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

 //===- ELFSegment.h -------------------------------------------------------===//
 //
 //                     The MCLinker Project
 //
 // This file is distributed under the University of Illinois Open Source
 // License. See LICENSE.TXT for details.
 //
 //===----------------------------------------------------------------------===//
 #ifndef MCLD_ELF_SEGMENT_H
 #define MCLD_ELF_SEGMENT_H
 #ifdef ENABLE_UNITTEST
 #include <gtest.h>
 #endif
 #include <llvm/Support/ELF.h>
 #include <llvm/Support/DataTypes.h>
 #include <mcld/LD/LDSection.h>
 #include <cassert>
 #include <vector>

 namespace mcld
 {

 /** \class ELFSegment
  *  \brief decribe the program header for ELF executable or shared object
  */
 class ELFSegment
 {
 public:
   typedef std::vector<LDSection*>::iterator sect_iterator;
   typedef std::vector<LDSection*>::const_iterator const_sect_iterator;
 public:
   ELFSegment(uint32_t pType,
              uint32_t pFlag = llvm::ELF::PF_R,
              uint64_t pOffset = 0,
              uint64_t pVaddr = 0,
              uint64_t pPaddr = 0,
              uint64_t pFilesz = 0,
              uint64_t pMemsz = 0,
              uint64_t pAlign = 0,
              uint64_t pMaxSectAlign = 0);
   ~ELFSegment();

   ///  -----  iterators  -----  ///
   sect_iterator       begin()       { return m_SectionList.begin(); }
   const_sect_iterator begin() const { return m_SectionList.begin(); }
   sect_iterator       end()         { return m_SectionList.end(); }
   const_sect_iterator end()   const { return m_SectionList.end(); }

   LDSection*       front()       { return m_SectionList.front(); }
   const LDSection* front() const { return m_SectionList.front(); }
   LDSection*       back()        { return m_SectionList.back(); }
   const LDSection* back()  const { return m_SectionList.back(); }

   ///  -----  observers  -----  ///
   uint32_t type() const
   { return m_Type; }

   uint64_t offset() const
   { return m_Offset; }

   uint64_t vaddr() const
   { return m_Vaddr; }

   uint64_t paddr() const
   { return m_Paddr; }

   uint64_t filesz() const
   { return m_Filesz; }

   uint64_t memsz() const
   { return m_Memsz; }

   uint32_t flag() const
   { return m_Flag; }

   uint64_t align() const
   { return std::max(m_Align, m_MaxSectionAlign); }

   size_t numOfSections() const
   { return m_SectionList.size(); }

   bool isDataSegment() const;

   bool isBssSegment() const;

   ///  -----  modifiers  -----  ///
   void setOffset(uint64_t pOffset)
   { m_Offset = pOffset; }

   void setVaddr(uint64_t pVaddr)
   { m_Vaddr = pVaddr; }

   void setPaddr(uint64_t pPaddr)
   { m_Paddr = pPaddr; }

   void setFilesz(uint64_t pFilesz)
   { m_Filesz = pFilesz; }

   void setMemsz(uint64_t pMemsz)
   { m_Memsz = pMemsz; }

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

   void updateFlag(uint32_t pFlag)
   {
     // PT_TLS segment should be PF_R
     if (llvm::ELF::PT_TLS != m_Type)
       m_Flag |= pFlag;
   }

   void setAlign(uint64_t pAlign)
   { m_Align = pAlign; }

   void addSection(LDSection* pSection)
   {
     assert(NULL != pSection);
     if (pSection->align() > m_MaxSectionAlign)
       m_MaxSectionAlign = pSection->align();
     m_SectionList.push_back(pSection);
   }

 private:
   uint32_t m_Type;            // Type of segment
   uint32_t m_Flag;            // Segment flags
   uint64_t m_Offset;          // File offset where segment is located, in bytes
   uint64_t m_Vaddr;           // Virtual address of the segment
   uint64_t m_Paddr;           // Physical address of the segment (OS-specific)
   uint64_t m_Filesz;          // # of bytes in file image of segment (may be 0)
   uint64_t m_Memsz;           // # of bytes in mem image of segment (may be 0)
   uint64_t m_Align;           // alignment constraint
   uint64_t m_MaxSectionAlign; // max alignment of the sections in this segment
   std::vector<LDSection*> m_SectionList;
 };

 } // namespace of mcld

 #endif
	//===- ELFSegment.h -------------------------------------------------------===//
	//
	// The MCLinker Project
	//
	// This file is distributed under the University of Illinois Open Source
	// License. See LICENSE.TXT for details.
	//
	//===----------------------------------------------------------------------===//
	#ifndef MCLD_ELF_SEGMENT_H
	#define MCLD_ELF_SEGMENT_H
	#ifdef ENABLE_UNITTEST
	#include <gtest.h>
	#endif
	#include <llvm/Support/ELF.h>
	#include <llvm/Support/DataTypes.h>
	#include <mcld/LD/LDSection.h>
	#include <cassert>
	#include <vector>

	namespace mcld
	{

	/** \class ELFSegment
	* \brief decribe the program header for ELF executable or shared object
	*/
	class ELFSegment
	{
	public:
	typedef std::vector<LDSection*>::iterator sect_iterator;
	typedef std::vector<LDSection*>::const_iterator const_sect_iterator;
	public:
	ELFSegment(uint32_t pType,
	uint32_t pFlag = llvm::ELF::PF_R,
	uint64_t pOffset = 0,
	uint64_t pVaddr = 0,
	uint64_t pPaddr = 0,
	uint64_t pFilesz = 0,
	uint64_t pMemsz = 0,
	uint64_t pAlign = 0,
	uint64_t pMaxSectAlign = 0);
	~ELFSegment();

	/// ----- iterators ----- ///
	sect_iterator begin() { return m_SectionList.begin(); }
	const_sect_iterator begin() const { return m_SectionList.begin(); }
	sect_iterator end() { return m_SectionList.end(); }
	const_sect_iterator end() const { return m_SectionList.end(); }

	LDSection* front() { return m_SectionList.front(); }
	const LDSection* front() const { return m_SectionList.front(); }
	LDSection* back() { return m_SectionList.back(); }
	const LDSection* back() const { return m_SectionList.back(); }

	/// ----- observers ----- ///
	uint32_t type() const
	{ return m_Type; }

	uint64_t offset() const
	{ return m_Offset; }

	uint64_t vaddr() const
	{ return m_Vaddr; }

	uint64_t paddr() const
	{ return m_Paddr; }

	uint64_t filesz() const
	{ return m_Filesz; }

	uint64_t memsz() const
	{ return m_Memsz; }

	uint32_t flag() const
	{ return m_Flag; }

	uint64_t align() const
	{ return std::max(m_Align, m_MaxSectionAlign); }

	size_t numOfSections() const
	{ return m_SectionList.size(); }

	bool isDataSegment() const;

	bool isBssSegment() const;

	/// ----- modifiers ----- ///
	void setOffset(uint64_t pOffset)
	{ m_Offset = pOffset; }

	void setVaddr(uint64_t pVaddr)
	{ m_Vaddr = pVaddr; }

	void setPaddr(uint64_t pPaddr)
	{ m_Paddr = pPaddr; }

	void setFilesz(uint64_t pFilesz)
	{ m_Filesz = pFilesz; }

	void setMemsz(uint64_t pMemsz)
	{ m_Memsz = pMemsz; }

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

	void updateFlag(uint32_t pFlag)
	{
	// PT_TLS segment should be PF_R
	if (llvm::ELF::PT_TLS != m_Type)
	m_Flag \|= pFlag;
	}

	void setAlign(uint64_t pAlign)
	{ m_Align = pAlign; }

	void addSection(LDSection* pSection)
	{
	assert(NULL != pSection);
	if (pSection->align() > m_MaxSectionAlign)
	m_MaxSectionAlign = pSection->align();
	m_SectionList.push_back(pSection);
	}

	private:
	uint32_t m_Type; // Type of segment
	uint32_t m_Flag; // Segment flags
	uint64_t m_Offset; // File offset where segment is located, in bytes
	uint64_t m_Vaddr; // Virtual address of the segment
	uint64_t m_Paddr; // Physical address of the segment (OS-specific)
	uint64_t m_Filesz; // # of bytes in file image of segment (may be 0)
	uint64_t m_Memsz; // # of bytes in mem image of segment (may be 0)
	uint64_t m_Align; // alignment constraint
	uint64_t m_MaxSectionAlign; // max alignment of the sections in this segment
	std::vector<LDSection*> m_SectionList;
	};

	} // namespace of mcld

	#endif