include/mcld/LD/LDSection.h - platform/frameworks/compile/mclinker - Git at Google

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

 #ifndef MCLD_LD_LDSECTION_H
 #define MCLD_LD_LDSECTION_H
 #ifdef ENABLE_UNITTEST
 #include <gtest.h>
 #endif

 #include <llvm/MC/MCSection.h>
 #include <llvm/MC/MCAssembler.h>
 #include <llvm/ADT/StringRef.h>
 #include <llvm/Support/DataTypes.h>
 #include <mcld/LD/LDFileFormat.h>
 #include <string>

 namespace llvm {

 class MCAsmInfo;
 class raw_ostream;

 } // namespace of llvm

 namespace mcld {
 /** \class LDSection
  *  \brief LDSection represents a section header entry. It is a unified
  *  abstraction for various file formats.
  *
  *  LDSection contains both the format-dependent data and LLVM specific data.
  *
  */
 class LDSection : public llvm::MCSection
 {
 public:
   LDSection(const std::string& pName,
             LDFileFormat::Kind pKind,
             uint32_t pType,
             uint32_t pFlag,
             uint64_t pSize = 0,
             uint64_t pOffset = 0,
             uint64_t pAddr = 0);

   /// name - the name of this section.
   const std::string& name() const
   { return m_Name; }

   /// kind - the kind of this section, such as Text, BSS, GOT, and so on.
   /// from LDFileFormat::Kind
   LDFileFormat::Kind kind() const
   { return m_Kind; }

   /// type - The categorizes the section's contents and semantics. It's
   /// different from llvm::SectionKind. Type is format-dependent, but
   /// llvm::SectionKind is format independent and is used for bit-code.
   ///   In ELF, it is sh_type
   ///   In MachO, it's type field of struct section::flags
   uint32_t type() const
   { return m_Type; }

   /// flag - An integer describes miscellaneous attributes.
   ///   In ELF, it is sh_flags.
   ///   In MachO, it's attribute field of struct section::flags
   uint32_t flag() const
   { return m_Flag; }

   /// size - An integer specifying the size in bytes of the virtual memory
   /// occupied by this section.
   ///   In ELF, if the type() is SHT_NOBITS, this function return zero.
   ///   Before layouting, output's LDSection::size() should return zero.
   uint64_t size() const
   { return m_Size; }

   /// offset - An integer specifying the offset of this section in the file.
   ///   Before layouting, output's LDSection::offset() should return zero.
   uint64_t offset() const
   { return m_Offset; }

   /// addr - An integer specifying the virtual address of this section in the
   /// virtual image.
   ///   Before layouting, output's LDSection::offset() should return zero.
   ///   ELF uses sh_addralign to set alignment constraints. In LLVM, alignment
   ///   constraint is set in MCSectionData::setAlignment. addr() contains the
   ///   original ELF::sh_addr. Modulo sh_addr by sh_addralign is not necessary.
   ///   MachO uses the same scenario.
   ///
   ///   Because addr() in output is changing during linking, MCLinker does not
   ///   store the address of the output here. The address is in Layout
   uint64_t addr() const
   { return m_Addr; }

   /// align - An integer specifying the align of this section in the file.
   ///   Before layouting, output's LDSection::align() should return zero.
   uint32_t align() const
   { return m_Align; }

   size_t index() const
   { return m_Index; }

   /// getLink - return the Link. When a section A needs the other section B
   /// during linking or loading, we say B is A's Link section.
   /// In ELF, InfoLink section control the ElfNN_Shdr::sh_link and sh_info.
   ///
   /// @return if the section needs no other sections, return NULL
   LDSection* getLink()
   { return m_pLink; }

   const LDSection* getLink() const
   { return m_pLink; }

   size_t getInfo() const
   { return m_Info; }

   void setKind(LDFileFormat::Kind pKind)
   { m_Kind = pKind; }

   void setSize(uint64_t size)
   { m_Size = size; }

   void setOffset(uint64_t Offset)
   { m_Offset = Offset; }

   void setAddr(uint64_t addr)
   { m_Addr = addr; }

   void setAlign(uint32_t align)
   { m_Align = align; }

   void setFlag(uint32_t flag)
   { m_Flag = flag; }

   void setType(uint32_t type)
   { m_Type = type; }

   static bool classof(const MCSection *S)
   { return S->getVariant() == SV_LDContext; }

   static bool classof(const LDSection *)
   { return true; }

   // -----  methods for adapt to llvm::MCSection  ----- //
   void PrintSwitchToSection(const llvm::MCAsmInfo &MAI,
                             llvm::raw_ostream &OS) const
   { }

   bool UseCodeAlign() const
   { return true; }

   bool isVirtualSection() const
   { return false; }

   llvm::MCSectionData* getSectionData()
   { return m_pSectionData; }

   const llvm::MCSectionData* getSectionData() const
   { return m_pSectionData; }

   void setSectionData(llvm::MCSectionData* pSD)
   { m_pSectionData = pSD; }

   bool hasSectionData() const
   { return (NULL != m_pSectionData); }

   /// setLink - set the sections should link with.
   /// if pLink is NULL, no Link section is set.
   void setLink(LDSection* pLink)
   { m_pLink = pLink; }

   void setInfo(size_t pInfo)
   { m_Info = pInfo; }

   void setIndex(size_t pIndex)
   { m_Index = pIndex; }

 private:
   std::string m_Name;
   LDFileFormat::Kind m_Kind;
   uint32_t m_Type;
   uint32_t m_Flag;

   uint64_t m_Size;
   uint64_t m_Offset;
   uint64_t m_Addr;
   uint32_t m_Align;

   size_t m_Info;
   LDSection* m_pLink;

   // pointer to MCSectionData.
   llvm::MCSectionData* m_pSectionData;

   // the index of the file
   size_t m_Index;

 }; // end of LDSection

 } // end namespace mcld

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

	#ifndef MCLD_LD_LDSECTION_H
	#define MCLD_LD_LDSECTION_H
	#ifdef ENABLE_UNITTEST
	#include <gtest.h>
	#endif

	#include <llvm/MC/MCSection.h>
	#include <llvm/MC/MCAssembler.h>
	#include <llvm/ADT/StringRef.h>
	#include <llvm/Support/DataTypes.h>
	#include <mcld/LD/LDFileFormat.h>
	#include <string>

	namespace llvm {

	class MCAsmInfo;
	class raw_ostream;

	} // namespace of llvm

	namespace mcld {
	/** \class LDSection
	* \brief LDSection represents a section header entry. It is a unified
	* abstraction for various file formats.
	*
	* LDSection contains both the format-dependent data and LLVM specific data.
	*
	*/
	class LDSection : public llvm::MCSection
	{
	public:
	LDSection(const std::string& pName,
	LDFileFormat::Kind pKind,
	uint32_t pType,
	uint32_t pFlag,
	uint64_t pSize = 0,
	uint64_t pOffset = 0,
	uint64_t pAddr = 0);

	/// name - the name of this section.
	const std::string& name() const
	{ return m_Name; }

	/// kind - the kind of this section, such as Text, BSS, GOT, and so on.
	/// from LDFileFormat::Kind
	LDFileFormat::Kind kind() const
	{ return m_Kind; }

	/// type - The categorizes the section's contents and semantics. It's
	/// different from llvm::SectionKind. Type is format-dependent, but
	/// llvm::SectionKind is format independent and is used for bit-code.
	/// In ELF, it is sh_type
	/// In MachO, it's type field of struct section::flags
	uint32_t type() const
	{ return m_Type; }

	/// flag - An integer describes miscellaneous attributes.
	/// In ELF, it is sh_flags.
	/// In MachO, it's attribute field of struct section::flags
	uint32_t flag() const
	{ return m_Flag; }

	/// size - An integer specifying the size in bytes of the virtual memory
	/// occupied by this section.
	/// In ELF, if the type() is SHT_NOBITS, this function return zero.
	/// Before layouting, output's LDSection::size() should return zero.
	uint64_t size() const
	{ return m_Size; }

	/// offset - An integer specifying the offset of this section in the file.
	/// Before layouting, output's LDSection::offset() should return zero.
	uint64_t offset() const
	{ return m_Offset; }

	/// addr - An integer specifying the virtual address of this section in the
	/// virtual image.
	/// Before layouting, output's LDSection::offset() should return zero.
	/// ELF uses sh_addralign to set alignment constraints. In LLVM, alignment
	/// constraint is set in MCSectionData::setAlignment. addr() contains the
	/// original ELF::sh_addr. Modulo sh_addr by sh_addralign is not necessary.
	/// MachO uses the same scenario.
	///
	/// Because addr() in output is changing during linking, MCLinker does not
	/// store the address of the output here. The address is in Layout
	uint64_t addr() const
	{ return m_Addr; }

	/// align - An integer specifying the align of this section in the file.
	/// Before layouting, output's LDSection::align() should return zero.
	uint32_t align() const
	{ return m_Align; }

	size_t index() const
	{ return m_Index; }

	/// getLink - return the Link. When a section A needs the other section B
	/// during linking or loading, we say B is A's Link section.
	/// In ELF, InfoLink section control the ElfNN_Shdr::sh_link and sh_info.
	///
	/// @return if the section needs no other sections, return NULL
	LDSection* getLink()
	{ return m_pLink; }

	const LDSection* getLink() const
	{ return m_pLink; }

	size_t getInfo() const
	{ return m_Info; }

	void setKind(LDFileFormat::Kind pKind)
	{ m_Kind = pKind; }

	void setSize(uint64_t size)
	{ m_Size = size; }

	void setOffset(uint64_t Offset)
	{ m_Offset = Offset; }

	void setAddr(uint64_t addr)
	{ m_Addr = addr; }

	void setAlign(uint32_t align)
	{ m_Align = align; }

	void setFlag(uint32_t flag)
	{ m_Flag = flag; }

	void setType(uint32_t type)
	{ m_Type = type; }

	static bool classof(const MCSection *S)
	{ return S->getVariant() == SV_LDContext; }

	static bool classof(const LDSection *)
	{ return true; }

	// ----- methods for adapt to llvm::MCSection ----- //
	void PrintSwitchToSection(const llvm::MCAsmInfo &MAI,
	llvm::raw_ostream &OS) const
	{ }

	bool UseCodeAlign() const
	{ return true; }

	bool isVirtualSection() const
	{ return false; }

	llvm::MCSectionData* getSectionData()
	{ return m_pSectionData; }

	const llvm::MCSectionData* getSectionData() const
	{ return m_pSectionData; }

	void setSectionData(llvm::MCSectionData* pSD)
	{ m_pSectionData = pSD; }

	bool hasSectionData() const
	{ return (NULL != m_pSectionData); }

	/// setLink - set the sections should link with.
	/// if pLink is NULL, no Link section is set.
	void setLink(LDSection* pLink)
	{ m_pLink = pLink; }

	void setInfo(size_t pInfo)
	{ m_Info = pInfo; }

	void setIndex(size_t pIndex)
	{ m_Index = pIndex; }

	private:
	std::string m_Name;
	LDFileFormat::Kind m_Kind;
	uint32_t m_Type;
	uint32_t m_Flag;

	uint64_t m_Size;
	uint64_t m_Offset;
	uint64_t m_Addr;
	uint32_t m_Align;

	size_t m_Info;
	LDSection* m_pLink;

	// pointer to MCSectionData.
	llvm::MCSectionData* m_pSectionData;

	// the index of the file
	size_t m_Index;

	}; // end of LDSection

	} // end namespace mcld

	#endif