal();
	void consumeTLS(Relocation::Type pType);
	};

	/** \class LocalEntry
	* \brief LocalEntry local GOT entry descriptor.
	*/
	struct LocalEntry {
	const ResolveInfo* m_pInfo;
	Relocation::DWord m_Addend;
	bool m_IsGot16;

	LocalEntry(const ResolveInfo* pInfo,
	Relocation::DWord addend,
	bool isGot16);

	bool operator<(const LocalEntry& O) const;
	};

	typedef std::vector<GOTMultipart> MultipartListType;

	// Set of global symbols.
	typedef llvm::DenseSet<const ResolveInfo*> SymbolSetType;
	// Map of symbols. If value is true, the symbol is referenced
	// in the current input only. If value is false, the symbol
	// is referenced in the other modules merged to the current GOT.
	typedef llvm::DenseMap<const ResolveInfo*, bool> SymbolUniqueMapType;

	// Set of local symbols.
	typedef std::set<LocalEntry> LocalSymbolSetType;

	MultipartListType m_MultipartList; ///< list of GOT's descriptors
	const Input* m_pInput; ///< current input

	// Global symbols merged to the current GOT
	// except symbols from the current input.
	SymbolSetType m_MergedGlobalSymbols;
	// Global symbols from the current input.
	SymbolUniqueMapType m_InputGlobalSymbols;
	// Set of symbols referenced by TLS GD relocations.
	SymbolSetType m_InputTLSGdSymbols;
	// Set of symbols referenced by TLS GOTTPREL relocation.
	SymbolSetType m_InputTLSGotSymbols;
	// There is a symbol referenced by TLS LDM relocations.
	bool m_HasTLSLdmSymbol;
	// Local symbols merged to the current GOT
	// except symbols from the current input.
	LocalSymbolSetType m_MergedLocalSymbols;
	// Local symbols from the current input.
	LocalSymbolSetType m_InputLocalSymbols;

	size_t m_CurrentGOTPart;

	typedef llvm::DenseMap<const LDSymbol*, unsigned> SymbolOrderMapType;
	SymbolOrderMapType m_SymbolOrderMap;

	void initGOTList();

	void changeInput();
	bool isGOTFull() const;
	void split();
	void reserve(size_t pNum);

	private:
	struct GotEntryKey {
	size_t m_GOTPage;
	const ResolveInfo* m_pInfo;
	Relocation::DWord m_Addend;

	bool operator<(const GotEntryKey& key) const {
	if (m_GOTPage != key.m_GOTPage)
	return m_GOTPage < key.m_GOTPage;

	if (m_pInfo != key.m_pInfo)
	return m_pInfo < key.m_pInfo;

	return m_Addend < key.m_Addend;
	}
	};

	typedef std::map<GotEntryKey, Fragment*> GotEntryMapType;
	GotEntryMapType m_GotLocalEntriesMap;
	GotEntryMapType m_GotGlobalEntriesMap;
	GotEntryMapType m_GotTLSGdEntriesMap;
	GotEntryMapType m_GotTLSGotEntriesMap;
	Fragment* m_GotTLSLdmEntry;
	};

	/** \class Mips32GOT
	* \brief Mips 32-bit Global Offset Table.
	*/
	class Mips32GOT : public MipsGOT {
	public:
	explicit Mips32GOT(LDSection& pSection);

	private:
	typedef GOT::Entry<4> Mips32GOTEntry;

	// MipsGOT
	virtual void setEntryValue(Fragment* entry, uint64_t pValue);
	virtual uint64_t emit(MemoryRegion& pRegion);
	virtual Fragment* createEntry(uint64_t pValue, SectionData* pParent);
	virtual size_t getEntrySize() const;
	virtual void reserveHeader();
	};

	/** \class Mips64GOT
	* \brief Mips 64-bit Global Offset Table.
	*/
	class Mips64GOT : public MipsGOT {
	public:
	explicit Mips64GOT(LDSection& pSection);

	private:
	typedef GOT::Entry<8> Mips64GOTEntry;

	// MipsGOT
	virtual void setEntryValue(Fragment* entry, uint64_t pValue);
	virtual uint64_t emit(MemoryRegion& pRegion);
	virtual Fragment* createEntry(uint64_t pValue, SectionData* pParent);
	virtual size_t getEntrySize() const;
	virtual void reserveHeader();
	};

	} // namespace mcld

	#endif // TARGET_MIPS_MIPSGOT_H_