// Copyright 2014 Renato Tegon Forti, Antony Polukhin. // Copyright 2015-2019 Antony Polukhin. // // Distributed under the Boost Software License, Version 1.0. // (See accompanying file LICENSE_1_0.txt // or copy at http://www.boost.org/LICENSE_1_0.txt) #ifndef BOOST_DLL_SHARED_LIBRARY_HPP #define BOOST_DLL_SHARED_LIBRARY_HPP /// \file boost/dll/shared_library.hpp /// \brief Contains the boost::dll::shared_library class, core class for all the /// DLL/DSO operations. #include #include #include #include #include #include #include #if BOOST_OS_WINDOWS # include #else # include #endif #ifdef BOOST_HAS_PRAGMA_ONCE # pragma once #endif namespace boost { namespace dll { /*! * \brief This class can be used to load a * Dynamic link libraries (DLL's) or Shared Libraries, also know * as dynamic shared objects (DSO's) and get their exported * symbols (functions and variables). * * shared_library instances share reference count to an actual loaded DLL/DSO, so it * is safe and memory efficient to have multiple instances of shared_library referencing the same DLL/DSO * even if those instances were loaded using different paths (relative + absolute) referencing the same object. * * On Linux/POSIX link with library "dl". "-fvisibility=hidden" flag is also recommended for use on Linux/POSIX. */ class shared_library /// @cond : private boost::dll::detail::shared_library_impl /// @endcond { typedef boost::dll::detail::shared_library_impl base_t; BOOST_COPYABLE_AND_MOVABLE(shared_library) public: #ifdef BOOST_DLL_DOXYGEN typedef platform_specific native_handle_t; #else typedef shared_library_impl::native_handle_t native_handle_t; #endif /*! * Creates in anstance that does not reference any DLL/DSO. * * \post this->is_loaded() returns false. * \throw Nothing. */ shared_library() BOOST_NOEXCEPT {} /*! * Copy constructor that increments the reference count of an underlying shared library. * Same as calling constructor with `lib.location()` parameter. * * \param lib A library to copy. * \post lib == *this * \throw \forcedlinkfs{system_error}, std::bad_alloc in case of insufficient memory. */ shared_library(const shared_library& lib) : base_t() { assign(lib); } /*! * Copy constructor that increments the reference count of an underlying shared library. * Same as calling constructor with `lib.location(), ec` parameters. * * \param lib A shared library to copy. * \param ec Variable that will be set to the result of the operation. * \post lib == *this * \throw std::bad_alloc in case of insufficient memory. */ shared_library(const shared_library& lib, boost::dll::fs::error_code& ec) : base_t() { assign(lib, ec); } /*! * Move constructor. Does not invalidate existing symbols and functions loaded from lib. * * \param lib A shared library to move from. * \post lib.is_loaded() returns false, this->is_loaded() return true. * \throw Nothing. */ shared_library(BOOST_RV_REF(shared_library) lib) BOOST_NOEXCEPT : base_t(boost::move(static_cast(lib))) {} /*! * Loads a library by specified path with a specified mode. * * \param lib_path Library file name. Can handle std::string, const char*, std::wstring, * const wchar_t* or \forcedlinkfs{path}. * \param mode A mode that will be used on library load. * \throw \forcedlinkfs{system_error}, std::bad_alloc in case of insufficient memory. */ explicit shared_library(const boost::dll::fs::path& lib_path, load_mode::type mode = load_mode::default_mode) { shared_library::load(lib_path, mode); } /*! * Loads a library by specified path with a specified mode. * * \param lib_path Library file name. Can handle std::string, const char*, std::wstring, * const wchar_t* or \forcedlinkfs{path}. * \param mode A mode that will be used on library load. * \param ec Variable that will be set to the result of the operation. * \throw std::bad_alloc in case of insufficient memory. */ shared_library(const boost::dll::fs::path& lib_path, boost::dll::fs::error_code& ec, load_mode::type mode = load_mode::default_mode) { shared_library::load(lib_path, mode, ec); } //! \overload shared_library(const boost::dll::fs::path& lib_path, boost::dll::fs::error_code& ec, load_mode::type mode = load_mode::default_mode) shared_library(const boost::dll::fs::path& lib_path, load_mode::type mode, boost::dll::fs::error_code& ec) { shared_library::load(lib_path, mode, ec); } /*! * Assignment operator. If this->is_loaded() then calls this->unload(). Does not invalidate existing symbols and functions loaded from lib. * * \param lib A shared library to assign from. * \post lib == *this * \throw \forcedlinkfs{system_error}, std::bad_alloc in case of insufficient memory. */ shared_library& operator=(BOOST_COPY_ASSIGN_REF(shared_library) lib) { boost::dll::fs::error_code ec; assign(lib, ec); if (ec) { boost::dll::detail::report_error(ec, "boost::dll::shared_library::operator= failed"); } return *this; } /*! * Move assignment operator. If this->is_loaded() then calls this->unload(). Does not invalidate existing symbols and functions loaded from lib. * * \param lib A library to move from. * \post lib.is_loaded() returns false. * \throw Nothing. */ shared_library& operator=(BOOST_RV_REF(shared_library) lib) BOOST_NOEXCEPT { if (lib.native() != native()) { swap(lib); } return *this; } /*! * Destroys the object by calling `unload()`. If library was loaded multiple times * by different instances, the actual DLL/DSO won't be unloaded until * there is at least one instance that references the DLL/DSO. * * \throw Nothing. */ ~shared_library() BOOST_NOEXCEPT {} /*! * Makes *this share the same shared object as lib. If *this is loaded, then unloads it. * * \post lib.location() == this->location(), lib == *this * \param lib A library to copy. * \param ec Variable that will be set to the result of the operation. * \throw std::bad_alloc in case of insufficient memory. */ shared_library& assign(const shared_library& lib, boost::dll::fs::error_code& ec) { ec.clear(); if (native() == lib.native()) { return *this; } if (!lib) { unload(); return *this; } boost::dll::fs::path loc = lib.location(ec); if (ec) { return *this; } shared_library copy(loc, ec); if (ec) { return *this; } swap(copy); return *this; } /*! * Makes *this share the same shared object as lib. If *this is loaded, then unloads it. * * \param lib A library instance to assign from. * \post lib.location() == this->location() * \throw \forcedlinkfs{system_error}, std::bad_alloc in case of insufficient memory. */ shared_library& assign(const shared_library& lib) { boost::dll::fs::error_code ec; assign(lib, ec); if (ec) { boost::dll::detail::report_error(ec, "boost::dll::shared_library::assign() failed"); } return *this; } /*! * Loads a library by specified path with a specified mode. * * Note that if some library is already loaded in this instance, load will * call unload() and then load the new provided library. * * \param lib_path Library file name. Can handle std::string, const char*, std::wstring, * const wchar_t* or \forcedlinkfs{path}. * \param mode A mode that will be used on library load. * \throw \forcedlinkfs{system_error}, std::bad_alloc in case of insufficient memory. * */ void load(const boost::dll::fs::path& lib_path, load_mode::type mode = load_mode::default_mode) { boost::dll::fs::error_code ec; base_t::load(lib_path, mode, ec); if (ec) { boost::dll::detail::report_error(ec, "boost::dll::shared_library::load() failed"); } } /*! * Loads a library by specified path with a specified mode. * * Note that if some library is already loaded in this instance, load will * call unload() and then load the new provided library. * * \param lib_path Library file name. Can handle std::string, const char*, std::wstring, * const wchar_t* or \forcedlinkfs{path}. * \param ec Variable that will be set to the result of the operation. * \param mode A mode that will be used on library load. * \throw std::bad_alloc in case of insufficient memory. */ void load(const boost::dll::fs::path& lib_path, boost::dll::fs::error_code& ec, load_mode::type mode = load_mode::default_mode) { ec.clear(); base_t::load(lib_path, mode, ec); } //! \overload void load(const boost::dll::fs::path& lib_path, boost::dll::fs::error_code& ec, load_mode::type mode = load_mode::default_mode) void load(const boost::dll::fs::path& lib_path, load_mode::type mode, boost::dll::fs::error_code& ec) { ec.clear(); base_t::load(lib_path, mode, ec); } /*! * Unloads a shared library. If library was loaded multiple times * by different instances, the actual DLL/DSO won't be unloaded until * there is at least one instance that references the DLL/DSO. * * \post this->is_loaded() returns false. * \throw Nothing. */ void unload() BOOST_NOEXCEPT { base_t::unload(); } /*! * Check if an library is loaded. * * \return true if a library has been loaded. * \throw Nothing. */ bool is_loaded() const BOOST_NOEXCEPT { return base_t::is_loaded(); } /*! * Check if an library is not loaded. * * \return true if a library has not been loaded. * \throw Nothing. */ bool operator!() const BOOST_NOEXCEPT { return !is_loaded(); } /*! * Check if an library is loaded. * * \return true if a library has been loaded. * \throw Nothing. */ BOOST_EXPLICIT_OPERATOR_BOOL() /*! * Search for a given symbol on loaded library. Works for all symbols, including alias names. * * \param symbol_name Null-terminated symbol name. Can handle std::string, char*, const char*. * \return `true` if the loaded library contains a symbol with a given name. * \throw Nothing. */ bool has(const char* symbol_name) const BOOST_NOEXCEPT { boost::dll::fs::error_code ec; return is_loaded() && !!base_t::symbol_addr(symbol_name, ec) && !ec; } //! \overload bool has(const char* symbol_name) const bool has(const std::string& symbol_name) const BOOST_NOEXCEPT { return has(symbol_name.c_str()); } /*! * Returns reference to the symbol (function or variable) with the given name from the loaded library. * This call will always succeed and throw nothing if call to `has(const char* )` * member function with the same symbol name returned `true`. * * \b Example: * \code * int& i0 = lib.get("integer_name"); * int& i1 = *lib.get("integer_alias_name"); * \endcode * * \tparam T Type of the symbol that we are going to import. Must be explicitly specified. * \param symbol_name Null-terminated symbol name. Can handle std::string, char*, const char*. * \return Reference to the symbol. * \throw \forcedlinkfs{system_error} if symbol does not exist or if the DLL/DSO was not loaded. */ template inline typename boost::enable_if_c::value || boost::is_reference::value, T>::type get(const std::string& symbol_name) const { return get(symbol_name.c_str()); } //! \overload T& get(const std::string& symbol_name) const template inline typename boost::disable_if_c::value || boost::is_reference::value, T&>::type get(const std::string& symbol_name) const { return get(symbol_name.c_str()); } //! \overload T& get(const std::string& symbol_name) const template inline typename boost::enable_if_c::value || boost::is_reference::value, T>::type get(const char* symbol_name) const { return boost::dll::detail::aggressive_ptr_cast( get_void(symbol_name) ); } //! \overload T& get(const std::string& symbol_name) const template inline typename boost::disable_if_c::value || boost::is_reference::value, T&>::type get(const char* symbol_name) const { return *boost::dll::detail::aggressive_ptr_cast( get_void(symbol_name) ); } /*! * Returns a symbol (function or variable) from a shared library by alias name of the symbol. * * \b Example: * \code * int& i = lib.get_alias("integer_alias_name"); * \endcode * * \tparam T Type of the symbol that we are going to import. Must be explicitly specified.. * \param alias_name Null-terminated alias symbol name. Can handle std::string, char*, const char*. * \throw \forcedlinkfs{system_error} if symbol does not exist or if the DLL/DSO was not loaded. */ template inline T& get_alias(const char* alias_name) const { return *get(alias_name); } //! \overload T& get_alias(const char* alias_name) const template inline T& get_alias(const std::string& alias_name) const { return *get(alias_name.c_str()); } private: /// @cond // get_void is required to reduce binary size: it does not depend on a template // parameter and will be instantiated only once. void* get_void(const char* sb) const { boost::dll::fs::error_code ec; if (!is_loaded()) { ec = boost::dll::fs::make_error_code( boost::dll::fs::errc::bad_file_descriptor ); // report_error() calls dlsym, do not use it here! boost::throw_exception( boost::dll::fs::system_error( ec, "boost::dll::shared_library::get() failed: no library was loaded" ) ); } void* const ret = base_t::symbol_addr(sb, ec); if (ec || !ret) { boost::dll::detail::report_error(ec, "boost::dll::shared_library::get() failed"); } return ret; } /// @endcond public: /*! * Returns the native handler of the loaded library. * * \return Platform-specific handle. */ native_handle_t native() const BOOST_NOEXCEPT { return base_t::native(); } /*! * Returns full path and name of this shared object. * * \b Example: * \code * shared_library lib("test_lib.dll"); * filesystem::path full_path = lib.location(); // C:\Windows\System32\test_lib.dll * \endcode * * \return Full path to the shared library. * \throw \forcedlinkfs{system_error}, std::bad_alloc. */ boost::dll::fs::path location() const { boost::dll::fs::error_code ec; if (!is_loaded()) { ec = boost::dll::fs::make_error_code( boost::dll::fs::errc::bad_file_descriptor ); boost::throw_exception( boost::dll::fs::system_error( ec, "boost::dll::shared_library::location() failed (no library was loaded)" ) ); } boost::dll::fs::path full_path = base_t::full_module_path(ec); if (ec) { boost::dll::detail::report_error(ec, "boost::dll::shared_library::location() failed"); } return full_path; } /*! * Returns full path and name of shared module. * * \b Example: * \code * shared_library lib("test_lib.dll"); * filesystem::path full_path = lib.location(); // C:\Windows\System32\test_lib.dll * \endcode * * \param ec Variable that will be set to the result of the operation. * \return Full path to the shared library. * \throw std::bad_alloc. */ boost::dll::fs::path location(boost::dll::fs::error_code& ec) const { if (!is_loaded()) { ec = boost::dll::fs::make_error_code( boost::dll::fs::errc::bad_file_descriptor ); return boost::dll::fs::path(); } ec.clear(); return base_t::full_module_path(ec); } /*! * Returns suffix of shared module: * in a call to load() or the constructor/load. * * \return The suffix od shared module: ".dll" (Windows), ".so" (Unix/Linux/BSD), ".dylib" (MacOS/IOS) */ static boost::dll::fs::path suffix() { return base_t::suffix(); } /*! * Returns the decorated path to a shared module name, i.e. with needed prefix/suffix added. * * \b Recommendations: Use `load` with `load_mode::append_decorations` instead of constructing the decorated path via `decorate()` and loading by it. * * For instance, for a path like "path/to/boost" it returns : * - path/to/libboost.so on posix platforms * - path/to/libboost.dylib on OSX * - path/to/boost.dll on Windows * * Method handles both relative and absolute paths. * * - Windows note: `decorate()` does not prepend "lib" to the decorated path. Use `load` with `load_mode::append_decorations` for MinGW compatibility purpose. * - Posix note: if the initial module name is already prepended with lib, only the suffix() is appended to the path * * \param sl the module name and path to decorate - for instance : /usr/lib/boost * * \return The decorated unportable path that may not exists in the filesystem or could be wrong due to platform specifics. */ static boost::dll::fs::path decorate(const boost::dll::fs::path& sl) { return base_t::decorate(sl); } /*! * Swaps two libraries. Does not invalidate existing symbols and functions loaded from libraries. * * \param rhs Library to swap with. * \throw Nothing. */ void swap(shared_library& rhs) BOOST_NOEXCEPT { base_t::swap(rhs); } }; /// Very fast equality check that compares the actual DLL/DSO objects. Throws nothing. inline bool operator==(const shared_library& lhs, const shared_library& rhs) BOOST_NOEXCEPT { return lhs.native() == rhs.native(); } /// Very fast inequality check that compares the actual DLL/DSO objects. Throws nothing. inline bool operator!=(const shared_library& lhs, const shared_library& rhs) BOOST_NOEXCEPT { return lhs.native() != rhs.native(); } /// Compare the actual DLL/DSO objects without any guarantee to be stable between runs. Throws nothing. inline bool operator<(const shared_library& lhs, const shared_library& rhs) BOOST_NOEXCEPT { return lhs.native() < rhs.native(); } /// Swaps two shared libraries. Does not invalidate symbols and functions loaded from libraries. Throws nothing. inline void swap(shared_library& lhs, shared_library& rhs) BOOST_NOEXCEPT { lhs.swap(rhs); } }} // boost::dll #endif // BOOST_DLL_SHARED_LIBRARY_HPP