src/common/dwarf/elf_reader.h - breakpad - Git at Google

 // Copyright 2005 Google Inc. All Rights Reserved.
 // Author: chatham@google.com (Andrew Chatham)
 // Author: satorux@google.com (Satoru Takabayashi)
 //
 // ElfReader handles reading in ELF. It can extract symbols from the
 // current process, which may be used to symbolize stack traces
 // without having to make a potentially dangerous call to fork().
 //
 // ElfReader dynamically allocates memory, so it is not appropriate to
 // use once the address space might be corrupted, such as during
 // process death.
 //
 // ElfReader supports both 32-bit and 64-bit ELF binaries.

 #ifndef COMMON_DWARF_ELF_READER_H__
 #define COMMON_DWARF_ELF_READER_H__

 #include <string>
 #include <vector>

 #include "common/dwarf/types.h"
 #include "common/using_std_string.h"

 using std::vector;
 using std::pair;

 namespace dwarf2reader {

 class SymbolMap;
 class Elf32;
 class Elf64;
 template<typename ElfArch>
 class ElfReaderImpl;

 class ElfReader {
  public:
   explicit ElfReader(const string &path);
   ~ElfReader();

   // Parse the ELF prologue of this file and return whether it was
   // successfully parsed and matches the word size and byte order of
   // the current process.
   bool IsNativeElfFile() const;

   // Similar to IsNativeElfFile but checks if it's a 32-bit ELF file.
   bool IsElf32File() const;

   // Similar to IsNativeElfFile but checks if it's a 64-bit ELF file.
   bool IsElf64File() const;

   // Checks if it's an ELF file of type ET_DYN (shared object file).
   bool IsDynamicSharedObject();

   // Add symbols in the given ELF file into the provided SymbolMap,
   // assuming that the file has been loaded into the specified
   // offset.
   //
   // The remaining arguments are typically taken from a
   // ProcMapsIterator (base/sysinfo.h) and describe which portions of
   // the ELF file are mapped into which parts of memory:
   //
   // mem_offset - position at which the segment is mapped into memory
   // file_offset - offset in the file where the mapping begins
   // length - length of the mapped segment
   void AddSymbols(SymbolMap *symbols,
                   uint64 mem_offset, uint64 file_offset,
                   uint64 length);

   class SymbolSink {
    public:
     virtual ~SymbolSink() {}
     virtual void AddSymbol(const char *name, uint64 address, uint64 size) = 0;
   };

   // Like AddSymbols above, but with no address correction.
   // Processes any SHT_SYMTAB section, followed by any SHT_DYNSYM section.
   void VisitSymbols(SymbolSink *sink);

   // Like VisitSymbols above, but for a specific symbol binding/type.
   // A negative value for the binding and type parameters means any
   // binding or type.
   void VisitSymbols(SymbolSink *sink, int symbol_binding, int symbol_type);

   // Like VisitSymbols above but can optionally export raw symbol values instead
   // of adjusted ones.
   void VisitSymbols(SymbolSink *sink, int symbol_binding, int symbol_type,
                     bool get_raw_symbol_values);

   // p_vaddr of the first PT_LOAD segment (if any), or 0 if no PT_LOAD
   // segments are present. This is the address an ELF image was linked
   // (by static linker) to be loaded at. Usually (but not always) 0 for
   // shared libraries and position-independent executables.
   uint64 VaddrOfFirstLoadSegment();

   // Return the name of section "shndx".  Returns NULL if the section
   // is not found.
   const char *GetSectionName(int shndx);

   // Return the number of sections in the given ELF file.
   uint64 GetNumSections();

   // Get section "shndx" from the given ELF file.  On success, return
   // the pointer to the section and store the size in "size".
   // On error, return NULL.  The returned section data is only valid
   // until the ElfReader gets destroyed.
   const char *GetSectionByIndex(int shndx, size_t *size);

   // Get section with "section_name" (ex. ".text", ".symtab") in the
   // given ELF file.  On success, return the pointer to the section
   // and store the size in "size".  On error, return NULL.  The
   // returned section data is only valid until the ElfReader gets
   // destroyed.
   const char *GetSectionByName(const string &section_name, size_t *size);

   // This is like GetSectionByName() but it returns a lot of extra information
   // about the section. The SectionInfo structure is almost identical to
   // the typedef struct Elf64_Shdr defined in <elf.h>, but is redefined
   // here so that the many short macro names in <elf.h> don't have to be
   // added to our already cluttered namespace.
   struct SectionInfo {
     uint32 type;                // Section type (SHT_xxx constant from elf.h).
     uint64 flags;               // Section flags (SHF_xxx constants from elf.h).
     uint64 addr;                // Section virtual address at execution.
     uint64 offset;              // Section file offset.
     uint64 size;                // Section size in bytes.
     uint32 link;                // Link to another section.
     uint32 info;                // Additional section information.
     uint64 addralign;           // Section alignment.
     uint64 entsize;             // Entry size if section holds a table.
   };
   const char *GetSectionInfoByName(const string &section_name,
                                    SectionInfo *info);

   // Check if "path" is an ELF binary that has not been stripped of symbol
   // tables.  This function supports both 32-bit and 64-bit ELF binaries.
   static bool IsNonStrippedELFBinary(const string &path);

   // Check if "path" is an ELF binary that has not been stripped of debug
   // info. Unlike IsNonStrippedELFBinary, this function will return
   // false for binaries passed through "strip -S".
   static bool IsNonDebugStrippedELFBinary(const string &path);

   // Match a requested section name with the section name as it
   // appears in the elf-file, adjusting for compressed debug section
   // names.  For example, returns true if name == ".debug_abbrev" and
   // sh_name == ".zdebug_abbrev"
   static bool SectionNamesMatch(const string &name, const string &sh_name);

  private:
   // Lazily initialize impl32_ and return it.
   ElfReaderImpl<Elf32> *GetImpl32();
   // Ditto for impl64_.
   ElfReaderImpl<Elf64> *GetImpl64();

   // Path of the file we're reading.
   const string path_;
   // Read-only file descriptor for the file. May be -1 if there was an
   // error during open.
   int fd_;
   ElfReaderImpl<Elf32> *impl32_;
   ElfReaderImpl<Elf64> *impl64_;
 };

 }  // namespace dwarf2reader

 #endif  // COMMON_DWARF_ELF_READER_H__
	// Copyright 2005 Google Inc. All Rights Reserved.
	// Author: chatham@google.com (Andrew Chatham)
	// Author: satorux@google.com (Satoru Takabayashi)
	//
	// ElfReader handles reading in ELF. It can extract symbols from the
	// current process, which may be used to symbolize stack traces
	// without having to make a potentially dangerous call to fork().
	//
	// ElfReader dynamically allocates memory, so it is not appropriate to
	// use once the address space might be corrupted, such as during
	// process death.
	//
	// ElfReader supports both 32-bit and 64-bit ELF binaries.

	#ifndef COMMON_DWARF_ELF_READER_H__
	#define COMMON_DWARF_ELF_READER_H__

	#include <string>
	#include <vector>

	#include "common/dwarf/types.h"
	#include "common/using_std_string.h"

	using std::vector;
	using std::pair;

	namespace dwarf2reader {

	class SymbolMap;
	class Elf32;
	class Elf64;
	template<typename ElfArch>
	class ElfReaderImpl;

	class ElfReader {
	public:
	explicit ElfReader(const string &path);
	~ElfReader();

	// Parse the ELF prologue of this file and return whether it was
	// successfully parsed and matches the word size and byte order of
	// the current process.
	bool IsNativeElfFile() const;

	// Similar to IsNativeElfFile but checks if it's a 32-bit ELF file.
	bool IsElf32File() const;

	// Similar to IsNativeElfFile but checks if it's a 64-bit ELF file.
	bool IsElf64File() const;

	// Checks if it's an ELF file of type ET_DYN (shared object file).
	bool IsDynamicSharedObject();

	// Add symbols in the given ELF file into the provided SymbolMap,
	// assuming that the file has been loaded into the specified
	// offset.
	//
	// The remaining arguments are typically taken from a
	// ProcMapsIterator (base/sysinfo.h) and describe which portions of
	// the ELF file are mapped into which parts of memory:
	//
	// mem_offset - position at which the segment is mapped into memory
	// file_offset - offset in the file where the mapping begins
	// length - length of the mapped segment
	void AddSymbols(SymbolMap *symbols,
	uint64 mem_offset, uint64 file_offset,
	uint64 length);

	class SymbolSink {
	public:
	virtual ~SymbolSink() {}
	virtual void AddSymbol(const char *name, uint64 address, uint64 size) = 0;
	};

	// Like AddSymbols above, but with no address correction.
	// Processes any SHT_SYMTAB section, followed by any SHT_DYNSYM section.
	void VisitSymbols(SymbolSink *sink);

	// Like VisitSymbols above, but for a specific symbol binding/type.
	// A negative value for the binding and type parameters means any
	// binding or type.
	void VisitSymbols(SymbolSink *sink, int symbol_binding, int symbol_type);

	// Like VisitSymbols above but can optionally export raw symbol values instead
	// of adjusted ones.
	void VisitSymbols(SymbolSink *sink, int symbol_binding, int symbol_type,
	bool get_raw_symbol_values);

	// p_vaddr of the first PT_LOAD segment (if any), or 0 if no PT_LOAD
	// segments are present. This is the address an ELF image was linked
	// (by static linker) to be loaded at. Usually (but not always) 0 for
	// shared libraries and position-independent executables.
	uint64 VaddrOfFirstLoadSegment();

	// Return the name of section "shndx". Returns NULL if the section
	// is not found.
	const char *GetSectionName(int shndx);

	// Return the number of sections in the given ELF file.
	uint64 GetNumSections();

	// Get section "shndx" from the given ELF file. On success, return
	// the pointer to the section and store the size in "size".
	// On error, return NULL. The returned section data is only valid
	// until the ElfReader gets destroyed.
	const char GetSectionByIndex(int shndx, size_t size);

	// Get section with "section_name" (ex. ".text", ".symtab") in the
	// given ELF file. On success, return the pointer to the section
	// and store the size in "size". On error, return NULL. The
	// returned section data is only valid until the ElfReader gets
	// destroyed.
	const char GetSectionByName(const string &section_name, size_t size);

	// This is like GetSectionByName() but it returns a lot of extra information
	// about the section. The SectionInfo structure is almost identical to
	// the typedef struct Elf64_Shdr defined in <elf.h>, but is redefined
	// here so that the many short macro names in <elf.h> don't have to be
	// added to our already cluttered namespace.
	struct SectionInfo {
	uint32 type; // Section type (SHT_xxx constant from elf.h).
	uint64 flags; // Section flags (SHF_xxx constants from elf.h).
	uint64 addr; // Section virtual address at execution.
	uint64 offset; // Section file offset.
	uint64 size; // Section size in bytes.
	uint32 link; // Link to another section.
	uint32 info; // Additional section information.
	uint64 addralign; // Section alignment.
	uint64 entsize; // Entry size if section holds a table.
	};
	const char *GetSectionInfoByName(const string &section_name,
	SectionInfo *info);

	// Check if "path" is an ELF binary that has not been stripped of symbol
	// tables. This function supports both 32-bit and 64-bit ELF binaries.
	static bool IsNonStrippedELFBinary(const string &path);

	// Check if "path" is an ELF binary that has not been stripped of debug
	// info. Unlike IsNonStrippedELFBinary, this function will return
	// false for binaries passed through "strip -S".
	static bool IsNonDebugStrippedELFBinary(const string &path);

	// Match a requested section name with the section name as it
	// appears in the elf-file, adjusting for compressed debug section
	// names. For example, returns true if name == ".debug_abbrev" and
	// sh_name == ".zdebug_abbrev"
	static bool SectionNamesMatch(const string &name, const string &sh_name);

	private:
	// Lazily initialize impl32_ and return it.
	ElfReaderImpl<Elf32> *GetImpl32();
	// Ditto for impl64_.
	ElfReaderImpl<Elf64> *GetImpl64();

	// Path of the file we're reading.
	const string path_;
	// Read-only file descriptor for the file. May be -1 if there was an
	// error during open.
	int fd_;
	ElfReaderImpl<Elf32> *impl32_;
	ElfReaderImpl<Elf64> *impl64_;
	};

	} // namespace dwarf2reader

	#endif // COMMON_DWARF_ELF_READER_H__