oprofile-0.9.7/libutil++/op_bfd.h - nest-learning-thermostat/5.0.2/oprofile - Git at Google

 /**
  * @file op_bfd.h
  * Encapsulation of bfd objects
  *
  * @remark Copyright 2002 OProfile authors
  * @remark Read the file COPYING
  *
  * @author Philippe Elie
  * @author John Levon
  */

 #ifndef OP_BFD_H
 #define OP_BFD_H

 #include "config.h"

 #include <vector>
 #include <string>
 #include <list>
 #include <map>
 #include <set>

 #include "bfd_support.h"
 #include "locate_images.h"
 #include "utility.h"
 #include "cached_value.h"
 #include "op_types.h"

 class op_bfd;
 class string_filter;
 class extra_images;

 /// all symbol vector indexing uses this type
 typedef size_t symbol_index_t;

 /**
  * A symbol description from a bfd point of view. This duplicate
  * information pointed by an asymbol, we need this duplication in case
  * the symbol is an artificial symbol
  */
 class op_bfd_symbol {
 public:

 	/// ctor for real symbols
 	op_bfd_symbol(asymbol const * a);

 	/// ctor for artificial symbols
 	op_bfd_symbol(bfd_vma vma, size_t size, std::string const & name);

 	bfd_vma vma() const { return symb_value + section_vma; }
 	unsigned long value() const { return symb_value; }
 	unsigned long filepos() const { return symb_value + section_filepos; }
 	unsigned long symbol_endpos(void) const;
 	asection const * section(void) const { return bfd_symbol->section; }
 	std::string const & name() const { return symb_name; }
 	asymbol const * symbol() const { return bfd_symbol; }
 	size_t size() const { return symb_size; }
 	void size(size_t s) { symb_size = s; }
 	bool hidden() const { return symb_hidden; }
 	bool weak() const { return symb_weak; }
 	bool artificial() const { return symb_artificial; }

 	/// compare two symbols by their filepos()
 	bool operator<(op_bfd_symbol const & lhs) const;

 private:
 	/// the original bfd symbol, this can be null if the symbol is an
 	/// artificial symbol
 	asymbol const * bfd_symbol;
 	/// the offset of this symbol relative to the begin of the section's
 	/// symbol
 	unsigned long symb_value;
 	/// the section filepos for this symbol
 	unsigned long section_filepos;
 	/// the section vma for this symbol
 	bfd_vma section_vma;
 	/// the size of this symbol
 	size_t symb_size;
 	/// the name of the symbol
 	std::string symb_name;
 	/// normally not externally visible symbol
 	bool symb_hidden;
 	/// whether other symbols can override it
 	bool symb_weak;
 	/// symbol is artificially created
 	bool symb_artificial;
 	/// code bytes corresponding to symbol -- used for XML generation
 	std::string symb_bytes;
 };

 /**
  * Encapsulation of a bfd object. Simplifies open/close of bfd, enumerating
  * symbols and retrieving informations for symbols or vma.
  *
  * Use of this class relies on a std::ostream cverb
  */
 class op_bfd {
 public:
 	/**
 	 * @param filename  the name of the image file
 	 * @param symbol_filter  filter to apply to symbols
 	 * @param extra_images container where all extra candidate filenames
 	 *    are stored
 	 * @param ok in-out parameter: on in, if not set, don't
 	 * open the bfd (because it's not there or whatever). On out,
 	 * it's set to false if the bfd couldn't be loaded.
 	 */
 	op_bfd(std::string const & filename,
 	       string_filter const & symbol_filter,
 	       extra_images const & extra_images,
 	       bool & ok);

 	/**
 	 * This constructor is used when processing an SPU profile
 	 * where the SPU ELF is embedded within the PPE binary.
 	 */
 	op_bfd(uint64_t spu_offset,
 	       std::string const & filename,
 	       string_filter const & symbol_filter,
 	       extra_images const & extra_images,
 	       bool & ok);

 	std::string get_embedding_filename() const { return embedding_filename; }

 	/// close an opened bfd image and free all related resources
 	~op_bfd();

 	/**
 	 * @param sym_idx index of the symbol
 	 * @param offset fentry number
 	 * @param filename output parameter to store filename
 	 * @param linenr output parameter to store linenr.
 	 *
 	 * Retrieve the relevant finename:linenr information for the sym_idx
 	 * at offset. If the lookup fails, return false. In some cases this
 	 * function can retrieve the filename and return true but fail to
 	 * retrieve the linenr and so can return zero in linenr
 	 */
 	bool get_linenr(symbol_index_t sym_idx, bfd_vma offset,
 			std::string & filename, unsigned int & linenr) const;

 	/**
 	 * @param sym_idx symbol index
 	 * @param start reference to start var
 	 * @param end reference to end var
 	 *
 	 * Calculates the range of sample file entries covered by sym. start
 	 * and end will be filled in appropriately. If index is the last entry
 	 * in symbol table, all entries up to the end of the sample file will
 	 * be used.  After calculating start and end they are sanitized
 	 *
 	 * All errors are fatal.
 	 */
 	void get_symbol_range(symbol_index_t sym_idx,
 			      unsigned long long & start, unsigned long long & end) const;

 	/**
 	 * @param start reference to the start vma
 	 * @param end reference to the end vma
 	 *
 	 * return in start, end the vma range for this binary object.
 	 */
 	void get_vma_range(bfd_vma & start, bfd_vma & end) const;

 	/** return the relocated PC value for the given file offset */
 	bfd_vma offset_to_pc(bfd_vma offset) const;

 	/**
 	 * If passed 0, return the file position of the .text section.
 	 * Otherwise, return the filepos of a section with a matching
 	 * vma.
 	 */
 	unsigned long get_start_offset(bfd_vma vma = 0) const;

 	/**
 	 * Return the image name of the underlying binary image. For an
 	 * archive, this returns the path *within* the archive, not the
 	 * full path of the file.
 	 */
 	std::string get_filename() const;

 	/// sorted vector by vma of interesting symbol.
 	std::vector<op_bfd_symbol> syms;

 	/// return in bits the bfd_vma size for this binary. This is needed
 	/// because gprof output depend on the bfd_vma for *this* binary
 	/// and do not depend on sizeof(bfd_vma)
 	size_t bfd_arch_bits_per_address() const;

 	/// return true if binary contain some debug information
 	bool has_debug_info() const;

 	/**
 	 * @param sym_idx symbol index
 	 *
 	 * Return true or false, indicating whether or not the
 	 * symbol referenced by the passed sym_idx has code available.
 	 * Some symbols have no code associated with them; for example,
 	 * artificial symbols created for anonymous memory samples or for
 	 * stripped binaries with no symbol debug info.  Additionally,
 	 * if the bfd object associated with the symbol is not valid,
 	 * this function will also return false.
 	 *
 	 * NOTE:  This call should be made prior to invoking
 	 *        get_symbol_contents to avoid unnecessarily allocating
 	 *        memory for the symbol contents.
 	 */
 	bool symbol_has_contents(symbol_index_t sym_idx);

 	bool get_symbol_contents(symbol_index_t sym_index,
 		unsigned char * contents) const;

 	bool valid() const { return ibfd.valid(); }

 private:
 	/// temporary container type for getting symbols
 	typedef std::list<op_bfd_symbol> symbols_found_t;

 	/**
 	 * Parse and sort in ascending order all symbols
 	 * in the file pointed to by abfd that reside in
 	 * a %SEC_CODE section.
 	 *
 	 * The symbols are filtered through
 	 * the interesting_symbol() predicate and sorted
 	 * with op_bfd_symbol::operator<() comparator.
 	 */
 	void get_symbols(symbols_found_t & symbols);

 	/**
 	 * Helper function for get_symbols.
 	 * Populates bfd_syms and extracts the "interesting_symbol"s.
 	 */
 	void get_symbols_from_file(bfd_info & bfd, size_t start,
 				   op_bfd::symbols_found_t & symbols,
 				   bool debug_file);

 	/**
 	 * Add the symbols in the binary, applying filtering,
 	 * and handling artificial symbols.
 	 */
 	void add_symbols(symbols_found_t & symbols,
 	                 string_filter const & symbol_filter);

 	/**
 	 * symbol_size - return the size of a symbol
 	 * @param sym  symbol to get size
 	 * @param next  next symbol in vma order if any
 	 */
 	size_t symbol_size(op_bfd_symbol const & sym,
 			   op_bfd_symbol const * next) const;

 	/// create an artificial symbol for a symbolless binary
 	op_bfd_symbol const create_artificial_symbol();

         /* Generate symbols using bfd functions for
 	 * the image file associated with the ibfd arg.
 	 */
 	uint process_symtab(bfd_info * bfd, uint start);

 	/// filename we open (not including archive path)
 	std::string filename;

 	/// path to archive
 	std::string archive_path;

 	/// reference to extra_images
 	extra_images const & extra_found_images;

 	/// file size in bytes
 	off_t file_size;

 	/// corresponding debug file name
 	mutable std::string debug_filename;

 	/// true if at least one section has (flags & SEC_DEBUGGING) != 0
 	mutable cached_value<bool> debug_info;

 	/// our main bfd object: .bfd may be NULL
 	bfd_info ibfd;

 	// corresponding debug bfd object, if one is found
 	mutable bfd_info dbfd;

 	/// sections we will avoid to use symbol from, this is needed
 	/// because elf file allows sections with identical vma and we can't
 	/// allow overlapping symbols. Such elf layout is used actually by
 	/// kernel modules where all code section vma are set to 0.
 	std::vector<asection const *> filtered_section;

 	typedef std::map<std::string, u32> filepos_map_t;
 	// mapping of section names to filepos in the original binary
 	filepos_map_t filepos_map;

 	/**
 	 * If spu_offset is non-zero, embedding_filename is the file containing
 	 * the embedded SPU image.
 	 */
 	std::string embedding_filename;

 	bool anon_obj;
 };


 #endif /* !OP_BFD_H */
	/**
	* @file op_bfd.h
	* Encapsulation of bfd objects
	*
	* @remark Copyright 2002 OProfile authors
	* @remark Read the file COPYING
	*
	* @author Philippe Elie
	* @author John Levon
	*/

	#ifndef OP_BFD_H
	#define OP_BFD_H

	#include "config.h"

	#include <vector>
	#include <string>
	#include <list>
	#include <map>
	#include <set>

	#include "bfd_support.h"
	#include "locate_images.h"
	#include "utility.h"
	#include "cached_value.h"
	#include "op_types.h"

	class op_bfd;
	class string_filter;
	class extra_images;

	/// all symbol vector indexing uses this type
	typedef size_t symbol_index_t;

	/**
	* A symbol description from a bfd point of view. This duplicate
	* information pointed by an asymbol, we need this duplication in case
	* the symbol is an artificial symbol
	*/
	class op_bfd_symbol {
	public:

	/// ctor for real symbols
	op_bfd_symbol(asymbol const * a);

	/// ctor for artificial symbols
	op_bfd_symbol(bfd_vma vma, size_t size, std::string const & name);

	bfd_vma vma() const { return symb_value + section_vma; }
	unsigned long value() const { return symb_value; }
	unsigned long filepos() const { return symb_value + section_filepos; }
	unsigned long symbol_endpos(void) const;
	asection const * section(void) const { return bfd_symbol->section; }
	std::string const & name() const { return symb_name; }
	asymbol const * symbol() const { return bfd_symbol; }
	size_t size() const { return symb_size; }
	void size(size_t s) { symb_size = s; }
	bool hidden() const { return symb_hidden; }
	bool weak() const { return symb_weak; }
	bool artificial() const { return symb_artificial; }

	/// compare two symbols by their filepos()
	bool operator<(op_bfd_symbol const & lhs) const;

	private:
	/// the original bfd symbol, this can be null if the symbol is an
	/// artificial symbol
	asymbol const * bfd_symbol;
	/// the offset of this symbol relative to the begin of the section's
	/// symbol
	unsigned long symb_value;
	/// the section filepos for this symbol
	unsigned long section_filepos;
	/// the section vma for this symbol
	bfd_vma section_vma;
	/// the size of this symbol
	size_t symb_size;
	/// the name of the symbol
	std::string symb_name;
	/// normally not externally visible symbol
	bool symb_hidden;
	/// whether other symbols can override it
	bool symb_weak;
	/// symbol is artificially created
	bool symb_artificial;
	/// code bytes corresponding to symbol -- used for XML generation
	std::string symb_bytes;
	};

	/**
	* Encapsulation of a bfd object. Simplifies open/close of bfd, enumerating
	* symbols and retrieving informations for symbols or vma.
	*
	* Use of this class relies on a std::ostream cverb
	*/
	class op_bfd {
	public:
	/**
	* @param filename the name of the image file
	* @param symbol_filter filter to apply to symbols
	* @param extra_images container where all extra candidate filenames
	* are stored
	* @param ok in-out parameter: on in, if not set, don't
	* open the bfd (because it's not there or whatever). On out,
	* it's set to false if the bfd couldn't be loaded.
	*/
	op_bfd(std::string const & filename,
	string_filter const & symbol_filter,
	extra_images const & extra_images,
	bool & ok);

	/**
	* This constructor is used when processing an SPU profile
	* where the SPU ELF is embedded within the PPE binary.
	*/
	op_bfd(uint64_t spu_offset,
	std::string const & filename,
	string_filter const & symbol_filter,
	extra_images const & extra_images,
	bool & ok);

	std::string get_embedding_filename() const { return embedding_filename; }

	/// close an opened bfd image and free all related resources
	~op_bfd();

	/**
	* @param sym_idx index of the symbol
	* @param offset fentry number
	* @param filename output parameter to store filename
	* @param linenr output parameter to store linenr.
	*
	* Retrieve the relevant finename:linenr information for the sym_idx
	* at offset. If the lookup fails, return false. In some cases this
	* function can retrieve the filename and return true but fail to
	* retrieve the linenr and so can return zero in linenr
	*/
	bool get_linenr(symbol_index_t sym_idx, bfd_vma offset,
	std::string & filename, unsigned int & linenr) const;

	/**
	* @param sym_idx symbol index
	* @param start reference to start var
	* @param end reference to end var
	*
	* Calculates the range of sample file entries covered by sym. start
	* and end will be filled in appropriately. If index is the last entry
	* in symbol table, all entries up to the end of the sample file will
	* be used. After calculating start and end they are sanitized
	*
	* All errors are fatal.
	*/
	void get_symbol_range(symbol_index_t sym_idx,
	unsigned long long & start, unsigned long long & end) const;

	/**
	* @param start reference to the start vma
	* @param end reference to the end vma
	*
	* return in start, end the vma range for this binary object.
	*/
	void get_vma_range(bfd_vma & start, bfd_vma & end) const;

	/** return the relocated PC value for the given file offset */
	bfd_vma offset_to_pc(bfd_vma offset) const;

	/**
	* If passed 0, return the file position of the .text section.
	* Otherwise, return the filepos of a section with a matching
	* vma.
	*/
	unsigned long get_start_offset(bfd_vma vma = 0) const;

	/**
	* Return the image name of the underlying binary image. For an
	* archive, this returns the path within the archive, not the
	* full path of the file.
	*/
	std::string get_filename() const;

	/// sorted vector by vma of interesting symbol.
	std::vector<op_bfd_symbol> syms;

	/// return in bits the bfd_vma size for this binary. This is needed
	/// because gprof output depend on the bfd_vma for this binary
	/// and do not depend on sizeof(bfd_vma)
	size_t bfd_arch_bits_per_address() const;

	/// return true if binary contain some debug information
	bool has_debug_info() const;

	/**
	* @param sym_idx symbol index
	*
	* Return true or false, indicating whether or not the
	* symbol referenced by the passed sym_idx has code available.
	* Some symbols have no code associated with them; for example,
	* artificial symbols created for anonymous memory samples or for
	* stripped binaries with no symbol debug info. Additionally,
	* if the bfd object associated with the symbol is not valid,
	* this function will also return false.
	*
	* NOTE: This call should be made prior to invoking
	* get_symbol_contents to avoid unnecessarily allocating
	* memory for the symbol contents.
	*/
	bool symbol_has_contents(symbol_index_t sym_idx);

	bool get_symbol_contents(symbol_index_t sym_index,
	unsigned char * contents) const;

	bool valid() const { return ibfd.valid(); }

	private:
	/// temporary container type for getting symbols
	typedef std::list<op_bfd_symbol> symbols_found_t;

	/**
	* Parse and sort in ascending order all symbols
	* in the file pointed to by abfd that reside in
	* a %SEC_CODE section.
	*
	* The symbols are filtered through
	* the interesting_symbol() predicate and sorted
	* with op_bfd_symbol::operator<() comparator.
	*/
	void get_symbols(symbols_found_t & symbols);

	/**
	* Helper function for get_symbols.
	* Populates bfd_syms and extracts the "interesting_symbol"s.
	*/
	void get_symbols_from_file(bfd_info & bfd, size_t start,
	op_bfd::symbols_found_t & symbols,
	bool debug_file);

	/**
	* Add the symbols in the binary, applying filtering,
	* and handling artificial symbols.
	*/
	void add_symbols(symbols_found_t & symbols,
	string_filter const & symbol_filter);

	/**
	* symbol_size - return the size of a symbol
	* @param sym symbol to get size
	* @param next next symbol in vma order if any
	*/
	size_t symbol_size(op_bfd_symbol const & sym,
	op_bfd_symbol const * next) const;

	/// create an artificial symbol for a symbolless binary
	op_bfd_symbol const create_artificial_symbol();

	/* Generate symbols using bfd functions for
	* the image file associated with the ibfd arg.
	*/
	uint process_symtab(bfd_info * bfd, uint start);

	/// filename we open (not including archive path)
	std::string filename;

	/// path to archive
	std::string archive_path;

	/// reference to extra_images
	extra_images const & extra_found_images;

	/// file size in bytes
	off_t file_size;

	/// corresponding debug file name
	mutable std::string debug_filename;

	/// true if at least one section has (flags & SEC_DEBUGGING) != 0
	mutable cached_value<bool> debug_info;

	/// our main bfd object: .bfd may be NULL
	bfd_info ibfd;

	// corresponding debug bfd object, if one is found
	mutable bfd_info dbfd;

	/// sections we will avoid to use symbol from, this is needed
	/// because elf file allows sections with identical vma and we can't
	/// allow overlapping symbols. Such elf layout is used actually by
	/// kernel modules where all code section vma are set to 0.
	std::vector<asection const *> filtered_section;

	typedef std::map<std::string, u32> filepos_map_t;
	// mapping of section names to filepos in the original binary
	filepos_map_t filepos_map;

	/**
	* If spu_offset is non-zero, embedding_filename is the file containing
	* the embedded SPU image.
	*/
	std::string embedding_filename;

	bool anon_obj;
	};


	#endif /* !OP_BFD_H */