//===-- ObjectFile.h --------------------------------------------*- C++ -*-===// // // The LLVM Compiler Infrastructure // // This file is distributed under the University of Illinois Open Source // License. See LICENSE.TXT for details. // //===----------------------------------------------------------------------===// #ifndef liblldb_ObjectFile_h_ #define liblldb_ObjectFile_h_ #include "lldb/Core/FileSpecList.h" #include "lldb/Core/ModuleChild.h" #include "lldb/Core/PluginInterface.h" #include "lldb/Symbol/Symtab.h" #include "lldb/Symbol/UnwindTable.h" #include "lldb/Utility/DataExtractor.h" #include "lldb/Utility/Endian.h" #include "lldb/Utility/FileSpec.h" #include "lldb/Utility/UUID.h" #include "lldb/lldb-private.h" namespace lldb_private { class ObjectFileJITDelegate { public: ObjectFileJITDelegate() {} virtual ~ObjectFileJITDelegate() {} virtual lldb::ByteOrder GetByteOrder() const = 0; virtual uint32_t GetAddressByteSize() const = 0; virtual void PopulateSymtab(lldb_private::ObjectFile *obj_file, lldb_private::Symtab &symtab) = 0; virtual void PopulateSectionList(lldb_private::ObjectFile *obj_file, lldb_private::SectionList §ion_list) = 0; virtual bool GetArchitecture(lldb_private::ArchSpec &arch) = 0; }; //---------------------------------------------------------------------- /// @class ObjectFile ObjectFile.h "lldb/Symbol/ObjectFile.h" /// @brief A plug-in interface definition class for object file parsers. /// /// Object files belong to Module objects and know how to extract /// information from executable, shared library, and object (.o) files /// used by operating system runtime. The symbol table and section list /// for an object file. /// /// Object files can be represented by the entire file, or by part of a /// file. An example of a partial file ObjectFile is one that contains /// information for one of multiple architectures in the same file. /// /// Once an architecture is selected the object file information can be /// extracted from this abstract class. //---------------------------------------------------------------------- class ObjectFile : public std::enable_shared_from_this, public PluginInterface, public ModuleChild { friend class lldb_private::Module; public: typedef enum { eTypeInvalid = 0, eTypeCoreFile, /// A core file that has a checkpoint of a program's /// execution state eTypeExecutable, /// A normal executable eTypeDebugInfo, /// An object file that contains only debug information eTypeDynamicLinker, /// The platform's dynamic linker executable eTypeObjectFile, /// An intermediate object file eTypeSharedLibrary, /// A shared library that can be used during execution eTypeStubLibrary, /// A library that can be linked against but not used for /// execution eTypeJIT, /// JIT code that has symbols, sections and possibly debug info eTypeUnknown } Type; typedef enum { eStrataInvalid = 0, eStrataUnknown, eStrataUser, eStrataKernel, eStrataRawImage, eStrataJIT } Strata; //------------------------------------------------------------------ /// Construct with a parent module, offset, and header data. /// /// Object files belong to modules and a valid module must be /// supplied upon construction. The at an offset within a file for /// objects that contain more than one architecture or object. //------------------------------------------------------------------ ObjectFile(const lldb::ModuleSP &module_sp, const FileSpec *file_spec_ptr, lldb::offset_t file_offset, lldb::offset_t length, const lldb::DataBufferSP &data_sp, lldb::offset_t data_offset); ObjectFile(const lldb::ModuleSP &module_sp, const lldb::ProcessSP &process_sp, lldb::addr_t header_addr, lldb::DataBufferSP &data_sp); //------------------------------------------------------------------ /// Destructor. /// /// The destructor is virtual since this class is designed to be /// inherited from by the plug-in instance. //------------------------------------------------------------------ ~ObjectFile() override; //------------------------------------------------------------------ /// Dump a description of this object to a Stream. /// /// Dump a description of the current contents of this object /// to the supplied stream \a s. The dumping should include the /// section list if it has been parsed, and the symbol table /// if it has been parsed. /// /// @param[in] s /// The stream to which to dump the object description. //------------------------------------------------------------------ virtual void Dump(Stream *s) = 0; //------------------------------------------------------------------ /// Find a ObjectFile plug-in that can parse \a file_spec. /// /// Scans all loaded plug-in interfaces that implement versions of /// the ObjectFile plug-in interface and returns the first /// instance that can parse the file. /// /// @param[in] module /// The parent module that owns this object file. /// /// @param[in] file_spec /// A file specification that indicates which file to use as the /// object file. /// /// @param[in] file_offset /// The offset into the file at which to start parsing the /// object. This is for files that contain multiple /// architectures or objects. /// /// @param[in] file_size /// The size of the current object file if it can be determined /// or if it is known. This can be zero. /// /// @see ObjectFile::ParseHeader() //------------------------------------------------------------------ static lldb::ObjectFileSP FindPlugin(const lldb::ModuleSP &module_sp, const FileSpec *file_spec, lldb::offset_t file_offset, lldb::offset_t file_size, lldb::DataBufferSP &data_sp, lldb::offset_t &data_offset); //------------------------------------------------------------------ /// Find a ObjectFile plug-in that can parse a file in memory. /// /// Scans all loaded plug-in interfaces that implement versions of /// the ObjectFile plug-in interface and returns the first /// instance that can parse the file. /// /// @param[in] module /// The parent module that owns this object file. /// /// @param[in] process_sp /// A shared pointer to the process whose memory space contains /// an object file. This will be stored as a std::weak_ptr. /// /// @param[in] header_addr /// The address of the header for the object file in memory. //------------------------------------------------------------------ static lldb::ObjectFileSP FindPlugin(const lldb::ModuleSP &module_sp, const lldb::ProcessSP &process_sp, lldb::addr_t header_addr, lldb::DataBufferSP &file_data_sp); static size_t GetModuleSpecifications(const FileSpec &file, lldb::offset_t file_offset, lldb::offset_t file_size, ModuleSpecList &specs); static size_t GetModuleSpecifications(const lldb_private::FileSpec &file, lldb::DataBufferSP &data_sp, lldb::offset_t data_offset, lldb::offset_t file_offset, lldb::offset_t file_size, lldb_private::ModuleSpecList &specs); //------------------------------------------------------------------ /// Split a path into a file path with object name. /// /// For paths like "/tmp/foo.a(bar.o)" we often need to split a path /// up into the actual path name and into the object name so we can /// make a valid object file from it. /// /// @param[in] path_with_object /// A path that might contain an archive path with a .o file /// specified in parens in the basename of the path. /// /// @param[out] archive_file /// If \b true is returned, \a file_spec will be filled in with /// the path to the archive. /// /// @param[out] archive_object /// If \b true is returned, \a object will be filled in with /// the name of the object inside the archive. /// /// @return /// \b true if the path matches the pattern of archive + object /// and \a archive_file and \a archive_object are modified, /// \b false otherwise and \a archive_file and \a archive_object /// are guaranteed to be remain unchanged. //------------------------------------------------------------------ static bool SplitArchivePathWithObject( const char *path_with_object, lldb_private::FileSpec &archive_file, lldb_private::ConstString &archive_object, bool must_exist); //------------------------------------------------------------------ /// Gets the address size in bytes for the current object file. /// /// @return /// The size of an address in bytes for the currently selected /// architecture (and object for archives). Returns zero if no /// architecture or object has been selected. //------------------------------------------------------------------ virtual uint32_t GetAddressByteSize() const = 0; //------------------------------------------------------------------ /// Get the address type given a file address in an object file. /// /// Many binary file formats know what kinds /// This is primarily for ARM binaries, though it can be applied to /// any executable file format that supports different opcode types /// within the same binary. ARM binaries support having both ARM and /// Thumb within the same executable container. We need to be able /// to get /// @return /// The size of an address in bytes for the currently selected /// architecture (and object for archives). Returns zero if no /// architecture or object has been selected. //------------------------------------------------------------------ virtual lldb::AddressClass GetAddressClass(lldb::addr_t file_addr); //------------------------------------------------------------------ /// Extract the dependent modules from an object file. /// /// If an object file has information about which other images it /// depends on (such as shared libraries), this function will /// provide the list. Since many executables or shared libraries /// may depend on the same files, /// FileSpecList::AppendIfUnique(const FileSpec &) should be /// used to make sure any files that are added are not already in /// the list. /// /// @param[out] file_list /// A list of file specification objects that gets dependent /// files appended to. /// /// @return /// The number of new files that were appended to \a file_list. /// /// @see FileSpecList::AppendIfUnique(const FileSpec &) //------------------------------------------------------------------ virtual uint32_t GetDependentModules(FileSpecList &file_list) = 0; //------------------------------------------------------------------ /// Tells whether this object file is capable of being the main executable /// for a process. /// /// @return /// \b true if it is, \b false otherwise. //------------------------------------------------------------------ virtual bool IsExecutable() const = 0; //------------------------------------------------------------------ /// Returns the offset into a file at which this object resides. /// /// Some files contain many object files, and this function allows /// access to an object's offset within the file. /// /// @return /// The offset in bytes into the file. Defaults to zero for /// simple object files that a represented by an entire file. //------------------------------------------------------------------ virtual lldb::addr_t GetFileOffset() const { return m_file_offset; } virtual lldb::addr_t GetByteSize() const { return m_length; } //------------------------------------------------------------------ /// Get accessor to the object file specification. /// /// @return /// The file specification object pointer if there is one, or /// NULL if this object is only from memory. //------------------------------------------------------------------ virtual FileSpec &GetFileSpec() { return m_file; } //------------------------------------------------------------------ /// Get const accessor to the object file specification. /// /// @return /// The const file specification object pointer if there is one, /// or NULL if this object is only from memory. //------------------------------------------------------------------ virtual const FileSpec &GetFileSpec() const { return m_file; } //------------------------------------------------------------------ /// Get the name of the cpu, vendor and OS for this object file. /// /// This value is a string that represents the target triple where /// the cpu type, the vendor and the OS are encoded into a string. /// /// @param[out] target_triple /// The string value of the target triple. /// /// @return /// \b True if the target triple was able to be computed, \b /// false otherwise. //------------------------------------------------------------------ virtual bool GetArchitecture(ArchSpec &arch) = 0; //------------------------------------------------------------------ /// Gets the section list for the currently selected architecture /// (and object for archives). /// /// Section list parsing can be deferred by ObjectFile instances /// until this accessor is called the first time. /// /// @return /// The list of sections contained in this object file. //------------------------------------------------------------------ virtual SectionList *GetSectionList(bool update_module_section_list = true); virtual void CreateSections(SectionList &unified_section_list) = 0; //------------------------------------------------------------------ /// Notify the ObjectFile that the file addresses in the Sections /// for this module have been changed. //------------------------------------------------------------------ virtual void SectionFileAddressesChanged() {} //------------------------------------------------------------------ /// Gets the symbol table for the currently selected architecture /// (and object for archives). /// /// Symbol table parsing can be deferred by ObjectFile instances /// until this accessor is called the first time. /// /// @return /// The symbol table for this object file. //------------------------------------------------------------------ virtual Symtab *GetSymtab() = 0; //------------------------------------------------------------------ /// Appends a Symbol for the specified so_addr to the symbol table. /// /// If verify_unique is false, the symbol table is not searched /// to determine if a Symbol found at this address has already been /// added to the symbol table. When verify_unique is true, this /// method resolves the Symbol as the first match in the SymbolTable /// and appends a Symbol only if required/found. /// /// @return /// The resolved symbol or nullptr. Returns nullptr if a /// a Symbol could not be found for the specified so_addr. //------------------------------------------------------------------ virtual Symbol *ResolveSymbolForAddress(const Address &so_addr, bool verify_unique) { // Typically overridden to lazily add stripped symbols recoverable from // the exception handling unwind information (i.e. without parsing // the entire eh_frame section. // // The availability of LC_FUNCTION_STARTS allows ObjectFileMachO // to efficiently add stripped symbols when the symbol table is // first constructed. Poorer cousins are PECoff and ELF. return nullptr; } //------------------------------------------------------------------ /// Detect if this object file has been stripped of local symbols. //------------------------------------------------------------------ /// Detect if this object file has been stripped of local symbols. /// /// @return /// Return \b true if the object file has been stripped of local /// symbols. //------------------------------------------------------------------ virtual bool IsStripped() = 0; //------------------------------------------------------------------ /// Frees the symbol table. /// /// This function should only be used when an object file is /// /// @param[in] flags /// eSymtabFromUnifiedSectionList: Whether to clear symbol table /// for unified module section list, or object file. /// /// @return /// The symbol table for this object file. //------------------------------------------------------------------ virtual void ClearSymtab(); //------------------------------------------------------------------ /// Gets the UUID for this object file. /// /// If the object file format contains a UUID, the value should be /// returned. Else ObjectFile instances should return the MD5 /// checksum of all of the bytes for the object file (or memory for /// memory based object files). /// /// @return /// Returns \b true if a UUID was successfully extracted into /// \a uuid, \b false otherwise. //------------------------------------------------------------------ virtual bool GetUUID(lldb_private::UUID *uuid) = 0; //------------------------------------------------------------------ /// Gets the symbol file spec list for this object file. /// /// If the object file format contains a debug symbol file link, /// the values will be returned in the FileSpecList. /// /// @return /// Returns filespeclist. //------------------------------------------------------------------ virtual lldb_private::FileSpecList GetDebugSymbolFilePaths() { return FileSpecList(); } //------------------------------------------------------------------ /// Gets the file spec list of libraries re-exported by this object file. /// /// If the object file format has the notion of one library re-exporting the /// symbols from another, /// the re-exported libraries will be returned in the FileSpecList. /// /// @return /// Returns filespeclist. //------------------------------------------------------------------ virtual lldb_private::FileSpecList GetReExportedLibraries() { return FileSpecList(); } //------------------------------------------------------------------ /// Sets the load address for an entire module, assuming a rigid /// slide of sections, if possible in the implementation. /// /// @return /// Returns true iff any section's load address changed. //------------------------------------------------------------------ virtual bool SetLoadAddress(Target &target, lldb::addr_t value, bool value_is_offset) { return false; } //------------------------------------------------------------------ /// Gets whether endian swapping should occur when extracting data /// from this object file. /// /// @return /// Returns \b true if endian swapping is needed, \b false /// otherwise. //------------------------------------------------------------------ virtual lldb::ByteOrder GetByteOrder() const = 0; //------------------------------------------------------------------ /// Attempts to parse the object header. /// /// This function is used as a test to see if a given plug-in /// instance can parse the header data already contained in /// ObjectFile::m_data. If an object file parser does not /// recognize that magic bytes in a header, false should be returned /// and the next plug-in can attempt to parse an object file. /// /// @return /// Returns \b true if the header was parsed successfully, \b /// false otherwise. //------------------------------------------------------------------ virtual bool ParseHeader() = 0; //------------------------------------------------------------------ /// Returns a reference to the UnwindTable for this ObjectFile /// /// The UnwindTable contains FuncUnwinders objects for any function in /// this ObjectFile. If a FuncUnwinders object hasn't been created yet /// (i.e. the function has yet to be unwound in a stack walk), it /// will be created when requested. Specifically, we do not create /// FuncUnwinders objects for functions until they are needed. /// /// @return /// Returns the unwind table for this object file. //------------------------------------------------------------------ virtual lldb_private::UnwindTable &GetUnwindTable() { return m_unwind_table; } //------------------------------------------------------------------ /// Returns if the function bounds for symbols in this symbol file /// are likely accurate. /// /// The unwinder can emulate the instructions of functions to understand /// prologue/epilogue code sequences, where registers are spilled on /// the stack, etc. This feature relies on having the correct start /// addresses of all functions. If the ObjectFile has a way to tell /// that symbols have been stripped and there's no way to reconstruct /// start addresses (e.g. LC_FUNCTION_STARTS on Mach-O, or eh_frame /// unwind info), the ObjectFile should indicate that assembly emulation /// should not be used for this module. /// /// It is uncommon for this to return false. An ObjectFile needs to /// be sure that symbol start addresses are unavailable before false /// is returned. If it is unclear, this should return true. /// /// @return /// Returns true if assembly emulation should be used for this /// module. /// Only returns false if the ObjectFile is sure that symbol /// addresses are insufficient for accurate assembly emulation. //------------------------------------------------------------------ virtual bool AllowAssemblyEmulationUnwindPlans() { return true; } //------------------------------------------------------------------ /// Similar to Process::GetImageInfoAddress(). /// /// Some platforms embed auxiliary structures useful to debuggers in the /// address space of the inferior process. This method returns the address /// of such a structure if the information can be resolved via entries in /// the object file. ELF, for example, provides a means to hook into the /// runtime linker so that a debugger may monitor the loading and unloading /// of shared libraries. /// /// @return /// The address of any auxiliary tables, or an invalid address if this /// object file format does not support or contain such information. virtual lldb_private::Address GetImageInfoAddress(Target *target) { return Address(); } //------------------------------------------------------------------ /// Returns the address of the Entry Point in this object file - if /// the object file doesn't have an entry point (because it is not an /// executable file) then an invalid address is returned. /// /// @return /// Returns the entry address for this module. //------------------------------------------------------------------ virtual lldb_private::Address GetEntryPointAddress() { return Address(); } //------------------------------------------------------------------ /// Returns the address that represents the header of this object /// file. /// /// The header address is defined as where the header for the object /// file is that describes the content of the file. If the header /// doesn't appear in a section that is defined in the object file, /// an address with no section is returned that has the file offset /// set in the m_file_offset member of the lldb_private::Address object. /// /// @return /// Returns the entry address for this module. //------------------------------------------------------------------ virtual lldb_private::Address GetHeaderAddress() { return Address(m_memory_addr); } virtual uint32_t GetNumThreadContexts() { return 0; } //------------------------------------------------------------------ /// Some object files may have an identifier string embedded in them, /// e.g. in a Mach-O core file using the LC_IDENT load command (which /// is obsolete, but can still be found in some old files) /// /// @return /// Returns the identifier string if one exists, else an empty /// string. //------------------------------------------------------------------ virtual std::string GetIdentifierString () { return std::string(); } //------------------------------------------------------------------ /// When the ObjectFile is a core file, lldb needs to locate the /// "binary" in the core file. lldb can iterate over the pages looking /// for a valid binary, but some core files may have metadata /// describing where the main binary is exactly which removes ambiguity /// when there are multiple binaries present in the captured memory pages. /// /// @param[out] address /// If the address of the binary is specified, this will be set. /// This is an address is the virtual address space of the core file /// memory segments; it is not an offset into the object file. /// If no address is available, will be set to LLDB_INVALID_ADDRESS. /// /// @param[out] uuid /// If the uuid of the binary is specified, this will be set. /// If no UUID is available, will be cleared. /// /// @return /// Returns true if either address or uuid has been set. //------------------------------------------------------------------ virtual bool GetCorefileMainBinaryInfo (lldb::addr_t &address, UUID &uuid) { address = LLDB_INVALID_ADDRESS; uuid.Clear(); return false; } virtual lldb::RegisterContextSP GetThreadContextAtIndex(uint32_t idx, lldb_private::Thread &thread) { return lldb::RegisterContextSP(); } //------------------------------------------------------------------ /// The object file should be able to calculate its type by looking /// at its file header and possibly the sections or other data in /// the object file. The file type is used in the debugger to help /// select the correct plug-ins for the job at hand, so this is /// important to get right. If any eTypeXXX definitions do not match /// up with the type of file you are loading, please feel free to /// add a new enumeration value. /// /// @return /// The calculated file type for the current object file. //------------------------------------------------------------------ virtual Type CalculateType() = 0; //------------------------------------------------------------------ /// In cases where the type can't be calculated (elf files), this /// routine allows someone to explicitly set it. As an example, /// SymbolVendorELF uses this routine to set eTypeDebugInfo when /// loading debug link files. virtual void SetType(Type type) { m_type = type; } //------------------------------------------------------------------ /// The object file should be able to calculate the strata of the /// object file. /// /// Many object files for platforms might be for either user space /// debugging or for kernel debugging. If your object file subclass /// can figure this out, it will help with debugger plug-in selection /// when it comes time to debug. /// /// @return /// The calculated object file strata for the current object /// file. //------------------------------------------------------------------ virtual Strata CalculateStrata() = 0; //------------------------------------------------------------------ /// Get the object file version numbers. /// /// Many object files have a set of version numbers that describe /// the version of the executable or shared library. Typically there /// are major, minor and build, but there may be more. This function /// will extract the versions from object files if they are available. /// /// If \a versions is NULL, or if \a num_versions is 0, the return /// value will indicate how many version numbers are available in /// this object file. Then a subsequent call can be made to this /// function with a value of \a versions and \a num_versions that /// has enough storage to store some or all version numbers. /// /// @param[out] versions /// A pointer to an array of uint32_t types that is \a num_versions /// long. If this value is NULL, the return value will indicate /// how many version numbers are required for a subsequent call /// to this function so that all versions can be retrieved. If /// the value is non-NULL, then at most \a num_versions of the /// existing versions numbers will be filled into \a versions. /// If there is no version information available, \a versions /// will be filled with \a num_versions UINT32_MAX values /// and zero will be returned. /// /// @param[in] num_versions /// The maximum number of entries to fill into \a versions. If /// this value is zero, then the return value will indicate /// how many version numbers there are in total so another call /// to this function can be make with adequate storage in /// \a versions to get all of the version numbers. If \a /// num_versions is less than the actual number of version /// numbers in this object file, only \a num_versions will be /// filled into \a versions (if \a versions is non-NULL). /// /// @return /// This function always returns the number of version numbers /// that this object file has regardless of the number of /// version numbers that were copied into \a versions. //------------------------------------------------------------------ virtual uint32_t GetVersion(uint32_t *versions, uint32_t num_versions) { if (versions && num_versions) { for (uint32_t i = 0; i < num_versions; ++i) versions[i] = UINT32_MAX; } return 0; } //------------------------------------------------------------------ /// Get the minimum OS version this object file can run on. /// /// Some object files have information that specifies the minimum OS /// version that they can be used on. /// /// If \a versions is NULL, or if \a num_versions is 0, the return /// value will indicate how many version numbers are available in /// this object file. Then a subsequent call can be made to this /// function with a value of \a versions and \a num_versions that /// has enough storage to store some or all version numbers. /// /// @param[out] versions /// A pointer to an array of uint32_t types that is \a num_versions /// long. If this value is NULL, the return value will indicate /// how many version numbers are required for a subsequent call /// to this function so that all versions can be retrieved. If /// the value is non-NULL, then at most \a num_versions of the /// existing versions numbers will be filled into \a versions. /// If there is no version information available, \a versions /// will be filled with \a num_versions UINT32_MAX values /// and zero will be returned. /// /// @param[in] num_versions /// The maximum number of entries to fill into \a versions. If /// this value is zero, then the return value will indicate /// how many version numbers there are in total so another call /// to this function can be make with adequate storage in /// \a versions to get all of the version numbers. If \a /// num_versions is less than the actual number of version /// numbers in this object file, only \a num_versions will be /// filled into \a versions (if \a versions is non-NULL). /// /// @return /// This function always returns the number of version numbers /// that this object file has regardless of the number of /// version numbers that were copied into \a versions. //------------------------------------------------------------------ virtual uint32_t GetMinimumOSVersion(uint32_t *versions, uint32_t num_versions) { if (versions && num_versions) { for (uint32_t i = 0; i < num_versions; ++i) versions[i] = UINT32_MAX; } return 0; } //------------------------------------------------------------------ /// Get the SDK OS version this object file was built with. /// /// The versions arguments and returns values are the same as the /// GetMinimumOSVersion() //------------------------------------------------------------------ virtual uint32_t GetSDKVersion(uint32_t *versions, uint32_t num_versions) { if (versions && num_versions) { for (uint32_t i = 0; i < num_versions; ++i) versions[i] = UINT32_MAX; } return 0; } //------------------------------------------------------------------ /// Return true if this file is a dynamic link editor (dyld) /// /// Often times dyld has symbols that mirror symbols in libc and /// other shared libraries (like "malloc" and "free") and the user /// does _not_ want to stop in these shared libraries by default. /// We can ask the ObjectFile if it is such a file and should be /// avoided for things like settings breakpoints and doing function /// lookups for expressions. //------------------------------------------------------------------ virtual bool GetIsDynamicLinkEditor() { return false; } //------------------------------------------------------------------ // Member Functions //------------------------------------------------------------------ Type GetType() { if (m_type == eTypeInvalid) m_type = CalculateType(); return m_type; } Strata GetStrata() { if (m_strata == eStrataInvalid) m_strata = CalculateStrata(); return m_strata; } // When an object file is in memory, subclasses should try and lock // the process weak pointer. If the process weak pointer produces a // valid ProcessSP, then subclasses can call this function to read // memory. static lldb::DataBufferSP ReadMemory(const lldb::ProcessSP &process_sp, lldb::addr_t addr, size_t byte_size); size_t GetData(lldb::offset_t offset, size_t length, DataExtractor &data) const; size_t CopyData(lldb::offset_t offset, size_t length, void *dst) const; virtual size_t ReadSectionData(const Section *section, lldb::offset_t section_offset, void *dst, size_t dst_len) const; virtual size_t ReadSectionData(const Section *section, DataExtractor §ion_data) const; size_t MemoryMapSectionData(const Section *section, DataExtractor §ion_data) const; bool IsInMemory() const { return m_memory_addr != LLDB_INVALID_ADDRESS; } // Strip linker annotations (such as @@VERSION) from symbol names. virtual llvm::StringRef StripLinkerSymbolAnnotations(llvm::StringRef symbol_name) const { return symbol_name; } static lldb::SymbolType GetSymbolTypeFromName( llvm::StringRef name, lldb::SymbolType symbol_type_hint = lldb::eSymbolTypeUndefined); //------------------------------------------------------------------ /// Loads this objfile to memory. /// /// Loads the bits needed to create an executable image to the memory. /// It is useful with bare-metal targets where target does not have the /// ability to start a process itself. /// /// @param[in] target /// Target where to load. /// /// @return //------------------------------------------------------------------ virtual Status LoadInMemory(Target &target, bool set_pc); protected: //------------------------------------------------------------------ // Member variables. //------------------------------------------------------------------ FileSpec m_file; Type m_type; Strata m_strata; lldb::addr_t m_file_offset; ///< The offset in bytes into the file, or the ///address in memory lldb::addr_t m_length; ///< The length of this object file if it is known (can ///be zero if length is unknown or can't be ///determined). DataExtractor m_data; ///< The data for this object file so things can be parsed lazily. lldb_private::UnwindTable m_unwind_table; /// < Table of FuncUnwinders objects /// created for this ObjectFile's /// functions lldb::ProcessWP m_process_wp; const lldb::addr_t m_memory_addr; std::unique_ptr m_sections_ap; std::unique_ptr m_symtab_ap; uint32_t m_synthetic_symbol_idx; //------------------------------------------------------------------ /// Sets the architecture for a module. At present the architecture /// can only be set if it is invalid. It is not allowed to switch from /// one concrete architecture to another. /// /// @param[in] new_arch /// The architecture this module will be set to. /// /// @return /// Returns \b true if the architecture was changed, \b /// false otherwise. //------------------------------------------------------------------ bool SetModulesArchitecture(const ArchSpec &new_arch); ConstString GetNextSyntheticSymbolName(); private: DISALLOW_COPY_AND_ASSIGN(ObjectFile); }; } // namespace lldb_private #endif // liblldb_ObjectFile_h_